##gff-version 3
sequence01	Aragorn:1.2.38	tRNA	608	692	.	-	.	ID=Aragorn_1;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence01	Aragorn:1.2.38	tRNA	706	781	.	-	.	ID=Aragorn_2;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence01	Aragorn:1.2.38	tRNA	786	861	.	-	.	ID=Aragorn_3;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence01	MetaGeneAnnotator	CDS	922	1101	.	-	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLFEFYDEMVILPDDWEKIKELLTEEFEELDFDELETTEELLDFLDENHIDYEIIER;locus_tag=LOCUS_00010;note=MGA_2
sequence01	MetaGeneAnnotator	CDS	1196	2431	.	-	0	ID=MGA_3;product=8-amino-7-oxononanoate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001077285.1;translation=MKNLYLQGVEKTDNKHILIRGIKYLDFTSGNFLGLKSHEKLKDAAKKAIDLYGIDSEVVPVNSKAIDIYLEVKTEITKLKKQEDTILYNSGYNINAGVIPTIFDEKDIIFSDSENFIELYQGIYKSGAHLIRYKHNNIEDLKNKIKKNRDKFKKAGVITDTIFNTDGQKAKLKEIVKLKEEFDFIFIVDESNADGIYGGDLGGVVLEQKVEDEVDIIVGSFSKNLGVLGEYVSGKVDYINLLMKNSLNKNIFYKSVMTPIFINSLKTALDIIKDEEERREKVLKYSEKIREELMRMEFNIAHSASHIIPIVFNTNEEAILLSKFLYKNGILVSTSIAKNTIKPRIKIYISTLLEDEDIEILLKNLKEFKEKNEIKKEVIETPKENLESLVKTPENEEVIDEDLLENLTIED;locus_tag=LOCUS_00020;gene=bioF;EC_number=2.3.1.47;note=WP_001077285.1 8-amino-7-oxononanoate synthase (Bacillus cereus) [pid:34.0%25%2C q_cov:79.1%25%2C s_cov:81.8%25%2C Eval:2.5e-48],MGA_3
sequence01	MetaGeneAnnotator	CDS	2444	3382	.	-	0	ID=MGA_4;product=D-2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966228.1;translation=MKLVFLDAISLGNDIDLSIFNKFGEFKYYKTTSKEELFDRIKDVEVIITNKIYFGKEELKQAKKLKLIAITATGYNNVDLEEARKRNIKVCNVKGYSTNSVAQLTLTYILALATNICKYDKSVKEGEWSQSPIFTLLKYPMFDITDKTLGIIGYGEIGKKVEELAKNIGMKVLIAKRPGVNYEDDFRTEFKELIKNSDFITLHCPLSKDTKHLISYKEFDMMKSTSFLINIARGPVVDELALYKALKEKKIAGAAIDVMDSEPPKKENPLLKLDNILITPHIAWASIESRIKLINGVVKNIEDFINNKLINL;locus_tag=LOCUS_00030;note=WP_010966228.1 D-2-hydroxyacid dehydrogenase (Clostridium) [pid:39.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.9e-64],MGA_4
sequence01	MetaGeneAnnotator	CDS	3486	4181	.	-	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFIDIDGVLWNTEKAIVELYNKKYGYNADWRDVKDWNFSPAIPAGTPDNVINDLFESDEVYSGNNTYEGAVEYIKKLNEEFEEVYFCTVGKNINNSKKLEMLKRLIPEVKVITISFPYKVLSDKSMINMQGAIFIDDHSSNLNSSNAKYKILFEPNDIKNWNKKWEGIRLKTWKDVYNFIKTVKSIEYIINEKFIKLLSLKEKKCEIDLISEEIKKDIVKYIKSSINCK;locus_tag=LOCUS_00040;note=MGA_5
sequence01	MetaGeneAnnotator	CDS	4328	5539	.	-	0	ID=MGA_6;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392817.1;translation=MSIIVQKYGGTSVGDIEKIKNIAKKVVKTKRQGNKMVIVVSAMGKTTNQLVNMAHEITENPSEREMDVLLSTGEQITIALLAMAIENLGENVISLTGAQAGIITDSRHKKARIEEINTERLNCELNNNKIVIVAGFQGITKEGNISTLGRGGSDTSAVALACALKADMCEIYTDVPGVFTTDPRKVKTAKLMNEISYDEMLELAKLGAKVLHPRSVELARKYNLVLYVKSTFEEGKGTKVAGVNKMEKVLVRGVTIDENIARISVVDVPDHPGVAFNLFSHLAKNNIGIDMIIQNLDHNGKNDISFTVSTDDLNNAKNIANEFLQSVNGNTVIVKDDVCKLSIVGTGITGSAEVASKLFEILYKAGVNIEMISTSEIKISCLIDKKLGLEALNAVHEAFELGL;locus_tag=LOCUS_00050;EC_number=2.7.2.4;note=WP_011392817.1 aspartate kinase (Moorella thermoacetica) [pid:56.0%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:1.3e-118],MGA_6
sequence01	MetaGeneAnnotator	CDS	5536	6438	.	-	0	ID=MGA_7;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964548.1;translation=MLKIKVPGTSANIGPGFDTLGVAIDIYNEYYIKKLDTNEKKVVWKSNVSSIDNKENYTYTTILKILNKYNKHNIGFELTMGSIDVPISRGLGSSASAIVAGIYAANYLLDDILTLEDIKLLATEFEGHPDNVIPAIIGGLSVSVYEDKKVYTSLINFPKDLEFIVMIPDFKLSTELARKVLPEKYYRKDCVFNISRVALLINSLNNKEYENLRIGINDKIHQNYRKELIKNCNKIFEVSKELGAYGEFISGAGPTLISIIDKKNTDFFHDMKEFLETLEEKWDIKKLQINNKGTLIEVIE;locus_tag=LOCUS_00060;gene=thrB;EC_number=2.7.1.39;note=WP_010964548.1 homoserine kinase (Clostridium) [pid:44.9%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:1.5e-73],MGA_7
sequence01	MetaGeneAnnotator	CDS	6456	7694	.	-	0	ID=MGA_8;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429993.1;translation=MKIALLGYGTVGSGVYDLVIKNREKIRNKYNEDIEVIQILDRNIDRFKDLAHYNVFVDSIDKIINGKADIVIEMLGGVNPAYDFVKKSLLSKKHVITSNKDLIAEHGEELRKIARESGVRIAYEASVGGGIPVLKPLKESLVGNDILSIQAIINGTTNFILSKMYNENMEYSKVLKIAQDMGFAEADPTSDVKGYDAARKITILTDLGLDFKINWKDIYCEGIDNIDAQDIINAKNLNSKIKLIAFSKAVDNKLYIAVRPVVVKADSTLGKIDNEFNGVMITGDSVGEVLFYGKGAGKYPTASAVFGDIVDIIINKNESKIVLSKENYEFTYKYPFKSDWLVRVDSDDINKVTGKIFDIFSSNRVEITSFLSSGEIALKVSDINEYELEENLLKLKETGYLKAVKYFLIDNA;locus_tag=LOCUS_00070;EC_number=1.1.1.3;note=WP_003429993.1 homoserine dehydrogenase (Clostridioides difficile) [pid:46.1%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:4.0e-94],MGA_8
sequence01	MetaGeneAnnotator	CDS	7711	8142	.	-	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKRFLVVDKSILDEKIKKVSAVKEFLLKENNIEKALEEIKLSKEEYEKIADKVFLFNKKISNNIIELLFILNHKAGILSKVLTEIANINGNILTILQEPPKNNRANVKIKIDISNSRIELKDILSHFKNIESVESVELESVE;locus_tag=LOCUS_00080;note=MGA_9
sequence01	MetaGeneAnnotator	CDS	8430	9557	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKNIFIFLLLTFTTITFATTVPKEELVTKNNIVYVNLDFLKKLDLNYKKDNNKVIINNIIFSKNNISYNNVKVNTLINIIESDYIDINAITTIFNFTFKNNTFLKNNEKNFPITYNNYTITKSLKKIISLSPGVTEKLFKIGAGNMIYGRTSYCNYPKEAKKIEDLGTIFSPNLERIIEIYPDAVISESHFNKKILSKLNEVGIESFAYNYPKNINEIYEFIDYLGIFTNKKYESRIVNYSLKNRVSYYLNSLKNIRSKPTVYYVVGTGEAEYTAGKNTFIDDLIKIAGAKNIADDTEGWVFSKEKLFERNPDIIFGSEYNINLMKNSELYSQLKAFKTGNYFIVDENIMNLSGPRLIEEGLPLLIEHFHKLK;locus_tag=LOCUS_00090;note=WP_011948944.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:32.0%25%2C q_cov:70.9%25%2C s_cov:88.5%25%2C Eval:4.4e-36%2C partial hit],MGA_10
sequence01	MetaGeneAnnotator	CDS	9662	10660	.	+	0	ID=MGA_11;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948945.1;translation=MKKNIFINKKSYLYIIITLIILFVSIFVSLNLGNSDISIKEVTEILLKKSDDKIKTLIIWNIRLPRILSAILIGGSLAISGAGLQSIFRNPMVDPYIIGTSSGAAIGATLAYILKLDMIFIKIFAFIFALISSFFIYFLNNKNNQINTLKLLLSGIILNSFLSSIVSLLMILNKDELMNILYWTMGSLNSSSFKDLKIITFPIIIISFLFFLLHKELDIISFGEENARSVGVNSEKIKKYVLIFSIILTSISVSTAGIIGFVGLITPHFFRLFLGSNHKYILPLSFLGGGVFLLICDNISRSITKSMDIPLGIITGLFGAPLFLYLLLKSKK;locus_tag=LOCUS_00100;note=WP_011948945.1 iron ABC transporter permease (Clostridium botulinum) [pid:40.8%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:2.1e-71],MGA_11
sequence01	MetaGeneAnnotator	CDS	10672	11430	.	+	0	ID=MGA_12;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948946.1;translation=MYIEIKNLNYNNILKNINFSIKKSSFNVILGPNGAGKSTLLKILSNNIKNYSGKITINNKNVKNYHNKEFAKLLSIIHQNNTPSLEFSVYDTVMFGRYIHQSRFNQNIKTDKEIVLETLKNLDLLEYKDKSILKLSGGEQKRVFIAQSIVQESDILLLDEPTANLDIKHQIKILELCKKLNKTGKTIIMVLHDINLAINYSDNIIFIKNGTIKNITSSNSINPLILDDIYSINLEIFNNSNNKKIFFPKIKK;locus_tag=LOCUS_00110;note=WP_011948946.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:41.0%25%2C q_cov:92.9%25%2C s_cov:94.5%25%2C Eval:3.9e-47],MGA_12
sequence01	MetaGeneAnnotator	CDS	11652	13529	.	+	0	ID=MGA_13;product=TonB-dependent receptor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015947.1;translation=MKKILLSSLLFLSSLSFSNTDFLNDSITLELKDSIITAEKFETPIRDTTKNVYIINKENIQNSGATNIVELLKTIPSIFIGSGYTNEGIIDFRGQGETSKSNVLILVDGISQNSIDMSGPDLSIIDINNIERIEVIPSSGVVYGDKAVGGVINIITSNNKNNIKLDVGSYGYSNSALNTSNTFGIFTINNNFSKTFKEGYREHSNYNKENFGTDIIININSNNKLTFTYDYNKSFYNYAGSLTKAQVENNRTDSISGKGSTFNRKNNYSLNYNYESNKLKLENKVSSYNKYSEGWSKINTAYFSNNLKIKYSFSNFNIINGIDFSEASSKTNSTNKIEKNQIGMFSLINYSILDNLIINGGYRNETTKLDYFTGKEKKYNQNLFSAGINYLYSDTGNVYLSFEQNYRTPTTDEYQYAIYNWATYEITGYGYKENLNPQKSTTTEIGHKEFFANTYINTTIFNTITTNEIFYNPSTFSNENIDGTTLRNGIEFSTKTNIKNIILSQSYTYLIAKINDGQYKNKLIPWVPKNRYNASINFKLNKLNFELDYNFVGKMYSISDWNNQYGKINSYSVVNFTSNYKFNNINTYFGIKNLTNTKYYDYVTYGSSYYPAEEKSYYIGINYEF;locus_tag=LOCUS_00120;note=WP_011015947.1 TonB-dependent receptor (Fusobacterium nucleatum) [pid:26.9%25%2C q_cov:96.6%25%2C s_cov:97.3%25%2C Eval:1.6e-58],MGA_13
sequence01	MetaGeneAnnotator	CDS	13590	14588	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYILFSIIFHFLLFYFINDWFLINKPIININNISVGIIEIIEPKKQDKSINIPKNNIITKHKVNFFKKNFKLENNEKKAIIKESLNSKNNIKKEKLTLLKQDLELKNLKKNLNNEKKDENNKKSIKSKREFESNKFNKQKILENNKNQISQIKKEKKMPLFQNQNLANNNISKNTSNKIENIMNTLSNKNIDFEKHKNNIKFNNKNMNDTKKNLNINNSSGNKKQIETIEYNKNINFKIIKYENPKYPKPAQILKLKKDVIVKATFIINEFGDVENIELKSDYKNYKKLGFYEEVEKVIKNYKFSPIFYNNKIVKVKFIKNYKFISPYKK;locus_tag=LOCUS_00130;note=MGA_14
sequence01	MetaGeneAnnotator	CDS	14626	15138	.	-	0	ID=MGA_15;product=thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003223506.1;translation=MTERKNEVTFGGAVVTLLGNKINIGDKAPDFVALKNDLSELRLSELEGVKLISVVPSIDTGVCELQTTRFNQEAGNLKGVNVITISVDLPFALDRFCANKGIDKAVTLSDHRDLDFGTKYGFAIKEHRLLSRGIVLVDADNIVRYVEYVSEVTNHPDYDKALAATRELLK;locus_tag=LOCUS_00140;gene=tpx;EC_number=1.11.1.-;note=WP_003223506.1 thiol peroxidase (Bacillus) [pid:55.2%25%2C q_cov:96.5%25%2C s_cov:98.8%25%2C Eval:7.1e-47],MGA_15
sequence01	MetaGeneAnnotator	CDS	15222	15461	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKPKKVRYYDKENNLKYYICYKYNEFGDAISIKKYNNKDELLADLRYVYDYDEEGRMTYMKIEDLIKGTELKKIFEY;locus_tag=LOCUS_00150;note=MGA_16
sequence01	MetaGeneAnnotator	CDS	15483	17954	.	-	0	ID=MGA_17;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626185.1;translation=MKFIKKFDKTAIIFGDEKISYLKLLSNVKNYTEYLHIEEGEKVAIFSENRPEYVYAFLGIWQKKGICNPIDAANNYDELLYVLKDSEPKFIFVSNKTQNLVKKVIEENNLKIKIINYEEIELKSYKEEELEEIYLLEPEKVCLILYTSGTTGDPKGVMLTQDNIIAQIESLDKYKMYEKSDVFISLLPLHHILPLLGTAIMPLYFGATIVFLQELSSDKIKEALIKNKVTMFIGVPRLYEVFYRGIMAKIEASKISTFVFNLAKKINSEKIRKKLFKKIHDGFGGNIKFLISGGAKLDLEISKAFSTFGFKMVEGYGMTETAPIISFTKPNNIKNGKVGSPLDGVEVKISDEGEILVKGRNVMKGYYKKEKETREIFTEDGWLKTGDLGEIDEDNYIKITGRKKEMIVLSNGKNIDPVSVEQEILRFSKGLIEEIGVIDNNNHLNAIIYPNFNFIKEKEISNISETIKNSIIEKYNIKALPYKKILDFKITQTELPKTKLGKLRRFKLKELLHENETEKNIIEEPSYREYKVLKDFISTLSTKIIKPTSHLELDLALDSLDMVELKAFISTAYGVDISDKDFTEHMIVEEMAKYLKEKSNTNVIDTDINWKEILNKGKNIELPKTHILLLFFKYLTSPILKLYFRFTKKGIERLSKKTVIFVGNHQSFVDSFAILSALPNKILKNTYFLAKIKHFDNRVMKSIANRSNIVIVDINKNLKETLQESAEILKKGKNLVIFPEGTRTVDGNLGEFKKAFAILSKELGVDIQPFVIRGAYKSMPRGKKIPRPTKIELEFLEKISPKNLDIEVIVKETRTKIDKILKK;locus_tag=LOCUS_00160;note=WP_201626185.1 AMP-binding protein (Fusobacterium canifelinum) [pid:46.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:2.7e-210],MGA_17
sequence01	MetaGeneAnnotator	CDS	18090	18428	.	-	0	ID=MGA_18;product=nitrogen regulator P-II GlnB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880011.1;translation=MKKVEAIIRREKLKVVKEGLMEIGIDGMTVSEVKGFGKQRGYKEIFRGTEYTVEFLPKLKLELVILDEKLEEVIKVITERSKTGNIGDGKIFIYNVENVVRIRTGEEGEIAV;locus_tag=LOCUS_00170;gene=glnB;note=WP_010880011.1 nitrogen regulator P-II GlnB (Aquifex aeolicus) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-35],MGA_18
sequence01	MetaGeneAnnotator	CDS	18769	19299	.	+	0	ID=MGA_19;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073575.1;translation=MNYKIDVMISKENIKKKVKELANEITNTYKNTDELILIGLLRGSVVFLSDLAREIGIDDVKLDFMVVSSYGNSMESSRNVKIKKDIEENISDRNVLIVEDIIDTGFTLKKVYEILKLREPKSLKICTLLDKPERREVDVKVDFTGFKIPDEFVVGYGIDYAEKHRNLPYIGKVTKL;locus_tag=LOCUS_00180;gene=hpt;EC_number=2.4.2.8;note=WP_011073575.1 hypoxanthine phosphoribosyltransferase (Shewanella oneidensis) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:5.1e-59],MGA_19
sequence01	MetaGeneAnnotator	CDS	19322	20602	.	+	0	ID=MGA_20;product=adenylosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015701.1;translation=MAGYVVVGTQWGDEGKGKIIDVLAHKADYVVRFQGGNNAGHTVVVNGEKFILHLLPSGMLHGNGKCIIGPGVVVDPKVLLKEIETLDEKGAKTDHLFISDRAHIIMPYHIKLDEVKENARGNKKIGTTKRGIGPCYADKISRCGIRAADLLDINIFKEKLKDNLNEKNELLTKIYNEKPLNFDEIFNEYTEYAKKLKDRIIDSVPDINQALKEDKFVLFEGAQAMMLDINFGTYPYVTSSSPTTGGVTTGVGIAPNKINKRIGVMKAYTTRVGEGPFVTELNNETGEKLRAIGGEYGATTGRPRRCGWLDLVVGKYAVDINGLTDVVLTKIDVLSGFEKIKIAIAYEIDGERYDYVPASIEKLQRAIPIYEELDGWKEDITSIKNYEELPENCKKYIKRIEEIIGCSISMVSVGPDRTQNIFIKEF;locus_tag=LOCUS_00190;EC_number=6.3.4.4;note=WP_011015701.1 adenylosuccinate synthase (Fusobacterium nucleatum) [pid:69.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:4.4e-176],MGA_20
sequence01	MetaGeneAnnotator	CDS	20691	21125	.	+	0	ID=MGA_21;product=HutP family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356304.1;translation=MKNKSAEIAKIAIKMSLSTREEENKLNEKFEKYKIKTTAVDIGGKLPNIIPKIIENTLVASKRKHIIQDCHVHDGAVAGAIREAIAQVMTKTNGLSVGGKIGIARNEEHISVAVFFSIGLLHLNEVVTAVAHRSIPILKDEIWN;locus_tag=LOCUS_00200;note=WP_003356304.1 HutP family protein (Clostridium) [pid:61.0%25%2C q_cov:94.4%25%2C s_cov:98.6%25%2C Eval:1.9e-40],MGA_21
sequence01	MetaGeneAnnotator	CDS	21194	22648	.	+	0	ID=MGA_22;product=aminoacyl-histidine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987157.1;translation=MELKDLLNEKIFYYFNEISKIPRGSKNEIEIANYLEDFAKKRNLEVYKDKFNNILIKKEATSGYENIPSIVIQGHTDMVCEKNQNTVHDFSKDPIKLQVDGNFIKASGTTLGADNGIAVAYALALLDSNNLKHPKLEIFLTSDEEQGMGGASNFNYSKLESKIMLNIDTEEEGEFYVSCAGGARGIFTIPLTYKSNNYSNIFHIKIRGLIGGHSGMDIIKERANANKLLGRILNELNSNFDLALVKIWGGSKDNAIPRESDAIIATNSDFNELNNVINNLNQMFNKEYLGIEENIKLTIEVLNENIKKIISKEISNKIINLLFLHFNGIESMSKNINNLVESSLNLGVIESHKDKILFKSAIRSSVLTRKTLIIQKLYSLAKILNISFKSNADYPAWEYKKDSKIREICIKEYKKFANTEPKIKAVHAGLECGIISEKINNIDIISFGPNIFGAHTPEEKLDIKSTRRIYNFLIQLLENSKNYF;locus_tag=LOCUS_00210;note=WP_011987157.1 aminoacyl-histidine dipeptidase (Clostridium botulinum) [pid:45.8%25%2C q_cov:99.0%25%2C s_cov:99.8%25%2C Eval:2.3e-123],MGA_22
sequence01	MetaGeneAnnotator	CDS	22703	23710	.	-	0	ID=MGA_23;product=galactose/methyl galactoside ABC transporter permease MglC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000340252.1;translation=MKTTSKDIGKFIMDNVLYLVLFVLLFIIVIKEPTFLSIRNFKNILTQSSVRIIIALGVAGLIVTQGTDLSAGRLVGLTALVSATLLQSMDNVNKVYKSLGQIPIWVVIIIVMIVGGFFGLINGIIIAKFNVTPFIATLGTMIIIYGVNSLYYDYVGATPVAGFDERYSNFAQGAFQIGSFEIPYLIIYALIAIIFMWVLWNKTIFGKNIFAVGGNPEAATVSGVNVTSTLLKIYTLAGAFYAFGGMLEAGRIGSATNNLGFMYELDAIAACVVGGVSFSGGVGTVPGVVTGVIIFTVINYGLTYVGVNPYWQFIIKGLIIIVAVALDTIKYIKKK;locus_tag=LOCUS_00220;gene=mglC;note=WP_000340252.1 galactose/methyl galactoside ABC transporter permease MglC (Vibrio) [pid:67.5%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:4.7e-124],MGA_23
sequence01	MetaGeneAnnotator	CDS	23727	25241	.	-	0	ID=MGA_24;product=galactose/methyl galactoside ABC transporter ATP-binding protein MglA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011707761.1;translation=MNMSNDNKYILEMINVTKEFPGVKALDNVTLKIRPHSVHALMGENGAGKSTLMKCLFGIYRKNSGKILLDGKEVNFTSSKEALDHGVSMVHQELNQVLQRNVMDNIWLGRYPIKNGFVDEAKMYKDTKKIFEDLDIDIDPRVKVSTLSVSQMQMVEIAKAVSYNSKIIVMDEPTSSLTEKEVNHLFKIIRKLREKGVGIIYISHKMEEISEISDDITILRDGQWIGTEPVAGLTTDKIINMMVGRDLTHRFPEKTNKPEENIILEVKELTAKNQPSIQNVSFKLRKSEILGVAGLVGAKRTDIVETIFGIREKASGKIILNDKEIENKDPKTAIQNGFALVTEERRATGIFDMLDIRFNSTISNMAAYQMPNTLLDDHKMKKDTQWVIDSMRVKTPKQETSIGSLSGGNQQKVILGRWLLTEPDILMLDEPTRGIDVGAKFEIYQLMIDLANKGKSIIMISSEMPELLGVTDRILVMSNGKVAGIVNTKETSQEEILMLTAKYL;locus_tag=LOCUS_00230;gene=mglA;note=WP_011707761.1 galactose/methyl galactoside ABC transporter ATP-binding protein MglA (Aeromonas) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:1.2e-212],MGA_24
sequence01	MetaGeneAnnotator	CDS	25296	26312	.	-	0	ID=MGA_25;product=galactose/glucose ABC transporter substrate-binding protein MglB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015365711.1;translation=MKKAVTLLLAGSLLAATTTTAYAGGLFKRKSKEKMIGVTIYKYDDNFMALVRQAIEKGAEGKSGIKVLMNDSQNDQSKQNDQIDVLISKGVSALAINLVDPAAAQTVIEKARKENIPVVFFNKEPSQKALNSYDKTYYVGTESKEAGIIQGELIAKHWKMHSEWDLNKDGVLQYALLKGEPGHPDAEARTEYVIKTLNEKGVKTENLHLDTAMWDTAQAKDKAEAWLSGPNRDKIEVFITNNDAMALGVIEALKANGKTNIPVYGVDALAEALVKIEKGELQGTVLNDASSQGQATLDLAVNLANGKDPLEGTNWKLKNKAVRVPYVGVDAENLAQFK;locus_tag=LOCUS_00240;gene=mglB;note=WP_015365711.1 galactose/glucose ABC transporter substrate-binding protein MglB (Klebsiella aerogenes) [pid:69.7%25%2C q_cov:93.2%25%2C s_cov:95.5%25%2C Eval:1.4e-126],MGA_25
sequence01	MetaGeneAnnotator	CDS	26436	26570	.	-	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKQHKLEMKITELKKVNKVLLSNYMKAFRDFKRYIKLVYKVI;locus_tag=LOCUS_00250;note=MGA_26
sequence01	MetaGeneAnnotator	CDS	26796	27614	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIEKYYKKGEPFIDKYYNFDKIPLKFQENFKNNEKDFEFALHISDYKIENSGLLIFAFKDYLYILDDSKEKFLETKFFYSEIDVIKISRELLLGKLIIIKNDQEIVIHFNSSASITIEEFIKYLREKYIDFKEETPSLPKSKIFNNLENIYNIMLSKIDIEIKDFVFQPDEFLYNKEENITTKLTSALYLIGERELIIFNKGKEIKINNERDYEYSETFIPINKIITITESNHLLYDDIVIITINLLKKQIKFLFSNDNKDRNKIIYLAK;locus_tag=LOCUS_00260;note=MGA_27
sequence01	MetaGeneAnnotator	CDS	27996	29282	.	+	0	ID=MGA_28;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966262.1;translation=MERIYIETLLKEKPQKAKLTGWVHRINSLGQVNFVILRDKTGVIQLVMTKEQLENLKLETPITVIGKVVENPKAINNIEMQVEDLNLLGKVYDSLPFEINKKTIQAKLETQLDNRTIALRRPNIRAIFKIQQEIEEGFKTYLKSKNFSQIHTPKIIDSSTEGGSEMFTVDYYGRRSFLAQSPQFYKQMMVGAGFERVFEIGHAYRAELHNTWRHLSEYISLDVEMGFIENEEDIMKLEEDILNYIFSHLNKTCKKELDMFNITLEENFKIPRISLKEAQDILLEKFNKRSPIGNLDAEGEKIFSKYVKETYNSDFIFVTEYPISKRPVYTMPHESKKEVTRSFDLIYKGLEITTGGQRIHDYKMLIENIKKFDMKPENFEFYTDTFKYGMPPHGGFAIGLERLTMQILNLTNIREASLIPRDLKRIKP;locus_tag=LOCUS_00270;gene=aspS;EC_number=6.1.1.23;note=WP_010966262.1 aspartate--tRNA(Asn) ligase (Clostridium) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-159],MGA_28
sequence01	MetaGeneAnnotator	CDS	29296	29580	.	+	0	ID=MGA_29;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966261.1;translation=MKITVDKVNYIAKLAKLKFTKNEAENLAKEFETVLEHFATIDNFDLSDIESYDFSETNSEFRKDEVEVFENKEKLFKNTKKMNGTSIEIPKVIE;locus_tag=LOCUS_00280;gene=gatC;note=WP_010966261.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Clostridium) [pid:56.5%25%2C q_cov:97.9%25%2C s_cov:94.8%25%2C Eval:2.8e-24],MGA_29
sequence01	MetaGeneAnnotator	CDS	29591	31027	.	+	0	ID=MGA_30;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966260.1;translation=MDIFEMSAIEIREAIINKKISAIDLINKIYEKIEKEDKQINSFITLSKELAKKQAEEIDDKIKNGESLGKLAGIPIAIKDNICTDGIKTTCASKMLEDFIPPYDATVIKKLKAEDAIIIGKVNMDEFAMGSSCENSYFGPTKNPVDISRVPGGSSGGSSASVAAKFVPISLGSDTGGSIRQPAGFCGVTGLKPTYGKVSRFGLIAFGSSLDQIGPITRSIDDAALCLEVIQGHDKLDNTSAKLKYDTYLDKLNNVDIQNMKIAVAKEFIKKGLNEEIKNNFLETIEKFKSLGAKVEYISMPITEEGLSAYYIISSAEASSNLARFDGIRYGYRTKTYEDVNDIMVNSRTEAFGKEVKRRIMLGTYALSSGYYDAYYNRALKLKKKIKDQYKEIFEKYDLILSPISPVLPFKIGEKTSDPLEMYLADIYTININLAGVPAISIPSGKNKDGLPIGIQLIGKHFDEEKILRAAKAFEGVK;locus_tag=LOCUS_00290;gene=gatA;note=WP_010966260.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Clostridium) [pid:66.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.4e-179],MGA_30
sequence01	MetaGeneAnnotator	CDS	31027	32460	.	+	0	ID=MGA_31;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966259.1;translation=MTLETIIGLEIHVELDTKTKIFCNCSTKFGKKPNENTCPICLGLPGTLPVMNERVIELAVKAGLAINCNINTLNKMDRKNYFYPDLPKAYQISQYDLPICQDGYVDIETEQGSKRIRINRIHMEEDAGKLVHDEFEPVSYIDYNRVGVPLIEIVTEPDIRSIDEAIIFLKTLKNILEYADISDCKMEEGSLRCDANISMRKVGDTKLNTRVELKNINSFKELEKALLKEQKRQSELYKYGEDYKIIQETRRWDSAKGKTIPMRGKEEAHDYRYFPEPDIIPLIVKNEILENAKASLPELPSIKKERFIKDYALTETDASIIVADKYLANYFEDIVKEGADAKNASNWILRDVIRILNEQKIEAKDFNLPAKELATIIKLTKENKINSSSATLVFDEILKTNKTALEIIEEKSLLQSNDSSEIEAIVDKVIFENENVVKQYKEGNKKVLGFLVGQIMKATKGKVNPKIANEILSKKLN;locus_tag=LOCUS_00300;gene=gatB;note=WP_010966259.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Clostridium) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.2e-171],MGA_31
sequence01	MetaGeneAnnotator	CDS	32607	34169	.	+	0	ID=MGA_32;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_223294598.1;translation=MENIFFADDTNIDFKASKNFDDNWKIIIADDEEDIHTVTKLVLKNVEFEEKPIEFISCFNDDETKNALKKHSDAAIILLDVVMDTLDSGLKITKYIREELKNRAIRIILRTGQAGTAPERNVIINYDINDYKEKTELTSQKLFTTVISSLRGYKDIRTIEHSKNGLEKIIKSSSKLFSPNQKMKNFAELLLEELSSLIDSSDSMFYFQPSSFMSFKDNNSMKIVAATGNFFKYIGLTIDEMNDILLKEKLTDLDINNNFIINKDEFFGCFESINESKSIIYFKDSRGFSNVDKNLLKIFSTNVSTALDNFFLNEEIINTQKEIITTLGEVVETRSKETHHHVKRVADFSYFLALKYGLSKDECEILRAASPMHDIGKIGIPEQILNKPSKLTKDEFELIKKHTIIGYDILSNSNREILKAASIISNEHHEKWDGTGYPKGLKGEEIHIYGRITAICDVFDALSHKRVYKEAWPIEKVINYILSEKGRHFDPKLVDLFIENIDYILKIKNTNKDYDELFKF;locus_tag=LOCUS_00310;note=WP_223294598.1 response regulator (Desulfovibrio) [pid:45.1%25%2C q_cov:91.9%25%2C s_cov:92.5%25%2C Eval:2.6e-120],MGA_32
sequence01	MetaGeneAnnotator	CDS	34190	34903	.	+	0	ID=MGA_33;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679291.1;translation=MFYSEIAKYYDYIFPQNKSQLDFIENISPIKNNEIILDVGAATGSLSGLLSLKSKNIFAIDLNNDLLNFAKLKYPNINFIYLDMLKIDTFFNNKKFDKIISFGNTIVHLNTKNNIYDFLKKSFKLLNDKGYLICQIINYDRILNNNISSLSTIENDKIKFIRNYIINNDIIKFNTILEIKEKNKIIENSIPLIPLKKHEIDNMLTKIGFKNINYYSNFKGDKFSFNSVSLIFSAQKI;locus_tag=LOCUS_00320;note=WP_002679291.1 class I SAM-dependent methyltransferase (Treponema denticola) [pid:25.3%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:3.5e-18],MGA_33
sequence01	MetaGeneAnnotator	CDS	34921	35715	.	-	0	ID=MGA_34;product=sugar phosphate isomerase/epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871139.1;translation=MNYIVGYAASAFEKNIYDSINYAKENGFKAVELNVNMPIFFPENFSLEEREKIKNYAKEHNIIITLHGPEDITFLQLQDGINIASINRIKDVIDFANDIEAKFLTLHIGASVCFTLTDKKIYIDEMFYEKYKKRLEENLLEIINYSKDKVKICIENSGRFPEVLVQETLSEFIKKYDLYLTWDIGHSYKNVYNEVDFFIKNKNKIRVSHVHDNNGKSDHQILGEGNIDIKKHFEIIGENVIYILEVRPRENATTSLKKLEKILK;locus_tag=LOCUS_00330;note=WP_010871139.1 sugar phosphate isomerase/epimerase (Methanocaldococcus jannaschii) [pid:27.2%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:1.3e-14],MGA_34
sequence01	MetaGeneAnnotator	CDS	35727	37316	.	-	0	ID=MGA_35;product=phosphoglycerate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870531.1;translation=MSKFKIIVAEKIDKAGIEHLQKYADVDVCIGISREELLEKIGNYDALVVRSATKVNAELLNKGKNLKIIGRAGNGIDNISIEEATKRGVIVANTPESNIISACEISIGLMFAGARSICYASNETKSGKWIRNQLEGTELYGKTLGIVGLGRIGGLMATRMKAMGMNLIAYDPYITDERFEKYGVTKKETLEELCKEADIITVHTPKTEETKGMISYKQIELMKTGVHLVNGARGGIIDEKAAYEGLKSGKIASFGLDVHETEPRTESPLYELDNVTVTPHIGANTYDAQRNVGLNIAEQILNGLNGEIVENAVNLPTMNRDELKEAKPYLNLLEKIGKMYYQYNKEIVKAIEVSYWGDAAKQYTEMMDIAFLKGFLSTVMSEKVNYINAKIFAEKNGIALNIQKNKEEYKNHSNAIKIKYILKDKEVVFLGNIASNGEPKLLEIDGYEVDVKLTEYLLLINNNDVPGVIGKVGTIVGNENINVATMTVARKQKGDKALMILNVDDYIADEVLEKFNEYLEINFAKLLKL;locus_tag=LOCUS_00340;gene=serA;EC_number=1.1.1.95;note=WP_010870531.1 phosphoglycerate dehydrogenase (Methanocaldococcus jannaschii) [pid:43.6%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:3.4e-120],MGA_35
sequence01	MetaGeneAnnotator	CDS	37464	38174	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFITIFILISYNVYANFDLDISYGLANNAQLAGRDLSAGSYEINLEYLAQDYDFASVGAGISFFSIKDYSDYATFGSHPLYSIIPIYGIFKYTFIPDGTIEPYFKGKLGFGISIKDVNVNEGSVENGVYYSLGLGAKFYDYFLELSFAKNDGSFIYVDKNNESMAYNRVVFSIGYNLKFITTGEKTLYDKQKEYIAPKSTRNNYDSIETFDKDGNIIEKEGDIKRLEDFKIIN;locus_tag=LOCUS_00350;note=MGA_36
sequence01	MetaGeneAnnotator	CDS	38188	38625	.	+	0	ID=MGA_37;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080996.1;translation=MKIVLQKVKTANVKVKNEVVGEISKGIVIFLGINNNDTEKEADWLVNKIIKLRIFEDENKKMNNSLIDIDGEILIVSQFTLYGDCRKGLRPSFTEAASPKKAKILYDYFVEKIRKTGIKIETGIFQEHMEVSLINDGPVTMIIEK;locus_tag=LOCUS_00360;gene=dtd;EC_number=3.1.1.96;note=WP_004080996.1 D-aminoacyl-tRNA deacylase (Thermotoga maritima) [pid:58.3%25%2C q_cov:99.3%25%2C s_cov:96.6%25%2C Eval:3.0e-46],MGA_37
sequence01	MetaGeneAnnotator	CDS	38641	38940	.	-	0	ID=MGA_38;product=metal-sensitive transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813255.1;translation=MTEEKCCIIDKQEHEKIKKNLNVRLNRIEGQIRGIKKMIENDIYCDDILNQISAVKAALNGVSKVLLKRHINTCVVNKIQNNDLEVIDEMIETINKMLK;locus_tag=LOCUS_00370;note=WP_005813255.1 metal-sensitive transcriptional regulator (Desulfitobacterium) [pid:55.8%25%2C q_cov:86.9%25%2C s_cov:77.5%25%2C Eval:1.8e-23],MGA_38
sequence01	MetaGeneAnnotator	CDS	39075	39638	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDIILKKDNYEYNGIIEKYDIKNHRITIKILAKNKRNIFLHKGDSIDIEISKAGYYCHFNTKIIYNDVIDHEIVVEYPETIFNDERRKYRRLTLRIEIDILKGNKNYKGLMENISLGGIAFMSSYNFDPSDIIYITFTLPNGVIYKNIKAEIKFKKTTDFPKIKEYGTKFIELSEGQKDVLNDFLY;locus_tag=LOCUS_00380;note=MGA_39
sequence01	MetaGeneAnnotator	CDS	39667	40374	.	-	0	ID=MGA_40;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011922420.1;translation=MYKNYIFDLYGTLIDINTDENKQELWEILSSFYSYNGAIYSADELKKSYLNKAKKYYEANKSEAPDIKIEKVFEELYLDKTLDISQELILSTCKLFRILSTKYIKLYENVKPLLEILKKQNKKIFLLSNAQREFTLPELEYLDIKKYFDGIYISSDYEVGKPSVKFFEELIKKEKIKIKESIMVGNDYRTDIEGAERMGMDSIYLHTNLSPDITENIPAKFKIYDNDILKIPSFE;locus_tag=LOCUS_00390;note=WP_011922420.1 HAD family hydrolase (Streptococcus suis) [pid:37.0%25%2C q_cov:87.7%25%2C s_cov:87.6%25%2C Eval:3.2e-32],MGA_40
sequence01	MetaGeneAnnotator	CDS	40421	41275	.	-	0	ID=MGA_41;product=maltosaccharide ABC transporter permease MalD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001022608.1;translation=MANTTKVQRKLLRFIENTIVYGILILIAIIVILPVVWIVLSSFQQGTSLYSSTFIPKKLTLVHYKELFTKTDFPIWYMNTLKIAFFNMIIGVIVTTLTAYTFSRYRFRGRKEMMIGMLILQMFPSFLSMTAIFVLLTKLQLVDSHWGLIIVYAAGQIPYNAWLVKGYFEGIPKSLDEAARVDGAGHLTIFWKIIMPLARPILVLIALTNFTGPWFDFIFPKLILRSRFKKTLAVGIFEWVQGRADNNFTLFAAGSLLVAIPILILFVFLQKNIVEGLSQGATKG;locus_tag=LOCUS_00400;gene=malD;note=WP_001022608.1 maltosaccharide ABC transporter permease MalD (Bacillus) [pid:51.2%25%2C q_cov:89.4%25%2C s_cov:91.4%25%2C Eval:5.6e-72],MGA_41
sequence01	MetaGeneAnnotator	CDS	41275	42564	.	-	0	ID=MGA_42;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012804062.1;translation=MKRKQLTTIFSIVVMGGGHFVNKFFLKGLFFFFIGLTFIYNLPGILQNTAGLISLGDTPQTVKGFDIIQGDHSILMMFDGVISVILFIFYALVYFYSIKDARRIAEQIEKGETILRGKDYLIHFYEENFPKIMLTPAILGTIFFTALPILITIMIAFTNYSAPNHLPPKSLVDWVGFQNFINIIKLKSWAGTFGRLAGWTVIWAVATTFLNYAGGLVLALLTAKKGIKFKGFWRSIFVLPYAVPAFISLLVFRLMFSGVGPVNNMLASFGLEKIPFFTDPLLAKIMVILINTWAGAPYFMILISGSLTNISSSLYEAAEIDGATRYEQFRHITLPLLLFQTAPVLILSFAYNFNNFGAIYLLTDGNPVNSSLKYAGETDILVTWLYKLTLDHQQYGMAGVISIILFAFIASISLYNFTRSKSFKEEDMI;locus_tag=LOCUS_00410;note=WP_012804062.1 sugar ABC transporter permease (Brachybacterium faecium) [pid:43.0%25%2C q_cov:88.6%25%2C s_cov:81.9%25%2C Eval:1.0e-92],MGA_42
sequence01	MetaGeneAnnotator	CDS	42650	43930	.	-	0	ID=MGA_43;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000709916.1;translation=MNKKILLASLLSGLILSSVSAEAGLFFKKKKEEPKKQEASTTGEIMPEAGAELRVWESDGPEGEFLELAGKKFEEKYGVKVQYEPVGMTDSIGRLSQDGPAGIGADVFVFPHDRLGEAVSSGLVMENLVSADRISSDFMDAAKIASTFEGKIMAWPLSIETYALFYNKDVLDSAPATFEELIDFGKSFTDKNNNDFGIFWEVGNAYYGHAFLAMDGGYIFGSNGTDASDIGINNEGAVRGIQNMIKLKEISVEKSGDVSYAAMMGLFQEGKAATIINGPWAIKDLKNAGTNFGIAPLPTFDGKHLRSFSGVRLMGVSSYSKYPKAAQLFAKFVTSDEMLLERYKLTKQIPPVKTLLNAPEIANDPEVLPFLQQAQYAVPMPAIPEMRYMWSPVGAALSEAWDGKATVKEALDTAVKTMKEAMNAAK;locus_tag=LOCUS_00420;note=WP_000709916.1 extracellular solute-binding protein (Bacillus) [pid:39.0%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:1.5e-72],MGA_43
sequence01	MetaGeneAnnotator	CDS	43998	45779	.	-	0	ID=MGA_44;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584022.1;translation=MKKLVYLIMILLFVSCSNLEKVSDNYKENVFDLENYIELDNHKVNFLFEVPENSEIEFYLAKDGEKLKKVKLENNYSKKSGIVIDGFEPGNIYNYKIIAKINGKKYYTDVFKLAKKEVKLEKSRATWAKNAVFYEVFVRSFYDSNGDKIGDFKGLAQQLDYIKNLGIDAIWLMPTFESPSYHGYDIVDYYNVEKDYGSIEDFKYLIKKAHQKNIKIILDLVLNHTSSRHPWFRDAISNPNSKYRDYYVWASKYDNIKEKGEWGQNLWYKKRNAYYQAVFWNEMPDLNYRNPKVREEAKKIAKYWLDMGVDGFRLDAAKHIDSEYDEVNHKWWQEFTAYVKSINKEAFIVGENWDENENVVAKYMEDMDASFNFKISKKLTDFVQRKNFDLIKEVLRIREKYSKYNKNFIDATFVRNHDMNRIASEVWGDKEKQKLIFSLLFTIPGTPFIYYGEELGQLGKKPDENIREPFDWYKSAKGPGMTKAPSNYSGLVYTKANDGISLEEEYNDENSIYNYIKELIKLRKEYPIFNDGIYKTIELNRNIYAYTISKDDVELLIIHNLNKKQTKFILPKEYQKYGINIELSKYETKIIKK;locus_tag=LOCUS_00430;note=WP_012584022.1 alpha-amylase family glycosyl hydrolase (Dictyoglomus turgidum) [pid:46.4%25%2C q_cov:82.5%25%2C s_cov:98.2%25%2C Eval:3.1e-125],MGA_44
sequence01	MetaGeneAnnotator	CDS	46102	47706	.	+	0	ID=MGA_45;product=diguanylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_150912620.1;translation=MIKRRSMSFQLTFYFFIFFILISLTDIILKNVFIYPKIKIAQQKFIENGIFILRSSVNDSLDLLSSLNKDYAYWTTLYNHVDTQFENSNFFINENFNYETFENLEIDIISIYSKNKKLLWNGKKIGKKITTNSEYLKNIKEYILYYRNPNYLNTVLGIFTLNKENYFFASTQITDSDKIKPSNGYIIFAKKIDKNYINKLSIKNNSNIEYITPTNSNLKFINNITTKINDSKTLYKYYLDDINNIYLNFNNINGELAFILKISFLNGLNPEHINSTFEKILSIIFALIFMLILYLISKNKTIKPIIQLNSHIKKLISTNNYTPLEIKADSEEAKNLISSFNILIHKINTQNEEIKNMNIYLTELAYIDPLTKLYNRRMFEEKFQEFWILAKKNNHNISLIFCDIDYYKNFNDYYGHLAGDETLIKIADTLLDSFPNNNEYIFRYGGEEFVILINNIDLDHTIKKVKLLQKNISKLNIKHKKSLVSDRITLSFGIINTPYNNNINFLTLINMADTALYKSKKTGRNTFTVFNQPH;locus_tag=LOCUS_00440;EC_number=2.7.7.65;note=WP_150912620.1 diguanylate cyclase (Marinobacter halotolerans) [pid:23.2%25%2C q_cov:94.8%25%2C s_cov:94.7%25%2C Eval:2.9e-34],MGA_45
sequence01	MetaGeneAnnotator	CDS	47973	50321	.	+	0	ID=MGA_46;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010882677.1;translation=MTTQITTLDNNLPDNLLILPIVTRPIFPNLMFPITFSGEHFLQSIKEAYDNSNKLIGLVLVKEKNSLNLFHSKLYEVGTVVRIHSITPISANTIQIVVQGLKRFSLKEIIPNEKFLMWRVKYHDTDEEEAKSDELKAYMLGIMNSLKELFKLNPILQEELKLLMSQVSYDKPSILMDLVASTLKIENNELQDLLESFSLKERSKKILTLLKKELEITQLQMKIQQDIENKVSKQQKEFFLREQLKLIKKELGLEKDDKENEIDSFKEKMKKLILSEEAKKIVNEQLEKLNLLDNSSPEYHVTRSYLQTILELPWGIYSKDNLDIKQARKILDKDHYGLKDVKEVILEFIGTIIKTGNVSGAILCLVGPPGVGKTSIGRSIASALNRKFFRFSVGGMRDEAEIKGHRRTYIGAMPGKIIQSLKTTQVSNPVIMLDEIDKIGKSFNGDPASALLEVLDPEQNKDFLDHYLDIRYDLSNILFITTANQLDTIPRPLLDRMEVISLPGYILEEKLQIAKKYLIPNQMKNHNLSKNEISISDAAIKNIIDHYAREAGVRNLEKQIKKIMRKSTLIIAEDNKKIKIRVNNIETFLGKPIFTTEQLYNKSIPGVTLGLAWTSMGGTTLYIEAIKIKKGTGLKLTGQLGNVMKESAEIAKSYVESILPNKKEYNDFFKNNLIHLHVPAGAIPKDGPSAGITMALALYSLVINKPIRKEIAMTGELTLTGRILPIGGLKEKVIAARRVKIFELIIPYDNKNDFERLPDYIKENIKVHFVKEFKEVLNIAFN;locus_tag=LOCUS_00450;gene=lon;EC_number=3.4.21.53;note=WP_010882677.1 endopeptidase La (Chlamydia pneumoniae) [pid:50.0%25%2C q_cov:98.5%25%2C s_cov:94.9%25%2C Eval:1.3e-219],MGA_46
sequence01	MetaGeneAnnotator	CDS	50344	50940	.	-	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIYIILLLNIAACSKSLQTNVQLLPKININTVGQDRDRKIENLNQTIDVYEEKGVRYYYSNGETFQNFDGYTFYVAPYIVEELSFLNRITLRLFIQSITNQKNMFKTVTFFDENNNKVSFIFNEIIRKRENDDFLIKESGDIVISLNDFKIMEQFIDSENIYISFYGDKKYTFRMNSELEKSFKNILRKYKLMII;locus_tag=LOCUS_00460;note=MGA_47
sequence01	MetaGeneAnnotator	CDS	51153	52034	.	-	0	ID=MGA_48;product=acyl-ACP desaturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225966.1;translation=MFRTDLDIRLEKRVIDIYNRHNERAKNIDWNYAKYMPWDKGKSFITTPWEESQVSLPKSLVIALETSMLTELNLPWYTSHLNGTFTGSMEVIQDFIHIWTSEEDQHASALETYLTLTRNADPDKLHILKKQVIRAGWEANFETPIATMAYTSIQELGTLVFYQNVAKEAMKYDKELGVLLQRLSKDESLHYAFYSEIIRAHLEIEPNYVLHLYEVIRNFSMPGSVIDDFKERMKIIEKEANYGPSDYFDRVLQVLIKKWDIENIRPTLKEAEEARINILKYRDKLKKIIDKRR;locus_tag=LOCUS_00470;note=WP_013225966.1 acyl-ACP desaturase (Amycolatopsis mediterranei) [pid:31.1%25%2C q_cov:90.8%25%2C s_cov:84.7%25%2C Eval:1.7e-31],MGA_48
sequence01	MetaGeneAnnotator	CDS	52314	52961	.	+	0	ID=MGA_49;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393101.1;translation=MKSYKNLKEKAYEIIKNKIIMIEFKPGEYLEEKVLSELLEISRTPIREALNVLENEGWIESFPRKGIFVTRIDEEKIDEIYEVRKNFDPLILKMAAKNLSPLKLNLFKHKFENYEEMLEDEFLKYDADFHSYVHSAVKNKYVLKMMKNVYEHNRRIRRLGVQKVPHQRIVDSNKEHLEMIDLILNGEIDKAADLLRKHIENSHKYYLNVLLDKDL;locus_tag=LOCUS_00480;note=WP_011393101.1 GntR family transcriptional regulator (Moorella thermoacetica) [pid:31.5%25%2C q_cov:98.1%25%2C s_cov:92.6%25%2C Eval:1.1e-25],MGA_49
sequence01	MetaGeneAnnotator	CDS	53074	53865	.	-	0	ID=MGA_50;product=mechanosensitive ion channel;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073210.1;translation=MEKYFELLSIYGRKLVLAIILYVLGKYIIKFLLKMLKKTLKKAKFDESLKSFLDSFLSLAFNFILIIIVVSTLGVETSSLVALLGAAGLAVGLALQGSLSNFASGVLILLFRPFNVGDFIEAEGFSGTVKDIQIFSTHIDTIDNKRIIIPNSILSNGIIINYTKNKERQLDLIFSIAYEANIDKAKYIIKQVLEQNNYILKDKNILIGILKHSASSIDIRTRAWVKTEKYWDVYYYLMEKIKIEFDRNGIEIPYQKIDINLKK;locus_tag=LOCUS_00490;note=WP_011073210.1 mechanosensitive ion channel (Shewanella oneidensis) [pid:40.2%25%2C q_cov:98.1%25%2C s_cov:93.8%25%2C Eval:2.2e-51],MGA_50
sequence01	MetaGeneAnnotator	CDS	53921	55204	.	-	0	ID=MGA_51;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016234.1;translation=MKEKKLKLLTIISYALGQLGWSMLMGIINIYLVWFYLAPKEANLPKYIPQGNILGFLTIIGLITMTGRFLDAVTDPWIANLSDKSKSKYGRRISFMMKSAVPLAIFTTLVFYSPVNSISLINVIFLVITLFSFYIFYTMYVTPYFALLSELGQNSNDKINLSTAISVTFFIGTAIAFFAPSFWNIFIANGMEKVLAIRITIGLMALVALIFLFIPVFTIDEKKYSDNKPSGQNMLDSIKSTFSNKNFLMFTISDLMYFTALTVFQTGLIYYTTVLMRLPEAMMGILNMMLVLFSFIFYPIVNILAKKIGKKKMLVFAFFNLMLTYLYIFFLGMEFLTISTKVQAYILVIVTSLPMAIFGILPNVVVADIAADDAERTGQRNEAMFFGVRTFMSKIGQMLAMLIFSSLLVFGKDVGHDLGIEVKFCIK;locus_tag=LOCUS_00500;note=WP_011016234.1 MFS transporter (Fusobacterium nucleatum) [pid:28.8%25%2C q_cov:96.3%25%2C s_cov:88.8%25%2C Eval:4.9e-42],MGA_51
sequence01	MetaGeneAnnotator	CDS	55298	56200	.	-	0	ID=MGA_52;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948255.1;translation=MEKFIFNAKDNKLITTFKWLIRKPKAIVQIIHGMAEHAKRYDEFAKFLNENGYSVYATDHRGHGETLESNEMLGEIGKDGFNKMIEDEILLTEIIKKENNNLPVYVLGHSMGSFILQEYVIRNSKNIRKAIFSGSCGKMGLELNFGKIIAKLEMGNNKVKPSKIIDFLNFGMFNLKFKNKKTKQDWLNRDEKEVEKYIKDPLCGGIFPSQFYYYFYDGLIKLKDLSRLNNINKNLEIYIFSGEMDPVGQFGKGVKRLYDAYKNTGIKDVSMKLYRDGRHEMLNELNKQEVYRDILEFFKK;locus_tag=LOCUS_00510;note=WP_011948255.1 alpha/beta hydrolase (Clostridium botulinum) [pid:48.2%25%2C q_cov:98.0%25%2C s_cov:95.2%25%2C Eval:9.1e-76],MGA_52
sequence01	MetaGeneAnnotator	CDS	56214	57653	.	-	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKIFGNEISDKVVKKALKKQKSYIKKFGDDRDKNYKLKVKDIESLDNINLKNIVISNEGKEIEKEKGIIIGNIRMGFGHYRIAMAIASAANAMGYIPYWFDLLSFKEANSSKIISHLNDLYSLGSRLSQKSKLFNKFYWEKVTTDGFKSIEYNFIDQKMTELMTSIYNNLDKNIPYIATHVWNAQTAIHSGMKKVINVIPDNFPLGLHLAEGSLHTLQTPSSYMGYRALIDMSKKNRLKEIPSSDIKYTGHYVDHELVENIEIDCKARLKRIENGENRRVLISIGGAGAQQGIVENIIRYMLEDIKNEKVALFINLGDHKNVWENIEKNIKGIEILAKKYFNKYNEVKDLSNILKTEEAKGLYVIYNENIFEAVYSTNILMRDADIFITKPSELSFYPVPKLLIERVGGHEAWGAIRSSEVGDGTIECRNLAQTLQFLELMLKENDLLELMCNAIIKNKKIGIYNGAYEVVKLAIKK;locus_tag=LOCUS_00520;note=MGA_53
sequence01	MetaGeneAnnotator	CDS	57684	59378	.	-	0	ID=MGA_54;product=alpha-galactosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001201677.1;translation=MKKFKIIYKVENKKVKKEIILEKNYICKDFSLNIKSNGNYIELLPNKLIIIEKVLMEISYEYIKSDKIFINGYQSWSDSKEVDINYKERKFNFLISPIVKKYKFKQYGDYNFYNYKNRSGIFHSSTYTYIKSKKNIYFLGSLNDYKSFTFIEHNTKQNKITFYKDLEKKEINSKITLFNIINIIDTNESKIFEKYFDILNLEKKENKKVNGWCSWYNYYENITEKIILKNLDNFFKEKTKLNYFQIDDGYQNAVGDWLLINNKFPKGMKYLAQEIKNKGYKPGIWLAPFAAEKKSILVSEHPEWILKDENGKFVYGGSNWSGFYALDIYNSDFREYLKNVFDVMINQWGYKLFKLDFLYVACLIPRKDKTRAEIMRDAMLFLREIIGDKEILGCGVPLVSAFGVVDYCRIGCDIGLDWDDKWYMKYMHRERISTKNAIRNSIYRYHMNGFAFYNDPDVFLLREDNISLSENEKETLFWINNIFGTLVFTSDNISKYNKKQKKMYKFSQEIKSREILNVKEENNIFEIKVKLNSKKNIFYINLNDKKIKYKNIELEKHQTIKKEY;locus_tag=LOCUS_00530;note=WP_001201677.1 alpha-galactosidase (Leptospira interrogans) [pid:32.7%25%2C q_cov:82.4%25%2C s_cov:77.9%25%2C Eval:3.6e-59],MGA_54
sequence01	MetaGeneAnnotator	CDS	59660	60268	.	+	0	ID=MGA_55;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903848.1;translation=MTPEEKKEIQKQRIKRFFIDATKDLLREEGLNSISTKKIGDKAGYSYATIYNYFSNFNELICISLEELANEMKEVLEESSKNLENNIGKLLELLNISIDYTIQNQHVYKLFLSTTIDYNYFKYTKNKRFIHPAYNLLISTIKNLKEFSNFSDEDIQNFADLVFTLFHSKIQFFLIQKYPENIENLKQDIFNNLNFLIKNTIR;locus_tag=LOCUS_00540;note=WP_005903848.1 TetR/AcrR family transcriptional regulator (Fusobacterium nucleatum) [pid:25.0%25%2C q_cov:95.5%25%2C s_cov:97.2%25%2C Eval:1.3e-14],MGA_55
sequence01	MetaGeneAnnotator	CDS	60275	60829	.	+	0	ID=MGA_56;product=chromate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948278.1;translation=MKKYFELFFVFFKIGAFTFGGGYAMLPIIEKELVEKRTWLSKKELLDITAVAQMTPGAIATNTATYLGFKQKGILGACSATFGVILPSIIIITLIYKLFSQNFDLPIVKSAFLGIRSAIIALILNSVIKIFKHSIKNKYTLTLFIISISILIIFNINPILIIVFTGIFSFILSILFKDMFKKML;locus_tag=LOCUS_00550;note=WP_011948278.1 chromate transporter (Clostridium) [pid:40.4%25%2C q_cov:92.9%25%2C s_cov:96.1%25%2C Eval:1.7e-31],MGA_56
sequence01	MetaGeneAnnotator	CDS	60923	61822	.	+	0	ID=MGA_57;product=sensor domain-containing diguanylate cyclase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870317.1;translation=MIENFPKEILEKFYEGIYFVDNNRKILYWNKGAEDISGYKAEEVINKHCFDNILMHVDNTGNQLCKNGCPLHKTLQDHQYRETKVYLHHKNGHRVPVYIRTFPMFDNNNQIIGALEIFSDASFQKEILKKLKKLIMIDKLTGIPNRRYFEAQFDSKLLNYKKTNIKFAIAILDIDQFKKVNDIYGHDVGDKILKIISNTLISNIEPTEVVARFGGEEFMLLLNENNLDKLIFKIDKIRTLIENSGFKVKKDEKEFEVKVTVTIGATIIEKNDDFDSVYSKIDKFLYEGKNSGRNISIVK;locus_tag=LOCUS_00560;note=WP_012870317.1 sensor domain-containing diguanylate cyclase (Thermanaerovibrio acidaminovorans) [pid:40.5%25%2C q_cov:96.3%25%2C s_cov:96.6%25%2C Eval:4.8e-61],MGA_57
sequence01	MetaGeneAnnotator	CDS	61905	62366	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPIIEKEVVKNGWLSTKEFLDIVVVSQMTPGPIVVNSATYVGNSIAGIPGAIFATFGVILPSLIIIISLANLLRTLENNYYKKSFFMSLRPVIISLILYAGIIIAKNTYFINSKINYISIILTLVCLYLIKKTNIHPISIILISAIIGIIIF;locus_tag=LOCUS_00570;note=WP_011948277.1 chromate transporter (Clostridium) [pid:38.6%25%2C q_cov:85.6%25%2C s_cov:71.3%25%2C Eval:3.0e-21%2C partial hit],MGA_58
sequence01	MetaGeneAnnotator	CDS	62412	62921	.	-	0	ID=MGA_59;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005654343.1;translation=MNLLNKLFKYFNQTKNKIKVVDISSPIDGEIISLEEIPDEAFAAGVIGDGVGIIPEENSSIIYAPCNSELSSIFDTLHAISIEIQELELIIHFGIDTVSLKGKGFTKLKEGEKIKKGEKLIKYDLNYIKENAKSICTPVVIANMEKVDKIEKKTGKIKAGDLLMRVYLK;locus_tag=LOCUS_00580;gene=crr;EC_number=2.7.1.199;note=WP_005654343.1 PTS glucose transporter subunit IIA (Haemophilus) [pid:41.7%25%2C q_cov:95.3%25%2C s_cov:95.2%25%2C Eval:1.3e-29],MGA_59
sequence01	MetaGeneAnnotator	CDS	62982	63344	.	-	0	ID=MGA_60;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MGKKVMIVDDLFYIREEIREILEKNGYEIVTEASNGKEAIDKAFLFEPDIITMDMNMPKINGIEASRKIKKRMPNVKIILVSTMAGFSNIKKIAKEVGINEFVSKPFDSLNLIEKIKKLN;locus_tag=LOCUS_00590;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:41.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.6e-22],MGA_60
sequence01	MetaGeneAnnotator	CDS	63371	64879	.	-	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITDKEYLIFAGVSYSYFEKSDKGKTLRELFNTNKNRIMDSNSLFRKMDYLKNSELLNDYFEDVLDKFIILDVMDRTGYNKLVKNPTGFYAIAFQKIETKEVVISYRGSEVYPIREAYKDFLKTDLLIGIAKKPKQFDEGLLFYKLILDSVDYTKISITGHSLGGGIAQYVAVMSEEVLNDKEFVPETITFNAVGILAKGMIDVDHFFNYEKELKKNNFVRITFKKDLYKIIPLIKMLIINKNKYIKNGVVEKLVDKEEFDLNITKEDLNLISLTIKTFTFNKYTNKELEILFKFLLNKEIVYSFIKKSYEFFIKFSENLKYREKVKNYLHSDDFTSKYFPHIGISIEIDKEFKRVQNKIILDVIELMKRRSIIIEKNHMLDVFIPFIDKKTNNFHNNLEYDYIASFFRKIIFENGINNNEVLYLYFSRKDKLNEKEISLVKMKFVDYIKNSKNLRFQEKFLKELKNITNKDFIKLWNILIEKMSIPYKYKDIYDLIIFKKK;locus_tag=LOCUS_00600;note=MGA_61
sequence01	MetaGeneAnnotator	CDS	65133	65978	.	+	0	ID=MGA_62;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016856.1;translation=MIKVGHRQELKVNNISSIGAYLDAGTSDTKDNILLPNNEFVDLDIKVGDSLNVLIYRDSEDRLIATLRETKVVAGRIEKLEVVDKAPIGAFLDWGLNKDILLPKDQQEIDVEIGKKYLVGLYEDKKGRLTATMKIYKFLLPSTKLKKNDITTGTVYRINKDIGVFVAIENRYFGLIPNSEAKYSEFKIGDEITVRVIRVREDGKIDLSPRQLSYLEIDEHSNIIYKYMENNNGILNLTDKSSPDSIKKILNISKKSFKKAIGNLLKNNKIIKIEKGFKIIK;locus_tag=LOCUS_00610;note=WP_011016856.1 S1 RNA-binding domain-containing protein (Fusobacterium nucleatum) [pid:60.5%25%2C q_cov:91.5%25%2C s_cov:91.5%25%2C Eval:7.0e-83],MGA_62
sequence01	MetaGeneAnnotator	CDS	66117	66986	.	-	0	ID=MGA_63;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259004.1;translation=MLNMKEIKKKYFERTDSWPKIILIYTVLILIAFLTTYPLLNVLSVSLRPGDQLFSMTLKLIPDNWTLENYRIALFEKDLLIWLKNSLIISLVTAAFGVVLSISAAYSFSRFRFWGRKSGMMIFLVTQMFPAPMLLLPMYILLVKLGLINQFLGLLIPYIATAVPFSVWNLKGYFDTVPKSLEESAYIDGCNVVQALIKIVLPLSTPAIAISFLFSFMTAWSEYIVARIILTNKKLLTLPVGLVNMQGQFATSWGIYSAAAIITSIPVIILFVSLSRYLVGGLTVGGVKE;locus_tag=LOCUS_00620;note=WP_012259004.1 ABC transporter permease subunit (Chloroflexus aurantiacus) [pid:41.4%25%2C q_cov:95.2%25%2C s_cov:98.9%25%2C Eval:2.3e-60],MGA_63
sequence01	MetaGeneAnnotator	CDS	66979	67887	.	-	0	ID=MGA_64;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003976584.1;translation=MKNKETANQLLMKKSTPYYFIAPALTILALMVFYPLLYGFWLSLTNMSLKTFRHPQFIGFDNYVRVFTDPRLVKTLIRTIIWTVVNVFFHVTIGLWLAVLLNRKLPGKAFLRVFLIIPWAMPQYIAALTWRGMFNFKFGAVNIFLSKIGIPPLNWLSQPSLTFLAAIITNIWLGFPFMMMVALGGLQSISKNLYEAAEIDGATPWQQFKNITLPLLKPVMTPSIVLGTVWTFNMLNVIIIIANGFGNEETQILVTDVYRLAFQFYRYGYAAAYSVVIFLILLLFGVVFVAKSNIIGGDESHA;locus_tag=LOCUS_00630;note=WP_003976584.1 sugar ABC transporter permease (Streptomyces) [pid:40.7%25%2C q_cov:88.4%25%2C s_cov:84.1%25%2C Eval:2.3e-50],MGA_64
sequence01	MetaGeneAnnotator	CDS	68042	69316	.	-	0	ID=MGA_65;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250722.1;translation=MKKKLLTGILATTLLAGLATEANAGLFKKKAKASNESQEIVVWEQMEPTGLEVFTEIVNDFMAQNPNIKVTVTHYPNEELRTNFQNASLAGQGPDIVYGPNDNIGLFIVSDLIKPVDEVVSNEFLSKIEKNSLEAGKINGKYYQIPDMNGNQIALLYNKAMVKEAPKTWDEFYSIAKKYQKVDELNPENSTYGLLYNEKEPYWFIGWYQGYGGRVMDENYNPTLNNEAMVKALQFAYDIRNKYGLGEAGMDYDMSSQLFKQGKAAFLLNGAWSWQEYINAGIDLGIAPMSTLPNGGGNATFYSATKGFSISSSVEEDKYKAIATFFDFVLSPENNAKYAKAQSQAPSVLAARELPEIKNDPLQRASIATIEKTTPMPIVAEMRAIWDAMRPNLEAVINGSLTPAEAAAKMQEDAEYGIRTIRGE;locus_tag=LOCUS_00640;note=WP_011250722.1 extracellular solute-binding protein (Thermococcus kodakarensis) [pid:29.2%25%2C q_cov:82.5%25%2C s_cov:76.1%25%2C Eval:1.9e-38],MGA_65
sequence01	MetaGeneAnnotator	CDS	69514	70335	.	-	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIIEVLNLSGIYFITTDFEWNILEISKEFLKKLNYSSKDILTLKIIDLITEEYKETITMFLLNYKGEPMKHNINWNFHTKYNYINSCKVTSMKYNEKIIFLLTEENIHNKITNNSLNMLTGEKSINFFIEEIEKDLYIDKDIKFSILSINIENFNRIIEKYGFEKKDYIIDLFLKKIRKIIPIDNVIATTETNQIYIYLKRVNTKLIVLHYINSILEESKKIIFFGNKIEFILKMGVSMYPDNGSDIKVLIDKSNLAATYPNTINYYFYKD;locus_tag=LOCUS_00650;note=MGA_66
sequence01	MetaGeneAnnotator	CDS	70462	71052	.	+	0	ID=MGA_67;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002656023.1;translation=MIFIDGVVGAGKSTLAKILADELNIPLYKEPVFENPILDKFYHNKKKYSFPLQIFLLNKRLKMVNDAMKTNGVFDRSIFCDIIFANILTEDGDMLKEELELYKEVSENLLSHITLPELTIYLEISTDNAINRIKQRGRDFELLMPRDYWEKLNIHYRNYFKNYNKSKLLIINVDNLDIVNNEIDRKKILEKIKKNL;locus_tag=LOCUS_00660;note=WP_002656023.1 deoxynucleoside kinase (Borreliella burgdorferi) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:1.3e-38],MGA_67
sequence01	MetaGeneAnnotator	CDS	71105	71266	.	-	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMIDIIEEFRHRKEKNETLSDILNLFISDCSLIKEFKNRKESNNTNFNDYLYY;locus_tag=LOCUS_00670;note=MGA_68
sequence01	MetaGeneAnnotator	CDS	71491	71829	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNYLNKYLNNLPFLKYLDDLELIYFLSISKDISKIENNKIAEKNYEIILNELFEKIKQENIIYFYEIMDFYQYEIDRNPKKVENYLNDLLKKIEIISKNYNKKYIIINQE;locus_tag=LOCUS_00680;note=MGA_69
sequence01	MetaGeneAnnotator	CDS	71846	72589	.	-	0	ID=MGA_70;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903463.1;translation=MKEILKHENEVLIDLLNIEGMKIIQRNDYLNFSLDSVVISHFLTINRGVKKILDLGTGNGVIPLLLSRRCTAKIYGLELQETSVDLAKRNILLNQLDKRIEIIHGDIKKWNDFFEYQSFDAVISNPPFFKFDGNKKQLNNLDQLTLARHEISITLEEIVKAASNILRERGYFAMVHRADRLEEILEIFSKYKLTPKRLRFCHSKLERESKIIVIEGMKNAEKGLKILPPLITHEGRDYSKEIKELFK;locus_tag=LOCUS_00690;note=WP_005903463.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Fusobacterium nucleatum) [pid:52.3%25%2C q_cov:96.4%25%2C s_cov:97.9%25%2C Eval:5.7e-67],MGA_70
sequence01	MetaGeneAnnotator	CDS	72734	73723	.	-	0	ID=MGA_71;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682235.1;translation=MKGRSFLTLLDYTKEEIFYLIELAKKLKTDKKNGKEEKYLKNKNIVLLFEKDSTRTRCAFEVGAYDQGANVTYIGSSGSQIGKKESIKDTARVLGRMYDGIEYRGYTQEIVETLAEYSKVPVWNGLTTEFHPTQVLADLLTIKEHFGKLEGLNFTYFGDGRNNMANSLMIGCAKVGINFRLAAPRELWPEEKLINEVKDLAKTSSIQLTENIEEATKESNIIYTDVWVSMGEPEEVWDKRIKLLKPYQVNKKIMDMANKNAIFLHCLPSFHDLNTKIGQKIYNKYGLECMEVTDEVFESEKSLVFDEAENRVHTIKAVMVATLHGKIKL;locus_tag=LOCUS_00700;gene=argF;EC_number=2.1.3.3;note=WP_002682235.1 ornithine carbamoyltransferase (Treponema denticola) [pid:65.8%25%2C q_cov:98.2%25%2C s_cov:96.2%25%2C Eval:1.5e-122],MGA_71
sequence01	MetaGeneAnnotator	CDS	73777	75096	.	-	0	ID=MGA_72;product=dicarboxylate/amino acid:cation symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005481619.1;translation=MIIYKIYYLDLNNIFEKSYKNYIIFVYSSVKGDDFIMKKGKINLGVAILIAMILGIIVGAVMGPKATIFAPLGHVFISLIKMLVIPLVTVSIILGASSLGGTKSAGKIGIGTFVYYLGTTAVAVTLGLIMGGIFKPGLGLSEAALPKEFLDMAGSLADKGEIAGFWDTLIGIIPTNPINSLVTGNILQILFFSLFLGIGLSAISKEKREPVLTVLTGLNEAMIWMIMKVMIIAPIGVFGLMADAVGTFGYDILALVVKLLLVYTITLLIQTFGVYPTLVKTFSKKSPINFIKKISKAQIVALSTSSSMATLPVTFEVCEEDLEVSNETTSFVLPLGATINMDGNAIYYALVAMFFAQMYGITLGFPQYIAIIITATIGSIGQAGVPGPSLLVVAVLLSAGLPIQALPLLFGVDRVFDMMRTAVNITGDASCAVIMDEIK;locus_tag=LOCUS_00710;note=WP_005481619.1 dicarboxylate/amino acid:cation symporter (Vibrio) [pid:54.5%25%2C q_cov:90.2%25%2C s_cov:93.8%25%2C Eval:1.3e-117],MGA_72
sequence01	MetaGeneAnnotator	CDS	75227	76123	.	+	0	ID=MGA_73;product=MipA/OmpV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016359.1;translation=MKKILLIFSAIMLYSNLAFSAVENLSTGDVYLFGESNNNNLTVQDNQETLALDEFDIQNNTQSSATATTDRFQIGIALTTGKREYKEMAKFEFMPLFDIKYKQFYLDKTVAGIYIIQNEEIKVSLVGEYNMASYDASKLPSPYNIIMNNRDNEIHGGFGITFTPITDNNIEFNLRLTRDFVGKSNGFKTYIEAIRTIPYTQSIILKPKVLYTFMNRDYINYYYGVTSSEAAKDTDVTAYSAQTSGYKFGFGFDLDYQISRTFTIKSFNKIEWHSNEITESPITEDLSIEIGGGFVLSL;locus_tag=LOCUS_00720;note=WP_011016359.1 MipA/OmpV family protein (Fusobacterium nucleatum) [pid:23.8%25%2C q_cov:77.5%25%2C s_cov:93.1%25%2C Eval:5.9e-11],MGA_73
sequence01	MetaGeneAnnotator	CDS	76157	77200	.	-	0	ID=MGA_74;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966318.1;translation=MSKIVKLKDVAKLAGVGIGTASRVLNEHPNVKDSTRRKVLDAMRELNYTPNNIARSLKSKSTRTIGVILIELSSAFYSDIVEGIEDTANEYGYSIFLNNTRKYEDRILESIQMMCEKKVDGIIYLGGTLTEEIQNKLLDANIPVVLISTGTNFKRKDTTEVFSSINIDNETAAFEAVTYLCELKHKKIAMLTINKDDKNSAMPRIKGYRRALEKNGIEFNDDLVFECEQSYQSGYETMQKILKLEERPTAIFSYSDLIALGASRAILQSGLRIPEDISIVGFDDIETTKYFYPAITTMRQPRYVMGSRGMELLIREINDKEGFKQHVILPVTLQIRESTSQKIKDLI;locus_tag=LOCUS_00730;note=WP_010966318.1 LacI family DNA-binding transcriptional regulator (Clostridium) [pid:40.5%25%2C q_cov:95.7%25%2C s_cov:98.2%25%2C Eval:4.9e-63],MGA_74
sequence01	MetaGeneAnnotator	CDS	77451	78644	.	-	0	ID=MGA_75;product=trans-2-enoyl-CoA reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963784.1;translation=MIIEPKYKGGILLTAHPEGCKKLVEKQIKYVKNNKSYNGAKKALIIGASSGYGLATRISLAFGGSKTDTIGISYENGPRGKRTGTAGWYNNIFFKEAAEKEGLKAKNFVGDAFSLEMKDEVIKYIKEEFGKVDLVIYSLASGRRKDPIDGETYISALKSTTGDIVGPTVDLKNDTLIQQTMENATEEDIKATVKVMGGEDWELWIKALLEADVLEKGARTFAYTYIGPKITYGIYKDGTIGAAKRHLEKTAKELNKILKEKLSGEAAVSSNKALVTKASAYIPIFPVYATLLFKVMKEKGTHEGCIEQTHRLFLDMIYGDNPIIDKEGRYRPDNLEMEEDVQDKVNELWKQINENNFKEISDYAGFKKDFLQLGGFEVEGIDYSKDIDLETYAKLIP;locus_tag=LOCUS_00740;note=WP_010963784.1 trans-2-enoyl-CoA reductase family protein (Clostridium) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-120],MGA_75
sequence01	MetaGeneAnnotator	CDS	78870	79637	.	+	0	ID=MGA_76;product=RNA polymerase sigma factor RpoS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002557358.1;translation=MNIFNFKIDNVFTKDKEIELFNKYKNGDYSAKEDIIKHSLNMVLKIAHNNKKYGLDLEDLVQEGIIGVMHAIEKFDIKKNIRFSTYVYPWINHYINNAINTTSKQIRLPQNLILLSKKIKKLQEEYQNNLSLEHISEKLSLSLDKVKSLLSYHEYSFLSLEQNINDFFNSKFETAIEDIKSSNIFNKIEILDQISDMLSKLTDKEAEIIKLRYFKEETLKKISEQFGITKEGVRQIEKRALEKLRTIYFNKSVTI;locus_tag=LOCUS_00750;gene=rpoS;note=WP_002557358.1 RNA polymerase sigma factor RpoS (Borreliaceae) [pid:34.8%25%2C q_cov:96.1%25%2C s_cov:98.5%25%2C Eval:7.6e-30],MGA_76
sequence01	MetaGeneAnnotator	CDS	79698	80483	.	-	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRILLVGLMVSSLAFANGFNNNGKNQEGIMKNGNGRGMFLNLTDEQLQKIKELKEADYKEHKDELYQIEKNNIAIERLLNSETIDDTKLKELITANEELKETLRLDSFKVREEIEDITGRETNKIARKNHGMKGQMNFREDNLQNNREIIGKNQKRGNQKGQGINRPIGREDNKNQKNNILDEEIKDLLLDVREKMLDIDNELSNDNVNWEKVKTLNSELTPLLTELEYKKIINRKERKSYIKGQNQKRGNFRGFKQNR;locus_tag=LOCUS_00760;note=MGA_77
sequence01	MetaGeneAnnotator	CDS	80742	81161	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIFNLIQNEELLNIQENIFKFDFSKRNSAGNTALHEAVRLGNYDIIDLLVQYIDDINCKNLNGDTPMHLAVELGDYEIVSLLLDYNANPNIENNNRVTPKKLAILQKKESIYQLLINEDFYNFEEIKHKKHFDDEYSY;locus_tag=LOCUS_00770;note=WP_011016207.1 ankyrin repeat domain-containing protein (Fusobacterium nucleatum) [pid:35.1%25%2C q_cov:69.8%25%2C s_cov:29.8%25%2C Eval:2.6e-09%2C partial hit],MGA_78
sequence01	MetaGeneAnnotator	CDS	81190	82809	.	-	0	ID=MGA_79;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437464.1;translation=MNFNEFNIKEEIKRAISDLGYIEPTEIQEKAIPLLLEGSDIIGQSQTGTGKTAAFAIPALNKVDISIKAPQIIIVCPTRELAVQVSNEFEKLSKYIRGLNVLSIYGGTSIERQIKALKRGVQIIVGTPGRIMDHLRRRTLKVDNINTVILDEADEMLKMGFREDIETILEDVNENRQTVLFSATMPQVIMNIAKKYQNNPKIVKITQKTVTSDTIKQHYYLINERDKNEAVNRLVHYYNPEKSIIFCNTKNKVDDITEQLQKLGLQCEKIHGDLKQEARMRVLQRFNKGDLQVIIATDVAARGLDIQNVELVINYDLPDKEEYYVHRIGRSGRAGKKGHSITLTTPREKRKLINIEKYINKEITKKLIPSKEDLKLKQMENFLFTIEENIEKSNDLDIYFEILHNLFDRGYEINEVAAVLLKMNTEFYEDEKSKDDINYKENKKNRDGRNSRDRKGSNKDTTRMYLNAGRKDKITKKDVLGAILNECNLKSQDVGDIDILDKFSFVEIRKSKADKVLKILNDNKQIKGRKISIEKAKKR;locus_tag=LOCUS_00780;note=WP_003437464.1 DEAD/DEAH box helicase (Clostridioides difficile) [pid:45.7%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:5.9e-136],MGA_79
sequence01	MetaGeneAnnotator	CDS	82900	83445	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKCPICSFDVDENLTKYKLKKENEIVYFCGPKCMEEYQGIKEEKKDFTKIFESSKVLAIVGLSPNEARTSYQVAAKLKGFGYEIIPVYPKAEIILGEKVYKSILDIEKEIDTAIFFINSKLVYPLVKEAIEKKVKTIWLQEGVISKESKKMAFHNNINFVMDRCFYKEHINYINNKNNFN;locus_tag=LOCUS_00790;note=WP_011393898.1 CoA-binding protein (Moorella thermoacetica) [pid:44.1%25%2C q_cov:69.1%25%2C s_cov:94.6%25%2C Eval:5.0e-20%2C partial hit],MGA_80
sequence01	MetaGeneAnnotator	CDS	83656	84288	.	+	0	ID=MGA_81;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986880.1;translation=MNKNCLFVGIAGGSGSGKTTVAQNLVSAFSPSDVVLISQDSYYRDNPDMSFDERSKLNYDHPNSIEFELLKQHLLDLANGKSIKKPIYDFTNHARKEEYEVVEPAKVIIVEGILVLAVPEIRKLFDTKIFVDTDADEMLLRRIERDINERGRTFDSVKKQYLSTVKPMFLEFCDPSKRYADVIIPRGGQNKVAINMVIAKLKRFLKKGAI;locus_tag=LOCUS_00800;gene=udk;EC_number=2.7.1.48;note=WP_011986880.1 uridine kinase (Clostridium botulinum) [pid:54.6%25%2C q_cov:97.6%25%2C s_cov:99.5%25%2C Eval:4.6e-61],MGA_81
sequence01	MetaGeneAnnotator	CDS	84292	85050	.	+	0	ID=MGA_82;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949043.1;translation=MKIYSWNVNGIRAAERKGFIEWLQKENPDIICIQETKAQEEQLSDKLLNIGEYKSYFMSAEKKGYSGVAIYTKIKPNNIYNLGIEEFDNEGRVIIAEFNNFILLNAYFPNSQEKGKRIDYKIAFCDAILDYANNLVKKGKNILICGDYNIAHKEIDLARPKQNEENPGYLPAEREWMTKYLSNGYIDIFRHFYPNTIKYSWWSYRARARENNVGWRIDYFTCNKDFINNIKSTDILTEIEGSDHCPLFIEII;locus_tag=LOCUS_00810;note=WP_011949043.1 exodeoxyribonuclease III (Clostridium botulinum) [pid:55.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.6e-85],MGA_82
sequence01	MetaGeneAnnotator	CDS	85135	85389	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEIKDFINKDPDILYKEIKSDLDKGMKIIVDFKFIPNITYDFLNSTIGKIIKEYNFDIIKNKINFINVDIEIREMLFKIVND;locus_tag=LOCUS_00820;note=MGA_83
sequence01	MetaGeneAnnotator	CDS	85483	86271	.	+	0	ID=MGA_84;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861671.1;translation=MIKLIATDMDGTLLNNNHEISKDFWEVLEEIKNKNILFCVASGRQYYNLLEKFYKHKDDILFIAENGNYVIHQEKEIFSNSLNKKIIPEFIKLVREIDDCYIVLCGKKSAYVEDDYKPFLNEVGKYYAQYKIIKDLEKINDDILKVAIYDFKGSEHNVYPYFKKFEDKYKVVVSAKHWLDIMTLNGNKGVAIQKVQKKYNITKDETMAFGDYLNDLEMLENSGYSYAMENAHPKLKEIAKYITHSNENNGVVKTLKEVLKNL;locus_tag=LOCUS_00830;note=WP_011861671.1 HAD family hydrolase (Clostridioides difficile) [pid:50.4%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:5.9e-73],MGA_84
sequence01	MetaGeneAnnotator	CDS	86380	87312	.	+	0	ID=MGA_85;product=L-lactate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005479617.1;translation=MKISVIGAGMVGTDIVSYLFNVGNFSEIVLVDINNEKSYAEIMDFRHTQSLFYTKNTKLNYGTYKDCKDSDIVIITAGIQVKKGDTRESIAAANSKITVEIVKELEKYTPNSILILVTNPVDVVTYFAIKHSKFPAHKVMSSGTLLDTSRLTYYLSTKFDIDPKNINAYVFGEHGKTCFIPWSLCNIFGVNIDTFTKINNFPSINKKEVEKYVVDSGFDIFLKKGNTNHGIAASIYRIVRAITVNEKSILPVGLYVNNIYDINDIVLALPAIISKNGIEKILKVELNEAEKEKLRDSADFLKKIINTVKI;locus_tag=LOCUS_00840;note=WP_005479617.1 L-lactate dehydrogenase (Vibrio) [pid:43.4%25%2C q_cov:99.4%25%2C s_cov:97.5%25%2C Eval:4.2e-71],MGA_85
sequence01	MetaGeneAnnotator	CDS	87326	88240	.	+	0	ID=MGA_86;product=branched-chain-amino-acid transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061049.1;translation=MVDTQKIWMNGNLIDHDDAKVHVLAHALHYGTSFFEGIRAYETKKGTAIFRLDEHIDRLFNSCKIYRTDVPYSKEEVKQAIIDTIKANNLKAGYIRPLIYRGYNVLGVNPVKCPVEVMIAVWPWGAYLGEEALRNGIKAQISSWRRLAPNTMPTMAKAGGNYLSSQLIKMEALENGYDEGIALDYSGNVSEGSGENLFAILDDVIYTPPIGSSALVGITRDTIIKIAKNLGYEIKEQVIPREFLYIADEVFLTGTAAEVTPVDTIDNIKIGKGKKTITHKIQDEYFKLVKGELIYDEKWLTYVK;locus_tag=LOCUS_00850;gene=ilvE;EC_number=2.6.1.42;note=WP_048061049.1 branched-chain-amino-acid transaminase (Methanothermobacter thermautotrophicus) [pid:55.9%25%2C q_cov:98.0%25%2C s_cov:97.7%25%2C Eval:2.2e-101],MGA_86
sequence01	MetaGeneAnnotator	CDS	88399	88824	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNINDISIRQVVNFNISEILIENGYNYESINDSVALVTLKDIDTKTIIVKQDNILFIQQEIINLNQLKEDLTLYKKLLDLNTEILPVSIAIDSTDEKNQKLVINESLNITNLDVNEVLQVFEAIELALPKIFNIIKEYK;locus_tag=LOCUS_00860;note=MGA_87
sequence01	MetaGeneAnnotator	CDS	88871	89548	.	+	0	ID=MGA_88;product=PspA/IM30 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140900.1;translation=MGIFDRLGKVFKSNVNSIIDKMEDPEKILEQNILDMEKEYTKAKQAIASTKAEEIRLTKQIKFLEQEINKWVNNAKAALNAGNEELAKKALEKKQALTKELEQIKNDRNSISTSTEKLISDLKMMENKIEEAKRKKDLLKSRIQSAKAKKKINELKSTTSTIGKSAFDSFSKMEEKANKIINEADAIEEINKELTGEDLEAQFESLNGNSDVDDELAKLKSELNK;locus_tag=LOCUS_00870;note=WP_011140900.1 PspA/IM30 family protein (Gloeobacter violaceus) [pid:35.0%25%2C q_cov:99.1%25%2C s_cov:91.6%25%2C Eval:8.7e-32],MGA_88
sequence01	MetaGeneAnnotator	CDS	89567	89806	.	+	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNNKMLFMIIIIFLLFVLISSCERRAYFYPSHGGFFWWWGGSRRTTIINNNITTKPFSTSKRTSSSRARNRSFSSGK;locus_tag=LOCUS_00880;note=MGA_89
sequence01	MetaGeneAnnotator	CDS	89834	90679	.	+	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNIININDIYTITTIIIVVILALLVKKFFNLTNKEELNKIINGKSNVFAIRFAAILFGVIYASSGEIFGGSIGLFNDIISFFLYSILMFILIFIAVFIGDKLLLSEINNIAALKKGNTAVALFELCYIIATSMTARATLIGDGGSVISVLLFFILGQTVLILFFLIALKLTPFDDVKEISKNNIAASLFLGGLLLAISVINYYSLLGDSTEMLQDAIFYIISAIKGGVLLLLFGYSIDKIIFPKVNITNEVIEKDKNWGLIFIVSMLTIAVSIIIGANL;locus_tag=LOCUS_00890;note=MGA_90
sequence01	MetaGeneAnnotator	CDS	90679	92379	.	+	0	ID=MGA_91;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880867.1;translation=MQNKITNNKSEKKYILLLFAVSMFFTGMSGIINEYILAKLSTDILGNSAIQWGIVIGVMLLMMGIGGSIQLLIKNNQLITGFVTIEILLAILGSSAPIVVLWAFGYTSHNFLLFLYFYIIFIGLLVGAEIPLLIRLSKLYLKETTHVISLIFSMDYIGSFIGTLVWLFFIIKIKLPLYKMSYVVASFNFIAALITFLYLTKTERNKNNGKIIIFIITSFMIIYSFINSDKWENLIYQKLFKDPIIYKIDTPYQSIVLTRNSTTKKHYLYINGNTQLYEGDEKIYHESLVIPALSLWNRSRVLILGGGDGCALREVLKFKDVKEVTLVDLDPEMIKFAKNNPIMKKINNNSFKDSRVQTLKADFINYTDKQKDIYKEKGYNFETKLYEYEKIAKVNVFNVDAKKFLENVNKFYDVVIIDFPDPNNIELTKLYSLEFFINVKRKLSKNGVFVMQSTSPTYSKKAFWTIKKTMEAAGFNTVPYHIDVPSFGDWGFIMGSQRKINKDYLISRFKNLKNWEVKTKEIDPATFISSLNFRKGLLDDNKNYIINTLANPVLLDFYLLDGWKDY;locus_tag=LOCUS_00900;EC_number=2.5.1.16;note=WP_010880867.1 polyamine aminopropyltransferase (Aquifex aeolicus) [pid:33.3%25%2C q_cov:94.7%25%2C s_cov:97.0%25%2C Eval:1.3e-69],MGA_91
sequence01	MetaGeneAnnotator	CDS	92389	93006	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYTETGTGRIQKVSIKPEDVQLSDFIVIDDTWYEITAIYKYIDVEDDDDYWFDFTGVNEIGEKVYIGVDKNEEYIWEYSIWKIIPKSEVKTHEDMKNITYDNHKTTIKYKDIKYKLYDDNNMLYEAHVISWVNGRNKNPISYPVWISDLEDKTGEKFLSIEVDEDNVVEVSIGEYISNVELIKNEKNIKQKDSILKKLKNLFK;locus_tag=LOCUS_00910;note=MGA_92
sequence01	MetaGeneAnnotator	CDS	93052	94311	.	-	0	ID=MGA_93;product=DDE-type integrase/transposase/recombinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011117505.1;translation=MDKIEKNSIEITRYNIIKPFLKKQKNLKEISKESDVSYSTLKRWVSAYKKNGLEGLKKNTRKDKNTFRILDTETVEKIEEIYTENPAIKILDIYKLVSKINKNINYDTVYRVINNLDPFVKKVVDKNVPFTKTSNEIFEYSYKILNIKILDETTDELKNPFLHIIYDSFSKGICSFYINFEPLTIEEIYLLLRKAILKNNYEYDIYGKPKEFIINNQKVNQKNIFLEIEKKLNIKTFLCYENENSNKDFYYELEEIYLKDFLIYENTELNYKELVKIVKNFIYLTYNYRKYIIWDKNLKQIEFIRDENILNPLLISINSKRKVQIQGVRYNNLFYSNKILNEYIGKSITIKIDYNNMQYIKVYYNNNFLCIAKSESFYNKIINYYEFQAIKRYILIKYYNKDISFTEFIKEFENIIKEY;locus_tag=LOCUS_00920;note=WP_011117505.1 DDE-type integrase/transposase/recombinase (Staphylococcus) [pid:25.2%25%2C q_cov:89.7%25%2C s_cov:85.4%25%2C Eval:8.1e-34],MGA_93
sequence01	MetaGeneAnnotator	CDS	94649	95155	.	+	0	ID=MGA_94;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005654343.1;translation=MSFFKKIFGKKEEKNYVEIYAPFDGDIIPLSEIPDEAFSSKIIGDGVGLIPKTSGTIVAPCDAVDFSIFETNHATSFELANELELIVHFGIDTVQLEGKGFTRLVNEGDSITKGKELVKFDLDYIKSNAKSHKTPVIITSMDMVKKIETSTGSVKSGDLLMKVYLKKL;locus_tag=LOCUS_00930;gene=crr;EC_number=2.7.1.199;note=WP_005654343.1 PTS glucose transporter subunit IIA (Haemophilus) [pid:47.6%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:8.4e-37],MGA_94
sequence01	MetaGeneAnnotator	CDS	95168	96637	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAFTQLQKIGKALMTPVAILPAAGLFLAFGNKLQLPLMEQAGGVIFANLPLLFAVGTAIGLANGEGVAALAAIVAILVMNTTMGIVSGAEAGLAAHDRAFASVLGIPTLQTGVFGGIIAGVIAAMLYNKYYKIELPPFLGFFAGKRFVPIVTAVAAFLIGLAMPIIWKPIQAGLYQLSYLANETNTNISTFIFGVIERSLIPFGLHHIFYSPFWFDFGEYINKAGELVKGDNRIWFEMLKDNVHNFSSATYQGAGKFMTGKFPFMMFGLPGAALAMYHEAKPEKRKIAGGILFSAALTSFLTGITEPIEFAFLFVAPVLYGIHVLIAGTSFMLMNMLGVRIGMTFSGGVIDFIMFGVMPNRTPWWWVIIVGAVLFVVYYFLFRFAIRKWDLKTPGREEDEVESEEVSLGGHELAVLVIDALGGKENLKSVDACITRLRVEVADTSKVNDGELKKLGAAGVLKVGANGVQAIFGSKAQFISNDINKMIR;locus_tag=LOCUS_00940;note=WP_011948935.1 glucose-specific PTS transporter subunit IIBC (Clostridium botulinum) [pid:60.6%25%2C q_cov:99.6%25%2C s_cov:73.8%25%2C Eval:3.4e-167%2C partial hit],MGA_95
sequence01	MetaGeneAnnotator	CDS	96673	99246	.	-	0	ID=MGA_96;product=ATP-dependent chaperone ClpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627102.1;translation=MNEEKYTQKSIEALSSAHNFAIKYKHPLIKEEHLIYALLTQIDGLIPKLLQKMNKDVIGITNKLEAKLNSMPRVEGQNPNSIRLDGHLNQILITAEDIAKKYEDSYISVEHLFIALLKNNNQFLKNENINIKEFEKVLKEIRGNQKVNTQNPEGTYDVLNKYGIDLCSAVKEGKIDPIIGRDTEIRRAVQILSRRTKNNPILIGDPGVGKTAIVEGLASRIVKGDVPENLKNKTIFSLDMGSLIAGAKYRGEFEERLKAVLKELESSNGNIILFIDEIHTIVGAGKTDGAMDAGNILKPMLARGEIQVIGATTIDEYRKYIEKDAALERRFQPIMVNEPTVEDTISILRGLKEKYEIYHGIRITDNAIVSAAVLSNRYISDRKLPDKAIDLIDEAAAKIKTEMNSMPEELDELTRRGMQLEIEKEALKKEKDKASKERLDILEKELAEINEKKNNLKTKWELEKDEINKVQKLKEEIEKVNLQIQEAERNYDLNKIAELKYGKLHELEEKLKEEEKKSENNEEGRMLKQELTSTEITDVISNWTGIPVSKLMESEKEKILLLESHLKERVIGQDKAVKSIADTIMRARAGLKDPKKPIGSFIFLGSTGVGKTYLAKTLAYNLFDNEENMIRIDMSEYMDKFSVTRLIGAPPGYVGYEEGGQLTEAVRRKPYSVILFDEIEKAHPDVFNVLLQILDDGRLTDGKGKLVDFKNTIIIMTSNIGSEYILNDPMVNNETENLVMNEMKSRFKPEFLNRVDEIIVFRALSKEHIKGIISLILKEINKKLKERYLTVELSESAIDLVIENAYDPHYGARPLRRYLQQILETNIAKMILEGKVVENNKIYVDTQNNELVYNIKS;locus_tag=LOCUS_00950;gene=clpB;note=WP_201627102.1 ATP-dependent chaperone ClpB (Fusobacterium canifelinum) [pid:61.6%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.9e-305],MGA_96
sequence01	MetaGeneAnnotator	CDS	99434	101407	.	+	0	ID=MGA_97;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964123.1;translation=MKLKNKMTFLLLVMSVLPILILGSFTYQLGVKNSIDISKHEAKEKIITLKSNINDFFNNVDLHSDILINAYLNRGWDGFKTQFNIINKKFNNVYLSAYIGFEDSKFLSEPNLELPADYDPTKRPWYGIAKRNEIVITDPYPDAGTSDLVVTIAKQVIKDGKKIGVLGFDMNLSAIQSQVLKTKIGESGYAFLLHENGLTLSHPNKNIVNKKINDFLGSQVDELFTSNPQGEVDYTFNNDKKFLIYEKIPSARWIIAGGTSYKEFEARFNSIKLFIILLTIIFLIFSIIIYFVFNKTITQNIYKFINIFKEGANGNLNVSLNLKTNDELEMLSNEFNQFMKKLSRIINEVKKLSQQVENDTRDITELIIAVINGVEELQGIKQLNEHINKVLDNVRNQTASSEESLAAIEEISATSKAMSDKVRSSVNAFEKTLNITKSSYNKIDTLSNTMQEINNSVENTNSQIDKLKAISSDIGEIVIAINNVAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEQTNKETEKIEKLIENVQREVDNVKNGGELVKTKVTEGLSLMNETNENISDIIDLTNKNNDDIGNIAFSTDEQSTASTEITTAISSIVDNSTNIESLATETSQISEKIKLLLEDKVELLYKLNKIVEQLKTDLEFFK;locus_tag=LOCUS_00960;note=WP_010964123.1 methyl-accepting chemotaxis protein (Clostridium) [pid:25.4%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:1.3e-68],MGA_97
sequence01	MetaGeneAnnotator	CDS	101469	101843	.	+	0	ID=MGA_98;product=DUF2914 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_235044869.1;translation=MKKILLVFFILSNFAFGLEVNRDILTTSIENREPINEISEFNLYDKAYYFTEITNANEEQYIYHVWYYIQENGIKNKMAKVKLKVAGNRWRTWSSKNLWLEGVWEVEVVDKDNNLLSKKEFVVK;locus_tag=LOCUS_00970;note=WP_235044869.1 DUF2914 domain-containing protein (Geobacter sulfurreducens) [pid:36.0%25%2C q_cov:87.9%25%2C s_cov:82.0%25%2C Eval:2.8e-08],MGA_98
sequence01	MetaGeneAnnotator	CDS	102252	103415	.	-	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYSYHQGLEWTDSISEGIKEKLSDYPNIKIYYEYLDTKRNFTKEYYNKLIDLYKEKVYTINFDLIIAVDNAAFEFALDYGDTLFKNIPIVFCGVNNFEDYDISKASIIAGVKEQINVSDTFEALIKMFPRRNKVYIILDNTLTGQKIYKEISPEIEIYKKYLDIHLIRDFVIEDLVENISKLDTNSSVIFLLTLNRDRSGRFLSYKEALTKINTVATVPIFGAWDFYLNKGIIGGSLVSGKNQGKKAAQIALRYLVYNEFPDRLILDTSTKYYFDYNKLKEFKVKYIPKNSIIINKPSKFNINIRYVIYIVFISTIIVGYLEIRIKQKEKAKKILKLEVEKRTKELEHLNAKLIKMATIDELTNIFNRRKILGELQRLINKRKNFV;locus_tag=LOCUS_00980;note=WP_012545732.1 ABC transporter substrate binding protein (Thermodesulfovibrio yellowstonii) [pid:38.2%25%2C q_cov:89.4%25%2C s_cov:47.9%25%2C Eval:3.2e-58%2C partial hit],MGA_99
sequence01	MetaGeneAnnotator	CDS	103611	104003	.	+	0	ID=MGA_100;product=secondary thiamine-phosphate synthase enzyme YjbQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545896.1;translation=MFEIIIHTSKRNEMIDISSKVYKLIKENNLQNGILYLHVMHTTAAITINENADNDVKIDLINALNSLVPNIKFYHYEGNSDAHLKTSLIGNSVNILIENGNPILGTWQGIYFCEFDGPRKRKVVAKFIKE;locus_tag=LOCUS_00990;note=WP_012545896.1 secondary thiamine-phosphate synthase enzyme YjbQ (Thermodesulfovibrio) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:5.9e-38],MGA_100
sequence01	MetaGeneAnnotator	CDS	104053	105438	.	-	0	ID=MGA_101;product=NADPH-dependent glutamate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048248.1;translation=MYNMNLNKVKMNEQDPDVRNKNFEEVALGYTLEQAIEEAKRCIQCKNPKCVINCPVNINIPRFIKEVAEGNIEKAYEIILEQNSLPAICGRVCPQENQCEGACVRGIKGEPVGIGRLERFVADYMREKNLVKIEEVKNQKNKKVAVIGSGPAGLSCAYDLAKYGYDVTIFEALHKEGGVLSYGIPEFRLPKDIVKYEIENIKKLGVKIEKNVIVGKSYTIDDLKEDGYEAIFIGSGAGLPKFMRIKGENLNGVYSANEFLTRVNLMKAYKEDSHTPVYKGERVAVIGGGNVAMDAARTALRLGSKKVYIIYRRSEKELPARLEEVHHAKEEGIEFKLLTNPIEIVGENNWVKGIKCIKMELGEPDASGRRRPIEIKNSEHIIEVDSVIMAIGQTPNPLIKETTTGLDTHSWGGIVVNEDTLETTRENVYAGGDAVIGAATVILAMGAGKKAAKAIDEKLSK;locus_tag=LOCUS_01000;gene=gltA;EC_number=1.4.1.13;note=WP_012048248.1 NADPH-dependent glutamate synthase (Clostridium) [pid:69.9%25%2C q_cov:98.7%25%2C s_cov:98.9%25%2C Eval:2.1e-179],MGA_101
sequence01	MetaGeneAnnotator	CDS	105453	106283	.	-	0	ID=MGA_102;product=sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048249.1;translation=MYKILEKKIVNNDVEKIVVEAPHIARNCKAGQFIIIMVEEDGERVPLTIADYDREKKTITLIYQKVGYSTKLLGTKKVGDTIFALAGPLGKPVKHVENAKRILGIAGGVGAAPIYPQLKEYYKMGIKVDLILGARNEKYLLLEDEFSKFIDNMYITTDDGSKGRKGFVTQQLIELIESGNKYDEVIAIGPLIMMKFIVDITKKYNIKTSVSLNPIMIDGTGMCGGCRLTYDGKTKFACVDGPDFDGFLVDFDELLSRQNMYKDIEEKHKCRLDETL;locus_tag=LOCUS_01010;note=WP_012048249.1 sulfide/dihydroorotate dehydrogenase-like FAD/NAD-binding protein (Clostridium botulinum) [pid:51.8%25%2C q_cov:96.7%25%2C s_cov:92.6%25%2C Eval:5.9e-79],MGA_102
sequence01	MetaGeneAnnotator	CDS	106588	107754	.	-	0	ID=MGA_103;product=iron-containing alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966662.1;translation=MFNFDFQNPTKIVFGKDRIKELNKLIKDNARVLITYGGGSVKRFGTFDKVYNAINNGKRVIFEFGGIEPNPKYDTLMKAVDIVKKENIDFLLAVGGGSVMDGTKFINLAANYKGETPENLLYGKFNENDFSKIIPIGTVVTLPATGSEMNSGAVVSHKNGKFPVMSKHSFPKFSILEPELTYTLPKTQVANGIADTFIHTVEQYVTYPVDAKIQDRMAEGILKTLIEIADDCLTKENDYNSRANFMWSATMALNGLIGLGVPQDWATHAMGHELTYLFGIDHGKTLSILQPAIWEVRKDKKRDKLIQYAERVWEIDIENDDEKIDIAINKTREFFEKLGIKTHLSDYGIKEEQIEDIIKSLEAHHINNISETHDLTIDIMREILKKAY;locus_tag=LOCUS_01020;note=WP_010966662.1 iron-containing alcohol dehydrogenase (Clostridium) [pid:59.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.4e-138],MGA_103
sequence01	MetaGeneAnnotator	CDS	107825	108190	.	-	0	ID=MGA_104;product=MerR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014481997.1;translation=MNYTIGEVAEKVNLTTFTLRYYEKEKILLPINRDESGKRVFKKKDIEWINLIKCFKETGMSMEDIKKLVELILEGDKTIPKRLEILKNHKEKVLKKMEDLEKNLNKIDMKIKWYNDQIKKT;locus_tag=LOCUS_01030;note=WP_014481997.1 MerR family transcriptional regulator (Bacillus) [pid:40.7%25%2C q_cov:97.5%25%2C s_cov:93.7%25%2C Eval:1.0e-21],MGA_104
sequence01	MetaGeneAnnotator	CDS	108501	109460	.	+	0	ID=MGA_105;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288805.1;translation=MNKRGGKREGAGRKKIKKSLKRDKQWRISVNEKELEILNKKYDARAKQILIKNLIKGEKNMLIISILNQKGGIGKTTSVRNIGYLLSKKGKKVLLVDMDQQGNLTTSFGIDKRELKFTIYDLLKDTAQKDYTLPTEDVIINVQKNLDIIPSNIHLARADYFFGNVRGREYLLKEILKDVSYMYDYCLIDCPPNLGVITDNALVASNRVYVPIKAEKFALEGINDLLDTIEDVKKFFNSEVEISGVFLNQLKVRTNLHEVLTNEIKEYFGDKVLKTTIRDSIKIAEASALNQSITEYSPTSTVAKDFKKLVDEILEREEG;locus_tag=LOCUS_01040;note=WP_002288805.1 ParA family protein (Enterococcus) [pid:43.0%25%2C q_cov:80.3%25%2C s_cov:98.4%25%2C Eval:7.0e-53],MGA_105
sequence01	MetaGeneAnnotator	CDS	109460	110386	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDKFSTFQNPLSKRKEQINISDSLISENTKQSEIEKNKIIQKFGNISNITSNLINLIDFDNKEFINRIYNSVDELKNDELNDLIESIKEIGLINSVYLIEKDNLKNNKKFIIVSGLRRLLAIKSLIEAGETIREINRVIIFSKDTPVDVLNKISIDENTKRKDLTMLELSYKLRKDSKIKKIPIEQLMSEHNLNRRKFFRITKIMDYPKELQEIVDEIGVNKAETINKILKINKYNEDIRDIISRCQIMTERELNDYYKKVAKKEKKTIDIKINNKNTQAVIKINKKITPEIKQLLKEFNEKIENL;locus_tag=LOCUS_01050;note=MGA_106
sequence01	MetaGeneAnnotator	CDS	110411	112516	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFELINYINIKIILLLSVTIIIILTLFINHINEEFEKEIENKIKIELVQKVDMAYNLIKPIIERYNNKEISKNDTIKKIQNILSNMTYKDEYSLNYIFMTDYIGKYLVQPYEKNKIGKNMWNYKDVKGNYVIQELIKLAKSKEKKGFYKYYNKAPLIDEELKKLSYIRGIPEIQVYIGTGKYLDYKNNKLVYLLNFQKNLLIGFLIIIVSLVVLFSLKYQLLYKKLLIEKENERYEKIRYETLFNNSQDAIVEIDYYGTILNINNAFTKIFGFTKEEAVGKNIDNLIVVDKSILEAKYLTQKTIKMGTLNTETIRYTKDKNPINVSIKTINIVFDNKIIGGYGIYSDITQEKEYEKKLEHLSSYDLLTGLNNFNYFERIINEYKIRKTFNIGILNFDLNNLKLINDILGHHYGDMILKNFAKILKKTINENNIIARVGGDEFVAIIIEPNENEIKELIDSLNKNIEKYNQTLSNEILYLSVAIGYSIGDNDHITELFKIADEKMYKNKMLIKSKEKKELLFKIKNLINRKDFSYNRHIENLKKYSKIFGEKLKLDKKTKERLLLLVEVYDIGKITISDELLTKKEKLTDEDWKTLKSHSEKGYRIALNYREYANIAELILKHHERWDGKGYPLGLSKKEIPIECRILNILESYEAMTNKRPYQKIKTKQEAIEELIKYKGTQFDPKLIEEFLEIVNEI;locus_tag=LOCUS_01060;note=WP_011392212.1 PAS domain S-box protein (Moorella thermoacetica) [pid:35.3%25%2C q_cov:66.3%25%2C s_cov:55.3%25%2C Eval:5.3e-79%2C partial hit],MGA_107
sequence01	Aragorn:1.2.38	tRNA	112817	112892	.	-	.	ID=Aragorn_4;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence01	Aragorn:1.2.38	tRNA	112954	113029	.	-	.	ID=Aragorn_5;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence01	Aragorn:1.2.38	tRNA	113032	113106	.	-	.	ID=Aragorn_6;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence01	Aragorn:1.2.38	tRNA	113214	113298	.	-	.	ID=Aragorn_7;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence01	Aragorn:1.2.38	tRNA	113479	113554	.	-	.	ID=Aragorn_8;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence01	Aragorn:1.2.38	tRNA	113683	113758	.	-	.	ID=Aragorn_9;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence01	Aragorn:1.2.38	tRNA	113761	113835	.	-	.	ID=Aragorn_10;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence01	Aragorn:1.2.38	tRNA	113944	114019	.	-	.	ID=Aragorn_11;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence01	Aragorn:1.2.38	tRNA	114031	114108	.	-	.	ID=Aragorn_12;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence01	Aragorn:1.2.38	tRNA	114116	114191	.	-	.	ID=Aragorn_13;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence01	Aragorn:1.2.38	tRNA	114197	114272	.	-	.	ID=Aragorn_14;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence01	MetaGeneAnnotator	CDS	114418	115755	.	-	0	ID=MGA_108;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948764.1;translation=MRNIKELSEEKVYKLLIKYAIPAITGSLVFALYNIVDRMYIGKGLGAYAMTGISITFPIFTIYIAIGMLVGIGGGNLASIKLGEGKKDKAEKILGNAFTLFVIFSLSIMLISSIYLEKILFMFGATTNTIVYSRNYMQILNFLVLSNFMAMGMNNFVRVEGNANTAMFTMLIGAILNIILDPIFIFVFKWGIKGAAYATAFSNTTSAIWVIYHFTKSKKSILKLKVKNLGIDYKIVKGILSIGISPFLLQIANSIVVTFLNKTLLNYGGDIAVAAMGIISTIQMFLVMIINGIISGAQPIIGFNYGAKNYYRVKEALKYSIIFSLIISSLIFTLIIIYPKVFINLFNKNNQELLDIGKNGLRIYMSFIILNAFYIIGANYFQGINQAKKSIILNLSRQLIIFLPLVIILPKYFNINGVWLAAPISDIVISIITFILLKNNFKKMN;locus_tag=LOCUS_01070;note=WP_011948764.1 MATE family efflux transporter (Clostridium botulinum) [pid:45.7%25%2C q_cov:98.9%25%2C s_cov:96.7%25%2C Eval:1.8e-108],MGA_108
sequence01	MetaGeneAnnotator	CDS	115742	116194	.	-	0	ID=MGA_109;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020238.1;translation=MIEKNKKKILTKEISHLSRDIDLYLSKKLEKYKIGSGQFKILINIKKNEGICQDKLAEKLGIDKTTITKAIKKLIEKKYVKREKNKIDKRYYKLYIGEEGEKIYPEIKNIFNEINIKLMLNFSEKEKEIFFDFIKKINKNLERIKENEKY;locus_tag=LOCUS_01080;note=WP_011020238.1 MarR family transcriptional regulator (Methanosarcina acetivorans) [pid:29.8%25%2C q_cov:94.0%25%2C s_cov:85.9%25%2C Eval:2.4e-12],MGA_109
sequence01	MetaGeneAnnotator	CDS	116464	116886	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKKIYNNLLKKYFLKIILITTLLVLASCEKEKIYITKLIPDDSVSVRFRPDPNATKIGSGGLIQIYLSGGGYSNALILPTQEIQLEKDTLYNLSWSYDNGSGGTGGALGTFILSFYNDTEFVIIYLGDDNNEINPQPY;locus_tag=LOCUS_01090;note=MGA_110
sequence01	MetaGeneAnnotator	CDS	116907	117986	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLKFFVLIFSFIIISCSKQSGILSTTNSTIASGYNSYTSAEITNIYNYINSNKIEITSIPNLTTIESNYLKNNITLLLTTISNEILTGTVSESRISEIKTATKDAISYFGIKTYDELSYIYQNIGIALTRSSSLGLTTEENTTLTSIQSYINTAMTSIKQNKDVNPYYSEIGLLLLVYREGNYSLLQNNSLLEKVGINLDQIDQTNDIALKLETLQAELDEFSDFDKNDLSIADALRKSLNTLKSYYISYTLGDETTIESQEALFRQAETAYLPYTTSMEATINSTITALKALSDDDISGYENIYNEIMAVLNDYEQKKAYYNAKNFKKIISETINIATTYRYIQSKALIISILTEN;locus_tag=LOCUS_01100;note=MGA_111
sequence01	MetaGeneAnnotator	CDS	118397	119335	.	+	0	ID=MGA_112;product=nucleoside recognition domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971111.1;translation=MNIIFKNLKKSINLTITLFKILLPLSIFIKILQLTNSIDYILGLFLPIAKITGISTELATVWITAMLTNIYGGFITLSSFAKNNVFTVADITVLATMILLAHTMFLETAILKKAGGKSLYIVLLRVGSAILVGSVFNFIFKTFNILNYPANIIWKSKSVNFTINEFIFSQIKSFFYIFFIIFLILTMMDIFEKIGVLKLINKLLNPLLALLGISDKGININLIALVLGISYGGAILIEESSSGELSTRDITYSIIFISLCHAIIEDSLLMLTIGANFIWITIGRFFYTIVFLIIFNKIYLKIINFSSIIKKV;locus_tag=LOCUS_01110;note=WP_010971111.1 nucleoside recognition domain-containing protein (Agrobacterium tumefaciens complex) [pid:27.5%25%2C q_cov:90.1%25%2C s_cov:87.8%25%2C Eval:3.3e-31],MGA_112
sequence01	MetaGeneAnnotator	CDS	119536	121206	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKGKMLLLISLLSIVNFLLYTFISNKIIGFIVSLVLSIIVTLILIGKTIKNMDKIKEILMNLSGNTSDLSIKLDINSNDEIGEIAKYINIFLEDLEQVIAQINQTSKKVADSSLYLSENLKDILNNNNNENHMQAIKEKMEYIAENVNKQTAFSEEAASATTEISQSINSIHEKAENTKHLAVDTSKLAKESEKNIIKNLQELQNIEESVQNIENKTEILEKSSQQIFNIVEMINKITEQTNLLALNAAIEAARAGEAGKGFSVVAEEVRKLANNSSEATQEIEKVVKSIQGEVNELVNLTKVSYKQVQSGRKTTEITNTKILDIIEKIQITSEEIEDISISIKEQKHAVEEINLAMDEISNRSVDISNLTNDQLEANTFITDLVKDTTQYSAKLTEVADALKNVSSGFKINKDIKIKRKKAVEWTSDYSVSVELMDQEHIKLFDLINELNDAMINGQSSDKIESILDGLIDYTEYHFGDEEKLMKKINYSGLDEQIKAHRTFVNKMKEFKKDMQSGELLLSVKIINFLKDWLILHILNIDKKYSEYMNKNGIK;locus_tag=LOCUS_01120;note=WP_011704157.1 bacteriohemerythrin (Aeromonas hydrophila) [pid:22.5%25%2C q_cov:92.8%25%2C s_cov:71.2%25%2C Eval:1.9e-44%2C partial hit],MGA_113
sequence01	MetaGeneAnnotator	CDS	122200	123927	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEKYQIDTNGSLKKELDIIENATRELITKGSQEIIINKKELQNIETKTIEIEGTGNFIGVKNSIINIPLEMIVFPFFTNQKQKRNVNFEYKFTDVGITMRSKLSSFDKNDKVYQPSLLEKKIYNYLIIMYEKNIEEEKEIDYIQFEVADFIEKFLGNKMNSQYYPKVEQALKNLKYTQYEFLVDNHKKAGKLKFESPRFFLLDYTKLKIGKRVYYRVKLNSNIINKIIEKRYIKYDSKNLMEITDRDSVADRIYEYISMKRFNKIEGKEKIEVLAGIIPLQTIKINKVKNKKGKIVEYKTSNMSFVRRRIKKAFNVLKDMEYIKSFKEVEEEPKRYTIYYEFNTAKDNVCHVSSYLSTPESLTFMPNNMEENIYSDEISNYEKFELALKKVKRNIYFAKKYNKRIYKKLVRLCDSEGEEFVVEILNRIYSGLNTQIKKTLGAYIDTIVRNLKKEQVNNVSPKLFNFGNDHTLKNNIEDAEIIKENNKKEEIIEIEEKESEKPENTNDELENTLLNLFENFSDERKEEIIETAREYFLKDTGCEKLNPIQEKIFNSENVKKLYVRRVLKEIFGI;locus_tag=LOCUS_01130;note=WP_011016063.1 replication initiator protein A (Fusobacterium nucleatum) [pid:41.7%25%2C q_cov:81.0%25%2C s_cov:72.8%25%2C Eval:3.0e-93%2C partial hit],MGA_114
sequence01	MetaGeneAnnotator	CDS	123981	124664	.	-	0	ID=MGA_115;product=M48 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948163.1;translation=MEKIINIKGNDIKYKIYKKKKKNISIIIEKNGLVKVNTPKYISNKYIIELIHKKSDWIINKLNNLPKKTYTENNKFYFLGTEYTLVFKDIKEDFILNNMYNHFIINITYVYNSNKIKDLIKNFYLKKSKEYITNRCIIISQNLKLIPIEIRIRNLKRSFGICYSNKKITFNYKIIMCRQDLIDYVIIHELMHLKHMNHSKEFWKDIEKILPNYKKLDKELKTVDIEL;locus_tag=LOCUS_01140;note=WP_011948163.1 M48 family metallopeptidase (Clostridium botulinum) [pid:37.4%25%2C q_cov:88.1%25%2C s_cov:87.9%25%2C Eval:9.1e-29],MGA_115
sequence01	MetaGeneAnnotator	CDS	124841	127414	.	-	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIDLSEYLDEFIKEIKNLFEIFETDLELLQSGEYTDDTINEIFRAAHSIKGMSATMEFYNLEKLTHKVEDLFDKIRSKELNINDKIIQTLVVSYNIMSSLVESIEISATEDDVDEEIILDCISKINKFMGIEDKNIKINSSTENKIDKFENFRTILKEEYKEQKNIFFTKIIINENSPLASARAFMILTSLKDKENFISSIPTLDTFTNGNNEIDENSIYILFSSNKSLDELKKYLANFPEVEKVFIKNIDLKNISFDFKEKNIEQKETHTKKNILQLKNFSDLIKYIDEIELTLVEQDIEKIPTILLNLQEKLIKIHTFLANYNHENIFYFTDISNNLNTMFIILQEKEFEFIDLYLDKIFKFFNYIRKIADDKSLLKNNIFIDNLKELIKEINIKISEYKNTSEKRIGEILQEQYKLSQDDINDLLLKQRSKKYKGKKIGEIAIAEKKISNQDLIHALKIQKKSKQSKKDIIQDMIKIPALKADKLIDLLEELMMIQSQIEQSAIKILDKDSYLIKDIYKSFRITKDIQNLSISFRMITLHSIFQKVSLNAHDAMRKLNKKVKLEISGENTTIDRIIGSKIVDPLLHLIKNSISHGIENKEKRIANGKNEIGTIFLNAYSEKGYVYINITDDGQGINPDKVYQKALEKKLIDPNTKYTEYEIINFIFLPGFSTADKVNQIAGRGVGMDVVKTEIQKLRGKIKMTNRIGQGLSIQLRIPQNMTSLNGTIVNIKSHKYIIPSVFIKEVFKIENEDYVYLGGRKDFIRLRDNIIPVIDSNKFFDGNGKAKIMVVLDVDGKYKALPVDDVLDRREIVVKPLSNDFNDINYILGASILGDGKAALILGIESLFKLSEKT;locus_tag=LOCUS_01150;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:36.1%25%2C q_cov:44.7%25%2C s_cov:57.5%25%2C Eval:5.0e-66%2C partial hit],MGA_116
sequence01	MetaGeneAnnotator	CDS	127445	128467	.	-	0	ID=MGA_117;product=protein-glutamate O-methylesterase CheB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010968720.1;translation=MNTIKLLIIEPNKNLIKTFKAYFNNINYINLTITNDIKTGRNLIVYDTPNVLIINKNLDIDILSFLKKVFKFKNIPTLVTGDFSNDKELGVELVENGALEILSFNSPIFFDNQNLKKLEKKIYALSLIKLHKKNTVSQPSKNILNIPTKFNPNKIIAIGASTGGPVALKEIIKKLPLGMPPILITQHMPEFFTSSFASHLDTITPLTVIEAKDNILLEKNTVYIAPGDRHLEVKKIGNQLYTKLTLNEPVHFQRPSVEVLFYSVGKYCGKNAIGVILTGMGKDGAKGLLYMKNQGAYTIGQDKESSTVYGMPKAAYEIGAVKTQIPLSQIANYLVKLTRL;locus_tag=LOCUS_01160;gene=cheB;note=WP_010968720.1 protein-glutamate O-methylesterase CheB (Sinorhizobium meliloti) [pid:40.1%25%2C q_cov:82.1%25%2C s_cov:81.4%25%2C Eval:4.8e-47],MGA_117
sequence01	MetaGeneAnnotator	CDS	128469	128930	.	-	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEYFLYPGYLFFSKEKYIIKTILGSCVSVCLYDKKQKIGGMNHYIFTLDDENANIASNGKYSTNYLIKTFLKNGSNINDLEATIIGGASSKIIHSNIGIDNIEMAIKTLEKYKIYIKHKDIGGYKGRRVTFNTFTGNVYIELLKEINTKRDD;locus_tag=LOCUS_01170;note=WP_011072188.1 chemoreceptor glutamine deamidase CheD (Shewanella oneidensis) [pid:36.0%25%2C q_cov:93.5%25%2C s_cov:72.8%25%2C Eval:5.0e-16%2C partial hit],MGA_118
sequence01	MetaGeneAnnotator	CDS	128940	129731	.	-	0	ID=MGA_119;product=protein-glutamate O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002665509.1;translation=MNNDEFLIFQSFLNENFGIHLGDDKKYIIDTKIKKLLQKNNFKTIKEYIKHIKLSKALKIELLNEITVNKTNFFREINHFNFIKNNIKFILNENKRILKNKEIRVWSAACSTGEEPYTLAMVLHEYLPEDINIKILATDISHNVLQKAIKGKYPKIIENEIPIYYLQKYFIKQKDAYTINPFIKNNITFRAFNLKEPFIFKNSFDIIFCRNVMIYFDSEFQETLVNKFYNNLEKNGLLFIGHSESLGQLNHKFKYLKPTIYQK;locus_tag=LOCUS_01180;note=WP_002665509.1 protein-glutamate O-methyltransferase (Borreliella burgdorferi) [pid:39.6%25%2C q_cov:100.0%25%2C s_cov:95.1%25%2C Eval:1.8e-45],MGA_119
sequence01	MetaGeneAnnotator	CDS	129761	131704	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSTKINSGFLGIIGLLTILGVFSFINSNNIKKNTNFLGNTVIQELNIGDTLNTDNWDLMFDMRKYGFTLKERDFTVVEKILERFNKDIEKSKEIINKNKNLEYLREKVNAIDKALDNYKKLIYETHTLVSEELPIVNSNLDSLYLDIYNITKDFLNAKQSDLSKNFNMNNKIETTEDFFIYNNDLKEITSSLNNAQNIFLYLEKSQKNISENNSNSFSNNIKKINDALNILTSNEKDPIHLENLNKISNILEKYKEFGNKHLKIRARITELSSLRTDAGNIIIDLASTLKTSAFNKTISTIDNISVKSNNSLFTITIITILSIIIGIILAFLLSNSITKPIIRAVNELENGSEQVFNASEQLSLASQELAEGSSEQASSIEETSSTLDETSSMVKLNTENTKKAADLTQAAKEVALDGNNKMKEMSIAMHEIKNSSDEISKIIKVIDDIAFQTNILALNAAVEAARAGEAGMGFAVVAEEVRNLAQRSTQAAKDTSEMIEDSIEKSQKGVEIADKVAKALDEISKNSEKVSEIVKEIATASQEQSQGVIQISKAVSQMEQVTQNIASNAEESAAASEQLNSQAKSMKLIVGDLNYLVYGNNKSTNHTNIRSNTTSYKPTKLKSSFKNTELKAEDVIPLEDDPLDF;locus_tag=LOCUS_01190;note=WP_010963447.1 methyl-accepting chemotaxis protein (Clostridium) [pid:29.4%25%2C q_cov:73.6%25%2C s_cov:88.5%25%2C Eval:1.7e-52%2C partial hit],MGA_120
sequence01	MetaGeneAnnotator	CDS	131736	132191	.	-	0	ID=MGA_121;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941955.1;translation=MKEKSKYLTFVLKNENYGIPINVVKEIIAMLPITEVPKTPNFIKGVINLRGKVISIMDLRLKLGLEEKSYDERTCIIVVDINTSEISKQMGIAVDIVAEVIDIHESQIQEISKEEIQIDGEFIKGMAKVKDRVISLLDIEKILTKNKLQNL;locus_tag=LOCUS_01200;note=WP_010941955.1 chemotaxis protein CheW (Geobacter sulfurreducens) [pid:36.9%25%2C q_cov:98.7%25%2C s_cov:90.9%25%2C Eval:2.4e-23],MGA_121
sequence01	MetaGeneAnnotator	CDS	132390	132614	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILFTTKSCPNCPPVKEMLKPYEDIKQLDAHENMDLVSKYGIRAVPTLVVDNGIDFEMFTGYDKIKSFIDNK;locus_tag=LOCUS_01210;note=MGA_122
sequence01	MetaGeneAnnotator	CDS	132971	134107	.	+	0	ID=MGA_123;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965908.1;translation=MKKVKVNELKPNMILAETILGKGGRILLSTGIKLNEALINKIKETGKKSIYIEEDKHEIKMEGIAESNGEKIHFGSQVDIEEHLNIELMQKVEDDFEEVANTVKNGILNLNLSEEEIVKNTGDVTEFIKNNFNSNYAYIFRSIMTIRDVDEYLYRHSVNVAVLSFLLAKWLGYNDEKLNKILYAGLLHDIGKLKVDQNVLNKPGKLTAEEFEIVKKHALYTYKILEDFRSLDKEILYGATFHHEKLDGSGYPFGLKDNKIPEFARIIAIADIFDAMTSNRVYHNKKSPFLVLEMFSTNSFGKLDPRIVYIFLQRFVEYYIGSEVILNNGKKAKIVRINFTEITKPLLLDENGDFIDMSKERDVKIDDFYVKELENFDK;locus_tag=LOCUS_01220;note=WP_010965908.1 HD-GYP domain-containing protein (Clostridium) [pid:35.7%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:3.8e-56],MGA_123
sequence01	MetaGeneAnnotator	CDS	134150	135163	.	-	0	ID=MGA_124;product=two-component system response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011071150.1;translation=MNKYTILIVDDTPENLDVLAGILNEEYNIKVAKNGKIALKIAEKFLPDLILLDIMMPEMDGYEVCRNLKNNIQTKNIPVIFVTAKDQEVDEKLGFEAGAVDYLTKPIRPTITKARIKTHLKLANQTKALAIEVDKKTKEIQNTQLEIIRKLGLAAEYKDNETGAHIIRMSTYSKLLALEYGIPEYEANLLFNAAPMHDIGKIGIPDNILQKPGKLNDKEWQIMKTHSNIGAKIIGDHPSDLLKMAKIVALEHHEKYNGKGYPRGLKDNEISIYASIVAIADVFDALTSKRPYKEPWPSEKALNLIKEERGEHFHPELVDCFINIFDKILEVKLNFQD;locus_tag=LOCUS_01230;note=WP_011071150.1 two-component system response regulator (Shewanella oneidensis) [pid:56.0%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:6.3e-108],MGA_124
sequence01	MetaGeneAnnotator	CDS	135156	139916	.	-	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKKISIVFVVSLVSIFTFFSIEVGKEMMNKNFSIIEDSAYKQMEHLNFFIESIVDDLKSDVNTLSLNTELAFQDKNMMDKYIISHISKTNPNTKLSKLFRDYQLAHEYVKEVFLATTDGKYISSENKIKKDYQNYSWYINALKNPLDTHIFTYDSENKSFITIAKAILNKEHNVMGIIGINVSVDFLIKHIEAINMLDNGWIALVDENNNVIASKNKMLNKNFSTKKLLESFKSGNSIIDYNYENIDYKIFSYYSNKLNWKTLTFLSESEIKSEISKSIFTVLAILFFSLTALTILFIILIHKIVIVPLKKLKTEADFITNTGVLDKKIEMHTKDEFEELATSFNIMTDSIKKNEEELNQYKNHLEELINLRTNELKIITAAIEQSPTATVICNNELIIEYINEVFLNFTSIPKEKIINNNVKNIFNYIPDNIWNIIKSGDIWQGDINNNNIWFSIIISPVLDDDDNIKNYLIVLEDITLKKKIEKELAESEKKLQSILDSSPAIMFLKDIKGNYIYVNNKFKKRFNILKENVLGKTDTEIIQEKKLVKLYNSMDNEVITQRSIIQKDIHCKKSGKVFMEYRFPLYDSENNLYLIGGWSIDITDRVKAEKQSNLLLQSIGEGIIGVDNNGKITFINPSAAKILMYKSIDELIGKNIHETIQYAHHDGSIYFKEDSPIYLSYTQGLENSRVEEVFWCKHKSKINVEYNSVPIIENDKITGAVIAFKNIDEISALNRNFSAILENSNDFIYLKDKDLKYIAANQKYANFLGYEHWTDIIGKDSSDDIVSKSNHNLELEKEILKNGKEISNLIETIKDKNGNIYHLKTNKRAITDKHNNIIGLYNMSTDITDLINLNKKLEKAKETAEAATKAKSDFLANMSHEIRTPMNAIIGLSTLLAQTQLNKKQLDYIKKIDKASKNLLGIINDILDFSKIEAGKLIIEKIEFNLDELLDNLSNITNIKAHSKGLEFIIKKDPNIPINLIGDPLRINQVLLNLTNNAIKFTEKGEVKLNISILNLKESTSELILKFEVSDTGIGMTKEQLNKLFTAFSQADTSTTRKYGGTGLGLSISKKLVEMMGGSIGVNSEYKKGSTFFFTLPLKISEHKINKKFLPISFNSIRVLVVEDNESSQEVIKNYLDSFELQNDIVSHGEKSIEMIKKNKYDLVLMDYKLPGLNGVETLREIKKINKANNIKFIFMTSYGREDILNQIENEKIETILIKPLSQSILYDSIIEAFNTNDKELIKEENKNISSKEFLNINILVAEDNEINQQVIKEILENEEINVTLVNNGLEAVNLLKNHNNNYDLILMDLQMPILDGYKASLEIRNMGIKIPIIALSADAMSGTKEKVLNHEMNDYITKPIDINVLFSIIKKWTKKNILSNKNNINSEDVILENFNELNTKEAIQRLGSKPLYIKLLKKFAENNKDFSKNIDRAIDNNNIKELKSFLHKQKGVIGNLGADEIYNKIIEVEQNLDKNFTEKELNIITTIKISLENLINKINTHFKKSEDIKSNNIISKKDFKEKLLKLKEKLEEYDSKAIDIIDSLNYNKKEITTLKSLLENYEYDEAIDIVNKLINEEVDVDE;locus_tag=LOCUS_01240;note=WP_011071149.1 PAS domain S-box protein (Shewanella oneidensis) [pid:37.2%25%2C q_cov:47.9%25%2C s_cov:44.0%25%2C Eval:2.2e-142%2C partial hit],MGA_125
sequence01	MetaGeneAnnotator	CDS	140174	142681	.	+	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METIFITNYNEISDYENTIYIFETITDKEYFLKQRKNIFDNNIYISYTEFLNQIFVTDYIVLREEKPVLFFYKSLSKEFKKKYNFINYYDFIDTAYNIINFQNILKEYKIEKLKNLENWQQEYIDNITKEYKKFIKYINERKYTIQSEIYNINNLNIEAIKNYKNIMFIEKINITPFEKEYIRKLSKNFNIINTLFVSAKSFDKKKYKLVDNFQLDKEKIEVYENKTVKESIAILLSKIKDINFIYTYDIENINFNIYKDYIKVNKSNKLENTNLYYVISQIYNLLKTIVEIDKKKYISMKSLIEALYSIEVREYFNIKEEIVSYLYKYKEDGYLYIDENILTEDKSYFQSDKSEKLIQIIELIKKLNKFKTLNEYIEYFSKGFNYEKYENEKYPDIIAKYFESLSEIKSLIDIFGDKWNGYFKNISEGLFRMILKYFRAKNIEVLNDNTIIIDKIENIPIINNKIAIINVSSGNFLNKNFDFLLSEKQKEENGIITYDEKKLIEKYKFYRMINFSENIKIFSLKDEEIGLDRNPFLEELILKYNLDINKSEIDVDRIFIDNFKMKNNEKLEFENIYNIYVENNDFRNNKLNIGSYTYMELKKCKYKYFLRYIGEILNQNIIIKEEFSKKIVGIFFHMIMEKISKKIMDENIENYLNELIKSYYKFIETKLPINYEKYYKDIFIKHFEKNIIKFVYEIRKYIENNIETEKKVEKEIFEINNIKINMNGRIDAYIENNDKKIIIDYKTGSGDDMQLKFYEYLIGESVDKYIYDLWKGELDKKDKKDKKIEKEDIVNELNFLNIGYYMRTEKKSNCNNCEYIDICNEVNINENNTKS;locus_tag=LOCUS_01250;note=MGA_126
sequence01	MetaGeneAnnotator	CDS	142659	145601	.	+	0	ID=MGA_127;product=exodeoxyribonuclease V subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016941.1;translation=MKIILKASAGTGKTYRLSLEYIASLLKGENYEEIVVMTFTNKATAEIKERIFKFLNDIIIQNKNGIELIQNIKKIHDIEINMEKLKMIYNNMIKNRELIKIYTIDSFINFIFKKIVAPQYNIFNYEIINTEKHNEILLEVLKKIFDNPDYFEKIEDFLQENMEKELENYTRFISGILGKRWLFYLIDKKEKEKYIEKNTIVENYNKIIDLIMDYKDITRDEIFKFLNKDYQKVLELSNNEIKEFFLNNSKKILKDDKKIWNGQKIRNNKKRAIVDELTFYFNEIKEEIAKKIYNNKILNYEKKLKEMSEIIYKIYDEIVFREKKFTHSDISNYVYDYLFVKRFEIFQQNLVVQFIENVLGNDITSLFIDEFQDTSVLQWKILKPFIRKAKNLIFVGDEKQSIYRFRGGEKELFQNLNKLIGAKEEYMNISYRTDKNILNFINIIFSNIPNWKYYSINPIKNKDEGYVYTYVDKEEKDILENLINTIKNKIKNRSNSVILARNNKELTKITEKLKEENIAFITNSNQSIIFHRVIKPVYSLLKYFITENIFFLLEFLRNDIIYINDMLLKEMIIHKKEINSFLFSDYEINIQLSNEIMILVNKIKSIYNIRNTIDEIVKEIYNQFNILDTYNSNNDIANINKFYDIATNYNDISKLILELENNINNEKYRQASGKDKNAISVMTIHKAKGLEFENVLYYIKNKRSNEIKENYFIKFDKNYEKIEEYIFTHENDIKTLEILEKNIIKEYKRKNLDEEINNHYVAMTRPKKNLFVFYCRNYKNELNDSLFSKIIDLENENTYTIGEFKEVLEEKKIDKKYIDISNYKNKKEINKKEVEYIDLEREIKRKIGLATHYYLSFIKYNKKEEHEYAKKALLNKYGNMFGKKEINNIFLRIDEFIKKYKKIFNERYKVFTELELYHNNKKYILDRVMIDNQEKIIHIYDYKTGGYKLEQLRIYKNILEEKLGNVYKVMTGEDYYLKIE;locus_tag=LOCUS_01260;note=WP_011016941.1 exodeoxyribonuclease V subunit beta (Fusobacterium nucleatum) [pid:33.1%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:3.0e-139],MGA_127
sequence01	MetaGeneAnnotator	CDS	145659	146606	.	-	0	ID=MGA_128;product=polysaccharide deacetylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011074212.1;translation=MNFKNILIILFIIFSYSLFADGHIFVYHRFGDNRFTSSNISISTLRKHFDYLKNNNYKVVSLKNMVSKIKNNEEIPDNWVAFTIDDAYKSFYNNGLPVFKEYNYPFTLFANTEPIIGKYPDFVTFEELRDISKYGEVATHSHSHQHSLNISTNVLLNDIKKSVNILEKELNKKINYYSHPYGEYDYNILNYLKNLNFQAIFNQNSGAISNKNNIYDLNRIALGENDNIEFWLNIKYLIARWNNIEIKNNSITNINVTLNNSIKQIEVYISGYGWKWYNLNNGILNINLNKPLLYSRNRIILRTKDNKWNNYLIVK;locus_tag=LOCUS_01270;note=WP_011074212.1 polysaccharide deacetylase family protein (Shewanella oneidensis) [pid:30.1%25%2C q_cov:80.0%25%2C s_cov:77.9%25%2C Eval:2.5e-26],MGA_128
sequence01	MetaGeneAnnotator	CDS	146850	147992	.	+	0	ID=MGA_129;product=cysteine desulfurase NifS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986887.1;translation=MRRVYLDNAATTKVDDIIKEKLFNEFDNFFGNPSSVHSEGQKSKMILEKSREKIADLLGVKSREIIFLSSGTEANNSAIKGIVYKNPDKHFMTTKIEHSSVLKTFEYLEKKDYKIDYISADNKGVVNIEELKSKITKKTKLISVMFANNEVGTIQPIKEIGEICKKNNIVFHVDAVQGIGKELINPKNLNIDIMSFSSHKFYGPRGAAGLYINTGIELEKLLHGGSQERKKRAGTENIFSIYGMAEALELSYSNIYKEKEKIKELRDYFENKILNEIKDIKINCKDSKRVVNISNITIKNIEAQSILFNLDLNGIAVSAGSACASSALTPSHVLEAIGLNKVDAKSSIRVSLGRYNTKEEIDYFIDKLSLAVEQERNLNF;locus_tag=LOCUS_01280;gene=nifS;EC_number=2.8.1.7;note=WP_011986887.1 cysteine desulfurase NifS (Clostridium botulinum) [pid:45.8%25%2C q_cov:99.5%25%2C s_cov:96.2%25%2C Eval:6.7e-93],MGA_129
sequence01	MetaGeneAnnotator	CDS	148121	149251	.	+	0	ID=MGA_130;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016634.1;translation=MSNFNIKNYTKYLEYKKENKDITVAVGMSGGVDSSTVAYLLKKQGYNVVGITMKHWGGMNELNKDSKTCCSLDDIYDAKKVCDDLKIKHYVINLEEPFKEIVVDYFIDEYINGRTPNPCMVCNRNIKLGKLIEYVRKLGINYLATGHYAKLKEGILCIGDDPKKDQVYFLSQIKKENMKYLMFPIGDLEKPEVRFLAKELGVRVYAKSESQEVCFVEDGKYKEFIKDITKKDFESGDIVDRKGNILGRHNGIINYTIGQRKGLGLAHHKPLYVYKIDVKKNQIIVSDDKDLFKDTIYAESINLLLFDNIKEIDGLKCMAKSRSRDKFHKGIVKVLNDNAILFKAENEEENFRAVTPGQGLVLYREDGVVIASGFIK;locus_tag=LOCUS_01290;gene=mnmA;EC_number=2.8.1.13;note=WP_011016634.1 tRNA 2-thiouridine(34) synthase MnmA (Fusobacterium nucleatum) [pid:52.6%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:7.8e-110],MGA_130
sequence01	MetaGeneAnnotator	CDS	149261	149722	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIRYIKASLATMITIYLGEIFNIDSLFFATIAAVISSQISHIDTVIVGKKRIFGTILGATVGMIFASLFKSNILIIGIGIYSIIYISDNIIKSSAANVACIVFLAIMLNYGNKTPFIYALNRLIDTSFGIIITIIVSMSLSLINKKYKIFKK;locus_tag=LOCUS_01300;note=WP_011986969.1 aromatic acid exporter family protein (Clostridium botulinum) [pid:38.0%25%2C q_cov:89.5%25%2C s_cov:46.3%25%2C Eval:4.6e-22%2C partial hit],MGA_131
sequence01	MetaGeneAnnotator	CDS	149738	150529	.	-	0	ID=MGA_132;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001911722.1;translation=MKLKLIIYFIFSLYTFSSNTPIIIYCDSNYFPLSYEENGEAKGLYIDILNHIFSKMKNYNIKIQPIPWERGKILMKEGRGFALVPPYYHGYDWKYIYPYSLPLFTEEAFMISLKDSKNYNLKFPEDYYNKTIANIRGYDGWLSPQLRKLIFNKYIKYDDTSLTPEQQLRKLIDKRVDFIILEKFTFEYALKILRKNKVTNKKLSDFNIEFTITKEPVYIGYSKYFKADYSLSFRQEFDNLLYLARKNNELEKIIDKYRKKLEK;locus_tag=LOCUS_01310;note=WP_001911722.1 ABC transporter substrate-binding protein (Vibrio cholerae) [pid:30.6%25%2C q_cov:89.7%25%2C s_cov:94.8%25%2C Eval:1.7e-24],MGA_132
sequence01	MetaGeneAnnotator	CDS	150798	151601	.	-	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFEDNIQEIKDIYTKWLKTYLLNNDEEEALISVYNDLFIKNHFIIDDIMDIFDIHILALKQILKINNDNDKIDWIYIKRANEFFAQFLTLFENYRQVLREQVEIDPLTRAYNRLSLDNVGEKVFNYSLKNKSSLLCVMLDLDNFKHINDAYGHDIGDQVLINVSKILKKNIKQKDFLYRYGGEEFLILLRDINYDEAFPFLTKLKDNLKKIKIKSLDKKITASFGATSLLEDNPISLYEMIKYADTAMYKAKKTSKDKVVFFRDLK;locus_tag=LOCUS_01320;note=WP_010880333.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:37.3%25%2C q_cov:62.2%25%2C s_cov:27.3%25%2C Eval:6.6e-27%2C partial hit],MGA_133
sequence01	MetaGeneAnnotator	CDS	151605	152555	.	-	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPLHINISDENDIFILEFRLKKLLKDNLIFNDKVLLITRELATNILKYGGYGYIDISFIENNIKIIAFDYGEKNEKVLKLSNGLGLGLKVIKSNSSFFDIKKNKYNGFEITVMLSQSNNNNKNFNLIFGVATRPHYLEEHSGDLVYIKKLNHSYLVVIADALGHGEKAYFVANLIKEYLNDFKSDNLNKVYLDLNNKLHNTRGCVIFASIIHKNFLEYFNIGNISAYLLSDKGIKKLINKAGVLGKIDRKIPIKTLDTNFHKEKLIINSDGIKDTYLNYITTQNITDYQETAEKILKEFSIKIDDATCVILGGE;locus_tag=LOCUS_01330;note=MGA_134
sequence01	MetaGeneAnnotator	CDS	152552	152983	.	-	0	ID=MGA_135;product=anti-sigma regulatory factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258524.1;translation=MINIDFQQYEIIINVKEEKDIILARQSIKHFCQKLGFSLSDITKISTSISELARNIFRYAKTGSILAKKLIDENNNEFLEIVAIDNGPGISDIDKATTSGFTTTETSLGLGLSGVKRLMDYFYIDSEKDKGTIVIIQKRRRKF;locus_tag=LOCUS_01340;note=WP_012258524.1 anti-sigma regulatory factor (Chloroflexus aurantiacus) [pid:38.1%25%2C q_cov:88.1%25%2C s_cov:93.2%25%2C Eval:2.6e-18],MGA_135
sequence01	MetaGeneAnnotator	CDS	152994	153353	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERVVTSIKLYKNLIVPIQIELDDTTVEKMQHQILEEVEQNNLKSIILDISMVDILDSYISYSLTETAKMAKLLGCDTYICGMQPMVSLTLAQMGVNIREITFVKDLEEALEMTKQLNN;locus_tag=LOCUS_01350;note=MGA_136
sequence01	MetaGeneAnnotator	CDS	153370	154044	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYIITHLENLSIKLSKIISEKVYWENFLVTLAQNNMNNEIEIKNTLRPIISSNNFKKVFTALKTLNEEINGFPFVELIKLLIDLSDEKLKEKEVVLEEVKDVLSELAVPVLRLWKDIIVAPLVGTLDSERAQSMAEKLLAFTSETRAKYVIIDVTGVNVIDTIVGGFLIETFNAIKLLGTNVILTGIKPNIAHTLVKIGIDFNMVIVKRDLETALNYLILEK;locus_tag=LOCUS_01360;note=WP_003971817.1 STAS domain-containing protein (Streptomyces) [pid:42.7%25%2C q_cov:52.2%25%2C s_cov:39.1%25%2C Eval:4.3e-23%2C partial hit],MGA_137
sequence01	MetaGeneAnnotator	CDS	154335	155864	.	+	0	ID=MGA_138;product=SulP family inorganic anion transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005420148.1;translation=MLNVKSIKNDILSGVTVALALVPEAIAFSFVAGVNPVIGLYTAFMMGLITSIFGGRPGMISGATGAIAVVFADLVNLYGIEYLFGAVILMGIFQMLFGILRLGKFARIIPHPVMLGFVNGLAIVIFKAQLSQFKVLDNSGNFIWMKGKELYIMLALVLLTMLIINLLPKLTKAVPATLVAIIVVTLISIYLNSKGYNIKTVKDFAGGEIRAGFPEFHLPKIPISLKTLKIILPFSITAALVGLIESLLTLSLIDELTETRGKSNKECIGQGLANLINGFFGGMGGCAMIGQSMINVTSGGKGRLSGITAALSLIGFVVFGAKLIAIIPLAALVGVMFMVVIGTFEWESLKLGKKIPLFDLAIIIIVTIITVVHDLALAVVVGIILSALNFAWEKGKKIEIKVEYKENKKTYYIDGPLFFASSSNFKQKFSPKNDEYDNIIIDFKHSHVMDHSAIEAINFVVSKYREAGKKIYLRHLSQDCKKLLKNAEEIVEVNIMEDPIYYIADDMLD;locus_tag=LOCUS_01370;note=WP_005420148.1 SulP family inorganic anion transporter (Aliivibrio fischeri) [pid:56.3%25%2C q_cov:97.8%25%2C s_cov:97.5%25%2C Eval:6.7e-158],MGA_138
sequence01	MetaGeneAnnotator	CDS	155901	156536	.	-	0	ID=MGA_139;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080736.1;translation=MSIFNDDIKSQLKNVLKDMENNVKIIFFGNEEQISKDTEEIIKEVVELTDKLSLESYNFKSENDKATLYGIDKAPGFTLLKSDNSQTRMKFYGPPAGYEINSFIFSLLEASGKEQDMPENLINQIKSIDKKVNIKVFIGLSCPHCPGAVIAAHKLALLNENIDAEMIEANAFNELSTQFGISSVPRIFFNDDLDLLGAQPLEKFIETINKL;locus_tag=LOCUS_01380;note=WP_004080736.1 thioredoxin family protein (Thermotoga) [pid:34.9%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:4.8e-34],MGA_139
sequence01	MetaGeneAnnotator	CDS	156569	157546	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLSFNLNLSADSKAKELDEKELYDVVIIGGGPAAMTAAVYCMRKGVKTALVTKNIGGQVSDTKSIENYMGYNYIEGEELVKKFEEQVKQFEIAFKDGILVTGLKIENDIKIISLDNGQSIKTKSVIVSAGNRWRELNVPGEKEFRGRGVSYCSTCDGPFFKNLNVVVVGGGNSGVEAALDLIKIAKHVTIVEFTDSLKADKILIDKLKEHENHKILLSSAIKEIKGDEYVTSVMIEDQNTKETYEYKTDGVFVEIGLIPNSNFLKDIIKLNNFNEIIIDEKCETNVPGVFAAGDITSVPFKQIIIASGEGAKAAMAACEYVMKK;locus_tag=LOCUS_01390;note=WP_002296277.1 alkyl hydroperoxide reductase subunit F (Enterococcus faecium) [pid:46.0%25%2C q_cov:95.1%25%2C s_cov:60.7%25%2C Eval:1.3e-75%2C partial hit],MGA_140
sequence01	MetaGeneAnnotator	CDS	157850	158200	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILRQVFILISINYIGNLLSGIFGLVIPGNVLGFLILFLLLFSKIIKPIQIEKVSNLLLFNLTFLFIPSGVSLINILDKLKSVWIQILIISILSTIITIIVTAFTIQLLMGDRNE;locus_tag=LOCUS_01400;note=WP_004399155.1 antiholin-like murein hydrolase modulator LrgA (Bacillus) [pid:30.6%25%2C q_cov:93.1%25%2C s_cov:74.0%25%2C Eval:2.4e-07%2C partial hit],MGA_141
sequence01	MetaGeneAnnotator	CDS	158193	158891	.	+	0	ID=MGA_142;product=LrgB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356156.1;translation=MNDLIFNNINFGIVISLFFFIFFTYLHKKTKSQIINPLILTMVSIILFLLILNIPFNYYNKGAKFIGYLLGPATVALALPLYKQIHLLKKHFWVILIGILVGSTTAVLSVLFLSKIFGLDRITIISLLPKSITTPIGMSISQSYNGEVPFTIIAIIITGNTGAIFAPYILKIFNIKNRIAKGIAIGTASHAVGTSKALEIGEIEGAMSSLAIGLAGIFTVFIIPIVIKIFNI;locus_tag=LOCUS_01410;note=WP_003356156.1 LrgB family protein (Clostridium) [pid:50.5%25%2C q_cov:91.4%25%2C s_cov:91.8%25%2C Eval:2.2e-54],MGA_142
sequence01	MetaGeneAnnotator	CDS	159082	159699	.	-	0	ID=MGA_143;product=alkyl hydroperoxide reductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761950.1;translation=MAVIGRNLNDFYYDIIEGNEIVEKKLVDTVFNVFHEGEFKEIKLSDYKGKWTVLFFYPADFTFVCPTELGDMADNYDKFKELKAEVISVSTDTHFVHFAWHNESPTINKIKFPMLGDPTGTLSRAMEVYKEDEGLAYRGTIIINPEGDIVVSEVNDMPIGRNAKEILRKLEAAKYVAEHNGEVCPANWEKGKDTLKPGKDLVGKI;locus_tag=LOCUS_01420;gene=ahpC;EC_number=1.11.1.26;note=WP_008761950.1 alkyl hydroperoxide reductase subunit C (Bacteroides) [pid:62.2%25%2C q_cov:90.2%25%2C s_cov:98.4%25%2C Eval:2.9e-65],MGA_143
sequence01	MetaGeneAnnotator	CDS	159785	160768	.	-	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKKFFKTINQKKINYLIERDNLERKLKFEEYINNKLELKEMIKVIFKFFKELIRYDAAEIVFDNKAFFYQDNKFEEIKNLNLNIEFLNLYNRGKENKNIFILNEHGEYHVSKLIKPIYYLDEYYGVLIFEAVNFEYDINEINIENDLTKNIGVYIHNILEYTKAKEEIYIDNDFNIFNKKYLIKNITELLENEINFGLIFVKINQFEKLEKLYGESFMKKILENISLILKEIEINNSPTKIGKYKDTVFYMLVENINKRLEKIDIINLDVNIKDHLNSLLNFSFSYGVTHYFREKTINDINYILSNAEFAVSTISNGEKLNILII;locus_tag=LOCUS_01430;note=MGA_144
sequence01	MetaGeneAnnotator	CDS	161278	162582	.	+	0	ID=MGA_145;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963928.1;translation=MKLFGSMENINGVLHIGGLSVNSLVNTYGSPLYVIDREHVENIIELMKNSFKSKKFSTEIAYASKAFINKAMCQFVNAKGLSLDVVSDGELYTAKLANFPSEKIYMHGNNKTDEELRMAIEYNVGTIVVDSKEEFFKLSKLAEISNKTVNVILRVNPGIDAHTHEYIQTSKFDSKFGESIFDDSVITLIKNMINHDYINFLGFHCHIGSQIFDEKPFYAEAEVMLDFIKKVEKLLNYKIKVLNLGGGFGIYYSSEDDPIDLDIFLKKIIEILENKLEEKNLNIEKVAIEPGRSIIANSGVTLYKVGSTKTTYSGKKYIFVDGGMTDNIRPALYQAEYEGVIANRLNDTTCDTYTVAGKCCESGDILIKNKNFVIPNNNDILAVFSTGAYNYSMASNYNRLKKPAVIMVKDKKVNLIVKRETYEDLIRNDLDFEE;locus_tag=LOCUS_01440;gene=lysA;EC_number=4.1.1.20;note=WP_010963928.1 diaminopimelate decarboxylase (Clostridium) [pid:48.8%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:5.7e-115],MGA_145
sequence01	MetaGeneAnnotator	CDS	162596	163798	.	+	0	ID=MGA_146;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048275.1;translation=MRIVQKYGGTSVGSIEKIKNIADHIIKMKNEHNEIVVVVSAMGKMTDELIRKAKQITNNPNRRELDMLLSTGEQQTIALLTIALNHKGQPAISLTGSQAGIVTTGTHTKSKIKNINKERIEAHLKEGKIVIVAGFQGINENGDITTLGRGGSDTSAVALAAALNATCEIYTDVDGIYSVDPREYKEAKKLEEISYEEMMEMSNLGAGVMEVRAVELGKKYNIPIYVGKSLCQNNGTYIVEREQVMEQKLITGLSINENALMVNLLNLENEPKKIAYIFSVLGANDVNVDMISQSMSNGNKIDISFTCPLTEEDLLDKAIVLIKEHHPNIQISKKSDIIKVSVVGVGMISHSGVAAKIFDIFAENNISFYQITTSEISISFTIDKENKSKAVENIAKAFNL;locus_tag=LOCUS_01450;EC_number=2.7.2.4;note=WP_012048275.1 aspartate kinase (Clostridium botulinum) [pid:51.0%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:1.1e-101],MGA_146
sequence01	MetaGeneAnnotator	CDS	163861	164700	.	+	0	ID=MGA_147;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897787.1;translation=MIKFEKYHGLGNDFIIFLEDDVKKYNYSELAKQVCHRNFGIGADGMIVVAKSTIGDVRMIFFNADGSEAPMCGNGVRCFSHYVRNNNIVSKDIINVETLAGIIKIETSIRNNKFFAKVNMGSPIFTTKNIPMSIDKEDYILQDITSFDKTFKISSLFMGTTHSVIIVDNIENLDIIKYGSDIENNPLFPKKTNVNFVEVIDNKNIIVKTWERGAGFTYACGTGTCASVVMTHKLNKTENKVTAQLPGGILIIEIIDKSVFMTGPSEKIAEGQYFINLAK;locus_tag=LOCUS_01460;gene=dapF;EC_number=5.1.1.7;note=WP_009897787.1 diaminopimelate epimerase (Clostridioides difficile) [pid:46.5%25%2C q_cov:96.8%25%2C s_cov:98.6%25%2C Eval:4.8e-68],MGA_147
sequence01	MetaGeneAnnotator	CDS	164748	165746	.	+	0	ID=MGA_148;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003422061.1;translation=MKRYNIAIVGATGMVGRKFLEVLAEKKFPIENLYLFASSRSAGNEIEYQGKKYVVEELTEKSFDRNIDIALFSAGASISKKFSPIAAKKGVIVVDNSSAFRMEKDIPLVVPEVNPDDVEKHNGIIANPNCSTIQSVLPLKALDKKYGIKRVIYSTYQAVSGSGVKGVADLQNGLKGEEPKNYPYPIANNCLPHIDVFLDNGYTKEEIKMIEETRKILGKPELPVTATCVRVPVENSHSVSMNIELEEDFDLNEVFELFNNFEGIILQDDVQNNIYPMPLFASGKNEVFIGRIRKDFSNPNTLNLWCVADNIRKGAATNTVQIAELLIKKGLV;locus_tag=LOCUS_01470;EC_number=1.2.1.11;note=WP_003422061.1 aspartate-semialdehyde dehydrogenase (Clostridioides difficile) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-114],MGA_148
sequence01	MetaGeneAnnotator	CDS	165757	166638	.	+	0	ID=MGA_149;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438799.1;translation=MFTGSGVAIITPFKEDGTINFEKLGELLEFHIKNSTDAIIITGTTGEASTLNDEEHIAVIEYTVKKINKRIPVIAGTGSNDTAHGIKLSKKAEEVGVDGLLQVTPYYNRTNKQGLINHFEAIANSVNIPIILYNVPGRTGINIPVEVVEHLSKHKNIIGIKEASGNISYVAEIARRVEEEFYIYSGNDDIIVPTLSLGGRGVISVIANIMPKETHDIVELFLTGQIKEASKLQLKLKPFIDSLFIETNPIPIKKAMNLKGYEVGPLRPPLYELSKESTKILVNEMKKLNLIKE;locus_tag=LOCUS_01480;gene=dapA;EC_number=4.3.3.7;note=WP_003438799.1 4-hydroxy-tetrahydrodipicolinate synthase (Clostridioides difficile) [pid:59.3%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:2.0e-96],MGA_149
sequence01	MetaGeneAnnotator	CDS	166643	167392	.	+	0	ID=MGA_150;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048150.1;translation=MNIAVYGYGNMGKLVCDEVQKDNSLNFVAAIDPFIKEETDKVYKSLNKVKENIDVIIDFSNPANIDEILEYCIKNDINLLIATTGFSKEQEKNIKEASKKIGVLQAANTSLGVNLIAETIKYFAQTLYENFDIEIIEKHHNQKVDSPSGTAKLFFNAINDSLPEKKEAINGREGIIGKRTKNEIGIHAVRGGSIVGEHTIIFAGTDEIIEVKHEALSKRIFAKGAVVAAKYLINKPAGNYKMKEVLNLK;locus_tag=LOCUS_01490;gene=dapB;EC_number=1.17.1.8;note=WP_012048150.1 4-hydroxy-tetrahydrodipicolinate reductase (Clostridium botulinum) [pid:46.6%25%2C q_cov:95.6%25%2C s_cov:94.4%25%2C Eval:4.1e-57],MGA_150
sequence01	MetaGeneAnnotator	CDS	167442	168146	.	+	0	ID=MGA_151;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003218680.1;translation=MNLNSAEEIIKFIKDAKKSTPCKLYIKGKLSNINFYNTKTFGDDNSKIVFGEWEEISKILEENKDKIEDYVLENDRRNSAIPTVDLTQFNARIEPGAVIRDKVKIGDRAVIMMGAVINIGAEIGEGTMIDLNAVLGGRATVGKNCHIGAGTVLAGVIEPPSATPVIIEDDVVIGANAVVLEGVRVGKGAVVGAGSIVTKDVPPGVVVVGNPAKIIKEKDEKTEGKTQLVDDLRK;locus_tag=LOCUS_01500;gene=dapD;note=WP_003218680.1 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase (Bacillus) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:4.4e-82],MGA_151
sequence01	MetaGeneAnnotator	CDS	168176	169378	.	+	0	ID=MGA_152;product=acetylornithine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082331.1;translation=MFYEEDKKYILNTYKRIPIEFAYGDGGYLFTYSDEKYLDFFSGIAVNQLGHNNEGIKNAIKEQLNKYLHLSNYFIQEPVVKLAKLLVENSFASKVFFTNSGAESNEGALKLAVKWGRNININKTSIVSALNGFHGRTTGSLALTGQPEKQKPFQSILPKVNHFIYNDIDSLREIVNENTCCVFLETIQGEGGVVDISEEFLNALIDLKNRYNFLIIVDDIQAGLFRTTELFSYMKYKNFIPDILTTAKAIGGGLPLGAILVSEKLENVFVPGDHGTTFGGNPVACAAGVYLLQTLTNEDFIDKSKSIAKYLYKNLLKLKEKYPIIKGIKGRGYMLGLEVGNFANTIKDMALERKMLLNVTNNTVVRLLPRVNSTKEEIDEFLSKFEDILNKISYLKTIEE;locus_tag=LOCUS_01510;EC_number=2.6.1.11;note=WP_004082331.1 acetylornithine transaminase (Thermotoga) [pid:43.0%25%2C q_cov:96.0%25%2C s_cov:99.7%25%2C Eval:1.8e-91],MGA_152
sequence01	MetaGeneAnnotator	CDS	169428	169961	.	-	0	ID=MGA_153;product=XRE family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003418769.1;translation=MEIGKKLKRLRQEKYLTQDELARRCELSKGFISQLERDLTSPSIATLMDILESLGSNLKEFFNEDEEEKIVFSKEDVFEAEEEDYKIEWIIPNAQKNSMEPIIVELEPGGKYKEDSAHEGEEFGYVLNGTVIVHIGSKKYKAKKGESFYYKANKNHYISNPGKTKARVIWVSNPPMF;locus_tag=LOCUS_01520;note=WP_003418769.1 XRE family transcriptional regulator (Clostridioides) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-71],MGA_153
sequence01	MetaGeneAnnotator	CDS	169977	170483	.	-	0	ID=MGA_154;product=flavodoxin FldA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765037.1;translation=MNKIAIYFTSENGITENVAYDIKYAFDMDIDIFDIKNKGFEEISKYDLVIFGTPTYGVGALPDAWNEKLQELKTVDLKGKYIALFGTGNQVLFHESFIDAVEKIYTVIKDKNIKLIGQTDTRTYNFEESKAILNNKFLGLAIDDINQADLSIERIENWVMDLKKELKI;locus_tag=LOCUS_01530;gene=fldA;note=WP_008765037.1 flavodoxin FldA (Bacteroides) [pid:36.5%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:6.4e-29],MGA_154
sequence01	MetaGeneAnnotator	CDS	170731	170955	.	+	0	ID=MGA_155;product=ferrous iron transport protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545730.1;translation=MTLNELKVGNKAKILKIENLGKLKKRLMDMGITKGEVIKYQRNAPLGDPKEFIIKNTTICIRKSDASNIYIKEI;locus_tag=LOCUS_01540;note=WP_012545730.1 ferrous iron transport protein A (Thermodesulfovibrio) [pid:45.8%25%2C q_cov:97.3%25%2C s_cov:96.0%25%2C Eval:4.5e-14],MGA_155
sequence01	MetaGeneAnnotator	CDS	171007	173199	.	+	0	ID=MGA_156;product=ferrous iron transport protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546775.1;translation=MIKVAFAGNPNVGKSALINAISGAKLHVGNWPGVTIEKKEAEVIYKNEEFLFVDLPGVYSLSPYSMEEIITRDYIINENPDIVINVVDSTNLERNLYLTTLLKELGKPMILLLNFHDEFEKLNYKLDLDTFEDLIGIKSFFTSAKTKKGIDALLDYCIDLAKTKKEQHHIKYKIKFNNFIEKKLIEVEDILKTSKDFNIFSKQFHLDYMTIKILEKDKHFLEKIENFDINYQKIELIRKELEKEFEEDIETIFTESRYGVIKGILAKTFTTSIKNRLDTTEKIDKIILNQFFGPISFVIIMGLLFSMTFNGSAPLIDYTDQFIADYIGKYIALFLQDTPNWLQSFIVDGIIGGLGGILVFVPLMLFLHFFITLLEESGYMSRIAFIMDRLMKNVGLNGKAFLPMMLGFGCSVPAIYSTRTLEDKNSSKLTALMIPFMSCGARLPVYALFTAAFFGKQAGFIILSIYLIGILTAIIIGSIYKAHKYFKPEEKALLIELPPYRIPSFHAVISSTFRKTGEYIKKAGTIILAMLVILWALMYFPNNGNVESSFVGKFGKTIAPVFKPTGFADRWETVAAIPPGLIAKEIVVGFLGQALQTNTGDEEKEIEYNFINDTKEQIFMLKDAIVDSAKSTIIIDIKGLFTPPSKEELEEQGGNGIITQIQNLWTDSRAKLRAFSYMLFILLTIPCVVTLGAYKQEFGWGILKYVFLIYLIVPYLVSTLVFQIGSLIIR;locus_tag=LOCUS_01550;gene=feoB;note=WP_012546775.1 ferrous iron transport protein B (Thermodesulfovibrio) [pid:38.6%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:2.9e-144],MGA_156
sequence01	MetaGeneAnnotator	CDS	173213	173359	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLIILIILAIPLYFSFKKFFNFIRGKESACHCDSKNSECSHCPVNK;locus_tag=LOCUS_01560;note=MGA_157
sequence01	MetaGeneAnnotator	CDS	173548	174273	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFIFLIIISTISFGKTAQEIIDMVDYNMYPETAIYTGEMIIHKTNKDYTKKFKSYNIGQKQSFMEFLYPPRDKGTKYLRIDDSLWIYLPKANRTIKIAGHMLKQSMMGSDISYEDQTDRTKLNDLYNSKIIKEDDKYYYIEMIAKPDTEVTYYKRIVTIEKNTYVFKTQEMYANSGKLLKVMEVEKYQKIGDRYYMTEFKMSDKLKQNTYTKIIITNIELDVDINKNIFTIKNLEKR;locus_tag=LOCUS_01570;note=WP_002673490.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:31.6%25%2C q_cov:68.5%25%2C s_cov:65.5%25%2C Eval:8.6e-12%2C partial hit],MGA_158
sequence01	MetaGeneAnnotator	CDS	174284	175498	.	-	0	ID=MGA_159;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496851.1;translation=MLLKMAFRNIFRNKNRSILTIMAVIIGITGLLFGFSYFGGVEDLFIREGKKLTGDIRITTLDYELKEKTMDTSANVDYELLKNNLKDIKNIKYMLGRIKFGSIMYNMENDDEKAMGFGIENNDYKVLELDKYIYKGRFLDYTNEGEVVIGDKLAKNLKVDLGDEITVITSTANASMFALNYKIVGIYKYDNDRMNRGFYITLKDAQYLLDIDGRATEFAIYLKNDTKINKTKKEILNILKDKYLIKKWNEVGINQYMSQMLPVIKAIFIIILGILSGVVISNTMMMTVFERKKEMGILKAMGMSNFKINLLFLSEGIVLGLIGSLIGLIIGGSLGYYLSIYGIHFGDILENVSNNINLGTVIYTKMSWGIIINVFIIGIIIAFISTFLAILPQTKKEIVENLRN;locus_tag=LOCUS_01580;note=WP_064496851.1 ABC transporter permease (Methanocaldococcus jannaschii) [pid:23.8%25%2C q_cov:99.5%25%2C s_cov:98.2%25%2C Eval:2.5e-16],MGA_159
sequence01	MetaGeneAnnotator	CDS	175546	176739	.	-	0	ID=MGA_160;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870307.1;translation=MIFKMAFRNIFRHKIRTFLTLIIIIVGVMVAILGEGLNRGLERQIIDTSIRTEIGINKLYQKGYYDEKEDNDSKDFLIENEKEIREILKNKKSAYRIYFNGSINNGVEELQINFYGVDRSEEDKIFNRSSYLLKGNFLKNKKNIVIGYELANLLNLKIGDSITIIARTKDNNINAYDLIIGGILKTENPFIDGKTAFIDINFAKEFIDIDKINDIVVNEELTKDEIKKLNDLGVRVVNYKEELSGLLDIVKIRRKAFGIISIVILLMAGVGIINTMLMVMLERRKEIGILMANGMRKKEILILFLYEGMMLGVFGSLIGFILGSIITLKLQQTGIPLPQDFNDGGFALPISQKFYVYYDFGISFIYFIVGVVVALFASFYPSNKATKLEPVEVIRNN;locus_tag=LOCUS_01590;note=WP_010870307.1 ABC transporter permease (Methanocaldococcus jannaschii) [pid:28.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.1e-24],MGA_160
sequence01	MetaGeneAnnotator	CDS	176818	177480	.	-	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISGIFKTNNILLDKNVIFLSRNFAKEFLEIDKINDIVIKDELLDNELEKLNKLNIEIINYTIELKNMIEAMKIKRQSMFVVSIILLLMAGVGIINTMLMVMLERKREIGILMANGMNRKEILILFLSEGTTIGVIGSTIGFILGTLVTLYYQKNGILLPKEIDSFTNNIPISSIFYFSYNSTISFIYLIIGILVAAISSIYPAYKATTLEPAEVIRNY;locus_tag=LOCUS_01600;note=WP_010870307.1 ABC transporter permease (Methanocaldococcus jannaschii) [pid:33.6%25%2C q_cov:98.6%25%2C s_cov:57.5%25%2C Eval:3.9e-21%2C partial hit],MGA_161
sequence01	MetaGeneAnnotator	CDS	177516	178007	.	-	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKMTLRNIFRHKARTILTLVMIIIGIFIVIIGEGANKGLELQIIDMSIKTDVGKNKIYKKGYYKNKEDKNPIKHLIDNEKTIRDILKNKAVSYRIHFNGSITNGINELGAKFYGINKKEEERVFNRNSQIIEGKYFNKKNELIIGKDFAYLLDLKLILLQF;locus_tag=LOCUS_01610;note=MGA_162
sequence01	MetaGeneAnnotator	CDS	178042	178716	.	-	0	ID=MGA_163;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261737.1;translation=MSIVKIKKLTKEYHNGKIFVKALKNITLDIKKGEFSVIAGPSGSGKTTLLNIIGAMDKLTTGEIIIDGENISNLSKKEAADFRRRKIGFIFQSYNLIPVLTAYENIELALDLVGGYTKKEKDMLIEEILDQVGILNLKNRKPLEMSGGQQQRVAIARALVKKPAIILADEPTANLDTDTGESILDVMEKLNKELNTTFIFSSHDIMIIERARRIIKLRDGILQN;locus_tag=LOCUS_01620;note=WP_011261737.1 ABC transporter ATP-binding protein (Aliivibrio) [pid:48.4%25%2C q_cov:98.2%25%2C s_cov:96.9%25%2C Eval:2.9e-56],MGA_163
sequence01	MetaGeneAnnotator	CDS	178771	179727	.	-	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNISKFLLFILVSNLIFAIDYTTELNSKYSYNNEDISYYNSAKFGIKLYENDLYTEISFLGENYDTNNDLKVYTAFAEIYQNDLTLSIGKQKTNWGLGTLFNLTNIFNQADIKNPKSDKEGINGLDIKYRPTGMSKIEGFLFKNNYSNKNIAVRYINSFNNIEYNLNYLDYKLSLNRIKDIIVEFKGEDIVGYWSQFNYKKIKDTSTKIATLGIDYTFDIFEKNLYIANEIMNNFDEEIVLNYTNFSYSLTDLITYNQTFIFDFKGEENVILSNLSYIFNDYTTIDITNYKYNNIKNIFNTTQSINDKLELEFKINF;locus_tag=LOCUS_01630;note=MGA_164
sequence01	MetaGeneAnnotator	CDS	179812	180435	.	-	0	ID=MGA_165;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001220164.1;translation=MTKKDKLFIAGKKLFSEKGYEKTSIEEIIKEAAVAKGTFYYYFKSKEEFLEKMFDYIFDEAIKKLEIISIRKDIGATKKLITFLGEMVKMKTQDKEFTEKIARYILEKNFNILIYRFKEIYMEKLSPYLLKIFIEGKETGEFDIDNPEITLGHFLNLLTYAGDPKKMLNNPNYLKEFVYTRQRLVEKVLGLKKGTIRIFEEIFQLNI;locus_tag=LOCUS_01640;note=WP_001220164.1 TetR/AcrR family transcriptional regulator (Bacillus) [pid:26.5%25%2C q_cov:96.6%25%2C s_cov:93.4%25%2C Eval:2.8e-15],MGA_165
sequence01	MetaGeneAnnotator	CDS	180623	182602	.	+	0	ID=MGA_166;product=amylo-alpha-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_190697803.1;translation=MVIGRDILGNYDLGTNREYLLTNGNGSFSSGSINGNLARSYHGILVKSFDIPLDRKMTLHKIEENFDGIDLFTSKRIDANKVIIKEGFKYIQSFEVKPFPKWIFLVNGSLLEKELFMPYEKDIVIIKYKLLLSAKKDLKLKTNMLFNYRYSDHIIPFRDYNYDVYTKNNHLEIMFDNHKMYIYTNGNIKKSEYRKDNEDFYGNKIEGTVRKNIAYDIELNERGNYNLDSSYEIANSEITLNEGDTFYIVASFEKLDNINIEKMYSDELNRVNRLKNIASKDNEIIRDIAYACDQFIVNKPSIRGKTVIAGYPWFGDWGRDTMIALPGLTLSTGRYDDAKAILLAFAKYCDKGMLPNLFPNKEGDELQYNTIDAAMWYFYAVYKYLEYTDDYEFVKNNIYNTLKDIIKFYKSGTRYNIHMEENGMISGGSKDNNLTWMDVKYKGWAVTPRYGMAVEISALWYNALKLMEDLAEKYNEDNKEYKELSNLVKNNFEKIFWNEEKNCLYDYICEEGKNDDIRPNQIFVVSLPYSLLSKDKEKKVVDTVLEKLYTSKGLKSLSSDNIEFKGFYFGNLYERDSKYHQGTVWGWLMGHFVGAYNKIYNNKEKNRLLLNGLIEHFYREGCINSVSEIFDGDEPHNARGCFAQAWSVSELLRALKEMC;locus_tag=LOCUS_01650;note=WP_190697803.1 amylo-alpha-1%2C6-glucosidase (Anabaena minutissima) [pid:38.1%25%2C q_cov:99.2%25%2C s_cov:98.6%25%2C Eval:4.6e-117],MGA_166
sequence01	MetaGeneAnnotator	CDS	183000	183563	.	+	0	ID=MGA_167;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002279620.1;translation=MPLNTKKALGESLKKLLINSNLDEITIKELSKECGVNRQTFYYHFHDIYSLVKWIFKSEAVEPIKNLINYENWQDAYLKIFEFVGENKVFCKSCMNSSGREYLNQFLSHITNDLLIAVINDVAKEKNISDFTKKITANFYSYGLTGIILSWIRDGFIEEPKVLVKEVNNLVEGDIKKIIEKHLNEKK;locus_tag=LOCUS_01660;note=WP_002279620.1 TetR/AcrR family transcriptional regulator (Streptococcus mutans) [pid:40.6%25%2C q_cov:93.6%25%2C s_cov:93.1%25%2C Eval:1.4e-36],MGA_167
sequence01	MetaGeneAnnotator	CDS	183818	185518	.	+	0	ID=MGA_168;product=oleate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262036.1;translation=MGNYQKINTLKPEGIESKKAYLIGGGIASLAAAAYLINDGHMNGEKITILEQGNIFGGAMDGIGNPEEGYVARGGREMEEHYECTWDLFSKIPSIEEPHRTVLDEFKELNDIDPNYSNCRVIANRGEKLDFSSLGLEDIHVKQLTKLFLATEDALGKLTVKEFFDASFLETDMWLYWRSMFAFEDWHSVVEMKRYMHRFIHLIPGMTKMDGLLFTKYNQYDSMILPLKKWLELQNVVFENNTKVVDLDIEINLNEKIVKGIHILRNNNNEVIKTTENDLVFVTNGSMTENSTLGNMNTAPVLDRSEGGCWSLWKNIAKKDSSFGRPEVFCSDIDKTKWESYTITAKGTKMKELIEKFAERKIIKNRTVTGGIITIKDSNWLLSVTVNRQPQFKNQPEDTIVLWAYALFPDKKGNFIQKEMSACTGKELLEELLYHFGIDEENMQEYINESIVIPVMMPYITSQFMPRVKGDRPEVVPTGSKNLAFLGQYTEIKNDCVFTVDYSIRSAIIAVYTLLGLKKNPPEIYSSQYDIRVIANAAKTLYSGRPLPAEFIIKKLLSNTSLEGLI;locus_tag=LOCUS_01670;EC_number=4.2.1.53;note=WP_002262036.1 oleate hydratase (Streptococcus mutans) [pid:47.1%25%2C q_cov:98.8%25%2C s_cov:96.6%25%2C Eval:1.8e-151],MGA_168
sequence01	MetaGeneAnnotator	CDS	185711	186970	.	-	0	ID=MGA_169;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890833.1;translation=MQVLSPVEKIVNLRKKYKISQKDLSKDNIARSYLAIIESQKKTISPRVAEILTQNFNKIFKERGIDKQITVSYLLEDEEEQFDKICNSLYQAVNSKNVYGVLKKIKSTTLKTTHSIYKILLFKKTADILFLLNDFEESYNLYDSILIDSLNPEINIDFEEILYNTLYINIIFNNFNRNIDLENQFFSYIQSLENYKEKIFYLLGISHKNLNTINYALRYFEELEKIETDTEKIFELKLLLAECYELEKYFDKANSIYRGLLLKYKSIYKKSIVNLKLLILSKQMNDIQKASLYIRKLKSFLKELNTSRNNDKLISEIEFEFIEISKILPNKKMALKSIKNILQNQLASTEKKYLSIKSAFYFLDKNDIIFVNLIEEFYFKLMKTKPRHDIGFLFINYYIENEFFDLRDRFLRKIKMYIF;locus_tag=LOCUS_01680;note=WP_010890833.1 helix-turn-helix transcriptional regulator (Clostridium) [pid:21.9%25%2C q_cov:95.2%25%2C s_cov:94.9%25%2C Eval:4.9e-15],MGA_169
sequence01	MetaGeneAnnotator	CDS	187200	188288	.	+	0	ID=MGA_170;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964939.1;translation=MNLDAILKKDDLTKEELVYLLDLKNTEDISKLHKRAYEIKLETIGNKVYYRGLIEFSNICVKNCNYCGIRRDNKSVERFHMTKEEILDTAKWIYENGYGSIALQSGERQDDEFTEFVEDIIKEIKKIGNLGITLSLGEQSYDTYKRWFDAGAHRYLLRIESSNEEIYNSLHPKDKLHDFNTRKQCLIDLRNIGYQVGTGVMIGLPGQTVEDLANDILFYKEMDIDMIGMGPYALHKDTPMGQGKEDSIEEIQDRVRYGLNMIAVTRIFLKDVNIAATTALQALDPLGREKGLKAGANILMPITTIGKHRAKYQLYDNKPCVEDTKEECKGCLAGRVKSVGDEIVYGEWGDSPHFYNKQKTLG;locus_tag=LOCUS_01690;gene=hydE;note=WP_010964939.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydE (Clostridium) [pid:43.7%25%2C q_cov:92.0%25%2C s_cov:91.1%25%2C Eval:2.7e-75],MGA_170
sequence01	MetaGeneAnnotator	CDS	188293	189366	.	-	0	ID=MGA_171;product=arabinose kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000706056.1;translation=MDYIAFYISSHGFGHLTRNVAIIKNILELSKYNIYIACDKPHLDFAKKYLINYSNRIIYSEFTTDIGLINYKNSLKINILETKKSLNNFIKNIDNKIKNEVKNLSLLNIKLIINDITLIGIEVGKNLNIPIIQASNFTWYHQYKYLNISENIINFYKNIYKKIDYYIEYIPSLDHNFINTNIDTIGFISRKFNTHKIKQIKEKYNKIIFISCGKSANLSNLVVKNFDGTVIYTDGIDVTNEDGNSLKLSIDTLDTHNYLAASDIAIIKSGWSSVAEALISHTKTIVLNRDVLEDNFIRNYLLKYKYASSIDLNTINIIDYNEIKRQISNDICLENLNKIENDLDKITNLIFNYIKKL;locus_tag=LOCUS_01700;note=WP_000706056.1 arabinose kinase (Leptospira interrogans) [pid:21.9%25%2C q_cov:80.1%25%2C s_cov:81.0%25%2C Eval:5.2e-07],MGA_171
sequence01	MetaGeneAnnotator	CDS	189398	190402	.	-	0	ID=MGA_172;product=alpha/beta hydrolase-fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008764311.1;translation=MRLTINIITYILLSYILYKLYRKQKILKILKFKNVEMINYKDYSHKKRNSTLTVKRHRIKSDLVSEVMDYFVVLPNNYDNMKTYPVLFFLHGLGDSAIDWIEKAKLLETYDSLINNNKIKDIILVLPESGANGRSWYTNWYNISNKKYEDYFTIELINDIQKRYNIDTQNMGITGFSMGGYGAYKLALKHLDKYKTIASLAGAINFPRLFSRLLKGFGLLKHLKLSDKNKELRNLRKIFGKKIRYSNNENVFTLLKRKMSEDMELVKSKYFYLSVGEYDNKGYTMLLQWEDIVEHMEKYNFHYEARLVKGEGHRWEYVEKELESVLLFHSKYFD;locus_tag=LOCUS_01710;note=WP_008764311.1 alpha/beta hydrolase-fold protein (Bacteroides thetaiotaomicron) [pid:27.0%25%2C q_cov:82.3%25%2C s_cov:88.5%25%2C Eval:1.7e-20],MGA_172
sequence01	MetaGeneAnnotator	CDS	190524	190763	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKILFIIIIVLSGGCQRVQYVSVSKPNIDTSTTNHFLTPQKDTILEGNDSVKDINKKSNQIETLIIEDDGSYYYSD;locus_tag=LOCUS_01720;note=MGA_173
sequence01	MetaGeneAnnotator	CDS	190783	191121	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIINKKTFQKYKVTNNELSLLLKYGYINEENGGFYFDDKNKNKIILLIKADRTDKINQVYALREVVDELHDIYAKDYFESDTIKVNHLFLKIRKLKNLYDTIVSEGFKKDK;locus_tag=LOCUS_01730;note=MGA_174
sequence01	MetaGeneAnnotator	CDS	191244	192368	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKEFLTPGEKLRKIRKKYSLKQHEITNDEVTRNFISMVENNRANLTMRTAAIICKKINELIFLKNELFEIKPEELLKTVKEQIDEKALMYFKKIDNIKSSDEIEEIINFVIGKELSNNIFKLNVKLGDCFYKNNELEKAKFFLNTAFHIDFTNKEIIEEVENSFFKLAKINFFTDNIECFRSLKKFILNKKEFFSDKFIKSLNFYFLLFEILKKNNILELINYYETSDDIRSFILGIYNLHLENYSLANSYFDIINNSEIMILKLIAKIKTNLYISDKNLKKYLIELKNILERLKENEFYYLGLYALLYFKEHIIIEENYILNELNNREFEKYLNYKIFKEIFFKDSEIHLILKEKKKFELYKNEKNVDYVLK;locus_tag=LOCUS_01740;note=MGA_175
sequence01	MetaGeneAnnotator	CDS	192521	193273	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSQRYGLKTTVYNKMIDVFKKYPQIKQVKIFGSRVRGDYKENSDIDLSITFNESGDNIIYKVIEDLSLIDTILIFDVIDNDKIKNLMLWEYLEKEGEIIYKTNRQGEAIVDRVQLLKQLSNFNIAIDSLKQGIEVYKESQNDALILDGILKRFELCYEFAWRLIKSYLEYKGLDISNDPKISIKQGYKNDIIDNGDKWLEMLLDRNKIMYVSNSEIKIKIFYSIRDNYIYLLSSLYNKMDSLLNIKKNK;locus_tag=LOCUS_01750;note=MGA_176
sequence01	MetaGeneAnnotator	CDS	193472	196078	.	+	0	ID=MGA_177;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861274.1;translation=MKSLELKKDIYWVGAFDPNLRIFDIIMETQFGTTYNSYIVKGSEKTAIFETVKVKFFDKYVEKLKSILGDLNKVDYIVVDHTEPDHAGSVEKLLELIPHAKVVGSQAAIDFLADICNREIDSIVVEHGDTLNLGNKTLKFISAPFLHWPDSIYTYVPEDNLLFTCDSFGSHYSFDQILYSKIPTEKHDDYMSALLYYYTAIFGPFKKYVLEAIDKIKDFNIDMICTGHGPVLDKNPLEIVEIYKKWSIETNSNEKPKIVIPYVSAYGYTEEIAEKIIEGINSFGDFDIKKYNINIANYGELKQSIMNEIYWADGILLGTSTINGDALPPIWDIAISLNPIVHGGKIASAFGSYGWSGEGVPNIIDRFEQLRMNVVDPYRIKFKPSKDELLNAVEFGKKFAEYVTTGQVPPRKQEEIELLETLNPSGEIKKWRCLVCGEIFEGVLPPMVCPACGVGQELFEVIEETSAVLTTSEAEENIIIIGNGAAGISAAEAARERNKNANIEIIAKASIDAYYRPSISDFLGDNVTLDELYLKEKSWYIKNNIKVSLNTLIEKIDTNNKTIYLGDSTKRKYDKLIIATGSRSNIPPILGVEKPGTYTLRGKVDADRIKENLKTVNKIAVVGGGILGLEVASEIAEMGKEVIIVEMEARIFPKQLDEEGSVILEEIIKNRGIKLYKNHFVRKINGNEKVTGIELDNGKSINVDMVIISAGIRCNKELAERSGIITNYGIVVNNKMETNVKDVYACGDVAEFEGIVQGLWKTALEQGKVAGANAVGDDLTYTLENQPVTFSGLDTEIFSIGDIGNDPEKNYQISVYNDPINKVYKKAYFENNKFVGGVLIGDITAAGSLLSGIKLKSDMKELTKKLYK;locus_tag=LOCUS_01760;note=WP_011861274.1 FAD-dependent oxidoreductase (Clostridioides difficile) [pid:44.3%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:1.6e-213],MGA_177
sequence01	MetaGeneAnnotator	CDS	196227	197483	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISMFIVLSTIIITAITSIIASKLIGNLLLFSLAVIIIPLILSFIMLFMFILPRLGALNTIFNVLKDIAEGNLETDLSEVEKVNPALAEKLSKFFVLLNKVIDNSVVRIDKILDKNNVLEQDLDGIVMGNNESVKNGLLQLTEAVQDTMDQMRNQTASTQESLAGIEEVSASAISMNENAKYSLDISTEAKQQANESIKNIDNLSNKMNQINQSVENANVKIQELTVLSENIGNIIIAINSISEKTNLLALNAAIEAARAGEAGRGFSVVAEEIRKLAEQTNEETKKIESIIFDIQNKVMDTKIANDDVSKNVTEGLEVNTVVNEQINKILEITEKTNAKIEEITYATEEQMNATEEISKAINSISESATEIESKGMFNLEVTEEVSDMLATKLIEIKDIIKELENFKEELKELKK;locus_tag=LOCUS_01770;note=WP_004080253.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:26.2%25%2C q_cov:84.2%25%2C s_cov:64.7%25%2C Eval:2.9e-31%2C partial hit],MGA_178
sequence01	MetaGeneAnnotator	CDS	197548	198378	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILLLILIISTLSYAFTKEDLGIGVGISTGGYQLKGIYTFNDFFSSSLEYNNFTLNNFTTGDLTGNLKISALKANAHFHPFAGGFRLTGGYTYNLSDINFKMNNISYDYGGSSPAIMNGTVNTDFGKYLPYIGLGWGYQYGDFLSLDWEIGLQFVKKISGANTFDINATVDSTTANDIVTKIDDGANDLLTTDQETELKALLQSDLFDLQNKLNEYGVTPPSDFTLPDSNTVIGDLENQIDTMVNSTGLGFIQDLLGYAPLPFFSFGFTVFLW;locus_tag=LOCUS_01780;note=MGA_179
sequence01	MetaGeneAnnotator	CDS	198529	200436	.	-	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTTKLKGGFAIIILSLFLLLGIFNNTASSFSEKAENIASSVEQIKQNNGKMVLAQIAQTRLTNDYLKNIFLLGKSKNIFLVQKYQTNAINGIDSFERGFSSIDTSNGNGVSPILDKLRTHTKNYSNLIKEKLKKEIQIKKLSTSISDISKNSDKIQKLNKEIEQLNYDINNIFERKILVEFDNVGFVLKPFIDSTQLQNTMSINNIKKVTEETEKHIKSSSINNIIIILGIIALLTLLSINITNNINSFLNKLIAMTEKLSQLDLNIDFNELGQKEKKSKKIKKSNSNKKSKNNNKKQKSKKIKENYEMKIIRTSFEKMIAAFKETIQEVSNSSKHTKDEANKISDTILRSSSSSEEISASVSEITGNVNNSVKKLQEMAKNANSIAENSENMLHEFNNIKSENESMLQKSLEEKSTIKSATEKINVITHEIEDNINEVETLKSLSNEIQEFVNKIYAITEQTNLLALNAAIEAARAGEAGKGFAVVADEIRKLAGNSKMMAEEIENKVNNVSEKIDITVNNSNKSREKMSDMTNEIKRIENIFEQVMDVLSNAVSSIDMVYDNTRKQTDEVIELSTTSNEIKSVFEDISSSIEEINYAMTETSTSINDLVIVAENLAQNSDTVNNEINKFKF;locus_tag=LOCUS_01790;note=WP_011949079.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:27.5%25%2C q_cov:52.6%25%2C s_cov:48.4%25%2C Eval:8.4e-36%2C partial hit],MGA_180
sequence01	MetaGeneAnnotator	CDS	200555	202306	.	-	0	ID=MGA_181;product=M3 family oligoendopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679753.1;translation=MHNWNLDILYTSFNNEEFKNDFNYLIEKKSYFKNFFNQNNINLLEKFLEEYSEYFSKFLKIYYFCELKLSTNVNDSDAMEYLEKIENFNTNITEIEVNLKKYLKNLDNLDDIINSRNYLKEFKFYLSEQKQLSKHLLSDNEELLLEKMKNTGSKYWTKLQENLTANLLVNIEINGKQKQLPLSSIRNLAYDKDSTIRKKAYFAEIESYKNIESPVSFALNAIKGEAILEAKMRGYNSLLEKTLIQSRVSKSTLNIMFETIQENLKYFEKYLLKKAKILGHQNSLPFYDLFAPIGNIDKKYTIEEAKDFIITNFNKFSSSLSNYAKKAFDNNWVDFLPAQGKRGGAFCLNIHSEKESRIMLNFSGSFNDVSTLAHELGHGYHGEAIKNQHLFNSNYTMPIAETASIFCETIVKNAILKNASDDEKLFILEQDLTHNTQIIVDIYSRFLFEDSFIKEREKGSLSLEKINNLMLEAQKKAYGKGLDKNYLHKYMWICKPHYYSAEVNYYNFPYTFGLLFAKGLYKLYLEDKNKFIKKYDILLSITGKNNIEDIMNSINIDITKKEFWQGALDIIINDIEKFNSIIK;locus_tag=LOCUS_01800;note=WP_002679753.1 M3 family oligoendopeptidase (Treponema denticola) [pid:37.2%25%2C q_cov:99.5%25%2C s_cov:97.8%25%2C Eval:2.1e-110],MGA_181
sequence01	MetaGeneAnnotator	CDS	202454	203317	.	+	0	ID=MGA_182;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005479588.1;translation=MKNTRDNIFIGAHVSVSGGIEKAPINANDIGAKAFALFTKNQRRWDSKPLDEKNIKKFKENLVKYNFNPKYILPHDSYLINLGNPNKEKREKSLNAFIDELERAYQLGLLYVNTHPGSHLKEISEEECLDLIAESINISHSKTKDVIVVLENTAGQGSNLGYKFEHLAYIIEKIKDKNRIGVCLDTCHTFVAGYDLRDDESYNKTMNEFEKIVGFKYLKGIHLNDSKTEFASKKDRHHSIGKGFLGKKFFKLFMNDTRMQNIPIILETIDNSIWKEEIEYLYSLIEN;locus_tag=LOCUS_01810;gene=nfo;EC_number=3.1.21.2;note=WP_005479588.1 deoxyribonuclease IV (Vibrio parahaemolyticus) [pid:59.8%25%2C q_cov:97.9%25%2C s_cov:95.3%25%2C Eval:2.6e-96],MGA_182
sequence01	MetaGeneAnnotator	CDS	203368	204102	.	-	0	ID=MGA_183;product=HAD-IB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421079.1;translation=MIAAFFDIDGTLYRDSLMVEHFKKLIRYEVVDPIVWHGNKKNFHDWDKRQGNYDDYLLKLATIYIESMKGLNKNHVEFISDQVIRLKGERVYRFTRDRIKWHMENGHKVIFISGSPDFLVSKMAKKYKVDDYCGSIYHVDKNNIFTGEVTPMWDSESKQKAIYNFVEKYNIDLSNSYAYGDTNGDITMFKSVGKPIAINPAKELLNGIRKDKKLSEKIKIIVERKDIMYVLDSTVKTFNNNEEL;locus_tag=LOCUS_01820;note=WP_003421079.1 HAD-IB family hydrolase (Clostridioides difficile) [pid:65.5%25%2C q_cov:95.9%25%2C s_cov:96.7%25%2C Eval:3.2e-86],MGA_183
sequence01	MetaGeneAnnotator	CDS	204119	205747	.	-	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILLFLLVPTFSYAKNNLYDFYTNLNNFILLNFIIFIITIYFIIKYINIKKKLNIIHIRKVLEEIIFLMKYSIYDNNTKIIFDICKETPKIIKTNKNHLKLTLVSILDEIVKKDSYKNIIIKNAISENYMHIYIYDLKKKIIKEEFSEFLRKNKHIKFTYLSPSQIAFSFKIKIFPMTKFDRKELSLNIAIAEKDFFLLKYYKQFFSNLDINYTNIYDVANLFNFLSEKQFIQKYDYFLISEDFIDLSSEMIFPKLLNNFILKEKSIFLIYNPNNIITLKKYNLNYIFLNPISQNILYNELKLYHKRSLENKEERKKKNILLVESNNINSEVTKEYFTLMGIKCTAVKTGKEALNLLLDEQFSLIFLDIQLNDINGFDLAKAIRKNDKLTPIIAVTIHLFHGYENQYFEAGIDDYVAKPIIYEELQKVTFKYLNNINIDIDNLKMHYGDKIFKILSKNFLNNIKKELEDFEKNIEDNNIEEIKKILKNISASIGNFKMNKTNRLINYILLNELETNEIYTYASIIKADIYELTKKLKTLNY;locus_tag=LOCUS_01830;note=WP_000202845.1 response regulator (Leptospira interrogans) [pid:27.4%25%2C q_cov:40.0%25%2C s_cov:20.4%25%2C Eval:6.4e-13%2C partial hit],MGA_184
sequence01	MetaGeneAnnotator	CDS	205898	206704	.	+	0	ID=MGA_185;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000221392.1;translation=MEYKMIITDMDDTLLRDDHTISRRTKKIIKKAQEKGVKFVLASGRPTFAMKDYAKELELDKYGSYIISYNGAVITDAKENKEIFRNMLPKETVHELVELSKEHNMYIHTYLGDDIITATPNEYTNIEQDITKMDIKVVDCLKSHVNEDVVKVLMLQEPNYLLNIKNKIQPLYKDKYSITISKPFFLEFMPHGVNKGKSLEKLLDILKIKKEEVVAIGDGLNDLEMLKVAGLPVCVENANEELKKYAKVITKSNNEDGIAELIENYILN;locus_tag=LOCUS_01840;note=WP_000221392.1 Cof-type HAD-IIB family hydrolase (Bacillus) [pid:50.9%25%2C q_cov:99.6%25%2C s_cov:97.8%25%2C Eval:4.4e-71],MGA_185
sequence01	MetaGeneAnnotator	CDS	206785	207744	.	+	0	ID=MGA_186;product=NADH:flavin oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016600.1;translation=MIFKKFKLGNYRLQNKVVLPPMVRFSILDKSSYVNQELINYYKNTCEARNGLIIVEATAVSSDGKLRDNQIGIWDDSFIEGLSKIAKLGKEYNIPMLLQLHHAGFREKIKDVKEEILDKILDDFVNATIRAKKAGFNGIEIHGAHRYLISQLHSKIWNTRDDKYGGNFQKRMYFITEYVNRTKELFNNDFLLGIRIGGNEPGIEEGIEIAKYLEKLGFKYLHISHGIPYPNIKSFDKVEKPEDFPLNWINYLSFEIKRNVKIPVIAVYEIKKYEQAKYIIDNNGADLIAVGRAQLNNFNLLKKWHRKEKYERSLKWKKN;locus_tag=LOCUS_01850;note=WP_011016600.1 NADH:flavin oxidoreductase (Fusobacterium nucleatum) [pid:51.4%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:1.1e-87],MGA_186
sequence01	MetaGeneAnnotator	CDS	207729	208340	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKLMFDSIILFIFLSTLSFAEDIVIHSLEPGMMDNRGMGMYKNEKYLFPIFSISYPLITNDMKMGNINYPAKKSWSFMFESGLTKNEFINLGIGVMYTEQFRLLTLSSYTTYSTPDTYKFVPIYMIADVSLSPYTAFVFKLGVGNVKANNEFITEFGDIVSTGYYYAGGIRFLSLEILYSIDSLKLSKGVKVNNNKISLVF;locus_tag=LOCUS_01860;note=MGA_187
sequence01	MetaGeneAnnotator	CDS	208683	210326	.	+	0	ID=MGA_188;product=hydroxylamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047923.1;translation=MFCYQCQEAAKGTGCDIKGVCGKEAPVADIQDMLIFVLKGISYVSSVLREVEELPEHNIVDEYVTTSLFTTITNANFDEDALFNRVKSGIDLRNSLIKIATDKGIELADYDQVTWNPANDEEIKEKAKNVGVLDTENEDIRSLRELVTYGLKGAAAYLEHANNLKFENKEINKFIQKALSDLLNDELGADELTALVLETGKYGVEAMALLDKANTSAFGNPEITKVNIGVRNNPAILISGHDLNDMEQLLEQTKGTGVDVYTHSEMLPANYYPKFKQYEHFVGNYGNAWWKQVDEFTSFNGPILFTTNCIVPPKADATYADKIFTTGAAGLAGATHIVADENGKKDFTPIIELAKKCKPPVEIEKGEIIGGFAHNQVLALADKVVDAVKQGAIKKFVVMAGCDGRMNSRNYYTEFAQELPDNTVILTAGCAKYRYNKLDLGDIGGIPRILDAGQCNDSYSLAVIALKLKEVFGLEDINELPIFYNIAWYEQKAVIVLLALLYLGVKNIHLGPTLPAFLSPNVAKVLVENFGIAGIGEVKEDIEKFVL;locus_tag=LOCUS_01870;gene=hcp;EC_number=1.7.99.1;note=WP_012047923.1 hydroxylamine reductase (Clostridium botulinum) [pid:67.0%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:3.5e-216],MGA_188
sequence01	MetaGeneAnnotator	CDS	210775	212115	.	+	0	ID=MGA_189;product=CoA-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_068576671.1;translation=MNETIVIIGGGAGGMTTASQLKKISPEKRVVVFDKGPYVSWAGCPTPYYIAEELPFKSVVHFTPEFFRGRGIEIYENHKVIKIDKENKKIMVEGKEINGEFGYDKLVLSLGGKSFVPKIKNYNNKLENLFKLSHAVEAEKIKDYIDNKKPKKAVVVGSGFIGLEMAEAFKQRGLDVVIVEAMDKIFPTLNENFRKILLDKMKEKDIKLLLNEKVVEIKNKDNKVTKLIFESGNYIEADIFLLAIGLRPNLDLLIESGFELEDNKLETNEKFETKYKDIYALGDMVYNKNLITKKEVYAPFGDVADKQGIILSKILSGKNVQWRGIIGTFATSFFDIKIAKTGLTYDEALKEGYNVKSINVTGVPKVSGFKDSTKGTMEIIYDDDKKIILGASMLGYEAVAQFIDQVAIAITYKISIEDLFYVDYAYSPTNASVWNPLVVAYRKACK;locus_tag=LOCUS_01880;gene=cdr;EC_number=1.8.1.14;note=WP_068576671.1 CoA-disulfide reductase (Thermococcus chitonophagus) [pid:34.2%25%2C q_cov:97.3%25%2C s_cov:97.5%25%2C Eval:9.2e-68],MGA_189
sequence01	Aragorn:1.2.38	tRNA	212192	212267	.	+	.	ID=Aragorn_15;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence01	Aragorn:1.2.38	tRNA	212275	212349	.	+	.	ID=Aragorn_16;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence01	Aragorn:1.2.38	tRNA	212355	212431	.	+	.	ID=Aragorn_17;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence01	MetaGeneAnnotator	CDS	212543	213130	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKKNSNYLLKTYKKHDKNSFIIEIDLDKYNEVFNEWDRSHIRKRDIHPELEEYLDSCSEDIPLKYKLVLYLYLPNKIKDEKKEKTIIEAIHNYYEYLLHFNQKKISEINSESLRHLIFSLILLILSFFMKLKIHNVLFNETLIEILYIGAWVLMWEAFHNTFLSTSNIRKKSKEYKRFLQSKIYFYYETRVNN;locus_tag=LOCUS_01890;note=MGA_190
sequence01	MetaGeneAnnotator	CDS	213211	214413	.	+	0	ID=MGA_191;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675474.1;translation=MKIGIFTDTYFPNVNGVVRSIETLRENLEKRGHEVYIITTVKLDKKEDKVLRVSNLPIEILEGYKVALPYSNRVFKAVKKLELDVIHTHTEWSIGAFARICSKRLKLPMVHTFHTMYENYLHYITKQRGQVISKQLMKSIVKGHSNSAKYVIAPSLKAKNTLENYKVRSNIEIVPTGIELSKFKEKINQELINKKREELKIDKNDFVAMYLGRIAKEKNIEPIIKSVLNIKISNFKLVIVGDGPERKNLEKIVKENNLENKVIFTGQAAMEDVPMYYKMANLFIQASNTETQGLTIFESMASGTPLLVRFDTNINSFFENRVECVYFNEEEEISEKINELIENKDLLNYIRKNALERIDEFSAEKFAENIEKIYLAAIELKKSRNKKKIKLKFSFRKNKN;locus_tag=LOCUS_01900;note=WP_002675474.1 glycosyltransferase family 4 protein (Treponema) [pid:40.3%25%2C q_cov:93.5%25%2C s_cov:98.4%25%2C Eval:1.2e-74],MGA_191
sequence01	MetaGeneAnnotator	CDS	214483	215889	.	-	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKILIINTGGTIGMVNLDKNNPLSPLIPAKSWKDIAYKYPILYKYNTEYIQLPKLIDSSDMKPKNWIEIANLIYKNYSKYDSFVILHGTDTMAYTASSLSFMLKNLSKTVVLTGSQVPLQNSRTDGLQNLISALDIASNEKTIPEVTIFFRDALYRGNRSRKLYTNKYAGFDSPNYPHLAEAGAEIIFNDKFIKPLPKPEEVFYINTELESNIMILELFPGFDPNILKGIFTSKNNIKGLILKTYGNGNAPSNTEFLSILHEIAEKNVIIINITQCISGMVKLGLYQASSGLIDSGVISGIDLTPEAAVTKLMYLLGKNLPIEEVKRLMQKNIAGEQTLNHFQIILNKNNIIENNNIMYIKIPGEVDFDKIKSATLHIKNIKYLEEKEKIIMKFFINYKDASLDTPDNFEKCLTSFEKPCNNKNIIIDISTKLKSLLKDGNLTPLYIISNIKFKYTEMNISIYTNV;locus_tag=LOCUS_01910;note=WP_005902407.1 asparaginase (Fusobacterium nucleatum) [pid:50.9%25%2C q_cov:72.9%25%2C s_cov:100.0%25%2C Eval:2.0e-92%2C partial hit],MGA_192
sequence01	MetaGeneAnnotator	CDS	215998	217092	.	+	0	ID=MGA_193;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016530.1;translation=MKVKVNRQEFIEILSDLSIIIRDNPVRPIISGTKLIAHENNILEFKGTTLEMSMVAKIPALVEEPGEVVFKVPLVLEYIKLLEEENIDLEYKDGVIFIHRAEFSVFDTDDYPNIRQLNEGIKFNIDILDLLDGFEKVKMSAATSSDNVSINCIRMEYNENNIHFVATDTYRLAYFKLEANIEEEFGISIPLETVQAFLKIFKSYSGEVEFTIQDSYLQIQTDKITIFTRLIDSKFPDYKNILKNIPTDKKMEVNNEEFNNSLKKVLTVAKINMDTKDAAIFSFTGNKMTVIATSGRAKTTQKIDMIKDGGDFRASLNTRYVLDFTTKIKKNIIIYGINSSSMFVFKEVKNDNYYYILMPLALRE;locus_tag=LOCUS_01920;gene=dnaN;EC_number=2.7.7.7;note=WP_011016530.1 DNA polymerase III subunit beta (Fusobacterium nucleatum) [pid:37.5%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.9e-66],MGA_193
sequence01	MetaGeneAnnotator	CDS	217270	217473	.	+	0	ID=MGA_194;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356423.1;translation=MALGTVKWFNSEKGFGFITSEEGNDVFVHFSQIQKDGFKTLEEGEKVSFDVVQGQKGPQAENVVIVK;locus_tag=LOCUS_01930;note=WP_003356423.1 cold-shock protein (Clostridium) [pid:74.6%25%2C q_cov:94.0%25%2C s_cov:96.9%25%2C Eval:4.8e-24],MGA_194
sequence01	MetaGeneAnnotator	CDS	217675	220110	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKTEPFDTLVLEYNFYGEKFDINKKNLIGSKLNNRYEIIKKISDGGTSIVFLVKDIHDDNRYIAKILKENINIQLLENEIEKLLELKHENIVNLIDYKKEYGIEPAFIILEYIEGKSLEEILKENEDMKEKEIYHIFYQIAEGIKYLHSKNIIHKDLKPKNILINNKNKVKIIDFGIADYLKDNNIKAGTKIYCSPEQEKGEILDKRTDIYSFGIMFYEIIAKKLPLDIKNISNIDELEPDNIFFYTWDIVKKCLENQKEKRFLNFNELIFEMRLSEFIKENLYFNFKNEMLDENKEKEIINIGLEKGFSRNQILKAINKVCEYKSIKRSFKIHIDDVIDKMKKDIEIKKGLTLDEDKNSFIKEINAKFYNLNIELIEELYDKEVLKYREIQEEKYNSIIKRAEEEIEIENSEIIINDLEYLSEKGCLKADYLLANIYLQEKTQDIRRFWHYVERAKKYNYYLIYNAIGKYYLLEKLYDEAKKNFIIAIKNNIKISHNGIALIELYEGNNEKVLEELEKTEDKNSYNNIGYCYYNGIGVLQNIEKSVEYFNTAFKMNSKIAVYNLAICLANGNGVEKNIEKSITLLNTIKDIKYAKNLLAILLRKKDYNTAIEYFEELILENYNIAYYNLAILYDENKEYGMAMINYKEYYEITKDEKVLFDIAYLYIKQNELNKLEEVIQDISNTKFENKNEILGIYYFYKKDYSKSFDYLSKALKNEEKYASFYMGELYLNGLGITQNYLKAFKYYNNARKIGIKEVYDKLIYLYNNGFGVIKDEEKVRELKVEKENIDYTDLSKKYKYSNDIKWAY;locus_tag=LOCUS_01940;note=WP_011986841.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Clostridium botulinum) [pid:33.1%25%2C q_cov:30.0%25%2C s_cov:40.5%25%2C Eval:8.3e-31%2C partial hit],MGA_195
sequence01	MetaGeneAnnotator	CDS	220121	221878	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLYSIKEISNLAKNILDERYKKKGWLLKKLEVISAETVIKNIKKGDSLIKENEKINDEVKKIYNIQDALLAYYVAFHRSNEKDKRAIENIKKNKIRYLDTIKKYIELNIDKKNNYENIEILENLINILKIEKLEQSLLLEKRFFLNKEAINTFNKIEALNYNDYKIANEEFKTYFKYNLPIIKELKAKIIKKYNENINNIKEFLNGNKNIENIKEKLIYISYINPENYKKLKNIINNYYKMEKIILFLESDNDYNNYIKLEELKKEYNEIKSINFVVPLLINTFNKLNNKLKKYNKIYFRKNLQEFFNNNHQEVYDKLFLVENYYSKTDKKIIDLYFLELITILDEIDIDKKLNKLENLIETDINLDTKDILIEELMEYYKKEIKNYNFLDEYTIKIYDNQYDIFYNIINKNKITIGRSRINDIVLNSKFVSRKEHLIINLEKMLFENPKFKIFYIDNEISDIVNEKEIKKSLFELNIGNVFTFKVIVKENYILFIPYEDKTNIKECNEFSFEDFKKNIYIIIIKNSSLYFDKYNVSDIEIGEEEFSLEYLDNKYFINYKDKMKRVVKKIEFFIDNRYKVSIK;locus_tag=LOCUS_01950;note=MGA_196
sequence01	MetaGeneAnnotator	CDS	221912	222559	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFFTIILTIFIISCGNNTPKQPVIERDPVVGETKILRTRPVDEPSWTSSVYKAAKDFPEYELFVGISAYSGNERDATKLAEQDAIQKVINYLGTYGENNLKKVFSSSGVDYVDIAEASQEKVTQIAKNFASGIKTLETYLEEGERYSTKQIWEKYFKIYVLYGVEKTDFNSARNRIIQAQKEVLLEKSRTERNAEAKEAMEKAIEELDALTK;locus_tag=LOCUS_01960;note=MGA_197
sequence01	MetaGeneAnnotator	CDS	222577	223092	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLLFTLLVIIIGCSNNKVKIISNPKAYDYIIENQIPSKRPDWTYNLKSIENKYKTYELFVGISNFSNDEYTASKIAEENAILQVIKYLGVSAEIERITTKRSENSSSIDNFNLKSKEISKQVSKNYAEKIILLEKYIEEGKYFDPRRFWRPFTRVYSLYGIDKKIINK;locus_tag=LOCUS_01970;note=MGA_198
sequence01	MetaGeneAnnotator	CDS	223229	223675	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKKMFSKNKMLNRTKLLIIILIIFISILIMINKNSSISKEEIPQEIKVTIEKGKEKLEEKPKLEVIELKEDLSNEFDLKKTENTVNSNINTKVKTRTKVLKERDVEKEELIERAENSIYEFKSDKEIWEELEDISKQKLKEKQKN;locus_tag=LOCUS_01980;note=MGA_199
sequence01	MetaGeneAnnotator	CDS	223736	223894	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLETKRLILVPAYKINVKKVLEYLIKNKEFLKPYEPKKMKNIIKFGIKKNY;locus_tag=LOCUS_01990;note=MGA_200
sequence01	MetaGeneAnnotator	CDS	224069	224281	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAVNEIIKFAFDNLNLHRIEANVLPRNKASMKVLEKNGFILEGYSKDYLKIDDEWKDHIHMVKLNKKL;locus_tag=LOCUS_02000;note=WP_011459628.1 GNAT family N-acetyltransferase (Desulfitobacterium hafniense) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:38.3%25%2C Eval:7.8e-19%2C partial hit],frameshifted%2C insertion/deletion at around 223945%2C223852,MGA_201
sequence01	MetaGeneAnnotator	CDS	224297	225079	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMIKNMIQNILGNNYSEEEYILEIENLKNECNELIDVIHQKDEKINELYNELEEMNKKIKSIQNTTKIDNNLLDKLDQEIKKRDNKIKELENENTKIKIELNLLKESKTILSEEIKNVETIEFNFKILINDFFPERKFEKFKKECALRNFIYVDDILKYDISMFELTETKLQNVIERLNDYREKKFDKETIEYLKYGDKISKVFFRYRSFVKFCKGINLENIIELKDFDFNILLENGFTKVQIEKIKTKYNEYMSLRKK;locus_tag=LOCUS_02010;note=MGA_202
sequence01	MetaGeneAnnotator	CDS	225091	225714	.	-	0	ID=MGA_203;product=epoxyqueuosine reductase QueH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964885.1;translation=MNKINYQKEFEKIISSFTSKPNLLLHSCCAPCSSYVLEYLNNFFNITVFFYNPNINIETEYQKRKEEQKRFIKEFSNNEISFIEGDYNIQDFYSAIKGEELKGEGSIRCKKCYTFRLEKTAILAKKNKYDYFCTTLSISPLKDSQVINKIGLELENKYNIPWLKSDFKKKNGYKRSIELSCEYNLYRQNYCGCSFSKLEAENKNREN;locus_tag=LOCUS_02020;note=WP_010964885.1 epoxyqueuosine reductase QueH (Clostridium) [pid:58.1%25%2C q_cov:96.1%25%2C s_cov:97.6%25%2C Eval:2.1e-63],MGA_203
sequence01	MetaGeneAnnotator	CDS	225707	226330	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKILLFIIMIPLIACSSLSTKNENKNDIRAVIKTNKGDINLFLYPEAAPIAVTNFINLSINGFYNNLTFHRVIRGFMIQGGDPNADGTGGPGYSFEDEFVDWLDFYNSGMLAMANSGPNTNGSQFFITENPADRLNKVHTIFGEIVSTSDEKIVKTIEKGDKILSIEIKGDYSWLFEKYADRIAEWNKILEKNNFLKKERSENE;locus_tag=LOCUS_02030;note=WP_005903844.1 peptidylprolyl isomerase (Fusobacterium nucleatum) [pid:45.7%25%2C q_cov:91.3%25%2C s_cov:72.6%25%2C Eval:1.8e-49%2C partial hit],MGA_204
sequence01	MetaGeneAnnotator	CDS	226385	227143	.	-	0	ID=MGA_205;product=histidinol-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005785236.1;translation=MKTNYHTHNFRCGHAIGDVDDYIKEAIKHNYNIIGISDHGPLPDYLFDRMTLKDFDDYIKAIDIAKLKYSIKIYKGLEIEYFPEFIKYYKSLKEKLDYLVLGPHYIIENNNLISSWEINTKSRLNLYTKQLLAAMNTNLFDFIAHPDLFTNANTTWDKDFEEASIKICKTAKELNIPLEINANGIRKGFKDTNLGPRYNYPRYEFWEIAKKYEVKVLINSDCHTPKELHDEAVEKAYEFANSLSLNIIYKFL;locus_tag=LOCUS_02040;note=WP_005785236.1 histidinol-phosphatase (Bacteroides fragilis) [pid:36.3%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:7.0e-36],MGA_205
sequence01	MetaGeneAnnotator	CDS	227327	228103	.	+	0	ID=MGA_206;product=formate/nitrite transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016933.1;translation=MYENNITYSKVVKMGEKKSKSTLMNTFLFGVLGGIFIALGYIGYMSVVKNIIKIDKGIAGLLGAAVFPVGIMLCVGIGGELFTSNNLITLSFLNKKTNIKKLIKNWIIVWIGNFIGAIFIAIIAKLAGIYKSSDMYNIAVNMAHHKLELTFIEAVASGFFCNILVSLAVWLSLSSKSLISKIFALWFPVMLFVLSGYQHVVANMYVLSIAKLLDNSIQIQSIFLNNLFPVTIGNALSGGVFIPYIYFQIFNNKKEAIV;locus_tag=LOCUS_02050;note=WP_011016933.1 formate/nitrite transporter family protein (Fusobacterium nucleatum) [pid:38.0%25%2C q_cov:91.9%25%2C s_cov:91.8%25%2C Eval:6.4e-40],MGA_206
sequence01	MetaGeneAnnotator	CDS	228112	229212	.	-	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYELLTPEEKLKRLRKRFGLKQHEITGDEITRNLISMIENGKAKLTKENGIKIVNTINGILKKRNINIFISPSELLESLDEQTDKIFIDYIEKFSSHSTEELVQEINSFTKHKKTFHSKFILYTKIADFYILNKQYYLAEKYCFEIIDYAIKNEDRSSLYFFIKKYVNLLLIQKKYNEIFYVFKLLESLRETNSFFIKYTILSTKLYIYYKLNDYNSILNIIDEIDDLIKNNKFNSNIHIFYLILFKYFKDDNNYTKYFSKSKNNKYFSIIKNIDDLSVEDKILYNKNSVTDFIYLYFLKSNNFSLNKISMKIKNLNFFYNKIDLIDHIIKNKTISNNNSKKFLAFLEKININESIKNNYMTIKL;locus_tag=LOCUS_02060;note=WP_010963510.1 helix-turn-helix transcriptional regulator (Clostridium) [pid:25.1%25%2C q_cov:86.1%25%2C s_cov:74.2%25%2C Eval:8.3e-16%2C partial hit],MGA_207
sequence01	MetaGeneAnnotator	CDS	229708	230280	.	+	0	ID=MGA_208;product=RNA 2'%2C3'-cyclic phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583814.1;translation=MRCFIALDVDENFKKECIKLQKELKKFGIKGSYVKANNFHLTLRFFRNAEEKIALEIIQNFEKILKEKKEFRISLREKLSMFIRKDGKSIVWLGIKENRDKVKNIAKELFDITNTYVLEDKDVKNFKPHFSLLRTKISTKEDEENIMKIIESFDLEITTKIKSISLYKSELTPNGPVYSKLYRIKLEKAE;locus_tag=LOCUS_02070;gene=thpR;note=WP_012583814.1 RNA 2'%2C3'-cyclic phosphodiesterase (Dictyoglomus turgidum) [pid:29.8%25%2C q_cov:98.4%25%2C s_cov:92.8%25%2C Eval:3.7e-16],MGA_208
sequence01	MetaGeneAnnotator	CDS	230297	231310	.	-	0	ID=MGA_209;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582593.1;translation=MSITIIDVAKKAGVSRTTVSNVLNHPKRCSNETKKKVLAAIKELNYTPNFAAKTLVNKTSKLIGIILPEYIDNNFLTGNPFYNTIIDGVNSKLTSLDNEYDIIINYLHSKKKKENIIEWVNMRNIDGLIVIGEISKNYIKKIEKSNIPCIFIDNYVDYPKNSITLNIDDKLGGYLATKHLIKKGYQKISFCSSNLKSSKVNSLRYKGYLEALNKYKIDIPIVLESKNIFFDAGVEIAKEILNNNIDAVVSVSDILAIGIVKEISKYKKIPNEFGIVGFDNINISNYYTPSLTTINQEIKHRGELALEYLIKLILNKKFNPNILITNINLIERESTLL;locus_tag=LOCUS_02080;note=WP_012582593.1 LacI family DNA-binding transcriptional regulator (Dictyoglomus turgidum) [pid:34.5%25%2C q_cov:98.5%25%2C s_cov:96.5%25%2C Eval:1.9e-43],MGA_209
sequence01	MetaGeneAnnotator	CDS	231360	233633	.	-	0	ID=MGA_210;product=glycoside hydrolase family 31 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011254583.1;translation=MEKIIFKNEKNQLNILFYNENIVRFVYGDYIPKKNITDAVILEPTKIEFTKDKNKIYTKNFDIIINNNLTIKILNKQDEILLEDTKIEFKTHEKIKNKLENTESLDSVLSERDLEIINPIKVERKVTFEKGFYGLGEKYGFINLIDRDTYNWNTDVLGVTTMHNSAQRAYHTSIPFYIATDESKSYGIFYDTSYKTYFDFKKLSENVVYKADGGILDYYFIYGKNIKDVVQNYSNLTGTLKLPRKDFIGFQQCRWSYMNTKETLEIAKKFRKNNIPADVIYLDIDYMENYKVFTIDSENFKDFKNMAKELHKMGFKLVVIIDPGVKVEDSYKVYEEGIKNDYFIKDKNGEVYIGKVWPGDSSFPDFLRDKVRKWWGELHSNLIKIGVDGFWNDMNEIADMSNDTKTLPEDSYHIDDNGIKRYQKEVHNLYGHYEAISTYEGVKKLQNKRPFILTRAASAGTQRFSSLWTGDNSSVWEHLEGSIPMLLNLGLSGYSYVGSDIGGFIDDTNKELLIRWTQLGIFYPLCRNHSVINSRYQEPFAFDNETTEIIKKYIKLRYKFIDYLYNLFRESSIKGNPILRPLFYHYQEDIETHNINDEFLFGENILVAPIIRPKQNRRLVYLPNGKWINYFTKEEFEGNNYYIMKANLNELLLFVKKGSILIENSEMNYIFENNDKITIHIYADENNLSKEFYFDDGISFEYKNEKYSIIKVEKIDNSVKISKIIDNYILPKFDLIIHKKNDIIKFENIQFDNIYNI;locus_tag=LOCUS_02090;note=WP_011254583.1 glycoside hydrolase family 31 protein (Lactobacillus acidophilus) [pid:39.1%25%2C q_cov:89.3%25%2C s_cov:87.7%25%2C Eval:1.6e-148],MGA_210
sequence01	Aragorn:1.2.38	tRNA	233873	233956	.	-	.	ID=Aragorn_18;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence01	MetaGeneAnnotator	CDS	234156	234692	.	-	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIIILLLILSSITFANIDGLGGASLNEHQTIKVYNNLVKTAKLAIKKNDFFVKEEIYDNIENFINIVNSYKNKSGHATEKTKKMINNLNKIILKLETIDGLGGASINQKSMVERYKKTITLADKAIKTGKNKNIAKREVNDLLDFITKWKSSQSSGAKKYLNDFEKTLKMKYNKL;locus_tag=LOCUS_02100;note=MGA_211
sequence01	MetaGeneAnnotator	CDS	234876	236117	.	+	0	ID=MGA_212;product=electron transport complex subunit RsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480691.1;translation=MNRKYIGIHLKDKKQLTENKKIENFIPKRVKISLKQHIGTKAFPIVKEGEEILCGQVIAIENFSPNIHSSISGKIEKITEGFIEIKNDYEENKVENKKIKIDTINKFINLLKEYGIVGMGGAMFPTYKKFNIPNGKKIENLVINAAECEPYLNADNRVIIEKYNSIIKILEFIKKLFNIKHIIIGIEKNRHEAIKILENSNKKKLYKIKKLKTIYPQGAEKQLIQSIFNKEIKTLPIDENIVVLNISTCYAIYNAIFNNKPLTKRVVTISGEAIKEPKNLLVPIGTDIKELLEYCKINESKVYKKFLGGPMMGVEIDKNSTIIKGTNGVIAISKKEANIYPEKECISCGRCVDVCPMNLIPLKYVEYYRRNQLGKMNEYELNKCIKCGCCQYICPVNQPLMKAIWTGVNYKNN;locus_tag=LOCUS_02110;gene=rsxC;note=WP_198480691.1 electron transport complex subunit RsxC (Fusobacterium canifelinum) [pid:40.2%25%2C q_cov:97.1%25%2C s_cov:96.1%25%2C Eval:6.8e-86],MGA_212
sequence01	MetaGeneAnnotator	CDS	236127	237641	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNIKSIAPFIRTNYTMESTMYDVVIALLPVLTAAIYIYGVKVIYILLISIITSLFTEFLITKSFKLKNQVFDGSSIVTAMLFCFTLPISIPYHVVIYGSVFSIFIGKMIFGGVGNNPFNPALLGRLYIMISYPQYSYNYIDTTVGASIIPQLKYIGSETIFTFFNGKLGFYKDILIGSSKRITSIGEVSILAIILGMIYLKYKGHIKLRTPISILGTLGILYVISGRDIMYLFLGGVIFASVYMATDMVSSPYTHNGLIIYGIVIGLFVYVFRDFTSNPEGITFAILLANILVPTINKHTLSRSFGGEKNMKKIKTIFLIIIVVISSVIIINKTDNMIEKIKIKKENRLKQKFIKEIYGENAKTSDKIEIKGDYSFVPIELENQIVGYITIFESKGYSENMIKFLLALDIEGRIKRLEVLSQNETEGLGSYVASKKWKNLWINRDSSYIFNKKVDAMTGATFTYLNSYKTIIKVLESYDELIGKNSLEMEDVDFLDLEPIDF;locus_tag=LOCUS_02120;note=WP_011015691.1 RnfABCDGE type electron transport complex subunit D (Fusobacterium nucleatum) [pid:37.0%25%2C q_cov:59.7%25%2C s_cov:95.2%25%2C Eval:9.8e-53%2C partial hit],MGA_213
sequence01	MetaGeneAnnotator	CDS	237672	238154	.	+	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTIFIYPIAVLAVGTVNSFAAILSLFLFLIVFIYSYFIKKYITKSYIFIAVSILISFIYLFLDYMNFSWYIDAKYMAILYFTVILALEYINKLEIKYFIKNIFLFLFLGIIREFFSYGKIFNKTILTKFEGSLVLTYSAGGLFLLVFIFIFMNSKGDSL;locus_tag=LOCUS_02130;note=MGA_214
sequence01	MetaGeneAnnotator	CDS	238151	238663	.	+	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVLTIKLFLIGLLLNNFIFKYFVGIEIFSKIKNIKEFLKIFFINILLANVVSYGIVKLFKINSFAINILVISLIATMVYEILFKNKSEYKNIILLYTIFLYLTIKEYTFLALIIYAILNTFFIGVSLYVIQNLYDYIDYKSKLIKPELIYTLVISLISMIFFGFTGFHS;locus_tag=LOCUS_02140;note=MGA_215
sequence01	MetaGeneAnnotator	CDS	238644	239333	.	-	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIGFFAGILTTFLIITIFFIVLNVFYKNKEKVEIYDRVNVNDDKINKIIKDAKKNMIFNKNFNLKQNLFYFKDNIFELINKISKEYFPSSQYHLYELTLEEFLYLNIHISEKLIKLLDTPTFKLLKKVRISQILYLNDSKNKFLEIPLIKKANKHKLINKLQKTWMTLNIANPRYWTFRILRKTTILSLLRFLAYKSISIVGEEANNIYSKNFKNTSFNLKTKNENQ;locus_tag=LOCUS_02150;note=MGA_216
sequence01	MetaGeneAnnotator	CDS	239540	240160	.	+	0	ID=MGA_217;product=histidine phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903437.1;translation=MLEIYLVRHGRTDWNEKGIIQGQHESKLTKEGIEQAKLLGKRLKDIKFDAIYSSPISRAVETTKNILGESNYKKQEIILRDELKEMGFGIAEGLKIDEIKKKYSKEWDDHYNNPQNYNPIIYQGETFQQLLERCRNFLEEIVKKHKNQQILVVSHEVTIQAFINIINKYELKEFWNGDSIENTSLSIFSYNNDFEIKLLSDVSHLK;locus_tag=LOCUS_02160;note=WP_005903437.1 histidine phosphatase family protein (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:1.6e-34],MGA_217
sequence01	MetaGeneAnnotator	CDS	240418	241107	.	-	0	ID=MGA_218;product=6-phosphogluconolactonase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939587.1;translation=MNKINIGQDLNNLSQKLVNYFFKIYLNKPLLNIALSGGNTPKKFFQLLSEKKEINWNNINIFIVDDRHVSLDSNDSNYNLIKSSLIDHINIPKENFHFIPYLKTLEESKEFYENDIVKFFNLSENEYPNFDFILLGIGNDGHTASLFPENFNQNSIEITTVAKNINRINYDRVSLDLQTLNNSNYIVFLVSGKNKKEILQKVLKKDKKYPASYIKAKKELIFFVDNAAY;locus_tag=LOCUS_02170;gene=pgl;EC_number=3.1.1.31;note=WP_010939587.1 6-phosphogluconolactonase (Desulfovibrio vulgaris) [pid:34.1%25%2C q_cov:86.9%25%2C s_cov:81.5%25%2C Eval:1.3e-27],MGA_218
sequence01	MetaGeneAnnotator	CDS	241109	242584	.	-	0	ID=MGA_219;product=glucose-6-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005477796.1;translation=MKIEDICELDVKFKVDDFILIIFGGAGDLTKRKLIPSIYNLFSHNFLNSNFKIIGFGHPYRKGSYHDFIRESIDEFVNDKSDNIDEFINHFDFITAEFDDNKAFLKMINNINKEIHEHIIFYFATPPFFSKMIIKNIGENKDKFNDFKKTRVVMEKPFGESKESAKNLNSLLHNYFEETQIYRIDHYLGKETVQNILFFRFSNIILEPIWNRNYIDHIQITVSESIGIEGRGRFYEKSGIIKDFVQNHIMQLISLISMEPPADFNANSIRDEKVKILKSIRKMDEKYIKDNIILGQYSNNENIAGYREEENVDPNSKTPTFFAGKFYIDNWRWADVPFYIRTGKRLPEKSTEIYIKFKEPPLKLINDHCNFYDSNSIIFKIQPNEEICMNINIKKPGIGNVVHSTFMNFNYKEIFEINKLTEYERLLIDCIDSDLTLFARQDEIEEMWEIVDPLLHLWAENKLLPKQYPAGSWGPFDSIKIIEKDNRHWRK;locus_tag=LOCUS_02180;gene=zwf;note=WP_005477796.1 glucose-6-phosphate dehydrogenase (Vibrio parahaemolyticus) [pid:40.7%25%2C q_cov:95.9%25%2C s_cov:95.6%25%2C Eval:4.1e-112],MGA_219
sequence01	MetaGeneAnnotator	CDS	242584	243489	.	-	0	ID=MGA_220;product=decarboxylating 6-phosphogluconate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256404.1;translation=MKLGMIGLGKMGSNMAKRLINFNHEVVVYDVNIDNVNSLKKYGAIASNSIEELINLLPEQKIIWVMVPAGEITENLINKLSNLLSKNDIIIDGGNSNYKESERRASFLKEKKIEFVDVGTSGGIWGLTEGYCLMVGGKKEVFEKTEPLYRSLAPENGYIYTGPSGSGHFVKMVHNGIEYGMMQAYAEGFELLHSKKEYDLDLHEISKVWDHGSVIRSWLLQLISNIFEDKDYIKDIRGYVPDSGEGRWTVEEAISQSVSMPVITLSLMQRFRSRKEETFSDKVLAALRNQFGGHEIKKGDK;locus_tag=LOCUS_02190;gene=gnd;note=WP_012256404.1 decarboxylating 6-phosphogluconate dehydrogenase (Chloroflexus aurantiacus) [pid:53.2%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:4.7e-88],MGA_220
sequence01	MetaGeneAnnotator	CDS	243824	244327	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQKLLKKKNHQEWSWVLIFAFFALGIVDYHFGLLGLACMTIPLFHAFKGHGKIHCSHYCPRGSFLGKFLGEFSLNNNTPKFMRKKWFKNMILFIMIGMLSFSMYHSGGNPKKIGFAIFRFMLASSIISVLLGLMFKPRSWCQVCPMGYSTGLINELKLKKSNKKVA;locus_tag=LOCUS_02200;note=WP_011987083.1 4Fe-4S binding protein (Clostridium botulinum) [pid:31.3%25%2C q_cov:88.0%25%2C s_cov:69.0%25%2C Eval:4.0e-23%2C partial hit],internal stop codon at [244325:244327](+),MGA_221
sequence01	MetaGeneAnnotator	CDS	244337	244501	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIIDEHTCIECGFCQKICPKEAIEKTEIAYKITGKCVSCGLCVKKCPVDAISK;locus_tag=LOCUS_02210;note=WP_048061086.1 4Fe-4S binding protein (Methanothermobacter thermautotrophicus) [pid:42.9%25%2C q_cov:94.4%25%2C s_cov:18.1%25%2C Eval:1.1e-07%2C partial hit],MGA_222
sequence01	MetaGeneAnnotator	CDS	244691	245833	.	+	0	ID=MGA_223;product=N-acetyldiaminopimelate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009891676.1;translation=MLEEIKNEVKNHRRKLHTIPETGFEEFKTSEYLKNTLKSYGFEVKEICETGLYVFIKGKEDTTIAFRTDIDALNIEEENNIEFKSIHKGKMHACGHDGHMSIMLGFAKYLSSIKEFKKNILLIFQPAEEGPGGAKNIVETGIFDKYNVEGIFGLHLFPNIKEGVIASKSGEFMSATAEIDIDIYGKGGHGAMPHTAIDTIIITSKLIEAYQSIISRNISPMENAVLTFGKIEGGTARNIIAEHTRIEGTMRFFNKEVFEIIKNRISEINKGFEKAFEIEIKTDLRPLYPAVINDKNLYSRFHNAIKNSDLKYEEIRAIMLAEDFAYYQETIPGQFFFLGTENKEKGYDKPLHNCKFNFDEEILINGVKAYIAISKEYKLF;locus_tag=LOCUS_02220;note=WP_009891676.1 N-acetyldiaminopimelate deacetylase (Clostridioides difficile) [pid:45.8%25%2C q_cov:97.6%25%2C s_cov:96.8%25%2C Eval:6.1e-94],MGA_223
sequence01	MetaGeneAnnotator	CDS	245855	246094	.	-	0	ID=MGA_224;product=cysteine-rich small domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965739.1;translation=MKNYKFFQNKNCEYFPCHKDVAQENFNCLFCFCPLYLLDKKCGGNYKYINNIKDCSNCNVPHIKGNYDLILNILKREVF;locus_tag=LOCUS_02230;note=WP_010965739.1 cysteine-rich small domain-containing protein (Clostridium) [pid:60.3%25%2C q_cov:92.4%25%2C s_cov:81.8%25%2C Eval:8.1e-24],MGA_224
sequence01	MetaGeneAnnotator	CDS	246094	247287	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNNLLSKERFEIIKPFLDKEKNLIDVSRESLVPYSTLKRWVSAYKKDGIMGLERTVRKDKNSFRSVDKEILDYLAFLYQTESNLKILDAHKKLNKFLKSLGKKEISYDTVYRIINNLDPFVKKYASKDIKSKYSNQIFEFYSKQLDIDIYDCLSNNYKKPFLHIIFDNYSKAICSYYLTFEEAKFNDALSLLRSAILANESNSFLIYGKPEEYILNNFKIQHRELIETIKKDLKIDINFITSQEEKMKKFFQDLNNIFLKDLKLNSKEEITFLKFDIIIKKYINEIYNFNKSEKWEKNLERIEIITKKDYLNALLQPIESTRKINNGIIRYQTYIYKHKLLNLYTGENANIIINPFDLSKIKIFIENIYICDAECEDLINIKPTIYQLKYLGDN;locus_tag=LOCUS_02240;note=MGA_225
sequence01	MetaGeneAnnotator	CDS	247337	247519	.	+	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKKKILKKNKNLKTIKKPLKTINLSTKNIFLNKKAHLFSKKLDFFIKKYYYYINQKTL;locus_tag=LOCUS_02250;note=MGA_226
sequence01	MetaGeneAnnotator	CDS	247604	247864	.	+	0	ID=MGA_227;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888910.1;translation=MASKTVIITNETGMHTRPANEFVKEVKSFNSEVTLSANGKEVKAKSLLKILSLGIKKGTEVTVTATGDDAKQAVEKLAEVLANLKD;locus_tag=LOCUS_02260;note=WP_005888910.1 HPr family phosphocarrier protein (Fusobacterium) [pid:54.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-19],MGA_227
sequence01	MetaGeneAnnotator	CDS	247884	249584	.	+	0	ID=MGA_228;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494171.1;translation=MEKFFKGIDASPGIAIGKVFLYEEVELDIKEISNITFDEEKQRLLEGREKTKIQLEAIREKAKIKMGDDKAAIFDGHITLLEDEELFDEVVEKIEDEGYTAEYALNEGIKEYCAMIAALEDEYLRERAADLGDIGKRWIKNILGVDILDLSNLPKNSIIIAKDITPSDTAQMDLENVGAFITEIGGKTAHSAIMARTLEIPAVVGVARITDKILNGTEIIVDANTGFIIVNPSEENKNKYSKLRKEFLEEKEELKKIKDKEAITIDNHKVNLWANIGSPKDLTGVLANGAEGIGLYRTEFLFMNSDKLPTEEEQFAAYKEVAEKMQGKPVTIRTMDIGGDKELSYLKLPKEMNPFLGYRALRVCLKEKDMFKTQLRALLRASKYGQIKIMLPMVISLDEVRESKKILEECKKELRKENIEFDEEIKVGIMVETPATAFRARYFAKEVDFFSIGTNDLTQYTLAVDRGNEIISDLYDTYNPAVLEAIKVTIEGAHAEGITVSMCGEFAGDNKATKLLLGLGLDAFSMSATSIPRVKKVILESNYDDAKQYANKLLEMDTAKEIISNL;locus_tag=LOCUS_02270;gene=ptsP;EC_number=2.7.3.9;note=WP_029494171.1 phosphoenolpyruvate--protein phosphotransferase (Fusobacterium hwasookii) [pid:59.4%25%2C q_cov:99.1%25%2C s_cov:97.6%25%2C Eval:6.2e-192],MGA_228
sequence01	MetaGeneAnnotator	CDS	250315	251331	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRYVLRKLNLNIKNVVLISDEVNFDNISNYLENLNFLSFNKIKGYEIIDDVNNMDTIKKEMIKKYNNIEELIIVSSKLNKSTINDIVFQFEDIAPTIKLIPDFYQGHNFLLNFSWNKVITLVSHKNLMNPTKKIIKRIMDITGALIGVTLSIPMYTIVYFLIKKEDAGKVFFVQDRIGLNGKAIKVIKFRTMVKDADEVLEKMLLENEEARKEYQKNKKLKNDPRITKIGNFLRKTSLDEFPQFINVLKGDMSIVGPRPYLFREKDDMGENYKKIIAVKPGLTGIWQVSGRNNLDFEQRLKLDLLYIRNWRVWLDIIIILKTIKTVLIKKGANYDTE;locus_tag=LOCUS_02280;note=WP_012583255.1 sugar transferase (Dictyoglomus turgidum) [pid:39.9%25%2C q_cov:88.2%25%2C s_cov:64.5%25%2C Eval:1.1e-54%2C partial hit],MGA_229
sequence01	MetaGeneAnnotator	CDS	251318	252346	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQNSIDIVIIGLNAEKTIVRCLNSIEGVIKVNSDKKIKVYYVDGGSVDNTLLLVSRYKFVNILKFNKKNPTPGAQRNFGWQQGKGEYVQFIDSDTTLELSWFNEALNFIKKDDKIGAVCGKRVELYPYISFYNWIGNIEWNPKFGNVLEFGGDVFIKREVLEKTNGYKDSLIAGEDPELSYRIRNLGYKILKIDRVMTYHDLAMINFRQYLKRSFRSGYAFAEINYMYKDMWGQELKRILVRGGISLILFIIALLFVIIDYRITLFAILSSLLLLFRPRLFLVSKFMILYNLNKDEGKKYAWHVSLVVLPQFLGSIRFYLGKLLKKPLKNNKMRLSTGGIK;locus_tag=LOCUS_02290;note=MGA_230
sequence01	MetaGeneAnnotator	CDS	252346	253365	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFFFIILLLMLTISCSNNNTKTLYNFKDNNIKRETISDSEIKLSSAEIIKKFNKKIKEYKLKQGDIIELIPNDISFSKLELKITPDGKINLKDIGEIIAENKTIFQLQNEINKKLLNYYDNLNYIINLKQGNNSVYVWGNIAKPGEYKSNYEDTLIKILTKAGGINLNFEDLMDTKIYCKIIRKNEAIVIDLVDMIINNNLIGNVYLNDNDIIYVSIDKIKEKNIYVYGEITRAGKLEYEKNLTLIDVILRSGGFTKNSDLEKVYYIHKNDKKYDIRVLNFKNIKNINYNKLIVKPGDMVFVEKNNMSNFNDFLINVLEPLKAINLFTDTAVNINNLK;locus_tag=LOCUS_02300;note=WP_010942629.1 polysaccharide biosynthesis/export family protein (Geobacter sulfurreducens) [pid:25.0%25%2C q_cov:72.9%25%2C s_cov:91.5%25%2C Eval:2.3e-17%2C partial hit],MGA_231
sequence01	MetaGeneAnnotator	CDS	253375	255450	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKRKQIIPFYILQKHIILILIVGILSFFVVWNKLKNTVQIYYESTGILEIDPVIVPTFSINSFEVSQNSITQYYEKYVGTQIKKITSKKIVKSALKKLTKEELKALYGSDEINDFLVNIFIRKIKVEYLSNTHLVKISLQSKQKIGIEHFINYLMKEYINESNDNKIIEDNFRIQYLIEEKKKIESEIQGKLVLVKKIAQEIGTGNFDSSDMPYKSELNSLETSYVEVYKNKIEQEKKYFELKNEIETIKKMPIEKEIKSLLIQDSVYKEIKLNYIEKINKLNDELDSIPKGSNKEKQILGKIKVYQNKIEELEKETKYNLKKNIEKSREYDLKIKELNAKTNYESAKKQEEAIKEQLEEIRGKYSEISLKILEAQELNFDILQLKTSLSEIKNRISYLISETKNPGRLKILESASKVYGPAGNDAMKRKVIALVLAFGWISFLCFIYEILDQRIKTPQDVKYALGFSSAWPISHLKKGNFISASLYNTHSVIYKAIKSLVTKLNIEREKHGAKIAVINGVDKKSGVTELIINAAHTMRENCDKVLILELNTESANIAKKMHIDIDRNLGLKDYLTGKKLNKCIYKDYERNIDILHMGGIINITNKTIKEILEDLKQEYDFIFIDSAPVMQSAMTEYLLLQSDIAVLVIHGNYTTHSKLIKTVELINQFEIDSFTTVINWGRVGKFKR;locus_tag=LOCUS_02310;note=MGA_232
sequence01	MetaGeneAnnotator	CDS	255460	256779	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKAIILIFISMLISASFVLKNKSEKSFIYIVLPSIFLFPNSFFFQLNSLPLMEITIPIASLLVISAWYVFFKIYEAKFTYFDFLILLYIVAQFIIGIIKGEFGFSFRVFQSDLIQNYFLYFFARYYFRNSKLLKKSLKIIVIINILMLIFAPMEMFQGKYIIKYFWLSSYPFLQQAPRWGLNRIQLFFPHPIIAGICYSIFSIISVYFFVHTKIKKEKIFWGISVVLTFIGVVFSISRGTIAFLMIFYLVYFLERKKINYKFLFIIGIIFFIVFKQEFSSHEEVLDDSANYRLNLIMNIDELIGQSMWIGYGGNIKYTGKVGYAWNNEDTMTIDNFYLYRVFTGGIISLSLFMFLIFRAYYEYLKLKEIKECILEKDMKFVNLAIVVIFFIVINYFFVANMYTTDLILYIMFGIISANYEKYILSTDNKVEYKFKRIL;locus_tag=LOCUS_02320;note=MGA_233
sequence01	MetaGeneAnnotator	CDS	256794	258215	.	+	0	ID=MGA_234;product=flippase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_128519551.1;translation=MAESIKKNVLMVILKNISLLVFPLITFPYLSRVLGPEGMGIINFATTFSNYFMLIPTMGISMYGAREIAIARDNKRKLTKNFKEILIITLLFTFSMFFLYLITIISFEKYNKNFVFYLIFGFGIITNSVSIEWLYTGLEKFSYTVSRGIIIQSLYIISIFIFVKNEKDIIFIPILLLLSSFIQMLINFYYSKKFINYDQKFHLKIYSRIKPILIITIGTLASTIQVTMDIIMLGFLTSDWNVGIYNAAIRINRIVIGLLISLGAIFYSRLSNVYGNNKKDEANIISQNWLKYILMIVYPSIIGIFILSDEIILLLAGNEFKASIFTSRLMSIIILFSVLTNFFAIQLYSNKKEKTAIKINIIGVIVGFVFNIIFIPLYKHNGAAIGTIMISFIVSFLHMYYTKKYINIKIDFRIKYILYSLIMGIVLLKVKSYLDYKIYINILIITFLGGLIYFGILFIFKEINLEEIKLKGK;locus_tag=LOCUS_02330;note=WP_128519551.1 flippase (Absicoccus porci) [pid:29.8%25%2C q_cov:97.0%25%2C s_cov:95.0%25%2C Eval:2.6e-55],MGA_234
sequence01	MetaGeneAnnotator	CDS	258216	259166	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKVQVLMATYNGEDFIKEQINSILNQTYKNFELLIRDDNSSDKTVEIIRGYIKKDNRIKLIEDNKGNIGINKNFELLINISNTKYIMISDQDDIWFKDKIERSLKKIKEIENDKPALVFSDSILYKNNCEFGNHIGKKFYKYNDSKFLMGINIAQGSTMIFNEKLKEKILPFNFYSDYLYDFYIFKNAKLYGNVYFIKNPTMYYRIHNKNQIGIGSDYLNIISKIRDEYYRYFIFYKKIKAGALFYSKTKEKYKRDMNKKIEVFTLIFLSNKNRFIKLYYYFKEKFFTYNFYINLFIVLNIFVNKFNKNLKGEDL;locus_tag=LOCUS_02340;note=WP_011101287.1 glycosyltransferase family 2 protein (Lactiplantibacillus plantarum) [pid:33.2%25%2C q_cov:70.6%25%2C s_cov:73.7%25%2C Eval:1.9e-34%2C partial hit],MGA_235
sequence01	MetaGeneAnnotator	CDS	259163	259771	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIIRKLVYKIAIRDKKYMGLYRKICKPRSDEYAEYLKKINYLYSIGEGCRINPYAGFTDPKYVKIGNNTCLSACTIIGHEGAVAVFATATGKVLDKVGKVVIGDNCFVGYGATIMPNVVIGNNSIIASGSVVAKDVPDGVIVGGVPAKVIGLTKDYIIRLEEQTKKYPWYDLIKTRTKVYDDEMEKELLKMRLKYFFEE;locus_tag=LOCUS_02350;note=WP_005818015.1 sugar O-acetyltransferase (Bacteroides) [pid:39.2%25%2C q_cov:58.9%25%2C s_cov:59.9%25%2C Eval:6.8e-11%2C partial hit],MGA_236
sequence01	MetaGeneAnnotator	CDS	259783	261009	.	+	0	ID=MGA_237;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338703.1;translation=MKKILYLCSEYPALSHTFIDVEVDELSKNFEIYTSSINYPKNIEKFSDDYVKRLNKTYYIKKENKKNILLIVLKYFIINPLKFINILNYTYNLSVKNGVKNIIKAVGYFIEAILLHNYMKKNNIKHVHIHFANPAATVALIAKEFEGIEYSISVHGPDVFYNVKENLIVEKIKNAKFIRAISYFCQSQLMRESTPDYWDKINIIRCGIDLSKFNNINEFVKEKKENDKINILCVGRIVPSKGQLLLVETVKKVIKKTKNFKVTFIGGGEYLKNLKEKVEKSNLENYIEILGPVNNDKVIKALESSDIFVLPSFAEGVPIVLMEAMSKKIITISTKINGIPELIDDKKDGFLVEASNIDELSELLIEIIKNSDNYKELKNNARKKIEKKYDIRKNIIKLKELFEENISD;locus_tag=LOCUS_02360;EC_number=2.4.-.-;note=WP_011338703.1 glycosyltransferase (Cereibacter sphaeroides) [pid:23.8%25%2C q_cov:97.1%25%2C s_cov:96.0%25%2C Eval:2.0e-29],MGA_237
sequence01	MetaGeneAnnotator	CDS	261032	262183	.	+	0	ID=MGA_238;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003386376.1;translation=MLLIVSIILVICTLPGFLEITLLTFSNVFLKDKKNKKIKKDIKLAVLIPAHNEEKLIKRCIKSIKKSSDLGYSYDIIVIADNCTDKTIEISKSENVKVLERNNKEKRGKGFALKYAMEKLKNENYYGYIIIDADSIIKENLIEEFGNAFLNGALAVQCLNFVNEPYISRRNSLMHLALMSMNGLRPLGREKLGISAGILGNGFALSKQLIDEIGYNVNSIAEDIEYHLEIINSGKKVKFLKDTAVYSDFPTTEEGAKSQRARWEGGKFYLQKKYFFKLLKEVFKGKFHLIEPLLDLMILPLAFQVTLLLIIGIIGGTGFKIYSLINIFIISFHIVLSVLYFGKLKDLLIIFEVPKYIFWKIINLPLILSHSKKNTEWIRTDRK;locus_tag=LOCUS_02370;note=WP_003386376.1 glycosyltransferase family 2 protein (Clostridium) [pid:31.7%25%2C q_cov:88.3%25%2C s_cov:85.4%25%2C Eval:2.6e-36],MGA_238
sequence01	MetaGeneAnnotator	CDS	262203	263177	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDISVIIVSFNTRELLKRCINELKKEIMEISHEIIVVDNDSRDGTIEMLETEFKDDIILRKSGGNYGFGIANNLGYEMAKGKYILLLNSDAFIKKGNLKKALEKIESDKTIGVLGAKLECENGDWQPSPRSFPTVLQDFFVLSGIASKYNKSSFFGKSLMTYKNFNKEFECDWVTGAFMLIRSDIIGKKIFDERYFMYYEEVDFCLKIKEKGYKIIYYPEVEVIHLGGASTSIFSEKLISKNGMQMTLWRLQSQYLYYRKNFGLITAYSSKLMELTWNIIRTLKNKNNNLKKEESRIIIKMIKKAWENTKGGKISPAFPWKGY;locus_tag=LOCUS_02380;note=WP_012259594.1 glycosyltransferase family 2 protein (Chloroflexus aurantiacus) [pid:34.2%25%2C q_cov:71.0%25%2C s_cov:70.3%25%2C Eval:2.2e-33%2C partial hit],MGA_239
sequence01	MetaGeneAnnotator	CDS	263213	263704	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENIREDFRNYNKKIEWGFIAMLIYRFGRWRYRIKNSFIRKPFSLIYKILFFYIKGKGIEIPCEVEVGKNFKIDHQGGIIINGYSKIGNNCRIRHNVTLGIARVGETKAPIIGDNVDIGAGAILIGDIKIGNNVLIGAGAVVLTDVPDNCTVVGVPARIIKR;locus_tag=LOCUS_02390;note=WP_011963385.1 serine acetyltransferase (Flavobacterium psychrophilum) [pid:40.3%25%2C q_cov:76.7%25%2C s_cov:69.4%25%2C Eval:1.2e-21%2C partial hit],MGA_240
sequence01	MetaGeneAnnotator	CDS	263708	265210	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLILFLSIYTSLFSMSIGVNVDWIYDWSNMSLFTDLIKQARGFGDSNEPWKKIGEIKTDNNGWPIEDFGIVVYSGRKNYYDKIYNLTFDIVDKVPEIKFIKSTGTIKNIKITNNRYSAKLYLPKDNTQLILSFKHIGSGIKNIKIIDEKYKNNEVFTEEFIEMHKYFKVLRFMELKRINETSIENWKDRTKKEDIFQNKKDGIAWEYIIDIANTLNKDIWINIPYKANNEYIKSLALLLKNGLNKNLNIYIEYSNEYWNTIFPQNTWLKEQYIEQIEKNKNLKEYKVKNEYFKATLIAVEKLIKINKIFSEIFGKSEINNRVRIIIGAQIVWTDVIKTQLKYIKKYYGKPNKYFYGFAGGAYINVENPDNKNFNDIYNFINNKIENSPLDLQYKENVKISKKYNIKFLAYEGGIDIAGNDFKSSNEIEQKFIQTEDYVKLMKKYLDIWDRYTDNSLFMWYKSGASNNWGFVESMDNLKNKKFIKIKKLLLDENKKE;locus_tag=LOCUS_02400;note=MGA_241
sequence01	MetaGeneAnnotator	CDS	265243	265989	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEITLVNDLKITGFESYNELFNEILLKKNIQNFLIINYMYWVPFVKARKDKDYLESLKYSGYILPDGVGLLTYIKVLYGKTLLNLNGTDLNPELIKFFNDKNMKIALYGTTQENIEKCVKSLNSKNIDIYYYQNGYRGLDFSKIEDNSVLFVGKGSPIQEIWVKNNFKTIKEKKLIVVTVGGYFDFEAGFYKRAPKFIRDLKSEWIYRILDNPKLQIPKYINNFYFPWFIFKDYIKLKKKVKEKIYV;locus_tag=LOCUS_02410;note=WP_003227919.1 N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D- mannosaminyltransferase (Bacillus) [pid:34.4%25%2C q_cov:70.2%25%2C s_cov:71.9%25%2C Eval:1.3e-18%2C partial hit],MGA_242
sequence01	MetaGeneAnnotator	CDS	266094	266324	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVIILNLLVIMTFFTGCFGNKDNNTDTINTGGGSASVVTVSGNLSTISSATTNGSIAFNTTGTSVTGKYKYILA;locus_tag=LOCUS_02420;note=MGA_243
sequence01	MetaGeneAnnotator	CDS	266398	267366	.	+	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYFLNEYGIKLNELGFDTSDKTVGEINKSLDLGDIEVDEIQNKIVAKSENIETKDGNKVVIQTKTKSEVKLNNTIIKTKLKKVTKTIIEDNNLGEVQEDKIIIIVKSTDTVKQKIVLEFSSESESEDVPELEFKTIKIVKEEKITINGETKVKITTKTKTIVTFDAKEVGKDIETVNDKLKDDYNDGILDTSNILTWNITADDFNVLNPKSLSEVYDSIRNIENKSNSNAINYLFKAILSTEELETTIRDEILDGLNNTTLVNQLKNDTDYKTFKYALDFYKPSTFYNLQSKNVLNKLDNIVDLIENSYLVGETVVLDSKI;locus_tag=LOCUS_02430;note=MGA_244
sequence01	MetaGeneAnnotator	CDS	267411	268379	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGLFKVFVSQVYWLASFDISDEADYTIFENLIENFDSLYSNSNTLSEFLNSYFKDLSTFDVNNDYQQKALTYIKEAITEIIEGIDGISVYNVDNLSDKANIISFDSQVEKDDLLDGLEIIKEALSDEGAIIKTEDGESFRINLSKLYTFDLKKMMIDLTQGITNLDKADYEMEVNFLNSTLGGIFPDGIPTLLKDDILEVETYEERPVILDNGEMYWKHFIVIREYDSNYKFTKAEVYDEEKDELVAKYIYEYDDENNTVKVIISDKNGNETGEYRLYQNKLNGHLIEEVVLVYESNGKEILMKYMYDENGNKTSEEKVIN;locus_tag=LOCUS_02440;note=MGA_245
sequence01	MetaGeneAnnotator	CDS	268433	268615	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNILLFLLLFNNIFSNEIFYKYSNLYNNTEYKIYSQNYFIDYNFFNVNYVEKKIKFQK;locus_tag=LOCUS_02450;note=MGA_246
sequence01	MetaGeneAnnotator	CDS	268729	269205	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSKNYIISNRITIPFKKYKISIKYSKNINQNYKFISNYGNFIFNDFDYKGYKYSIEKGKYKFIYDINSFKTNFKLNNVSELGKFNGKWYLISLGTNNLKINYRKIYSTSYFDITKNNAFFVTSSLDRYFYGKANIDIENYELENDYIKKIIEINLY;locus_tag=LOCUS_02460;note=MGA_247
sequence01	MetaGeneAnnotator	CDS	269250	269477	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEYYKTLLNLFFIKISEKYKTENIYYDIPKYMYYNILNIGYERKIKNNFIIGINKIIPIVLNIKIKTIKTKKII;locus_tag=LOCUS_02470;note=MGA_248
sequence01	MetaGeneAnnotator	CDS	269910	270926	.	+	0	ID=MGA_249;product=substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582798.1;translation=MNIKKVAELCNVSVATVSRVINKKGNVKKETEEKILKVIEELNYIPNALARNLSKQESDVIGVVVPDVTNVFYTEVIKGIMESASENNLHVIFYNTDSDMEKEINALKMIKEQRLKGALLISALKKSNKDKKLLKKTLETLDMPLILINKYIDNLPYDGVFTDDIMAGYLLTEALIDNKHSNIAILTGAKNSIVANNRVIGYKNAFKDYNIDIKNENIIYADFNSIENSYKIIKKHFSNKDIPKGIIAGNNNITIACVRYFNERKIKINKDVSLVAFDDIEILNWLGVELTVVSQNPKEMGKEAFNMLFNRINNKSIPINRIHVVPELILRGSEKILK;locus_tag=LOCUS_02480;note=WP_012582798.1 substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:37.5%25%2C q_cov:98.5%25%2C s_cov:97.4%25%2C Eval:7.8e-50],MGA_249
sequence01	MetaGeneAnnotator	CDS	270943	271563	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDISFLDWLGYLASFIVLVSLTMSSILRLRWFNLFGALLFSAYGFAIGSIPTGGMNAGIVLINIYYLVQLYTQKEDFKIIRAEKESEYLKYFISTNYNEIEKYFDVKDLEGEKEYYFMLRNNHTAGILVGESQENNKTFFINIDYVTPEYRDFKLGSYFFNQNIDFIKNRGYTKLKTKTNNETHKKYLEKIGFKKSNDEYYIKEIA;locus_tag=LOCUS_02490;note=WP_011071323.1 YgjV family protein (Shewanella oneidensis) [pid:55.2%25%2C q_cov:32.5%25%2C s_cov:84.8%25%2C Eval:4.3e-16%2C partial hit],MGA_250
sequence01	MetaGeneAnnotator	CDS	271585	272400	.	+	0	ID=MGA_251;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861146.1;translation=MYNKVMETVEFLNERVEMRPKVAIILGSGLGDLVDYIEEKIEIPYEEIPNFPVSTVAGHAGKLVFGKINGVEVLAMKGRFHYYEGYEMKQVTYPIYVMKQFGIENMIVSNAAGGINKNFKPGTLMLITDFINMFGTNPLIGKNDERFGVRFPDMSEAYSKELISLAKKVAEKNNEKYEEGTYLGTTGPSYETAAEIKMMSIMGADAVGMSTVPETIVANYLGIKVLGISCITNMATGIAQTAHSHEAVVDIAVKTGERFCKWVVDIVSELK;locus_tag=LOCUS_02500;EC_number=2.4.2.1;note=WP_011861146.1 purine-nucleoside phosphorylase (Clostridioides difficile) [pid:55.6%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.4e-85],MGA_251
sequence01	MetaGeneAnnotator	CDS	272507	274042	.	+	0	ID=MGA_252;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948025.1;translation=MSNYILEMKNIRKTFLEGKVVANDDVSLRVRKGEKHAIVGENGAGKSTLMKILNGLYQPTSGDIYFHGKKEIINGPGEAARLGIGMVYQHFMLVPTLTVAENMILGVEPKKGLELDINTAREEVKKVSEKYGLAIDPDAKISDLSVGMQQRVEILKILFKGAELLIFDEPTAVLIPQEVKELYKIMDNLIAEGKTIIFITHKLQEVLDIGDNITVIRKGRDVGNLSVKDATKEKIANMMVGRAVLFDVEKPEVELGDDLLVVNNIKVKGNKGGVLALDDVSFTIKAGEVVGIAGVEGNGQSELIDVLTGLRKIEAGTITLEGEPLANITPREATLKGVSHIPEDRLKRAAISQYTLEDNLALGQHQDIYAKGILRAFRDFNKITKKAKEYLEKYDIRPREPKIIFGRMSGGNQQKVIVARELEKNHKFLIAAQPTRGVDIGAIESIHKIILSEKKEGKAIMVVSSELSEILNLSDRIVVMFHGKVMGILDRKDATEEKLGILMAGGKLDEK;locus_tag=LOCUS_02510;note=WP_011948025.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:52.5%25%2C q_cov:99.0%25%2C s_cov:98.2%25%2C Eval:3.5e-146],MGA_252
sequence01	MetaGeneAnnotator	CDS	274032	275090	.	+	0	ID=MGA_253;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082660.1;translation=MKNKLKELAIPFLSVLIALVIGGGVIIYLGENPLTAYGYLFGGAFGSDRGIARTMLEATPMIFSGLAIMFAYQAGMFNIGAQGQVVMGGLAAAAVGAFVNNHFINNVYVVVLIAAIAGFLWAAIAGYLKAKLGVHEVISTIMLNYIASNFEQYCLNYPLKEGGPLGPTPQTPPVMEISRLPLLLPDSRVYLNVGFIIALVAVVVVWFIFNKTVFGYEIKAVGFNFTAAENAGINAKKILLLTLGISGLLAGLAGAERVLGGVGQYTYRQGLMAEYGFDGIAVALLGKNTPIGVLISAFLFATLRVGGRAMQFNTSIPSQIIIIIQAVIILLIASENMLSDLLKKFKKKEAKA;locus_tag=LOCUS_02520;note=WP_004082660.1 ABC transporter permease (Thermotoga) [pid:35.8%25%2C q_cov:97.2%25%2C s_cov:98.0%25%2C Eval:2.3e-55],MGA_253
sequence01	MetaGeneAnnotator	CDS	275090	275968	.	+	0	ID=MGA_254;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964024.1;translation=MGIFISLILATIRQAAPILITAIGGAFSEITGVVNIGLEGMMLMGAFSAAIGSYYTGNPYIGIISGMVAGGLMAAVHAVLSIKYKGNQTVSGVAINLFASGFTVFMLRVLFNQSGNTPSVPKTPQLFGMSIIVYIIYILAFVAIFVVYRTVIGLRMRAVGEHPLAADTVGINVDKIRYIGVILSGMFAGLGGAYLSIGALAQFTKNMSAGRGFIALAAVVFGKWNPKGILLASLLFGFADGLQTLAQQYVKAIPPQFIQMLPYVLTLLALAGVVGKAVAPSASGKPYDKNEA;locus_tag=LOCUS_02530;note=WP_010964024.1 ABC transporter permease (Clostridium) [pid:49.7%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:8.8e-76],MGA_254
sequence01	MetaGeneAnnotator	CDS	276192	276842	.	+	0	ID=MGA_255;product=fructose-6-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964656.1;translation=MKIFIDTANVEDIKKANDMGVICGVTTNPSLIAREGRDFKEVVTEITTIVDGPISAEVVSLEADKMVEEALELVKIHKNIVIKLPMTIDGLKACNILTKKGIKTNVTLIFSANQALLAARAGATYVSPFAGRLDDIGVDGVALIKEISEIFKVHSIKTEIIAASVRNGLHVKECAKAGAHIATIPYGVIEKMTQHHLTDAGIERFLKDWEGFVNKK;locus_tag=LOCUS_02540;gene=fsa;note=WP_010964656.1 fructose-6-phosphate aldolase (Clostridium) [pid:65.1%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:3.0e-79],MGA_255
sequence01	MetaGeneAnnotator	CDS	276901	278214	.	+	0	ID=MGA_256;product=pyrimidine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896135.1;translation=MRAVDIIQKKRDNFELTSEEISFLLDEYLEGNVPDYQMSSFLMAVYFNGMKKKELKTFTEKMMHSGDLIKFEGVNKFLIDKHSTGGVGDKTTIALAPIFASFDIGTAKLSGRGLGHTGGTIDKFESIKGFTFPETRDELVNMVNKTGIGLMGYSDKIVPLDKKLYSLRDVTATVPSIPLIASSIMSKKLAVYADGIILDVKVGSGAFMKTLKDATDLANTMLDIGDSFDRKVVAVLTDMDQPLGRAVGNTLEVIEAIETLKGNGPEEFTYLVETLAAVGLQVKGDVKTLEEGREKVWDMIKSGKPLEMLKGFIKEAGGNPGIVNDYSLLPTAKNKLEVKSDKTGHVSKIEAEMIGKSAMVLGAGRATKEDIIDHAVGLVLNKKIGDEIKEGELLATIYYNDDKNLNSSIKLLKEAYEISEKEIEKKDVILDIKSVNI;locus_tag=LOCUS_02550;EC_number=2.4.2.2;note=WP_009896135.1 pyrimidine-nucleoside phosphorylase (Clostridioides difficile) [pid:52.8%25%2C q_cov:98.9%25%2C s_cov:98.0%25%2C Eval:7.3e-126],MGA_256
sequence01	MetaGeneAnnotator	CDS	278246	279238	.	+	0	ID=MGA_257;product=adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948672.1;translation=MNIQNIKKVELHLHLDGSLRPSTVLELAKKDDIELPTYDLNKLKKYLSVDEHNKDLVEYLKKFEIPGKVMQTKENLSRVSYELVEDLAKDNYIYAEIRFAPHFHLEKGLNLEEVVEAVLKGIEKATKKYDIKITLLLCIMRHLSLEKAFEILNLTEKYIGKGVSGLDLAGDEFNYPATIFKKVFNVARNKGIPFTIHAGEARGPESVWEAISLGAKRLGHGIRSYEDERLIDCLKKEDIALECCPISNLHTHAIKDFRNYPLKFYVENNINACLNTDNRTVSNTNYQKEVDFLSSYINIDLEDINKFNKNAIKSAFITEDEKKQLLNKLK;locus_tag=LOCUS_02560;gene=add;EC_number=3.5.4.4;note=WP_011948672.1 adenosine deaminase (Clostridium botulinum) [pid:45.9%25%2C q_cov:98.5%25%2C s_cov:97.3%25%2C Eval:1.5e-77],MGA_257
sequence01	MetaGeneAnnotator	CDS	279256	279921	.	+	0	ID=MGA_258;product=deoxyribose-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012028213.1;translation=MELNKYIDHTVLKATTTVNDIKKLCAEAKEYKFFSVCVNGSYVNLAKKELEGSDVKVAAVIGFPLGAMSKEAKVFEAKKCIEDGANEIDMVLNIGLLKSGKYDEVEQEIREIKEAIGDNVLKVILETCYLTDDEKRKACELSVNAKADFVKTSTGFGTGGATFEDVALMKEVVGDKAQIKASGGVRDFETAKKYIDMGVTRLGTSSGVLLMTTGKAKEGEY;locus_tag=LOCUS_02570;gene=deoC;EC_number=4.1.2.4;note=WP_012028213.1 deoxyribose-phosphate aldolase (Streptococcus suis) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-63],MGA_258
sequence01	MetaGeneAnnotator	CDS	280069	281244	.	+	0	ID=MGA_259;product=phosphopentomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861145.1;translation=MKDIERVTVIVLDSAGVGELPDAKDFGDEGSNTFGHIAEAVDGISLPNMQKMGLGNLTNIKGVDPLVETNGAYGKAKEASKGKDTTTGHWEIGGVILEKPFPTYPNGFPKEVIEEFEKRTGRKVLANKPSSGTVILDEYGEEQMKTGAFIVYTSADPVFQIAAHEEIIPLQELYNACKIALEICNEMSPVARVIARPYVGEGKGKFTRTSNRHDYSIAPPKETILDKVKAAGLDVIAIGKTSDIFSGKGVTDSRGTNKDNKDGILKTIKALKEDTKGLIFTNLVDFDMVYGHRRNPEGYANALIEFDNYLPEIIENMKEKEVLIITADHGCDPTYKGTDHTREYIPILVYGKGVKSVNIGERETFADIAATIEEILLNKEVEGSFAKEILE;locus_tag=LOCUS_02580;EC_number=5.4.2.7;note=WP_011861145.1 phosphopentomutase (Clostridioides difficile) [pid:59.7%25%2C q_cov:95.4%25%2C s_cov:95.9%25%2C Eval:5.5e-130],MGA_259
sequence01	MetaGeneAnnotator	CDS	281415	283367	.	+	0	ID=MGA_260;product=5'-nucleotidase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682151.1;translation=MRKEKIFLKARASLVFMFLLSVMIFGADKKITIMETSDIHGRIYAYDYAIDAPDKDAGLAKIMTIIKEEKAKDPDTILIDNGDTVQDNSAELFNDLPTHPMIQSLNLMKYDVWVLGNHEFNFDLNFLKRNIKGFNGTVLAGNIYNTDNEERFVKAYKIFNIKGVRVAIVGMITPNVTRWEASSPEHFEGLRFTKLIDETEKVLNELNGKYDVLIGSYHLGRKGEYGGAGLYDIADKFPQFDVLFGGHEHAKYIENRNGVQLIEPGKYGAAVAKAVITVSENKDKYKVASIKLENIDTIKVKEDKEILDKFEFVDKKSKEDANKVVGKITDDFIKGVDYITKADKVTTMPTAQVEDTAIIDLINDVQMFYSKADVSSAALFNFGSNLKKGEFKKKDVAYIYKYPNTLIGVKITGKNLKKYMEWSASYYNIYQYGDLTVSFNPNVRGYNYDMFSGVTYDINLSKEAGNRIENLKFKGKPIDENKIYKLAVNNYRFGTLLGLKLVTPADKYYDSYATMQDSGRIRALIIKYVQEEKNGVISPKVDNNWKITGVILEHPLKNKVFDMVKKGEIKIPTSSDGRTKNIKSLNIRDLENKGIIKLSDIKGIIRYKVKPGDTLSKIVKDKNIEWKDIAQLNGLKNPNRLKVGQIIYLY;locus_tag=LOCUS_02590;note=WP_002682151.1 5'-nucleotidase C-terminal domain-containing protein (Treponema denticola) [pid:56.1%25%2C q_cov:86.3%25%2C s_cov:89.7%25%2C Eval:1.7e-188],MGA_260
sequence01	MetaGeneAnnotator	CDS	283418	284596	.	+	0	ID=MGA_261;product=YibE/F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682145.1;translation=MKKYMDLIISAILFLILIIFQINFLNQQSKRKKYFKQEFEVAIVENIIKERLEKDKVIDNRYNGSQTLKLKILTGRLKGKEFVVINPMSVMHNAKAVKGIKMIVGITKENGKDSIWVYNYKRDYVVYILGGLFMMLLIMLGKKQGIRSLISLIITGSNIIFIILPRIFAGQDPIMVSIITISITTIISFLLISGYNKKSLSAILGTVGGSIIAGTLVYIAGKLAGLSGVTMDKGQQLLYVARDYNIKIKGLLFVSILIASHGAIMDVGMSIASSASEIYKHKKTISTLELFTALMNIGKDITGTMANTLILAFVGSSLNLMMLIYGYNMQYLQFMNMPIIVTEAINGFAGSIGIISTVPLTALISVILIKKSNINNNLLKKNLLKKIMTLKK;locus_tag=LOCUS_02600;note=WP_002682145.1 YibE/F family protein (Treponema denticola) [pid:46.7%25%2C q_cov:84.7%25%2C s_cov:89.7%25%2C Eval:3.0e-83],MGA_261
sequence01	MetaGeneAnnotator	CDS	284622	285395	.	-	0	ID=MGA_262;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000167663.1;translation=MYKTALITGASSGMGYEYAKYYAENHYNLILIARRKNILNNIKFDFENKYNIYVTVLPLDLSKNNFIEILNSSINNITIDYFIHCAGIGILKKFINYDIAIDESIIQVNILSIVKLLKYLLQKMEKQNYGRILVVSSTASFQPVPYMNTYSASKSFVTNFIISLIEENKNKNIFISLFCPGATNTEFLEKSNITPSKWRGNIPNAEKVVNYSIKKFNNNKKLILYGNYNKFLIFIQKFLPRFFIPKIISLTIKKGSS;locus_tag=LOCUS_02610;note=WP_000167663.1 SDR family oxidoreductase (Leptospira) [pid:33.5%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:1.4e-34],MGA_262
sequence01	MetaGeneAnnotator	CDS	285405	285647	.	-	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELLKRGFLRKNNSLTIKENFSKINIQNTEDIEKIKEEIEAINLVFEKFKKKFDFLILICLISLFINIFLLIYLIFFLL;locus_tag=LOCUS_02620;note=MGA_263
sequence01	MetaGeneAnnotator	CDS	285666	286595	.	-	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFNSLIPFIIGLFIFWSISFYNDLDNFSIKVGSKIPYGYYVIWSIYIIIFISMIYPIIKLFLLQKSLKRPYIYSSPDEKRDFYYKYKKRILKEYKKRLKKNYMQEYINRNLIKSLENANSINGIKTILREIEKTTDKKCDKLIKDYAKSIFVSTAISQNGTLDAIFILKLQVELIWKIAHLYNQRPKLKEILNIYISVLANVLAASAFSDITITELVDSFLKQFLSSFPIISKIGGKITDSIFDGTCNALLSLRVGYLTKEYCKYSSEFDEKLSRKISRENALKSINEIGIKDNISNIFKNNIKK;locus_tag=LOCUS_02630;note=WP_010939557.1 DUF697 domain-containing protein (Desulfovibrio vulgaris) [pid:33.8%25%2C q_cov:46.3%25%2C s_cov:28.7%25%2C Eval:1.8e-18%2C partial hit],MGA_264
sequence01	MetaGeneAnnotator	CDS	286573	288171	.	-	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKFIIYIITILFISNSILFSFIRIYENYHMKNFIDTEEKKYEAYLISDIKYYLKENFLESKTFLIKKVNEIENELINLNKISKTRSKWNEDELNYINKNNQFEDIIIFNKNNKVVFSSNEKKYLNKNISSILSDHTNYYFNKLKKQDFYIGDIFFENTQKKVYSIYRDKNFNIIIGVINLDNYLNKEFYPNYFKNNILKKIDNYKFNFFLKYINIYDGKNGSSLINDKNINLVTLNEIKNKGKLSLDEKNWHKKYILVSVDREGFIKNYILETHYDFSILSQYTNELFLVLVIEFIILIIVFVFLSSIIFNNTVTKKMEHIISNIEELKKGNYNIHDINLISQDEISSIATEINRLKKEVISREKKLIKYAVTDELTKVYNRKFIFLRLKELIDRNIPFSIALIDLDHFKQVNDKYGHQMGDKILHEFAKLLKKFTTKNDIVGRYGGEEFIIILPHKNIVESYLILEDIQTYLNKKPLTHKINITMSVGITEFIENIDKTIAKADELLYYAKANGRNRIEVENNEKDIIQ;locus_tag=LOCUS_02640;note=WP_020966553.1 diguanylate cyclase (Treponema pedis) [pid:28.5%25%2C q_cov:65.0%25%2C s_cov:20.6%25%2C Eval:1.8e-28%2C partial hit],MGA_265
sequence01	MetaGeneAnnotator	CDS	288448	289425	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIKNFEELDEYLYRGSLIFAILISIIFIIFNIIVRFPILINIKWLFLILMSLFFYKFDKNQKKMKFYYFGFLIWFFIPYAFIDSGGSANNTILYSFLLVMILNYLFKGIKRLFLVFSLVIVNIILIYIEFKHPYLVKEYSITSQFIDRMIQIFFTFSFSTFITSKYSKIYEKLNQKLFRLANYDILTNTFNRNYFNMHLNELIKDYKYLILLDMDNFKKLNDNYGHLLGDKALIKIVELLKENFKNDIICRWGGDEFVILSNLDNYKEKLLKTNQKFCEYIKKYEESVNFSYGVAIIDSIKNPDELFRLADLDLYKNKTIVKS;locus_tag=LOCUS_02650;note=WP_012584041.1 diguanylate cyclase (Dictyoglomus turgidum) [pid:27.8%25%2C q_cov:81.8%25%2C s_cov:65.7%25%2C Eval:1.4e-19%2C partial hit],MGA_266
sequence01	MetaGeneAnnotator	CDS	289484	290587	.	-	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSLYLIVFYGIIYFSNFLEKYNFISIIISIFLLSFIYHNSKTEEKNYEINHLKEHLEEIYMDNKALEISLDSINSGENEELTYGLIHLKNNANIIMEKMTNQSNDINEALSSIEQISTSSATINVNAQYLLEISNKAKLQVEESKIDINSLNKNMNLINNSIQEANEKIDKLISTSKNIGNIVFAINKISEQTNLLALNAAIEAARAGEAGKGFSVVADEIRKLAEQTNIETQKIENLIKDIQNNVSESKNANDTVSKNVETGLKINNIVFEKINNISQTNDVSNTKTKEIVNFISEQMTAIFHIKTAIESISKEAEETKENSEFNLKLITNLSNLLNQKIVDLKSTMEKLDKIWLTFDDLKINI;locus_tag=LOCUS_02660;note=WP_004080253.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:26.9%25%2C q_cov:83.4%25%2C s_cov:58.1%25%2C Eval:5.9e-30%2C partial hit],MGA_267
sequence01	MetaGeneAnnotator	CDS	290718	291788	.	-	0	ID=MGA_268;product=DUF871 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001253349.1;translation=MRKLGISIYPEHATFEKNKTYLNLAKKYGFTRIFTCLLSSDGDLDTFKKTISYAKNLNFKIIADVSPAVLNKLGVDYDNLEFFNTLNVDGLRLDESYSGNEESIMTFNPYELIIELNASTGTKYLENILSYHPNLHKLTGCHNFYPKRLSGLSKENFIKSSLDFKKAGIRLAAFVNSQNATFGPWNISEGLCTLEEHRDLPIDTQAKDLFYSDLIDDVIIANCFASEEELKKLSEINKELITLDIETEIELSDTEYNIVFKELHYYRGDASNYTIRSTMPRIKYTNSIPPKNTRDIQKGDVFIENDNYLRYKGELHIALQNIKNNGKSNVIGRISNNDLRFLDIITPWKKFKLKKL;locus_tag=LOCUS_02670;note=WP_001253349.1 DUF871 domain-containing protein (Bacillus cereus) [pid:55.6%25%2C q_cov:98.6%25%2C s_cov:98.3%25%2C Eval:5.4e-113],MGA_268
sequence01	MetaGeneAnnotator	CDS	292024	293391	.	-	0	ID=MGA_269;product=PTS cellobiose transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890590.1;translation=MSKMMNFVEEKLLPIAGKMASNKHLTALKDGFVFTMPFLIIGSIVLLLVNLPISQEYLSEGIKNPIYMKWYADLMAAHKANWVQPFYVSMGIMSLFVSFGIGYSLSQQYGLNNITGGFLSLFTFLLTSAKLDWLPVGQASGASNLFHIPDGGWMPVMDARYLDAKGLFTAIICAFVSVEVFKILVKAKLTIKLPDSVPPAIARSFELLTPIIAMILIFQPISIIVQKVQGVMIPELIMRLFQPLVSASDSLPAVISILIIVHVLWFAGLHGVNVVVAIINPIILSNLAANQAALQAGEVLPKIFAGGFLDSFVYLGGSGATLGLAIAMSRSRVEHLRSIGKISIVPGLFNINEPVIFGSPIVMNPILFIPFVTVPIINATIAWFAVKSGLVGKIITLVPWTTPAPIAAFFATNFNFMAFVLSLGLIVLSTIIYIPFLKIYEDSLLKEEETQTVSA;locus_tag=LOCUS_02680;gene=celB;EC_number=2.7.1.205;note=WP_010890590.1 PTS cellobiose transporter subunit IIC (Borreliella burgdorferi) [pid:49.1%25%2C q_cov:97.6%25%2C s_cov:98.9%25%2C Eval:4.5e-126],MGA_269
sequence01	MetaGeneAnnotator	CDS	293510	293824	.	-	0	ID=MGA_270;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000989050.1;translation=MEFDLESIAMELVGNAGESKSLAFEALDFAKQGNFTKANEKMKEAEEKILATHRLQTELIFMEANGEKIEINILMVHAQDHLMTAIMAKDLIKEFISMYKKLYN;locus_tag=LOCUS_02690;note=WP_000989050.1 PTS lactose/cellobiose transporter subunit IIA (Bacillus) [pid:53.6%25%2C q_cov:93.3%25%2C s_cov:90.7%25%2C Eval:9.1e-23],MGA_270
sequence01	MetaGeneAnnotator	CDS	293839	294138	.	-	0	ID=MGA_271;product=PTS sugar transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005417897.1;translation=MKKILLLCSAGMSTSIVVRKMKQEADKRGLEIEIDALGLENFHDKLNEYDVFLLGPQVRFKKNELTEIAKKHNKVVEVIDSRDYGTLNGAKILDFALSL;locus_tag=LOCUS_02700;note=WP_005417897.1 PTS sugar transporter subunit IIB (Aliivibrio) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:4.9e-29],MGA_271
sequence01	MetaGeneAnnotator	CDS	294455	295591	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPYLNNYYIYIQNEKKITKREREYLNILIDEFSKFKKNLIYDIETVKKNFDISVKDFYEILISISNKRYIFEIYELESKIAEGIFSIINSIKMSKDILEVEFNEILFEALNPDSIFYKFGFLSILKIESQNILDLYNYFLRYLNRNKGEFEIEIEKLKNILQVEEKYGRFYDFERYVLKNIIEELNNKSDYIFRYEKIKIGNSKNNRIKSLKFYFENRKELELFNNIDELLNIIKYEIKNFEKFKKLFYLYLNKKNIKYIKNNIEFIKEHFDGDYEEYLEKALKENYYSNHFKILDKNGERLDLLVDLESEYHNIFQFETDIYKILKEIKFYYDIDFLKKLYEFRKNKILFYEDKTIKIIGEYNKNSKSFLKIYKK;locus_tag=LOCUS_02710;note=MGA_272
sequence01	MetaGeneAnnotator	CDS	295642	297186	.	+	0	ID=MGA_273;product=NAD(P)H-hydrate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924808.1;translation=MKIVNIEKMKEIDKRAYEKYKINEILLMENAAISSYNLLKENFKLKKEKIFIICGIGNNGGDGLALARKLYSENFNVSYYIIGNEEKYSQISKINLEILKNINIKREKDYEEGLEKATLIIDAIFGIGLRRNIEGEYFEIINKINNSNKKIVSLDIPSGINGDNGKIMGTAVKSTYTIAFGALKYGNILYPGCEYNGEISLSKISFPVENYNDIKTNINLPLEIPLRNENSHKDSFGKVVFLAGSKKYLGAPIFSTMGFLKSGGGYARLITSKSIINILSTNAKEIVYFGMSENESGGISFKNIDKIKEIFLQNKMIVVGPGISITEDNRKIIREIINLDVPILFDADALTIISKDINILYNRKNKTILTPHLGELSRLLNISIEKINKNRVEICKEFAVKYGVILVVKIARTEIYYPNGEIFINLSGNSALATAGSGDVLTGVIASQYILGLSIEEAVRQGVFLHGFTADIIAKNKGKDGVIASDLLEYLPIAMKKIRKNYNKILKKYSIKNY;locus_tag=LOCUS_02720;note=WP_164924808.1 NAD(P)H-hydrate dehydratase (Thermodesulfovibrio yellowstonii) [pid:38.1%25%2C q_cov:96.1%25%2C s_cov:97.7%25%2C Eval:3.4e-85],MGA_273
sequence01	MetaGeneAnnotator	CDS	297278	297871	.	+	0	ID=MGA_274;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_172636477.1;translation=MFLNKDYFQNDAIFLAKDLLGKILVREINGKKILCKIVETEAYIGPEDKACHAYNNKRTKRTEAMFLEGGCTYVYMIYGMYNCLNIVANKKDKPEAVLIRAVEPLNELEYLKKNRNIKSKKRYDLTNGPGKLCKALKIDKKLNKYDLCKNKKLFILDSKDKKIEIVEAKRINIEYAEEYKYKLWRFYIKGNKFVSKI;locus_tag=LOCUS_02730;EC_number=3.2.2.-;note=WP_172636477.1 DNA-3-methyladenine glycosylase (Desulfitobacterium hafniense) [pid:48.2%25%2C q_cov:98.0%25%2C s_cov:97.5%25%2C Eval:1.0e-48],MGA_274
sequence01	MetaGeneAnnotator	CDS	298027	300510	.	-	0	ID=MGA_275;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108297.1;translation=MKVIIIGGVAGGASAAARLRRISEETEIIMIERGDYISFANCGLPYHIGGVIKERDNLLVQTVKGMKERFNIDVRVKTEAIKIDTEKKVVILKNLETSEEYEESYDKLLLSPGASPIKPPIKGINDVDNVYTLRNMNDMDDIIEGLKTREAKRAVVIGAGFIGVEVAENLKHKGLKVSIIEKANQILTPMDFDIAAQLHLHLKEQEVELYLNNGVTEFRKNGDKTTVVLENGDFIDTDIVILSIGVRPEVKLVKEANLEIGETGGIKVNEYMQTSNKDIYAVGDAIEVNCFVSNKKILVPLAWPANRQGRLVADNMLGLKQNKYIATMGTAIAKVFDMTAASTGLNEKTLKRYGIKYRTLIVNKNDHAGYYPGSTPIVLKLVYNEETGTIYGAQGIGYNGVDKRIDVIATAMKGGIKAWDLQDLELAYAPPFNSAKDPINFFGYIAENIKNGELKHIEWHELKDLDPDKSVLLDIRTKEENMLGTIPGSIHIDLNELRKNLDKLNKEKEYIVYCAIGVRGFLAYRILVQNGFKARNLNGGYKFWYPTTVEQSNIGIFKNDGTSTGIDNYITENDGGMHVAHAEDAKSIEVDACGLQCPGPIMKTFKTIEELKDGDILSIKATDPGFKKDVVAWANKTGNRLLEVTSSKGIITAKIQKNTPKVENTTNAPAKTLDGQTIVVFSGDLDKVLASFIIANGAIAMGKKVSMFFTFWGLTALKKDGVKVKKSGLAKMFDIMLPKHVGKLPISKMNMGGMGAEMIKLVMKKNNVDSVETLMKQFLDNGGKIIACQMSMDLMGIKEEELIDGVEIGGVATYLGDSENANSNLFI;locus_tag=LOCUS_02740;note=WP_011108297.1 FAD-dependent oxidoreductase (Bacteroides) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-225],MGA_275
sequence01	MetaGeneAnnotator	CDS	300773	301297	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFLILVLLCATITNAHTIELEGGIGIINSISTGITGIIPLNQYSKDILINYSSGMTPLIGEYYGVSIKLQEPNGFRYGIFYKERTIYDGLWEDIFSNIFSGGSSNSNAPDSKYDIYGIGLDKVFSSDEFFSPWAGIDIGYSYLRNKDSWSGENGYKDSFYMDFKLGIMIRF;locus_tag=LOCUS_02750;note=MGA_276
sequence01	MetaGeneAnnotator	CDS	301414	302172	.	-	0	ID=MGA_277;product=1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871056.1;translation=MFRPCIDLHNGKVKQIVGGTLSDNKTNSIIENFVSDKPASYYAKLFKKYNLTGGHVIKLGIGNDEEAISALKAFPNGLQIGGGITINNANLYIEYGASHVIVTSYVFNNGKIDFKRLENLSNLIGKDKLVLDLSCRKNNNKYYVVTDRWQNFTNFEISKENIKILENYCDEFLIHGVDVEGKKQGIDKELLYLINDYCSIPTTYAGGIRSLEDIKLINSIGNGKIHYTVGSALDIFGGNLSFEYIINNQNIK;locus_tag=LOCUS_02760;gene=hisA;note=WP_010871056.1 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase (Methanocaldococcus jannaschii) [pid:29.7%25%2C q_cov:91.3%25%2C s_cov:91.6%25%2C Eval:5.2e-15],MGA_277
sequence01	MetaGeneAnnotator	CDS	302482	303762	.	+	0	ID=MGA_278;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965785.1;translation=MKILSPNEKIVYLRKKFKISQVELTQGKFSRSYLGMVEIGKTNFNKKFAKAIVNNFNTILSNRGIDERVELDYLLETKDEQMKKISDNFLQRIETGEDIETIAHEVEKYIHEYNIDTKIELYKKIADTLYTNHNFKESLYYYLRIFNDIIISKNNKILSEVSLNIIRISYNLENYDEIVRLEKLIRYFLEEFEEEIRNKIIFNLGLTFYRLSQYEESLEYFKKLEYIKDRETVFRVQSMISLVLRGLKEYDKSLFILRSLLKKYEENDKKILINMYLLELYKEIENIEKVKYYFRKNRKLLDVHINDVDADYLLKHYYEIANTALYLNRNEIAKTYFERLMDIEYDDITFDLALEYRFNTIEKLLSLYNKKDFHKARKLFDKYIKLLNYKKDFIYGYYFIEYFNKFNYKENIEKTIFKLININKHL;locus_tag=LOCUS_02770;note=WP_010965785.1 transcriptional regulator (Clostridium) [pid:24.3%25%2C q_cov:99.8%25%2C s_cov:91.7%25%2C Eval:1.2e-16],MGA_278
sequence01	MetaGeneAnnotator	CDS	303903	304916	.	+	0	ID=MGA_279;product=TAXI family TRAP transporter solute-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261092.1;translation=MKKYILKLLLLTLAFAFVACGGGNTNTTSSKKTFITIGTGGVTGVYYPTGGAISKMINSKSEYNIKATVESTAGSVYNINAVLKGDLDFGIAQSDRQYQAYYGQSEWKEAGKQEELRSVFSIHPESITLVASVDSGINSIKDLKGKRVNLGNVGSGQLQNAKDVLEAVGISEDDINAEYVKAVEAPGLLQDGRIDAFFYTVGHPSGAIKEATSGRIKVKIVNITGPEFDKLINDKPYYAKSIIEAKNYPNAQNTEDINSIGVKATLITSTKVSEDVVYAITKEVFENFEDFKKLHPAYSTLTKESMLQGLSAPIHKGALKYYKEAGLMKYIKKELIK;locus_tag=LOCUS_02780;note=WP_011261092.1 TAXI family TRAP transporter solute-binding subunit (Aliivibrio fischeri) [pid:48.8%25%2C q_cov:94.1%25%2C s_cov:96.6%25%2C Eval:2.7e-82],MGA_279
sequence01	MetaGeneAnnotator	CDS	304977	307025	.	+	0	ID=MGA_280;product=TRAP transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228476.1;translation=MSKLDENIAEELLEEEIGKIRHKRKFDSFLISTISILWALFQLALPKFLILDSVSTRAIHLTFATVLIFLSVPMIKRPLKKFKFLHEIDKIPLIDIIFAILSILAILYIIIDKEGIAKRAGMPNTNDYIMGITTIILILIAATRAIGPALPIIAMLISLYGFLGPNMPGIFAFRGVSLTKYLTQISLSTEGIFGIPLDVSANTVFLFVLLGALLDKIGAGQFFNDLSFALLGKYRGGPAKASVVSSGLSGLISGSSIANVVTTGTFTIPLMKKSGYPGKIAAATEVAASTNGQLMPPIMGAAAFIISEYLGVSYIEVVKAAIVPAFVSYIALFYITHLEALKLGIKGLPKADLPNFFKVLKNGWHYLIPLSVLIYELMIMRHSPKLSAFNAIIVLFAVTFVQELISAKKNNKTIVEGLKNGIFIITDGLIAGSRNMMGVALATAAAGIVVGVVSLGIGSMIVQIVEVLSNGNLFLLLFITAIASLILGMGLPTTATYIVMASITVPVILKLSAVYSFNPVAPVAAHLFCFYFGILADDTPPVGLAAYTAAAIAKSDPIETGIQGFIYDLRTAVIPFMFVFNPDLVLVGINNWPEGIFIFIMTSLGALAFTNFTQGWFIIKNKWYETILFAVATLILFYPKLINLLLHIDNIHRYVFYIFGLLVYGLIYFLQKIRIKKEVKIA;locus_tag=LOCUS_02790;note=WP_011228476.1 TRAP transporter permease (Thermus thermophilus) [pid:42.4%25%2C q_cov:96.9%25%2C s_cov:98.3%25%2C Eval:6.6e-143],MGA_280
sequence01	MetaGeneAnnotator	CDS	307221	308408	.	+	0	ID=MGA_281;product=dicarboxylate/amino acid:cation symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048226.1;translation=MKKLGLLSKLIIGIISGIIIGLISKSLNNFRIVRIMSTFSSIFGNFLKFIIPCIIIGFVAPGIADLGKKANKLLGLTVVIAYVSTIVAGFSAFLIGSNILPKFIKAKELSKNNSINIEPFFTIDMPPIMGIMTALIFAFLIGLGMAHLKSTNLFNVIDDFQKIMKNTVNAVLIPFIPLHIAGIFAKISASGEIFYTMKTFSSVFIMILSLQFIYVLVQYFISCTFANKNMFEAIKNILPAYFTALGTQSSAATIPVSLECSRKNGVDEEIVDFVVPLGATIHLAGDTITLVLATMAVLLMSGTTPTFTMMFPFVLMLGITMVAAPGIPGGGVYATLGLLEKMFMFGTGQQGLMIAIHFAQDSFGTATNVSGDGAIAILVNTINKKIKQVILNKVN;locus_tag=LOCUS_02800;note=WP_012048226.1 dicarboxylate/amino acid:cation symporter (Clostridium botulinum) [pid:58.3%25%2C q_cov:92.9%25%2C s_cov:91.1%25%2C Eval:1.4e-125],MGA_281
sequence01	MetaGeneAnnotator	CDS	308456	308686	.	-	0	ID=MGA_282;product=thioredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943587.1;translation=MVIKILGSGCKNCKTLEANTKKAIEELELNAQIEKVEDIQDIMAYGVMSTPALVVDEIVKSTGRVLSPKDIIKLLK;locus_tag=LOCUS_02810;note=WP_010943587.1 thioredoxin family protein (Geobacter sulfurreducens) [pid:52.0%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:4.1e-15],MGA_282
sequence01	MetaGeneAnnotator	CDS	308741	309274	.	-	0	ID=MGA_283;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393699.1;translation=MKKLVKRYVFFLITITMLLILLAINFEIGKKSFFITINSLKEMILIIPPIFILLGLLDIWISKETMTKHLGEKSGLKGIFLAIFIGSAAAGPLYGAFPIATVFMKKGVKFKNIIIFLGAWSTTKIPMFLFEMSSLGAKFAITRLIVDIFGIIIIAEILNKIISDEEKIKIYKNTQNF;locus_tag=LOCUS_02820;note=WP_011393699.1 permease (Moorella thermoacetica) [pid:50.9%25%2C q_cov:95.5%25%2C s_cov:93.9%25%2C Eval:1.1e-42],MGA_283
sequence01	MetaGeneAnnotator	CDS	309275	309751	.	-	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986832.1;translation=MTIILYLITLILLFISFIKDKNKTKKALKKGLKAFENILPQFLGVIVLAGILLAIFSPELISKIIGDKSGIFGILISAIIGSITLIPGFIAFPTAALLLENGAGYMQIASFISTLMMVGIITFSIEKTYFNTKFTIARNLLAFIFSFIVAFIIGKVVI;locus_tag=LOCUS_02830;note=WP_011986832.1 hypothetical protein (Clostridium botulinum) [pid:53.2%25%2C q_cov:96.8%25%2C s_cov:96.9%25%2C Eval:2.0e-39],MGA_284
sequence01	MetaGeneAnnotator	CDS	309854	314185	.	-	0	ID=MGA_285;product=acyl-CoA dehydratase activase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965697.1;translation=MDTTYLLGIDIGSTTIKAVIINNTDEIIYSIYQRHNAEIILTLKKILNEININFKNFNFKIAICGSGGEKIANYLNINFIQEVVANAIAVKEKYKNTKVAIELGGQDAKVIFFNHNNEGNIVNTDMRMNGVCAGGTGAFIDQIAELLDIKTEEFESLASKGKNIYNISGRCGVFAKTDIQPLLNQGVPKEDIALSSFHSIAKQTISGLAQGNEILPPVIFQGGPLKFNPTLIKVFKERLNFSDNQVIIPKNSEIFVAYGTALAINQLFKDTKKYNLEKIIKRLEAYKYNLETNDNYNNVFFKNLEEKDEFYKRHTKTKLKRILKENENIDIYIGIDGGSTTTKIVFIDENDKIIDNFYSSNKEDSLTVAKQGLLYLKDKYRKRNIKFNVKGVGTTGYGENLLYKAFKADYHNVETVSHAKAALKFNKDISFILDIGGQDMKAIFIKNNILTDIVLNEACSSGCGSFLETYAKSLDVKLEDIAKLAFKSKSPSRLGSRCTVFMNSSIITEQKQGKTKEDILAGLCMSIIENVFTKVVRINDFDNLGNVIYVQGGTFKNDAVLRALEIYTNKKVIRAPFPGEMGAYGVALLTKDFITKQKNYKSTFIGLENLENFSYTKKSGSICQFCTNNCVRSIIEFSDGTYFVTGNKCERGEIIGNISIEKTKKELKEKINKINKVPDVMKSREKLILKKYSNILLLPQKNITIGIPKILEFWNSLPFWKSFFETLGFKVILSDNSSYKIFEEGMKFIPSDTICFPSKLAHGHIENLAQKKVDRIFIPTFLKLPKITKKLKNSDGLCAVVQGSALMLSQNNDISNRYNLIIDNPTFRWTSEKLKDKQIIKYMTETFNLKENIIKKAIDIANISQNKFNEELINIGKEAIEYAKEHNTFAVLLAARPYHSDSLINHNISSIFTQNNIPILTIDSVPYDINDKDIENIMIDVNNRFHSEMILATLWAAKQPDIEVAQIISFGCGHDAINSDELARILNKISNKQLLALKVDEGEVIGPLNIRIKSFIETIKEKRKEKKEFKIKSLENGYKARFKYEDKKLKTILIPNLSEAFSEIATAVVKHLGYKAKRLEIADERAIELAKKYVHNDMCYPAFINTGEMLKVLEEKKYNPNEIAFGLAQNCEDCRAAQYLMVIRNALNSFGYENIPIVTTGNDPLGVHPGIKLGIKFQVRMLVGVAIIDTLQVIKRKIKPYEVNKGETKQVYEYYVKKIANSLEKGFFEPFNIFEKAVERFNKIETKQEYKPKVFFIGEILMNYHSTANYKIVEYLENNGLEVIMAGMVDFFRREVITIKEGIKKHHFPNPALSFLYADVTDKAYHYVLKEINKRMKNFKFYEKKISIKDLSKKIEGLVDKSYNSGETWLIPAEILEYAEKGVKSFIIVQPFGCLPNHVTGRGLIKPMKKRYPDIQILALDYDQNTSFANIENRLQMLIMNAK;locus_tag=LOCUS_02840;note=WP_010965697.1 acyl-CoA dehydratase activase-related protein (Clostridium) [pid:37.1%25%2C q_cov:99.5%25%2C s_cov:97.6%25%2C Eval:8.8e-268],MGA_285
sequence01	MetaGeneAnnotator	CDS	314307	315500	.	-	0	ID=MGA_286;product=multidrug effflux MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000135022.1;translation=MNNDMKKMNKMLLILGLMAFLANGDNYAAAPLLIDIAKDLNLNIQTAALSVTAYMLSFGLFTLLFGPLSDRYGKTKIINIAALGTATFSILGGFAFNLPSLIFFRAVNGAFGAGIFPVTMALVGQSFDNQNRQKALGKVMGLMFLGGATATAIGGALAYFGSWRIVYIGYGIAELILALAMLKMLERDNPVVNKLNFISAYKVPLSNYRFMRLVTLIFFVGFSVFGSFTYSGKLLQSITGFNILQVGLILSLFGVGTVIGGKIVPKARIILKHGFLITAGILGFMSLFAISSYKNVWILGISLIGFGIAFIFMQTTLISTAQEKLPKMRGTAMSLASFNMFVGGASGTALNGYIMKQYTISKIFYNTSYILLTVGFIAAIFVARFEMRKAKGYYNNQ;locus_tag=LOCUS_02850;note=WP_000135022.1 multidrug effflux MFS transporter (Escherichia coli) [pid:23.8%25%2C q_cov:90.4%25%2C s_cov:95.3%25%2C Eval:1.1e-16],MGA_286
sequence01	MetaGeneAnnotator	CDS	315546	316520	.	-	0	ID=MGA_287;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011462034.1;translation=MLGYIFNFGWLYDLIKLLVENVFNLQMNTRLGESIHFFFYDSIKIIILLSFMIFTITYIRSYFPLEKTKKIIEKYNGFSAHLMASLLGIVTPFCSCSSIPLFIGFVEAGIPIGVTFSFLITSPIVNEAAFAVLLGSFGWKIATIYVITGVIIGIIGGIIIRLLKMEKYVEEYVYKMKAGNAIIEEMTQKDRVNYAKEHVIEIVQKIWIYLLIGIGIGALIHGWAPAELLAKYAGPNNPIAVIVGVLFGIPLYSNALGTIPIAEALINKGVGIGTALAFMMAVTALSLPEMILLKKVIKPRLITTFVIITGISIIIVGYLFNWLL;locus_tag=LOCUS_02860;note=WP_011462034.1 permease (Desulfitobacterium hafniense) [pid:51.3%25%2C q_cov:96.3%25%2C s_cov:93.4%25%2C Eval:7.3e-90],MGA_287
sequence01	MetaGeneAnnotator	CDS	316850	317077	.	+	0	ID=MGA_288;product=DUF2188 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001107539.1;translation=MGKNQHVVPHGKDWAVKGAGNSKATKVTKTQGEAIKKATEIAKNQKSDTKIHGKDGKIRAGNSYGSDPCPPKDKK;locus_tag=LOCUS_02870;note=WP_001107539.1 DUF2188 domain-containing protein (Streptococcus) [pid:63.0%25%2C q_cov:96.0%25%2C s_cov:98.6%25%2C Eval:2.1e-19],MGA_288
sequence01	MetaGeneAnnotator	CDS	317412	317720	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTDNSSFEQKLFKAADKLRKNIDAAEYKHVVLGLVFLKYISESFAELYDKLEADEWSDPEDRDEYIAENVFFVPKLARWTHIHSQAKLPTIKPLMMQWKP;locus_tag=LOCUS_02880;note=WP_002851467.1 class I SAM-dependent DNA methyltransferase (Campylobacter) [pid:55.6%25%2C q_cov:95.1%25%2C s_cov:19.8%25%2C Eval:5.2e-26%2C partial hit],frameshifted%2C insertion/deletion at around 317699,MGA_289
sequence01	MetaGeneAnnotator	CDS	317708	318916	.	+	0	ID=MGA_290;product=class I SAM-dependent DNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932358.1;translation=MEAIEKENKELKNVLPQVYGKANLDKTSLGELIDLISNTELQAENQNSKDLFGRVYEYFLGEFANAEGKKGGQFYTPKAIVKLMVEMIEPYKGRVYDPASGSGGMFVMSEKFVTEHQGNIKDITVYGQESNQTTWKLSKMNLAIRNINSKFVAWNTEGSFLKDAHPDLKADFILANPPFNQKDWGADILQEDGRWKYGTPPNGNANFAWMQHMLYHLSPRGVMATVLSNGSLSSNTSGEGEIRKNLVEADLVECIVALPKQLFYNTGIPACIWFLRREKNSHSKDVLFIDASEMGFMKDRVHRDLAPEDINKIKETYHNWRKDENYEDQKGFCKSATLEEIRKHSHVLTPGRYVGIPDEEDDGILFEDKMTELTATLKQQMDKETELNQEIEKQLAKIGFRL;locus_tag=LOCUS_02890;note=WP_010932358.1 class I SAM-dependent DNA methyltransferase (Chlorobaculum tepidum) [pid:56.2%25%2C q_cov:99.5%25%2C s_cov:79.3%25%2C Eval:8.5e-134],frameshifted%2C insertion/deletion at around 317693,MGA_290
sequence01	MetaGeneAnnotator	CDS	318958	320166	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFPEQWKIITAENFCIKIADGTHNSPKKTKEGKLLITSKNIKNSKLETSSAYNISIEDFTEINKRSKVDKWDILLSMIGTVGEVCLLNNKPDFAIKNVGLFKCGDETKAKWLFYFLISKIGQNYILSRLSGTTQKYITLGELRKFPIPVPPLQEQVAITKILTAFDDKIELLQAQNKTLETTAQTIFKEWFVEEAGEDWDRVSLGNSELSKIIGSGLTEFRGEKIYLATADVQNEKIVNTETFITFNKRPSRANMQPVLNSVWFAKKGSVRKVLMFDLNSKEEVEKYILSTGFSGLKTTNLSHYYIWLFVFSKEFQEIKDNLLSGSVQADINNDGIKNIMIPKPDNNILEKFNNIVEPLFHKIQKNNSQIQTLKQTRDTLLPKLMSGQLRVDEFKESAVC;locus_tag=LOCUS_02900;note=WP_205009343.1 restriction endonuclease subunit S (Streptococcus loxodontisalivarius) [pid:45.8%25%2C q_cov:41.3%25%2C s_cov:71.8%25%2C Eval:1.9e-32%2C partial hit],MGA_291
sequence01	MetaGeneAnnotator	CDS	320160	323282	.	+	0	ID=MGA_292;product=type I restriction endonuclease subunit R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002858356.1;translation=MLNENTIEQSFIDQLIAQGYTYYNGKEIAPNSDNPQRENFASVILEKHLKASLKKLNPTLSESERVEAYQKIINLGTEDIMENNERFHNLLTNGVTVEYTKDGKTKGINVTLLDVENPDNNSFWVVNQLVVKENNNEKRFDVVIFVNGLPLVFVELKSATDENATLRKAYTQIQNYKKAVPTIFYYNALCVISDGIEAKTSSISAPFTRYLSWKSPEKLDNDPRTELQILTQYMLGKKTLVELIRYNTVFEQEEKKDEKTGLVFQVKIKKVAAYHQYYAVQKAVKETLRATNSKEGDRKVGVVWHTQGSGKSLSMVFYAGQIITHPKMGNPTIVMLTDRNDLDDQLFSTFGNCKQLLRQTPVQANSREHLKELLKVSGGGVIFTTIQKFAPQEGNIYETLSERTNIVVVADEAHRSQYGFKGRVVENEEGSEIRYGNAKYLRDALPNASYIGFTGTPIEKEDKSTPAVFGDYIDVYDIKQAVDDRATVPISYESRLVKIKLDEQTAKKLDEEINDISDATEEQIEKAKKKTATIDTVVGHPDRLKDIAKDIVSHFEARQKVFEGKAMIVGMTRNICVKLYNEIVALKPQWHSDDIDKGTIKVVMTSSTDDPEIFQPHHTTKQQRKDLAIRMKDPNDELKLVIVRDMWLTGFDVPSMHTLYVDKKMQGHNLMQAIARVNRVYKDKPGGLVVDYIGIGQELRNAMATYLQSGGKGSAIVDIKEAIAGMKEKFEIVEQMFNGFDYKSYFKVDTAQKLQVLLGAQNFMLSDVKLKERFLKEVTLLSKLFAMSVPSFEAEVIKDEVAFFQAVKSRINKFSGNGIKSDYEVETAIKQIVDDALSSDGVIDIFEAAGIESPSISILSDEFLLEVKNMQQKNVAFELLKKLLSDEVRVRKTKNIAQGKKFSEMLESVVKRYHNNQIDSAQVLQELSEIAREMRLEDHKSEELGLTPEEYAFYSVLSENESTSFLDDNKMKELIHTIVDVIRKNATVDWSKRDDVRAKLRLTVKKILMRYGYPPDLARMEADKVLAQGETLAEIFSSEN;locus_tag=LOCUS_02910;note=WP_002858356.1 type I restriction endonuclease subunit R (Campylobacter) [pid:49.6%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:7.5e-290],MGA_292
sequence01	MetaGeneAnnotator	CDS	323628	323906	.	+	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEYNYSVNEKKYNGDNIYFGYKPSKFSFVLEKKRGQYDVGNIVIVFYDPLNPEISVIEPGIHFQTLEYPLIGILLMLMFIYNLLKLLKKG;locus_tag=LOCUS_02920;note=MGA_293
sequence01	MetaGeneAnnotator	CDS	323914	324312	.	+	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRIKEIKSIQNKQRSIIILGLMLMSMNLLFTDEIGKTNNYISIGSNYLEEQQFNEAIKNFEKALIFDDRNKEVYFLLGYSYQNLNKYKKALSFYNKAVKLGADDGRIYYGIAECYSLLMDKEKLLFIIKKL;locus_tag=LOCUS_02930;note=WP_011015826.1 tetratricopeptide repeat protein (Fusobacterium nucleatum) [pid:36.1%25%2C q_cov:54.5%25%2C s_cov:11.5%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [324277:324279](+)%2C[324477:324479](+)%2C[324478:324480](+),frameshifted%2C insertion/deletion at around 324288%2C324282%2C324261%2C324270,MGA_294
sequence01	MetaGeneAnnotator	CDS	324561	324974	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVALGDFYYDKDQFNKALEFYKTGFEKNPEDLGLNLALGRFYYKDFKDMDKAIKYYEKALNILPENRGLYYVVGKLYEKKGIYNKAIFYVEKAIEISPNMWKYYNLKGEILKKQGFAKKSERAFNMARSLKETQGD;locus_tag=LOCUS_02940;note=WP_010870454.1 tetratricopeptide repeat protein (Methanocaldococcus jannaschii) [pid:37.8%25%2C q_cov:59.9%25%2C s_cov:25.8%25%2C Eval:4.0e-10%2C partial hit],internal stop codon at [324477:324479](+),MGA_295
sequence01	MetaGeneAnnotator	CDS	324975	325574	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAVIDSGAPEKSKLNITNKYRIFVNQDYESYVLKDRIEDENGHATLVFKILEKYLKKAEEIISIKILNKELMGNSIALAKAIEFAVNEKCNLINISLGTPNKEFIKRNKNAVKYADEKGVMIVAAHSNGIKEISYPASFNNVIGVKGIDEKKVSIDFKNNNINMETWQRLEDEEEIIEISGSSYLAPHITRFIVRNI;locus_tag=LOCUS_02950;note=WP_009903675.1 S8 family serine peptidase (Clostridioides difficile) [pid:32.9%25%2C q_cov:74.9%25%2C s_cov:43.9%25%2C Eval:5.4e-13%2C partial hit],MGA_296
sequence01	MetaGeneAnnotator	CDS	325996	329040	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYIIIPNWINNIHEIKSENLKEFFEYILKSEDNKIDIEYLRKYYKESREINFRNVIDELALRGFEFKTLKSNNILPKVEYCEEEELIFVSRLGKNFVKIDFKNLNLGNFIERFRVKDDLFFNKIPYKGFRYLNPNVNNEILKKEFKNTFNSRKNKEENFLNENIEIDNQKDFLELVENPKLKPELDNEINSINYIFKERKFEMFREFCNKKELKYIYEINNNTFISFQNELGVGSKKLYQVKEFLEKNITPNDIKKRFELMYNKEINLEENILKEFGEITVSRVLKVFNINLNIKDDIKIEQLNNRKISQFIEINENYENENLEKLIDIINKLESPSKMIKKISFNEKEYEIFEKRFLDGMTYEKISKLFGVTRERIRQILEKIHKNVFHELKANNFLQIIKLFFPNRTFIEKEELIRIITSKNINYIYLFNNYNNEIFYYYEPLELYFFKDISRLINEIKNFINKLPDYFYLFDFLDEIIDLLSKYKMEDIKIEDIENLLMYYGFIKYNECFSRIKMTVTLFFSIVFDQYITEPIYFNEEGLLYLKKIGIEFLNYKLTGNIRSLEGRIRDNDEIVLVGPKTFLNINRIKYDLNILAIIDKYLLKKSKQQDKINAEEIFSDLKDILIENNIKNKQTLYSIIKYNYEEKYNIGKGNTLDIFLNDNIEKLSKEEQVVNIVRKYNNPINKEIILRKLNWKLFKLEDTISKSSKIISWGRNLITLIETIKITKDQKRKLNDLLNQKMENGFTTSHILLNELRFDSELNKIIKNNNIENSFQLASIIKNIFTNIGGRTLFLYKLNSGITSIEKVIKNKFTEILLKEDLKFFLEEYGYKSGAIAQILGKLLKKEIFVEISREEIILKEKLNIPNDVYNKVKDIIEDNYFKNEYLSLHSIEGYRKILPKIQYKWNPHLLGTILKNVGYRKIEKSNGDYRYNKIIIVREDSHIKTFEDLVYHILEKEYNGIFHELKVYDFLVEKKIINGREYIENKKLPLEIKKSEIIKIDKVGRIELVK;locus_tag=LOCUS_02960;note=WP_011016450.1 SMC family ATPase (Fusobacterium nucleatum) [pid:18.7%25%2C q_cov:47.8%25%2C s_cov:54.4%25%2C Eval:1.7e-07%2C partial hit],MGA_297
sequence01	MetaGeneAnnotator	CDS	329203	330753	.	+	0	ID=MGA_298;product=DEAD/DEAH box helicase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779460.1;translation=MKNNFEKIDVFIESNNLMRIKDAIYDFERLCENKTKRLEVIKLLMEVKNKILSFRKDRKLMNTNYKKENIITPRDYQVEAINALKNNNYKGIFEMATGTGKTITSILCANNYYITNKRIFLIILVPFIHLIEQWILTLEKLNFENILKCFGNKNKWIYQMREKVRDYNINISKKEVIITTYKTASSKDFNDIIFKLKGKGFLIADECHYFGIKSLRYKIDGRLGLSATPNRWWDKSGTDFIYEYFEKTIYEYNMEKAITKGNLIKYNYFPIKIDLSEKEIKDYQKLTKHLVYLFSEKKKDKQKIEQITRKRSSILSKAVNKKEILFKILSNKNFDEISHTLLYCAPGEINELTKSIANLGIKVYRFDSKVKKVDREMLLKNFENGKIQILVAIKCLDEGVDVPSTKEAYFLSSTSNPREFIQRRGRILRPAPNKKNANIYDFIVIPKNVDEVLFKNIVSKEMPRFAEFSKYAFNEFYARKEIKKYLEKYNLSYLMDKLPWDIYNEFQNEWEDNEWI;locus_tag=LOCUS_02970;note=WP_021779460.1 DEAD/DEAH box helicase family protein (Fusobacterium nucleatum) [pid:33.5%25%2C q_cov:94.6%25%2C s_cov:76.1%25%2C Eval:2.7e-66],frameshifted%2C insertion/deletion at around 329128,MGA_298
sequence01	MetaGeneAnnotator	CDS	330744	330902	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINSILIKEIEENFPVEVKELAIIILSELNKNKSNRQIEEIILEELRESFI;locus_tag=LOCUS_02980;note=MGA_299
sequence01	MetaGeneAnnotator	CDS	330915	332939	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILKIYLENFRQFYGKQEIVFSKGEKNITVIFGENGKGKTSIFRALIFALFGNKFLEQDNEKEKIHLVNFNILDENIGCPVEACVKVEFEENGKVYFLERSITGYKVKNEIVEKVNKAKLYMQDSKGNYSGDPIVDENFIKSQIEKIISSNIKDFFLFDGEKIDALAKTNILIRKKVKQGIVQLLQIDKLDKSIEITKNLYNKENKLISTQSSNMNIKSIEERIEDKMKKLNENFEVIKKNEEELEFCKEELDEIDIKLSKSEPIKRIQEESKNIKVKIKEYNEKLNLLKGNLSRSYFNSLHQFFMKDSYEEVKEYLNQLLTEQKDLVSIEIIDKILLEMKCICGTNLNIDKEALKNIEKIKNEYKKSELTPLIRLINEIVHDFSLNKDEIINNIRKDLLKIKNTKDELNKLHFLLEKNNDDIKEYSKEEENLTKLEEISEKLKTKFEKLKIDIRALHKVNDDLKKNINKEQKELEVLMSKDKSLRADYERLKYLNILKENFENIFEKYSSKIRKDLSYECTKIFNKLIDIKNKNLINEININEKYEIELKNWSDIQTNQDISQGQRQIIALSFITALAKIASGGRENIEFPLFMDTPLARISGENRDNIIDNIPELTVQWILLLTDTEFTVTEELKIKSTQRLGKWYILEQIKNGYTKITSKKLDDSIAKRR;locus_tag=LOCUS_02990;note=WP_011016450.1 SMC family ATPase (Fusobacterium nucleatum) [pid:25.7%25%2C q_cov:77.3%25%2C s_cov:57.4%25%2C Eval:4.7e-16%2C partial hit],MGA_300
sequence01	MetaGeneAnnotator	CDS	332942	333394	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLSEQQLIFTSKKYEDIYIFFNETFSIKYQDLFILCSAIGFKNNRHIKFDSKGRELRSNYFSSAQKATAYSIILADKEIGREIEKFENKNFMLLARKKLEEYAEGGMEILLEEVFENKFIESKLDIVYKEYDIDLFSYVLEKFDEIPF;locus_tag=LOCUS_03000;note=MGA_301
sequence01	MetaGeneAnnotator	CDS	333817	334809	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFKNFKDLQDIENFFLKEENNENKKQIKNTKEEKNENSKSIKALKKELNSVKYELEQIKKHLHNKKSDNENTEIAKMFIDFNVDEIYNEESKKQLEKLQNEIQQLKKENRKLKKEKENIGNTNKKYGYDSIYNKLKSKYNFLLDRSIVSLATAEYLYKNETNNKMDYSIIYINYIKTLEIELKRVYQYNNTKLTFGNIINRLEKNPLFKTFVYAINKQKVVQTRNIAIHKRVISKMECGKIRKLLIEDDWLSRIAYLLNEVDKENKMVKINMKIIEKKDIITINGKNYTHYITDGDIDIISLKTNLNGKLVGTGEIIEYQCEEYITY;locus_tag=LOCUS_03010;note=MGA_302
sequence01	MetaGeneAnnotator	CDS	334934	336196	.	+	0	ID=MGA_303;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582875.1;translation=MIKDIYKSVEKTFFAILIFDKQFKLNYINEIGAKNLSYNISEIKGVNLKYFFKENKIEIIQKNKLGILIKAFVKNKGMKYFKVIIEKNKDDKIIYLLDVSFEQKKMNILFDIFELRDYLFNYIDDYIFIYELNNKLEINRLLEVNLKVKKELYYTQNELFDKKINELFIIKAKDLYSKNKTKSKLVRRNGSYITVELTKLKIENKNLFIIIAKDIEIEEKANNILEKNLQNRDKLIDEIVETVSKIVEQKDPYTTGHQKNVAKIAVKIAQKLELDDDIVKAIEIAGKLHDVGKISIPTDLLNKPGKLINEEFSLIKTHVDSGYDILKNIDFPWDIAEYVLEHHERLDGSGYPRGLKDNEIRIEAQIIAISDVIDAMISHRPYRPALSKEIVINELKSKSGIHFNRKITEIAIDILNELEV;locus_tag=LOCUS_03020;note=WP_012582875.1 HD-GYP domain-containing protein (Dictyoglomus turgidum) [pid:36.9%25%2C q_cov:80.2%25%2C s_cov:94.1%25%2C Eval:3.3e-59],MGA_303
sequence01	MetaGeneAnnotator	CDS	336200	337264	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELFELYKISTKEQKLDLIDEFFKRKNYLEYIDRLFELLENEKELIIREKIVFSLKKYNTIEIVQQILKFYDSNDVYLRNIAIDIVTSYYELPLQNLLKMLNSENKHIRKLALDTLFNTRNPMMASFIMESLINETDINNKITAVEYLGKLNAKRYADDIVNLLDKEDNEFFTVTVIEALNYIGNDYCYKKLSEKFNDIENVSIIILKPLIKFCAKFIKKDMIYKLKKLKKHYKFLAKEIIFALNSAFQNLTEDEIFEIEKDIYNILKELLELKLSDIIYYEVLTLLSLYDNEEVENIAKKYLYEKEGIIRYKSAEILIEKNQIKYIEDVKKSLNYEKDQTIRERLRELIKGE;locus_tag=LOCUS_03030;note=MGA_304
sequence01	MetaGeneAnnotator	CDS	337257	338150	.	+	0	ID=MGA_305;product=protein-glutamate O-methyltransferase CheR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545471.1;translation=MNKMGLNINKIKEKRERIDLLDKNILIIKDIIYEYSGIFISENQYYFLYTKIQKRLEKVEIKSISEYLKYLKKSNNEIKKLLNEITINESYFFREFNQLKVFGEECLIEVAKNKTDKKIKILSAGCSIGAEPYSIAIIAEEMLGNDNFDFEIIAIDIDEEILKFARKGIYDKNRINQIPKLYLEKYFLKYNEKYIINDFIKEKVKFKRINLVNDRELRSLGKNFDFIFCKNVLIYFNSFSRRKVIENFYKMMNENAYIFLGSSESLNRITEAFYIKKIENQIVYQKKRGENYEDINY;locus_tag=LOCUS_03040;note=WP_012545471.1 protein-glutamate O-methyltransferase CheR (Thermodesulfovibrio) [pid:38.6%25%2C q_cov:87.2%25%2C s_cov:92.9%25%2C Eval:1.9e-49],MGA_305
sequence01	MetaGeneAnnotator	CDS	338131	338502	.	+	0	ID=MGA_306;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939351.1;translation=MKILIIDDSETTRNFYTYILESQRIDVVDASDGMNALDKLYYYKDEIKLILTDLNMPNLDGLSLIKKIRENKEFEEIPIGILSTLDEKDKIEEGYRIGADFYIIKPVESNNFIEIVKSYLEVE;locus_tag=LOCUS_03050;note=WP_010939351.1 response regulator (Desulfovibrio) [pid:37.3%25%2C q_cov:95.9%25%2C s_cov:95.9%25%2C Eval:1.9e-20],MGA_306
sequence01	MetaGeneAnnotator	CDS	338502	340628	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVVDYIKQLKREIIKNEFNQGMIEFYRKKLRTYNYLFELLNYFEILNKTYQKNKDEIIKILINDIKDEILLDCNFILDNKKENTQNKQTIEKEFNKIKLLNKKENKEILLFKNINYIFNNKLEEKTFNDYLLEANEIITKIEENCINYENSLDNEVLKILKRELHTLKGNTRLLESFELDKSIKNILKLIEEKTHYFEDIIINDSLINNINIFFSYIDFIKEILEKFENKKNIIDLNGFKELFNYNKKEENENDVILNNFIIQFKEYIQINILNKKDFNLAKLKRSSKGFYNYVKKKNIKKHIKFIEEIYSNVENKNFDKIYNLINSTQKTNKKIDISNKIYLNKETINNLEIILNNMFLLNSEYEYLLKKYSINNNEFINFKKKFNKNMDSFNNLLNNIKMEKIGTLFKILKRSIRDIANELNKKVEVEIMGEESILDKDIYNKLQEPLVHIVRNAVYHGIESISERIEKDKNEKGKINLKAFNERGNIVVEISDDGRGINKEKIKNKANKLNIKYDENNIYNLIFLPNFSTNDEVDNISGRGIGMDIVKNVINSLNGNIKIESKKNEGTKFILKIPINLSIVNGILIKINNIKYILPINKIDKIIKNNFEIRSYKNEYFLKQNNEIYPIYSFNSNSNYNNKIYILLKNNEKYIAFMIDEVIEKNKYLNKKLPDILKNEKYLFGVSILGNGEILGILNIEYILNGG;locus_tag=LOCUS_03060;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:29.2%25%2C q_cov:56.4%25%2C s_cov:61.8%25%2C Eval:5.4e-47%2C partial hit],MGA_307
sequence01	MetaGeneAnnotator	CDS	340630	342576	.	+	0	ID=MGA_308;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001185445.1;translation=MEKKRLETPENYKSDYKYSIKNHNYEKYNPIKEKEMSIKKISKSKEQGNLRREMLAEKIASATQELVKNIEKIKEGNDFSIQIFENISSVSYESSSAIEESNQIISEINDKISLFKKSIENLKLNILDNRRIIDLMIVTLEDLIMDINEIVEKNNVSVKKIDELNEKNKIIEESLKIIVKIADQTNLFALNAAIESSKMEGKGITFDILSNEIRELADISENSAQNINIIIKDLKNIIISIVEIINKIINNSKQDNSIGDEIKIKLNLINTKFNKILENTDNLFRELDGIILLYKKINSQSEILTNSIQNISIALQESSNANEEQVKAINEILYASNELLGVAENLKNNIKVGNLAEILSSTAEQLSSNIAETTSASYEIIEGLKSISKEINEMGNTIKITNKFLDAIKDKNNSFILSFKNDFNELNKIFELINVNNNNLKDIKSDLENNINLFINILEKIDLFENKIYSIEKIIKQIDRITIKISTLAVNGFLEASRFGIEGEGFTSVSMDIKQLTYDSEYQIEKINNLILKLKQNNNKIYLNIEDSNRLLNINNKKATNTIMDFNKINEKFNFLLKNYTNIINEFDIINNSISEIKIGQENILISVEKLIKDIEEVINFNYNKFNSFEEISEAIEEILLVAEEIKY;locus_tag=LOCUS_03070;note=WP_001185445.1 methyl-accepting chemotaxis protein (Vibrio cholerae) [pid:22.4%25%2C q_cov:92.1%25%2C s_cov:93.1%25%2C Eval:1.3e-39],MGA_308
sequence01	MetaGeneAnnotator	CDS	342588	343886	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFSFVINKKKYIIENKYIKEVIEENNISPIYSKNKNILGIINYRNDIIPVLSIEKNINSNKMLILNYNNSLYALKIEKILEFLDIEEFSNEIIKIKNIEYIYFNLNKLLEIKKILVSDTNDTQINNIVKKQIKKTEKFLIFKINNEKYGLNANEIVEIINYKKIKNIPFKNKDINILEYKGKSIVVIDILEKINNEKIKLTDFSKIIILEKENKKLGILVSNIVELIGRDNNEILEIPHYLISKNIKEISSITYDNEKNMIFILDIFILMNYYEKVDIRINNKNNKDTIKKTRFIEFEIKNKKYAVKLNEIEEILSFEKNDNLNVYNLRGEVLPLYDLNKKFNNKNKENNLNNKIIVKKINNNKIGFIVEKVLGIKEIEENNILNITNILLLKIKYFKGVYIEKNIKTIIVDLKEIISQEEMKLIKEAGE;locus_tag=LOCUS_03080;note=MGA_309
sequence01	MetaGeneAnnotator	CDS	343889	344965	.	+	0	ID=MGA_310;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878541.1;translation=MKKIRVLVADDSALIRNLIKNIIKLDNRIEIIDFAKNGIEAIEKTINLKPEVVLLDINMPKMDGLTALNRIVYEKICPVIIFSSLSKRDSVITYEAFELGAFACIEKPSSGLLLNINDISKELLQIVIEAGRIGNDINKLNLLYKRVKHKLIKTQNYYDLEDITSKVVNAVTIGISTGGPKNIYEVIPYLPENLNAPVFLVQHMPPSFIDSYAERLHRYSKLKVVVAENEMEVKNGVVYVAKGDYHLKIKKNTEGKVFIKLSKIPDDLFIPSVNIMMKSVLNVFKERTIGVLMTGMGDDGADAMVKIKKNGGFTITESKETSIVFGMPNEAIKRGGSHITLPSYAIAKEIVNRINKLK;locus_tag=LOCUS_03090;note=WP_010878541.1 chemotaxis response regulator protein-glutamate methylesterase (Archaeoglobus fulgidus) [pid:41.4%25%2C q_cov:97.2%25%2C s_cov:97.1%25%2C Eval:5.0e-66],MGA_310
sequence01	MetaGeneAnnotator	CDS	344992	345798	.	-	0	ID=MGA_311;product=MetQ/NlpA family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016563.1;translation=MKKQNIFILVLILILSTTTFAGLFKKKVNENELKVGATPIPHAEILEFIKKDLAKEGIKLKIVEFTDYVTPNLALNDGEIDANFFQHIPYMNKFSKERNLKLVSVGTVHVEPMGLFSKKIQNISELKNGSIIAIPNDPSNGGRALILLEDKGLIKLKDDAGLNATEFDIIKNPKKLKFKALEAAQLPRVLQDVDAAVINGNYALESNLNPAKDALLVEGANSPYANIVTVVAGNEKNKKIQKLIKVLQSEKVKKFIKEKYNGAIIPAF;locus_tag=LOCUS_03100;note=WP_011016563.1 MetQ/NlpA family ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:66.5%25%2C q_cov:95.5%25%2C s_cov:95.0%25%2C Eval:1.5e-92],MGA_311
sequence01	MetaGeneAnnotator	CDS	345842	346285	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVFPLSRIIVGTTIGSTATIVPLSISAAPFVARIIESALREVDKGLIEASLSLGASPFEIIIKVLIPEAMPSIANGLTITIINLLGYSAMAGAIGGGGLGDLAIRYGYQRFKMDIMIISVIVIIILVQIIQYIGDKIVFYIKKNR;locus_tag=LOCUS_03110;note=WP_011016564.1 ABC transporter permease (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:98.6%25%2C s_cov:62.2%25%2C Eval:4.3e-40%2C partial hit],MGA_312
sequence01	MetaGeneAnnotator	CDS	346206	346517	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESGTIVAVEPIVVPTIILDNGKTNIIKIIKGKERKIFIVASKILFNFGIDKILSFLVISNNIPKGPPKIVEKIVDQNTIYNVSQIEGINNLKILSIIKHLYF;locus_tag=LOCUS_03120;note=MGA_313
sequence01	MetaGeneAnnotator	CDS	346488	347501	.	-	0	ID=MGA_314;product=methionine ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016565.1;translation=MIQIKNLNKIYHSNGKEIHAVKNLNLTIEKNDIFGIMGLSGAGKSSFIRMLNRLEEPTSGNIIINGKNIINFKKKELRNFRKKTGMIFQHFNLLSSRTVRDNVAFALEIAKWKKKDINNRVSELLELVELSDKANFYPSQLSGGQKQRVAIARALANNPEILLSDEATSALDPKTTKSILELLKKIQEKLGLTIILITHQMEVIRYICNKTAIIQYGEIVEKGKTEEIFINPKSKITKELVAHLIPEEKDEIDLLKKNNCKIIKIIYTGEIVDKPIISKLVRKFDIDVNLIGGSINKLITTNIGHLIVEFEGDLKNQENAINWLKNQNLEIEVLYNG;locus_tag=LOCUS_03130;note=WP_011016565.1 methionine ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.7e-108],MGA_314
sequence01	MetaGeneAnnotator	CDS	347825	347974	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISGFTTIKNVSKLYYPVKESMMNNYSRKMFGFKSSNEVYEEKLVKLA;locus_tag=LOCUS_03140;note=MGA_315
sequence01	MetaGeneAnnotator	CDS	347984	348877	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENAILVLLPNKPFLGNQITQIPFFEEIKGNKKIITVGTKKSYFVIKNLGYIDLAFEYRKKSFLDLFKIIKKIKKDYNVTEVYNFRYRSIRISFILALFFRNITGYLNKRKNPLSIFYKKKKIFNKKEYIAHNYLKLCDGKLEEYYLENVRRKKSISIIPGGSNDFKKYPLSKYLKVVREFENDYEINFILGNDMLKEQEELKPYKEKYNLVIGEKLDKLRMLLQETSLVISNDCGPSHFAHIYNTPRISLFAGNTNPREWFNKTDKSILLESSNRDNIDSIREEDIIISARKILNR;locus_tag=LOCUS_03150;note=MGA_316
sequence01	MetaGeneAnnotator	CDS	349347	351239	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFKVTEECISCRACVGVAEENFNMNKENKAFVFSQPKNNDELKKCEKAKSICPVNAIIEIKQKDIDPIFANANVKDTLDKYTDLKDVLIKLSPKFKRIQNPIMYNTLAKFVTFKEAAKVTGISICEILHTINEYLGVEKKLVENMPECITAMKDNNDFEMKSEKITWKESNERFIYNNETVEELIKKTSKLKPQENIVILSVEFPTELLKVIEGLNFKYNIEKNREFRISIFNPEIDKKVNWKDRKNEFDILDVREMETDPFDIIIKKAYSLKEDDGFILIQKFNPIPMINMLSEMGFENIIEEKNKQEIWIYFHKKIERKNKENIKNDKVDVVIQSATPVAYPVMMKLLQSEKIRKSINIKELKVWNETEKHLGWIANGKADISFSALITSSKLKNSDVKIPALFVWDNFVILTRYKADSFKDLIGKEIYTPLFDEAPPAKITKYLIKASGFNVDDFKFKYGKPFGRPEKIYLDFITGKADTVVLREPEAAYAIKTMKDRKENFSIISYNKIWNDINNGFGSFPNAGLVLKGKFVRKHPELTKVLLEELKEAINWVIKNKKEAAKLSFDIMRQSPDKIEEFLDRVNFKYVDGEELIDKVKQYFNILVKEKIVNDTIDEKFLSIFKLD;locus_tag=LOCUS_03160;note=MGA_317
sequence01	MetaGeneAnnotator	CDS	351740	353656	.	+	0	ID=MGA_318;product=aconitate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948184.1;translation=MGMSLAYKILSKNLINGELKAGNEIEVKVNQTLTQDSTGTMVYLQLEAMGIKDIKTDLSVAYIDHNTLQAGFENADDHTFIKTAAAKYGIIFSKPGNGICHQLHLERFGKPGNILLGSDSHTPTGGGMGMIAIGAGGLDVAVAMAKGSYFLTVPKVLNVELKGKLKPWVSAKDVILKVLQELTVKGGVGYIVEYTGEGVKSLSLTDRATITNMGAELGATTSIFPSDEITYDFLKRQKRANDYTELAADIDANYDKKIVINLDELKPMAAFPHSPDAVKEITEENKIKVDQVAIGSCTNSSYTDLMKVAAILKGKRINPDVDLVISPGSSNILKMMADNGALGELISAGARILEAACGPCIGMGQAPKSNAISLRTFNRNFKGRCGTKNADVYLVSPEVAAVSALEGYLTNPMNYGEAPKIELPKEFQVYENYFIYPPKNREGLEVIMGPNIKPFPLNNALENSITKNVILKTGDNITTDDIMPSNAKLLPFRSNIPKLSESCFATIVDDFKARSEKYNGGFVIGGDNYGQGSSREHAALVPLYLKVKAVIAKSFARIHKANLINSGILPLVFENKEDYNNIDEFDELVLNNCIDSVKAGIFTIVNKTKNKEFKAILEVSDREKAILLEGGYLNYAKK;locus_tag=LOCUS_03170;EC_number=4.2.1.3;note=WP_011948184.1 aconitate hydratase (Clostridium botulinum) [pid:62.6%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:5.7e-234],MGA_318
sequence01	MetaGeneAnnotator	CDS	353766	354773	.	+	0	ID=MGA_319;product=isocitrate dehydrogenase (NAD(+));inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964290.1;translation=MYNVTLIPGDGIGPEIAAITKKIIDATKVKINWEEVNAGIDVYEKTGELVPNNVFESIEKNKIALKGPITTPIGKGFRSINVQLRKKYDLYSNVREVKSFEGIKSRYENIDMVIFRENTEGLYIGKENKIDEETVEAIKVITKKGSTRIVKAAFEYAKKNNKKVVTVAHKANILKFADGLFLNCAREVAKDYPEIELKEVIIDNMCMQMVINPNQFEVIVTMNLYGDILSDLAAGLIGGLGMAPGANIGEDIAIFEAVHGSAPDIAGKNLANPTALLLSGISMLRYLGENKRADIILTALKETFKEGKVLTKDLGGNATTTEFGDYLVDKISALL;locus_tag=LOCUS_03180;EC_number=1.1.1.41;note=WP_010964290.1 isocitrate dehydrogenase (NAD(+)) (Clostridium) [pid:57.0%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:1.6e-108],MGA_319
sequence01	MetaGeneAnnotator	CDS	354788	356137	.	+	0	ID=MGA_320;product=citrate/2-methylcitrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156276303.1;translation=MISESNIKTLNKLIEHAKENNKINPTYYDLYDIKRGLRNNNGTGVLVGLTEVGSVHGYVIEDDKKIPREGKLFYRGIEINEIVNGFQEDKRYGFEETIYLLLFGKLPNKKELDDFNKLLGSMRNLPSGFNENFILKLPSKDVMNLLQRTILFLYSLDDNPDDISINNIVKQSLYLIARFPTIIAYGYQAKVYNYDNKSLFIHPAREDYSTAENILHMSRADSKFTRIEAEVLDLSLVMHAEHGGGNNSAFATHVVSSSGTDTYSAIATAVGSLKGPKHGGANIKVRNMIDNIKENVKNYSNKEELKKYLKQILNKEVFDKQGLIYGMGHAIYTISDPRAMLLKEKARELAIDKNAVKEFELYENIELLTKEIFLEQKNKLICANVDLYSGFVYSMLNIPQELYTPLFATARIASWCAHRIEQILSDKKIIRPAYKNVSSINKYVKLKDR;locus_tag=LOCUS_03190;note=WP_156276303.1 citrate/2-methylcitrate synthase (Moorella glycerini) [pid:61.1%25%2C q_cov:98.0%25%2C s_cov:98.7%25%2C Eval:1.1e-156],MGA_320
sequence01	MetaGeneAnnotator	CDS	356156	357661	.	-	0	ID=MGA_321;product=DUF3369 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705467.1;translation=MNELFHTETIKNNEKNIGKKKWKIIIADDEPDIHSVTKLVLKDFKYDNKKLELINCYNDKETKHALINNKDTAIILLDVVMNKNNSGLEIVKFIRNELNNRSIRIILRTGQPGLAPERNIILNYDINDYKEKTELTAQKLITSIISSLRAYKEIINIERNKLVLEKIISIAPKLFKLEHNLKSFSKLIADEFKDTFDIDKSFILCVKKKSFNIIHSFSIEKEEIKNIYKNLFLNSNIECLKRPKDSLIKENIFVGCLKYFNNKKLYVYFENTEPLSDIDKNLINIFWKNIGTAVENIILNEEILSTQKDVILTLGEAIENRSEKTNFHVKRISEYAYLFAKKYGLDEHKSKILKYAAPLHDIGKIGITEKILNKPTKLKFEEFEVAKQHAQIGHNILKISKRALLQASAIIAYEHHEKWDGTGYPRGLKGKEINIFSRIISICDVFDSMLHPKIYRKEYSLEKTLEYIKSEKGKHFEPKLVDILLENIEEFIKIKNKIKNS;locus_tag=LOCUS_03200;note=WP_011705467.1 DUF3369 domain-containing protein (Aeromonas) [pid:40.8%25%2C q_cov:92.6%25%2C s_cov:91.5%25%2C Eval:5.4e-104],MGA_321
sequence01	MetaGeneAnnotator	CDS	357928	358968	.	+	0	ID=MGA_322;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582593.1;translation=MKKKYTIADVADLAGVSKTTVSNVINNIENKFTEETKIKVLKAIEKLDFNINIGAKSLSEGKSYLIGVILPIYKDTDILQENFFLQEFLSGINRYLSTIKNKYDIIFTGVNENKFNIKNWIRKRAIDGVICFGLTSNYIYEYLEQLKIPTVIVDDLRDATNGFSRVYIADKKGGYLATKYLIENGHKDIAFINTGINLSKVEKNRFNGYIEALSEYNLNFYESNCFELKYLHYDSGVYIADKIKDLIGKQFTAAFVTSDIIAIGLINRLQELEIKIPNDFSVVGFDNISLSKYIYPKLTTIDQNIYKKGQSAAEELIKIIEYDDIKKNIEMDVSLVIRESVKNVKE;locus_tag=LOCUS_03210;note=WP_012582593.1 LacI family DNA-binding transcriptional regulator (Dictyoglomus turgidum) [pid:37.2%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:1.3e-47],MGA_322
sequence01	MetaGeneAnnotator	CDS	358973	361432	.	+	0	ID=MGA_323;product=glycoside hydrolase family 31 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582587.1;translation=MFIKYKFLKIIIFLLVINSIITFSEEFKIIKSKEFLTVWKNVGDVRYVSSKKDFIIIYHYGKIRTKISFIDNNIVHVQISNNNKFSEKSYAVINNNKFKDFIYSKDKDYIYLSTNTLTLKISKKNFNIEIYRGEKLISKDIEIKWNGNRFYNKKLILNNSKYYGFGEKTGDLVKNGFQMKMWNNDSYDYDKNTDPLYMSIPFFIEFNKEYCNGILFDNTYQTYFDIGYTEKDKYYFGALDGELNYYFISGNNPKEVIKSYTNLTGRINLPPKWLFGYHQSRYSYYPQKKVIELAKSFRDKNIPADAIYLDIDYMDRYKSFTIDNNKFPDFKKMIDELHNMGFKVVSIIDPGIKMKSGYNVYDSGKELNVFLKNDKEELIKEKVWPGLAVFPDFTNKTVKEWWGKQYIPLINLGIDGFWNDMNEPSILNSKSNTLPLNTLHTDFNKKSFHTKIHNVYGQEMARASLEGLNSHRPNYRNFILSRSGYAGIQKYAGVWTGDNRSNFEHLALSIPMLLNLGLSGVPISGADVGGFITSPSKELFIRWMQLGIFYPYFRNHTADNTNPQEPWAFNEETTKIIKKYINLRYKLIPYIYDYIYESSKNGIPLMRALFLEYTNDEKLYTIEDEFLFGDSLLITPVIKENTFKREVYFPKGNNWINFYTNEVYQGGKTYLINAPLDIIPIFIKENAIIPMQDIVQYIDENENNSPLYINIYGDEDTNHILYLDDGISKNYLKGVFTNIEIKKQKNKISFNIKNINYIPKNKNLYIVLKNKSVKNILINNSKLNEIKNKQEKGIGFYYKNKDTIIKLKFFIKNIEIQYF;locus_tag=LOCUS_03220;note=WP_012582587.1 glycoside hydrolase family 31 protein (Dictyoglomus turgidum) [pid:42.6%25%2C q_cov:85.7%25%2C s_cov:93.3%25%2C Eval:9.9e-165],MGA_323
sequence01	MetaGeneAnnotator	CDS	361493	362194	.	-	0	ID=MGA_324;product=biofilm regulation diguanylate cyclase SiaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003118588.1;translation=MKFYLENKILKKAEEKILYFKKNNEINKEEVISEYFKLKKNYEKMLRKFEKLIKINDIQQQKLLTLTDKFKSISHKDDLTNIYNRRKLKNILVENYNKFINDNTSIFSITLIDIDFFKNVNDTFGHDIGDQIIKEISTFILENKQKEDYFGRWGGEEFLIISPQKNCYDVKLYYEKLRKIISEKVFSDKNIQKTCSFGITTIKINDTLDTLLKRSDVALYIAKENGRNRIEIL;locus_tag=LOCUS_03230;gene=siaD;EC_number=2.7.7.65;note=WP_003118588.1 biofilm regulation diguanylate cyclase SiaD (Pseudomonas aeruginosa) [pid:35.9%25%2C q_cov:82.4%25%2C s_cov:82.1%25%2C Eval:1.0e-27],MGA_324
sequence01	MetaGeneAnnotator	CDS	362212	362586	.	-	0	ID=MGA_325;product=DUF1987 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000444620.1;translation=MENLYIEGTQDNFDIKCNKNTGKIILKGNSYPENVVYFFDEIFKWIEAYIEEVKNKITLELYIDYLNTSSSKCMLDIFDLLESYYLDGGKVLIKWFYKKNDRNILETGEEFKEDLEIPFEIIEI;locus_tag=LOCUS_03240;note=WP_000444620.1 DUF1987 domain-containing protein (Leptospira) [pid:41.3%25%2C q_cov:97.6%25%2C s_cov:96.8%25%2C Eval:3.7e-24],MGA_325
sequence01	MetaGeneAnnotator	CDS	362593	363150	.	-	0	ID=MGA_326;product=SiaB family protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000970449.1;translation=MGCLNFFEVEKILKNNHILIFFEGNFTQKKLYELVESLKNKLNLNYEHCYLENNYSILKKVCSIFIEMAQNIQLHSLKQNNLKNGIIIAIEKEKNYKIYSGNNVSSEIGRELIEKCNYLNSLNSTEIKKLYKKKLKEPRLNKNSAGLGLIYMRKNSLNSLKAEIKKIDKNTSFFTLEVTIDKEGI;locus_tag=LOCUS_03250;note=WP_000970449.1 SiaB family protein kinase (Leptospira) [pid:29.9%25%2C q_cov:97.3%25%2C s_cov:96.2%25%2C Eval:1.3e-15],MGA_326
sequence01	MetaGeneAnnotator	CDS	363403	364557	.	+	0	ID=MGA_327;product=toxin-antitoxin system YwqK family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016055.1;translation=MSCTNLKPFKIKNNKIIKTEYYDVSKKNRKSVLEYKNNILKKEINYYKNGNIKEIIEYKNGLKNGVTLLYNENGSLCKKETYFENQLNGEVIEYYSNVIPKSIYNYKNNVLNGKYRKFYMTGSVKEEGEYKNGLKNGEVNKYNENGDIILSEYYKNNKKNGISIEYYPKSFDFPNLIKKSEVMYQNDLPIGKKIVYDINGNIISIIDYSKEIAEETIYYNYEQNKIKRKNYLINNKLEGISKVYYDNPQNSLKAEYNYKNSMLNGEIIEFYENGNIREIINYKNNLKNGIETYFYPNKNKKYEITYKNGQANGPFRYYYEDGILQLEGSYKNRRFDGKITSYYKNGNIQSIEFYKENKKINTHYFYNKSGKLEYTIDYTKEKKN;locus_tag=LOCUS_03260;note=WP_011016055.1 toxin-antitoxin system YwqK family antitoxin (Fusobacterium nucleatum) [pid:17.3%25%2C q_cov:84.9%25%2C s_cov:80.2%25%2C Eval:2.6e-36],MGA_327
sequence01	MetaGeneAnnotator	CDS	364557	365180	.	+	0	ID=MGA_328;product=MarC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002860212.1;translation=MITKIFIIATTLLAVMNPFGNVPLFVSMTESLSKKMRNKLFDLIVYTGFSIVILFGLIGDILLKYFFKVEMMQIKVAGGLILIIVAIKSLLTPKEKKQNNSSKNILESEEEILQQGIIPMAFPILVGPGTMTTILIIKKESGSLYVILATIIAFIIIKVLLTYSHFIEKIFGKLVLYILSRVMQIFIIATGVKMLATGIFEIIKSFQ;locus_tag=LOCUS_03270;note=WP_002860212.1 MarC family protein (Campylobacter) [pid:42.9%25%2C q_cov:95.7%25%2C s_cov:95.2%25%2C Eval:9.3e-43],MGA_328
sequence01	MetaGeneAnnotator	CDS	365191	365745	.	+	0	ID=MGA_329;product=DJ-1/PfpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791124.1;translation=MKKKVAIHLANGFETIEALTQVDLLRRAEIDIITVSITQDKIIESSQGIKITVDKLLNEVNYDEIDMIILPGGMPGTTNLENSDDLKRVIIDFDLDNKYIAAICAAPMILGKMGFLEEKNATCYPGFEKYLLNANYLPNEKVVVADNIITSRGVGTSIDFGLKLIELLINKEKSDEIAKSILKN;locus_tag=LOCUS_03280;note=WP_005791124.1 DJ-1/PfpI family protein (Bacteroides) [pid:43.0%25%2C q_cov:93.5%25%2C s_cov:93.4%25%2C Eval:2.7e-37],MGA_329
sequence01	MetaGeneAnnotator	CDS	365809	366384	.	-	0	ID=MGA_330;product=D-sedoheptulose 7-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016435.1;translation=MNLKKSYIDAFNLLKKFIENENNFKITEEISKEITKAFKNGNKVMICGNGGSNCDAMHFAEEFTGRFRKNRKALPAISISDSSHITCVGNDYGFDYIFSKGVEAYGKNGDILIGLSTSGNSTNVIKAFEKAKELNIKTIGLLGKNGGKLKGNCDYEFIIPGITSDRIQEIHMMILHIIIEGVERIMFPELY;locus_tag=LOCUS_03290;gene=gmhA;EC_number=5.3.1.28;note=WP_011016435.1 D-sedoheptulose 7-phosphate isomerase (Fusobacterium nucleatum) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:2.5e-73],MGA_330
sequence01	MetaGeneAnnotator	CDS	366491	367693	.	-	0	ID=MGA_331;product=OFA family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544926.1;translation=MLKKKHLYIPLGILIFMTLGTIYSWSVFRKPLQIALNLNATESGLPYTIFLMCYALTMPIAGSFLDKIGPRLTIIFGGILVGIAWFLSSYATNIGFLIFTYGVLGGIGVGIVYGAPMSVAAKWFPNNKGLAVGATLAGFGLSPFITAPLASNLIEKFGIFSTFKILGIVFIVINVILALPFEYPKENTYNLIKENKKSKNYTLKEMLNTKEFYILFITYTIGTFVGLMIIGISSPFAQNLLNISPKQAAIYVSFFAIFNGIGRPLFGILVDKFGVKISINVSYFILLISSIIVILTGEHSIIAYIISFSMFWLNLGGWLSIAPAATSKIFGSKNYSQNYGVMFLAYGIGALLAGIISGIIKDTFGSYIYVFYPVILLLIIGIILVNLNLKEKEILKKISL;locus_tag=LOCUS_03300;note=WP_012544926.1 OFA family MFS transporter (Thermodesulfovibrio) [pid:44.6%25%2C q_cov:94.0%25%2C s_cov:92.5%25%2C Eval:9.2e-88],MGA_331
sequence01	MetaGeneAnnotator	CDS	367911	373808	.	-	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLIFIFMTAFTFAENIIVKDWTAFSIEGIVNLTGSSRIEGMTGSNANSLIQGEKPILLEGTSWIGDTKLNYRSIYIGNTAIADDIINFPDWYKTGSIEQQEFYNNVKNNTISKLNKQYSFDIPDWLDFKTPVVDGLYSQEDIYEDYNNDVTINSEDSGYYKNITVKDKMIINVGNNDLYIKVDKLDISGDVIINRNGTGRLFFIVTTTFDLKSNGKIIDSKNDNSYIYYYYLGTAPLNLANAIEIQGFLYVEQADINISGSAKIDFNELITKGNELTINGNAVTTGKIYANNTNINITGSASLEYGIVTSGQNVTINGGVSPINYIYAPNADVNLTGSARIEGSVISKNLYLTGNSYIKGKGDIEITGPIIPELIIAEPRDADRDQTIVFHASKYIDKDFTDLSYLEDDNSSTIQAIRTINSLDVENLSYNLVNDYIEYNSKWYFKGSSAGSDIFINKDVMEGIDNVTNVSKLTLKDSLKNKLIDIYYPLKLNNIKLNQNSDLVNITWKKIEANKYAKYFNNQKIMFRLYRNNQTKYKYDVYNKTYNKNLLSQENYQDFIDNKIDYVDIEFNYYVYNKKAEYGNMTFIYSPENFVIQGLPINEEFVIEIYTEYSDENGDYDIYNLETTAVFTSGKPAIDEGSNATANNIYMINSIDKSSYPVINVDFFTKAPKQLSLTTDNILSNENGEIGYIKEIRETEEKLGKVSTITKSNKMGLKYPLDVIIMADGSASMSQELAAVKDSLSDIVALLESNGFDVKFNIISFEAPQDAWLLNGSNSDTNRIKFVPETNDGKDDFKVKSTIGYGNGVLEGAIRYDQFDYKDSSWNTYRSSHIVDVPSPAKKRNYGEVYFREYYRNFVQEKADPNNIYKILKRKIFRKTSGRMVRNGEYYLTVYKGNDEGTGDGWFDDLSIVQQAIKQVGANGVRGSSIYWDGVTGIQGNGAWALHYAIKRFEDYGRGLDKYGNITSNKNDIILKSKKWIIMPTDEGLDAGPRINKLGYTYNDVIEKLSEKMKNNNIYFSLIANNRSSSSVRPYTDFRNQPGLDISWHYITSNTTLLKSYLVEDAKKLGIIQRWDLKYTTPFNDDIYEEGKNRKVYFDLNLTLDTGSDAVLTKQLEDVTENSNRIYIEPVLKTLEIHITTPNEDATNRIFKVENNLIKINGWAKDKYTDLSRIWIAIKNSKGDIVYVDKNSYNNIQNGTIDTQYPFTFNIPESNLNKGEIYNVYAYVENKNGLREQKILENIYFMPELKSTTITNNTNKELFEKLKVFSTNDIIKYTSVTSSNSNITDNFYMNNGNVAELKITLDADSIITINEKPFGLTLSGLDKITFVKSKNNNNGTVDLIYNIEITDDIEEETYISGKIYNNEIVKIKVIKNKSDTAKYGEISKYKKGTTPLEPIEGEYYLNDAGSIDIIGGDIDTIGYIALYNYDQTESDLIETKTNILSSKDIDLTNNIYWNATNSNELSISTDKIKESNSLDGKYQIKKIVTISKTGKIANKVVTAVNFKNKLLEEYNNNTEGVLNSVYYMDTIAPVITDFTIEKITNTDFTDFKVGDKFNINLTVKDNKLSFNKENYILLTNPDLETSLEYEQNKIDFKDNISEITENNKVIEQFKLIQEKELIKELIGRQEIEFDIEVIDKAGNSAKSSESNLTQTITYNNEIIENIDITLTSDMENSADSTNFIEQIMDEEFKIIKNKIYFTINGKNSNGDNVDLSKAIITINNKNYTITNFINKDITVDNGMNNISKITLYSTSGYEKTFITSDSITVDSKASTLGNLKILKDNKFDSNPINNFKIYIDYKSGTNYTLILDASNMKDYTKLWKIIIKEVRIKGVKVTDLKYTDEGVEKILGENTTFEYTVDINNYETYKTKIKNNELLDGEVKVIALNISNHKDVAGGRITFKLDILDNLSNSLGSGFQIEGFVPKADFEIIGKSEESSRSRTSKVKIVGDSQNDFEVQSVDE;locus_tag=LOCUS_03310;note=MGA_332
sequence01	MetaGeneAnnotator	CDS	374012	374161	.	-	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFYKKLIIKILESSSLAENSKILKKLKLGYDLSQAERRELEELIDNII;locus_tag=LOCUS_03320;note=MGA_333
sequence01	MetaGeneAnnotator	CDS	374272	375417	.	-	0	ID=MGA_334;product=class I SAM-dependent RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016322.1;translation=MNKITLIATTTMGLEAIVKKELLNLGYTDFKVFDGQIEINCRIKDIPILNISLRCADRIYLKMGEFKATTFEELFQNTKRLSWGEILPVDANFPISWISSVKSKLFSKRDSQSIIKKAIVEKLKEKYKVSRFEEDGASYKIKVQIKKDIVKIMIDTSGDPLHKRGYRAKHNEAPIKETLAAALVYLANAMKKDIIIDPTCGTGTLLIEAAMIAKNIMPGVNRNFVSEKWNIIDENIWIDVRDKAFSNERTTNKKFIGYDIDKSIVDLAIENAENAYVDDIIIFKNKDLRNLKNRENYTNGVIISNPPYGVRLEDEDYVINLYKEMGLIYKKYYKDFEFYLITSNEDFERYFGKKSDKNRKLYNGGIKCYYYQYFNRKQKNN;locus_tag=LOCUS_03330;note=WP_011016322.1 class I SAM-dependent RNA methyltransferase (Fusobacterium nucleatum) [pid:55.8%25%2C q_cov:97.6%25%2C s_cov:97.9%25%2C Eval:1.7e-115],MGA_334
sequence01	MetaGeneAnnotator	CDS	375410	375967	.	-	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKKIEDNLWEIFLLSIIFRFLIILPINFIMIILPNLIKLPEITMTEKEIWITLLFISPIFEELLFRKFLFGLIAKYNFWWAIFISTFIYSLFGVDFISLSLLNVFFIFIYYTTKNIWYAIYSHFVFNAFARIIIFYKIDIFIEKYLEIKSIKIILIILILSLIYPFYKIAIKFYLRNRKDNYE;locus_tag=LOCUS_03340;note=WP_000558806.1 CPBP family glutamic-type intramembrane protease (Bacillus cereus) [pid:31.9%25%2C q_cov:59.5%25%2C s_cov:33.2%25%2C Eval:8.5e-07%2C partial hit],MGA_335
sequence01	MetaGeneAnnotator	CDS	376160	376375	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYYSFLTFFLYFSMGATLPLFSQYLQSIGLSGIEIGSIFSIGTFISILFQPFWGFIADKTNAIKKFLYFY;locus_tag=LOCUS_03350;note=MGA_336
sequence01	MetaGeneAnnotator	CDS	376372	377286	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFSALTISSIPFTKSFIIIAVLYALYQFFTCGIFPLNDAAVLHSTHEFGKIRQWGSVGFATAAFISSILAQYLSNNIIFYITAFACFTALIFLKQIDIKSIHEETINLVLLKDLFKNKNYILFLIMAFFIGGTINANNTYFGLLYKNLGGTTSGIGFAFLLFALSEAPFLKNSDFIIKKFGVNKLLIFSGISFMLRWGIYSFIPSTKIILILFFLQGISIGTFLAGAAQYIKLHTKQSQTATAITIYFSLSLGIGSMLCIFLSGIIIDKINIFAAYKFYFLWSTIGFLVLIYLYYSLKKQNHR;locus_tag=LOCUS_03360;note=WP_003242781.1 major facilitator superfamily domain-containing protein 6 (Bacillus) [pid:33.6%25%2C q_cov:94.1%25%2C s_cov:72.2%25%2C Eval:1.2e-38%2C partial hit],frameshifted%2C insertion/deletion at around 376348,MGA_337
sequence01	MetaGeneAnnotator	CDS	377297	378082	.	+	0	ID=MGA_338;product=TrmB family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003432043.1;translation=MVNIIINTLSKFGFTEIESKVYYELIKNPNSNGSQIAKILNLPRTSVYSALDKLLKKGCVFLLAENDSNKYIALESSKLLKKLKKEYMEGIELLNDEFKKISINDENNQYININGEEIFFEKIREMIKNAKEEIYINTNFDLNLFEKEFLELKKKKIRIILFTFEDIDYSHLGIEVFSKKFTGKCRDDYKRMMIVIDMKEACIGEKGRNKELIGSFTKNRLLIDIVTEHIHHDIYLTNLSNFYNIDMNKIKINTKHENLFN;locus_tag=LOCUS_03370;note=WP_003432043.1 TrmB family transcriptional regulator (Clostridioides difficile) [pid:29.2%25%2C q_cov:89.3%25%2C s_cov:94.0%25%2C Eval:4.7e-22],MGA_338
sequence01	MetaGeneAnnotator	CDS	378141	379205	.	-	0	ID=MGA_339;product=DNA polymerase IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016984.1;translation=MKKQVIMHYDMDAFYASIEIRDNAKLKGKPVIVGTRVITTCNYEARKYGLHSAMSVTEARKLCPNGIYLNVDKNKYIKVAYQIQNLIKKLTDNIEFIAFDEGYIDITNIINKYPSYEYFIKKFKKRIYIHTKLTCSVGIGYNKLTAKLASEVNKPGGFFIIKNNKEYYEYFKEKDIKILPGIGEKTQKFLRQNNINRIREIKEKNYYFLKEILGSSKAQLLYDYSRGIDYRKIKTERKYKSIGNEITFKFNTDNKIIIFNTLDDIFNKIYKRLINKKYYAKTLVLKIRFEDRHIITRSKTLKDFSENKIEFIKLLEEFKKEFDYKNKIRLIGLTFSNIITHKNEQLTLIKKKLD;locus_tag=LOCUS_03380;gene=dinB;EC_number=2.7.7.7;note=WP_011016984.1 DNA polymerase IV (Fusobacterium nucleatum) [pid:42.2%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:9.5e-78],MGA_339
sequence01	MetaGeneAnnotator	CDS	379462	380940	.	+	0	ID=MGA_340;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808143.1;translation=MIEDVVKIERKNLNHSVTPLFDALKQFKKDNIIPFDVPGHKAGKGLPEFTDYFGKRIMEVDVNSMKQLDNLANPTSVIKEAEELMADAYNADHAFFLINGTTSGVQAMIMSCCKPGDKIILPRNAHKSAVNALILCSAIPIYVQADIRNDLGIVMGVSHKEIEKAIRENPDAKAVFLLNPNYYGAVSELKEIIKIAHEHNMSVLVDEAHGAHLNFHPDFPKSATTLGADMAATSLHKTGGSLTQSSILLLNEGRISKNKVKKILNLTQSTSASYLLMSSLDVARKNLVLNGREKFDKILKHIRYIRNELNKIEGIYAFGKEIIDKKGIADFDESKLGINVAKLGLSGFEVYDILRDDYSIQMELADTYNVLAIISIGDTEENLNKLLEAFKDISKRFKGTKHIIEHPTLENPKVVLSPREAFYAEKENAILDDCINRISGESIMVYPPGIPIITPGEKITKDMINYIKFLKTQDTVFNGAEDPDINYIKVVK;locus_tag=LOCUS_03390;note=WP_005808143.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Desulfitobacterium) [pid:53.4%25%2C q_cov:97.8%25%2C s_cov:99.4%25%2C Eval:1.6e-148],MGA_340
sequence01	MetaGeneAnnotator	CDS	380962	381378	.	+	0	ID=MGA_341;product=adenosylmethionine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003418655.1;translation=MKLDTLGRHILVEYYNCDEEILKNVELIQELMNEAARVAGATIVNSVFHHFNPWGVSGAVIISESHLTIHTWPEYGYAAVDLFTCGDTVNPWKGFDYLEKMLKSDRSESIEIPRGMTEKIKKYYPKPLEKIVFKPENN;locus_tag=LOCUS_03400;gene=speD;EC_number=4.1.1.50;note=WP_003418655.1 adenosylmethionine decarboxylase (Clostridioides difficile) [pid:72.8%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:2.0e-54],MGA_341
sequence01	MetaGeneAnnotator	CDS	381393	382247	.	+	0	ID=MGA_342;product=polyamine aminopropyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808145.1;translation=MELWFTENHSEGARFSIKIKEHIHSEKSKFQQIDFFDSYEFGRFFTLDGYVMVTEKDEFIYHDMIAHAPMATNPNIKNVLIIGGGDGGSVRELTRYSSIEKIDMVEIDERVVRCCQKYLPITASKLEDRRVNLYFEDGVKFVENKENIYDLIIVDSTDPIGPGEGLFTTEFYKNCYKALTNNGILINQNESPYYPFNAREMKRSHKKIKSIFPLSKIYQFHMPTYGSGHWLFGFASKGIDPIKDFKPKEWLKLGLKTKYYNIDIHKGAFALPTYVQEMLKNLED;locus_tag=LOCUS_03410;gene=speE;EC_number=2.5.1.16;note=WP_005808145.1 polyamine aminopropyltransferase (Desulfitobacterium hafniense) [pid:66.3%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:1.0e-110],MGA_342
sequence01	MetaGeneAnnotator	CDS	382307	383119	.	-	0	ID=MGA_343;product=ZIP family metal transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948822.1;translation=MLEKMLTINPILLALLATLFTWFMTALGSAMVFFFKEINKKLLNAMLGFAAGVMIAASFWSLLSPAIEMAEKRGEIGWVPALVGFLGGGAFLYLLDRILPHLHMGLEIDEAEGIKTHLQRSILLVLAITLHNIPEGFAVGVAFGVLANNPTTGALAGALALALGIGIQNFPEGAAVSIPLRREKMSRLKAFNYGQLSGIVEPIAGVIGAYLVFIIEPLLPYALSFAAGAMIFVVVEELIPESQLGHETDMSTLGALLGFAVMMFLDVALG;locus_tag=LOCUS_03420;note=WP_011948822.1 ZIP family metal transporter (Clostridium botulinum) [pid:71.5%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:5.9e-100],MGA_343
sequence01	MetaGeneAnnotator	CDS	383134	384399	.	-	0	ID=MGA_344;product=M18 family aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048276.1;translation=MEKEFLKFVYDSPTAFNAVDNIKKILLKENFIELDMSQKWNLEKKGKYFIIKNNSSLFAFQIGEENIKETGFKIIGSHTDSPGFKIKPNPEIIIENYMKLNIEVYGGPIYNTWLDRPLSIAGRIILKDLTTKIVNINKPLLIIPNLAIHQNREVNKGISLNPQENLLPIIEIMTKKLEKENYLLNIISKETEININQILDFELFLYEYDKGSTIGLNNEMISSSRIDNLASVFTSLNALINNKNNKNTKIIACFDNEEIGSTTLQGADSLSLSYLLEKICYGLELNREDFISSLEKSFIISADGAHAFHPNYSNKGDITNKLLMNNGIAIKYSSNYSYTSNAYSASYIKKICKENNIKYQYFLNRSDTRGGSTIGPISQSNLPINSVDIGIPMLAMHSIRELCGTEDLKLLNKLLNKFFEK;locus_tag=LOCUS_03430;note=WP_012048276.1 M18 family aminopeptidase (Clostridium botulinum) [pid:55.2%25%2C q_cov:96.7%25%2C s_cov:95.6%25%2C Eval:6.1e-130],MGA_344
sequence01	MetaGeneAnnotator	CDS	384424	384744	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLENIEKIKGIIETKDIVIFYVSSTGCNACESLKPKVEALAKKLEIEFVEAKVDVVEEIRDVYRILAAPTVALFVDKKEILRDGVFINLPDLESKINRYKKLLRD;locus_tag=LOCUS_03440;note=MGA_345
sequence01	MetaGeneAnnotator	CDS	384759	385370	.	-	0	ID=MGA_346;product=phosphoserine phosphatase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000859193.1;translation=MNIYIIRHGETEWNIVKKWQGHKNSNLTELGKLQAEKLANKLKNIKFNKIYSSPLGRAYDTAKILKGNRDIDIELDNRLKEINMGVLEGLDREIGIKKYGNTIEQFWNYPHLYNHKEINGESFYSLNNRTKEFLEEIIKKYNKNEHIVIVSHGVTIKSFLFNIKNKNIKEFWDGGHVKNTALTHIYFDNEFKIIKYLDNSHLQ;locus_tag=LOCUS_03450;EC_number=3.1.3.3;note=WP_000859193.1 phosphoserine phosphatase 1 (Bacillus) [pid:39.6%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:1.3e-36],MGA_346
sequence01	MetaGeneAnnotator	CDS	385405	386910	.	-	0	ID=MGA_347;product=carboxypeptidase M32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016113.1;translation=MDIKKSIEKIKELTNKMKAYEHAMAIFQWDMETEAPKASVEKISKTMGFFITENYNILLSKEMKDTLDILNENIDKLDELNAKVINELTKEYDKATKIPVEEYSKYQELVTKAQVVWEEAKTKKDFDIFKPYLKEIIDFNKKFIKYRGYKGHKYNTLLDDYEPGLTVDKADLFFTALKNNIVPLLKKIEDSNVIIDNEKLNIDVDIEKQKRFAKFLAEYINFDFNRGVLKESMHPFTLNFSNKDVRITTHYYKNNILSSIFSVLHEGGHGIYEQGISDEVSETILGHGTSMGIHESQSRMYENMFGRSIEFWKGIYNKFIENFEEFKDISIAEFYKLINKVENSKIRVEADELTYSLHVLVRYEIEKAIFNDEVTIDELPNLWNEKMKDYLNVEIENDAEGILQDVHWSAGLFGYFPSYALGNAYAAQIYNKLSQEIDIKNTLLNGEFKKINKYLNEKIHKYGKMKKPLELIKDITNEELNPQYFCDYLKEKYCEIYKIKK;locus_tag=LOCUS_03460;note=WP_011016113.1 carboxypeptidase M32 (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:96.2%25%2C s_cov:97.6%25%2C Eval:2.0e-135],MGA_347
sequence01	MetaGeneAnnotator	CDS	387042	388478	.	-	0	ID=MGA_348;product=leucyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861171.1;translation=MTINLIDNIIENYDSYIIFMYKNNITFENTLFYSEGLYLKNLAEKSGFNAKKEEIFVIPFAKGNSVVQIVLVGLGKKEKVNTEIVRKSLYKGLTTLKNVESTLIIKNNPIENIEKALVETVYFANYEFDKYKTKKAEKKKIKRIDILGNLNNNKIEEAKIYAESTFITRELINEPANTIYPETLAEKAKEYGEKYGFEVEIFEEEKIKELKMEAFLSVAQAAEKRPKFIVMRYKGNKSNETIGLVGKGLTYDTGGLSLKPTNSMDTMKSDMGGAATVIGVMSAVARLKIDKNIIAVIAACENSIAGNAYRPGDIIGSMAGKTIEVLNTDAEGRLTLVDAVHYVIENEKADKVIDVATLTGAALVALGTTTTAVITNNDELYKKLEEASIETDERVWKLPNFPEYGKLLESKIADVKNIGGRFAGTITAGMFIEKFVQKKPWIHLDIAGVAYTDSPYSYYKFGATGQPVRTIINFLKKI;locus_tag=LOCUS_03470;EC_number=3.4.11.1;note=WP_011861171.1 leucyl aminopeptidase (Clostridioides difficile) [pid:45.4%25%2C q_cov:88.7%25%2C s_cov:90.3%25%2C Eval:5.3e-101],MGA_348
sequence01	MetaGeneAnnotator	CDS	388668	390575	.	-	0	ID=MGA_349;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005489697.1;translation=MKKIKKKKNKKSGLKKNNFLKKLNLKNFSLKKMRIGTKIEIAVVILLILFSGINVYQNIKAEKEKASEYIARLENEGTLSVQNELTEMVRIVSGMIKGKSLDEIKEVLGTVRYNKNGSGYFWLTNAKGPYPTMLFEPQFKSEIGKVLDDAKYNIIGEDGKNVYKVLLDQVRRKGGGFVQYEWKKPGSMSAGTLLIYGTKVEDYILITGTYIDEILEKIKIEKINALNKIDDLKRRAIINSIIVIIIGIILIKIIVNKALKPLKIINKNMKEISEGEANLTVKLDIKTQDEVGELAGYFNKFIEKLHDLIFDMKSLSNILIEKNDYIHNTMDNIISGSKSKYFDLLEEKLENGTIDLQQYIGTILDNVRNQAAASEESLAAIEQISAVSQNVVGNTNIVSKESEKALEISKQGRKKIENMNLQMGTIGESVEKADGEIEELVKSSENIGSITLAINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEQTNKETQKIENIVNEIQNQINNVKKSNSDIDEKVDFAVKATEELKNTINKINEIIYNNNEYVKNVTQMINEEQTSIEEVTKAIELLTNSSTDIEGIAINTNDISEKIGQILDNNLDELKGMISLVEELDVKIQGFKTKNNK;locus_tag=LOCUS_03480;note=WP_005489697.1 methyl-accepting chemotaxis protein (Vibrio parahaemolyticus) [pid:22.9%25%2C q_cov:92.6%25%2C s_cov:98.4%25%2C Eval:2.5e-35],MGA_349
sequence01	MetaGeneAnnotator	CDS	390692	392497	.	-	0	ID=MGA_350;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081682.1;translation=MKKTKISKKINVAVILVLVIFSLFNSIVSIIAEQKRSKRVLENLTKNYYNEKKQDLINLVDSIASFIEGKNEQEIIEILDKAKYDSTGYFWVNDTTLPYPKMIYNPNGKSLTGKLLNNTKYNVVGENKENLFVALVKKANKNGAGFVEYTWLNPKSGKKEPKLSYGKKIGNYIIATGIYLSEIQSIIDREKIAAKKNIQNIIIRQIILSFIIIIISWLIFRLILRKIVKPLEEVNRNMKLIAEGEADLTNKIQIVSNDEVGELAEYFNKFLDKLHDIIYEIKQLTIVLTDRNTQIHNIMDNIIKGRESEYLHQLEERLEAGTIHLQEYIDRVLDNVRNQTAASEESLAAIQQISAASQESKLKTNDVSKNSEIAINVSVSGHKKITDMNGQMSTIRNSVDSAEKEINKLVKSSQIIGDITVAINAIAEQTNLLALNAAIEAARAGEAGRGFSVVAEEIRKLAEQTNKETKKIEKIVSNIQKQIENVKEANIDIDNKVEFTLNTTNELTETILNINKLIDENNVLIQDVNKMIDEQNMSVQDVSKAIELLTNSSTNIESVSINTQEISVKIGDILNNNLSEIKDTVELVQELEKKVKGFKTK;locus_tag=LOCUS_03490;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:25.7%25%2C q_cov:96.5%25%2C s_cov:98.4%25%2C Eval:1.0e-46],MGA_350
sequence01	MetaGeneAnnotator	CDS	392677	394530	.	-	0	ID=MGA_351;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081682.1;translation=MIKSMTMKKGKRKKVKYQIIIPVFIAFIIISILDILYTSYTFNKELVERVTRLRDEQIEFNKVKLNDLVSLGIGVLDKYNKLYESGEMTLEEAKNKAKETIRNMRYTGNNYFWIDNGNYINILYSVKPKAEGTNRENLIDKQGKKLVKELVDIAKQNGESYVTYYYPKPGGTTELPKLGHVKQFKPWDWYIGTGFYIDDIEVKVKNMEQNELKVLGKNIKQRIFSNILMFIVLVLILSFATDIMAKTIKDVNKVLEAAAKDGELDAKIVTKQNNEFAVMAEDINAFMERIKTIIKETKNLGDEVKNTFTLVVNIMDNLINGKDSEVYNELKDKLNNGIIQLNEAIENVVDNVRNQTAASEESLAALEEITATTETINENIKVTNVSFAETLKITERSFKDITELTESMENISESTEETNTEIEKLKELSNSIGDITVAINAIAEQTNLLALNAAIEAARAGEAGRGFSVVAEEIRKLAEQTNKETDKIENLVKTIQNEVEIVKTGADEVKEKVTRGIKLTNRSLENMTRIKENNDKNAKQINEISVAVDEQSHASKEVTTAISSIADSSTEIESLTIEVTDTSNEIKEKILMNQEILSSLESIINKLQEDLNFFKVK;locus_tag=LOCUS_03500;note=WP_004081682.1 methyl-accepting chemotaxis protein (Thermotoga maritima) [pid:26.2%25%2C q_cov:95.1%25%2C s_cov:98.8%25%2C Eval:3.2e-64],MGA_351
sequence01	MetaGeneAnnotator	CDS	394763	395824	.	-	0	ID=MGA_352;product=ribonucleotide-diphosphate reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897713.1;translation=MSGKELEKLLTKKLLFNPKGNDNIEKRRIINGSTTNLFNLNNVKYKWANKLYRTMMENFWIPEKVDLTMDTLDYKKLTKFEKRAYDGILSFLVFLDSIQTNNVPKISEVITAPEINLVLSIQTYQEAIHSQSYAYTIESIIPVDDRENIYEFWRDDEVLFDRIKFIAKIYQKYHDNETIENFFKTLVADYLLEAIYFYNGFNFFYLLASRNLMPGTADIIRYINRDELSHVVLFQNIINDIKKENSEIFIDNIVYEMFDTAVKQEIEWTNHIIGDDVLGINKKSTEEYTKWLANQRLRSLGLNELYKGFDKNPYKHLEKIADTEGSGDTKANFFESTVTSYNQSSAVTGWDEI;locus_tag=LOCUS_03510;EC_number=1.17.4.1;note=WP_005897713.1 ribonucleotide-diphosphate reductase subunit beta (Fusobacterium) [pid:65.3%25%2C q_cov:97.2%25%2C s_cov:99.7%25%2C Eval:7.1e-134],MGA_352
sequence01	MetaGeneAnnotator	CDS	395941	398211	.	-	0	ID=MGA_353;product=ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016141.1;translation=MAKIVKRDNRVSEVDIKEIREALEWASKDLEINYLELESHIQSIYTDTITTKDIQNSLITQALAMTTVDEPDWKKLAARLLLMEIYKESNRKIKEKGYYDYVNFVNNAIEKGLYSDEIKKIYSDEELKKASTFINQEYDFEYDYAGMSMLVNRYLIKDRNNVFELPQEMFLTIALMIASTEKKETRLKIAKEIYHHIAGRKISLATPILINLRKPNGNLSSCFITAIDDSLESIFYNITEIAKISKNGGGVGVNLSRIRGTSAEINKTPGASGGVIPWIKIINDTAVAVNQLGKRAGAVTVALDVWHLDIEHFLELQTENGDQRKKAYDIFPQVVVNDLFMERVKENKEWTLFEPNEIRLKYNVEIAELWGEEFKKHYKIFENDNKLKLTQKIKAKELLKKIMKTQIETGMPYIFFKDTVNKTNPNKHDGMIGSGNLCQESFSNFKPTKLNKEILNKEKIQSEYKSGLVHTCNLVSLNLSTLLERKDLEKATKLAVRILDNAIDLTVTPIQESNLHNKIYRTIGVGAMGLADYLAINKLPYRKNKETLIEVNDLFEYIALNAVKSSIELAKERGKYKKYEGSEWSKGILFGKNKKWFRENSNLYSEWEKTIENLEKYGIRNSQLLAIAPNTSSALVQGCSASVLPIFNKFYMDKNAKGVVPIAPPFIKKAFWYYKENKNIPQTDVVEIISTIQQWIDQGISFELVYNLNMEITAKDIYNTIMTAWEKGCKTIYYTRTIQKNSNRMNEKEECVSCAN;locus_tag=LOCUS_03520;EC_number=1.17.4.1;note=WP_011016141.1 ribonucleoside-diphosphate reductase subunit alpha (Fusobacterium nucleatum) [pid:55.2%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:8.0e-238],MGA_353
sequence01	MetaGeneAnnotator	CDS	398525	399859	.	+	0	ID=MGA_354;product=APC family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986689.1;translation=MEQLQKKYGLATAVAMVVGVVIGSGVFFKADDILKLTNGNLIYALIAWGIGAFSMIFGALVFAEYAQRIEKSNGLVDYSEAAYGPRFGYLVGWFKGIIYFSPLSAILAWVASLYTMILFKSSNPVNSKETWILAFIYLSIISIINWTAPILAGKLQVTTTIIKLIPLFAVAIIGTISGIINGVTVSNFIEAANQVGSSRGTLASAVVATAFAYEGWIIAITINNEIKDSKINLPKALVIGTFIVFVVYISYFLGIAGVLKTGTIVNEGDNAIRLATTQLFGNIGSVVLTAFVVISCLGTLNGLVLSNMRIPYSLAIRNQGPIPNILSKINPKTNTPINSGIFSNILTLIYLGLWYASLNNLFGRYIGLDEIPIVMVYGIYLSLYIWYIKEFKELNFFKRFVIPICAIIGALIILYGGITNPAIGIYLVISLLVFASGLLFYRKA;locus_tag=LOCUS_03530;note=WP_011986689.1 APC family permease (Clostridium botulinum) [pid:51.1%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:8.0e-128],MGA_354
sequence01	MetaGeneAnnotator	CDS	399907	400647	.	-	0	ID=MGA_355;product=NADPH-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964037.1;translation=MNETIKTIKNHRSIREYLNKDIPKEHLDAILEAAQAMPTSINGQQVSVIVVKDKNTKEKIAELAGGQPYIAKAPVFLVFVADFYKTYLAGKKAGEPQVIHESIESTAVGTFDSGLAMGAAIIAAESLGLGIVPIGGIRRNPEEMIKLLELPEYTYPLVGLCIGYAENNSKQKPRLPKETFIHNEKYQKDNLIKYISDYDKTMEMYLKEIGLENEENWSSRTASIYKQVYFPNVYPTMKSQGFKNDK;locus_tag=LOCUS_03540;note=WP_010964037.1 NADPH-dependent oxidoreductase (Clostridium) [pid:59.0%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:7.6e-80],MGA_355
sequence01	MetaGeneAnnotator	CDS	400786	401880	.	-	0	ID=MGA_356;product=lipocalin-like domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258602.1;translation=MNLKKYLAYLYQKLFYVKNVHHPLSVFKNRKKRVITLPKFDSFQRDQDVQWWYWTGHLKGVNRKSKEEREFGFEIVFFAFNSFIFFKNELAQAAITDIKDKNFSYYEDVKFLSLPKKLKNGYKFDFKNKKNWSKCSGGNGEDKLNFKIDNYLVKLKLKLKEKPVIRYNGKAYEYTFGGYTYYYSREKMETSGIMEIDNEIYDIYGITWFDRQLGELYQAIFKGWQWFALSLKNGNTIMLFDFFKENKNNYGSITKNNKTIELFKEDFNVKVINEWISKKTKIKYPSGWHIKLKNMDYYVYPKIKNQELACKHKFWIGPEYWEGDCIIKNIKDEFIGEAYVELNGFGHKLITIDIDNDGKRSFGF;locus_tag=LOCUS_03550;note=WP_012258602.1 lipocalin-like domain-containing protein (Chloroflexus aurantiacus) [pid:25.5%25%2C q_cov:81.3%25%2C s_cov:80.6%25%2C Eval:6.7e-18],MGA_356
sequence01	MetaGeneAnnotator	CDS	401899	403287	.	-	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYDVIIIGGGPSGLSVGSELSKLGNKIAIIEKNIVGKTNRSWLIPGNVISKLDKDLQKYAYNGVKRFLEYTPHLEIKWDTNPPWGNKKYKCYPFIDQAGLLNHFKNIILENNGELFENSICSDYIIKDTNVVVEIINKSYRKEKIEAKILIDASGYDSMIVKKENINRDNYYHWSVYGYDLEFDDTSKLKHPGNLGNMQIGDYMLWQAFKDSPIDKNTNLFQFRPIMEYEVLDEKRVFVFILFFSKNKVDKNTMKYIFNAILKNENSIKDFKNGKILKVRFGWYPSNEVSQKISKNRLAFIGDAGCWTIPAGWGMSFILNNYKNYAFKLNKLIKKDKLNKKNLDKIVSFNQRQKFEIVMDKLVLHFLSNAKPQLIDKFTQTIVDNFKGKTLETMFCLELEEKEVFKLFLVIIKKFTLKELFSIFNSKKDYFLVLKVIFYYILSFIFSIFTEDNLGFQFKK;locus_tag=LOCUS_03560;note=MGA_357
sequence01	MetaGeneAnnotator	CDS	403520	408724	.	+	0	ID=MGA_358;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000686845.1;translation=MENYILDKKIYESNKTLIYSIFDKTSNEKKIIKILNKEYPTKYDIDKFLYEYNIGKFLNIEGIIKYYDLIKYKNSYAIIEEYFNGEPIKNLSSYSLKIILSILIDITKIISKLHNQEIIHKNINPSNILWNKIDNTVKIIDFGISERNISNKYLNIENVIEGTLAYISPEQTGKIDREISYTTDLYSLGITFYELLTGKLPFETDNPLEMIHWHIAKKPEELRKINPKIPKVLSDIVMKLLNKMPEDRYQSANGLLFDLKKCLEYFDKNTIKEFIIAKNDYSDKLIIKNKIYGREKEINLLLNSIKKLENTSSTIFVLGESGSGKTSLINNVLSKSLKKDTFILTGKFEQFKKNIPYFAITQILKKLLIDLSKLDQEQFNNLTISLKKELGDNLNYLIEILPELSKTFDIPTRINEDTKIDKNNILKYILKKFIDIITNFNLKLIIFLDDLQWADAASLNFIEILITEINKNLLFIGSYRNNEVNSIHYLNIILNNINKYNLNIKEIKLDKLKKNNIYEFISDNIYTSNKDKKNQLSKILYEKTEGNPFFLKEFIISLYNENDIYFNYDKYEWEYNLENITKKSITENILKILYKKMNRLNKKYFEILKYCAALGNEFEFNSLKALTNIHENELQEIMNFLIKEKFIILINVNQFNNIFKFSHDKIEQAIIDAMSENDLLEKHLQIAEYLINNFDIHNENIIFDIVFHYNKCFNIIKEDKKIKNILYYNYLAGERAIKSLAFDQAYIYFNFFYNNLNIYNIKSDSELLEKFYTKYIETLYYTKKYNELVKIFNIIDAYTDDFTKKLSAYEIYIDYLIAVNEYNKALEIALKFLEKFGINLSKNPLKITIITKLLILQNRIKKQDFNNLLHRKPVNDNKIKIILRITSNILGTAYVANPNLFILLVLTQIELTLKYGNSSSAPEAFSLFGLLLIGLFNNYDIGYKLGKLALNLIKNNNYSDYKGRVIFYNTNFILHWKENSIKNLKLIDDIYKISLETGDLEYAAWSIFLRGEYEFFSRGNINKAIIYFSDITEKTSKLNQIKQKIYSTIFLITTKYLLNIISYDEFNKKMFDILKGSEIENDKIAIYFVYYHLAVVNYLFEDYKKALTNINLAEKYLDSNMASMNYPMFYYFSSLIHLRAYKTNIKNSVIHKKIKKYLKQLSIYAKNSTDNYLHKYLIVKAEYYNYTNNKNAKDIYEEALFHVNHSENILDIAIINELIANYYFENKHYRISDIYLKDSFYNYDKIELNNKIELLERRFNQTFLKEHYDNIELNTTMNTVSFNNDTLDIDFLLKISKLFSSEIIFSKLLENIMKYLIETIGTEKGYILIKRNNEFYIEAKIDINYSDIELISIPLKEKLEENISYDIINYVLKTKNLFVFNEDNNEFDFVIDSYIKENLVKFLLCIPLINEGELIGLVYLENNVVVNKVSNIQIEILKMISSQLAVSIKNSIIYEKLNKLNRTLERKVFERTLSLDEKNKKLTDSINYSKKIQENVLPKESDIIKFTKDSMLIYLPKDVISGDFYWLKEIEEKKVFIVSDCTGHGVPGAFLSMIGSILLDKLLINNLLLNPSKILKQLDNDFKKYLKHNNTNKKFEQIDGMETAIVTLYQNKIYFSGAKRNIYILRKENNTWKLKEIKGNKFSIGGVHRKNEKIFNTIEFEVIKNDIIYMFSDGFVDQNNNKNEKYGINRFENLILNIADKDLAVQKTLILQELSTFMKDTSQRDDITILAFKI;locus_tag=LOCUS_03570;note=WP_000686845.1 AAA family ATPase (Leptospira interrogans) [pid:27.9%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:4.9e-212],MGA_358
sequence01	MetaGeneAnnotator	CDS	408772	409611	.	+	0	ID=MGA_359;product=WYL domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016022.1;translation=MKKIRVTVPEDIYRLIKNDIEDFGINNNKLCNFILDKYKYKRENEDLLKSQGKSLRKIIQFDLNLKNKEIYYNILRINKVAVEAEFFRELFKYYCSNFKYKRELFVFSDLVQKIILAIENKNKIKIKYKKKIKIIEPYFIKRDEQGEENYLFCYCCTSKEYKNYKLKNIDFISELSEKVLRRDKKYIDSIRKNFDPFLSHGKIVKIKLTKEGESLLKTYTVHRPKLLSKNNDIFEFEASTEKAFLYFRQFLSEVIILEPLELREKIKNYLINTLKNYID;locus_tag=LOCUS_03580;note=WP_011016022.1 WYL domain-containing protein (Fusobacterium nucleatum) [pid:52.6%25%2C q_cov:95.3%25%2C s_cov:95.7%25%2C Eval:6.7e-78],MGA_359
sequence01	MetaGeneAnnotator	CDS	409856	410731	.	+	0	ID=MGA_360;product=methylenetetrahydrofolate reductase [NAD(P)H];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949153.1;translation=MKIKDIYMQKKESKKPVFSFEIFPPNSKHPIDTIYNTIDELSKFNPDFISVTYGAGGSTRGRTVEIASRIKNKYNIESLAHLTCIEAKKNEIDDILYKLKENNIENILALRGDHPIDREPIKGDFNYASDLITYIKNKNMDFSLGGAYYPEGHFETNDLMDLFNLKRKVDLGAEFLISQIFLDNEILYRFKEKTDKLGINVPFAAGIIPVTNAKQMKRIFSLSHCSISPKFKRILDKYEHNPEALKEAGIAYATEQIIDLVAWGIDGIHLYTMNKIDTTRKIVKDIEYIIK;locus_tag=LOCUS_03590;gene=metF;EC_number=1.5.1.20;note=WP_011949153.1 methylenetetrahydrofolate reductase [NAD(P)H] (Clostridium botulinum) [pid:55.3%25%2C q_cov:99.3%25%2C s_cov:96.6%25%2C Eval:4.1e-81],MGA_360
sequence01	MetaGeneAnnotator	CDS	410817	412253	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKKIGLIVSSVMFIVFIILFFVARHIAIPTYITYKKAQIKEVRKLIEKGENVKLLQEKYLVGIIQVNLKEKKTNELKEQLKKRINEKFKNIRERPPIPPEIEQAFLEFQHSNKINEKFYLKEIRTKQLNANILLYKYVKKNGEAIFISAILTRLDEIFGIITLFSLIMFIVIYLVVIIVINILVSKKLINPIIKIKNITYKMAELDFKEKIDINSKDELEELAKSINFLSEELELNINKLKADIKKKEKINEIQKRFYSNMSHELKTPLAIIQGYSKGLKDNIKPQKRDFYYEVIQEEIEKMVSIINNLININKIDIEEINKEKIEIKEFIINVLEKYNLDIEEKNVKLDLKLIDKSVLADKKGIKSVVDNILSNAFVYVKENGKIKINVEEFGENTIKISIFNEGKNIPEESLDYIWRPFYRADDLEERKYGGTGLGLAITSGILKNHNSDFGVINKKNGVEFYFTLEKAIKDN;locus_tag=LOCUS_03600;note=WP_010965729.1 HAMP domain-containing sensor histidine kinase (Clostridium) [pid:30.8%25%2C q_cov:72.4%25%2C s_cov:71.7%25%2C Eval:3.4e-47%2C partial hit],MGA_361
sequence01	MetaGeneAnnotator	CDS	412240	412908	.	-	0	ID=MGA_362;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001044679.1;translation=MKKILLVEDEKKIRWLLKDYLEENDYEVDEAENGEDAFDMFYNTKYDLIITDIMMPKMDGIDLVKEIRMFSKIPIIMLTAKTTDEDELTGLNYGADDYIRKPFNPDVLLKRVEVLLKRIYPEEHKIIDGNIELDLDKRILKYKENVLDFSKKEFELLFTFIKNKNIVLSRQRLLDIIWGYDYEGDIRTVDTHIKTIRKKIGNIIKTVHGVGYKYEGEINEIK;locus_tag=LOCUS_03610;note=WP_001044679.1 response regulator transcription factor (Bacillus) [pid:46.2%25%2C q_cov:96.4%25%2C s_cov:98.7%25%2C Eval:1.1e-47],MGA_362
sequence01	MetaGeneAnnotator	CDS	413195	415246	.	+	0	ID=MGA_363;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965539.1;translation=MIINEKVMLKNLFCSSCATKIENNIKKMPELESAEYNFSTQILKISFKNIYKREKILEKIKNIVDTIEDGVDVFYLNEANNNVNTSNKKKLILLILSTTLFISSFFINNNFKIIFIILSYIISGYPIIIKSIKNIQKGDFMDENFLMTIATLGAFSIKEYPEAAGVMLFYQIGEFMQDLAVNSSRKSIQDLLNIKATYANLFKNETIIKVSPEELKISDIIIVKNGETIPADGEIIEGKSYFDTSSLTGEYVKKYLKTGDNVLSGFINTDRTVKIKIKKMFTDSTIAKILELVEDAASKKAKTEKFITKFAKYYTPFIVYSALVIAFIIPLFLGNFSTWFYRALIFLVVSCPCALVVSIPLGFFAGIGRNSKNGVLIKGGNYLELLSELDTIIFDKTGTLTKGEFKVVEITGDILEITAYAENYSNHPIAEAIIKKYNKKIDINKIQKHQEIAGYGISAKIFNKSVLVGNKKLMQKYNVSIPKINKNGTIIYTAINNEFQGYIIIDDIIKTESFNTIKSLKSNNISTIMLTGDSEKVANYVSTKLSIDKYYADLLPHEKAKIFKEIKNKKNKVAFVGDGINDAPVLAMSDVGIAMGGIGSDAAIASADIVLMDDNPYKIIEAIKISKFTKNIILQNIIFALSTKILVLILSLFGVANMWFAIFADVGVALLAILNSTRILKEK;locus_tag=LOCUS_03620;note=WP_010965539.1 heavy metal translocating P-type ATPase (Clostridium acetobutylicum) [pid:47.3%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:6.8e-180],MGA_363
sequence01	MetaGeneAnnotator	CDS	415757	416737	.	-	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKYMKITAEQLEMDLKILYPDKTGRTIIKELAINEIENDKPDYLILPFLVNISKEILDCAEKNKVYTFAFNSDIPERDKNVIGKVGEKYKYWIGHIYPDDEYAGYILAKELINEAKKRNYDKKINIIGLSGSFDSSVANNRNKGLKKAVREENNTIINQIFYTNWKYSEAYLKTSILINRYPETNIIWGAGDFIALGGYNSIKKINPKKINNIIFGGIDWSNIGLEATDTGIFTTTVGGHFFEGVLVLIMIKDHSMGIDIGKFPIKTKMKIITKENINYYRELISYDNFKKLNIKKLSKYYNPKLKEYNFDIIEVLKNKKNYFKK;locus_tag=LOCUS_03630;note=MGA_364
sequence01	MetaGeneAnnotator	CDS	416853	418247	.	-	0	ID=MGA_365;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016098.1;translation=MIKTIVKDIYKNKESFMNKEIELSGWIKKIRDSKNFGFIELNDGSFFKGIQIVFERNIIENYDEIAKLSIISSIIVEGKLVKSEGKGQDFEIKAKNIKVIQKADLEYPLQNKRHSFEFLREIAHLRPRTNTFSAVFRVRSLLAHAIHSFFQEKNFVYVHTPIITGSDCEGAGEMFRVTTFDLNNIPKNDKGEIDYKEDFFGKETNLTVSGQLNVETYCMAFRNVYTFGPTFRAENSNTARHAAEFWMIEPEMAFANLDLNMDVAEEMIKYVIKYLLENAKEEMEFFNKFIEKGLLDKLNNILNNEFSRVTYTEAIDILLNSKKEFDYKVEWGIDLQTEHERYLAEEYFKKPVFVIDYPKEIKAFYMKLNEDGKTVRAMDLLAPGIGEIIGGSQREDSLEILEKRMAENGLKEEDYKFYTDLRKYGSVPHSGFGLGFERMVMYVTGMSNIRDVIPFPRTPKNADY;locus_tag=LOCUS_03640;gene=asnS;EC_number=6.1.1.22;note=WP_011016098.1 asparagine--tRNA ligase (Fusobacterium nucleatum) [pid:74.1%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.7e-208],MGA_365
sequence01	MetaGeneAnnotator	CDS	418262	418459	.	-	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKMEMNSIIKMVNYYSGLAKQRELTEIEKQDREKYRKIYLEKFRAQVRGHLDSIKIVNENEIN;locus_tag=LOCUS_03650;note=MGA_366
sequence01	MetaGeneAnnotator	CDS	418583	420091	.	-	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKGKNSLFSIVGILLFFLLRFASNEININHGFYKLKTWYTEEGKKVDIPLIRDINGGEITLKTSFKKKEGEYLLVFPIISSNYTEVYLNGKLLKKIGYNKNILMDTFLMPQGILLPKLKESNNLEVKIFSLGNAGINISPFLLPVNKFYYYNIIYFFNYYLISIMNGVLLFTIVIFSFFLFSKNKNKSKKDVYFFISIILLYIFTRDIYYSPYINRDTYFIIKKIVYISLMSSLFIFLQSHNNKSLLKKFFQCILLIPIIFFMFSKNYLMLYNYFNEFIPIGIVTMFYIIYLNRKNNKINIIFTFLLLTALNDYFIHYFPIMEHRFLFSYGLLSYSIFVVLIVIDEIKYLNLKLSYFQTKAITDPLTGIYNREYLDKISLTNNDYLVFIDINDLKIINDKYGHNIGDLIIVHIIDSIKKYLNKNECIIRYGGDEFIVVMKNSKKTMIKIIFKSIQEEIKKFTIPLSISYGIVKFEKNIKHTIDKADKIMYIMKTNMKNKKV;locus_tag=LOCUS_03660;note=WP_009889222.1 c-di-GMP diguanylate cyclase DccA (Clostridioides difficile) [pid:40.4%25%2C q_cov:27.9%25%2C s_cov:50.9%25%2C Eval:1.3e-20%2C partial hit],MGA_367
sequence01	MetaGeneAnnotator	CDS	420321	421961	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINDLINFLNILELPYSIINEQGIIIEVNEKFCELYNYLPSELIGAYFTKLSAETKYLSTEECKNIFLNSFNKYNSFFKHPEPYEVMDKNNNKFFINTISYDFIDENNTKKRLSIDIQLKNTNKIERIKENLNNYNKYKYVSLDFLKKIIDSHLLNKDYFKFTLFNIKFINAIIFDEKDEFLKEFYDNLVSIFEDNITVSFISKNRIIIFYDKIDINKIKIISNKILNIFSNPFEINNKFIKENLKIGITQFLDNRKYDFNSLYDELEIALKYSKDNGYLIFNNEVNLRLQKEIEINSIIFDAFKNKEFIAYFQPYFSVKENKFVYCEALMRLISSKYGIISPSEFIPLLEENRFITMVEKQVMNNIFKKIIKWKEKYKITFPVSINLSPIQFNNLDLIEFLDEAIILYEIDTTKITFEVTETTIMENIEISKFVLKNLKDKGFNIAIDDFGTGYSSLAYLNNFPIDYLKIDRSFIKNIDTNKKDQAIVEAIVNMCKALKIKVVCEGIETKEEFEYLKKIDVNLLQGFFFSRPLPIEAFEKKVFY;locus_tag=LOCUS_03670;note=WP_011861232.1 EAL domain-containing protein (Clostridioides difficile) [pid:33.5%25%2C q_cov:78.9%25%2C s_cov:42.6%25%2C Eval:1.1e-57%2C partial hit],MGA_368
sequence01	MetaGeneAnnotator	CDS	422050	422541	.	-	0	ID=MGA_369;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461289.1;translation=MIINTKIEDLTLKFAEKNEVDEIFYFIKELAKYEKMENEVVATREILIENIFNKKYCEVILAKYKNEYIGFMLFFYNFSTFLGKPGIYLEDLYIEPKYRGKGYGKEMLTNLFKIANNRGCGRVEWSCLDWNKPSLEFYKKIGAKSMDEWITLRIDGETLKKYK;locus_tag=LOCUS_03680;note=WP_011461289.1 GNAT family N-acetyltransferase (Desulfitobacterium hafniense) [pid:54.8%25%2C q_cov:96.3%25%2C s_cov:94.6%25%2C Eval:1.2e-48],MGA_369
sequence01	MetaGeneAnnotator	CDS	422542	423519	.	-	0	ID=MGA_370;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964789.1;translation=MLNWGIIGAGNIATKFMNDFRYVLGGRMIAVASKSLDKAKKFAKKYEIKNYYDSYEELLNNKEIDVVYIATTHNFHYENMKSCIEHGKNILCEKPITLNKNQFEEIIKLAKEKNLFVMEAMWMYFIPAIERAVEWIKEDEIGDIKLIKAEFGLKIPFDPQARLYNKELGGGALLDLGIYPISFACFLANSEYEQVESMAIKGDTGVDEYVSILIKFKNGIQAELSTSSRQNFENRAFVYGTKGSLSLEKFWMCKEMQLRTKTRIINYTDEGRYNGYNFEADEVCKCIQEGKLESDIASHSKTLQVLEIMDLIRKKHGVIYPVEEE;locus_tag=LOCUS_03690;note=WP_010964789.1 Gfo/Idh/MocA family oxidoreductase (Clostridium) [pid:39.0%25%2C q_cov:96.3%25%2C s_cov:98.4%25%2C Eval:1.5e-63],MGA_370
sequence01	MetaGeneAnnotator	CDS	423598	425526	.	-	0	ID=MGA_371;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_236616027.1;translation=MLKDKYLYESIDKINKKYSKKDLTIFYTRLGKNFTTLYEKYSKLYKENSLFVDRLEELIISLADMYVERSNELKELDRERELDNNWYMSQNWVGTMLYVDRYNKDLKGFKEKINYLEELGINYVHLMPILKMPKKENDGGYAVSDYRVVDEKFGTMDDIRDISKTFREKNMLLELDLVLNHTSDEHEWAKKALSGEKEYQDMYYMFDDRVIPDEFEKTLPEVFPQTAPGNFTYRKEIDKWVFTVFNNYQWDLNYTNPKVFIEMVKIMLNLANQGVDILRLDAVAFMWKKIGTDSQNLEEAHIILQLYKVCAKIVAPGVVFKAEAIVQPKEIVKYLGGGIVDECEIAYNASYMVYLWDAMATQNKKILERGLENIPRIPKNTTWVNYIRCHDDIGLGYADHDIISAGYSPFDHKQFIISFYVGEFPSSYAKGERFMYNPKTKDARISGATASLLGLEKGILEKNRDLIDKAVKRIILMHSGIMSLGGIPLVYYGDEVGFTNDYSFLNDEGKKNDNRWLNRPIINWNKVENRKKEGTIENKIFIAIQKMIKIRKNLKEFYNENNYTIIKNENEHVFSFLREYQGEKTLVLMNVSEHYQVVSQEILNRANLGYRVYNIYNGNEINLEHGLIKLDPYEFLWLKFVK;locus_tag=LOCUS_03700;note=WP_236616027.1 alpha-amylase family glycosyl hydrolase (Rhodopirellula europaea) [pid:41.3%25%2C q_cov:96.6%25%2C s_cov:89.8%25%2C Eval:8.6e-153],MGA_371
sequence01	MetaGeneAnnotator	CDS	425674	426621	.	-	0	ID=MGA_372;product=carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963746.1;translation=MDKIVCVGELVIDFICTDIDMGLVNGENFIKKAGGAPANVCAAISKLGGNASFVGKVGKDSFGIFLKETLENQKVCTDMLILDTKENTTLAFVSIANNGERDFIFNRGADEKLKYEELNIEKIKEAKIIHLGSATALLGGELKETYKKVLELAKNENKIITFDPNYRIDLWKGKVEEFIKESKKYIKESDIVKVSDEEILLITGKENVKEGVKELHKIGAQVVLVTLGKEGTLLSIDDKQEIINSIKIEPIDTTGAGDAFIGGVLYKIIKENLTKVDIKNMEKMKEIINFGNKVGARTCEKYGAISALPTLDEIE;locus_tag=LOCUS_03710;note=WP_010963746.1 carbohydrate kinase (Clostridium) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:4.0e-101],MGA_372
sequence01	MetaGeneAnnotator	CDS	426614	427624	.	-	0	ID=MGA_373;product=substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582798.1;translation=MSVTIKDIAKKLEISITAVSKALNDRPDISDELKEKVKKTAKKMGYTKNTIASRLVNQKSNTIGVFILSRYKIPNEENTGFSFLSGILEVSNKNNFDVIVFSTDSLEKKSYLELCRERRVEGAIFIGLEYNTKQLEELSQSKLPIVLIDYKYDSPNISTIVSDSDTGIEKSFNYLKKLNHKKIGFINGHNKAYVSYQRLESFKKISKKYNLYNENYIFKSDFSIEKGYELSNMLLNLDDMPTAFIVSGAMTTYGLVKGFLDKNINIPKDISIISYDNFKLDAYFTPEITSISQNIDIIGKKSGEALFNLINNGKKEEIVLNTELIIRKSCEVVRNG;locus_tag=LOCUS_03720;note=WP_012582798.1 substrate-binding domain-containing protein (Dictyoglomus turgidum) [pid:31.1%25%2C q_cov:97.3%25%2C s_cov:97.4%25%2C Eval:3.2e-35],MGA_373
sequence01	MetaGeneAnnotator	CDS	427862	428716	.	-	0	ID=MGA_374;product=patatin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000789270.1;translation=MKKKIGLILEGGGFRGIYSAGILDYFLEKNIEIPYVIGVSMGACNGANYISKQKGRNIEIPYKYINDERYISYKNFLKKGELFGMEFIFEEITNKLNPFDFDTFYNSKQKFIVTATDCKTGKAHYIENFKKYSLSEALKASTSLPYVSKIVKLGEYELLDGGIADPIPYKKALDDGCEKIIVILTQPKGYVKSKMKLQTLGKIIYKDYPKLRETMKNRHINYNNAIKELEKLEENGKAFIIRPKSKLPIARTERDKEKLKKAFELGYTQGKEIINEIKKFCEIE;locus_tag=LOCUS_03730;note=WP_000789270.1 patatin family protein (Bacillus) [pid:45.0%25%2C q_cov:96.8%25%2C s_cov:98.9%25%2C Eval:1.5e-72],MGA_374
sequence01	MetaGeneAnnotator	CDS	428756	429472	.	-	0	ID=MGA_375;product=DUF554 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015943875.1;translation=MIGTIVNVITIIIGSIIGSIFNKGLKERYQNNVLNSIGLIAISLGIAWISKSITKSNEPLLFVFSMVIGALIGEFINLDKKIENINNKYNKGDSNALQGLVTAVLLFCVGTMSILGPIESALNNNHTLLFINAVLDGFTSLMLASTFGITIILSAPILLIWQGSIYFIAKILNGTVSLELLNEISIIGGILIMTTGLNILKAVKIKTLNLLPALIIPVIYYIPIVNNSIKFIINKIFS;locus_tag=LOCUS_03740;note=WP_015943875.1 DUF554 domain-containing protein (Desulfitobacterium) [pid:45.9%25%2C q_cov:87.8%25%2C s_cov:92.0%25%2C Eval:2.3e-46],MGA_375
sequence01	MetaGeneAnnotator	CDS	429597	430502	.	+	0	ID=MGA_376;product=GGDEF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942049.1;translation=MNINIKNYKNILDNISDGVYFVDKNRKILYWNNAAEKITGFTYNDVINSFCYHNILRHVDKSGNELCRNGCPLLESMKTGTFIHADVYMHHKSSYLLPISIKVFPLKNDKNEIIGAIEIFNKQKKINNTTPSPLALKEFLMYDPLTNLPNAKYLYKVINSKLNEIKSIKRNVGILIIDIANFTSIINKHGSDIANQLLKIVAFTLKSNIKTGDIIAHWKNDKFVLIFNLENKEELNKIAIRLKMLSEKTSILIENKNISLSISIGGTYFLTNDNIEKLIDRLNNALIKSKNDKYNKIRILE;locus_tag=LOCUS_03750;note=WP_010942049.1 GGDEF domain-containing protein (Geobacter sulfurreducens) [pid:31.4%25%2C q_cov:94.0%25%2C s_cov:94.3%25%2C Eval:7.3e-49],MGA_376
sequence01	MetaGeneAnnotator	CDS	430533	431180	.	-	0	ID=MGA_377;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902631.1;translation=MNKMVFKNNIIFIIIIVLAIFLVTKFLKYRVIKKLNFIDFKEVKLNKEYNLKAVIKTDKGDIELKLFPNIAPITVTNFVNLATKGYYNGLKFHRVIADFMIQGGDPTGTGAGGPGYNFRDEFVEGIEFNKSGILAMANAGPNTNGSQFFITHVPTEWLNYKHTIFGEVLNEDTQKIVDSISQGDIMNEVIISGDLDEFLKDMEDVVEQFNSAMSK;locus_tag=LOCUS_03760;note=WP_005902631.1 peptidylprolyl isomerase (Fusobacterium nucleatum) [pid:67.9%25%2C q_cov:75.3%25%2C s_cov:97.0%25%2C Eval:8.7e-63],MGA_377
sequence01	MetaGeneAnnotator	CDS	431173	431841	.	-	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627794.1;translation=MKKLEFIKYVKEICLKILEKAYINKKRFLELNDIENIKKIDEEVIPKFEKLYLYFDSISKNDIENIENFNEIEKNIEEIRESNKLTKEYILKEIEKREKMSKNSGSIAVKRLFEFEKKELNKKLFEIEKLGKPLLEKQKEYEKALADAIQQDEELKYFEKVKENGKKIDKLNNKIIKINKRLEKLNEFLAKKWYYEMYGTISKNELEKIYKDEFKMNGENNE;locus_tag=LOCUS_03770;note=WP_201627794.1 hypothetical protein (Fusobacterium canifelinum) [pid:32.1%25%2C q_cov:94.1%25%2C s_cov:96.3%25%2C Eval:4.6e-22],MGA_378
sequence01	MetaGeneAnnotator	CDS	431854	433053	.	-	0	ID=MGA_379;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439456.1;translation=MNFDIIVIGSGPSGLFSAIMLAKNNKKVLIIERNEKIGGKLFIAGSGQCNITHTGNYKDFLEKYGENGKFLKRVLYKFSPQDTIDFFNKNGLKLIKREDGKYFPETFKSIDVINLLLKEYKGEYRVKELVKEIKKLENEFIVKTDKLEYKSKYVIVATGGKSYKKIGTTGDGYKFAKSFGHQITKIVPALTPIFVNNYIFFDLSGISFKNIEMKILKKNKIYKKVYGDLLFTHKNLSGPIIINNSRNIEKNDFLEFNFVKTDREILENEFIDNQNNKKKIKTILLKYDIPERFINKILKILDLEYTKIADLSKENRKKILDMFCNYRFKVSKLDSFEKAMVTKGGIELKELDKNTLESKLIKNLYFVGEVIDIDGDTGGYNIQAAISMGVAAARDIIEK;locus_tag=LOCUS_03780;note=WP_003439456.1 NAD(P)/FAD-dependent oxidoreductase (Clostridioides difficile) [pid:36.1%25%2C q_cov:97.2%25%2C s_cov:98.3%25%2C Eval:6.4e-65],MGA_379
sequence01	MetaGeneAnnotator	CDS	433117	433479	.	-	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVKFYPKGGMKPLFALKLVDTFNKIIQELGIEKAEEIIKIALNINKNRIIDIREVEDSNGDISFIVILYDFISKYKRPKTSIPQTEEGFFDFNIYQLDFNRTIDIEKIIKDQKKYLIK;locus_tag=LOCUS_03790;note=MGA_380
sequence01	MetaGeneAnnotator	CDS	433508	433816	.	-	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNIVKETLDKNKEIYLDTTVGWYKGNKDYRTGGQDIIYSIENNEYYKEYDFVITPNNIEKTKVRITLDEIVEELTKFNVKEEEITSGAIINRGDWEPRG;locus_tag=LOCUS_03800;note=MGA_381
sequence01	MetaGeneAnnotator	CDS	433962	435575	.	+	0	ID=MGA_382;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902507.1;translation=MITVSGLGLRFGSRKLFEDVNIKFTPGNCYGVIGANGAGKSTFLKILSGEIESTEGEVILGPGKRLSFLKQDHFAYEEEQVLDVVIMGHKRLYEIMQEKNAIYAKTDFSDEDGMKAAELEGEFAELNGWEAEMEAEKLLLGLGLETDKHYKYMKELTEADKVKVLLAQALFGHPDILLLDEPTNGLDIKAITWLENFLLDFDATVIVVSHDRHFLNKVCTHIADIDYGKVKLYVGNYDFWYESNQLMQELIRNKNKKLEQKRQELQEFIARFSANASKSKQATSRKKQLEKLKLEDMQVSNRKYPFIEFKPERDAGNNMLFVENLSKTINGVKVLDNISFTINTGDKVVFLSRNDLVTSTLLDILAGEIEPDSGSFTWGVTTSQTYLPRDNSKYFDYDGSIIDWLKQYSDDQTESYVRGFLGRMLFSGEEASKKVKVLSGGEKVRCMLSRMMLSKANVLLLDNPTDHLDLESITSLNKALIKFNGTILFSAHDHEFIHTIANRIIEITPNGLVDKLMDYDDYIENEEIQTRLEELYK;locus_tag=LOCUS_03810;note=WP_005902507.1 ATP-binding cassette domain-containing protein (Fusobacterium nucleatum) [pid:76.8%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:7.0e-246],MGA_382
sequence01	MetaGeneAnnotator	CDS	435620	436129	.	-	0	ID=MGA_383;product=peptide-methionine (S)-S-oxide reductase MsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986464.1;translation=MEKIILAGGCFWGVEAYFKRLKGVIKTKVGYAGGNKKNPTYEEVCSGKTGHLEAVYIEYDRKIINLEKILRHYFDIIDPFSIDRQGGDVGPQYATAIFYNNKEQYDIIRKMIQEIENNFNKKVATKILKESNFFEAEDYHQNYLEKNPTGYCHINLNSIKNSKDYQEPV;locus_tag=LOCUS_03820;gene=msrA;EC_number=1.8.4.11;note=WP_011986464.1 peptide-methionine (S)-S-oxide reductase MsrA (Clostridium botulinum) [pid:52.9%25%2C q_cov:92.9%25%2C s_cov:100.0%25%2C Eval:4.8e-48],MGA_383
sequence01	MetaGeneAnnotator	CDS	436139	436261	.	-	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIMKVLKIILTIIKNFLGKKDKEYIEEAIIVEEKILRRK;locus_tag=LOCUS_03830;note=MGA_384
sequence01	MetaGeneAnnotator	CDS	436313	436693	.	-	0	ID=MGA_385;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459934.1;translation=MLEIGLKYTKEKIIKENESAKYVESGDLEVFSTPSLIAFMENCAMNCVKKYINENDTTVGISINIKHLQANLIGEKIKGEAKLTNIDGRKLTFEVLVTSDRGEIGKGIHERFIVSREKFINKLKKF;locus_tag=LOCUS_03840;note=WP_011459934.1 thioesterase family protein (Desulfitobacterium hafniense) [pid:40.5%25%2C q_cov:96.0%25%2C s_cov:90.8%25%2C Eval:6.4e-21],MGA_385
sequence01	MetaGeneAnnotator	CDS	436833	437138	.	+	0	ID=MGA_386;product=Dabb family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986755.1;translation=MIRHVVMWVLKKNARGNTKDENAFILKAELENLKNEIPEIIKLEVGINNDEYSSKNFDVVLITEFKSFEDLDKYKHHPKHVEIIDLVKEIVENRACVDYTF;locus_tag=LOCUS_03850;note=WP_011986755.1 Dabb family protein (Clostridium botulinum) [pid:45.5%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:4.1e-20],MGA_386
sequence01	MetaGeneAnnotator	CDS	437301	437507	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNEKIGKNAGKVWNHLNTNPNISFSKLQNDLKLTKDELLLTIGWLFREEKLIVEKSSRGFNFLLK;locus_tag=LOCUS_03860;note=MGA_387
sequence01	MetaGeneAnnotator	CDS	437595	437933	.	-	0	ID=MGA_388;product=P-II family nitrogen regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002225869.1;translation=MKKIEAIVKPIKLSILRDSLIEIGVTGMTISEVKGFGKQKGYKEIFRGAEYEVHFLPKIKLELFISDNMVEKVVKTIKESAYTGEIGDGKIFITSVEEAIKIRTGEIGDNIL;locus_tag=LOCUS_03870;note=WP_002225869.1 P-II family nitrogen regulator (Neisseria meningitidis) [pid:66.1%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:9.4e-36],MGA_388
sequence01	MetaGeneAnnotator	CDS	438001	439290	.	-	0	ID=MGA_389;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405103.1;translation=MKKKNLGILLFILLTTGIMAATGDEVQTNLNWTWTLIAAAMVFFMQAGFAMVETGFTRAKNAGNIIMKNVMDFSMGILAFWAVGFAFMFGKGSFIGMTNFFANGLVGWDWTFFVFQGVFAATAATIVSGALAERTKFGSYLIASFLLTAFIYPIFGHWAWAGLYGQATGWLENLGFIDFAGSTVVHSLGGWAALAGAMTVGPRIGKFGKNGEVKAIPGHSLTLASLGVFILWFGWFGFNSGSTTTGTKEIGLIAANTLLAAAAASISALIVSIIKFKTYDIGMTLNGALAGLVAITAGCANVAPWSAVIIGILAGILVVYSIGFIDNLKIDDPVGAVSVHGVNGAWGTIAAGIFDNGNLFNPQTIGVQILGVLAMFIFAFVTSLIMFNVIKIIFGIRVSKEEELKGLDIGEHEADAYPEFQTSSSIYEI;locus_tag=LOCUS_03880;note=WP_011405103.1 ammonium transporter (Salinibacter ruber) [pid:53.1%25%2C q_cov:93.5%25%2C s_cov:85.6%25%2C Eval:6.0e-117],MGA_389
sequence01	MetaGeneAnnotator	CDS	439538	439999	.	-	0	ID=MGA_390;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002900138.1;translation=MYNKIMEKKNYGKENSLNLKLFLILNRCTQSVNRNIYPIFKEKGITESQFYVLEFLYHKGDSRIKDIINKTFSTGGTMTVIIDNLVKQNLIEKKKDPRDRRAFLISLTLKGKEVIEKIFDKHLKNLEKIFDVLGNEEKELLKELLKKLGKYQN;locus_tag=LOCUS_03890;note=WP_002900138.1 MarR family transcriptional regulator (Streptococcus) [pid:37.0%25%2C q_cov:90.2%25%2C s_cov:93.2%25%2C Eval:6.7e-21],MGA_390
sequence01	MetaGeneAnnotator	CDS	440045	440632	.	-	0	ID=MGA_391;product=CDP-alcohol phosphatidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947813.1;translation=MLDTRARKFIQPFFNLIADLLIKNNISANQVTIFAFILGLTINIFILTDFNLIAVIILWISGALDAVDGTIARKTKTSSQFGTIMDIVFDRLVEIGMIITLAIKNSNATFSLLLLTSSIVITMTIFLSVGAVANKKGEKSFYYQPGLAERTEGFIFFTFMILFQKYLIIITMMFFIAIIYTAFQRFKEAHKILTK;locus_tag=LOCUS_03900;note=WP_010947813.1 CDP-alcohol phosphatidyltransferase family protein (Legionella) [pid:38.8%25%2C q_cov:90.8%25%2C s_cov:90.8%25%2C Eval:6.8e-29],MGA_391
sequence01	MetaGeneAnnotator	CDS	440683	441657	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLKNITKEYDDFKLKNINFEVKKGEFISLLGKSGSGKSTILNIISGIDKNYKGEVLFKNKNINNYNLLEKKLAMIFQEDYLFPHLNIEKNIGFGLKMRKEKKEIIKKKVDNLLEKLGLKNFNKKYPHELSGGQKQRVAIARALAIEPEILLMDEPFSALDENLRLEMQDLIKNIHKENKVTTIFVTHDQDEAFKLSDRIILIEDGDILQTDKPLKLYKKPKNEKVAKFLGMKNIFDSKIFENYYKIDKNQKIIIKDKDIIIKKNGKIIGNIEGINYYKNICELIIRFENGKIYYCDSIENINRYKLRGKIKFDIKMDEVYYI;locus_tag=LOCUS_03910;note=WP_011948771.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:48.0%25%2C q_cov:75.6%25%2C s_cov:72.6%25%2C Eval:7.9e-60%2C partial hit],MGA_392
sequence01	MetaGeneAnnotator	CDS	441713	442480	.	-	0	ID=MGA_393;product=ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_223294674.1;translation=MLLFIILLIGLIFIFPYIPLVLYSFSNTWKYPNIFPSNLSLKWWKYVFKQPITYKAIFYSLIIAIIVSLINLIIGLPAANALVKDKFKGRKFFEHSMFAPIIIPPIISVMGIHFIFIKLNLVENFIGVILIHIIPTFPYMLRTLILGYKNFDFNYEKVAILYGASSLKKYLLITLPMLMPSILSGIILSLLISFSNYILTYIIGGGKIITLPLITFPYIVGGNRAIGAVYVIIFIVLNIISVIFIEKIFGKLYKK;locus_tag=LOCUS_03920;note=WP_223294674.1 ABC transporter (Desulfovibrio) [pid:22.8%25%2C q_cov:92.5%25%2C s_cov:91.2%25%2C Eval:3.1e-23],MGA_393
sequence01	MetaGeneAnnotator	CDS	442480	443358	.	-	0	ID=MGA_394;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948769.1;translation=MKMLQKIKPYIKILPAFLTIFLLFWYGIFLGVLQSFGFFLINKKSKFTFENYIKVFRNREFLDSLFLSIKISLLSVGFVILFAIIILYLLFLLKLKYFKLSDKLQKLYLVPMLVPYLIGSYISIITLAQTGFLSKIFYKAGVILNFEEFPILINDSHGIGIILTYIWKTLPFVLLMTYPILDKIIDKWIKVGKLYGANNFKFFIYIIIPLLIPTLFNSAFILLAFIFSAFEIPYMLGLTYPKMLSVMTYDMHSKDFINTQSEVMSINIIIVLITISLGIISYKILKKNYEEI;locus_tag=LOCUS_03930;note=WP_011948769.1 ABC transporter permease subunit (Clostridium botulinum) [pid:31.4%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:2.8e-37],MGA_394
sequence01	MetaGeneAnnotator	CDS	443336	444541	.	-	0	ID=MGA_395;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948768.1;translation=MKKTIIFLLFIILIGCNKKSNDVTLNESWENIQKKSKGTVVNIYAWGGSEVINDYIDKYVGKNLKKQDITINRVPVDDIKVIMNKLLTEKIANKKDGSVDIIWINGENFKFAKENGLLWGEFAKILPNLNYVDEKTIQSDFGEPINYLEAPWGTAQFVFAYDSEKVTYPKNHVELKEIVKKYRGKFTYPQSSDFIGSVFLRQLFSSIDKEAYFRLVNEDLEESQIKKLLKPLWSYLNEIKPYLWREGKTYPESSGKMHELYSMQEIYFTMDYAPLFVESRIKNGSFTKATKTFLFENGTIFNNHYLSIPFNAKNKAAALMTINFLISFDAQYQKQIPNNWGDGNVLDFTKLTTMQKEKFDKIDIGDASISFDVLSKNRIPEIKSKYVEIIEKEWYENVAKN;locus_tag=LOCUS_03940;note=WP_011948768.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:45.6%25%2C q_cov:97.8%25%2C s_cov:96.6%25%2C Eval:8.5e-94],MGA_395
sequence01	MetaGeneAnnotator	CDS	444541	445194	.	-	0	ID=MGA_396;product=TVP38/TMEM64 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262999.1;translation=MKKKILIGTLLVILIYLLYKLNIFEKVKNIEDFKNWINNFGIVAPIVFIIIYALATVLFLPGTPFTLIGGIIFGPILGLVYVVLGASIGLSLAFLLARYFIRDTIYNKVKDNDTFQKIEEGVKKNGWRILLITRLVPIFPFNLQNYIYGLTNIKFVMYAILSSILIIPGSAVYVLSSGAIASGEGISKKNIILIAVAAIIFVILSFIPKLFVKKGEV;locus_tag=LOCUS_03950;note=WP_011262999.1 TVP38/TMEM64 family protein (Aliivibrio fischeri) [pid:38.8%25%2C q_cov:92.6%25%2C s_cov:88.9%25%2C Eval:6.4e-37],MGA_396
sequence01	MetaGeneAnnotator	CDS	445204	445641	.	-	0	ID=MGA_397;product=DUF1499 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942956.1;translation=MNAVVAVFIILVGGMTIKNNVEPKNIGVINGKFYELKKSPNNISSQTDIKEKYVEPLKFIENKEKSYVKILEVLNSYENAKIERKDKNYIHVVFKTSGLKFKDDVEFYFDENEKVIHFKSASRVGYSDMGKNRERYEEIKKRYYR;locus_tag=LOCUS_03960;note=WP_010942956.1 DUF1499 domain-containing protein (Geobacter sulfurreducens) [pid:34.3%25%2C q_cov:92.4%25%2C s_cov:87.4%25%2C Eval:3.3e-16],MGA_397
sequence01	MetaGeneAnnotator	CDS	445746	447134	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDVIIIGSGAAGLSVAYTAIGFGKKVLLIEKYKPGGECTWSGCVPSKALINIAKDIYTVKKYNEDFQIDTKEVLKNIQRVILNVYSHETPEKLINDGINYLNGKAKIKDKNSVIVNGKEYKTKNIVISTGSSPFIPPIEGIEKVDYLTNETLFYLEKLPKSIIILGGGAIGIEMAQALNRIGVKVQLVEMMESILIKEDREFAQIIKKELENEGVKIYEKTEAIKVIEKHNKKILTVKNMDKQFELEGEALLVAVGRKANIEDLGIEEIGVETTRRGIVVNKKLQTTIKNIYAVGDVVGPYQFSHMANVQGILAAKNIVLPIKQNINYSHVAWTTFTSPELATAGMSLEEIKKQNIKYREYQFDFKNIDRAMTKKGDIGKVKLFLDKKGYVLGATIIGERAGEIISEIQVLKTLKINYAKLVNVIHPYPTYSEVLNKISKKVAVDNILENPIVKFFMNFKK;locus_tag=LOCUS_03970;note=WP_010947814.1 bifunctional TVP38/TMEM64 family protein/FAD-dependent oxidoreductase (Legionella) [pid:38.4%25%2C q_cov:95.7%25%2C s_cov:62.3%25%2C Eval:7.6e-81%2C partial hit],MGA_398
sequence01	MetaGeneAnnotator	CDS	447349	447627	.	+	0	ID=MGA_399;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476580.1;translation=MNKKEFVALFAEKGNFESKAEAERKLDVLLKTIEESLVNGDEINFVGWGKFEVQEKPARKGRNPQTGEEIEIPAKKVVKFKPGKKLADKVNK;locus_tag=LOCUS_03980;note=WP_011476580.1 HU family DNA-binding protein (Ligilactobacillus salivarius) [pid:54.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-21],MGA_399
sequence01	MetaGeneAnnotator	CDS	447734	448480	.	+	0	ID=MGA_400;product=serine/threonine-protein phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880576.1;translation=MIIYYYTNKGKRSNNEDSLLIKDIVINNNMKKYEKLVFNDNKGKFFISDGLGGEEAGEIASQTILNELINSSNLDSIDNIHNEINNIKSILDDYSIKHNNLVFGATLGGISLGEKSFIINIGDTRVYKISNVDTKQLSIDHTLIMKYVENGHVPKSNIRFNPMRNLIVSSISGGFENSITKTNIKKLNYTKNDIFLICSDGVWELFDDEEIYNVFLNYSLENGLDLFFQKLINNCKDNISFIIIKIEE;locus_tag=LOCUS_03990;note=WP_010880576.1 serine/threonine-protein phosphatase (Aquifex aeolicus) [pid:30.4%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:5.8e-27],MGA_400
sequence02	MetaGeneAnnotator	CDS	391	1269	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKELLYIYNQTLELTTKKDKILRNNIFILAIIFLLINFFLGFFLNLYKIEGYISDNIQIKINFSKNLDLKNIKDFEKKILENKNIDYVKFLPQDMAFKNLEDELGMKLGTTNPLNNSMILYLKNVNNLEELGRVEYELTKYSEIEEVIIKREFLDKLLKLKNNILKILKLGAIILIIPLIILFYFIFNLNFSYLEKEILLKHETHEVSHNILILIPYFFKKLIGLIISWIIAYIVFIPFYDEIILTINGIDPFIVLASFNEIQGYIFLSFVIVVILLILATIIGRVKKYEE;locus_tag=LOCUS_04000;note=MGA_403
sequence02	MetaGeneAnnotator	CDS	1259	2368	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKILIIIIFLFSISYGEDLDTIRAKVNNIDKTIEKNKTSIVEAKKKEKEILKKLDRIENELSKITSDYSEMLKKYNTLNKNVEYAEKNLKIIDEELLDITLQYQNVIKKIETKFYLQKELLNNIENEFKKDEYISLLNNFKEKISKINYFKTKVEEVQEKILLEKNEIGSLTKKLYIKQKEMKNKQKEHATLVKQLKRQEYYLSNRIQVLRKEKLEAEKQIEKIIQERAKQAGIATVQIILKQLGEMLVPVKGKIIKYFGEEKINDITMQGIEIKSYLGADVKAINKGKVIFAQKFSGLGNLVMIDHGYNFVSVYGNLIKLNVKEGEIVSKGENIGLLGFSSDREPVLYFETRVSAVSTDPIIFLKK;locus_tag=LOCUS_04010;note=WP_010881132.1 M23 family metallopeptidase (Aquifex aeolicus) [pid:27.2%25%2C q_cov:54.5%25%2C s_cov:50.6%25%2C Eval:1.5e-12%2C partial hit],MGA_404
sequence02	MetaGeneAnnotator	CDS	2385	2903	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYFLSVFILIIASGLLVYLIKNHKKIKDFRKGLEKDLNTEKIYKYIQMKGYKIIQNKVYSYYMLLNGKYAEIQLKPELTVTKNGKKYAVIINKDKEIEKNTELRKKIAEIYYTGYFFGVIVYNVNNTKLDKIIYVNRKERYNKKVFQILIVIIMILSTLCSFYTLNFFLNR;locus_tag=LOCUS_04020;note=MGA_405
sequence02	MetaGeneAnnotator	CDS	2912	3721	.	+	0	ID=MGA_406;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016268.1;translation=MFKNVYIIYNTDKIEAINFYKESCKYLKKKGVKILDEKNIHKAEFFIIIGGDGTLLHASHKIYKYKKPILGINKGNLGFLTEIKSGEAFQMYDEVLRNKFKVSKRKFIKILYKNKEILGLNEAVIAKDGINSKMINIKAEINKQYLTTYRADGVIVSTPTGSTAYSLSVGGPIISPELDVMIINPIAPHTLTARPLIVNSNKKIEFKIENNTKTYLLVDGRESIRLNCGDKIEITMSSEYIELIESKNRDYYSVLREKLKWGDTHAKRT;locus_tag=LOCUS_04030;note=WP_011016268.1 NAD(+)/NADH kinase (Fusobacterium) [pid:43.6%25%2C q_cov:95.5%25%2C s_cov:97.0%25%2C Eval:1.7e-59],MGA_406
sequence02	MetaGeneAnnotator	CDS	3705	5366	.	+	0	ID=MGA_407;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016269.1;translation=MLKELRIENLAIIEKLYLEFESSLVVLTGETGAGKSIILDGINLLIGERSTQEMIRDGADKLLAEGIFEINNRQIEYLKELDIEVDDNEIIVQRIIERAGKGKAFVNGRRVPLNLLKNIMGTLVDLVGQHTHQALLEKEYHLKLLDRFLTEEEKKIKERLEETVNKYNSLNKELKLLKDEEKDLREKKDLYEYQINEIDSLNLKLGEDEELEEEYKKLFNSGKIKENLEKSLMLLREDEINALSIIGMAKRNLEYISKYGKEYEDILENLNKVYYELEDVVYYIGDQNDNIENNDFRLNEIVDRLDKINNLKKKYNMELEEILNYKEEIEEKLSKIDYNSFELTNLENSIQEIKKKYLKYAKDLSGIRKKIAQNIEEMLINEFKDLKMEMAKFKVFFDENNDISKDGIDSIEFMITTNIGQDYKPLNKIVSGGEISRIMLSLKSIFSKVDSIPILIFDEIDTGVGGETVRKVAEKLKNIGENVQVICITHSPNIAAKAKQQFYIEKKIIDKKTITIVKELKGKERLNEIARMLAGDNITDAVINHASELLKEG;locus_tag=LOCUS_04040;gene=recN;note=WP_011016269.1 DNA repair protein RecN (Fusobacterium nucleatum) [pid:48.0%25%2C q_cov:99.8%25%2C s_cov:98.9%25%2C Eval:2.5e-145],MGA_407
sequence02	MetaGeneAnnotator	CDS	5369	5836	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYREKLHESLKQTTKKLIAHEPIINEVGVIKSPLDLEDFTIIVGMVGKIEGQLIFGFEKDILKKIAQNMGELEDFTNDHLSISLISEFSNILTGNAVTYLSEHGYEGIKITPPSIVMGQDINLSTKLEEIHKYLLTFDDNIGVISLYVALKHNN;locus_tag=LOCUS_04050;note=MGA_408
sequence02	MetaGeneAnnotator	CDS	5855	6313	.	+	0	ID=MGA_409;product=chemotaxis protein CheX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963906.1;translation=MNVEYINPFTQATFDVLNMLGAFSPKIGKLSVKNEPVPSYGVSVIVGVIGNIKGQIVYSFTEDTARGIASAMMMGMPVEAFDEMAKSAVSELANMISGNASTGIAAKGLEVDISPPTLITGNNVRITSNVKQTVVVPIETTAGVIEVNIAVE;locus_tag=LOCUS_04060;note=WP_010963906.1 chemotaxis protein CheX (Clostridium) [pid:38.4%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:1.3e-24],MGA_409
sequence02	MetaGeneAnnotator	CDS	6321	7187	.	+	0	ID=MGA_410;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986427.1;translation=MNEINIKELKNFLNYLQTEKYFAKNTLESYKIDLEVFFSMLNKNYDDITEEDILEHIEILREKYTQNTVNRKVTTYKKFFKYLYKNKKIKKLITENIKNLRQINYIPESLSKLDIKRIIENCDNDKKGARDKLVIYLLINTGLLISEILSIKKSDIVDKKYLKYSHKKYPKMIELQNDTLELLDEFIEKNNIEDNDYIFLGLTRQNFAARLKKYVKKAGINRNIYPNMFRNTLALDLLEKGEDIKNIKEKLNYINISRAGIYSIRNKKSIKDIYNEIAIGDWDVSENI;locus_tag=LOCUS_04070;gene=xerD;note=WP_011986427.1 site-specific tyrosine recombinase XerD (Clostridium botulinum) [pid:28.8%25%2C q_cov:92.4%25%2C s_cov:96.2%25%2C Eval:7.1e-22],MGA_410
sequence02	MetaGeneAnnotator	CDS	7168	7671	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQKIFNALGEEYLEIKKLFLNKELILAYEKLNEYEKTKKNKNYIYFLKALIWIIQKKNKKSLEYFEKIKYEDIKLLIGKDEYLEILGTIYLEEKKYLEAAKYLQEALTINKTNINAKFNLGIIYIHLKDYKNAYKTFLELEKYNIKNNELKESIKKNIITLEKVMN;locus_tag=LOCUS_04080;note=MGA_411
sequence02	MetaGeneAnnotator	CDS	7754	8206	.	+	0	ID=MGA_412;product=S-ribosylhomocysteine lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948445.1;translation=MDKTNVESFKLDHTKVKAPYLRIAKDLEYNGVKVRKFDLRFCQPNKEAMETGAIHAIEHIMAEEFNNSEYGIKEIIDFSPMGCRTGFYIIMFTEFDQKELLEKIKFYLNNLLKYDEIPAANEIQCGNYKDMDLKRAKEIVKKVVNNLELF;locus_tag=LOCUS_04090;EC_number=4.4.1.21;note=WP_011948445.1 S-ribosylhomocysteine lyase (Clostridium botulinum) [pid:48.2%25%2C q_cov:93.3%25%2C s_cov:92.0%25%2C Eval:1.2e-32],MGA_412
sequence02	MetaGeneAnnotator	CDS	8316	9212	.	+	0	ID=MGA_413;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016271.1;translation=MKSGFIAMVGRPNVGKSTLTNKLVKEKVAIVSNKAGTTRDQIKGIFTKGDSQYIFVDTPGIHKPKHLLGEHMTDVAIRTLKEVEVILFILDGTQEISTGDMFVMEKILEAKGTPRIAVINKIDLLSDDEIENKKKEIKEKLGEFDRIITLSAEYGIGTEKVLKVLENYLVEGVMYYPEDMYTDMPIYKIISEIVREKILIKTKDEIPHSVAIEIINVTRRNKGKDKYEINIYVERNSQKGIIIGKNGKLLKEIGTEARKDIEELLGKEIYLNLWVKVKEKWRKKKPFLKELGYFINEE;locus_tag=LOCUS_04100;gene=era;note=WP_011016271.1 GTPase Era (Fusobacterium nucleatum) [pid:67.2%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:7.8e-112],MGA_413
sequence02	MetaGeneAnnotator	CDS	9226	9828	.	+	0	ID=MGA_414;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259716.1;translation=MKYKILAISDIHILKKYSINLILEKFKDIDFIISAGDVSNDYLDYLASILNKDIIYVNGNHVYNEKHNISFCKNIDGKIIKYKDIYIFGLDGSRVYSFKKHQYTEREMFIKILKNIPRLILHKPDIVVTHAPIRYIHDKEEHVHKGFRVFYKVINWFHPKLWIHGHIHLSNHYEIQETEYNGTRIINAYGYKLIEFQKDT;locus_tag=LOCUS_04110;note=WP_012259716.1 metallophosphoesterase (Chloroflexus aurantiacus) [pid:33.3%25%2C q_cov:96.0%25%2C s_cov:98.1%25%2C Eval:2.5e-26],MGA_414
sequence02	MetaGeneAnnotator	CDS	9840	11687	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYIKTEAKEAYKKFLKEAKNPLKIFEKRGNLKKFVDRQKELAAYNSVYLGVKNVELSKIVGSVQKYMDFDKNFVPKNKIIETRWCNIYIAYQTNNRLPLVQLYKIKDEYYVYDGNHRISVANFLNFKSIEAEVTEFLPSTHKKEDIIYREKFLFEKETELEGIEFSEIHQYRRIHKEIKDFSDYQKEKYDNKIDYKTAAKIWYTELYKPAITILNGNNMLDYFIERTISDIFIYFLDHKYYESEKYMEDVGYTYALISFINHIKTNADKSLKSRINVYSYLKEFKYLEDLDMKKSLDKETLNKLSILKEITEIDFLYNFIILYEIDEYIERKDIKDFRAGVEKWYKKQFINKFDELNKRISQLPKRYSDYLKYIENEKEIIFHHFRSFKDIAKKKYKKKKVDIVANYILDIFIPIVESIQISNVDKNDLNKNYINIYDGIYEKYTYLFDYNQKITIYKAAEAYFNSEGAVYFKINDWFGTKYINNKKRAEILLRSINKLDKEWQEFHIELMKKYGEFGRFDTLFKLQELIKISIEEFGTEETKNKVKNDLEKLFNQKEINVFYKTKRGLIELKQNENYSFVDFYVDIMESSKYLGEDKNYVDIIDLAFSVMYN;locus_tag=LOCUS_04120;note=WP_012583629.1 DUF4032 domain-containing protein (Dictyoglomus turgidum) [pid:37.3%25%2C q_cov:41.0%25%2C s_cov:94.7%25%2C Eval:4.2e-40%2C partial hit],MGA_415
sequence02	MetaGeneAnnotator	CDS	11728	12048	.	-	0	ID=MGA_416;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392444.1;translation=MSKVLHLNENNFKAEVLEANGVVLVDFWAAWCGPCKMLGPIIEQLSEEMPNVKFAKVNVDEVESLAARYGIRSIPTMYIFKNGEIVDKLIGLLPKEALKNKLAQYL;locus_tag=LOCUS_04130;gene=trxA;note=WP_011392444.1 thioredoxin (Moorella thermoacetica) [pid:56.3%25%2C q_cov:96.2%25%2C s_cov:95.4%25%2C Eval:5.0e-29],MGA_416
sequence02	MetaGeneAnnotator	CDS	12702	13136	.	+	0	ID=MGA_417;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901604.1;translation=MNKYTKMLKKEEVSRKWYHIDADGQILGRLAAEVATMVMGKKKVSYTPHVDNGDYVVITNAEKIAVTGNKMADKKYYRHSGFPGGMKVRTLEELLAKKPEDAILLAVKNMLPKNKLGREMLKRVKVYAGNEHGHIAQKPETVEL;locus_tag=LOCUS_04140;gene=rplM;note=WP_005901604.1 50S ribosomal protein L13 (Fusobacterium nucleatum) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-53],MGA_417
sequence02	MetaGeneAnnotator	CDS	13153	13548	.	+	0	ID=MGA_418;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901602.1;translation=MAVNQIWGTGRRKTSTARVRLIPGATGITINGKTMKEYFGGREILAKIVEQPLVLTETLEKYEVKVNVNGGGPSGQAGAIRHGISRALVEADENLRKPLRDAGFLTRDSRMVERKKYGKKKARRSPQFSKR;locus_tag=LOCUS_04150;gene=rpsI;note=WP_005901602.1 30S ribosomal protein S9 (Fusobacterium) [pid:77.5%25%2C q_cov:98.5%25%2C s_cov:97.0%25%2C Eval:1.2e-51],MGA_418
sequence02	MetaGeneAnnotator	CDS	13649	14563	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKRKEQNEVLDTIAQNDVRNDQVEELKKELEKMESLKNSFLESISTSKNIDKELNEVLNFVTDNVMNLNNVLENIINNEISNDNTEFEESLLEVKEKIEENNKLITDTSKNITDLNKQIEKTTSTISEVSSTVVKLEKNNVKMRSLIEKINDISSQTNLLALNAAIEAARAGEAGKGFSIVAQEVKKLSQMTQDAATDIGNELSKLTGALEFIANKSVEGEKDLENGRDLALKSENSFKDLINNKLIDSLNKFIDVTKDMNSSSTISEELQNLKSEIEEVITGIENVQEKLNERETLFEKTK;locus_tag=LOCUS_04160;note=WP_010963864.1 methyl-accepting chemotaxis protein (Clostridium) [pid:26.6%25%2C q_cov:85.2%25%2C s_cov:44.9%25%2C Eval:1.8e-23%2C partial hit],MGA_419
sequence02	MetaGeneAnnotator	CDS	14612	15526	.	-	0	ID=MGA_420;product=pseudouridine-5'-phosphate glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948816.1;translation=MIEKYLEISKEVKEALENNKPVVALESTIISHGMPYPQNVETALNVEKIVRENGAIPATIAILNGKLKVGLSKEEIDYLGKKGLDVVKTSRRDIPFILAKKIDGATTVAATMIIANLAKIKVFATGGIGGVHRGAQESFDISADLEELANTNVAVVCAGAKSILDIGLTLEYLETHGVPVVGYQTNELPAFYTRKSGFFVDYRVDDIKELADALKVKYELNLKGGMVIANPIPEKYQMDYDIINNAINNALKELDEKGIKGKESTPFLLSKVKEITKGKSLDSNIQLVYNNAKIASQLANELCK;locus_tag=LOCUS_04170;note=WP_011948816.1 pseudouridine-5'-phosphate glycosidase (Clostridium botulinum) [pid:80.9%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:7.2e-137],MGA_420
sequence02	MetaGeneAnnotator	CDS	15527	16609	.	-	0	ID=MGA_421;product=PfkB family carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948815.1;translation=MTDREEEILQKIRENPMISQNELADMLNITRSSIAVHISNLMKKGYIKGKGYILKENPYICVIGGANIDIQGFPKEKLNPNDSNPGNLKISLGGVGRNIAENLVKLSQNTKLITVLGDDIYGKKILEHSLNISLDINDSLILKNKNTSTYLSILDETGDMYVAISAMDIFDELHIEFMHKKMKYINGADITVIDTNLPKKTIEYILKTGNSKFYLDTVSVSKAKKIKDLIGYFHTIKPNKLEAETLSEISINNESDLDRNAEYFFNKGVKEVFITLGKDGVYYNNKKEKGIFKIKEQKVVNATGAGDAFMAALIYSTINNFSIKEKLSFSLAASILTMQSSDTINPNFNFDNIRKIEKEL;locus_tag=LOCUS_04180;note=WP_011948815.1 PfkB family carbohydrate kinase (Clostridium botulinum) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:4.0e-116],MGA_421
sequence02	MetaGeneAnnotator	CDS	16853	17059	.	+	0	ID=MGA_422;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005900759.1;translation=MLHGTVKWFNAEKGFGFITSEEGKDIFVHFSQINKKGFKTLEEGEKVTFELTEGQKGPQASNVTTKED;locus_tag=LOCUS_04190;note=WP_005900759.1 cold-shock protein (Fusobacterium) [pid:74.2%25%2C q_cov:91.2%25%2C s_cov:93.9%25%2C Eval:9.0e-23],MGA_422
sequence02	MetaGeneAnnotator	CDS	17093	19252	.	-	0	ID=MGA_423;product=GGDEF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261819.1;translation=MEEKIILKEKIKEYLKFSNNNATDIFNIKSIVDIKNNTQEFLFQQSTYLKLINSSFLTYTEKVDEYLNLLLEMVSLYKKVNLKDELIGLYFEIGNIFYDIRDYVKASEYFFKAYNYRSDIEDKSFLYILYNNIAILEYHIGEYEKAYYYMLLSLEEILKHSKEYSIQNDNKIIPFLNISQILLKLNEYNKALKYLKIAEVFIKFYNLTEFENTLFYLLNKTYLKLNKKIKKHSLHLMKTNNKKSISIIHFREDTINLIKNCILTEQYSNLVSYFSKVTYISYRNNLILSDIYKLASMYYSKIKNYKKAYLYSRKEIINQKKENKKYNKNISNNIEKKINFNYKFEDEEVENDYLNNSNYINTLSIINNIGIEITSIMDFDLLLEKIYLNLSKIIPIDIFGIGIINNKDSTINYAIFKEHNEEIKYDPKKLNDSSSLGAYCIRNKKEIIINNWKKEYYKYNIPLNKNFISKIVPSSILFFPLIIREKILGVLTLQSYNSNVYNNEHIEICRILTNYIAIALKNSIQSNDLKKEVIKRKKAEEELKNLNNKLRDLSQKDDLTKLYNKRIFNKKFNSFWNKAAMNKESITLIIIDIDKFKEFNDNYGHLMGDFCIVKVAETIKRAFNFDADVLARYGGDEFTIILYNTNKEIVTKKVNLFFRELSLLQIKHEFSTVSNIVTATLGAASIIPKEFNQERKLFILADKALYEAKKKGRNRIIYK;locus_tag=LOCUS_04200;note=WP_011261819.1 GGDEF domain-containing protein (Aliivibrio fischeri) [pid:24.4%25%2C q_cov:94.6%25%2C s_cov:97.8%25%2C Eval:4.1e-34],MGA_423
sequence02	MetaGeneAnnotator	CDS	19324	23592	.	-	0	ID=MGA_424;product=PolC-type DNA polymerase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627746.1;translation=MDKNFITIVPNKNPFKDFGVVNVDIKELIVAKKQKAIKFICFIDDIQNLKELDIIEQKFIEKFGEEIRFKFQIEYSKENLSNEEKKLIVDRVIKDIKRIKVVAKSFLAFYNVIINNDNIIIELKNDISLTYLMQNKIDLKIQEGLTEFGINSEVKFSIGNFEKEKKQIEEEIIKKEETYHNNFEKTQKENIKVPKTTTSKNKDLIYGREIKDKTISFQELEYIHQNDTCTLEGEVFSYTEKALRTEKTLVTFAITDYTDSIIVKTFLKKNEKINLKKGMWVKIKGKKSIDSYNNNEEYIMVNSIMEIAPKIKGRIDSYPEKRIELHAHTKMSEMDAVVEVSDLVSQAAKWGHKAIAITDHGVVHAFPAAYKTAKKYNDFKVIFGCEVYLVDDELHMVKNPRDVAIEEETYVVFDIETTGFDPYNDKIIEIGAVKLKGNKIIDKYSTFISPERKIPDEIIKLTNITDEMVKDAPTIEKELPNFLKFIEDTTLVAHNASFDVGFITQKSKLINIELSPSVIDTLQWSRNIRKDKSRHGLKSICKDYGINLDNHHRAIDDAEATAEVFKKFINIVLKEGAYKLNEVDSIFKNDIKNASTYHAIILVKNKVGLKNLYELVSEAHINYFHRKPRVPKSLLRKLREGLIVGSACESGEVIQAYVRGKAKEEIEKLAEFYDYLEIQPRSNNMFMIENGSMKNVDELLEMNKYIYKLGKKQNKLVVATGDVHYMNEEDNIYRKILLYGKGFKDFDTDNKLYFRTTDDMIKEFSYLGNEVAQEVVITNPNLIADEIEEVKPVPDGFYPPKLDNAEETVRKMTYEKAYEIYGNPLPERIEKRLERELNAIIGNGFSVLYLSAQKLVKESLDNGYLVGSRGSVGSSLVAFMMGITEVNALYPHYICPSCKNSEFMNQEGSGVDLPDKICPKCGTQYKKDGHSIPFEVFMGFNGDKVPDIDLNFSGEYQSEIHRFTERLFGKENVFKAGTISTLAERNAYGYVKKYCEENNINLRSAEMTRLAKGCENVKKTTGQHPGGMIVVPKGHSIYEFCPVQKPANDQKSDSITTHYDYHVMDEQLVKLDILGHDDPTTIKLLQDYTNVDIYEVPLADKETLKLFSSTESLGVTQEDIGSKVGTFGIPEFGTQFVRQMLLDTMPTTFAELVRISGLSHGTDVWLNNAQEFVRAGKCTLSEVISVRDDIMNYLIDNGIEKGTAFKIMEFVRKGRPSKEHEQWEEYSKLMKEHGVKDWYIESCRRIKYMFPKGHAVAYVMMAMRIAYFKVHYPLAFYAAYLSRKAEDFNSDIMLKDIDFIKKYRLELASNGKLDVKGKAELSLCEIIIEMNARGFSFLDIDIYESDGFKFTIENGKIRVPLIGLNGLGTSVVENIINERKIGKFISYEDLKRRTKASQTVVDKLKEVNAIEGLNDTNQISLF;locus_tag=LOCUS_04210;EC_number=2.7.7.7;note=WP_201627746.1 PolC-type DNA polymerase III (Fusobacterium canifelinum) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_424
sequence02	MetaGeneAnnotator	CDS	23695	24402	.	-	0	ID=MGA_425;product=SDR family NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011070853.1;translation=MKYNIITGGSSGLGFEIAKLIVEKDENIILIGRNIKKLEKCKSELKEYQKESKIITYPLDISDEKGVYYFIDFLDKNQYNVQRLFNVAGKGFYNNFNNITKEKMIDIFNSNLFGLILITKSICDYMLRHKIKNQRIISILSTAALKGKKNESLYNSAKFGAKGFLEALRDEIKEENIELINIYPGGMKTPFWKDSNANYNFDTFMDPLDVANEIINVSFNQKIFISDITINRPKR;locus_tag=LOCUS_04220;note=WP_011070853.1 SDR family NAD(P)-dependent oxidoreductase (Shewanella oneidensis) [pid:30.6%25%2C q_cov:97.0%25%2C s_cov:98.7%25%2C Eval:1.1e-24],MGA_425
sequence02	MetaGeneAnnotator	CDS	24549	25931	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFLLLSLISLLSINSFAFDDGFDTTDSGFDSAFSDSADFSDNAFVTEDANKLDFEFNGELNLINRIITQGIKNIKDNELNIDDYQKFKTELKVSKANSELKANFLYDSRDEMVKIDEATFRLYYDNYDVLVGKTKLVWGKGDKVHVIDNFNAEDMSDIINPDYLDRKIPENLVQVNYYIGNGNLEFVYAPKTTTTKLADNDLWKTSTQLNLETSLETIATKNLELYSAISNLKNKIYGDNIAENGQVGIRYTNSKNGYDYGISYYHGVEKTASFYMNGSELETSTLSSLSNLPDSAILSTIKNIDIKYKKYDVIGTELSTVLFGINSRAELAYYNIEDSNNQVKSIIGGDKDLALHNINVNVQVKTEYTQNLDNDNFANTLIAKISDKFKNERVLPEIQVVYNIEDKDYMLNNQIEFKVKDDTSFKVMYKIFEGDSGTTFGDFDTNDYLAANFIYKF;locus_tag=LOCUS_04230;note=WP_002673491.1 hypothetical protein (Treponema denticola) [pid:31.6%25%2C q_cov:36.7%25%2C s_cov:29.3%25%2C Eval:3.3e-15%2C partial hit],MGA_426
sequence02	MetaGeneAnnotator	CDS	25978	26775	.	-	0	ID=MGA_427;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002673490.1;translation=MKKILVGLLIVVMSLSAFSMTGKEIMQAVKDRDTGKTLHALMGMDLIDKDGTVNPRTIEVWGETYDEANDLSRSIMVFKAPASVKNTRFLQVENKDRDDDKWIYLPALKRVRRISSSEGSSSFMGSDFTYDDMETRDVEEDNHKLLREEKLGNYDCYVIESKAKNSEDSQYDKVISWVSKEHFIVVKAELYSKKTKKIEKILTVKQDLAQVNGIWTIFETIMENVETGHKTKLYIKRSKSGSPYIEYNKAINPARFTQKYLKTGR;locus_tag=LOCUS_04240;note=WP_002673490.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.8e-48],MGA_427
sequence02	MetaGeneAnnotator	CDS	26861	29482	.	-	0	ID=MGA_428;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680747.1;translation=MNTFFKKPWLIIIFIVAMTGFFSWQLPKIKINNEVEIFLPENHISRITKNRLEDIFGSTDAMAIGIKSKTSSIITIKNLELINKLIKDLEKINNVEDVTGLTNTDFIEGTAEGMKVGEIAKEIPKTETELNMVKEKLLSWKIYKGNLYSDDLKSTQILIKLKKGLSIEEKEKIYYDIKDVLNKYNNPTMDYYVAGTPVITVLLGEYMRQDMSRLIPFVVLVVVLSLYLSFKNLSGVLLPLITVLVSTIWTIGLMAMLNINLTMVSTVIPVLLVAVGSAYGIHIISHYYDDLKKEKSQLSEAKHRELVVETVHKVGKPVFLAGVTTIAGFASLATSSIVPIKHFGIFTAVGVLVALIVAVLLIPALLLVRHNSLKISDDDDVDDGLITKILIGFYHYFGRKIIRVLSLSLIIIVISIIGMSKIIVDGPLIEMFKPSSEIRVSDKYLSSTFNGTTVLDILIEGKNKGDLTNPEILKEMDNLKKFLKYNYSKVGEVTSFADFLKRMNQVMNYPQEDEEIISDSTSDSDLDVGFVDDGFSNDSFTEDNSFGDDSFTDNSQSEKTTTTIENKTPKIKTANDVIKVINNAILHSDKLNLTAEELVEVINKELNYKGASYNEIPYNPKKYMAANRDELKNLISQYLLLYSGSLDDYINDQLEPSKARMIIQLKTGSNIYTKKVEKAIKDYAAANFPKGYTINVAGHADMSSAVNDLIVSSQIMSIISSLIIVFIIVAFSYKSIIAGIYGIIPLTLSLLINFGLMGYFGIKLDLGTAMVASIAIGIGVDYTIHFLSTYNYERKRSDDLEIVTKNTLITSGKAIIFNAISVAGGFAVLLFSNFVPLVNLGLLISLTMITSSAASMTVLPALLNLFKPKFISK;locus_tag=LOCUS_04250;note=WP_002680747.1 efflux RND transporter permease subunit (Treponema denticola) [pid:36.6%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:8.1e-165],MGA_428
sequence02	MetaGeneAnnotator	CDS	29563	30174	.	-	0	ID=MGA_429;product=multidrug efflux system transcriptional repressor MtrR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002216625.1;translation=MRKTKEDADKTKQAILEAALDVFLEKSYETATLNNIAKKANLTRGAIYWHFENKFDILKELTEMYLGSFLTKIDEEISKTDTSSICQIEALVKKYFDYFTSDKNIKKYKQIIEFKIGFTKDTSLIHNLLSEIKIKIINKTNNLILQGQTKGNIRTDLDAKFLAFAVINMILGFDRALMFNENIYDDFPSDYIVKNLIKLLKTP;locus_tag=LOCUS_04260;gene=mtrR;note=WP_002216625.1 multidrug efflux system transcriptional repressor MtrR (Neisseria meningitidis) [pid:27.2%25%2C q_cov:77.8%25%2C s_cov:75.2%25%2C Eval:5.7e-13],MGA_429
sequence02	MetaGeneAnnotator	CDS	30257	30820	.	-	0	ID=MGA_430;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016825.1;translation=MAKKIVFTKEEILKKTYELLREKGIEYITARNIAKKLNSSPAPIYNSFKSIEELKYEILSMAKTTFLEYVQKPYTDKIFLNIGMGIVLFAKNERQLFDSIFLKQEFYKDLIHDFNKMIFEEFDQDKRFQKLGEEKRRWLLHKCWIYAHGLATLVCTDFISNVDTEYIKKNIYDTGMIFINSVLKDVE;locus_tag=LOCUS_04270;note=WP_011016825.1 TetR/AcrR family transcriptional regulator (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:92.5%25%2C s_cov:92.0%25%2C Eval:1.6e-40],MGA_430
sequence02	MetaGeneAnnotator	CDS	30860	31315	.	-	0	ID=MGA_431;product=dihydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000637205.1;translation=MLSIIVAFDENRLIGDGINLPWKIKEDLQNFKNITTGHTIVMGRKTFDSIGKALPNRKNIVLTRDKKFSFDGIITINNIEEVFDLSKNEEVFIIGGREIYTYFINKVDRYYISHIKGSYTGDIYFPDVNLQNFKIIKEKEYKKFTFKIYEK;locus_tag=LOCUS_04280;gene=dfrA;EC_number=1.5.1.3;note=WP_000637205.1 dihydrofolate reductase (Bacillus) [pid:44.4%25%2C q_cov:87.4%25%2C s_cov:82.1%25%2C Eval:6.2e-32],MGA_431
sequence02	MetaGeneAnnotator	CDS	31460	32137	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLIFALTFILLTVNIYSKQGVSVMYITGMSNSNLSGLNSKFASNGIPKVEEAFSVQGASGYFTFDRIVLGLEAAALLGNDKINTNYIVGLDGMYGKIIMGYALIDNGRLSIIPRFGVGKLSMDVKVEKRNNNDIQTVDDALTLYTEKSKFNMAGTMLDAGVSMEYNLGVDGMTGFMFGIEMGYKFLPLNADFTMDDLSLKSTPAVNMNGYYFVIKLGAGQFN;locus_tag=LOCUS_04290;note=MGA_432
sequence02	MetaGeneAnnotator	CDS	32283	33056	.	+	0	ID=MGA_433;product=sterol desaturase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005453865.1;translation=MFIIELKLEILIFFFFSFLIFEKINYYYNQGNSFLKHDKSNLAIMLFNTIIFNSFFNYVFFLTTSSRLFRKYGVFQILKINYIIKGILIILLLDFWTYFWHRLNHEMKFLRKFHKVHHTDTMMNVTTAVRFHFIEFLLSFLMKTLIILILGISLKYLIVYEIIMNICVYFHHSNIKINKKVDNILNKIIVTPYMHRVHHSIIKKERNSNYSALLSIWDKIFNTYTYKEDIQDIIFGLEKYQDKKYDTFIYMLITPFK;locus_tag=LOCUS_04300;note=WP_005453865.1 sterol desaturase family protein (Vibrio parahaemolyticus) [pid:33.6%25%2C q_cov:84.8%25%2C s_cov:80.0%25%2C Eval:6.1e-35],MGA_433
sequence02	MetaGeneAnnotator	CDS	33468	34481	.	+	0	ID=MGA_434;product=3-deoxy-7-phosphoheptulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964210.1;translation=MIIQMGIEATERDVLNVIEKAESKGLKTSKIIGQNIIVIALIGDTSKVSDEDFAEMKYVDRVTRIQEPYKKANRKSHPENTIIDINGIKIGGEDFVIMAGPCSVETPEQITEVARAIKKSGAQILRGGAFKPRTSPYSFQGLEAQGLDLLNIAKKETGLPIVSELMAIDQIPLFLDKVDIIQVGARNMQNFALLKELGKIDKPILLKRGMSATIEEFIMSAEYIMAGGNNKVILCERGIRTFETYTRNTLDLSVVPAIKELTHLPIIIDPSHATGKWWMVESLSKAAVAVGADGLMVEVHNCPEKALSDGPQSLKPEKFDKLVKELRKFTNIVGKKL;locus_tag=LOCUS_04310;gene=aroF;EC_number=2.5.1.54;note=WP_010964210.1 3-deoxy-7-phosphoheptulonate synthase (Clostridium) [pid:65.3%25%2C q_cov:97.3%25%2C s_cov:97.6%25%2C Eval:3.4e-122],MGA_434
sequence02	MetaGeneAnnotator	CDS	34498	35346	.	+	0	ID=MGA_435;product=prephenate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428643.1;translation=MIENGFNITIVGFGLMGASYAMALKKFHKGKIYAVDIDKESLLKAKDRGLIDEGFVEPKEPLEDSKLVIICLYPKLLVKFIEENKENFQNNAIITDISGVKCDYIEKIDNILQKKADFVSTHPMAGREKQGMDYADANIFQNANFIIIKKENNKKENVKLIENLAKNMGFLRVTKVTAKEHDNIIAFTSQLTHAIAVSLVNSDDEKFNTKLFIGDSYRDLTRIAKINSELWSELFLENKENLIYRIDNFIDKLETIKNALLNEDKDRLIKEFKESSDRRDRF;locus_tag=LOCUS_04320;note=WP_003428643.1 prephenate dehydrogenase (Clostridioides difficile) [pid:46.7%25%2C q_cov:97.2%25%2C s_cov:98.2%25%2C Eval:1.3e-68],MGA_435
sequence02	MetaGeneAnnotator	CDS	35360	36646	.	+	0	ID=MGA_436;product=3-phosphoshikimate 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964213.1;translation=MKKVIINPEKNNIKGEIVIPPSKSYAHRAIICASLAKGRSIIENIDYSVDINSTIEIMTKMGAKIEKNGSVLTIDGTDNIKITDIDLNCNESGSTIRFLIPLALARYNRAKFLGKGKLITRPLDVYYNIFEKQGIKYETDNGKLPLFVEGELKPDTFIIPGNISSQFISGLMFTLPLLNGDSIIKIKGNLESKAYVDLTLDMLNRFGIEIENRDYQNFYIKGNQKYKAQNYRVEGDFSQAAFWIVAGLIGENPITLKGMNINSLQGDKEILNIAKRMGGQLDIKEEEIIVYPSKTKGIKIDVSQCPDIGPILSVLGSVSEGETNIVNAERLRIKECDRITASVSELAKLGANIQEIEDSIKIIGVERLSGNKTDSWNDHRIAMSLAIASIKIDGEIEINNSECVKKSYPSFWKEFTKIGGHLNECNVG;locus_tag=LOCUS_04330;gene=aroA;EC_number=2.5.1.19;note=WP_010964213.1 3-phosphoshikimate 1-carboxyvinyltransferase (Clostridium) [pid:54.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.9e-123],MGA_436
sequence02	MetaGeneAnnotator	CDS	36627	37730	.	+	0	ID=MGA_437;product=chorismate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964214.1;translation=MSATWGENIKLTIFGESHGPGVGIVIDGLPPGLQIDMEFVRNELERRATGKNMLMTARKEPDAIEIISGYFDYHTTGGPLSFVIKNKDQKSKDYSQLKNWMRPGHADYTGNVKYRGFNDYRGGGHFSARITTPFVVAGAIAKQILAKENIYIGSHIKSIANIEDRDFEEKDLNKNIFGELAKEQLCVLNKEVANKMRDEILQAREELDSVGGIVETAIINLPAGVGEPFFESIESKLASMIFSVPAVKGIEFGKGFGITRLRGSEANDEYYYDKNGNVKTKTNNNAGILGGISNGMPIVFKTALKPTASISKPQKSINIETKKEEEFAITGRHDPCIVPRAVVILESAAALTILDMLIESRRYNGFK;locus_tag=LOCUS_04340;gene=aroC;EC_number=4.2.3.5;note=WP_010964214.1 chorismate synthase (Clostridium) [pid:56.6%25%2C q_cov:97.3%25%2C s_cov:100.0%25%2C Eval:7.5e-118],MGA_437
sequence02	MetaGeneAnnotator	CDS	37717	38835	.	+	0	ID=MGA_438;product=prephenate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861347.1;translation=MDLNKLRNEIDEIDKKIVELIERRYEIAIDIAKYKEKNNIPIYNEIREKEVINKNLKYIENKEFMNEVKKTFINIMELSKDIQKRVIKIKKNLNVKEAKKIGFQGSEGSFSHEALLKYFKNYEEIKKYPSFEEVFKAINKRDIEYGIVPIDNSSTGEITDTYDLIRKYGLYIVGEIAIKIEQNLLGISGAKLENIKEIYSHPQGFQQSREFLDEHKDIKLVSFPNTALSAQYIKEQNDKSKGAIASIRAKEEYGLEIIVPSINSNKNNYTRFVIVGENFEKSIENNKISIIVSTPHKTGGLYKFIKKFADNNLNMLSIKSRPIQDRPWEYFFYIDFEGNLEDENVKDTLEYFKKESGYFKFLGNYKKDDNIL;locus_tag=LOCUS_04350;gene=pheA;EC_number=4.2.1.51;note=WP_011861347.1 prephenate dehydratase (Clostridioides difficile) [pid:45.7%25%2C q_cov:98.1%25%2C s_cov:98.5%25%2C Eval:5.4e-95],MGA_438
sequence02	MetaGeneAnnotator	CDS	38845	40161	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYGLLGEKLGHSYSKIIHEDFYKIQNLNYLYELIEIKKENLKEIEKKIRSKQLSGVNITIPYKTEFIKYLDIISENAKAIGAVNTIYLKNGKLIGDNTDYYGFKMTLEYNNINCKDKNVYILGSGGSARAILKCILDLGGKVFIVSRNKNKAEEKFKDSFKKINYLDYSQLKDIDKDDNILINCTPIGMYPKVEDSPIEKEIIKNFKAVIDIIYNPETTKLLKYAKEKNIKYVNGLFMLVAQAIKAEEFWGNIEENLFEIIEKIYFKLKLQLYKNNIVLIGMPGSGKTSFGKRISEKLNRKFVDLDEEIEKVKNMSISQIFEKYGEKKFREIESEITQKFSKQKDLIISTGGGIIKNNKNIEALKENGIIIFIDRSLENLINDIDVKHRPLLKNNVEHIKILYNERYSIYNKAADIIVKNNTNFNNVLEKILNNIVI;locus_tag=LOCUS_04360;note=WP_010964215.1 shikimate dehydrogenase (Clostridium) [pid:40.9%25%2C q_cov:59.8%25%2C s_cov:71.7%25%2C Eval:3.5e-51%2C partial hit],MGA_439
sequence02	MetaGeneAnnotator	CDS	40223	41110	.	+	0	ID=MGA_440;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008760419.1;translation=MNKLSNRLLAIFACFLWSTAFVGIKIGYTYYSSPFNFAGLRFTLAGVLLLPLIYKEKLFKILKDNLKFIFFISLAQTGIGYAIFYSAMKYVDGAVAAIVIGASPLITAILSHYLLDNDKMSKAKFLALISGMLGIILISLSTKPFSVNGLKSMLGIGLLLFNSILGGIVNIKISKNKIVINPIVLSSLQMIIGGIFLLIIGRVFEGKIYFDFPIVFYISLLWLAFLSAAAISIWFKLLKSKDIKVSELNMWKFLIPLLGAFLSWIILPNENPNFLSIIGMIIILISLVSYNRIKK;locus_tag=LOCUS_04370;note=WP_008760419.1 DMT family transporter (Bacteroides) [pid:37.7%25%2C q_cov:95.3%25%2C s_cov:91.0%25%2C Eval:3.0e-47],MGA_440
sequence02	MetaGeneAnnotator	CDS	41120	41737	.	+	0	ID=MGA_441;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000216917.1;translation=MKRLLEIAKQLQAISQSGLYYSENDYDLDRYKQIEDLSVEMIELLTNNSIEKIKLVLCNDDGYKTPKVDVRGVIFDEKDRILMVKEKIDEKWSIPGGWSDIGYSPKKVAEKEVFEEAGLVVEAQKLLAVLDKSYHKHPSDINHVYKMFISCKVVGGELKKGMETLDVGYFDINDLPELSITRITKEQIDMLYKFHKGIYTETICD;locus_tag=LOCUS_04380;note=WP_000216917.1 NUDIX hydrolase (Bacillus thuringiensis) [pid:45.3%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:1.3e-49],MGA_441
sequence02	MetaGeneAnnotator	CDS	41787	45413	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRIRNSIKLKLIVSVLTIIVVTIALATFYNINLFIKNTNKELLNLLSTQSISANIILNNNIEKFALKAKNITQDSTLTNLLQMQLYKKIDDFSKNILNKNPDIDEIIIFNKNNNSISHPNLSNNSFIKNFIKSKKSKYSFWNDNGNLKIIVNAPILTKSKTQLGSLVLIQNIQKQKYNISQLSKKINTTFILFDNSKLVFISDSNGHIKDSTQIKYDINLKNIKNNIYAKQKIKIDNNNYYVLYTPLVDFHNNIIGFYGIASNIKQLDNSITSIIFNMIIMSIFGCIFATIFLLILANILLNPLHTFIETAKDIGNGHYSKRINIKNNDEIGILAHYFNDMLDKLENNIIEIEKKNERLKELDKIKDDFLANTSHELRTPLNGIIGLTESLLEGAGGKLSKKTEFNLNMIMSSAKRLFNLVSDILDFAKIRNKELEISLKDIDIYQITAVVTTLCRVLIGNKDIKLINKISKNFPIIYGDDARIEQILYNLIGNAIKFTHKGEIIIDAKINEKKDTAIFYIKDSGIGIAPEKLDKIFESFEQGDSSISRKFGGTGLGLSITKQLIELQGGSIYVESTLGKGTTFVFTLPISDEVDQDRMFEEEVIREQIKREKKLKDRIKNAEKQNLNKAYLPKFNPNNSNKNILIVDDEYINLQVLVDQLLLKNYNIDVAMSGEEALEKIKNFNYDLLILDVMMPRMSGYEVCKEVRKTYSLFNLPILMLTAKDRTEDIILGFESGANDYITKPFEKKELYARVNTLLRLKYAIEVSLQSTYEYFTQKEKSDTLESLQKITNDFNSDLNSEKILFKLKKIFKDISKYTNFEYLVKIEKSYYSYTLDALINQTVIKENLVPLKNNPYLEFIEKNKTPKLFKDTNKNIHMKKTKKNTHILIIPAIYGESIVGAVVLEIEKIINKKDINYLFMILSQATLSLQNSNLLLKIAEEVKKVEKAMDELTKTQEQLILSEKMAVLGGLVAGISHEINTPIGIGVTAASTLEESTSNIKKKYEKSIMTRNDLEMYLDDADTSSKLILSNLNRASDLIKSFKQISVDQTIQDKRKFKVYEYINEVFLSLYPKIKRTNYEINLKCDKELEITSYPGDFSQIITNFVINSLNHGFENSNEGIIDIIIEKKDNQIIFKYKDNGKGMSEEHRKKIFDPFFTTKRDKGGSGLGMHIVYNIVTQRLKGNIKCISAPFKGTEFIITFPLEN;locus_tag=LOCUS_04390;note=WP_011262585.1 response regulator (Aliivibrio fischeri) [pid:36.7%25%2C q_cov:47.8%25%2C s_cov:51.5%25%2C Eval:4.1e-93%2C partial hit],MGA_442
sequence02	MetaGeneAnnotator	CDS	45633	46544	.	-	0	ID=MGA_443;product=TIGR01212 family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016934.1;translation=MWGDKRYNNLNYELKKTFGKKIYKVSLNAGLSCPNRDGKISYGGCIFCSEEGSGEHAGNKLDTITEQINKQIKLIKNKHNSDSVIAYFQSFTNTYGNINYLRKIFYEAINHKNVIGLAIATRPDCINKEILDLLNELNKKTFLWIEIGLQTIHEKTAKLINRGYSLHSFENSFYKLKNNNIKTVIHIIAGLPYETKEEYFDSIEYINKIKPWGIKIHLLYIIKNSSLYYLYLKEKFHVFSEKEYINLIVNSIKILDKNIIIHRITGDGDKDTLFKPKWSLNKRRVLNEIQKKLKLENIIQGNL;locus_tag=LOCUS_04400;note=WP_011016934.1 TIGR01212 family radical SAM protein (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:5.6e-89],MGA_443
sequence02	MetaGeneAnnotator	CDS	46553	47215	.	-	0	ID=MGA_444;product=cyclic nucleotide-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000754845.1;translation=MNNKLLEKYYKKYALDSFFSNNYINKAYLEFIKKNSFLILSKQQPKYFYFIVNGKFKVSTTNENGKALSVAFLEPGEVIGDVELVLNKPYIHNVEAIIDSYVIKFDIEFIKTLLKTDNVFNNKILQTLAIKLYNDTSIIYESMLYPLENRIATYLYNSLDENNEIQKLNITELSSSLGKSSRQIRRIFKKFIEENIIEKDFMYVKIIDINKLKKLVIEKL;locus_tag=LOCUS_04410;note=WP_000754845.1 cyclic nucleotide-binding domain-containing protein (Bacillus) [pid:31.7%25%2C q_cov:96.8%25%2C s_cov:94.8%25%2C Eval:3.4e-25],MGA_444
sequence02	MetaGeneAnnotator	CDS	47344	49071	.	-	0	ID=MGA_445;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966667.1;translation=MNNIMNLESAKRMINNIKIKNLFISAIVTIILIMSYLTFFSLNKMKILNKNVNSIYNEHMLTSLNLKKFETDFYLIRIKNIDLLYSNYNENLVSDINKKIIELDNIINTYESQNLTTEEKEIFNNIKKYYLLYIKNMKNYFEIMKTGKKISKEKINLLRDYAAKAQENIDNLVSLHEKYAKNSLIKINNSYNISKKGFLIVSIIAIIILAMFNFILTYLIKNSIQNITTILNKLSNYDFSFDLKVNGKNEFAEMTKSLIIIIENIDDLLSNVKNNFIKLDDNSKSLVATSEETAAASEELAATMQNITAGALEQSNDIKDITDSIKVLTTSIDNVYNELIKVKNETENSANKANNGKNEMDVLVNSINDIKNVFDLVISKVNRLITSVNKISGITDIISGISEQTNLLALNAAIEAARAGEHGKGFAVVAEEVRKLAEESRTSTNKIIELIKSITNDTNEVIETSENVENLIIEQTKAVENTLNSFIEIIDSVENITPLIKNTYSATGEIVKSKDLVVEKVDKINNVVERNIAASEEVSAASEELTASNQEVAAVAQDLGYISESVRQLVDKFKV;locus_tag=LOCUS_04420;note=WP_010966667.1 methyl-accepting chemotaxis protein (Clostridium) [pid:27.6%25%2C q_cov:98.1%25%2C s_cov:99.1%25%2C Eval:1.3e-67],MGA_445
sequence02	MetaGeneAnnotator	CDS	49165	50769	.	-	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKTKQFFLILVILLLFVIIDIIVYYSGGTKYVFPYLMLIPIIISAIFYYTFGGAINGFFAGIFLAFLPLDTTLQIKQSPLNYILRIFLLTLLGGFIGYLLKKKQNITKSVGFETNIYNEKELLKEKVNKLLKSNKNFSLILIDVNNIVEITSLLNNSISDFSLNFSKYLKHKYKKKIEIFINNDFSLLLLLKNYSLNETENWIINFLDYINNNPFIINNMSLFLKTFLVGIHQNYINNFDDGFKKIVTCLYYAKENNLDYFIYNDTVNFPIYFTSELLVDIHNAIKKNELFIVYQPKLNLADNKVKSVEALIRWKHSTKGFIPPNKFIPQVEKTTYINNLTLWIIKKVINDLNNLKKKNINIKISINISPRNLMSKLFLIKLMDILNSNKNIIKNLEFELTERDIITELSSIKKILLKLQKMNLTIAMDDFGTGYSSLANLKYLPIDIIKIDKEFIKNLDNNIIDYEMVKSTIKISKLMNKKIVAEGVENKDTLEILSKLYCFEAQGYYISKPITIDELTKFILNYNKKAIS;locus_tag=LOCUS_04430;note=WP_001225575.1 EAL domain-containing protein (Bacillus anthracis) [pid:28.8%25%2C q_cov:73.4%25%2C s_cov:43.5%25%2C Eval:6.0e-40%2C partial hit],MGA_446
sequence02	MetaGeneAnnotator	CDS	51017	51433	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIPLIIGSLVTIMLTLNSMLSQKYGNLLALLIIHIIGFIVAVIIKIIKKEKFIKLHRYFFLGGVVGVTLIGLNNLVLLKLGPSLTVAITLISQMIFSTIIDYFGFFGFEKKKINREKIQSIFIIFIGILFLVIERG;locus_tag=LOCUS_04440;note=MGA_447
sequence02	MetaGeneAnnotator	CDS	51435	51845	.	+	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFLLAFLVGVLVLLSIIINSKLANCMGMYSSMIITYFISIIILLVSMIFFNKNIVVDFSIDNFYIYLGGALGIIVLFLSNNIVGKIPAVNMTIFIIVGQLITAFIIELIMYNNFEIKKVLGNLIILYGIKKLPRK;locus_tag=LOCUS_04450;note=MGA_448
sequence02	MetaGeneAnnotator	CDS	51892	52410	.	-	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIYLLIFLLLFTACYPSIKVKKNIIKNNDGKIISIKEGNYIDNVGRVLNVIYSEKEKKYFISNTGAFESVITKNIYKNYYLLEGLEDEKKYRNLYLINIDGKFINIFQYDIPENKVNKLEKKFHVLISINQNGVFIDGTQKNIYNTILYCIKNNYIKKEFFLIKKFSNL;locus_tag=LOCUS_04460;note=MGA_449
sequence02	MetaGeneAnnotator	CDS	52424	53611	.	-	0	ID=MGA_450;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941722.1;translation=MISNEINKNMQNSSWIRKMFEEGERLAKIHGKENIYDYSIGNPFAEPPIEVINSLIKHSSEKGVHRYMSNAGFLDVRKTMANEINKNIIDKKLSYEHVVMTCGAAGALNTVLRAILNPGEEVIVFTPYFVEYGFYIQNHNGIMVTINNEKTNFQPNLDELKKKITKKTKAIIINSPNNPTGVVYKENILKEMSLVIKEKEEEFNSKIFIISDEPYSKIVYNNIKIPNILNIFENGIIVNSFSKSLGLAGERIGYIAVNPKIENVSILMNALIFCNRTLGFGNAPALAQKAVADGINSSVNIADYQEKRDFLYDNLTRLGFTMVNPEGTFYLFPKSPIKNDIEFVKFATKYNILLVPGSGFGCPGYFRMSYCVDFNMIKRSISAFEKMAKDLNLIK;locus_tag=LOCUS_04470;EC_number=2.6.1.-;note=WP_010941722.1 pyridoxal phosphate-dependent aminotransferase (Geobacter sulfurreducens) [pid:50.0%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:4.7e-113],MGA_450
sequence02	MetaGeneAnnotator	CDS	53646	54197	.	-	0	ID=MGA_451;product=ribonuclease M5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016097.1;translation=MSKLNIEDIIVVEGKDDISAVKRAVNAEVIAVHGYSVHKNNSLDKIKKASEKKEIIILTDPDFAGEKIRKIIESQIPNVKHAYITRKEGRKNNNIGVENASPEAIITALKNAKFKINTNENVFTINDIIDNGLSGKIDSKERRDKLGKILRIGYCNAKQFLNRLNSFGITRLEFEKAIDKLKS;locus_tag=LOCUS_04480;gene=rnmV;EC_number=3.1.26.8;note=WP_011016097.1 ribonuclease M5 (Fusobacterium nucleatum) [pid:52.5%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:2.4e-46],MGA_451
sequence02	MetaGeneAnnotator	CDS	54257	54892	.	-	0	ID=MGA_452;product=hemolysin III family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288393.1;translation=MKIINNFSKEEEISHSITHAIGAIISVVGFIFLMIKAYIIKDTLHTVSYIIFGLSLINLYTMSSIYHAFPKGKSKKIFEKFDHISIYFLIAGSYTPFCLILLNNKIGWTIFIIQWIFVLIGTIFKSIWVHKYVGFATIIYIIMGWMIVFSIKPLLPVLSINGFIFLTIGGIFYTLGTIFFAFRLFKYHHTVWHIFVLFGSIFHYLTIYFYV;locus_tag=LOCUS_04490;note=WP_002288393.1 hemolysin III family protein (Enterococcus) [pid:40.6%25%2C q_cov:94.3%25%2C s_cov:93.1%25%2C Eval:4.5e-48],MGA_452
sequence02	MetaGeneAnnotator	CDS	54876	55820	.	-	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYILTGDYSIELEYNKLIKKNNYPIITFDATQKEDFENFLQKISTNNMFGNNETIILKRAEKLSKLSNFIKTISNFNILNKIVIILINKKLTAKQIKECESFAKVIIGETKNEKDFYINYIKNELKISTNDAFKLTEMIGHDIYKIKNEIEKIKNYFYEEEFYIEKAKNIISINEEYNSFEAIENLLLGNPNEVYKMINKDKSHMLILYTLTKEFQNILKLTLLINEGKIINTNNYNKFKNSYENNKYLFNNTHPYSVFKKLKYINKYTISSIKEILKEILITEANIKNGLIKDDIAIELLIKKVVIKYENNK;locus_tag=LOCUS_04500;note=MGA_453
sequence02	MetaGeneAnnotator	CDS	55859	56860	.	-	0	ID=MGA_454;product=deoxyribodipyrimidine photo-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582848.1;translation=MKKIYITKDIKNYEKGLKILEKIKNYNIVSSEEEFINIIKKKNLTYEEEKKYSLFTVKKGKFLKKYYLDKQLEGIKEEYYLSYENNCPFNCLYCYLRDYFNHGAFVFYVNITDMFYELDNFKKKNIMISCGIMNDSLVMDNLTNITSDLIKYFSKRKDLILEIRTKSNNINNLLKYPAKENILISFTFSPDTIIDKYELKTNNLKERVEAAKKLQSHGYNIGLRFDPIINIKNRTNEYTKMIDYIFNNLNTTRIKDIGIGTLRYKKGLRQKVLAEKNTDLFYNEFIIGIDGKERYFKKIRIDSYKEIISQIKKYGNFDIYLGMEPKYIWDEVF;locus_tag=LOCUS_04510;note=WP_012582848.1 deoxyribodipyrimidine photo-lyase (Dictyoglomus turgidum) [pid:31.0%25%2C q_cov:93.4%25%2C s_cov:92.8%25%2C Eval:6.3e-36],MGA_454
sequence02	MetaGeneAnnotator	CDS	57036	59612	.	-	0	ID=MGA_455;product=CBS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081021.1;translation=MEIITSHIHLDLDGFASMILAKKLYPNAKLIFSGNVSKNVKEIANLYQDILNIEKIKDIDLNEITKLIIVDTSNINRIGNFKNIIYKKNVEIIIYDHHSANNNDIKKGKIFKNIIGSNSSNILKYIFKKNIKLNNYEATIALMGIYEDTGNFTFKNTTYEDMYFASKLLKFGANLDMVLEFVNKNLQTNEFELFLNFLNSGETIDHYSHKIFITKIIGNKFHKNLDVIANKIMDIKDCDACFLLYSYDNNISIIARSTSKSIKLDEILKKFNGGGHSEAASGFLRNVNINEIFLDLKNEISNFIPQNKTAKYIMSTPVKYVKPDAKIKDVHKIMIYFGYSGIPVIKDDTPIGIISRRDIDKAIHHGFSNAPVKAYMTSNIIISTPNTSIEDLKKIIIENEIGRVPIVENNKLIGIVTRTDILRNLYEQKFILKKPVEKNPKIININLLNKFPKEIIDIFNIIEKVSKHRNEKAYLVGGIVRDLILNIKNLDIDIVIEGDAIAFAKELNVFLNIKKIITHEKFKTAIIFLETGLNIDLASSRLEYYEYPTSLPTVSYSSIDKDLYRRDFTINAMALEIDYNNFGKLIDYYNGYYDLINKKIKILHNLSFIEDPTRIIRAIRFASRYNFDIESDTEKFLIQAVNDGFLNKISFDRLKNEIIKILKDKNPHKALNLFEKFNIFEKFNLNIIITPSTYNIFKKVLENKDEIIKNNVKPWQILLITLFRRLNSEDLKTIFHRFGFKNKFIRKISIGINERKIIVEKLKTANKNSKIYFLLNNIPLEIIYLIKYSYPEIENKINLYLNQLQNIVPIINGKILLKNGYTESKKIKNIIKHALELQLDNENYTIKEILKELHEKHI;locus_tag=LOCUS_04520;note=WP_004081021.1 CBS domain-containing protein (Thermotoga maritima) [pid:34.1%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:4.4e-139],MGA_455
sequence02	MetaGeneAnnotator	CDS	59616	60224	.	-	0	ID=MGA_456;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016761.1;translation=MNIIGFEEYFKAAILIPIVTINNKKYFLFQKRAKNIRQGSEISFPGGQYDKILDKNFKDTAIRETIEETGIKKEKIKNIEYFGTFIDSKLYIECFTANLDIKSINELNHQKEEVEYLFLVETNFFKKNNMKEYSIQTWHSPYIKKYGKKVWLLPSIKLKLPKFYHKPWKKVHKNIYLYESSHGAIWGITAHIIKVFIEKYKE;locus_tag=LOCUS_04530;note=WP_011016761.1 NUDIX domain-containing protein (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:97.0%25%2C s_cov:90.7%25%2C Eval:2.0e-31],MGA_456
sequence02	MetaGeneAnnotator	CDS	60221	61324	.	-	0	ID=MGA_457;product=alanyl-tRNA editing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016455.1;translation=MKINIININQDNNFYKIKVKNNHLYPDGKGGQLGDRGKIADANIVSVTKNYILIDKFLNPGEYEFIEDINWKKDISIQHSAEHLFAATVLKELNLYIDSVTMNEDYSYLDIPKTLKQDELDILENKVNKIISKNLEITEIFTNINDLKNYNTRTKLKVAITDNIRLIKIGDYDIVPCGGYHVNNTSEIKIFKIINFEKVKGGKTRVYFLAGDRAFKYFNNLINIIKFANNQLSSQSFEINEKIIDLKNNIKSLKNENNNLKNEIIELKLSHELSKKIFFNDYQLIIINKAINNINPFLKKYILNNYILISSENNNFTIFSDNFNCKSLFDVIKSKYNIKGGGNNNRINFSSSELNIELVLNILKEII;locus_tag=LOCUS_04540;note=WP_011016455.1 alanyl-tRNA editing protein (Fusobacterium nucleatum) [pid:35.3%25%2C q_cov:93.2%25%2C s_cov:93.8%25%2C Eval:6.7e-50],MGA_457
sequence02	MetaGeneAnnotator	CDS	61468	62814	.	+	0	ID=MGA_458;product=TrkH family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015791.1;translation=MYKKKINKIKSSMTPSEILILSFIIIITIGTILLSLPVAKLDKSAGVFTALFTATSAVSVTGLSVVDISKTYSYFGKTVILILIQLGGLGIMTFSSILALLIGRKISYEEKKILKEDLNQEALGGIIRFVRKIIYIVLSIETIGAIFLFLSFIKIMPLKKAIYFSIFHSVSAFCNAGFSLFSTGLEGFYGDININLVISFLIILGGIGFAVIDSLIQYIRTKKAKFNLTSKLALIITGILIIVGSITFFIFERKNNLTIGNMSLFNKIIASFFQSVTTRTAGFNTVSMSNLKPATIFMMLIFMMIGASPGSTGGGIKTTTFGVLVFYIIGIVKGQKDINISNRRISWEILNRALVIFAISIIYVLFIIFLILMIEEKDFMKIIFEVVSAFGTVGLSMGITADLSLASKILIIITMLIGRVGPLTFALALGERAKRISYRYPKENILVG;locus_tag=LOCUS_04550;note=WP_011015791.1 TrkH family potassium uptake protein (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-111],MGA_458
sequence02	MetaGeneAnnotator	CDS	62830	63489	.	+	0	ID=MGA_459;product=TrkA family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904246.1;translation=MKQYLVVGLGRFGSSIAETLYKADESVLALDIDEEIIQEAINNDIVDNAVEIDATDEKSLQDLGINNFDVAFVCVGTNIQASILITLTLKEMGIKRVICKAVTKAHGKVLKKIGADEVVFPEIYMGKRVALAEMETNIIEHMKFSEEFLIIEIKAPASFVNRSLIELDLRKDYNANIIAIRRERGDAVLSPNATTKIFEGDTLIVATDGRTAKKLEELK;locus_tag=LOCUS_04560;note=WP_005904246.1 TrkA family potassium uptake protein (Fusobacterium nucleatum) [pid:53.2%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:3.3e-65],MGA_459
sequence02	MetaGeneAnnotator	CDS	63519	65405	.	+	0	ID=MGA_460;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015790.1;translation=MFNENFDVIVVGAGHAGCEAALAAARMGMKTAMFTITLDNIGIMSCNPSIGGPAKSHLVKEIDALGGEMGRNSDKTFVQIRVLNTRKGPAVRSLRVQSDKKAYHKEMKKTIENTENLSAIQGIVTELIVENNEVKGVKTKEGLTYYAKAVVLATGTFLRGLIHIGENKFKGGRMGELSAEELSSSLEKCNLKLGRFKTGTPPRVDARTIHFDKIEEQPGDINQGLKFSRKTTIEEANSRKQIPCHITYTNTEVHDIILNNKHRSPMFNGTIEGVGPRYCPSIEDKVFRYQDKERHHLFLEREGYDTNEIYVSGFSSSLPADLQYEMLNKLPGLEDAKIMRYAYAIEYDYVDPEELKYSLETKKISGLFLAGQINGTSGYEEAAAQGLIAGINAVQKIKGEEPVILDRADSYIGTLIDDLVTKGTNEPYRMFTARSEYRLYLREDNADLRLSHIGYKVGLLSDEEYKLIETKRKNIEKIRVQLKSNVVGSSNRRVVEILEKNGEKPLKSGIKLDEFLKRPGIKYSDVEYVAEVMDVEFDFSDFDEETKYQVEVQTKYEGYIKKQLKMIEKHKQLENKLIPKDFDYDNIKGITLEAKQKLKQKRPLNIGQASRISGITPADISVLLMYIK;locus_tag=LOCUS_04570;gene=mnmG;note=WP_011015790.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:2.8e-241],MGA_460
sequence02	MetaGeneAnnotator	CDS	65451	66158	.	+	0	ID=MGA_461;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015789.1;translation=MREYLIKGIEKIGVDISKESIEKLLKYFQILKEYNSHTNLTAIRDDKGIIEKHFLDSLLVQKNILKYIKGNEKAIDIGTGAGFPGMVLAIVNTNIQFTLLDSVGKKTKFLEITKKELSLENVEIINDRAENYINGNREKYDFGFCRGVSKLNVILEYEIPFLKVNGRFFPQKLEYEEELKEAENALKVLNSEYIEVYNEKLPYSNDKRVILNILKKSKNDEKYPRKNGRPLKKPL;locus_tag=LOCUS_04580;gene=rsmG;EC_number=2.1.1.170;note=WP_011015789.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Fusobacterium nucleatum) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-77],MGA_461
sequence02	MetaGeneAnnotator	CDS	66175	67038	.	+	0	ID=MGA_462;product=HDOD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008193057.1;translation=MSNTTDIKKVIDKLDDLPTLPIIIQQILALLDNPNSTAKDINEVIRSDQSLTIQTLKLVNSSYYGFPRKIGTVTEAIVVLGFDTVRSLVLSASVCKMYEGGSGPFNRENLWVHTLAVAFAARIISKTIKYPQEEIAFVSGLLHDIAKVFEDQLFHDEFIEALTKAKKENRNLHEVEQEILGYDHTKIGKRLSNKWNLPKSITTVIAYHHTPELAINTEDGILPCIVSVADALVRLRKIGDSGNNAKPSLSKKILDALKLKKEDLPVIIRKLEAELEKAETFLELNKS;locus_tag=LOCUS_04590;note=WP_008193057.1 HDOD domain-containing protein (Thermotoga) [pid:34.2%25%2C q_cov:96.5%25%2C s_cov:97.5%25%2C Eval:1.1e-43],MGA_462
sequence02	MetaGeneAnnotator	CDS	67056	68822	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKVFLSIVFIILNINVFSYNYKIIGDPYVSKKGNIGLANVINNYNDNLFISDYMLGKIAMFDKNGKLEKEYKNIKKPIFFTVDKNYIYVSESSNNEIIKIDIKTGDKKTFLKTGMMEKEVLHPGELLVNDNKLYVLDEYNYRVQIVNKETGDYIGQILLEKFRYDYKPYSFLNYSMIIIDNKLYVLNNYSKKIYVYNMNYKQVNEINLENMKNPVKLYKLNDKLYIYDATENILVDVDNNIIKLNIETKYNLSGINHFDTKEKFIYILNHNNVYKFDIENNSLELLFKLLNIRENEYIKPIDIDVDNEKNLYILDGELEKILVYNKYKELINVIKNIGEKPQSICVDKNSNIVITFPFENKIRKISQTGKLIAEYGNYNIFKTNEMYYYEKEIQESYDPKKIDKNIYNLIVDLDEMGNYYLANSKLMNITVLNPFFEKIKEYGQKASIISVFRNKKEKNSFGWDEKNKNNLTDIFVNEDTVYVLDKYYKRIDMIKNNKIEKSFEDDFSEEGLNSIYVDKEYIYVVDSYNFRIRKYNKEFKLIEDLSFLKEGLIPLKINERYVIFKKYIEDFNAQYIVLDIQSALDK;locus_tag=LOCUS_04600;note=MGA_463
sequence02	MetaGeneAnnotator	CDS	68842	73218	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFIKKHIKFFDFLGIVALIVIFVFLFMFIRTNFTQLVKLGFKQGLGYNIDFENVSFRNYNEIFFKDLRLYDKENNELIVEDKEVHLYIDYKSFFNSPIKKIYFKEPKLYIKIKNKKELNILDAILVSSKKKVKNSLIQKITIENANIELKDYSYKTLIKKDIVAVNGDIKFYSLNKFVVELKGYTKEKKDAFFGYKFIKNKDKIKNIFELKNFKLEKEFIQYGLLDEYITANSGSFDMKLEITNNNDLYGNLILDSDKINYIGNSQNLEINNVKSEVFFLGQDIKGYINGKIKDNELEFLINKEDKNSQIKIISKNLNINDIIEEIKFKNKDMLKDVEGILSYVSLDLNFNGNNLKKTNLYMRSKRINYLENSAENIKGTIFYNNGIFGIKDLTTTLELIQNNIKSKFDIKLNSDYISNELIRTNYYINKIDSKLDFENLYGEINYDIKNKQININNNTKNFKFKFLINENKFLLNLNSAGYKINFLNNIVFDLKGNLFLDFNYKKRQINKLTSDMIIKNNLYFDNLEIKIRESEKLKKYNIETLNIIKNNSFVKINGFFINDRYTLYIKDSKLNAKDIYFLKKYPKLKFNSIIRGKIEGDFYKLQFNGDFFGDGEYIAKLNNIKTKFKLEYSNKLKIKTKSSLSFFNYDNISLKELKVELDYRDNKLYINNIENRYLKLKGIYDLIEDNINIEYRVNNYLLDNIKELTKLDIIGKSINFSGKVKVKNKLDFKLKIEETQLLYLNSYNILLNGEVELKNNILSFNDISINKNKINGKINLATQNIDININIYEDNINTILKNDNLKAKIIGESYVIGDFNKIKIINKLNFKNMYYKGYKLPNVSTEFSYSAKKNKKYIGNIDFSKLQIIQNNYSILNLFGNINFDTGNVNINSNKNNIEFEKINNIFMESQIKGRLGTEFKLKGNIYKEFDYRLRLESKKLEYKKINFDNILIDMTGDNEKVVLNKALIRYNDNILSGVGSYNYNNSKYEFNLDGNDIDISFLNILNIPNLKAIGGIADISLKFKNKNQIGSLNIKDFFAKDKYGLIDLKNVTIESEFKENKIFIKTIKGLLNSGEIFVNGEIDFPIITLNNNKYEIKFNKYNLSYILEKISVYDKKRFNLIIDLSGNVNESKINSTLNILAGNIYNLSFSDKKVTLSEAKLEKFLSLIDVEIAINIKNSITANIEKISVINDIEADLDGGGILRITNGNINFIGTITSENGAVTFNDNIFKLTDAIIVFDNPNSYLPNINPSITINAETSVSTENIYVSLNGRYNDLKVNMTSSSGLNEIEITSLLLFKTTLSDSNASEVVKDILNRQFEGQLFNPLSNELERIFNINKIKISSPVFSKNEENGNYKFTNDIILGANIELSNPIYKDILSWNLYTEFSQYESGKINDYDLWLNYKFNDNVSWKTGIKKRTPGSLEDDRISSHIDLDFKYKVDSFFTFINFLKKSN;locus_tag=LOCUS_04610;note=MGA_464
sequence02	MetaGeneAnnotator	CDS	73234	75273	.	+	0	ID=MGA_465;product=outer membrane protein assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367282.1;translation=MIKKSFIFLIFILSITISYATQVKIGKIFVKNNEEVPIEVILNKMSLKEGQIFTTEEMVKDYVKLKKEKYIEDLKIFPQIENGEINVVVDIQENIDAVRYLKEEGIVPVSELEKIDKSLIIKSIEVFGNINISKEEILKNVPVKIGGFFSKTKILEGQERILKTGYFREVTPEVLKYKDGIYIKYKVLENPVITGIKIIGNTLFTQDELTKDFITKPGEIYNINNLKKDRDSLLKKYYDKGYSLANLVDMRLDENYNLTIQVSEGIVRGIQFRKIARKEDGMRRKANDIKLRTKDFVLRREVELEIGKPFEREKFEKTASNLFKLGLFKNVTQEFKDIEGDPDGKIVVFLLDENKSATYTGSISYGSSTGLLGSLSLEDKNFKGKNQTAALSYAQGTSTKTYNLSFSDPWVKGTERLSYGWSIYKKNYTDTSSTDAYYVDKIGGSASLGKGLSKRVRVNGTIKYEQIEESNEDEEVQSDYDIITLTPSFTYDTRNNIYDATKGDYARISLQLGKILGSEEFAVTELELRKYKLALSEKNSMAYRLMTGMASSNVKEGLKFNVGGGSSLRGYDYGDFQGVYQLYGNIENRTKLDDNFQFVLFYDFGRAWENETSFNQGLINGEYSSASDYVKFLHDIKHSYGFGIRIQTPLGPLRFDYGWPIGDSDVKGGQFYFNIGQMF;locus_tag=LOCUS_04620;note=WP_147367282.1 outer membrane protein assembly factor (Fusobacterium canifelinum) [pid:38.4%25%2C q_cov:98.8%25%2C s_cov:99.0%25%2C Eval:1.1e-137],MGA_465
sequence02	MetaGeneAnnotator	CDS	75319	75807	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVLLVMMVLLGLSAFAQNIGVVNYQKILSNYKGYKDAVNYLEQEKSRLQSDIDKRVAEYKKLESEVNSQKKSTEEDKQKLQRELKSLNQYVDTMKQVLSKTEYEQMNTVKSDINVVIQEVAKEKKLDVVLDSQVVIIGGIDISDVVIERLANTEKISLD;locus_tag=LOCUS_04630;note=MGA_466
sequence02	MetaGeneAnnotator	CDS	75820	76824	.	+	0	ID=MGA_467;product=UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903952.1;translation=MYSIKRLSEMINGEIYGESDITVKRIAPFESATNRELTFAADKKYLSKLDETRAKVIIIPNINKDILPKDKTYIIVNDSPRILMPKILDFFKPKIKDIKEMIEKDAKISNSAKIAPNTYIGHNVEIGENTIIYPNVTILEGVKIGKNCIIYPNVTIREFCEIGNDVILQPGCVIGSDGFGYVKVDNKNTKIDQIGRVIIEDRVEIGANSTIDRGAIGDTRIKEGTKLDNLVHIAHNVEIGKESIIIAQVGIAGSTEIGDNVTLAGQVGVVGHIKIGNNVVAAAKSAITGSIKDNSKISGYPAIDYAEDLKAKVAFKRLPELLKRVRVLEKLINK;locus_tag=LOCUS_04640;gene=lpxD;EC_number=2.3.1.191;note=WP_005903952.1 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase (Fusobacterium nucleatum) [pid:56.2%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:5.1e-102],MGA_467
sequence02	MetaGeneAnnotator	CDS	76836	77564	.	+	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFISIIFLLISLVIYATPAVTGVTGTMDFPSAYILREKNYTISGNVDNNQSRKNDTLSADAVFEIGYLPQIETGFKLSTNNSELDQTFIQSNIKFQIVKEEDNPAIAIGYVEYDEYEAMADQKNEDGKNLTEAYVYLVMSKRLKSVENKVMDLSLGFKYGTTIEKKGMTDYFLTLEAPIYTKVKLLGELYTYEKEDNKKIITGNIGGEFLTRDTLRTKVFWRLRNSSFGVAVTYIGLINK;locus_tag=LOCUS_04650;note=MGA_468
sequence02	MetaGeneAnnotator	CDS	77652	78458	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKGIIGTLFLILISFVIVYSKSNEEKQNIIPKILLEKEEDIIILKGEKVKPVNYVIKNFYNNNLDISKKKLNFISIILPEILMVKTDIETQKEYLMKLEKKEVFTEKEKIYIKKLKIKYRSNSIKEIIEKMVIPPISIILAQGITESGWGTSRFFAEGNNVFGVWTYREDLPRIKSLNGVRGINEVYLRKFNSIKDSIENYFYNISVGNGYKNFREKINQNKDKFEIIKELKNYSEEREEYVKKIENIIKYNELEKYEKYQLINYN;locus_tag=LOCUS_04660;note=WP_201627595.1 glucosaminidase domain-containing protein (Fusobacterium canifelinum) [pid:35.9%25%2C q_cov:70.9%25%2C s_cov:79.6%25%2C Eval:6.4e-30%2C partial hit],MGA_469
sequence02	MetaGeneAnnotator	CDS	78576	79076	.	+	0	ID=MGA_470;product=M48 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263044.1;translation=MFVYLEGYSEKIKIQVKELFNNNLVEKYLFNKYKVKHNISTDKLLYGYVDNLRKKYLKKTKPLNKVKYDSKIKLKKQALGLNIFNYKIHGNKTIATNEIKISTDFKNVPEEFLRFVVIHELAHLKEKEHNKEFYKLCTHIEKNYFQFELDMRIYLTYIKLTNKYLW;locus_tag=LOCUS_04670;note=WP_011263044.1 M48 family metallopeptidase (Aliivibrio fischeri) [pid:49.4%25%2C q_cov:94.0%25%2C s_cov:95.7%25%2C Eval:1.6e-40],MGA_470
sequence02	MetaGeneAnnotator	CDS	79142	79993	.	+	0	ID=MGA_471;product=flagellar basal-body rod protein FlgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002557363.1;translation=MLRGIYTSASGMTTQAKKQDTIADNLANINTTGYKKSTTIMEQGKEFDIYRKENVEARVPEREEVKLTKIGKLGTGVKIKENYINFEQGELKTTESNLDFAIKGKGLFAIETDRGIRFSRMGNFSINSEGYLVNHEGDKVLAYNETGKLGYIKPLKDFKIKKNGEIINGDIISEVAINNLNIDYRLPMEEAKTTGNALYIAEFDDTRELTKEGNSYYLADISKSKFSSKSDVYQGYLEMSNVNTVKEMVELINVQRSYETNQKVLSAQDETLDKVVNNIGKWT;locus_tag=LOCUS_04680;gene=flgF;note=WP_002557363.1 flagellar basal-body rod protein FlgF (Borreliella burgdorferi) [pid:38.4%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:7.1e-43],MGA_471
sequence02	MetaGeneAnnotator	CDS	80006	80932	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKIIILFLIVIVASCTNTNPLINTAATVKGLNKNSETAEYPTEKASRIAEMPDISVFFPEDENKSKDETNSLWNIEQNSLYSDGRANKKGDILFILINEEATAKLTYSNAKTGFTNYRPVDDKIAKETTSTSQATNPRDKNIAKDKIEETTDTTPKPDSNSFDGTGDQSRGASYTGKIAARVEDVDKYGNLFIRGTKTTLLNNEIVTLEVTGYIRPNDIEIDNTIDSKYIENMEFSYNGAMYVGKPKITNIGDNKQYIEEKNTIDNTQNTGNKTNIEEKNTIDNTQNTGNKTNIENKRKKFLGIF;locus_tag=LOCUS_04690;note=WP_002864738.1 flagellar basal body L-ring protein FlgH (Campylobacter) [pid:34.1%25%2C q_cov:58.1%25%2C s_cov:73.7%25%2C Eval:4.0e-18%2C partial hit],MGA_472
sequence02	MetaGeneAnnotator	CDS	80967	81965	.	+	0	ID=MGA_473;product=flagellar basal body P-ring protein FlgI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081923.1;translation=MKRKIVIILFLIINIISFSEPKQRIKEIARIEGVRKNHLIGMGLVVGLNGTGDSAKNLTPQLLKSLYRYFGTELGQSQVDSKNVAAVMVTAELPSFKKIGDTIDVTVSSINGAKSLEGGILLQTQLVAGNKVYALAQGTLSRVTGKNITNSVNGYIPSGATVEREVEVELVNNNKLSIILNNPDFTTASRVAEVINKRFNYDTAKAIDASKIEIKQTYVFEDDIVSFISAIENLEVETDRKSKIVIYEKSGTIILGNEIKVSPVAISHGDLSIAIGNNTGTDKKGNALYFNGSTVKDVVDMLNSIGATPNDIISILQALKASGAIEAEIDVR;locus_tag=LOCUS_04700;note=WP_004081923.1 flagellar basal body P-ring protein FlgI (Thermotoga maritima) [pid:39.9%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:1.5e-61],MGA_473
sequence02	MetaGeneAnnotator	CDS	81976	82287	.	+	0	ID=MGA_474;product=rod-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010889817.1;translation=MINTTNYLKYLNTVKIPEKKLTKDEKALKETSEEFEALFVKMLLDSMDKTVDKSNNMFYAGNSEEIFKSMLNTEYSKQMAKSSDFGIAKNIYEQLSKNVNNKK;locus_tag=LOCUS_04710;note=WP_010889817.1 rod-binding protein (Borreliella burgdorferi) [pid:41.2%25%2C q_cov:94.2%25%2C s_cov:95.3%25%2C Eval:4.6e-14],MGA_474
sequence02	MetaGeneAnnotator	CDS	82298	83710	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYKYILLFLININIFSNEYIDYQDILLGSIGNIKTVLKGEKIEDISIKIITILKDENSNSDMLLFQMIDNNTFVSEGMSGSPVYINNKLIGSVAYALKDNRKYGLIKPVNYFEKYPQKELSTEVLPGTSIAISPTRGDIFLDNIGTLTYVDKLNNVYIYSHGLNEIGDIKYYLNKAHIDFVYNDINNSFKIGHSTKTIGEISSDTKIGFKGKINNNISEYKFLINLVEKDSENKKKIQYNIIKNENTLRKYLEESLSVALQKNVRKKEYKTVKYKYKIFNKNGYKIFEESNILIAENGIINGLANTLSNSILNVVDNKFKYIDFDKIEINIDFYDESKIMYLNEINLDKKIFVLGEKINIKLGYLIHQVGNVEKIIEFEIPNNIKIGKLTLEALVNEGKNNEQAKNIVEYLYNLENNIQNNELLIQLKNEEGEVIFMKKYNFDYYIISNNNYSKDIIIDSFEASTSN;locus_tag=LOCUS_04720;note=MGA_475
sequence02	MetaGeneAnnotator	CDS	83738	85465	.	+	0	ID=MGA_476;product=FapA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941180.1;translation=MKKYVVKGKNIDEILEKISSHFNIPKDKVNYDILKENEKEVELKVWIVDNEDIKYSEILIKPDGIFLKVLKTDEDVKLLEKYVILEVQKKEIKDFDLGKIKFATLNQGQFVKIAEHDKDYYIDAEVHIEILSPLEATIEIVAPKRGNMPEYTHILELIKQKGIIFGIRKNAIKTILENKIFEKRVVLAKGRAPIQGKNARLLFHYDRDKKLKVDKNNNVDFKNLNWIKNVKKDDIIVEKLSMIPGKDGINIFGKPLPTKAVKDIKLPKGKNTYISKDGMKLCASIDGQIIEEQNKISVMPILTINGDIDYSTGNIEFIGTVLIKGNVLTGFTVKASEDIIVEGLVEDAILEAERDVIVQKGIVANEEGEGNIKVGRDLRAKYIQNMKVKCFGKVIIDDYILLSDIEAKEEIEVISGKGRIIGGKVKSQKGITANIVGGKFETHTYLEIGVFSEIYQKEKEFDKKLLELEAKKDRLEFRKKEFMQKSPVVRAALKTKEKEIRIQLKELKKEYNKLLKNKENLIQEYSDLGNAKVQVLQTLNPGVLIKLGKHIYLNKEQKLHTVLSIDRETGELVIE;locus_tag=LOCUS_04730;note=WP_010941180.1 FapA family protein (Geobacter sulfurreducens) [pid:24.9%25%2C q_cov:75.3%25%2C s_cov:81.3%25%2C Eval:4.6e-33],MGA_476
sequence02	MetaGeneAnnotator	CDS	85474	86067	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKRLYFEKKDEMIYISHLDTIRLMERLFKISGIELEFSQGYHPRAKISFGNPISVGEISLKEPIDIVLKNNIKNEILLKKLNEKAPKGLRFIDVEELSSKGSIMSEYKKVEYEIEFLKEEYFEMFKKILDQDEMIEIKEKKDGKIQKRNLKEKIEFINFIDKKAQLILKNLSPNALLRLAKIDNEFYKIKRIKYTK;locus_tag=LOCUS_04740;note=WP_003438070.1 TIGR03936 family radical SAM-associated protein (Clostridioides difficile) [pid:29.9%25%2C q_cov:80.7%25%2C s_cov:71.7%25%2C Eval:3.4e-15%2C partial hit],MGA_477
sequence02	MetaGeneAnnotator	CDS	86076	87344	.	+	0	ID=MGA_478;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016148.1;translation=MLELRYIRDNVEFLKDMLKNRRTEVDLDKFEQLDAERRDLLEKVEKLKHKKNIVSIEIGKLKREKKDATEIIKEMGKVSQDIKELDSKLSEIEKELKYIQMTIPNVYHESTPIGKDENENIEIRKWGEPKKFDFEAKEHYEIAEKLDILDFERGAKLGGSRFTLYKKLGARLERALINFMLDLHTQEHGYEEIIAPILVKREIMEGTGQLPKFEEDAYKTTDDMFLIPTSEVPLTNIHRKEILEEGELPKYYTAFSACFRREAGSYGKDIKGIIRQHQFNKVELVKLVKPENSYEELEKMVLNAEEVLKRLELPYRVIQLCTGDIGFSAAKTYDIEVWLPGQNKYREISSCSNTEDFQARRMGLKFRRNGEKKSEFLHTLNGSGLAVGRTVVAILENYQQKDGSVIIPKALRPYMGGIDVIK;locus_tag=LOCUS_04750;gene=serS;EC_number=6.1.1.11;note=WP_011016148.1 serine--tRNA ligase (Fusobacterium nucleatum) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.6e-173],MGA_478
sequence02	MetaGeneAnnotator	CDS	87331	87792	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNSIIFLFIILNKNFIYQLTVSILLLTINFFNKKKTKIYQNIKHVYIFFILISISKIFIYQEGEVLIKLGKFFITKLGFSLFLNNFLRLINLTILAHNITILARDKISLGEYEKIFSIILDMTPKVFNNFKKRRKIKYFYKNIFKEIYKRL;locus_tag=LOCUS_04760;note=MGA_479
sequence02	MetaGeneAnnotator	CDS	87873	88850	.	+	0	ID=MGA_480;product=class II fructose-1%2C6-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932731.1;translation=MKYNYKELGLSNTKEMFKHANENGYSVPAFNFNNMEQMEAIIEACTEMGSPVILQVSAGARKYIGKEIVPFLAQAAVAYARSKGSDIPVALHLDHGPNLETVKDCINYGFSSVMIDGSHHSFEENIKVSKEVADYAHQYDVSVEAELGILAGVEDDVVAEKTIFTQPDEVEEFVSKTGVDSLAIAIGTSHGAYKFKPGDNPQIRLDILKEIERRIPGFPIVLHGSSSVPAKFVKLINENGGKIADAIGIPNEQLRDASKSAVAKINVDTDGRLAFTAGIREVFAKNPSEFDPRKYLGPAKEYMKEYYKEKIQTVFGSEGAYKKGE;locus_tag=LOCUS_04770;note=WP_010932731.1 class II fructose-1%2C6-bisphosphate aldolase (Chlorobaculum tepidum) [pid:61.0%25%2C q_cov:96.9%25%2C s_cov:97.5%25%2C Eval:1.5e-111],MGA_480
sequence02	MetaGeneAnnotator	CDS	89005	90600	.	+	0	ID=MGA_481;product=CTP synthase (glutamine hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227612.1;translation=MKQTKYIFVTGGVVSSLGKGITAASLGRLLEERGYSVTIQKFDPYINVDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFIDQSLTKYNNVTTGKIYSAVINKERKGEYLGGTVQVIPHITNEIKSKIEIVGKENNSDIVITEIGGTVGDIESTPFLESIRQFRYDVGKENVLYCHVTLLPYIKAAGELKTKPTQHSVKELMSIGIRPDVLVCRTEKTVTDEIKRKLSLFCDIDVEGVIECPDASTIYEVPLILEELGLADVVCKKLGLENNKPSLHEWSELVDRIKNPEKEFKVAIVGKYVELKDAYISINESILHAGYSLKGKAKIDYIQAEDIDVSVLKNYDGILVPGGFGQRAVEGKIKSIQYARENKIPFLGICLGMQCTVIEYSRNVLNYKDANSTEFDEDTNYPVIDLLPEQKDIEDMGGTMRLGVYPCKLKEGSLAKKLYQEELIYERHRHRYEFNNEFKEIIINAGLEISGTSPDGRLAEIVELKNHPYFIASQFHPEFKSRPNRPHPLFVGFVKAMLGEEI;locus_tag=LOCUS_04780;gene=pyrG;EC_number=6.3.4.2;note=WP_003227612.1 CTP synthase (glutamine hydrolyzing) (Bacillus) [pid:66.0%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.2e-210],MGA_481
sequence02	MetaGeneAnnotator	CDS	90725	91411	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKLEKAIIFDENYNKIEFKNPIENTYEELKEKWKKKDENYNKIDWKLEFGIYDKKNNKIGEFYLDTENEIIANIDLDGYFNGESLEIEDGIEVKLIKKDSGLLEAMIYSELVRNDVLDENHQDLIYMNLFPEWLNGLLIEKSNENEVLKKFKDYFLIIFEKYNIIKVLDLNKENYEIICYNDEIKDEFKSFLNKTLKKYEFILHQVEYEGNIEELFDIYYEWKERI;locus_tag=LOCUS_04790;note=MGA_482
sequence02	MetaGeneAnnotator	CDS	91422	92294	.	+	0	ID=MGA_483;product=thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002212612.1;translation=MKEYLDMVKYVLDNGVRKKNRTGVDTISTFSYFYKVDLSKGYPLLTTKKVYFNSMLKELFWYLSGDEHIKELRKHTKIWDAWADEEGRLETAYGRFWRKYPVPKENHFNGEVWVDKDNKWTTEHQDGTLTFDQIQYIIDTLKEIKINPEASNGRRLIVSAWHPGNATISKLPPCHYTFAFNVQGDKLNCHLTQRSGDVALGIPFNLACYSLLTMMIAKECGYKVGEFAHTIIDCHIYENHIEGLKEQIKRTPKELPEIKIADKPFNELTPEDIELINYNHDPLIKFEVAV;locus_tag=LOCUS_04800;EC_number=2.1.1.45;note=WP_002212612.1 thymidylate synthase (Neisseria meningitidis) [pid:44.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-63],MGA_483
sequence02	MetaGeneAnnotator	CDS	92377	93045	.	-	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEISKKNLEQLNLYSKKIITPILPAKVFYKAEEYHQNFYKTHSIKYNYYRYRSGRDQFLKKIWKGKKLNSINTKYSNYKKPTDKELRKTLSNLTYKVTQKNGTERAFTGMYWDNKLEGIYVDILSGEPLFSSTNKYKSGTGWPSFTMPIDEHFILKKEDKSLFYKRIEVRSKYADNHLGHVFTDGPPPTGLRYCINSIALNFIPKAEMEEKGYSKYLYLFK;locus_tag=LOCUS_04810;note=WP_000825088.1 peptide-methionine (R)-S-oxide reductase MsrB (Vibrio cholerae) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:62.2%25%2C Eval:2.1e-70%2C partial hit],frameshifted%2C insertion/deletion at around 93044,MGA_484
sequence02	MetaGeneAnnotator	CDS	93009	93425	.	-	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLSYYLLIFIILFNPSYSKTQQAIFAGGCFWCMEPPFEKINGVKEVYSGFTGGNEKNPSYKDVANGKTGHREAILVLFDNEKVSYNKLLDIFWSQINPTDPDGQFVDRGFQYSTAIFYLNEEQKKWRKFLKKILNN;locus_tag=LOCUS_04820;note=WP_000481668.1 peptide-methionine (S)-S-oxide reductase MsrA (Leptospira interrogans) [pid:54.5%25%2C q_cov:87.0%25%2C s_cov:62.4%25%2C Eval:2.5e-36%2C partial hit],frameshifted%2C insertion/deletion at around 93050,MGA_485
sequence02	Aragorn:1.2.38	tRNA	93593	93670	.	+	.	ID=Aragorn_19;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence02	Aragorn:1.2.38	tRNA	93682	93757	.	+	.	ID=Aragorn_20;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence02	Aragorn:1.2.38	tRNA	94146	94220	.	+	.	ID=Aragorn_21;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence02	Aragorn:1.2.38	tRNA	94226	94310	.	+	.	ID=Aragorn_22;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence02	MetaGeneAnnotator	CDS	94687	94989	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKLKENFFKDLLKKGFTETTIVTHRKNIEFIPEEILLDIDRIIEYLKENFNNTNKTDVNKMIATLKRLFSYLYKNSDISKYKEAKLKLLHYKELVSK;locus_tag=LOCUS_04830;note=MGA_486
sequence02	MetaGeneAnnotator	CDS	95265	97166	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDKIETDNQSIKIINEKPLWAYDLNALYVNSKFFLDKPEIVKIVITENKNKLIEIADNTYEPDIFYTISVFHDGLKIGDIYIEYSSKYIDKEINIILSQIYIVELFFIIIFSFLIFVISKTVYTPIQKIVKALQNLDKGNYEFELILDRNDEFKIIEKYFNKVIKGFNYERKKNIENMEQINKTKDELEAAYNQMISINSMLENTLKELELSETKYKNIFKYSPGGIIILNIKNENYEEINEKVLEITKNFTSNYEREKIEYIIENVEVMKLIEKMIKTKKMLKKTIKFEEIEKTLMVTVAPINNNSEYAQIFLNDITELKDLEEKLKNYAETLEVKVKMRTADLQKANELIKSQQEEMVKNAYNKAFIEVTSGIIHNIGNIVNIINMNMEELIVEYPDNEKTYKFFNEILSRELQKIDIKSKELEKIIKITPEIIETMKEYDEKIKEKIELISKKLLHLKEIIQLQQNFVGSLGTEDYNNINEIVKEVIEIYESSLEKRGINYKFNRGENQEILCDRGQIFQVISNFIKNAYEAIEEAEKKEKLLEVTTYNNKDKFIIEIKDNGIGIKEENLNKLFEFGFSTKKENGKGNGYGLYSCKSIIKKYGGEILVESKYGEYTNFKIILPKRSTK;locus_tag=LOCUS_04840;note=WP_010946039.1 ATP-binding protein (Legionella pneumophila) [pid:29.5%25%2C q_cov:26.5%25%2C s_cov:35.5%25%2C Eval:4.5e-13%2C partial hit],MGA_487
sequence02	MetaGeneAnnotator	CDS	97167	98006	.	+	0	ID=MGA_488;product=endonuclease/exonuclease/phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903695.1;translation=MKKKNFIVILFIVIVNLTFTNTKENYVIASFNTLHLGWKGKNYKELSEIVSLFDLVGLEEVMSKDGLKKLDSELEKLTNEKWHWHISKYSVGRSKKYREYYAYIWREKKVKFKRSMGFFKEKNDEFIREPYGAIFQIKNLEFGFVLNHFIYGDKKRDRQLEAVYLDEVYDYFTKYTKKILVAGDFNLPAYDISFKDMIRNKIFYAIDPSNKTTIGKYGLASSYDNFFLSYEIFSEYSGRNGVYDFTKDKKYDKQYGKEKYKILRKTISDHLPVFIELNI;locus_tag=LOCUS_04850;note=WP_005903695.1 endonuclease/exonuclease/phosphatase family protein (Fusobacterium nucleatum) [pid:45.8%25%2C q_cov:95.3%25%2C s_cov:93.2%25%2C Eval:6.3e-60],MGA_488
sequence02	MetaGeneAnnotator	CDS	98122	98778	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILKRLFNKKNYRDYFLNGENIKFDKNLKTGIILDNIDNENGSYIIERFLELLNENLDKKNIKGSLRKSLEKLNKEFLGKYENVSIQIFSELEDKKIIILNIGNIRFYVYSNNEIRQITEDDTEFFRLFKNNMIDYSKAKESPLTNILTNSLGKNNYINTYEYFIQQGDRIIILNSKAYNRIGETGIENILTKELNFDKLKDSFIKNENVFLKNVSR;locus_tag=LOCUS_04860;note=MGA_489
sequence02	MetaGeneAnnotator	CDS	98775	99563	.	+	0	ID=MGA_490;product=YlmH/Sll1252 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358628.1;translation=MIKINKNNFIKLFPKSLKEKIANIYEKIELVKNIDYFIQLEEFYSGEIWKKLLKYEYELGVKIILDNYIKNGERKNIIIAPIDLELNYDQYFNLNMIKIENLSKFKDLGHRNYLGNILSYGIKREKISDIVINDGNAYFVTFSDIAEYLINNINSIDKNNVIIKKIYNNEKIEIQFERITGIISSNRLDNIVSLLTKLSRNEAVKLIEKNLVYVDYEVINKKNKSLNEKNILTIRGYGKYFYKGIVGSTKKDRLKVEMMKFM;locus_tag=LOCUS_04870;note=WP_003358628.1 YlmH/Sll1252 family protein (Clostridium) [pid:31.0%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:4.0e-29],MGA_490
sequence02	MetaGeneAnnotator	CDS	99578	101614	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIKKIKNFLMFLFLIIILIFTIYLFRNPIIEKITESTLTKINGAKVEIEGLNNPIFTLNIKWKKMQYTDNKNPMKNKYEINNVNFTLKSKPLLAGKFIIENFSANEIYLNTDRKESGAIEVKVKKTKETSNKDNKVLEKLNNIVKDKIKQEKRGLINEGFDKDKYIEEKLNSLSLESDKKYIKAKQELELKKEYWKKLLEKREYEIKLKNIETEIKKIDVKLELGEVKSLEDLKKLNAKKEKLEKNKKQINKLLKDINTIKKEIEEDIKNFSLDIAEINKTKNDLFEELDNDLNKLNDFKDNSGNELNELTSAFFGEKSIKIFNIMFEQYNKIINIFGKDKSNNKKEEKKEKMPELPKFWIKNSNIKIIENNKIYSGEITNITNNQNKTKQPTIIELINKNNEKIESKVYAYIDNIKNIKSLDISINDKQIKNEDMGLFKIEEGNLEGKNSIKDTNDGFFIELNYNIKDIVINKDIKIANKILKQVLIDSLDEIKVLNIILKFENNKFIFNSNLDNVIANKINEIYKAELIRAKQEIDNKYRAKITNIKNSYIKEMEKFENEYREKLSILKNGNLEKLNKLKNQEKLQENIKNDIKNKEEKYQKILDEKKKELEEKLLSEQEKLKEKAKIEQGKLQEEVDNKKEETQNQVEENLEKLIQEELEKNKDKIKNIFKF;locus_tag=LOCUS_04880;note=MGA_491
sequence02	MetaGeneAnnotator	CDS	101751	103106	.	+	0	ID=MGA_492;product=magnesium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986205.1;translation=MDIKQVKQLIEEKKYVKLKEELEDIHEVNISEILKLLDSKEALLIYRLLSKDIAAEVFSYLDPDDQEKLINGFTDVEIKDLIEELYWDDMIDLIEEMPASIVKKILKNSNAENRKLINHFLNYPEDSAGSLMTIEYISLYPEMTVKESLDYIRSVGNEKETIYTSYILDKGKKLLGTVSLKELILAEPNIKVKEIANEDVISVYTTDDQELIAEVFKKYDLITVPVIDKEGRMVGIITIDDIVDVIEEETTEDIQKMAAITPLEEKYLDIGPIEMAKKRIPWLAILMISASLTSAVISRYESILAQMTVLSSFMPLLSGTSGNAGSQVSALIIRGLSLGNIKLKDLYKVIWNEFRTSIIIGIVLAIINFFRLYYLEIALVGNPEKFRISLLVSISLMFTIIMSKIVGGILPIAVKSIKLDPALMASPLLTTIIDVMSLIVYFNLVHFFFNI;locus_tag=LOCUS_04890;gene=mgtE;note=WP_011986205.1 magnesium transporter (Clostridium botulinum) [pid:48.5%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:1.8e-127],MGA_492
sequence02	MetaGeneAnnotator	CDS	103447	103917	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLLIIIGVLCVIISLISMISLRRKVDERIEVFKDHELEYRDLRNDIIELKDEFSKSAELEIMNLDKKMRELNKTKVLIENKIKEGQSLNQILENTFEKINNIEVNVNSNFKENPKYLEKIIIDYYKQGLSIREIAKKTGKTLNEIQMIMGLTLN;locus_tag=LOCUS_04900;note=MGA_493
sequence02	MetaGeneAnnotator	CDS	103950	104591	.	-	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLIIILILLLLLFLNYILKNNNNSTSLKTYEYTLNHINNKKYRNYLDKSFNKNDKEYIFNLFNNKCFNCGSTNNLEIDHHYPISKGYPLKYKNKYNAVLLCRDCNIKKSNKFPENFYLKSQLEVLKKKYNITQFNIDKQILDYKLNFLSEYILNNLNCIININQKNYLIKPLEIKYEVIFINSNLKKEYYLIYLFNKNKYISNISKLKIKSN;locus_tag=LOCUS_04910;note=MGA_494
sequence02	MetaGeneAnnotator	CDS	104594	105598	.	-	0	ID=MGA_495;product=potassium channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546063.1;translation=MINFKNFLLMILSLITIYLIGILGYIYIENYSLMDAIYMTAITISTVGFSELKPLSLSGKIFTIFLIFIGISFVLYSVSVIVKFILEGELNKYLKGVKVKSKINNLSNHIIICGAGRTGYRIIEQYVKSNENFVVIESDIEKIKVLESTLGNNILILNEDATKDETLIEAGIERAKALVAVLSSDAENLFLSLSAKSLNNKISVITRALDLHSEKKLKKAGADYVISPLSIAADKIVKITAQKNINKFIDYITESGVDELKVEFIDIPKNSKLVNKTLLEAKIPQKTSLIVVGIEENNKIKLNPTSTSLINPNSKLLVFGKKEQIKKLENLIKG;locus_tag=LOCUS_04920;note=WP_012546063.1 potassium channel protein (Thermodesulfovibrio yellowstonii) [pid:37.5%25%2C q_cov:98.8%25%2C s_cov:95.9%25%2C Eval:3.1e-59],MGA_495
sequence02	MetaGeneAnnotator	CDS	105708	107432	.	+	0	ID=MGA_496;product=signal peptide peptidase SppA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627854.1;translation=MKKILLFILNLIKYVIKQIVFIILSFSILFGIIFYFVSVNLPSEMEKTVEVVPDSYLELSFPDGLREKNNFESIVENIFDNRTTSFYDAVRAIENAKMDNKIKGILINLTTINLPMVYMEEIGKELEEFKKYNKKIYAYGEIITNGNYFLASYADEIVMPPSHSTIVNLSGYYRVIGYYKNLFDKIGVKFDVLHIGDYKTYSEEYIRENMSKERKEELSRVLDYSLNYFVEQISKNRNIDKYKFYNNLINGKYVSKDSLIAKESKLIDGLEYYNQFLVKKGINNIISISKYNKARIERKSKDKIAIIYADGNIDFETSYSNMNSITYSQMEEELKLAEEDKNIKGIVFRVNSPGGLALIAELITERYNNTNKPIYVSIGRVAASGGYYISTVGKKIFINNSSITGSIGVVTRIFNVNELYDKLGIRLEEIKKGKYSDLYSLNNKLTEEERRIIIENQKNTYKEFKNRVEKSRKIDSESLEKIAQGKIWIGKEAVENGLVDGIATLNGTIKIMAKDLGLDNYSIIEIYKKVEDNNLVSRFSKYIKVNNIYDKLNEELKYIESYNKKILLMNEYDI;locus_tag=LOCUS_04930;gene=sppA;note=WP_201627854.1 signal peptide peptidase SppA (Fusobacterium canifelinum) [pid:36.3%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:4.9e-96],MGA_496
sequence02	MetaGeneAnnotator	CDS	107487	108002	.	+	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYEEAWNYNEYLRSSLIEYRKKQEKIFSKISLKKENIKKIKNIKTKVNIVVFAEIYCPDSRAVIPFLEKTRQENENIDLYIFPREGNEHYLSKITNETKIPSIFIEDIEQEELCLIYEEILPDLKFKIKEHILRDEKDIAQEIIYNYRIGKYNDQLEEYLVNKIIENII;locus_tag=LOCUS_04940;note=MGA_497
sequence02	MetaGeneAnnotator	CDS	108030	109859	.	-	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISKKLFLGFIVLILGMTGIAANSFISNISFKKEALEINKNTEYLKEIAQANADMQILENSFITFFNTIDKLKRAEDPKDINAIQKKIKSDIDNIYSAASKLNLKGTLNNLFTTFNGNVEKLINKKHLIFKKQNDLFTFRNNLKKSIESNDKNQLEILTKFLEKEKEIITLRDELQVFINTTINTNIETIYYSLKPYVDLKNKQNLTSIENIRKISNQNILLIKKIGIRTLIIILFISLLVSSILLTTITSINRPLRNLTRTAEKLSQLDLTVPFPRRFKKDETGILTKSFKTMVDALRKIIFNIQSVSNEVSNEAESISNSVLKTAATTEELSASINTITTSIKQSLETLNEVDSQVKNISTDSNTILSTVAQITENNKEVLNDTLKEKDNLLLTLNKISGVGKHISENSEKINELKALSNEVNTFIEKIYNVTEQTNLLALNAAIEASRAGEAGRGFAVVADEIRKLANTSRETAEEIEEKMNYMSKKIDENVTSSNNNKSQLEETIIEINNVSTTIEGIVNSFEILIKELNTIHSSISNQTNELNQLSNNSDNITATFEEIGTRVNEIDTAVLSTAEIINELSDAAQNLTSTTDKVNDLINMFKQ;locus_tag=LOCUS_04950;note=WP_000486209.1 methyl-accepting chemotaxis protein (Bacillus cereus) [pid:28.6%25%2C q_cov:59.8%25%2C s_cov:55.2%25%2C Eval:2.9e-41%2C partial hit],MGA_498
sequence02	MetaGeneAnnotator	CDS	110100	110801	.	+	0	ID=MGA_499;product=queuosine precursor transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015968.1;translation=MRNEMLWFILLIINFSFIIFSYKKFGKVGLFTWIPISTVLANIQVMITLQLFGFTATLGNIIYASAFLVTDILSENYGRKEADKAVWIGFFSLIATTIIMNLCLLFLPDNSKNSMDLYNSIKSVFSIMPRIAIASLIAYILSQKHDVWAYHFWKKRFSESNQIWIRNNLSTMISQLIDSTIFVLIAFVGTMPFNIVIEIFLTTYLLKWLVAALDTPFIYIATYLKKNNKINEI;locus_tag=LOCUS_04960;note=WP_011015968.1 queuosine precursor transporter (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:98.7%25%2C s_cov:97.9%25%2C Eval:1.5e-71],MGA_499
sequence02	MetaGeneAnnotator	CDS	110843	112480	.	-	0	ID=MGA_500;product=Na/Pi cotransporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627741.1;translation=MNEIILKVIGGLGIFLFGMHYLSNGMQNLAGNRLKKIISSLTDNRVIGVIIGILVTGLVQSSSITTVMVVGFVNAGLMTLKQSLGLILGANIGTTITGWILVLKVGKYGQLIAGIGALIFVFGKKEKTKNRGMVLLGLGFVFLGLEFMKEGFKPLGSDPNFISLFHKFQAHNLKGIILAASVGALMTSVVQSSSATLGITIGLASQGLITPVTGVALVLGENIGTTITAFLASIGASVNARRAALAHTIVNVIGVTWVISIFPFFYNIIQNITNHTTDPTTLLATAHTSFNVTNALLFTPFITYFAKLLEKLIPSTEDETKEIKYTHLDVRMLETPTIAISNINDEVENMGKDVIKMFELVKIIFEKNLDKTSNQVKEIFKLEDKLDIVQKEISSISSMLLGENFSNEISIEAKNVLTIVDEYESISDYLMSEIKLYLKLLDNNITLDKAEKVDLLKLHSELNNYFHFVNEIISTERTEENYLKSFKVKTKITTLFKEIRNTHLDEFRNTKKDLFYTIGYMDMLNTYRRIKNHIFQVTEILIKEN;locus_tag=LOCUS_04970;note=WP_201627741.1 Na/Pi cotransporter family protein (Fusobacterium canifelinum) [pid:41.7%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.5e-115],MGA_500
sequence02	MetaGeneAnnotator	CDS	112646	114313	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKWTEEQLKIINSNKKLLVVNAVAGSGKTSTLMGIALKNINKNILYLVYNRAMKKEAEEKFKKYNLKNIEVKTAHGLAYKYYSKKNLVNNLNIIEISEKYKLSYKSAKNYINLYNKFLQSKYTSIEEFINYFREYIFYSFDLKNKLLKDIKNFIILNEARYEKKLESLDTSILLSKLLYDYLLIKIENKKSKNRDEILEEKDSYILKSIELNFELLQKDELLINYYDTIKTILNKIFDDMNNERLPQIHDHYLKLYQLYREKELFYEIVLLDEAQDSNGVIIDIIENKFPNAKKIIVGDTNQQLYAFRGAINAMEYFMKLENSTIMYLTHSFRIGSELADFVNKILKLKQNNITIVGKNINQKIIEDFKDEKILVLARTNAGLFEYAIENLDKKLFFFRKIDFSALKDCYSLYCGNRKNINSEIKKYKSFSQLEKYIEENLELNSEIVLSFNLIKKYGHNMKNYLEKIDKSICKNKNEANIFLSTVHAAKGLEYKNVYLLNDFMNINETLKILDRSKDNVFFYKKIKKWFYEELNIIYVALTRSSKNLKHTICL;locus_tag=LOCUS_04980;note=WP_001120833.1 UvrD-helicase domain-containing protein (Salmonella) [pid:30.0%25%2C q_cov:54.6%25%2C s_cov:58.3%25%2C Eval:2.3e-26%2C partial hit],MGA_501
sequence02	MetaGeneAnnotator	CDS	114339	115271	.	-	0	ID=MGA_502;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492176.1;translation=MKNKIYDIIIVGGGPAGLTAAIYGARANMNVLILHKENVGSLISAHKIDNYPGFPEGLKGKELNNLMKEQALKYGAEIINATLLDIDVYSTPKIIKTDKDNFLAKTIIIATGWSKNNSKKIKGEEEFLGKGVSYCATCDGAFTKNLDVTLFGQGEEIAEEALFLTKYSKTIKIFVNEKELKCHKKTYDALINNEKVEIITNSELIKITGNDFVEKVIVKINNEEKEIKADYAFLYLGTKSSLELFSTFANVDQNGYIITKDDMKTNIEGIYAAGDVREKSLRQVTTAVSDGTIAATEAIKYILKQKKKEA;locus_tag=LOCUS_04990;note=WP_029492176.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium hwasookii) [pid:50.8%25%2C q_cov:98.4%25%2C s_cov:99.3%25%2C Eval:4.4e-89],MGA_502
sequence02	MetaGeneAnnotator	CDS	115317	115595	.	-	0	ID=MGA_503;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000214797.1;translation=MNYDKVTIILKLLSNPIRLQILKTLCDRSENSLKTCVGELEKIIGVSQSSVSQHLAYMRNARILKYEKTGKIVCYEIQELKVKELIDFLDKL;locus_tag=LOCUS_05000;note=WP_000214797.1 metalloregulator ArsR/SmtB family transcription factor (Bacillus) [pid:39.0%25%2C q_cov:88.0%25%2C s_cov:76.8%25%2C Eval:2.2e-08],MGA_503
sequence02	MetaGeneAnnotator	CDS	115608	116216	.	-	0	ID=MGA_504;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016953.1;translation=MKIKIFTLGSLLVNCYLVYDQNNAILFDIASKNITEIDSFLKEKNLTLTKLILTHGHIDHILGIKEIVDKYNCKVYIGKEDYEFLTNDNLNLSKFVIGTCFSYNNNEIIKVSGGDYINDFLVIDSPGHTIGSKVFYNKKEKIIITGDTIFKGTHGRVDFPTGNMLSIMDSIKKILSYPNDTILYPGHGEKTTINLEKIYYKI;locus_tag=LOCUS_05010;note=WP_011016953.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:45.7%25%2C q_cov:97.5%25%2C s_cov:95.7%25%2C Eval:2.7e-47],MGA_504
sequence02	MetaGeneAnnotator	CDS	116338	117678	.	+	0	ID=MGA_505;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020392.1;translation=MKNRKHQLANEKILKLILKLSLPATIGMLVSSLYNLVDTIFVSKAEGPLGIAALTIVFPIQMLIMAFTQSIGIGSASIISRALGEHKNEKASEMFETTVISLIILSALVIFLGVLYLKPTLLLFGATSLILEKAKDYYFIILIGSPFYIFALGLSNIARAEGNLKVSMNGMLFSAILNIVLDPIFIFKLNYGIKGAALATVISQFISFLYLFRYFFFSNNSYIKFKGFIFRINYFIEMIGIGLSSFTRQAVSSIVAIVLNNTLKIYGGEIAIAIMGIINRTLMVIFLPMFGIIQGIQPIIGFNYGAKSFGRVKETLKMAAIITTIFCTIVFLIMQLFPKGIIRVFSNDINLINMSILPIRVFSLAFITIGFQIIVAGYYQSIGKVIPALILSIARQSIFLIPLILILPKYLNEFGIWISFPISDFMGFLISLIFILKEYRKNLSQK;locus_tag=LOCUS_05020;note=WP_011020392.1 MATE family efflux transporter (Methanosarcina acetivorans) [pid:43.8%25%2C q_cov:98.7%25%2C s_cov:95.3%25%2C Eval:1.6e-96],MGA_505
sequence02	MetaGeneAnnotator	CDS	117753	118397	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVLIISIISITIYAEDIHSFYVKYKIEGINSGILEIYIKDNGEKEAYYSTVELSYGKYKDYVRTGLIKNRDILYTLNFKNKTYFNEKIEEDYVPTYEFDFSKYEKVGNGKILDVNTEIYKVGNSYYWVYKGIILKSLQVINSNKIKTNAIEFIRNLEIPEEKFDIPEGFILVDNPLNKLFKKEDNLKKEFEEFKEDLEKEFKEFKKNLNK;locus_tag=LOCUS_05030;note=MGA_506
sequence02	MetaGeneAnnotator	CDS	118526	119515	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINFFILYFILVNIILAKENFILPIVFYSPELGFAGGIIFKNLDKKETMLISNKISSFLTTNQYKSLNYNYNIKYFNNSRFNINLNYKDWLYDYYLNRKIIDDYNQKIIQIEINYNQKIIKKIYFKYGYNFSKIKINNNNFYLEKENINSSGINFALNYENILIEKNMKNGEKLEITTNIYNKKLLSDQDYIKNTFDYRKYFNIKNNQIRAQIMIKDINGEVPFYLKYDLGSNTLIRGFTENKYLGNTFIGGQIEFEKNFNKRFTGVLFYGTGDTNDNFDNIDILNLKSAIGLGIKYIISEDFKVRMDMGFASDGDKNMYINFSDAI;locus_tag=LOCUS_05040;note=MGA_507
sequence02	MetaGeneAnnotator	CDS	119533	119949	.	-	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLNKINYIKKWGKRLIFIIFLLIIILVKFFYELNWTKWEYYGKFNKINFYIRYYIKPDGRTKIQWKAENLNNQSMLVSIRDRRYYLSDGTSEKRKDIWGIVKAHKTYTFPTDKFTKAKILRIENYYYVHPNKTIKK;locus_tag=LOCUS_05050;note=MGA_508
sequence02	MetaGeneAnnotator	CDS	120199	120882	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGKLGEKERAALGLSNQIMFLLVLLLFGINSGGAIFMSQFNGKKDTKNMKKVLGIVLINSFLAGVIFFLMVILIPDFLLKIYTKDKIVVDIGMRYLKIVSFSYIFTAISFVYSVQLRTINKTKLTVYSSSLALVINITLNYLLIFGKFGFPKLGIEGAAIATTIARSLECIFIVFLVYNNKYIFAAKFKEIIGFDIFFVKKYFFTTLPVLLNEMIWSFGIAAYNIC;locus_tag=LOCUS_05060;note=WP_010964165.1 MATE family efflux transporter (Clostridium) [pid:43.3%25%2C q_cov:98.7%25%2C s_cov:48.8%25%2C Eval:3.0e-48%2C partial hit],internal stop codon at [120157:120159](+),frameshifted%2C insertion/deletion at around 120870,MGA_509
sequence02	MetaGeneAnnotator	CDS	120884	121246	.	+	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTQAIAAINIVGSIERLLFVSLIGVASAASVMVAEKIGEKNEKEAFEYAINFIKLIFIIGVIMSIILYGMTFFILDLYNISENVYKYSKYIMFILCFSLPSKYSRKFKSRRRYKVCFIY;locus_tag=LOCUS_05070;note=MGA_510
sequence02	MetaGeneAnnotator	CDS	121278	121427	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFIAAFYFKLPIYLVYFVTFFEEITKAIFGIKRVFSKKWITNLVKDIS;locus_tag=LOCUS_05080;note=WP_010964165.1 MATE family efflux transporter (Clostridium) [pid:52.4%25%2C q_cov:85.7%25%2C s_cov:9.2%25%2C Eval:5.4e-07%2C partial hit],frameshifted%2C insertion/deletion at around 121168,MGA_511
sequence02	MetaGeneAnnotator	CDS	121450	122136	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYHNTYQDFFNENKELLEKIIKEINKDNYTPQKENIFKALETDLYKNKIVILGMDPYPQKNVATGLAFEVLLDSWQDKKINTSLKNILKLIYKSYYGEILSINELRKKIESKEFNIEKPKKMFKNWQKQGVLLLNTAFTTKLDKPGAHIKVWKEFSINLIEYISKNNPRLIWFLWGEKAKKYEKYIINNKNIYYSNHPVICGQLINPKDFLNSNCFLETKDIIKWI;locus_tag=LOCUS_05090;note=WP_000432519.1 uracil-DNA glycosylase (Bacillus cereus) [pid:34.5%25%2C q_cov:73.7%25%2C s_cov:66.2%25%2C Eval:1.4e-13%2C partial hit],MGA_512
sequence02	MetaGeneAnnotator	CDS	122221	123567	.	+	0	ID=MGA_513;product=DegQ family serine endoprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940757.1;translation=MKKVTVTLFFMTLISLVSFSATDQEEFVKVAQNLMPSIVNIRTKTTVKQTVVDPFEQFFFGESAPKQIEREGSSLGSGFVITKDGEIVTNNHVIEGASEIFVKFNNKKEYEAEIVGKDPETDIALLKIINTKDKFKPVKFADSDFLKVGQWAIAIGNPYGLNNTMTLGIISAIGRSGYGIERIEDFIQTDASINPGNSGGPLIDIYGNVIGVNTAIISKTGGNTGIGFAIPSNIVKKVVESIQKYGEVRRPFMGVRFQPDFTSKMAESMGLKDGKGALIAEIVDESPAAKAGLMRGDVITAINGRVVETYANAIAIISSFQPGEEISVTVYRKGKERNITLKLGSRSDESLNPSEAILGMQLRTLNEALRNKYKYSDTKEGVVVLNVDPASQAARIGIKEGYLIVEINNTIVKSLKDLKQVYNSIDEGENVLLYIENKDFGRYVLLKK;locus_tag=LOCUS_05100;note=WP_010940757.1 DegQ family serine endoprotease (Geobacter sulfurreducens) [pid:40.2%25%2C q_cov:94.6%25%2C s_cov:89.4%25%2C Eval:1.7e-82],MGA_513
sequence02	MetaGeneAnnotator	CDS	123673	123876	.	-	0	ID=MGA_514;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065663.1;translation=MSNYKCPKCGNISYETDTVAMTGGGLSKIFDVQNKKFTTVTCTKCKYTEFFKAETSMLENIFDFFTD;locus_tag=LOCUS_05110;note=WP_048065663.1 zinc ribbon domain-containing protein (Methanosarcina acetivorans) [pid:60.9%25%2C q_cov:95.5%25%2C s_cov:92.8%25%2C Eval:1.1e-17],MGA_514
sequence02	MetaGeneAnnotator	CDS	123924	124991	.	-	0	ID=MGA_515;product=tartrate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234436.1;translation=MKRFKIAVIPGDGIGTEVINEGIKVLKKIEELESSISFEFKTFPWGCEYYLKTGKMMDDNGMEILKNFDAIYLGAVGFPGVPDHISLWDLLLKIRKGFDQYINIRPVKLLKGAPCPLKDVKREDIDMLFIRENSEGEYAGAGDWLFKDKPNEVVLQTGVFSRKGTERVIRYAYEIARKEGKTLTSISKANALNYSMVFWDEVFKEVGKEYPDVKTYSYLVDAAAMFMVKDPKRFEVVVTSNLFGDILTDLGAAIAGGMGLAAGANLNPEKKFPSMFEPIHGSAPDIAGKEISNPLASIWSVSQMMDFFGYEDWGKKILDAIEELLIDGKTLTPDLGGIAKTSEIGKAINKILEKK;locus_tag=LOCUS_05120;EC_number=1.1.1.93;note=WP_003234436.1 tartrate dehydrogenase (Bacillus) [pid:48.2%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:2.5e-94],MGA_515
sequence02	MetaGeneAnnotator	CDS	125237	126178	.	+	0	ID=MGA_516;product=MoxR family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962315.1;translation=MNNYSEKIQEILKEMNKIVIGQDEIIKKILIGIFIDGHILLEGLPGLAKSLTVNSLAKIFNVGFSRIQFTPDLLPSDIIGMEIYEEETKEFKVKKGPIFSNFILADEINRAPAKVQSALLEAMQERQITIGDTTFRLDNPFIVLATQNPIEQNGTYPLPEAQQDRFLFKLKIDYPKKEVERELIERISKGNIPEKVEVNILITQNDIETIKKEIEKVFISDVLKDYIIDIIFKTREKNNYIECGASPRATINILKAAKANAYISGRDYVSLEDIREVAYDILRHRIILSYEAEVDNITVENVVADILNSVEIK;locus_tag=LOCUS_05130;note=WP_011962315.1 MoxR family ATPase (Flavobacterium psychrophilum) [pid:52.7%25%2C q_cov:97.4%25%2C s_cov:92.8%25%2C Eval:5.3e-90],MGA_516
sequence02	MetaGeneAnnotator	CDS	126187	126996	.	+	0	ID=MGA_517;product=DUF58 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962314.1;translation=MASKEILKKIKKIDINSKILSEHLLVGKYHSKFKGKGLEFSNIRKYTPGDDVRNIDWKISKKLQKTYIKEFIEERELSIYFLIDISNSNILQNRREYIAEIAGTIANSAIENGDKIGAYLFTNKIEKILKVNNTKKHLLAIIDAILTFQSENKDTNIKKSIEEFLSLKLKKGIVFLISDFYDENYEKEIKFLLKKHELILIRIFNKSFEALDKNIVYRFIDSETNQEILYKKNSENLNMKLNFNNYIEFEVGENYIPKLIKLFNYRGRK;locus_tag=LOCUS_05140;note=WP_011962314.1 DUF58 domain-containing protein (Flavobacterium psychrophilum) [pid:34.2%25%2C q_cov:95.2%25%2C s_cov:96.5%25%2C Eval:9.6e-42],MGA_517
sequence02	MetaGeneAnnotator	CDS	126993	127679	.	+	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLKLIIIFIIIFNTIFANNYHIGDIIRLEIKNSNIKEVKNVFKDFDIEKIEEKNNKIYIEFRSFETGEKDIILGDKKLILNIDSTIKKDETKLYNFNNNKNLKLQKIYKHFEYYIFYLIFILNIGLLIKIFIKQKNKENEIDINEIIEKENDFRKINYEFKKYIDKKYNTRFLNGIYNNNFNKEIENYLKNIDDLIFQGKTINIEEYKNKVLKYINIIKEKKNV;locus_tag=LOCUS_05150;note=MGA_518
sequence02	MetaGeneAnnotator	CDS	127672	128616	.	+	0	ID=MGA_519;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962311.1;translation=MFKHFYLLFGLLPFLIIYFYKKEKAIKFPSIKILKTNLNTKKYKIGDYLILLSLVFFFIAFARPIERKIDKIEKKGIDIALLLDISQSMLQKDIKPNRLEKAKEVLENFVDSRKNDRFALSVFAATAYTRIPLTFDYDIIKNSIKEISVDDISNNKATAIGVGLVNAINRLKKSKNKSKVIILITDGENNFGDISPEAALNIAKKLGMKIYTIGVGGEYLKINSIFGTQIVKNNEIDEKLLLKIAKETNGKFYRVKDEKEFEDIFKTINKLEKTKIESNQFIQYKERYFIFDLIGYILLILGIIFKYFIYIIIP;locus_tag=LOCUS_05160;note=WP_011962311.1 VWA domain-containing protein (Flavobacterium psychrophilum) [pid:39.7%25%2C q_cov:90.1%25%2C s_cov:88.9%25%2C Eval:1.1e-50],MGA_519
sequence02	MetaGeneAnnotator	CDS	128627	129538	.	+	0	ID=MGA_520;product=VWA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962309.1;translation=MDFVNKKLIYLIILNILIIIIYYIGSRKKINAKKKLNLNTDIFLEIFKGILYLIILNLIVVSLMQPRKFKKEVTIKSKSNNIFFLIDISKSMLSRDIFPNRLEVEKSIIKKIIENLSGEKIAFIPFSSGAYIQMPLTNDYDMAKMFLDIIDSDLISSGGTDIKDALNLIKNKITNKNDIIIILSDGGDEKIDIKKDYNIFSIGIGSEKGGTIPNIINGEESGFIKDKNGNIVISKLNKENLKKISKQYFEYYDIQNIISKIKNMKKQDREDKIRYYKEYYQYFLGSALLLLLIIYIIEYRRKV;locus_tag=LOCUS_05170;note=WP_011962309.1 VWA domain-containing protein (Flavobacterium psychrophilum) [pid:30.5%25%2C q_cov:88.8%25%2C s_cov:84.1%25%2C Eval:7.7e-30],MGA_520
sequence02	DFAST	assembly_gap	130216	130311	.	+	.	ID=GAP_1;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_1
sequence02	MetaGeneAnnotator	CDS	130528	132108	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLILIFFLIQYISFAEIILDVSDTTVSLNQTFNLSVIFKNEKQKKFKINGIENFKILTTSTQSNTSIINTKVTKEIVYNYKLLPIKEGEFKLFIKNLKSNEIFIKVTTTSTSNINQKKDIFFKTNDLKKTYYYGEKIVFENHLISKKNINGLNIVSQDDFTNFSKKDMTPKNYDGKYIRIEGEKAIDLTIQKYILTPIQSGKFEINPTVLEVTTTSFDSFFDKNEYISSEKKSINILPLPEKNKPQNFSGIVGDFKVDYKYEKQNNNIVLKLKIRGEGNLDYLENLNINSNDFNIFQSVKNSNEIVMNNKVFVEKEFEIIFIPNKNGKVKISEIKIPYFNINKKDYENLIINKQIFNISGVKEEKKQEIIKNKENKENKENKITEDIQKENTNNIVYKEVEIKQINKQDDFKLYFYILLIVNIFYLLIKIVVIISNKKNRKNKIKLKNLKNSKNIKEFYNNYIAIIKNKYNINLKNTRKSELKKINQEILEIFEILEEKLVKNKDLNKTEKINLIKEIKKICK;locus_tag=LOCUS_05180;note=MGA_522
sequence02	MetaGeneAnnotator	CDS	132157	134289	.	+	0	ID=MGA_523;product=autotransporter phospholipase A1 FplA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015773.1;translation=MKKVLLLILLIFSINIYSNEDKKIGLSLAGGGGKGFFHVGVLKVLEEEKVPIDYIAGNSIGSIIGSLYAIGYTANDLEKITTMIDWVTIFDDTPSRREKPMDEKIFSDKYAFALPYEKNKVRTPQGVFYGEKIYLTLKDLMWNARYVKDFDEYPIPFRAIATDLISGNPVVFSKGDLAKTVHASMAIPSIFVPVRINGKLYCDGLVSRNFPVSDVKKMGADYVIGVNISEQEEEIENLSVLGILNHIVSYRGFDSTKQERKLADLLIETKELKNYSPTDYSKAKELIKLGERIAREHIEEIKKLSNPEKFERLQKRKKEFLKQVEKNYRELNFISRVEIKGLKKIQPELIYTILFKKVPFYITKEEMFEKIKKIYATQQFDKVYFEFEGEKLIIEVEERAANYLRVGFAINSYTGTKLFLSTDINNFNLKGYKTVIESEISDTPMVSLAHSFFYGIRNKYGMRAKFKYKANKFVYKNERYRTGLYNFDNFIGTISTPYLDGGIGLGVDFLKTEYSNKNSEFDSSYFYYIFRYDDLDKDNYPEKGQQLVLKNRLNIDIFNFEKNTKPNKFEFKYKNYIPIFKEKLTLINEYFYDNLKMETNNIGDIHYYSRVGSIKDKENLEFYGLRKDAVITDSINIYRIGLQKKLNNLTYLIGKINFGNYKDENSQNKFIRGYGLTLGYKSIIGPLNVSITNNALVSGSLIQFNFRFEI;locus_tag=LOCUS_05190;gene=fplA;note=WP_011015773.1 autotransporter phospholipase A1 FplA (Fusobacterium nucleatum) [pid:29.1%25%2C q_cov:95.2%25%2C s_cov:90.3%25%2C Eval:7.5e-73],MGA_523
sequence02	MetaGeneAnnotator	CDS	134324	135121	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYITEYLKDISYYPLLTKEEEYQLSKKALAGSDEAREKLINSNLRLVVSVAKKYFGCGLSLPDLIQEGNIGLIKAVEKFNPDLGRRFSTYATWWIKQSILRALSTTKGAMRYPAYVHDNISKISKFIQKYKSENEELPPLNLIAHELEMKVKDVEKYLHLTNQSFVSLEDSFQDNVDLHSMVADETYIEENLLTQYEYYELWQQLNKLNEKEKVVIIYRYGLFNEKIHTLEEIGNMLNLTRERIRQIQIIALKKLKNKYKILYYN;locus_tag=LOCUS_05200;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:41.6%25%2C q_cov:92.8%25%2C s_cov:61.2%25%2C Eval:9.6e-47%2C partial hit],MGA_524
sequence02	MetaGeneAnnotator	CDS	135263	135841	.	+	0	ID=MGA_525;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902123.1;translation=MIILGIDPGTAIVGFGIIEYKNKTFTVLDYGCIYTEKNLEMPRRLSIIYEELDKLIKKYNPEYIAIEDIFYFKNNKTVISVSQARGVILLCAEKNNLKISAYTPLQVKMGITGYGRSEKKQIQKMVQKILKLKEIPKPDDAADALAIAVTHINELNSRLSLHIAKINKKKLKDIPDKITANEFKNLFAGEKK;locus_tag=LOCUS_05210;gene=ruvC;EC_number=3.1.21.10;note=WP_005902123.1 crossover junction endodeoxyribonuclease RuvC (Fusobacterium nucleatum) [pid:61.0%25%2C q_cov:96.9%25%2C s_cov:98.4%25%2C Eval:1.2e-62],MGA_525
sequence02	MetaGeneAnnotator	CDS	135838	139830	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIPLRLRLFIISTISIFLFILLNGITISSYLEKVFNKFQANLRTEATNNLNKKLLSQSKVLQIELNNRKEKGILLLSTLSNNLQLLENTYKNIGDLKTKEYINNLIKKENITLKLYEEIDIIYDIDKENLESYNNLKKLKNKEIPYYINYFKEKDFLGIKIYKSIFYNEKFLGFLVYKANFISYFAKELSNIIQLEITFYKDKKIYSTSLSPFVFYEKKWNVIEEDSLKTNTLIIPVKNYEFDNKIYKSAFYPIKNNNSNTIGMIAISLNYSEFENLFNKINDDKGVLILNFKKTILKFTMFFLLISLLVVYIFITRVSKPIKEILETIQIVNEGNLNRKAKVYNDEQFGEIAKNLNQLIDNLKSVEKIKKEFLTRNLNELKTPISGIIGISDSLLNNDLGNLNTIQKENIKIINENAEKLSNIINKIMDFSIYNKKEKILELKTINIKKIIDENIINISNYYKKNNLDIKNYISEDKSHIMGDYNSIYQIFSNLIENAYKYTETGSIIIDAKDFADMVEISIIDTGKGINKEKLNRIYGSFENDIDYEGIGLGIVNKLVNLHGGKLAIDSREGEGTTVSVTLRKSYEKFANKNNSINKLKELIAANNLTKDNKLSSKILIFDNDFLNIQVIMNYLIGTNYYLNVVETKEELFREISIREYELVLMDSSVLGFEGYDILKKIRRRFSIFKLPIMIIFPQNSAIGISRYFESGLNEYIEKPIYKEAFIRKIDSMLKLKNSLEEILNVNQKYRKEKKERLVAENLKNIHTELTSTLNIKEIFSILFKKIKYLFDYESGMVLLKDSDRYRVVFQDKALKSSEKNVRLFKSRYLDPITNKKRIIILSEYKCKKYFGEKVKSAIVIPTVYGNNHNCVIILKSSNKKHFMKLEKDKVDALFYQTNIALKNAALYQEVEEKNKTLKDLIEKIKTIEKLISVVYNEKDKNTAIYYNLLIIINQLGLNYKEGYFFEYKKELNLLECKSYYYNVNVVSEKTESSIIEHELWSKNLKIPLTINNILTKAFNKNKDIYMKKIDENNNMLIEKFENVTILPINYENIRYGVLVLEGNGIKTTINEEEKEILKIFSLNLGIYLHTRYLEENNLKYEQIRTMGKFAQSIVHELRTPLVGIKGFVSIVKSKFEKIKLNDKINMYLEGIEKETERILDVVNQVVNLVDYDNKKYVFKEENIKNVFEEVVDNFKSEIKENELSLDISLEEQYYSIDKTEFKKAIIHILKNSIENVDFGKTKNILKIKMESMDKFDRIIIEDNGVGIKKEILENIFKPLVSTKLQGTGLGLTLAKSIIEKHGFELFIVSKYLQYTKVIIQIPKILER;locus_tag=LOCUS_05220;note=WP_011459091.1 ATP-binding protein (Desulfitobacterium hafniense) [pid:26.2%25%2C q_cov:38.3%25%2C s_cov:53.5%25%2C Eval:3.3e-43%2C partial hit],MGA_526
sequence02	MetaGeneAnnotator	CDS	139836	140291	.	+	0	ID=MGA_527;product=tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016664.1;translation=MNIVLLEPEIPYNTGNIGRTCVLTNTNLHLIKPFGFSLDEKQIKRAGLDYWKDVKLYIHDSLEELIKANKNSNFYFATTKTKQKYSEVKYNKNDFIVFGPESRGIPEDILNKYKENNITIPMTPIGRSLNLSNSAAIILYEALRQIDFDFS;locus_tag=LOCUS_05230;gene=trmL;EC_number=2.1.1.207;note=WP_011016664.1 tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL (Fusobacterium nucleatum) [pid:73.3%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:4.1e-60],MGA_527
sequence02	MetaGeneAnnotator	CDS	140307	140786	.	+	0	ID=MGA_528;product=lytic transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080641.1;translation=MKKKKLFLILILVITAISIKLFYKIKYYEEIYFYSKKYNIEDKLLLAIIKVESNFNKEAISYKGAVGLMQIMPSTARWITKKYDFNREYDLLFPIDNIEIGTIYLNYLTKKFNGDLKNILIAYNAGSQRVYNDKWKDIKETKLYIYKVKIAYFFYKYIV;locus_tag=LOCUS_05240;note=WP_004080641.1 lytic transglycosylase domain-containing protein (Thermotoga maritima) [pid:39.2%25%2C q_cov:95.6%25%2C s_cov:94.8%25%2C Eval:3.4e-18],MGA_528
sequence02	MetaGeneAnnotator	CDS	140831	141070	.	+	0	ID=MGA_529;product=iron-only hydrogenase system regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868899.1;translation=MNRIATLSIFIENKDSINKVNHILSEYSEIIISRMGIPYREKRISVIVLIIDGSNENIGALSGKIGNLNGVSVKTAMKK;locus_tag=LOCUS_05250;note=WP_012868899.1 iron-only hydrogenase system regulator (Thermanaerovibrio acidaminovorans) [pid:47.4%25%2C q_cov:98.7%25%2C s_cov:83.9%25%2C Eval:8.7e-18],MGA_529
sequence02	MetaGeneAnnotator	CDS	141265	142698	.	+	0	ID=MGA_530;product=[FeFe] hydrogenase H-cluster radical SAM maturase HydG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004079985.1;translation=MNKELLGTTWQEEVKAESFVNEELLETLLLETKNPSEEEFNAVMERAKHQERLTLKEVAILLNTEDKDKIQEIFHLAKSIKERVYGNRVVLFAPLYLGNKCTNLCTYCGFKATNQDTLRKTLSLEEERKEIEALIDEGHKRLILVYGTHPDYKADYIAETVKLAYSIKNGNGEIRRVNINAAPQTIEDYKLIKDAGIGTYQIFQETYHQETYKKVHIAGEKSNFKWRLFGLSRAMEAGLDDVGIGALFGLYNWKFEVLGLMQHVEHLEKEYNVGPHTISFPRLKEANGLLKNEKYLVNDDELKRIIAILRLAVPYTGLILTAREEPELRRECMELGVSQIDAGTQIELQGYSKHKREQDLKKEQFKIGDSRSLDEVMRELMQGGFTPSFCTACYRLGRTGEHFMEFSKPGFIHNFCTPNAVLTLAEYLEDYASEETKKIGYELIEKEIDKSNVKEDIKVTLKEKLEKVKIGQRDLYY;locus_tag=LOCUS_05260;gene=hydG;note=WP_004079985.1 [FeFe] hydrogenase H-cluster radical SAM maturase HydG (Thermotoga) [pid:56.3%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:6.2e-158],MGA_530
sequence02	MetaGeneAnnotator	CDS	142709	144040	.	+	0	ID=MGA_531;product=aspartate ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392787.1;translation=MNYRIEKDSLGQVKIEKNKYYGINTKRALENFEHKGKKLNLEIIKSMAIVKMAAAIANKKINKLDKKMADFIIESCEEIYSGKYNTEFPLYAIQGGAGTSINMNINEVIANIILEKMGYEKGRYDIVNPIEHINLSQSTNDVFPTAVKISVIRILRELINEVMKLQEILQEKETEFSNVFKIGRTQFQDAVPMSVGSEFSAYAEAVSRDRWRLYKIEERIRRINIGGTAIGTGVGASLKYRYYVSEELKRLTGYGLARAENLIDATQNMDVFVEVSSLLKTLAVNLNKMAKDLRILSSGPNAGLNEINLPKLQIGSSIMPGKINPVGPEFIQQIYFKIIGNDLTLTMACADGELELNAFTPIIAESILESIELLRDGIKVFAEKVVKGITVNKETCRKYVESSLTKATELIDKFGYEFLSEILKESNKTGKHYLDILKEKKLI;locus_tag=LOCUS_05270;note=WP_011392787.1 aspartate ammonia-lyase (Moorella thermoacetica) [pid:47.7%25%2C q_cov:99.3%25%2C s_cov:92.4%25%2C Eval:2.5e-113],MGA_531
sequence02	MetaGeneAnnotator	CDS	144078	145229	.	-	0	ID=MGA_532;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948041.1;translation=MDIYKKALELHEKNKGKIEVISKINVKNKNDLTLAYSPGVAEPCREIVKNKENIYKYTSKGNLVAVVSDGSAVLGLGDIGPYAGLPVMEGKAILFKEFAGVNAVPLCLNTNDVDEIVKTVKLIAPNFGGINLEDISAPRCVEIERRLKEELDIPVFHDDQHGTAIVVTAALINAYRYLKKDITKATIVVNGIGAAGSAIIKMIKQLNPKNIIACDINGILNKNIHYENPLHNEIASITNNNLIKGSLATALKNADVFIGVSAPNIVTKDMIKSMNTDPVIFAMANPTPEIMPELAKKAGAKIIGTGRSDYPNQINNVLAFPGIFRGALDARAKTITEEMKIAAAYAIANVIPDEELADNYIIPDAFNKKVVENVANAIKKCVQ;locus_tag=LOCUS_05280;EC_number=1.1.1.40;note=WP_011948041.1 malate dehydrogenase (Clostridium botulinum) [pid:66.6%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:5.3e-146],MGA_532
sequence02	MetaGeneAnnotator	CDS	145259	145789	.	-	0	ID=MGA_533;product=Fe-S-containing hydro-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881093.1;translation=MKITTPINPKSLESLKCGEKVYISGYIYTARDLAHKRLVKLLKNGKELPFNLKNQIIYYVGPAPAKPGDIIGPCGPTTSYRMDDYTPILLEHGLKAMIGKGPRNKKVKEAIKKNKAIYFAAVGGTAALLSKCVKSAELIAYEDLGTEAIRKLYVEDFPVFVVNDTYGNDLYETTCL;locus_tag=LOCUS_05290;note=WP_010881093.1 Fe-S-containing hydro-lyase (Aquifex aeolicus) [pid:63.2%25%2C q_cov:97.2%25%2C s_cov:92.4%25%2C Eval:1.1e-58],MGA_533
sequence02	MetaGeneAnnotator	CDS	145808	146608	.	-	0	ID=MGA_534;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016356.1;translation=MKHIKAIAFDLDGTLLKSNGKIDKETNLYIQKLINSGLKVIIATGRCLYDALPVKKELSLDTPLVTNNGSRIYYQDKLIKEYEIDKNIVNEILDLKIDNDIIPNLYYNEDWFVEKDIFIKEIVEYQEKTGYKYKISNFNNFRDKNITKLVYIGDHEKLLKLEKDIQSISNKIKTMFSTEYSLEIINANTSKAHAVFSILKNFNIDKHETIAFGDGFNDYELLNESGLGFIMGNAHYKLKESLPHLEVIDKNDNNGVLKKLINIFNI;locus_tag=LOCUS_05300;note=WP_011016356.1 Cof-type HAD-IIB family hydrolase (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:2.5e-47],MGA_534
sequence02	MetaGeneAnnotator	CDS	146700	149057	.	-	0	ID=MGA_535;product=ribonucleoside triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002678883.1;translation=MIVIKRDGSESNFDMSRIKNAVKKAFESVNYYYTNDILDTLVLKTTADFQEKISHGKINIEDIQNSVEKVLSETGYTEVAKAYILYRKQREKLRNMSNTVLDYKNVINSYLKVEDWRVKENSTVTYSIGGLILHNSGAVTANYWLSEIYDDEIAKAHKNGDFHIHDLSMLSGYCAGWSLRQLIEEGLGGVNGKITSSPAKHLSTLCNQMVNFLGILQNEFAGAQAFSSFDTYLAAFVRQDNMTYKETKQCIQSFVYGVNTPSRWGTQSPFSNITLDWTPPKDLADEYAIIGGKKVDFKYGELQKEMDMINKAFIEIMLEGDANGRGFQYPIPTYNITDDFLWDSENAKLLFEMTAKYGTPYFQNFINSDLDPGDVRSMCCRLQLDKRELRKKTGGLFGSGEKTGSIGVVTLNLPRLAYLSETKKEFYQKLSHLLDIAKRSLEIKRTVVTKLLDEGLFPYAKRYLGNFDTHFSTIGLIGMNEMCLNANWIKENLTQPNAIEFSEEVLEFMRNKIADYQEETGNLYNLEATPAESTTYRLAKMDKERYPNIFTAAPESDKPFYTNSCHLPVDFTEDIFDALDIQDRLQTKFTGGTVFHTFLGERISDWKTTANLVKKIAENYRLPYYTLSPTYSICKNHGYIKGEVYTCPDCNEETEVYSRITGYYRPLKHWNDGKSSEYKNRKEYIIEKSRLKIKEIKYTQIENQKNKAINNITKKYLFTTNTCPNCPTAKEKLKTHKDIIHIDAHENMDLAVKYGVRSVPSLVIVNDNDEFEQFFGLSGIEKYIG;locus_tag=LOCUS_05310;EC_number=1.17.4.2;note=WP_002678883.1 ribonucleoside triphosphate reductase (Treponema denticola) [pid:60.7%25%2C q_cov:83.2%25%2C s_cov:92.2%25%2C Eval:4.4e-239],MGA_535
sequence02	MetaGeneAnnotator	CDS	149174	149923	.	-	0	ID=MGA_536;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964606.1;translation=MKGMDMFEHKKINHNNRKHSILDSFNYAIEGIINAIIIERHMKIHVIVTIFVVIISLFLKLDIISLAILGITIGIVWITELINTAIEGFADIIEPKYHPQVKFIKDVASGAVFVSAVLATFIGYLIFIGHLRKSSMQIFKFLKSSYAHTLAVIFVIVSILVIALKSYYKSGSPLEGGKPSGHSALAFSAWAAILFISNNIVIVALGFFIAVLVAQSRIKNGIHNFSEVFFGAALGGSVTYLILLLLKLF;locus_tag=LOCUS_05320;note=WP_010964606.1 diacylglycerol kinase (Clostridium) [pid:38.9%25%2C q_cov:92.0%25%2C s_cov:97.4%25%2C Eval:6.6e-39],MGA_536
sequence02	MetaGeneAnnotator	CDS	149895	150359	.	-	0	ID=MGA_537;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016624.1;translation=MAIIVDITKGIEGYEDKIDLTAIKDFIVTLLEDEYNSNRDIYLSLLLTGNENIQIINRDYRNKDIETDVISFAYRDSEDFLEGPIETLGDIIISLERVKSQAKEYGHSFEREFYYVLTHGLLHLLGYDHISEEDKKIMRAKEEEILERNGYVRT;locus_tag=LOCUS_05330;gene=ybeY;note=WP_011016624.1 rRNA maturation RNase YbeY (Fusobacterium nucleatum) [pid:59.4%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:2.3e-45],MGA_537
sequence02	MetaGeneAnnotator	CDS	150371	152407	.	-	0	ID=MGA_538;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626410.1;translation=MINFDFFGRKFIFKIEKISTKKEKKKLPDDKIFINRIMFFILFLFFFSISNYIQIFRKNPYKIGDTLQKPIIAPFTFKYSDEEKKKEIIDNLIKNSEGIYERNRVVEQKVFEDLSTFINAMKYENSKLKIDYINAVLPLLSKTDIEKLLNIKDYDKLHSQILLELNNYFNQGIKEKDLIKIKNSLNSNSELPKKIAVSFLKSNYIFSYEKTEEKLKNELLNIKDVNITINAGDIILKKNEVITKEKLKMLNQLGLFNMRDNFKIFFGTFIYLIILSIIFYFALERNIKDKILNNNIFLATAIITIIYFITSRFIAKNLFWLLPFEAITLILGLLVNINYSLIINGFLLLYLLPIFGYNYQLFIILLFSLIFTSGLIKSIKNRTDMVSVGLYISLIKILVGTAVLLISKKNIVNIILMNSELFGSGIFSGMLTIALLPYFEETFNILTKLKLVELGDLSHPLLRKMALEAPGTFNHSMLVATLSEQAAECIGADSTFTRVACYYHDIGKMKRPNFYVENQHSGVNPHDNLSPTLSTMIIKAHTKDGQEMGKKYKIPKEIRDIMAEHQGTTLLAYFYNKVKKNNPDINESDFRYDGPKPKTKESAIIMLADSIEAAVRSMDDKNPLEVEKMVRRIIGNKMEDAQLSDADLTLKEIELIINSFVKTFQGVYHSRIKYPGQK;locus_tag=LOCUS_05340;note=WP_201626410.1 HD family phosphohydrolase (Fusobacterium canifelinum) [pid:42.7%25%2C q_cov:94.0%25%2C s_cov:94.2%25%2C Eval:2.1e-141],MGA_538
sequence02	MetaGeneAnnotator	CDS	152504	153274	.	-	0	ID=MGA_539;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966434.1;translation=MSRIKTCFDKLKKEHKTALITYLTAGDPNIKQTEKLIYAQAEAGVDIIEIGIPFSDPPADGPVIQRAAKRALDNGIKVDDIFNMVKTIRKSLDIPLVFLVYYNIIFSYGKNKFIKNCEEVGIDGLIIPDLPLEERNEILPLPKSIDLIPLVAPNSNNRIKDIVKDSQGFVYCVSSMGVTGVRDNFEINIENYLNKVKKYTDLPLAIGFGISKRSDVEKFEKIADGIIVGSAIVKIIEENNGDIEKIIEKVKELKNL;locus_tag=LOCUS_05350;gene=trpA;EC_number=4.2.1.20;note=WP_010966434.1 tryptophan synthase subunit alpha (Clostridium) [pid:45.4%25%2C q_cov:93.0%25%2C s_cov:91.3%25%2C Eval:7.6e-62],MGA_539
sequence02	MetaGeneAnnotator	CDS	153283	154461	.	-	0	ID=MGA_540;product=tryptophan synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966435.1;translation=MELRKKFGEFGGQYVSETLMNPLIELEKAFKKHCFTEEFKNEYMYYMKQYVGRPNPLYFAEKLTKKLGGAKIYLKREDLNHTGAHKINNVIGQILLAKKMGKTKVIAETGAGQHGVATATGAALFGMECRVYMGAEDIERQKLNVFKMELLGAKVIPVTSGTATLKDATNEALREWVRTVEDTFYVLGSVVGPHPYPTIVREFQKIIGEETKKQILEVENRLPDTIIACVGGGSNAMGIFAPFIKDTNVKLIGVEAAGKGIETGKHAAAFQGRIGVLHGMKTYILQDTDGQIHEAHSISAGLDYPGTGPEHAYLYETRRAQYVSVTDNEALEGFKLLCEEEGIIPALESSHAIAYLMKIAPNMQKDKVIIVNVSGRGDKDIHTIAKFMKKDI;locus_tag=LOCUS_05360;gene=trpB;EC_number=4.2.1.20;note=WP_010966435.1 tryptophan synthase subunit beta (Clostridium) [pid:67.4%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:2.0e-156],MGA_540
sequence02	MetaGeneAnnotator	CDS	154499	155098	.	-	0	ID=MGA_541;product=phosphoribosylanthranilate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966436.1;translation=MKIKICGIRRKEDIDIINKYNPDYIGIIFYPKSKRYIKPNIIAPFLNNLNPNIKKVGVFVNETFDTVNEISNICNLDIIQLHGNEDIEYIKNIKKTVWKALSVKNKNIKKQMEIYKKYVEIILLDNGKGGTGKTFNWKYAKNLSENYKIALAGGININNVKEAIKIVNPSIIDISSGVEINSYKDEEKIKNIINLIRNI;locus_tag=LOCUS_05370;note=WP_010966436.1 phosphoribosylanthranilate isomerase (Bacteria) [pid:46.2%25%2C q_cov:94.0%25%2C s_cov:93.2%25%2C Eval:8.0e-41],MGA_541
sequence02	MetaGeneAnnotator	CDS	155102	155905	.	-	0	ID=MGA_542;product=indole-3-glycerol phosphate synthase TrpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966437.1;translation=METILAKIVNRKKQRLKELKENSIYDFDFTISNFEKNIDFSIKKPNFYNAMKKEGLSIIGEVKKASPSKGIIRESFNPIEIAKEYNNIVDAMSILTEENFFMGKAEYLKDISNNVDIPLLRKDFIIDPIQIYEAKYLGASAILLIVSILSDDEIKNFYSLAKELELDCLVEIHNLKELNRALNIDVDIIGINNRNLKDFSVSLNTTLELSQYIEKNKILISESGIFDKNDIKHLKKGNIDGILVGESFMKSSNINHLAKSFKKAFEE;locus_tag=LOCUS_05380;gene=trpC;EC_number=4.1.1.48;note=WP_010966437.1 indole-3-glycerol phosphate synthase TrpC (Clostridium) [pid:44.3%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:1.7e-54],MGA_542
sequence02	MetaGeneAnnotator	CDS	156066	157088	.	-	0	ID=MGA_543;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869732.1;translation=MIRKAIKKLFQKQDLSQEEMKQVMTEIMEGQVSEVLISAFLTALRMKGETADEITGGAYVMREKAEKVNISNEYTIDTCGTGGDGANTYNISTTVAFVAAAAGIKVVKHGNRSVSSKSGSADVLEKLGVNINLTPEEVKECVKNTSLGFMFAPNFHKAMKYAVPVRKELKERTIFNVLGPLTNPAFAKGQVLGVFDESLTEIIASALKNLGLERALVVYGMDKLDEISSCNNTKITELNNGEIQTYYISPKDFGMPLYDSCEIKGGTVEENANIIKELLQNKLKGAKYDILLLNAGAALYVGKKAENIREGVYLAKDIIESGKAFEKLNQFIEFTNKFKK;locus_tag=LOCUS_05390;gene=trpD;EC_number=2.4.2.18;note=WP_010869732.1 anthranilate phosphoribosyltransferase (Methanocaldococcus jannaschii) [pid:54.8%25%2C q_cov:98.2%25%2C s_cov:98.8%25%2C Eval:1.1e-96],MGA_543
sequence02	MetaGeneAnnotator	CDS	157181	157744	.	-	0	ID=MGA_544;product=aminodeoxychorismate/anthranilate synthase component II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966439.1;translation=MIILIDNYDSFTYNLYQYLGTFEKNIKVIRNDEMSVEEIKALNPEKIVLSPGPKTPKEAGICVELIQKLHQEIPILGICLGHQSIGEAFGATISYAKAIYHGKSSMIKHDGKGVFKKITNPTQVARYHSLAIIDGTLSNDFEITAKTDDGEIMGIRHKKYKLIGLQFHPESIYTPEGLKMIENFVNL;locus_tag=LOCUS_05400;note=WP_010966439.1 aminodeoxychorismate/anthranilate synthase component II (Clostridium) [pid:58.4%25%2C q_cov:98.9%25%2C s_cov:94.9%25%2C Eval:9.5e-62],MGA_544
sequence02	MetaGeneAnnotator	CDS	157756	158436	.	-	0	ID=MGA_545;product=type 1 glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022907.1;translation=MNIFCIKHVSFEDPGIIENWAIKNNYTFKYIKMYENYKLPNINDIDILVILGGPMNIYEEKQYPFLKEEKTFIKQVINANKKIIGICLGAQLIADLLGSKVVKNKEKEIGWFNVKKVSNHKFLYNVPTEFKTMHWHGDKFLIPDKAEKIFESEACDNQGFIFNNIIALQFHLEMKKENIISIIDNSNDELTENKNYIQSKNQILNQLENIEINNKIMQTILENFIK;locus_tag=LOCUS_05410;note=WP_011022907.1 type 1 glutamine amidotransferase (Methanosarcina acetivorans) [pid:44.2%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:4.8e-54],MGA_545
sequence02	MetaGeneAnnotator	CDS	158459	159850	.	-	0	ID=MGA_546;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966440.1;translation=MKELKVFKKKISGDIETPITLYKKYINNDIGILLESRDSIKGRYSFIGKNPFIIVESNESSIKIKKNGEILKKNGRVLDTIKEEIENIKIIEDSSLPFCGGAVGVIGYDIIKQYEKLPKINPDNLNLPESNMMFLTEFIMYDHYHQDISIIVLEDKNNEELAYKRIEEIENIIKTTTLPINFYNINKIKIENEAISNTTKEEFIEMVQKAKKYIFEGDIFQVVLSQRWTLETNEHPFNLYRKLRSLNPSPYLFYFNFGNYQVAGSSPEMLVELRGDEVFNCPIAGTKKRGKDEKEDLLLAKDLLNDEKEKAEHIMLVDLARNDMGRISKIGSVKVTEFMKIHYYSHVMHIVSLVEGEKRKDKDAFSILSSFLPAGTLSGAPKIRAMEIIEELEKEKRGIYGGAAGYFSYNGDMDTCIAIRTMIIKDNKVYMQAGAGITSDSNPEMEYEETKNKVKALLTAIKS;locus_tag=LOCUS_05420;gene=trpE;EC_number=4.1.3.27;note=WP_010966440.1 anthranilate synthase component I (Clostridium) [pid:49.3%25%2C q_cov:97.2%25%2C s_cov:94.7%25%2C Eval:1.6e-115],MGA_546
sequence02	MetaGeneAnnotator	CDS	160215	160643	.	-	0	ID=MGA_547;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000133916.1;translation=MNDILKIENQFCFSVYKLMKNINTIYKPLLNKLDLTYTQYITMLVLWEKDGINVNEIGKILSLDSGTLTPLLKKLEKKEYIKRNRNKFDERNLIISLTTKGRNLKNKAKNIPTNLLNNFSLEKNEIFAIKQQIDILNKILEK;locus_tag=LOCUS_05430;note=WP_000133916.1 MarR family transcriptional regulator (Bacillus cereus) [pid:41.7%25%2C q_cov:97.9%25%2C s_cov:90.7%25%2C Eval:7.7e-28],MGA_547
sequence02	MetaGeneAnnotator	CDS	160848	161417	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQLLIRAIENKDVCAVESDALITAVDSKGIWCGQVDMAIRKNVGDYYHQALLGHIRQKTGTSLFDDGQVVLVEKDEGMKTAFNNIIFVIDDLRKPLSEIIYSGLVKANEEEYKIVSMSSIRAGESFGKKEKTYEEMAKEVFKGIRKFLNETEEVKIDRLFILTYDNEKYKNLLIQEFNTDEDLVAIY;locus_tag=LOCUS_05440;note=MGA_548
sequence02	MetaGeneAnnotator	CDS	161658	162866	.	+	0	ID=MGA_549;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947992.1;translation=MIEKGRVFFTSESVTEGHPDKMADQISDAILDAILKEDPKARVACETMLTTGLVVIAGEITTATYVDFQKIVRNTVKEIGYTRAKYGFDFETCAVINSIHEQSADIAMGVDESLEIKENKSKKEDERELLGAGDQGIMFGFATNETEELMPMPIILAHKLARKLSEVRKNNTLDYLRPDGKTQVTVEYVDGKPVRIDAIVISTQHDSDITHDKIEHDMKKYVINSIIPEELLDENTKYYINPTGRFVIGGPHGDAGLTGRKIIVDTYGGMGRHGGGAFSGKDPTKVDRSAAYAARWVAKNIVAAGLADKCEIQLSYAIGVASPTSIAVNTFETGKVADDTIVKAVKKVFDLRPGAIIQDLDLRRPLYRQVAAYGHFGRIDLDLPWEKTNKVEELKKIVEELK;locus_tag=LOCUS_05450;gene=metK;EC_number=2.5.1.6;note=WP_011947992.1 methionine adenosyltransferase (Clostridium) [pid:73.8%25%2C q_cov:95.0%25%2C s_cov:96.9%25%2C Eval:1.2e-164],MGA_549
sequence02	MetaGeneAnnotator	CDS	162928	164421	.	-	0	ID=MGA_550;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986278.1;translation=MKMYYSTRNVNEKVSFSEGVLKGLSTNGGLFVPENFEKIDIFNKKYLEVDYKSLAFDILSKFLNDFDEEEIKWCINEAYNEKFETEDIVSIKDIENVSFLELYRGPTLAFKDMALSILPKFMKLSKEKNNEKKDIVILTATSGDTGKAALEGFANNEGIKIIVFFPTDGVSEVQKAQMVTQTGDNTFVVAINGNFDDAQSGVKDIFNDTEFNKILNENGYVFSSANSINIGRLVPQIIYYFYGYFNLIKNNKIKTGDKINVVVPTGNFGNILASYYAFKMGLPVNKFICASNINNVLTDFLNTGIYDINREFNTTISPSMDILISSNLERFIESLTDKNDKLIIELMNSLKTNGKYELPNNLKEKLNKFYGGFADDKSTKSTIKNVYEKYSYVIDTHTAVAYKVYENYLEETNDTDTKTLIASTASPFKFTRAVLESIIDKNLDNKSDFELIEELSKITNLEIPKAVFELNKKEILHKTVINPNKMKDTIADFLKIK;locus_tag=LOCUS_05460;gene=thrC;EC_number=4.2.3.1;note=WP_011986278.1 threonine synthase (Clostridium botulinum) [pid:57.6%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.9e-158],MGA_550
sequence02	MetaGeneAnnotator	CDS	164740	166878	.	+	0	ID=MGA_551;product=UvrD-helicase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898558.1;translation=MSILDNLNENQRKAAEIIEGPLLILAGAGSGKTRTLTYRIAHMIKEKNIEPYFILAVTFTNKAAKEMKERVESLVGIEGEKVMISTFHSFGVRLLRMYAKYIGYDSNFGIYDSDDQLSIVKRILKEIGREINLTPNKIVSIISKAKEDGITPEEFEEKRVFFHDYKTIAEVYKRYQKELLKNNSMDFSDLLIYTNKLLDIEEVKEKLQNRYKYIMVDEYQDTNDIQYQIVTKIALKYRNLCVVGDEDQSIYGFRGANIDNILNFEKDYKDAKVIKLERNYRSTEIILEAANSVIKNNTTSKGKKLWTDKKSKDLITVYEAKNGIDEAYFVAHNIIKNVDNGRNYREFTILYRTNAQSRIFEEVFLKHNLPYKIFGGMQFYQRKEIKDILAYLNVINNPNDDVSLLRIINVPNRKIGARTIEKIRDIQYKKGISLFETLKYIEEATSVRSNTKNSIIELYNFFKTLIEEKEFLSVTEIFDEVIEKTRYLDSLEEEVRVENVLELKNSIIEQETRENNIQLSEYLENISLVSTTDNLEENQDYIKLMTIHNSKGLEFPVVYLVGMEEDIFPGKKVEFDDKELEEERRLCYVAITRAEEKLVITYANERNIYGRIDSFRDKSRFLDEIPMNLLKYINRKEEKTIIKKEKSKKIENFNPFSLKNKGLFNVGDKIYHNKFGNGIIKNIEENKRLIIKFKYEEKKIAIAVAEKVLKKI;locus_tag=LOCUS_05470;note=WP_005898558.1 UvrD-helicase domain-containing protein (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:99.9%25%2C s_cov:99.5%25%2C Eval:2.5e-201],MGA_551
sequence02	MetaGeneAnnotator	CDS	166902	167735	.	+	0	ID=MGA_552;product=UDP-3-O-acyl-N-acetylglucosamine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_058229301.1;translation=MKRKTISKNLKYKGIGLHKGEDIILRLKPAPVNTGIVFYRKDLKDGENKIVLDIDNVFDLTRGTNLINEYKASVYTIEHFLSSLYVFGITDIIVEIDGNELPIIDGSSKKFIELIKENIKEYKEEVEELIIKKPIYVTHGDKHVVGLPYDGYKITYSVNYNHSYLKSQLLEIEVNVDNYVNEISGARTFCFDYEIEYLKANNLALGGSLDNAIVIKKDGILNPGGLRYQDEFVRHKILDLIGDLKVLNRPIKGHIIAVKAGHAINIDFARELVKNFL;locus_tag=LOCUS_05480;gene=lpxC;EC_number=3.5.1.108;note=WP_058229301.1 UDP-3-O-acyl-N-acetylglucosamine deacetylase (Fusobacterium nucleatum) [pid:60.9%25%2C q_cov:98.2%25%2C s_cov:98.6%25%2C Eval:1.5e-93],MGA_552
sequence02	MetaGeneAnnotator	CDS	167772	168197	.	+	0	ID=MGA_553;product=3-hydroxyacyl-ACP dehydratase FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016509.1;translation=MKLDVMEIMKRIPHRYPFLLVDRIEELEPNKRVVAYKNVTINEDFFNGHFPGHPIMPGVLIIEGMAQALGVCTMPEGEEKVPYFMAINNVKFRKPVRPGDKLIYDVVVDKLKGKILKATGKALVDGEIVAQAELMFSIMDK;locus_tag=LOCUS_05490;gene=fabZ;EC_number=4.2.1.59;note=WP_011016509.1 3-hydroxyacyl-ACP dehydratase FabZ (Fusobacterium nucleatum) [pid:65.5%25%2C q_cov:97.9%25%2C s_cov:98.6%25%2C Eval:3.2e-47],MGA_553
sequence02	MetaGeneAnnotator	CDS	168213	168980	.	+	0	ID=MGA_554;product=acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016510.1;translation=MIHETAIIEKGAVIGEDVEIGAYCFIGKDVKIGNGTILKSHVVVEGKTTIGENNIIYPYASIGQDPQDLKYNGEDTELIIGDNNKIREFCTINKGTTASNKTVIGNNNLLMAYVHVAHDVVIGDNCIFANCATLAGHVEVENFAVVGGLTGVHQFCKIGESAMIGGATRIVQDVAPFVTVEGNDAKTRGLNLLGLKRRGFSREDIRNIKTAYKKIFMSKIKLENALNELEIEFKDDKNIIHMIKTIRSFDRGLTR;locus_tag=LOCUS_05500;gene=lpxA;EC_number=2.3.1.129;note=WP_011016510.1 acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:1.0e-82],MGA_554
sequence02	MetaGeneAnnotator	CDS	168981	169784	.	+	0	ID=MGA_555;product=LpxI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016511.1;translation=MQKIGLIAGKGELPNYFIKQAEKKGIEVFPIGFFDEINDEIKKHKNFIKVNIGELGKIISYLIINKISKLMMIGKVEKNTIFQNIKFDETFSDLLSNLPDQKDETLLMGIIGILQKSGIDILPQNYMLDDLITEEKVYTNIDVDLSDIETVKVGIEGAKALTSIDVGQTVVVKDKSVVTLEGIEGTDETIKRAYKYAGEGCIIVKLARPNQDLRADTPVIGLDTVKQAVEIKAKGIVIEANKMLFFEQEESIALANKNKLFIKAIKR;locus_tag=LOCUS_05510;note=WP_011016511.1 LpxI family protein (Fusobacterium nucleatum) [pid:49.6%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.5e-74],MGA_555
sequence02	MetaGeneAnnotator	CDS	169793	170857	.	+	0	ID=MGA_556;product=lipid-A-disaccharide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901943.1;translation=MKYFVSTGELSGDVHLSYLLNEIKNEDKNAEFYGMAGDNSKKVGVNLLQHIDDIAVMGFKEAAMKYNYLKKKLDFFINFILKNNIKKVILVDYGGFNIKFLEKLKQVDSRIKVYYYIPPKVWIWGEKRVEKLKLADKLLVIFPWELEFYKNKNIDVKYYGNPFIEKYKKIEKKGEKILILPGSRKQEITKILPTLLKVVDKLKNEKFILKLANKKSLSYIKKDLSKYHNLEVSYDELNNCIKKSKYAIATSGTVVLELALLGLPGIVVYKTSIINEIIVRLFIKLKYVSLPNLTLNEEVYPELLQNNFNLDKIIEKIEYIEKNKKEINKKINEIRNKLGGKNIVKKYAQYIINN;locus_tag=LOCUS_05520;gene=lpxB;EC_number=2.4.1.182;note=WP_005901943.1 lipid-A-disaccharide synthase (Fusobacterium nucleatum) [pid:49.6%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:2.3e-100],MGA_556
sequence02	MetaGeneAnnotator	CDS	170876	171601	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRDDGRTLNQLRKIKVTPNFIKHAEGSVLIECGETKVICNATVNENVPPFLRGKGTGWITAEYSMLPRATEDRNMRESVKGKLSGRTMEIQRLIGRSLRACIDLEQLGERTVILDCDVIQADGGTRTTSITGAYIALEIAIKKLLKEKKIKENPLKSQIAAISVGINKGQVMLDLKYTEDSTAEVDMNVIMNDKGELIEIQGTGEEATFTREELNQMLNVAEEGLKQIFELQKKYVEEAF;locus_tag=LOCUS_05530;note=WP_011015875.1 ribonuclease PH (Fusobacterium nucleatum) [pid:63.2%25%2C q_cov:99.2%25%2C s_cov:55.1%25%2C Eval:3.0e-81%2C partial hit],frameshifted%2C insertion/deletion at around 171595,MGA_557
sequence02	MetaGeneAnnotator	CDS	171601	172191	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLATKNKKKIEEIKTILSNYNIEIISINDGYDIPEVKEDGLTFMYNSQKKALEIAKYLNIITIADDSGLCVEALNGEPGVYSARYAGEDTDDKKNNEKLIKNLKKIDNRNAKFVCVVSIAKPDGTVKSYTGEVIGEIIDIPRGTNGFGYDPHFYYEPFDKTFAELTKEEKSKISHRGNALKLLKKDLVDFIK;locus_tag=LOCUS_05540;note=WP_011015875.1 ribonuclease PH (Fusobacterium nucleatum) [pid:62.9%25%2C q_cov:98.5%25%2C s_cov:44.2%25%2C Eval:4.4e-60%2C partial hit],frameshifted%2C insertion/deletion at around 171595,MGA_558
sequence02	MetaGeneAnnotator	CDS	172391	173698	.	+	0	ID=MGA_559;product=ATP-dependent protease ATPase subunit HslU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880072.1;translation=MLKDKFTPKKIVEELDKYIISQDEAKKNVAISLRNRYRRKQIVDKKLQIEITPKNIILIGPTGVGKTEIARRLAKVTDSPFIKVEATKFTEVGYVGKDVEAIIKDLVNLTYQNMKKRKIEELREEYLPIIYNKIAKKLKPYELLDEEKAKIIEEIKKGKYDEEKIEIERKPKFDIPVIEINASSPDEGLKNLFDSISPFGKKDNKKNIKVKNAIDYLLKELIDESIDTEEFIPEVLKKVEEDGIVFIDEIDKIAERESYSRGEVSRQGVQRDILPIIEGTTVITKFGPVKTDHILFIAAGAFSQSSPSDLMPELQGRFPVKVELKSLTKKDFIEILTKVDNNLLKQYIELLKVDGVELEFTKTAIEVIAEISIDLNTKVENIGARRLHTVLESVLKEIMFEAPFEKEKKIKLNRKDIEKVFDIKSDKENLNNYIL;locus_tag=LOCUS_05550;gene=hslU;note=WP_010880072.1 ATP-dependent protease ATPase subunit HslU (Aquifex aeolicus) [pid:48.0%25%2C q_cov:99.8%25%2C s_cov:98.2%25%2C Eval:1.4e-108],MGA_559
sequence02	MetaGeneAnnotator	CDS	173709	177215	.	+	0	ID=MGA_560;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373219.1;translation=MYLKSLEINGFKSFSEKIEIEFIKGITSIVGPNGSGKSNILDAILWVLGEQSYKSIRAKESRDVIFHSANKSKNFAEVVLEIDNTDRQLKIDENIIKVSRKLFKDGKNEYRINGNKVRLKDISELFLDTGVGKSAYSVIGQGKVERIISSSTKEIRDIIEEAAGVKKIKLRKEEAEKKLEKVKNEIEKIGYVETELFKNYKTLELQSQKATKYLDIKNELDKYKKFIYTNEKKELENQYKEYTIELKEIEKSINRNDKLFKKEEKDLENINNYRQEINNIIEKNNNENKNLRKYIGDIKNQITLFSERKSNYNKEIEENEIVEKKLIEKIRKLEEERIELKESIAIIEKEIIKKLEVNKEYEEELNNKRTFLKNKELNLNFLKEKSMNLELEKIKYQNDIETSDKKVKSIENRINELRKEYEKNNNELSIINKEKEELEEKIENLKKLFEECIENKNKEKEELEEKIKEKEILLKEKNEIIFLNNNYISKYENLKKLEKNNEGFIKGVKELTNQKIFGVYGPLISLIEVEEKYQKAIEAALGGSFQDVVVKNSEVAKQCVKFLKKNKIGRASFLPLDILKFKEHNFNENIEGVIGIASKLVKYDKEIENAVKYTLSRILVVDNLDNSLKILKSKNFKFNIVTLDGEYLSSSGRISGGMSLKSNSSLIFERRREIKKLEKIIEKNKLLIESKEKKLENKLNKISISTEKIKEYDIKKENIKEEAERIKLEKNEYEVEKIKLEKSISILKYEIDDLKENLKEFTNLKEISNKKIKIVEKNLVDINNNIENLKEEIKKISDEIEKYEIENSDKQIEIYSKKERVRQDKNVLEKLELEIKENQLELEEKRNKIKNLKLNYEDLKTRLVNLHRKLEENAANLVVDEEKLEKYRKELLNLEKKEKELIISIKNYEKELFKLENSKINLIDRKNKIESYILNVKEKLKEIKNVEYIEYKKDVKSIKKEIYKLEIELKSMGNVNLLAIKEYEEVKKRYDFLLEQKNDLLGSKEKLKNIIKEIENNIVNNFLNAYKSINKNFGYMCKEILNNSIGKLELTDKENLLESGVELIVKFANKKSQTLTLLSGGEKSMVAVALIMAIFMYKPSPFTFFDEIEAALDDTNTKRLLNKLKDFTDKSQFILITHNKQTMKESDVLYGVTMDKKIGESKILSVSM;locus_tag=LOCUS_05560;gene=smc;note=WP_147373219.1 chromosome segregation protein SMC (Fusobacterium nucleatum) [pid:36.5%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:8.2e-208],MGA_560
sequence02	MetaGeneAnnotator	CDS	177230	178894	.	+	0	ID=MGA_561;product=ABC-ATPase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011082593.1;translation=MYNLEILLNQIDGMGYKGYKDIKGSYDFKEYILNIINVQGDPFASPSFFEIEIDIKNLKLPMEVFKEDIKIATEDFLLREISKNIKRINTNQIGSGKSGHIYILKPSNKILKRSAIEIIKKKLSIKFYVGLPAKGRRILGREAIKIIFEKLPGIYKIIKNVNIEKLKNHINLYRNIQKIREYLKKNNYILFIANDSILPRESSISEKPMKNAIKFQSPKELEIEIPLDKNKIIKGMGIKEGITVITGGGFHGKTTLLEAIEMGIYNHIYGDGREYVITREDAIKIKAENGRFINNTNISSFIQNLPNKKDTEKFFTENASGSTSQAANIIEALEIGSRFFLIDEDTTATNFMIRDDFIKKIIADNKEPIRPFIENIKALKEQNDTSVIMIVGSLSEYFKIADTVLMLDEYRVKNITNKVKKILVDDVMHKNNKIIVTDRKLNIEYCRNIVFNNKFKIKNKGFDELNFGNYNIDFRNIEQIVEEGQIIFIGELIKRIFKRKNQTESLYNILNSLENRLENENISEILNAKSGKYCGIRKYEIAMAINRLREQIIK;locus_tag=LOCUS_05570;note=WP_011082593.1 ABC-ATPase domain-containing protein (Staphylococcus epidermidis) [pid:39.8%25%2C q_cov:99.5%25%2C s_cov:98.4%25%2C Eval:4.6e-107],MGA_561
sequence02	MetaGeneAnnotator	CDS	178962	179942	.	+	0	ID=MGA_562;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626176.1;translation=MKLLSYLFLLITTIRNFLYDKNILKSKKIDDLYIVCIGNVTVGGTGKTPTVQYLTNKFIEQNKKVAVVLRGYKGKRDIDPLIVSDGEKIFVTEKESGDEAYLHAKNLSVPVVVGKDRYKACKLAKDIFDVDTIILDDGFQHRKLFRDKDLLVIDASNPFGNGYLLPYGNLRESLKNIDRADEIIITKSEQVSKEKLDKIINELKKYKKKITISAYKNLYFYNKNKDKEELNIIKNKKIFVFSGLGNPEPFYNSLKKLNPIDIKIKTFPDHYSLTKEEYDDILKVAKDFDYIITTEKDFIKLDLDKTPDNLLVLKIDFTILEDNLCV;locus_tag=LOCUS_05580;gene=lpxK;EC_number=2.7.1.130;note=WP_201626176.1 tetraacyldisaccharide 4'-kinase (Fusobacterium canifelinum) [pid:50.5%25%2C q_cov:99.1%25%2C s_cov:97.9%25%2C Eval:9.3e-85],MGA_562
sequence02	MetaGeneAnnotator	CDS	179933	180751	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016924.1;translation=MCIENKDFLDILREKDYNNFEKEYNKGMLNFLIKIAPFTNKRTYFKIYNNGNIIKYGFNKIYLYLAFLNEISTEKLIDFLDKKNRIKFKKIDRLSGISTKKLSQNIFKIFYNRDFNIAIKYCKELYLKDKNLFIELITKYVLMNDIYSEKSLFFISFIELTKYIENKNDIDYILYPFIYYLVNRESDFYEYENSKEEKIDIETKIFENYDKLLCLEGLNILAYYILLKKSNIENKDRYYFIILNKIDTLKVKNKLSKEEEKIIGKFLNIIKG;locus_tag=LOCUS_05590;note=WP_011016924.1 hypothetical protein (Fusobacterium nucleatum) [pid:25.8%25%2C q_cov:84.6%25%2C s_cov:87.2%25%2C Eval:2.4e-16],MGA_563
sequence02	MetaGeneAnnotator	CDS	180757	182337	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCLNCNTEITDIKCNNCGTDLKDYFYKLADDAQVNRRYKEAMKYMLFLQEKIDDEEELNEIEKKIARLEFAMTDLTGKELDKKRFNIEKIIKLLAGISLLLLLLALGMRTYINNGNVNTLNTTVLLNIIEDNPKNRSENIKKIEKILTYIENNNFKYNLNINGILLKYISQNRKDIIEKINKLIKKDKVEIVASSYSGGILAAFTDEIIDLQIKKDIELKEKLFNNKPKVFYLNGGIWDSKISNKLKENGIKLIILEDKIIKNSSNKYNEYVVRQLNDMYLLSDDKDFIVKLEEYLFYKKDDIFNEIKNYINKIAKLNSNENFVLNYSSKFILDEIDEEDVEKMLKYLENIDNIISLNYNEIYNKKDLVVEKLKNVQNGTSIFTDVLVERLGNYNNWFEYKDNSPDFKKISKYFELQYNNLLKIKNINEKFYNIYLNYFLKAQFKYGFPNNFSTEYIKNLNDIYILSTLLLNNTKEIKKDNKEYIFNEKTLYILENKKILFYYNLDTGNLIDNLESKKAINIALK;locus_tag=LOCUS_05600;note=MGA_564
sequence02	MetaGeneAnnotator	CDS	182347	182799	.	+	0	ID=MGA_565;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010938921.1;translation=MINYLNSKLILFEDNKTDKKQILKKIVDIMYENSDKIKNKDKFLENIFKREEAGTTGIGRQIVVPHARCEELEGIVMSVTLLKTPIDFNTPDGEPAKIIIMVGAPTTKNTEYLKLLSRISRVFRDKNIREDIITSESKEEILEIIASIEL;locus_tag=LOCUS_05610;note=WP_010938921.1 PTS sugar transporter subunit IIA (Desulfovibrio vulgaris) [pid:31.7%25%2C q_cov:84.0%25%2C s_cov:83.9%25%2C Eval:8.2e-13],MGA_565
sequence02	MetaGeneAnnotator	CDS	182818	183375	.	+	0	ID=MGA_566;product=nicotinate-nucleotide adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583638.1;translation=MKIGIYGGSFNPIHFGHIFLAEYIREELKFDKILFIPVGIPSHRENNLIDYKHRVNMIKLSIQDNKYFELCEIEKNKISFTYDTYKELKKKYPKDELYEIIGEDSAAYLYKWKDYEEMIKHVKFIVAKRSNSSYKSSEKNIIILNSPIIEISASDIRNRIKIRKSIKYYLHQDVKEYIEKNKLYY;locus_tag=LOCUS_05620;gene=nadD;EC_number=2.7.7.18;note=WP_012583638.1 nicotinate-nucleotide adenylyltransferase (Dictyoglomus turgidum) [pid:39.7%25%2C q_cov:99.5%25%2C s_cov:95.6%25%2C Eval:5.7e-35],MGA_566
sequence02	MetaGeneAnnotator	CDS	183385	183732	.	+	0	ID=MGA_567;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003440244.1;translation=MLLKFNDTTLIETIRPREGKGKIKGYRYLENIELENNLKGFYVNELEVGSEVGYHQHIEDEEIYYVLEGKGIINDNGEEKEISVGDLIYTKDGERHSIKNTGDTSLKFIAFIIKK;locus_tag=LOCUS_05630;note=WP_003440244.1 cupin domain-containing protein (Clostridioides difficile) [pid:45.3%25%2C q_cov:82.6%25%2C s_cov:82.6%25%2C Eval:1.6e-19],MGA_567
sequence02	MetaGeneAnnotator	CDS	183741	184388	.	+	0	ID=MGA_568;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000661279.1;translation=MKNLIIFFKGFASIQEMYTGFIPQGYDYVFYDELESKNIKNIVKNYKTIIFLGWSLGSLLAIKSINEIKPNKLVLISPTFNFTENFSKQILEKMQKNILKNKELTLKQFFKNCFFYKENYKKFIEKYFNNIKKIEEKKLIKELEYLKNIKIKEEKFNIESLIIYSNKDKIIFKESSIKVFNNFFNSKKIEIDNCGHIIFFEKDIYEIVRSFIIDK;locus_tag=LOCUS_05640;note=WP_000661279.1 alpha/beta hydrolase (Bacillus) [pid:24.7%25%2C q_cov:97.2%25%2C s_cov:93.1%25%2C Eval:2.1e-08],MGA_568
sequence02	MetaGeneAnnotator	CDS	184378	185130	.	+	0	ID=MGA_569;product=malonyl-ACP O-methyltransferase BioC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000608914.1;translation=MINKKYVQNNFSKSVNSYDSYAKIQKIMAQDLYNFLPNIKNPKILEIGCGTGIFTEYLFKKYENMTLDVVDISNDMIDIVKLKYKDKINSYIVCDAEEYLFKNQKYDLIVSNAVFQWFNNLEKTLDYYKTILNNNGKIIFATFIDKTYYELRNAFYEYNKDFIFSQKFIKLEYFKKRKDIEILKNEHYIERYNNLLEFLKSIKKIGANSALQSRKLLTKNILRNVEKKYIELYKEIKVTNDIIYAKIELL;locus_tag=LOCUS_05650;gene=bioC;EC_number=2.1.1.197;note=WP_000608914.1 malonyl-ACP O-methyltransferase BioC (Bacillus cereus) [pid:33.3%25%2C q_cov:89.2%25%2C s_cov:87.7%25%2C Eval:5.8e-27],MGA_569
sequence02	MetaGeneAnnotator	CDS	185235	186581	.	+	0	ID=MGA_570;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861729.1;translation=MSKKINLTTGNIYLALLKLALPIMGTSFLQMAYNLTDMIWLGRLSSNAVAAVGTAGFFMWFGFSVTLISKTGVEVLVGQYVGANNYKKAKEASENGVMLNSILIFIYSIAILIFRHNILSFFNLTGNTLKVAKDYLFIVGMFFVPGYLIQIFSSIITGYGDSHTPFIYNTVGLILNIVLDPLFIFGFKFNAIGTAVATILSQAVVFILFVVKIKNYPFENFKFFNKIDIKIIKKIIKIGIPVAFQNMFFATISMNIAKIISNWGEVAIAIQKIGAQIESLSWMTAGGIATALGTFTAQNYGNKNKERIIKGYYSALSITVIIGLIATLLFYIFRSEIFKFFVPNDKKVILLGSDYLKILAISQVFMCLEITTMGLFNGVSKTIPPAIISIVFTGLRIPIAIYFAYNLNLGLNGVWWSISISSIIKGIVAIIWFYVDFIIKKKIFVIEG;locus_tag=LOCUS_05660;note=WP_011861729.1 MATE family efflux transporter (Clostridioides difficile) [pid:42.2%25%2C q_cov:96.7%25%2C s_cov:96.9%25%2C Eval:8.9e-95],MGA_570
sequence02	MetaGeneAnnotator	CDS	186646	188373	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKSTIKNIFYHTIIFIIIVLFFFILFSYISFKKIENERLDKRMSNFSNNLSEKLEMINKIYFLLEEKSDILLKTKLEKINKNYEIYGKIELEKFKEDFIDLYVIDNNYKVIKSTNKSNIGLDFNKYKYFRKNLEKILNNQKYVSDRINQSLKGKKILKYAYLPSNDKKYIFEASIDMDYYNKILDKNSIYKLTNYNKELFPEIKEINLYNKFGVNYITKESIKKDKIKYENIKKTFEIGKLYRYEIKNNNFREVYIYIPYIIKGKLGTSLNIILELKYDNELINKKSILLLLKNIFIAMLFIFILLFINYKYKKSILYPMEKLLEAIEQIKIGDLNTKIDIKNNNNEIKVIADAINEMVYKLKTVINEKEISNSLIEATLEKSEKGYLETVKALATAIDAKDSYTGGHCERVMEYSLMIADKLKIPDKFKKDLKFAAILHDIGKIGIKDNVLNKPGRFTDDEYNEIKKHPQIGYDILKDIEFLKNSATILLYHHEKLDGTGYPKGISSKEIPLLSKILMIADSFDAMTSKRVYRKKNMLPEEAFEEMKRCKNQFEQKLVEVFIEAYIEKYSNK;locus_tag=LOCUS_05670;note=WP_011459114.1 HD-GYP domain-containing protein (Desulfitobacterium hafniense) [pid:44.1%25%2C q_cov:31.0%25%2C s_cov:41.6%25%2C Eval:3.9e-40%2C partial hit],MGA_571
sequence02	MetaGeneAnnotator	CDS	188405	190855	.	-	0	ID=MGA_572;product=glycogen/starch/alpha-glucan phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680347.1;translation=MAIMSIKKDDFKNSILKHLKLAGTTLKDATKRELFDAVSKAAMELVMENWRETKETYDSKNVKQAYYLSAEFLMGRAFSNNLVNLTILDEVKETLEDLNININEIEDQEEDAGLGNGGLGRLAACFLDSLATLELPGHGYGIRYKYGMFKQKIENGFQVEYPDRWLDYEDPWEVERRSEAVKVKFGGEVIVVKDADGREHFRRESAEVVTAVPYDMPIIGYGVKNVNTLRLWQAESEDGFDLQAFNDQHYNTAVKKQTQAEDISRVLYPNDSGPSGKELRLRQQYFFVSASLQDIMKKFKAKHGNDFSKLPEYVAIQLNDTHPVVAIPELMRLLLDWEKLEWEVAWPICTKVFSYTNHTILAEALEKWPIDLFKKLLPRIYQIVDEINRRFLLELREKYPTDWQKHQKMAIIGDGMIKMAWLAIVGSHAVNGVAALHTEILKNQELKEWYELYPEKFQNKTNGVTQRRWLLKSNPELSELITKLIGDKWITDLSELKKLEKYADDEKILKEFIKIKHTKKEQLAKYILDTLGIYINPDSLFDVQIKRLHEYKRQLLNILHVIDLYNNLKANPDLDIVPRTFIFGAKAASGYKRAKQIIKLINAVAIKINNDPDIKGKIRVVFVPNYRVSVAEKLFPAANLSEQISTAGKEASGTGNMKFMINGAPTIGTMDGANVEIVEEAGIENNFIFGLTAEEVVALNSTGEYNPWNEYNSVPGLKKVMEQLLDGTFSDDRSIFTEIYNSLMYGADGNRPDQYYVLKDFASYREAQLRVDKAFRDELGWAKKAWLNIANSGKFSSDRTIQQYADEIWDIKKTTV;locus_tag=LOCUS_05680;note=WP_002680347.1 glycogen/starch/alpha-glucan phosphorylase (Treponema denticola) [pid:61.0%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:2.5e-293],MGA_572
sequence02	MetaGeneAnnotator	CDS	191145	191402	.	-	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFIYQLVDFILRAVELLVLIRIVLSWIMPYTRNELTDTIHFLTEPILAPLRIIIPIGNMRLDIAPIAVYFITNLIRKILFLILF;locus_tag=LOCUS_05690;note=MGA_573
sequence02	MetaGeneAnnotator	CDS	191414	191923	.	-	0	ID=MGA_574;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904217.1;translation=MNIANFLTIFRIILIIPFIYYLKIPNNEYTAFIIFTIASITDFLDGYIARKYNLITDFGKLMDPLADKILVFSALIIFVELKYIPSWMVIVILTRDFLINGIRNLAASKGAVIAAGMSGKIKTTTQMIAILIIVLLGNSNISEYIMYIPVFFTVYSGLEYIVKSKKYFL;locus_tag=LOCUS_05700;gene=pgsA;EC_number=2.7.8.5;note=WP_005904217.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:99.4%25%2C s_cov:98.4%25%2C Eval:5.9e-46],MGA_574
sequence02	MetaGeneAnnotator	CDS	191935	193266	.	-	0	ID=MGA_575;product=30S ribosomal protein S12 methylthiotransferase RimO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861176.1;translation=MKLGIISLGCSKNLVDSENLIGILVARKGLELTNNIEEAEIAIINTCGFIGDAKEESIQTIIEVGEYKKTAKLKKLIVAGCLAQRYAEELLLEMPEADAIIGTGDIDKIEEVIDEVLKDNRVIKNESLDFLANAQTERILTTFPHTAYLKIAEGCDRKCTYCIIPSLRGRLRSRTIEDIVNEATALAKSGVKELNILAQETTEYGLDLYNKKALPDLLKELVKVEGIEWIRLYYMFPNSITDELIEVIKNEPKICNYFDVPIQHISDLQLQKMGRAKNSKQIKSILSKIRKEIPDATIRTTVIVGFPGETEKEFIELKEFIQEFKFDYVGVFSYSREEDTKAYDMENQIEETIKEKRRVELVNLQNEIAEIKNRALIGKEIEVMIDGISEESEFMLEGRTKGQALEIDGKVLTTDGTANPGKIVKVKIEQNFNYDLLGPIISE;locus_tag=LOCUS_05710;gene=rimO;EC_number=2.8.4.4;note=WP_011861176.1 30S ribosomal protein S12 methylthiotransferase RimO (Clostridioides difficile) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:6.7e-119],MGA_575
sequence02	MetaGeneAnnotator	CDS	193321	195429	.	-	0	ID=MGA_576;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627490.1;translation=MFDEKILEMDLAGRKLTIKTGKIARQAHGSVLLEYGETVLLATATRSKEPREGATFFPLTVDYIEKFYAAGKVPGGFVKREGKPSVDATLISRLIDRPIRPLFPENFFYDIHIVVTTLSYDEKNTPDYLGIIAASAALTISDIPFSGPVSGVVVGKIDGELVLNPTPEELATSDIHLSVAGTKEAVTMVEAGANEVSEKDMLEAIMFGHENIKIICEFQEEFQKLAGKEKITFDIKEIDKSIKDFVDKNGTEELKKAIKTEGKQERYDAIDALEEKLVEEYKEEYLQNNEAEEFPAELEKDLKNYYHDLMKKLVRDAILYDKYRADGRNTTDIRPLAMEIGVLPRTHGSALFTRGETQSLATATLGTKEDEQLVDSIEGESYKKFFLHYNFPPYSVGETGFMRALGRRELGHGSLAERALKYVIPSENDFPYTIRVVSDITESNGSSSQASICAGSLALMSAGVPIKSHVAGIAMGLIKEDDDYIVLTDIMGLEDHLGDMDFKVAGTKKGITALQMDIKIEGITKEIMEIALKQALDARLFILEKMENTISEPNEISKYAPRIHTLNINPEKISLLIGPAGKNIKAIIDETGAKIDIEDNGRVSIFTNDGDMLEKTIKLINNLVKEIKVDEIYIGKVTKLMKFGAFIELLPGKEGLLHISEIANERTEKVEDVLKVGDEIEVKVISTEKGKINVSRKALLKK;locus_tag=LOCUS_05720;gene=pnp;EC_number=2.7.7.8;note=WP_201627490.1 polyribonucleotide nucleotidyltransferase (Fusobacterium canifelinum) [pid:66.6%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:5.6e-270],MGA_576
sequence02	MetaGeneAnnotator	CDS	195663	196583	.	+	0	ID=MGA_577;product=exopolyphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388962.1;translation=MSHYRLVTRSDMDGLVCAVLLKELDMIDDIKFVHPKDMQDGIIEITENDIITNLPYAEKAHLVFDHHLSETIRNKGKKPNHIIDPDAPSASRVVYDYFGGKKVFKNISEDMMIAVDKADAARFNKEDVLNPKGWELLSFLMDARTGLGRFRDFTISNYNLMMNLIDYCKDHSIEEILELPDVKERVDLYFKYENDFKEQLKKCSTLYNNVLVVDLREEEIIYPGNRFMKYALFPEANISIQVIWGLRKQNTVFAVGKSIFNRTSEKNIGELMLKRDGGGHKAAGTCQVNNEIAEEELKKLIEELKD;locus_tag=LOCUS_05730;note=WP_011388962.1 exopolyphosphatase (Rhodospirillum rubrum) [pid:71.1%25%2C q_cov:93.8%25%2C s_cov:92.6%25%2C Eval:1.4e-116],MGA_577
sequence02	MetaGeneAnnotator	CDS	196626	197747	.	-	0	ID=MGA_578;product=ribosome biogenesis GTPase YqeH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016880.1;translation=MNKKCTGCGAWLQYDYPKEIGYVPEKVAIEQSQPLCQRCFKIKNYGSYIPVNLDKEFYKNEVINVIKDMDAILLILDIIEFESSFDKEILSLLKNKKFIIAVNKIDLIPGNKHASEVSDWIKMRLFKEGLEALDIAVLSTHKNYGVNGIFRKFKHFFPNGAKIAIIGATNVGKSSLINKLFNDNRATISKYPGTTLKTVKHTKEKFVFFDTPGIIPKGRLSDLVCEKCNLDIVPSNEISRKTFKFGKDRVLFLGGLAYFRILKEFDVKPIFSVYLSKNVIFHETNKDKIDSIIEKHSGNMLTPPCNDCKTDYYNNKFKSEIIEIEDKEELVIKGLGWLTVKRGPLIIELTIPESVEYVIREAFIEPKRPEDMF;locus_tag=LOCUS_05740;gene=yqeH;note=WP_011016880.1 ribosome biogenesis GTPase YqeH (Fusobacterium nucleatum) [pid:48.1%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:1.4e-98],MGA_578
sequence02	MetaGeneAnnotator	CDS	197759	198286	.	-	0	ID=MGA_579;product=ATP-dependent protease subunit HslV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392543.1;translation=MDIKATTIIAVKKDNQVAIAGDGQVTFGNTVMKNSAKKIRKIYNNEIITGFAGSVADAFKLFEKFENKLDEHGGILKKAAVELTKEWRKKSINLEAMLIVADKNNLLLVSGKGEVIEPDDDIAAIGSGGSYAYAAAKALYYHTDMSAKDIVKKSLNIAGEICIYTNQNISVETLD;locus_tag=LOCUS_05750;gene=hslV;EC_number=3.4.25.2;note=WP_011392543.1 ATP-dependent protease subunit HslV (Moorella thermoacetica) [pid:55.2%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:1.6e-49],MGA_579
sequence02	MetaGeneAnnotator	CDS	198302	199198	.	-	0	ID=MGA_580;product=tyrosine-type recombinase/integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016879.1;translation=MELNQIIDNFLYYQDISENKTENTIKSYKADLLQFSDFISNIEKKSIDKVEEIDIKAFFKHLKNKNITKRSRNRKLSAIKTFFKYLKDKNIVIKNPTLFLENQELHTKLPDILTKNDFIKLRESIEENKINNIRNRFIIELLYSSGIRPSELLELSHNNINIEERELYIVSKNKKDRITFFSRTAKEYYLKYLEAQKQKFKENFNPKILITNNSNNKLTDRSLRRIVEKIRINSNINKEISPHTFRHSFAVYMLQNGMNIHYLQEIMGHSSLESTKVYLNYLNNSIKIDDKTYYNKNI;locus_tag=LOCUS_05760;note=WP_011016879.1 tyrosine-type recombinase/integrase (Fusobacterium nucleatum) [pid:38.5%25%2C q_cov:93.3%25%2C s_cov:95.5%25%2C Eval:1.8e-55],MGA_580
sequence02	MetaGeneAnnotator	CDS	199207	200517	.	-	0	ID=MGA_581;product=methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016878.1;translation=MKEVIIIGAGLAGSEAAYQLAKRGIKVKLYDMKPKKYTEVHNLETFAELVCSNSLGSNLINSAAGLMKEELRFFDSLLIKIADKTKVPAGQALAVDRDLFSKLVTQELKKNKNIEIINKEVTEIPNDKTVLIASGPLTSDALAKDIKKFTGDEYLYFYDAVAPIITKESINLNKVYFQSRYDKGDGEYINCPMTEEEYKKFYTELINAERIPLKKFEEEKLFEACMPVEKIASRGEKTLLFGPLKPKGLTNPRTSTRDHAVVQLRQDDKEGKLYNLVGFQTNLKWGEQKRVFQMIPGLENAEFIRYGVMHRNTFINSPKLLNKSLNLKNNKNIFFAGQITGSEGYVLAIATGLISAINIANQLNNKPYFELNNLSSIGAIIDYITTENKNFQPMGPNMGIIRSLDGKKIRDKRERYMTIANRTMEYLKTINKKNYE;locus_tag=LOCUS_05770;gene=trmFO;note=WP_011016878.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Fusobacterium nucleatum) [pid:68.9%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:3.2e-166],MGA_581
sequence02	MetaGeneAnnotator	CDS	200564	202807	.	-	0	ID=MGA_582;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902939.1;translation=MSKKLVIVESPAKAETIKKILGRNYDVMASYGHIRDLPKSKIGVDIENNFTPSYKTIRGKAELVKKLKTFAKKADKVFLASDMDREGEAIAWHVANLLKLNLDDNIRIEFNEITKTAIKEAIKNPRKIDTNKVNAQQARRILDRLVGYKISPLLWKLIESNTSAGRVQSVALKLICDLEEAIKNFIPENYWEVKGLFNDEFDFTLNKIGEKKVSKIKDKKIIDTLKSEIKKDFTVISVKKSDRVKNPPQPLKTSTLQQLASSYLGFSASKTMRIAQSLYEGLEIDGSHKGLITYMRTDSTRISDEAKEAAKEYIINEFGKEYINNQKTKKSKTKIQDAHEGIRPTDVNLTPDYLGNKLNTDQFKLYRLIWERFLISQLAPMKYKNMEILASDGEYTFRGVATKIIFDGYYKIFKDEDEIKNSSLPNITENDKFILTKLNIIDGVTKPPARLTESSLVKKLESEGIGRPSTYASIIETLKKREYVIVEGKKFIPTNLGFTVKNELEKYFPNIMNIKFTANMEENLDKIESGDINWINLLNDFYNDLKGYLENFEKEVKKIENRRIESDVMCTKCNGIMILKTGRFGKYLLCENEECEEKISLKGIEIPKEDIENGKIFVKEAIAKKLTEKNGKKTDMYTENGKNLLLKYGRFGSYLESENYKEDNIRISLPSEIRKMLAQELIKEENNIVYLKEIFENIKREEEQIIKEAGKCEKCGSSFEIKRGRFGKFLACTGYPECKNIKKIPKK;locus_tag=LOCUS_05780;gene=topA;EC_number=5.6.2.1;note=WP_005902939.1 type I DNA topoisomerase (Fusobacterium nucleatum) [pid:61.7%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:3.2e-271],MGA_582
sequence02	MetaGeneAnnotator	CDS	202822	203229	.	-	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEKFLEVLSEVINTMLNPFDQDIEKLEKLIVEKLIKKGYSLHEINDILDEIFKTINKEKNRAVFRMLSPFELENLSDSARDYLLNLKNKMIISEEEFENILDEINFSYYFFELEDLKNLLSLKGISENITIN;locus_tag=LOCUS_05790;note=MGA_583
sequence02	MetaGeneAnnotator	CDS	203331	204320	.	-	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKSKEHLKKIYKKILKEKIEKDVEIAHLNRVLELNKLLNFSLKLNDLLLNFSSFLYTIIPFKSIIFYIDENNIYDIKLNNKNFSILKRVDKLTSVEQQVKIEFLNNLNNLNCYLDYLILQLEPYKKSPIFFIKHNPSCFDIDTINLLKNFINMINPYIKNVLHYKKVNDLSNIDSLTNLYNRRFFFNYTEKRSSENYSIILADIDYFKKINDTYGHQAGDEILKKISKEFKTHFRNNDIICRYGGEEFLIYLENTSLETAINIANRIREIIENLNYNNIKFTVSMGVAKNDIKKHNNIDDVIKSADIALYIAKNSGRNRVCYYKEND;locus_tag=LOCUS_05800;note=WP_010879949.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:43.3%25%2C q_cov:46.5%25%2C s_cov:37.6%25%2C Eval:4.3e-29%2C partial hit],MGA_584
sequence02	MetaGeneAnnotator	CDS	204332	205387	.	-	0	ID=MGA_585;product=DNA-processing protein DprA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795245.1;translation=MLDLYKLLINGIDSKTIMKIIENYNSLDELFAQDDISILKTLNITNFTLEKIYNSSKIDISKELEKLEKLKIKLISISDQNYPLLLKNISSPPPFLHVKGKIDFPEKSIGIVGTRKMSDYGKMAVEKFTKDLVNAGVTIISGLASGVDAVAHSRALKYNGSTIGVVANGLDKIYPEENRYLWEKMEEQGTIISEYPLGTEPFRWNFPERNRIIAGLSRGILVCESYKKGGSLITAKIAYEENREVFAVPGFFNYPSFEGCNQLIKKNIAKLVTKVDDIIEEFDWNLKRLDFDWNLSKKELIVYTSLLVPKTLDELILDTSLDFREILVQITQLELKNLVKSISGGKYQRIE;locus_tag=LOCUS_05810;gene=dprA;note=WP_124795245.1 DNA-processing protein DprA (Fusobacterium canifelinum) [pid:42.8%25%2C q_cov:80.1%25%2C s_cov:99.6%25%2C Eval:2.8e-66],MGA_585
sequence02	MetaGeneAnnotator	CDS	205406	206260	.	-	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRILIFLLFLIFLLFTTLSFTENFSTNSAITTNEFAEIDKLIKLNDYYGALFLLDSHLEDFPNDTKFIIKKINLFLDINRVSDAFEIAKKLFENNKTEKTYKAYLNVLSKLISTDNNYKDEYYTISKEYLSLVNYNDAKLIYEIGNNYIKDNKYNSALEIFLTDKSNYYKNVFGRALMYRFLGYYDKSIEEYKYLINNYPEIKESYFGIGVSYKLSGQFAEAVKNFNKYLEYNKSKEAYIAIAEIEIARNRYSAAKTTLELAKKDFPLSKEIENLLIEVYSNL;locus_tag=LOCUS_05820;note=MGA_586
sequence02	MetaGeneAnnotator	CDS	206253	207476	.	-	0	ID=MGA_587;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902942.1;translation=MITMSEKIYSVNEINLKIKDFIDNEINFYDLFIKGEISNIKYYKSGHLYFTLKDENSSINCTAFNYRYKKISNDLKNGDLIKLFGRVNFYEKTGQIQILVSFIEKQDKLGSLFEKLERLKKKYREKGWFDTERKKSLPFLPLNIGVVTSEHGAAIHDIINTTKKRFKNANIYLYPAKVQGTGADVEIAKGIDTLSNLDFIDVIIAGRGGGSIEDLWAFNQEITVKAFYYCKKVTISAVGHESDLLLTDLIADKRASTPTQAIEIILPEKKYFYEILNNKYNILNKIIDNKINSKKEKLISSKNNYTLNNINKLIQIKKEVLSNKYNNLNVLIDNKFKFDKKTLLNKIDVLKKVNPLSILEKGYSIVYKDENVVKTMQNFKKNDIIKIRVSDGEFKAKILDIKRSDNE;locus_tag=LOCUS_05830;gene=xseA;EC_number=3.1.11.6;note=WP_005902942.1 exodeoxyribonuclease VII large subunit (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:95.3%25%2C s_cov:96.0%25%2C Eval:1.1e-99],MGA_587
sequence02	MetaGeneAnnotator	CDS	207478	209454	.	-	0	ID=MGA_588;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016236.1;translation=MFKLVSNFKKSGDQPEAIKKLKENIEFGHKHQVLLGVTGSGKTFTIANVINETSKPTLIIAPNKTLAAQLYSEYKKFFPYNAVEYFVSYYDYYQPEAYVPTTDTYIEKDSSINEEIDKLRHAATAALMTRKDVIIVASVSAIYGLGSPDTYKKMTLSLDRKVGASRNQIISKLIKLRYERNDYDFERGKFRVKGDIIDIFPSYMDTGYRLEFFGDDLEEISEINTLTGQTTRKNIERFSLLPATHYLAEESNFNNIISSIEKDLKEQVKFFESKNMLLEAQRIKQRTNYDLEMLKEIGYCKGIENYSRYLTNKKPGETPFTLLDYFPKDFLIFVDESHIGIPQIRGMYNGDKSRKTTLVENGFRLPSALDNRPLKFEEFLKKANQLIYVSATPGDYELGASSCVVEQLVRPTGLIEPEIEIRKTQNQIDDLMEEIRIREEKKERILITTLTKKMAEQLTEYYLEYGIKVKYMHSDIDTLERIEIIRELRKGSFDVLIGINLLREGLDIPEVSLVAILEADKEGFLRSKRSLIQTMGRAARNINGKVILYADIMTKSMNDAIKEVERRKKKQIAYNKKYNINPKSVIRTISEEVLNFDYGLDLKETIKIKQVFKSKKDIEKEIAKLEKEIKILSKELDFEKAIEKRDIMLNLKKLLLEL;locus_tag=LOCUS_05840;gene=uvrB;EC_number=3.1.25.-;note=WP_011016236.1 excinuclease ABC subunit UvrB (Fusobacterium nucleatum) [pid:67.5%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:1.8e-259],MGA_588
sequence02	MetaGeneAnnotator	CDS	209521	210858	.	-	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILIFSDENLSINSPLNFELAFVKTIEELLEKLNTFKDFVFSIIKIGNNSKKVVSILNKYNIPFLALYNNKEFEDANWYLKNGAKSIITHDFYNDFNLDLIKNYLKNNENNDYKLLYEFTKILRLNLDIENIILQLEKFIKNSFNVDTLFIIKEKYYYRKKVFNSKNEAILSNHYKLNFLNKFNEENYYTPINFEKEKALLLPIINKNDIIGKVLLFRQKILSPKELELLNIILSQFAVVCKNYFLLENSKNHYYNIVKALIKAIEAKDKYTKGHTSRVAKLSKEIALILNLPKNHVETIEMAAFLHDVGKIGIRDSVLLKPGKLSNEEYEEIKKHPEFGFEIIKDIEGMDKIAEIIKYHHERWDGKGYPEGLKGYHTPLEARIIAIADCYDAMTTARPYRKALSHEIALKEIKKYSGSQFDPILSNLFIKNEKIFKKIILEFN;locus_tag=LOCUS_05850;note=WP_012545054.1 HD domain-containing protein (Thermodesulfovibrio) [pid:37.3%25%2C q_cov:69.7%25%2C s_cov:92.8%25%2C Eval:1.1e-52%2C partial hit],MGA_589
sequence02	MetaGeneAnnotator	CDS	210870	211595	.	-	0	ID=MGA_590;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435875.1;translation=MSFIENDETLDTLQKVNKKIIQKKKGFRFGVDAVLLANNIKIDKPSKILDIGTGTAIIPLLISNNKNIEYIDAIEIQDEIANMAKRSIEYNSLENLINIYNIDIKEFKKNKKYDIIITNPPYMKCETSNISSNIIKAISRHEIKLTLDNLLQSVREHLTLNGSFYLIYRTNRFYEVITKLENYKLYPKEIRFVYTKQNNKNSDLFILKSIKGKKGDFKVLEPLYIFDKKGEYSTEVKTYYY;locus_tag=LOCUS_05860;note=WP_003435875.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Clostridioides difficile) [pid:38.8%25%2C q_cov:98.3%25%2C s_cov:96.0%25%2C Eval:1.1e-43],MGA_590
sequence02	MetaGeneAnnotator	CDS	211597	212493	.	-	0	ID=MGA_591;product=regulatory iron-sulfur-containing complex subunit RicT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903716.1;translation=MEYNVLGVIFNVTKKRYFFEIKKEDKTTYKKGDHVIVDTARGQELGTVYAEASIKDEKELVLPLKPVIKKASKEEYDYFLELRKEADSAFDICKKKIFEHELPMKLVTSEYTYDKSKLIFYFTAEGRIDFRKLVKDLAAIFKLRIELRQIGVRDEARILGSVGLCGVELCCRKFINKFDSVSIKMAREQGLVINPSKISGACGRLLCCIKYEYSQYVDELKKYPAVNQIVETPLGSGKVTTVNPLNDYMYIEIPEKGINKFSLREIRFDLEEANSLKNNHYESDEKIDKDLLKKLEEE;locus_tag=LOCUS_05870;gene=ricT;note=WP_005903716.1 regulatory iron-sulfur-containing complex subunit RicT (Fusobacterium nucleatum) [pid:62.0%25%2C q_cov:92.6%25%2C s_cov:87.8%25%2C Eval:2.1e-96],MGA_591
sequence02	MetaGeneAnnotator	CDS	212510	213178	.	-	0	ID=MGA_592;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016743.1;translation=MGNEGHRQRLKLKFLNNDIDSFLDYEIIELLLTFSIPRKDTKPIAKELLKKFDNLNSILNASKEELFQIKGFKENSFILIKLLNSLVKLSLKDKMYSKIKFTSLKDILDFLYLELSYLEKENFKIIYLDTKNQFISDEILFEGTLDKSIIYPRELVKKILFHEAKSVIFVHNHPSGDVSPSKSDIDLTLFLKDLLYKLEIILLDHIIIGKNCYYSFKENNII;locus_tag=LOCUS_05880;gene=radC;note=WP_011016743.1 DNA repair protein RadC (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:99.1%25%2C s_cov:97.8%25%2C Eval:7.1e-47],MGA_592
sequence02	MetaGeneAnnotator	CDS	213302	213874	.	-	0	ID=MGA_593;product=ribosome-associated translation inhibitor RaiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025773749.1;translation=MRIIISGKHLEITEAIRDYAEKKVGKLKKYFDNIIEVDITLSVENTKSEGEKHIADVLIFANGTKLKAEAADKNLYASIDEVIDILENQITKYKEKLRDNKHKHSEKFTLKKANRIFTEEEEKININGELKKIISTKVSTTKPMSVEEAILQMEALETSFYLFLNHETDELNIVYKRDDGDYGHVEPDWN;locus_tag=LOCUS_05890;gene=raiA;note=WP_025773749.1 ribosome-associated translation inhibitor RaiA (Moorella thermoacetica) [pid:41.3%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.5e-33],MGA_593
sequence02	MetaGeneAnnotator	CDS	213996	214433	.	-	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKSFFINSEYKDIKYCREEIKKISKKYDFFEEFHSYIELALGEALTNVIKHGQKKLIEKPGININVFLENNSILLDISFEGEIIDENILNKGKHLNDSLNINTLSESGRGIFLIHTLMDEVEYYQENDLVKIKMKKFLKKNEK;locus_tag=LOCUS_05900;note=MGA_594
sequence02	MetaGeneAnnotator	CDS	214444	215133	.	-	0	ID=MGA_595;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495145.1;translation=MNNHILKLENIHKYYFENKNKLHILNNLNLEIKSGEFISILGKSGSGKTTLLNILGLLDAVNSGALYYDGININELNEQEKNITRNKYLGFVFQFHYLLPEFTALENVTLPCFVQNKNLKNINSIKKRASELLEILELKDRLNHKPSMLSGGEKQRVAVARALINNPKVLLADEPTGNLDEETSEHINSLFKKINTEFNQTIIVVTHSSELANVSQKRYHLKKGALVLK;locus_tag=LOCUS_05910;note=WP_029495145.1 ABC transporter ATP-binding protein (Fusobacterium hwasookii) [pid:59.7%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:4.2e-74],MGA_595
sequence02	MetaGeneAnnotator	CDS	215126	216295	.	-	0	ID=MGA_596;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016502.1;translation=MTIEFFIAKKHLLERKKQSFLAILGIAIGIIVLIVSIAIGNGLDKNMINGILSISPHILIDNGGYNIEDYKKIEENLSNINGISGIVPQFSTQGILKYQNNFINAMLGIKVEGISEDKLINDMNFKEKIVAGNINFSKLTSILLGKELFDQLGAKVGDKVQLISAENKKIYLTIVGVFQTGYLEHDTTLVIIPLKTAQIISDSGEVVKNIDVRLKNPYDAYKINDIIKNKINYRSRTWGELNSTLLKSISLEKTVMIVLVSLIIIVAGFVIGVILNMMVREKTKDIGILRSIGYSKKTIINTFLLEGIFLGGIGIFLGLIFSAFILYLIENFLFEKLTAIYYLTSIPVDISFFEISIIVISAFIIIILSSFFPALKAGNLNPVEALKYE;locus_tag=LOCUS_05920;note=WP_011016502.1 ABC transporter permease (Fusobacterium nucleatum) [pid:41.6%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:1.6e-81],MGA_596
sequence02	MetaGeneAnnotator	CDS	216430	217902	.	-	0	ID=MGA_597;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016412.1;translation=MSQNTEKHIDQIINDKIEKINELKKMGVNPYGEKYNKKDLIGEILKNDENEEVFYQTAGRIMSFRRMGKNVFAHIEDYTGKIQIYIRKDIVGEENYEIIKKMGIGDFIGVYGFLFKTKTGELTLKIKEFKLLSKNMRPLPEKFHGLTDIETRYRQRYLDLIMNKEVKDTFIKRTQIINSIRSLLKSKGFLEVETPMMHPIVGGASARPFITHHNALDMELYLRIAPELYLKRLIVGGFERVFELNRNFRNEGISTRHNPEFTMIELYQAYADFHDMMDITEEIITTVAKEVLGTTNINYNNKDIILENFKRVHMVDIIKEITDVDFWKEMTLEEAKQLAKDNDVEIADHMYTVGHIINEFFEQKCEEHIIQPTFIYGHPVEISPLAKRNEKDPRFTDRFELFIDAREYANAFSELNDAIDQKQRFEAQLKEAELGNDEANSEIDFDFVEALEYGMPPTGGLGIGIDRLVMLLTNSPSIRDVIFFPHMRRK;locus_tag=LOCUS_05930;gene=lysS;EC_number=6.1.1.6;note=WP_011016412.1 lysine--tRNA ligase (Fusobacterium nucleatum) [pid:67.3%25%2C q_cov:98.6%25%2C s_cov:99.2%25%2C Eval:2.3e-195],MGA_597
sequence02	MetaGeneAnnotator	CDS	217927	219219	.	-	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRQLLFIMLLFSSISYSKIEISGVNFVNTPITLISQTKGKWYISGKPTYSKGKLIDSGYSATFIPDTIGNFEVTFEHNNGEKEINFFEIKSINQFDEKQIYDIITESFNSKNLKLLKYGINLLELNFPNSKYINFSYKKAIELSKIDNDFKTGLNYLNKLNSNFIGLENEYVDLLKINYLFYDFFNKTELKIQVLKKLVKYDNRYKKELFITYFNDVKYHNLGLENLEKYFFENFDINIANILANYYEKNKNYEKAAFFYSKFNNYLAAKNLLLANKDYSSLFKLLSEDEKNKLKLIEDDKKNKTRYSEYYQYAKENILKERFELAEIYLKRVLSQSNDDKLKKQAAIDLISIYNLKYKYTEALSTYNKYLKKLISLKDIDIYYNIGLIYYKLNDKENSLKIFNDIINKYPKTIWATKSNIYKIRLQKI;locus_tag=LOCUS_05940;note=MGA_598
sequence02	MetaGeneAnnotator	CDS	219264	219632	.	-	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKLKISTFDSFNEKTENIFNGTKTINNGIIKYTYNDEFGVNKIFLKNDSIKIFRKGKINSKLILELNKHTQFSYSSSYINKIFKISTKKIETLEKDIKLVYSIYDDSELVNNITIHIKEL;locus_tag=LOCUS_05950;note=MGA_599
sequence02	MetaGeneAnnotator	CDS	219635	219997	.	-	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSIGERFIYEIDDDDIEFEVIGDMIMHGKEYLVAQNIFEEKKYIFYYDDLEEIIVLIDDEEESDELLEEWESEYYGTAAEIEFWDDDYESLEDEDLIDNNELYIEDDFDDYDEFYEEEF;locus_tag=LOCUS_05960;note=MGA_600
sequence02	MetaGeneAnnotator	CDS	220008	220478	.	-	0	ID=MGA_601;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016410.1;translation=MIEVNLICVGKIKEKYINNGIDEFTKRLKPFCKFKIIELKERGNDNNRDDSIKKECVDIQKILEKLKGYTVLLDVSGEHISSEKMSKKIEGLTVNGVSRINFIIGGSYGVNDSIRSISNYRLSFSKMTFPHQLMRLLFLEQLYRWFSITNNIKYHK;locus_tag=LOCUS_05970;note=WP_011016410.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:9.0e-45],MGA_601
sequence02	MetaGeneAnnotator	CDS	220547	222361	.	-	0	ID=MGA_602;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495553.1;translation=MNKIKILDESISNIIAAGEVVENPASMIKELIENSLDANSSSIKINVTNKGRNVKIIDNGNGMSKTDLFLSIERHATSKIISKEDIYNLKSYGFRGEALASIASVSKMSIASKNIDSITGHQIYVNAGKIIKDKEVVKNQGTEIEIKELFFNTPARLKFLRTKNTEYNKIKHVVLTQALANYNVSFQLSLDNKIVLKTSGKGFENCITELFSFNILKNLKKFKYGYYGTMDILRSTKDYIFTYINKRYVKSKIIETAIIDAYYTKLMKGKYPFAIIYFDINPKEIDVNVHPSKKIIKFSNDNTVYNDIKSELKKTLWENESDSMPSLNIENNNIKPTKYFNNEKITTTPTQIFNNFELNKQNYQEIKKIDSIYKIKEEKNSFVENINIQSNNNFQNFNKISQKKVVNDNIMEYKINRLKNIKILGQLNNMYILVERNETLEIYDQHIVHERILYEELKEKYYNKKISKQNLLTPISIEVSEIEKEKVIQNLDIFNDFGFEIEDFGENEIIIRTVPTFNFRKSVKETFFNIIKEMMSKKETDIRENIIISMSCKNAIKAGEKLEIEEISILLNKLYLYGKFTCPHGRPIILKIPFLELDKKFGRK;locus_tag=LOCUS_05980;gene=mutL;note=WP_029495553.1 DNA mismatch repair endonuclease MutL (Fusobacterium hwasookii) [pid:47.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-159],MGA_602
sequence02	MetaGeneAnnotator	CDS	222629	223231	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYLVLAAIVLLVFTACSNNQTKGNNVMQKVDNSGMEEMVNYPAWVLDPSIEDGIGAVGSAKIGAAGVSFARQEALAQARDELARQIEVKVNNMFKSYTNAIGLAGEDGVEKIATNVSKQVASQTLRGTKQKELWISPDKELFVQVVLPNEILVDEAKNAFKNETPIGNSDRALWQEFKSEKAQKQLDYEIEKMVNNQ;locus_tag=LOCUS_05990;note=MGA_603
sequence02	MetaGeneAnnotator	CDS	223308	223727	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIILLLFVLTIIGCTNSNINNFGQEKKIVKIKKVYPEWFYNPRMNKYSYAGVGIAKESAYGVYRQRQLAIERGIDEIARQIGTKVNTITQRIETKNNSKFSIYSIQTVDGNIVQAILQEIWIDKRTKEMYAWLVVK;locus_tag=LOCUS_06000;note=MGA_604
sequence02	MetaGeneAnnotator	CDS	223748	224980	.	+	0	ID=MGA_605;product=membrane-bound lytic murein transglycosylase MltC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001230176.1;translation=MKKRHFFNLFLLVLFSTSNVYSEENFDTYKKTQVGEYKEYKEDILKEYETYKKVFDEELKKYKENILKKWEDVKISDKKNWVLYSNDYNIRKSADFENNEIEVDIIVDEKTKDDEIKKIFIKEFASFILEDTETAYSKDKLFQSIDKKMKELNSKYVISNIEKIPVLSDIFLNKDSSKEVRYTQNDVKELVNISKENVEKGKIKEKKSKLKGKKIVSLNIKMPSDALLKKAKAFKNYVFSYSNREGIDPALVYAIIHTESSFNPMAKSYVPAYGLMQIVPRRAGIDASKKVYGYEKILSPSELYNSRKNIELGTAYINILYYRYLKNVENRESRYYLTVASYNTGAGNVAKAFVGTTNLNKAINKINKMSSKEVYNTLLRKLPYDETKNYLQKVTKRTNEYEKAINRGEL;locus_tag=LOCUS_06010;gene=mltC;EC_number=4.2.2.-;note=WP_001230176.1 membrane-bound lytic murein transglycosylase MltC (Vibrio) [pid:28.1%25%2C q_cov:95.1%25%2C s_cov:96.5%25%2C Eval:4.0e-30],MGA_605
sequence02	MetaGeneAnnotator	CDS	224980	225966	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFNKVILFFIINITIFANITGYGNKITLEEAKKEALVNLANQISVKVDSEFYKEVNVDEKNNYSEKKSNKIKLTTIKEFLGVEFIINKLKSGYEVYAVLDKEDIPLYLNEIDKLNEKISYKLNIKEENLLKEKEKYKEVISLLEKIEDYRYILNGLGYSKNIKMIVSVTKIENNLEEIEKKLNEKKYLYIDIRKSFKNILYNDYLIKDLNRKLEYFANNNNIMITTNKTKGNIIVKINIDNNITEKTKPFYYNNKKISNGIYKNSLTVTIEIYDKRIGSIIGEKNINTTSKSVISKDSVIKNNIKKISAEINKEIKKALQTNKIVI;locus_tag=LOCUS_06020;note=MGA_606
sequence02	MetaGeneAnnotator	CDS	226005	226202	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIIEIKRDYDVYNICSLCYNLGKTHKIYTLEIGNENKGEKKTKKIKICNSCLKKLKLEIDKEF;locus_tag=LOCUS_06030;note=MGA_607
sequence02	MetaGeneAnnotator	CDS	226468	227808	.	+	0	ID=MGA_608;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081454.1;translation=MSVTYIVDTNVIIKNPYFTGDFKECKIILPINVLEELDKIKSREGNSGFRARQFFRYFKSLEQKGNLLEGIKIENNVILQTILYEGDMTKLPSSFDKDYVDNKLLAIMLDERYKNCILLTNDISMRVKASSLGIKSEVLDLSDKHKLDDLYNGVIEKKVDIDIVKKFYQNGGITLNELEIKEMYPNQFFYGYTDYDYNKIIGYYDSNKNLIRKLHYENYSPYGISAKDIRQKFAFEALLNPKINFITITSKQGCGKTFLAVAAAMHHVIESGQYEKIVIGKNTSPIDKWSYQGFTTGDTEEKLLTHFGNYITTFENIQAARNKKNKNGIDILNALKNQNKLEVLDISSVLGSSFLNKIVIIDEAQSFDIHAMRSIITRIGENSKLILIGDIAQQTISRLDPDKSGLYAAVEWLKELPETAHITLNKVHRSEFVEKASKIFDENIFG;locus_tag=LOCUS_06040;note=WP_004081454.1 PhoH family protein (Thermotoga maritima) [pid:31.7%25%2C q_cov:98.4%25%2C s_cov:99.8%25%2C Eval:6.0e-51],MGA_608
sequence02	MetaGeneAnnotator	CDS	227934	229532	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKYIYEKVKKNIEILNKGLVEREEIISLAILAILSKENILLIGPPGTAKSEISRRVSSVIEKKKYFEYLLTKFTTPEEIFGPISIKNLENDIFKRVINGYMPDSHITFLDEIFKANSSILNALLTLLNEKIYHNGNNIEKSNLISIIASSNEIPLNEEELQALYDRFILKLTVEYVNDLKELVFIDEDDYNEKNIKKFTLKEIEEINNLSKNEKISDEIVEKIIKIKQEIEKEYENSNEVINEKISDRKFVKTIKLLKLVSFLNNKDEITIDDLIVLKNIFWSDPKNINRVKTIIINNICLTGKNYDKKINMIYNSWEENFEEIFKIQEKDSNGNLLYLDINGEKTTEVKGKIHLKDEFGDFLFFKGHREYIKIAKQLSSWDHDYEDTGIITIDGRKIWKYEFSNIQIIKTNKNNVEGYEKLFEIGKLKPLLLSGYNEFIKKNLKLSEDKKEKLETITINIKKEYKIVFEKYNEISKIYNEIKKYIYNNLFIVEKDKDYVIKKIENNKKNIELIVEKYNKLLEKINMVKK;locus_tag=LOCUS_06050;note=WP_011707129.1 AAA family ATPase (Aeromonas hydrophila) [pid:45.9%25%2C q_cov:55.6%25%2C s_cov:42.5%25%2C Eval:1.0e-63%2C partial hit],MGA_609
sequence02	MetaGeneAnnotator	CDS	229529	231094	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIENLTKIEKIKEMFNNEIADDNEFNNVIWINYIEDREIREKVALNQFIKLYLGEKKDFIEVDSILNRGIIILDKFFDYTKNNLEFTKKLIKDFFFKIKEDIIKNNINFNIEEFINKIDKTRYNYKKKQFDKMKNLYLNNELTIEEIEKYKLQALKDIKNIKDSSKIKNLYEKIKDSKNKWSEILKKYEEFYEDYYKKIEKLKEVWGNNSITASLGWDLSNSDFSMENINNLIKIEKFIRIEDNKEINKLLKKLGKSKVDTNKIKSNRIRKRINFRSNNEILGITRSSDITRVLSSEYTLLNNKLLKYYFYQKYIESELLSYRLADNKNEDNKNNKRNEGPFIICLDTSSSMEGLPEILSKSITIDIIKQAKKQKRDIYLIMFGSIDEVIELKIDYTKENSIRLLKFLQKKYYGGTDFVTPIKKSFELIDNKKIENADILMISDGLVKIPNDFIKKINETKQKRDIKIYSLIINTEKIKDKFSDEVYYYKYKNSEKKVDRKVTRREISFYADDLSLFID;locus_tag=LOCUS_06060;note=WP_011707128.1 VWA domain-containing protein (Aeromonas hydrophila) [pid:29.3%25%2C q_cov:68.7%25%2C s_cov:61.1%25%2C Eval:1.6e-34%2C partial hit],MGA_610
sequence02	MetaGeneAnnotator	CDS	231493	232101	.	+	0	ID=MGA_611;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903694.1;translation=MKKAIIVLNNKFDININFDNYDVYCADGGANYLYEIKKIPKLIVGDMDSIKKEILKYYIEKNVKIEKYPKDKDITDGELIIKKIYNKYEEIIVLGAIGGKNSHFLTNLYLLEKYPKIKYFNNNEEVFIIEKNCILKNYQNKEISFIPIDKMIKLTLKGFKYNLNNKDVERGSSLLVSNIGILNELEIKFEKGKMICIINDFI;locus_tag=LOCUS_06070;EC_number=2.7.6.2;note=WP_005903694.1 thiamine diphosphokinase (Fusobacterium nucleatum) [pid:40.0%25%2C q_cov:88.6%25%2C s_cov:86.1%25%2C Eval:7.3e-37],MGA_611
sequence02	MetaGeneAnnotator	CDS	232129	233100	.	+	0	ID=MGA_612;product=thiamine ABC transporter substrate binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146675.1;translation=MKKILLIFLLLSNFIFGETLTVYIPDAMKWMEKEIKDSFESQYGVELKFVKFEGAAKIVSRLKLEKINPKADIVVGLSSSTLALAKKEEILKQYKPVNSNKIKDIGLVIDKDYFATTFDYGGLAIIYAPDRLKQVPTSFNDIIKLDKSLIVEDPRTSTTGQDFLLWTIAIYKDNWKEFWEKLKPAILTITPGWSEAFNKFEAKEAPMMVSYATDGAYSTYYYGGTSYKALIPNEGGYVQIEGAAIINKKDIKDSAYKFIEFLLSDEFQEKIPLNQWMFPVTNVKLPAAFDYAEEIKNPVTVSGEDISNNLEKWLKEWEELMKK;locus_tag=LOCUS_06080;note=WP_048146675.1 thiamine ABC transporter substrate binding subunit (Pyrococcus abyssi) [pid:41.2%25%2C q_cov:89.8%25%2C s_cov:84.2%25%2C Eval:3.2e-61],MGA_612
sequence02	MetaGeneAnnotator	CDS	233257	234762	.	+	0	ID=MGA_613;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146673.1;translation=MKKRFNKLNLIYLLLWIIPFYIFGRDFFKFKRIDNSTVNVILFTVYQAFISSGFAFLIAIFPSYYVASHNNNISKLIKTTLFIPFLFPVVSAITAFSIIGNFMILKKIGFLYSLKAIIVANVFYNTPIFIKYISIAIQRIPKNLEETLEIEGIKGIKKFLYIDLPLILPSVFRAFFLVFTYCFTSLGIVLGLGGIKYSILEVEIATIMMSSLDFSKAFLLGIIQFIILSFINVINNIIPHYELEKSEIKKYKINILGKIIVILFIILEYIVLIISFLFSVYNFYDNKFTLRGIKNLFSKEFNIDYKIIDAFKNTTLIAIITAIIVIIFTYVFIKNENKYSNFILMGTFGISNAFIAIALIYLNILYNIPYIILLIIGFFYITVPLAYSFLHHPIKTIKNEIIEASKIDGANTFDLFFKIEFPILKNSFISVFIQIFAIIFGEFSLVYTMQISDYFPVISVVNYSLASDKKIFESMALSSIVLLIIFTLFYLSEKLSDEEKR;locus_tag=LOCUS_06090;note=WP_048146673.1 iron ABC transporter permease (Pyrococcus abyssi) [pid:28.0%25%2C q_cov:91.6%25%2C s_cov:91.0%25%2C Eval:3.6e-39],MGA_613
sequence02	MetaGeneAnnotator	CDS	234843	235814	.	+	0	ID=MGA_614;product=class I mannose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966201.1;translation=MYPLVFKKVLIKKIWGGRAFEKELNFRLEDNDKYGESWEVSSHPNGMSVVENGEFKGKTLQELLSEYKGKLVGERIYKKYGDKFPLLIKYLDINDRLSVQVHPDDEYALKNENEYGKSESWYVLKASSDAKLILGIKEGITKDIFKKKVEKNDFNDLFNIVRVKEGDLININPGTVHASLEGSILICEPQQNSDSTYRIYDFDRIVDGKKRELHIDKALDVIKFDEKAKIINENSVESIKKENFIKKELTKDKYYDLEILEIKKEYNEKAEDLFKVYMILEGEGEIEYDNNKYNIKKGKSYLIPANLEININGKVKILRIIPK;locus_tag=LOCUS_06100;note=WP_010966201.1 class I mannose-6-phosphate isomerase (Clostridium) [pid:42.1%25%2C q_cov:98.8%25%2C s_cov:94.2%25%2C Eval:1.5e-63],MGA_614
sequence02	MetaGeneAnnotator	CDS	236023	237237	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGLAEKETLLNIEEKIELSSYFQPIISLKENKIIGYELLLRGIINKEVISPENIYNVFESNNELIDFDFKVVKHHIKEISKIYNENYLYSVNISFPNKKLSTIDETMLKININEIVEKIKKYRMDTKNIIIEISENEVVSTGVQIAFVNQLKEKGFLVALDDVGKNNSNFSKLVDLKPDILKIDKSLIKDIEKSGYKSSIVKNIISIAEETGSIVITEGVEKIEELEKITWLGCDLVQGYFYSKAMEIKKIDIYNIINKIEWGKNKVIQYIDMRMKQIIDNEIICNDIILQAERTFVLFGNEFAAFSYNLFRKFSKIEAVYLLNEKGIQISDTFLNKEIKIKKNKIFHPARIGDNHNLKEYYYNLKYKEMYVSDVYISKATGNRCITISKKIINNILCVDIKI;locus_tag=LOCUS_06110;note=WP_011861232.1 EAL domain-containing protein (Clostridioides difficile) [pid:30.7%25%2C q_cov:60.4%25%2C s_cov:25.3%25%2C Eval:4.7e-23%2C partial hit],MGA_615
sequence02	MetaGeneAnnotator	CDS	237436	237993	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLICDENKKENYIKKIIEKGFEIVENSKILLVEKGYENKIKNDIYIVFNENNFEKIFELIKIIQNQKIIRNEKFITVKNAENFELIKYEKIQYFVADRNKIFCVVENNKKFYEVKEKLYYLEKTLDSKMFIRVSKSHIVNVLNIKEIVPWFNSKLIIKFKGTNKTVEVTRSYLKDFKKFLGI;locus_tag=LOCUS_06120;note=WP_009897796.1 response regulator transcription factor (Clostridioides difficile) [pid:28.8%25%2C q_cov:78.4%25%2C s_cov:56.2%25%2C Eval:2.3e-12%2C partial hit],MGA_616
sequence02	MetaGeneAnnotator	CDS	238003	238419	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNYIINNLVSAFIGICIGGFYLLVLLSKYIVLKYLLISLGLSSLIGIFIGNVAMIIFWLFKKNILKKLWIAYLIESIVVMLLTAIFSYLMGVRGIIYILIMSFIAMIFANTFSYIHYRYFAKLNKKLKEYQEKIS;locus_tag=LOCUS_06130;note=MGA_617
sequence02	MetaGeneAnnotator	CDS	238588	240012	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQLGIMSRKILQGLFLIYILFVSLGHAFNWKIGENLHGICPFGAIETFYTWITTNNFIHHTGVGNYFILLGLVFTLIISGAFFCGWICPFGTVQEFLGKLGKKIFKKKYNNIIPKKLDSILRYFKYLFLIFILVQTARNFKLVFENIDPYYTFFNIWSDEIAISGYIVLTITLLLSLIVERPYCKYMCPLGAINGIFNFKSIIQIKRDNNNCINCGACDKVCPVGINVSIAKEISDPRCIRCAECVAICPVNKTKDTLNFKISLLKNKKLNISKLMLISLIIFLTPIFIGSITGGFKEDTSDRKYETANDIKGSYTINEISEHYNITAEGLIHTFNIEDNRDQKLNDLLEKSGFSIETLRVYMENIDKPLKDVLEDYPEKYEANKTLRELAKENEAGVIAKLFNSSEEDTTVEIKRKTMLVEIKNIIKDYNDFLNTFNINKDEPLNTTLKDIIDKYSIEMEDIKTYVEDNKK;locus_tag=LOCUS_06140;note=WP_164925116.1 4Fe-4S binding protein (Thermanaerovibrio acidaminovorans) [pid:25.8%25%2C q_cov:74.7%25%2C s_cov:78.8%25%2C Eval:4.3e-34%2C partial hit],MGA_618
sequence02	MetaGeneAnnotator	CDS	240366	241580	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGISDEMQKQLEENMSKIKHKIVVMSGKGGVGKSTVSTNIAFGLAMAGKKVGLLDADLHGPNIPLMLGIEGTKLGDLSKPFQVNKNLFVVSLSFYMRTSDDPIIWRGPAKIGAIKQMLGEVIWGELDYLVVDLPPGTGDEPLTIAQELGKIDGSVIVTTPQDVAILDSRKSVKFSTLVNMPILGIVENMSGFVCPHCNKRIDIFKQGGGEKAAKELGVELLTKIPMTPGIVHAGDDGKPFIFNNKGPEVEIMKELVNKLINKVEINKEIENKEKESDKKMGNILKVAFPTNDKTNVEEHFGHCKEFVIFEIEDAKIINKSFVTPPPHEPGVIPRFLGEQGANVIITGGMGQKAIDIFKSQNIDVILGARGSIEENLKTYLEGELYSTASACNHEHDEDHSCNH;locus_tag=LOCUS_06150;note=WP_010869781.1 Mrp/NBP35 family ATP-binding protein (Methanocaldococcus jannaschii) [pid:54.0%25%2C q_cov:58.4%25%2C s_cov:82.4%25%2C Eval:2.7e-71%2C partial hit],MGA_619
sequence02	MetaGeneAnnotator	CDS	241782	242771	.	+	0	ID=MGA_620;product=bile acid:sodium symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942059.1;translation=MKKMWGTIEFLKKNLAWSILSFMIMGILAGALFNVKGLKVFIMPLTFLMVYPMMVTLKINELFEKGGEKANVLALIINFLIIPFIALGIGKIFFRDSPLLIVGLLLAALLPTSGMTISWTGFANGNMHTAIKMTVIGLIVGSIATPIYIKLLVGQTMNIPLISVTKQIILIVFLPMLFGYITQKLLIKKFGEKKFNKDIKQKFPVLSTIGVLGIVFVAMALKSKTIISNPSILIKGLIPIFILYVINYTISTFIGKMFLDRDNAIALIYGTVMRNLSIALAIAMSVFGKNGSEIALIIALSYVVQVKSAVWYIKVVNIIFSEEKTLKRA;locus_tag=LOCUS_06160;note=WP_010942059.1 bile acid:sodium symporter (Geobacter sulfurreducens) [pid:53.6%25%2C q_cov:97.0%25%2C s_cov:96.4%25%2C Eval:9.1e-96],MGA_620
sequence02	MetaGeneAnnotator	CDS	242841	243221	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAVSAKEVGLNGKIDDRFGRAEYYVIFDTETKEVKTVENSAKNESAGAGGKAVKVLGDENVNIILAPEVGPKAITALKAFEIEAYLYAGMGLNTVEDAINAFNEGKLIKANNATVEEHSGLRKA;locus_tag=LOCUS_06170;note=MGA_621
sequence02	MetaGeneAnnotator	CDS	243376	244209	.	+	0	ID=MGA_622;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_070109415.1;translation=MKIAVLSGKGGTGKTTVSNNLAINIKNTILIDTDVEEPNSHIFLKPDIEKIDSVFIGYPEVDMNKCNLCGKCGEFCRFNAIIPAKNSVVVFNESCHDCGGCAMVCPTNAITYKQREIGKIYSGKTKYDIDMKYGEINIGEMSGVRIIEEVKEKIKNEEIVIIDSPPGTACSTVAAVEGVDYAILVSEPTPFGVSDMKMVVEMLREMNIPFGLVINKAKLGDDEIYEYANNENIEILAEIPFNKEIAKLYANGELFSIHLKEYKEIFENIYSQILSKL;locus_tag=LOCUS_06180;note=WP_070109415.1 ATP-binding protein (Clostridium acetireducens) [pid:42.9%25%2C q_cov:98.6%25%2C s_cov:97.5%25%2C Eval:3.4e-58],MGA_622
sequence02	MetaGeneAnnotator	CDS	244227	245090	.	+	0	ID=MGA_623;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879868.1;translation=MNEINEIVVISGKGGTGKTTLTASIIPYLDDVIIADCDVDAPDLNILFELEITKSEDFIGTQKAVIDYEKCIKCGKCYRSCNFGAITKEIEVNIPKCEGCGVCEFVCPVNAIEMKDAVVGKLFVSNSNYGQIVHARLKPGEETSGRLVAEVRKRAKKIGEENNIKNMIVDGSPGVACNVISSITGAKKVIIVVESTFSGLHDLKRVYELTQKFRLSIIVVINKYDLSEELTQEIEKYCKENKIEVGLKIPFNKNMVKAIVNKKIPSLEEKEFFEQIRFDRFIDKIRV;locus_tag=LOCUS_06190;note=WP_010879868.1 ATP-binding protein (Archaeoglobus fulgidus) [pid:50.8%25%2C q_cov:87.8%25%2C s_cov:89.4%25%2C Eval:3.3e-67],MGA_623
sequence02	MetaGeneAnnotator	CDS	245150	245968	.	+	0	ID=MGA_624;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_166033344.1;translation=MEITVLIENLVYNQGLFGEHGLSLHILDKETSILFDTGQTENFLLNAKTLGIDINKVKYTILSHGHYDHTGGLKSLLEKNNKIELMVKKDIFQKKYSNSTGNIREIGLDNKISKYNNIKYLDKNIVSLTENIFIITKINNYNDFENDEKKLFVKENNKYVVDKFIDEVFLVLKNNDDTLTIITGCAHNGIINILKTTKEYFLNNKIKQVIGGFHLKGKSKERIDKTINELIKLEIQEIYINHCSGIEFFSELKNKNSNIKVIYAYTGSKIIS;locus_tag=LOCUS_06200;note=WP_166033344.1 MBL fold metallo-hydrolase (Vagococcus hydrophili) [pid:38.4%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:6.7e-43],MGA_624
sequence02	MetaGeneAnnotator	CDS	246064	246762	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKELYLKWNWLLMILFLLLAIINPLFGLAALFCMVPAIYVSIKEKKKTFCGFYCPRGNFLTKLLQKISLNKKAPKFFQSSKFKSLFFALMFAFFIYSLNKTEGDLFKIGFVFFRFILTSTIIGSILGIFFKPRTWCQICPFGYMTELSAQPKKIKNLIIIPKYIVIGIILFLAVVGANTLIEKENNSYTKNNIVYYKNNNTKFYKKNFKRNRQNLIQNNKIIFEKNIKN;locus_tag=LOCUS_06210;note=WP_193589510.1 4Fe-4S binding protein (Methanosarcina acetivorans) [pid:29.9%25%2C q_cov:55.6%25%2C s_cov:65.4%25%2C Eval:1.3e-09%2C partial hit],MGA_625
sequence02	MetaGeneAnnotator	CDS	246912	247298	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQEEQLARDVYIKLGEYWNARVFQNISKAEQQHMDAVKSLLDKYDIKVEVNEQGVFQDKEFQDLYDELIKKGMKNITEAYKVGRDIEILDIKDLDKRLQDATLDMKLVFENLKKGSEQHLRAFNRQL;locus_tag=LOCUS_06220;note=WP_010870259.1 DUF2202 domain-containing protein (Methanocaldococcus jannaschii) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:70.8%25%2C Eval:6.1e-27%2C partial hit],MGA_626
sequence02	MetaGeneAnnotator	CDS	247474	247767	.	+	0	ID=MGA_627;product=DUF134 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000113593.1;translation=MPRLKKKRCCRLLPNEKGFKLMGVKGQGLEKVELSPDEFEVIRLCDYEGKNQIEAAEIMQISRGTIQRIMKSARYKIVDAFLNDKIIIIKNTEEGKK;locus_tag=LOCUS_06230;note=WP_000113593.1 DUF134 domain-containing protein (Vibrio) [pid:42.2%25%2C q_cov:92.8%25%2C s_cov:91.8%25%2C Eval:4.7e-11],MGA_627
sequence02	MetaGeneAnnotator	CDS	247767	248567	.	+	0	ID=MGA_628;product=Mrp/NBP35 family ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024128.1;translation=MHGITDELQKQLEENMKKIKHKIIVMSGKGGVGKSTITTNIAVGLSMLGKKVGILDADLHGPNIPLMFGLEGKKLPDISKPYQVTENLFITSLSFFMRTSDDPIIWRGPAKIGAIKQMLGEVIWGELDYLVVDLPPGTGDEPLTIAQELGKVDGSVIVTTPQDVAILDSRKSVKFSTLVNMPILGIVENMSGFICPHCNERIDIFKQGGGEKAAKELGVEILAKIPMTPEVVHAGDDGKPYIFNQQGPTVEIMKKMIDKIISKVEE;locus_tag=LOCUS_06240;note=WP_011024128.1 Mrp/NBP35 family ATP-binding protein (Methanosarcina acetivorans) [pid:51.5%25%2C q_cov:98.1%25%2C s_cov:95.4%25%2C Eval:7.6e-76],MGA_628
sequence02	MetaGeneAnnotator	CDS	248625	249080	.	+	0	ID=MGA_629;product=thioredoxin-dependent thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582794.1;translation=MEKAKDFKLLNQNGETRKLSDYKGKWIVLYFYPRDNTPGCTLEAKDFTSLKSEFEKEEAIIIGISKDSVKKHKNFVEKHDLKIELLSDEDLKVLKDYGVWQLKKIYGKESYGIVRSTFLINPEFEIVFKWEKVKTKGHAETVLEKLKELKR;locus_tag=LOCUS_06250;gene=bcp;EC_number=1.11.1.24;note=WP_012582794.1 thioredoxin-dependent thiol peroxidase (Dictyoglomus turgidum) [pid:56.8%25%2C q_cov:98.0%25%2C s_cov:96.1%25%2C Eval:7.5e-46],MGA_629
sequence02	MetaGeneAnnotator	CDS	249104	250126	.	-	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWKKYLTISIICMSIIAITIKIYTHYYFFNLKDNITFDNVAKIDTNMSNFTFDILGDNKNSITTFNKIIKLINNDNSKFVINGGDIVFDGSEAKYTFFLKQISKLKKPMLYSIGNHEIADNGRGRYYKIFDKFYYSFHTKNSYFIFLDDANENYIDKWQMKWLHKELEKSKNYKYKFIVMHVPLFDPRSKIQPGHSLKNVTQAKYLNKLFDNYNITMIFASHIHAYYEGKWGNTPYIITGGAGAELAGTDKAHYFYHYLKVHVSEKGINYELVKLHSPDYNIFDRVFWSLWIYLYAFISINAWSIIVVLGLIYILIIFIFSKKFKTFKEFTSLFHWKKK;locus_tag=LOCUS_06260;note=WP_012868911.1 metallophosphoesterase (Thermanaerovibrio acidaminovorans) [pid:33.6%25%2C q_cov:65.9%25%2C s_cov:79.1%25%2C Eval:3.3e-32%2C partial hit],MGA_630
sequence02	MetaGeneAnnotator	CDS	251019	252005	.	+	0	ID=MGA_631;product=restriction endonuclease subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109063.1;translation=MNTEIIENIILEQYPGVLETLLRDHTTQKNIFWATNDYEHLGEGYKYNNQILIELITGNNGKIVMPRVKKDKILQQNRSKKMAEVFTPSWVCNAQNNLIDNAWFGRENIFNTEIKENNGNSTWKVNQEKITFPKHKTWQDYIKDTRLEITCGEAPYITSRYDTTTGEFIPIKNRIGLLDRKLRIINENVNTSGEWLKAAQIAYKNIYAFEWHGDNLLLARISMLITFIENYQYKFGKKPVLKSINYIAYIISWNVWQMDGIKGVIPNSCGYKIETRVNLFGEIKIKKTKCVGCQKNDIFRHNGIYCLIKDWTSGKKIRFIDLMKGYIK;locus_tag=LOCUS_06270;note=WP_011109063.1 restriction endonuclease subunit M (Bacteroidales) [pid:61.7%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:1.0e-123],MGA_631
sequence02	MetaGeneAnnotator	CDS	252002	255997	.	+	0	ID=MGA_632;product=Eco57I restriction-modification methylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109062.1;translation=MKFTSSFKLKLIYVFRINDEAHMGCLKVGETSLDNKNILGLEPNSKVLNKAAKKRINQYTQTAGISYDLVYTEVAVYVDKGIIKAFSDSEVHNVLLRSGIKRKIFDKENKANEWFITDLETVKKAIKAVKEGKEGLNANEITHEQNPIIFRPEQKEAIEKTKKQFKKSNEMLWFAKMRFGKTLSALQVVKELNFTRTLILTHRPVVDKGWFEDFGKIFYDSPNFQYGSKNKGNQFETLERQCKKENSKYIYFASMQDLRGSELVGGNFNKNDEIFSTPWDFIIIDEAHEGTQTELGKNVLNELKKEKTKILHLSGTPFNLLDNYKEDEIYTWDYVMEQKAKADWDKVHFGDPNPYASLPRLNIFTYDLGKLLNDFIDEDVAFNFREFFRVDDIGEFIHKNDVLSFLNLICKEDKDSNYPYSTEEYRDNFRHSLWMVPGVKEAKALSKMLKEHLVFSQFEIVNVAGDGEEEEPNEEALKKVEQAITDKAHETYTITLSCGRLTTGVSVKAWTAVFMLSGSYNTSASSYMQTIFRVQTSATINGKVKEECFVFDFAPDRTLKVIAKTAKVSAKAGKTKDLDRLIMGEFLNFCPIISVHGSQMKSYDVNGMLEQLKKVYIERVVRNGFEDGYLYNNDQLMKLGELDLEEFNSLKKIIGKTKAIPKSGDIDINQQGFTDEEYEEIEKAKKKKKKKKKELTEEEKRLLEERKKRKKNRDTAISILRGISIRMPLLIYGADVSDEEKKLNIDNFTELVDDQSWQEFMPKGVTKEVFEKFKKYYEPDIFRAAGKRIRAMARAADNLTIEYRIERITAIFNTFRNPDKETVLTPWRVVNMHLGDCLGGYVFLDESRERTIEHPRFVSHGDVTDNVFSPDAHILEINSKSGLYPLYMAYGIFRNSIKQKFPGKGPNELSIDEQQKVWDKVVKENIFVICKTPMAKSITKRTLIGFRDAKVNTRYFEDLVYQITHRNEDFIKKIKKGKTYWKTKENDDMKFNAIVGNPPYQDMGGAGGNNDAPIFQHFCSIASKISNQYVSLIIPARWFAAGRENLLGDFRKEMLNSERIEKLVTYSDSSNLFSKVEIKGGICYYLENKRYKGKCNYILHRDQTIQQAEIQLNVFDILIREPQLSKIVEKVDKQRSASNIPSVATIISSDTPFGIPSNPKTSKKTPFKVYSKSEPDHDVLLYHIENGMRKVEYVNYNDIKKNKKDVDKFKIFVTGSGGSGADPKVMGDPEFAPKHSVCSQSYLYACFDSETEAKNMIKYIKTRFFRVLVSAMKITQSAPSRVYRFVPLQDFTSKSDIDWSKPIADIDRQLYKKYKLTDKEIAFIESMIRPM;locus_tag=LOCUS_06280;note=WP_011109062.1 Eco57I restriction-modification methylase domain-containing protein (Bacteroidales) [pid:56.3%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_632
sequence02	MetaGeneAnnotator	CDS	256383	257000	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLLKFIKEKYPENTIDISESIELLIDTIDNLRKEIKNIQEKIEEVMEKLSIDEEKIEEVKEENKKDIPNYSDYKVDNNIEHNLYEDFTYKKPFGFKLNENRVIKVSSWKELLVKTCEILISINENKFISFESNDAMKGKKRKVFSSDPNELRVPRKIGDKIYIETNQSANFIRDLIKKLLKEYNFKTIEYKVYLKADYTNLNK;locus_tag=LOCUS_06290;note=MGA_633
sequence02	MetaGeneAnnotator	CDS	257077	257247	.	-	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLGEDIECPYCHKVFWKGDEVEIITKNNKYFIHCTGCGAILEIDIHSDDKVYV;locus_tag=LOCUS_06300;note=MGA_634
sequence02	MetaGeneAnnotator	CDS	257314	258216	.	-	0	ID=MGA_635;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000442783.1;translation=MERIKITNDLSFSRIIHGWWRAEYWNKSLDERVEFIEKCIENGITTFDHADIYGGGIAEELFGEVLKTKPEIREKIEIVTKCGIKFIHPNMPKNDGHYYDTSYEHIMYTVEKSLKGLNTDYIDLLLIHRPDMYMNPEEINKAFTELKNSGKVKNFGVSNFLPEQFEMLKSYLEFPLVVNQLEISVACYDNFKNFSIDNAMKNRVKLMAWSPLAGGKLFTSNEEKYVRLRNTLNEIKNEIGANGIDEIAYAWLINHPANIMPICGSGNLERIQSAINSTNIKLTRKQWFKILDASRGFEVD;locus_tag=LOCUS_06310;note=WP_000442783.1 aldo/keto reductase (Bacillus cereus) [pid:52.5%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.1e-92],MGA_635
sequence02	MetaGeneAnnotator	CDS	258358	258780	.	+	0	ID=MGA_636;product=MerR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007051407.1;translation=MKKYSIKEISEMFDIKASTLRYYEEIGILENVERISGKRVYKQENIDRLHAIFCFKRAGMTMDKLQKFFEYEKKEKLHIDDMLNLLILQEKEVKEKLEQLAKDYEHVKKKVRFYSSIKEAIETNKEIPTWEEFIKKYNKK;locus_tag=LOCUS_06320;note=WP_007051407.1 MerR family transcriptional regulator (Bifidobacterium longum) [pid:43.5%25%2C q_cov:92.9%25%2C s_cov:92.3%25%2C Eval:2.9e-27],MGA_636
sequence02	MetaGeneAnnotator	CDS	258853	260253	.	+	0	ID=MGA_637;product=cardiolipin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243311.1;translation=MNLDHFLLIISFILNLLAILTIIFYERRKPINALAWVFILSFTSYIGFIFYLFFGMSFRKKRIVKQKFRTKSFKKLTMIEELSDKLEISEETLEFITFLEANSYSSFYLNNNLEIYTEGKKFFSELIDKIKNAKEYIHMEYYIFRDDNISKCILKELEEKVKQGVEVILILDGFGSRKIKPKFFKKLKEYGGHVYMFFPLFIPFLSLRANYRNHRKICIIDGEYAYMGGFNVGDEYLENWRDTHIRIEGDAIYDIQLEFLLDYEFVSNKKINREKYFKIKKEYLDLPMQIVGSGPNYSLPIIKSSLLKMIYTAKKSVLIQTPYFIPDDALLDILKIHLMSGKEVSIMIPNKPDHIFVYWATYSYIGELLEYGAKCYIYQKGFLHSKVIIIDDDIATIGSTNVDMRSFYLNFEINAFIYDFKKIHELKTIYYKDIKNSKKLTLEDYNKRSKIIKMKESVSRLLSPVL;locus_tag=LOCUS_06330;gene=cls;note=WP_003243311.1 cardiolipin synthase (Bacillus) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-112],MGA_637
sequence02	MetaGeneAnnotator	CDS	260270	261013	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEYSSISYDLLSYAKQDVMLKNSYIDFHMHTTASDGFLSKKFLVNFLRNKPHLISVTDHNEIRKSIKIVESTNINIIPGIELGANDGTELLVYFKHEDELEEFYRKYVEPNKSVFRMVKTKKDIFYYLDNLVVYDVFISIPHINGYAHKNYLNKKYIKELIMQVDAIETFNKPMGKKKNLVAKKVRKEFNKYATFGSDAHLPQEINDFYNFQLHELEKLNKLNENILKMYTLSYILTKHTKYFFSK;locus_tag=LOCUS_06340;note=MGA_638
sequence02	MetaGeneAnnotator	CDS	261073	262671	.	-	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQNKFLENIDDLLIITDTNGKIIFCNKITLDKLGYTFEELKNKNITDIYSKKDTSFLIDNIHNKKANADSLYSLLILDKKGNFIELATSILYGIWNNSEVIIFISKKIQKQKAFENFKKLFNNKIIMMMIIDYSNLTILDANNAFLSKLELNRKEILNKNITELDLFNNSIDKNKMITSLKRIHNISDLNVEVTTKSGKTVYLIISGDLIDDKDKNLLLLVMLDISEQVILNKKLDTQRKQLINIIEGTELGTWEWDLVTNQTIFNEYWANMIGYTLKELEPTTIKTWEKFIHPDDKEETENILQKHFEKKISYYESEFRMKHKKGHWVWISAKGKVIEWSFDNKPLKMFGTHTDITQKKKFEAIIKENSIRDPLTNIYNRRYLDEQLKNLILENKRENNIFSVAILDIDFFKNINDNYGHLAGDFILQEFTKIIKSHIRPYDIFGRYGGEEFILILLHVGNNEMYEILNRILDFILQKDFIYNNEIIKLSFSAGMCDINEFLIPTVNQIYECIDKKLYIAKNNGRSLIIK;locus_tag=LOCUS_06350;note=WP_011815910.1 sensor domain-containing diguanylate cyclase (Yersinia enterocolitica) [pid:30.0%25%2C q_cov:56.0%25%2C s_cov:96.7%25%2C Eval:2.6e-35%2C partial hit],MGA_639
sequence02	MetaGeneAnnotator	CDS	262820	264616	.	+	0	ID=MGA_640;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897958.1;translation=MDTKFKRNFSIIAHIDHGKSTLADRLLQITNTVSEREMKEQLLDSMDLEREKGITIKAQAVTLFYDAKDGNRYELNLIDTPGHVDFIYEVSRSLAACEGALLVVDAAQGVEAQTLANVYLALENDLEILPVINKIDLPAADPEKVKEEIETVIGLDTDEAVLTSAKSGIGIEELLEEIVKKVPSPSGKPESPLKVLIFDSHFDDFRGVITYVRIVEGTLKKGDKLRIWSTGKDIEVLECGIFSPIMKPQNELTAGSVGYIISGIKSIQDTRIGDTIFNPKNPIEEPLEGYRPAQSMVFAGIYPISTEDYEDLREALEKLQLNDASLSFTPETSTALGFGFRCGFLGLLHMEIIVERLRREYNIDLISTTPSVEYRIHMENGEIKIIDNPAEFPIVGKKAVEEPYIKGTVITPKDYVGNVMELCQEKRGIYVDMQYLDETRTMITYELPLAEIVLDFYDKLKSKTKGYASFEYEMIGYKESKLVKVDILVSGEPVDAFSFICHSDNAYYRGRAITEKLKDVIPRQMFEIPIQAALGSKIIARETIRAYRKNVLAKCYGGDISRKKKLLEKQKQGKKRMKQIGNVEIPQEAFISVLKLDK;locus_tag=LOCUS_06360;gene=lepA;EC_number=3.6.5.n1;note=WP_005897958.1 translation elongation factor 4 (Fusobacterium nucleatum) [pid:75.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.7e-264],MGA_640
sequence02	MetaGeneAnnotator	CDS	264681	265658	.	-	0	ID=MGA_641;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011101851.1;translation=MNIGIVGSGKIVNTCLEAISNIKNIMCTAICVREKSYYKDFELSKKFNIKNIYTNYDEMLNDSNINFIYIGIINNLHYEYTKKALENNKNVICEKPFTNNDDELKNLTILAKSKKLFLFEAITTLYSPNFIYLKKNIDKIGPIKIIQCNYSQYSSRYDSYLNKIVLPAFNPELNGGALYDINVYNIHIINNLFGMPNSVQYNANLGFNGIDTSGVLTIIYDNFIAISIGAKDSSSPSFITIQGEKGYLKIDGPPNECKSIKGLIDNNLISYNYNEYENRMVYEFIAFYNIFITKDYNKCYNYLEHSINVMNILTTASKQINLFNK;locus_tag=LOCUS_06370;note=WP_011101851.1 Gfo/Idh/MocA family oxidoreductase (Lactiplantibacillus plantarum) [pid:42.6%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:1.9e-66],MGA_641
sequence02	MetaGeneAnnotator	CDS	265838	266254	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFMYIFSLMIFISCGKYQNGEYYVIQKKDYKGWKTFLKIEVKNNKIFNVEFNKINKENKLVTENEEYNKKMKEKSGIDTIEYTKILEENFLKSNGNINQIDIIAGATHSVVEFKKMSKFLLKKIKSGKIGKYEID;locus_tag=LOCUS_06380;note=MGA_642
sequence02	MetaGeneAnnotator	CDS	266348	266782	.	+	0	ID=MGA_643;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015889.1;translation=MKKIALGADHGGYELKNIVREYLKNNGYEVIDFGTNSSDSVDYPEFAHKVGEAVVNKEADFGIVVCGTGIGISIAANKIKGVRAALCHNVWTAKLTRQHNDANVLAMGGRVIGPGIALDMVEAFLNTEFEGGRHTNRVNKIEEC;locus_tag=LOCUS_06390;gene=rpiB;EC_number=5.3.1.6;note=WP_011015889.1 ribose 5-phosphate isomerase B (Fusobacterium nucleatum) [pid:65.5%25%2C q_cov:98.6%25%2C s_cov:97.3%25%2C Eval:3.4e-50],MGA_643
sequence02	MetaGeneAnnotator	CDS	266879	267223	.	+	0	ID=MGA_644;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902960.1;translation=MASIFTKIINREIPADIVYETEDIIAFNDINPQAKYHILVVPKKEISTINDIQKEDTDLIGKIYLAIKEITKELGIDKTGYRVITNCNEDGGQEVFHIHFHILGGEKIGPMRSK;locus_tag=LOCUS_06400;note=WP_005902960.1 histidine triad nucleotide-binding protein (Fusobacterium nucleatum) [pid:69.4%25%2C q_cov:97.4%25%2C s_cov:99.1%25%2C Eval:4.3e-41],MGA_644
sequence02	MetaGeneAnnotator	CDS	267244	267999	.	+	0	ID=MGA_645;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898090.1;translation=MKIISSKENKIYKLIKKIKKKKYREKEKLFIAEGKKFLDFEYKPKYYILNENNIGLYSKLLEKEETYIFSEDLFYDITTQINSQGIILIYEYIPSCIEKIKNNIVILDKIQDPGNLGTIIRLVDAVGLKDIILTKGSVDIYNDKTIRSSMGSIFNLNISYLETDKLIKILKQKEYNIISTALTNETIEYTKMELKEKNAFVFGNEGNGISKEILDISTAKIKIPIYGSAESLNVGVATGIILYKYIEKVNS;locus_tag=LOCUS_06410;note=WP_005898090.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:6.9e-60],MGA_645
sequence02	MetaGeneAnnotator	CDS	268100	269431	.	+	0	ID=MGA_646;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482935.1;translation=MSKNKKLNFMSLAVPIFIEMLLWTTFNNVDTIMLSRYSDVAVAAVGSTGQLVFFIMLFLQIIATGTGILISQNLGKRDYEKAENSAKIALYFNFLVGILLSILVFKYHFQMVKFLGLEDKALLMGSRFYKIIGTFTFIQAIGLINTTILRSYRFPKYSMYINIFSNILNIIGNAIFIFGLFGMPVLGEVGVAISTVFSQFIGIIISFIIIKKKLNIHLLSNIKIKENLYLLKEIGKIGIPSVAENLLYNTSQIMIIKMVATYGTDALTARAYIFTLLRFVFIISISSGSAAQIITGFLAGANRHRVAKKAVIKIYLQTVLLIIIVATTLIIFRENLIRIFTTNEAVILLAKDAFLTILFLETGRTLNIIFISSMKGAGDVIFPVIMGVIFMWIVGVGGGYLLVIKFGFGLFGAFIATGLDEWSRGIIMFIRWIRGDWIKIIKK;locus_tag=LOCUS_06420;note=WP_005482935.1 MATE family efflux transporter (Vibrio parahaemolyticus) [pid:37.2%25%2C q_cov:98.4%25%2C s_cov:97.5%25%2C Eval:1.6e-72],MGA_646
sequence02	MetaGeneAnnotator	CDS	269865	270062	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLNGKEYETSKNITILDLIKEKNISKDQVVILKNGDIVFKEDLEMNLIENDELEILRFVSGG;locus_tag=LOCUS_06430;note=MGA_647
sequence02	MetaGeneAnnotator	CDS	270066	270836	.	+	0	ID=MGA_648;product=thiazole synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889636.1;translation=MDKLILGEKEFNSRLFTGTGKFSDKSLIKPMLEMSKSEMITLALRRVDFDMPQENILNYIPKNVTLLPNTSGAKTAEEAVKIARIARTVGCGNFIKIEIINDMKYLFPDNEETIKATKILAKEGFIVLPYMMPDLIAAKRLEDAGAAAIMPLGSPIGSNKGLQTKYMIEILIENCKLPIIIDAGIGRPSHAAKAMEMGAAAVLVNSAIACSENPIKMGKAFSLAVQAGREAYLAKLAEEKKYAEASSPLTGFLFEE;locus_tag=LOCUS_06440;note=WP_009889636.1 thiazole synthase (Clostridioides difficile) [pid:63.6%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:3.6e-88],MGA_648
sequence02	MetaGeneAnnotator	CDS	270872	271978	.	+	0	ID=MGA_649;product=2-iminoacetate synthase ThiH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393166.1;translation=MSFYDVIKKYEDFNIKEYLENVSYEDVEKTINKENLNEFDFLNLISNTSLEYIEIIARKSQKLTKRYFGNTISLYAPLYISNYCTNKCTYCGFNKENKIKRKHLSYEEIEKEAKELAKTGIKHVLFLTGEAKELVSFEYIKNTLIILKKYFKSISIEIYPLKENEYRKLKNLGLDGVTIYQETYDLETYKKVHLEGQKKDYFYRLDTPERVARAGVRQIGIGALYGLSDIYKDAFFSALHAKYLMDKYIDCEISISLPRMKYSESKFKPYQKLDNKKFIQIMLAFRLYLKYIGINISTRESAEFRNNLIGLGATKYSAGSKTDVGGYTKENKSTPQFETDDKRDVNEICNAIKNRGYQPVFKDWELII;locus_tag=LOCUS_06450;gene=thiH;note=WP_011393166.1 2-iminoacetate synthase ThiH (Moorella thermoacetica) [pid:49.0%25%2C q_cov:99.2%25%2C s_cov:96.8%25%2C Eval:9.9e-102],MGA_649
sequence02	MetaGeneAnnotator	CDS	271975	272517	.	+	0	ID=MGA_650;product=sulfur carrier protein ThiS adenylyltransferase ThiF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584006.1;translation=MKIGIAGAGGLGSNVAMNLVRTGVLNLKIIDFDRIEESNLNRQFYFYDQIGITKVEALKENLIRINNNLRIEIINEKIEKTNIKKLFEDCDIVIEAFDKDIYKKLFFNTFYNKKKLLVSASGVAGNTIDNLEIKKIGNSFIVGDFQKGIDKHKTYSTKVSMVAAMMANIVLLEGGFCNED;locus_tag=LOCUS_06460;gene=thiF;note=WP_012584006.1 sulfur carrier protein ThiS adenylyltransferase ThiF (Dictyoglomus turgidum) [pid:40.9%25%2C q_cov:94.4%25%2C s_cov:85.5%25%2C Eval:4.6e-26],MGA_650
sequence02	MetaGeneAnnotator	CDS	272507	273571	.	+	0	ID=MGA_651;product=thiamine phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125499.1;translation=MKINDLGKYRILDANVNRVAEGIRVIEDIARFDLEDKKLTDKLRNIRHILRKNFQNLDKKFILARDSAHDIGKEISNLNDNDKKLDEIQIILANFKRVTEGLRVIEEITKLIDYKKSKIIENIRYESYYLEKEFNLKIFKNTKKKIPKGIYGITAENFSNGRSNIECVKEMIKAGIKIIQYREKNKTINEKSREAYEIAKICKENNVIFIVNDHIEIAMLVDADGVHLGQEDLDIKSARKILGENKIIGISTHAIEEAQKAKKDGADYIGVGPIFPTTTKDRKAVGLEYLKYIVNNIDIPFVAIGGIKEHNIDKILNIGAYSISLVSEIVGADNIIKKVKIINEKIEKYNNFNK;locus_tag=LOCUS_06470;EC_number=2.5.1.3;note=WP_011125499.1 thiamine phosphate synthase (Prochlorococcus) [pid:40.5%25%2C q_cov:91.5%25%2C s_cov:92.2%25%2C Eval:9.9e-59],MGA_651
sequence02	MetaGeneAnnotator	CDS	273630	274907	.	+	0	ID=MGA_652;product=phosphomethylpyrimidine synthase ThiC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047970.1;translation=MNYTTQMDAAKKGIFTKQMEEVVKNEAISKEKLIQKIAEGKIVIPANKNHKNLIGIGVGEGLKTKVNVNIGVSEDEYSEIKELKKVEKALEYKADAIMDLSIFGDTKKFRKKLIETSPIMIGTVPMYDAVAKYGKNIKDMTVDDLFEVVEEHCQDGVDFITVHAGFNRISAERLDNNKRLTHVVSRGGSILYQWMKLNNKENPFYEYYDRLLEICKKYDVTLSLGDGLRPGSIKDSTDPSQIQELLFLGELTKRAWEENVQVMIEGPGHIPLHEIVTNMQIEKKLCHGAPFYVLGPVVTDIAPGYDHITAAIGGAIAASNGADFLCYVTPAEHLRLPDIDDMKEGLIATRIAAHAADIAKGIKGAKDWDNAMSKARGELNWAKMFDLAIDKEKAIEYRKSSMPENDEVCTMCGDMCPIKRIKEVE;locus_tag=LOCUS_06480;gene=thiC;EC_number=4.1.99.17;note=WP_012047970.1 phosphomethylpyrimidine synthase ThiC (Clostridium botulinum) [pid:62.5%25%2C q_cov:99.8%25%2C s_cov:97.0%25%2C Eval:2.7e-162],MGA_652
sequence02	MetaGeneAnnotator	CDS	274928	275227	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYKKGVEFSKNTNFKADYIVPIDKKDKFFALGYSHNTKIPFRDIILEKENQILKYSFVKSIIKNKSIILVTIKVIDEHLKLLNKMKKYTQNIVLISLY;locus_tag=LOCUS_06490;note=MGA_653
sequence02	MetaGeneAnnotator	CDS	275623	279321	.	+	0	ID=MGA_654;product=phosphoribosylformylglycinamidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964962.1;translation=MNCRLFVEKKKEFGVEANNLLNDFVENLQIRSIDNVRVLNIYDIFNIDETTLDRAKYTIFSEPAVDNIVNVELDKLTNFFATEFLPGQFDQRADSAVQCIKLISDIEDVEVRSGKLLILEGNITKEELEKIKSYYINPVETREKDLFSPLNIESQPIPEEVCTFTNFINFTERELEQFRINNGFAMSFEDIKFIQEYFKNEEKRDPTETEIKVLDTYWSDHCRHTTFETEILNVKIEDEVIKKAFENYLNDREYVHNNKKTMCLMDLATLGMKKMRKLGLLDDLEVSDEINACSIEIKVDVNGKKEDWLLMFKNETHNHPTEIEPFGGASTCIGGAIRDPLSGRAYVYQAMRISGAADITEKIEDTLKGKLPQRVITKEAAHGYSSYGNQIGLATTFVKEIYDEGYKAKRMEVGAVVGAVKKEYVRREKPNPGDIVILLGGKTGRDGCGGATGSSKEHNIDSIVECSAEVQKGNAPEERKIQRLFRNPEVTKLIKKSNDFGAGGVSVAIGELADGLEIDLDKVPVKYSGLNGTELAISESQERMSVVIEKENLDKFIKLANNENIEAVKVAEITDTNRLVMKWKNITIVDISREFLNTNGARAKTEVIVEKVDYNNSPFNINKGKELKERLVETLKELNIAGQKGLVEMFDATIGATTVLMPFGGKYQLSETEGSVQKIPVIEGDTNTVSVMTFGYNPKIAKWSPYHGAAYAVIESIAKVVALGADYKNIRFSFQEYFERLGKDAKKWGKPFSALLGALDMQNAFNLPAIGGKDSMSGTFNDLNVPPTLISFAVTTTDASNIISTEFKKADNYIYLVKHNKNDDFTPNVEELKENFDFIYKNIISKKIVSAFSIKHGGIAEAICKMSFGNKLGVEINTNIDLFEMDYGSIVIEATENLNYKNLIKLGKIVNNNKININGIEFDIDELINIWQGKIEKVFPIYTDKKSEKIEKIDYSKEIFIKKSSKDIKPKVFIPIFPGTNCEYDSMKAFVKAGADVETMVFRNRTHNDIIESINEMKKNIENSQIIMFAGGFSAGDEPDGSGKFIANILLNNEIKSSINKFLEKDSLILGICNGFQALVKSGLLPYGEIGKIDSKSPTLTTNNINRHVSQMVYTRIASTKSPWLTSFSIGDIHRIVVSHGEGKFVASKEILDELVKNGQIITQYVDLEGNPTMNGIYNPNGSYMAIEGIISKDGKIFGKMGHSERMGENLYKNIDGNKVQNIFENGVKYFK;locus_tag=LOCUS_06500;EC_number=6.3.5.3;note=WP_010964962.1 phosphoribosylformylglycinamidine synthase (Clostridium) [pid:58.3%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_654
sequence02	MetaGeneAnnotator	CDS	279335	279841	.	+	0	ID=MGA_655;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081520.1;translation=MGKVGIIMGSDSDLPVMKAAAEILEEFNIEYELTVVSAHRTVDRMYEYAKTAEEKGIDVIIAGAGGAAHLPGMVAAITNLPVIGVPVKSSKLNGLDSLLSIVQMPGGVPVATVAINGAKNAGILSAKIIGIKDENIRKKIKLYSENMKKEVEEKAKRLENIGFKEYLK;locus_tag=LOCUS_06510;gene=purE;EC_number=4.1.1.21%3B 5.4.99.18;note=WP_004081520.1 5-(carboxyamino)imidazole ribonucleotide mutase (Thermotoga) [pid:76.6%25%2C q_cov:99.4%25%2C s_cov:97.7%25%2C Eval:1.3e-66],MGA_655
sequence02	MetaGeneAnnotator	CDS	279853	280989	.	+	0	ID=MGA_656;product=5-(carboxyamino)imidazole ribonucleotide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081519.1;translation=MKTIGIIGGGQLGKMTILEARKMSIPTIVLTTEHPSPASEISNDYIVGDLYDDEKILELANKCDVVTYEIEHINVKILKEIENQGKKVYPSSNVIEIIQDKSKQKKLLNNYNIPTSYWEYVDKNNLKIQIEKFGFPVVQKSCTGGYDGKGVFILKSKDDIKNIIKEESYFEKYIKCKKELAIMIARNTNGEIKTYPVVEMAFDEKTNICDTVIVPAQISKEIGEKAKKIAIECIKALDGIGIFGIEFFLTEDDEILVNEIAPRPHNSGHYTIEACTTSQYEQFLRAILNYPLGDTTLLSNACMINILGEDGYHGKTKIKNEEEVFKLPKTYLHIYGKRETRPFRKMGHITVLNKDINKAISNAKAAREKLKIISDSLG;locus_tag=LOCUS_06520;gene=purK;EC_number=6.3.4.18;note=WP_004081519.1 5-(carboxyamino)imidazole ribonucleotide synthase (Thermotoga) [pid:53.3%25%2C q_cov:99.2%25%2C s_cov:98.2%25%2C Eval:5.3e-114],MGA_656
sequence02	MetaGeneAnnotator	CDS	281008	281721	.	+	0	ID=MGA_657;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016809.1;translation=MEIIKKEMLYEGKAKQIFATNDENLVIIHYKDDATAFNGVKKSQINNKGILNNKITAILFEQLEKQGVKTHFKEKLNDREQLCEKLTIFPLEVITRNIIAGSMAKRVGIKEGTKPKNIIFEICYKNDEYGDPLINDHHAIALGLATYDELKEIYTITAKINRLLKDMFDKEGITLVDFKIEFGKNNRGEILLADEITPDTCRLWDKETGEKLDKDRFRRNLGNVEEAYIEILKRLGE;locus_tag=LOCUS_06530;EC_number=6.3.2.6;note=WP_011016809.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Fusobacterium nucleatum) [pid:77.3%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.7e-105],MGA_657
sequence02	MetaGeneAnnotator	CDS	281723	283117	.	+	0	ID=MGA_658;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047942.1;translation=MYNLTDDKLQEECGIFGIYSKEKRSDIASLMYYGLYALQHRGQESAGITVFDGSEIKVHKGMGRVAEVFTTPKLNEMTGNLAIGHVRYSTCGDSSLINAQPLEAHCKLGYISVAHNGTLVNSKIIRELFEDTGTIFQTTIDSEIILKLISRKASKGIDEAILDTVGAIQGSYALIIAKEKKLIGIRDPYGIRPLCLGQLEDGSYVLSSESCGLDAIGAKLIRDINPGEVLIIDEDGLHSYQYAEKSYKSPCAFEYIYFARPDSEMDGISVYEARYQAGRKLYEQHKIDADIVIGVPDSGIPSAIGFAEASGIPYGIGLIKNKYIARTFIAPTQELREKAISVKLNVLKANIENKRVVIVDDSLVRGTTSKRLVKLLRDAGAKEVHFRSASPAVKFPCYFGIDTAHRDELIASKKSVAEICKEIGADSLEYLEINNLLDSLESKNYCLGCFNGVYPIYAPMENNK;locus_tag=LOCUS_06540;gene=purF;EC_number=2.4.2.14;note=WP_012047942.1 amidophosphoribosyltransferase (Clostridium botulinum) [pid:63.6%25%2C q_cov:99.8%25%2C s_cov:96.1%25%2C Eval:2.0e-174],MGA_658
sequence02	MetaGeneAnnotator	CDS	283132	284127	.	+	0	ID=MGA_659;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016807.1;translation=MITYKDAGVDKEEGYKAVEKIKDAVKKTHNENVLSGLGSFGAFYALSDYKNPVLVSGTDGVGTKLEIAFTTKKYDTIGQDCFAMCANDILCHGAKPLFFLDYLACGKLDSEVSKIIVGGVAEACYKAECALVGGETAEMPGFYKEGDYDIAGFCVGAVERDEVITGEEISEGDTIIAVKSSGVHSNGFSLVRKIVTNYYENFNGKEIYKELLKPTKIYVKPVLEVLKKVKVTGLAHITGGGLVENIPRIIPDGLCADIEKSNIQILEIFKYLQSKGVPENEMWGTFNMGVGFVIIAKDKYKSEIIEILKQNKEEAYVIGKIIKGEEKICLR;locus_tag=LOCUS_06550;gene=purM;EC_number=6.3.3.1;note=WP_011016807.1 phosphoribosylformylglycinamidine cyclo-ligase (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:1.5e-109],MGA_659
sequence02	MetaGeneAnnotator	CDS	284115	284696	.	+	0	ID=MGA_660;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047940.1;translation=MLKIVVLISGSGSNLQSIIDAIEEKKLNAKIECVISDREAYGIERAKKHNIKTYLFNRKELKKNLFNEIEKVISNDIDLIILAGFLSIVSSEFIKKWENKIINIHPSLLPKFGGKGMYGMNVHRAVVENKEIESGCTVHFVTNEIDGGEIIAQKKVPVYEKDTAEDVQKRVLEKEHELLVEAIKILEKDKKKR;locus_tag=LOCUS_06560;gene=purN;EC_number=2.1.2.2;note=WP_012047940.1 phosphoribosylglycinamide formyltransferase (Clostridium botulinum) [pid:58.2%25%2C q_cov:99.5%25%2C s_cov:94.6%25%2C Eval:1.6e-54],MGA_660
sequence02	MetaGeneAnnotator	CDS	284938	286500	.	+	0	ID=MGA_661;product=bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000745439.1;translation=MRALISVSDKTGIVEFAKELANLGIEIISTGGTSKKLEEAGINVIGISEITGFPECLDGRVKTLHPNIHAGLLAIRDNKDHMNQIKELNITPIDIVVVNLYPFKETILKEGVTREEAIENIDIGGPTMLRSAAKNFQDVSVIVDPKDYAIIIGELKENKKISKKTNFYLAKKVFEHTAHYDSLIADYLRKEYEKEENKKEFPETITLTFEKVQDMRYGENPHQAAAFYKEVVRDKGFLTDAIQLHGKALSYNNINDTNGALELLKEFDKPTIVACKHANPCGVGSADDIYEAYMKAYNADPVSIFGGIVVSNREIDERVATEINKIFIEIVVAPSFTEKALEILKAKKNIRLLILDNITNKYSTDAYDLKKVGGGLLIQEVDNLLLQDELEVVTDRKPTEKEIADMMFAWKVVKYAKSNGIAIAKDETSLGVGPGQVNRIWACKQAIEHAGEHLGVDILKGAALASDAFFPFSDSVEEAAKAGITAIIQPGGSIRDKDSIEACNKYGIAMVFTKMRHFRH;locus_tag=LOCUS_06570;gene=purH;EC_number=2.1.2.3%3B 3.5.4.10;note=WP_000745439.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Bacillus cereus) [pid:60.6%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:5.6e-176],MGA_661
sequence02	MetaGeneAnnotator	CDS	286595	287845	.	+	0	ID=MGA_662;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016802.1;translation=MKLLVIGSGGREHAIVWKMSQNPKVTKIYACPGNAGTQSISICENIELINIDDIIEFAKKENIELTILGSEELLVAGIVDKFKENGLVAFGPHKAAAILEGSKAFAKEFMLKYGIKTAAYKKFDNYKAAKKYLEEIEYPTVIKASGLAAGKGVIICETKENAETAVKEIMLDKKFGDSGNEIVIEEFLTGVEASILSIYDGKTILPFISAKDHKKIGENETGLNTGGMGVIAPNPYVTNEVLDKFNKDILEPTLKGLKEENLKFCGFIFFGLMINEKGVYLLEYNMRMGDPETQAILPLMKSDFVDIIIAAQNQKLNEIEVEWEEKNSCCVVAVSGGYPEAYEKGYEIKNIENIDNLLFLAGAKNNDNKIVTNGGRVLNIVAIGDALDIARKKAYNDIEKVDFKKKYFRRDIGIVK;locus_tag=LOCUS_06580;gene=purD;EC_number=6.3.4.13;note=WP_011016802.1 phosphoribosylamine--glycine ligase (Fusobacterium nucleatum) [pid:58.6%25%2C q_cov:99.3%25%2C s_cov:98.1%25%2C Eval:1.7e-140],MGA_662
sequence02	MetaGeneAnnotator	CDS	287922	289589	.	+	0	ID=MGA_663;product=formate--tetrahydrofolate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048375.1;translation=MKTDVQISQKAKLEPIYKIAEKMGLTENDIEIYGKYKAKINLDILKKEVKKDTKLILTTAITPTPAGEGKSTTSIGLGMALNKIGKKTVIALREPSLGPCFGMKGGATGGGYAQVVPMEDINLHFTGDIHAITAANNLLCSMIDNHIKWGNELKIDVNNILFKRAVDLNDRALREIVIALGGKANGIPREDSFLITVASEVMAILCLAENIFDLKEKLGEIVFAYDIEGNPLKAKQLKANGAMAALLKEAIKPNLVQTIENTPAIIHGGPFANIAHGCNSVVATKAAMQLGDYVVTEAGFAADLGAEKFLNIKCRKADLKPNCIVIVATVRALKMHGGIKKEDLNIRNLEALVKGMENLEKHIENMQKFNIPIVVAINEFPTDTKEELDLVEKICNDLGVEVALSQVWAKGGEGGIELANKVVNLIENKPSNFKPLYDLDITIQEKIEKICTEIYGADGVNYSKKALNKIKKFEELGYGKLPVCMAKTQNSISDKPELKGRPKGFKVDIADLNISAGAGFIVVLTGEILTMPGLPKKPAAENIDIDENGNIIGLF;locus_tag=LOCUS_06590;EC_number=6.3.4.3;note=WP_012048375.1 formate--tetrahydrofolate ligase (Clostridium botulinum) [pid:64.9%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:5.6e-214],MGA_663
sequence02	MetaGeneAnnotator	CDS	289740	290243	.	-	0	ID=MGA_664;product=cytidine/deoxycytidylate deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879260.1;translation=MGKFNDDLMFMLQTEILAKQSHCQRLQVAAMIVKEGRILSIGYNGTPKGLDNCDDIFKNEDKSKKNFSKEHHIWSDIHELHAEQNAISWAARQGIAIKDATIYVKYSPCRHCTKMIIASGIKRVVFLKKYDRDQEGLKIMEQANIEIIELNYESYNNFKYKIIDSLK;locus_tag=LOCUS_06600;note=WP_010879260.1 cytidine/deoxycytidylate deaminase family protein (Archaeoglobus fulgidus) [pid:42.6%25%2C q_cov:84.4%25%2C s_cov:87.3%25%2C Eval:1.2e-24],MGA_664
sequence02	MetaGeneAnnotator	CDS	290366	293800	.	-	0	ID=MGA_665;product=pyruvate carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048255.1;translation=MARKFKKILIANRGEIAIRVIRACKELGIRSVAIYTEEDKNALFRSKADEAYLIGKDKGPIEAYLDIEGIIKLAKHKAVDAIHPGYGFLSENSEFARRCAEEGIEFIGPTAEMMENLGDKIQSKLVAHKAEVPTIPGIEKPVKSIEEGLEYAKTIKFPVMIKAAAGGGGRGMRIARSEEEFVYAFKSAKSEAKKAFGIDDIFIEKFLENPKHIEVQILGDKYGNIVHLYERDCSVQRRHQKVVEFTPALTLSKEKRDAICNDALKIARVVKYQNAGTMEFLVDQNGDHYFIEMNPRVQVEHTITEMTTGIDIVQSQILIAEGHRLDSSEIGIKSQEDIVPIGYSIQCRVTTEDPKNNFAPDTGKIEVYRTGSGFGVRLDGGNGYAGAEISPYYDSLLVKVITHGRTFEDVVKKSLRALKEIKIVGVKTNIDFLINVLNHTEFKNGTCNTNFIGNHPELFEFKEKKDYEYHMLKFIGEKVVNETHGIKKDFDVPIIPDIKLSPNIKGTKQILDERGPEGVVNWIKAQKKLLLTDTTLRDAHQSLIATRVRTIDMLKIATPTAMLAKDLFSLEAWGGATFDVSYRFLKENPWKRLREIRKRVPNIMLQMLIRGSNAVGYKNYPDNVIREFIRKAAENGVDVFRIFDSLNWIKGMEVAIDEVKNQGKIAEACICYTGDILNPKKNKYTLEYYIKKAKEIEDAGAHILGIKDMSALLKPYAAYKLVKALKENISLPIHLHTHDTTGNGVATILMATEAGVDIVDTAFSAMSGLTSQPSLDSVVAALENTDRDTGVNLKNIQKISDYWSAVRPVYEKFESDLKSGTTEIYRYEIPGGQYSNLKPQVESFGLGDRFDEVKEMFKYVNDMLGDIVKVTPSSKMVGDLAIFMVQNGLTPNNILEKGKDLAFPDSVVAYFKGMMGQPEFGFPEDLQKIVLKGEKPITCRPGELLEPENFEKIKEHLKETHNIEPTEEDIISYALYPDVFDAYLKYIKENGDFSVIGSDVYFHGLSEGEITEIKIKEGKTLSIKLVSISKIDNEGFRTVSFEVNGNRRDIKIKDITEIQTLEKIEGVEIADPNNPFEIGASIPGTITKILVKEGDTVEENQSLIVIEAMKMETNITAKSAGVVDRILIKEGKQVKSGELLIELK;locus_tag=LOCUS_06610;EC_number=6.4.1.1;note=WP_012048255.1 pyruvate carboxylase (Clostridium botulinum) [pid:71.2%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_665
sequence02	MetaGeneAnnotator	CDS	293923	295017	.	-	0	ID=MGA_666;product=YibE/F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015955.1;translation=MKKILLLMLIFISTLSFANDIKEEYLSAKIINILSKEKATQEDENVEYYLNLKIKILDKNYKNQIITLKYPIYKNKIYNLNIKKGSKIVLYKYTEDENQEYYIFSFNNNVAIIILISIFLTLVVLIAKKSGIKAIIALIISLLFVYKLLIPGILKGYSPIVLAVIFSTLSTVITIYLNNDNSIKKIVAIISTLLGVIFSGIISLIFVKYLNITGYSNTESYSYMYILGQVNLKEIVSAGIIIGALGAVMDIGVSISSALWELKEQNPEMNEKELINSGMNIGKDVIGTMVNTLILAYVGSSIFTILLIVAQNSKFPLIRVLNTEFILIELLRGLAGSIGIVIVVPIATFLSSKIYTRHFSKKMV;locus_tag=LOCUS_06620;note=WP_011015955.1 YibE/F family protein (Fusobacterium nucleatum) [pid:37.9%25%2C q_cov:97.5%25%2C s_cov:99.5%25%2C Eval:4.0e-71],MGA_666
sequence02	MetaGeneAnnotator	CDS	295147	296028	.	-	0	ID=MGA_667;product=N-carbamoylputrescine amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003372277.1;translation=MRKVKVAATQMACSWDIDENIKTAEKLVRKAHNQGAQIILLQELFETVYFCQKEKPDFFKYAVELEKNKAIKHFQKIAKELNVVLPISFYERKNRAKYNSIAVIDANGEILGVYRKTHIPDGPGYEEKFYFNPGDTGFKVFNTKYAKIGIGICWDQWFPETARALALLGAELIFYPTAIGSEPQDNTIDSKNHWQMCMRGHAASNITPVIASNRIGTEVIDDSQITFYGSSFIAGPEGEMLHEADRTNEAILVHEFDLDEIELKRSSWGIFRDRRPEKYDVLSSLDGEFKYKR;locus_tag=LOCUS_06630;gene=aguB;EC_number=3.5.1.53;note=WP_003372277.1 N-carbamoylputrescine amidase (Pseudomonas) [pid:67.1%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:1.6e-114],MGA_667
sequence02	MetaGeneAnnotator	CDS	296028	297056	.	-	0	ID=MGA_668;product=agmatine deiminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_016356689.1;translation=MYPKEEGFFMPAEWEKREKTFMEWPCREEIWFDGILEAKQGYANIAKAISKFEPVVMIVNKADKEEAEKMCDNEIEILVIEHDDSWIRDNGPTFIKNNNGELRGINWKFNSWGEKYLPYDKDNQVAKKLLEYYGVKSYDAPFVLEGGSIHVDGEGTLLTTEECLLNKNRNPHLKKENIEDYLNKYLSVEKFIWLKRGLFGDETDGHVDNVACFAKPGVVVLQVCYDKNDPNYEITQENLEILRNFIDAKGRKLEIIEIEQPPARYINGERLTLSYLNYYPVNGGIILPTFGGDAKKYDLKAKEILEKIYPDRKVVMVDGMPIIKGGGNVHCITQQMPKGVIK;locus_tag=LOCUS_06640;note=WP_016356689.1 agmatine deiminase family protein (Legionella pneumophila) [pid:49.1%25%2C q_cov:98.2%25%2C s_cov:97.1%25%2C Eval:1.1e-99],MGA_668
sequence02	MetaGeneAnnotator	CDS	297317	297886	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIIIISIFILIFSNIYSYNFKLNTGINLKGNFKLDGSKYTTSNSSFGIANYLIDLGNNSFMDTEVGMGFLIYNNKEFVDYANAGINLKYYNDFDKIKAFYYTGAGYAYPYLITYYDGQTIEEISTGFYWKVGFGADYEKLTFDIAYKMMALKIKSNIIDIDTSELVETTYNVILKNLTLSIGYYLF;locus_tag=LOCUS_06650;note=MGA_669
sequence02	MetaGeneAnnotator	CDS	298144	299454	.	+	0	ID=MGA_670;product=6-phospho-beta-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005461090.1;translation=MNRKLKLVVIGGGSSYTPELIEGIIKKRKELPITELILVDVIDGEEKLKINYDLVKRMFKKENIDIDFTYSLDRKEALKGADFVLTQFRVGGFKSRILDEEIPLKYGFIGQETTGAGGFAKALRTIPVIIDICKDMEEVAKNAWLINFTNPAGIITEAINKYTNVKAIGVCNVPINMRYDVANQLGISLEKIRVQFVGLNHLSFISKVIVDGKNIIEKILFANKNNENIVKNIEKIDDIDIINQKIGLISSPYLQYFYFPQKMINKELENINSGKGTRGTQVAAIEKKLFEKYKDPNLNVKPKELEERGGARYSEIAINVIDSIYNNKNKEFVVNTINNGTFVELPNNVSIETNCIINNEGARPINSGKLPKSVAPLIKQVKAYEEYTIEAAVEGNKRKAYLALFNNPLVNNKEKIEELLNEIIIKNKKYLPNFLD;locus_tag=LOCUS_06660;note=WP_005461090.1 6-phospho-beta-glucosidase (Vibrio parahaemolyticus) [pid:48.5%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:4.4e-115],MGA_670
sequence02	MetaGeneAnnotator	CDS	299482	300423	.	+	0	ID=MGA_671;product=BadF/BadG/BcrA/BcrD ATPase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584023.1;translation=MYIAGIDGGGTKTHCIIGDEKGNIISFGNGGPANYHSVGIERSKNSLKDAINEALLNSNLSFDNIDLFVFGLSGADQEDDFIVINKFIKEIIGDKKYKLYHDSWIGLRSGSKDYTGIAAICGTGTGFSGRRKDGKEVVLRNLDYKLGNKGGGDELAIEALHFAFRSEEGTFCKTELENVIPKLFSVKTMEDVSKIIKNNNVPEEILKQIPIEIFRLANEGDTIAQELLIELGETLGRFSVSVIKKLEMENDEINVILIGSIYKGNSPLLLDAMKQTIHKVAKNVNLILPDKPPVYGAYYLGIDLLSKSGGDIK;locus_tag=LOCUS_06670;note=WP_012584023.1 BadF/BadG/BcrA/BcrD ATPase family protein (Dictyoglomus turgidum) [pid:31.8%25%2C q_cov:96.5%25%2C s_cov:91.7%25%2C Eval:7.5e-36],MGA_671
sequence02	MetaGeneAnnotator	CDS	300545	301963	.	+	0	ID=MGA_672;product=sugar ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011229209.1;translation=MKIKTKFLLVISILVLFSMTSFAGLFFKKEETKEQKKDDKVVIKLWVTPDAEHEEDLQAILDKFEKKSRIKVEKTVLGWDIVWDKLTTAATSGIGPDVVEIGGTWVSSIAAMGVLEDLSKYYDANEVKSHFLEPTLKYSKVKGVEGDLISLPWITDGYLFYYRKDLYEKAGLDPNEVFKDWDSFKEAMRRLDNMDFTNEKGEKIAAFAHGGKNDWNIIHMMGGFIWQAGGNYINEEGTKALIAEDNAINGIKYFTSFAQEGIVPKEYLEKDPSEIEALYGAGNIATILTGPWFASYLEKTLAGKYDSEADDVNALNLEKNSYKNTDVAQPLAGPAGRYTFSGTNNLAVFNFSKHKKEAAELVKYLTTDKEAQIDYCNATGLFTVSKNVANSPYVTENHFRSAVKYAFDHGYIKVYPAVPAWGPIETVLTKNLGIIWDLVSGVEGEYTEEKLIEKIKETNTEMERIISQTGNR;locus_tag=LOCUS_06680;note=WP_011229209.1 sugar ABC transporter substrate-binding protein (Thermus thermophilus) [pid:34.8%25%2C q_cov:84.3%25%2C s_cov:89.4%25%2C Eval:9.0e-69],MGA_672
sequence02	MetaGeneAnnotator	CDS	302089	303009	.	+	0	ID=MGA_673;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173997.1;translation=MKKTIKKYSFAYLLILPSIISLFIVQVIPSLQGLYISLIKLNQFTFKDFLKAPFVGLQNYFFILFDPNSMVRVGLLGAIRNSAIFTICVISGTLVMGLGLAILLNQNFKGKGLARTLLLLPWIIPTYIVGLLASFMYSYDGIINRVLVNILHILPEPLSWKVGPLTLVSIILITIWRFFPMTMLMYLAALQGISKDYYEAAEIDGANDLQKFWYITLPFLKPVTAMMILYGLIQHIYSFNIAAMMFGLGSGYPGKWGDLIMTNLMRNSFSLWQYGPGGAASIVLMLLVLLLVMVWLKIFKDSITIE;locus_tag=LOCUS_06690;note=WP_011173997.1 sugar ABC transporter permease (Thermus thermophilus) [pid:30.7%25%2C q_cov:96.1%25%2C s_cov:96.6%25%2C Eval:1.3e-32],MGA_673
sequence02	MetaGeneAnnotator	CDS	303020	303880	.	+	0	ID=MGA_674;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011174518.1;translation=MDYKTKRKIKRIASQVLLWIAVIIVIFPIVYLVAISGSTSNSIRTGTEFQHISIHRYIKNFIEMQKNANFFNYFKNSLIVITITTFIALTLSIFAGYALAKFKFPGSNLFGITMLSTQLIPPTLILIPMYLIFITIQRTIGLQLIDTYYGLIIPYVAIFTPMSIWVMRGFFANLPSELEEAARIDGCSRFQAFRLIMLPLATPGIIATGIFIFLTAWDELMLASVLTTSAKVQTIPIGIRLFIGRIQNRFDLTMMAALVITIPVAIIFFALQKYFVQGMTAGAVKG;locus_tag=LOCUS_06700;note=WP_011174518.1 carbohydrate ABC transporter permease (Thermus thermophilus) [pid:48.4%25%2C q_cov:94.8%25%2C s_cov:95.8%25%2C Eval:8.2e-71],MGA_674
sequence02	MetaGeneAnnotator	CDS	303894	305906	.	+	0	ID=MGA_675;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948258.1;translation=MDHVIKKNIKKSNKFKRKLIVKLFILLLSFFIPISFITLRIVSNNIEKSIYNSNDNNIQNINTLLNTTIENVSTIATLVANNPIISSFQTLDMGKLTLKYTEKFPYISNIVVFKYSLNKLKEVSRVNGSVKADFSEKTIDAMYDKKKNKIFILISKDTNKPLLLLTTPIYKMNFLGMIGNELGGVLVFVLDIKKIQETLFLKNKNKEFVVNENGEILFSNSEIPILTNYSHKESVKKVLLKKQGHISYKFNKEKVLASYSYIKNLNWGIIIEQNYNTAFKELNSLKFFFITFIFIIFIVGGIFATFLANEITTPIEILNKNFEKIKNGDLNIHFEKKHIKRKDEFGELLNSFLLTIKSIKNILNSISMSSNTFQESSSKLNIVTSKNNESINEIEKIVSNLIISSKENESLTSEGKNILENILKNSKSISKSSEEIEKLVNDAIYISKESSENMENNVELTLKTYNSFDNINNKINQLNNFSNNITGIIESIKSVAEQTNLLALNAAIEAARAGEAGKGFAVVAEEIRKLATNSNDSAEEITKLILMIQDMIKDIKEIFENNYNEFNYLKENSLNTKEKINTISNNSIFVIKSLQKMLELSQKQFIYISEISNNFNNLSKSTNETFTYSNIIESNIKTQKENNVELDKTSNLMTSLSKSLKKTLSNFKNF;locus_tag=LOCUS_06710;note=WP_011948258.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:23.5%25%2C q_cov:94.9%25%2C s_cov:95.1%25%2C Eval:5.0e-34],MGA_675
sequence02	MetaGeneAnnotator	CDS	306011	307195	.	+	0	ID=MGA_676;product=ROK family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583058.1;translation=MQTVGNQAYAKQRNKKLIVDILRKEGPLSRADIKKFINLSSPSISTNVERLLNDNILKTFGRASSMGGRKTIFYNVNYNYGYIIGIDLSLDYIYVGISDLKGTILDKKRIEITSKKYKTNFNNMINVLYSLLDENDISSEKILYICVSSPGVLKENGELKYVDSEDWFYESSIFKDLEKTFNKKIFVENDVNLAVFAEFKRGVGNSFSYLSYIKIDKGLGAGIIFNGEILKGKKGEAGEVGFSLLRNKNGDIISLEKELHLERIYKEISEDINDGQKTIISELVNGHLENIDIDIIAKAITLNDEYIKIKIKYFAEELGIFISNIMSILSLESIIIGGSIKKIGKYFLDEVRQFVSENLPFEVTILYSNFDDETGLIGAFEMGIDYFFNNLFKE;locus_tag=LOCUS_06720;note=WP_012583058.1 ROK family transcriptional regulator (Dictyoglomus turgidum) [pid:24.2%25%2C q_cov:97.5%25%2C s_cov:97.7%25%2C Eval:1.1e-29],MGA_676
sequence02	MetaGeneAnnotator	CDS	307216	308565	.	+	0	ID=MGA_677;product=glycosyl hydrolase family 8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_191316782.1;translation=MKKKLFLILLFLNVLGCNNLKINNHKDLEIIKPNLKSQNELNKDIIDFYKKWEKLYIKKVQNTKQKQLYLDYGIEARKNKEALSEWFIPFNAVTTSESHGYAMVVVASMANIDKENSLKYKEKFNSLYRFFRAHPSKYSKNLMSWQEVGIGLKKENGIVIGEIEKILNTPSGADSAIDGDMDIAYSLLIADKIWGSNGEINYKLEAIKVINAIMENEINKKSYTLLLGDWVRNGASGNRKYLWITRSSDFMLDHIRAFSVIDKKYSNEWKKVLESTEEIINYNVKKFSDNTGLVADFLERDNNKFIPAIGNVLEGKNDGDYNWNACRNPWRFSVDAIYNGSTKINSSIITLNKWIRKKTKNNPENIRPGYYIRNGKTGEIIGDRESWGEDMSFTAPFLVSACIGKENQNWLNKLWEHVVDTPLDEAEYFGNALKMQALIIASGNWISIK;locus_tag=LOCUS_06730;note=WP_191316782.1 glycosyl hydrolase family 8 (Amycolatopsis bullii) [pid:35.5%25%2C q_cov:78.4%25%2C s_cov:79.1%25%2C Eval:5.7e-57],MGA_677
sequence02	MetaGeneAnnotator	CDS	308605	309663	.	-	0	ID=MGA_678;product=ATP-dependent 6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008767561.1;translation=MESVTKRFGVLTAGGDCPGLNAAMRGLAKTAMGKYNMEIVGFYEGYRGLVNNNAKLMTETDFSGILHKGGSILGSSRERPFKDPEKVKKMVETYKKWELDCLVVLGGNGTQKRGYWLSKEGCNVIGLPKTIDNDIYGNDISFGFHSALEFCTDALDRLHTTASSHKRVLIAEIMGNSAGWLALYAGLAGGADVIIIPEIPYDIKKIKKHVEKRMSSKNPFCVIAVAEGAVSIDEANLTKKELKKKRKKSGLSAGYRVSKELNAISDFESRVSVLGYLQRGGTPTGYDRVISTQFGVKGAELLAKGKYNKMVAAKGLNVVSIPLEEVAEKVQIVPVDNIAIKSAKATGISFGD;locus_tag=LOCUS_06740;note=WP_008767561.1 ATP-dependent 6-phosphofructokinase (Bacteroides) [pid:44.2%25%2C q_cov:98.0%25%2C s_cov:99.7%25%2C Eval:2.5e-86],MGA_678
sequence02	MetaGeneAnnotator	CDS	309798	310685	.	+	0	ID=MGA_679;product=RnfABCDGE type electron transport complex subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015691.1;translation=MLTKFFQKQLMMRKVLYSLIPIFIYSIYLHGLKFLISTIFIFLFGSITEYFFTKIQNKKISEAVLVSCALYALSIPPYAPIWISSIGIIFGITFAKMVFGGFGRNIFNPAIAARLFVYISFPVAFNSYTLDTAVGATPLSIFRNGYTFSKIRLFLGNYLGTFGETSTLLIILAAIYLIYTKTANWKLMFSTLLSFSILNSIFYFTNIINIDPLSSIFAGSFLFVIVFMVTDPVTAPKQKLSIWLYGTLIGLSISLIRTFSLFPEGTSFAILLGNSFAPLFDEFSKKIKERKEAKA;locus_tag=LOCUS_06750;note=WP_011015691.1 RnfABCDGE type electron transport complex subunit D (Fusobacterium nucleatum) [pid:33.4%25%2C q_cov:94.2%25%2C s_cov:90.4%25%2C Eval:1.1e-38],MGA_679
sequence02	MetaGeneAnnotator	CDS	310682	311269	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDNIVYTVIFSVVITFIFVFLLSLTYQATKGKVAKNEKLFEIKAFLNSAGYDLNTINNYEEFFNENFKEEKTNIWSTNKNGEKIIIYKFSGNGLWGTIYGVIAFNKNLDKIIGLEITSHSETPGLGGRIEEEWFKNQFKNQQINDKFKIVMGDGKGDFEPNDNSVDGITGATRTTESLQKIIVDAYEFVKSNR;locus_tag=LOCUS_06760;note=WP_008765873.1 Na(+)-translocating NADH-quinone reductase subunit C (Bacteroides) [pid:26.2%25%2C q_cov:83.1%25%2C s_cov:73.2%25%2C Eval:2.4e-13%2C partial hit],MGA_680
sequence02	MetaGeneAnnotator	CDS	311279	311869	.	+	0	ID=MGA_681;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000092895.1;translation=MSILKENLWENNPVFVQILGICSTLAVTNNLTNTFIMTVALIFVTAFSSLTVSLLKEYIPKKVRMIIQTLIIAFYVIFVDILLRAYLPNISKALGPYVGLIITNCIIMGRAEAFAQSNPPILSFWDGFTSGLGYMWVLMIIAFFREFLGFGTLFGISVAPSGFTTWTIMIMAPSAFFLLGTLIWISKTIMLKKEVK;locus_tag=LOCUS_06770;note=WP_000092895.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit D (Vibrio) [pid:54.3%25%2C q_cov:91.3%25%2C s_cov:87.6%25%2C Eval:5.4e-50],MGA_681
sequence02	MetaGeneAnnotator	CDS	311869	312462	.	+	0	ID=MGA_682;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873696.1;translation=MSPDISPIVLFFASIFTSNILLANFLGMCSFISISKDMNSSNGLGMAVTAVLTITAAINWVVINYILIPFDLLYLRYIVFIVVIAATVQILEMLIDRLSPSLYMALGIFLPLITVNCAILGVSLFIEIRKYTFIQTLFYAFGAGLGWWLAIMLLSAIQKKIANAPVPAGLKGPGITLITIGFMAMAFIGFSGMLIVQ;locus_tag=LOCUS_06780;gene=nqrE;EC_number=7.2.1.1;note=WP_009873696.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit E (Chlamydia trachomatis) [pid:49.5%25%2C q_cov:93.4%25%2C s_cov:80.3%25%2C Eval:1.5e-47],MGA_682
sequence02	MetaGeneAnnotator	CDS	312481	313587	.	+	0	ID=MGA_683;product=NADH:ubiquinone reductase (Na(+)-transporting) subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003113984.1;translation=MEFIIAPLIISILTGILAAIISITDKIVNNYGEITISINNGKKEIKIDGGENLLTTLSSKEIYLPSACGGRGSCGACKCKVTSDVGEYLPTEIPYLTKEEMKENIRLGCQIKLKKDISIEIPDSLFNVKKYEAVVEKIVDVTHDIKEVLFNLGNEEINFTAGMYMQLCIPPYDKIKNETQRAYSISSKPSDKHHIELLIRLVPGGIATTWVHTYLKEGDKVKLIGPFGEFEATPTNSTMICVAGGSGMAPFKSMLYHMYENNINDREIWYFFGARTKKDLFYLEELAELQEKWPNFHFVPALSEPEGEEWKGESGLITDVLDRYLKTIINSGYKEGYLCGSPGMINACNNVMTANGIKLENIYYDKFA;locus_tag=LOCUS_06790;gene=nqrF;EC_number=7.2.1.1;note=WP_003113984.1 NADH:ubiquinone reductase (Na(+)-transporting) subunit F (Pseudomonas) [pid:35.1%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:9.4e-60],MGA_683
sequence02	MetaGeneAnnotator	CDS	313601	314050	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSPKYEKAMANMQVGIISAQGFLGDEEINLVDIINRDENEFNKLGLKFDEVAKKLKYLLEKGQKGLGEPITVDERWLVQVYEAKGKMPCPFEDYMAQKSVVTLTDKNTNHKLMYTDLSIHLIEKHHFLEGKGSTFRLEPKILKKILY;locus_tag=LOCUS_06800;note=MGA_684
sequence02	MetaGeneAnnotator	CDS	314076	314201	.	-	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLREETETLKKLKEKYLKKQQEKNKKNLAKKGVLITSCK;locus_tag=LOCUS_06810;note=MGA_685
sequence02	MetaGeneAnnotator	CDS	314224	316197	.	-	0	ID=MGA_686;product=3-dehydroquinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016717.1;translation=MEKLRVDLKEKSYDILMGENIFNEINNYINDYKKILIITNTTVGPLYLEKFLNSFKKKDNIFTFTIEDGEEYKKLDTVLPIYDFMLENNFNRKSLIISLGGGVVCDLSGYVAATFMRGIDFIQVPTTLLSQVDASIGGKVAVNYKAKNIIGSFYQPKLVLVDISVLKTLETREIKSGLGEIIKMAATFNKEFYDFIFKNYEKINNFDKDTFIKMIFHSCQTKAAVVSKDEKENGIRAALNYGHSYGHVIEKITNYKVYTHGEAVILGMNFVNKLGYELGLVEKEVVDKQIELFQKLNMSYLVPKYDFETMIKIFKKDKKNKSEKLRLVICPKLGTVKFIDLEIEKLKELYDKITDTKLRAIIDIGTNSVRLFIAELYNGYINKKYLKLMEITRLGEDVDKNGFLKDSAIERTIEVLKNYKYIIDKYKISDVKSCATSATRDSSNKNIFISRVKNEVGLNIKCISGEQEGIYCFNGILSEIKDNKKFIAIDIGGGSTEIIIGTKDNISFIKSFNFGSVRIKEKFFKNDKYKENIAKMKNFVYNMLDQTKLKYFNFDEYELVGVAGTVTTQVSVLKGLKEYDTKEIHNYLLNIKDIENNLELFMSKSIDERKKIVGLHPKRAEVIVAGTLILKILLKYFNKRVILVSENDILEGIMISK;locus_tag=LOCUS_06820;gene=aroB;EC_number=4.2.3.4;note=WP_011016717.1 3-dehydroquinate synthase (Fusobacterium nucleatum) [pid:45.0%25%2C q_cov:97.7%25%2C s_cov:98.2%25%2C Eval:8.5e-148],MGA_686
sequence02	MetaGeneAnnotator	CDS	316206	316724	.	-	0	ID=MGA_687;product=shikimate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903422.1;translation=MKTNLALIGFMGVGKTTIGKVLAKKIDMNFFDLDYEIMKRENMKVNEIFKEKGEHYFRNLEEEIIKECETMSNTIIATGGGTILNKNNLLSLRKHANICLISTSIDNIYKRVMRRPNKRPLLICKDTYEKIKKLLNDRKDIYKNSCDFEVYNKNEDLDEITDIIKKIYIEEM;locus_tag=LOCUS_06830;note=WP_005903422.1 shikimate kinase (Fusobacterium nucleatum) [pid:42.4%25%2C q_cov:98.3%25%2C s_cov:98.8%25%2C Eval:3.3e-31],MGA_687
sequence02	MetaGeneAnnotator	CDS	317397	317648	.	-	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIIILIVTLIIYFYIKSKLGQKILEDKLLKLLVFSTRIIINNEKTKNNIKFRQYIKKFAKKILVMDLLFLSHGKYENEINK;locus_tag=LOCUS_06840;note=MGA_688
sequence02	MetaGeneAnnotator	CDS	317716	318081	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYTIEFLRRYRTSDSEIYTILLEVNNENRDIGKVHLHINNNDKKVAVYLSNEFFNNFLEENNEFKTKLLSKLYNLVGANEGPTEFSIEFLDMNLSQVSFVWDESDESDNNYFDFGLIEGE;locus_tag=LOCUS_06850;note=MGA_689
sequence02	MetaGeneAnnotator	CDS	318258	318629	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTHTIIGANILKSFKENIKKHDIDIFDYAIEIVNFHHEKWDGTGYPKGLKANEIPLVARIVSIADVFDALTNKRVYKKAFSFEESIKMIKEMKGINFDPLIVDVFIESLAEIRDVYEKLKEV;locus_tag=LOCUS_06860;note=WP_011073726.1 response regulator (Shewanella oneidensis) [pid:45.9%25%2C q_cov:99.2%25%2C s_cov:32.2%25%2C Eval:6.3e-24%2C partial hit],MGA_690
sequence02	MetaGeneAnnotator	CDS	318757	319218	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLITTKKWNPFLREKDYFDSIFDSFDSFFGSPSLFSDNFQKFSTDISETDNAYIISADLPGVKKEDVKLELHEGYLKISAERKEEKEEKNKKFFRKERIYGSFVRNIPLPNYLNITKEEIEAKFENGVLNVTIPKKLDENNQKQYQTIEIK;locus_tag=LOCUS_06870;note=WP_143485814.1 Hsp20/alpha crystallin family protein (Methanothermobacter thermautotrophicus) [pid:43.8%25%2C q_cov:73.2%25%2C s_cov:72.1%25%2C Eval:1.2e-17%2C partial hit],MGA_691
sequence02	MetaGeneAnnotator	CDS	319295	320491	.	-	0	ID=MGA_692;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941878.1;translation=MNLEVLIKSSNVLFLLLGAIMIFAMHAGFAFLEVGSVRTKNQINALVKIISDWAVSTVVYFLIGFPMARGISFLKPASKLIGDNMGFDLIRFFFFLTFAACIPAIISGGIAERAKFWPQVFAGAIFAGILYPFFESIIWGINSTFVQGLIKNITGFEFVDYAGSVVVHSFGGWLALPAILILGPRKNRYNSNNPIPISNVPFLALGSWILSVGWFGFNVMSAVELKDISGLVAINSLASMVGGILVSLLLSKRDAIFIHNGALAGLVAVCAGSAIYHPIGAFVVGGIAAAIFVYGFHFETEVLKIDDVLGVVVLHGVVGSWGGIAAGIFGSTLFGGLGNVSFFAQLIGSSLAIIIALFGGSIVYLVIDKLFGFRLEEEKEIEGADLAIHSLEAYPDKF;locus_tag=LOCUS_06880;note=WP_010941878.1 ammonium transporter (Geobacter sulfurreducens) [pid:60.8%25%2C q_cov:98.2%25%2C s_cov:96.8%25%2C Eval:2.1e-140],MGA_692
sequence02	MetaGeneAnnotator	CDS	320787	321938	.	-	0	ID=MGA_693;product=L-threonine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482586.1;translation=MAGLKFFMPSVNLMGPNCLEDAGKDIKALGFKKALIVTDKVLNDIGLVKKLTKVLYDNNIEYVIFDGTQPNPTTKNVADGLTLLKNNNCDFVISFGGGSPHDCAKGIALVASNGGEIKDYEGVDVSKKPQLPLVAVNTTAGTASEMTRFCIITDEERHVKMAIVDKNTTPILAVNDPLLMLDMPSSLTAATGMDALTHAVEAYVSTIATPVTDACAQKAIELISKYLRKAVENGKDEEARDMMAYAEFLAGMAFNNASLGYVHAMAHQLGGFYDLPHGVCNAILLPHVQEYNSQVAADRLKDIASFMGLDVSKMTSEEGAKAAIEAIKKLSRDINIPSGIKELGAKEEDFDILATNALKDACGLTNPKQATHEEIKNIFKNAL;locus_tag=LOCUS_06890;gene=yiaY;EC_number=1.1.1.103;note=WP_005482586.1 L-threonine dehydrogenase (Vibrio parahaemolyticus) [pid:72.2%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:4.6e-158],MGA_693
sequence02	MetaGeneAnnotator	CDS	322215	323036	.	+	0	ID=MGA_694;product=AraC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_151652833.1;translation=MLNNFNKIAENYDNVESKYLKILYYDLSKGYKDTYKSYNNYRLCTILSGKKKVSVNNNTSFTYNSSEFLLLPPNSSVNMEINTDTKAVVYEFNSHLIEKISNKVEKKFADIENITKLNLSNNLSYSINNLKINIMRNEKEAKFFMDLYAQELVFQLLNEIPKEKNIQNKYNPAKIAKEIIEKDGNENLSIYEIAKILNMSQSNLDYYFKMEYGITPKKYQNKIKIKKSVNLLLKYSVTETAMILGFDNISHFIRLFKQYYNTTPKQYIKRFGK;locus_tag=LOCUS_06900;note=WP_151652833.1 AraC family transcriptional regulator (Aliivibrio finisterrensis) [pid:28.6%25%2C q_cov:78.0%25%2C s_cov:79.5%25%2C Eval:1.0e-11],MGA_694
sequence02	MetaGeneAnnotator	CDS	323075	324100	.	-	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSEKELKGKFSRLFIFGSIFLSILSIIINLIFKLELIINLKWLIIIFSSLIVLIYDSFLMYFLYFVVIILLFIPIGFIDSGGNLAISISYIYMLLFLITYLFEKKAKCCLISCIFIATSIIINIHLFHSNIFRIYHKNLKSYDTIFQIFLVLIFNCFLLNLFYNIYKKNQILLKKSNEQLTTFAMYDSLTNVYNRRAFDDRLLSLLKSKEHLYDDIWLILIDIDDFKLINDKCGHDEGDRIIKTISNTINTYLGNYSFVARWGGDEFAIITNLPYVKLHRKVDLLFNRVLSLIRNDNEKVTISCGITKLLPEDKINSIFIRADKLLYKAKKLGKNRYIFD;locus_tag=LOCUS_06910;note=WP_164925621.1 diguanylate cyclase (Shewanella oneidensis) [pid:32.4%25%2C q_cov:57.8%25%2C s_cov:42.2%25%2C Eval:4.5e-21%2C partial hit],MGA_695
sequence02	MetaGeneAnnotator	CDS	324246	325223	.	+	0	ID=MGA_696;product=LD-carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896305.1;translation=MNKNINLILFFIIFLQSYSLEMISPPKLNWGDTIMIIAPGTNASIDKLEKIEKNLKTLGFKVKFGKSCFINYGYLAGNDKLRLKDLHSAFLDDEVKAIIALRGGYGSIRLLDMIDYDMIRRHPKIFVGYSDITILHIALNQKAGLITYHGPMAASDFYYGLDKFTHNSFFNTILKGRKKVKIKNPEGEEMKTLVSGQTVGQVVGGNLTMIVATLGTPYEINTKDKIFFIEESGSKLYKIDRMLNQLKLAGKFKDAKGVIFGDFKETHEEDTLFKLKEVLKIAINGKKPIIYNVKIGHSKPKITFPLGAKIYLDSEKKIIKIIDDI;locus_tag=LOCUS_06920;note=WP_009896305.1 LD-carboxypeptidase (Clostridioides difficile) [pid:46.8%25%2C q_cov:85.8%25%2C s_cov:95.8%25%2C Eval:2.8e-65],MGA_696
sequence02	MetaGeneAnnotator	CDS	325224	325934	.	-	0	ID=MGA_697;product=DUF547 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404636.1;translation=MKKTIFFLLLIFSIIANANIIEVNNLYLKILKNHTKVGIKDNVKTRLVDYKNLKTDSDYKKLINLIETFDVSTLKSNNEKKAFWINVYNISAIKIITDNYPIKSIKDKTTLFKSVWDRKVINIKNKSYSLDEIENNILRKMDDPKIHFAIVCASLSCPTLNYKPYYAEKLDAQLEKSKNDFLKNKTKGFVKKKNKIYISKIFKWFQEDFGNINEYLNLPENSNIKYLNYNWSLNDY;locus_tag=LOCUS_06930;note=WP_011404636.1 DUF547 domain-containing protein (Salinibacter ruber) [pid:33.3%25%2C q_cov:79.2%25%2C s_cov:76.4%25%2C Eval:6.7e-22],MGA_697
sequence02	MetaGeneAnnotator	CDS	325997	327343	.	-	0	ID=MGA_698;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965974.1;translation=MNLYNEKIFYHIYPLGFSGAPENNDFYSKPVERLEKIIEWIPHMKYLGINALYLGPIFESVEHGYDTVDYFKIDRRLGTNDSFKKVVNELHANKISVIVDGVFNHVGRNHFAFKDLQHHKKKSKYINWFNGVDFSKKSPYNDPFTYNTWDGHYNLVKLNLKNQEVKEHLFDAVKYWINEFNIDGIRLDAADVLDFTFMKELSELVKNMKKNFWLMGEVVHGDYSKWINDARLDSVTNYECYKGLYSSHNDKNYFEIAHSLKRQFAKGGIYENMSLFSFIDNHDVERISTIIKNKEDLFNLHLLLFSIPGIPSLYYGSEWKIEGKKGSRNDISLRPKLDINYMNSNYETDLINYISKLSQIRKNLNSIKYGSYKEIFVKSEQFAFEREYNNEKTIIILNSSKNNVTINEEKIPKGRYIDVLNNNELLDLQNKKEIKINSFSGRILKKII;locus_tag=LOCUS_06940;note=WP_010965974.1 alpha-amylase family glycosyl hydrolase (Clostridium) [pid:52.2%25%2C q_cov:97.3%25%2C s_cov:95.1%25%2C Eval:8.8e-135],MGA_698
sequence02	MetaGeneAnnotator	CDS	327418	327987	.	-	0	ID=MGA_699;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022892.1;translation=MSKKEELIESALNLFASKGYDNVGVQKIVESVGVQKPTLYYYFKSKEGLLDAILTEKFLPFLNELKKINYNGDIVLTLENIIFKYFDFAKQNSNFYRIILNLTFAPENSQAYNLTAEYLKKEYLILENIFLEAEKQHGNMKGKSKMFSYSFLGIINSAITYYFHTKNKQELNIINAQILCKQFMHGIFS;locus_tag=LOCUS_06950;note=WP_011022892.1 TetR/AcrR family transcriptional regulator (Methanosarcina acetivorans) [pid:26.0%25%2C q_cov:96.8%25%2C s_cov:87.0%25%2C Eval:1.0e-10],MGA_699
sequence02	MetaGeneAnnotator	CDS	328134	328721	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFYDIKDNVIEYEKMMKEYNNDFIISKFKKFINKNTNILEIGSGVGKDFEKLKKEYKIVASDNSKLFVELLVNKYPTDLVLKLDASDLQTDKKFDVVYSNKVLQHLKYEDLKNSFKRQHEILNENGIIFHTFWLGKGSEEYNGLLFNYYNLINLKDFYLNYFELIEYNEYSEEVDGNNISKNDSFYIVLKKIKF;locus_tag=LOCUS_06960;note=MGA_700
sequence02	MetaGeneAnnotator	CDS	328786	329232	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYLNMKCPNCNKKIKLDKKYINNKLNCIYCGKEIILKEIKEITTETYLDEVIRVDKAVILNIYNKNCDNCKKLEETLKEVNNEYKDLKIVKLNAKENMKLVSGFMIRAVPTMILFLNGVQVDMRIGAIDKNALQRWLSMYNLLPSNY;locus_tag=LOCUS_06970;note=WP_011963919.1 thioredoxin (Flavobacteriaceae) [pid:32.2%25%2C q_cov:58.1%25%2C s_cov:87.0%25%2C Eval:6.9e-09%2C partial hit],MGA_701
sequence02	MetaGeneAnnotator	CDS	329264	329566	.	-	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKFLIIIITGAIINILLRAVPMLIPNIKNNKYIESFLGYVPYTALAALLIPDVFSSGKNVLSIIIALIIASIMILKKQNNLIIVFLTIFIVFLFNNYI;locus_tag=LOCUS_06980;note=MGA_702
sequence02	MetaGeneAnnotator	CDS	329556	330281	.	-	0	ID=MGA_703;product=AzlC family ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015943112.1;translation=MQNKEFLKGVKAATPIFLSYFSISITFGLIIKSFNLNGILAILMSMTNFTGATQFISANMLVKNFSIFNIAITTFIINSRYFLMSFCISQKMSKFKFIEKLLFSFGITDEIFVLATTQDKLSKSFLLGAQLYSYFAWVLGTIVGIILADFIPIQIIEAAGISIYIMYLTLLIPKITSNSKYLIAAIISISFSIFFKYTPFINEMIGYFRIILSIILSAIIAAIIIPIEENNYKMEEVINEY;locus_tag=LOCUS_06990;note=WP_015943112.1 AzlC family ABC transporter permease (Desulfitobacterium hafniense) [pid:31.6%25%2C q_cov:79.7%25%2C s_cov:83.4%25%2C Eval:5.7e-24],MGA_703
sequence02	MetaGeneAnnotator	CDS	330468	330671	.	-	0	ID=MGA_704;product=copper ion binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461873.1;translation=MKKEVKIEGMSCGHCVMHVKEALGELKGINNFEVEIGKAVIEGDINDESIKAAIDDAGYDVISITTL;locus_tag=LOCUS_07000;note=WP_011461873.1 copper ion binding protein (Desulfitobacterium hafniense) [pid:60.3%25%2C q_cov:95.5%25%2C s_cov:95.8%25%2C Eval:2.1e-16],MGA_704
sequence02	MetaGeneAnnotator	CDS	330725	333187	.	-	0	ID=MGA_705;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461874.1;translation=MSEKKEYNVIGMTCTACANNIEKRLKKIEGIESANVNFAIEKLNIVFDETKVKQEDIINAVKKGGYNLEEEKKTRNVIIPIEGMTCTACANAIEKRVGKLGGVDNVTVNFATEKAIINYNSDMTRLSDIKSAIKKAGYTPLEIDKTDEIDADKLRKEKEIKILWYKFLTATVFAIPLLYIAMGHMIGLPLLKIINPEINPINFAFIQILLTIPIVIAGNKFYINGFRNLIKREPNMDTLVALGTSAAILYGFYGTFEIMNGKLEFTNNLYFESAGVIVAFILLGKYLETVTKGKTSDAIKKLMGLQPKTALVIKDNEEIEIPIDEVEVGDIIIVKPGEKIPVDGIVVEGHTSVDESMLTGESIPVEKNKGNKVVGASFNKNGTIKFKATKVGKDTVLSQIIRLVEDAQGSKAPIAKMADIISGYFVPIVITIAIVSGLIWYFSGATPVFSLTIFIAVLVIACPCALGLATPTAIMVGTGKGAENGVLFKNGGALELTHKLDTIIFDKTGTITEGKPVVTDIIVTDTYSKEEILSIAASAEKGSEHPLGEAIVKKAEEKNISLKKVDKFIAIPGYGIEVIIENKDIYLGNKKLMIEKDIEIIFEKESNKLATEGKTPMYIAINGKLEGIIAVADTVKPSSKDAIRKLHNLGIKVAMITGDNKKTAEAIAKQVGIDIVLAEVLPQDKANEVKKLQKTGDKVAMVGDGINDAPALAQADVGMAIGSGTDVAMESADVVLMKSDLEDVVTAIELSKATIKNIKQNLFWAFGYNTLGIPVAAGLLYAFGGPKLNPMIAGAAMAFSSVSVVTNALRLKRFKPSHKR;locus_tag=LOCUS_07010;note=WP_011461874.1 heavy metal translocating P-type ATPase (Desulfitobacterium hafniense) [pid:65.5%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:6.0e-303],MGA_705
sequence02	MetaGeneAnnotator	CDS	333751	334218	.	+	0	ID=MGA_706;product=6%2C7-dimethyl-8-ribityllumazine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902111.1;translation=MRIFEGDFNGENIKIGIICARFNEFITSKLLNGAEDALYRHGITKENIDIAWVPGAFEIPLIAKKISKTGKYDAIITLGAVIRGATPHFEYVCAEVSKGVAQVGLESEIPVIFGVLTTNTIEEAIERAGTKAGNKGFEAGMSAIEMVNLIKNLNF;locus_tag=LOCUS_07020;gene=ribE;EC_number=2.5.1.78;note=WP_005902111.1 6%2C7-dimethyl-8-ribityllumazine synthase (Fusobacterium nucleatum) [pid:72.5%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:2.3e-61],MGA_706
sequence02	MetaGeneAnnotator	CDS	334260	335381	.	+	0	ID=MGA_707;product=bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902112.1;translation=MQENKIHEKYMKLALELAKKGEGAVNPNPLVGALVVKNNQIIGKGYHKYFGGPHAEVYALNEAGDNAKGADIYVTLEPCSHYGKTPPCVKKIIEHNIKRCFIAIKDPNPLVSGRGIKLLQKSGIEVKIGILENEGKEINRVFFKYIKEKLPYIHIKIATTLDGKIATKTGDSKWITNEKSRKYVHYLRNKYMGILVGINTVKKDNPNLNVRNDSLKNHRDPFRIILDPSLKIDKKLNIIKNNNDEKTILITQIKNKKEKQDFIEELSNKYKIKFIFLNEEKFKFKDIFKEIYNFGIDSILVEGGGFVLSNLFKEKELIDEGSIFIAPKILGDKDALSFITGFEISKIKNSIQLENVSFKNFDNDICLEFKRGE;locus_tag=LOCUS_07030;gene=ribD;EC_number=1.1.1.193%3B 3.5.4.26;note=WP_005902112.1 bifunctional diaminohydroxyphosphoribosylaminopyrimidine deaminase/5-amino-6-(5-phosphoribosylamino)uracil reductase RibD (Fusobacterium nucleatum) [pid:54.6%25%2C q_cov:97.3%25%2C s_cov:97.8%25%2C Eval:3.1e-111],MGA_707
sequence02	MetaGeneAnnotator	CDS	335374	336006	.	+	0	ID=MGA_708;product=riboflavin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015638.1;translation=MSNIFTGLIEEKGKVITLTKSINGYKIKIRAKKIMENIKKGDSIAVNGVCLTVKKFSLNEFEADVMNETLKRSNLKRLKINDEINLEKSLTLNSYLGGHLVTGDVDCEGKIIKIIKDGFAIKYEIELEKRYLKYIVEKGRITVDGASLTVIDNTNRSFTVSIIPHTQDNIILSNKKIGDYVNIETDLIAKHIENLIKNEEKSIEKLLKKF;locus_tag=LOCUS_07040;gene=ribE;EC_number=2.5.1.9;note=WP_011015638.1 riboflavin synthase (Fusobacterium nucleatum) [pid:60.5%25%2C q_cov:96.2%25%2C s_cov:94.0%25%2C Eval:3.6e-66],MGA_708
sequence02	MetaGeneAnnotator	CDS	336025	337239	.	+	0	ID=MGA_709;product=bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015639.1;translation=MSEYKKTLINKIETALEDLRNGKMIIVSDNEDRENEGDIVLAAEKVTHENINFILKEARGLICVPMTEERALKLGLDIMVKNNTDEHGTNFTISVDSKRTTTGISVEERKRTIKDLSKEELTKEDFKKPGHIFPLIAKKNGLLERKGHTEAAVDLLKLSGLTPVGVICEILKADGTMARREDLIKFSKKHNLTYITIEEILEYIKLKNDLVEEVVSTKLPTKYGDFNITAFSNKIDEKEHIIIHKGEIYNQENILMRIHSECFTGDILGSLKCDCGSQLEKAMKKINEEGRGIIFYLRQEGRNIGLYNKLKAYKLQEEGYDTVEANRKLGFLSDERDYFYVIQVLKKLNISSVKLMTNNPSKINFLERYGIKVTRKNIEIECNEINYSYLKVKKEKMNHILEKI;locus_tag=LOCUS_07050;EC_number=3.5.4.25%3B 4.1.99.12;note=WP_011015639.1 bifunctional 3%2C4-dihydroxy-2-butanone-4-phosphate synthase/GTP cyclohydrolase II (Fusobacterium nucleatum) [pid:57.4%25%2C q_cov:97.8%25%2C s_cov:99.5%25%2C Eval:1.2e-124],MGA_709
sequence02	MetaGeneAnnotator	CDS	337345	337872	.	+	0	ID=MGA_710;product=nitroreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948618.1;translation=MEFLNLLYKRRSIRKYKEEEIKQEELNKIIEAALLSPSSRNKKSWNFMVIRNKEIIEKLALSKERGSELIKESNVIIVVLGDSSISDVWIEDCSIASIIIQLEAENLGIGSCWIQVRNRYHNKEKNITSEEYIKGILKIKEEEVRVESVIALGYKNEYKKEYKKEDLNYEKVKFL;locus_tag=LOCUS_07060;note=WP_011948618.1 nitroreductase family protein (Clostridium botulinum) [pid:45.6%25%2C q_cov:96.6%25%2C s_cov:96.0%25%2C Eval:7.0e-37],MGA_710
sequence02	MetaGeneAnnotator	CDS	337922	339127	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIIISIYVFININIYSKIWNPYIGAFNGHYDLSVGMHVWSDKLDFRNLQLRTTFDILPGFRFNSLIRTNKEFNEIETFEPVFDEIYLERYFFNKFNENRLAFSLKIGNIRYLRFPEPDIISQFDQVPGTEDLRYESAKTGYKGILLTIEYNTKYNIGIHSTYLDNFNIKKEDNFIEKYIYLKKYFKYINFESRYGYMQLRHPVGKIIRGPSPYQLGASGKGYNVYLGSEYKGYRAGIFYENLYDKKYKVNDIRTGILVQFADSKVTQALGSVRFDYTRNPEGFGITIPILHGNIGNIQKDIPKNSKLVGEIYAYRTITYWQNGQGRNFYEHRINYWGDVESKDLIVVMEEKPWYLKIESLVSPHTEIKTKEDIVDWERDRQGPAELRQEVIYKFYKK;locus_tag=LOCUS_07070;note=MGA_711
sequence02	MetaGeneAnnotator	CDS	339186	340373	.	+	0	ID=MGA_712;product=DUF438 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583929.1;translation=MAEVINNSKKRINQLVEFSIEIMEEKEKGKKIYEKYKELIENITPYEVLNLGDQLLERGLEIKYIKENIEKIMNIFHTSLKNYEYEYPSKKNPVFYYFQENIKLEEKLKKIKEESIIKQDIKKLNKYLKEIKDIEKHYIRQENILYPYLENIWSYTNPLKILWSLHDDVKKDIKELIEITEKEKKFTKDLNMRIGNFFFLIYGVIFKENLLIFPEALRTIPNKKWNEILKAELEMEFAFIEKPNIEIENLDISENNGLKEMTFKVETGELSFNQIELIFNNLAIDITFIDKNDEVKYFSNPKDRFFPRSPAIIGRKVQNCHPPESVHVVEKILAAFKSGEKNEADFWINMRGKTILIRYYALRDKENNYIGTIEVSQDITEIKNIKGDKRLLDWE;locus_tag=LOCUS_07080;note=WP_012583929.1 DUF438 domain-containing protein (Dictyoglomus turgidum) [pid:34.9%25%2C q_cov:91.1%25%2C s_cov:91.9%25%2C Eval:4.7e-60],MGA_712
sequence02	MetaGeneAnnotator	CDS	340426	341589	.	+	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRKEILNNIIYINIIYIFFTAYTFTSTIKKDFIKGVDISMLKQLEDNGAKFYDEKGIEKDCIEILKEHGVNWIRIRTWVNPVDKTGNLLGGGNNNKETTIKLAKKIKSKQLKYLLDFHYSDFWSDPGKQYKPKEWENLKGKKLEKKVYEYTKDMILSLKAQNALPDMVQIGNEVNGGMLWPDGKTWKQGKEKIGGYNGFVKLLKAGIKAVKDIDKKIKIMIHLSDGGNNKLYRTVFDELIKRKVEFDIIGISFYPYWHGTFNELTENLSDISKRYKKDVIVVETAYAYTLENGDSLPNIFGKTEERKVGYIASVEGQKQVIKKLMDIIYNVPNNRGKGFFYWGAEWIPIKNSGWKIGEGNAWENQAMFDFNGKALETLNIFKENP;locus_tag=LOCUS_07090;note=WP_012311219.1 glycosyl hydrolase 53 family protein (Thermotoga) [pid:54.0%25%2C q_cov:91.2%25%2C s_cov:57.8%25%2C Eval:3.8e-115%2C partial hit],MGA_713
sequence03	MetaGeneAnnotator	CDS	111	617	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSLNTISKLLNLDIDILKKSLIDKNLKNESFIEIDMRDFFTDKLYFLPSENLYIYFFENSSNRNRSTFILEFFKSMLNINKKYSKINIKFFLLQNNEVLEIKDIFNRLPYSLDRYSPDFEYILKDFEYSTDENLKKEIKLKMFSQMIKFISNDPELIQITKLLLNN;locus_tag=LOCUS_07100;note=MGA_714
sequence03	MetaGeneAnnotator	CDS	1255	1779	.	+	0	ID=MGA_715;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011269343.1;translation=MIQDSYKKAIAYVGKKYVNDKVSCIDANYLTYLSTITMEIFVAFNKEPNFNLEIAIQTALLHDILDNTKTNFNDLKEQFGTHIATTVLAITKDKTIINKEDSIKNNLKRINATFKEATVVKLAELITKLDTKNCDIQKFNEIINESKYFLENLKNKNYFLENRLKELIEKNKEF;locus_tag=LOCUS_07110;note=WP_011269343.1 HD domain-containing protein (Pseudomonas syringae) [pid:31.1%25%2C q_cov:93.1%25%2C s_cov:87.5%25%2C Eval:1.5e-12],MGA_715
sequence03	MetaGeneAnnotator	CDS	1885	2925	.	+	0	ID=MGA_716;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016454.1;translation=MNKFNLLNATYDELEKFLLELGFKKFNAKQIYSWLHNKLVRKIDEMTNISLKNRELLTEKSYIPLFNVLKQQISKIDETEKYLFELEDKNTIETVLLKHKDRYTICISTQVGCPVKCDFCATGMDGFVRNLEVHEILNQVYTLNRRIEKRGFKINNIVFMGMGEPFLNIDNLIKSIKILTDKNGLDFSIRKITVSTSGIVPGIERLMEEKLQIELAISLHSVFNEKRDMIIPINKRYPLEDLIVVLKEYQRMTKRRISFEYIMIKNFNVGRNDMEFLADLMHEFDHILNLIPYNSIEGKDWERPHENKMKSFYEYLKNDRKVNVTFRQEKGADINGACGQLRQKNR;locus_tag=LOCUS_07120;gene=rlmN;EC_number=2.1.1.192;note=WP_011016454.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Fusobacterium nucleatum) [pid:62.3%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:3.6e-130],MGA_716
sequence03	MetaGeneAnnotator	CDS	2930	5125	.	+	0	ID=MGA_717;product=transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898410.1;translation=MKKVNKLTIILSFLIISISTITGAGFFLIYKAYSDLPDISKLIEEYDPIIPTIIYDINGEIIDKFYKENREIAKINEIPLEVQNAFLAIEDKNFRTHYGFEPLRIIKSIIMAPKYILAHRNIPGGSTITQQLVKNAFLTNERRIMRKIKEALIAIEIEKHYTKDEILEKYLNEIYFGEGAYGIKTSAHIFLGKELYELNLAEAALLAGIPNRPAKYSPIRHLDNAIKRKNLILNQMLKFGFITKKQYTNAKKVKFILEDKATEEDKENPYVSIILKNKKSRRGVIAPDFVDFVDNKIFEMFEAKDIYEGGMKIYTTLDLRMQKIAEDVFSNSNIFKKNPDLDGALITIDSNTGYVKAVIGGKNYKSKNFNRAFQALRQPGSSFKPFLYYTALKHNYQMNLVVEDSPLEFGDWKPENYSGTFEGNITILEAMERSRNIPAINLLQKVGIKNLITEARRFGISSKIPYNLTIALGSLSLSPFELAKAYIPFSNGGYKVKPIFITKITNRYGKILFENNIKKEKIVDNTEIAMLVHMMKDVVKNGSGRGARVKYLNPKTNKIEYIDQAGKTGTTNGFRSAWFSGYTPDFVTTLYLGRDNNTPMGRGMTGGGAAAPIWGKYVQRLIDEGIYTPTKFEFLENLVKEKELKYIDIDSRNGLLSDGSSYRIRTALFKKGYEPVEYSNKYKNGLDEFFPKSLDNNFNSKNPNNNSELNNEKNSNDESIDTVINNLNIFN;locus_tag=LOCUS_07130;note=WP_005898410.1 transglycosylase domain-containing protein (Fusobacterium nucleatum) [pid:42.4%25%2C q_cov:91.2%25%2C s_cov:87.0%25%2C Eval:7.9e-142],MGA_717
sequence03	MetaGeneAnnotator	CDS	5331	7913	.	-	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFNKFFLMLSLLLFLISCNKDLSPLSNDKLELNLNNNNSEYTSTPAANLITEAIKNELGVDIVFYPESNLKNISLNLNLDLTKTDINERLINKTSNDIKSLYDTTTNKDLICISYMSGSKIKDFIKERTLKNNAIDIHTNGIEYDITIKGGEVQNYNISRNGRTFDLDKQYKVAFIYYEYDYKSSFPGYYYGNKFNYLKVQKTEKKASELVINYLKKSNKYNFLNKINSKVKVIDSTTSDKNKIIPIYSIQGEKYKSDLIGINLKTRGIITAYTADSYNNNYGFYMQDKYGDNNNYTSDAIYVKLDKTTYNKYSLIIKVGNLVEVEGKVEETNTGTGLTRTSLTSVNKIILREKDVALPSPVELGEGSDRIIPNRHISTYKGNVNQSLKLNLNDGIGFWESLEGMLVKVKKPIVTGAKGGKNDALESKGYFNLYVRANNTSNDYQVTPSNGLIIDVEKNDYNPEILRLVNHVYYNKDGVKPGDASSFKNGIFNVGDELEDITGILAFNVNTFGDGEYDLLFNDYITAKNPRTSYTPLSDRPKATLVGDANHLTIATFNVENMYATHEKIPYIAEIIAQNMKSPDIIVFTEIQDNNGPDNYGEDGSPVVDADQTLTNLINNIESKGGATDYKYININPLAYLEGGEPGGNIRVAAIYRDTRVEFNKRGNAGSLDHAGLDKNGDLLLNPGRIYPQEPIFKGTRRSLAMEFYFKNNKILVFGNHLNSKGGDDPLWGAKQPVVLSSEAKRIKLAKIIHRFVQEVLSKDENKNIVVLGDFNEFYAANPIKVLKGNILTNLIETLPFNKRYSYNFQGNAQAIDHILISKNLKNHSPEIEILPINTDYMGQYSDHNPVISRYEFK;locus_tag=LOCUS_07140;note=WP_164928531.1 endonuclease/exonuclease/phosphatase family protein (Gloeobacter violaceus) [pid:33.3%25%2C q_cov:72.1%25%2C s_cov:60.0%25%2C Eval:2.5e-73%2C partial hit],MGA_718
sequence03	MetaGeneAnnotator	CDS	7996	9387	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSLNIIFIISILLLIISCNKDLTVTPIDKNVDSIELNLIDNAYNENESLISDIENGNLASNLNETDKREVLTYLKDISKYYRQIIINKKVEVDLLNEIANKQTLAQSKFNSSSTEYTKLNTIITYTSNAKKEIEPPIITLTEVNTGFSDTLGSDDFTQTGWLTEITKGNINWSYNSKYTAPSISAYKSSDAENETYLISPVLNVTAKSYVTLNIQADYYKHSGLSVLISEDFNGYVSKANWTDITNSIQLPSTRETVDTTIDLDNYLGKKIVIAFKYNGNANNSETTTYAIKNFKFIKKPITITLNSNYTESLGDDNFTCRGWYSIITKGTRAWEGNAKYKNTSISAYNSSDAENESYLISPIFDVTVKSYVTLKIQAAYYKHSGLSVLISEDFNGDISKANWTDITSSIQLPTNSETVDTTIDLDNYLGKKIVIAFKYNGNATNNETTTYRLSDFNINLK;locus_tag=LOCUS_07150;note=MGA_719
sequence03	MetaGeneAnnotator	CDS	9400	10128	.	-	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNILLIILSMFIISCSSLDNKSIETKNSKNKFDKKDKLALLWAQKSGEKIALNYQIINNILNKVDNNINKVYIELEDGVFDNTPYIAWLMTTGKENNYKNYKRWLKSGDMELNIGIDELLTKLSKKDINVVFVTNLDKEFSLLLNKNLKRYMLNNYKIISKEKMNLGDEKSIFISSNLDFYTSKDINNLKVLIKEENLIKQKIGKKYFIFANPVYSNYLDLNNAKLNNWEGSKETLILNY;locus_tag=LOCUS_07160;note=MGA_720
sequence03	MetaGeneAnnotator	CDS	10138	10959	.	-	0	ID=MGA_721;product=lipoprotein e(P4);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061724415.1;translation=MYKSIYKLIIINLIVFSISFSKDFTERDLEMESYKAVSWMQNSSEYKLLCNQAFNIAKDNLNKIKKENKGKMAVIVDLDETMLDNTPYAAWRIYSGNGFSSDTWSEWVAAKEAKAIPGAVEFSKYVKKLGMDIIYISNRSEKELKDTMLNMKKLGFSQVDKNHIFLKTTSSDKTSRREYIEKLGYNIVMLIGDQLSDFSNIFYNVSNETRNSLVIKNKNMFGNNWIVIPNPSYGDFESKGISNEFYVKITGESTSNYEKSKLREYSLNIWDGE;locus_tag=LOCUS_07170;gene=hel;note=WP_061724415.1 lipoprotein e(P4) (Haemophilus influenzae) [pid:37.4%25%2C q_cov:92.7%25%2C s_cov:90.1%25%2C Eval:1.3e-46],MGA_721
sequence03	MetaGeneAnnotator	CDS	10976	12232	.	-	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALLAVSNYSLSQTYATTNLSYNNRFLTSDNYYEKDGGIDLKIEFNDLELKFSSDIKNNKSEYDSSLSMIFQKDIDKKSSVSIESKLNTENGMQFYVDTNSNSTYISHKINNKSTLTFYPFNFKNNIGNEIESLDVTSVNYFNERYTVINGTTNLPEITTKSLPGITFNYKLDEVKDITFGIGAIQYDSPVDFDVENSTMPTIWQKRIDVGYLASFNYDNEISKFKISYISHNDSEKSHSILKSAISIEMEKYFNNFIFYVEGLYNENGKSPYYISDGSFAQKVPYEPLYKQSWVDKKDYGFMTKLSYEMKNNTPYLKYAYYGENLIYDGENSAHILRTLSNSSNYFNTSDSHGGLQVITVGNKYTYKNVSIEPYYEYKKAKNNVFSTQDDLTAKEDERVNDLTDKLSSYGIKINVNF;locus_tag=LOCUS_07180;note=MGA_722
sequence03	MetaGeneAnnotator	CDS	12573	13241	.	+	0	ID=MGA_723;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431597.1;translation=MREINSKLNIIGYVNDFKIRDLFENFDLSKFSLFEFKKNERIIESNEIIKYFYFLVEGKIDIIYNTVTDRELIIDKLEPLSIIGDVELRKSYISKFDVIAREDCFLLGINYNIAKKYFEIDCKFNKFIYESTCKKLEKSVDIFMLASCYDLNRRFATYLIDNSNNDGEVKYKSISNLADQLLASSRQLTRVLHSLETSNIIEKNNKTIKILNIEKLSELSID;locus_tag=LOCUS_07190;note=WP_000431597.1 Crp/Fnr family transcriptional regulator (Bacillus) [pid:26.3%25%2C q_cov:95.0%25%2C s_cov:93.9%25%2C Eval:1.2e-14],MGA_723
sequence03	MetaGeneAnnotator	CDS	13434	14546	.	-	0	ID=MGA_724;product=phosphoserine transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022283.1;translation=MKPKLKPNNTHFSSGPCSKFKGYRLNLLSNAPLGRSHRSKIGKAKLQESIEKTKKILQIPDDYRVGIVPASDTGAIEMALWNVLGERGVEVIAFDAFGREWANDIKAELKLSNVTYHFADYGHLPDLSNVDCDNDIVFTWNGTTSGVKVPNADWIDKNRKGLTICDATSAVFAMEIPWEKLDIITFSWQKVLGGEGAHGMLILSPRAVKRIENYTPDRALPKIFRLKKNGKLIEGIFKGSTINTPSMLCNEDYLVALNWIESIGGIYSAIKKSEENLSVIEKFVEENDFISFLPISKEIRSNTSVCLKLDLESEKIDKLLQLLLENNIAYDIASYRDSPKGIRIWCGATIEKDDLEILCEWIKWAYKKVK;locus_tag=LOCUS_07200;EC_number=2.6.1.52;note=WP_011022283.1 phosphoserine transaminase (Methanosarcina acetivorans) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-139],MGA_724
sequence03	MetaGeneAnnotator	CDS	14941	15510	.	+	0	ID=MGA_725;product=YiiX/YebB-like N1pC/P60 family cysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015783.1;translation=MKKKLKIIFLIINIFLFQGCKVISKNIQWQNIETIRKNKQELETGDILILSKKIGTYTWLGHSAIYLKEYDVVAEYPQIFHGFYYVKLNDWLNAVSDRKIKILRYKEINKKFKNKIFEVIENNKNKRYKVVLNKKNNNGFYCSQWVWYIFYKTGIEFNKNIDLDSDGGPIVYPYDFLYSNKLYKVHIGK;locus_tag=LOCUS_07210;note=WP_011015783.1 YiiX/YebB-like N1pC/P60 family cysteine hydrolase (Fusobacterium nucleatum) [pid:35.6%25%2C q_cov:89.9%25%2C s_cov:92.1%25%2C Eval:1.1e-25],MGA_725
sequence03	MetaGeneAnnotator	CDS	15553	15747	.	+	0	ID=MGA_726;product=DUF4250 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001046693.1;translation=MELKNFKTMDINILFSIINMKLRDEFDSLEELVKYYDIDQKELEDKLNEAGYHYESNHNHFTKV;locus_tag=LOCUS_07220;note=WP_001046693.1 DUF4250 domain-containing protein (Vibrio) [pid:56.4%25%2C q_cov:84.4%25%2C s_cov:87.3%25%2C Eval:3.4e-09],MGA_726
sequence03	MetaGeneAnnotator	CDS	15774	16295	.	-	0	ID=MGA_727;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016625.1;translation=MENKFPFKFLKFKLMNHPTTNHPLEYIEKHKAVCALLLNNNESKTLLVNQFRPGANNNIYEIPAGLIDPGEEADTAVYREILEETGYEKESLELLYKSNTPLLVSPGYTTESLYFYIFKLNKENITPKPLSLDESEDLITSWHKLDNDFFANKTDLKSYFAYLLYLSLKNKEL;locus_tag=LOCUS_07230;note=WP_011016625.1 NUDIX hydrolase (Fusobacterium nucleatum) [pid:48.4%25%2C q_cov:93.1%25%2C s_cov:93.6%25%2C Eval:1.1e-37],MGA_727
sequence03	MetaGeneAnnotator	CDS	16318	17232	.	-	0	ID=MGA_728;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013531457.1;translation=MYKVILYFIISLTILASTFPKDLDIYLKEKESIYDDIIKNTEKKIFWYKEHNKKTKYSIVYLHGFSATRQEVYPLANEIAKDLKANLFYTRYTGHGRPGKYLGEAKKEDWKNDTTEAIEIGKEIGEKVIVISTSTGGTLVTWYAMESIKKNKDLDNIVYILISPNYKIKDKNSILLEIPIIRYLIVNFFIKEQSWQGHSDEENRYWTTRYPSKVLIEMSDLVKEVRNFNFNKLKQPFFIIHSNNDDVVNTDIIDKKYNELGSKNKKLLIIPVKDYGKHVLAGDIMAPNNTVYLKNEIIKYLKNL;locus_tag=LOCUS_07240;note=WP_013531457.1 alpha/beta hydrolase (Mesorhizobium) [pid:34.6%25%2C q_cov:92.4%25%2C s_cov:86.1%25%2C Eval:5.9e-38],MGA_728
sequence03	MetaGeneAnnotator	CDS	17255	18091	.	-	0	ID=MGA_729;product=LacI family transcriptional regulator CcpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009888871.1;translation=MSSEKLIGVILPRIGADIFSRIIEGITQELKKYGYNIVLANTKEKEEEELKYLDIFQKENISGIIFFPFSITENHIKTLNNMKKPVVVLGREASKIRTSYVTYDDYFSAKEVVEYLISKGHKKIAYIGVSGNMSVQNLRRDGYIDALLENNLSVKNRYQVIGKFDVKSGYTAMKKILALEEKPTAVFAALDSLAFGAMRAIYEAGYKVPEDFSIVGIDDMETSSYYIPSLTSIKYNYKFSGESAAKLIIEKIENKNTMNKKIVISYELKERESVKDIN;locus_tag=LOCUS_07250;gene=ccpA;note=WP_009888871.1 LacI family transcriptional regulator CcpA (Clostridioides difficile) [pid:32.2%25%2C q_cov:97.8%25%2C s_cov:80.8%25%2C Eval:5.1e-38],MGA_729
sequence03	MetaGeneAnnotator	CDS	18213	18389	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREINPKDITLFKRSFTLATIIMLVALFFNFILKWIIPTLVLSIIIFLILKYITKLNI;locus_tag=LOCUS_07260;note=MGA_730
sequence03	MetaGeneAnnotator	CDS	18421	20220	.	+	0	ID=MGA_731;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903691.1;translation=MSINKTDIQYNWNVNDIYSNWEEWQKDFDKIVTLMDEISQLKGSIKDATSLIKILDLNEKLSILSYKIYRYPQLQRDINSKDDFLNKKFQEVGILFSKFSVATSWLTPEMLTIPQDTMKKWIEENPEKLEKHRFSLMNMYRLQKHVLDEEKEKLLSYYSQFRNTPQDIYTALSVTDIEFPIIKLSDNSEIKLTRGKYNKILNTNRNREDRKKSYENFNKIFLKNKNTYAAIYKSILLRGVASAKSRNYNSTLEGALEGNNIPVAVYETLINSVKENTKPLKKYRELRKKALKIDDYRPWDSYISLVDYDNKYDYEKAKELVLKSLYSMDSEYIKKAKKALNNRWIDVYEKEGKRSGAYSAGTYGVHPYMLLNYNGTLDSVFTLAHELGHTMHTLLSDENQPFATHNYTIFVAEVASTYNEKLLLEYMLKTSDDPKEKIALLEQAINNIVGTFFTQVMFADFEYQAHKLAENNTPITAEILDNIVENLLNNYYGEDRYKDEYSNIFWTRIPHFYNSPYYVYQYATCFASSSKIYNNIKSNPKNLDTYIELLKSGGNDFPIEQLKKSGVDLTKKETILKVINELDELVDELEKVLKENNMI;locus_tag=LOCUS_07270;gene=pepF;note=WP_005903691.1 oligoendopeptidase F (Fusobacterium nucleatum) [pid:51.0%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:2.9e-179],MGA_731
sequence03	MetaGeneAnnotator	CDS	20252	21898	.	-	0	ID=MGA_732;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817202.1;translation=MRIIIIGSVAAGTSVAAKARRNNIENEIVIYEKDKDISYSSCGLPYYIGENYISRENITPRDKKWFKKRFNIDIFVEHEVIEIDYNNKEVTVKNLNTNKIIIDKFDKLVFSTGSKTKILNIKGIEKVKQFYLKNVNDADKIKKYIEDNNVKKALIIGSGFIGLELLDNLAKKNIKTTIIEIKNHLMPYLDKDVSIYIEKYLDSKNINYILNDSIKEFLSDKKAITKNNKNLEFDMVIFATGIIPNVELAKRIGIELGKHNGILVNDYTETNLKNVYAVGDCCEHKFRLTGDYIYRPLGSTANKMGRIAGENITGIKREFKGILGTGIFKIFDLAIGYTGITEREARKLGYDIEIIHNIKEDKSKYLKESKEIIIKAIADKKTQKLLGVQIIGEAGVDKRLDVFATLITYRVSVGDFFNLDLAYAPPFATTKDPVLYTGMILDNAINRGRKIITPNVLIENRDKYKVIDVRSKKDFDKGHIEGAYHTPLADLESKLNEFNKDDNIVVHCNKGVTGNAAQNLLINHGFKNVYNLSGGYKNYKIQKEYLYK;locus_tag=LOCUS_07280;note=WP_005817202.1 FAD-dependent oxidoreductase (Desulfitobacterium hafniense) [pid:36.8%25%2C q_cov:98.7%25%2C s_cov:93.1%25%2C Eval:1.1e-100],MGA_732
sequence03	MetaGeneAnnotator	CDS	22095	22427	.	-	0	ID=MGA_733;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890787.1;translation=MKIIEIMKVLGDENRLRILNLLYNSDLLCVCDIEEVLKLSQSNTSRHLNKLKILNLINSEKKAQWVYYNINRKKLEKYTFIGEILKNLNDEIFKKDVRNLKIYLKNKKKC;locus_tag=LOCUS_07290;note=WP_010890787.1 metalloregulator ArsR/SmtB family transcription factor (Clostridium) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:82.2%25%2C Eval:2.4e-20],MGA_733
sequence03	MetaGeneAnnotator	CDS	22735	25170	.	+	0	ID=MGA_734;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082399.1;translation=MKFGYFDDLNKEYVITTPKTPYPWINYLGTEDYFGIISNTAGGYSFYKDAKLRRILRYRYNNIPIDNGGRYFYINEKGNVWSPTYMPIKKELDKYECRHGMGYTKITGELNQLESNITYFVPLKESCEIYKVTLKNNSTQKKSFSIFSYLEFCLWDAQDDMTNFQRNLNTGEVEIEDSVIYHKTEYRERRNHYAFYSVNSKIDGFDSDRDSFLGLYNGLNEASVPLQGKANNSIASGWHPIASHQLNVELDSKEEKTFIFILGYVENNKDDKWESLNVINKTKAKLLINKYSTKEYVDNALKDLKNYWNNLLGIYNLEHDDEKLTRMVNIWNAYQCMVTFNLSRSASYFESGIGRGMGFRDSNQDILGFVHQIPNRARERLIDLANTQFRDGSTYHQYQPLNKKGNAEIGGNFKDDPLWLILSVTAYIKETGDFEFLNEETIFGSDPNEKGTMFEHLTASFNHVLNNLGPHKLPLIGRADWNDCLNLNCFSEEPGESFQTFGSGEGKIAESLFIAGQFVLSGKEYIELCKEIGNFKEAERAQKHIDDMINAVKEYGWDGEWYLRAYDAFGNKIGSNENEEGKIFIESQGFCGMAGIGKDEGLVKKSLDSVKKYLDTYYGIVLNQPAFTKYDKNLGEITSYPPGYKENAGIFCHNNPWIACAETVIGRGERAFEIWRKISPAYLEDISEIHKTEPYVYAQMITGKDAVHHGQAKNSWLTGTASWNFITITQYILGIKPHYKGLMIDPCIPKSWKKYKITRIFRDIKYNIEILNPNGVEKGVKEVYINNKQISDNIIPVYDDRSEINVKVIMG;locus_tag=LOCUS_07300;note=WP_004082399.1 glycosyl transferase (Thermotoga maritima) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_734
sequence03	MetaGeneAnnotator	CDS	25308	26243	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256034.1;translation=MEIKYYEINYKNFGNCLKINNDFIELIVSLDFGPRILSYKLLNFDNIFYEDIDRELTFSFDNFSKFNLNKNEKWTLYGGHRLWIAPESSPHTYYPDNIKISYEVKDNIFSFIEPIENYLNIQKIIEIEIIDSKVNLNHKIYNYNAFEIKLTPWTISAMKGGGMSLVPLPKKNTTPLENTLIKFWPYNDFNDERFKFVNDFAILEQNHKINSAFKYSINNESGQAFYFIDNFVFLKQCNPSKDNLITNYESYTNKDFLEMEFIGKTEYIPSDSYILFKETWNLFTIKNFLKQNFVDIKKFKEALKFGFEHML;locus_tag=LOCUS_07310;note=WP_012256034.1 hypothetical protein (Chloroflexus aurantiacus) [pid:26.6%25%2C q_cov:88.7%25%2C s_cov:93.5%25%2C Eval:1.2e-17],MGA_735
sequence03	MetaGeneAnnotator	CDS	26275	28551	.	+	0	ID=MGA_736;product=glycoside hydrolase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_024834592.1;translation=MKKFTLIILNLFIFISYTSLFAQNNFIIVKKETFDEKIISSKNLIKNYDFEQNIDSDGNSTLSENQWSLTSNAGNTGGKANIEINNKIAHINISDGGKEVYSVQLIQTPILLKQSYVYSIEFNAKADKSTSIFIKMGSRENRNWADYTNGNGHGIPIELTTNFKRYIIQFTMEKPSDNQARLEFQLGKEGNRNIYLSDITLNIIGRKNMKIKNIPQKLVEIPAKKIHINQIGYLPYDKKLVIINSKEIINKFNLVNSDNAEIVYSNKLKEKGFDNATGDYIFYGDFSDYTNSGNYYINIPNFDNSFSFKIDENIYLDLKFALEKMLYFQRASITLDEKYANKWARKKSYTEKAKLLNKNIYLDVSGGWFDAGDYGRYVVPASTTIGHLLLAYKFFPEKFTDNTNIPESNNGIPDILDECKYALEWLLKMQSENGGVYHKVTTSNFVSMIMPDKNNKELILSPISATATANFVAVTAMASRIYNFDKKFSNKLLQASLKSWKWLENNPNVPGFKNPSSISTGEYGDNNDLDERFWAAVELYSTTKQEKYHIYIKNIIQDIHNLSSFGWEDVGGFASTTYLMLDPKYQSNTIKNIISDKFINKTNTLINISKNEGYKITLNKNEYAWGSNMKVMTDAMLLIITNTLIKNNSKYIETAKFNLDYLLGLNSLDKSFITGFGSRPVINPHHRPSIADEIPEPIPGMVSGGPNSRFQDDTIKNNLSKDTPFAKCYVDLEGSYSTNEITTYWNSPAIFVVNYFIK;locus_tag=LOCUS_07320;note=WP_024834592.1 glycoside hydrolase family 9 protein (Ruminiclostridium josui) [pid:28.2%25%2C q_cov:94.7%25%2C s_cov:88.0%25%2C Eval:1.4e-77],MGA_736
sequence03	MetaGeneAnnotator	CDS	28580	30646	.	-	0	ID=MGA_737;product=glycine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016119.1;translation=MEILLEIGMEEIPARFLKDTLKNIENYIKKEFKDKRIKYSNLKTYGTPRRLILNINEVSLKQDDFTETNIGPSKKVAFDDAGEPTKACLGFVKSQGIDVKDLEIIDTEKGEYIGVKKHIAGVETKELIPNILKECILNINFKKSMKWGTKKLRFARPIRWILAMMNDELINFEIEGIKTELKSFGHRFFGSEFKVESIEDYFKKIKENNVIIDIEERKNKIVESIKSKCTKIGEKVLLDEELLDEVTNLVEYPYPIVGRFNSEFLEVPQEVLIITMQVHQRYFPILDENGKLLPKFVVIRNGIEDSENVKKGNEKVIGARLSDARFFFNEDLKRTLDSFVEDLKNVVYQKDLGTIYEKVERNKELAKYLLEKLDIKEIEENILRTVHLSKADLVSNMIGEKEYTKLQGFMGKVYAEKAGEDKEVALGIEEHYYPRYQGDKLPTTLEGALTGIVDKIDTLVGCFGVGLIPTGSKDPYALRRATLGIINVILNSKLNINLLDLVNKSLDIYEKKNILKSTREEVLIKVKEFIKQRIINVFTDLKYSKDFVNAIVEVDFKNIIEIESKLKALVTISKNDNFDDIINLVKRIENIAKNYQNTEVKEELLIEEKEKELYNYTEKIKIDVKENLESTDYNNYFDIILNSKGIINEFFNNVMVMEKDENIKNNRLALLKSIYNEFSKVADLKYIE;locus_tag=LOCUS_07330;gene=glyS;EC_number=6.1.1.14;note=WP_011016119.1 glycine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.9e-207],MGA_737
sequence03	MetaGeneAnnotator	CDS	30664	31533	.	-	0	ID=MGA_738;product=glycine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903526.1;translation=MTFQEMILALQKYWNSQGCAISNPYDIETGAGTFNPNTFLMSLGPEPWNIAYVEPSRRPKDGRYGENPNRVYQHHQFQLIMKPSPDNIQELYLKSLEALGIDIKNHDIRFVEDDWESPTLGAWGLGWEVWLDGMEITQFTYFQQVGGLELDIIPVEITYGLERLALYIQGKDNVYDLDWTEGVKYGDMRFQSEYEFSKYSFEIADLESHFKWYDMYEKEALRALEHGLVYPAYDYVLKCSHIFNVLDSRGAISVTERQSYILRVRDLAKKCAEIFVKNREELGYPLLKK;locus_tag=LOCUS_07340;gene=glyQ;EC_number=6.1.1.14;note=WP_005903526.1 glycine--tRNA ligase subunit alpha (Fusobacterium nucleatum) [pid:80.6%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.3e-144],MGA_738
sequence03	MetaGeneAnnotator	CDS	31530	31997	.	-	0	ID=MGA_739;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895436.1;translation=MYSIVLVLILLIVDQISKYIVAKNLDVSQSIPIIKDFFHITYVQNRGIAFGMFQGRLNIVTIISLFAAIFIFYYIFKNREKLSKLSLYSYLFIFSGALGNILDRLMRQYVVDFIDFRGIWEYIFNFADVYINIGVILMVIEYILEEKKKRQEESK;locus_tag=LOCUS_07350;gene=lspA;EC_number=3.4.23.36;note=WP_005895436.1 signal peptidase II (Fusobacterium) [pid:52.4%25%2C q_cov:92.3%25%2C s_cov:94.1%25%2C Eval:7.7e-41],MGA_739
sequence03	MetaGeneAnnotator	CDS	32059	34851	.	-	0	ID=MGA_740;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903528.1;translation=MQEKEIFDYGSTLNLPKTKFKMKANLPNKEPEYIKYWNENKIYDKSLEEKDKTFILHDGPPYANGNIHIGHALNKVLKDIILKYKRARGYYAPYIPGWDTHGLPIELKVTEELGEKAKDMSPLQIRRECTKYAKKWVKTQKESFVRLGILGEWENPYLTLNPEYEAKQLEVFKELYKNGYIFKGLKPIYWSPTTQTALAEAEIEYKDVVSPTVYVKMQVNKDFLDKIGVEEAAVVIWTTTPWTLPANMAICLNAEFDYGVYKTEKGNIILATGLADRAFSEMKLENVELIKTFKGIELEKLTYTHPFLDRTGMIILGDHVTLEAGTGCVHTAPGHGQDDYVVGTRYGIEVICPVDNNGHLTAEAGEKLAGLFYKKANKVIIEMLTESEHLLHTNEIKHSYPHDWRSKKPVIFRATEQWFVKVEGSDIRENALKALENVEFVPGWGRNRITSMIENRPDWCISRQRVWGVPIPMFYNNQTGEEIFIEEIVDRVIELVKKQGSEAWVKYSAKELIGEELIKKYNLKDVDLRKETNIMDVWFDSGVSHRGVLETREGLSRPADLYLEGSDQHRGWFQTSLLTSIGSTKDAPYKKLLTHGFVNDGQGKKMSKSLGNVILPEEVIKEYGADILRLWCASVDYREDVKISKNILKQITESYRRIRNTARYILGNIADFDPVKDRVNYDDLLEIDKWALHKLEVLKKNVTENYDKFEFYNLFHEIHYFAGIDMSAFYLDIIKDRLYTEKIDSISRKAAQTVMYEILMALVKMISPVLSFTAEEIWRNIPENVKDTESVILSSWFELNENYINNELEEKWDKIIKLRQEVNKELEKARQDKVIGHSLNAHVMLFSNSPEYKEFLEKVYPMLEEIFIVSKVTLEDIIDKNENSEIEGLFINIKHADGEKCERCWKFSTELGTHKEHPNICPRCTEVLTK;locus_tag=LOCUS_07360;gene=ileS;EC_number=6.1.1.5;note=WP_005903528.1 isoleucine--tRNA ligase (Fusobacterium nucleatum) [pid:67.8%25%2C q_cov:99.8%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_740
sequence03	MetaGeneAnnotator	CDS	34852	37284	.	-	0	ID=MGA_741;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367423.1;translation=MKIKSDSLLLKAIYYNDIAIFLTTIIMLFVLGFYIFNDINNQVPEALKISASNIKISYNMLVNERKNSLYKIVISNELKERVEKIDKTMAIFLNTPAAQYYQYFTNKQLLRTYTDALIKDFHKELIEKNESDYYFNDAISFVKKNGEIIAESLGNSSVKYSLEFSKKIKKELEKINISGYFIEETLNDKLLRVIYKYDIDRYLVVTTILDSEFISYLKKYSGLVEDLKLFLINGTKYLIGELGKEKFDIIDDIDQKELIKNTCILRKKKIAEKYYNLAICNLELGNSTPLLVGIALTRMDIIKLKWSYYLVAFLTLVIVLLLASTIFGYLYYKLFTPLIQLSEISDEISNGNLDVKFKVKGIGEIRSLIVSLKKMIKTIKLNQKDLEIQNEKLKEHLMKLNILEKLLINIRLEVDIDKAIYYILSAATSEIGLNFARGIYFEYSEEKDSLIGKLSSTNIKIIDESNELYKYSSGLKLQTESLDKIIKLISIKYEEDTILKESIESNKIIYYNERGFNFNFGNELLIGLGINNFIILPIRNNEKVYGCILLDNSSTNRIIEKDDYELINLLKINLSIFLDNKDLEKNKIQQEKKLTIDRLSRKILLEIQEPLKESSDILIKHFRDKEKINEEDLNKLEERITQIATISSILYDYSEDKLYLKEKIDINLVINNVLEQLNHIVKNKNIFISKLINHKGFIFANRYKLEKVFFNIFRNSIEAIGDNDGRINIITRNIAKMVEIRIIDNGIGIKKEDIKSIFEPFVSINKSSSGLGLTIAKKILDEHNADIKIKSLYKEGTDIKIIFNIYEEEK;locus_tag=LOCUS_07370;note=WP_147367423.1 HAMP domain-containing sensor histidine kinase (Fusobacterium canifelinum) [pid:28.9%25%2C q_cov:99.9%25%2C s_cov:99.6%25%2C Eval:1.6e-87],MGA_741
sequence03	MetaGeneAnnotator	CDS	37288	39438	.	-	0	ID=MGA_742;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895431.1;translation=MLDLIKIVSEELNLKKHQVENTVKLLDEGSTVPFIARYRKEVTSNLNEEEIRDISERINYLRNLEARKKDVIKLIEEQGKLTEELKTNILKAEKLQQVEDLYLPYKKKRKTKADIAKEYGLEPFAEFILKAKNIDEIKIEAEKYINENVNNIEEAIENAKLILAQNISENIAVREDIRERMLKFGIIESKLIEKNKKIDEKNVYQDYYEHSEYVNNIASHRVLALNRGEKEKILKVSININDKTKEFIIIKILNNLNKNIEELSRQIIEDSLSRLVFPSIEREVRNILTEKAEIDSIKVFKENLKNLLLQPPLKEKNVLGLDPGYRTGCKVVVIDKYGLYKTNDVIYVAMPGDNIEKAKEKIKKLIDKYDIDIIAIGNGTASRETEEFVANTLKEVKKDVYYLIVNEAGASVYSASKLAIEEFPDLDVTARGAISIARRIQDPLAELVKIEPKSIGVGMYQHDLNQKKLDESLKEVIESVVNNVGANLNTASWALLSYISGINKNVAKNIVAYREENGKFKNRKELIKVKGLGNKAYTLAAGFVVIDDGDNPLDNTIIHPESYHIAEEILKEIGFEKSDLIKNRNEIIEKLEKLDIDKFILEKEYGKETTLDIYNALLKERRDPRESIPKPILKSDILKIEDLKEGMILEGTVRNVVNFGAFIDIGLKNDALLHISEFDNRIEDINSMLSVGDIIKVKIKSVDMARKRVSLSKKGI;locus_tag=LOCUS_07380;note=WP_005895431.1 Tex family protein (Fusobacterium nucleatum) [pid:62.7%25%2C q_cov:99.9%25%2C s_cov:99.7%25%2C Eval:8.3e-245],MGA_742
sequence03	MetaGeneAnnotator	CDS	39503	40021	.	-	0	ID=MGA_743;product=transcription repressor NadR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947901.1;translation=MVEGKIRRKEIIRLLTESKTAIKGSEFATRFGVSRQVIVQDMAILRAKGIELIASPKGYMLKKDNNKLIKKLITKHITIEEMKKELEIILKYNAIIIDVIVEHEIYGEITGNLHISNNEELNNFIKKISNKNVEPLSKLTNGIHLHTIEIDSIENFNKILDELRENNLLYTY;locus_tag=LOCUS_07390;note=WP_011947901.1 transcription repressor NadR (Clostridium botulinum) [pid:46.6%25%2C q_cov:94.8%25%2C s_cov:94.2%25%2C Eval:8.3e-35],MGA_743
sequence03	MetaGeneAnnotator	CDS	40131	41030	.	-	0	ID=MGA_744;product=UTP--glucose-1-phosphate uridylyltransferase GalU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899251.1;translation=MRKVRKAVIPAAGLGTRVLPATKSQPKEMLPIVDKPAIQYIVEELVQSGITDITIVTGRNKRALEDHFDYSVELEYQLEKKGKYELLKQVREISEMANIYYIRQKEPLGLGHAILTAKKHIGDEPFAVVLGDDIVYGDTPVIKQMLEIRERYHGGNIIGVQEVPMEQVSSYGIVKPSAKFDDRTYKIEDFIEKPSKDEAPSNLACLGRYILEPSIFDYLEKTETGKGGEIQLTDAILKSIQYGDKVLSYNFIGNRYDTGNKLGILKANIEIGLKHPEIKKELKSYLLELVEKLEKNEGK;locus_tag=LOCUS_07400;gene=galU;EC_number=2.7.7.9;note=WP_005899251.1 UTP--glucose-1-phosphate uridylyltransferase GalU (Fusobacterium nucleatum) [pid:64.9%25%2C q_cov:92.0%25%2C s_cov:93.5%25%2C Eval:1.3e-95],MGA_744
sequence03	MetaGeneAnnotator	CDS	41051	42973	.	-	0	ID=MGA_745;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017027.1;translation=MDKKNFYVTTPIYYVNGDPHVGSAYTTIASDVIARYNKIKNKDVYFLTGSDEHGQKVEEKAKEMGFTPKEWVDKMAPRFQKLWEKLNISNNDFIRTTEARHMKAVKKILKKVYDKGDIYKGEYEGKYCVSCETFVPENQVINENHCPDCGKELRIVKEESYFFKMSKYQDKLLEHIEENKEFILPETRRNEVISFIKQGLQDLSISRNTFKWGIPLEIDENHVVYVWFDALTNYLTAVGYENNPEMYDKFWNNGEVVHIIGKDILRFHAIIWPCMLLSAGEKLPDKVVAHGWWTVNGEKMSKSKGNVVDPVKEIEKYGVDAFRYFLLKEVHFGNDGDYSDKAMVNRVNADLANDLGNLLNRTLGMSKKYFDSKVLQGEGTEVYDDEIKELWYKTLVEVDKHMTKLQFSFALESIWKFISRMNKYIDETMPWALAKNKEKHPRLKVVLYNLVESLYKIAVLVYPFIPESAQKIWNQLGFDGDIKKAKIADISDWGNVQYNHILGEAKPIFPRLEYVEEEKKLEDEINENLEIKNSISIDEFSKVNISVVEILKVENVKKADRLLKFIVDTGNEKRQIISGIAKYYPNKEELVGKKVLAVINLKPVKLKGELSQGMLLTTDEKKRVKLIEVDNAIKNGTVIR;locus_tag=LOCUS_07410;gene=metG;EC_number=6.1.1.10;note=WP_011017027.1 methionine--tRNA ligase (Fusobacterium nucleatum) [pid:63.3%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:8.9e-243],MGA_745
sequence03	MetaGeneAnnotator	CDS	43064	44101	.	-	0	ID=MGA_746;product=4-hydroxythreonine-4-phosphate dehydrogenase PdxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545509.1;translation=MKSRLAITMGDPFGIGPEICIKFFDNLYKVEEKNFFCFLIGSKNVVEYYLKKYCIDLEIELIEDIYSIEKLNNKNGVLPLLNIDFEFNKENIGKDNKLGGEYSIKYLNQAIKICDYKIIDGIVTAPISKNSINLAGYKYSGHTTYFAEKTKTKDFAMILKGEKVIVLLNSTHLSLNDAIKKVKKDNIINKIKLAEFAKKELGLNGKIAVAGLNPHNGENGLFGDEEIKEIVPAVKEMQEEGINVEGPIVPDTLFVKMLKGEYVISVVMYHDQGLIPVKLESFGSAVNITIGLPFVRTSVDHGTAFDIAGKNIADESSLNKAVTTAINIIKNKKKDLLNFVEVEYI;locus_tag=LOCUS_07420;gene=pdxA;EC_number=1.1.1.262;note=WP_012545509.1 4-hydroxythreonine-4-phosphate dehydrogenase PdxA (Thermodesulfovibrio) [pid:39.4%25%2C q_cov:93.9%25%2C s_cov:97.8%25%2C Eval:2.8e-58],MGA_746
sequence03	MetaGeneAnnotator	CDS	44091	44750	.	-	0	ID=MGA_747;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367246.1;translation=METKKKKNIKKEKKYRKYGYLLYYLIKFITLTMRNKVVKHKEIKEKNYIYGFWHEKIIFPSMSLSYLDKVTTLVSPSRDGELLSVILKKFGYDVIRGSSNDKNIRSLMSMIKHLKRGYSLGFAVDGPRGPIYQIKPGIVFMAQKTGVEILPIGGAFSKKIVFKKAWDKFQFPLPFSKSVTYIGKPIKIEKDVNIEEYIEVINQKIHEANKEAERILNEK;locus_tag=LOCUS_07430;note=WP_147367246.1 lysophospholipid acyltransferase family protein (Fusobacterium canifelinum) [pid:41.3%25%2C q_cov:89.0%25%2C s_cov:94.7%25%2C Eval:2.2e-45],MGA_747
sequence03	MetaGeneAnnotator	CDS	44843	45181	.	-	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKIKTKNSSKNILKQAQEMQQQMLKVQEELKEKEVEASVGGGAVVAKVNGQKELVSINLSEEIVKEAVEDKEMLEDLIVSAVKEAMRQAEELAEKEMSKITGGIEIPGLI;locus_tag=LOCUS_07440;note=WP_008797059.1 YbaB/EbfC family nucleoid-associated protein (Fusobacterium) [pid:61.7%25%2C q_cov:72.3%25%2C s_cov:69.8%25%2C Eval:5.9e-22%2C partial hit],MGA_748
sequence03	MetaGeneAnnotator	CDS	45258	46235	.	-	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKELILPLIKKLDIGIVFFDEEYNISYINDAVRNIINKDISDEELENTIYLFIAYKNDFEKKVIRYNSKVLELSKKKIFDMEEMIGAVLLIKDVSLEKLTEEVEKQKLEQDKEQLAKYIAHEVRNSLNLISGFTELIQESEDILDIKENIKVIFDETKRMEKMVSDILDYTKREPLTLSRKNIVDIIKNLIHYKNIEHIVKLVDKNNNPIEKEIYVMVNEDKIKQVFLNLIDNGLSAIEGLEEKIFFIKFKEKENSIELHFITNYDKNSFISLSELFKPYYTTKNKGTGLGLVICKKIIEEHNGTIEVYKNEFHGLTFVIDLKK;locus_tag=LOCUS_07450;note=WP_000994077.1 PAS domain-containing sensor histidine kinase (Bacillus) [pid:31.5%25%2C q_cov:72.9%25%2C s_cov:39.5%25%2C Eval:4.4e-26%2C partial hit],MGA_749
sequence03	MetaGeneAnnotator	CDS	46228	46539	.	-	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLERLKKLLTETIKGILYLDKKITYEKYKIIKKRKNELAKKYKIQNKNFEEQKNKIQKLQENNREKDNRILNLENRINSLKISNNKLLSENKKLKKILEEKNE;locus_tag=LOCUS_07460;note=MGA_750
sequence03	MetaGeneAnnotator	CDS	46672	47523	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASLTNILNVKKEKSDIPKEISKLLTSLEKKKKEFANYEKNYLEKVIQLNDLKSKLASLEDNIVKEKEKFLSKDSIDNFSLTEKIAHLQKDYSKLKESIQQENKSITEIKVKMEKHLNELEKNISFLEKEKENYNFSNIKKDFKIDNSFNENNEKQILEKAPATNAKKIEYFIELEKDYFIKKIHSEFEIITLYTPLLPLIEKTNEIRNEILEKREILIDLDEEGFLNNNNLLNEILEKKEIYTENITNITNTNKTIQSIFNALTEYEHFIKFIRTQLNLITE;locus_tag=LOCUS_07470;note=MGA_751
sequence03	MetaGeneAnnotator	CDS	47955	48740	.	+	0	ID=MGA_752;product=amino acid ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948208.1;translation=MKKILLVVLVLFLGISTLGFSKDKVITKGKFVVGLDDTFAPMGFKDEKGNIVGFDIDLAKEAAKRMNLNVEFKPTEWSGIIFALKGGNIDVIWNGLTITANRKKQINFTKPYLANRQSIVILNKNNIKSKQDLKNKIIGLQLGSSADTAVMSDSIYKNLKNIKKYDSNIEALLDLEAGRIDAVVVDEIVARYYIAKKEKRENKKIYKVLNDDFGREEYGVGVRKGDKEFLDLLNKALDEMKKDGTTAKISKKWFGEDIVLK;locus_tag=LOCUS_07480;note=WP_011948208.1 amino acid ABC transporter substrate-binding protein (Clostridium botulinum) [pid:59.6%25%2C q_cov:89.7%25%2C s_cov:86.1%25%2C Eval:4.3e-76],MGA_752
sequence03	MetaGeneAnnotator	CDS	48774	49409	.	+	0	ID=MGA_753;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948207.1;translation=MNTIDMTLYILKGLNISVKLYIATFIFTVPISLILAVLYTTKYKFIKKLITLYTWVFRGTPLLLQLFFMYYGLPIINIILTPFTASVVTFVVNYTAYLTEIFRSGIESIDKGQYEASHVLGFTYYQTMKEIIIPQAVRRVLPALSNEAITLVKDTALISAIGMAEILRNSKEIVSREFTIIPFVIATIIYLCISSLIVYIFKYFENRNKVN;locus_tag=LOCUS_07490;note=WP_011948207.1 amino acid ABC transporter permease (Clostridium botulinum) [pid:54.9%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:1.3e-63],MGA_753
sequence03	MetaGeneAnnotator	CDS	49410	50153	.	+	0	ID=MGA_754;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_165842655.1;translation=MDIIQLENITKYYGDFKVLDNISLNIKKGEIISIIGPSGSGKSTLLRSLIQLEKINSGKLIVENTIIFDNNKKIDKKLKKDILLKMGMIFQNFNLFPHKTVLENVCEPLILVNKTDKKEARKTAIDLLKKVQMDGKENNYPDEISGGQKQRVAIARALALNPDIILFDEPTSALDPELVNEVLNVIKNLADGNITMLIVSHQMNFVKEISDRIIFMDKGKVLTIDTPKNIFSSENKRINDFFSIIKK;locus_tag=LOCUS_07500;note=WP_165842655.1 amino acid ABC transporter ATP-binding protein (Clostridium) [pid:49.2%25%2C q_cov:98.4%25%2C s_cov:99.6%25%2C Eval:5.2e-60],MGA_754
sequence03	MetaGeneAnnotator	CDS	50183	52762	.	-	0	ID=MGA_755;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016344.1;translation=MLTTKWIENKKHFKTFENIDLDNEIIDLLLNRGIDDEKKITKFINSNLENISTPFSLKDVDKGVELIFNAIKNKKNIWIYGDYDVDGITSTSLSYLSLKEIYDNVFYYIPLRDEGYGLNKEALEYIKKEGGDLVITVDCGISSIDEVDFANSIELDIIITDHHEINNKLPNAKAVINPKRDENEFEFKYLAGVGTVFMLLYGLYIKLGIKNEIFKFIDIVAIGTVADIVPLVEENRIFVKHGLKKLRDTKNIGLKKLLKNIYGEYKNKELDTYDIGFIIAPVFNAAGRLEDAKKAVRLIITNSETEAEYLSKELIEQNNERKDIQNTILEKVEKDIISRGLDKRGAIVSYSRDYHHGIIGIVASKIVDKYYKPTIIMEVKETEKIAVASCRSIENFNIMDALNSMKEVFLKYGGHAGAAGFSIEIDKITEFENKLDEYCKKILGKDDYIKPLKIDRELIIDKISFEFFEKLKLLKPFGFSNPNPIFSIRNIRVTNVRLIGKEKTHLMFDIIKESIYIRNLVWFNNGHMKDNLELNKFYNIAVKLKQEMYKDKYYIKLYVEDIKESDGKDNKIKNYIDKYNLNFPLKSVFYTKEKLDINDNLAIEFDEEFAKIKNGFKIVGFLNKDIFNNLIYLKKNFNFNYIIKIKKIEEKEANYNIFIEIDRDYNFNSFSIKEANIFNDIKKFLISDFEYNSFQKKVLGAIFKDKKTVLAVTKYGRGIDTIYLTLAIYLKTVKEKKILLITKDKKSKFLKNYLDISNEYIKGYDFYIYDNINPKDFIKNSLVISYSDIDNIDNRYFFIKDSINEKNIVILTEDELIRKGFDEDNIYTKKIPILEKKHIVNLLKTKEIIYGTRDLRALL;locus_tag=LOCUS_07510;gene=recJ;note=WP_011016344.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium nucleatum) [pid:43.1%25%2C q_cov:99.2%25%2C s_cov:99.1%25%2C Eval:2.9e-183],MGA_755
sequence03	MetaGeneAnnotator	CDS	52944	54326	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSKFLSTILPEEYYYKKRLKRKENKFITYDGEYLNNLKHGFGKEYIKGEQLGYEGFWSNNLFHGNGKMYRGDGTIEYDGEWRNCYGHGNGRIYNKNGKIQYEGEWINNLPHGFGKKFDENGNIIYEGQYSNGLKNGKGKEYINGKLIYDGEWINGFKHGQGKEFDENGNIIYEGIWINNQKTPEKNILIEKLDPLEELNSLIGLDSVKEDVNKLINFIKVQNLRKEKGMIIPNLSLHLVFTGNPGTGKTTVARLIAKIYKNLGILSNGHLVEVDRSDLVGEYVGQTAPKVKKKIKEALGGVLFIDEAYSLYSESGMDYGHEAINTLLKEMEDNRKNLIVIVAGYKNEMKRFIKSNPGLESRFNKFIHFHNYSSKDLYKILSYFCNKNYYSLDETTYDYLIKQFKHFKEKDKNFANARFVRNLFEKMLITHSTRIVNLENIDDYLDKFELIDIQEAFAI;locus_tag=LOCUS_07520;note=WP_011122032.1 AAA family ATPase (Rhodopirellula baltica) [pid:46.0%25%2C q_cov:59.8%25%2C s_cov:44.9%25%2C Eval:5.7e-60%2C partial hit],MGA_756
sequence03	MetaGeneAnnotator	CDS	54383	55075	.	+	0	ID=MGA_757;product=5'-methylthioadenosine/adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005900142.1;translation=MIGIIGAMHEEIIELKEIINNLSEETISNITFFKGTINNKKIILVESGIGKVNSAVCATLLINHFKVKKIIFTGVAGGVDNDIEIGDIVISTKLIEHDFDVTAFGLKPGVIPRMKTSEFTADENLRKIAKEAALDIFKEKQVREGIIVSGDQFISSIKKIEWLKETFNASCAEMEGASIAHVCYMFNIPFVILRAISDKADHNAKVDFPTFVKKAAKHSKEIVLKMLEKL;locus_tag=LOCUS_07530;EC_number=3.2.2.9;note=WP_005900142.1 5'-methylthioadenosine/adenosylhomocysteine nucleosidase (Fusobacterium) [pid:53.8%25%2C q_cov:96.5%25%2C s_cov:95.7%25%2C Eval:1.2e-60],MGA_757
sequence03	MetaGeneAnnotator	CDS	55086	56309	.	+	0	ID=MGA_758;product=folylpolyglutamate synthase/dihydrofolate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016834.1;translation=MVNNILNELYSYTKFGIKLGLDNIKQILKKCENPQDSYKIIHIAGTNGKGSTASIIEHSLIEAGFSVGKYTSPHIINFNERIVVDKNEITDEDITKYYLKIKKIILENDIKATFFEVTTAMAFLYFKDMNIDYLVAEVGLGGKYDATNVVNPILSIITNISYDHINILGNTLEEIAEEKCGIIKNSPVVILDKQKVLLDCVKSRTNNYIIANKKFNYTTTLDKEKFFTNISINKKKFNLSLYGIFQGDNFILAYSALKYLNIDDIFIQNAVKNIYWPGRFEVFSKTPLIILDGAHNEDSALALKNNCLEILKKDDIVLITSILEDKDSDTVLKTFSEFTNIVIFTSLKYYYRGLSAKDLYNKGKKHFKFSNYKEDIQEAFNLAKKFNKKAIVIAGSFYLISEFKKNI;locus_tag=LOCUS_07540;note=WP_011016834.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Fusobacterium nucleatum) [pid:43.9%25%2C q_cov:99.8%25%2C s_cov:98.1%25%2C Eval:2.9e-97],MGA_758
sequence03	MetaGeneAnnotator	CDS	56323	56787	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIRYIIISITFFLLIYVYISKKNQLLLEVKEKNLELIKNKIIIRKKNFFLDNKYYSNIKNTTFNSKKNYTEKKLKKSYYLQIGTYSIEENAIEMQKKLSNISNFIIIKSPLNNNYNIVISSNFKTREDAELLEKKVIKAFPEIKPLIKMRY;locus_tag=LOCUS_07550;note=MGA_759
sequence03	MetaGeneAnnotator	CDS	56789	58762	.	+	0	ID=MGA_760;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901728.1;translation=MEKVVSLENIIETFNLEVINYNENLSKEIVLSAVHKPGAELTGFIFENSTEVDNSIHVFGVEEINYINRLSHKELETRLPNYFSHSFPCIVITGDLKINSFFYELSKKYNKAILRTNTSYELFVKDLRKFLQKELAPEIVVNKFIFLEIFGMGILFAGDRNAIVGTCIELLEKNHRFITDGLLNIKKISENEIIGENAYSNKRLNRNYFLNISEVEKINIVEFFGIGSTRNSKKIDLIVKLEKWSDSVFYDRLGIDSTTQYILGIEIEKLIIPVRKGRNLAIIIETAAMNMRMKKNGQNPAKYFLEETQKLIKKNRKKRIGDNDMGFFKALSIEEFQQKFNFDIILGENKLNNRFITSTNIYKPSLEFSGFYELMEENGEDKLQIITDSEFKYLEMLDENIRIDILDKYMSYDFPAVILLGIEDVPKYFLDIANKYNQIVLYSSKQYSELYIDLLEYLEVYFAPSITLHGVMVEVYGFGVLLKGKSGIGKSETALELIHRGHRLIADDMVKLTKYPDGRVVGRADKVPYFMEIRGLGIIDIKTLYGLGAVRRSKKLDIIIELKELKEDEYLTKADYTESTISIMDTPFQKVDLYISSGRNAASMVEIATMKLRAKKLGYDSKKEYHLKNKILREIEEVEMEKNQEIMNKRFKNKEEE;locus_tag=LOCUS_07560;gene=hprK;note=WP_005901728.1 HPr(Ser) kinase/phosphatase (Fusobacterium nucleatum) [pid:40.5%25%2C q_cov:94.1%25%2C s_cov:99.7%25%2C Eval:6.1e-130],MGA_760
sequence03	MetaGeneAnnotator	CDS	58764	59633	.	+	0	ID=MGA_761;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391779.1;translation=MKNKLKDILVDYFFINFGLVISAIGIGLFLVPGKIVSGGVSGIATILYYTFNLPVGLVMLALNIPLFLIGLKIFGKTYGVKTFFGTVFLSVYIDLLRFIIPNANNIIDFDKASNALIAPIFGGVITGIGVGLIMKFGGSTGGTDIVAQIINKYFKIPLGYSFIFIDGLILLAGSSVFGIEKGLYAIISLYAGAVAINKIFEGVSYSKMIYIISDYHEDIKNLILHDFDRGGTGLYGNGLYTNKDKKIIMTVLKNNEIHELKNYVKQIDPNAFVIISEVYEVLGEGFTPF;locus_tag=LOCUS_07570;note=WP_011391779.1 YitT family protein (Moorella thermoacetica) [pid:43.4%25%2C q_cov:96.5%25%2C s_cov:96.4%25%2C Eval:6.9e-65],MGA_761
sequence03	MetaGeneAnnotator	CDS	59646	60014	.	+	0	ID=MGA_762;product=dihydroneopterin aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861219.1;translation=MDKISIKNIVVYGYHGAIKEENVLGQKFIINIDMYTSLKKAGINDNLEETIHYGYVYNDIVNIATKKNYKLIEALGENICKILFKKYNMNKIIIEIKKPNAPIPGIFDYVSITLEREKKDYE;locus_tag=LOCUS_07580;gene=folB;EC_number=4.1.2.25;note=WP_011861219.1 dihydroneopterin aldolase (Clostridioides difficile) [pid:38.8%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:1.5e-25],MGA_762
sequence03	MetaGeneAnnotator	CDS	60007	60885	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNVVYLSLGSNLDNPIYNLIQAFEYISKLKNTKILKISDFYKTEPYGNITQDNFINCCIKIETSLLPFELLKEINKIEEEKMGRKREIKWGPRNIDIDIIFYENLKIETNKLTIPHKEYKKRNFVLYPLLDIIDNKNKIIPFIKQAKGNIEKYNYPKKILISSCLMGNRCKYNGGHNYRYLYSRLLKFDFLQVCPETFGELKIPRPPAEIQNNNKVIDKTGKDVTTNFINGARKTLDIANKNNCEIAILKSKSPSCGYREIYDGSFSGKLIKGNGITTIFLLKENFKIISS;locus_tag=LOCUS_07590;note=WP_011015698.1 DUF523 domain-containing protein (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:45.5%25%2C s_cov:86.5%25%2C Eval:2.1e-29%2C partial hit],MGA_763
sequence03	MetaGeneAnnotator	CDS	60903	61859	.	+	0	ID=MGA_764;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016831.1;translation=MKEIIAQINSANRIMITGHINPDGDCVGAGLALTLAINKLNKDNEKIIRFILQDKAPDTTNFLTHSILIEKAKYINTKYKFDTVIAVDCASIDRLGNEIKQFITANTTLINIDHHISNTNYGDLNYVDPKSSSTSEIIYNFIKKLNIEIDLDIAESIYMGIVNDTGNLAYNNVSYDTLMVVAELKKLGLDNEKVVREFFNKKSYARIKLLGEALNNFEFFEEKKLSFYYLSQKTLKKYNGKKEDTEGIVEALRDYDKAEVSLFLRETENGDIKGSFRSNEKDVNRIAKIFNGGGHQKAAGFNTDLSKEEILKIVLNEL;locus_tag=LOCUS_07600;note=WP_011016831.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:99.7%25%2C s_cov:97.5%25%2C Eval:2.3e-80],MGA_764
sequence03	MetaGeneAnnotator	CDS	61894	62805	.	+	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILTLMLLLTIISCSNSPTIKKEDNLTTLREYKTEKEAIVPKTKIAISTFSSAIPLAKKRNVGELLSDILSTELTQTNRFIVLERDSVDKIMQEINFSEGLGQGKIASEQNLLDADYIVTGAVTKYAVNISGKKGLVSNKKSQSIEVAFDLRLIDVRTGEVVLADVGEGSGSTNSKTTLGMGQTNSYNSSIENDALRAAVVDVLDSFVKTVDKRPWSARVAKANPREIYINAGIKSNLPIGAKLEVYEQGEAIELDGKLLGYEEKYVGTATVSDYLGDDASKCTYNGKLFHIPAIVRLKK;locus_tag=LOCUS_07610;note=WP_003693243.1 CsgG/HfaB family protein (Neisseria gonorrhoeae) [pid:29.6%25%2C q_cov:58.4%25%2C s_cov:79.8%25%2C Eval:1.3e-16%2C partial hit],MGA_765
sequence03	MetaGeneAnnotator	CDS	62827	63696	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNSSLKTFYILLIIINFISCEPKKTFIMQVDGGPPPARLAILPANNFSNDVLGGYVQRNLLYKSLKQNPKGYLIQNIKTTNERLINAGITDGALLSAFHPLELCEILDVDGLLYIDIYDMGIKSLPFYNSRYIYLNVRLYNFEKFIWQKVININNRHIDIEGALDSIDNISQGKVKEAFKKAGDSVTTQVIVKLGIATLFEHELKPEMKMVVNKIISVIPRGRSSNNKYWKKVDSKLKELHLKAKNNEELVPKEEKNKIRKQYEIMIQEQGINIIKTKNDIDIINNK;locus_tag=LOCUS_07620;note=MGA_766
sequence03	MetaGeneAnnotator	CDS	63815	64384	.	+	0	ID=MGA_767;product=GPR1/FUN34/YaaH family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705937.1;translation=MERIIKDTTANPAPLGLLGFGLTTVLLNLHNAGFFELNVMIMAMGIFYGGIAQLIAGILESKKGNTFGAIAFISYGAFWLTLVAIWTLPLLGLPKASPTAMGWYLLMWGIMTFGMFIATLNAAKISQFVFLSLTILFVLLAISDFTGSHTLHTIAGYEGILTGALAIYDAFGQIINESLKKDIIPLGKK;locus_tag=LOCUS_07630;note=WP_011705937.1 GPR1/FUN34/YaaH family transporter (Aeromonas) [pid:57.1%25%2C q_cov:96.8%25%2C s_cov:92.9%25%2C Eval:1.5e-57],MGA_767
sequence03	MetaGeneAnnotator	CDS	64484	65818	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFILILIMFIYFDFSYSLSSYKNDFILFTKILETNYPLLENNISKNEYLKLKNNILNNFQNDYFYLYKSLNIIRHNLKDHNIKINHPTFIENKLLNNNYLNLNIKNINGKIINKTINSNLPFNGEITKINNIDIDTILKNLSIYESSSYSKIFPYSSLEINHNFSLFFKYFYGDFNSYNITYKLNGIERNITLNPKKINIIEYENSISYEEISNDIAYIKFYDYDINNFNKYFEKFKYKKNLIIDIRNNFDNTNITNILSYFIKDTKYFYTDYFLKTKKLYKEHIINNYTFNDIYYKKNNDFYNLKNLFFNNSNKHYIQQNNNKINRNYEKYNGKIYILENTLSENSSIDFSIFLKKYCNAVIIGEDSKKNLKLKSINSNIIYLLPKSKIIISIPYKYVERINNYYLLIPDNIIYDDNTETEFIDNKLNFVLNDILLNNSSN;locus_tag=LOCUS_07640;note=MGA_768
sequence03	MetaGeneAnnotator	CDS	65843	66487	.	-	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILFFIIYLLSFASFDNLLNTELEKNSDVIIKKLLEEKNKGKELDVGFFSKNKNKISEKIITKLKEKLVLKNKDINILSENYEEVDEILKKENNDFYEDKRVVGILKKTKYVINIKINEYTIKNYFYLKKDEKINFDIEIIDLSSKKTIFNKNSNIEFNKKVKNYKIYLLSLFLFVFGLLISFITKKYYTIKIMSITVFLIIILNIYYLII;locus_tag=LOCUS_07650;note=MGA_769
sequence03	MetaGeneAnnotator	CDS	66497	67912	.	-	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLFITFLILTISCSNTQKSFKTKIDEKVKTTENLDIIDLGIKEVKKSENSYWYDNFSAFRESYKKFKINSDLFLGIGGIYLTQEKALESAKKNGEENIKNSLSVSGLTKENFGNIIDTVLEVHNVKYKGEEVLGYKYTILLEVNKVSAVQKVEERTKLIQESKKALTEKEKKALEYENKGDISLKEKNYLKAIINYKNAKAIYAEIENDEQEKKIDEKIALVNQIKLKEKEEYEKEQLEYKKQINKLELLTNPNKFDLIRLKDLYLKTRQIKQAEEIEKKIQDIIEKEEVLIKKNEIRNYIKSFTKDGYYESNYIVYFDNYKKYFDDNILNKKLLKSEIEKEILEDNLAIVFPKSISNTKNLDIFIDELSYKYNKSPSAYESDDRINDYSIYKYKTWNIIKVENLKIITEKGRYGYKALFSVRYTYFDFKNNTKKEVNIPLTRSIYTDYTTEEQAILEVIKNLLSKY;locus_tag=LOCUS_07660;note=MGA_770
sequence03	MetaGeneAnnotator	CDS	68154	69002	.	+	0	ID=MGA_771;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779466.1;translation=MVHKFEIIIIKLLYKLLMLFPENSRYNFGGFLGKLAYKYINSRREITYKNLKIAFPEKSEEELEKIAKKSFEIIGKTFLAGFWTPNIIETDKVKIKNKKLLDDIYNKNKGVILVGLHMGNIEANLKLAKYYKTYDVIRRQKNPYLDDFINNNRRKTGINLIYKGKTTIRELIKAIKNKNLISLFSDHYDSGGIELDFFGKPTRMSTGAITIALKYNAPIVLFFNTLNEDNTSTIHIKKEFILFKTGNLEKDIILNMKRIIKEYENIIREYPEQWMWLHKRWR;locus_tag=LOCUS_07670;note=WP_021779466.1 lysophospholipid acyltransferase family protein (Fusobacterium nucleatum) [pid:46.6%25%2C q_cov:94.3%25%2C s_cov:89.6%25%2C Eval:2.0e-66],MGA_771
sequence03	MetaGeneAnnotator	CDS	69006	69749	.	+	0	ID=MGA_772;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016663.1;translation=MKFLGVIPARYGSTRFEGKPLADIHGHPMIEWVYKKAKLSNLDEVIVATDDSRIYNTVTKFGGKVEMTSTKHNTGTDRIAEIAEKYSDYNVIINIQGDEPIIEKEMINSLINAFKNENELKMATLKHKIIDFKNVKNENFVKVICDKNDYAIYFSRSIIPFPRHLDIDNYYKHIGIYAYNREFLLRYAKMEQTPLEKSESLEQLRALENGYKIKVLETTCEIHGVDTREDLEKVKQIIIDRDIKINK;locus_tag=LOCUS_07680;gene=kdsB;EC_number=2.7.7.38;note=WP_011016663.1 3-deoxy-manno-octulosonate cytidylyltransferase (Fusobacterium nucleatum) [pid:66.1%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:4.8e-90],MGA_772
sequence03	MetaGeneAnnotator	CDS	69785	70603	.	-	0	ID=MGA_773;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020084.1;translation=MNFIDILMSPDIPFLRYAFIIAIIVSISLGISGSIVVVKNMSYVAGAISHAILGGIGIALYLEIALNIKYINPTIGALVFAILSAYIINYAITKGKERKDTIIGIIWSVGMSVGVLFISITPGYVDPMNYLFGNILLINKSDIFLILGLNILILIFLYFFYHQILLVMFDEEFAKTRGIDTEKIQLLMMIFIAITVLMLVRIIGILMVIALLTIPPAIVQNDNNSLKKLIIKSIFINMIVLVIGIFLSFYLNVSVSVITVLLLGILYIIRLK;locus_tag=LOCUS_07690;note=WP_011020084.1 metal ABC transporter permease (Methanosarcina acetivorans) [pid:36.9%25%2C q_cov:93.4%25%2C s_cov:90.5%25%2C Eval:2.2e-46],MGA_773
sequence03	MetaGeneAnnotator	CDS	70590	71324	.	-	0	ID=MGA_774;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020083.1;translation=MKNIVVEFRNVSFSYEKERVLQNLNFKIYENEMVTIVGPNGGGKTTLIKLISGLLIPDFGDIFLSTSNIGYVSQHSDLDNKFPISVFETVLLGRVKNFGLIKKEDKEKTIEALREVGLEKIKNKSFNSLSGGQKQRVLIARALATEAKILLLDEPTSNIDVEIGKNLNSLLKKLKEKMTIILITHDTSFVSNITDRVFCINKHFKEHPLDVNIDNIIKSSYDNDVALVRHDVNIKETGGENELY;locus_tag=LOCUS_07700;note=WP_011020083.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans) [pid:41.7%25%2C q_cov:93.4%25%2C s_cov:94.1%25%2C Eval:4.3e-43],MGA_774
sequence03	MetaGeneAnnotator	CDS	71321	72175	.	-	0	ID=MGA_775;product=zinc ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864655.1;translation=MIKKILIILNFILISTLVFSSTDKLKIYTSILPQKYFVEKIGGDKVIVDSLVKKGMSPETFKPTTKDIIALSQSKIYFTIGLEFEEKFKNKLIKTIKDLIIVDISKDIKKRKFKSEAGEHHRGIEDPHIWMSPILVKQEVKHIYNTLIQYDTNNKEYYTKNYIKFLNELDELNNFVKSKLDKYNGKVILVYHPSFGYFTDEYGLIQNSIEVEGKEPTSRELFNIINQTKKYKINTIFTQPEFSLKSAKIIANAINGKMEVINPLEYDYINNIKNITLKIEESLK;locus_tag=LOCUS_07710;note=WP_002864655.1 zinc ABC transporter substrate-binding protein (Campylobacter) [pid:35.7%25%2C q_cov:88.7%25%2C s_cov:87.2%25%2C Eval:1.3e-39],MGA_775
sequence03	MetaGeneAnnotator	CDS	72282	73586	.	-	0	ID=MGA_776;product=GTPase HflX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895824.1;translation=MIKIYNISEELNPKKALIVGVELFKEKNNISIDDSLNELKELANAIGYEVVQIIKQSKSKIESATYLGTGKIQEINLLVDRYDIDIVIFDEELSGIQIRNLEKIVKTDILDRTGLILNIFADRAKSKEGKLQIELAKLKYQLPRLIGWGKMLSRTGAGIGTRGLGESKLELDRRYISKKISDLEKQLKEVKKHREIQRAKRKRNSIPTVALVGYTNSGKSTLLNYFMKLDNNHIERTESFAKDMLFATLDPFHKLIKLEGNLEFLLIDTVGFVSKLPHFLVEAFKSTLEEITEADLLIYVLDISRKDYKHQLKVTKDVIKELNAEDKTYITVYNKIDKLSQDELKKIVIPMENSIEISALRGDGLEELIKKIEINLFEDEKKVDMQIPFIKGSIISYILENSRVISKEYNENGILITTFLNKKDYNKYKKFIIK;locus_tag=LOCUS_07720;gene=hflX;note=WP_009895824.1 GTPase HflX (Clostridioides difficile) [pid:50.0%25%2C q_cov:97.0%25%2C s_cov:98.6%25%2C Eval:3.8e-111],MGA_776
sequence03	MetaGeneAnnotator	CDS	73701	74732	.	-	0	ID=MGA_777;product=endo-1%2C4-beta-xylanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082568.1;translation=MFKKFFCFIILLVFSNCNKIIDNTEDKSLRKYAKNSNILIGTAIESIQLEDIKFAETLKREFNYITPENSMKWGFIHSKRYEFDFDRADKIVDFALKNNMKVRGHTLIWHIENPEWLLKLENDTSVNFENILAYHIKTVVKHYKGKVYAWDVINEALEYNRYKETFWYKNIGEDYIEKALKWTHKEDPNAKLFINDNMIEEINPKSDFLYELVNNLLSKNVPLDGIGFQFHLKLNNSLDMESVEKNIKRFLELGLEINFTEVDIETEGELTEEKLEKQATIYKKLMILVKKYDKVTAFTTWGLSDKYSWIVREYDNKNPGLIFDEEFNPKLAYYKIKEILQLP;locus_tag=LOCUS_07730;note=WP_004082568.1 endo-1%2C4-beta-xylanase (Thermotoga maritima) [pid:43.0%25%2C q_cov:96.8%25%2C s_cov:96.3%25%2C Eval:8.2e-71],MGA_777
sequence03	MetaGeneAnnotator	CDS	74972	76030	.	+	0	ID=MGA_778;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732162.1;translation=MKSEDIAKLAGVSRSTVSRVINNYPNIPEKTKQKVQAVIDKYGYTPNSIARTLAGKKNNIIGLFIFDKFYNKNIDPNNPMYSIHDSPYLSELISYVTDAAENNDFNILISVINSQSKKNKFDKLIKSDIISGAIIVGGETDKEILGKIISSKIKTVFIDEYLDGEYDNIIHIYSENYEGAYTATQELIKAGHKKIAHITGNLKKFDARERLRAFKDCLIDNGIKLNKNYIIEGDFSLKSGYNAAKELYEKNKNNMPTAIFIANDLMAVKAIEYFKEKNFNIPQDISIIGFDNHSFAEILLGGLSTISRPIGELAIKAVNSLITFIYLDDKSKIKQEKIKSNYINRKTIKPPK;locus_tag=LOCUS_07740;note=WP_003732162.1 LacI family DNA-binding transcriptional regulator (Listeria monocytogenes) [pid:32.4%25%2C q_cov:98.0%25%2C s_cov:97.1%25%2C Eval:6.8e-44],MGA_778
sequence03	MetaGeneAnnotator	CDS	76053	78317	.	-	0	ID=MGA_779;product=5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864555.1;translation=MYKTSVIGFPRIGENRELKKIVENFLKKEITKNELLKESSNIRKKHLNILKENSIDYITINDFSLYDNFLDTICLLGAIPKRYNELELDELDTYFAMAKGYQKNDKDVKALAMKKWFNTNYHYLVPELDKNISFNLNLKKILSEYKEAKDLEITPKISIIGPYTFLKLSNIKEGDLEDYINDIKEIYIELIQNLNKLDISYIQIEEPILVTDLNNKDIINFENIYKEILNVKEKKILLQTYFGDIRDIYENIIKLDFDAIGLDLIDGEYNFELIEKYGINNKEIFAGIVNGKNIFINDYKKSIEIIDRLGIENLVLSSSCSLLHLPFTIKNETSLDEKYKILLSFAVEKLIELRELKNILEFEDFENHNKYNENQKKIKSKQNLTEFLNNEVKEKVKNLKEEDFYRKEKFDERIKLQKKYLNLPKLPTTTIGSFPQTLEVRKIRNKYRKNEITKNKYNEFIYSKIEEVIKLQENLEIDVLVHGEFERTDMVEYFGENFEGFLITKNGWVQSYGTRCVKPPVIFGDISRKDSFTVEYIKYAQELTNKYVKGMLTGPITIINWSFVREDLSIRDIAYQIALALQDEVLDLEKSGIKVIQIDEAALREKLPLRKENWKEYLDIAIKAFRLTNSKVKADTQIHTHMCYSEFKDIINEIKELDADVITIEAAKSDLSMIDILNENNYDKEVGPGVYDIHSPRIPSVEEFETVINELTKKIEIEKLWINPDCGLKTRGNKETIESLRNMVVATKNIRKNL;locus_tag=LOCUS_07750;gene=metE;EC_number=2.1.1.14;note=WP_002864555.1 5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase (Campylobacter jejuni) [pid:52.9%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:1.8e-226],MGA_779
sequence03	MetaGeneAnnotator	CDS	78824	79282	.	-	0	ID=MGA_780;product=ribonuclease HI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003087954.1;translation=MEEIIIYTDGACANNQEKENTGGYGAVLMYKGKIKEIFGGYKNTTNNRMELMAVIEALKQLKRKDIPIKVYSDSSYVVNGINIWIHDWIKKGKIKKNYDLWMKLYNLKKGFKKIEFFHVKGHNGDRYNEIADRLAVKGSQMYDLLVDEKNLD;locus_tag=LOCUS_07760;gene=rnhA;EC_number=3.1.26.4;note=WP_003087954.1 ribonuclease HI (Pseudomonas) [pid:46.9%25%2C q_cov:90.1%25%2C s_cov:93.2%25%2C Eval:7.2e-28],MGA_780
sequence03	MetaGeneAnnotator	CDS	79583	80902	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKSISIGNIKYKNIEINSEKNNIIKKIIFLIVESIILFGGIFTYYFYFSPFKETFINLNIHPYIIIIALIAIRYGNYLTLISSTIASGFFIFSYYLLDKDIIIFFNDFSHYKFLLMFYITGIFIGKVKDDHTDKINTLTKKIEILEENYDKLRDTFDKNEFIKKELKKQIITSEESIFSLYEIANSMEKLDSEEVFTEIIGVIIKFLKAKTVSYYTLNNYKNFLRLKIRYGNNFTLPSSIDIKHEKFSYLKNIIENRSYYKISNNNNDTPIMSAPIIAGNEILGIINIEELDFEYTTEYTFNLFKIIIDWTNNALEKAENYKLASEGKVKIEKYYKNTKIYKKEYFNKRVLLEEERKIKYNLNYIILECKNNLNFSILEIEEKFRKVIRDVDILGYDEDKKIISILLPATNIKYLDIIKERIESKLDSELVVYHAK;locus_tag=LOCUS_07770;note=MGA_781
sequence03	MetaGeneAnnotator	CDS	80892	81761	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKNKVLILIITIFITGFSIQLFRIINTNSLFKVKQPKTQNNFSYSSSKSKLKNYDKIYILFNKNNTDINSVYYNLITVLKQAKIEYINIEINDPLPKIKKNDLLLITTEKINISKKNLRNLTNIGVNIGFLIRTSKKNIQEFIGIKPKIYKYNIKNGIKFKKNIFPKLSDISLNSDVILHSLLNITKNDFNSNIDIIAETAENNPIIWINKYNKSKILFVNSSLFQDKLNRGLMLQLITSINNNFLPFIFNAKLIHIDDFPAPIKQGKDDIIFKEYGIDNSVFFKNI;locus_tag=LOCUS_07780;note=WP_010964051.1 DUF2194 domain-containing protein (Clostridium) [pid:22.0%25%2C q_cov:100.0%25%2C s_cov:48.5%25%2C Eval:9.1e-17%2C partial hit],internal stop codon at [81759:81761](+),MGA_782
sequence03	MetaGeneAnnotator	CDS	81972	82715	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKDYGYNPWPSQEKMEESLRKLKDLIYSIYGKIPIYSYVPPSNIIGIKGQKAIKNVFPEIKVYAGLYIASQEKGVLLQEFGPNKIVNGVYNLPRISSGYIYDNSQLWNIYNVIAQFGYFNHFIHPDDLLSKERSKNMTWRELYKNFSLLLNDVHKSFSFLRPMTTIEFYNSYKSNKQLKVYSKQENNKIFLNYKMAVFPVHHYFKNYKKIKSITGGNYKLLFSNDEYYLYLITSTSNDVVIELEN;locus_tag=LOCUS_07790;note=WP_010964051.1 DUF2194 domain-containing protein (Clostridium) [pid:32.2%25%2C q_cov:98.4%25%2C s_cov:40.2%25%2C Eval:1.1e-33%2C partial hit],internal stop codon at [81759:81761](+),MGA_783
sequence03	MetaGeneAnnotator	CDS	82724	83698	.	+	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYTILLAIFFLLDIKFTIDAFYFFYYDIQIYLLIHLLLYFIYILVSNLLNEDTTFFNYFALCIPIFGFFMTILNKLFTKYPIQNDIIDDYEKYLKYINNRNQLEKVNVFEEINIMSLVNSLNVKNEDDRKQEFIKFITDNTDIKVSILKKSINSDDKEIAHYASTILSFLSENFENLIENARKKYHIDNKIEVINDIIDYYNKYLESEIIEKEVIQNYYYEYLKFLDLVLADERIKKKEHILFNKARILFKLNRCKEAYRLINKLLEKNETIEYYMLKLQILFNSKKWRKIKKIAHYIFNTPKLKDNIPEEYKEIIKFWITWK;locus_tag=LOCUS_07800;note=MGA_784
sequence03	MetaGeneAnnotator	CDS	83717	84091	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTICLLAESYPYIAGGVSSWINQLISELPEFNFKIISIMPSDKEFTEYKYKIPKNIISIDTFYLQDFKKFSATPKEKKIKLSKQELITLKKFIRFDPSINWKTFSNLIRNIEKNRNQCRFFKK;locus_tag=LOCUS_07810;note=WP_011016350.1 GT4 family glycosyltransferase PelF (Fusobacterium nucleatum) [pid:35.1%25%2C q_cov:90.3%25%2C s_cov:23.9%25%2C Eval:1.3e-13%2C partial hit],frameshifted%2C insertion/deletion at around 84043,MGA_785
sequence03	MetaGeneAnnotator	CDS	84051	84416	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIGTSVDFLKSKIFWNLIIEYYKDKFPEEGFNEFYWTISSMFLFFITVMQHNLPKADIYHAVSTGYPGLLGLIASQSYNKKFILTEHGIYAREREEDIIKADWIRKKYKKLWIDLFYFI;locus_tag=LOCUS_07820;note=WP_010964052.1 GT4 family glycosyltransferase PelF (Clostridium) [pid:49.2%25%2C q_cov:97.5%25%2C s_cov:25.1%25%2C Eval:4.8e-32%2C partial hit],internal stop codon at [84414:84416](+),frameshifted%2C insertion/deletion at around 84049,MGA_786
sequence03	MetaGeneAnnotator	CDS	84687	85139	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPYEENLEYYKECVDLVKFLDLENLVIFTGIINVSEYLKKIDLLVLSSISEAQPLVILEGLASEIPFVSTDVGACKELLYGNEQDKLGKAGIIVPPFSPKEMSEAIIKLYKNRELLYKMGKIGRKRIEKYYTKESFIKQYRDLYMKIGN;locus_tag=LOCUS_07830;note=WP_011016350.1 GT4 family glycosyltransferase PelF (Fusobacterium nucleatum) [pid:57.3%25%2C q_cov:100.0%25%2C s_cov:31.3%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [84414:84416](+),MGA_787
sequence03	MetaGeneAnnotator	CDS	85141	88239	.	+	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGIGFELKKMFGKDDTLTKRVKAYTYSTFVSAGPWIITILVLNIFSIISNSFFSELVEKSLFMGSIVYSFIFSQIITTPWQMLITRYISDELYIKRYSNIKASFIGLTKIVIILSFLTGYLYYLNKDIPYYYKYISISLLVITSLTWIIMVFLSSIKNYKSISNSFILGGTIAIILEIIFLKYPINFVIFKSSTNMLFAYTIGMFFTYMGLVYSFFNTFSEKSGKQFDFIRYLSKFPSIFFIGLFYILGLWIDDILIWFSFLGINIKNIFRFSPLYDTAIFWAYFITIPSYVLFVIKMEVSFYDKYKKYFSLISHNGNLDDIESARKDMKTTLYKELIHLFEIQTIITITAIVLVNKVVAIFNLPLLLVQIFKISALGSLCNVFILIIILIMLYFEYRKQALFIAFLFLFFNTFFTLIFIPFGSNFFGAGYFIATFTTLIIALILLVYSLKEINYYTFFRQPIFSVIKKNNFNFNGINNIILKFKTFFSNRKVSLITLILLGFLISYSAIVYYDPDNAEKRKQDLITKLNIFLEKNKPSVILGRERKNLTNINSGVLIINNKNSNKNNKNKTIIQKNPIIFNTYNLSTKPSQNLPNELSIDFKNNNLFSKINNDIDSNEIFNNTKKDVKTLKSKIQEDINQKNNLIINSKLSEESLQNNKKTNNNIKNSQNIQKDKKIENNIIVDSIKKKEKNISIVNKLYGYNTFQKNLYYDEGLNNIFNYNKNNLKFLSNTFLGLNSNSNYLYNRFYLEYIKNNNIFGYKNSFSIGNIGESNKLSVLKEYDDIFLVDSLIYRDLYSVKNNDYGNINTEFINSLYFINKNFKIATYYSKENLYYFKNFTLKYKFNNNFGVFYIPRNLINYFYKNVFRDIDNNSKFDDGNKDEIIFAKEIHNKKYNLGIYNYKFLHFIAYKNTIASLKDYIFYIENDFLNKSLTTYYSENYKNYIYLNYNYDSNKYFINNKQFYNNNVYSLIEISNNNYNFIYNLGKEFVINNNVDINLGIGNTPFYSVWDSWRINEDNKFYFYLNFKKEF;locus_tag=LOCUS_07840;note=WP_005902578.1 exopolysaccharide Pel transporter PelG (Fusobacterium nucleatum) [pid:34.1%25%2C q_cov:50.5%25%2C s_cov:66.2%25%2C Eval:7.9e-82%2C partial hit],MGA_788
sequence03	MetaGeneAnnotator	CDS	88241	89089	.	+	0	ID=MGA_789;product=endo alpha-1%2C4 polygalactosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870998.1;translation=MIILLLISLIFISCSGNDIKQNNDNNSWLVQYQNINIDDIIKSNYKTVIIDYSKDGSDMHSFTKSEIDKLKNHNIKVISYLSIGEAEDYRFYWKNSWNTKYPIWIKYENPDWKGNYKVEYWNKEWENIIYIYLDKILKIGFDGVYLDVIDAYKYLDSNINYNAEKMIEFIEKISIYTKSKNPNFLIIPQNSEDLLKYDKENKFLNSIDGVGVESLWFYKNKPQDKKNTDYRLKFLRQLQSKGKFIYVIEYINKNIYTAKQLAIKNNFYYYIAKPDSDLDEIN;locus_tag=LOCUS_07850;note=WP_010870998.1 endo alpha-1%2C4 polygalactosaminidase (Methanocaldococcus jannaschii) [pid:41.1%25%2C q_cov:94.0%25%2C s_cov:80.9%25%2C Eval:1.7e-60],MGA_789
sequence03	MetaGeneAnnotator	CDS	89143	90579	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKELQINIISFLLVIIIITASYVIVREKVYKEIKNKNVINFLEITKRQDKEISHKLEKTLYAVEIISKNNELINYLKETKERRDILRTEYNSILKTLLELEKIDDEVYLVWLANDSANFYIDSNGTISDKNYDVKKRPWYSFAQTSNKAVFTTPYKEYTTKKIGMTAVKAIRKNDQIIGYIGADILIDSFENDLKNYVIGIHGFNFLLYNNEIILKSKKNINFNKNIINELNKKDYLEYFIDGNNFIFIKQKTNIDKLDIIQAMSLDEVMQSSEIKIKEIGAIFITTTILIVFIYLILILQYILSNKKIKNEALTDYLTKTFNRKGFLEETAKRIVEYQKENTFIACCTIDIDNFKSVNDTFGHDIGDKALIIVTNIIKEFLKNEDILSRYGGDEFVAIFFDKKKEYIMDKLEKIRQKIMSTYITADEEILKITLSIGVAFLEKDDNIERLIKKSDEALYKAKEEGKNKIVEYKK;locus_tag=LOCUS_07860;note=WP_004598537.1 PleD family two-component system response regulator (Rickettsia prowazekii) [pid:42.7%25%2C q_cov:33.9%25%2C s_cov:36.4%25%2C Eval:1.6e-28%2C partial hit],MGA_790
sequence03	MetaGeneAnnotator	CDS	90659	91414	.	+	0	ID=MGA_791;product=prolyl oligopeptidase family serine peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681083.1;translation=MNIKKNFIEDISCSIFYKNTTKKIPLVVVLHGYNGSKNNLEKRLNIGKKFANNGYYTVLYDAPNHGERNKYNIDNNHDMFFYLLKKNVVDLEKVINYFKKLENIDENKIFLTGISFGAMTIFKYISKYTVFASAPIVGCSNIDEFILHYNKNNIIKKIDKITTEIIENFNPFDNIIKNYNNHLIMINGKYDKIMPYHSNEKLYKTLKKKYNHNNNNSLLEFYLLDYGHFQNEEMFDIVIKKFNQILKIKNQ;locus_tag=LOCUS_07870;note=WP_002681083.1 prolyl oligopeptidase family serine peptidase (Treponema denticola) [pid:25.5%25%2C q_cov:95.2%25%2C s_cov:94.1%25%2C Eval:5.3e-12],MGA_791
sequence03	MetaGeneAnnotator	CDS	91436	92215	.	+	0	ID=MGA_792;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_165447223.1;translation=MKTALITGASSGIGKELAYIHAKNGGNLVLVARSKDKLENIKKDIESKYKVKVDIIIKDLSIQSSPFEIYNEVKEKKIDIEYLINNAGFGGIGYFHKRDLSKDLSMINVNIVALTALTHLFLQDFTKKNSGKILNVSSTASLLPGPLQAVYYATKSFVTSFSNALSQELKNTNITVTNLMPGATNTGFGKVSGMDKTILFNKTASAKKVALDGYNGMLRGKLDIVSGITFSQKIMFLLLPFTPKKLKLLSVFKMQQEIN;locus_tag=LOCUS_07880;note=WP_165447223.1 SDR family oxidoreductase (Rhodopirellula baltica) [pid:46.7%25%2C q_cov:97.7%25%2C s_cov:97.3%25%2C Eval:2.3e-50],MGA_792
sequence03	MetaGeneAnnotator	CDS	92300	93070	.	+	0	ID=MGA_793;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986465.1;translation=MYTILHIDSSYFFRKIFKDKFESEGINYIGVSSLSEARNELMYDPKINIILTAVEFEDENIEEFIYELSDSKYKNIPIFVITGNTSTQKRIEIFNLGIVDYILKNTPIDEIVENILAFTRESELLQELRKAKIAVLDDSKFEIMRLEDIFKANNIKNIDFYTEIEDLENSNKQYDIYLIDMVLKNRSGEDMILKIRENNKYCPIIAVSSIANAKTISHVLLTGANDYIVKPYVQEVLLARMEIALRNYLVIKEFLK;locus_tag=LOCUS_07890;note=WP_011986465.1 response regulator (Clostridium botulinum) [pid:37.1%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:2.2e-45],MGA_793
sequence03	MetaGeneAnnotator	CDS	93071	93292	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFILDNIKSILKDQNYLEYDKIYSKMIEACKNNKIIEIIDKKGNIVTILHNKEEMEYYHKKLIQVHGIYGYF;locus_tag=LOCUS_07900;note=MGA_794
sequence03	MetaGeneAnnotator	CDS	93455	96283	.	+	0	ID=MGA_795;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626200.1;translation=MSDKIIIKGAREHNLKNINIEIPKNQFVVITGVSGSGKSSLAFDTIYSEGQRRYVESLSAYARQFIGQMQKPDIDSIEGLSPAISIEQKTTNKNPRSTVGTITEIYDYMRLLWAHIGEPHCPICGKGVKGQSVQEIVDTIIETNNEKDKMIILAPIIKDKKGTHKNLFLNLLKKGYVRARVNNEILYLEDSIELDKNKKHNIEVVIDRIILKKDDKEFLQRLTNAIETAVELAEGNVIANINGTDIFFSENFTCPDHNISFPEINPRLFSFNAPYGACPECNGLGKKLEVNEDYLIIDENLSLNEGAVYIPGANSKKGYVWNVFYSMTLAFNIDLNKPFKDLTKREKDIIFYGTKEKKFKVNYVGENFSYNGMKSFEGIVKNIERRYYETTSEAIKEEIENKYMIERVCKKCNGKRLKDEVLSIHINNKNIMDVSFISIRESLKFFKEIKLTQKQKQIAKEILKEIKERLNFLVNVGLDYLMLARETKTLSGGESQRIRLATQIGSGLTGVIYVLDEPSIGLHQRDNDKLLGTLNRLKKLGNTLIVVEHDEDTMLQADYIIDMGPHAGKYGGNIVAKGTPEEIMNNESSKTGKYLKGENIIKVPEKRREPLGYIELKGAKGNNLKNINVKIPLGVMTLVTGVSGSGKSSLINQTLYPILFNKLNKGKLYPLEYKEIIGIEHLNKIIDIDQSPIGRTPRSNTATYTKIFDEIRDIFAQTKDSQFRGYKKGRFSFNVKGGRCEACQGAGIIKIEMNFLPDVYVTCDVCKGKRYNRETLEVYYKGKNIDEVLNMSVDEAYNFFKNIPKLERKLKVLKDVGLGYIKLGQPATTLSGGEAQRVKLATELSKKSRGKTIYILDEPTTGLHFDDIKKLLEVLNKLVEKGNTVVIIEHNLDVIKIADYIIDIGPEGGNQGGEIIAIGTPEKIIKSKKSYTAKYLKKYLSK;locus_tag=LOCUS_07910;gene=uvrA;EC_number=3.1.25.-;note=WP_201626200.1 excinuclease ABC subunit UvrA (Fusobacterium canifelinum) [pid:72.6%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_795
sequence03	MetaGeneAnnotator	CDS	96304	97302	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYIFMSIFFLITTISFGKSRYQFFKSKVMPKSVAVSNSGEIFIVDSIADQIMKYSKKGRYIKSYYYDDLKTISDIFYYKGKLYILSLKEQIYVIDTNGNLLEKHQYNKGKLLGEFNKPTSIYVDDEYITIADSGNNRIQLLTTDFKIVRDFGYKGLFYTAFSDISSVSRINDYFLVADKDTGEIKVFDKSGLYERNIQDEKGNDVRAFIAPNDIFVYKNYIYIVDSGSSKISVYNKDFKLLYKFGSKGTGKTEFGSIKSIWVNDKYFYIADTTNSVVKVFNTKDLKYRFSLGVNKVLMYIILMLAFIAPVALGIEILILKKHRKGDIID;locus_tag=LOCUS_07920;note=WP_000545443.1 NHL repeat-containing protein (Leptospira) [pid:26.6%25%2C q_cov:80.7%25%2C s_cov:39.5%25%2C Eval:5.2e-14%2C partial hit],MGA_796
sequence03	MetaGeneAnnotator	CDS	97295	98107	.	+	0	ID=MGA_797;product=glutamate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425992.1;translation=MINTDNRAIGIFDSGFGGLTVLKEIEKKLSNENIIYFGDTARLPYGSKSKETIIKYSKEIYNFLKKKNVKLIVIACNTASSFALDTLQSISDIPVIGVIKAGSRCASRESKGNILVIGTKGTIKSEVYKKEIHSISNNINVYQQSCPLFVPLVEEGMLDDKITILSIKKYLDNYIDKIDSILLGCTHYPLLKESIQNTYNKNINIINPAEEVAEEVFNILKQNNQLANNVNRTLEFYVSDDRDKFIEYGSLFLGYKIKNVKEIDIEEYKA;locus_tag=LOCUS_07930;gene=murI;EC_number=5.1.1.3;note=WP_003425992.1 glutamate racemase (Clostridioides difficile) [pid:50.2%25%2C q_cov:97.8%25%2C s_cov:99.6%25%2C Eval:7.1e-69],MGA_797
sequence03	MetaGeneAnnotator	CDS	98117	98386	.	-	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKSKKFKKSKKVAVIDQNQCDKSPFCPVKRVCPVGAIIPLKKGEQQKKRSIFGFLIPKGYRVDEEKCTGCGICVTSCPMQAVSIKA;locus_tag=LOCUS_07940;note=MGA_798
sequence03	MetaGeneAnnotator	CDS	98576	100129	.	-	0	ID=MGA_799;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016739.1;translation=MKIKVENIKIPVNINQKKGIYEYLKKNGINKNCINKIEYKKRSIDSRNKNSIFLLYNVEIELNKKINTKFEEVKEKKLKKIKSKNIEGIIAIIGTGPAGLFAAYRLCKLGYKPIIFERGKKIDERDRDIELFIKENELNSNSNIQFGEGGAGTYSDGKLTTRVKSIYKDEIFKTLVECGAQKEILFDYKPHIGTDVLKVVVTNLRKKIESMGGEFYFNSILTDIKIKNKKISQIEINKNELIDIDYLFLAIGHSSRDTYYMLNKNNVFLENKDFAVGARIESPRYDIDRMQHGKFYNSEILGSATYNFTYNNQNEKRGVFSFCMCPGGEIVNAASEKNTSLVNGMSYSQRDGKFSNSAIVVAIRENDYGNKLFDGMKLQEKLEKQTYEIISTYGALYQSVNDFLKNNKTKQEIESSYKMNLYSYNLNNFFPEVINRNMINALKYWQKKMPLFTKNANLIAPETRTSAPIRITRDKTGKSINIENLFPIGEGAGYAGGIISAAIDGMKVVDMNFGEFE;locus_tag=LOCUS_07950;note=WP_011016739.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:55.7%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:6.2e-167],MGA_799
sequence03	MetaGeneAnnotator	CDS	100129	101676	.	-	0	ID=MGA_800;product=N-6 DNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431790.1;translation=MYLNTNSNYKVYTPQKISRDMSAISLRYFFSNYKKFGFQDRKKALKNLKIVDLSCGSGNLLIDLIEFLIKLHKRYFGYYDYISTWIEGYDIDKEALSVLRCRIKKILDKYKLVNKKIKLYQTDSLLKNFDKKYHIVIGNPPYLGEKNNKEIFDKIKKTEFGKKYYEGRMDYLYFFIEKGIEILEKNGILTYITTNYWLQADYAKKLRTCIKENCSFYYINNINKSVFKDAIGQHNIIFSITKNNIEKNIKIISNNQEFKLNNKYLFNYRNKIVIAKEKELLKLNTIFNKKTYFLDDILYINQGIISGYDKAFIFKEFNEKFKKYLRPFYKSPDINIYNIDERNKYWILYLDNKIKINNELEEYLRPFYDKLIERREVKTKKINWYELQWARDEEIFKKEKIVSRQRCKLNMFAYTKKDFYGSADIYYLTKKESSINLFYILGYLNSSTFYKWFYYNGKRKGKNLELYATPLKETPIYYPNDDEKVKYIEKLVRKQIKSYSDEIQEKIDKFFEGEI;locus_tag=LOCUS_07960;note=WP_003431790.1 N-6 DNA methylase (Clostridioides difficile) [pid:30.0%25%2C q_cov:90.7%25%2C s_cov:91.3%25%2C Eval:1.5e-48],MGA_800
sequence03	MetaGeneAnnotator	CDS	101660	103126	.	-	0	ID=MGA_801;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016596.1;translation=MFRTGIIVMIITMLSRILGLIRTIIIATIFGANYTTDAYFSAFKIANLFRQLLGEGALGTVFIPLYNEKEVKFGEKEAKNLIFSVLNLLFIFLILITALNLFFSKNIISFIANGYDEKTKKLASILLKIMSSYILFIGLSGMICAILNNFKKFIIPASTSLLFNISIIIFAIRYSKNLGVYALATGVTVGGILQLVITLPSFFKIVKIYSFKIDFKDEYLKKIFVLIIPMLAGIFARQINSVFDVYFASYLKSGSVSALENATRIYNLPLGVFAISLSTIIYPHLSKSIEKKDLNEAKSYIEQGLKILAFFIIPSIFILTLYSKNIIFLILGYGKYTNEAIKLTSESLFYYVLGLYFYSAIHLLSRAFYSMKNTKTPVIFSIISIFINIILNYLLIKQLKHIGLALSTSISAMINFLLLYFIFNKRYFKLNLFKIVRFILIVSLIATIAFIVSLYFNNIFIKLFSFVTIYLIIWSYPIKRKGKNVFKY;locus_tag=LOCUS_07970;gene=murJ;note=WP_011016596.1 murein biosynthesis integral membrane protein MurJ (Fusobacterium nucleatum) [pid:46.9%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:7.1e-125],MGA_801
sequence03	MetaGeneAnnotator	CDS	103126	103812	.	-	0	ID=MGA_802;product=ScpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902469.1;translation=MNNDINVKIENFEGPLDLLLHLINKKKLNITEINILELIETYLEIIEKLEIDNIPLKADFLAMAADLLEIKALSVLNYSLHKKRKEELSIKLLEYQQYVELSQLLKEKENEYNISFTRAGLKEINVENNEVDLSDLTLEKLFIAYKTVVETSQKEELKIVVENIYSLEDEIEKLIKNIENNQKINYINLFQSANDKMHRVYLFLAILELYRYGKIDIKEDKYIVKKEN;locus_tag=LOCUS_07980;note=WP_005902469.1 ScpA family protein (Fusobacterium nucleatum) [pid:31.7%25%2C q_cov:93.9%25%2C s_cov:95.6%25%2C Eval:1.2e-25],MGA_802
sequence03	MetaGeneAnnotator	CDS	103805	104755	.	-	0	ID=MGA_803;product=bifunctional riboflavin kinase/FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016595.1;translation=MEIIIGLENYKKDYKNVCLALGTFDGIHKGHKKLIKSSVECAKKNNGTAVVMTFSEHPKKVFHNENRRILINNEKEKIHLLKKIGVDVLVIAHFTEEFKKLTPYEFVSEIIYTKLKAKHLFAGFNYTFGAKRAGKAEDLIQMAKDFNIKTTIIKPVTIDNTIISSTLIRELIEKGEMELAEKYLGYPFLIMGEVIHGKKIGRKIGFPTANIKTYNKIYPPNGIYGVEVIVEGDNNIYDGLLNIGHNPTVNENIENEYHIEVHILNFDKEIYGKEIMVKVKKYLREEKKFDTMEELIEAIKNDIIIWENHLKVKENE;locus_tag=LOCUS_07990;EC_number=2.7.1.26%3B 2.7.7.2;note=WP_011016595.1 bifunctional riboflavin kinase/FAD synthetase (Fusobacterium nucleatum) [pid:44.6%25%2C q_cov:93.4%25%2C s_cov:91.2%25%2C Eval:4.6e-73],MGA_803
sequence03	MetaGeneAnnotator	CDS	104756	105652	.	-	0	ID=MGA_804;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902471.1;translation=MSYTNIVKEEVFLKEIEIEKEKHYELLAILKCKNAILNNKILLKIENLNLANRIYKFLKEFSSLRIHIKYSITKSFGEHKVYIIEIPYQKGYNEFIENLNKLEDKLVRRLADKAVIGFTRGAFLATGYIKEPNKEYALDFFIDLEEGAKLLYKVLRNTGRRVFLTQKKNKHLVYLRNSEDIMDILVMIGAVKSFFEYEEITMVKDIKNKTIREMNWEVANEMKTLDTAQKQINIINYISENYGLDNLSSVLKEAAIVRLNNPEASLTEIANKVGISKSGIRNRFRRLEELYNELIEEN;locus_tag=LOCUS_08000;gene=whiA;note=WP_005902471.1 DNA-binding protein WhiA (Fusobacterium nucleatum) [pid:56.6%25%2C q_cov:81.9%25%2C s_cov:80.9%25%2C Eval:3.5e-72],MGA_804
sequence03	MetaGeneAnnotator	CDS	105674	108367	.	-	0	ID=MGA_805;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016594.1;translation=MQKAVILDTSAIMYRSYFSLLNMRNKEGEPTGAVYGTANIISSVIDEIKPNYIVATFDVKRKTLKRTEKYENYKANRKPMPDDLVVQLPLIEELMDSFNIKKFKVAGHEADDVMGTISKNLSKQGIEVYIITGDKDIAQLVDENINIVLLGKGEGKNRFKYIKNDDDVIEYLGVKANLIPDLFGMIGDTSDGIPGIRKVGEKKAIPLLNAFGSLEGVYENIDKLTEFKGIGKSLVQNFIEDKELAFLSKELATIKINLDIKIDLNEIKYKDINKKTFKKLCQNLDFKSFIKKYDLDKIDESGNLSLFNNDNKEFNNKKLNNKEKKVVFINNSNEINNLIEKLKKLEEEVIFLFNGVAFLFLIDDNIYYISYKHNYIGAQNIEKSEIQKIFNLNKKFVTYKFKDILNERFNIKIGFDIMLAHYLLYANLKDDLDTLIFNEIGEAFESQKDIFGKTAISQLEKEKLADFLSKRILALKEIYKIVLNKLKKENLEKLLIEIEQPLVPVLSNMELEGITLDRGYLSKYSIELKEKIEQLKKEIYKIAGEEFNINSPKQLAEILFIKLNINPIKKTKTGYSTNVDVLEKLVRSGEKIAKYILEYRKLTKLLNTYVEALPKLVDNNSKLHTSFNQNGTATGRLSSTDPNLQNIPSKTEEGRKIRRAFIAKDGFSLVSFDYSQIELRVLAEISKDTELINAYENDLDLHAITAMKIFDLETLEEVDSIKRNIAKIVNFSIIYGKTPFGLAQELNITVKDAKEYIDKYFDKYKKVKDLQNEIIKFAKENGYVKTLFDRKRKIIGIDNKNKNIKNQAERMAVNTVIQGSAADILKMVMIELFDKIVDNKDVYMLLQVHDELIFEIKDEKLEEMIPKIKEIMENKIRLQNVKLKVNFAYAKNWSEAK;locus_tag=LOCUS_08010;gene=polA;EC_number=2.7.7.7;note=WP_011016594.1 DNA polymerase I (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-234],MGA_805
sequence03	MetaGeneAnnotator	CDS	108616	110412	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKHQIQLNLNEMKMFKHIIDEKNEYTKKLYRASFIITGTIPFIFLIQKFITKEHISIPFILSVLFFFSLLIFSFYTKNIEKLKTVIIIASLFFLIISLLLPDTYNSWLIIIFGAIPLAFYTQGVKRALDYLIVFSLLFLTIIFLYQLNFIKNISFTFNPMESIVIFFSFIINLILIYISEKYHEKYFDRVIEKIVYDDITNFPKQDVLFNNLDKTKNYILTIIRIENFSNLISIFGYEFSENILYYLAKKINRIEKEYNFLPFRLINNEFALLFEIEKNNPKEKIYKDIELIQKKLSRNRLKWGKLPINLFLRFGITIIENGNGEKALSNADISLKKHKDKEITMYHQSDDNKENFLNNIIKINLLINIEERLKVVYQPIYNSNKEIEWYECLLRIRNDRYEYESIFNYLKLARALGIYEKISRFVINNAVEQAKNTNKMLSINISINDIANDSFLFYLKEKSFELGENINKIILEILEEDEALDMKKSINNIEIAKKIGYKIAIDDFGAGYSNIVKFIEMPTDILKIDGHVIKEILNDKSIELIVDTVVIMAKHKKLKVVAEFVENKEIFDKLKDMNLDYYQGYYLSKPIDKIDK;locus_tag=LOCUS_08020;note=WP_000528391.1 EAL domain-containing protein (Leptospira) [pid:25.6%25%2C q_cov:69.9%25%2C s_cov:73.4%25%2C Eval:1.4e-29%2C partial hit],MGA_806
sequence03	MetaGeneAnnotator	CDS	110575	111009	.	+	0	ID=MGA_807;product=MarR family winged helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948763.1;translation=MNEEIYNKNIEELFHVVSKMHFKTVIQELEKIGLYKGQPPVLFMLYKKNGLPQNKIAEKIHVSKATLSKMLQRMEKNEFIKRIKDKNDKRITRVYITEKSIKLKPLIDEKFKNINNISFKNFSVEEKKLMKSLLLKIYFNLKNI;locus_tag=LOCUS_08030;note=WP_011948763.1 MarR family winged helix-turn-helix transcriptional regulator (Clostridium botulinum) [pid:30.8%25%2C q_cov:81.2%25%2C s_cov:80.7%25%2C Eval:1.5e-10],MGA_807
sequence03	MetaGeneAnnotator	CDS	111075	112802	.	+	0	ID=MGA_808;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583011.1;translation=MDKIKKLIEYTKKYRLFTLLAPLFMMVEVIADLFLPFISKNIINIGIVNNDTAYIFKMGLLMLITTLIGAFGGIMCSVFAAKAAISTSTDLREKLFSKIIKLDFFNLEKLKTGNLITLLTDDISKIQGLILAGTRIVVRAPLLFIGGLIMAIITSKKLSLVLIFIIPIMIFLMYLILKKSFPLFYKIQNKLDIVNKISQENLFGIKTVKSFSREEYEENRFSTANRNFMNNIITSSKIISLQRPLIMMFLNFGVLLIIYFGGKGVISKSENLGTIIAYINYLEIIIFSIVMTSMILINLSRSIVSVDRIEKILQLNEEKYLSTNNNNISGDITFKNIYFAFEDNKYILENISFKIKENETIGIIGVTGSGKSTLVSLIPKFLLPQKGNIYIGNKNINEYSLDILRKNIGFVFQDNIIFSGSIKENITFGNKNLSIEDIKKYAKMSKADEFIENLEKKYDSIIGQRGVNLSGGQKQRLSIARTLANKPKIIIFDDSTSALDAETEKYIMTQINENIKNCTKIIISQKISSVMNADKIIVLDNGKIENIGKHNDLLLNSKLYNEIFNLQIGGDIDVK;locus_tag=LOCUS_08040;note=WP_012583011.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:43.1%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:3.2e-135],MGA_808
sequence03	MetaGeneAnnotator	CDS	112792	114612	.	+	0	ID=MGA_809;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583012.1;translation=MSNKKENKINIGGMRRRGFHGNFQKEKAKNPFPTMIRLWHYIKKQNFKMFLVFIFIILEATFSTLAPDYLRIIFDKFNTINKIKIIMPSIYMLLMIYFLKNISMWLNSYFVIDVAQKTIANLREDLFKKIQILKIEFIDKNENGDFISRLINDIENISNTLNETITQLILSVILVIGSLFFMFKLNIILTLTVIFTVPITMLLTSFVAKFTGKYFKSTQKKLGELNGFIEEQITGIKIVKAFAQETPIINKFSQKNLPLKNDIIKAQIFSGIMGPIMNFISNLIFLVIILVGSYLITIDKATIGIIVAFLSYSRNFNRPLIQLAQLYNNFQSAIAGAERVFEIIDEESEFDNDGKIIVDKLEGNVEFQNVYFSYEKEKQVLKNINFNVKKGETIAIVGPTGAGKTTIINLLTKFYNINKGKILIDGIDINDMNKKSLRKRLGIVLQDTYIFSDTVLENIKFGNLEATFKEIQKAASLSNADKFIKKLPNEYNEILSEEGGNLSKGEKQLISITRAILANHDILILDEATSNVDTITEKHIQEGMLNLMKGKTSFIIAHRLSTIKEADKIIVIDNGEIVEIGTHNDLLTRKGFYYNLYTTQTNFNLK;locus_tag=LOCUS_08050;note=WP_012583012.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum) [pid:46.6%25%2C q_cov:97.2%25%2C s_cov:95.2%25%2C Eval:6.1e-153],MGA_809
sequence03	MetaGeneAnnotator	CDS	114690	115580	.	-	0	ID=MGA_810;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082238.1;translation=MKRKQILSEIGLVYAAAIWGSTFYVVKDSLAFINPLLLVSYRFLLASLIFLIFLIIKKENIFKNFKYGITLGVLLGSLYMFQTVGLKYTTASNSGFITGLFVLFIPIFGYIIFKEIPTKFKIISAVLATIGLWILTGGMKSINIGDLYTLIAAIAYCLHLLYSGKFMKNNISPYLMNFQQFLVVGLFSLFLSKVYYNEVFNININALKSIIFLAIFPTASAFIIQLKAQKFIDDFRVGVIFSLEPVFAAIFSWTLGGEVFTIKGIIGGSFIVTAMIVSEMKIKDKLIYEKIKNENK;locus_tag=LOCUS_08060;note=WP_004082238.1 DMT family transporter (Thermotoga maritima) [pid:34.8%25%2C q_cov:91.2%25%2C s_cov:90.6%25%2C Eval:5.5e-41],MGA_810
sequence03	MetaGeneAnnotator	CDS	115832	117547	.	+	0	ID=MGA_811;product=malto-oligosyltrehalose trehalohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393309.1;translation=MKLGHSYEEDCSKFVVWANRHNVMKIIFPELDREHDMEKLKGSYFEYKCSKLPEGTKYYFQTADGNLYPDPASKSQPKGVHKYSEIINVKNKDKPKQFKGIDLRDAIIYEIHIGTFTKEGTFDAAIKKISYLKKLGINVVEIMPVFSFPGDRNWGYDGVYPYAVDESYGGVKEFIRFINECNKNNIAVILDVVYNHFGPEGNYLGIYSQYFTKRYSTPWGSAISFDGRNSEHVKKYFLDNVKFWLEDVKIDGFRLDAILSIYDFSESHFLDDLYDLVKDTEIKEKRIINVISENPYHTIKSNYKIKLDGHWEEDFHHSIHSYFTGETHTYLREYGSFNKIKDMFENGYCTEFWRNKYFSEPYRLIISIQTHDQIGNRPFGDRLSNLITYEQYKLAAFSMFALPYTPMLFMGEEYFETNPFLFFTSFSDKKVIKGVRAGRKKEFEFLDEDIPDSQDINTFYSSKLDFEKLTNKKHSETFNFYKTMIQLKKEKILGYNNRSKVEVYADEETKIIYIKNCYKNSFALMNFSDKETNYTLFKDMKVIFSGNNYSLIGKIENNIKLQPYGFVLYEY;locus_tag=LOCUS_08070;gene=treZ;note=WP_011393309.1 malto-oligosyltrehalose trehalohydrolase (Moorella thermoacetica) [pid:38.0%25%2C q_cov:93.9%25%2C s_cov:90.3%25%2C Eval:2.6e-105],MGA_811
sequence03	MetaGeneAnnotator	CDS	117833	118969	.	+	0	ID=MGA_812;product=ATP phosphoribosyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949109.1;translation=MKEFKNFDLEETLIIKFRKLFESYGYEKIKVNTFETYDTYFKNKDIINNEKVLKIIHPNGSLYALRADMTMIIAKKFANDFQTKDINISEKVYYYDNIFRNEFGINGGLKEKRQVGIENLGTNGIFNDVETIILALNSLETISDNYILEISNVELLKSIFKNINITEDDKNIVLKFIFTKNRDELLKFLDNLKIETNYKNIIDDITTCYGSINDILIKLSKYNELKDSLNYFNNLKLYIGERQLKKIKINFSISNSLEYYTGLILQGFVEDINNPIIIGGRYDNLSKRFGKAFPAIGFAIDLDSLIKKLDIKHHLADYLIFYTEESVKFLQDIDNLRKQGKTVKISPYKKLTNKTIEELHKKYKNICKYVGGELKSCI;locus_tag=LOCUS_08080;note=WP_011949109.1 ATP phosphoribosyltransferase regulatory subunit (Clostridium botulinum) [pid:30.6%25%2C q_cov:97.4%25%2C s_cov:91.2%25%2C Eval:1.0e-37],MGA_812
sequence03	MetaGeneAnnotator	CDS	118960	119589	.	+	0	ID=MGA_813;product=ATP phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436683.1;translation=MYLNIALPKGRLGEKSYEILKKLGYSSKDYENKDRKLVFINVDKKIKYFLVKASDVPVYVERGAADIGVVGKDVLMESKANVYEILDLGFGKCRFAVAAPIDFIDNYEKKLVVATKYINVAREYFEKKEREIDLIKLNGSVELGPLVNLSDVIVDIVETGSTLKANNLEEREKICDISARLIVNRNSYRFKNNIINKLIKEIKGEIKND;locus_tag=LOCUS_08090;gene=hisG;EC_number=2.4.2.17;note=WP_003436683.1 ATP phosphoribosyltransferase (Clostridioides difficile) [pid:54.5%25%2C q_cov:95.2%25%2C s_cov:95.7%25%2C Eval:3.0e-52],MGA_813
sequence03	MetaGeneAnnotator	CDS	119582	120874	.	+	0	ID=MGA_814;product=histidinol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964255.1;translation=MIKIVSYKDNKFILDEILNNTTQFEYDEVNKAVIEILKNIKENGDKAVLEYNEKFDGVKLNSLQVTKQEIDEAYFDNISLELRNSLELAHKKIKEFHEKQKRNSFIDTNTPNKIVGQLINPIEKVGIYVPGGTASYPSTVLMNAVPAKIAGCKEIIMVTPPGKNGKVPANILAAAKIAGIDKIFKVGGAQAIGALSFGTETIPNVYKIVGPGNIYVAMAKKMVYGQIDIDMIAGPSEVLIIADKTANYRYLAADLLSQAEHDKFATSILVTTSEELAKKVQKEIEIQLNQLPRKEIAETSINNQGRIIIVNDIKDACYIANKIAPEHLELAVKNPFEILGYIKNAGAIFMGEYSPEPLGDYMAGPNHTLPTSGTAKFSSPLGVDDFIKKSSIIYYDKNALKELKNDIINIATSEGLDAHANSIKIRFEDK;locus_tag=LOCUS_08100;gene=hisD;EC_number=1.1.1.23;note=WP_010964255.1 histidinol dehydrogenase (Clostridium) [pid:59.7%25%2C q_cov:94.0%25%2C s_cov:93.5%25%2C Eval:2.9e-135],MGA_814
sequence03	MetaGeneAnnotator	CDS	120915	121973	.	+	0	ID=MGA_815;product=histidinol-phosphate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949115.1;translation=MKFWSNKAKSISPYTYGEQPKDKKYIKLNTNENPYPPSPKAIKIIKNLDENIYKLYSDPTCNELKEAISKVYNVEKKQIFIGNGSDEVIAFSYQSFFNKGDKIVYPDITYSFYPVYSKLYEIEEIINPLNDDFTMNLKGFNKKSKGIIITNPNAPTGIALTLDQIESIIKDNLDKLIIVDEAYVDFGAESAVKLINKYENLLVIQTFSKSRSFASLRIGFAIGNKELIQALHIIKDSYNPYTVDTIGIKAGAAAMLDVEYFNKTRNTIIATRDRIKKELDKLGFKSTNSKSNFLFIKHNSFKGEYIFKKLKENGILVRYFNKPKINNYLRVSIGTDEEMDEMIRILKEKILK;locus_tag=LOCUS_08110;gene=hisC;EC_number=2.6.1.9;note=WP_011949115.1 histidinol-phosphate transaminase (Clostridium botulinum) [pid:52.4%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:1.3e-106],MGA_815
sequence03	MetaGeneAnnotator	CDS	121983	122570	.	+	0	ID=MGA_816;product=imidazoleglycerol-phosphate dehydratase HisB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436680.1;translation=MRKAEINRITKETKINISLNIDGTGKNNINSGVGFLDHMLILFAKHGLFDLNIKCDGDLYIDAHHTVEDIGIALGAAFKKALGNKKGIKRYGDIYLPMDETLCLVAVDLGGRNYLHFEAKFPSPFLGTMSSELIKEFFFGFSRECGINLHIKLIHGENSHHISEAMFKGFAKVMDFATSIDTRIINEIPSTKGVI;locus_tag=LOCUS_08120;gene=hisB;EC_number=4.2.1.19;note=WP_003436680.1 imidazoleglycerol-phosphate dehydratase HisB (Clostridioides difficile) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-56],MGA_816
sequence03	MetaGeneAnnotator	CDS	122570	123193	.	+	0	ID=MGA_817;product=imidazole glycerol phosphate synthase subunit HisH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436678.1;translation=MIAIIDYSVGNLHSIKSALDFLGVENIITNNEEDIRKAKALILPGVGAFRDAINSLKATGLIPVIKEEVKKGKYLLGICLGMQLLYEKSYEFGEYEGLGFLKGDICSIKEDLINKDLKVPHMGWNNLIFKQKDNLITKYIKEEDYVYFVHSYYVKSDFSEVVGYTKYNINIPAIVNNKNIFGMQFHPEKSGTVGLNLLKAYANIVLK;locus_tag=LOCUS_08130;gene=hisH;EC_number=4.3.2.10;note=WP_003436678.1 imidazole glycerol phosphate synthase subunit HisH (Clostridioides difficile) [pid:55.6%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:3.3e-64],MGA_817
sequence03	MetaGeneAnnotator	CDS	123211	123420	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKTIIFDLVFLGVSILLVIYGYFFRDIQYKNYIDLGIFFILLISILKNFVIIPLNYYYSFFQYLYIY;locus_tag=LOCUS_08140;note=MGA_818
sequence03	MetaGeneAnnotator	CDS	123482	124243	.	+	0	ID=MGA_819;product=imidazole glycerol phosphate synthase subunit HisF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436672.1;translation=MLTKRIIPCFDVRDGRVVKGKKFQDIKDVEDPVVLAKKYNALGADELVFYDITASFEERKLFTNILEKVASEVFIPLTVGGGINSLEDFSRVLNVGADKVSVNSGAIKNPNLIKKAAEKFGSQCVVLSMDIKKVENQWRVFSKGGREDTGIDAIEWAITGEQLGAGELVINSMDTDGVKAGFDLDLLRAISEKVEIPIIASGGAGTMKHFKEVFDIPGVDAGLAASVFHYGEIEIPNLKKYLKEQGVNIRMTK;locus_tag=LOCUS_08150;gene=hisF;EC_number=4.3.2.10;note=WP_003436672.1 imidazole glycerol phosphate synthase subunit HisF (Clostridioides difficile) [pid:61.5%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:2.4e-84],MGA_819
sequence03	MetaGeneAnnotator	CDS	124367	124978	.	+	0	ID=MGA_820;product=bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861249.1;translation=MMNKIKFDEKGLIPAIIQDINTKDILMMAYMNKDSLLKTLETKQTWFYSRSRQELWNKGATSGNVQNVKKISYDCDGDTLLIEVEQTGVACHTGKYSCFFNELYKTDDYKINFSLDILYNVIEDRKNNPKEGSYTNYLFDKGLDKILKKVGEENAEVIIASKNEDISELKYEIADLVYHTLVLMIEKGIKIQDIKEELSKRVK;locus_tag=LOCUS_08160;gene=hisIE;EC_number=3.5.4.19%3B 3.6.1.31;note=WP_011861249.1 bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP diphosphatase HisIE (Clostridioides difficile) [pid:64.3%25%2C q_cov:99.5%25%2C s_cov:92.8%25%2C Eval:5.4e-72],MGA_820
sequence03	MetaGeneAnnotator	CDS	124980	125207	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNHFCNCVDTECKFNPKNGFINNCDLCIQKNLKYREIPACFFKLIKKELTDINDFSIENFAKLVMSKKKDKKQD;locus_tag=LOCUS_08170;note=MGA_821
sequence03	MetaGeneAnnotator	CDS	125344	126048	.	+	0	ID=MGA_822;product=DUF2161 domain-containing phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966295.1;translation=MNETELYKPIEKYFIEKGYIVKGEVKNCDLVALKEEELIVIEMKLSINLTLILQAIERQKVADYVYVATPKLPKNLQTRRKILTLLKRLNIGLFIIKNNKLEEIISPFEEYNFYNNKSKRNKIKKEILTRKNNLNIGGTNKTKIITAYREQALFIAYVLLKYGNLSPKKIKKITKIEKSGQILYTNFYNFYTHINRGVYGLSNNGKKYLEKFILEYSELKKIFENMIKENGGLK;locus_tag=LOCUS_08180;note=WP_010966295.1 DUF2161 domain-containing phosphodiesterase (Clostridium) [pid:41.2%25%2C q_cov:97.4%25%2C s_cov:96.7%25%2C Eval:3.4e-42],MGA_822
sequence03	MetaGeneAnnotator	CDS	126045	126851	.	+	0	ID=MGA_823;product=histidinol-phosphatase HisJ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009896027.1;translation=MKIYDYHTHSNFSEDCNIDMEDMIKGAITKNITELCFTEHHDIDYPEENFNFLLNDEKYFIKFNELKEKYNNKISLKLGLEIGLQSHIIDECKMFTHNKDYDFIIASQHCVENVDLYTKKFFKGKTVDEIYTKYFEEMYYNITHYNNFNVIGHMDLLRRYSKEVADYDITHSEEIIKMILNHLIKNNKGIEVNAGGLFYPLKSINPSIEILKIYKELGGEIITYGSDAHFPDRLGAHYFEVMRILNELEFKYITKFNKQKPEFIKIEI;locus_tag=LOCUS_08190;note=WP_009896027.1 histidinol-phosphatase HisJ family protein (Clostridioides difficile) [pid:40.9%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:1.8e-56],MGA_823
sequence03	MetaGeneAnnotator	CDS	126860	127654	.	+	0	ID=MGA_824;product=histidinol-phosphatase HisJ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897350.1;translation=MYIADHHVHTNWSHDGKFTMQEILEAAINKKINKIVFTDHFELLKDIEKINYNQYVIEYNKLKSKYSDKIEMGLGIEMGLLIDKLDKFDKIVKTHKFDYVLASTHRVNYISALWEEYWDEITQLEGYERYFLYMLESIKNFDNFDCYGHLDYIIRYGDFDKKGFKYKDLQDVLDEILKLLISKGKGIEINTSFRNKGFKEFHPNSEIIKRYIEFGGEIITFGTDSHSPTTLGNYAKDVYELLNNFGVNYICNFKNRKPEFIKTK;locus_tag=LOCUS_08200;note=WP_009897350.1 histidinol-phosphatase HisJ family protein (Clostridioides difficile) [pid:37.8%25%2C q_cov:98.9%25%2C s_cov:96.0%25%2C Eval:1.9e-50],MGA_824
sequence03	MetaGeneAnnotator	CDS	127862	127984	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKNYGYMHLVGGNIKVKDSDLRNQFSEILKKKITRYMF;locus_tag=LOCUS_08210;note=MGA_825
sequence03	MetaGeneAnnotator	CDS	128133	128654	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLKTLVGAWIGKEKEKNHIEIENAIKIAKEGYVDILAIGNEVMLREDISKEELIEYINKAKSEVPNIEVGYVDAYYEFEEKPEIADACYLILANCYPFWEGCAREYALPYMKDMYARAKKAAKNKKVIITETGWPNIGSSTWGAIPSRENAMKYFIDTYTWAKNDNIEIFYF;locus_tag=LOCUS_08220;note=WP_011087383.1 beta-1%2C6-glucan synthase (Bradyrhizobium) [pid:27.6%25%2C q_cov:97.7%25%2C s_cov:31.0%25%2C Eval:1.5e-15%2C partial hit],frameshifted%2C insertion/deletion at around 128642,MGA_826
sequence03	MetaGeneAnnotator	CDS	128893	130305	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLFLFILMFSLSFSEDTFHIYKIQNKAPWWLNNYIITGVNSAIGSAAKSPNKTIDQIRKEAITSARVELAANKKVMIKSQLNTERTNNGTKTKITTQENIKEELSPTLVDSYEDNDFYYVWLVELNNNTEQEKLNNFIKNNNLNEKKYKENILKYKDEIVIVDKKLNTVTLNYGKNRNIKPHQIYNVYQLSNKLKNAVTNETEDFAKEKIGEIEITEVFNTTSNAKIINLTKLLSIKKGNIAIYSGFDKELYNYKKKLKKERKLSKYPLDTTYFSTGNEIERSTSLKPHNYFLKIKTNFKGNNNISLQYGIFDFTELSLKQYFANNNYTEFGIKLGIPVETPYYSYAKYIFGAKYTFKSQGLQNTLDALVDYYISDITLLNIDYRFYLEKNNNKQYEELYTTLAFLLNEKANLGIEGNIDNNFDINSASLATKLNINVSNGSNLEFGIKWDNQRTYMLSYENKGIF;locus_tag=LOCUS_08230;note=MGA_827
sequence03	MetaGeneAnnotator	CDS	130349	132553	.	-	0	ID=MGA_828;product=Na-K-Cl cotransporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404985.1;translation=MEKRFNSFNGVFLPTFLTIIGVIYFLRLGWVVGNAGLLGAISIIVLAHIITVATALSMASISTNMKVKGGGAYYMISRSLGLEIGGSIGIPLYLSQAISVSLYVIGFIESIKQIFPSFFEKSMKISLGFINTDLNTLILSLIITILIGAISIIGADLAIKAQYFIFGILILALINIIISGNYNNDIVLVGNFSESKNYFQTFAIFFPAVTGILAGVSMSGDLKNPKKDIPKGTFWAIGITFVIYLFQTFWFSKNISVDASMDKLILVRNGITKFPIIVILGIWAATLSSALGSIIAAPRTMQALARDGVLPNILGKGSGKNDEPKIATVITFFIALFFILMGKLDIVAPVITMFFLNTYGAVNLVSGLEVIVGNPSFRPTFKTPWYISLIGALGSYMVMFLINKTATIVSIVIILIIYFYLSNKNFKTTWGDLRTGIWAAIARFSLLKIRFDTDVEINIKEKNWKPNILVFSGTPNQRQRLVYLADVLSKGKGIIILLTYIIGEIENKIKTKKIVMENMKKYIQENNILAFPEVIIAKSMREASTYAVQANGLGSIKSNTVLLGVTEHKEHYKDYVGFLIDMINIDRNIILLKYDEEREFGNKKQIDIWWGGLENNGRLMLTIAHIFSLNDEWKNVNITLKSIITNKETQESKKEKLEHMLEYLGMKAKVEMIHINGKKVKDIIHENSKNADLVIMGLANPIFGLEEDYINRIYELTETLPTTLLVKGVNLIEK;locus_tag=LOCUS_08240;note=WP_011404985.1 Na-K-Cl cotransporter (Salinibacter ruber) [pid:36.7%25%2C q_cov:98.1%25%2C s_cov:94.4%25%2C Eval:8.2e-139],MGA_828
sequence03	MetaGeneAnnotator	CDS	132708	133391	.	+	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIYFLLGLGFGFILGGIIFHYSKPKKINIPIQSHIKSENNKNIINEIENISNIPISTTSSALTTEDSIKSNLDTPFEFDIPDNFYQIQIISSNSIDIPKKVQKNLATIIDTQIYKIGNFYRLFSKKQYSIKLASDLAKEIKSNYKYNPVIWKNNYKVIFLKSKDKNEVYNINNKINTIIDTQIIQHNKNFLLVSKYLIAENLAKDLQKDIKKRYNLDIILKKLGD;locus_tag=LOCUS_08250;note=MGA_829
sequence03	MetaGeneAnnotator	CDS	133649	134338	.	+	0	ID=MGA_830;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016603.1;translation=MRLDKYLTECGIGTRSEVKNIIKSGKIKVNDIIIKNNNIKINENKDIISYNNNILKYKAFRYYVLNKPNGVISATEDNIHRTVLDILPNFVIKKNLFPVGRLDIDTEGLLLLTNDGKFAHSLLSPKKHIEKTYEVHLKNEISKDDIYKLENGVIILNNYLTKPSKVNKLKSNKILLTIIEGKFHQVKEMLKAINNEVVYLKRIKFANLSLDKLNITTGEVIEINKEDII;locus_tag=LOCUS_08260;note=WP_011016603.1 pseudouridine synthase (Fusobacterium nucleatum) [pid:56.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-65],MGA_830
sequence03	MetaGeneAnnotator	CDS	134335	134907	.	+	0	ID=MGA_831;product=acyl carrier protein phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963009.1;translation=MNYLGHSIITTHIPEKDFGNIFGDFFKGNPSYLDLPKNIINGIILHRQLDSFVDNNNIYLKNTIFFKEYKLYKKILLDIYFDHFLAKNYQKLFNDSLKESSKYIFNLAITNKQFLSEENISKLNWLIKNNSLYYYKDIDFIKYTLNGISYRFKNIDLSTSIEIYKKNNKIIDNNFFEFFNLLTKKREYLL;locus_tag=LOCUS_08270;note=WP_011963009.1 acyl carrier protein phosphodiesterase (Flavobacterium psychrophilum) [pid:32.3%25%2C q_cov:81.1%25%2C s_cov:78.2%25%2C Eval:3.3e-17],MGA_831
sequence03	MetaGeneAnnotator	CDS	134899	136320	.	-	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIFNKISDKVYSLKISYRITFIYTMFFLVILLFINIIVSSLTNVIILGMMKNELINQRNYVFAQLQQYNTFGGSVINLKNLLLSLNREDKYIYSNIKYQKNDYYWTYKNMTIKIPLEKNLNSINVYRLEDGTTFLYLNSKYEKGDLKINLQLIKDITELNNFYTVLRMILFITSIISLITSIFLGKILTKSILTPIKNITNTSKDITVKNLDKRITLPENDDEITELINVINTMIERLEISFKNQSKFISDASHELRTPLSVINGYIDILDSWGKDNKEILDESIVTIKDEVMNMTNLIERLLFIAREDNKKIQLNLDKINVKELIDKISKDTKLIDKNKHNFIIKNEIEYFIYADKKLILQLIRIILENSIKYTEAGGEIKIYTYLESENRIAIVIEDTGIGIPKEDIPNLFNRFYRVDESRAKKTGGTGLGLSIAKSIVDMHNGNIFIESELGKGTKTTIILTKKRELE;locus_tag=LOCUS_08280;note=WP_011986771.1 HAMP domain-containing sensor histidine kinase (Clostridium botulinum) [pid:36.0%25%2C q_cov:66.0%25%2C s_cov:79.8%25%2C Eval:1.3e-54%2C partial hit],MGA_832
sequence03	MetaGeneAnnotator	CDS	136321	137007	.	-	0	ID=MGA_833;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272297.1;translation=MEKKEKILIVEDDIKISRIIELQLKHEGYNTDIAFDGIEAIKKIENNNYDLILLDLMIPKMSGIEVCQRTREISDVPIIMVTAKDEIDDKVKGLDMGADDYLTKPFEFKELSARIRANLRKVRKEKNKEIVKVNDLILNKDTFEVFRGGKKLDLSRTEYDLLYLLMENKGIVLTREKILNKIWGYDYYGSDNILDVYIKYLRDKVDKPFDKKLIQTVRGVGYIIKEVD;locus_tag=LOCUS_08290;note=WP_041272297.1 response regulator transcription factor (Desulfitobacterium) [pid:50.9%25%2C q_cov:97.4%25%2C s_cov:98.2%25%2C Eval:5.3e-61],MGA_833
sequence03	MetaGeneAnnotator	CDS	137202	137498	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLHNRKKHITIREIELFIEEKLSKPELENLKNKYKSELILNKSILLDQKKHLPDNVFEMELSEYNKHITKQKELLKILKTIFPEDDELKNINIDIE;locus_tag=LOCUS_08300;note=MGA_834
sequence03	MetaGeneAnnotator	CDS	137553	139508	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLFLKSILIFMLFSITIFANKKILVIQSYHKGFYWSDSISEGFDSVFKDSPNVEIFYEYLDLKRNYSDNYKKLIYELIKEKTKNYTFDSILLVDNYALDFYLNKGISIFKDTPVVFVGINNFNKNLLNTYKNMTGIIEKVNYLENIELMLTLHPNTKKIVIIADNTLTGNQLKNEVKQYFSRFKNIEFEIFDNFTISELKLKLNNSDKNTLYYLFPTNQTKDLSFVSYNYMKELINSYSSVPVYTSWDFYFNNAVVGGVIIDGKLHGKVAAEITYKILNGYQAKNINIIENLKPIYKFDYLLLKKYNININLLPKDSIIINQPKNYFIKNIKILLFYIIFTLIIFFIIALKYYYNSIANKKIKEINQKLEKEVENKIKELNLANKKIKEQQEKLIKEAYEKGVVKVKSGLMHNLGNIINPIYLSIQNEIANKESDNNRDIKFLNNIVYNELKNIKNPNNNLLKIINIFPDFLSALKLKKEEEIKKLKFLEKELDHIKRVIKLQENYLGILGTENYIDINKIINDILSNLKLNNSTQIILDLNNIPKILGDESQIKQTILNIILLRIKNYFKLNISTKEEENFVIIKLTDNNIEIPQDVIKNLDNLNYISDLKNKNYFKLYNILQITKKYNGYFIINSSTLKTEFIIKLKK;locus_tag=LOCUS_08310;note=WP_012545732.1 ABC transporter substrate binding protein (Thermodesulfovibrio yellowstonii) [pid:32.9%25%2C q_cov:58.5%25%2C s_cov:52.6%25%2C Eval:2.6e-56%2C partial hit],MGA_835
sequence03	MetaGeneAnnotator	CDS	139517	140206	.	+	0	ID=MGA_836;product=glycerophosphodiester phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627596.1;translation=MFILAHRGASNDYLENSISSFKNLESYLIDGVEFDVQLTKDNKLIIFHDYNLKRLTNSTNYIFNLDYDELKKIPLINKEYIPTLDIVMNLLPKNIIINIELKLPSFLNKHKLFAKIIIDFLKKIKNKDNIVISSFNHNLLNEIFLLDNTINLSPIFANEMDNFNKYIDFNFVPYSINLSKEYVSKEIVEFLHFNNNKIWVYSTNTIYEEKFLENLNIDAIFSNIIKKSD;locus_tag=LOCUS_08320;note=WP_201627596.1 glycerophosphodiester phosphodiesterase (Fusobacterium canifelinum) [pid:32.8%25%2C q_cov:97.4%25%2C s_cov:95.8%25%2C Eval:4.0e-32],MGA_836
sequence03	MetaGeneAnnotator	CDS	140217	140585	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMSSQYSFIQYEKNYQHQFRNKLNNAEEPVEVLKIFSQIISLMLNEIFEEEIKVEYEDIKLLPNDDTEYKISDKLLSNPKVNEIFNNSDIKNIIFRFSNTAIHKYRSLNKHNEKTKLKIRN;locus_tag=LOCUS_08330;note=MGA_837
sequence03	MetaGeneAnnotator	CDS	140675	141892	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKIKFSFLQFFINFLIVFIILFSLSGLFFWQIIDTQFNLYKKNIILEQKKDIYFIENLIKNKIIQIKNDINYISQLSNKSSIIKFITLNKYYTLKNNSKKNFIIFSKEDITIYFDLETFFKELSVYFEKSQSQIYFLNKDGNFINNNIYNFKTQFKEEWEKINSYEKSQFETQNGIISSKKIDNSNIFSNNNFNIIYLVSRYSSNYLTNTLNNLIFNKTTIYRYTLIFILLLSLLISYYISKSNKLSYELKKNTVYDALTGVYNRQGGIDIFELNRKLLKRSKDYMTLFFIDIKNLKKINDDYGHSEGDLVLATTGQILLESIRDSDIAFRMGGDEFVIALSRCREPQAKIVYKRIKSKLENFNTKNKKDYILEYNMSSIELSPYSLDEFDDLIKNATSISNK;locus_tag=LOCUS_08340;note=WP_012582433.1 diguanylate cyclase (Dictyoglomus turgidum) [pid:37.3%25%2C q_cov:39.0%25%2C s_cov:28.4%25%2C Eval:1.5e-21%2C partial hit],MGA_838
sequence03	MetaGeneAnnotator	CDS	141921	143267	.	-	0	ID=MGA_839;product=amino acid carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005477800.1;translation=MLELLNKIDSIIWGPPLLILLMGTGIYLTVKLNLLQILKLPLALKYIFMKNNDKEEGDVSSFAALCTALSATVGTGNIVGVATAIKLGGPGAMFWMWLAAFFGMATKYAEGLLAVKYRKIDENGQMSGGPMYYIQNGLNNKVLAKMFAIFGIAVAFFGIGTFAQVNAITTASTILFKVSPTVVGIILTILVALVTLGGIKSISKVAEIVVPVMAILYVLGSLIVIIMNFDKVPGAIGLIFKSAFTKTAAFGGFAGSTLILALRSGVARGVFSNESGLGSAPIAAAAAKTNSAVRQGLISMTGTFFDTIIICSMTGLILVLTGAWTSKLKGAELTRYAFSIGLNNFGEIVVLLGLIFFAFTTIIGWNYYGERCTEYLFGVKGIKGYKYIFIILIAIGPYLKLDLIWILADIVNGLMAIPNLIAILGLRKIIINETNMYFNNLKYSYVNK;locus_tag=LOCUS_08350;note=WP_005477800.1 amino acid carrier protein (Vibrio parahaemolyticus) [pid:62.2%25%2C q_cov:97.3%25%2C s_cov:95.9%25%2C Eval:1.2e-152],MGA_839
sequence03	MetaGeneAnnotator	CDS	143572	144786	.	-	0	ID=MGA_840;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627649.1;translation=MKKAELLAPAGNMEKLKMAFHYGADACFLGGKLFNLRSGSNNFSNEEIKEAVEYAHNIGKKIYVTLNIIAHNQQVDMMVPYIKFLDEVGVDGVIVADLGVFQLVKENSNLKISVSTQASNTNWRSVKMWKELGASRVVLAREVSLEELKEIRDRVPDIEIEAFVHGAMCISISGRCLLSNYMTGRDANGGDCAQACRWNYNLVEEKRPGEYYPIYEDETGTHIFNSKDLCTIEFIDKILDIGVDSLKIEGRMKGIYYVANAVKIYREALDSYYSGNYQYNPKWLEELQTISHRLYTHGFYFGTPDESAQNYNDRNSYSQTHKLVAKVLEKLDNNEYILGIRNRLEVGEELEVVKPSSEIEKIILPKMINMKTGEEINKAHPNMTVKITLENDLNVMDMIRQKIS;locus_tag=LOCUS_08360;note=WP_201627649.1 U32 family peptidase (Fusobacterium canifelinum) [pid:68.6%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:2.6e-167],MGA_840
sequence03	MetaGeneAnnotator	CDS	144813	146147	.	-	0	ID=MGA_841;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903028.1;translation=MEVESLNRVPYSEEAEKSVLGGILLKQDALSDIIDILRPNDFYKLSHKYIYEAMLNIYSHGEVIDPVVLINSLKKMDRFDEIGGENIIYEILDEVPTAANILSYAKIVKEKSILRELINVGNKVVELAQTGYEEVDSILDKAEGLIFKISESKENKEVVSISSLVNEEFERLEKVVKNSGATTGISSNFKEFDQMTSGFHPSDLVIIAARPSMGKTAFVLNLALNAALNENKSVLIFSLEMSNSQIFQRLLAIESKIPLNKIRNGFISEDEWGHIALATGKLANTDIQIADVPNVTVLEIRAMARRLKAAGKLDMILIDYLQLIKGSGRTESRQQEISDISRSLKGIARELDVPVIALSQLSRAPEQRADRRPMLSDLRDSGAIEQDADMVVFLYRDEYYNEDSEDKGLAEIIIGKQRNGPVGTITLKYFNEITKFADYTAQIK;locus_tag=LOCUS_08370;gene=dnaB;EC_number=3.6.4.12;note=WP_005903028.1 replicative DNA helicase (Fusobacterium nucleatum) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-123],MGA_841
sequence03	MetaGeneAnnotator	CDS	146248	148164	.	-	0	ID=MGA_842;product=Lon family ATP-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048441.1;translation=MDKLLDKIRGIKDITFFKDASKAKKSEKKIDVLYGLLANVYGAKNMVEIAKTKGVLEELKSLDVKERAYALLVITANNNTHTDIIVTEKELDKALEVLEERAAEIISLKSIEKEITLKVNKLMEEKHKEYLREMKKKIISEEIGPESEFSKNKLKEIEELESKKKLKTVMETLRPQKLSEIVGQEKAIQALLTKLATPYPQHVILYGPPGVGKTTAARLILEEIKKLDYTNFEKDAPFVEVDGTTLRWDPRDVSNPLIGSVHDPIYQGAQKDFASDGIPEPKIGLVTKAHGGVLFIDEIGEIDIKYQSKLLKVLEDKRVNFESAYYDPENPKIPKYIKRLFEKGAPADFILIGATTSEPKDINIALRSRVAEIYFEPLNSIHIKKIVQNACEKLNVEIEEDALDLISNYTIEGRKAVNILADVYSSLLYKNYKNKKSDKFIIKMNDVEKIIKINRLNRFSRNKGKDKKEIGRVFGLGVYRYLGSLIEFEAAIFENKEGKGRVRFNETAGSMTKDSIFNALTVAKNYTKLDTEKYDIHINIIGGGKVDGPSAGAAITTLIISVLKNLPMRQDVAITGEISLIGDIKPVGGIVEKIYGAKQFGMKKVLVPYENKNDVPEHIEDIEIKLVKTIDDVIKELS;locus_tag=LOCUS_08380;gene=lonC;note=WP_012048441.1 Lon family ATP-dependent protease (Clostridium botulinum) [pid:53.7%25%2C q_cov:95.3%25%2C s_cov:95.1%25%2C Eval:2.3e-182],MGA_842
sequence03	MetaGeneAnnotator	CDS	148180	148629	.	-	0	ID=MGA_843;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903027.1;translation=MSKIKVILKENIKGQGKKGEVISVSEGYAKNFLFAQKKAILATPEELKRLESRKEREAKKEEKEKEKAKKNKELLESKPLETTIKVGNNGKSFGAITSKEIAILIKENFNLDIDKKKIDAHFKNIGTHIAEVKLHNDVKANVKVVVKGK;locus_tag=LOCUS_08390;gene=rplI;note=WP_005903027.1 50S ribosomal protein L9 (Fusobacterium nucleatum) [pid:48.9%25%2C q_cov:91.9%25%2C s_cov:91.9%25%2C Eval:3.6e-29],MGA_843
sequence03	MetaGeneAnnotator	CDS	148650	149444	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTLILGVVYFYLGLFAPLFSFVFPFFMINQKKKFKNSYIKFNIYTYILILLLSFTAKEDKIIVVIFVVNYVIIQIVYFFINKINNFEKIFLSSVLSSFNFLIFYLIQKDFFDKNLKLLQEVYINYFKLNQQEVINYFKFFKSNSLYIIFIYMFLNVLILYFLINKKYFSNIKFKYYYLIFFIISIIYLKYIGYNYILNNLLQIIQFTYMIYGVYKAYSILKIKNRFMSLSIVIMIFLISPFIYFLFGAFESFDLNIFNKKKV;locus_tag=LOCUS_08400;note=MGA_844
sequence03	MetaGeneAnnotator	CDS	149463	150545	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIINEDELLTHCEALIKKSNGDSYQILKAQYVQQLLYAYGLKDIIIDEKGNVIGKIIGKKKDDIIVINSNLDNGIVDEEPLFTFKKIVGKGVIEASVPHFILASLARRLKLEKLENTVYFIATTDSKKGNIGLNYFLQKYKPQIKAFINLEGLSLGEINTKCVNIKRGEIHIKGKGGHVWKDIGVGNPINAIYKIIGEINKLTSEDIIFNLSHIESKSSFDMLADTGLVKYEIRGFNIDILDETEKNFIKALKEISKDERVEIELKNKLEFKINEPNIEKKIGNIVTNTAKFLDIPSYSTSSHIEIIPVLQNGIDAVSIGVIKGDKLGRDDEFGIINSINKSMELLYLSILEIDKII;locus_tag=LOCUS_08410;note=MGA_845
sequence03	MetaGeneAnnotator	CDS	150549	150755	.	-	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNEGKLDRIIRIVIGVIFLLISFISSGILFWISLILGIISLVTGILGWCGLYQLFGINTCKIDDQE;locus_tag=LOCUS_08420;note=MGA_846
sequence03	MetaGeneAnnotator	CDS	150929	152485	.	-	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVENDIQEKYKKLEEELQELKNKYSERSFKIMALNQLTQTIALEKDLNTLKYVICDMFFEVNLVQKAFAFSITDKKLEILNKKGINIENNNVKLNYNEKFLEELVKQRVISINIAKQRGFLSEITESFYKGYIISFKLIKGEEIEYFIIIIGEKSLGDYTDVDTEFLTTVSGQISIILENSSYTYQMEEKNKELSKTNFNLTVLNYASTLLNNTLDLNELINYVIDIFFEIYKAKKFIIFNFDEDKSEFKLHSSNGYVFLNDNKTFYINENLKYRILSSANIKNYKELKNSEIIEGLEKIIELNENTYLIPFVNKQLIVGAAIIESEEKIDTDFYNTLKLQITTALNNSKLYHSAITDGLTNLYNHIFFERQLKLEMYKHVKTSLLLIDVDNFKRFNDTYGHVAGDKALKTLAQTIKAYIRKQDIAARYGGEEFVVLFPDTELEEAYEIAEIIRKGVEDVIIEYEGAKLKITISMGVGEYNKSMNIDMYKFVSNVDSALYKSKRNGKNMVTKYIKDIE;locus_tag=LOCUS_08430;note=WP_010956680.1 sensor domain-containing diguanylate cyclase (Treponema denticola) [pid:31.7%25%2C q_cov:64.1%25%2C s_cov:92.7%25%2C Eval:4.3e-35%2C partial hit],MGA_847
sequence03	MetaGeneAnnotator	CDS	152502	154166	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYYEFMYVEKLGKNVSKDEKVKAITELGKMKSIVAKDSLIKIAKNENESFSVRESAIHALIEIGDASFLDNFLPLSKIQDEDILELLIYGIKKLKAEEYVKYFKDFIDNENINIKLEIIDTLNIIHTEEAIKLLLKYYNSKEKEIKNLIRLYIQDSKVFLDYIENMSEIELLNILGLIPAEKALVVLKKLISEVTDKNIIKILISSIADLHIKGTGELYEELFDKLEEKEDKIKLIESLENVENNEKNKFLLRLLDNSDRDIRAKALTSFTNIEEEEILEKLKTMLFTENEWWLIKKLVIMLLGKSKNLNIFKQFVLLLSEESDERIIRTLIVELGNLKNEKAIPYIKKYITSNKQDIRKVAIESLAKLGYNEILEDVLKENNVIENIKFETIDILLNYKDERVEKILIEILNKRRYEKPIMERAIKMVEEFQIPFKLFKDFVIDKKVDREIRAKLIVNAVKYDKNSVEKLFMKILETDDEWWMLKKIVLLVVKDMKLYNLIDIVIKYVNNIDERLSKTAKDVAKSFYGALLVEKLKDEDIKNIAEKFMKII;locus_tag=LOCUS_08440;note=MGA_848
sequence03	MetaGeneAnnotator	CDS	154183	155646	.	-	0	ID=MGA_849;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903025.1;translation=MKHVTLYRKYRPTNFDEVAGEKDIIKTIRNSLKRDSLAHAYLFTGPRGVGKTTTARLIAKGVSCLRNGITDTPCNECENCIDINNNNFIDLIEIDAASNRGIEEIRALKEKINYQPVKGRKKIYIIDEVHMLTKEAFNALLKTLEEPPSHVIFILATTEPEKILDTIISRCQRYDFSSLSFSEASEKLLEIAANEKKEIDIESLKLIYKKSSGSMRDAISILEKVISSSIEENIVLESVERILGIIPKEKIEKFITIIKSKNIKEGTVFLDELWNKGYDLEGFFKDLAYYIKDMLVSDNKEFEISEYIKIIEIIFDVLNKFKNEEDKRLLGYIIFYKILSENKTDIKIIREMKETTINKNLQMNTKEISKELVINNNITFEMINEKWKEILNVAYSNKISLKAMLFTAKLYKYSENIIYISFPKESAYHRDMMIRDEYSSILENAIEEVLKIKIKVKYVLLGNNNIKEKTKDDFVEKLIEFFDGEIK;locus_tag=LOCUS_08450;gene=dnaX;EC_number=2.7.7.7;note=WP_005903025.1 DNA polymerase III subunit gamma/tau (Fusobacterium nucleatum) [pid:45.7%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:9.0e-112],MGA_849
sequence03	MetaGeneAnnotator	CDS	155659	156606	.	-	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYEKTNNNLFYIVLVFSMVIHLLGIIFLPGFREKEIEKDQEIKTIKAGIISIKDDTKKKSTVPKKIIEKKKIAPPKITKIEKKLEKSPKKKENSKENLKKIPVISVKRKSKRNIDDIKILSTNVDGALTTRKINVEIPTTSVDDTINRDIVVLEKESTQEKVKMIEDLKLDVKAKEVDYINTNTKNIGTKFDINDRVIDTENILELDGTEEEIAMPKNITSQVLEGNGRAIWYEGNELPKYPRKAELKGLNGNVTVIFTVKGAKTIYEGIERKSGESEIDRAVEKVARDWKISIESDNGILVDGKVKIKVDFNF;locus_tag=LOCUS_08460;note=MGA_850
sequence03	MetaGeneAnnotator	CDS	156616	157059	.	-	0	ID=MGA_851;product=biopolymer transporter ExbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779456.1;translation=MKIRKIRDRDRKMLTIDLTPLIDVVFLLLIFFMVGTTFIEVNTGIKIELPKSTVKELSKIKEIIILADKNENVQLLINEKNGKRNTVNIKKTDDLKEILAKKLANSENKNIIIKADKSLSHGFIVDIMTKAKDAGALSLDIATENSK;locus_tag=LOCUS_08470;note=WP_021779456.1 biopolymer transporter ExbD (Fusobacterium nucleatum) [pid:41.4%25%2C q_cov:94.6%25%2C s_cov:93.9%25%2C Eval:2.4e-22],MGA_851
sequence03	MetaGeneAnnotator	CDS	157070	157684	.	-	0	ID=MGA_852;product=MotA/TolQ/ExbB proton channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894436.1;translation=MLEIFKSGGPLMYLIAALSILGFAVIIERFIYFFVHERGNTDIIKEELKVYIEKRDIERAQELCTLYNNSSIIVLKGILEEVEYAHEINIENLEEKAREIALHRIPSLEKNMWLLGVTATVTPLVGLLGTVSGMIIAFREIAKVGTGNPAVLADGISQALITTAAGLTVAIPAVIFYNFFNRKIEQKINEMEKVSVEVINILRK;locus_tag=LOCUS_08480;note=WP_005894436.1 MotA/TolQ/ExbB proton channel family protein (Fusobacterium nucleatum) [pid:44.8%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:5.3e-43],MGA_852
sequence03	MetaGeneAnnotator	CDS	157781	159460	.	-	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKILLYLLISSIIFANETKDNEYDISTEVKGELKKVYNVGRDLKDGIKDIDIKDIELKNLNIDTKVDIENLTAETKETALNVNDDLNEINIDDIIENVKNLSNTKKDSNIFYMGIGGYKKLDAFNYGINYTSKYENINYIINLKREVAGEYRTHSDKSTDYFSIDMDMDKYNVKISHELLNQDFEGIKNVGTGTDKKYSNTDFDLKYELKNEAKESIFLGTNMYISESTSTEVLRNFSNYFIKLYGEYEAVINSNQFNHILLTEGGYYIDRFDESGTGVLYVDVNDRFKYDKYKDIDFKATAGLEIANRQHEKSETGLNFGFEGTKPLKNNISVSAFINNINKNSNYRNLVNNFKIADDIIEIVDASNNQTELLTEKNFNIGTGINYIKDSLYLEGKLKINNAKNKIVYQEKSISATENAIEIYNYSSNINWIELLSKATYTKDNYKGEFILDLSTLEKIAYSPKSTIKLNGSYEMGKNMYELSLVNYGKFYTTDAKDTSRYLIKSYNLVNFKYNYKLSPEMKISFNINNLFNNKSEEMKGYTINGRKLMLNFEMQY;locus_tag=LOCUS_08490;note=MGA_853
sequence03	MetaGeneAnnotator	CDS	159474	162296	.	-	0	ID=MGA_854;product=tetratricopeptide repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015862.1;translation=MKKKLLLLILFSSLYIQSLSSDLDDMKYIQKLYQNKEYEITLMELENFILKYPNSKYYSTAVYMLGNTYYITKDYENAEKNYKKILNSEFSDKAYYYLSVIYINEDREEDAKVVLKKISRDSKYREISTYNLAQYLYKKGKVDEAEIYFKSLISLQGENKKQGLLNLGVISYNKGEYIKATVYLEEYISLEKNDKDNIARAYYMLGVSYKELEDVMSAIDYYVKIENEYKNSVYYNETLRDLMLIYRELKDYKEFENYALKLKGTKYEMLANILLADYKYDIKEYAEAEKYYRFVLEKNENEDIRLKYSLVLLNENKKNETIESLKKLKDTKYHYEYLYYTAYLLYNDKKYKEVLTLLEGYDSNGNVKYENYLDIFLAESAYVLKEFNLAKKYYNKIYTKSKNLEDLYKLVLINSSLENLDELENLYNEYNSNFSNDRKYRKEIYLTIGNIYIKNNELEKGEKVYKEFLKIQDDSVILENLITVLLKRGKYKELLIYLDKEEIDDENIYLRGIANLGLSNFKEAEKAFLSLIKSEETSVKEKERANVKLVEVYLLTKQFEKVIKYAQEYEKNQYKLDYNTIMQNKALAYFRLNQYENARNIYKELEKNNDYKDLATYMIAETYYNEKNYKNAKIYYEKVIKNSKNEKNIENSKYWLINIEYINNNFDVALNKIKEFEDNYKKSEYLNDISYIKANIYLKQNENKLAIKEYKEIYSKTTDLIKKETTAKKIMELYYAENDIQNALKWNNLLKDKNYKTLYKGFIYDKAKQPKKAFEEYLKITKDKKYGDIANYYIGNYYFNDNDYEKAREYYEKVLSFEISEYKDKALFKIGESYELENNYLKAISAFLKIKLIYTESNLQDIVLIKLGELYELDGKFNKALLSFKEYYDKYKHGSDYPYVVEKLMVYYINNKKLNVAKNYYIELKKLNKENASKYKEYFN;locus_tag=LOCUS_08500;note=WP_011015862.1 tetratricopeptide repeat protein (Fusobacterium nucleatum) [pid:25.8%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:2.7e-97],MGA_854
sequence03	MetaGeneAnnotator	CDS	162304	162855	.	-	0	ID=MGA_855;product=DUF116 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903018.1;translation=MKKINIILIKILYSLYYIIILIFIKIRKEDYTNSNISEKFIQFNNKRVMKIIKNKKIKSNEIALLLPHCLQAYECTFKITSDIENCKECGKCVIDKIIKLKKKYGISVKVATGGTLARIFLKKHRPKLVIAVACERDLISGIYDSIPLLVYGIFNTRENGPCINTNVNVEEIETVIKTISEKE;locus_tag=LOCUS_08510;note=WP_005903018.1 DUF116 domain-containing protein (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:83.6%25%2C s_cov:86.4%25%2C Eval:7.8e-37],MGA_855
sequence03	MetaGeneAnnotator	CDS	163111	163704	.	-	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILILFLLIGSISFAKININIKAGYPIMQNVAVDTAGTSAIQKADSLSKLAFDTELSIPTGGPTEFLLGAKTSLFRISNTVSSLGEDLKILDVSPYGTFKLNVYGYNDQGEDLNIIPYFYGTVGRPVLVTNSVTGGSVTLKGVSFYEIGMGIEYYDIMLEASYSESKYDITTAAALTYLSLKTLNLKFGIKFFFF;locus_tag=LOCUS_08520;note=MGA_856
sequence03	MetaGeneAnnotator	CDS	163807	166005	.	-	0	ID=MGA_857;product=1%2C4-alpha-glucan branching enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056426.1;translation=MQSSKTNIILLQEEIERIVNASLADPFLFLGMHKLNEEQVVVRVFNPEAKKVRFYSDIEDRYLTKIDERGLFEEVFDSKKVFKYEIEYEYFSGNTFRTRDPYSFLPVLTDYDLYLFNEGNHHKIYEKLGAHVITHEGVKGTQFAVWAPEAQRVSVVGNFNNWDGRVHTMRILGATGVWEIFIPEVCENDIYKFEVKTKSGAINLKSDPYAFKGEKRPSTASIVYDIENKHEWKDEKWMNERPKINWLERPVSVYELHLGSWKRKNENEFLDYKDLAHQIMEYVKENNYTHIEVMPVAEHPLDESWGYQVTGYYAVTSRFGEPHEFMYFVDLMHQNGIGVIMDWVPGHFPKDAHGLGRFDGSALYEHEDPKQGEHMDWGTYIFNYGRNEVKNFLISNALFWMDKYHIDGLRVDAVASMLYLDYSRKDGEWIPNQFGGRENLEAIEFLKYFNSITHQYHPGILTIAEESTSFPAVTKPTYLGGLGFSLKWNMGWMNDSLEYISKDPIYRKYHQGDLTFSLIYAFSENFKLVISHDEVVHGKGSLINKMPGDDWQKFANMRLFYSYAYAHPGKKLFFMGSEFGQWNEWNCNQSIDWHLLQYEPHKKLLEFVKTLNKVYKENKALWEIDFSYEGFEWIDFNDSDNCIISFVRKSKDGEKIICAFNFTPAVQNDYRIGVPESGYYEEILNSDSEIFYGSNVGNLGGVYSEPIPIHGRNDSIRINIPPLAGVYFKLKK;locus_tag=LOCUS_08530;gene=glgB;EC_number=2.4.1.18;note=WP_011056426.1 1%2C4-alpha-glucan branching enzyme (Thermosynechococcus vestitus) [pid:53.2%25%2C q_cov:98.4%25%2C s_cov:97.5%25%2C Eval:1.1e-241],MGA_857
sequence03	MetaGeneAnnotator	CDS	166030	167151	.	-	0	ID=MGA_858;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904330.1;translation=MLNITVNRNKFIKALKIVEKAVSENKIRPVLSGVYLEAINNKIYLKGTNLEMTISAFMFGKIFEEGAIVFSPSLIDEYLREINDEEINLYVENNILIIETEDSSSEFSLFDVTEYPKLKEFKEGKEYEVSKMLLEEMFEKSKIAAATSNENPAINCVRLEFEEGKIKFVSSDTYRLLYLEDDLDEAYGESYKISIPLLSVEALIKTLKSVADDFVKILINENQIAFKFEKEVFQTRLVDLAFPDYGNILRNINSNKEVLVDTEKFIALLKRVSVFVKNNNENKNSAIFKFKDNKLIVKGVSDIAKIIDEVDINKVGEDLLISLNVKFLLDYLQFLDKNEKTEIKLYDSKSAVTIKSVSNPKSIYIAMPLALRD;locus_tag=LOCUS_08540;gene=dnaN;EC_number=2.7.7.7;note=WP_005904330.1 DNA polymerase III subunit beta (Fusobacterium nucleatum) [pid:37.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.1e-70],MGA_858
sequence03	MetaGeneAnnotator	CDS	167168	167503	.	-	0	ID=MGA_859;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000406877.1;translation=MNITTTDINESIKKIDIQGEIDVYTSIDLKLELNNLVDNGSHKLIIDLENVTYMDSSGLGVLVALLKRIKTEEGQLKLLNLPPSVAKIFELTRLTKFFEIYNDLDNAINSF;locus_tag=LOCUS_08550;note=WP_000406877.1 STAS domain-containing protein (Leptospira interrogans) [pid:40.5%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:1.1e-18],MGA_859
sequence03	MetaGeneAnnotator	CDS	167533	168357	.	-	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEREKDLVSLYLKDIRKYDILTKEEEFELLKKAQQNDKEAKQKLILSNLRLVVNIAKSYTKKGLSFIDLISEGNFGLIHAIERFDPDRGYRFSTYAVWWIKQAISKAIISKGREIRIPSYKHDLLNKVNKFIMNYITKNSSYPTIQEISKGTELSIEKVEKVMLEFQEMMSLNSVIGEDIYLEDTISDDDEETLEEKIINQIAREEINKILSFLKPREREIIILRYGLEGNEMHTLEEVGRKFNITRERVRQIEKKTLQKLRDKYSDKLKIYLK;locus_tag=LOCUS_08560;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:45.2%25%2C q_cov:98.5%25%2C s_cov:66.1%25%2C Eval:8.8e-59%2C partial hit],MGA_860
sequence03	MetaGeneAnnotator	CDS	168386	169387	.	-	0	ID=MGA_861;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010931786.1;translation=MSKIVVMGAGSWGTALALLLAENGNEVVLWEFFEERAKEMQKTRRNNYYLGGIDLPDNITITNKIENILDGAEYLLFSIPSQNLRNAIQLVSSQLTEDIIIINTGKGIEVSTKLRLSEVIKEEILGKYHKNIVALSGPTHAEEVVKKLPTTIVAAGEEEKAQKVQELFSNNYFRVYYSTDITGVELGGALKNCIAIAAGIVDGLGYGDNTKAAVITRGLAEISRFSKNFNAFEKTFSGLAGMGDLIVTCTSQHSRNRYVGEELGKGKKIDDILNGMNMVAEGVPTIKAVHEISKDKNIDMPIIESLYRIIYENENILKIAKVLMERDLKEEFY;locus_tag=LOCUS_08570;EC_number=1.1.1.94;note=WP_010931786.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Chlorobaculum tepidum) [pid:48.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.4e-83],MGA_861
sequence03	MetaGeneAnnotator	CDS	169398	169997	.	-	0	ID=MGA_862;product=glycerol-3-phosphate 1-O-acyltransferase PlsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016461.1;translation=MKFFIFLIVSYIIGSIPSALIVGKIQNIDVREHGSKNIGATNAYRVLGRKYGIIVFLMDMFKGMLPLIFASTFGIKDNYLVLIGFISVIGHTFSIFAKFKGGKGVATSFGMFIFLAPIQSLISIIIFIIIVYLSRYISLGSIISAIILPTLVLLLPVNKVISDKRLISVLSLLLGAYVIYKHKANIKRLINHNENKFNF;locus_tag=LOCUS_08580;gene=plsY;EC_number=2.3.1.15;note=WP_011016461.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Fusobacterium nucleatum) [pid:45.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-46],MGA_862
sequence03	MetaGeneAnnotator	CDS	170497	172428	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGRNDPCPCGSGKKYKKCCINKLSEQNVEELYLKQLELTRGLKNEKNCHTILEIGKRIVSKNSRHACITGTYVNMALAKRVLYCLNHNLSDLKDAKIYCNKALELKDTNQAALKNMYGICLELKEYQDACLYLSKYKDTNIFSPMSIQIIEEYQNAIEYANRDNYSQTIKEGLDKITDTLFNKFGMNAGLCGVAIMYYLGIGNDTIRAYELGKRCIEEWPNSSTYNSLGWICLNSEIKRKEDAISYFLKAIELSNDDKQKTQIRGNYFVALMENKHFEKAEKLILDLIKINPCNQNFSNYAELLKRQGRFEEALGWGNKALFLIEDDTTLLVVADIYKRMKKYKDAVEMYQLCLGHINAGENVYKFNDTNKYKMYSIASNNSLDLILYEILKGLISSFNLLRDYENAKAYLEIAKEKLPQKSDWEIWDQTLPEIEVTLEKHKEIKMKLTEIEKCISAQKNFIRNWAFKLMQLQNNSEQLNLNEDDDWTEYEKEMENILNEMSKIINKESIVYRNAETFVNSTFAHLNNVAKEFLITAETLYEIHKFSIIDFAPIVVEYCKVVEKQLRVLLGSRVPSDAKTLGGVLYTIRNNRISPYNQYLGDLYSVNKLRKSGAHTGNLRKNDVDKIRNIFYTNNLLNRLI;locus_tag=LOCUS_08590;note=WP_011948295.1 SEC-C metal-binding domain-containing protein (Clostridium botulinum) [pid:95.7%25%2C q_cov:3.6%25%2C s_cov:6.1%25%2C Eval:1.7e-07%2C partial hit],MGA_863
sequence03	MetaGeneAnnotator	CDS	172443	172946	.	-	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMINQLTEREVLQRLDIPDFRHITKDKVMTFASMLQNMEPEVAKKALEQFPEFAKMTLEVLKDYKGVMEKTLDENSASSKQCYDIYNEVMDALKSCLAKDHVPFDEKKYYIEKMMEIAKMAESKDTENKEFNWKMISLGAVAVFTVIGIGASILGSNTNIKLPKTKL;locus_tag=LOCUS_08600;note=MGA_864
sequence03	MetaGeneAnnotator	CDS	172956	174647	.	-	0	ID=MGA_865;product=DUF262 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002853121.1;translation=MSELIDDSISIYEAIQNIKNGKYVMPAFQRQYVWNMEQIEKLWDSILLDYPIATFLFWHVDDNNVTWDTYFCNFLSEVTFDSRKQADSVNYELSNIDVKITNTAVLDGQQRLTSLFLSLLGQAFIRQKHARRKNGGGIVTKLLIELNKNKLTVDEEEYNSKKYDIKFSEKVGKLSPTQFEIKCILDSRFQDETTRDKAIEDAIANVPSDSKEYARGILNKLYNKIFVDKLIRFTEIHDMKQDDALEMFVRFNSGGKALKKSEITMSILEAYWPSAKTEFGRLLVDSYAGFGSDFIIRSALMLYGDVVKSNISKQIAEELKNNWSEFKRALKNLETVLKGMKIEVRRFSSSWNVLLPILYFIYYNPDYGNNLDGIRAYLIRAILFTYFQSGTTGKLQQMKSRINENDYEITVDMLNQMNDLRVTDGKIEDILNTEKGSRVAGEALYYLSLDWINKNFKYEQDHLHPFDRFDGSKPISVSMEEWRRWRGNRNRLANLHLLEGRSNGSKNDMRLVDFYNDMNDEQKAEFCKQSFIPQGISLELENFDEFYEKRKTILTERIRALLG;locus_tag=LOCUS_08610;note=WP_002853121.1 DUF262 domain-containing protein (Campylobacter) [pid:28.8%25%2C q_cov:98.4%25%2C s_cov:98.3%25%2C Eval:2.3e-50],MGA_865
sequence03	MetaGeneAnnotator	CDS	174791	175546	.	-	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIDMKFFNVYYFCHLANESMGEFNYARTNAEFTERQFEIEPEDFPKVSVLREYCSWLIDRVFYEQANSISNSGEVADFNPINWINQAILKYKGINVSINNDFTIDYEDFLETYNEYISYLDKFEDGLFYDVLYDIATEVEYILFQNRDFLLRFNEQQAVAFEDNPRKRVYIPEWVKRAVLFRDKGCCVFCKKDLTGLYSLLEDNEKHFDHIVSLNEGGLNDVCNIQLSCKDCNLKKSDNSKTSTLYQSAY;locus_tag=LOCUS_08620;note=MGA_866
sequence03	MetaGeneAnnotator	CDS	175549	176070	.	-	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRNINISIDEDVYEKFCLAVNLTKDKENDAIETSMRWYIAKTFEKASQDYNPKVATKKIANESNDYYGKAIQRIPVWALKPTQYNHKIIRAYFEAVNIAGQATITMMEQLCSDKEHPELYVPTFKNNYSQMKIDGPKSHGKVFEDDGNNVWIWSEVEETLMKYKSSFYNLEE;locus_tag=LOCUS_08630;note=MGA_867
sequence03	MetaGeneAnnotator	CDS	176239	177807	.	-	0	ID=MGA_868;product=recombinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000301254.1;translation=MAVRNITVIPAKARVGNTASEVQIPKLRVAAYCRVSTESDEQATSYEAQIEHYTELINKNPEWKLAGIYADDGISGTNTKKREEFNRMIDECMAGNIDMIVTKSISRFARNTLDCLRYIRQLKDKNIPVFFEKESINTMDAKGEVLLTIMASLAQQESQSLSQNVKLGLQYRYQQGIVQVNHNRFLGYTKDEEGHLIIEPKGAEVVKRIYREYLEGASLIEIARGLMADNILTSAGKEKWRSETIKKILQNEKYIGDALLQKTYTVDFLTKKRVKNDGIVPQYYVENNHEPIIPRDLYLQVQEEMERRKNIHSGKSGKKRVYSSKYALSTIVICGRCGDIFRRVHWNNHGCKSIVWRCASRLDKTAADCLARTIREEDLKSAVVQAVNKVFESKTQFMDILNRNISVVMNQIDSSEIELINQKLEQLQKELLKQANNNQDYSILANEIYRLRDEKETAMVKNAGFASQKQRMTEMTKFLKNQKSIGKEYDEHIVRKLIEKITVYDEKLTVEFKSGMELDVEM;locus_tag=LOCUS_08640;note=WP_000301254.1 recombinase family protein (Streptococcus mitis) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-209],MGA_868
sequence03	MetaGeneAnnotator	CDS	177809	178243	.	-	0	ID=MGA_869;product=recombinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000510187.1;translation=MAAHIPYGYIIKDGKAVIDEVCAKQVRQLYENYLSGDSLQNAAAKAGINTWHGTVSRILENKKYTGTKYYPSIIERDTFETVQKERHRRAVALGRVKEETANEPPALDVPPAPPKFWMKPLEIKFQDPYKQAEFAYSLIESEMS;locus_tag=LOCUS_08650;note=WP_000510187.1 recombinase family protein (Bacillota) [pid:50.7%25%2C q_cov:97.2%25%2C s_cov:98.5%25%2C Eval:9.0e-35],MGA_869
sequence03	MetaGeneAnnotator	CDS	178244	179809	.	-	0	ID=MGA_870;product=recombinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461951.1;translation=MKKVTKIEPASVSSLVQRKLRVAAYCRVSTTSEEQLESLNAQKEHYEKYIKAHPDWEFVGLYYDEGITGTKKEKRKGLKAMLTACELKQIDFIITKSISRFARNTLDCLEMVRKLIGLGIFLYFEKENLNTQSMESELILSILSSMAQDESTSISQNSKWSVQSRFKKGTFKISYPPYGYANIDGKMEVIPEKAEIVRGIFREALAGKGCYTIARELNESNTPTKKGGKWTGTSVRGILSNEKYTGDALFQKTYTDSQFNRHINSGQQEQYLVTNHHEAIINHKDFDRVQAVIRQRGSEKSVKKGSSKYLNRYVLSGKIICGNCGSHFKRRTHYTAKGSYIAWTCQTHIEHKDKCTMKYIRDDEIHKAFVLMMNKLIYGYKVVLKPLQAALKTMNGEERITALANLDERIVKNTDRKRVITELVGKGFLDATFFTKELSDIAAEAEMLAQEKKRLENSATGNQKQRLELDTLIHYIVKKPEIREFEDTLFERFVENIVVYSRNEIGFCMKCGITLRERMVN;locus_tag=LOCUS_08660;note=WP_011461951.1 recombinase family protein (Desulfitobacterium hafniense) [pid:37.1%25%2C q_cov:97.1%25%2C s_cov:95.5%25%2C Eval:8.9e-89],MGA_870
sequence03	MetaGeneAnnotator	CDS	179861	180085	.	-	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVTKIDGNYRLSSKVKKKSNEQLQREYDYIRADQITKRMFEKGLITEDELNKITELNRKYFSPSLVEIMPCNR;locus_tag=LOCUS_08670;note=MGA_871
sequence03	MetaGeneAnnotator	CDS	180151	182118	.	-	0	ID=MGA_872;product=DNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002399687.1;translation=MKNLEIDIETYSSVNLAKSGVYRYAEASDFEILLFGYSIDGGKVNVIDIANGETIPAEVLNALTDDAVTKWAFNAQFERICISRFLSDLGISLNPLSTEPKRYLNPASWKCSMVWSAYMGLPLSLVGVGAVLGLEKQKLTEGKDLIRYFCVPCNPTKRNGGRTRNLPKHDIEKWKRFKTYNKRDVETEMQIQQRLSKFPVPDSVWDEYHLDQEINDRGIKVDKVFVKQAIAADKISHDKLMTVMQELTKLENPNSVQQMKQWLLENGLKTDTLGKKAVAKLIEDAPERLVKVLKLRQQLAKSSVKKYTAMENAMCRDNRVRGMFQFYGANRTGRFAGRLVQLQNLPQNHMSDLSEARALVKSGNYNAIDMLYEDIPDTLSQLIRTAFVPKEGTRFIVADFSAIEARVIAWFAGEQWRADVFASGGDIYCASASQMFKVPVQKHGVNGHLRQKGKIAELALGYGGSVGALKSMGALEMGLDEEELRPLVDAWRQTNPNIVRLWWDVDNAVKKCIKERQPKETHGIKFFYQSGMLFIVLPSGRKLAYVKPRIGENRFGGESVTYEGVGGTKKWERLESYGPKFVENIVQGSSRDILVYAMQTLRDCSIVAHVHDEIIIEADSNLSLVVCEQMGRVPHWAKGLLLRADGYTCDFYQKD;locus_tag=LOCUS_08680;note=WP_002399687.1 DNA polymerase (Enterococcus) [pid:48.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-166],MGA_872
sequence03	MetaGeneAnnotator	CDS	182194	182745	.	-	0	ID=MGA_873;product=DUF2815 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002399690.1;translation=MANNINRTKVITGINTRLSYFHGWEPVSINGGAEKYSVSVLIPKDDKETINAVNAAVDAAIEEGIAKFGGKKPNKAAIKLPLRNGDVERDDEAYKGHYFINANSMTAPQIVDKAVKPILDRSEVYSGCYSRVSLNFYAFNSNGNKGVACGLGNIQKIKDGEPLGGKTSAADDFTTLEDDDFLA;locus_tag=LOCUS_08690;note=WP_002399690.1 DUF2815 family protein (Enterococcus) [pid:41.3%25%2C q_cov:89.6%25%2C s_cov:88.5%25%2C Eval:3.8e-23],MGA_873
sequence03	MetaGeneAnnotator	CDS	182747	183886	.	-	0	ID=MGA_874;product=DUF2800 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_144597911.1;translation=MNNHAVLSASASHRWLNCLPSARLELEFENKSSEAAKEGTAAHELCEHKLKKALHMKSKRPVSEYDDNDMEKYTDTYVDFVMEQYEMAKQVCKDPIVLIEQHLDFSCYVPDGFGTGDCIIIADDKLHIIDFKYGMGVLVDAEDNPQMKLYALGALEIYDSLYDIKEVAMTIFQPRRENVSTWTIAVDELKTWAENELKPKAIMVYNGEGEYVPGEWCTFCRAAVRCRARAEEKLKLAQSEFKLPPLLTDAEIEEILAILPDLTKWANKITAYALDAAVNHGKEWYGFKVVEGRSVRKYKDEDAVAEKAMANGYKDIYRKSLIPLTQMQKLMGKTKFEKILGDLIYKPPGKPTLVPNSDKRKTYNVTNAINEFNKYKEEM;locus_tag=LOCUS_08700;note=WP_144597911.1 DUF2800 domain-containing protein (Aeribacillus composti) [pid:43.6%25%2C q_cov:95.5%25%2C s_cov:94.2%25%2C Eval:4.2e-79],MGA_874
sequence03	MetaGeneAnnotator	CDS	183879	184196	.	-	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKLLLDVVGDMRSLADSIQAVCDAMGTDESAESTKLTTETKPTKETKLTLEEVRGVLAQKSQIGFTSEVRAIIQKYGVNRLSEVDPKHYAKILKSAEELGNE;locus_tag=LOCUS_08710;note=MGA_875
sequence03	MetaGeneAnnotator	CDS	184171	184389	.	-	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHNLKISVSKEPQTGGIVTCRNVSIREKILCFLFGNKQRVTILVPGDSIEELAICETKKGGTDDEQNQVTA;locus_tag=LOCUS_08720;note=MGA_876
sequence03	MetaGeneAnnotator	CDS	184529	185467	.	-	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVKNILTKNPCYVAGKTITIKGLMLHSVGCPQPSAAVFIKNWNSESYNRACVHGFIDGNDGTIYQTLPWNHRGWHSGAAANNTHIGIEMCEPDCIKYTGGATFICSDMAMAKEVATRTYNAAVELFAYLCEKFNLDPLADGVIISHSEGHKRGVASNHADPEHLWNQLNIGYTMDTFRAAVKEKMENKNLSVSIGDTKGSYPEKLSTGYYRVRKTWEDKKSQLGAYRVLVNAKAQADKNPGYQVFSDSGVRIYPISKNITYREYTVVKGDSLWTIAHKLLGSGIRYTEIKALNNLTSNTIYSGQILKIPN;locus_tag=LOCUS_08730;note=MGA_877
sequence03	MetaGeneAnnotator	CDS	185464	185874	.	-	0	ID=MGA_878;product=phage holin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000439566.1;translation=MKQIWSVIQAVFTAVGGFLGWFLGGVDGFLYALIAFVVIDYLTGVMCAIVDKKLSSEVGFKGICLKVLIFTLVGIGNILDNYVLGEGNAVRTAVIFFYLSNEGISLLENAAHIGLPIPEKLKEVLEQLHNKGGENE;locus_tag=LOCUS_08740;note=WP_000439566.1 phage holin family protein (Bacillus cereus) [pid:42.6%25%2C q_cov:100.0%25%2C s_cov:95.7%25%2C Eval:7.0e-23],MGA_878
sequence03	MetaGeneAnnotator	CDS	185942	188410	.	-	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKLKGKRIMVWTFMGNTRMYQALQSYGDRIDTVGLFSFKVRATGEIYEIGVSISSMLTYINQYPHIKWLLTISNDGTNSIFKALRDNTNGAQDMFLSEIVRIMEKYPWCSGIDIDLEKGDDYSTHAASTAMFCNIYNTVKAYDSTKLMNICLPGMTSVNGSVGGENWCVYADLNNYCDTVSIMSYGMAWAGSAPGPVSPRSWLEGIYDYAVTVINPEKIFFGMPAYGWNWRIHDTPENLGRTYRGTSNTYYAAKYWMTGIYNFTDDAPPQPFIPIVAYWDDNNKVPWALPHVYDYMEGRDAISYEYPQMQETYNGRHYLTAYSKQQHTEFGTIYIDHDAMPDSYLGVVSVSETMTTLGDEGEATYNFSVSQSGTYDIAIQLCYPFWDKNSIYVSLDGDIVHFSESRLWWPYWRTTFWTTLASGVSLSVGTHTITISVGVNGVQFYGFKVCSSFSEEPTVGEATYRLAPRQFKDVNGDMVGPATGFKLTLEMLRRKPDSALVWYEDFRDDTPLPESYWTTLSGQWSVWQDGSSIETRPYSQLEGYGELAWNYNSFSDIHLRAQIIFPENFSGKAGIFLGNLFCCFNYGTQAIELYEGATLKGSYFTSFSKTTDEDLRSNPNVYTLEMRKRGNTVRVYSSASHTLRFTATVSSGSGYAGIRSDSNVNCQLLRLGDAWTYEPYEQFDVYMPDGSFKSYGRISRSHCIWDNKFKVFTLTSDIEEPSTRTEDISLDYDFFHSDIMTSVACGNDYTARIVPRDINIWISRIFLGDADGFSILYYQDVDSLVYWANEAAYRWKLRGMCIWSLGQEDMRLWEWLPKQT;locus_tag=LOCUS_08750;note=WP_012257566.1 glycosyl hydrolase family 18 protein (Chloroflexus aurantiacus) [pid:26.2%25%2C q_cov:27.5%25%2C s_cov:52.3%25%2C Eval:1.8e-12%2C partial hit],MGA_879
sequence03	MetaGeneAnnotator	CDS	188407	188991	.	-	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTSFIRLAEVINKKQNKRVVSVIIKPTINNCTGTIWFTDLQLQEGPVLNGYTPHTESRLLKFREDGDIKSPVWFNGVVRSEETIILFNVGETSAGLDIHIYPKSDMKEGSVKLCQGVSGQKVSFPNSIAKDADLALLASTSGCTKNDVSEPKDGFYQYSAAWDSKHKVTLEQGKTARVLFYMQEMQDGGEPF;locus_tag=LOCUS_08760;note=MGA_880
sequence03	MetaGeneAnnotator	CDS	188984	189181	.	-	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYFSRTTEKITPQSYYSKVKSITICVCITNCTGTFYITDLFLQAGSVATGWVGHPCEIRWTLDG;locus_tag=LOCUS_08770;note=MGA_881
sequence03	MetaGeneAnnotator	CDS	189193	191718	.	-	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKTILNKQTDFTGEFPVDYAKSGLWRFNDTSVDDDYCVIDSSGLNRKMKIVNYLGTTASLLNGQKGGYVRINISNPSTEKTYLKVENDGSFFADIGERIIVGGWIKPTTYSVGNTYCPIFNTRYGPGQPIFYLSLYSGRPRIMLYNSSGSLILDKSLTSTITLVNGGVYFIAMVIEPNNKKAWIVLGDRDSGESWVSDENTFTGTLNPSCVADIVMGMHADAYWYAGSFDDWFLDMDSNLTTDDLVNYFNASLCANGGDTSGNIDAITEPGTVMLRSTNGVYKAEGTLYTAPAVCNLSGIGKVSVTSEYISGTTAVGTIETSTSDDLINWSDWVAVPTDGKLKSPNKAYIRFRVMLSTTDTSKTPKLSEIRLYDIPKSPYEKIGYARPVVLDSNGAWEAVLENAYNIVVTSEINGEDTLSFNIPYRDTKRKYIDSEKKIQIVDDIYKVRTITDIKDSEGNLATEVYAEAEFYDLTFSVRKEEYKFDAETAEVAMAYALEGTEWNVGTVNVKTKRTWTSTEKNALSILRSIADFHGGDLVFDCPNRLVHLLSINGKDSGALFAYKKNMKSIKRVVDTRSLVTRLYAIGADGLTFADINNGKPYIENYTYSSDIRITTLDCSSFTNPYQMKEYAEMRLAEYCKPSISYVLNAMDLSVLTGYEHESWSLGDYVHVEDKDLGLSVTTRVVRREYNLQEPWNTVLELSTTLKNLGSSASQWDNLADSLEGTSMVTNNDIREMVPFNLLRNSRADDGMAYWVNSGFEADSDNGVSGTGSFKATGVAGMTKSMSQTVYPANRSSYTLSAQIASEDLEKLSDDSQVGFEVVIKYEDGTTETRFIDLY;locus_tag=LOCUS_08780;note=MGA_882
sequence03	MetaGeneAnnotator	CDS	191723	192499	.	-	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFSYNDISSNSMGLKARLTSWQVCGGMRNFTTTVPGKYGVTDFGADFDFREITVACNIFPKHTFSALVKTIDEISTWLDPMQGLKQLIFDTVPDRYFMARLNDKVDCERLIRSAGSFNLKFFCPDPFAYAVIDETYNITEEGAHTVIRTKGNIKSNPIYCIQGIVTPSVNNYITITTSSKELKIVNAVLSDNETLVIDADKMTAYVEDENGIVMRNALPYLEELNFPYLDVGANTITIETSNATFTKLNIYAKSRWR;locus_tag=LOCUS_08790;note=MGA_883
sequence03	MetaGeneAnnotator	CDS	192511	194160	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERLLADAEAISGIHYDITSYADVVSAIHVIQENMGIAGTTAAEAEHTISGSINSLQSSISNLVVGFGNADADMELLCQNVVDAFKNVVTNITPIIANIVAALPMATGALLESVSDLLPMLIQTVTDLFSQVLNTLLNLLPNLIPAAVDAVITIVDTIIENLPLLIDAAVQMIATLVQGIGESLPQLIPAAVNAIVTIVQGLLENLPMLLDVALQLILGLAQGLLDAIPQLIAALPTIITAIVEFVINAVPQVIDAGIQLLTSLVSALPEIITVIVEAIPQVIDGILTAILGAIPQLIQAGIDLLVALIQNLPTIITTIVSAIPQIISSIVNALVGNIDKIIMAGVQLFVALIQNLPTIIVEIVKAVPQIIAGIVSAFTNSMGKIVEIGGNIVKGLWQGIQQLSSWLWDKVSGWISGIWDGICDFFGIHSPSKQMGWVGEMLVKGLTNSIDNNGDNAVKAAEVMSNDINDVMTGLADDMNTALPSNFSVNTSGGDVISNIAPSSNGFGGSLVTVQQMVVRSDEDIRKVSQELYNLIQTGSRAQGRFTTA;locus_tag=LOCUS_08800;note=WP_011674640.1 phage tail tape measure protein (Lacticaseibacillus paracasei) [pid:26.3%25%2C q_cov:80.3%25%2C s_cov:38.7%25%2C Eval:1.0e-42%2C partial hit],MGA_884
sequence03	MetaGeneAnnotator	CDS	194295	195011	.	-	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVASQFDKNDNSVQALTARNQVLNKEIDAQKSKIETLRGALNNAATSFGENDRRTQNWQIQLNNALATLNNMEHELDQNNSALVEANANYDDAEESLNNMNREMDDVTDSADDMGDEIEDAGDSAQKSENKFKGLGTALKSVGVAMGAVVVAAGAAAVKLGKEVISAYSDYEQLVGGVDTLFQESSGKLQEYAANAYKTAGLSANEYIENVTSFSASLISSLGGDQKKQWNMLIWL;locus_tag=LOCUS_08810;note=MGA_885
sequence03	MetaGeneAnnotator	CDS	195318	195701	.	-	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNERTANIMIGDEEHKLLLTTKATKEIAGRYGGLENLGDKLMKSKNVEMALSEIVWLITLLANQSILVYNLKHKEQPKDLLTEDKVEILTSPIDLAEYKEAIMNALYKGAKRNIESEPESKNMVAP;locus_tag=LOCUS_08820;note=MGA_886
sequence03	MetaGeneAnnotator	CDS	195715	196302	.	-	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATIGLDKLYYAPITEDAVTEEETYDTPVQLAKAISAELSVELAEATLYADDGASEVVKEFKNGTLSLGVDDIGTATAAALTGVSVDNNNVVISASEDGGNPVAIGFRAKKSNGKYKYYWLYRVKFGVPATNLATKGDSITFSTPTIEGTVLRRNKADASGKHPWKAEVTEGDADVPASVISDWYTQVYEPNFVE;locus_tag=LOCUS_08830;note=WP_002387287.1 Ig-like domain-containing protein (Enterococcus) [pid:25.5%25%2C q_cov:97.9%25%2C s_cov:65.2%25%2C Eval:1.4e-10%2C partial hit],MGA_887
sequence03	MetaGeneAnnotator	CDS	196303	196647	.	-	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLSDLKKTLEPLLIPIETGVFSNNAPSSYIVVVPMYDTFELHADNEPSIDVQEARISLFSKGSYTTAKNAIVRALLSADFTITARGYVGYETETGYHHYNVDVAKFYEMEEN;locus_tag=LOCUS_08840;note=MGA_888
sequence03	MetaGeneAnnotator	CDS	196644	197075	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVDIKMPEDFLLKMSRLGDKSDDIAEKVLEAGGDVILSKVKSNLSSVVGKNTKYESRSTGELTNALGVTAVKMDRNGNHNVKIGFAEPRSEGESNAKLANIIEYGKHGQPAKPFLKPAKNSSKAECISVMQSTFEEEVRKL;locus_tag=LOCUS_08850;note=MGA_889
sequence03	MetaGeneAnnotator	CDS	197062	197403	.	-	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFGKMNSFADIKAITKTKDAEGFATTAETSLAYVRVYREGRHGSVRWANLAAFSEATDLFRFRIIPGVTVTTEHFIECDGERFDIISVENVKGRGMYIEVLAKKVVSTVGKG;locus_tag=LOCUS_08860;note=MGA_890
sequence03	MetaGeneAnnotator	CDS	197405	197722	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTGLLDKVKQNLIIDHTADDVLLNSYITAAVSYAESYQHIEEGYYTTNVMPATTEQAIIMLVSHFYESRDGSTGGFFADNVSASQQVWNTVNLLLRLDRDWKV;locus_tag=LOCUS_08870;note=MGA_891
sequence03	MetaGeneAnnotator	CDS	197740	197970	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNAKNYTEQGGEKTVIGGTLEISGTLEIKEGAAISGLPKAEMQADSTAEDISSLVTDFNALLTKLKAAGFIATE;locus_tag=LOCUS_08880;note=MGA_892
sequence03	MetaGeneAnnotator	CDS	197984	199180	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTITEMREKRAKMWNTMEGFLDTHRNEKGVLSSEDDATYTNMEKDLDDLTNEIKRMERKDAIEAELNKPVNIPLTEKPMNVKDDNKTGRGSNEYTKSFWNVMRSKAPIPSAINALQVGTDSEGGYLVPDEFEHTLVEALQEENIFRQLAKIIQTSSGDRKIPVVATKGSASWIDEEGAFTESDDSFGQVSIGAYKLGTMIKVSEELLNDSVFDLESYITKEFARRIGTKEEEAFFTGDGSGKPLGILATTGGAQTGITTKGENAITSDEVIDLFYSLNAPYRKNAIWILNDATIKAIRKLKDGSGQYLWQPSLTTGAPDTLLGRPVKTSAYMPTIAAGAKTIAFGDFGYYWIADRQGRSFKRLNELYAATGQVGFLASQRVDGKLILSEAIKVLAQKS;locus_tag=LOCUS_08890;note=WP_017140147.1 phage major capsid protein (Cereibacter sphaeroides) [pid:33.6%25%2C q_cov:89.9%25%2C s_cov:66.9%25%2C Eval:1.9e-45%2C partial hit],MGA_893
sequence03	MetaGeneAnnotator	CDS	199196	200815	.	-	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIFSGLFRSRDKPTNRTVGSSYAFFLGGSNSGKVVTERSAMQMTAVYSCVRILAEAVAGLPLHLYRYTDDGGKEKALDHPLYHLFHEEPNPEMSSFVFRETLMTHLLLWGNAYAQIIRNGKGQIVALYPLMPNKMTVDRDENGQLYYLYTRSSDEAQTMKGVTVKLSTSDVLHIPGLGFDGLVGYSPIAMAKNAIGLAIATEEYGAKFFANGAAPSGVLEHPGTIKDPSKVREAWQTQFGGSANSNKIAVLEEGMKYTPISISPEQAQFLETRKFQINEIARIFRVPPHMVGDLEKSSFSNIEQQSLEFVKYTLDPWVVRWEQSLSRILFTPEEKKKYFFKFNVEGLLRGDYASRMNGYATASQIYSMLMDYKGDITVKIDGIAASAASVIAMAGTNVLMSPTALMMIHNPATIAVGDHEDMQKAMDMLGEVKESIINAYEIKTGQSRTKLSHLMDSETWMNANKAIEYGFADDVLKDEKLTDIAVSAYAFSRKAVATNLLNKIAEKTTHVTAVKTAKPEGRSVEELKERLFAIKKYL;locus_tag=LOCUS_08900;note=WP_000523689.1 phage portal protein (Streptococcus) [pid:66.5%25%2C q_cov:66.8%25%2C s_cov:80.9%25%2C Eval:1.1e-142%2C partial hit],MGA_894
sequence03	MetaGeneAnnotator	CDS	200833	202191	.	-	0	ID=MGA_895;product=terminase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005047991.1;translation=MGKSELAAAVALLLCCGDGEERAEVYGCAADRGQATIVFDVAADMVRMCPALNKRVKILASQKRIIYLPTNSFYQVLSAEAYSKHGFNIHGVVFDELHTQPNRKLFDVMTKGSGDARMQPLYFLITTAGTDTKSICYETHQKAKDILEGRKIDTRFYPVIYGADESDDWTDPKVWKKANPSLGITVGIDKVKAACESAKQNPAEENSFRQLRLNQWVKQAIRWMPMDKWDKCAFAVSEEDLKGRVCYGGLDLSSTIDITAFVLVFPPIDEDDKYHILPYFWIPEENLDLRVRRDHVPYDVWEKQDFLKTTEGNVVHYGFIEKFIEELGMKFNIREIAFDRWGAVQMVQNLEGMGFTVVPFGQGFKDMSPPTKELMKLVLEEKMAHGGHPVLRWMMDNIYIRTDPAGNIKPDKEKSTEKIDGAVATVMALDRAIRCGNGTSASVYDERGILFI;locus_tag=LOCUS_08910;note=WP_005047991.1 terminase large subunit (Shigella flexneri) [pid:34.3%25%2C q_cov:89.6%25%2C s_cov:81.1%25%2C Eval:5.7e-65],MGA_895
sequence03	MetaGeneAnnotator	CDS	202546	202713	.	-	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKAVSSVLMEVGSANFTLKRNGEIVCNYDRGWDIKPVDKETQRALEVLLHSENY;locus_tag=LOCUS_08920;note=MGA_896
sequence03	MetaGeneAnnotator	CDS	202778	202957	.	-	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIKEQILAVRDTGLTNMFDIHAVQRIAYEMDFYELVNFIEDEKEKYVKFIINGQED;locus_tag=LOCUS_08930;note=MGA_897
sequence03	MetaGeneAnnotator	CDS	202950	203177	.	-	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVISKEELKSLRKQYTAGCRVELLQMDDIQAPPIGTKGTVIGVDDIGSIMVKWDNGCGLSVAYGEDRCRRIDNE;locus_tag=LOCUS_08940;note=WP_041272555.1 DUF4314 domain-containing protein (Desulfitobacterium hafniense) [pid:39.3%25%2C q_cov:81.3%25%2C s_cov:37.7%25%2C Eval:5.4e-07%2C partial hit],MGA_898
sequence03	MetaGeneAnnotator	CDS	203168	203839	.	-	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKYNVSGKERKKLVHAIARWLECDVKYLGAPTFAYRVDNFTIDKDGNLAFEDKTDSEIVERLLEHLYDEGYECENIAEEPQGIAIQMPLEGFDDGSLKNLRTLVEAKGNLIKKAIGVNELPINILNDRLDFPWFPEEPTPDEVKAYMHFITALCNLAKKQKRVTVKKKDIDNEKYAFRCFLLRLGFIGSEYKEERKILLHRLTGSTAFKNGKKDEEVKSCE;locus_tag=LOCUS_08950;note=MGA_899
sequence03	MetaGeneAnnotator	CDS	203940	205814	.	-	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNKPQSMSGLTLGSLFDGSGGFPLGGLISGITPVWASEIEPFPIRVTTKRLPFIKHYGDVSKLDGAKIEPVDIITFGSPCQDMSVAGKRKGLNGNRSSLFYEAIRIIKEMRCATNGKYPRYIVWENVPGAFSSNKGEDFRAVLEEICKIKDAGITVPKPKKWSAAGEIMADEGTCSRFSVAWRVLDAQYWGVPQRRKRIFLVADFAGRGAGEILFKSEGLSGYSAESFRSWQRTTSDAIKGIKKTSTVCLNDQGGKRMDLTKDVTCTLRAESHHPPLVFENHSQDSRYKGPLDVSQTILSTFGTGGNNQPFVVETPKTLKIRCGCEGGGKGALIQDDISATLGCNNDQTLFVPKVYGICSKDSNSMKSDNPNSGIYEADTSRTIDANGSNPSCNQGGMAVVESYALQGSMIGRKDKNGPQGDGIGEEVSFTLNTADHHAVAYGIDRAAFNQGENAKYSFAVDEEVEPTMVAKGPGAVAHPTYSASKASFFTSAKEELANTLVATDYKDPPLINDVDGLDYIVRRLTPIECASLQGFPKWWCSNLETKNPTQDEIILWKEIFKVHAKAIGKNTKPKTDNQIRKWLQKPHSDSAEYKMWGNGVALPCVCFVLSGIVWFTQFDSK;locus_tag=LOCUS_08960;note=WP_041272166.1 DNA cytosine methyltransferase (Desulfitobacterium hafniense) [pid:56.2%25%2C q_cov:38.6%25%2C s_cov:34.1%25%2C Eval:1.3e-68%2C partial hit],MGA_900
sequence03	MetaGeneAnnotator	CDS	205801	207042	.	-	0	ID=MGA_901;product=site-specific DNA-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010774201.1;translation=MNIEKKNTVDLLPADYNPRKDLKPGDAEYEKLKRSIEQFGYVEPVIWNKATGRVVGGHQRLKVLIDMGITEVECVVIEMSDEKEKALNIALNKISGDWDKDKLAILISDLQGTDFDVSLTGFEPEELDDLFKDTLKDGIHDDDFDVDEELKKPTMSKTGDVWFLGKHRLVCGDSTKAKTYDLLMGKKKANLVITDPPYNVNYEGSAGKIKNDNMEKDTFYQFLFDAFTNMEKVMAEDASIYVFHADTEGLNFRKAFANAGFYLSGTCIWKKQSLVLGRSPYQWQHEPVLFGWKKKGKHQWYTGRKESTIWEFDKPRKSADHPTMKPIPLLAYPIMNSSMSNCIVLDPFGGSGSTLIACEQANRICYTVELDEKYCDVIVKRYIEQVGSFDNVKVQRDGLTYSYKEVEVSDETK;locus_tag=LOCUS_08970;note=WP_010774201.1 site-specific DNA-methyltransferase (Enterococcus faecalis) [pid:47.0%25%2C q_cov:93.7%25%2C s_cov:98.3%25%2C Eval:1.3e-100],MGA_901
sequence03	MetaGeneAnnotator	CDS	207042	207200	.	-	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLIQFMKTLKNNKSNLTYQQFRTIKGQAFAGDIEGARKGLFKLLERRCG;locus_tag=LOCUS_08980;note=MGA_902
sequence03	MetaGeneAnnotator	CDS	207202	207741	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKDGTARGGQRVGSGRKSKALTDKIADGRLKGTRVLPEPIDIEGADIPPVKDYLKAAQKNGKDLCAEGVYRDTYQWLKERGCEMLVNNQLIEQYAMSVSRWIQCEECISEYGFLAKHPTTGNAIASPYVSMSQTYMKQVNQCWYQIYQIVKENCSVEFGGNSPQDDLMERLLTARKGK;locus_tag=LOCUS_08990;note=MGA_903
sequence03	MetaGeneAnnotator	CDS	207861	208220	.	-	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRKPKHPCSYPGCPNLTEGQYCEIHRTQERRRYDKYERSKDVNKKYGRAWKRIRDRYISQHPLCEMCQKDGKLTPAKEVHHIVPISQGGTHDKSNLMSLCKSCHNKIHFELGDRQIRK;locus_tag=LOCUS_09000;note=MGA_904
sequence03	MetaGeneAnnotator	CDS	208366	208791	.	-	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAKEYLHQAYRLDQRINSDIEEIERLRAMATSVSSPNWDEKVSHSRNTNAPFVRCLERIMDLENKINAEVDRLVNLKEQVREVIEKVSNTDEQMVLRYRYIHNLTWEQIGDELNADKSTVRRWHGNALNHVVLPEKPITI;locus_tag=LOCUS_09010;note=MGA_905
sequence03	MetaGeneAnnotator	CDS	208788	209012	.	-	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPYEQLANAIILQAVKDYRDALKKIKNCPRYEPAKGTIAEVERFFHSDCYRELTSIDGDFLITKLRMEVFGE;locus_tag=LOCUS_09020;note=MGA_906
sequence03	MetaGeneAnnotator	CDS	209012	210361	.	-	0	ID=MGA_907;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_113850176.1;translation=MKYNPHKYQNYATDFILKHPVSAVFLEMGLGKSIITLTAIFELCMDSFLVRKVLVIAPLRVARDTWPEEIEKWDHLKGLSYSVAVGSEKNRINALMKRATVYIINRENVDWLVNKSGIPFDFDMVVIDELSSFKSYGAKRFKSLLKVRPKAKRIVGLTGTPSSNGLMDLWAEFRILDLGQRLGRYITHYRNTFFCPDKRNAQMIFSYKPLPGAEEKIYKQISDITISMKSCDYLKMPECVINKVFAFLDDKEWSIYSDFRDDMVAKLGDDEIDAANAAVLSGKLLQMANGAVYDEENRTHHIHNRKLDILEDLIEGANGKPVLIAYWYKHDFERINKRFNVRQIKTSKDIKDWNEGKIPIAVIHPASAGHGLNLQKGGSTLIWFGLTWSLELYSQTNARLYRQGQKDMVVIHHIITKGTIDEDVMKALIRKENSQASLIKAVKAKLEVV;locus_tag=LOCUS_09030;note=WP_113850176.1 DEAD/DEAH box helicase (Enterococcus gallinarum) [pid:53.5%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:1.8e-135],MGA_907
sequence03	MetaGeneAnnotator	CDS	210342	210623	.	-	0	ID=MGA_908;product=VRR-NUC domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010714182.1;translation=MQEKYIERKLVAAVKKMGGMAPKFVSPGLDGVPDRIVLLPMGKIAFVELKTPGKKMRALQVRQKDKLESLGFSVYCIDRIEQIGGILNEIQST;locus_tag=LOCUS_09040;note=WP_010714182.1 VRR-NUC domain-containing protein (Enterococcus faecalis) [pid:40.0%25%2C q_cov:96.8%25%2C s_cov:84.0%25%2C Eval:2.3e-10],MGA_908
sequence03	MetaGeneAnnotator	CDS	210848	213205	.	-	0	ID=MGA_909;product=VapE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010714181.1;translation=MKIAYGNSRLDKKWKNSDVTWEDFCNRVKTTQRTTETQEEYRKMKKGGQDSIKDVGGFVGGHLKNGRRKKGNVLSRSMLTLDMDYGTPNIWGEICTLFPYQCCIYSTHKHTPKSPRLRLIIPFLRDVSEEEYVAVSRMVAKEIGIDLFDDTTYEPERLMYWPSTSRNGEFVYKEKDGALLDPDIFLDKYDDWRDTTTWPVSSRQSEVINRSLKEQADPLSKEGVVGTFCRTYSVRAAIDKFLKEVYEPSAISGRYDYIPADSSAGVIIYDDKFAYSHHATDPASGRLLNAFDMVRIHKFGNLDDRVVQTTSPSKLPSYIAMCEFAIKDEEVKAQFAKERIEQTVVEFTQSDWQTALELDKQGKIKETLDNIVLILRNDSELQSIAFNKHRDGIDAKNGLPWVQMKDGWSDSDNAALKVYLSNKYGIYSPTKTKDAILAVAAERAYHPIKEYLDNLPEWDSVKRVETLLVDYFGATDNSYTRAVTRKMMVAAVTRIYHPGTKFDSVLILNGPQGIGKSTFFAKLAGDWFSDSLTLTDMKDKSGAEKLQGYWILELGELNGMRKTDVETVKSFITRVDDKYRASYGINVESHPRQCIIVGSTNAESGFLRDITGNRRFWPVPIQGGSKKKSWQMSVYDVEQIWAETLLMYAKGEKLYLEGQEANIATLEQADAMESDEREGLVRSYLDILLPKDWDNMSLFERRNFLNGSEFGGDNHEGSVKRTFVCNMEIWCECFGKEASALKPADSYAIAAIMRKLSEWNKYKGNKNGTMMFPIYGKQRCYSRSE;locus_tag=LOCUS_09050;note=WP_010714181.1 VapE family protein (Enterococcus faecalis) [pid:43.6%25%2C q_cov:99.5%25%2C s_cov:97.5%25%2C Eval:2.9e-190],MGA_909
sequence03	MetaGeneAnnotator	CDS	213202	213636	.	-	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINKFNAERYHDPTPYEAITNIVKEEKAALKPAFRPLVYICSPFSGNTKCNIKRTQEFCRFALENGNIPLAPHLMFPQFMNDADAKERDLAIFMDIILMGKCQEVWVLGDVISNGMSIEINKAKSRKQKVRYFNSKFAEVDTL;locus_tag=LOCUS_09060;note=WP_010879839.1 hypothetical protein (Archaeoglobus fulgidus) [pid:48.8%25%2C q_cov:58.3%25%2C s_cov:82.2%25%2C Eval:5.8e-18%2C partial hit],MGA_910
sequence03	MetaGeneAnnotator	CDS	213623	213844	.	-	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYVKERLNDSMEISIEITDENVFCHCPMCGAEVMVDIGEILGDGESDLFGTAIYCNECSKKIRDGGGYDEHK;locus_tag=LOCUS_09070;note=MGA_911
sequence03	MetaGeneAnnotator	CDS	213859	214527	.	-	0	ID=MGA_912;product=Rha family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011816482.1;translation=MRELIPKDQYGVFADRKDTARVDSLYVAEFFEKQHKHVLRDIARITEPKSGLSEDFIHSNFKSDFYKDSTGRKLPCYFMTRDGFTMLVMGYTGQKAMKFKELYIRRFNEMESFIKTLVSARQEFPLLTSNIKLLHENPKPYHFSNECNMLNRIVIGMTAKQFRLANGIEKGKSIRPYLSDEQITMLDTLQKVDVGLLVAIPDYGQRKRYLEWYKLKMEENKN;locus_tag=LOCUS_09080;note=WP_011816482.1 Rha family transcriptional regulator (Yersinia enterocolitica) [pid:31.7%25%2C q_cov:87.4%25%2C s_cov:87.3%25%2C Eval:1.2e-17],MGA_912
sequence03	MetaGeneAnnotator	CDS	214592	215140	.	-	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRVLYEDNIKNGHKFYTTIEIPDNDYSVMLDIDYEQRLAEAKPEKKAEVKRCETVQEMFDLMNSKEYNHWRRYHRHLGNPKTPYRKDDESEDETDVMDTIADDTQEIERNHQYEYEDVCQKIRSALGKKQEWADIFIAVRIDGTPIREYAKSLGVNENNITKKLKRAEKKLKEIFEKCQI;locus_tag=LOCUS_09090;note=MGA_913
sequence03	MetaGeneAnnotator	CDS	215546	217411	.	-	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGNRSFRDYVADRFENEMYAAIQSYATDNYNNLDLQLYRVRKIGGIELSDIEVKFVSVSDLPDMEIEFDVVVGVELEVREADYHYDESEYCSQWFTLKCSGNLECNLNDFAILSVAEYTNKNKQPKPMSDALVPIIYKNQLEEIATQFLKDYYPKALLQPMPVDPMELAKGMGLNIEVRNITKDCSVFGQIFFHNSTSEFYDKDSDELVSVDVNEKTIFVDPETYFLYNLGKVNNTIIHECVHWDKHRKAFELERLYNSEASRIKCQAIGGVAGNSRDATEWMEWQANALAPRIQMPMGMFKTQAWKFIKQFRESTGKFDIIDVIEPVIDALSTFFCVSRTAAKIRMVDAGFEEAIGTFTYIDGRYVATHRFKKGILKEHQTFSISAEEAAIQSITNQKLSRLVGDGSYQYVDAHFVFNHPKYLTQDDNEFTILTDYARNHMEECCLVFDMTVKSGTKKDYHSVCFLNKDKDSTVSFNIVYGDGYAYADHDKQIKLVEDVVMDEMRVYKSLPNDFCESLKVVLKWRGITYKELEKKIMVDDQTISRIANGKRDPSINTLVLICLGLHLPPNISKHIIDKSPCTLNFCKQEHIWYDFALTHLSKQSMESIFDFLHDHNIAV;locus_tag=LOCUS_09100;note=MGA_914
sequence03	MetaGeneAnnotator	CDS	217679	217894	.	+	0	ID=MGA_915;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870276.1;translation=MPISYKKLWKLLIDKDMKKKDLQIAAGISSSSITKMAKNQNVNTETLTKVCKALDCDISDIVEIVNDKPPN;locus_tag=LOCUS_09110;note=WP_012870276.1 helix-turn-helix transcriptional regulator (Thermanaerovibrio acidaminovorans) [pid:55.4%25%2C q_cov:91.5%25%2C s_cov:89.0%25%2C Eval:6.6e-13],MGA_915
sequence03	MetaGeneAnnotator	CDS	218164	218631	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPIMSFWPSIYEKILNQIKLIEYRRTFPKDCKFAYMYVSKPVKAVCGILYFGEKHTLSDWKEKYSNSFEISTRIDEYLKNYRYGMEIKGFQKVYPITLDDLRKNVPGFVAPQSYLLLENNKNLAEYLERNLVLVGEKIENDFSNAYPEHVCKRY;locus_tag=LOCUS_09120;note=MGA_916
sequence03	MetaGeneAnnotator	CDS	218635	219720	.	+	0	ID=MGA_917;product=DNA (cytosine-5-)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837382.1;translation=MLKVFEAFAGYGSQRLALKNANIPHEIVGISEIDGDVIRSYAAIHENLLEERKKELLISDEQMLNFLEKINVPLDYKTFKNKAKNLKGQKLKDMYLANKLSKNFGDIRTINPDKLPDFDFFTYSFPCQDISIAGYQNGLDADSGTRSSLLWECCKIIEKKRPKYLMMENVKNLIGKNHIKNFEEFLLYLKRLGYKNYWDVLNARDYGIPQNRERVFCISILDSHEEFTFPPIRELSIFMNDLLEDDVPINFYLKNNQVSDEPISQDYIYCLDSNYWKGTFLKDFRTKKRRQLVSGPVRDDGKYPARRLTPRETWRFMGVNDADFDKASKLVSNTSLYRQAGNSIVVPVLEAIYKKLFLHKE;locus_tag=LOCUS_09130;gene=dcm;EC_number=2.1.1.37;note=WP_011837382.1 DNA (cytosine-5-)-methyltransferase (Streptococcus sanguinis) [pid:32.1%25%2C q_cov:97.8%25%2C s_cov:98.0%25%2C Eval:5.7e-46],MGA_917
sequence03	MetaGeneAnnotator	CDS	219727	220536	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNKERIIQLFYANVKGRRPDTTGSNIHHDGREGHWLERQFGISANASNEADLFGYELKNETTSKTTFGDWSANRYIFKTGEYVHCFDGNTASDRQDSFCRIFGKPNPLKGGRYSWSGSPCPTIHGYNNFGQVLIIDNNKDIIAIYSYSQDKRINKSQVVPVELRQDNLEIARWFGEYSPTSKRTDKCLQAKLEDKFNHEGWFTCKKGLDGTYQKICFGEPITYDNWLNLVKKGIVFFDSGMYQGNKRPYSQWRANNSFWDSLIIECYE;locus_tag=LOCUS_09140;note=MGA_918
sequence03	MetaGeneAnnotator	CDS	220551	222101	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLTNEIKIVINHIPLPWIPKIELYYPDLPQFPIIYINTYVNKQRILACPVAVSYQIEENSCNAIFTVLTNVESNELTNEKIKLELSERIGYSEKISKSDVIECCNGNEQYIALFTDLWEYIQFSYGEFVPYGKFYEEIFSIIRFVAAWQPKTGRQSEMRMLYNFMSAFGEKVVMPKKWSHLEFYAIPNLYDVSNSCFLQFPKFSTLKSAMNKLFDEYFIKNININGIEFKVMEHAWKQNKDSFISNVTDPMFSRGILSEEEKLYAETLVDAFNRHAWRAAYFISAFMNIKNNYSMWTKKFFMDFYKNGNKLKGYSEKVIACFLQQGFLNPEVIPIDTWVKTFYEFPLGINTNTQFFNEFSNLGKLERIIWLSSQSNKTNMKTFFDILWCQRYGTIGNGELRGINPIACYSCQLKNSCVGVAKKRFTNVKLLNNSSNSEENLSAIFEYNPEITYICILYNGVPKKCYVRKKGIATLIDEFSGYILTAQNKLSDDLLHKGTITFEEFIFSKNKNHE;locus_tag=LOCUS_09150;note=MGA_919
sequence03	MetaGeneAnnotator	CDS	222152	223336	.	-	0	ID=MGA_920;product=DNA cytosine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964247.1;translation=MTNTSVSIELTKGQIITNIRKKIDVTRKEFSDALGLSKEEEKELKFWETDKKEVPDEVYKKILAFPTEPPFVAPSIENSRFTQIDLFAGIGGIRLGFQRHGGRTVFSSEWDKFAQKTYRINYGEMPAGDITQIDEKDIPDHDILLAGFPCQPFSQAGLKKGFEDARGTLFFNIAKILREKRPKAFMLENVKQLRGHDKGRTLKVILSILNELNYYVPEPEVLNAYHFGVPQNRERIIIVGFNKDYLPADFVKFKYPKGYVDDSVNVGMILEKEVPDRFTISDKLYQGHLERKKAHKKKGNGFGFCLFNSNSKYTSTISARYYKDGSEALIEQNGKNPRMLTPRECARLQGFPEEFIIAVSNSQAYKQFGNSVCINVIDAVAKSMLDYLGQYRIL;locus_tag=LOCUS_09160;note=WP_011964247.1 DNA cytosine methyltransferase (Flavobacterium psychrophilum) [pid:59.0%25%2C q_cov:78.9%25%2C s_cov:92.2%25%2C Eval:2.3e-99],MGA_920
sequence03	MetaGeneAnnotator	CDS	223336	223569	.	-	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLHCRLSTLMGEHRFSIQEVHERTKLSRTTVSNLYNDKATRINYKTIEKLCSLFDCEVAELLYIDDCKKGEGEEIK;locus_tag=LOCUS_09170;note=MGA_921
sequence03	MetaGeneAnnotator	CDS	223993	225345	.	-	0	ID=MGA_922;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495280.1;translation=MLKIGDLIEVSIDKIVFGGEGLGYYNDIAIFVPMSVPGDKLKVEIISNKKTYARGLIKKVIKPSIDRVSSEKISFEDYHGCDFAMINYEKQIEYKKEMVKEVFSRIAKIDNIQFDKVLLANTIFNYRNKVIEQIGYRNGKVISGFYKRRSHEIFEVKDNYLQPKEINKIFTYLKNRFSEKKLTIYDERKHKGMLRNLMARVNSNGEIMLVVIIKGNIIKELKKILKDTYNKYKNVISIYISINNNKTNFALGNKNILLYGEETIKENLFDINFNISPTSFFQINIEQTKKLYELAISYFNNINNKNIVDAYSGTGTIGMILSKQAKKIFSIELAESSSKDAEKTAKENNISNITFINDTVENGLTKLLNSDEKIDSIIFDPPRKGIDKNSLQEVIDKNINELVYISCNPSTLARDIGILVENGYKLMNLSIVDMFPQTSHVETVVLMSRV;locus_tag=LOCUS_09180;gene=rlmD;EC_number=2.1.1.190;note=WP_029495280.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Fusobacterium hwasookii) [pid:55.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.0e-147],MGA_922
sequence03	MetaGeneAnnotator	CDS	225345	225635	.	-	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKKNKTLNNIIYILFIFFFLFGIGYTLTIIYKMQLMSENKKLNKKIDELNFEINKINLELDKKIDLKQIEIKAKKMLDMEISDEIIYVKINKEK;locus_tag=LOCUS_09190;note=MGA_923
sequence03	MetaGeneAnnotator	CDS	225636	226592	.	-	0	ID=MGA_924;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015778.1;translation=MSEIKRRMDLEDKYHIPVLYDETIQNLITNKNGVYVDCTLGGGGHSEGILLNLEEKGKLISIDQDINAIKFAKERLEIFNGRYQIFQDNFKNIDTVVYMAGYDKVDGILMDIGVSSKQLDDATRGFSYKYNAKLDMRMDQSQELSAYEVVNEYPEEELSRIIYKYGEERRARRIAAEIVRARTIKPIETTDELVGIIKKIIKEKTKKHPAKKVFQAIRIEVNKELEVLEQTIDKAISLLKPGGRLAIITFHSLEDRIVKEKFRKLSKECICPPEIPICVCNHKASIKLITRKPIAPSKEEMKTNRRAHSSKLRVCERI;locus_tag=LOCUS_09200;gene=rsmH;EC_number=2.1.1.199;note=WP_011015778.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Fusobacterium nucleatum) [pid:62.0%25%2C q_cov:95.9%25%2C s_cov:97.1%25%2C Eval:1.4e-106],MGA_924
sequence03	MetaGeneAnnotator	CDS	226693	227637	.	-	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKFSIKMIVMLSFLFITTNIFALNILKNVVVNRKNVYLSDIILTTDTDQYNKSKKVLITELNEPGSIKEINGDYISLKLRSITNEKLVIPNKIIIKRNFEYIEKIKLKKIILEKVEEIYNNENYYIEVIINGGNKIKITKGKKEYELESTRLKDKKLGKYRVALNIVADNEVQQKIYFILDVKAKLIEYRLKENVKKGELFTLDKVEKREKYVYYKSYNNIIDIDKIKTMIYKNDFYKNHILSNSDFEIKKLIKKGERVKIKVNYNGIKIEDVAIAMEDGIEGQTIEVKNLRSNKIFYGKVSESGEILVEK;locus_tag=LOCUS_09210;note=MGA_925
sequence03	MetaGeneAnnotator	CDS	227642	228427	.	-	0	ID=MGA_926;product=flagellar basal-body rod protein FlgG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081929.1;translation=MMTALYSAATGMNAQQLNMDVISNNLSNVDTSGYKKSRVDFEDLMYSTKQTPGATTGDGSSLPTGLQVGNGVRAVGTKKLFTQGNFKNTGNELDIAIEGRGFFQVLRPDGSVAYTRDGSFSRDANGQLVNAEGFLLDPSIVVPAEYTNLSIGQDGVVTVDINGQQQEIGTITLANFVNPAGLQNLGKNLYAATPASGDAIIGNPGEGALGTLLQGNLETSNVKVVNEMIDMISAQRAYEVNTKSIQTADSMLQMANNLKRG;locus_tag=LOCUS_09220;gene=flgG;note=WP_004081929.1 flagellar basal-body rod protein FlgG (Thermotoga) [pid:56.3%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:9.9e-81],MGA_926
sequence03	MetaGeneAnnotator	CDS	228513	229481	.	-	0	ID=MGA_927;product=SPFH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437173.1;translation=MFFLSIILIIFLFIFVSSGIIIVKQAEVIVVERLGKYNKTLESGLNFIIPIIDTPRIITWRFVEQRGDQILIYTKGVKRIDLRESVYDFPKQRVITSDNVTIEINALLYFQITDPMKAVYEIANLPEAIEKLTQTTLRNVIGGLSLDQTLVSRDEINTKLRLILDEATDKWGVKVNRVELQDIIPPTEIRVAMEKQMKAERDKRASILEAEGAKRSQILEAEGYRDAAIAKAEGYKRSKILEAEGQAEARLKVIEAEKKALEKIKETVKDEQKSVEYLVALKYIEAFRNISENSNDKTVFMPYEATSVMSSLGGIKELFQKK;locus_tag=LOCUS_09230;note=WP_003437173.1 SPFH domain-containing protein (Clostridioides difficile) [pid:44.1%25%2C q_cov:92.9%25%2C s_cov:87.0%25%2C Eval:2.0e-63],MGA_927
sequence03	MetaGeneAnnotator	CDS	229645	231597	.	+	0	ID=MGA_928;product=molecular chaperone HtpG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966587.1;translation=MSTKETLSFQTETKRLLDLMIHSIYTHKEIFLRELISNASDAIDKLKFKSLTETDLIPSDYKFKIEIIPNKENNTITIKDSGIGMTRDEVINNIGTIAKSGSKAFVEELNKATETNDIDIIGQFGVGFYSAFMVADKVTLITKSPYSDIAIKWESTGDGSFTLEEVEKDSIGTEIILHLRTDNEEKEEKYSIYLEEWKIKELVKKYSDYVRYPIQMDVTKEVPKKDAEGNPIENEYEKITETETLNSMLPLWRKNKTDIKEEEYNEFYKNNFHDWSDPLATIHYKVEGNIEYTALIYIPSKAPLDFYSKEYEKGLKLYTKNVFIMEKCKELVPDHFRFLKGLIDSSDFSLNISREILQQNRQLNVIAKNIEKKVVAELKKLLKNNKDKYIEFFKEFGRDIKFGIYNSFGANKDTLKDLLIFESSNSDKPTTLKEYVERMKEEQKHIYFVSGESRSQLEKLPQMEAIKDKGYEVLFFTDKIDEFAIQMLMEYEGKSFKSINQGDLELDENNDDKKLLEEKEKENKELLEKIQKELEGKVSKVKLTNRLKSSPVCLVSGEGVSFEMEKVMNEMPNANPMGDVKAERILEINPNHELFVALDKLYKSNNEEIKDIAYLLYSQALLIEGFKLDDPVEFSNKMANLIIKTSGLLN;locus_tag=LOCUS_09240;gene=htpG;note=WP_010966587.1 molecular chaperone HtpG (Clostridium) [pid:50.9%25%2C q_cov:97.5%25%2C s_cov:99.0%25%2C Eval:4.7e-183],MGA_928
sequence03	MetaGeneAnnotator	CDS	231708	232328	.	+	0	ID=MGA_929;product=DUF502 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005772090.1;translation=MKILSRIKSFFTQTLIGGITVLLPIGVLIFIFKFIFDFILGFISPISNIFKLSFEINNSLANLIAFSIIIALCFITGFFIATRLGNFIFYHIENKILKKLPGYKIVTETINQFKGNFKDSFSTVALAEVYGNSLSTAFVIEKTDDYYTLFVPTAPNPTSGNIFHVHKSKVTIVDVKVDEAMRSILAVGSGSKKLIENYKNKKIENN;locus_tag=LOCUS_09250;note=WP_005772090.1 DUF502 domain-containing protein (Coxiella burnetii) [pid:29.9%25%2C q_cov:91.3%25%2C s_cov:94.7%25%2C Eval:1.3e-12],MGA_929
sequence03	MetaGeneAnnotator	CDS	232340	233194	.	+	0	ID=MGA_930;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964017.1;translation=MKYKLIISDLDGTLFNDYKFISKQNLKSIKKLKQNNIYFTIATGRNHTNAYRAAMKTNINIPIITNDGALIIDISSNKILFKKTLLPEISKEIINILKKHNLVFFTHLFNNTVYNKSINFPISFYKNILNINFFKSIYEISKERKNFIELNTETILKLIQNNDVFKFSIFDKTKTQDEFLIAKNEIQSLFSDYITITMMNKYGFEIIPKGISKATGIDFLCDYLNISLDNVIGIGDNHNDLEMIKHVGLGVAMGNAKDYVKHKADIITDSNNNHGVSKIIEKIL;locus_tag=LOCUS_09260;note=WP_010964017.1 Cof-type HAD-IIB family hydrolase (Clostridium) [pid:35.1%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:7.9e-42],MGA_930
sequence03	MetaGeneAnnotator	CDS	233266	234153	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLILWMILGTIIFATSYAGLFGKKKEIIKIGHKNFTEQRILGQMLSIAIEKNTNYKTDVREFGGTMLVNQALKTGQIDLSFEYTGTGYQYLLKGTGLKDPEKIYEYCVTEFAKQGITWLNPMGFNNTYAFAVKEELAQKYNLNKYSDFVGVAEKLKVGALSDFFSRPDGMPGIKKTYGFTFKEEVAIDTGLKYIAVEQGKIDVAVAYATDGMLKKYNLKVLEDDKHFFPPYDAVPRMKTEFANSHPEIVKVLKEFNRNFTNEDFQKYNYQVDVLGYPEKKVAEEALKEKGII;locus_tag=LOCUS_09270;note=WP_010966133.1 glycine betaine ABC transporter substrate-binding protein (Clostridium) [pid:39.9%25%2C q_cov:98.6%25%2C s_cov:54.7%25%2C Eval:3.2e-57%2C partial hit],frameshifted%2C insertion/deletion at around 234169%2C234202,MGA_931
sequence03	MetaGeneAnnotator	CDS	234176	234820	.	-	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLNIYEFIYYRFDDLIAALIKHIEITGMAVTLAIVVGVPIGIMITRKRNIANLVINIANVFQTLPSLALFGLIIPFLGIGVLPAVFVLFLYALLPIIKNTYIGITNVDPAAIDAGIGMGLTSNQILTMIEIPLALPVIMGGIRVSTVINIGTATIAALIGAGGLGEFIFKGLSMNNNNMILMGALPSALLAIVVDFIFGKIEKALIPRGIQN;locus_tag=LOCUS_09280;note=WP_003437129.1 glycine betaine ABC transporter substrate-binding protein (Clostridioides difficile) [pid:48.1%25%2C q_cov:97.2%25%2C s_cov:40.4%25%2C Eval:1.2e-56%2C partial hit],internal stop codon at [234176:234178](-),frameshifted%2C insertion/deletion at around 234169,MGA_932
sequence03	MetaGeneAnnotator	CDS	234807	236012	.	-	0	ID=MGA_933;product=betaine/proline/choline family ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966134.1;translation=MIEFKKVSKTFDGKKNVINKLNFKINKGELVVLIGESGCGKTTTMRMINLLIKPTKGEILIDGKNILKMNKIQLRRNIGYVIQKVGLLPHMTIGENIELLPKIKKWKKEKRVERAKELLELVELDPEEYYDRYPNELSGGQQQRIGIARALAADPDIILMDEPFSALDPITREKLQDEIIRIQDELHKTIIFVTHDMDEAIKIADRIAVMNNGEIVQYDTPEEILKNPINDFVEFFIGKERLWRQPELVLAKDIMRKKVYKINAEGKMARAVEKLKESEATMLIVVDKIKDKPQKGLGLITPKLLKRIEFNKKTLNYNTKVIKDYMRKDFVTVDEKTNMVQVLNYMSTRNFRSIPVTNSKNEIVGIITPNSILNIMSKISPDCIIEEEIISQNKEEVNGKA;locus_tag=LOCUS_09290;note=WP_010966134.1 betaine/proline/choline family ABC transporter ATP-binding protein (Clostridium) [pid:49.1%25%2C q_cov:94.0%25%2C s_cov:96.8%25%2C Eval:7.5e-98],MGA_933
sequence03	MetaGeneAnnotator	CDS	236378	237139	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKGGAREGSGRKPLKDKLKIFNFRLSIDDIKIIDKLGVGKNSSDKLRYILKKYKSDKINIKTRRAAYKIEKSNNFNLLNKNFNTFIEEWKNINKIKFLLNSNLKNIIKKKRILKMKVFIENNEHFNLLQTLNWNINLIDFDFKKIEIYKIFFQKNDITLEMFFSEKEEDLKHNLNSLSEKEEELFSFLFEDLEQFIATFKLEIESEILFDKTYSNGDIYKYLEYENITIIELEYIKELDIAILTTLKPIENV;locus_tag=LOCUS_09300;note=MGA_934
sequence03	MetaGeneAnnotator	CDS	237578	238009	.	+	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFYFFLIIFLILLSLEIITPGTFIFFSFSIAALITSFFTFSIKNTNILMFIFSIFSIITIFLSKKYLNNFIKTNDTKTNIDNYIGQQVKVLKKLDNNNYRIKIYSEEWNAISNSDLKKDDIAIIIKKEGNHLIIKEAHNNE;locus_tag=LOCUS_09310;note=MGA_935
sequence03	MetaGeneAnnotator	CDS	238002	240149	.	+	0	ID=MGA_936;product=glycogen debranching protein GlgX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680950.1;translation=MNKKYEIEKGAPLYGATVFSTGVNFAVFSRNATKVTLDIFENFYDKTPCHSFEFDPNINKTGDVWHIFIKGLKSGKYYTYRVDGPYDIDNGHRFNPHKSLIDPYAKALSGKFNFDDEAMYSYFKTEHNTISEVDASQLIKGVIIDDRSYDWEGDKHPRTEFKDTIIYEMHVSLFTMNKNSNVKNRGTYRGIIEKVDHLKELGITAIELLPIFEFNQDELIRTNPVTGELLKNVWGYNPIGFFAPTGNYLSGDQTYGMRIGQQVFEFKDFIKEMHKNGIEVILDVVYNHTGEGNEMGPTISFKGFDNSIYYLLEKNKRYYANYSGTGNTFNCSHTVVKELIIDSLRYWATEMHVDGFRFDLAAILGRDSNGKWIGDMSLLKDIADDPILSGTKLIAEGWDAAGGYFVGEFPVGWAEWNGKFRDCVRKFIKGDPGQVSELATRIVGSPDLFYKYGRRPYHSINFITAHDGFTMWDLVSYNEKHNFPNGENNMDGANDNYSWNHGIEGETRDIKIINLRKRQLKNFMVILMLSQGVPMILMGDEFAKTQRGNNNAYCQDNETNWLDWSRKDSFRDIFRFFKKMVNFRKNHHSLKRAHFFKSEDISGNGVADITWHGTKLNKPDWSQDSRTLAFMISGEDFSDDSPNDNDIYVALNSYWEPLWFELPKLEGKKWYRVVDTYRNYGDDFLEEYEEIKDEKYLVMDRSSIILISKKFKKEK;locus_tag=LOCUS_09320;gene=glgX;note=WP_002680950.1 glycogen debranching protein GlgX (Treponema denticola) [pid:48.1%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:1.4e-188],MGA_936
sequence03	MetaGeneAnnotator	CDS	240190	243846	.	-	0	ID=MGA_937;product=methionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963898.1;translation=MSIYEELKKKIIILDGAMGTSIQNYKLSEEDYRGKEFKNSSFNQKGNNDLLNITKPEIISEIHEEFLKAGADIIETNTFNANRISQADYGLENHVFELNKKGAEIAKKIAKKYSIPDKPRFVAGALGPTNKTASLSPKVEDPGYRDVDFDYLVEIYKEQIDGLVAGGIDVILIETIFDTLNAKAAVFAANTYMEEKNIRFPIMISGTLTDKSGRTLSGQTLEAFVTSIKNDNVVSVGLNCSFGAKDLLPFIEKLSKTEDLYISVYPNAGLPNQFGEYDELPEETSNFLKPLFENRNVNIVGGCCGTTPKHIEKIYEIAKNYKPREIPIIKIETKISGLELLKINEEMNFINVGERTNVAGSRKFLRLINEKKYEEALSVARDQVEGGAQIIDINMDDGMLNAKEEMVKFLNLVMSEPEIAKVPIMIDSSKWEVIEAGLKCLQGKSIVNSISLKVGEEEFIRQAKLIKKYGAAVVVMAFDEQGQADSYERKIEICKRSYDILVEKVKFNPADIIFDPNILAVATGIEEHNNYAVDFINAVKWIKENLPYAKVSGGVSNISFSFRGNNIIREAMHSVFLYYAIKNGMDMGIVNPNMLQVYDDIPKELLEYVEDVILNKREDATERLIDYAEKVKGQSNNKDNSKRLEWRKGTIEERLSHALVKGIVEYINEDVEEARNSYNSALEIIEKPLMAGMNIVGDLFGSGKMFLPQVVKSARVMKKAVEYLMPYIEAEKKEGDSQNEGKVLMATVKGDVHDIGKNIVGVVLACNNFEVIDLGVMVSAEEIIKKAKELNVDIIGLSGLITPSLEEMTNIVTLMEKENMDIPVMIGGATTSKKHTAVKIAPYYSKGVVHVLDASRTVPVAKKLCNKEKRKDFINEINKEYKIIRDKFLNRDNNTLLSFKEAKKKRLKLDWETEEIYKPKVMGINYIYEYPLEEISKYIDWTFFFFAWQMKIPYPKIMQDEKYKEEAKKLYDDAQIALKDIISNKLFKANAAYGILPANSVDEYIEVYNNESKEKVLARFNMLRQQEKDLENNLSLVDYIAPKNSNKIDYIGFFALTAGHGVKELAEKYRAEGNEYLAIMYTILGDRLAEAFAELLHEKIRKDIWGYANSENLTVSEELQVKYQGIRPAIGYPSIPDHSEKKVLFDLLDITNKIDILLTENYAMFPTASVCGLYFANKNSKYFNINRIDKEQVADYAKRKNITFDEARKNLAHNLEYK;locus_tag=LOCUS_09330;gene=metH;EC_number=2.1.1.13;note=WP_010963898.1 methionine synthase (Clostridium) [pid:59.2%25%2C q_cov:98.9%25%2C s_cov:99.0%25%2C Eval:0.0e+00],MGA_937
sequence03	MetaGeneAnnotator	CDS	244010	245221	.	-	0	ID=MGA_938;product=uracil-xanthine permease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903692.1;translation=MNKAKYLLGAQHVLAMFGATVLVPFLTGLNPAIALLTAGLGTLLFHLCTKKIVPVFLGSSFAFIGAISLVLKEDGLSVVKGGVISAGLVYVLMSLIISRFGVERVKSFFPAIVTGPIIMVIGLRLSPIAINMAGYSNGKFDLKSLIIALIVIITMIIISVMEKSFFRLVPILISVTVGYIVAMFLGLVDFSAVVNAKWIGFSAEATKDLLTLPKFTLSGILAIAPIALVVFIEHIGDITTNGAVVGKDFFKEPGVHRTMLGDGIATMVAGLLGGPANTTYGENTGVLAVTKVYDPAILRIAAVYAIALSFIGKFGAILQTIPVPVMGGVSVILFGMIASVGVRTLVDAKLDFAHSRNLIIAAVIFVFGIGINNIIIWKTVSISGLAIAALFGVVLNKILPENI;locus_tag=LOCUS_09340;note=WP_005903692.1 uracil-xanthine permease family protein (Fusobacterium nucleatum) [pid:71.8%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:2.8e-161],MGA_938
sequence03	MetaGeneAnnotator	CDS	245285	245419	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEMFFLKKFKKNKHNFSFITLLSLIFVFNILIYNLFIKVKCL;locus_tag=LOCUS_09350;note=MGA_939
sequence03	MetaGeneAnnotator	CDS	245524	247404	.	-	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILFIFIITNLVVFAVDINDYMLFDNGMKDFNNKNYKKAIEKFKKINIEYKKSNLIKSTYLYYYIGLSYYYTGNYETAIKFLKQTKYIPLEADYNNGYFKKNKKSYFEYEKNYYIAYSYLKMNNYEKAKEYFLKLYIDYFDIDIIKYEKTALKELIKLDKYYRYVFNTKYNIDENYDNLKIEDRLKLAKYFKSKGEYYKASILYRKYLENKSDMWANISVLKMLYYSKHYNELIEISKLYLKDKNNKKIDSYIYYYLASGYRRKGDLDNAITYFKNVKEGYFKKESIHLIGRMYYFKKDYDNAEKYLLQSNKKEAYQLLYNIYFSQKKYKELKKLLVNYIKNNPYSELSAFYRYKLYSMEKQGYLDYIIFFNQNTYYYEKAIEIKNYKEKAKDFPIQKYNEKYKRFNTRIEKILELNNPLYLKIELKYYDFSPEDDLYKKYLISKVFEKNTSYNEAIRNSLLNYRKFYNYKELKKMLYPKYYQKIVSKYSKKYGIEEELIYSIIKQESLFGKSLVSRASAYGLMQIILPTAKMFDNNITIEKLLEPDTNIKIGTQYLKWISDRVNGNISQIAASYNAGIGNVLNWLKEKNGDLIIEKIPYTETRGYVEKVLNNYYKYKRIYSN;locus_tag=LOCUS_09360;note=WP_010881168.1 transglycosylase SLT domain-containing protein (Aquifex aeolicus) [pid:28.9%25%2C q_cov:60.5%25%2C s_cov:96.9%25%2C Eval:1.2e-31%2C partial hit],MGA_940
sequence03	MetaGeneAnnotator	CDS	247525	247785	.	+	0	ID=MGA_941;product=SemiSWEET transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125345.1;translation=MFFKIIGLLAAVLTTFSFLPQAIKTIKTQNTEGLSLGMYSIFTTGVLFWIIYGFYLKDIAIISANIITFIFAISILIVLIKNNFKK;locus_tag=LOCUS_09370;note=WP_011125345.1 SemiSWEET transporter (Prochlorococcus) [pid:42.7%25%2C q_cov:91.9%25%2C s_cov:90.1%25%2C Eval:1.8e-10],MGA_941
sequence03	MetaGeneAnnotator	CDS	247860	249638	.	+	0	ID=MGA_942;product=alpha-glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000471779.1;translation=MSINKFAVYHKAKSNFAYLTTDNKVHIKIKCAKNDADNVYLIFGDKYEWHKKQKIKMKKISTDNEFDYYGIKVFIDSKRLSYYFEIEKHHKIYSYTNFGFFDNIKQDEAYLFVFHFPYLHFEEKNNTPTWVKNAIFYQIFPERFEIGNPEYKDYVNAKWEEKPKYNSFHGGDLRGIINRLDYLKELGITALYFTPIFKAPSNHKYDTIDYMEIDPHFGTKKDFKELIKKAHSFGIKIILDAVFNHTGDKFFAFQDILKNQENSKYKDWYYIKKFPIDLEYLEKKRKEKGWKDWYIDEKTGKNILPYETFAHTQHMPKLNLFNKDAKEYILNAVKYWTKEFNIDGWRLDVADEVPQSFWKEFRKVVRDINKDAYIVGEIWSNSENWLNGDQFDAVMNYGVTYLCTQYFAENRINSIEFLEGINSLLMKYQEQTNFSMLNLLDSHDTARFLNKCNFNEEKHLLALTFIMTYIGAPMIYYGTEIGMDGEHDPDCRKGMIWNKNKWNMKYYNYIKRLIRIRKENIELQEGEFIPHFNKKLLSFERIYKNNKILVIINNSKKEIRYKLENNYTQELITNKIIKKEIILQPYQAAILK;locus_tag=LOCUS_09380;note=WP_000471779.1 alpha-glycosidase (Bacillus cereus) [pid:42.2%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:9.2e-138],MGA_942
sequence03	MetaGeneAnnotator	CDS	249701	249988	.	-	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIVIAGGIKGIEREYKNISKKYGFKCKIFNENVPNFNKKIKNVDAVVMFTGTVSHKISKKCCAVCKKNDICLKRMHSSSINQLELALQEISSEI;locus_tag=LOCUS_09390;note=WP_009890712.1 DUF2325 domain-containing protein (Clostridioides) [pid:37.5%25%2C q_cov:84.2%25%2C s_cov:71.4%25%2C Eval:4.4e-09%2C partial hit],MGA_943
sequence03	MetaGeneAnnotator	CDS	250214	250399	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIITNDIKKVLDEIHKLENALEKAYAEENHILVKEYTKKLETLNEEYASLRKNRHDKINA;locus_tag=LOCUS_09400;note=MGA_944
sequence03	MetaGeneAnnotator	CDS	250532	250957	.	+	0	ID=MGA_945;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356138.1;translation=MQLPTKTKTGLKALIYIAMQNEKYRCSIKEISEELNISNRYLEQIFRYFKKSNILEGSKGPNGGYKLLKKANKISLYEIISLLQPELVKKDIFENKDKYETSINITLSKPLDDLIIRFLKKISLQDLIDNFNLEENYMYYI;locus_tag=LOCUS_09410;note=WP_003356138.1 Rrf2 family transcriptional regulator (Clostridium) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-18],MGA_945
sequence03	MetaGeneAnnotator	CDS	250968	251882	.	+	0	ID=MGA_946;product=cysteine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356610.1;translation=MIYNNILELIGKTPIVKLNSINTFGTEILVKLESFNPGGSVKDRIAKNMIESAEKQGLINKNTMIIEPTSGNTGVGLAMTAAAKGYKLILTMPDTMSIERRNLLKAYGAELVLTDGKLGMKGAIDKAIELNETYENSIILQQFENPANPDVHRKTTAIEILENTEKNIDIFVAGVGTGGTVTGTGEILKKEIPTIKVIAVEPENSAVLSGNGPGPHKIQGIGAGFIPKVLNTDVFDEVIQVSNEESFKHARLLAQKEGILAGISSGAALAAALKLAQKEENKGKKILVILPDTGERYLSTGIFE;locus_tag=LOCUS_09420;gene=cysK;EC_number=2.5.1.47;note=WP_003356610.1 cysteine synthase A (Clostridium) [pid:60.1%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:5.8e-102],MGA_946
sequence03	MetaGeneAnnotator	CDS	251957	253354	.	-	0	ID=MGA_947;product=carbon starvation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902130.1;translation=MFTFFISLIILILGYIFYGKYVEKVFGVTDADTPAKRMNDGVDYVEIDWKRAFLIQFLNIAGLGPIFGAIAGALWGPIAFLWIVFGTIFAGAVHDYMSGMLSLKHDGATIGEVVGIYLGNNAKQIMRVFSVVLLVLVGVVFINGPAAILANLSGIGKFWWVGIIIIYYLIATVLPIDKLIAKIYPIFGASLIIMGIGIAGGIIFKGYHIPELTLQNLHPKTLNPFPYLFVTIACGAISGFHATQSPMMARCITSEREGRKVFYGAMVAEGIVALIWAAAAMAFFGSTKNLAAAGSAAVVVNTISNSLLGKIGGALALLGVVAAPITSGDTAFRSARLAIADATKFKQGPVKNRFLIAIPLFSIGLVLCFVDFTILWRYFAWSNQTLATIALWAGAVYLKNNGKNYLIAAIPATFMTSVIITYILIAKEGFKISEKIAYPIGIIVAILALGNFLFIRNKEVEYSKE;locus_tag=LOCUS_09430;note=WP_005902130.1 carbon starvation protein A (Fusobacterium nucleatum) [pid:60.2%25%2C q_cov:97.8%25%2C s_cov:97.9%25%2C Eval:3.9e-157],MGA_947
sequence03	MetaGeneAnnotator	CDS	253476	254201	.	-	0	ID=MGA_948;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897796.1;translation=MNCIIVDDEFPSREELKYFINEFSNIEILDEFENPLEVIKFLKDYRIDIVFLDINMPGIDGMSLAEIIKGLYDDIKIVFITAYAEYAIDAFRVKAYDYILKPYSEETIIKCLMKLTNNEEIDEKKEKKNRGIDGVVGWFKEKMYVLDYDEILFIEACERESKIYTKHNIYIAKSKISDFEEKLPLKKFFRTHRSYIVNLEKIEEIIPWFNNTYKLKIKDFDEEVLVSRNNIKEFRIIMNMI;locus_tag=LOCUS_09440;note=WP_009897796.1 response regulator transcription factor (Clostridioides difficile) [pid:49.6%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.3e-63],MGA_948
sequence03	MetaGeneAnnotator	CDS	254216	255886	.	-	0	ID=MGA_949;product=sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627701.1;translation=MLILFSHLLNNLGYVIAIAFFLSKLKIFQKIMQKDNFSLYDKLFLSLIFGTMAIIGTYVGVDYKGAIANTRNIGVVVAGLLGGPLVGMLAGIMAGLHRILIDIGGITSIPCGIATIIGGFIGGYFYKKSNLQNRYIYGFIGGFLVENISMAFILILSKPFEKAFDIVRNIYVPMVFANAVGVSVIILITESIKKEKDRVAGEQAKLALEIANKTLPYFRELNNSSLRKVCATVLNSLNADLVVITDKENILSYFSKKDEFTITHQKILSKATKDVLYTGKTLICDRKEDMINFIYNEKHLKSIKSAIISPLKSENQIIGTIKIYFSSEKQMTEKQKYLVEGLSNLISTQMEISKLENVKKTAKTAEIKALQAQINPHFLFNALNTIASFVRINPEKAREIIINLSTYFRYNIEAGEKFVKISKEIEHVKSYVNIEKARFGNRLNIIYEIDESILNKEIPAFTIQPLVENAIKHGIIESGIGDTVWVYIKDKKDKIYIEVTDNGVGIKKEIIEKIHNNNIESSKIGLNNVYHRLKLIYDNEIEINRLTQGTQIKFEI;locus_tag=LOCUS_09450;note=WP_201627701.1 sensor histidine kinase (Fusobacterium canifelinum) [pid:46.5%25%2C q_cov:99.1%25%2C s_cov:97.7%25%2C Eval:4.4e-134],MGA_949
sequence03	MetaGeneAnnotator	CDS	255895	256584	.	-	0	ID=MGA_950;product=peptidoglycan editing factor PgeF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015675.1;translation=MIEFKKFQDYGVKAIFSDKNDGDMSFENIKNRSFFLKKQGIKKEIIYAKQTHSKNIKIITDTKENYYENIDGFITNLENVVLFTLHADCLPIYILDKKNNIISLLHSGWKGSYQEIVKSSVYLLEKKFNSRKDNLLIAIGPGISALNYEVQKDFREQFIMKFDKNTLKNVFLEKNNKIYFDNKKFNYNLLKNLGIKDMIISEKCTYDDNYFSFRKDKDKKRNGAFLFYM;locus_tag=LOCUS_09460;gene=pgeF;note=WP_011015675.1 peptidoglycan editing factor PgeF (Fusobacterium nucleatum) [pid:39.4%25%2C q_cov:98.7%25%2C s_cov:93.0%25%2C Eval:2.4e-40],MGA_950
sequence03	MetaGeneAnnotator	CDS	256633	258090	.	-	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKGDILLIIILFFIFLMFLSKRIIKNFKKLNTYLFFILILVILREGFEYLFDFNNKTIGLYFITVTFLVIKILGIFLDETSYKIIHFEIPKLLRSVILIVIFIVSFFFALKKYYNINLTPFLTTSAILSAVIGLALQDTLTNFIAGIVLTSEKNFKRGDSVVVDNIEGKVNDTDWRSTKITKFGGGVVSIPNSILLKDKFINYYRKSKYRIDIEIGTSYNDPPNKVIKVLLEIAKNNKKVLKDPLPEVLIRQYGDFSIDYILRIWVVDDYLNRWSIKTDIYREIWYSFLRNGIKIPFPVRENIEIIKDVKEENKQEFENRKVLINKIEFLKSLSEKSKNELSKKIRVLRYGKGEIIVKEGEEGDSFFIIQSGIVDIFINNRKIANLKKGDFFGEMSLLTGNKRNATVVATTDLELLVLDKMTFRKIIENDKAILDILSEYLLKRGEENTKFNKDINDLSKKQNTNRADIKKSIFKKLINFFEF;locus_tag=LOCUS_09470;note=WP_011250014.1 mechanosensitive ion channel family protein (Thermococcus kodakarensis) [pid:34.9%25%2C q_cov:35.9%25%2C s_cov:63.7%25%2C Eval:5.2e-27%2C partial hit],MGA_951
sequence03	MetaGeneAnnotator	CDS	258213	259100	.	+	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINTEFNYKEIKKFFIENIDKNIHFENLNFLNNDLNSRFIFDSNTSTIDDISFIEINNYKIINLYFKIIDSSNSYLQFIFENDIFNNCYLFTTINTIYPSEKKEWIYWLGNEHITGIINDDIFILEDTPLEKTVTTLYKIVKKIFPNFNNFTNVNFNNSDSNVSTNLLHLISSELGISIKEVFSKFNTAISSIDWIIDLLLNESEAEFYIILSEGDLESEYKKLSYFEKLKYIEKSKNKENSNIKKESMIFYRDVENEFYSKEYIKLTINHEKFSPNISIDIGIPLSTSDIKLL;locus_tag=LOCUS_09480;note=MGA_952
sequence03	MetaGeneAnnotator	CDS	259180	259761	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVTTRQLIITTFYKLIAKKGYDKASLNDLVKETGLSKGAIYHYFNTKDDIFIATIEFLFESMMRFDFLDIDNITKKNYKLILKNIGNNILNFGQVDPYYSRFQFEFINQAFRIAIVKDYLIKFLQKYLEFFNSFFDHLYKKNIISKKKDHEIIKQLFFMMLDSMVLYKTLDIPFNFEKNWEKFIDLILNEED;locus_tag=LOCUS_09490;note=WP_002907310.1 TetR/AcrR family transcriptional regulator (Streptococcus sanguinis) [pid:41.4%25%2C q_cov:30.1%25%2C s_cov:27.4%25%2C Eval:7.2e-07%2C partial hit],MGA_953
sequence03	MetaGeneAnnotator	CDS	259763	262333	.	+	0	ID=MGA_954;product=MMPL family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000808805.1;translation=MLEKLGKFVIKKYRLVLLFSFIITVISIFFITKLKMNMQFMDLLPKNDNSVIIYKKALKNFNSLDSIIVGIKGNNKNDIEKFLNDVPKTLEQWNEIKSINYAQNDEFLLKNGLITLKEKDLKDLVPLLSSNSIAEFIKSSNDNFEKTYINSSDSEKINKNSNKIIFLLNFLKDFLTKANNGTLNNKDTKRFFRGNKYFISPDNTLGIFIIKSAISIDDIIEVTNFINKLEAYLNKEGKKYNVSTSLTGSQVISRDEMIVSTKDMNLTSTLSIILMLLLFIISFKLIRYSFLAIIPLIMGIIWSMGITYLIFGSLNMLTAMMGAILIGLGIDYSIHIISVFLDEKKSKENLETNLLNVYKKVIRGIITGSITTSIGFIMFSFSKFPGFKEFGIVLGIGIICTLLAAIFTLPALLMVFGKKKLKVKTNKPIYILEKLEIPVIKYKYITLIILIIIISILSIKSTNFKFEKDMMKIEAKGLKSIALNKEIIKKFDFTSDNSIIINKNLKEAQSNYEKLDKLASVGEISSIAQYLPSIEKQNKRLAIIKNIKKSSLIKVDNNIYEDKLIEELYRLENNIIELSDLSYVSGDIKITNKCDEFINSNIISNIIDNLDSKNIQKSQINFFKSLKTLILNHNENIITLNDIPNSIKNEFVGKNNEFITTIYPKHDLWNEDFQKKFLTEIDNVNKNNSGTAKIFIKVVEAEKTEGKKVLIYTVIAIFIVLLFDLKSFKYAIFALLPMLITILAILGIMGWTGFKFDVVNIIGIPLIIGIGVDDGVHLIHRYLQEKDLLITFRSTGKAITLTTLTTVFAFGTLMFAKYRGFIGFGFLLSLGVTLAYLFTLFLLVSLIAIFDKITFK;locus_tag=LOCUS_09500;note=WP_000808805.1 MMPL family transporter (Leptospira) [pid:21.0%25%2C q_cov:96.7%25%2C s_cov:90.1%25%2C Eval:2.7e-43],MGA_954
sequence03	MetaGeneAnnotator	CDS	262345	263076	.	+	0	ID=MGA_955;product=outer membrane lipoprotein-sorting protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679769.1;translation=MKKFIFMFLIIFSITTFSKTTINEILKNIKKNNNYNSSFQISTMKIEKNGKITSSMIFESYSKKINNNTFQLMKFTSPSRLTGTSILSKNGNTWYYNKRTNRVRLLSKSAKNGNLMGSSFSYDDMDFDYEKDFNSILLKEDKKYYYLKLVPIDKNKKYSYIISKVNKFNFTEELIEYYDKNNFLYKKLEINDYTKKGNYLIPKTMKMTDIINNKSTYIISDISTIKLNINIKNTLFSEKNLKK;locus_tag=LOCUS_09510;note=WP_002679769.1 outer membrane lipoprotein-sorting protein (Treponema denticola) [pid:23.5%25%2C q_cov:84.8%25%2C s_cov:81.6%25%2C Eval:1.8e-09],MGA_955
sequence03	MetaGeneAnnotator	CDS	263089	264171	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIILLSVFMLIFFNGFATTSLKTKLTINNSKIKNLESTSNSKAKFFLYNDDFENSLIDIEYSLYTENNSKNNKNSLDLARIKLVQNNIEIIFGKTRLGWGQGFNFNPIDIFNETPAGSAFDSNYEKEARNSITFTSYLQNDDSLEFVYAGNYNNNSISKDIEYGIRYKQFIFNTDFEFIYAKRGKELKPYETLIPSDIYGASIKTTIPYINYGYWIEGNYSAADNIYTFITGIDNYFWENYYFNIEYYQNGYGKSDKNFYDNNDLNKINYNIPIGTDYLIPSFKYEMNELFSTTFFSFININDRSFTIGNSSDYYYNDLISFNLTEFFFNGEKNSEYYLTKSTYGDYGISFTITADF;locus_tag=LOCUS_09520;note=MGA_956
sequence03	MetaGeneAnnotator	CDS	264278	264448	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTEEVILSGKRTYIGRTSGEIQKDTEGVTLSGKRTEDIFKLVIFKNIFSFYLAVF;locus_tag=LOCUS_09530;note=MGA_957
sequence03	MetaGeneAnnotator	CDS	264500	264778	.	+	0	ID=MGA_958;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871082.1;translation=MQGKIVITVIGDDKVGIVSEVSLKLKELKCNIIDISQTIFENEIFAMIMLVEIKDSTFDFNKIKEKLKLLEEKIGVKVYVQHEDIFKAMHKI;locus_tag=LOCUS_09540;note=WP_010871082.1 ACT domain-containing protein (Methanocaldococcus jannaschii) [pid:51.7%25%2C q_cov:96.7%25%2C s_cov:97.8%25%2C Eval:4.0e-18],MGA_958
sequence03	MetaGeneAnnotator	CDS	264801	266171	.	+	0	ID=MGA_959;product=PFL family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861617.1;translation=MHILANSNEILETIKMVDMQNLDIRTVTLGISLLDCINSDHKKTCENIYNKILKYGKNLVNIADAVSNKYGVPIVNKRVSVTPISIIAGATDAEDYTVFAETLDKAAKDIGVDFIGGFSALVEKGFTESDLKLINSIPNALTVTERVCSSVNVGSTKAGINLDAVKMLGKTVKDLAYNTKEKDGLGAAKFVVFTNAVSDNPFMAGAFHGVGEGEVVLNLGISGPGVVRAALNKIDKKADISVITEEIKKISFKITRMGELVGKEVAKNLGVEFGIIDLSLAPTPAIGDSVGNILEEFGLESVGAYGTTLALAILNDAVKKGGAMAATRVGGLTGAFIPVSEDQGMIAAASKGYLTLEKLEAMTCVCSVGLDMIAIPGDTPDYVISGLIADEMAIGMVNNKTTAVRVIPVPGKNVGDRVVFGGLLGEADIMPINSLNCSTLINRGGKVSPPIQAMKN;locus_tag=LOCUS_09550;note=WP_011861617.1 PFL family protein (Clostridioides difficile) [pid:63.0%25%2C q_cov:98.9%25%2C s_cov:99.8%25%2C Eval:2.1e-160],MGA_959
sequence04	MetaGeneAnnotator	CDS	153	1013	.	-	0	ID=MGA_960;product=protease modulator HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582429.1;translation=MKSRIFLGVIIIAIVVVFSSMFQVNEMEQAILIRLGKPVGKPIETSGLKFKMPIIDQVVKFDKRILEYDSEPKEIITKDKKNLVVDSYAKWKIKDPLKFLQTVNSYVGAQTRIDDIVYSELRQVIGKYTLIEIISTERENIMEIITKDSSVKLAEFGIELIDARMKRAELPKQNEENIYRRMEAERNEQAKKYRAEGQEISLQVKSNADKEKTIILAEAYKTSQNIKGEGDSKALQIYAEAYNKDKEFYRFVRTLEAYEKIFGEKNNNRMILSTETELFRVLSETK;locus_tag=LOCUS_09560;note=WP_012582429.1 protease modulator HflC (Dictyoglomus turgidum) [pid:44.4%25%2C q_cov:97.2%25%2C s_cov:97.9%25%2C Eval:8.8e-65],MGA_960
sequence04	MetaGeneAnnotator	CDS	1003	1971	.	-	0	ID=MGA_961;product=FtsH protease activity modulator HflK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_181409358.1;translation=MADFNNPNFKKFINFVKKLGFLSIVIVLALYLLTGIYTVGPDEKAVVLTFGKYTKESNPGLNWYFPAPIGKVIKVKTTKVYREEIGFRTIDPGPPAKYQDKRTESLMLTGDENIVEIDFTVQYKINNVKKFLFNVKNQRKLVYDAAQASLRTVVGNSTLENILTIGKGEIQSQTQKKLQKLLDVYDSGISIVNIQLQDVQPPKEVLNAFKDVASAREDKVRYINEANGYRNDILPKARGEAEKLINEALAYKEKRIKEAEGDVARFLQLYEKYQLGKEVTKTRLYLETLEKVMPNVDKTIIDKNLDSGLLNIIDKGGITNEK;locus_tag=LOCUS_09570;gene=hflK;note=WP_181409358.1 FtsH protease activity modulator HflK (Desulfovibrio) [pid:45.2%25%2C q_cov:88.5%25%2C s_cov:78.3%25%2C Eval:6.0e-68],MGA_961
sequence04	MetaGeneAnnotator	CDS	1983	3047	.	-	0	ID=MGA_962;product=DNA integrity scanning diadenylate cyclase DisA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004453975.1;translation=MYKNKEIKDILSFVAPGTEIRKGLNNILDAGTGGLLVIGDDKGILEIIDGGFFIDCDYNPQRIYELAKMDGAIILSKDINKILYANVQLQPNPKIETTESGTRHRTAERVAKQTGELVISISQKRKRISIYKNNIKYLLRDISVIMTEASQAMKTLERYKEVLVKSLTNLTMMEFDDLVTLYEVCMIIQKFELMVRISKALKLNIIELGTEGTLLSLQLDEIMNEINIEIQDLIRDYYKIEEETENEDIFEKLEELTEEELLDLKNISYILGYKRSYASLDTKVVPKGFRILGKIIRLTTKDIKILVSHFDGLNNILSASEEELAEIDNISKFKAKIIKNGIRRLRFTIELEKK;locus_tag=LOCUS_09580;gene=disA;EC_number=2.7.7.85;note=WP_004453975.1 DNA integrity scanning diadenylate cyclase DisA (Clostridioides difficile) [pid:46.6%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:5.0e-87],MGA_962
sequence04	MetaGeneAnnotator	CDS	3050	4402	.	-	0	ID=MGA_963;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016188.1;translation=MAKNKIRYICEECGYESSKWLGKCPNCENWNTFKEENELSFSKSNNKTKNISAVKLDEIETMSNYRYTTTLKEFDRVLGGGLVKGEVVLLTGSPGIGKSTLLLQSSKEYCKYGKILYLSGEESVNQIKFRANRLHVNENNLYLLNETEIESILEFIKKEKPNVVIIDSIQTIYSNTIDSIPGTITQIRECTLKIVEIAKKMEISFFIVGHVTKDGKVAGPKLLEHMVDAVLNFEGEEGNYYRILRGIKNRFGSTNEIGIFNMEEDGISEIKNPSEFFLSERDEKNIGSIVVPILEGSKIFLLEVQSLLINSEFGIPRRIVQGFDKNRVQILSAVIEKKLSLNLANKDIFINIPGGISIKDTSADLAVVMSIFSAFKDIEISQKIAAIGELGLRGEIRKVAFIEKRLIELYKLGFKGVYVPESNRKDLENKNINLKIIYLKNLNDLLERMR;locus_tag=LOCUS_09590;gene=radA;note=WP_011016188.1 DNA repair protein RadA (Fusobacterium nucleatum) [pid:63.7%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:1.1e-164],MGA_963
sequence04	MetaGeneAnnotator	CDS	4414	4914	.	-	0	ID=MGA_964;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965045.1;translation=MEKKKAIYAGSFDPITKGHLDIIKRSSKIFDEVIVGVLNNSNKKYWFSLEQRENMIKKSLENEKIENIKIDSFEGLLVDFMNRKQCNILVRGLRAVSDYEYELQLALTNSVLSKNSIETIFLPASRENLYLSASIVKDIALNKGELTEFLPKVIIDDVIKKANEKR;locus_tag=LOCUS_09600;gene=coaD;EC_number=2.7.7.3;note=WP_010965045.1 pantetheine-phosphate adenylyltransferase (Clostridium) [pid:49.7%25%2C q_cov:97.0%25%2C s_cov:98.1%25%2C Eval:5.1e-39],MGA_964
sequence04	MetaGeneAnnotator	CDS	4927	6393	.	-	0	ID=MGA_965;product=ribonuclease G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943853.1;translation=MKQIIVSVKEFESNAALIEDNKLIEFLVERDDLTRIVGNIYKGKVENVLPGMESAFINIGLEKNAFLYVNDLREFEERYLDGVENSDRPIEDILKKDDEVVVQILKEPRGNKGARVTTHYTIPGKYLVLMPNNNYIGISKKIKDETERKRLYDLIERIKPENVGLIIRTEAEGKEDIYFEREIEYLVKKWQEIEYNISRAKIGEILYSDNDLVNRVVRDIFSHEINELIIDDEKKYWEIIDYINAFSEREMSTKIKLFTEEQEILDYYKIKSEVEKALKKEVWLDCGGYLVIEKTEALISIDVNTGKNVGLHNLEETVLQTNLEAAREIPRQLRLRNLSGIIIIDFIDMRIEEDKEKVLLELEKNLSKDRVKNNIIHFTDLGLIEMTRKREGKPLSNYFLEECYLCKGNGYVRSVEAIVHEIIEQVKQDAKEDDINKIKILASERVYEILNSTYKEFINTYLKSKNKSFELEKLNKQNFNDYELIYEK;locus_tag=LOCUS_09610;gene=rng;EC_number=3.1.26.-;note=WP_010943853.1 ribonuclease G (Geobacter sulfurreducens) [pid:39.9%25%2C q_cov:91.8%25%2C s_cov:92.0%25%2C Eval:6.5e-102],MGA_965
sequence04	MetaGeneAnnotator	CDS	6390	7433	.	-	0	ID=MGA_966;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016184.1;translation=MKHYNIPIFIAHYGCPNTCTFCNQNKITGVITNITPNEVKKIIDEYLETLPENSNKEVAFFGGTFTALPLNIQEEFLKIVKSYIDLGVVNGIRLSTRPDCIDDKILSLLKKYNVTTIELGVQSLDNEVLSLSERGYKEEIVYYASELIKKYNIILGIQIMPGLNGSNFNSDLETIKKVVKIKPDIVRIYPTLVINKTKLEILYKRGEFTPLSLNEAIKISALAIAYFELNNIKIIRVGLQPSDDLREDGVIIAGPFHPAFKELVEGKIISLFFDKILSKNKINIIETNPRNMSRVVGINKVNKIKYFNILKIIQNKDINIFEYKINNTIYKREEILKNIIKTWDDGR;locus_tag=LOCUS_09620;note=WP_011016184.1 radical SAM protein (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:97.1%25%2C s_cov:96.8%25%2C Eval:2.1e-98],MGA_966
sequence04	MetaGeneAnnotator	CDS	7420	8139	.	-	0	ID=MGA_967;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124797266.1;translation=MYENKNLNELEKRLGYYFKSQTLLKKALIHRSYGNENWDYKNTNNERLELLGDAVLDLIVTEYLYLNFSDSNEGELAKLKSMIVSEPVLAEISLEIGLGDFLLLSKGEELTGGRERESILGDAFEALLGAIYLDSDFNSAKEFALKYLEYRILHINENEELIDYKTILQEYAQRVYKVIPIYEVIKEIGPDHKKSFEIGVKISEEIFIGVGKGKNKKTAEQHAAKNACKKMGVNINEAL;locus_tag=LOCUS_09630;gene=rnc;EC_number=3.1.26.3;note=WP_124797266.1 ribonuclease III (Fusobacterium canifelinum) [pid:56.2%25%2C q_cov:98.3%25%2C s_cov:99.6%25%2C Eval:2.5e-72],MGA_967
sequence04	MetaGeneAnnotator	CDS	8153	9394	.	-	0	ID=MGA_968;product=beta-ketoacyl-ACP synthase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016182.1;translation=MNRVVITGVGLITALGTGVEKSWNAIKEGKIGVRHIQGFDTEGFPVKIAGEVIDFNPEEYGMPKKELKKLARFTQFGIAASKMALEDSGYKITDENAYKVGVLVSSGIGGLEILEAQHSVMLEKGPKRMSPFTIPALIENMGAGNISIYLGAKGPSKTIVTACAAGTHSIGDAYRMIKYGEADAMLAGGTEACITPFGVAGFAALKALSTRNDEPEKASRPFTKDRDGFVMGEGAGVLFLESLESAKKRGAKIYAEVIGYGATSDAYHITAPAAGGEGAARAFKLALEEAGVELTDVDYINAHGTSTPANDKNETAAIKSVFGEHAFDLAVSSTKGATGHALGGAGGIEGAILALAIDEEVLPPTVNYDNPDEECDLDYVPNQARKRKINVGLSSSLGFGGHNAVIAFKKYTD;locus_tag=LOCUS_09640;gene=fabF;EC_number=2.3.1.179;note=WP_011016182.1 beta-ketoacyl-ACP synthase II (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:4.8e-140],MGA_968
sequence04	MetaGeneAnnotator	CDS	9486	9710	.	-	0	ID=MGA_969;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902726.1;translation=MLKRVKAVIVDQLGVDESQVTLEASFVDDLGADSLDTVELIMAFEEEFGIEIPDEDAEKIKTVKDVIDYVEKNQ;locus_tag=LOCUS_09650;gene=acpP;note=WP_005902726.1 acyl carrier protein (Fusobacterium) [pid:71.6%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:7.5e-25],MGA_969
sequence04	MetaGeneAnnotator	CDS	9833	10588	.	-	0	ID=MGA_970;product=3-oxoacyl-[acyl-carrier-protein] reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966837.1;translation=MITIDLKGKTAVITGSARGIGRAIAEKLAEAGANIVISDILEDMGIATANEIKEKYGVETIFVKTNVTLMEDAIDLVNKTKDTFGSVDIFVNNAGITKDGLFMRMSKEDFERVININLTGAFNCAQAAYKIMMKQRSGSIINMASVIGLVGNLGQANYAASKAGLIGFTKSIAYEAAKRGVRVNAIAPGYIKSDMTDLLKDDVKEAIMGKIPMNKMGSVEDVANAALFLASNLSSYITGKTITVDGGMVMV;locus_tag=LOCUS_09660;gene=fabG;EC_number=1.1.1.100;note=WP_010966837.1 3-oxoacyl-[acyl-carrier-protein] reductase (Bacteria) [pid:54.7%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:2.7e-72],MGA_970
sequence04	MetaGeneAnnotator	CDS	10604	11509	.	-	0	ID=MGA_971;product=ACP S-malonyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016181.1;translation=MSKIAFLYPGQGAQYVGMGKDLYENNELAKKYFNEIFDSLDIDLKEIMFNGPEEKLKETKYTQPAIVAMSLVLTKLLEEKGIKADYVAGHSLGEYSALGAANFLSLQDTIKLTAKRGEIMNKVAQKVNGTMAAIIGLEKEKIQEILKDISGVVEAVNFNEPNQTVIAGEVEAINEACEKLKEAGAKRALVLAVSGPFHSSLMKEAGEQLKEYLNNFEIQEGVASLIANTSVEIVAKNNLIDELYRQTFGPVRWVETIDKLKELGVDTFYEIGPGKVLKGLLRKIDRNLKVINIEKVNDLDF;locus_tag=LOCUS_09670;gene=fabD;EC_number=2.3.1.39;note=WP_011016181.1 ACP S-malonyltransferase (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:1.3e-111],MGA_971
sequence04	MetaGeneAnnotator	CDS	11575	12570	.	-	0	ID=MGA_972;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460503.1;translation=MKQLKSVGIVGVGAYVPEKIMTNFDLEKIVETSDEWITSRTGIKERHIAEENEATSDLGYEAAKKALKDANLKPEDIDLIIVATITPDYPFPATAAIIQDKLGAKNAAVFDLEAACSGLVYGIVTGANFISTGAYKNVLVIGAEALSKIMDWTDRNTCVLFGDGAGAVVLSEVEEGYGVLSFDLGADGSGGHTLDQPGGGSRNPATVETVNNRMHYLKMKGKEVFKFAVNVLPKTTLKTLEKAELTIDDVKLYIPHQANFRIIDSAAKKLNESIDKFYMNMDRFGNTSAASIGIALSEIYENKKLKKGDNILLVGFGAGLTYASCVIKWAK;locus_tag=LOCUS_09680;note=WP_011460503.1 ketoacyl-ACP synthase III (Desulfitobacterium hafniense) [pid:58.9%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.4e-112],MGA_972
sequence04	MetaGeneAnnotator	CDS	12567	13595	.	-	0	ID=MGA_973;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016179.1;translation=MIKIALDAMGGDFAPSSTVQGAVEAIKENSDIKIILVGNEEKINEELRKYSYDKEKIEIIHTDEEILMKESMPPALAVRKKKKASMNIAVQLVKDGKANAVVSAGNTGALMTASQLTLKRIKGVLRPAITTIFPKKNGKMVMMDVGANADCKPEYLEQFCIMGMEYAKILLEIKNPKVALLNIGEEEGKGNELVKQSYELIKSNSNINFIGNIESREMLTEGKADVVVADGFTGNIVLKTAEGVAKTIFDILKEEIETNFLYKLAALILKPVFKTVKNSLDSSEYGGALFLGLNGISIKAHGNSNGKAIKNALNVAKKFAESNFIENIKESIDKKERVGGLK;locus_tag=LOCUS_09690;gene=plsX;EC_number=2.3.1.274;note=WP_011016179.1 phosphate acyltransferase PlsX (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:97.1%25%2C s_cov:99.4%25%2C Eval:2.6e-101],MGA_973
sequence04	MetaGeneAnnotator	CDS	13655	13834	.	-	0	ID=MGA_974;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005890386.1;translation=MAVPKKKTSKAKKNMRRSHHAIKASSLSTCDHCGAPKRPHRVCLECGSYNGKQVIAQAE;locus_tag=LOCUS_09700;gene=rpmF;note=WP_005890386.1 50S ribosomal protein L32 (Fusobacterium) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-19],MGA_974
sequence04	MetaGeneAnnotator	CDS	13857	14363	.	-	0	ID=MGA_975;product=DUF177 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583304.1;translation=MKIDLKKLKEENKSHVVINDSLPILDSEEFKISKPIDFNVNLTLIDDEVFIKGNFNTEVKLECGKCLNKFHYYLEGELEGHFIDKAKIKKIINELEDEYENSGEIFEELKDDEIDLANLIREHIILELPSYPICSNNCQGVENFDNYLDDGVDPRWQQLIDITNKKNK;locus_tag=LOCUS_09710;note=WP_012583304.1 DUF177 domain-containing protein (Dictyoglomus turgidum) [pid:28.6%25%2C q_cov:82.7%25%2C s_cov:83.2%25%2C Eval:6.0e-11],MGA_975
sequence04	MetaGeneAnnotator	CDS	14910	15503	.	+	0	ID=MGA_976;product=biotin transporter BioY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024220.1;translation=MNIILKRKKFFLWRDNLNLTHSLLLTFVFTILTGISAQIKIPLIFTPVPITLQTFIVLIAGVILKKNYAVFSQVLYIILGIFGVKWFSGGKSGLSVLAGPTGGYLIGFVFAVYFIGHIRKKYDNNTNILINLILMFTADIFIVFGLGLLQFAIWFKLSNGNFLPFSTLLNMGFTPFIIGEFFKIFLAVLITTNFNNK;locus_tag=LOCUS_09720;note=WP_011024220.1 biotin transporter BioY (Methanosarcina acetivorans) [pid:35.3%25%2C q_cov:86.8%25%2C s_cov:88.8%25%2C Eval:1.9e-26],MGA_976
sequence04	MetaGeneAnnotator	CDS	15544	16092	.	-	0	ID=MGA_977;product=3-isopropylmalate dehydratase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932300.1;translation=MEKIIKGKVYVLGDNIDTDQIIPAMHLVYKTDDPEESKLYGKYAMSGLPLDIAEKQPFIKGDAYISEYQIMVVGNNFGCGSSREHAPLALQKAGIKAVVAKDYARIFYRNSVDGGFLVPFESKEKIDSFFDTGDEAEIDLENAIIKNITKNKEYKLNSLGDVANIIEAGGLFNYAQKKGFIK;locus_tag=LOCUS_09730;note=WP_010932300.1 3-isopropylmalate dehydratase small subunit (Chlorobaculum tepidum) [pid:56.2%25%2C q_cov:99.5%25%2C s_cov:97.4%25%2C Eval:2.3e-57],MGA_977
sequence04	MetaGeneAnnotator	CDS	16128	17426	.	-	0	ID=MGA_978;product=3-isopropylmalate dehydratase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932301.1;translation=MGMTIVEKILAKHAGKKKVTPGENIWIEVDTLLTHDVTGPGTMAIFKEKFGKDAKVWDKDKVVLIPDHYIFTKDKHAMRNLEYVKEFANEQELTYYYEPFTDKYKGVCHVALAEEGHTRPGEVLFGTDSHTCTAGAFGQFASGIGNTDAAYIMGTGKLWVKVPETIRFTFEGALPPYIMGKDIALISIGEVGFSGATYKCMQYDGSGIRGISVEERMTICNMAIEAGGKCGIIEPDDKTIEYVNARTDKAYDLFYSDTDAVYAKEYIYDSAKLEPVVAKPYSPGNVDLAKNCEDVKLDRAYIGSCTGGKVEDFFAAAKILKGRKVAIDTFIVPATTTVRKKLEQITIGGENLIEIFKKAGCKVGKPSCAACLGGPEDTFGRTHADEVVISTTNRNFPGRMGSLKSQIYLASPYTAAASAVTGYITDPRKFLK;locus_tag=LOCUS_09740;note=WP_010932301.1 3-isopropylmalate dehydratase large subunit (Chlorobaculum tepidum) [pid:57.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.5e-147],MGA_978
sequence04	MetaGeneAnnotator	CDS	17697	18629	.	-	0	ID=MGA_979;product=nitronate monooxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813418.1;translation=MRFPKLKIADLDVKIPIVQGGMAVKASLSNLAAAVANEGGIGLIAGSALPLDEVKSEIRKAREMTNGIIGINVMFAVTEFKDVVITAMKEGIDLVVCGAGFSRDVFQWGKEYNVPVVPIVSSVKLAKLSQRLGASAIVVEGGNAGGHLGTDDDSWDIVKEIKEAVKIPVIGAGGVVTPEDAKRMFDLGVDGIQMGTRFVATYECNVSEKFKQIYVNAKEGDVVRIDSPAGLPANAIKTRFVERLFNGEIEKPRNCDNCLKHCNHEFCVKEKLLNAHAGNLEDGLYFSGKDVYKVNEIVSVKEVFDKLKAY;locus_tag=LOCUS_09750;note=WP_005813418.1 nitronate monooxygenase (Desulfitobacterium hafniense) [pid:51.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:1.3e-88],MGA_979
sequence04	MetaGeneAnnotator	CDS	18763	22137	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFLGENKIKHSEKKILPEIVKINNKEYYKINNVDKMNPFFMTITSNSDHFMFISSTGGLTAGRKNPDNTIFPYYTDDKIHDTYEITGNKTIMIVEIKNKKYLWEPFSLNLIYDIQRNIYKNDLGNKIIFEEINNDLNITFQYSYENSEKYGFIKKSKIINKNSEKIKIDIIDGLQNILPYGVEKLVQDTKSTLIDGYKKVELIKDVNLGIYRLSSVPVDRAEPSEALSANVVWGIFNEIKNKKILLSSKQLNDFREGKLVKEEKEVKGEKGSYLVNLQFELENEKEWIITFDLNYDYSKLVKLIKNIKKDNIIEKLENDIKIGYEELKRFIALSDGIQFTNDKLNDKRHLSNVMFNIMRGGIFYKDYLIDKKDYLKYLNSCNKEIYNEFENSFNEIEYEINYFELINHVEKLNNPHLIRITLEYLPLIFSRRHGDPSRPWNIFNIDIKNEKGEYQFYYQGNWRDIFQNWESLAISYPGFIFSMITKFLNASTIDGYNPYRITKNGIDWELHDPEDPWSFIGYWGDHQIIYLLKLLELANEYYPEKLKEFLNKNIFTFANVPYRIKKYEDIKKDPQNTIDFDTKLNNLIEKIEKEIGYDAKFVLNGKTPRLVNFTEKLLVSLHAKIYNFILDAGIWMNTQRPEWNDANNALVGYGVSVVTLCYISRFLKFIKELYKNSNENSYKLSKELAQLTDSIYSIFVKNKEYLNNDFDDKKRLIITDELGLAGEKYREIVYKLEETEKIEYSKEKLLDLFDILLKFVDKSIVHNKKENGLYSAYNITNYNDKEMKVEFLYDMLEGQVAALSSFKLDIDEVIQLIEKMYSSELYRKDQESFMLYPDKRLPNFLEKNILPKEKVESLKIVQELLKENNETFIKKDIEGNYHFDSSFRNKNVLLEKLEFLSLNEKYNSLIKEEKSKLLDIYEEVFQHRLFTGRSGTFYKYEGLGSIYWHMVSKLVLAVAENIYIFDKNNVEKSKLEKLINYYYKIKEGLGIHKNPKDYGAFTTDPYSHTPKQSGVQQPGMTGQVKEDILSRFLELGIYVKNKEIIFNPIMLKKEEFINNEYLEFSFANTKIKYVISENPSLVVKYKCGDIQEFKELKFNKKVSNDIFNRSNNIEIIEVYLKL;locus_tag=LOCUS_09760;note=MGA_980
sequence04	MetaGeneAnnotator	CDS	22240	22800	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVTIESKFYNFLDIIYKIMKLSIFFILSSLGIVTLFSSLTSVAYITRKWIDNGKIEIFKNYKKLFRENIRESVVLTLIFFLLFIILEIGKKLSFIYGILEIYFLMYFFIIAYIKANYEMKIKNIFSFAFKFLNLNIWIIVPFLGVLYLIYVIFVFNIFLFIVFGIGLGLIFLNILIYYTLKKYNK;locus_tag=LOCUS_09770;note=MGA_981
sequence04	MetaGeneAnnotator	CDS	22813	24165	.	-	0	ID=MGA_982;product=glycoside hydrolase family 30 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011036277.1;translation=MKIRLIETAKNTNDRLTEKEFQRIDSGEIKIKINSEKKYQTMLGIGGAFTEAASTTIDKLSKDKQEEILKAYFDKEEGIGYSFCRTHINSCDFSLENYAYCETPDDIELKTFSIERDKKSLIPLIKKAFSLNPEIKLFASPWSPPAWMKTNGRMNNGGKLKLEYREVWAKYFAKYIKEYKKEGVDIWGLTIQNEPMAETPWDNCIYESDEERDFVKILGPTLKKEGLENIKIIVWDHNKDIMKERVDTILSDKEAARWVWGVGFHWYGQNGDNSTNMDDSVLDYTHKTYGKNLLFTEGCNPHYNTGKTSLVGEWWTGEKYGKHIINDLNHYTIAWCDWNIVLNEFGGPNHVNNFCDAPIIADTKENKIYYNSSYFYIGHFSKYIKRGYKRLEHKLSSNDLWVTTWAGEAKYIVVIMNEKNEEKTYEIELDEEKVKGMIKPHSIQTIILEK;locus_tag=LOCUS_09780;note=WP_011036277.1 glycoside hydrolase family 30 protein (Xanthomonas campestris) [pid:41.7%25%2C q_cov:93.6%25%2C s_cov:95.4%25%2C Eval:1.1e-97],MGA_982
sequence04	MetaGeneAnnotator	CDS	24175	27303	.	-	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582531.1;translation=MMMKKTDFLINNYDKQKCFSSFLPGIAGKEGIPMWVFYVNRGQGIASFGITNKDNSIMEFKPADQSYTSTPLKGFRTFLKIENEYYEAFSETTHSDNISRDMYIYKNKLEIVEINKELELKVKVVYFTISNEEFPGLIRRVEIENLSDKDKNIEIVDGLPEVLPYGVSSTLFKEMGFTARAWMQISNTDKKVPFYGVRTEIGDIEVVEEIKSGYFYFATNEDNLLDVIYDKNILFEMNTSLQVPYNFKNEKLKEILLKKQYCENTLPSAFSCIEKIVKSNEKMIINSMFGFAEDRDDINAKINILKTNEFVERKLKEADEVIEEVVDNIYTKTSNELFNKYCEQNYMDNILRGGYPLVFDSKNGKNVYHIFSRKHGDLERDYNFFSLQANKYSQGNGNFRDVLQNRRNDILFNPEIEDFNLNMFINFIQADGNNPLVVKGTVFRLDSNSKIFELVENKMDELREYLLNNYFTPGEVLTFINNNKINLKVNETEFINKLMYDCEQFEQAEFGEGYWIDHFTYLMDLIDSYKEIYPEKIEEILFNKNKYRVFDSPAFVQARKDKYKIYKGNVMQIGAVLENHKKEEILKERGHNYLVDKTREIYSTNMFEKLLLLGINKFATLDPLGMGLEMEANKPGWNDALNGLPGIIGSGMSETFELKRILEFLLENLKSTNNNQFEILVELKDFIIGISNELDNYFENNNQFEYWDKVATLKEAYREKVFFYIDGAKEIVEKEFLIKTIEKMLNKMEKGIKLAKEYGKGIYPTYFTYTLTEYEEKDGIITPKKFDVRALPHFLEGVARAFKIIDNEEQKQLYKFVKESNIYDKKLKMYKTSESIENEPYSIGRLRAFTPGWLENESIFMHMEFKYLLEILKANLVDEFYKDIKTMLPPFLDYKTYGRSVLENSSFIVSSANGNENLHGQGFSARLSGSTAEFLSMWKYIFIGDKLFEYRNNDLTFTFNPKINTEFFNENGEIEFKLFSKINIKYINPSKKSTYGENGVKISKIELFIEGEKIEVSGNMISGEVAYKLREKRVDKVICHFE;locus_tag=LOCUS_09790;note=WP_012582531.1 hypothetical protein (Dictyoglomus turgidum) [pid:40.9%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:3.8e-225],MGA_983
sequence04	MetaGeneAnnotator	CDS	27284	28693	.	-	0	ID=MGA_984;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002387242.1;translation=MKKILVVDDEKFIRLGIATILENNFIDLDIKLAKNGKEALEIIEKEEFEIIITDINMPTMNGMELLKEVNKLDKKIKTIILSGFNEFEYARQSIQYGVKNYLLKPIDEKELRDNIYEIFNEIEKENQNKKKDFIKDFLIFLERKKYNKIEKLLIKLKKNIKNLTCYYIETTYNINSLSDIVVNINENQYIILSEKEIDFSDIEYNFLCRSKKESIKDSFNEIEKLKKYKIFFEKENITYENIKNRKKIEIDNEKIDTIYNYLKYGKIKEIEKEINSLFNDKFINNGDIESFEKLHNLFYLRIFLKNQDKIEKDILNENFLKIKSKNMKEYINKILESFKKICSIKENSKNIEEVYIEKALEYIKQNYNKDINMAVVSNYVSLNYSYFSTIFKKHLEMNFLDYLNKIRIEKAKEYLKRVDYKIYEIAEEVGYKNPKHFSKIFKKIEKITPIEYRLRYKEEGEIGDDDEKD;locus_tag=LOCUS_09800;note=WP_002387242.1 response regulator transcription factor (Enterococcus) [pid:24.4%25%2C q_cov:97.2%25%2C s_cov:98.2%25%2C Eval:3.3e-39],MGA_984
sequence04	MetaGeneAnnotator	CDS	28699	30312	.	-	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKSEIFKKLSFAYIAIIFIPVIIIAIYIFYTLNETQEIKIKKDRFYRTEQIANNLNENFFKLERIKTILRGDFELLEFLTSEKEKKPLEYLEIKKTINNYEKILSISKEISEFKIYVDNKNLLEIQPIIKNHLPDKSLLKDNTTIIRENNKNYIYSIKKIYFYPKSVYLELKIDLDKIIGKDNGEYYFVKNDYTIDLKNGIFNFEKFYKHEFMNKKKISLIEDNRSIIYYKYIPFLDMYFINYIEKNNINKDMITYGIYLMFIAIISLIIIYYISYFVSIRIFEQLEYIIEGIKEIKNGNLDVEIPLNNKVDDFYVLTMQINSMTKRIKKLIEDNIMRERKSREFEIKALQSQINSHFLQNTLESIKMIAYINKDYKVSKAITNLGRILRYSMNINKTEVKIYEEIDYIKRYIELFSIRTDEYIEFRYFIGEELKEQEIPKMILQPLVENSILHGIIPSNKKGIIQIKISRENKNLIFDILDNGIGIRETTKGSGIGLENIKERLNLYFKSEVIFKIKSEKDKFTRILIKIKEM;locus_tag=LOCUS_09810;note=WP_003243833.1 two-component system sensor histidine kinase YesM (Bacillus) [pid:36.6%25%2C q_cov:46.6%25%2C s_cov:44.5%25%2C Eval:5.1e-39%2C partial hit],MGA_985
sequence04	MetaGeneAnnotator	CDS	30402	32030	.	-	0	ID=MGA_986;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357899.1;translation=MKKRKLFLTLALMFSIMVVNVNAGLFFNKKKDVKEEKVKVNPNKPGWQQDDSKVTFDWYINYSWFGGKWGEDYVTKEITEKTGVSVNYIVPAGNGTEKLNTMIASGTLPDLITLDARDSIIDLMIKGGQVYSLDELAEKYDPYFFKIASKDKLNWFKQEDGHTYGYPNASYTLEDYKTATKISSNQTFLVRKDMYEAIGSPDMTTPEGFLKALRAVKEKFPTVNGQPIIPIGFQEGVENSLGDYLQNFLAVPLEKDGKVYDRYTDPDYIKWLKTFRQAYEEGLIATDVFVDKRSQIEEKMSQGRYFSMLYPHIDALRPLTVRYKEDPNSVYIAVDGPKNSKGDEHQLAGPGISGWTVTLISKNCKDPAKAIRFFTYMISEEGQRTVYLGKQGKTWDMIDGKPQLLPEVKKLREENRKAFDQIHGADDMHWMFMDVAMQQEKWGLPPAGPSKQPIEWTYGKVYPRFQMEMIEPKKNTPEGIIADKIALKRSTVIGKLITAESEKEFDDILQDFIDYRNKVGFEKLEAYRSKKMQENKAKLGLK;locus_tag=LOCUS_09820;note=WP_002357899.1 ABC transporter substrate-binding protein (Enterococcus) [pid:36.3%25%2C q_cov:93.2%25%2C s_cov:93.6%25%2C Eval:5.5e-89],MGA_986
sequence04	MetaGeneAnnotator	CDS	32073	32957	.	-	0	ID=MGA_987;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357901.1;translation=MSMRSKGEKTFDIINTVIMVLFCFIIIYPVWYTLVLSFNDASDTMLGGIYWWPRKFSIESYITVIKTPGIFKAFGITISRTVIGVITHVFFTAMVAYGLSKRELAGRKIYLTIGIITMFFNGGLIPTFLLIKKIGLLDNFLVYIIPTLFSFFDLIIFQSFFRELPQSLEESAYIDGANDFQIFIKIVLPLSMPVIATIALFNGVFHWNDFFTGVIYINNPDLQPIQTFLYKVIAQSSSNQMMDAMPATLTNVAKTTSESIKLATMVLTTFPIVTVYPFLQKYFVKGMLLGAVKE;locus_tag=LOCUS_09830;note=WP_002357901.1 carbohydrate ABC transporter permease (Enterococcus) [pid:51.5%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:8.3e-82],MGA_987
sequence04	MetaGeneAnnotator	CDS	32973	33929	.	-	0	ID=MGA_988;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002382199.1;translation=MEQPGSLKRKENFNEKLKKTWKLIKRQKYLHLMVIPGIIWMIIFNYIPMYGIIIAFKNYTIIDTFNSAPWVGLENFKEFFMDDNFFLVMKNTLGISVLKLIIGFPLPIAFAIMLNELYNSKLKKYVQTISYLPHFFSWVVLGGIMINWLSQTGLMNKVLMGVGIIQEPIVFLAHPKYFWGISIISDIWKELGWNAIIYLAAIAGINPTLYEAAKIDGAGKMAQIWHITLPSIKGTITILFILAVSGILNTNFEQMLVLQNPLNLSASEVIDTFVYKMGLQSLRFSYATAVGLFKSVIAFILLVSANYTSKKINGKALF;locus_tag=LOCUS_09840;note=WP_002382199.1 ABC transporter permease subunit (Enterococcus) [pid:53.2%25%2C q_cov:94.0%25%2C s_cov:97.4%25%2C Eval:7.1e-90],MGA_988
sequence04	MetaGeneAnnotator	CDS	34067	34876	.	-	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLVFIILILFIGCNRGFNKTNGGIKIIDNSDKKEVVWEENFNGDKIDENIWTFEVGNGNNGWGNAELEYYTKENSELRDGKLIITAKKENKNGYQYTSSRLKTQGKFSFTYGTVEVKAKLPKGKGIWPAIWMLGENISTKGWPDCGEIDIMELLGDNPSKIYGTIHGPGYSGANGKSSNYTLSSGDFSDDFHIFKVEWDITSIKWYVDNEMYHEEKRSNISNWVFDDDFFIILNVAVGGNWPESPDINTTFPQIMEIDYIKVITYE;locus_tag=LOCUS_09850;note=WP_012582837.1 family 16 glycosylhydrolase (Dictyoglomus turgidum) [pid:61.3%25%2C q_cov:84.4%25%2C s_cov:38.0%25%2C Eval:4.8e-86%2C partial hit],MGA_989
sequence04	MetaGeneAnnotator	CDS	35005	35808	.	-	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVRALLLILVLSMFTACLKPETTKVEGVSISGDSSLNIGETIQLSAVIEPIGVEYDRVVWKSLDTSIATVSDKGVVTGIKEGTTIITLAIDGNVATKEITVTAANVVDTTKVTADFLGESDAYIIGKYEGDGGSVTATGNGDELIAKINAIGSNSYSTKVYFTLPSALENSTNYTITFDIEADEARDINVKVGEGLSSDPWWNEQHSEKISVITTKETKTIAFTSTETAADASNCQLVFELGNVSGTGSDAATTVRISNISLLKK;locus_tag=LOCUS_09860;note=MGA_990
sequence04	MetaGeneAnnotator	CDS	35849	37762	.	-	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHVALALALFSITAAAAQIDMSGSLQFFFDEFREINGNKWYSMNGNGNIFGTGDWKQSTNDNWNDNRDKFQAILNLNSNVKLNENTNINLGFETIIDELIGQANGSGITYGQEFATVRDNSPLIIKDITLTTNTDIGKFTLTNNFNFDFNKRVLAMQLEDNWGEPLPYGEGVLLENDDVYGFTTKTFMFQASEAPSSIDGKDVTTNTASNLTQNDLKSTKLVYGFDVKKDFGLGNIGVLAVNVHDKSSEISGSNFGKDLDTLRLAVNGEFAPIDLVSIKGEYIIANYGKDVTSVMNTTGQVIPWITDSYDLSGVDAKKDNTIVDATVVVTPFDDLEVSVGYKNVGEDYTAVLGNSQRHDSWLGNASFAYEDGTGYEKGYNGKIVYTLPFDLIVKTTVDYTNYDKTRSALNDNEDTNETQLLGKVEINEDKWGVAGSYRRLVKTNSGKDVSNGGVEETDILYNDYNVNARYALVQGAKLNTNINVDVNYYTGDDNTISQNFSNEQRIKVGTSSDYKMNDKTTLYGSYNFGYATENNDVIKDAYGRQYLIKTGIKYVVNDVTFDLMYKYDNYKLNREASKTELENSVYKKEVSHVWYDGLESWSHSGSDWENWMWDVADDYSGYITHELKASITVAF;locus_tag=LOCUS_09870;note=MGA_991
sequence04	MetaGeneAnnotator	CDS	37846	40164	.	-	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKSTWLVFLLLLSMQLFANANEKWNLTWKDEFSGNKLDSSKWDYIIGNGFWANGTWVAGWGNNEKEYYTDRQDNIKVADGKLIITAKKESFEGEAAGGKQKFSYTSGKIVTKGKFAQKYGKVEFRAKLPKGKGLWPAIWMLPQDDVYGGWAASGEIDMIEGWGSDTSKIAGTLHYGGTWPANVHTGKEYHFKNGDATEFHDYIVEWLPGEIRWYVDGELYQVQNNWYSKNKNEAVDYTYPAPFDQPFYLIMNLAVGGWFDGDPDGSTKFPETLEVDYIRVYELEGGYNENISKPKIDLEKLPADIKQPINGNFIYNGDFANNGENWQLLTHFGGAGSYTYETINGEKFLKANIDNQGNQSYSIQVIQEAPIMKGRYYKLSFDAKAENNREIGIKIGGGENRGWAAYHTNTFNLTKDINRYTTMFQMIQDSDPNGKVEFHLGLSKLGVWLGNIKLEMIEDPVKELLSMSKAPLVNGNLVYNGTFDQGDQKRMLFWDFKSTNSEAKVIERVLNIINNGDNPKLIQENIQLKQDAIYNLKFKAKSEKGNSIRIILQDKNGNKKYFEQKIKLSSEEKEYKINFTNKNITDLRTSLIFEFLGSKDELTLDNIKMTEQVDYSKIQTILIDDNFSKGSTKKNWTLFFGKDYGFGGESTFVIRSGTAQIKVKDIGAEEWSNILSQNVNIIKGIKYRVSFDISSSRAREIRVSIENSTYQRKGQALVKAEKKPKTYTIEFVADKSEEVGLKFLLGKVGKTKNRPHTVKLDNIKFEVVKE;locus_tag=LOCUS_09880;note=WP_214628760.1 carbohydrate binding domain-containing protein (Paenibacillus agaridevorans) [pid:36.1%25%2C q_cov:96.4%25%2C s_cov:28.7%25%2C Eval:2.1e-132%2C partial hit],MGA_992
sequence04	MetaGeneAnnotator	CDS	40394	40642	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNEELKKIFLENNNKILNNLDKNNDNYRQAIHKLCSIAMCFDDDIVIDLSIEIAENKENKKLVKEKLDNLNNYIQINYKNY;locus_tag=LOCUS_09890;note=MGA_993
sequence04	MetaGeneAnnotator	CDS	40655	41326	.	+	0	ID=MGA_994;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000795919.1;translation=MNILIVDDCIELANKIKETFDKSYTVYIEHTPNKVLDIVSSNEIDLIIMDIDLGHSKNGFDLIREIRNDADNYGIPYIFALTAKKQDFYEEMGYNLGVDDYLKKPFRLKILNEKVKILAKRIKKSTSNLQYGNLILKSDTNEILIEDNNFFLNDPYFSLLEFLILNKNINLSRKKIFENIWPEEIVDNYRRVDVTIKRLKDKVPYIKDKIETIYGFGYKLIKI;locus_tag=LOCUS_09900;note=WP_000795919.1 response regulator transcription factor (Leptospira) [pid:31.4%25%2C q_cov:97.3%25%2C s_cov:93.6%25%2C Eval:7.2e-23],MGA_994
sequence04	MetaGeneAnnotator	CDS	41673	42521	.	+	0	ID=MGA_995;product=acetyl-CoA carboxylase%2C carboxyltransferase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902759.1;translation=MGIFSSKKKYATVKSETDGKTIKPLSTNNLWVKCDSCGEILYRKDIENNYKKCPKCDFYFNMSATERISLLIDKNTFKEYDANIISENPLNFPGYEEKKERAKNKSSLNDAVISGVGKLNNIDVSIAAMDFNFMGGSMGSVVGEKITRAIERGIELKIPVIIVATSGGARMQEGIFSLMQMAKTSAALEKLRENKLPFISIPVNPTTGGVTASFAMLGDIIISEPKALIGFAGPRVIEQTIKQKLPEGFQTSEFLLEHGMIDIIAKREELKDTIYKVLNILI;locus_tag=LOCUS_09910;gene=accD;EC_number=6.4.1.2;note=WP_005902759.1 acetyl-CoA carboxylase%2C carboxyltransferase subunit beta (Fusobacterium nucleatum) [pid:64.7%25%2C q_cov:99.3%25%2C s_cov:95.1%25%2C Eval:1.7e-97],MGA_995
sequence04	MetaGeneAnnotator	CDS	42620	43564	.	+	0	ID=MGA_996;product=acetyl-CoA carboxylase carboxyltransferase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016368.1;translation=MDFEKDIKDLELKIEELKKFSEEKGIDLKEQIDKLEELKADKMKSLYEEITPWQKTQIARHQNRPYTLDYIDLIIEDFVELHGDRLFKDDKSIIGGLGKIGNEKVVIIGHEKGRTLDDKIFRNFGSPNPEGYRKALRLMKLAERFNLPVISFIDTAGAYPGLEAEERGQGEAIARNLMEMAGLSIPTISIVIGEGGSGGALGIGVTDKIFMLENSYYSVISPEGCASILFRDASKACDAAEYLKLDAKHLLEFGIIDDIISEPLGGAHRNPEYTANNIKEKILSTLEELKSFEISLLKEIRYKKLKNIGKYNLI;locus_tag=LOCUS_09920;EC_number=6.4.1.2;note=WP_011016368.1 acetyl-CoA carboxylase carboxyltransferase subunit alpha (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:5.7e-100],MGA_996
sequence04	MetaGeneAnnotator	CDS	43780	44742	.	+	0	ID=MGA_997;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041561.1;translation=MKNIAILTSGGDAPGMNTAIRAVAKYAMSKGITVYGIKRGYAGMLNDEIFELTPKDLGGIIDRGGTFLLTARLPEFKNPEVRAEAVKNLKKREIEGLVVIGGDGSFHGADLLYKEHGIKVIGIPGTIDNDIAGTDYTIGFDTTLNIILDAISKIRDTATSHERTYLIEVMGRNAGDLALYSCLAGGGDGLLIPEKEFSIDDLAMQINKRREQGKLHDVILVAEGVGSAFEIAEKLKGKVKSEMRVTVLGHIQRGGTPSGLDRIIATKMGAHSVELLEEGKSGLMIGIESNKLVTYPISHAWESKKEIDIKDYELALTLGH;locus_tag=LOCUS_09930;gene=pfkA;EC_number=2.7.1.11;note=WP_023041561.1 6-phosphofructokinase (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:9.0e-117],MGA_997
sequence04	MetaGeneAnnotator	CDS	44791	46206	.	+	0	ID=MGA_998;product=pyruvate kinase PykF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000751457.1;translation=MKKTKMVCTIGPKSESKEMLTKLVNAGMNVMRLNFSHGDYEEHGARITTIREIMKETGKYVAVLLDTKGPEIRTIKLENSEDVILEAGQEFTITTDKTVVGNKNIVAVTYADFAKDLKAGDTILLDDGLIGLTVKETTDTEVKCVVNNTGELGENKGVNLPGVSVNLPALAEKDKADLKFGCEQGVDFVAASFIRKASDVKEVREILDANGGKNIKIISKIENQEGLDNFDEILELSDGIMVARGDLGVEIPVEEVPFAQKMMIEKCNEAGKIVITATQMLDSMIRNPRPTRAEAGDVANAILDGTDAVMLSGESAKGKYPELAVQTMAKICERTDKELEKFGPLYYEADTTLTEAVAKGAVEVAENLGAKAIFALTETGNTARNLRKSFPTAMIFAITTNEQTARQLMLTRGVYPFVVDSISSAEDFYKKGLEVAKKCDLLANGDIIVFTSGANTQEGTTNSIKIETLEK;locus_tag=LOCUS_09940;gene=pykF;EC_number=2.7.1.40;note=WP_000751457.1 pyruvate kinase PykF (Vibrio) [pid:68.9%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:1.9e-175],MGA_998
sequence04	MetaGeneAnnotator	CDS	46379	49543	.	+	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFFIFLLIYNIIFSYGNIQDFEKLNFKSGLISNNVNSITSDSNSIIWFATDNGLSSYDGYNFKNFQVNIFEKNSIPINDITSIVNYNEFMIMLHKKTLVFYNIVKNIFFSIPLSPKQREEFNSKKILIKNNNIYVATNKGLKILLDFTKNNFVFSKFNDLSINDFIFYNDETLLLATNKGLYNFNTSNYSLKKIKNFSNIENIYSIKNNIVFYTNNKLYYTDINGNIKNKIYLEDTFNKIYIDSNNVTWLAGNKKLYYVKNNHLYFFSNKIIKDIYETQNNILWFSVKNEGIYYKNISNDNFDINQNYQNVNKVYLKQNNLFIATNNGLFINDEEIIFDKIIDFKVTHNKIIAYNKNKIYFIDPNTFLVTQTEILNEEIFSLEIYKNTLFLSTENNLYQINLITNEFKPLDKYFPIDSIFTGKRVYLNLNISNHSLFMIVKNVGFVEYDILKNKFKIHNKLKVGNKTYFIKDITSYNIKNNCIYFTSLSAGLLKLNLSDDKLFLISKKIIGEKINDILFLNNNIWLINNTNLLKYSLFNDELFTFTSEDGLLNTRYNHLFYYKNTLFLSGENGYIKFNPINIIIKNNKSKIIFRELNLLNSNQTIDITYTKDITITKANNNFEICFALLEYKQNKNYNYMIKLEGYDKSWKSLGNYNKVKYTNLPAGKYKLNITYIDNNGILSKNSSFINLTIKYPFYYNKYFILFIILLTIFIIIYFINYFIKIRELKIENKLSNLSLLLSTSLDLDTVIHDFLKKLCETFKMNESTLMLNLDDKCTKFVYKYSIDKLYNTLSDEKVILDIFDKNLSLEKLTNGDKIFYKSYIEYKGLHIDFFIPDKFRGALIVPYKNKNGQKILKKLEKILKQAIISINNATLYRNISKFANYDTLTNIYNRRYFIDILSHILEQTKRYSHKLAIVLIDIDYFKKINDTYGHDIGDKVLVEFSKEIQNNIRKSDIFARYGGEEFILALPETNFKEAFNLAERLKNKIEQLKIEVNSTTKISFTASFGLAMYVNEEKLDDIIKKADVALYKAKNSGRNNVKSYNEICNLF;locus_tag=LOCUS_09950;note=WP_010879949.1 GGDEF domain-containing protein (Aquifex aeolicus) [pid:43.8%25%2C q_cov:18.2%25%2C s_cov:43.9%25%2C Eval:1.9e-38%2C partial hit],MGA_999
sequence04	MetaGeneAnnotator	CDS	49555	50145	.	+	0	ID=MGA_1000;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016369.1;translation=MIHSLENLIDQFNKLPGIGKKTATRLAFAILDMEIKEVEIFSNSLILAKKNIKKCSTCGNFSEDDICDICQNQKRDHSIICVVEDSKDIIAMERAKNYNGVYHVLHGKISPLNGINIDNLNIKKLIERVAKNDIKEVILALNPDLEGETTAMYINKLLKNFDITISKIASGIPMGGNIEYSDIATLSKALEGRIKI;locus_tag=LOCUS_09960;gene=recR;note=WP_011016369.1 recombination mediator RecR (Fusobacterium nucleatum) [pid:58.0%25%2C q_cov:98.5%25%2C s_cov:98.0%25%2C Eval:6.6e-64],MGA_1000
sequence04	MetaGeneAnnotator	CDS	50164	51447	.	+	0	ID=MGA_1001;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965785.1;translation=MKIMTTIEKVIYLRKKYKISQEELVRGKVARSYLAMVETGTKPLGKNLLNIIVENFNLIFEERGIDKRITKEELLKTKEEQITEFCNKYLELLNNDLTEKEFENYRKDIEEVFFNEYSPRNKTRMFKKIAEIFYNNFEYNLAKNYYLRTINDTIQTKDYDSLSEILSNLTRIYNIIEEYSEFLDLQVLLTNHINYLNFDEKLKVLFNFILLYMKTENYEKALEFILTLKKDIYAPEDEFELEILRAECLINLNKKKEANSIYRGLLIKFSNTNQKLICNSKLALLAIDSGDNIKLKYYLRKAKILLKTIEEENTLTDPHVLDSIMNFAEIYRVVNSAKDAISHYEFVLKLCNESLSNESIAIKAKVIKSLLSLYGGQDFKKVKELEKIYFDSLIHYANHAVLNADFIDFYYRNNHFYEVERFLKIFK;locus_tag=LOCUS_09970;note=WP_010965785.1 transcriptional regulator (Clostridium) [pid:21.4%25%2C q_cov:91.1%25%2C s_cov:88.7%25%2C Eval:9.2e-17],MGA_1001
sequence04	MetaGeneAnnotator	CDS	51469	52521	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKNIRKTWIIRKMVEFTLYYILVFFIYFELNYLNIKFKEIFLILSPFFIIGNIIDKTHNRELRKILLTIAGHYTFIFIYFVWTLPIVIIFKMNLKYYLIFFIIYSLFSYINNKIIKLKKYRVFSKKIKKEYKILFFSDLHLSELTNKNKIKRIIKKIKEIDFDFILIGGDILDYDYKLIDKNIIFLLKETIKEISKKVYTVIGNHDVYDELEKYIEFCKLIDVEILADDSFEYDELSILGRKERHLGRKQLKEFYLKKDKYNICIEHSPLTRKEILNYNIDLYLAGHTHAGQIFPINILYKIIYKKIYGYFKEREKEFIISSGIGNGFMKYRNMNSPEVILLEIKKSK;locus_tag=LOCUS_09980;note=WP_000793744.1 metallophosphoesterase (Bacillus cereus group) [pid:25.6%25%2C q_cov:75.4%25%2C s_cov:70.9%25%2C Eval:1.1e-17%2C partial hit],MGA_1002
sequence04	MetaGeneAnnotator	CDS	52514	52927	.	-	0	ID=MGA_1003;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000620822.1;translation=MKRKTARAIIFIDDKLCLIKRIKNENEYYVFPGGGIKKKEKGKQAVIREVKEELGIDVRVIKKMYKYKFGETKEKYYLCEYIDGEYGSGNAKEFNNYFKGKYIVTMIDKKYIPSYLIYPKEIKEKIIKDFLGENKIG;locus_tag=LOCUS_09990;note=WP_000620822.1 NUDIX domain-containing protein (Bacillus cereus) [pid:35.4%25%2C q_cov:94.9%25%2C s_cov:98.5%25%2C Eval:1.6e-14],MGA_1003
sequence04	MetaGeneAnnotator	CDS	52946	55972	.	-	0	ID=MGA_1004;product=DUF3427 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986599.1;translation=MKNIYEELKIRDKDYKNIKNKKYYKIEEYKEKILEDIIGKIYLENENNSYEEVIKKYSKYLNEKIEFPLNKIMYTDNNTNIDVTNDFEIKNNSLIINKKTKNNNLLKELKNQLKTCNEFYFIVSFIKMSGLQLLISELKELEVLGIKGKIITSTYLNITEPKALKKLLEFKNIEVKLYDANLESFHTKAYIFNRKKNMNSVIIGSANISQIAFFTSNEWNVKLYDAPYLDIYNDAIEEFYRIWNSDKVYLLNNNIIKKYEEFYKNKYKINSFSIKEKIEENKIKPNIMQTNILKNLKETRKKGNKKAVVIAATGTGKTYLSAFDVKNFNPKKLLFLAHREELLDNGIDSFKKIIKNKNYGKLTMNYKEFENEYLFATVQTLSKEINLKKYKKEEFDYIIIDEFHHASSNSYKKIIKYFKPKFLLGLTATPERMDGKDVLEICDYNLVGEIRLKEALEKELLVPFHYFGITDNSINYEKIKNKNNMYDEIDLVKHLNINKRVDFIVEKLKLYSFDGDKLKALGFCVNKEHVKYMSIEFNKKGYKTEYLIADNSIKERKNIIKKLKNGEIEIIFCVDIFNEGIDIPEINTLLFLRPTESMTIFIQQLGRGLRKSKDKHFVTILDFIGNYRKNYILPYAIEKNLVGNDTNIIKDLKRNYLDYTENFYIELDKIARQNILEKIEKLKIKDEIIKTLYFEMKNIIKNTDELREIEFIDFLFYQQLKLEDIITKYKSYLKFKKIIGDISEVERKILNNKELFYLFNYFEKRVPIKYPQVVYIVKELLNKKELSIKKLENDISKQFKKNKIEYIERAIEELLEDDIIEPFHNFYRLKNVYIIDNNIRDYFIKFLEFLVVYYQKYFDNKDLILYKEYSRLELQYLFLSNVPRGSWRAGYAISNKEICLFITINKSQDIPVHLKYDNYFQNQDIIQWISQNKTSHDSKIGNIFVNHKKLGYNVHIFIRKYEKINGIIKKFVYLGKAEYYNSNGNKPMYIRWKLNNKIPNNKYLELIL;locus_tag=LOCUS_10000;note=WP_011986599.1 DUF3427 domain-containing protein (Clostridium botulinum) [pid:39.2%25%2C q_cov:89.6%25%2C s_cov:94.8%25%2C Eval:1.9e-181],MGA_1004
sequence04	MetaGeneAnnotator	CDS	56078	56656	.	-	0	ID=MGA_1005;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894870.1;translation=MEIKHADFVISAVEKNGYPEQLEYTEFAFVGKSNVGKSSLINSVTNRKKLAKTSKTPGRTQLINYFLINKKFYFVDLPGYGFAKVPKAVKDNWGKIIGDYLQSDRKKLVFVLLDIRRVPSGEDLEMLRWLEHNEVDYKIIFTKVDKLSNNEKFKQLKEIKKKLVFDNNDVLFYSSLNNTGKQELLDFIKENL;locus_tag=LOCUS_10010;gene=yihA;note=WP_005894870.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Fusobacterium) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:4.7e-75],MGA_1005
sequence04	MetaGeneAnnotator	CDS	56682	57164	.	-	0	ID=MGA_1006;product=flavin reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861543.1;translation=MKKFNVFEKIGKDWMLISAQKEDKINTMTASWGGMGVLWNKEVVYIFVRPQRYTREFIDASEYFTLSFFDKEYKKELDYLGKVSGRELDKIKETSLIPAIEDGKVYFEQANMVIYCKKIYRQHLTPESFIDKKIEEFYENDYHIMYIGEIVEIMENYTEE;locus_tag=LOCUS_10020;note=WP_011861543.1 flavin reductase family protein (Clostridioides difficile) [pid:50.0%25%2C q_cov:95.0%25%2C s_cov:91.7%25%2C Eval:6.3e-44],MGA_1006
sequence04	MetaGeneAnnotator	CDS	57207	59516	.	-	0	ID=MGA_1007;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015983.1;translation=MKKAAFIPTRDLIVFPGIITPVFVGRDKSVATLEKALIDDNTLILCMQKDAKKENPKLPNDIYDIGVLVNVLQTLKMPNGNIKVLVEAKNRVKINNVVIEEGAYFAEYEELYSEKISEEEQEALKRKVIENFEKYAKLTGKILPDLIINLQGLKNLDKILDLITSNLQISNDKKQTLLEVVNIEERAYTLLERINQEVQIVGIEKQIDNKVKEKMNEVQRNYYLKEKISALKEELGETANESDEVSEFRKKVKNAKLPKIVKEKLNKELDRFAKMPSFSSEASVIRSYIETLLDLPWNKKTKEILDIQKAFKILEEDHYGLKTVKERILEFLAVKKLNPNMKGSILCLVGPPGVGKTSLANSIARALNREFVRISLGGVRDEAEIRGHRRTYIGAMPGRIIKGIKEAGSKNPLMLLDEIDKMATDFRGDPASAMLEVLDPAQNIHFEDHYVDTPFDLSEVFFIATANDLGRIPMPLRDRMEIINLSSYTEFEKKHIAKKYLIPASKEENGLKDINVKISDEALKKIINEYTKEAGVRNLKREINKVFRRVAKEVIDKDKKSLIISVNNIEKYLDKAKFRPDKQKSKESRIGIVNGLAWTAVGGTALEVQAIKMEGKGKLTLTGKLGDVMKESAQVAYSYVRAKRQDYKIEEKFYEKYDLHLHFPEGAVPKDGPSAGITITTAIISALSNRPVRQDVAMTGEVTITGDILPVGGIKEKIIGAHRIGVTDVILPIDNEPDTEELPKEIKKDITIHFVKHYDEVEKIIFDNK;locus_tag=LOCUS_10030;gene=lon;EC_number=3.4.21.53;note=WP_011015983.1 endopeptidase La (Fusobacterium nucleatum) [pid:56.7%25%2C q_cov:99.6%25%2C s_cov:99.7%25%2C Eval:3.9e-264],MGA_1007
sequence04	MetaGeneAnnotator	CDS	59550	60794	.	-	0	ID=MGA_1008;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015984.1;translation=MLDKKQPHCSFCGKKESEVYKLISGVEAYICDECVEACEELLAMELESDETKELSSFNNVNLLKPIEIKQKLDEYVIGQNEAKKTLAVSVYNHYKRILHKDTKKHDDDVELQKSNVLLIGPTGSGKTLLAETLARTLNVPFAIADATTLTEAGYVGDDVENVLVRLLHAAEMDVKAAERGIIYIDEIDKIARKSENVSITRDVSGEGVQQALLKIIEGTKASVPPQGGRKHPHQELIEIDTKNILFIVGGAFEGLDKKIKERTEKKSMGFGSEIKKIKEENEGKIIEQVLPEDLVRHGLIPELIGRLPIITTLESLNEEALIKILTEPKNSLVKQYRKFFELEDVELEFEEEALKNIAKRAIERKIGARGLRSIMEHVMLDLMYDVPSNENIKKVIITKDAIDDRSKVIIEYNN;locus_tag=LOCUS_10040;gene=clpX;note=WP_011015984.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Fusobacterium nucleatum) [pid:64.6%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:1.8e-147],MGA_1008
sequence04	MetaGeneAnnotator	CDS	60794	61384	.	-	0	ID=MGA_1009;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894880.1;translation=MYNPMVIENTGRGERAYDIYSRLLKDRIVFIGTEIDDTVANSIVAQLLFLEAEDPEKDITMYINSPGGVITAGLAIYDTMQYIKPDVSTVCIGQAASMGALLLTAGTKGKRYALENSRIMIHQPLGGARGQATDIEIQAKEILRMKEITSNIISKHTGKKIKEVYKDTERDNFMSADEAKDYGLIDKVFYNDRGEK;locus_tag=LOCUS_10050;gene=clpP;EC_number=3.4.21.92;note=WP_005894880.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Fusobacterium) [pid:70.7%25%2C q_cov:96.4%25%2C s_cov:99.0%25%2C Eval:9.8e-76],MGA_1009
sequence04	MetaGeneAnnotator	CDS	61458	62747	.	-	0	ID=MGA_1010;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015985.1;translation=MSVEIKKLENSVVEITLNLEGEEVSKKREEILKNIQSKVEMPGFRKGKTPLSLIEKNFEANIKEELTDELLKANYENIIVENNLKPVDYLKTVEVKLEEDKFHGVFTVEVFPEVELGEYKGLEVTKEDVNVTDEVVEKEIESMVEADSKLEDAEDDYTAQIGDTVNIDFEGFLDGVAFEGGKGENYPLSLGSKTFIDNFEEQLVGYKKGQEGEINVTFPESYFKPELAGKPVTFKVKLNSIKKNIKPELNDEFAKAKGYDSVEDLKVKKREEIENREKTRVENEFRNKVVDAAVNNATVAVPSSMVAKETEARIRDFENQLKMQGATLEMYMQMSGLTKDGLLSQLKPLSENKVKSDLVLGKIAEIENVEVNEEELSTKIDEIAAMYNMETEKLIEELTKAKTLENFKENLKIDLQIQKTIDLLVENVK;locus_tag=LOCUS_10060;gene=tig;EC_number=5.2.1.8;note=WP_011015985.1 trigger factor (Fusobacterium nucleatum) [pid:45.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-107],MGA_1010
sequence04	MetaGeneAnnotator	CDS	62764	64470	.	-	0	ID=MGA_1011;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367291.1;translation=MKWEYSKVDNETLLKKATEFNKNLFLTTLLLNRGMDKKLKVDDFLNINFSKLHNPMEFEKMDEVVEKIIKLKKEKSKIFIYGDYDVDGITAAAFLVIVFRNIGIEVNYYIPNRMEEGYGLNKKAINEIATREGKLIITVDTGINSLEEIRYAKSLGIDIVITDHHKLVEEDDKTIVTINPKLSKNYKFKFLSGAGVALKLAEAVYTALDEDLNEIYEYIDIIMIGTVADVVPMIDENRVIIKNGLKKIRNTNIKGLVYLLKYLRFNKKEITTTDISFFISPLLNALGRVGNSRIGVEFFLEEDEFNIYDIIEEMKKLNKKRRALEKVIFNEIDKKYNNIKNIKYIFEISEKWHPGVIGVVSSRLSIKYNVPVFIVSTRNGVGKASCRSISGINIFNVLSQISHKFNRFGGHDLAAGFVANINDLEEIKELVGEYILKNGDKKQKKQINIDSELKLEDINDEILRDLQELSPYGLGNPEPLFLDKDVVFINTKKFGVDNRHFKTFIKKNKKLYSAVGFNLGHKIDEQNCIIQKFDIVYYPEKVFYKGEEILQIKIKDFKIKDEFYNIFK;locus_tag=LOCUS_10070;gene=recJ;note=WP_147367291.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium canifelinum) [pid:50.6%25%2C q_cov:93.3%25%2C s_cov:97.1%25%2C Eval:5.1e-154],MGA_1011
sequence04	MetaGeneAnnotator	CDS	64484	64843	.	-	0	ID=MGA_1012;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903343.1;translation=MTMNKKRKAIIEKEIMKVISNLLFLEIKNPKVKEGMISVTKVDISNDMRYADVYFSVLPYKDEEVDKDKVLQGLNEVRSFMRKRVGEEINLRYTPEIRVHIDDTISYGVRISKLINDLK;locus_tag=LOCUS_10080;gene=rbfA;note=WP_005903343.1 30S ribosome-binding factor RbfA (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:98.3%25%2C s_cov:99.2%25%2C Eval:3.5e-30],MGA_1012
sequence04	MetaGeneAnnotator	CDS	64868	66907	.	-	0	ID=MGA_1013;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894893.1;translation=MRVHELAKKYNKTNKEILELLNNLGIEVKSHLSKINEDALEIITDELETSKKSEKQKEAKKLEETVLKKEEKTISKPKEDKKSQGTKEENDIKVIKIIGDEITLKEFAEQLKLNPTDLIKKLFLKGKMFTINSVLSYEQAEELALEYDALIEKEEVVEESFGEKFSLEEKDKEENLEERAPIITIMGHVDHGKTSLLDTIRKTNVAGGEAGGITQKIGAYQVERHGKKITFIDTPGHEAFTEMRARGAEVTDIAILIVAADDGVKPQTIEAISHAKAAEVPIIVAINKIDKPGADPTRVRTELMEYGLIAPEWGGDTEFVEISAKFNKNIDMLLETILLTAEILELKADFKKRAKGIVLESRLDPKLGPVADVLIKEGNLKVGEVFVCDETFGKVRALINDKGERVNKVYASQPVEILGFDTVPNAGDVLYAIKNEKQAKKIVEEVIKQKKLKEQNRTKHVSLESFSKQLEAEKLKELKLILRADSGGSVEALKDSLNKLSNDEVAVNIIQAAAGAITEGDIMLAEASDAIIIGFHVRPTTKAIKAAEKAGVEIRTHNVIYHITEEIEKALTGMLEPEFKEVYLGRIEIKKVFKISKVGNIAGCLVEDGKVRKTSNVRILRNNIVIYDGKLASLKRYQNDANEVVAGQECGLHIENFNDIKEGDVVEAYELEEVKRTLR;locus_tag=LOCUS_10090;gene=infB;note=WP_005894893.1 translation initiation factor IF-2 (Fusobacterium) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:5.4e-238],MGA_1013
sequence04	MetaGeneAnnotator	CDS	66920	67450	.	-	0	ID=MGA_1014;product=DUF448 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903345.1;translation=MNKHVPQRTCVICREKKDKENFFRLIKVEGKFIFDKNKNKQSRGFYICKAKECLIKLSKHKKITISTEEMYKMAKELEKNNIEDKYIKILNVLKNSNSLCFGMEMTLKNQEKLKMLILANDINQKNREKLMKLCMDKKIKYIEVATKEKLGRFFGKESINVIGIIDKKVANGLKTL;locus_tag=LOCUS_10100;note=WP_005903345.1 DUF448 domain-containing protein (Fusobacterium nucleatum) [pid:45.0%25%2C q_cov:96.6%25%2C s_cov:96.0%25%2C Eval:7.6e-39],MGA_1014
sequence04	MetaGeneAnnotator	CDS	67443	68495	.	-	0	ID=MGA_1015;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903346.1;translation=MKNKEQKIFLQALDELEKEKGITKESLLETIEQALLAAYKKQYSEDDNVEVVIDRKTGDIKVYSTKEVVETVYDEAHEIEIKEAKKIDRKVELYDEIKVEINCEDFRRNAIQNGKQIVIQKVREAERKNIFEKFKEKEHKIINGIIRRIDDRNNIYIEFDKIEAVLPMVEQSQSDIYRVGDRIKVYVVEVQETGKFPKIVISRKHEGLLIELFKIEIPEIEEGVIEIKSVAREAGSRAKVAVHSSDETIDTIGACIGQKGLRIKEIVDELNGEKIDIVEYKEDKKKFVSAALSPARVYSVELLEDEVTARVLVDPSQLSLAIGKNGQNARLAAKLTGMRIDIKTLGEANE;locus_tag=LOCUS_10110;gene=nusA;note=WP_005903346.1 transcription termination factor NusA (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:98.6%25%2C s_cov:96.9%25%2C Eval:1.2e-120],MGA_1015
sequence04	MetaGeneAnnotator	CDS	68523	68987	.	-	0	ID=MGA_1016;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015988.1;translation=MLGKQIEEKIEKIVEPYLKDLDIELVNIEYLQDGAYWYVRIYIEKSNYEENITLEDCAKVSGLIEDDIDSIINEKFYLEVSSPGIERPLKKLKDFERFVGEKVKVLLKHKIEDKRNLTGVLENVNGEILIFNIDEKKIEIPFNEVKKANLVFEF;locus_tag=LOCUS_10120;note=WP_011015988.1 ribosome maturation factor RimP (Fusobacterium nucleatum) [pid:53.7%25%2C q_cov:95.5%25%2C s_cov:92.9%25%2C Eval:1.4e-45],MGA_1016
sequence04	MetaGeneAnnotator	CDS	69221	69808	.	+	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIITITLLIILSTFSYSLVIESKAGIAPWNSYNLDGTNYTGTFSVRLEGTMWFEIQDKTELGFGAAFRPLGVVNRDLSQSSNGTMDLMTSYPIFISAKYTFPKEIAGITLSGRTNLGFSINDVGSYPYLYKTTIGIYSGFGLSGEKDNLSMEILYELTQSNAYFVTENTNFPDDNIHITNYLISLNVGYKLEF;locus_tag=LOCUS_10130;note=MGA_1017
sequence04	MetaGeneAnnotator	CDS	69897	71087	.	+	0	ID=MGA_1018;product=YihY/virulence factor BrkB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005788563.1;translation=MNKIKEKFNFIKKFLDSFLYNYNKDNTTLLASSISFYSIFSIVPIIALIFSIAKAIGFEEIIKKEIINALPIYKDAIEYLLQFAIKLLNNTKSSIIATFGIITLLWSIINIFSEIEKSFNKIWNIKNNRSIYRKITDYITLIIMFPITIILSNAVFTLFQTNIPSFFYNSSIFNFLLINTLKLIPYFFTVLTFIFLYYIIPNTQINIKYATISAIITGFSFQLLQYIFLKFQIGIITYNKIYGSFAIIPIFLIWQRIMWIIILSGMHIIYILQYDLNKKEFNISIIEFKYYSILILKEYYNNFLNNTETKITDISTKYNLPINLILYFANNLENIGYLIKINNTKYILNKNLENITVQEILKNIEISNYKNIISKDILLEEYNKLINNKNELFKNI;locus_tag=LOCUS_10140;note=WP_005788563.1 YihY/virulence factor BrkB family protein (Bacteroides fragilis) [pid:31.0%25%2C q_cov:94.2%25%2C s_cov:87.7%25%2C Eval:9.8e-50],MGA_1018
sequence04	MetaGeneAnnotator	CDS	71123	74686	.	-	0	ID=MGA_1019;product=pyruvate:ferredoxin (flavodoxin) oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016958.1;translation=MAKKMQTMDGNQAAAYASYAFTEVAGIYPITPSSPMAEYTDLWASQGKKNLFGVPVKVVEMQSEGGAAGTVHGSLQAGALTTTYTASQGLLLKIPNMYKIAGELLPGVIHVSARSLSAQALSIFGDHSDIYSARQTGFAMLASGSVQEVMDLAGVAHLAAIKSRVPFMHFFDGFRTSHEIQKVEVMDYEVFDKLLDREAVKRFRNSALNPEHPVTRGTAQNDDIYFQTREAQNKFYDAVPAIVAEYMVEISKVTGRDYKPFTYYGAEDATDIIVAMGSVTQTIKETIDYLVSKGEKVGLLNVHLYRPFSAEYFMNVLPSTVKRIAVLDRTKEPGAMGEPLYLDVRNLFYEKENAPLIVGGRYGLSSKDTTPAQIIAVYDNLKLENPKNGFTIGIVDDVTNTSLEIKDEISVVPEDVKECLFYGLGSDGTVGANKNSIKIIGDKTDLYAQGYFAYDSKKSGGVTRSHLRFGKDPIRSTYLVSNPHFVACSVPAYLGKYDMLSGLRKGGTFLLNCIWDKDEVVNYLPNSVKKILAEKEAKFYIINATKLAEEIGLGHRTNTIMQAAFFKLSEVIPFAEAQEYMKEYAKKSYAKKGEDIVKMNYEAIDRGAGEVVEVTVDSSWEDLSIEEASCGTDTACRPKPEFVSKIADPINAIKGDSLPVSAFNGYEDGTFENGTTAYEKRGVAVNVPHWVKENCIQCNQCSYVCPHAVIRPFLIDEKELANAPEGVKENTIKPIGKGLEGLEYKIQISPLDCTGCGSCANVCPAPKGKALEMRPIGGEVEAGEQVNADYLFNEVTYKDDKMPKTTVKGSQFAQPLFEFHGACAGCGETPYIKLITQLFGDRMMVANATGCSSIYGGSAPATPYCKNANGEGPAWASSLFEDNAEFGYGMHVASETLRNRIEVVMETTMDKVPAEVADLYKEWISNRNNGEKTKEIQNKLLPLLEGADFEGAEEILSLKDHIVKKSQWIFGGDGWAYDIGYGGLDHVLASGDDINILVMDTEVYSNTGGQASKASPTGAVAKFAASGMPVQKKDLAAIAMSYGYIYVAQVSMGANQAQYLKAIREAEAYPGPSLIIAYSPCINHGIRKGMGKSQTEEKLATECGYWPLFRYNPLLEKEGKNPLQIDSKEPVWDKYDEFLMGEVRYATLMASNPERAKELFARNKEEAARKWRQYQRLASLDFTTEKK;locus_tag=LOCUS_10150;gene=nifJ;note=WP_011016958.1 pyruvate:ferredoxin (flavodoxin) oxidoreductase (Fusobacterium nucleatum) [pid:73.9%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_1019
sequence04	MetaGeneAnnotator	CDS	74878	76062	.	-	0	ID=MGA_1020;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016959.1;translation=MKVLVLNSGSSSLKYQVVDMLKEEAIAEGICERIGLEKSQMKYKANGKKEEILHDMPTHKEAIDLVLKTLQGENGVIKSIEEIDAIGHRVVHGGEKFDKSVIVTKEILKEIQNLSSLAPLHNPANALGIEVCMELMPDKKNVAVFDTAFHQTMTREAYMYALPYEDYEDLKVRKYGFHGTSHYFVSQEAAKVLNNPEAKVIVCHLGNGASISAVKAGKCIETSMGLTPLQGLMMGTRCGDIDPAAVLYVMEKRGLTAKEMDTRMNKKSGILGVFGSSSDFRDLSKAIEEGNERAKTAYEMFVHRIKSYIGSYAAALNGVDAICFTAGIGENASKVREDVCKGLTYLGIDFNSEENSTRKDGIQELTKEGSKVKVFKIPTNEELVIAKDTYSLVK;locus_tag=LOCUS_10160;note=WP_011016959.1 acetate kinase (Fusobacterium nucleatum) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-142],MGA_1020
sequence04	MetaGeneAnnotator	CDS	76083	77093	.	-	0	ID=MGA_1021;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627902.1;translation=MGIIEQIRSKAKAELKTIVLPETNDERVVKAAAKVLEEKLAKLILIGEETTIKSKASELNINIEGAEIVNPKNYSKLDKYIAEFVKLREKKGMTEQIARQVLENDPRFFGAMMVRMGDADGMVAGSDSPTADVLRAAIQVIGTKPGLRTVSSCFVMVLPKESEPAKLYGKDGVLIFSDCGVVPNPTPEQLADIATSAAASARSIVGMEPKVALLSFSTKGSAKHEDVDKVIEAGEILKNRAVNFEFEEELQADAAIVPAIASKKAPDSKVAGKANVLVFPDLSAGNIGYKLVQRLANADAYGPLLQGLAKPVNDLSRGCSVQDIVDIVAITSAQAE;locus_tag=LOCUS_10170;gene=pta;EC_number=2.3.1.8;note=WP_201627902.1 phosphate acetyltransferase (Fusobacterium canifelinum) [pid:58.2%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:5.5e-104],MGA_1021
sequence04	MetaGeneAnnotator	CDS	77273	78520	.	-	0	ID=MGA_1022;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016881.1;translation=MFKKIKKIFKKEKEIDKEIKEELEKIKEFEEVHEKVEETIKKLEEEKTEFEDLKEKVQELDKKLEEEKANEVFEKLEKEKEIRETETKIMAEKELVEKKENELEERAKKKGIFGSLKEKLFRSVSKDGLFGKIKTLFSGRSIIDEEMYEELEDLLIQSDIGMDMTLKIVKKLEEKVKELKIKEPEKVYDILKEVMKEFLIREDTELKLDRKGLNVILVVGVNGVGKTTTIGKLASKFVKEGKKVVIGAGDTFRAAAIEQLEEWAKRANAEIIKHSQGADPGAVVFDTLKAAENREADIAIIDTAGRLHNKNNLMVELEKINKIIKKHLGEGVFYESLLVIDGTTGQNGLTQAKVFNEVTDLTGFVVTKLDGTAKGGIIFSVSEEIKKPIKFIGVGEGIEDLRKFNVDEYINAIFE;locus_tag=LOCUS_10180;gene=ftsY;note=WP_011016881.1 signal recognition particle-docking protein FtsY (Fusobacterium nucleatum) [pid:56.0%25%2C q_cov:82.7%25%2C s_cov:99.1%25%2C Eval:7.8e-98],MGA_1022
sequence04	MetaGeneAnnotator	CDS	78656	78895	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKWELFIFILMIMYSKNVNLYAENNFNTIGISNKIYEKIINFVSMISTLDFIYFILGVLAFSIFILFSLELNIIKK;locus_tag=LOCUS_10190;note=MGA_1023
sequence04	MetaGeneAnnotator	CDS	78933	80078	.	-	0	ID=MGA_1024;product=four-carbon acid sugar kinase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016239.1;translation=MKVSVIADDFTGANDIGIQLKKYGLKVITKTYDSKISIKSDVEIISTESRNIDKKKAYERVKKSFMELKNSEKFFKKIDSTLRGNIKEELKAIQENINKQEKILVIVGFPNTNRKIINGKHYIKDIPLHLTEFKNDPYFPIKTNDLLEYFEGEIIKINDIRSNRQEKLKEKIKSIKSQIIIFDTENNNDLDIIAKTIIELKLDKYIVGSSGIMEYLMKYWGYKRPQIAIISGSCNAKNIEQIKVLESNNNIEVIDVDFTKKNIDIEKKKYKNDILIRSIKNIRDYNKAKENYKVVEITDIFTDISKKIIEENNIKNLIISGGEISINILKKMSIDYLEVIKEIEPGIAYLKYKEYNIITKPGGFGSEKFYKKAYEFMKSFR;locus_tag=LOCUS_10200;note=WP_011016239.1 four-carbon acid sugar kinase family protein (Fusobacterium nucleatum) [pid:26.7%25%2C q_cov:99.2%25%2C s_cov:99.1%25%2C Eval:3.8e-27],MGA_1024
sequence04	MetaGeneAnnotator	CDS	80238	82586	.	-	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSIKSKFSIIIIFTSILSLIFAYLISSEVIYRNLEQENKSKIEEKINYIQYELYEFKENFRRETEMMSKNIDLIRLLNKADIGYNIRKEEYNNLYNYYNTLTSNYKNFDIAIYSSKQDLIFTKGFKKNEKIDFNEEGIRYKKLGNDLYIYSIVSIDMNKYMGTIVYRYKISEKEIYRYKNIFVTEVILFDKNKVIKGTLKKDSILQFRKDNYLEIGEKIYFYKLIDIENIDSLKWLFLFDVTKLFSDIQKITSYLFIAMFLVFSLIFLISTTMLNLVVDSIKELTNKINSLKEGNLDINLGKLKLSGDEIGILARDFEAMTITLRDKINELEEANNNNKHYSQRLELMNKEMKETQKKMQEKNENIDRINKLLNNRISEITNIYYLIVNVSKYIIDDNFYEIVIKGIREGLILRKVAIYIVKEESKDIVLTKSFGIGNPPDILEIWDYIDYIKKRDIVLASDIIDLSYYKEFKEPYVVPLFSEKSESKDLYGILLVDDGKKLEQETKKSLITYVKTILLALENRKLYLKLIKENQKLEEATKELQKSEKTKNVFMANVSHELKIPLVPIKGYTELLLAGKIGKLTIKQRKALKTSLNNIERLQEIIENIISYSRIESGKYELLNTKLYLIDVIEEVLMRLENVIEEDRVIVRKNYKTENPIIYGDQEAIKQIFVNLISNSLKFSKKDRLIIDIIISEEGEKYKIILKDNGMGMAKDKVKEILKSFRQLEEGNTRKYRGLGLGLTVVDKILSTYNENINIISEINNGTEVYFYFRKYIDNK;locus_tag=LOCUS_10210;note=WP_012546240.1 ATP-binding protein (Thermodesulfovibrio yellowstonii) [pid:30.7%25%2C q_cov:35.3%25%2C s_cov:30.7%25%2C Eval:3.3e-32%2C partial hit],MGA_1025
sequence04	MetaGeneAnnotator	CDS	82689	84215	.	+	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIFILFFIINIFLFAKEYNIYVFNENYSPISAASIIIDNTYYSTDFNGYLKVEIPNNEFFVSISKNGYINKKIFVSNNTNNINIMLIKKNMNSKKLFVGLKYDNNNNYYFLDSMNLNNFSFNSIINFYNDNKLIYSFDYHNSPISIDILPNIYDVKIINSYNSIIYKNIIINENTKPFLLFSMKKNTLLVKGIVKSNNYYIGGAKITFTDINNNNFETFSNITGNFYIELPKNDYTISIEKIGYKSNNIKLSVKNNIQNLELSLKELGGYISGYIIDEKNNPINNALININNSINSFSIYSNDKGFFKVKVPSGINILKITKNGYLTNGIIKNIKNYSSIENLYIKLEKKVSNLKGRVIANSEYASNVNIFLYKDNKHIATTTTNKNGFYIFENLPLFESYKIIIKNSLNKDIFTSKDIFLTDESDKEFNIFYNYNYKKLILEFPEKFYKPVYINNKKYLPDSNSLIYLDIDPNINSLEISIPEYNYKNILSLTNENKIYLKIKL;locus_tag=LOCUS_10220;note=MGA_1026
sequence04	MetaGeneAnnotator	CDS	84249	85946	.	-	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILYLLISINIFASVSKYEITSFLGKKVYFPKKISKYLSDLLEDNNTESYYEIAKVYADIGEKEAALNFLREYEKIYPNEYLKISKIYHELGDYNKEIKYLDKYIEKKAEQKEILELYMYIVDLIQNNNLAIDMTKYSLNKFQKLELYSYDSQKYYEFFLNNEWNTEEKHKLVEIIKNKDFENDEYLKAILIKIATPKELSELAYAKIKSLENKEGYYEYFLYEEKLAKLTGFRNDLEKLYYLKYKKSEDFNKEFKKLEKRYIRESDIDNLYKLYFLNKDFKIMYNLSFKNEDMFYKFFKDRLQNGISDKEIINLISFYENNNEFKGKYKKEMIKYKLNYVLNDDEKIQIIDEYINKTFDKELFLMKIDILIKSEKSYEAELLLAEKIFKGFENEEFIQKYIEILENSNRIDELMAKLKLLYNKKYYIEYAIKYAYDIDKTFEKDLIQYYFDKGEYVKLLMYKEKLNFKQLDFLLKNGWQEYLDIALEKYEYQKEWIIPNELKYFYFNKNNLVFDDYYKNEIEKKNEKTDVEMYYLYLYYKNKGNIEKAEKYFQILKRNYLL;locus_tag=LOCUS_10230;note=MGA_1027
sequence04	MetaGeneAnnotator	CDS	85958	86962	.	-	0	ID=MGA_1028;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016472.1;translation=MYILGIETSCDETSISVLKDGKEILSNIISSQIDIHKEYGGVVPEIASRHHIKNISYILDEALEKAKIKIKDIDYIAVTYAPGLIGALLVGISFAKGLSYSHNIPIIPVHHIKGHIYASFLEYDIRAPFISLVVSGGHTNIVYIDENHKFYNIGSTLDDAVGESYDKVARVLNLGYPGGPIIDKMAKLGKNVISIPEPKVEGYDFSFSGIKTSVINYVNKMNMKKEEFSKEDLATSFQKKVVDILCKKVIVAAKEKKVNQIIIAGGVAANSELRSELTNRAKKENINVFYPSLKLCTDNAAMIAAAGYYKLKYQNDIFADLNLNGIASLNIEKD;locus_tag=LOCUS_10240;gene=tsaD;EC_number=2.3.1.234;note=WP_011016472.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Fusobacterium nucleatum) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.0e-128],MGA_1028
sequence04	MetaGeneAnnotator	CDS	87044	88138	.	-	0	ID=MGA_1029;product=D-alanyl-D-alanine carboxypeptidase DacF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398637.1;translation=MKKIIFYIFLILNFIANADYVSKLTMDTNGNIIDSKNIYLKHPTASIAKIMTSVIVIDEIRAGNIKMDDKIKISLDAAKIGGSRISLNIGEIVTVKDLLKATLIHSANNAAYALAEYTYKDVDKFVEKMNEKAKELGLKDTKYYTPTGLPSDMTGKGMDISTAYDISKLSLEIFKNYKEIMDIVKLKTAKIKNNRYTIKTRNNFLKKNLGVIGLKTGHHDSAGYNMSVIVDRKNFDIIIVLLGAPNEKNRDEEIEKEINYVYNNYEIKTLVKKDDFIIQAKVIGGKKNTINLYAEKDYSALIKKEWKLEKTVYLPENIYAPIEKNKELGTYVIRYNNKELARIKLVNKEKMLKGNLVDEIVKKF;locus_tag=LOCUS_10250;gene=dacF;EC_number=3.4.16.4;note=WP_004398637.1 D-alanyl-D-alanine carboxypeptidase DacF (Bacillus) [pid:34.7%25%2C q_cov:90.1%25%2C s_cov:84.3%25%2C Eval:1.1e-47],MGA_1029
sequence04	MetaGeneAnnotator	CDS	88251	90368	.	-	0	ID=MGA_1030;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016521.1;translation=MIDRELEILREYLKIKKKSITTNELFSIVGWSSKKKKKNISIINKWIENGEIIRLKSGKYNIPENGGYIKGTLDVVKNRFAFVDGEEFSVFIPKSKFNGAFSGDTVLVKITKENKKGKNKEGEVEKVLKRENDKIIGILQRKPNFGFVVPFQNFGKDIFIPKNKMKNAKDGELVLVKITFWGDNEKKPEGKIVEILGDPFDSEVMIEALLKREGIEEKFPLEVKQEINKLISINYEKDENRVDLRDYNIITIDGADAKDLDDAVYVEKKGENYRLIVSIADVSYYVKEGSALDEEAYKRGNSIYLVDRVIPMFPKEISNGLCSLNPYEDKFTFTCDMIIDKKGKVIDHKVYKSVIRSVERMTYSDVNEIYKGNKDLSSKYSNIKDMLFLMLELSKVLRQVKKSRGSIDFDLPEIKVVLDENKKVDYIKTRERGEAEKVIEDFMIAANETVAEKIFWLEIPSIYRTHDKPDEERLMKLNESLSKFGYNLHNLDELHPGKFQKIIDDSKEKGINMIIHKLILMSLKQARYTKENTGHFGLASTFYTHFTSPIRRYADLVVHRILNDTLSKYPSKKRIKYLEDTLDEVGKHISKTERTAMSIEEESIRIKVVEYMKDKIGNEYNAIITGMNKNGIFMETEEYIDCFYNVIQSKSYHEYNEESLTMIDTDNNITYKIGDKLRVVIIRVDMKELEIEVIPIEMLNENSES;locus_tag=LOCUS_10260;gene=rnr;note=WP_011016521.1 ribonuclease R (Fusobacterium nucleatum) [pid:53.0%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:9.1e-212],MGA_1030
sequence04	MetaGeneAnnotator	CDS	90377	90955	.	-	0	ID=MGA_1031;product=bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016520.1;translation=MIDYKEKNNFIKEKIKEFSTEKRYKHILSVTNMAKKLAIHYNVNVDKIETAALLHDVSKHFTLNEMLNFLDKEEIEQEYLLGELLHGYAGAVFSRNFFKINDKDILNAIKYHTIGRKAMSIYEKIIYIADAIEETRNYEGVKKLRKLAFEDINLAILKEADLKIKFLIDKNVIIHPSTLEMRNYYLNKIYGR;locus_tag=LOCUS_10270;gene=yqeK;EC_number=3.6.1.41;note=WP_011016520.1 bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK (Fusobacterium nucleatum) [pid:41.9%25%2C q_cov:92.7%25%2C s_cov:94.3%25%2C Eval:2.0e-33],MGA_1031
sequence04	MetaGeneAnnotator	CDS	91029	92378	.	-	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFIIGILFISVVIFFVYLTIFYGRQVIIGDAENFYKAGDVEKAIENLKNYKSTRPNDVKARLLLAKIYYEQGNTVESLKEYISVSLNQKATPEEKGDAYAMITKMYLDKKDYNKAIEYVINGLKVNNKNPLLFCYLGKIYSIMGKEAKAIRAFNEALMLDRSHILTRLELAKLHIKTKNKFKARFQLKKIIELDPFNDEAKYELAKIHYEEDELEEAAKLMEQLKEIEGREELYYTVLLKYYIEENNIERQETIIKKMLELEDIFMAEKPSLLYDLAMIYEKKDKYEEALEYFKLVKEHNPRYKDIESRIQNIIKILNPEEYEKMIDGIDYGILETDDLLDLFKSIIEKLGLKLAYEIEESKDKIMAMAVDQYNPKDKFLVQIMNIDRDITVRDLQLFVEQFEIHKATNGIFITTRTYNEQAVTYAEALENLEILDKMHLYDLVGELE;locus_tag=LOCUS_10280;note=MGA_1032
sequence04	MetaGeneAnnotator	CDS	92394	92939	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYVVLNILIGILLLISIYFHKKYVLDYDFTKTKKIYSKEDKIKKIEYESVDIYIPDITFSKLIPIRTKIEKTQNITKKIRIIYREIVDSTQNLPQTFLDKNIVLKNIFIEKEILYLNFNKKIVENIKNEKQELLIIYSLVNTFTSIEGIEKVKFLIENEEKEKLRFYNITNYFEKDLTI;locus_tag=LOCUS_10290;note=MGA_1033
sequence04	MetaGeneAnnotator	CDS	92952	93974	.	-	0	ID=MGA_1034;product=N-acetylmuramoyl-L-alanine amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029491986.1;translation=MSKLKIGILYFLCFLSIFGIDIQNIRFNNSPKQIVLDIKGEVTPKYNVNYDEVTRLIFLEVENSKIIENIDRKIEKNDDYIEKIEAIDLNESTAFFITLKEDVKYKVTTWHNPTRIVFNLQKDSDKPIIVIDPGHGGRDPGAINGKYKEKDLVLSVSKYLKDILKNDFKIIMTRSTDKFISLNERSAIANRHNANLLISIHANASPSKTARGFEVFYYSKNQSEYAKQLAQFENSVEEKFGGNITATDLIVNDILYRQNQERSAFLANQLIDYYPKQLNMIKRGSHGANLAVLRGTNAPSILIELGFITNNSEASKMFRRENQKKMAQSIAKIVKEYFKK;locus_tag=LOCUS_10300;note=WP_029491986.1 N-acetylmuramoyl-L-alanine amidase (Fusobacterium hwasookii) [pid:39.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:6.9e-62],MGA_1034
sequence04	MetaGeneAnnotator	CDS	94024	94338	.	-	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDQFISYAADATPNTSAGIINLVIILVVWGGIFYFLLIRPNKKREKQHREMLSSLKTGDVVITTGGIKGEIVAITDEFIELRVDKGVKISFKKSVIANVYKSK;locus_tag=LOCUS_10310;note=WP_011017079.1 preprotein translocase subunit YajC (Fusobacterium nucleatum) [pid:58.7%25%2C q_cov:72.1%25%2C s_cov:79.8%25%2C Eval:8.5e-21%2C partial hit],MGA_1035
sequence04	MetaGeneAnnotator	CDS	94474	95640	.	-	0	ID=MGA_1036;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016154.1;translation=MAKKDYYEVLGVSKTASDAEIKKAYRKLAMKYHPDKFTNANEKEKKEAEKNFKEINDAYQILSDKEKRAKYDQFGHAAFDGMGGAGSGFGGFSDFGGFEDLGDIFSSFFGGGFGGGSSRSRVRPGNDLRYNLELTLEEVAFGVEKEITYRRTGTCHTCNGTGAKPGTKIKTCTKCNGTGKIRERQQTMFGIFENVAECDMCHGKGEIPEEKCPTCNGTGVEREKVTKKVKIPAGIEENQRLRLNGMGDASTTGGPNGDLYIYISVKPHDIFERIDDNVICEVPISFATASLGGEIEVPTLEGTVKIKIPAGTQNGKVFKLKGKGINNSRGFGRGDQLVKILVEVPTNLTREQKELIEKLDETFKKDSKQHKLGKKFKDAVDKFKSMFE;locus_tag=LOCUS_10320;gene=dnaJ;EC_number=1.8.4.-;note=WP_011016154.1 molecular chaperone DnaJ (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:1.4e-114],MGA_1036
sequence04	MetaGeneAnnotator	CDS	95659	96522	.	-	0	ID=MGA_1037;product=aldose 1-epimerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009932949.1;translation=MNSIENSFLKLEIANKGAEIKKIINKKNNQNYIWKGDSNYWGKTAPVLFPFIGGQKNGKFIVEGKEYSQLKHGFARDNDFKIIEKNDTKIKYLFSYSEETLKQYPFKFNFYITYTLEKNRIKTEYLIENIDDKEMYFSIGAHPAFSLFVNEEIKYEDYYLEFEKEEEIKSFIIDGVLLKKEKIDLGKTKILELKKDTFKNDAFVFENLKSKEITLKNKKDNRKVKVIFDEFPYLALWNVVNAEFICIEPWCGINDFVDFNGELKEKIGIEKLDKSAKFKRKLIFEIV;locus_tag=LOCUS_10330;note=WP_009932949.1 aldose 1-epimerase family protein (Listeria monocytogenes) [pid:37.7%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:5.4e-54],MGA_1037
sequence04	MetaGeneAnnotator	CDS	96536	96988	.	-	0	ID=MGA_1038;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003234145.1;translation=MIELKLMSEEDFQIIKGKMIADYSKSKVNIGVWAEEEALELAKETFNTLLKNGLETKKHYFYNIYKNNEKIGYTWNAVPDREMFIYNVEVFEKYKDMDYEDEIMKKIEENAKNLGANRITVHLFGNSIELLKVYQKMGYQLTDITICKKV;locus_tag=LOCUS_10340;note=WP_003234145.1 GNAT family N-acetyltransferase (Bacillus) [pid:28.3%25%2C q_cov:98.0%25%2C s_cov:96.8%25%2C Eval:7.0e-20],MGA_1038
sequence04	MetaGeneAnnotator	CDS	97169	98986	.	-	0	ID=MGA_1039;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016153.1;translation=MAKIIGIDLGTTNSCVSVMEGSNFTVIPNAEGARTTPSVVNIKDNGEIIVGEIAKRQAITNPDSTIISIKRHMGTDYKVNVHNKDYTPQEISAMILRKLKKDAESYLGEEIKEAVITVPAYFTDAQRQATKDAGAIAGLEVKRIINEPTAAALAYGLDKKKEEKVLVFDLGGGTFDVSILEIGDGVVEVISTSGDNHLGGDDFDQAIIDWLVKEFKAETGLDLAQDKMATQRLKDAAEKAKKDLSSMMETTISLPFITMDATGPKHLEKKLTRALFNELTKGLVEKTQGPTKRALEDAGLSVSDIDEILLVGGSTRIPAVQEWVEGYFGKKANKSINPDEVVASGAAIQGGVLMGDVKDVLLLDVTPLSLGIETLGGVFTKMIERNTTIPVKKSQVFSTAVDNQPAVTIKVYQGERAKAVDNHLLGEFNLEGIPAAPRGVPQIEVTFDIDANGIVHVTAKDLGTGKENKVTISGSSNLSEEEIEKMKKDAELHEAEDKKFKEIAEARNTADQLVFATEKSLKEYGDKVSAEERANIEAAVNKLKEVKDKDDLDAIKKATEELTQVSHKLAEEIYKTAQADQAGQQAQPEEDKKSDDDVQDAEIVD;locus_tag=LOCUS_10350;gene=dnaK;note=WP_011016153.1 molecular chaperone DnaK (Fusobacterium nucleatum) [pid:77.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-267],MGA_1039
sequence04	MetaGeneAnnotator	CDS	99002	99298	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQKIVVLERFNLEKESIKSFKEELLKNKPLTLNEIGCENYRVFINHELPDELILLEEWETKEDYERHLESKHVIELIKKYDEFKVKSIKKEILNLIK;locus_tag=LOCUS_10360;note=MGA_1040
sequence04	MetaGeneAnnotator	CDS	99331	99927	.	-	0	ID=MGA_1041;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016151.1;translation=MKKKDEIKNKEIFKEEMEELKQEELEKENQAKTEEETIEEPKEETNDLEKQLENANKEIEELKNAYARKNAEFQNFARRKENEFEELKKYAAEKIIAKFLEGVDNLERAISASLESKDFDSLVKGVDMTLNQIKNTLKSEGVEEIKAVGEKFDPYKHQAVMVENIEDVENDYIVMELQKGYTMHGKVIRPSMVKVCKK;locus_tag=LOCUS_10370;gene=grpE;note=WP_011016151.1 nucleotide exchange factor GrpE (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:89.4%25%2C s_cov:94.5%25%2C Eval:7.9e-41],MGA_1041
sequence04	MetaGeneAnnotator	CDS	99930	100946	.	-	0	ID=MGA_1042;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480919.1;translation=MSLNERERLVLGAIIEYYLTFGDTIGSRTLVKKYDFGFSSATIRNVMADLEELGYIKKTHTSSGRVPTDLGYKFYLQELLKIRKLSKLEKEKIELAYEKRMLELDTIFEKTSKLLSKMSSYAAIVIEPKIEKELVKKIEIMQITDYTIMTIVILDDCSVKTKKIHLDSMITDEETEYIKQELKKELKNSEITLSQFYEKLKKMLDNKIFENFEEKEDENDGFFIKGESNILKTLNNNNDVLNMVDVFNKKQHLRNTFEEIVKKGNYEEGKVYILLGEDLNIEPLSEFSFVFSTYNLRGSKGVIGVIGPKRMEYSKTVSLVEYISEEVNRVIQDLKGEG;locus_tag=LOCUS_10380;gene=hrcA;note=WP_198480919.1 heat-inducible transcriptional repressor HrcA (Fusobacterium canifelinum) [pid:43.9%25%2C q_cov:99.1%25%2C s_cov:97.9%25%2C Eval:2.0e-77],MGA_1042
sequence04	MetaGeneAnnotator	CDS	101068	103104	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNLEKTKKKIKKFKIRKISVKFKTVTLILLSMVIMFTYLCINDIKRLEKSNRLTLITLANLKNISLDNYINSKIENTSLFLESINKNLAFGKALNNRDKQEIKAITQSSYYHYKNNIGLRNFIIIDKNKNLLFSYIPPRKTQINNEIINNSIKNKKSNSGLIIGDRGLTIYTTTPVIYMANFLGIVIVQTTFDIGGVNKFIQKLNKDILKGEYQVSIIYRKNNKNKIAISNFESEVKEKEDIFDEIQKENKYFKKENDNFYAYYSLKNYKNEIIGYKKYKINIKDVNDKLKKEILSTLIFYILVTLVVSILLIIIINRIIIKKLEIIFNIIKKIANGNLLEKVNITSKDEMEDLGNEINKMIDKLNEIIEMLKIDTVDLEKKSIYLKNNSTELNKETELINETIENITESFFEVSDATEELNITVEKNAKINDFVIENIKTIKNQSIDIEKLASDSYINMENIAISTQEVKEKIDESSYSINNLSEEINKIIEVMSKITDISNKTNLLALNAAIEAARAGDAGKGFGVVAEEVKKLSLETGDFVKEVEELLIDIQKNMKIIEKDMEIEKERTENNINIVDKTKNTFINVKYEIEDISTKINNITKKINEQVESFNKIEVGIKSISTSNEMLKEKTEELSEISKNNFNITQNIQNISDELNKKSNKIKDMIDYFDIN;locus_tag=LOCUS_10390;note=WP_011948168.1 methyl-accepting chemotaxis protein (Clostridium botulinum) [pid:29.6%25%2C q_cov:49.3%25%2C s_cov:49.9%25%2C Eval:7.5e-38%2C partial hit],MGA_1043
sequence04	MetaGeneAnnotator	CDS	103572	105290	.	+	0	ID=MGA_1044;product=Na+/H+ antiporter NhaC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948187.1;translation=MMFKKRVNLITLMFLVISVFSFAGGNENATKFGLLTLLPPIVAIVLAFMTKNVVLSLFIGIYSGTFLLNIQGKGFFFSFIHGFLDIIKNVLSSLSDSWNAGIVLQVLTIGGLVALVSKMGGAKAIAESLARKAKSPVSAQIITWLLGIFIFFDDYANALIVGPIMRPITDKMKISREKLAFVIDATAAPIAGIAIISTWIGYEISLIKDGFSLIGIENINAYAYFVQTIPYRFYNILMLAFIPMSAIMMREFGPMLKAENRARTTGKVLAHNAKPMISAESTALEPDESVKLNIWNAIIPIGTLIISAFIGFYFNGLSTLEGDLLSQVQSNPLSMFAIRETFGASDASIVLFEAALFASIVAIIMGISQKIFNINDAIDTWVHGMKSLVITGVILLLAWSLSSVIKELGTSVYLVNLASNSIPKFLLPAIIFILGSGIAFATGTSYGTMGILMPLAIPLANAIGQNAGLTGEAVISYIIVTIGAVLTGAVFGDHCSPISDTTILSSMGSACDHIDHTKTQLIYALSVGALAVVFGYIPAGMGLPIYLVLPIAILSVYLLLLIFGKKIDIENI;locus_tag=LOCUS_10400;note=WP_011948187.1 Na+/H+ antiporter NhaC family protein (Clostridium) [pid:66.2%25%2C q_cov:94.9%25%2C s_cov:91.5%25%2C Eval:7.8e-211],MGA_1044
sequence04	MetaGeneAnnotator	CDS	105602	105985	.	-	0	ID=MGA_1045;product=chemotaxis protein CheY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081049.1;translation=MYTFLIVDDFDGMRDRLKVILEEIGHKVVGEAVNGKEAAEKYRKLKPDFVTLDITMPEVDGLEALEKIIEYDENAKVIMVSAISEKNLVLQAIDKGARHYILKPLKTKRVKEIIDEVIEYEKEFLEF;locus_tag=LOCUS_10410;gene=cheY;note=WP_004081049.1 chemotaxis protein CheY (Thermotoga) [pid:49.6%25%2C q_cov:89.0%25%2C s_cov:94.2%25%2C Eval:3.6e-27],MGA_1045
sequence04	MetaGeneAnnotator	CDS	106147	107073	.	+	0	ID=MGA_1046;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029491539.1;translation=MEKKIILNGIFYIILTSIFIYLWIKEKQIAATIKSYRDSFSNFLINSFNIRNSKYQTSLRKTVDFIETITSAIILVLIIQRFYLGNFLVPTGSMIPTIIPKDRLFGNMVIYKFTKPKREDIIVFKEPIDNKVLYTKRLMGLPGETVQIKDDYLFINNKKISTRNYSNLADLQPNVEWIIPKKGDTLEIYADFNIKNVLIEKNIDIEKFQQVIYDHPGRITTFFKGIHFKINGKETGPVPDYIHDKNTISKLINGKTLKFTINEDYYLALGDNTNNSMDSRVWGFLAEHRIKGKPFLRFWPLNRIGLLK;locus_tag=LOCUS_10420;gene=lepB;EC_number=3.4.21.89;note=WP_029491539.1 signal peptidase I (Fusobacterium hwasookii) [pid:52.5%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:9.8e-89],MGA_1046
sequence04	MetaGeneAnnotator	CDS	107075	107506	.	+	0	ID=MGA_1047;product=ribosomal protein S18-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902598.1;translation=MNIKINKLKSNDITQLLDIETVSFITPWDKKLYNSMLKNNRYHLYGAFLDINLIGYIVLYDSIDIIEVIKIATSKNYRKTGVASHLLQFSIDKYNLDFMLEVRTSNINAINLYKKFNFKDISIRKNYYKDTNEDAVIMKREAK;locus_tag=LOCUS_10430;gene=rimI;EC_number=2.3.1.266;note=WP_005902598.1 ribosomal protein S18-alanine N-acetyltransferase (Fusobacterium nucleatum) [pid:41.8%25%2C q_cov:95.8%25%2C s_cov:96.5%25%2C Eval:2.7e-20],MGA_1047
sequence04	MetaGeneAnnotator	CDS	107503	107961	.	+	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKLIDTYNFENKEFLISFLNNNLHLSYSYLKEILEFFYELTTIKQINLIDFLENISFSSKNKKENTKYFIEYIREYRNPTIYNSLKTLKKTLNNIEKRQIKTIYPQYLEGDYLKLEITFTNEKDIEKTIKILSENINNLKSALNIIKKGG;locus_tag=LOCUS_10440;note=MGA_1048
sequence04	MetaGeneAnnotator	CDS	107966	110002	.	+	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWSYLYLLLLLLFIMSLGIVIDLSAYRYDLTVIFLLLYFLISINISIISYKIATLLKRFYFFYFVFSFAVTSLISFLFLKKIIAYNILDIYFFYTLNFIEIVIYFFGIYLLKNNKKFDKNLILKSFLLVSNSYFLYSGIKYNYINFVIFGIYIQLYFVYKLTNIFDEMTFFKPSIIFKIFSTFLLIIYGFYPIIPIYLISKFLYLLSLLIIWNNFLNIFNKNNIKIFKNKELLIRKLFNINNNPVFLIKDNKIKKANKSALQLFKINNRSDLTKYELSELITIIDDSSAIVHLNDNTTKKVDIFQIDINESEFLLKLEEQETEKLIKHEISHIVGDIFYIYEEGYGYRFVSENVYNLLGYTPKNFYEDEFFSNKVSIDKKFLNLLEDKPNKATFISAYKTKNGDIIYLKENIKKITLNNNTFYYGTGCDITELQIEIENLRKEIGHLNSLNSKKDMSMSIVSHEIRTPITAIIGFLENIIINNKNIDKHITNMINKVYSNSMRLKELVNNLLDLNKLNAGKLEVTKEKNNLKELINEIILNNETLLEIKRINCENNVIDDIYVYADSSMLYQIINNIISNSIKYNHENGNIIIDVNEIGNDIIIKIKDSGIGIPIDNKEMVFKEYERVKGTKQKGTGLGLPLVKKLVELNDGKIWFESELDKGTVFYILFKKYDNI;locus_tag=LOCUS_10450;note=WP_010963646.1 HAMP domain-containing sensor histidine kinase (Clostridium acetobutylicum) [pid:27.3%25%2C q_cov:52.2%25%2C s_cov:56.6%25%2C Eval:1.3e-29%2C partial hit],MGA_1049
sequence04	MetaGeneAnnotator	CDS	110046	111479	.	+	0	ID=MGA_1050;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016341.1;translation=MNNNIYSNPLAERYSSEEMLYNFSPNKKFSSWRKLWIALAECEKELGLDISDEQIEEMKKYVDDINYEVARAREKEVRHDVMAHVFAFGEQAKSAKPIIHLGATSAFVGDNTDLIQIRDGLEIIKKKLINVINSLKTFALEYKDMPTLGFTHFQPAQLTTVGKRATSWLQSLLLDFEELEFRQKTLRFRGVKGTTGTQASYAELFNHDFNKVKKLDEMVSEKLGFDKRFLVTGQTYDRKIDSEILALLSNIAQSAHKFTNDLRLLQNLKEIEEPFEKNQIGSSAMAYKRNPMRSERISALSKFVISLTTSPAMVAATQWFERTLDDSANKRLAIPQAFLAIDAILIIWQNVLNGLVVYPKIIEKRIQEELPFMATEYIIMEGVKNGGDRQELHERIRVHSMEAGKQVKIYGAKNDLIERILEDEYFNIDKERLVEILDPKNFIGFSSEQVIDFIETEINPIIEKYKDYLGIDAELKV;locus_tag=LOCUS_10460;gene=purB;EC_number=4.3.2.2;note=WP_011016341.1 adenylosuccinate lyase (Fusobacterium nucleatum) [pid:76.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-210],MGA_1050
sequence04	MetaGeneAnnotator	CDS	111587	112114	.	+	0	ID=MGA_1051;product=Gx transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902602.1;translation=MLDKEKKNTAHMITLVLLALYLTLIESIIPKPFPWMKIGLANLATLIAFDKFGIKMGIEVFYLRVFTASFILGTFLSPGFIISITSGTFSLISMVILFKYKKYFSIIAISSIAGIIHNIGQLISSYFIYFRDIEILYKYVLYFIIIFLFMGFISGIITGFIAYKVLYKKNRRFLH;locus_tag=LOCUS_10470;note=WP_005902602.1 Gx transporter family protein (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:97.7%25%2C s_cov:99.4%25%2C Eval:1.3e-38],MGA_1051
sequence04	MetaGeneAnnotator	CDS	112111	113472	.	+	0	ID=MGA_1052;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902604.1;translation=MKRKYFGTDGIRGEANKELTVDIALRLGYALGYHLKNKNPNKKKIKLVMGTDTRVSGYMLRSALFAGLTAMGINTEFIGVLPTPGVAYLIKKKEADGGIMISASHNPAKDNGIKIFGPTGFKLPDEEELEIEALMDNIEEVTKHIVAGDKVGKFKYSEDDFYLYRDFLVSTVKDDFSGLKIILDVANGAAYRIAQSVFSRLNAELVVINNIPNGTNINVKCGSTDPSILQKVVLGYQADIGLAYDGDADRLIAVDEKGQVIDGDKIIAILAKEMKRKGELNNNKVVTTVMSNMGFEKYLEENGISLIRANVGDRYVLEKMKAQGLNLGGEQSGHIIMLDYNTTGDGVLTSLQLVQAIKNSGKNLSELVDSITDWPQELINVTVEKSKKLSWDKNSIITEFIKEKERLLNSNGRILVRASGTEPKIRVMVEGKDAELVKTIANEIVALLKKELS;locus_tag=LOCUS_10480;gene=glmM;EC_number=5.4.2.10;note=WP_005902604.1 phosphoglucosamine mutase (Fusobacterium nucleatum) [pid:66.9%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:1.7e-170],MGA_1052
sequence04	MetaGeneAnnotator	CDS	113657	114004	.	-	0	ID=MGA_1053;product=zinc ribbon domain-containing protein YjdM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435770.1;translation=MENNLPNCPKCNSEYTYEDGMMLVCPMCSYEWIPEEEKVEEENTIKDSNGNILKDGDTVAVIKDLKVNGSSSVIKIGTKAKNIRLIVDAADGHDISCKIDGMGAMKLKSSVVKKI;locus_tag=LOCUS_10490;note=WP_003435770.1 zinc ribbon domain-containing protein YjdM (Clostridioides difficile) [pid:73.0%25%2C q_cov:96.5%25%2C s_cov:97.4%25%2C Eval:5.1e-42],MGA_1053
sequence04	MetaGeneAnnotator	CDS	114241	116193	.	-	0	ID=MGA_1054;product=TetM/TetW/TetO/TetS family tetracycline resistance ribosomal protection protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986616.1;translation=MNKVIGIFAHVDAGKTTLAETILYHTNIIKSRGRIESKNTYLDTHKIEKERGITIFSEQAYFEYNNNKYFLIDTPGHIDFSQEMERNIEILDYAIIVISALEGIQGHTETVWKLLYEHNIPIFFFINKIDRNGINISNILNEIKENLTKDIVLIKKSINKELDLETAENIADIDYELLDYYLENGYNKNLWIKHIQILMKDMLLFPVFMGSALLNKGIKEFLESIDILTTTKYIENEDLKARVFKIRYDKNGNRVSFIKIYSGKIKLKQEIEIFDKNNFNKKIIEKIDEIRIYNGKNYTNAKEAKAGEIVGIVGIANSFIGMGIGIEHKKEYNIKPTLKSKVIFNNNDSYEIIKIFKILAEEDTTLEINWNENLKELNLSVMGIIQLEVLKDIIKDRFNIDISFEKPGILYKETINNTVVGKGHFEPLRHYAEVHLRLEPLPRGSGIQFKNLCISDNFPIGYQNLVKQHIFEREHRGILTASPITDIKITLIKGRSHEKHTEGGDFREATYRALRQGLEKADNILLEPFYEFKIKTDIDFIGKIITDIQKLNGSFEVPEISNKKVIINGKAPVSSFMGYSKELINITGGKASIDLRFYGYDKCINQKEIIKKISYNKDSDLEYTSSSVFCSKGKGYIVPWYEADEKMHCK;locus_tag=LOCUS_10500;note=WP_011986616.1 TetM/TetW/TetO/TetS family tetracycline resistance ribosomal protection protein (Clostridium botulinum) [pid:55.7%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:1.3e-212],MGA_1054
sequence04	MetaGeneAnnotator	CDS	116402	117136	.	+	0	ID=MGA_1055;product=YaaA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015818.1;translation=MFIIFSPSKGMNFNNKTIYDEKNKYIFQKKYEEIYNKLKEYKKVDIANIMKIKNQILENVYNSLHKNTTNNYFPAILAYNGIAYKNLDIKSYDDTMIYYLNQHLLILSALYGINKPYDLISYYRLDMTMKIFENMSLYKFWKDDINKYIEINSTDDIIINLASKEFSKLINRKKYKVIDIEFKELSNGKLKSIATNSKKMRGTMLDFMIKNKIKNHVLLKEFNINGYSFSYENSKENVYIFIKN;locus_tag=LOCUS_10510;note=WP_011015818.1 YaaA family protein (Fusobacterium nucleatum) [pid:41.1%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:1.1e-46],MGA_1055
sequence04	Aragorn:1.2.38	tmRNA	117221	117572	.	-	.	ID=Aragorn_23;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_23
sequence04	MetaGeneAnnotator	CDS	117615	118064	.	-	0	ID=MGA_1056;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016522.1;translation=MVVAKNKKAYYDYFIEEKYEAGIELKGSEVKSIKLGKASIKEAFIRIIKDEVFIMGMNVTPYEQSSIYTPDQLRVRKLLLHRKEIRKLYEKVSQKGYTIVPLTVYIKKGLVKIEIALARGKKNYDKRETEAKRTQKREMDKAMKSINRY;locus_tag=LOCUS_10520;gene=smpB;note=WP_011016522.1 SsrA-binding protein (Fusobacterium nucleatum) [pid:67.6%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.5e-54],MGA_1056
sequence04	MetaGeneAnnotator	CDS	118274	118873	.	+	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKQYEEKIILEYFNNDDNHQYIHAIEVMNMALDINKLINLGLNKSNIIIASITHDAFKYKGNKEHPNYAYKFILDNAALIKKEYKIKDTDINMIAMACLQHHSYYIQNFNSPLAELINLANRIVNKHFDSVLMKLYNIASKEKCLIFYEAIFDVYREADFLFFQSQDLYPEIFKAYNSTPKKFIIEFLINYFKTNLL;locus_tag=LOCUS_10530;note=MGA_1057
sequence04	MetaGeneAnnotator	CDS	118981	119976	.	+	0	ID=MGA_1058;product=MnmA/TRMU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016484.1;translation=MKALALFSGGLDSSLAIKLISEQGIEVIALNFVSHFFGGKNERAERMAKQLGVKLEYIDFKALHTDIVREAPHGRGKNMNPCIDCHSLMFKYAAEVLLEKFDASFIISGEVLGQRPMSQNKSALNQVKKLSGYKDLIVRPLCAKLLEPSLPEREGWIDREKLLDINGRSRQIQMELAEKFGITEYPSPGGGCMLTEPNYSKRLKILENDGCLYEEYSYLFYLLRYGRFFRLDEKKYLFVGRENDDNLKISEYKDKGSLHIVSAGIPGPAILGIGNFTIEEIEFAKQIFSRYSKNKGKEKINVLVNDNVETVSALNLKEIENKIKKYIILGN;locus_tag=LOCUS_10540;note=WP_011016484.1 MnmA/TRMU family protein (Fusobacterium nucleatum) [pid:63.1%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:1.5e-114],MGA_1058
sequence04	MetaGeneAnnotator	CDS	120007	120297	.	-	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYTLLKLILSQEVFTMDGLMAELKISEDRLEYLLDELEKEGFLELNNHYFDTTCDNCQKNGNCNTETYKPNEKVKKIRVVTPKALKFYENYIQSQ;locus_tag=LOCUS_10550;note=MGA_1059
sequence04	MetaGeneAnnotator	CDS	120553	121413	.	+	0	ID=MGA_1060;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903362.1;translation=MKNNFSSLKKTCSIVDFTDNKEIKSLEEIEQSIKTTYRKKIWSKFIKAVKEFNLVEDGDKIAIGISGGKDSLLLAKLFQELKKDKSKNFEVKFITMNPGFEAMDLEQLRKNLNYLNIPCEIFEANVWEAAFNKDPDNPCFLCAKMRRGVLYKKVEELGCNKMALGHHFDDVIETTLINMFYAGTVKTMLPKVKSTSDKLTLIRPLFYVKEQDIINYTKFNSINPMSCGCPIEAEKTPSKRKKIKLLLKDLAEKDPDIKQRIFNSTRNINLDYILGYEKKGKKYLNI;locus_tag=LOCUS_10560;note=WP_005903362.1 tRNA 2-thiocytidine(32) synthetase TtcA (Fusobacterium nucleatum) [pid:67.8%25%2C q_cov:89.2%25%2C s_cov:92.1%25%2C Eval:4.8e-103],MGA_1060
sequence04	MetaGeneAnnotator	CDS	121423	122373	.	+	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIYINDFYELNDKTVNEYNFKIDNNTLIIKNKNLFKLTFDLTKNSRIKILQNIRKTCNINIWFNKLTSREALEYIESNGFNKTLLNMSGKAMHKYNMIEDGDRIAIGVSGGKDSLTLINILYRVKQISNINFDIIPIHIHPNTDTSNTLHIKKYIESLRLKLKIIETDLEKFLFEEGNIKNPCFLCGRIRRGILYTYLKENNINKLALGHHKDDIIETYLMNIFYQGNTHSMRPSYFAKEYEIQVIRPLAFVEESTTIKYSKKINLPILKSSCPYETSDNSRRLKIKNLIKELSIDNPDIRSSILNALKSDKKI;locus_tag=LOCUS_10570;note=WP_003435803.1 tRNA 2-thiocytidine(32) synthetase TtcA (Clostridioides difficile) [pid:39.0%25%2C q_cov:73.1%25%2C s_cov:93.0%25%2C Eval:1.3e-43%2C partial hit],MGA_1061
sequence04	MetaGeneAnnotator	CDS	122424	122828	.	-	0	ID=MGA_1062;product=ATP synthase F1 subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016334.1;translation=MATFNFKIITPLKIVLEKEVERVILRTIEGDMGILPNHAPFVAELAIGEMKIKSTSEELKFFVAGGFLEIKDNNVVILADDAMDAKDIDIEQAKKEVEIAKAKLVKLKEDRDIAVTQRALEASLTKVKIAENLK;locus_tag=LOCUS_10580;gene=atpC;EC_number=7.1.2.2;note=WP_011016334.1 ATP synthase F1 subunit epsilon (Fusobacterium nucleatum) [pid:38.8%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:3.4e-22],MGA_1062
sequence04	MetaGeneAnnotator	CDS	122831	124231	.	-	0	ID=MGA_1063;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016335.1;translation=MNKGLVTQIIGPVVDAKFEDKLPEIYNALEIIKEDGTKLVMEVQQHLGNNTVRAVAMDSTDGLQRGIEIIDTGAPITVPVGKAVLGRILNVLGEPVDEAGEVNAEEKASIHRDAPSFEEQGTEIEVFETGIKVIDLLAPYVKGGKIGLFGGAGVGKTVLIMELINNIAKGHGGLSVFSGVGERTREGRDLFDEMTESGVINKTALVYGQMNEPPGARLRVALTGLTVAEHFRDKEGQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPNLATEMGNLQERITSTKSGSITSVQAVYVPADDLTDPAPATTFSHLDATTVLSRKIASLGIYPAVDPLDSSSRALDADIVGHEHYNVAREVQRVLQRYKELQDIIAILGMDELSDEDKITVNRARKIERFFSQPFSVAEQFTGMQGKYVSIKETIRGFKEILEGKYDDLPEQAFLYVGTIDEAVAKARELMEGAE;locus_tag=LOCUS_10590;gene=atpD;EC_number=7.1.2.2;note=WP_011016335.1 F0F1 ATP synthase subunit beta (Fusobacterium nucleatum) [pid:83.3%25%2C q_cov:98.9%25%2C s_cov:99.6%25%2C Eval:1.4e-218],MGA_1063
sequence04	MetaGeneAnnotator	CDS	124266	125114	.	-	0	ID=MGA_1064;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016336.1;translation=MAKTKEIKTRIKSVQSTHQITNAMNIVSSTKFRRFSIMVENSRPYSEGVTRILSNVVSSTKHLKHPLFDGKENIKKIAVIVMTSDRGLCGSFNSTAIKALEKIRQDNPDKSISVIAVGKKIRDYARKRELDLKAEYIQLIPELMFDKAKEIAENIIEFYNEDIFDEVYMVYSKFYSAVRWEVTTKKMLPIERKESESKVPYIFEPSEEGILDTLIPKTLNIEIYQAILENTASEHAARRQAMQNATDNAEEMIADLTLQYNRERQAAITQEISEIVSGASAI;locus_tag=LOCUS_10600;gene=atpG;EC_number=7.1.2.2;note=WP_011016336.1 ATP synthase F1 subunit gamma (Fusobacterium nucleatum) [pid:54.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-85],MGA_1064
sequence04	MetaGeneAnnotator	CDS	125128	126630	.	-	0	ID=MGA_1065;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016337.1;translation=MKIRPEEISSIIKTEIQNYKKSLDVKTSGSVLEVGDNIARIYGLSKAKAGELLEFASGVKGMVLNLEENNVGAVILGETRLVKEGDEVKTTGEIASVPVGEELLGRVVNSLGEPIDGKGTIEASSTFPIERKASGIISRKPVHEPLQTGIKSIDGMVPIGRGQRELIIGDRQTGKTAVAIDTIINQKNTGVKCIYVAIGQKRSTVAQVVNRLEAAGAMDYTIVVAATASEPAALQYIAPYSGVAMGEYFMEKGEHVLIIYDDLTKHAVAYREMSLLLKRPPGREAYPGDVFYLHSRLLERAAKLSDKLGAGSITALPIIETQAGDVSAYIPTNVISITDGQIFLESELFNSGFRPAINAGISVSRVGGSAQIKAMKQVAAKVKLELAQYTELLAFAQFGSDLDKATKAQLERGHRIMEILKQPQYSPYPVEEQVVSFYMVTNGLLDDIAIEDVRRFEKEVLDHLRKNTEILAEILEKKKLDDELEEKITGAVKEFKVNFS;locus_tag=LOCUS_10610;gene=atpA;EC_number=7.1.2.2;note=WP_011016337.1 F0F1 ATP synthase subunit alpha (Fusobacterium nucleatum) [pid:79.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-224],MGA_1065
sequence04	MetaGeneAnnotator	CDS	126663	127190	.	-	0	ID=MGA_1066;product=ATP synthase F1 subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016338.1;translation=MVDAVVGRRYATAIYELAQENNRVEDTHKELSLVMELFEKDTEFKTFITHPLVNREDKKNFMGKILKDFNENTLIILNYLIDKDRIADIRAIVSEYLKIYYEKNSILEAEAIFAVKPLENQLEDLRKKLEAKTNKTVRLTSKIDPTILGGMIVKLGDDIIDASIKSQLEAFRNGI;locus_tag=LOCUS_10620;gene=atpH;EC_number=7.1.2.2;note=WP_011016338.1 ATP synthase F1 subunit delta (Fusobacterium nucleatum) [pid:44.2%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:3.2e-34],MGA_1066
sequence04	MetaGeneAnnotator	CDS	127190	127678	.	-	0	ID=MGA_1067;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902611.1;translation=MVENMPVVSIDSTLFWQMINFLIIIYIFKRYFFKPMGKFLDKRQELIKKELEEAKNNLAKSEKAKKDAEETLKSARKEANDLLLSVERKAEDRKDSILKETYAQRDKMIKSGEAEVIKMREQARKEIEKYVRDIATDLAEKLIADKTQADLIDEAINKVGEE;locus_tag=LOCUS_10630;gene=atpF;EC_number=7.1.2.2;note=WP_005902611.1 F0F1 ATP synthase subunit B (Fusobacterium nucleatum) [pid:37.7%25%2C q_cov:97.5%25%2C s_cov:99.4%25%2C Eval:8.3e-31],MGA_1067
sequence04	MetaGeneAnnotator	CDS	127721	127990	.	-	0	ID=MGA_1068;product=ATP synthase F0 subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902609.1;translation=MDMLTAKTIILAASALGAGLAMIAGLGPGIGEGYAAGKAVESVARQPEARGDIISTMVMGQAISESTGIYSLVIALILLYANPFLSKLG;locus_tag=LOCUS_10640;gene=atpE;EC_number=7.1.2.2;note=WP_005902609.1 ATP synthase F0 subunit C (Fusobacterium) [pid:80.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-34],MGA_1068
sequence04	MetaGeneAnnotator	CDS	128026	128817	.	-	0	ID=MGA_1069;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796847.1;translation=MKLFGLVKPPLVEGPGIVFGIPVPHNFPLAYKLADGSAILPVTTTVITTWIIMAFLVLLFRWGTKDLSLENPSKKQAFFETLYHFYDSVVGQILGKWKDKYLVYISSLLTFLFISNTITFFPVPWLSRTDVGWSLHYLFRAPTADLNTTVGLALITTMAFLSAAFATSGPVGYFKGLLEPFPLMLPLNIVGEGAKPVNISMRLFGNMFAGSVILGLLYKAAPAVVPAPLHLYFDLFSGAIQSYVFTMLTMVYIQGALGDAQPE;locus_tag=LOCUS_10650;gene=atpB;EC_number=7.1.2.2;note=WP_124796847.1 F0F1 ATP synthase subunit A (Fusobacterium canifelinum) [pid:51.8%25%2C q_cov:95.8%25%2C s_cov:94.4%25%2C Eval:1.8e-69],MGA_1069
sequence04	MetaGeneAnnotator	CDS	128814	129215	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKDIKIIIKNSFITALIILIYGIIIQSKIVYIGFFLGSVFSIFTFYLIYRDVKYIMITKNGSYKNAILGYFKRYVLYLIFLILMLKIDFSYFIAASLGLLNVKFNILLKNLLIDFLKKFKSKFDDGKEGEKY;locus_tag=LOCUS_10660;note=MGA_1070
sequence04	MetaGeneAnnotator	CDS	129380	129592	.	-	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKNWQNIAYYFSLLTQLGLTIAITIIGFFFLYKLLTKFIGENIFLMFFLIILGVIAAFYNAYKMILKK;locus_tag=LOCUS_10670;note=MGA_1071
sequence04	MetaGeneAnnotator	CDS	129648	130349	.	-	0	ID=MGA_1072;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000084830.1;translation=MYENFSKIYDEMMEYLEYDEWLLLILNNFSDNVKKILDIGCGTGELSIRLKRLGFSVVGIDLSKGMLDKAKEKDDNIKFIQEDMKNFKLEEEFDAAIMIFDTINHLLNEEELRGTIKNVYNHLSKDGIFIFDTATRKLMNEMFPEDYFVDDREEMTIIWQHEYNNEEDLDYIFTSFFVHKKDNIYERIDEEYAKKIFSEKVIDNICKNEGFEIIKKINNNNTAGDRIFYFLKK;locus_tag=LOCUS_10680;note=WP_000084830.1 class I SAM-dependent methyltransferase (Staphylococcus) [pid:32.5%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:7.5e-34],MGA_1072
sequence04	MetaGeneAnnotator	CDS	130603	131163	.	+	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRTRIFKEICQNVDLEEKKANLKEKLKNDPNNLELLEKLAAVYYYQQEDFKAVEIYKKLVTLDPENAEYLAFLGYLCYELNELDLAIDYLNESLDIDSSAPFVFFILGNTYSRAGMIKQAVDAYDFAIFLDLDIYTAHMDFAKKYEDMGRKHNALKEYLAAYDIDSRDVKLKNKIKNLKEELNIV;locus_tag=LOCUS_10690;note=MGA_1073
sequence04	MetaGeneAnnotator	CDS	131196	131675	.	+	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLGLLIFIGLILLFGMQKTFYITFSLIFVYLFFMLFGALFSFFLPVIVIIFLWKLFIPKSKSNTYYYKFSDEDFNRYYNYKSHNNNYNGFYQNNYNKDKFYDILGIDKTASQDEIKKAYRNLARQYHPDKYANASEEEKKVAETKFKEINEAYENLTK;locus_tag=LOCUS_10700;note=WP_011016154.1 molecular chaperone DnaJ (Fusobacterium nucleatum) [pid:65.6%25%2C q_cov:38.4%25%2C s_cov:15.6%25%2C Eval:2.2e-17%2C partial hit],MGA_1074
sequence04	MetaGeneAnnotator	CDS	131712	132776	.	-	0	ID=MGA_1075;product=Xaa-Pro dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000411039.1;translation=MLNKILNEKNIDAILISDKYSLRYFTGFTGTTGIALAVKEKKFFFTDFRYVEQAKIEVEKNGYEIVVIERKASDKVVEYIKNAKVKKLGIEDNSMSLAIFNEYKNKLEEVDFEMLGNSLQLARMIKRDDEIETIKKAVEIADKAFAKVLPLIKEGVTEKYLATELEYEMKKLGAESISFETIVASNYRSAMPHGVASDKKIKKEGFIKFDFGAYYNGYVSDMTRTIYFGENISDKHKEIYNIVLEAQLKAIKAVKAGIKVSELDKIARDYITEKGYGNKFGHGLGHGIGVEIHEYPYVNSKSDIILKEGMVITIEPGIYIEGFGGVRIEDDVVVKKDHGEVLNKTSKELLIIKK;locus_tag=LOCUS_10710;gene=pepQ;EC_number=3.4.13.9;note=WP_000411039.1 Xaa-Pro dipeptidase (Bacillus cereus) [pid:49.3%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:2.2e-90],MGA_1075
sequence04	MetaGeneAnnotator	CDS	132851	133897	.	-	0	ID=MGA_1076;product=M42 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942836.1;translation=MNKEFLLEILKTESPSGYEVELQKKWLNYVKKFVKVRYDNIGNAYGIVNEKAKFKILLAGHADEIAFMVRKIDENGYIYFTKLGGINVKAAIGMRIIINGYMGEKIVGVVGVNAEHHGGVKEKLEIEDIYLDCGFEDKQEANKYVQIGDLAVYDTQPLLLRNNRITSKALDNKTGSFIVAEVLKRLSKEKINVAVYGVSTVNEETNMGGAYFAASQINPDMAIACDVTFATDYPDSDPNKYGDIKIDKGPVLAKGAPINFKINNFLEETANKFNINLQYELTPRATGTDADRIRLTGKGVPIALVSLPIRYMHSPVELASLKDIQEEINLLVEMIKSLPETPNINPLD;locus_tag=LOCUS_10720;note=WP_010942836.1 M42 family metallopeptidase (Geobacter sulfurreducens) [pid:37.4%25%2C q_cov:96.3%25%2C s_cov:96.3%25%2C Eval:5.8e-64],MGA_1076
sequence04	MetaGeneAnnotator	CDS	133909	134961	.	-	0	ID=MGA_1077;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627079.1;translation=MKKVVVGMSGGIDSSVAALLLKQQGYEVIGVTLKHLDSNEEGTCCSLDDIYDAKTVCYNLGIPHFVYDVKDEFKKEVIEYFIDGYNRGITPSPCVICDEKIKIQKLYEIAKKLGAEHIATGHYSNVEYVKEYNRYLLKKSKNDKKDQTYMLYRINEDILKIMLFPLSDYTKDRVREIAKKNQIKIYQKPDSQGICFAKDGYIKFLKENLTDVNEGNFVDKEGNVLGKHKGYQFYTIGQRRGLNLKLPHAYFIIDIISEKNEILLGEFKDLLLKEIEIINYKFCVNIDELLGKKLVFKPRFSSDGVKGELYKKGSRVFIKYDEKNAQNSKGQHIVIYDNNYVIGGGEIKFI;locus_tag=LOCUS_10730;gene=mnmA;EC_number=2.8.1.13;note=WP_201627079.1 tRNA 2-thiouridine(34) synthase MnmA (Fusobacterium canifelinum) [pid:53.1%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:1.8e-105],MGA_1077
sequence04	MetaGeneAnnotator	CDS	135316	136413	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKEDIELNEFWKVIKEWQKKNLKNIEELKKEKVKLDKLISLIDIGVIMFDEEKNILAYNREFKYSFFNNLNTLKYYEKIENLDIIEVLNQLYKNKKRLSKEIFLTDYKKYYFIKGRYLKNEKLYILSARDITQSKEIKEIEKRFISNISHELKTPLTNIKGYLIALRDENDEIIKNNFLNIAENNIEKLENIIQDFLNIQKIEASNVLNKYPTNIDNLFKDILEILGNIIEKKNVDFKYELKLRGKEPILNIDREKIKVLLKNLIENAIIYNDKENPIIRARVEEEQNYINIYVSDNGIGIPKGEIKNIFDRFYRIDKARTTNKAGTGLGLSIVKEITELYSGIIDIRSQEGEGTTFKIKLLK;locus_tag=LOCUS_10740;note=WP_001032106.1 sensory box histidine kinase PhoR (Bacillus cereus) [pid:34.0%25%2C q_cov:91.5%25%2C s_cov:58.8%25%2C Eval:1.0e-45%2C partial hit],MGA_1078
sequence04	MetaGeneAnnotator	CDS	136974	137651	.	-	0	ID=MGA_1079;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272621.1;translation=MKILVIEDDGEIRTLITYFLRKENYEIEEADNGLDGLKLVKTFNPDLIVLDLMLPNLDGINLTEMIRKMPEKYGNPYIIMLTAKTEIEDVLKGLDIGADDYMKKPFDPRELLLRIKKLLNRGKKISDSIIKYGDIVIDKNKYQVTEHGKEIILSKKEYDLLLFLIKNKGIVLTREKILNKVWSSNYYSGDRSVDVYVGKIRDKLKSISHNIKTIKGVGYRLDEEN;locus_tag=LOCUS_10750;note=WP_041272621.1 response regulator transcription factor (Desulfitobacterium) [pid:43.8%25%2C q_cov:98.2%25%2C s_cov:95.3%25%2C Eval:2.0e-44],MGA_1079
sequence04	MetaGeneAnnotator	CDS	137655	138329	.	-	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLEQTLNIINEKTVEMIKKSIRGLEIIDIILKKGEFDKSLYGESKLLEEDCDDLELVLDELIVETIARFQPAAGNLRYLVGVLQIVTDLERISDLNTGILKLIKRSVRDENMLNKTVLEILENMSAKVLKIFKTFELAFIEKKIENTYFVFGLDDEIDDLRDDCIKTVEELVKKDINFVSKASKVIVVAQKFERIADIIQNLSENYVYIRKGDVLKHQTMGE;locus_tag=LOCUS_10760;note=WP_011262448.1 phosphate signaling complex protein PhoU (Aliivibrio) [pid:26.8%25%2C q_cov:72.3%25%2C s_cov:68.5%25%2C Eval:9.9e-12%2C partial hit],MGA_1080
sequence04	MetaGeneAnnotator	CDS	138472	139233	.	-	0	ID=MGA_1081;product=phosphate ABC transporter ATP-binding protein PstB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870525.1;translation=MKNNLRLEVKNFSFYYGSFQALKNINMNIEKNKVTALIGPSGCGKSTFLRSINRMNDLIEGVKYEGEILLDGENIFNKDYDIVDLRKKVGMVFQRPNPFPKSIYENIVYGPRLHGEKNKNKLMEIVESSLKAVALWDEVKDKLHKSALGLSGGQQQRLCIARAIAVKPEILLMDEPTSALDPISTSKIEELVRELEKDYTIIIVTHNMQQAARISEYTGFFYQGEVEEFDKTEIIFTNPKNKKTEDYITGKFG;locus_tag=LOCUS_10770;gene=pstB;EC_number=7.3.2.1;note=WP_010870525.1 phosphate ABC transporter ATP-binding protein PstB (Methanocaldococcus jannaschii) [pid:67.9%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:1.7e-98],MGA_1081
sequence04	MetaGeneAnnotator	CDS	139280	140137	.	-	0	ID=MGA_1082;product=phosphate ABC transporter permease PstA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011405019.1;translation=MLNRVKRRKLIDNIFKNIVFLCTMFGVVILVVLMFDILRKGLGWINLNFLTHFPSRFPKKAGLASAIVGTSWIITLTALIAFPLGVGTALYLEEYANKTTKFFKILELNIANLAGVPSIVYGMLGLSVFVQMLGFGRSILSGAFTLALLILPVVIVSAQEAIKAVPNSAKEGAYALGMTKWQMIKCVVLPYAMPGMLTGSILALSRAAGEAAPLIVVGAAAYVPFFPKNIFDIFTVMPIQIYNWTSRPQEDFQYIAAAGIIVLMILLLSANGLAIYLRNKYQQDI;locus_tag=LOCUS_10780;gene=pstA;note=WP_011405019.1 phosphate ABC transporter permease PstA (Salinibacter ruber) [pid:54.5%25%2C q_cov:97.2%25%2C s_cov:87.9%25%2C Eval:1.7e-84],MGA_1082
sequence04	MetaGeneAnnotator	CDS	140140	141039	.	-	0	ID=MGA_1083;product=phosphate ABC transporter permease subunit PstC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256174.1;translation=MSKDTVKKRAYFMDKLIRYMLVIFSLISIITTILIVFTLFGESFVFFKEVSIKEFLTGTLWSPVIKPQKFGVLPLLVGSLLIAIISGIISIPIGLGSAIYLSEYSSDKLRKILKPILEILAGIPSIVYGFFALTFITPLFRRIIPNLEIFNALSAGIAVGIMTIPMVASLSEDAMRAVPNAMREGAYGLGSTTFEVSTKVVIPAALSGIVSSFILAISRAIGETMIVAIAAGANPSLNFNPLKTIQTMTGFMVNVSLGDIPHGSIEYRTLFAVGALLFIMTFIMNIIAKVVINRYREEY;locus_tag=LOCUS_10790;gene=pstC;note=WP_012256174.1 phosphate ABC transporter permease subunit PstC (Chloroflexus aurantiacus) [pid:52.4%25%2C q_cov:95.7%25%2C s_cov:94.1%25%2C Eval:2.8e-85],MGA_1083
sequence04	MetaGeneAnnotator	CDS	141156	142091	.	-	0	ID=MGA_1084;product=PstS family phosphate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140012.1;translation=MKKILALVMAVVVLSTSAYAGLFFSKKQDKNRLSGEIVIDGSSTVYPITEAMAEEFRAENRDVRISVGVSGSGGGFKKFTVGTTDISDASRPIKNKEVKIAKENGIEYEEIAVAYDGLSVLVNKDNNFVDYLTVEELKKIWKSGSNVKYWSDVREGWPKEEIKLYGPGPDSGTFDYFTEEINGESGNIRSDYTPSEDDNVLVQGIVGEKNSLGFFGFAYYYENKDKMKVVPIDSGKGAVEPNHETIMSKEYSPLSRPLFIYINKKALSEKPQVKAFVKFYLENAMDIVPETGYVTLPQEKYDEQLSKLGLK;locus_tag=LOCUS_10800;note=WP_011140012.1 PstS family phosphate ABC transporter substrate-binding protein (Gloeobacter violaceus) [pid:49.7%25%2C q_cov:95.5%25%2C s_cov:88.5%25%2C Eval:1.0e-77],MGA_1084
sequence04	MetaGeneAnnotator	CDS	142355	143170	.	-	0	ID=MGA_1085;product=glucosamine-6-phosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761009.1;translation=MRLIISDRMSEWAALYVAKKIKKATKKEQKFVLGLPTGGTPLKMYENLIKLYKEGLISFKNVYTFNMDEYVGIPEEHPESYHTFMYKNFFNHIDIPKENIHILNGNAPDLIKECEEYEEKMKKLGGIDLFIGGVGSDGHIAFNEPGSSLSSRTRIKTLNKDTQIANSRFFDNDIDKVPKTALTVGVGTILDSKEVLILVSGYNKALALQQGVEGSVNHMWTITALQTHKTAIIVCDEDATAELKVKTVKYFKELEEENLDIEKFKSVVQNI;locus_tag=LOCUS_10810;gene=nagB;EC_number=3.5.99.6;note=WP_008761009.1 glucosamine-6-phosphate deaminase (Bacteroides) [pid:65.8%25%2C q_cov:96.7%25%2C s_cov:98.5%25%2C Eval:6.8e-96],MGA_1085
sequence04	MetaGeneAnnotator	CDS	143258	144412	.	-	0	ID=MGA_1086;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987105.1;translation=MKALINGNIILKDKILEQHVIIFNKKILDILTFNDYKQKYKNIEEIDVHGKYISAGFIDIHIHGANNSDVMDGTRESLENIAKTIAKNGVTGFLATTMTMSREDILKALKNIKNNIDIDSGAKILGTHLEGPFINEKYKGAQSSDYILNPEYKLIENYTDIIKIITYAPEKDKNFEFTHKMCNCHKDITLSIGHSNATYNIAMEAIQKGARHITHLFNAMTGLHHRNPGIVGAAFNSDVSCEIIADNIHINPANYHIVFKQKSKDKIVLITDSMRAACLKSGKYDLGGQDVYVDEKAARLEDGTLAGSILRLNNAVKNIHDEIDISLVDLINLVTLNPAKIIGVDNIKGSIKKDKYSDFAIFDKEFNVDMTIVEGKIVYNKGKK;locus_tag=LOCUS_10820;gene=nagA;EC_number=3.5.1.25;note=WP_011987105.1 N-acetylglucosamine-6-phosphate deacetylase (Clostridium botulinum) [pid:56.4%25%2C q_cov:98.4%25%2C s_cov:99.7%25%2C Eval:8.3e-115],MGA_1086
sequence04	MetaGeneAnnotator	CDS	144416	145225	.	-	0	ID=MGA_1087;product=N-acetylmuramic acid 6-phosphate etherase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948949.1;translation=MSIDRNKKTINIDKASSLEIVEMMNEEDKKIAFEVEKSKNIIAKAINEVTDIIKNGGRMVYIGSGTSGKLAVIDASECPPTFGINDNTIIALISGGREAISYWKEETEDNRELAINDLREIGFSNRDVLIAVSASGNTPYAIEGIKFANQIGAKTLSIFCNKNGKMKEISNIPILIDVGPEVIAGSTRLKAGTAQKMVLNMLSTGVMIKLGYVYSNLMINVKPINKKLKERVVDMVNIVTNEDKNKIKKILERNGYNAKDVIKALKKGE;locus_tag=LOCUS_10830;gene=murQ;EC_number=4.2.1.126;note=WP_011948949.1 N-acetylmuramic acid 6-phosphate etherase (Clostridium botulinum) [pid:49.0%25%2C q_cov:94.8%25%2C s_cov:84.4%25%2C Eval:1.8e-69],MGA_1087
sequence04	MetaGeneAnnotator	CDS	145234	145971	.	-	0	ID=MGA_1088;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987106.1;translation=MGILTKNSVIPLYYQIIENIKNVIRDEELKPGDTIPSERDLSKKYGVSRMTVNKAISTLVDEGILYREKGKGTFVAEPKKQQELFYLKSFTEEMKEKGFSTSTEILEFKIENVTFELREKLKIDSKIERIIKIKRIRNVENEPFAIETAWIPLKYCPDLTKEKLEGESLYSILEREYKLKPLYARQSINPIKVKKKEANLLKIRSGELALLFNRKTYIENNEIIEYTETINRTDKYSYEVILKHK;locus_tag=LOCUS_10840;note=WP_011987106.1 GntR family transcriptional regulator (Clostridium botulinum) [pid:47.7%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:1.6e-58],MGA_1088
sequence04	MetaGeneAnnotator	CDS	146181	147554	.	-	0	ID=MGA_1089;product=N-acetylglucosamine-specific PTS transporter subunit IIBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004195339.1;translation=MKVFSKFQALGKALMMPIAVMPIAAILLRLGVLWNMPFVTSAGGAIFENLPILFAIGVAIGLAKDNAGAAGLAGVVGNFVILNGAQAINKNINMGVFSGIIAGLVAAYMYNKYHKIELPEFLGFFGGRRFVPIITSLACIVLAAVFGYVWPSIQNGLDTVARWMMGTGSIGLFSFGVLNRLLIPTGLHHIINSMAWFTFGSFDYLKDGVQVVANGDLHRFFAGDPNAGIFMTGFFPIMMFGLPAAALAMYTTAKKENKKRVAGVLFSVAFTAFLTGVTEPIEFMFMFLAPGLYLIHAILTGISMALTAAMGIRHGFGFSAGAIDYFLNMNLATKGWLLIPVGLVFGLVYYFIFVFTIKAFDLATPGREDDMEDIEEERGTSSNLSRKVLEALGGKENLTSVDSCITRLRLEVKNQDIINENELKRLGAKGVLKPSATSVQVIFGAKAEIIAQEIRKM;locus_tag=LOCUS_10850;gene=nagE;EC_number=2.7.1.193;note=WP_004195339.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (pseudomallei group) [pid:55.1%25%2C q_cov:98.9%25%2C s_cov:78.6%25%2C Eval:5.3e-143],MGA_1089
sequence04	MetaGeneAnnotator	CDS	147587	148078	.	-	0	ID=MGA_1090;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016748.1;translation=MFKKFFKKKENVVEVYSPLDGEVIQLEKVPDDAFSSKIIGDGIAIIPNGDTIYAPFDSEDISIFDTKHAVSFQKGDIELIVHFGIDTVKLNGEGFSKLVLKDEGSVKKGEKLIAYDLNFIKNKAKSIISPIVVSSMDEIDEIFDIKYGKVNALEPIFKIRLKK;locus_tag=LOCUS_10860;note=WP_011016748.1 PTS glucose transporter subunit IIA (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:96.3%25%2C s_cov:96.3%25%2C Eval:9.6e-35],MGA_1090
sequence04	MetaGeneAnnotator	CDS	148374	149639	.	-	0	ID=MGA_1091;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000738818.1;translation=MAKLTKEEKSWVIYDVANSAFTLILITTIMPIFFKDFVSKGIDSAISTANWGYANSFASLILALIAPILGTFADYKGYKKRFFSIFLLLGLLATLLLISINQGEWIKCIIFFVIARVGWAGANIFYDAFLTDVSREENMAKVSAYGFSWGYIGSVVPFIITIILVIILKKDGEIISPIASKLSFFIVFLWWGLFSIPMLKNTKQNYYVKINKNENIFTQSFKRFFKTFKEIKHYKNIMLFLFAYFFYIDGVNTIISMASAYGRDVGLSVISLILAILMIQIVAFPATLLFGKLSDKISQKTLIFIAILIYIIITFLAFKLPNFESINIKIKLFWILALLVALSQGGVQSISRSIYASLIPKEKSTEFFGFYNIFGKFATILGPFLMGIVSTYTGSSRYGVLSIMFLFLIGIGFLSFVKINK;locus_tag=LOCUS_10870;note=WP_000738818.1 MFS transporter (Bacillus) [pid:48.7%25%2C q_cov:98.3%25%2C s_cov:95.1%25%2C Eval:4.5e-109],MGA_1091
sequence04	MetaGeneAnnotator	CDS	149767	150741	.	-	0	ID=MGA_1092;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016366.1;translation=MKRSLSGIQPSGILHIGNYFGAIKQFVDNQHDNEGFYFIVDYHALTSLQNAEQLRKNAYDAVLDFLALGLDPEKSTIYLQSDVPECTELAWILSNVSPMGLLERAHSYKDKIAKGISPNVGLFTYPILMAADILLYDADIVPVGKDQKQHLEMTRNIAIKFNQTFGEVFKLPEPQIIESLAVVPGTDGQKMSKSYGNTIQMFASKKELKKQVMGIVTDSTPLEEPKNPDNNITKLYELFATKEEVEEMKNKFLTGGYGYGHAKNELLAKILEYFGEARAKREELIKNPEYVQKVLKQGAEKARDIASKKMIEIKKSVGLSGNIY;locus_tag=LOCUS_10880;gene=trpS;EC_number=6.1.1.2;note=WP_011016366.1 tryptophan--tRNA ligase (Fusobacterium nucleatum) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-132],MGA_1092
sequence04	MetaGeneAnnotator	CDS	151087	152265	.	+	0	ID=MGA_1093;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002671534.1;translation=MLNKGFLLKLFEGFSLNRWNDFIRPIEFTEMDRHALKMMIAYFLGKYEEEQGNIIDWNQLIESGFFDLLKKISLSDIKSPVAKRIKLKNPTAYKELNKWATAQYEVYLDKNLFEKFQNYILDEPINNLTLKILKLAHKYSTKIELEILKKQNLDDRVDPILNKIFNDLTRFKNLASYKFLTQNKNFEELIKIIQYLRYQERWNQSPRVPRTSVLGHSMYVASLTFIISTSLNASQSRIRNNFFTALFHDLMESVTRDIISPVKRATLELPDIIKNIENEIAEEELYPFIDYGLDEIKLFSENEFESRVFIDNKWQTVSTDEIQEKYNDDNYNAIDGEIVKICDELSAFIEAYQSIEYGISSKPLKSAITSISEKYKNKKIANINIGKLYLDF;locus_tag=LOCUS_10890;note=WP_002671534.1 HD domain-containing protein (Treponema) [pid:45.4%25%2C q_cov:93.1%25%2C s_cov:92.5%25%2C Eval:1.2e-89],MGA_1093
sequence04	MetaGeneAnnotator	CDS	152310	152897	.	-	0	ID=MGA_1094;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495251.1;translation=MILGLTGGIACGKSEVSKIFMELGLVVIDADKISRDVSKKKEVIKEIEKEFGSKVIKNDEVNREVLGKLIFDNKELREKLNGIMHPKIINEIKNQIKLNNDKKNLILDIPLLFEVKLEYLCDKTLLIISNKELQIDRLMKRDNISREYAIKKIESQMSLEEKKELADFIIDNSISREELKEKIILFYNKYLKKNP;locus_tag=LOCUS_10900;gene=coaE;EC_number=2.7.1.24;note=WP_029495251.1 dephospho-CoA kinase (Fusobacterium hwasookii) [pid:46.5%25%2C q_cov:95.4%25%2C s_cov:97.9%25%2C Eval:1.9e-39],MGA_1094
sequence04	MetaGeneAnnotator	CDS	152897	153685	.	-	0	ID=MGA_1095;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546198.1;translation=MKKYFEGNTYTTPVNKKRFLLDRLVFNTRVAFFWKYSKIVLNCRKLALKGIYNTENWAKTSYDIFQLIEGSGGRFEISGLENLAKLDKPVVFISNHMSTLETMVFPSIIAPYLECTFVVKDTLLTYPFFGPVMKARDPIAVSRENSREDLIKVINEGVKKLKNGISVIIFPQSTRTVEFDPKKFNSLGIKLGKKANVDVVPIAIKTDFWGNGKYIKDFGKIDRSKKIYIKFGKKISIEGNGKKEHNQIIEFIEKNLKIWSEE;locus_tag=LOCUS_10910;note=WP_012546198.1 lysophospholipid acyltransferase family protein (Thermodesulfovibrio) [pid:52.7%25%2C q_cov:84.0%25%2C s_cov:93.2%25%2C Eval:1.0e-56],MGA_1095
sequence04	MetaGeneAnnotator	CDS	153850	154809	.	+	0	ID=MGA_1096;product=KpsF/GutQ family sugar-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016738.1;translation=MDILKFAKEIFEIEINELNKVKNKLDNSFEKAINLILNSKGKVVVTGIGKSGIIGKKIAATFASTGTLAVFMNAAEGIHGDLGMISKDDIVLAISNSGNSDEVISIIPSIKKIGATLIALTGNKKSILAKEANCILNIGVETEACPINLAPTSSTTATLVMGDALAATLIKLRNFKPEHFAIYHPGGALGKRLLLKVNDVMHKSNNLAIVNSNAPIDKIIIEMTNKNLGAVCVVENDIMVGIITEGDIRRALKNKENFFNYIANDIMTKNFTYITENDMAIKALELMENRESQISVLPVLNNKKLVGLVRIHDLLKVSV;locus_tag=LOCUS_10920;note=WP_011016738.1 KpsF/GutQ family sugar-phosphate isomerase (Fusobacterium nucleatum) [pid:53.8%25%2C q_cov:99.1%25%2C s_cov:98.5%25%2C Eval:9.0e-93],MGA_1096
sequence04	MetaGeneAnnotator	CDS	154886	155095	.	+	0	ID=MGA_1097;product=DUF1858 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902519.1;translation=MVTKDSNILEAVQKYPVIAQVFQRYGLGCIGCMVASGESLGEGISSHGLNADAIIAEINDIISKQEANK;locus_tag=LOCUS_10930;note=WP_005902519.1 DUF1858 domain-containing protein (Fusobacterium) [pid:62.5%25%2C q_cov:92.8%25%2C s_cov:100.0%25%2C Eval:3.9e-18],MGA_1097
sequence04	MetaGeneAnnotator	CDS	155158	155733	.	-	0	ID=MGA_1098;product=pyridoxal 5'-phosphate synthase glutaminase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000689943.1;translation=MKIGVLALQGAFIEHINILRNLNVEAIEIRKKEKLNEIDGLIIPGGESTAIGKLLVDLNIKDSLIEKIKEGLPIFGTCAGLILLAKKIVNDDKIHLGVMDIVVRRNAYGRQLGSFYTEEYVKNIGEKIKMTFIRAPYIEAVENNVEVLSQVNGHIVAAKQNNILVTSFHPELTDDNRVHKYFIKIVKENKK;locus_tag=LOCUS_10940;gene=pdxT;EC_number=3.5.1.2%3B 4.3.3.6;note=WP_000689943.1 pyridoxal 5'-phosphate synthase glutaminase subunit PdxT (Streptococcus pneumoniae) [pid:58.9%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:7.4e-57],MGA_1098
sequence04	MetaGeneAnnotator	CDS	155735	156613	.	-	0	ID=MGA_1099;product=pyridoxal 5'-phosphate synthase lyase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000138517.1;translation=MNNRYELNKNLAQMLKGGVIMDVTNAEQAKIAEEAGACAVMALERVPADIRAAGGVARMSDPKMIKEIQEAVSIPVMAKVRIGHFVEAQILEALEIDYIDESEVLTPADDKYHIDKTKFSVPFVCGAKNLSEALRRIAEGASMIRTKGEPGTGDVVEAVKHMRAMNSEMSRIKSLNEDELYNAAKELQVPLELLKYVHKHGKLPVVNFAAGGVATPADAALMMQLGCDGVFVGSGIFKSGDPRKRAQAIVKAVTHYNDPKVLAEISEDLGEAMVGIGIHTLSEDEKMAKRGW;locus_tag=LOCUS_10950;gene=pdxS;note=WP_000138517.1 pyridoxal 5'-phosphate synthase lyase subunit PdxS (Streptococcus) [pid:80.3%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:1.5e-128],MGA_1099
sequence04	MetaGeneAnnotator	CDS	156766	158157	.	+	0	ID=MGA_1100;product=PLP-dependent aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965594.1;translation=MNIKINLKNNKKLYVQIFDEIKKRIENGELKSNSKLLSIRTLAKQLNVNPATVMKAYDLLEEKNYIYKITGSGCYVSNEFENIDKNVEIDIVNMNFNKNIKRYYDLANSYPDRSFFKLHILKNSINDSFNKYGIDMFFYSEIDGDKTLKKLIVEKFYSKHRINNIDKIKILSSSTHALDIICKKLLKPGDKIVVEGYTNPNALSIFKKYNIQIISISLEKNGINIEKFKSLLKQEKIKFLYTIPNFNNPTNIITTDTKKKELINLAKKYKFYIIEDDVLSDISFNKKLNTLKSFDFNNTNVFYLFSFSKIFLPGIRLSYVTIPNNINTLNIETSPSIFIQKFFYKFLKKIDFERYKNSLKIFYEKKYKFFKENLEQIEQIEILNNSEGGFYFWIKLPNWMDSKKLYEICLKHNLAIIPGNIFHHKYIFSNYIRVSYSSIEKEKILDAINILKKCIYNYSVLKK;locus_tag=LOCUS_10960;note=WP_010965594.1 PLP-dependent aminotransferase family protein (Clostridium) [pid:32.2%25%2C q_cov:95.5%25%2C s_cov:96.8%25%2C Eval:7.7e-57],MGA_1100
sequence04	MetaGeneAnnotator	CDS	158250	159338	.	+	0	ID=MGA_1101;product=alanine--glyoxylate aminotransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870473.1;translation=MSKLLMTPGPTNIPTEVQNILGQDMIHHRFDDFHKIMENLNEKLKKIFFTQNDVYTMTCSGTGVMETAVVNLFSKGEKVAIVNVGNFGKRFVQICKVYGLNVIELEYNWGETYNINDIKKVISENNDLKGIFVTHSETSTGVLNNIKAIGELTKNSDILLIVDVISGMIVNEFRFDEWNVDCAVAGSQKGFLLPPGIAFVSISDKAKKALYKSDLPKFYFDLKVTIKYYNEKKETPWTPAIPIIRAAEVACDLLLKEGIENIQIKHTKLRKYVEDEVQKLGFKLFVKNPEARGNTLVTVYREDNLDLTKLRDYIDNEYNITIAGGQGKYNGKILRFGCLGLLTIQDFNNLFKKIKKYIEENN;locus_tag=LOCUS_10970;note=WP_010870473.1 alanine--glyoxylate aminotransferase family protein (Methanocaldococcus jannaschii) [pid:40.6%25%2C q_cov:94.2%25%2C s_cov:88.6%25%2C Eval:1.6e-72],MGA_1101
sequence04	MetaGeneAnnotator	CDS	159536	160411	.	+	0	ID=MGA_1102;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261394.1;translation=MQNNIDIGRLIPMITSLDYEFTKSEKKVAKLVINNTEKIIYSSITDLADLAEVGEATIIRFCRKLGFKGFQGFKMALAQELSMNKQTPTNLSINTPIEETDSLEIIAKKFYTVNDKALKETLSLLDYTSLEKSAELVSRAERVYFFGVGFSGTTAMESKYKFMRLSINCDAYTDNHFMAMAASLLNPNDVVIGISHSGSSLETVKGLEIARSVGAKTICITHHAKSPITKHADITLLNGSKEGPLQVGGVGTKIAQLFVIDLIYTQVVRINKDKAIRNTKKTREAIEKKLY;locus_tag=LOCUS_10980;note=WP_011261394.1 MurR/RpiR family transcriptional regulator (Aliivibrio fischeri) [pid:46.0%25%2C q_cov:97.9%25%2C s_cov:97.3%25%2C Eval:9.7e-67],MGA_1102
sequence04	Aragorn:1.2.38	tRNA	160516	160602	.	+	.	ID=Aragorn_24;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_24
sequence04	Aragorn:1.2.38	tRNA	160617	160705	.	+	.	ID=Aragorn_25;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_25
sequence04	Aragorn:1.2.38	tRNA	160746	160822	.	+	.	ID=Aragorn_26;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence04	MetaGeneAnnotator	CDS	161099	161557	.	+	0	ID=MGA_1104;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901608.1;translation=MVIGDNGEQLGVMKLNDALDLASEKKLDLVEVAPNANPIVCKIMDYGKFKYDKEKKAKEAKKNQKVVVVKEIKFKSRIDKHDFDTKVSKISKFLEKEYKVKVSLMLFGRERMHSEIGINLLDQVAEIFADKAVVDKKYNEAQKFLMLSPKKQ;locus_tag=LOCUS_10990;gene=infC;note=WP_005901608.1 translation initiation factor IF-3 (Fusobacterium nucleatum) [pid:52.0%25%2C q_cov:98.7%25%2C s_cov:79.8%25%2C Eval:1.6e-38],frameshifted%2C insertion/deletion at around 161051,MGA_1104
sequence04	MetaGeneAnnotator	CDS	161597	161803	.	+	0	ID=MGA_1105;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005893833.1;translation=MPKMKTHRGAKKRVKVTGTGKFVVKHSGKSHILTKKDKKRKNNLGKDMVVPEAAARKLSKLLPSKEGR;locus_tag=LOCUS_11000;gene=rpmI;note=WP_005893833.1 50S ribosomal protein L35 (Fusobacterium) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-19],MGA_1105
sequence04	MetaGeneAnnotator	CDS	161844	162194	.	+	0	ID=MGA_1106;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901611.1;translation=MRVKTGIVRRRRHKKILKQAKGFRGASGTAVKQAKQATMRAAAYATRDRKVKKREMRKLWIIRINAGARANGLSYSRFMNGLKLAGIELDRKVLADLALNNPAEFTSLVEAAKAAL;locus_tag=LOCUS_11010;gene=rplT;note=WP_005901611.1 50S ribosomal protein L20 (Fusobacterium) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-44],MGA_1106
sequence04	MetaGeneAnnotator	CDS	162473	163861	.	+	0	ID=MGA_1107;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583433.1;translation=MNYDVIIIGGGPAGIFTAYELVKEKKDLSILIIEKGKNIYKRKCPKHYNGGTCVYCSPCSITTGWAGAGAYSDGKLSLSHEVGGKLPEYIGVEKTQELIKYVDNIYLKFNASKDIHGEVENKAMKKIRKKSIKANLKLVHCPVRHLGTEKAQELYAKLYEHLIDNNVTVKFNTMVEDLIIDNNNVIGIKTKEENIYGKYTVATVGREGSNWLMDICKSHNINTKPGTVDIGVRVECRNEIMKEINENFYEAKMIHYTKTFDDKVRTFCSNPGGFVSSEYYDDKLAVVNGHSYKELKSNNTNFALLVSKNFTEPFKSPIEYGKHIAKLANMLTENKILVQRFGDLIRGRRTYEHRLYRNNIIPTLKDAIPGDLSLVLPHRILVDLIEMIYALDKVTPGIASDETLLYGVEVKFYSNIVKVKENFESISINNLYLGGDGAGITRGLMQASVNGIVLARNILKNF;locus_tag=LOCUS_11020;note=WP_012583433.1 FAD-dependent oxidoreductase (Dictyoglomus turgidum) [pid:52.1%25%2C q_cov:99.6%25%2C s_cov:97.2%25%2C Eval:7.8e-126],MGA_1107
sequence04	MetaGeneAnnotator	CDS	163982	165700	.	-	0	ID=MGA_1108;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795646.1;translation=MGFIKKYEEWLNSSFIDDIDKKELESIKDNKKEIEERFYTDLAFGTGGMRGIRGIGTNRMNKYMIRKATQGLANYMLSVNEKEAKEKGVVIAYDCRIGSVEYSLNAALVLAANGIKSYLFESLRSTPELSFAVRELGTQAGIVVTASHNPVEYNGYKVYWNDGAQIVEPHASGVVEAVKNVKDFGEIKLISEKEAKEKGLLVIVGKELDDKYIETIKKEVINMDIPGKEEFKIVYSPLHGTGRRPVQRILDEVGFKNVYTVKEQEEPDGTFPTVGYANPEDPAVFKLGIKLAEEKGAEIVMANDPDADRIGIAVKDENGKWIYPNGNQVGLLLVEYILANRKNIPTNGKIITTVVSTPMVDVVAKAHNIEVMKTLTGFKFIGEKIRQFETKELDGEYIFGFEESYGYLIGTHARDKDAVVTTMIIAEMAAFYAAKGSSIAKELKKLYEKFGWYKEGIKAITMSGKEGAEKITSIMTKLRENTPTEINGKKVVILRDFDKQIEINKKEKTEKALELPKSNVLQLVLEDNTYITARPSGTEPKIKYYFGVNAASEEEVNKKMEKVMNSFLELLD;locus_tag=LOCUS_11030;note=WP_124795646.1 phospho-sugar mutase (Fusobacterium canifelinum) [pid:57.4%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:1.4e-191],MGA_1108
sequence04	MetaGeneAnnotator	CDS	165860	166411	.	-	0	ID=MGA_1109;product=NADH peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889371.1;translation=MKKFRCSVCGEILEEGVEVCPVCKATKDKFVEIKEGEELIWATEHKLGEGLACGDEEIISGLRANFEGECTEVGMYLAMARVADREGYPEIAEAYKRIAFEEAEHAAKFAELLGEVVTDSSEENLRRRVEAEYGATSGKFDIAKRAKQLGFDAIHDTVHEMAKDEARHGKAFKGLLERYFGNK;locus_tag=LOCUS_11040;note=WP_009889371.1 NADH peroxidase (Clostridioides) [pid:69.9%25%2C q_cov:98.9%25%2C s_cov:99.4%25%2C Eval:3.0e-65],MGA_1109
sequence04	MetaGeneAnnotator	CDS	166547	168049	.	-	0	ID=MGA_1110;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373220.1;translation=MSKEVRVRIAPSPTGDPHVGTAYIALFNLAFARHNNGKFLLRIEDTDQTRSTKESEQQIFDSLKWLGLNYDEGPDVGGEFGPYRQSERFELYSRYAKELVDKGMAYYCFCTPERLENLRERQKAMGKAPGYDGHCRSLSKEEIETRLANGEKYVIRLKMPYEGDTIVKDVLRGEVKFENNKIDDQVLLKSDGFPTYHLANVVDDHLMGITHVIRAEEWIASTPKHIQLYKAFGWEEPVWVHMPLLRNQDKTKISKRKNPVSLNYYKEEGYLKEAILNFLGLMGYSIGNNKEIFTFDEMVESFDFDKISLGGPVFDLVKLGWVNNQHMKLKNLDELVELAKPYFEEIGYINKELTDKEYKALRRVIEILRDGATTLKELATKSKIYYEDNFELPVVTEEMNRKERKSVERVLKALEDEVGKKAINLFVEKIKMESENISEDRAKEILNEIMEELGEGPGKVLMPLRAILTGEGRGPELYGIIAVIGKERTLKRVENTIKKI;locus_tag=LOCUS_11050;gene=gltX;EC_number=6.1.1.17;note=WP_147373220.1 glutamate--tRNA ligase (Fusobacterium nucleatum) [pid:67.3%25%2C q_cov:99.4%25%2C s_cov:97.8%25%2C Eval:3.2e-205],MGA_1110
sequence04	MetaGeneAnnotator	CDS	168072	168638	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFGVILYLAISFSTFADHNIGYYFDKIFKSEKIEKIEGISDIKEGIEITGLVYDKVRFNKIIIYDHKEKQQNKLELLTKDLEKAFLERNNDIKEIKIQTQNNNILIEGKANVLSGIFKITLIGTFYIQNNEIYFDIKKGKVGVIAVPKFIVESFKERLNPFFKAEDLNLDIIINKIKFKKDKIIIE;locus_tag=LOCUS_11060;note=MGA_1111
sequence04	MetaGeneAnnotator	CDS	168655	169938	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLVIFIIMIFSINTFARTVNFSIISMGALNGEYKKLDSLKIAIDTITKEKEMQYDNVIKINVGNNMTEYLEKNDIMLNFYKTTNFNFNFLGKQEFLWRDKIDPTQIKMSTLNIIAKDVLPYQLMKMEDYIVCVVGITNIYEEDIKGTLSYKRELQNLMYMLEDNVDFLFVVTDLEREENVSIIQDFPQITGLFESRLNLYDFGVEKINNTYLIPTYGISVLDFKYDEQEDNQSIDKIGFKLKTATLLKRENILKPEKFGYDRDFRNYINWTDVRIKNENSLIIGYTDNTFNPYEIYLSDEVPFLDDLADKLMKSYKTDAVIFPKKSLLKGIKKGLYTVAEVNEMFTKEKFIILNLNYKELNSLMNKAAENRGNESYFYISGLGKSRLKENYKILSFENLLEDYKIDKEKYEVENIGIREYMIKK;locus_tag=LOCUS_11070;note=MGA_1112
sequence04	MetaGeneAnnotator	CDS	169950	170942	.	-	0	ID=MGA_1113;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_197551829.1;translation=MEQLTYSNDFWNDKKKSEETIKKLNSLKLIVKKFEDIVNLYEEIEVLIEFFESGEEEFEEELNIKFKKLSKYIEEFGTSLLLDGEYDNSNAIVTIHSGAGGTEACDWVEMLYRLYSRWCNKKNYKIEILDSLEGDGAGYKYITFSVEGALAYGYLKCEKGIHRLVRISPFDANKKRHTSFASIEVIPEVDDNIDVEINPSDLKIDTYRASGAGGQHVNMTDSAVRITHIPTGVIVTCQKERSQLKNRETAMKVLKSKLLEIELKKQEEKMRKIQGEQAEIGWGNQIRSYVFQPYTMVKDHRTNFEIGNIQAVMDGEIDGFINAYLKWIKK;locus_tag=LOCUS_11080;gene=prfB;note=WP_197551829.1 peptide chain release factor 2 (Fusobacterium nucleatum) [pid:67.5%25%2C q_cov:99.7%25%2C s_cov:89.9%25%2C Eval:3.9e-131],MGA_1113
sequence04	MetaGeneAnnotator	CDS	171060	172226	.	-	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLFFVIATIAFAENFGANIFPENSYFYFYSKTENIFNILDKNFENEIDILKKNKNFKNIDIEKVIENKEYSVVFLNDGEKLKFIILVNMIGLDKKLIESNEFETETFNGMTIKYSLGDKPYIYGYDDNYLIFSDDMNLFFWMIDTKNEKFLKDKKSFKKLMNYEEKDTKYKYYIEKDEIIEDKVSVAKSKFLLENGEINRYYIPGEKTNILKEYNLENIIPPQFESIEMGRNTKYMQNEIEKQLSEFYVENELFDFDLNMAGKIKYLNGTYFFFKKDNYLNSEQIIKKIYEKILFFNKKIEFIDLKKYKMYEIPLLYKKIYLININDFVVVTTENKVLQDFLNGFIKNTNFNSVENYDNIKLENGKIFLNSLNDEVYTIGETDY;locus_tag=LOCUS_11090;note=MGA_1114
sequence04	MetaGeneAnnotator	CDS	172383	172862	.	-	0	ID=MGA_1115;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986413.1;translation=MKISKRVLNDIEFYIKGIKDKRKGLEDILYMAQIEYGYLPNEVQNFISEKTEIPLIEIKECISKSDLLKDDTKNSVLIRVCKGARCSANGSEFILEEFKKQLKIDVGETTSDGITLQIQNCFAKCAIGPNVYINNTHIPKVTVEEVKNIIKRVKMFDYK;locus_tag=LOCUS_11100;gene=nuoE;EC_number=1.6.5.9;note=WP_011986413.1 NADH-quinone oxidoreductase subunit NuoE (Clostridium botulinum) [pid:34.4%25%2C q_cov:94.3%25%2C s_cov:95.0%25%2C Eval:3.3e-21],MGA_1115
sequence04	MetaGeneAnnotator	CDS	172896	173264	.	-	0	ID=MGA_1116;product=holo-ACP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017085.1;translation=MKILGIGNDIIEIERVEKAIKRTKKFKEKVFSEKEIEIVEKKSSPFASYAGRFAAKESVAKAFGTGIKFSLTDIEILNDKLGKPYVNLRNKLKEKYDNIDIMITISHNRKVAIATAIVISKE;locus_tag=LOCUS_11110;gene=acpS;EC_number=2.7.8.7;note=WP_011017085.1 holo-ACP synthase (Fusobacterium nucleatum) [pid:50.8%25%2C q_cov:95.9%25%2C s_cov:99.2%25%2C Eval:7.4e-25],MGA_1116
sequence04	MetaGeneAnnotator	CDS	173261	174082	.	-	0	ID=MGA_1117;product=23S rRNA (guanine(745)-N(1))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005460128.1;translation=MFICPICNQKIDKIDKSYKCKNNHTFDMAKSGYLNLLISNKKRSKTPGDDKEMVIARRNFLNTDIYEEISKSVNEIILKLTNNKKMKIIDIGCGEGYYTSKIKEKIPNSEICGIDISKEAINLAAKTYKNINWVVASALNLPFLDNSIDISLVMFSRFIPEENFRLLSKNGYLIVVSTDDMHLIELKKVLYDKVKIESVDIVDEAKDYFIHKETKKVNYNKKLTSNQEIMNLFNMTPYKWKTKKEAVKRLEKINELEITIDVKIDIFQKMEKK;locus_tag=LOCUS_11120;gene=rlmA;EC_number=2.1.1.187;note=WP_005460128.1 23S rRNA (guanine(745)-N(1))-methyltransferase (Vibrio parahaemolyticus) [pid:35.9%25%2C q_cov:97.4%25%2C s_cov:96.0%25%2C Eval:2.0e-47],MGA_1117
sequence04	MetaGeneAnnotator	CDS	174084	174848	.	-	0	ID=MGA_1118;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494599.1;translation=MKLVDTHCHIYGEKYKNDIEEVLAEAKKELEFIVNIGYDLESSKISVDIANKYDFVYATVGFHPTDISKMNEESLKQIYEIAKKNNKVLAIGEIGLDYYWMKDEVEKQKIAFLKQLELAEEINKPVVIHTREAMKDTIDILKSKKNITGIIHCYPGSYETAKSVIDRFYFGINGVVTFKNNKKTQEVVKKIPLERLVIETDAPYLTPTPFRGKRNKPTYVKYVAEKIAELKNISIDEVIKVTTNNAKKIYRIED;locus_tag=LOCUS_11130;note=WP_029494599.1 TatD family hydrolase (Fusobacterium hwasookii) [pid:56.0%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.9e-82],MGA_1118
sequence04	MetaGeneAnnotator	CDS	174973	175473	.	-	0	ID=MGA_1119;product=anti-anti-sigma factor GigB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002117273.1;translation=MSTDIKENKYLIGEYNNEIFIKFVGNATMKNSKTLEEVFNNIFTGEKKEIVLDFEECNYMDSTMLGLIAKTAIRLKKEWNQFLYEINSSNMVKTSLKSTGVYNLMKHLDDIKQEVELKELENKDFDDKSEKAKHILEAHKTLMGLSDENKKIFKNVVEMLEKDLDK;locus_tag=LOCUS_11140;gene=gigB;note=WP_002117273.1 anti-anti-sigma factor GigB (Acinetobacter) [pid:24.7%25%2C q_cov:90.4%25%2C s_cov:87.3%25%2C Eval:3.9e-07],MGA_1119
sequence04	MetaGeneAnnotator	CDS	175587	176483	.	-	0	ID=MGA_1120;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015705.1;translation=MGKLIRGISKNARFMVIDSTDVVQKSVKIHNSSPTATAALGRVLTAALMMGQEIKVSNGSVTLRIDSDGPAKQLIATADNKGNVKGYIANDKEVIKRKTNGKLDVGGYIGKGFLKVIKDIGGKEPYIGVSPIQTGEIAEDIAYYYFTSEQIPSVVALGVFVDKDMSIKHAGGYIIQLLPGAEEGFITKLEEKIKAIKSVTELMNGGMDPERIAKLLYEDMNSENPNDLVEEYKILDTIEVNYTCDCNKEKFFRGIVSLGKDEIKKLLESQEDIEVECHFCKTKYSYTKEDFELILKNN;locus_tag=LOCUS_11150;note=WP_011015705.1 Hsp33 family molecular chaperone HslO (Fusobacterium nucleatum) [pid:46.3%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:9.3e-73],MGA_1120
sequence04	Aragorn:1.2.38	tRNA	176534	176620	.	-	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence04	MetaGeneAnnotator	CDS	176883	177893	.	+	0	ID=MGA_1121;product=Fe(3+) ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056364.1;translation=MNEKILFVLTFVISSIIFAKNEVNVYTHRHYDSDQSLFQKFEKETGIKVNVVNASADELIKKLELEGKRTPADILITVDAARLHRAKSKNLLQPVISESLIKNVPSHLRDKDSYWYGLTYRARVIVYDPNKTNINDLSTYEDLANPKWKGKILTRSSSNAYNQSLIASIIAHNGEEKTFEWAKGIVNNFARTPKGNDRDQAKAVLANEGELAIMNTYYIGKMYNSSNELERKVARTLKIFFPNQNGRGAHINVSGIGVTKYSKNKENAIKFIEFLTSEAAQKDFAEANYEYPVNPNVEASKLVKSWGSFKADTLNLSILGELNENAVKIADRAGWK;locus_tag=LOCUS_11160;note=WP_011056364.1 Fe(3+) ABC transporter substrate-binding protein (Thermosynechococcus vestitus) [pid:49.4%25%2C q_cov:93.5%25%2C s_cov:88.5%25%2C Eval:4.1e-91],MGA_1121
sequence04	MetaGeneAnnotator	CDS	177893	179467	.	+	0	ID=MGA_1122;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852018.1;translation=MKSFNKFSRNQTFDFWNFLTIISTFIIILPLLYIVVNIFTKTSNNFYHIINNLLFDYIKNTFILSLFSSLFSAIIGYTLAYFTVFYDFRYRKLFDILFILPLAIPTYIAGYVYGELFSFTGLFKGKIDIMNIYGGIFIFSIFLAPYVYIISKSYLSKISSNIIENAKILGKNDLHIFLNVLLPMSRIALVSSVSLVTLEIINAYGVVKYFGINTFSIGIFRTWFSLGDSNSAIKLAAFLMFTTFIVLSLEKNFRKHKNYSYINSKIKSIKRKKLSKSHEFIITIFSLLYIIIGFIFPIIQLVYFSMLTYKMMLNYETFLLIFKTFILTAISSLITLIIALIISNNARLSKNKFSGILARISSIGYSIPGAVIAIGVLMLFITIDNFFDTYFSMSFIVLILAYIIRFLGVGYNTINTSFLKIGLKFHESARTLGKSKIYTFFKIDFPMIKSSIFSAYILIFIEIIKELPLTLILRPFNFDTLSTITKKYVEDEMIYHSGIPSLIIVFICFLGIIYFNILNKNRRN;locus_tag=LOCUS_11170;note=WP_002852018.1 iron ABC transporter permease (Campylobacter) [pid:33.0%25%2C q_cov:92.0%25%2C s_cov:90.5%25%2C Eval:1.7e-76],MGA_1122
sequence04	MetaGeneAnnotator	CDS	179469	180185	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYIKLENISFKYGKKIILDNISFSIKKGEVLAILGESGSGKSTILRIISGLETPKTGKITIDNHIIFNKNINFPPEKRNLGMVFQDYALFPHLNIEKNITFGISHFNKKTKKIILNKMLKLVKLEEHSKKYPHELSGGQQQRIAIARTLATNPKLLLLDEPFSNLDANLQSSIRKEIKSIIDIEKTTTIFVTHNKEDALEIADRVVIIKDGKIIQIDTPENIISNPKSSYVKHLFHY;locus_tag=LOCUS_11180;note=WP_012256230.1 ABC transporter ATP-binding protein (Chloroflexus aurantiacus) [pid:44.7%25%2C q_cov:98.7%25%2C s_cov:63.7%25%2C Eval:1.8e-59%2C partial hit],MGA_1123
sequence04	MetaGeneAnnotator	CDS	180222	180596	.	-	0	ID=MGA_1124;product=Fe-S cluster assembly scaffold protein NifU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796962.1;translation=MQYSEKVMDHFMNPRNVGVIENPDGYGKIGNASCGDMMEIFLRIEDDIIKDVKFRTFGCASAIATSSISTEMILGKKVSEALEVTNKAVAEALDGLPPQKMHCSVLAEDAIKAAIEDYLKKKNN;locus_tag=LOCUS_11190;gene=nifU;note=WP_124796962.1 Fe-S cluster assembly scaffold protein NifU (Fusobacterium canifelinum) [pid:72.4%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:1.1e-49],MGA_1124
sequence04	MetaGeneAnnotator	CDS	180613	181782	.	-	0	ID=MGA_1125;product=cysteine desulfurase NifS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016111.1;translation=MKVYLDNNATTKLCKEAFEAMVPYLTEYYGNSHSMHRFGQETGKALREARETIANLLKIEADELIFTASGTEANNIGIRGVVRAFERRGKHIIVSEIEHPSVRNTAKDLEKLGYEVTFLKVDKNGLVDLEQLKKSIRKDTVLISVMHANNEVGTIQPLKEIGQIAKGHRILFHVDAVQTVGKLKFSPKDYNIDLMSFSAHKFYGPKGVGALYIKKGTRMAKFITGGGQEKGLRPGTSNVAAIVGMAKALEVAFKNIKEEYKKEKELRDYFEEKIIEKIPEIVINSKEVDRLPGTSSVTFKYLEGESILLSLDFKGIAVSSGSACSSEDLHASHVLLGMGIEEEFAHGTIRFSIGRYNTKEEIDYVINELPPIIERLRMMSPLWNEFKNN;locus_tag=LOCUS_11200;gene=nifS;EC_number=2.8.1.7;note=WP_011016111.1 cysteine desulfurase NifS (Fusobacterium nucleatum) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:1.0e-136],MGA_1125
sequence04	MetaGeneAnnotator	CDS	181887	182384	.	-	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRISRAISKSKGLLSSRKKDKKKISDSQTTTRVEKRDLDINHSPFLDKLNEVEVDLIKGELSDNLEDIKVLGEELARNPNLKNLTNYKNKVKAFLVLAMKKMYKVDNKMGLKRSGREQKIFVTVDKIDKELEELTLAFLKQQEEAFFVMSKIDGIQGLLVNILG;locus_tag=LOCUS_11210;note=MGA_1126
sequence04	MetaGeneAnnotator	CDS	182471	183031	.	-	0	ID=MGA_1127;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895383.1;translation=MLNYNTPFELLIAVILSAQCTDKRVNMVTKEMYKIVNTPEGFANMEVEEIEKLIKSTGFYRNKAKNIKQCSIDIIEKYDGKVPMNMDDLINLAGVGRKTANVVMGDITKEPEGIVVDTHVKRLSNRIGFVKTNNPIIIERELMKWVPKKYWFDYPNLLIRHGRAICKARKAECNKCGINEYCKKNI;locus_tag=LOCUS_11220;gene=nth;note=WP_005895383.1 endonuclease III (Fusobacterium nucleatum) [pid:65.9%25%2C q_cov:99.5%25%2C s_cov:85.6%25%2C Eval:1.8e-65],MGA_1127
sequence04	MetaGeneAnnotator	CDS	183177	184100	.	-	0	ID=MGA_1128;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015679.1;translation=MGIDSIKNNELAKQIIKNELKNNKESGTYLIHGIKGANLFEFALNFSKGILCNEIEHDYCDSCRVCINIDKQVYSDLHIIEGLDNSNISISQIRDMISESYESAYEGDKKVFIIKNIHKTRKEVANAILKIIEEPPKNTYFILTSNSLNILKTILSRCITIKINTLNNEELEVSKEIFDFFIGDNEDILEYKKGNYSLEEIYSYKDIDVVLDEYIENGKLENKIKLLKSLDDYIKNKDFFSEIEKIEFIEKINSKIDKNRDILENMFYILIIKNKTLKKLEFLLEIKSYIKSNVNITNILYNFFLEY;locus_tag=LOCUS_11230;note=WP_011015679.1 DNA polymerase III subunit delta' (Fusobacterium nucleatum) [pid:37.0%25%2C q_cov:95.1%25%2C s_cov:98.3%25%2C Eval:4.0e-42],MGA_1128
sequence04	MetaGeneAnnotator	CDS	184100	185140	.	-	0	ID=MGA_1129;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902246.1;translation=MLLKFFENGFNINKSIGIDLGTANTLVYYKQKNKIVLNEPSVVAVDRDTKKVLAVGHEAKEMIGKTPDSIIAVRPLREGVIADYDITEAMIKYFIKKVFGKFNIFAPEVMICVPIEVTGVEKRAVLEAAISAGAKRAYLIEEARAAALGSGIDISVAEGSMIVDIGGGSTDIAVIALGGTVVSKSIRIAGNNFDEDIVRYVKKVHNLLIGDRTAEYIKTKIGSALPLEEEEYIDVKGRDLITGLPKTISLSSTEVLEAINDSLMQIVNNVKSVLEKTPPELAADIVDKGIVMTGGGSLIRNFTKLMSNYTQLPVYLAENALESVVIGAGMALDKIDVLRQIEKEER;locus_tag=LOCUS_11240;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:76.0%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:5.1e-145],MGA_1129
sequence04	MetaGeneAnnotator	CDS	185130	185528	.	-	0	ID=MGA_1130;product=mini-ribonuclease 3-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902248.1;translation=MEFKKLNELGVLTVAYLGDSIWELYIREYFVRKNINLKDLNIIVRRYVNAKFQSKIYLKILNEGEYDFLQEIIDYSKRARNSKIKSYPSTCTLKEYKNATALEALIGAYYLLEYKEELENIIKIILEGDDVA;locus_tag=LOCUS_11250;note=WP_005902248.1 mini-ribonuclease 3-like protein (Fusobacterium nucleatum) [pid:44.4%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:8.1e-24],MGA_1130
sequence04	MetaGeneAnnotator	CDS	185510	186940	.	-	0	ID=MGA_1131;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015680.1;translation=MIKIYNTLTQKLEDFKTVEPNKVKMYVCGPTVYNYIHIGNARPAVFYDTVRRYLEYKGYEVTYVQNFTDIDDKMINRANEEGIEVKEVAKKYITAYFEDTAKINLKEEGMIRPKATENIKEMIKLVKDLEEKGYAYASEGDVYFDIEKYKENYGELSHQKIDELVSGARIEVNDKKKNPLDFTLWKAAKEGEPFWGSPWGKGRPGWHLECSVMSYKFLGKDFDIHGGGQDLIFPHHENEIAQSKCGYGGNFARYWMHNGYINIKGEKMSKSKNNFFLLREVLEKYEGRILRFFILSSHYRKPIDFSDEELKMAEQGLRRIENTLIRIDEELENIKDIQDENIVELEKTYENSIAKFELSMDEDFNTAKAIGAIFELVKSINIYLDNGITKEGKETIINIKNYIKKVMIDVLGIDIKYEKKIDSNLTKDLIEFLLEIRIDAKKEKNWELADKIREKLNNLGVEIKDGKDKTTWNLKN;locus_tag=LOCUS_11260;gene=cysS;EC_number=6.1.1.16;note=WP_011015680.1 cysteine--tRNA ligase (Fusobacterium nucleatum) [pid:63.9%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:7.2e-183],MGA_1131
sequence04	MetaGeneAnnotator	CDS	186933	187619	.	-	0	ID=MGA_1132;product=serine O-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225749.1;translation=MFETIKSIKDRDPAATNCVCILLLYPGVHAIFWHKIAHFLYKRKLKFFANLIAMMSRFFTGIEIHPGAKIGKRFFIDHGMGVVIGETAEIGDDVTIYQGVTLGGTGKEKGKRHPTIGNNVVIGAGAKILGSFKVGNNVNIGSNSVVLSDVPDNSTVVGIPGRIVRINGEKVKDTITNLNHMDLPDPILDEMHEVERSLRELAKRIKCETCKIRSTEERNSTDNEVKND;locus_tag=LOCUS_11270;gene=cysE;EC_number=2.3.1.30;note=WP_003225749.1 serine O-acetyltransferase (Bacillus) [pid:61.3%25%2C q_cov:89.5%25%2C s_cov:92.6%25%2C Eval:1.1e-66],MGA_1132
sequence04	MetaGeneAnnotator	CDS	187630	188478	.	-	0	ID=MGA_1133;product=carbon-nitrogen hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941312.1;translation=MKLKVALAQIKPYLGDVEKNLEILQENIEKAISKKADIIVFPELSLTGYFLKDMVPVVAKWVEDGEIPKILLEYSKKISIIFGGVEETKEHNFYNSAFYLEDGKLIHTHRKVYLPTYGMFDEYRYFSRGDKIRAFDTKFGRIGMLICEDAWHGSTMYILNQDKADYIFVLANSPSREYQNEQPANILTWENMLKTYADMFNSYVVFSHRVGYEDGINFAGNSMVIDPFGKVENKLNDFEIDFKVIELEKEKIRRARIYTPTQKDEDIHLTIRELNRITQERK;locus_tag=LOCUS_11280;note=WP_010941312.1 carbon-nitrogen hydrolase (Geobacter sulfurreducens) [pid:47.5%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:5.2e-70],MGA_1133
sequence04	MetaGeneAnnotator	CDS	188491	190068	.	-	0	ID=MGA_1134;product=citramalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583555.1;translation=MKKIEIFDTTLRDGSQMIGVNFSLEDKIKIAKKMDDVGIDFLECGWPSSNPKDYQFFKEIKNHKLKHSKIVAFGSTAYYKNKIEDDKNLNTIIEIEPDVANIFGKSWDLHVTDIFGITLEKNLEIVYESVKYLKEKIKEVFFTAEHFFDGYKKNKGYALSVLKEAEKAGATRIILADTNGGQHYLEIRDIIKDVKENISTEIGVHFHNDSGMATINSIESILAGAMQIHGTINGYGERCGNANLCEIIPILQLKMNYDILGDNITKLTQLSKYVSELSNFAHEIRMPFVGTNAFAHKGGVHVSAIMKNSQSYEHMSPENVGNKRVVSISDLSGKSNIKYKLKEFDLDIILDDNEITKVIKAVKSKVNKGYEYEGAEASFELLVQRELNKKVDFINVKSFRIISEENYELREVSEGTVKLEIEGNEYYTVAEGNGPVDALTKALKKALLHEYPELEKVTLSDYKVRILNSEATQSLVRVLVESKNSETGEEWSTVGVSTNIIKASWEALVDMFNYYLYNKYEKHKK;locus_tag=LOCUS_11290;gene=cimA;EC_number=2.3.3.21;note=WP_012583555.1 citramalate synthase (Dictyoglomus turgidum) [pid:51.8%25%2C q_cov:97.9%25%2C s_cov:98.5%25%2C Eval:9.1e-150],MGA_1134
sequence04	MetaGeneAnnotator	CDS	190077	190754	.	-	0	ID=MGA_1135;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015681.1;translation=MKYYYIVAAAGIGKRMQLDYPKQFLEYNKKPIFIKTLETISKNKLVTDIIIVTNREYIEKVKDYVKEFNIEKVKNVIQGGKERQDSVYNALKIIEDEDAIVAVQDGVRPFIKEEYIEKAYKELEKNMDISGVVIGVMVKDTIKVVDENGIIIHTPNRNSLVAAQTPQVFRIKTLKKAYKKAKDEGYLGTDDSSLVEKIDEKVKILEGDYDNIKITTKEDLIYLAK;locus_tag=LOCUS_11300;gene=ispD;EC_number=2.7.7.60;note=WP_011015681.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Fusobacterium nucleatum) [pid:50.7%25%2C q_cov:98.7%25%2C s_cov:95.2%25%2C Eval:1.6e-57],MGA_1135
sequence04	MetaGeneAnnotator	CDS	190751	191530	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKAFFITIISYIIFIYVLFGFSNSKEGIILLGVLSIVLSYLIVHFVEYIKKILEERKIEKGAKAKILDSSIIIDGRILDIMNSGFLEGDIVIPKFVLEELQTLSDSSDNMKRARGRRGLDLVKQLQEIKEYNIVIEEKDYPEKEVDAKLVKLAKDIEGDVLTTDFNLNKVATIQGVKVLNINQLANSLKLVVLPNEELTIELIKKGDRDGQAVGYLQDGTMVVAEDGGDHVGEIVTLIITSVYPTAAGRMIFGRIKK;locus_tag=LOCUS_11310;note=WP_010966462.1 PIN/TRAM domain-containing protein (Clostridium) [pid:56.5%25%2C q_cov:76.8%25%2C s_cov:54.1%25%2C Eval:1.5e-57%2C partial hit],MGA_1136
sequence04	MetaGeneAnnotator	CDS	191710	193824	.	-	0	ID=MGA_1137;product=cell division FtsA domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_035214035.1;translation=MKKVYALDVGTRNVVLLLAEYTEEDKIKIIDMVSKEHESRAMLDGQIHDISKVAKTVKILKDTMEDKTKEKIEEVAVAVAGRNLITFRGKAKKSFDSSEELSEDDILTVELLAIQNTIKSLGNENNKEYYCVGYSVIEYKLDGVEIKNPLYQKGEELEIELLATFLPKVVVDSMYTMLNKVDLGIENLTLEPIAAINVVVPEDMRKLNIALVDIGAGTSDIAITKSGKVVGYGMVPMAGDEITEKIEEDYLLDFEEAERIKKSLKDNEIVKYQDILGIEYEITTKEIFEKIDPILEKLSLKISEKILELNEGAPQAIILIGGGSLIPKLREKIAEKVSLVAGRVAVRGTEAIKSLVNSENMLSTAEYVTPIGIANMAFQGKEFNILTISINKVSHRVFSFTKHMSLMEVLLSIGYDTKLLYSKPGNAITVTINGKLEIFKGEMGKRAVIKVNNKFASLDKEIKDGDTIEIKPIRDGRDAVVSIKDLKKKYDKIKFKLNDKTKEIDIKILKDGKSLDDKYLIQDRDELEILNKIMVKDVISESLEKTIKIILNGKELEMIIPGLKIYKDEEEITPNYIIQNGDNIRIEKNELGNMKIKDILEETDNKFKVIVNEKEIIFDELKKSIILNGKVVSSDREIKDGDKIDFDIPEENLPLVSDVFKYYDPKTLLNDHESGKLLKIIVNSKEAEFTTKIKNGDVINFYYK;locus_tag=LOCUS_11320;note=WP_035214035.1 cell division FtsA domain-containing protein (Desulfitobacterium hafniense) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.4e-113],MGA_1137
sequence04	MetaGeneAnnotator	CDS	193841	196183	.	-	0	ID=MGA_1138;product=endonuclease MutS2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015682.1;translation=MNTHTFNVLEYDKLKKEIIKYSILDTTKLKIEELTPFKDINVIKKELLYVSEVVEIEKYDEGIDLSGINDIEKYIKRIELIGTYLIPEEFVSIKKTLRAFRRVKTKLENLESKYRNLYMKFRDVPVYKGLEDIIEKAIDDSCEVKDDASLELRNIREQKKNISLNIKNKFDDIISNPLNAKAIQEKIITEREGRMVIPIKADFKGQIKGIEHDRSASGQTVFIEPLSVVSLNNKMRELQVREREEIKKILLRTTDMLRMNKEGILKISDAIVDIDFIYSKARYALEINAIMPKIIEKEYLKLIEARHPFIEKDKVVPLTFEIGKNYNTLLITGPNTGGKTVALKTAGLHTLMALSGILIPVNEKTEIGMFTGVYADIGDEQSIEQSLSSFSAHLKNVHDILENINKSSLVLLDELGSGTDPIEGSAFAMAVIDYLKSKKVKSFITTHYSEVKAYAFNEENVETASMEFDANTLSPTYRLLLGIPGESNALKIATRLGLPTEIIERAEKYISEEDKKVENMIANIKEKTEEIENAKVEIEELKKESEKLKKEYEEKVIELEKEKNSILKEAYENADKMIKEAQNKAKALIDKIKKDELKKEELKATEKSLNMLRQNIREEKTKNVKIEKKIKINLDLKIGEKVFIKSLNQDGIVLKDYPNKEKAQIQAGILKLMVNYDDIKKSEQIDKQKYIRVNNVKKSNVKSEVDLRGKMLEDAIYDLEKYLDDAILNGYKEVYVIHGKGTGVLRKGVHEYLRTASFVESFKIADQNQGGYGCTVVTLK;locus_tag=LOCUS_11330;note=WP_011015682.1 endonuclease MutS2 (Fusobacterium nucleatum) [pid:54.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-241],MGA_1138
sequence04	MetaGeneAnnotator	CDS	196375	196629	.	+	0	ID=MGA_1139;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898205.1;translation=MRVCEVTGKGTVTGNQISHSHRVTKRIWKPNLQTTKLSINGVTLKVKVSTKVLKTLKTLNDAETVKYLKQNKKTLSPRLAELVK;locus_tag=LOCUS_11340;gene=rpmB;note=WP_005898205.1 50S ribosomal protein L28 (Fusobacterium) [pid:51.9%25%2C q_cov:94.0%25%2C s_cov:92.9%25%2C Eval:3.0e-18],MGA_1139
sequence04	MetaGeneAnnotator	CDS	196800	197810	.	+	0	ID=MGA_1140;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244356.1;translation=MRILVTGGAGYIGSHTCIELLNKGYEIIVVDNFINSKMEALNRVKEITNKDFKIYNIDMCDYKNFEKIFINEKIDGVIHFAGLKAVGESVTIPLKYYQNNLISTLNLIEFMKKYNVNNLVFSSSATVYGDPEIVPIPETANLNATNPYGRTKLMIEDILRDFSLANKDFNVALLRYFNPIGAHKSGKIGEDPNGIPNNLLPYISQVAIGKLKKLRVFGNDYDTIDGTGVRDYIHVVDLALGHIKAIEKLITNPGLVTYNLGTGNGTSVLEMIKSFEKASGIKIDYEIVNRRPGDIASCYADPTKAKIDLNWEAHYNIDDMCRDTWNWQKNNPNGYN;locus_tag=LOCUS_11350;gene=galE;EC_number=5.1.3.2;note=WP_003244356.1 UDP-glucose 4-epimerase GalE (Bacillus) [pid:65.4%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:2.2e-129],MGA_1140
sequence04	MetaGeneAnnotator	CDS	197856	198866	.	-	0	ID=MGA_1141;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016469.1;translation=MDRKKVLIIRFSSIGDVILTTPILTEIKKKYPNWDIDFIVMDKFKDAITYNSNINKLIIFEKDKYKGKNGIQKFIKEKLKGEYDLIIDLHNKFRSIYISKLLKARDKCEVLTYKKRKWWKSLLVKMRLIKYKVDNTIIKNYFKPLEKYQIYYNGENIEFNFLKEHLEKIKKLKIENFVVFAPGASKETKKWPKENFASLAKLIKKEYNYNIILIGSKAEEKDLSKINKLSGNICINLAGKLNLKESGAIISKAYFVVTNDSGPFHIARGVKTKTFVIFGPTSPGMFEYDKNSILLYENEECSPCSLHGDKKCPKKHFKCMKNLTADKVFKIIKKSS;locus_tag=LOCUS_11360;note=WP_011016469.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:54.2%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:1.9e-101],MGA_1141
sequence04	MetaGeneAnnotator	CDS	198859	199878	.	-	0	ID=MGA_1142;product=glycosyltransferase family 9 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016467.1;translation=MKKILIFHTAFIGDIVLSTPLIKKIKSLYNCKIDYVTTKAGSLILQNNPYLDNIFIYDKKGKDKGIKGAFNLVKKLRKENYDIAFVPHRYLRSSLIVFFSKIPVRIGYKNSEGKIFLNKLIEYRKDLHEVDRLLQLVQGINADILEKKIELFPNKNNQKKIDEIFEKNNIKNQKIIVIAPGSKWYTKMWPTEYFNEVIKRLENIENLKVILIGGKDEEKLKLIQTKNSVNLIGKTSLLDLAEIMKRADIVLTNDSSPIHIASAFEKPYIFAIFGATVKELGFYPYSKTSEIIENKGLYCRPCGLHGGNNCPEGHFKCMKQIKPDYVYEKIVKKLGENNG;locus_tag=LOCUS_11370;note=WP_011016467.1 glycosyltransferase family 9 protein (Fusobacterium nucleatum) [pid:44.9%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:2.3e-81],MGA_1142
sequence04	MetaGeneAnnotator	CDS	199963	200748	.	-	0	ID=MGA_1143;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003022565.1;translation=MKNKENQFMLIVFPIILAILLTIPFYMTNLDILWQKLFYKEGKWYLDNLKIVKFFYNYGPIPGILSALIGLFVYILSFLIYSFRDYRKISLFVFLYMLLGSGIIVNMIFKEYWGRPRPRQIVEFGGEAKYIPPVKKGKLVFTEKTEKMLETKQGAIGWDKFRDLYKIKGKYNSFPAGHASVGFFMMFPFFYIKKRKTRLFWLYFGIIYGFIMGIGRNIQGGHFLSDVIWAGFIMYFTGIVLYYIFGFNKSVLYNKKNKIRL;locus_tag=LOCUS_11380;note=WP_003022565.1 phosphatase PAP2 family protein (Francisella tularensis) [pid:27.7%25%2C q_cov:94.3%25%2C s_cov:96.8%25%2C Eval:7.0e-18],MGA_1143
sequence04	MetaGeneAnnotator	CDS	200759	201460	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYKIKIYNFTEKKYTIEELEKIYNIKGKVLKDSTRSIVKLLTYDNKNLILKIPVEKNKRKWIRFLTLFRKSEVLKNLKSMEILLENGIKTNIPIACVEYKKFGMVFNSYMIYEFMEGEVVGKEDAKEVIELLKKIHSLGYLHNDTQKRNFLKNKKEIITIDTSLKKKNIFISKILENIEYIKFSVDISEAYNYIETDKISFKLAKFFYEVFKLKRKISKIIKKTINKLINK;locus_tag=LOCUS_11390;note=WP_011016468.1 LPS biosynthesis protein (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:74.7%25%2C s_cov:82.3%25%2C Eval:6.8e-19%2C partial hit],MGA_1144
sequence04	MetaGeneAnnotator	CDS	201474	202430	.	-	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISGFSMIKNASKLYYPIKEAVMSILPIVDEFVIAIGDCDEGDNTRELIESIGSDKIKIIDTVWDLEKYPNGMENAHQTDIAKKACSGEWLFYLQADEVVHEKYLDTIVNACKKYKDDKNIEGFLFKYKHFWGDYDHYHISHGWYPKEIRIIRNNPEIHSWESAQSFRRIPNFDEINYRQQEGTYKLKVIEIDAYIYHYGWVRPPQYMQAKKQALDTVHKGSKKVAEIYKNAPKEFDYGPLNKLAVFKESHPKVMKKWIEKFDWKDKLQYSGKPNPYRKKHKHEKLKYKILTFVEQKILGGKQLGGFRNYILLKKEK;locus_tag=LOCUS_11400;note=MGA_1145
sequence04	MetaGeneAnnotator	CDS	202445	204427	.	-	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLELNKSFSNSLIKIGTIILYVFILSIFSSKALSNITASLLLITTIIYILINKFNIKIISIAKFGIILYLLGFVINIFNQGGYPNYLGKYYYFLVPFVVYLYIDIKNIKKIIYFLEIGLLINLIYGFFTFKNINQRFMGFFGPGREGDILVFVLIFNFSLIIFKTYNHIKTLNYLIFINTILSFIGLLLTKSRGSWIGFFVAIIIFILLSKNKKVLLIFILSLSLVVIGDYTLNNQRIVSRIKSISNTKTDISNISRLQMWNIAKGVIAEDLFIGAGRKNIPIKMKEYYYRQNKEFQEENKYGIKFGTNVHNNFLQILIDLGLIFFILFIIFILYITNSIFNRIKSENIEQKSIEIGILSGIVGFYFTQIFHTEFFTHGAYLFYFFITLAYIFKEEEKIKVSLVVSVYKNIDYLDLIFMSLEKQVYKNFEVIVAEDNDSQEMKDFIKKSQEKYNFEIKHVNQEDKGFRKNKILNKAIKKAEGSYVIFIDGDCVLHNKFIYQYVKNIKENYVLFGRRTHISEKLTKKVVKTKNISLLSLPVILFTDCKRKEEAFYIPFITSRRKSGVYGCNFMVSKKDLYEVNGFDEEYEGPYYGEDKDLETRLRLKGVKFNCIKRKVIQYHLYHEKVDREEKYKKNKKIYERKIKEEKYYCDLGIKKN;locus_tag=LOCUS_11410;note=WP_008657976.1 glycosyltransferase family 2 protein (Bacteroides) [pid:32.0%25%2C q_cov:39.2%25%2C s_cov:98.1%25%2C Eval:1.2e-29%2C partial hit],MGA_1146
sequence04	MetaGeneAnnotator	CDS	204455	204580	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIKAYIIHVQGNKEREEYILDGNIEELNYEFYTKFIYLFR;locus_tag=LOCUS_11420;note=MGA_1147
sequence04	MetaGeneAnnotator	CDS	204589	205683	.	-	0	ID=MGA_1148;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940450.1;translation=MSKNICFVNSNKIWGGGEKWHFETSSYLSQNEKYNIFFICNPKGILKKKLLNFNINLFEINIKNLSFLNIFKVLLIYYFLKKNNIEIVIINQSNDLKLVATAARLANVNKIIYRRGSAIPLKNSFLNRYIFKNLVDIVIANSIETKKTLNKNQNIVSENKIKVIYNGIKIDNILKLDSKLDLRKEYNIDKNKIVIANIGRLTKQKGHKYLFESIKKLKNKNLDFIVLIIGDGELKEELELLTKKLNIENYIKFVGFKEDIYEILKQVDFLVHTALWEGFGYVLVESFACGKPVVATNISNIPEIVITEKYGYLAESENINDITNKIIKMIETYKKFDKELLIEKAREFDFYKQIKELERILDLS;locus_tag=LOCUS_11430;note=WP_010940450.1 glycosyltransferase (Desulfovibrio vulgaris) [pid:32.5%25%2C q_cov:82.7%25%2C s_cov:79.8%25%2C Eval:1.3e-45],MGA_1148
sequence04	MetaGeneAnnotator	CDS	205686	206438	.	-	0	ID=MGA_1149;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898431.1;translation=MGLSVGIITFNEEKKIEKTLKAIKSIADEIIIVDSYSIDKTVEIAKKYNAKVFIEKWKGFGKQKNSVIEKCNNEWILIIDADEVVSEELANKIKTIIFNKNNEYDVYKINRCSICFGKEIKYGGWSNDYVVRLFKKGKAKLDDAIIHESFLTEEKIGKIKEKLYHYTYLSLEEYFNKFNSYTTKGAIKRKEKGKKASISTIIFNPFFKFFKMYILKLGFLDGFYGFILAMLAYIYNFVIQVKLYMLKDDK;locus_tag=LOCUS_11440;note=WP_005898431.1 glycosyltransferase family 2 protein (Fusobacterium) [pid:49.4%25%2C q_cov:97.2%25%2C s_cov:93.1%25%2C Eval:2.9e-66],MGA_1149
sequence04	MetaGeneAnnotator	CDS	206438	208177	.	-	0	ID=MGA_1150;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016512.1;translation=MKNRISKLISYAKPFILSIIATIILSILVSITNAYPVKIMKNITDDVLIAKDLKKLQFVVIGIILLMLAKGVFNYYRIYLQNYISGKMVRNMRNELYEKVIYMSHDFFNKSKIGDLITRFISDLTMVQNVVTLSFELVVQLLTIIILLGNVFLLNWKLSIICLVLIPASSGIVRKYSKKLQNTGKGMQESFSKLNSLLQEILNGINIIKSFATEVYEIDRFREKNDENYRLTLKNVKVNARVRPLVEFTSTLGVAIIAYYGGLLVINGEMTPGELMSFLTSLGLISEPLKSVADKISAIQTRRHSINRVFEVLESNEFIKEQKHAKKLKKVKGKVSIKELWFKYNEKEDYVLKNINLDVNPGEMIALVGKSGSGKTTLVNLLPRFYDIKKGEILIDDVSIKDIKIESLRKNIGIVPQETFLFSGTIYDNISYGSIHKTTKKDIIKAAKMANAYNFIMEFPNGFDTEIGEKGVRLSGGQKQRIAIARALLENPPILILDEATSALDTESEKIVQDALDKLMENRTSFVIAHRLSTILSADKIVVMENGEVKEVGKKDELLAKNGIFKKLYDTQFKEVKEK;locus_tag=LOCUS_11450;note=WP_011016512.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:8.7e-133],MGA_1150
sequence04	Aragorn:1.2.38	tRNA	208328	208404	.	-	.	ID=Aragorn_28;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_28
sequence04	Aragorn:1.2.38	tRNA	208409	208496	.	-	.	ID=Aragorn_29;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence04	MetaGeneAnnotator	CDS	208560	209300	.	-	0	ID=MGA_1151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFVKKNEKNIVFEIGFSKFSFITLVLIIVLGVFLVISEIAQRNREIEKHRKNIEKLQNEIIEKLEIIEEKNRIINKKDEEIEDLKEYKNILDAVKELSYNKLDKKEQLKLSRAIYDTSQKYRYDWRIPVAFIMTESSFRANIISGDPSYGLMQIKYTTAKAIAKKMGEDVKNKKELFDVEKNVEIGTTYLLEQIMYFKDIKKAIIAYNLGPTKTKRLEKKYGDFETEYLKKIYKNYNYLKNKYKT;locus_tag=LOCUS_11460;note=MGA_1151
sequence04	MetaGeneAnnotator	CDS	209374	209532	.	-	0	ID=MGA_1152;product=rubredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869872.1;translation=MKKYVCVVCGYVYDPEIGDADAGIEPGTSFEALPEDWVCPVCAVGKDQFEEA;locus_tag=LOCUS_11470;note=WP_012869872.1 rubredoxin (Thermanaerovibrio acidaminovorans) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:2.3e-18],MGA_1152
sequence04	MetaGeneAnnotator	CDS	209577	210152	.	-	0	ID=MGA_1153;product=rubrerythrin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003397458.1;translation=MSIKGTKTEKNLLKAFAGESQARNRYTYFASVAKKEGYEQISAIFQETAENEKEHAKRFFKFLESGEGVEITAMYPAGKIGTTVENLKAAAAGENEEWTELYPAFADEAEAEGFKDVATAFRMIAKVEKEHEERYRKLAENIENDEVFKKSEVTRWKCRNCGYVHEGEFAPEKCPACLHPKSYFEIKEKNY;locus_tag=LOCUS_11480;note=WP_003397458.1 rubrerythrin family protein (Clostridium) [pid:67.4%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:4.3e-73],MGA_1153
sequence04	MetaGeneAnnotator	CDS	210177	210704	.	-	0	ID=MGA_1154;product=ferritin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878337.1;translation=MLKEKVLNALNEELNKEFYSAYLYLGMSSYFEARDLPGFANFMRVQWEEEMSHAMRIYTYINEVGGKVRLKTINAVEKEWNDVIEVFEDIYKHECFITESINEVLFLAQQEKDYATMNMLQWFISEQVEEEANMLKILNQLKLINGEGTGLFMIDRELGQRVAQVPLNSSTIQNN;locus_tag=LOCUS_11490;note=WP_010878337.1 ferritin (Archaeoglobus fulgidus) [pid:46.9%25%2C q_cov:91.4%25%2C s_cov:92.5%25%2C Eval:1.9e-42],MGA_1154
sequence04	MetaGeneAnnotator	CDS	210722	211111	.	-	0	ID=MGA_1155;product=desulfoferrodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048271.1;translation=MAKLLGIYKCNLCGNIVEVLKAGQGDLVCCGQEMEFLEEKTADSSTEKHVPFIEEIEDGYVVRVGENTAHPMTEEHYITMIELVVDGKVYRKNLTPNDKPEAKFIVEKSNEVLYAREYCNLHGLWKGLK;locus_tag=LOCUS_11500;note=WP_012048271.1 desulfoferrodoxin (Clostridium botulinum) [pid:54.0%25%2C q_cov:97.7%25%2C s_cov:99.2%25%2C Eval:1.2e-35],MGA_1155
sequence04	MetaGeneAnnotator	CDS	211192	211611	.	-	0	ID=MGA_1156;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904077.1;translation=MGIVIENISEYLKSHGIKPSYQRIKIFEYLVKNKNHPTVDMIYKAIIEEIPTLSKTTVYNTLNLFIEKKIAIMIVIEENETRYDADVDLHAHFKCENCGEVKDIEISPEKADILELNGYQVNEHHIYFKGICSECLKKR;locus_tag=LOCUS_11510;note=WP_005904077.1 Fur family transcriptional regulator (Fusobacterium nucleatum) [pid:61.7%25%2C q_cov:95.7%25%2C s_cov:93.7%25%2C Eval:9.6e-44],MGA_1156
sequence04	MetaGeneAnnotator	CDS	211692	212801	.	-	0	ID=MGA_1157;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011476199.1;translation=MSIVTELEKEFEKAPIFRAILDSLPEMIFIFDNKGRLTKVNAKVQIFLKQNKEIIFSDESGKEVECKLDVEIEDDNPLIRDCFIRNIVKEVRQTKKAIYNRQGYLNIFLTNKTKKIKILLNALPFRFENSDYVIVTIRDVQNIKKYEEQHIKDMHKFSVIGESVSTIVHDLKNPLTGLAGYLELLKMTDSKEKKELFYEKMEQGIDRLKTMLQDILNIAAGINDMILDKTYINVKELFLDVINLLNIEHLVKLKIDENIYVYGDRDKLHNVFWNILKNAEEALPHGEGEIKVEVIEYDKTLKIIISDTGKGIPEEIKDELFTLGATFGKSKGTGFGLASVKKIIDAHNGRIRFESLTNKGTTFYIRLPK;locus_tag=LOCUS_11520;note=WP_011476199.1 ATP-binding protein (Ligilactobacillus salivarius) [pid:27.2%25%2C q_cov:98.6%25%2C s_cov:75.3%25%2C Eval:3.4e-25],MGA_1157
sequence04	MetaGeneAnnotator	CDS	212829	215405	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNIKVNESEKKEYKLYIDEKWYIPIDKNGYTKGTCYEGALGVVIQLKNDRGGVYALKIPRLLADTLKENAYICELLNEEEKNVTEIFTTQDDIGRDGLLRGSLLSEKIIQKPIQSINSTSEEARKQNGQIIAVQYNKGKMPRFCGIKVDEEGEIKLFPEGVKLEELPLENKKDFEKLKKNAMDGNSPWQKTIVLYEPIENRRVISYLDVLEFLKEENEYNKLWYVGLPSIVYEWGNSTLSEVIINRKNKEWDLINYLELNRTLLDGLNSLHHRNIIHSDIRPANIMYMGNYTNPKNYKLIDYGSFNKHDVGIIDGNKVSDEHFSRILGPTLSKERTSPFYAPERKSDIERENADTAVFVNNEDDTVRILLGWRGELLEEDIVKEEVIENIKEFKYPKEIEENPKYDSSLLIPGDKIQIREYIFQIEDVGITENGNKILLCSKNYWKIFHGKIIIASKEIIETGAWMSIPRTTELRQWSFATDIYGVGAIFLYTLFFGGLEKDELQTAENQFAEMLSELDSIPFFKNMWVDLAPLCAQIEKFYEEDTDKSKIENFIFNPEDYLDFAKDMEKDNIQKKSFLEYAKYITFLITYSVKETRKILKLLNYNYIYFIYAMHYALNCLHRRVSLLNEDEKEENFIKSSEKVVYPFCKSRINNRDDKNQAVLKAIDYLDRFIKILNSKKFDSFILGEEEKERNNPQHIPATELRRRFVELNDKHNNLEIKMEKMKELNSRLEEEKNENEKRIKELEQIRKALELQKEKINNDFKEKLEREKELEKIVEEKKEYIKNLEYTLAQEKTKIEEIENNYKYVVNDNEKIKSTVYEIVASAKKKLGFGYSDEVIDELLLQINKLKSEKQ;locus_tag=LOCUS_11530;note=MGA_1158
sequence04	MetaGeneAnnotator	CDS	215491	215943	.	-	0	ID=MGA_1159;product=N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015995.1;translation=MKFIEILSNEKEYIEQIIKIEERIFGKNGGVDYWILKPIIRYGKVLAIEENNKILAVAELINNWDNNTIYIYGFCVDIKYQSKGIGKVFLEKLKEYIIKNKKTIKNIVLTVDKENIKAIKLYEKLGFEIEKELKDEYGKGIDRLYMMFKI;locus_tag=LOCUS_11540;note=WP_011015995.1 N-acetyltransferase (Fusobacterium nucleatum) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:4.4e-22],MGA_1159
sequence04	MetaGeneAnnotator	CDS	215953	216684	.	-	0	ID=MGA_1160;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627073.1;translation=MRNIKITYQYNGSNFYGMQRQNEFRTVQGEIEKALNKLFREKITIKTSGRTDRGVHALFQVSNFLTNNKTIPVEKLTYILNRGLPKDIHILDTKEVELEFNSRFSAKDRAYIYKMCSQKNPFDYDKVMNVKEEINEEKLKKILTPLLGEHNFDSFRKSDCEAKNNFREIKEIKCYRENNYTIVYLKANAFLKSMVRIIIGSALAVYFGERDENYIINKLKDPNINDEKILAEPQGLYLCEINY;locus_tag=LOCUS_11550;gene=truA;EC_number=5.4.99.12;note=WP_201627073.1 tRNA pseudouridine(38-40) synthase TruA (Fusobacterium canifelinum) [pid:48.6%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:4.9e-55],MGA_1160
sequence04	MetaGeneAnnotator	CDS	216784	217656	.	-	0	ID=MGA_1161;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869561.1;translation=MEKIIEKANILLEAMPYIKEFSGKTIVIKYGGSAMTDEKLKQDFIRDIVLMKYVGMNPVVVHGGGPAINEILKKVNKKVEFIEGNRVTDIETVELVEMVLAGKVNKDIVAIINKNGGKAIGLSGKDSNLILAEKKYIEKNGEKIDIGYVGKVKKINIDIVNTLIEKGYIPVVCPVGSDEEGTTYNINADYVAGEVAGALKADKFIFVTDVMGIMRDIDDKGSLINKVTEEEVEKLINNKIIVGGMLPKISACLNALDKGAGKVHIINGKIEHSLLLEIFTKEGIGTMIVK;locus_tag=LOCUS_11560;gene=argB;EC_number=2.7.2.8;note=WP_010869561.1 acetylglutamate kinase (Methanocaldococcus jannaschii) [pid:56.3%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:1.8e-89],MGA_1161
sequence04	MetaGeneAnnotator	CDS	217713	220874	.	-	0	ID=MGA_1162;product=carbamoyl-phosphate synthase (glutamine-hydrolyzing) large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965932.1;translation=MIKKVILIGSGPIIIGQAAEFDYSGTQACKAIKEEGIEVILINSNPATIMTDENIADKVYIEPLTTDVIEKIIIKEKPDGILAGFGGQTALTLAMKLYDKGILDKYGVELLGINIEAIKKAEDREEFKELLEKIGEPIAKSKIIHKLEEGIKFTKEIGYPIILRPAYTLGGTGGGIASNEKEFIEICERALKLSPIHQVLVEQSVAGWKEIEYEVMRDKKGNCITVCNMENLDPVGIHTGDSIVVAPSQTLSNKEYQMLRESSFKIVSALDIEGGCNVQFALNPNSYEYIVIEVNPRVSRSSALASKATGYPIAKIAAKIALGYSLDELKNSVTKKSSAFFEPAIDYIVLKLPKWPFDKFKTASKSLSTQMKATGEVMAIDRTFEGALMKAISSIEGGYTGLNYSGLKEKSDKKLINELVTNNSDRIFAIAELFRRKYKIEDIFNYTKIDRWFLKGIHNIIDLEKKLEENPKNIKYIKKAEKIGFVDDEIIRLSKITKKELDNIRKESNLYPTYKMVDTCSGEFEAVTPYYYSCYESTDENIITNNKKIIIIGSGPIRIGQGIEFDYCSVHAIWAAKERGYEAIIINNNPETVSTDFDTSDKLYFESLYIDDVINIVREENPEGVIVQFGGQTSINLTERLEKSGIKILGSDFNSIDLAEDREKFREFLENLKIKSPIGDAVSTIDEARKLIEKIGYPVIVRPSYVIGGRAMKVINTDKELVEYFEDAKKLDAVSILVDKYLYGTEIEVDAISDGEDVLIPGIMEHIEKTGIHSGDSISAYPPITLSNELKDKLVETTRKIAINLKTKGLINIQYVYYENELYIIEVNPRASRTVPILSKVTGIPMVKIAVDIMLGDKLKNMKYGTGLAKEKEFYSLKFPVFSTEKLADVDIFLGPEMKSTGEILAIDKKLENAIYKGFKACGVGKIENKKVYVSFSDISKEKGKEIVKKYINKGFKIYSSGNTYKYLKEFYDIIELDKEDISNKLKEKKIELIINIPTFGNNTKTFGFKLRRKAAENKIALFTAIETAELYLKVYEATENKNYYTVKEYLEM;locus_tag=LOCUS_11570;gene=carB;EC_number=6.3.5.5;note=WP_010965932.1 carbamoyl-phosphate synthase (glutamine-hydrolyzing) large subunit (Clostridium acetobutylicum) [pid:62.1%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_1162
sequence04	MetaGeneAnnotator	CDS	220878	221948	.	-	0	ID=MGA_1163;product=glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965933.1;translation=MKKGYLYLSDGSYYEGNLYGEENIKYGELVFNTSMTGYQEILTDPSYAKQIVILTYPFIGNYGTNDMYNESQDVYASGLIVKNLEKTPSNFMNKDSLEEFAKQKNLTILGNIDTRSLTIKIRDIGVMNSIISPKKLDEKELKELFSKPLNIESSMTEVGVKEIIEIKGNKETIGVLDLGLKNNILDNLKKRDINIKIFPYGTKAEEILAHKVDGLLVSNGPGDPKYAIKAIACIKNLFDKLPIFGICMGNQIISLAAGADTYKMKFGHRGGNHGVIDYKKNRSFITSQNHGYAVDEKSLENTGFEVAFRNLNDDTVEGIRHKDYPIFSVQFHPEACPGPHDTEYLFDEFLTLVRGE;locus_tag=LOCUS_11580;gene=carA;EC_number=6.3.5.5;note=WP_010965933.1 glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit (Clostridium acetobutylicum) [pid:52.3%25%2C q_cov:98.3%25%2C s_cov:99.7%25%2C Eval:6.8e-108],MGA_1163
sequence04	MetaGeneAnnotator	CDS	222012	223229	.	-	0	ID=MGA_1164;product=bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965687.1;translation=MIKKDITINDVEGFKSIGIDAKLRKEKRENLALIYAKNGAIASGVFTQNVIKAAPVIYNMKNIENENIKAVIINSGNANACTGEVGYQNTEIIAKNIAKHLEIESEEVLVNSTGIIGVQLPMDKILSGIEKICTEVQNHNDKHSIARAIMTTDTKPKEIGVELELDGKKVKIAGIAKGSGMIHPNMATMLGFIVTDINITKDMLEKAFKPTIDKSFNMISVDGDTSTNDTCIILSSRKAKNKLIDKEDKNFNKFKEALEYVNIELAKMIAADGEGATKLLEVNVVNYKNEEEAKILAKSIITSNLTKAAFFGADANWGRILCAMGYSGVQFTPNTLDLYFKSGKGEIKVFENGLPIIFNEDKVKEILLEKEVIVIADFKTGEHSATAWGCDLTYDYVKINGSYRS;locus_tag=LOCUS_11590;gene=argJ;EC_number=2.3.1.1%3B 2.3.1.35;note=WP_010965687.1 bifunctional glutamate N-acetyltransferase/amino-acid acetyltransferase ArgJ (Clostridium) [pid:52.5%25%2C q_cov:98.3%25%2C s_cov:97.3%25%2C Eval:1.8e-115],MGA_1164
sequence04	MetaGeneAnnotator	CDS	223246	223680	.	-	0	ID=MGA_1165;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461766.1;translation=MQKYYEVKKDNFLVTTDPNKINIQSVYDHLSNAHWANKRSKELIEKSFKNSLCFSLLDNDKHIGIARVVTDYATFAYLCDVYIDEAYRGQKLGEFLIKSVVEYKELKNLRRFLLYTTNAKEFYKKFGFHELINKNNFLEIFNDV;locus_tag=LOCUS_11600;note=WP_011461766.1 GNAT family N-acetyltransferase (Desulfitobacterium hafniense) [pid:38.5%25%2C q_cov:81.2%25%2C s_cov:76.3%25%2C Eval:3.7e-20],MGA_1165
sequence04	MetaGeneAnnotator	CDS	223693	224733	.	-	0	ID=MGA_1166;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965686.1;translation=MIKAGVIGATGYAGQQLVYLLKYHKEVEIIFLSSNSYSGKKYSDVYTNYYGIIDNVLVSTEEALEKYDEIDVLFLALPHGKSIELVKKAVDKGVKVIDLGADYRLDSKEEFEKWYQIEHPYESLLKESEYALVELKDKESIKNSKVIANPGCYPTATLLGIAPLLKKKFIDTKNIIVDAKSGISGAGRGIDIYKLYCEATENVKAYKVASHRHTAEIEQEMSKLANKDIKITFTPTLIPMSRGILSTIYANLKINKTKQELLEIYKEFYKENKFVRIREIDVQTKDVKRTNYCDITINIDNRTNRVIITSVIDNIVKGAAGQAIQNMNVLFDLEENMGIENISIYI;locus_tag=LOCUS_11610;gene=argC;EC_number=1.2.1.38;note=WP_010965686.1 N-acetyl-gamma-glutamyl-phosphate reductase (Clostridium) [pid:51.8%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:6.5e-100],MGA_1166
sequence04	MetaGeneAnnotator	CDS	224858	226066	.	-	0	ID=MGA_1167;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986966.1;translation=MKKDKVVLAYSGGLDTSITIPWLKENYDLEVIACCVDVGQDDDMEQVKIKAIESGASKVYVEDCKEEFLTEYAFKALKAGAVYEHKYLLGTSHARPLIAKKLVEVAHKEGAKYICHGCTGKGNDQVRFETGIAAIDQSIKIIAPWRIWDIKSREDAIDYANAHGIKLTVTKEKIYSRDQNLWHISHEGGDIEFLENEHKDEIYMMVKPLEQAKDTAEYVEIEFKKGVPVAVNNEKLDAVSLVTKLNKIAGEHGIGVIDIIENRIVGMKSRGIYETPGGTLLYAALQELESICLDKDTMSFKKTVAQKYGDLTYSGLWFTPLKDGLDAFIDSIMENVSGKVKLKLYKGNIKPAARISKYALYDEGISSFGASDMYDHKDAEGFIKLFSLPTKVQSLIKSKNSK;locus_tag=LOCUS_11620;EC_number=6.3.4.5;note=WP_011986966.1 argininosuccinate synthase (Clostridium botulinum) [pid:68.7%25%2C q_cov:97.8%25%2C s_cov:99.0%25%2C Eval:3.3e-162],MGA_1167
sequence04	MetaGeneAnnotator	CDS	226094	227467	.	-	0	ID=MGA_1168;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808617.1;translation=MKLWGGRFNKESSKLLEKFNASITFDIRMYKEDIMGSIAHSKMLAKQNIISKEEQEKIEKALKEIELEIDNDELEFSLADEDIHMAIEKRLIQKIGDTGKKLHTARSRNDQVALDIRLYLKKEIKNIKEIIIDLLKVIKEVAKNNKEVILPGYTHLQRAQPILFAHHLLAYFEMLKRDYDRLNDLYKRVDVMPLGASALAGTTYNIDRHFVAKELGFGKVTNNSLDSVSDRDFIAETNFVIAMIAMHMSRFSEEIILWATSEFGFINLDDAYSTGSSIMPQKKNPDIAELVRGKTGRIYGNLISILTVMKGLPLAYNKDTQEDKEGVFDSIDNIKISLEIFKEMLATIKVNKENMIKDIYKGFINATDIADYLAKKGIPFREAHEVVGKLVAYCEENNKYLNELTFDEYKKFNEKFEEDIIEKAKIETCIKDRNSYGGTSYSEVERQLKEAEKFLKN;locus_tag=LOCUS_11630;gene=argH;EC_number=4.3.2.1;note=WP_005808617.1 argininosuccinate lyase (Desulfitobacterium hafniense) [pid:52.2%25%2C q_cov:99.8%25%2C s_cov:98.9%25%2C Eval:6.7e-138],MGA_1168
sequence04	MetaGeneAnnotator	CDS	227647	228372	.	-	0	ID=MGA_1169;product=basic amino acid ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005915025.1;translation=MKKILTLVILATIFLVGCGGNKEKTYVVGTNAEFPPFEYREGDKIIGFDIELIELLTKEAGIKYEVKDMSFDGLLPALQTKKIDLVVSGMTATEERKKSVNFTKSYYSTSQVIIVRENQNNIKSFDDLVGKKVGAMIGTTGDLIVSDIKDVNVKKYNASYAAILDLKADKIDAVVLDSEPAKNYVKQNKGIKVIEGVSVTEEYAIALRKEDKELLEKLNKAFETIKANGEYKKLYDKYFSK;locus_tag=LOCUS_11640;note=WP_005915025.1 basic amino acid ABC transporter substrate-binding protein (Fusobacterium hwasookii) [pid:51.9%25%2C q_cov:99.2%25%2C s_cov:96.3%25%2C Eval:4.2e-67],MGA_1169
sequence04	MetaGeneAnnotator	CDS	228437	229168	.	-	0	ID=MGA_1170;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016658.1;translation=MIKIVDLHKYYGELEVLKGINKEIKKGEVVAIIGPSGSGKSTFLRCLNLLEEPTNGHIYIDGIDILDKKTDINKVREEKIGMVFQHFNLFPHKTVLENLTLGPIKIKNFTQKEAEIIAFELLEKVGLKEKAYVYPNSLSGGQKQRIAIARALAMKPSILLFDEPTSALDPEVVNEVLEVMKTLVKEGMTMLVVTHEMGFAKNVASRVFFMDRGNILEDDEPKKIFENPSHERTKEFLSKVLNH;locus_tag=LOCUS_11650;note=WP_011016658.1 amino acid ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:68.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.6e-93],MGA_1170
sequence04	MetaGeneAnnotator	CDS	229161	229883	.	-	0	ID=MGA_1171;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903444.1;translation=MSYLETLKNIFINDGRYMYIIKGLGFSVGVTIFAAFIGLVVGIILALFRLSRFYPLKKFEHLNEEIKKFNPLELFALLYVDLVRGTPAVVQLMILANIVFVGALRDTPVFIVAGLAFGLNSAAYVAEIIRAGIQGLDKGQMEAAKALGMPYRLAMKEIIIPQAIKKILPTLVSEFITLLKETSIVGFIGGVDLLRSANIITSQTYRGVEPLLAVGFIYLVLTSLFTKFMRVVEKGMRKSD;locus_tag=LOCUS_11660;note=WP_005903444.1 amino acid ABC transporter permease (Fusobacterium nucleatum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-91],MGA_1171
sequence04	MetaGeneAnnotator	CDS	230351	233932	.	-	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLKKLFILFTLLITIVSCNSNTVKKEVVNEVPTKTETVVETPKAEEAIKVTESAKVEETKAEERKVEDLVVTNKNNPPVIKGTEDLNEQEVVIALTSDMHGRIYPYDYAIDSEDKDAGYAKIYTLVKQLRKENPNMILLDNGDTVQDNSAELFNDMNPHPMVEAMNFMGTDAWTIGNHEFNFGKDFLIKNINSFKGSVISANIFNKDDGSYFVQPYQEFIVNGARVVVIGITPPHIPKWEASTPEHFKNLIFQETKRSLQATLDEIGDNFDVLIGAFHLGRKGEYGGAGIYDLAKAFPEFSVIFGGHEHATYVEDVNGVKIIEPGKYGSSLAVAGIKLVKTDGNWEVKGVEAANLSTKEVEPDKEMLEKFKYVHEKSLADANTVIGEVTDDFIKGVDYITKADKVTTMPTAQLQDTAVINLINRVQKKYANADISSAALFNFGSNLKKGPFKKKDVAYIYKYPNTLVGVNITGENLLKYMEWSASYYNTWKEGDITISFNENVRGYNYDMFYGVNYEIDLSQEPGNRIKNVIFNGKPFDKNKTYKLAVNNYRFGTLLSLGLVKPEDKYFDSYAEMQDAGRIRDLIIKYTKEMGGKLSPKVENNWKIVGIKLDYPGKEEILDKVRSGEIQIPRSKDGRTLNVKSLNIYDFPRDVKIDIVTFNDFHGHVKEGRKELGMAKIVGYVDALKKENPNVLVVSAGDNYQGTAISNLTVGAPVNDMFELLDLVGSAIGNHEFDWGVEKIKEWEDKGVAFLASNIYDKATNKPVSWAMPYRIVEIAGKKIAFIGLSTESTAYQTKVENVKDLKFIPVEKAAKEWVEYLMSGKASEGKPDAIIALTHVPTVQDRDTKEITGDEIERLSKVKGIDAIVTGHSHKIVSGKINGIPVVQAYKYGRALGRIELMFDKENKLTVNAYVDLAYKHKEDIPVSKEAKLRYEMREEKLKPILGKVVGKLNEDLIHDRSAKNLTPLGYWAADIMRKATGTQIGLTNGGGLRRSLYKGDITMGDLYEVMPFDNQLVTMKVSGKHLKELIDHGIDADYMTDGQFAGLYVVYNPDKEYEHRVEMLALEDGTIVEDDKWYTLTTNDFILGGGDKYNFKGAKEVVDTYVQIRDVLEEAIEKEKEVKVPNIEGIMIPVTEYKAEPGDCLWNIIKAADNTLSDKEILSIVKDLALINRLENPDLIYIDQTLRLPLDN;locus_tag=LOCUS_11670;note=WP_002682151.1 5'-nucleotidase C-terminal domain-containing protein (Treponema denticola) [pid:57.6%25%2C q_cov:49.5%25%2C s_cov:96.2%25%2C Eval:1.5e-204%2C partial hit],MGA_1172
sequence04	MetaGeneAnnotator	CDS	234066	235751	.	-	0	ID=MGA_1173;product=5'-nucleotidase C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680122.1;translation=MKKTLKTLALFLLISVFAFAEGVKIDIVTFNDFHGHVKEGRKELGMAKIVGYVDALKKENPNVLVVSAGDNYQGTAISNLTVGAPVNDMFELLDLVGSAIGNHEFDWGVEKIKEWEDKGVAFLASNIYDKATNKPVSWAMPYRIVEIAGKKIAFIGLSTESTAYQTKVENVKDLKFIPVEKAAKEWVEYLMSGKASEGKPDAIIALTHVPTVQDRDTKEITGDEIERLSKVKGIDAIVTGHSHKIVSGKINGIPVVQAYKYGRALGRIELMFDKENKLTVNAYVDLAYKHKEDIPVSKEAKLRYEMREEKLKPILGKVVGKLNEDLIHDRSAKNLTPLGYWAADIMRKATGTQIGLTNGGGLRRSLYKGDITMGDLYEVMPFDNQLVTMKVSGKHLKELIDHGIDADYMTDGQFAGLYVVYNPDKEYEHRVEMLALEDGTIVEDDKWYTLTTNDFILGGGDKYNFKGAKEVVDTYVQIRDVLEEAIEKEKEVKVPNIEGIMIPVTEYKVKSGDSLWKIITSFDSKLDNTKISETISNLVLINRIKNPDLIYIDQTLKVPLN;locus_tag=LOCUS_11680;note=WP_002680122.1 5'-nucleotidase C-terminal domain-containing protein (Treponema denticola) [pid:47.7%25%2C q_cov:84.8%25%2C s_cov:90.1%25%2C Eval:6.4e-125],MGA_1173
sequence04	MetaGeneAnnotator	CDS	236023	236187	.	-	0	ID=MGA_1174;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869128.1;translation=MYVIDKETCIGCGACEGTCPVSAISEADGKYEISEACIDCGACEGVCPVEAIAG;locus_tag=LOCUS_11690;note=WP_012869128.1 4Fe-4S binding protein (Thermanaerovibrio acidaminovorans) [pid:59.6%25%2C q_cov:94.4%25%2C s_cov:91.2%25%2C Eval:5.9e-14],MGA_1174
sequence04	MetaGeneAnnotator	CDS	236226	236393	.	-	0	ID=MGA_1175;product=4Fe-4S binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012869128.1;translation=MYVIDKETCIGCGACEGTCPVSAISEADGKYEISEACIDCGACAGVCPVEAIAAG;locus_tag=LOCUS_11700;note=WP_012869128.1 4Fe-4S binding protein (Thermanaerovibrio acidaminovorans) [pid:59.6%25%2C q_cov:92.7%25%2C s_cov:91.2%25%2C Eval:3.4e-14],MGA_1175
sequence04	MetaGeneAnnotator	CDS	236655	237674	.	-	0	ID=MGA_1176;product=M50 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017067.1;translation=MTLLITLLILSIIIFIHELGHFLAARVFKMPISEFSIGMGPELLSYKKSYTKYSVRGIPMGGFVNIDGMDIEKPVENGFNSKPAYQRFIVLFAGVFMNFVLAFIIMMSLTFISGKYDIVDDGSIGYISEKAPAYNDLKVGDKIKEIDNIKIENWNDITVIMRNIKKDKLNMVIERDGVLIEKKIKLIYDEKNQKYMIGINPKYIHSKYGFIEGIKEGVKSFNELFSTVFKGLKMLVKGEVKSDEVSGPIGMVRIVDEFVKTGKILLVWLTAMLSVNIGIFNLLPFPALDGGRIIFVILEMIGIKINKKIEERVHLIGMVILILLFFIITGNDIKNIFKK;locus_tag=LOCUS_11710;note=WP_011017067.1 M50 family metallopeptidase (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:96.8%25%2C s_cov:97.1%25%2C Eval:1.7e-81],MGA_1176
sequence04	MetaGeneAnnotator	CDS	237689	238369	.	-	0	ID=MGA_1177;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017068.1;translation=MGKLIVIEGSDGSGKQTQTERLYKRLKNENKKIKLISFPNYESKASEPIKMYLRGEFGDNVKEINPYPISTMYAIDRYASFNKEWGNFYQENGIVVSDRYTTSNMIHQGAKIKEYHKKIEYLNWLKDLEYNKIALPIPDIVIFLNMPTKQALELISNRENKITGKKEKDIHEKDIEYMKKSYENSLEIAKIENWYKIECVNEEGQIKSIEEIHNEVYHVVKDILEK;locus_tag=LOCUS_11720;note=WP_011017068.1 thymidylate kinase (Fusobacterium nucleatum) [pid:57.6%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:8.6e-72],MGA_1177
sequence04	MetaGeneAnnotator	CDS	238380	239138	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQTHKRIKQFFDRNDTIQFIFYPLYILIIIEITKTINFLDMMRYVMINFFSRINIFYLVLILVIEYLIIKFIDKVITKYFFENNTILFYFWGKLGYMIGKGDILSALLIIVVIFIKFLNLDNSIERLFLITIISSIFSGIFVNIIKPFITRKRPEKKLNNFDLFKFKEAILEKKMFKHEYLSSPSGHTTSIFSAMVPLYLYYNNFIFIIIACFVGVSRIISKKHWTSDVMLGAVLGSSIGYYFYEYFLLIN;locus_tag=LOCUS_11730;note=WP_000868576.1 phosphatase PAP2 family protein (Bacillus) [pid:27.8%25%2C q_cov:73.0%25%2C s_cov:95.5%25%2C Eval:1.2e-08%2C partial hit],MGA_1178
sequence04	MetaGeneAnnotator	CDS	239138	240283	.	-	0	ID=MGA_1179;product=1-deoxy-D-xylulose-5-phosphate reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373191.1;translation=MKNISILGSTGSIGTNALEIIRELKNEFNVIALTANSNYKFLAKQIKEFKPKYVAIGTEEGYKFLKNEFNNIEIFYGKEGLKEIGKLNETDIILTAVSGAIGLEATIEAIKKEKRIALANKETMVAGGDYINSLLKKYKAEIIPVDSEHSALFQSLLAGKDKEVKNLVLTGSGGTFRGKTIEFLKNVELEDALKHPNWSMGKKITIDSSTLINKGLEVIEAHQLFNIDYDKIKVVIHPQSIIHSMVEFVDNSIVAQMGVPDMKIPIQYAFSYPERLENKIIDRLDFMKYSNLTFEEVDNKVFRGIELAFFAGKIGKSMPIVFNAANEMAVELFLNNKIKFLDIYKIIENEMNNHKTINIDNLNVILEVDREIRDKIRREYL;locus_tag=LOCUS_11740;gene=dxr;EC_number=1.1.1.267;note=WP_147373191.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Fusobacterium nucleatum) [pid:63.9%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:5.0e-136],MGA_1179
sequence04	MetaGeneAnnotator	CDS	240394	241209	.	-	0	ID=MGA_1180;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017070.1;translation=MINRIIIAIVLVILTLLIYYLGGIPLLIFTNLVIIFGMSEFYKMLSYGNKKYNKYLGYFFGLIIPNGYYLQKMGYINFKHGTALFVVGIIILLTYRVLRNQIQNTSEYFMNTLLPVIYVSFMFSHILAISFLVEGKLWLITIQTLVWISDTFAYIVGMNIGRKFFKKGLSVISPKKSIEGSIGSIIFTIITMFLINIVFFDGIKIIHLIIIPVIVSFFGQIGDLVESIFKREYEIKDSGHILGEHGGILDRYDSLIFVLPLMYYYIKFFIV;locus_tag=LOCUS_11750;note=WP_011017070.1 phosphatidate cytidylyltransferase (Fusobacterium nucleatum) [pid:42.6%25%2C q_cov:91.9%25%2C s_cov:86.4%25%2C Eval:6.3e-49],MGA_1180
sequence04	MetaGeneAnnotator	CDS	241199	241900	.	-	0	ID=MGA_1181;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017071.1;translation=MNKKVPKHIAIIMDGNGRWAKSKGQPRIFGHKAGMKVIKNILIEAKELGIKYLTLYAFSTENWKRPEDEVKGLMFLLKEYLKKERKDLNKNNVKLKFLGRRDNVSKDVLKLMDETVEFLDKNDGITLNIAFNYGGRQEIIDAVNKLLLEKKEKITEEDIQKKLYGGPELPDPELVIRTSGEFRISNFLLWEIAYSEFYITNTLWPDFSIKEFRIAILDYMKRERRFGGLSNDK;locus_tag=LOCUS_11760;note=WP_011017071.1 isoprenyl transferase (Fusobacterium nucleatum) [pid:58.0%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:6.9e-72],MGA_1181
sequence04	MetaGeneAnnotator	CDS	242050	242403	.	-	0	ID=MGA_1182;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903918.1;translation=MRHNMSYRKLGRRADHRKAMMMNLTISLLREERIETTVTRAKELRKFAERMITLGKKGDLAARRRAFAFLRDDAVVAKLFSDIAPKYAERNGGYTRILKTGVRRGDSAELAIIELVK;locus_tag=LOCUS_11770;gene=rplQ;note=WP_005903918.1 50S ribosomal protein L17 (Fusobacterium) [pid:78.4%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.2e-46],MGA_1182
sequence04	MetaGeneAnnotator	CDS	242427	243395	.	-	0	ID=MGA_1183;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041516.1;translation=MLKIEKIANNINVTEIVENKFITKYVVEPLYRGYGNTVGNALRRVLLSSIPGSAVKAVRIDGVLNEFSAVDGIKEAVTDIILNIKELVIKTDTPGEKRMVLNVKGPKVVTGADILPDPEIEIINPDQVIATITTDRELNIEFLVDTGEGFVVAEDIDRTGWPIDYIAVDAIYTPIRKVSYKIEDTMVGRMTDFDKLTLTVETDGSVDTKDAISYAVELLEMHFNSLLDIGNKMEHLREPIDIEEDVVEEEIDERINMKIDELDLTVRSYNCLKKAGIESVGELSNLGLNELLKIKNLGRKSLDEIIEKMKELGYDLTANSAD;locus_tag=LOCUS_11780;EC_number=2.7.7.6;note=WP_023041516.1 DNA-directed RNA polymerase subunit alpha (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:2.7e-121],MGA_1183
sequence04	MetaGeneAnnotator	CDS	243441	244028	.	-	0	ID=MGA_1184;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903916.1;translation=MARNRQPIIKRCRALGIDPIVLGVNKKSNRGPRPNANQKPTEYAVQLREKQKAKFIYGVMEKQFYKLYKEATRREGVTGELLLQYLERRLDNVVFRLGFAKTRRQARQIVSHGHVLVNGRKVNIASYRVKVGDVVSLSEASRNIEFVKEAVEAVRVPSWLDLDKANFAGKVLQNPNRDALDFEINEALIVEFYSR;locus_tag=LOCUS_11790;gene=rpsD;note=WP_005903916.1 30S ribosomal protein S4 (Fusobacterium) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-81],MGA_1184
sequence04	MetaGeneAnnotator	CDS	244079	244468	.	-	0	ID=MGA_1185;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903915.1;translation=MAKKRVTSKKKKLKNIPVGIAYIHSSFNNTIIAITDTEGNVVSWKSGGTSGFKGTKKGTPFAAQIAAEQAAQVAVENGMKKVEVRVKGPGSGRESTIRSLQAAGLEVTKIVDVTPVPHNGCRPPKRRRV;locus_tag=LOCUS_11800;gene=rpsK;note=WP_005903915.1 30S ribosomal protein S11 (Fusobacterium) [pid:71.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-47],MGA_1185
sequence04	MetaGeneAnnotator	CDS	244509	244871	.	-	0	ID=MGA_1186;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903912.1;translation=MARIAGVDIPRNKRVVIALTYIYGIGKPTSQQILAEAGINPDTRVKDLTEEEVNKIRAIIDGIKVEGDLRKEIRLNIKRLLDIRCYRGLRHRMNLPVRGQKSKTNARTRKGPKKLVSKKK;locus_tag=LOCUS_11810;gene=rpsM;note=WP_005903912.1 30S ribosomal protein S13 (Fusobacterium nucleatum) [pid:83.9%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:3.6e-51],MGA_1186
sequence04	MetaGeneAnnotator	CDS	245138	245356	.	-	0	ID=MGA_1187;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899265.1;translation=MAKEDVIELEGKILEALPNAMFKVELENGHVILAHISGKMRMNYIKILPGDKVTVQISPYDLSRGRIVYRKK;locus_tag=LOCUS_11820;gene=infA;note=WP_005899265.1 translation initiation factor IF-1 (Fusobacterium) [pid:90.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:5.4e-31],MGA_1187
sequence04	MetaGeneAnnotator	CDS	245449	246219	.	-	0	ID=MGA_1188;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017049.1;translation=MVIIKSIEEIKKIKEANQLIAKLYKEVLPKYIKSGISTYEIDKIIEDYLLSNNATGESKGYGKEYGNPYPAVSCISVNEAVVHGIPSKDIILKDGDIVSIDVVTNLNGYIGDSAITYPVGEIDEESKKLLKVTEKAREIAIENLVVGKRLGDMGNAVQKYVEKNGFSVVRDFCGHGVGIKMHEEPMIPNYGRKGRGIKIENGMVLAIEPMVNVGTYKVELLSDGWTAVTKDRKRSAHFEHSVAIIGGKAVILSELD;locus_tag=LOCUS_11830;gene=map;EC_number=3.4.11.18;note=WP_011017049.1 type I methionyl aminopeptidase (Fusobacterium nucleatum) [pid:71.9%25%2C q_cov:97.3%25%2C s_cov:97.2%25%2C Eval:7.8e-99],MGA_1188
sequence04	MetaGeneAnnotator	CDS	246231	246857	.	-	0	ID=MGA_1189;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017050.1;translation=MNLMLFGAPGAGKGTQAKFLIEKYGIPQISTGDILREAVKNETEMGKEAKRYMDDGKLVPDNIIIGIIKDRLKEEDCKSGFILDGFPRTIPQAEALEELLKELNISLDKVISLNVPDEDIIERITGRRVSKSTGKIYHIKFNPPVDEKEEDLYQRADDTEETVKKRLDAYHNQTAPLFDFYKNKGILVEIDGTKTVNEVTKDIIAVLN;locus_tag=LOCUS_11840;EC_number=2.7.4.3;note=WP_011017050.1 adenylate kinase (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:1.1e-78],MGA_1189
sequence04	MetaGeneAnnotator	CDS	246980	248263	.	-	0	ID=MGA_1190;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904128.1;translation=MSSWEKFKNKLKSINELPELRKKILFTLLMFLIARVGTHIPAPGVDIDRLKSMVTQNDLLSFINMFSGGAFTKVSIFALGVMPYINASIIMQLLAVIIPKLDDIRKEGEAGRQKITQWTRYLTIVIAVVQGLGVTVWLGTMGLVTTPGVAFSINTITTLTAGTVFLMWLGEQISVYGIGNGVSQLIFLNIISRLPSGLISTVQKMSGSKYLVPLLALLVLLSFVVIAVIVLFQLGQRKIPIQYVGRGSVGKSVVAQNTYLPIKVNVAGIMPVIFASVLMVLPTMIIKALPSTMPGYVLLSRIFTNTHPFYLTIYAILIMFFAFFYTAMMFDPEKVADNLKQSGGTIPGIRPGNETVEYLEKIVTRITWVSALFLAIIAIIPTLVSNATGIPQVFSGTGVIIMVGVVLDTVQQINAQLVMRNYEGFIK;locus_tag=LOCUS_11850;gene=secY;note=WP_005904128.1 preprotein translocase subunit SecY (Fusobacterium) [pid:60.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.1e-154],MGA_1190
sequence04	MetaGeneAnnotator	CDS	248290	248775	.	-	0	ID=MGA_1191;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899800.1;translation=MRLNELSPANARKSRKRVGRGNGSGNGKTAGKGHNGQKSRAGATIPFAFEGGQMPLIRRVPKRGFSNFYFKKVYTVLNLNRLEAAFNDGDTVTPKVLLEKGIVKKLNDGIKILANGELTKKLKVVAHKVSKEAKNKIEAAGGEVEIIEIKTFADVAKNATK;locus_tag=LOCUS_11860;gene=rplO;note=WP_005899800.1 50S ribosomal protein L15 (Fusobacterium) [pid:57.0%25%2C q_cov:98.1%25%2C s_cov:99.4%25%2C Eval:5.8e-45],MGA_1191
sequence04	MetaGeneAnnotator	CDS	248779	248958	.	-	0	ID=MGA_1192;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892817.1;translation=MAKLKIKLVKSVSGRKPNHVATVKSLGLRKINQIVEHEKTPDIEGKVKLVSYLLEVEEV;locus_tag=LOCUS_11870;gene=rpmD;note=WP_005892817.1 50S ribosomal protein L30 (Fusobacterium) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:2.0e-17],MGA_1192
sequence04	MetaGeneAnnotator	CDS	248970	249467	.	-	0	ID=MGA_1193;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015714.1;translation=MAKNNNNVELKERILRINRVSKTTTGGRTISFSVLAAVGDENGKVGIGLGKANGVPDAIRKAIANAKKNMITVALKNGTIPHEQIGKFGATNILLKPATKGTGVIAGSSAREILELVGVHDILTKIRGSKNKNNVARATIEGLKTLRSAEQIAKLRGKEVKDILS;locus_tag=LOCUS_11880;gene=rpsE;note=WP_011015714.1 30S ribosomal protein S5 (Fusobacterium) [pid:69.8%25%2C q_cov:98.2%25%2C s_cov:98.8%25%2C Eval:2.8e-58],MGA_1193
sequence04	MetaGeneAnnotator	CDS	249487	249855	.	-	0	ID=MGA_1194;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904133.1;translation=MFKKVDRQKVRRRKHLKIRKRINGTASKPRLSLYRSNKNIFAQIIDDVNAVTLVSASTIDKELRAEVTNGGNVEAAKIVGKKIAERALAKGITEVVFDRSGYIYTGKVKALADAAREAGLKF;locus_tag=LOCUS_11890;gene=rplR;note=WP_005904133.1 50S ribosomal protein L18 (Fusobacterium) [pid:67.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-40],MGA_1194
sequence04	MetaGeneAnnotator	CDS	249885	250418	.	-	0	ID=MGA_1195;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904134.1;translation=MSRVGNKPINIPSGVQVTINGKDVTVKGPKGTLSKTFFDNITIKVEDNIINIERANDTPSVRALHGTTRALLNNMIVGVSEGFRKTLELVGVGYRAAAKGKGLELSLGYSHPVEIAPVDGITFTVEKQTVIHIDGIDKEVVGQVAAEIRAKRAPEPYKGKGVKYSDEIIRRKEGKKA;locus_tag=LOCUS_11900;gene=rplF;note=WP_005904134.1 50S ribosomal protein L6 (Fusobacterium nucleatum) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-69],MGA_1195
sequence04	MetaGeneAnnotator	CDS	250442	250837	.	-	0	ID=MGA_1196;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904135.1;translation=MFLTDPIADMLTRIRNANAASHERVDIPHSKEKEAIASLLKEEGYILNYKVIQDGNRKNIRVYLKYVDGQKVIKGLKRISKPGRRVYSGASEMPRVLSGLGVAVVSTPKGIVTDKFCRENNVGGEVLCYVW;locus_tag=LOCUS_11910;gene=rpsH;note=WP_005904135.1 30S ribosomal protein S8 (Fusobacterium nucleatum) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-51],MGA_1196
sequence04	MetaGeneAnnotator	CDS	250857	251144	.	-	0	ID=MGA_1197;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015715.1;translation=MAKKSMVQRDVKRQKTVDKYAAKRAELKERAKKGDREAIEALSKLPRNASPCRVRNRCEINGRPRGYMREFGISRVQFRQLAGAGLIPGVKKASW;locus_tag=LOCUS_11920;gene=rpsN;note=WP_011015715.1 30S ribosomal protein S14 (Fusobacterium nucleatum) [pid:68.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-31],MGA_1197
sequence04	MetaGeneAnnotator	CDS	251159	251698	.	-	0	ID=MGA_1198;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892302.1;translation=MARLLKKYNEEIVPALQKELGLKNIMQVPKLEKIVVNMGVGEATQNSKLIDAAASDMALITGQKPSIKKAKKSEAGFKLREGQAIGVAVTLRKEKMYEFLDRLINVVLPRVRDFEGVSSKAFDGRGNYSLGLTDQLVFPEIDYDKVEKLLGMSITIVSSAKTDEEGKALLTAFGMPFKK;locus_tag=LOCUS_11930;gene=rplE;note=WP_005892302.1 50S ribosomal protein L5 (Fusobacterium) [pid:78.7%25%2C q_cov:99.4%25%2C s_cov:97.3%25%2C Eval:1.1e-75],MGA_1198
sequence04	MetaGeneAnnotator	CDS	251716	252057	.	-	0	ID=MGA_1199;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897291.1;translation=MAKPKIKFVPNKLHVKTGDTVFVISGKDKGKTGKVLRVFPKKGKIIVEGINIITKHVKPNQINPQGGVVKREAPIFSSKVMLFDEKAGKPTRVGYKVVDGKKVRYSKVSGEVL;locus_tag=LOCUS_11940;gene=rplX;note=WP_005897291.1 50S ribosomal protein L24 (Fusobacterium) [pid:80.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-48],MGA_1199
sequence04	MetaGeneAnnotator	CDS	252076	252444	.	-	0	ID=MGA_1200;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904136.1;translation=MVQQQTILNVADNSGAKKIMVIRVLGGSKKRFGRIGDIVVASVKEAIPNGNVKKGDVVKAVIVRTKKEIRRQDGSYIKFDDNAAVVLNNNNEPRGTRIFGPVARELRAKEFMKIVSLAPEVL;locus_tag=LOCUS_11950;gene=rplN;note=WP_005904136.1 50S ribosomal protein L14 (Fusobacterium) [pid:85.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-53],MGA_1200
sequence04	MetaGeneAnnotator	CDS	252470	252721	.	-	0	ID=MGA_1201;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904137.1;translation=MRNERKVKEGVVVSDKMDKTVVVLEEKMALHPLYKKRVKKSKKFKAHDENNVCKIGDKVRIMETRPLSKDKNWRVVEIIEKAE;locus_tag=LOCUS_11960;gene=rpsQ;note=WP_005904137.1 30S ribosomal protein S17 (Fusobacterium nucleatum) [pid:74.4%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:5.9e-30],MGA_1201
sequence04	MetaGeneAnnotator	CDS	252748	252942	.	-	0	ID=MGA_1202;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015718.1;translation=MKAAELRNLETQELITKSKELKEELFNLKFQLSLGQLTNTAKIREIRREIARIKTIIKERELAN;locus_tag=LOCUS_11970;gene=rpmC;note=WP_011015718.1 50S ribosomal protein L29 (Fusobacterium nucleatum) [pid:61.7%25%2C q_cov:93.8%25%2C s_cov:100.0%25%2C Eval:1.0e-13],MGA_1202
sequence04	MetaGeneAnnotator	CDS	252942	253364	.	-	0	ID=MGA_1203;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904138.1;translation=MLMPKRTKYRKMMRGNLRGKAQRGNTVHFGEWGLQALEPKWITNRQIEACRVTINRTFKREGKTFIRIFPDKPYSKKPEGVRMGSGKGNVDGWVAVVKPGRIMFEVSGINDELAKEALRKAAHKLPIKCKIVKRENGGDE;locus_tag=LOCUS_11980;gene=rplP;note=WP_005904138.1 50S ribosomal protein L16 (Fusobacterium) [pid:72.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:4.5e-57],MGA_1203
sequence04	MetaGeneAnnotator	CDS	253366	254022	.	-	0	ID=MGA_1204;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892367.1;translation=MGQKVDPRGLRLGITRTWDSNWFAEKSDYKLYFHEDLRIKKYIKNKYYHAGISSIKIERTSPSQVVIIINTAKAGIVIGRKGAEIESLKKEIEKMTNKRAIIKVQEVKAFNKDAVLVAENIALAIEKRVAYKKAVKQAIMRAEKAGAQGIKVMVSGRLNGAEIARSEWSHSGRVPLHTLRADIDYATATARTTYGAIGIKVWICNGEVLPSKKEGGEA;locus_tag=LOCUS_11990;gene=rpsC;note=WP_005892367.1 30S ribosomal protein S3 (Fusobacterium) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-83],MGA_1204
sequence04	MetaGeneAnnotator	CDS	254035	254367	.	-	0	ID=MGA_1205;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897300.1;translation=MEAKAIARYVRLTPRKARLVADLVRGKSALEALDILTFTNKKAAGVIKKVLNSAIANATNNFEMDEEKLYVSKIMVDEGPKLKRLNPRAMGRADIIHKKTSHVTVVVSEK;locus_tag=LOCUS_12000;gene=rplV;note=WP_005897300.1 50S ribosomal protein L22 (Fusobacterium) [pid:79.1%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.6e-42],MGA_1205
sequence04	MetaGeneAnnotator	CDS	254411	254689	.	-	0	ID=MGA_1206;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897301.1;translation=MARSLKKGPFIDHHLKAKVLKAVESGDIKTVIKTWSRRSTIFPEFIGMTFAVYNGKKHIPVYVTEEMVGHKLGEFAPTRTYYGHGKDKKKKK;locus_tag=LOCUS_12010;gene=rpsS;note=WP_005897301.1 30S ribosomal protein S19 (Fusobacterium) [pid:83.5%25%2C q_cov:92.4%25%2C s_cov:93.4%25%2C Eval:6.6e-37],MGA_1206
sequence04	MetaGeneAnnotator	CDS	254718	255548	.	-	0	ID=MGA_1207;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904139.1;translation=MAIRKLKAITNGTRHMSRLVNEEIDKNKRPEKSLTVPLKASYGRDNYGHRTGRNKQKGHKRLYRIIDFKRNKLDIPAKVVSIEYDPNRTANIALLVYTDGEKRYILAPKGLKVGNVVMAGEKAEIKVGNALKLKDMPVGTQIHNIELQPGRGGQIARSAGVAARLVAKEGTYCHVEMPSGELRLVHRECMATIGEVGNSEHALVSIGKAGRARHMGRRPHVRGSVMNPVDHPHGGGEGRAPIGRKSPVTPWGKPTLGYKTRGKKQSDKFIVRRRKK;locus_tag=LOCUS_12020;gene=rplB;note=WP_005904139.1 50S ribosomal protein L2 (Fusobacterium) [pid:82.2%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.4e-133],MGA_1207
sequence04	MetaGeneAnnotator	CDS	255590	255877	.	-	0	ID=MGA_1208;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015719.1;translation=MNLYDIIKKPVITEKSELQRRENNVYTFIVDKRANKIEIRKAVESIFGVKVEEVNTLTVKPELKRYGMRVYKTKFVKKAMVKVKDGDKINLFPEV;locus_tag=LOCUS_12030;gene=rplW;note=WP_011015719.1 50S ribosomal protein L23 (Fusobacterium nucleatum) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-25],MGA_1208
sequence04	MetaGeneAnnotator	CDS	255879	256508	.	-	0	ID=MGA_1209;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904141.1;translation=MLLDLFNINGEKTGTVEVNDAVFGIDPNKAVIHEVLTAELAAARQGTAATKTRAMVRGGGRKPFKQKGTGRARQGTIRAPHMVGGGVALGPQPRSYEKKVNKKVRKLAVKSALAAKIQEGNLVVIDGGFDEIKTKKAITLVKALEANNKQLFVVNDLTAEADWNLYLSARNLVNAVVLQPNELGVYWLLKQEKVIVTKEALKTIEEVLA;locus_tag=LOCUS_12040;gene=rplD;note=WP_005904141.1 50S ribosomal protein L4 (Fusobacterium nucleatum) [pid:75.0%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:1.1e-83],MGA_1209
sequence04	MetaGeneAnnotator	CDS	256550	257176	.	-	0	ID=MGA_1210;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015720.1;translation=MTGILAKKIGMTQIFEDEKLIPVTVIEAGPNFVLQKKTVDTDGYNAIQLGFDEKREKNTTKPMMGIFNKAGVKPQRFIKEFKVDTVDGYEIGQEIKVDALNGVEYIDITGTSKGKGTAGVMKRHNFGGNRATHGVSRNHRLGGSIGQSSTPSKVLKGTKMAGRLGNETVTVQNLKVVRVDVENNLLLVKGAVPGPKNGYLVVKPAVKK;locus_tag=LOCUS_12050;gene=rplC;note=WP_011015720.1 50S ribosomal protein L3 (Fusobacterium nucleatum) [pid:79.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:2.0e-93],MGA_1210
sequence04	MetaGeneAnnotator	CDS	257265	257576	.	-	0	ID=MGA_1211;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897308.1;translation=MAASKLRIYLKAYDHKLLDQSAKKIAETAKKAGAEIAGPMPLPTKIKRYTVLRSVHVNKDSREQFEMRVHRRMVEILNSDQNIIKSLTSVNLPSGVGIEIKQA;locus_tag=LOCUS_12060;gene=rpsJ;note=WP_005897308.1 30S ribosomal protein S10 (Fusobacterium) [pid:79.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.5e-41],MGA_1211
sequence05	MetaGeneAnnotator	CDS	358	1287	.	+	0	ID=MGA_1213;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948969.1;translation=MKKYFLITLFAILITTPSFAENIKKLKIATLKGPTGMGMAKLMEDYSNDYNFDIYSAPDQLIAKIIKKEVDIAAVPANLASILYNKTKGNIKVAAINTLGILYIAENGNNISSISNLENKTIYASGKGATPEFILNYFLKKNNLKNVNVVYLLNHSDIASSLVANKIDIALIPEPFLTIAQTKNSNIRVALDLNKEWEKITNNNKLTMGVIIINKSINNNKIDEFLIRYKNSINFVNNNPDLAANLIEKHNIFTNKKIIKNSIPNSNIVFIDMNEGEKYLNDFYKILFDFNPKLIGGKIPNENFYYKNN;locus_tag=LOCUS_12070;note=WP_011948969.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:49.0%25%2C q_cov:91.9%25%2C s_cov:86.6%25%2C Eval:2.2e-80],MGA_1213
sequence05	MetaGeneAnnotator	CDS	1259	2017	.	+	0	ID=MGA_1214;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948970.1;translation=MKTFITKIIKKKIIILSWILIWGLIAKIVNNSILIPSPIETFKTLLSLVNKANFWYTIFFTVYRVLIGVLLSIFLGTFLSIFAIYSKILKDFFEPIITAIKSTPVMSFIVIALVWFKSGIVPIFINVLVCFPIIYTNILEGINSIDKKILNMAKLYKVKNIYIIKDIYIPATKNFLASGIIMSLGLGFKVTIASEILSVPRYSIGLNLLESKTLLETQELFAWTIIIVFLSLLFEGLFKFYLKYKRGNFKNE;locus_tag=LOCUS_12080;note=WP_011948970.1 ABC transporter permease subunit (Clostridium botulinum) [pid:54.9%25%2C q_cov:89.7%25%2C s_cov:89.3%25%2C Eval:2.3e-71],MGA_1214
sequence05	MetaGeneAnnotator	CDS	2010	2627	.	+	0	ID=MGA_1215;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948971.1;translation=MNNSIKLISIDKKYNNEIIFKNFSIEFEENKIHIIFGPSGIGKTTLLNIIAQIEDFDKGKIINNHTVSYVFQEDRLLPWLNVYENIEFVLKSIINKKNREKIIKNNLKLVKLENHLYKFPNELSGGMQRRVALARAFSYPSSLLLMDEPFKGLDLKLKKEIISDFLNLYKSSNKTIILVTHDIKEAKLLNGIIYDISKLKKISTL;locus_tag=LOCUS_12090;note=WP_011948971.1 ATP-binding cassette domain-containing protein (Clostridium botulinum) [pid:51.3%25%2C q_cov:96.6%25%2C s_cov:100.0%25%2C Eval:8.5e-49],MGA_1215
sequence05	MetaGeneAnnotator	CDS	2741	4180	.	+	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIYEALKKEINNLKNSTSTLNSDKVTISIKNIENSIDFLFEKAMKEKLNSEKIVKNFFEKKEVFEIIFDNIDIGLFIINVVNNEFYVESINRAYEKATGFKKDDVKNKNIKEIVDTKLYSAFTSNYQECINKKEPLEYEEILFVNSKRTYWFTKLIPLIENEKVIKIIGTSVPITEYKASEKEAKKRESFLKTLLDTIPNPIFYKDENLRYLGCNKAFEDILRLRLEDIIGKNVFELSSRELAEEYHKKDIELLKNPYKQQYEAQIKNANDQYRDVLFYKAVYEIDGEIAGIIGTILDITEIKNYQRILKELSLQDELTQIYNKRGIKELSQSMYRELIRNKGTLGILMIDIDNFKKYNDTYGHPEGDVCLSKIAQTIKESCNRPRDLVGRYGGEEFIVFLPNTDIKGTIVVAERILKKIRNLKIPHKTSPTADVVTVSIGVLNVLCDKNIDLDTHIFMVDNLLYKAKKNGRNRYEV;locus_tag=LOCUS_12100;note=WP_010941205.1 EAL domain-containing protein (Geobacter) [pid:34.9%25%2C q_cov:62.0%25%2C s_cov:39.8%25%2C Eval:9.6e-42%2C partial hit],MGA_1216
sequence05	MetaGeneAnnotator	CDS	4183	4758	.	+	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLIGYIKDNSINIYIKNRLLGTIDITNIKSIPNIPKIFNLTKEHLKTEWDKIKHNLTIADRLLNYVFNSELKLFIESDFSSAEGFGLMSIFIEVLKVSKIELLHKSDYFFTNGNKNNFCFVESNNRNFIYLDFNSGNKIIISKDNIDHLKQYINLERVDIISDKYINELKEFEQITLKDYLIVEHYLSK;locus_tag=LOCUS_12110;note=MGA_1217
sequence05	MetaGeneAnnotator	CDS	4766	5296	.	+	0	ID=MGA_1218;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011267874.1;translation=MYKEIICKENLNLNGIVLFQKAVRGIIYKNNKLLLIYSKINKDYKFPGGGMEINETEIDTLKREILEETGYNVTNYKKFGEIIEIDEPLDKSNYDIFKMHSVYYLCNVTNTISNLSLDEYEKELQFTPKWIDINNALKKNKIILNNNFNIPKWCKRETYVLEYLSNNIKDLENFSR;locus_tag=LOCUS_12120;note=WP_011267874.1 NUDIX domain-containing protein (Pseudomonas syringae) [pid:29.6%25%2C q_cov:89.8%25%2C s_cov:90.9%25%2C Eval:1.4e-16],MGA_1218
sequence05	MetaGeneAnnotator	CDS	5474	6517	.	+	0	ID=MGA_1219;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437479.1;translation=MKKFTIKDIAKIAGVHPSTVSRSLNNNPVIPEKTRKKIQDIAKKLNFEFNSSARNLSLNKTDNIGLIISNGFDNDSTMPFVNIILEKTRKILSKNSLDTIVEFSKNIYTNESNIQKMVASKKVDGFLILDSNFSKKEFNLLKKNKIPFEIMHFKPNFEDSENYGYTATDHFEGGLMATNFLIENGFTNIFTITAIQNDTSFNEFTLRTAGYRYALSKNQIEINENNILYSNISYEDTYKIIKNNIHIFKKGDAIFAQTDIIAFAVINAFRNHNIDVPNDISVVGYDDIDMARYFYPALTTIMQPLDELIEKSCYNLVKKIKNVTFKDNYKILIKPKLIIRDSVLIKH;locus_tag=LOCUS_12130;note=WP_003437479.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:35.8%25%2C q_cov:97.7%25%2C s_cov:98.2%25%2C Eval:1.2e-53],MGA_1219
sequence05	MetaGeneAnnotator	CDS	6593	8260	.	+	0	ID=MGA_1220;product=oligo-1%2C6-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000415207.1;translation=MERKWWKESIVYQIYPRSFKDTTGNGIGDLKGIIEKVDYLKELGVDIIWLNPVYKSPNDDNGYDISDYYSIMDEFGTMEDWEKLLNELHKRDMKLIMDLVVNHTSDEHIWFLESKKSKDNQYRDYYFWKKGKDGKEPNNWVSVFGGSAWQYDETTDEYYLHIFSKKQPDLNWENPKVRKDIYKMMKWWLDKGIDGFRMDVINFISKNTDFPSVSTNEKYGWGGEYFMNGPRVNEFFKEMNKEVLSNYNIMTVGECPGATPEHASSYANIDGSKLNMIFTFEHVSLDHGPYGKFDIKPLKLKDLKENINKWQIELYNKAWNSLYLMNHDQPRAVSRFGDDKKYRVESAKMLITFTMTLCGTPYIYQGEEIGMTNISFDSIEKYRDLETLNYYNEALNNGADKNKLMKAIHYMSRDNSRTPMQWDNTKNAGFSNADTTWINVNPNYTKINVKEALNDENSILNYYKKMIKIRKSNLTLIYGEHIPFMNDNENIFAYIKKYENQLYIVYLNFSKNKQSIILPENITKENLTLIISNYKNNDFFNLKPYEARVYKVSQN;locus_tag=LOCUS_12140;gene=malL;EC_number=3.2.1.10;note=WP_000415207.1 oligo-1%2C6-glucosidase (Bacillus thuringiensis) [pid:60.4%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.8e-207],MGA_1220
sequence05	MetaGeneAnnotator	CDS	8460	10514	.	+	0	ID=MGA_1221;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015784.1;translation=MSEKDKILKLRKEIKRYNYYYYIKNEPLISDTEFDKLLKELEVLEKKYPELKDENSPTNKVGSSIENNKFKKVEHKKPMLSLSNTYNTQDILDFHNRIVKFIESNNIEYTIEMKLDGLSITLIYENGELIQALTRGDGIIGEDVTENILQIKSIPKYLKENISVEVRGEVVLPISEFKKLNEIRINNGEEPFANPRNAASGTLRQLDKEIVKSRNLDAYFYFLVDSDKYNINSHFESLKVIEKLGLKTTKIYKKFKINEVEKYIKKFDEIRKNLDYETDGLVIKVDNINLYNILGNTTKSPRWAIAYKFPAKQATTKINNVTLQVGRTGVITPVAELEEIELSGSLIKRASLHNFEEIKRKDIKIGDTVFIEKAAEIIPQVVKVIKELRTGNEKNIEIPKTCPACGSKLIKENGLVALKCTNNNCSAKLQRKIEYFVSRDAMNIDGLGGKIIEKFIEIGKLKNIDDIYTLHNYKTELISLEKMGEKSVENLLTSIENSKNQKYEKVIYALGIPFVGKFTANILAKHSKNIDSLIRMSKEELLEIENIGEKIADSIVHFFKNPENIKLIDRLKKYGINFTISSKNNSNNIFEGKTFLATGSLKKYKRSEIRDIIENNGGKYLSTVSKNLNYLIAGEKAGSKLKKAKEMNITILSEKEFENLLNSNTNINKENDSIQKNTGQKTLF;locus_tag=LOCUS_12150;gene=ligA;EC_number=6.5.1.2;note=WP_011015784.1 NAD-dependent DNA ligase LigA (Fusobacterium nucleatum) [pid:57.3%25%2C q_cov:96.5%25%2C s_cov:95.8%25%2C Eval:1.8e-209],MGA_1221
sequence05	MetaGeneAnnotator	CDS	10572	12014	.	+	0	ID=MGA_1222;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016996.1;translation=MIKFIDFLNDLDYEILNQGEEFPLNNMQYDSRKIKENDIFIALEGYTVDGHNYINKSIENGAKLILCSKKLKKYNKNITYILIKNLRKNLGFIASRYYNFPEKKLKIIGITGTNGKTTITYILENILKNIARIGTIEYKIGDEILEAPNTTPESLDIIKICKKAVEKNIKYLVMEVSSHALELNRVNMLNFEVAGFSNLTQDHLDYHKTMENYFNAKRKLFLQTTKNNFVFNIDDKYGKRLYNEFGGISYGKNGDISGKILEYKLSSMLLKLNILNKEYIIETKLLGKFNLYNILCAIGISLKLNIPIDLIIDSIKKMNVVPGRCESIDIGQNFSIILDYAHTPDGLINILDTLHDMKKNRIITLFGAGGDRDKTKRPLMAKAATKYSDYIIITSDNPRTEEPDLIIDDIETGLKEINFKNYTKITDRRDAIKYAIDIAKENDIILLAGKGHETYQIIGRKKINFNEKNIVIKYLNDLKK;locus_tag=LOCUS_12160;EC_number=6.3.2.13;note=WP_011016996.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Fusobacterium nucleatum) [pid:50.9%25%2C q_cov:97.1%25%2C s_cov:96.9%25%2C Eval:1.6e-129],MGA_1222
sequence05	MetaGeneAnnotator	CDS	12118	12876	.	+	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLILQKIIANIFLSPFLIILLIIPLFFIKKYKKHYIFILSIFIYIFSIEPTKDFVIKPLESKYPTITKKTELDNIDIYVVLGSGINDYAPLNFNTNGTPTRAALARIVESIRLYNISKKKIIFSGGIVFNGKISEAEIYKKIAIDLGVNTNDILIETKSKTTYENLKNIKEILNNYNYKKIGLITSAIHMNRAINSAKKLKLDILAFPCDYHSRYTSYNISSFIPSYDNMKYIRDAIWEYIGVIYYNLKSY;locus_tag=LOCUS_12170;note=WP_000662215.1 YdcF family protein (Bacillus) [pid:38.6%25%2C q_cov:44.8%25%2C s_cov:54.3%25%2C Eval:2.9e-13%2C partial hit],MGA_1223
sequence05	MetaGeneAnnotator	CDS	12893	13729	.	+	0	ID=MGA_1224;product=3-deoxy-8-phosphooctulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041482.1;translation=MLVKDVKKINIGGKFNIGEKNKLTLLAGPCVIESEELVMEVAGKIKEICDRLNINYVFKSSFDKANRSSIYSYRGPGIEKGLQILQKVKDTYNIPVVTDIHEVWHAEKAAEVVDILQIPAFLCRQTDLLIAAAKTGKAVNIKKGQFLAPWDMKNVVKKFEECGNENIMLCERGSSFGYNTLVVDMRSLLEMREFGYPVVFDATHSVQKPGGKGDTTGGDRQYVSPLMRAALAIGVDAIFAEVHPDPDNAKSDGPNMLKLDELEEILKIAIEINNVVKK;locus_tag=LOCUS_12180;gene=kdsA;EC_number=2.5.1.55;note=WP_023041482.1 3-deoxy-8-phosphooctulonate synthase (Fusobacterium nucleatum) [pid:69.0%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:5.0e-110],MGA_1224
sequence05	MetaGeneAnnotator	CDS	13891	15618	.	+	0	ID=MGA_1225;product=O-antigen ligase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015263574.1;translation=MNKENRVQIILISILISFLSLVVFLKKIPLKPGTIEYLAWPVSNINYDFFSFYKSRILILFVAFALPITAINKWGKIDWKNHYLFLFIYILFAILSAVFSPFPQLAYNGVADRYESLSVLIAYIMLFFIINNSISNEKDLKSILIGVTIVSIGVALIGIFQYYGYDIFSSNFGRKLILPKDLEYLAKNLRFKFQKYQIYSTLYNPNYVGSFMTLTIFLGIGMYLYHTNIKKIFWYFYTLLMFANLVGCRSRGGFTGFIFSLLIFSIFYFKFILKNFKQLLFLFLSIILVFYLMNVSDKADKVLIKKYSTYFDNFDTGLRDLYIEGNTAIIRDKNTTLKIENIDNTKVVFLDINNNQIKTKIKTNTIYLLDDNYKNFRFELKKNALNFKYGDTHFEYLLILMDNTFKTVDNHNKIMPILTVPHVKLLEGYEKMGSFRIYNWSRTIPIIKDTLILGYGPDTFSIVFPQKDYFGKLISYGTKSILIDKPHNMYLQIAVNTGVISLIALIGLFLHFFIKFIKNRVSIQSNSFPIFISHFIGLGIIAYLITATFNDSVVSVAPLFWTFFGSWYGILELKK;locus_tag=LOCUS_12190;note=WP_015263574.1 O-antigen ligase family protein (Desulfitobacterium dichloroeliminans) [pid:33.4%25%2C q_cov:95.7%25%2C s_cov:93.6%25%2C Eval:3.1e-74],MGA_1225
sequence05	MetaGeneAnnotator	CDS	15630	15989	.	-	0	ID=MGA_1226;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861394.1;translation=MYIIKILDEIYSIYNIEKYENLKKHIEKSEFYSILKIRDNISIICKKQSSSNNENWRVLKIEDRNEDELIQVVANITTELANEDIDFNIVSAVSKDYILIKEKNFNKAIEILEKIYKIK;locus_tag=LOCUS_12200;note=WP_011861394.1 ACT domain-containing protein (Clostridioides difficile) [pid:28.3%25%2C q_cov:91.6%25%2C s_cov:91.9%25%2C Eval:2.3e-10],MGA_1226
sequence05	MetaGeneAnnotator	CDS	16095	17609	.	-	0	ID=MGA_1227;product=UDP-glucose--hexose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016044.1;translation=MIDINKEITRLINYALDKGLIEKEDKIFTINALLEVLELDEYKECKVNEKLEYPTEILEKILDWAYENGRLKENSVTYRDLFDTKIMAKLMPRPSEVIRNFYDIVEKKGIEKATDNYYAMSKKSNYIRTDRIAKNEHWYSKTEYGDLEITINLSKPEKDPKAIAAAKNMPQSSYPKCLLCVENEGYAGRLNHPARQNHRVIPITLTNEPWNLQYSPYVYYNEHSIIFSSNHRPMKIDKGSFDRLLEFVEKFPHYFIGSNADLPIVGGSILSHDHFQGGRHIFPMEKAHIETFVEIKDYEDIEIGIVKWPMSVIRINGKNRERLSKLADKILRNWREYSDESLGIYAYSKDEPHNTITPIARRRGLNYEIDLVLRNNRTSKEHPLGIFHPHNEVHNIKKENIGLIEVMGLAVLPGRLKHELRILEKLIIKDNYIEEIEKNQDVIKHLDWVKEVKSKYNNITFENAKEILKEEVGIVFSKVLEHAGVYKRDKEGLEGIIRFIQSIK;locus_tag=LOCUS_12210;note=WP_011016044.1 UDP-glucose--hexose-1-phosphate uridylyltransferase (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:99.6%25%2C s_cov:99.2%25%2C Eval:1.8e-168],MGA_1227
sequence05	MetaGeneAnnotator	CDS	17619	18608	.	-	0	ID=MGA_1228;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987061.1;translation=MNILVCGGAGYIGSHAVAELIQRGENVIVVDNLQKGHKDAVWEGAKLYIGDLRDKIFLDKVFKENKIEAVIHFAADSLVGESVQEPIKYYNNNVYGTMCLIEVMKENNVKKIVFSSTAATYGEPENVPILETDKTFPTNPYGETKLAVEKMLKWAEGAYEIKYVILRYFNVAGAHESGKIGEDHEPETHLIPIILQVALGKREKIFIYGEDYNTKDGTCIRDYIHVMDLVDAHILAVEKLFKTEKSGIYNLGNGNGFTVKEVINVARKVTGHEIPVEITDRRAGDPAKLIASSNKAIKELGWKPKYSNLEKIIESAWNWHKNNQNGFKE;locus_tag=LOCUS_12220;gene=galE;EC_number=5.1.3.2;note=WP_011987061.1 UDP-glucose 4-epimerase GalE (Clostridium botulinum) [pid:73.4%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:3.3e-138],MGA_1228
sequence05	MetaGeneAnnotator	CDS	18682	19857	.	-	0	ID=MGA_1229;product=galactokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016043.1;translation=MKEIVNELKKDFREIFGNGEVRTFFSPGRVNLIGEHTDYNGGNVFPCALSFGTYAIARLRDDKKVRLYSKNFKDLGIIEFNIDELKNTKEHDWANYPKGILSILKEKGYSIEKGFEILFFGNIPNGAGLSSSASIELATSVVLKGLFNLNIDMVNMVKVSQMAENQFVGVNCGIMDQFAIGMGKKDNAILLNCDTLEYKYAPVKLKNAKIIIANTNKRRGLADSKYNERRIECERALVDLQTKLNIKSLGELTEEEFEKNKELIKNEINRKRAKHAVYENQRTLKAVEKLNSGDIEGFGKLMNKSHISLRDDYEVTGKELDSLVEAAWEQEGTMGARMTGAGFGGCIVAIVKNDKIDDFIKNVGEKYFEKTGLKADFYIAEIGDGAREIKD;locus_tag=LOCUS_12230;EC_number=2.7.1.6;note=WP_011016043.1 galactokinase (Fusobacterium nucleatum) [pid:65.8%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:2.5e-146],MGA_1229
sequence05	MetaGeneAnnotator	CDS	20052	21998	.	-	0	ID=MGA_1230;product=beta-galactosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000575935.1;translation=MYFGVDYYPEHWEIELIDSDIKRMKEMGVNIVRIGEFAWHLMEKEEGKYDFNFFDMVIEKLKRANIKIMFGTPTATFPAWLAKKYPSILSKDENMQERVFGGRRQYCYNSDIYLEYSNKIVTKLVEHYKNEEAIISWQIDNEFGHEGSDMCYCENCQIKFKKYLKEKYKTPENLNEIYGTIFWGQTYNSFDEIPTPLKTITVHNPSLLLDWSRFRSYSLNGYANAQIELVKKLKGKHQTVTTNLSGGFFTKYYDHEENVKNLDFASYDNYPVWGGLKEPLSPAAIAAAHDFVRGLKDKNFWIVEELMGAQGHNIIGYLPRPNQAKMWSYQAFAHGCENMLWFRWRGMTRGAEQFCFGIIDHDNKDGRKYKEVKEVIEDVSKYEKVIQSKINADIAVVYDFDNIWSWKIQQQSLEFDFNNEIMRLYTPFYIFNTKIDVIPTTKDFDRYKVLVLPVMQIIDDELKEKLDKFSENGGTIIFSFRAGIKDKNNNIHFEETLPCKVREMCGIKIEEVEALQAGQEVEIKSLLDNNIGKCGVWRDLIIPVTATPIYKYIDKFYNDKVCITVNNYKKGKVYYIGGGVDIEVIVKIFKNIIDENNIKHYISEYGLEVYPREIDDEEYLFITNHTDQVKIFENIEIEPYGSKIIKRK;locus_tag=LOCUS_12240;note=WP_000575935.1 beta-galactosidase (Leptospira interrogans) [pid:35.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.3e-121],MGA_1230
sequence05	MetaGeneAnnotator	CDS	22037	22987	.	-	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKDVFKGIESLILENDYIKATFLPKYGSKLASLINKKTNREIFFQAKEKQIEIPKYGSKFSKYDSSGFDEVFPSIDEAPYPEGKHKNKMIPDHGEVWTLPWEYEIKLDYVLFSVKSPVFDYIFTKKVRLNNNKLEFRYIVKNLNDEEFKYIWTPHALINPYDDAKIIVPERLKKIITVEHSSEHLGKWGDIHNYPITISKKTNKEIDMSLVEAVEKNNCEKFYFLDKLEKNDICGIEYTKTKEKIIYRYDVEKIPYLGVWKTQGGYRGDYNIALEPCTGIYDDLYLANKIKKVAKVDAKSSVSWDFIIELINN;locus_tag=LOCUS_12250;note=MGA_1231
sequence05	MetaGeneAnnotator	CDS	22998	24197	.	-	0	ID=MGA_1232;product=DNA-binding transcriptional regulator NagC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000187578.1;translation=MEKGNFNLIKSININGILEIIRAKGPISRADIAKLTSLTPASISKTTKKLIKIGILEEIGIGQTTGGRPPIMLKLKSKAAYIIGVYMGPNSLDFILADLDGVVITEKSFKLKNHTKDYILRNLILNLKEIINNTEEEIFGIGIAMNGIVDISKGISVFSPHYEWKNIELEKILEKELKLSVIVDNDVRAMARGEGKFGVAKESKNFLVVNISEGIGSALILNGEIYTGGNYSAGEIGHITVEEHSTKRCSCGNYGCLEALASTKAMIENIKYKLMIGEQSKYLKYENIDLDKIIKAAKKGDRLARDLIIENAKYLGKALATVINIVNPNLIVIIGEINKIEGLFYKNVETTIKRYGLTTTLKNLEIKPSILQEKSATIGAVTLILENLFKGKRILSHKV;locus_tag=LOCUS_12260;gene=nagC;note=WP_000187578.1 DNA-binding transcriptional regulator NagC (Salmonella) [pid:30.4%25%2C q_cov:97.2%25%2C s_cov:95.6%25%2C Eval:1.3e-49],MGA_1232
sequence05	MetaGeneAnnotator	CDS	24411	25331	.	-	0	ID=MGA_1233;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903984.1;translation=MKLSTYMTEEFIFLDIDSNDIDSLIKKSIDELAKVDKKLVSIEKEVTETVLKREHEISTAIGNGVMIPHGRLGGYDDILVALVRVKKPIKYEIAAIHKEDDIKYMFLILASKNKNKLVLKLMSAISKLVNQKEFLDKIDIEIDKNKILKYIKKYEKDVKDTITAEDIMIKDVERVYENETLEDVASKLVISDLPGLPVFDMFDNFIGEITPRELIEYGLPKYMSLLGDMSFLATGEPFEDYFKNENTVKVNELYRKSVLTVTRKTPIMELSYLMVTKSATRLYVVEDNKFYGMILRKDIIKKVLHI;locus_tag=LOCUS_12270;note=WP_005903984.1 PTS sugar transporter subunit IIA (Fusobacterium nucleatum) [pid:39.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-60],MGA_1233
sequence05	MetaGeneAnnotator	CDS	25480	26778	.	-	0	ID=MGA_1234;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903983.1;translation=MTQFLIGVIIFILTFALIVSEKIPDTLSALLGGFLMIAVGIISEEKAFESIDMEVIFLLIGMMIIVHIMSETGVFQWVAIRLAQFVRGEPFLLLILLMLATALFSAFLDNVTTIMLIVPVSIILTEQLKLDPIPFLLMEVFASNIGGAATLIGDPPNILIATAGEISFNEFMFNMGPLVLIDMLFLIIISWFLFGRKMKVSRDLKARIMEIDPNRALRDNKILMKSGIVMGLVILGFLTNSITNFGIAATAMSGAVVLMIIAKQDPEEIFKTVEWKTLFFFIGLFILVQGVVEIGVLKILGQKMIKVTHGNLKITSALILWISTFVSAIVNNIPYTTTIIPLIKNELIPNIMKLHPELTKKTIEYALWWALSVGACFGGNATIVGASANVVATGIAAKSGRKISFFEFLKYGVLITILTVIVSNIYIYWRYL;locus_tag=LOCUS_12280;note=WP_005903983.1 ArsB/NhaD family transporter (Fusobacterium nucleatum) [pid:47.1%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:2.3e-116],MGA_1234
sequence05	MetaGeneAnnotator	CDS	26906	28204	.	-	0	ID=MGA_1235;product=ArsB/NhaD family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903982.1;translation=MDQVIIGALIFVITFVLIITERIPNTLSALLGGILMVLVGILSEEKAFEAIDLEVIFLLIGMMVIVHIMSETGVFQWIAIKLAQFIKGEPFLLLVLLIWITAIFSAFLDNVTTILLIVPVSIILTEQLKVDPIPFLLMEIFASNIGGAATLIGDPPNILIGTAAKLNFNEFMFNMGPLVIINIILLIIISWFLFGKKMKVSRDLKAKIMDIDPNKALKDKNILWKSALVMFFVILGFVTHTFTHIGIAVIALAGAVILMILINKEPEEVFKTVEWKTLFFFIGLFMLVEGVVEIGIIKILAEKLLEMTKNDVKITSILILWLSGIVSGVIDNIPYTTTLIPMIQKEMIPSIMKSHPELTKKTIEYALWWALSTGACFGGNATIVGASANVVATGIAAKSGRKINFFEFLKYGILITLITIIVSTIYIYVRYL;locus_tag=LOCUS_12290;note=WP_005903982.1 ArsB/NhaD family transporter (Fusobacterium nucleatum) [pid:45.0%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:6.1e-109],MGA_1235
sequence05	MetaGeneAnnotator	CDS	28470	30971	.	-	0	ID=MGA_1236;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015924.1;translation=MEKLDIKVLTAIRLAKLFIAGSRWVSKYADVLNDLNVYPVPDGDTGTNMSMTLQAIENDLIKLNDEMTMEGLIETVSEAVLLGARGNSGTILSQILQGFLNAAIGKTELDIKDVVHAFDRAREYAYNSVTEPVEGTILTVIREIAEAAKTWPEDKDNFVDFLSFIKNVAYESTEKTIDMLPKLKEAGVVDAGAKGLFYLMEGFEKSITDEEMLKDLERIVSNQAKRKTKVGFVEEDLEYKYCTEYIIMAGEFDIEEYKERIAKLGNSMIVAKTSKKTKTHIHTNNPGQALEIAGEYGELTNIKIDNMAQQHRSLVVGENEKGFTVDQHILIENLNIINNKAFVAIADTIEMAQLFLKIGAAGVLLGGQSKNPSVSDIEEMISQIEAEEIIILPNNKNIISTANLVCERSKKNVILFETRTMLEGYYVLKNRKEDLKEIVANTHRNKSIEITIAVRDTKADGLTIKKGSYIALVDGKLKYTNERLEEIISDIYRENITKDTLRIFAVKGKHTTKEGNDMLLSPEIDIEVYEGQQENYNYYIYIENRDPNLPEIAIVTDSAGDITKDLIDQYNINLLPIIVNFGKESYKDFFELKSEEFWEKILNGEMSKTAHPSTAEMRDMYNKLFAKGYKKIISIHMSSKMSGLQQSAKLARTMTGREKDIQIVDSKAVTILQGHLVIEAAKRAKQGESFENIVSWLEIAREKSSVYFIVNDLKYLEKGGRIGKASAAIGGVLKLKPILKIDDGEVSSYGKVLGEIAALKKIERLIKEQLKNNSIIAYPIWGGATEEFENAEKIRVFLEKQAKVDCRGKINIGPVVGSHSGPIYGVVMFPKLS;locus_tag=LOCUS_12300;note=WP_011015924.1 DegV family protein (Fusobacterium nucleatum) [pid:52.3%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:2.3e-246],MGA_1236
sequence05	MetaGeneAnnotator	CDS	31006	31524	.	-	0	ID=MGA_1237;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016229.1;translation=MSRNVENIKFIILDVDGTLTDGKLYYDNNGIETKSFSVKDGFAIVEARELGFKFGIITGRESKIVEKRAKELKFEIIYQGIKNKLEKIDEICNIYNIKYEEIAYMGDDINDIPAIKKVGFTAAPNDADNFIKEQVDFVSTKNGGDGAVREFIEHILKEKNLWKNIIEKYLNK;locus_tag=LOCUS_12310;note=WP_011016229.1 HAD family hydrolase (Fusobacterium nucleatum) [pid:51.2%25%2C q_cov:97.7%25%2C s_cov:100.0%25%2C Eval:8.0e-46],MGA_1237
sequence05	MetaGeneAnnotator	CDS	31540	32085	.	-	0	ID=MGA_1238;product=cupin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903986.1;translation=MLGEKIKKIRNEKGFSLRDLASQVDLSASFLSQIEQGKASPSIENLKKIANSLDVRVSYLIEDEEVKKDAIVTRKKDRDTVESMDSNTKISLLASGNIDKDMEPILYEIGPYGESGRESYQHPGEEFVFVLEGKLDVYINEKCYSLEEGDSLYFKSNQKHKFKNETNKTCKVMWVVTPPTF;locus_tag=LOCUS_12320;note=WP_005903986.1 cupin domain-containing protein (Fusobacterium nucleatum) [pid:61.5%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:3.5e-58],MGA_1238
sequence05	MetaGeneAnnotator	CDS	32101	33306	.	-	0	ID=MGA_1239;product=CinA family nicotinamide mononucleotide deamidase-related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015925.1;translation=MNKMRAYIILVGTELLSGMMIDTNSIYIAEELNKIGITIIGKSVVSDDIDEIIDLLKYVYNKSDIVIFSGGLGPTIDDVTRDAISKFLNIKNEIDGFHYDKMIEKFKLRNIKIFEKNKKEVMVPTGSEVFYNEPGIAPGFYINKIAAFPGVPIELKNLFPKFLSFLKEKYSLNKEVYIKDILFWGIAESILENEILDIIKNYENEIIFEFLVKDYGIIFRMQTEKHKIDLVNEIKNKIDNKLSGYIIGEDNERIETNVINKLIKQNKRISLGESCTGGLIASKLVSVSGASKVFTEGIVVYSNEAKHERLNVKKETIKKYGAVSKETVYEMLKGLKTEIGIAVSGIAGPNGGTKEKPVGTVYIGIKKDDIYNIKKHHFNGNREKIRERASLTALFELLKLL;locus_tag=LOCUS_12330;note=WP_011015925.1 CinA family nicotinamide mononucleotide deamidase-related protein (Fusobacterium nucleatum) [pid:51.0%25%2C q_cov:99.3%25%2C s_cov:98.8%25%2C Eval:5.9e-103],MGA_1239
sequence05	MetaGeneAnnotator	CDS	33299	33670	.	-	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKILIVDDEKHILQIVKFNLEKKGKYEVVSANDGQEGYEVSIKEKPDLIISDIMMPRLTGLEMCKLIRENDEVKSIPLIILTAKGQDNYIEEGKKYDVTDFLTKPFSPRELLLKVREILGE;locus_tag=LOCUS_12340;note=WP_000971872.1 cell wall metabolism DNA-binding response regulator WalR (Bacillus) [pid:50.0%25%2C q_cov:95.9%25%2C s_cov:48.5%25%2C Eval:3.3e-25%2C partial hit],MGA_1240
sequence05	MetaGeneAnnotator	CDS	33684	35270	.	-	0	ID=MGA_1241;product=GAF domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080773.1;translation=MARDIELELNIKKTYEDTINLFLEIQNDLNMDMNEDELIELYIKELKRIIDYHSVAFVKFNEEKNLYIITKQKNYNNVLKKNLLKILRENFLLWAGKMRKAFVLKEEVEEIKTSVIVPIVIQEKIIGAFILNTIYVEEYFTKNKLKVLEIVTSRISIAFENVILYKDLERRNQNLKALKNYMDNVVQNMNDGIIVLDSEEKIRVYNKKMEELINIKRKDVFGKKLINTKFDIEFITKLNRIVKKEIKSYITEEIEYKIDEDTKILFGVGVKPLKLEEENAGKLIVLRDLRESKELKELKRIDKLKDEFLSMVSHELRTPLTSIKAYAETLIDMAQEDSIEKEFLSIINEETDRLNILINDILDLSKIEAGKMEFRIKINDINAIIKRAVKNMESFAAKKDIIIQTEFQDEKCEIPFDKDRILQVLLNLINNAIKFSNENTEIKVFCKHYSDKHILIGVKDNGVGIAKEHFETVFEKFKQTDNILKRNVGGTGLGLPICKNIIEYHGGRIWVESEIGKGATFLFTIPKI;locus_tag=LOCUS_12350;note=WP_004080773.1 GAF domain-containing sensor histidine kinase (Thermotoga maritima) [pid:30.4%25%2C q_cov:93.4%25%2C s_cov:92.2%25%2C Eval:1.0e-55],MGA_1241
sequence05	MetaGeneAnnotator	CDS	35255	35761	.	-	0	ID=MGA_1242;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015926.1;translation=MNKNIVQFFLEWFGTGRSKKAPGTIGTLGAIPLYIIFHSLYFSGIIKNEKIYNMIYFVFLIFLFFISIYMCDFAEKKIYYKKDPQQVVLDEVLGYMTTLFMVNPTTILSLIINIVLAFILFRLFDITKPLFIDKVQDMKNGVGVVADDFLAGIVANIILIGVNLWLGI;locus_tag=LOCUS_12360;note=WP_011015926.1 phosphatidylglycerophosphatase A (Fusobacterium) [pid:47.2%25%2C q_cov:94.6%25%2C s_cov:91.8%25%2C Eval:6.0e-35],MGA_1242
sequence05	MetaGeneAnnotator	CDS	35967	38129	.	-	0	ID=MGA_1243;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015927.1;translation=MEIVAPAGDYNKFLAAVKAGADAVYLGIKGFGARRRAKNFTFEELRTALDYAHLRGVKIYLTLNTVIKDIELESLYENIKKVYEYGVDAIIVQDFGLLRFIRKNFSDIEIHASTQMTISNADEINFFKKFGITRVVPARELDYNSIKKIREKTDVELEMFVSGALCISYSGNCYMSSFIGGRSGNRGMCAQPCRKEYILDTNKEYILSPKDQLFRIDEIKKLKEIGINSIKIEGRMKSEEYVYEVVNYYRNLIDDLDRESNIEKIFNRGYSKGYFYNDKNLMNKKYASHFGYKIGEKISDNKFKLLDSVVLGDGITFVDKNLNILYGYNINKIDIKSSKNRKEAKKDDIIIFRKNLFENLNKTEYIYKNYNKSILDNINQKIKNSEKKIGINIEVIATLNNKLKIKIYYENINIEKEYFVIKEAKKRATTKEKIIEKFSELGDTSFFIKNIKIENDENIFLPLSELKNIRREIIKELENEILKSKKRVVNIKKIEKFREKEHKKLRISVLVSNEKQYNIAKKYLENKKIDEIYFKQVEVANEKNLDKIDLESKLCTNFYQVINNKNNKITLDKNFNITNSYAIKELEKIDKVETVYLSQELDKETIKNIKSEKINKALVVYGYLKGMYIEYSIFDNNKIEFKNKNGDEFIGIKNKIGNVEIYLKEPLNLIPKLNEIKVLNLDEIRLDFIFETEDEMIKILESLERMNGEYRGYNFDTGVL;locus_tag=LOCUS_12370;note=WP_011015927.1 U32 family peptidase (Fusobacterium nucleatum) [pid:48.1%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:4.5e-190],MGA_1243
sequence05	MetaGeneAnnotator	CDS	38244	39335	.	-	0	ID=MGA_1244;product=iron-containing alcohol dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392002.1;translation=MLNLFIAPRNYISGYDILKNIGNEISKISREATVLYDKNIEDIIVFGINSLKNKLNIKIEYFNGDCTHKEIDRVVKVIKENKSDCIIGFGGGKTMDTVKAAGYKADVKIVTVPTIAATCASWASHSAVYSDTGASYEYFNIYKNPDILYMDKKIIFEAPKRYIISGIQDTLAKWIETNAYTKNIKNKNVELEIAIYLAKKAYNEILKYGKKVIKDIENKNYSEEVDRIIEHIILTAGLIGGIGGEACRAVAAHAINNGFTIFPEYRENNLHGEVVGFGNIVQLVLDKEYDMLDEILEFYHSINAPIGIKGLGYDLDDDKLKRVINKAMYKGDTIWNSPYKVDFEMIKNAILEAEELCSKYYIK;locus_tag=LOCUS_12380;note=WP_011392002.1 iron-containing alcohol dehydrogenase family protein (Moorella thermoacetica) [pid:30.8%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:2.1e-48],MGA_1244
sequence05	MetaGeneAnnotator	CDS	39602	40609	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTATLLAGLLLVTGTVFATEWNVTGANIGGTVNVLDTVNGMNIEGGDLNFTLSTSKTGDFGDLSFDISVGDDNNLSASYSKTEGDFEIGFGATLISAGSEFDLDTDKDSGAYIKWAVMGSEMTSFTLYPWEVDGMDWDNDTFASDSNISAPGFKLAVKLDDASSVAAKLAVMDNTNTKNKYQVKGEFNTTVAGVTLGTAVSYTTGTKAMYTGATASMNLTDAVSVNGEFFMEKDNKNADAQTGVFAKGSYSLEEINGYASTAYASVKLLNKEVNTTNGATTELETGVGMSKGHFTITPKLIITSSENKVYAKEDSTDMSKTKTVAGVEFTYGL;locus_tag=LOCUS_12390;note=MGA_1245
sequence05	MetaGeneAnnotator	CDS	40994	41965	.	-	0	ID=MGA_1246;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966891.1;translation=MAKEKLLEVKNLKKYFHVGHKQILKAVDGVSFDVYKGETLGLVGESGCGKTTLGRTLTVLYPKSGGDVIYNGTNVNNIPTKEFAKKAQMIFQDPQASLNPRMTVADIIAEGLDVHKMYKTKEERLEIVYNLLEKVGLNREHANRFPHEFSGGQRQRIGIARALAVDPEFIVCDEPISALDVSIQAQVTNLLRELQKERGLTYIFIAHDLSMVKYISDRVAVMYLGDMVELTESNKLYEKPLHPYTEALLSAVPIADPDIEASKNRIKLEGDLPSPINPPKGCKFSTRCKYAKDKCRQERPVMREIEPGHYAACHFSEEIFSDK;locus_tag=LOCUS_12400;note=WP_010966891.1 ATP-binding cassette domain-containing protein (Clostridium) [pid:69.2%25%2C q_cov:95.7%25%2C s_cov:96.6%25%2C Eval:1.0e-123],MGA_1246
sequence05	MetaGeneAnnotator	CDS	41965	42996	.	-	0	ID=MGA_1247;product=oligopeptide ABC transporter ATP-binding protein OppD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886477.1;translation=MENKKLLDVKDLHVSFDTYAGEVKVLRGINFSVNEGESLAIVGESGSGKSVTVQTVMKLIPMPPGRIKQGEMIFDGEDLVNKSESEMQKIRGGKIGMIFQNPLSSLNPTMKIGNQIVEGILLHQDMTKQEAKERAIEMLRLVGIPTPEKRFNQYPHEFSGGMRQRVIIAIALACNPKLLIADEPTTALDVTIQAQILDLMNELKHKLNTAIIMITHDLGVVADIAERVIVMYGGEVMEEALVRDIFHNPEHPYTWGLLRSMPRLDIDREKENLESIDGTPPDLLAPPVGCPFAPRCEYAMKVCKEKKPGFFRISDTHKVACWLHHEDAPKVENPIVKQKEELK;locus_tag=LOCUS_12410;gene=oppD;note=WP_010886477.1 oligopeptide ABC transporter ATP-binding protein OppD (Bacillus subtilis) [pid:64.5%25%2C q_cov:96.2%25%2C s_cov:91.9%25%2C Eval:2.1e-122],MGA_1247
sequence05	MetaGeneAnnotator	CDS	43035	43955	.	-	0	ID=MGA_1248;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048146.1;translation=MKHDFTFVGKDLAESEKIYKPSMTYLEDALRRFKQNKLAMFFFWSLLVMFLFAIIGPYLNKYGYREMNTDMTFRFWDAESLKAGYYFGTDNFGRDFFTRIWAGARVSFTIALIVVFIEGVVGTLYGGIAGFFGGKIDFYMMRFVEIMMSVPSMIYIILLMVVLGPGLKTIIIAMGATRWMFMAMIVRSEVLRIKEQEFVMASIALGANPMWIITKHLIPNALGQIIVRLTLDIPQAIFSEAFLSFIGIGIPVPLASWGSLANEGYQLLQRGPHLFVIPALLISFTTLAFNIVGDALRDALDPKLRK;locus_tag=LOCUS_12420;note=WP_012048146.1 ABC transporter permease (Clostridium) [pid:47.2%25%2C q_cov:99.7%25%2C s_cov:98.4%25%2C Eval:2.9e-77],MGA_1248
sequence05	MetaGeneAnnotator	CDS	43961	44908	.	-	0	ID=MGA_1249;product=oligopeptide ABC transporter permease OppB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245554.1;translation=MFNYIFKRIVSSVITLLLITTITFFLVHQLPGDPFASEKAIPPKIKAKLMEKYDLDKPLPIQYVKYVGNLLKGDFGLSMKVRGRKVSSMIKNHFPYSLDLGIRAAIFAFFVGVFLGIIAGLNRGKKLDSGAMLLAVIGVSVPSFVLAGTLQWIIVAINGKFGISLLPVAGYDTWQHKVLPTIALGLFPVAVIARMMRASMIDVFSQDYIITAKSKGQKPFKIVTRHGIRNAIMPVVVYMGPLLAAITTGSFVIEKIFSIPGLGRYYVESIYNRDYTVVLGITIFYAFLLVVMLLIVDILYVFIDPRVRLSKGKGE;locus_tag=LOCUS_12430;gene=oppB;note=WP_003245554.1 oligopeptide ABC transporter permease OppB (Bacillus) [pid:47.3%25%2C q_cov:99.4%25%2C s_cov:99.0%25%2C Eval:3.5e-81],MGA_1249
sequence05	MetaGeneAnnotator	CDS	45131	46741	.	-	0	ID=MGA_1250;product=peptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000823455.1;translation=MKRLKWLLTLLTLVLFVACGGGGAKESAKTKAEKKVVKINLGQEPGTMDPQLTTDQSAMQILPFIMEGLTRLGATGDVVPGVAESWTVEGNKWTFKLRDTKWSNGKPVTAHDFVFGIRRAIEPETASEYAYMTYYIKNAQAYNEGKIKDFSKVGVKALDDKTVVFELEKPAAYFASVTAFPTYYPLNEEFFKEKGEDYALEKDNFLFNGPFKMVKWEHDSKIVLEKRADYWNSSKIKLDGITALMVNDSNTALNMYKNGELDIVGLGGDQLPEFKDSPELVSYSDGSVWYFEFNTKHKLLKNRKIREAITIAIDRKELVEKIKKDGSKAAQGMVPYGFPGIDKGFREDFGSELYKDNDVERAKQLLAEGLKEVGHTGPVEISLLTGTSDTATKEAQFYQEQLRTKLGIEVKIEQVTFQIRLQRMSSRDFEIVLAGWGPDYNDPMTYMDLWVTNGGNNHTGWSNAEYDALIEKAQTSSDNKVRMEAMAAAEKILAKEFPIGVTFYRNRNRLVKPYLKNVYFRAVGQETDLYYADIQK;locus_tag=LOCUS_12440;note=WP_000823455.1 peptide ABC transporter substrate-binding protein (Bacillus) [pid:39.0%25%2C q_cov:93.8%25%2C s_cov:90.6%25%2C Eval:3.2e-97],MGA_1250
sequence05	Aragorn:1.2.38	tRNA	47174	47250	.	-	.	ID=Aragorn_30;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence05	Aragorn:1.2.38	tRNA	47292	47375	.	-	.	ID=Aragorn_31;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_31
sequence05	Aragorn:1.2.38	tRNA	47384	47459	.	-	.	ID=Aragorn_32;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00310;note=Aragorn_32
sequence05	Aragorn:1.2.38	tRNA	47471	47546	.	-	.	ID=Aragorn_33;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00320;note=Aragorn_33
sequence05	Aragorn:1.2.38	tRNA	47553	47628	.	-	.	ID=Aragorn_34;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00330;note=Aragorn_34
sequence05	Aragorn:1.2.38	tRNA	47631	47707	.	-	.	ID=Aragorn_35;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00340;note=Aragorn_35
sequence05	MetaGeneAnnotator	CDS	47839	48402	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGILKKLFIKKEIKETKELKEEKENNIYLNAQLELMDIINETLKVNTKNGLELEEDLKENIEIIKNCCIELKYIKENMKILKEEISKIEKTIIDYRKDIFFGNNNCNELKKEELEFIKKEEKRINKMKKIIKNTENICSKRALEIDILEKHISNISENLKERLSFFNDISSYHYQMNKLIEKIKEK;locus_tag=LOCUS_12450;note=MGA_1251
sequence05	MetaGeneAnnotator	CDS	48408	49529	.	-	0	ID=MGA_1252;product=FIST signal transduction protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_050580471.1;translation=MIKNFFSNENSIEKIIEGIELEKKKLRLILFFTSKIENFKEISEKLSKKYIECEIIGITTAGEVHNKAGIVKKSVTGIAFYESIEYIISRIEDVKNLPILSRQQIINEFNKKNYLKSKYTNKEVGILFNEGLSGAEENVLSIINSIFKNKLEIIGGSGGDNCRFEKTFLSLNGELLNNTSLFLYLNFEKTNFKIKTYKDVMYKKTDIKTRITKADFNNRIIYELDNKKASERYAELLGINENRLNKYLQKHPLGRTVLDDIYISTVFSINADKSIKMYTKIPENITVNILEKKNPLDSQKIVLENIKKDFKKVNMMFTVQCILTELNYRKNNIEKHFINNLANISDFSGFLSYGEQYKGIHLNQSIILLCIGE;locus_tag=LOCUS_12460;note=WP_050580471.1 FIST signal transduction protein (Mesorhizobium) [pid:25.4%25%2C q_cov:92.5%25%2C s_cov:87.1%25%2C Eval:2.4e-26],MGA_1252
sequence05	MetaGeneAnnotator	CDS	49543	50757	.	-	0	ID=MGA_1253;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986414.1;translation=MLFNLSVIILVAMLFSSLFQKIKLPPLLGMILTGVLLGPFSRDFFMNNGFESLKFLFISDKILDISSELRTAALIVILIRAGLGINREVLNKIGVPALKMSFIPCILEGTFIIFAAHYILGFSFILSGVLAFIIAAVSPAVIVPEMLNLKEGGYGKKKEIPTLILAGASIDDVFAITLFSSFLGMALGKNVNVIKSIFNIPISIILGIIIGIILGYLLLKLFKKFHMRDTKKVLVFMMVAIMFHHIEELKIIPLASLLGIMAIGFIILEKNDDLAKRMALKFNKVWVLAEILLFVLIGAAVNINLIFKSGFLGLIVIAIGLIGRTIAVYISLAGSKLNNKEKLFCAIAYLPKATVQAAIGGIPYAMGVPNGDIMLAIAVLSIVVTAPLGAIGIRLSKDSLLEIN;locus_tag=LOCUS_12470;note=WP_011986414.1 cation:proton antiporter (Clostridium botulinum) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:4.0e-107],MGA_1253
sequence05	MetaGeneAnnotator	CDS	50993	51625	.	+	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVYFVLFSLIFISCSSVNQYNKTFDFGTDKGYKDLTILFDDGTDYYILDKKIKNSNTKIITSKNIKKEKENIKKDNINTTLSKDYTINNSTNLFYPLSNFKITRNFDKNGKKSIEIASSENKISASAPGMVIYSGENSNLGKAIFIYHNNGYISIYSHLTELKYKKGDYIRDVNTTIAIFNDTFEYELRKRTDKGVIAINPIEILKKK;locus_tag=LOCUS_12480;note=MGA_1254
sequence05	MetaGeneAnnotator	CDS	51664	52359	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTGAYGGAAYKDIKLKNDYEKRSDLLKKASATKNDEVLAGEKNFEMKTNEILRKIKYYQTEISVAQNGSGQLSEIQSKLEELRKLTSKLEGQTPSVNYKDKADALLIEVEKIAKSLQGSSQKALNGINLQTLGLDEFWISDNKLEVIDEAIDDILARSSENKENINKFNKEIKKLQIASENTIAASSRIDNPDELNEKLSELKEQINDEKAISAQANVSQARVMNVLED;locus_tag=LOCUS_12490;note=MGA_1255
sequence05	MetaGeneAnnotator	CDS	52431	52781	.	-	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEELDIIDEYKKLYRLSSEENRELNQKEIDEEYISLLSQKKIEIKKKLEKIELKNLNNEIKIELKELIEEILDIENGNQKLYKEKIGDIKKDIIALHHEKKLKNTYMKTGINKK;locus_tag=LOCUS_12500;note=MGA_1256
sequence05	MetaGeneAnnotator	CDS	52762	53196	.	-	0	ID=MGA_1257;product=flagellar export chaperone FliS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987025.1;translation=MYNNNPYNKNNAYAQYKNTQIQTATPGQLILLLYEGGVKFCKLAKISIDEKNIMNANKYIIKIQDIITELMASLDMKSGGEIAQNLYSIYDYMLSQLVEANLKKDKEKIDEVQKLLEELRDTWKVAVKNTGGVKGGLKGGFGRA;locus_tag=LOCUS_12510;gene=fliS;note=WP_011987025.1 flagellar export chaperone FliS (Clostridium botulinum) [pid:46.6%25%2C q_cov:81.9%25%2C s_cov:91.5%25%2C Eval:3.4e-26],MGA_1257
sequence05	MetaGeneAnnotator	CDS	53214	53972	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKYEEAFAFFNRNKNILYSALFFNFIISFLVIDLRLSIMGYFLFFMFSIGLISIVKNETRLSKINIKRIFLYSLIYYPKIFQNLIEAILIIVINISLLSVLTILPMYGIGILKNDIFTFFAIIFLLLIVLVYRIPLIVYSFITSIIIPKEFGKYAIVKIKEIIKREKGSYNALVKQLLIFLMLSYLIFISKNILSSYILKYILNFLILFFLVRNYYWYYTIVNATGEYKKIYDENTYNGMYSSTLGRFFM;locus_tag=LOCUS_12520;note=MGA_1258
sequence05	MetaGeneAnnotator	CDS	54051	54863	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIDFFENTKIMGILNVTPDSFSDGGKYNNIDKALIRVEEMIKEGADIIDVGAESSRPGAKVVPLQEELDRVIPIVSRIKKEFDVILSIDTYKSEVAKECLKYNVDIINDITGFRDEKMLEVVKEYECYLIAMHMQGTPQTMQNNPTYNNIINDIKDEFKTLLLKLDKYSIEKNRLILDPGIGFGKTIEHNLEILKYLNKFKEFELPILIGASRKSFIGKILDVETDDRLEGSLAVAALSVQNGANILRVHDVKETKRVAKMIDAIMKV;locus_tag=LOCUS_12530;note=WP_011948526.1 dihydropteroate synthase (Clostridium botulinum) [pid:46.1%25%2C q_cov:97.8%25%2C s_cov:71.8%25%2C Eval:2.7e-68%2C partial hit],MGA_1259
sequence05	MetaGeneAnnotator	CDS	54921	55745	.	-	0	ID=MGA_1260;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941313.1;translation=MKNKLDLNLELTQKILVDFVREEVHKSGFKKAVLGLSGGIDSALVAFIAKEALGPENVLGVMMPYKSSSQNSIDHAKLVVEKSKIKSELIEITDMVDAYFNKFSDMNNMRKGNKMARERMTILYDMSARENALVLGTSNKTELLLGYGTQHGDMASALNPIGDLYKTQVWALSEYMGVPKEVIEKKPSADLWEGQSDENELGFTYYEADKLLYAMIDERKTYEELLNEGYERPFIEKLYRKIKFSQYKRKLPVIAKVSARTIDRDFRYPRDWEI;locus_tag=LOCUS_12540;EC_number=6.3.1.5;note=WP_010941313.1 NAD+ synthase (Geobacter sulfurreducens) [pid:68.3%25%2C q_cov:97.8%25%2C s_cov:98.2%25%2C Eval:1.7e-99],MGA_1260
sequence05	MetaGeneAnnotator	CDS	55758	56633	.	-	0	ID=MGA_1261;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016986.1;translation=MSMTKINWYPGHMKKTKDMINENMKIIDIVLEIVDARIPLSSKNPDIPKFAKNKKRLLLLNKSDLVEKEEINRWKKYFKENNMANEVLEISAETGYNIKKVFSLINELSKEKVEKMKKKGLRNVNVRIIVAGIPNVGKSKLINRIVGKNSAGVGNKPGFTKGKQWIRIKQGVELLDTPGILWPRFENEFVGYSLAIAGAIKDEILPIEEVAQEFIKRIKQLNKEGIFIEKYRLEKSDINELPEIILQKVAKNLGMLQKGEKLDTLQAAYKILRDYRACNLGKFVIDIENNN;locus_tag=LOCUS_12550;gene=ylqF;note=WP_011016986.1 ribosome biogenesis GTPase YlqF (Fusobacterium nucleatum) [pid:61.0%25%2C q_cov:98.3%25%2C s_cov:99.3%25%2C Eval:8.7e-100],MGA_1261
sequence05	MetaGeneAnnotator	CDS	56636	57331	.	-	0	ID=MGA_1262;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903175.1;translation=MLYIVATPIGNLEDMTFRAIKILKKVDYIFAEDTRVTKKLLNHFEIENIIYRYDEHSKHHQIANIMNLLIDEKDIALVTDAGTPCISDPGYEVVEKALEKGIKVVPIPGASSLTAASSVCGMNMRRIAYEGFLPKKKGRQTLLNKLKEEERNIVIFESPHRIVKTLKEIKEYLGDRQVTIAREITKIYEEIVKGSIEEVLNVFESKTVKGEIVLIVEGLENYKERKKREED;locus_tag=LOCUS_12560;gene=rsmI;EC_number=2.1.1.198;note=WP_005903175.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Fusobacterium nucleatum) [pid:68.3%25%2C q_cov:97.8%25%2C s_cov:95.7%25%2C Eval:5.9e-84],MGA_1262
sequence05	MetaGeneAnnotator	CDS	57439	58728	.	-	0	ID=MGA_1263;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494947.1;translation=MLNKKGIIILLIILINSFTFSKTENKQDVEQRYVELVIESVMNLIDENFVLTYEKQDKVTKEKLLQGALKGMISVLDDPHTTYFEKKELESFEEDMEGEFVGVGMVINKKQDEALLVVSPIEDTPAFRAGIKPKDRILEINGESTIPLTSEECQKKLRGAKDTTVNIKIYRESIDKTIDITLKRDIIELKYVKSKMLDNKIGYVRLTQFSSNVSKDIEKSIINLKKQGMKGLIFDLRTNPGGQLAEAIKVASLFIKEGKIVSMKDAKGKEYVYKREGDYLGDFPLVILINEGSASASEIVSGAIKDYKRGLLVGEKSFGKGSVQNIFYLANGDGIKLTIAKYFTPNGESIHEKGIMPDVEVKEKDDFLFFEGTLTNVEESSLEETKHEIIDAIGKSEGEEKKKELEEKKDEQLIMAESILKGIILYNTK;locus_tag=LOCUS_12570;note=WP_029494947.1 S41 family peptidase (Fusobacterium hwasookii) [pid:50.6%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:4.9e-119],MGA_1263
sequence05	MetaGeneAnnotator	CDS	58718	59545	.	-	0	ID=MGA_1264;product=TlyA family rRNA (cytidine-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016988.1;translation=MIKERLDILLVKKGFFDSREKAKRAIMAGLILVNNQKIDKAGTIIKYNEEKEPEIRIKGDVCPYVSRGGYKLEKAIKEFNIDFKDKIVLDIGSSTGGFTDCSLQNGAKYVYAVDVGTNQLAWKLRDNKRVKSIENMHIKNLTLNDIDNEKVDILVMDVSFISITKIIPNLNKFIKEKGILMALIKPQFEVGPENIEKGGIVRDISKHKLAIENVLKIATETGFYLVNIDVSPIKGTKGNIEYITKFIYKEKGNINLNIDELLEKAKKIKEEKNAK;locus_tag=LOCUS_12580;note=WP_011016988.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Fusobacterium nucleatum) [pid:59.1%25%2C q_cov:89.8%25%2C s_cov:91.4%25%2C Eval:2.0e-71],MGA_1264
sequence05	MetaGeneAnnotator	CDS	59560	60378	.	-	0	ID=MGA_1265;product=3'-5' exoribonuclease YhaM family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903178.1;translation=MESKALVDEFLQNLVFHPTIQQLKLVDDKGISVAVHTYDVLKTSIKEMKKRYRTMENAAKEIDMFVILVGVIIHDTTKATLRLKNNEISHSNLMRNYPAQVRKEAEKILKEVEKATKVEILDGKFEKIVHIVLSHHGRWGKIVPNSREDDIVHLADKYSATYHRINPIGAKKIVALMSKGHTKKQIIKITGQTEGIINDRLKRAKIYLGLKNNQELLEYYYQNKTVPNGDYSFSRRIKETEALLKKVEKNGFENLILDNELLEYCYKMKNFK;locus_tag=LOCUS_12590;note=WP_005903178.1 3'-5' exoribonuclease YhaM family protein (Fusobacterium nucleatum) [pid:40.4%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.4e-53],MGA_1265
sequence05	MetaGeneAnnotator	CDS	60368	62197	.	-	0	ID=MGA_1266;product=1-deoxy-D-xylulose-5-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903179.1;translation=MNLDIKTQNIEELEKSSQEIRELLINVVSTNGGHLGPNLGVVELTIALHKIFNSPQDKFLFDVGHQSYVHKILTGRKEKINTIRKKNGLTPFTDRRESIHDHFISGHAGNSLAAAAGIAEVNKNNKIIAIVGDASFANGENFEALNNIGGRNLKNVIIILNDNEMSIGKNVGAISKLFKGIMDTKFYNDLKHDIEGLIRKIYMGKGIADFIKKIEGSLKYFVSPISIIEKLGFKYFGPIDGNNFEKLLQILEYIKTIEGPVFLHVKTEKGKGYLHAEENKEKFHGISPFDIKTGEVEKSNKKTYSEVFGKTLVELAKKDKDIMAISAAMVKGTGLLEFFNEFSERAFDVGIAEEYAVTFSSALALEGKKPYLALYSTFLQRGYDQLIHDIAIQNSPVRLIIDRAGIVGEDGKTHNGLFDISYLLTIPHIDIVAPTTCRELVDILDYSTNINNPIAIRIPREKSFNYKGNSFKVSRGKWNEIKTGEKDLIIAIGSMFYEIINIYDEIIKNNLNPTIVSAAWIRPFDKEYILENISKYENIFVLEEGIEVTGFGANLINYLNENNILKKINKIGLPQEFIEHAKRDEILKEQGLRGQNLLNRILEGRKGGK;locus_tag=LOCUS_12600;gene=dxs;EC_number=2.2.1.7;note=WP_005903179.1 1-deoxy-D-xylulose-5-phosphate synthase (Fusobacterium nucleatum) [pid:49.7%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:7.0e-165],MGA_1266
sequence05	MetaGeneAnnotator	CDS	62210	62674	.	-	0	ID=MGA_1267;product=divergent PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164921062.1;translation=MTQGIIFGNKILDVAFLAAFLAQFYKVISPFLKKEGLKFHRLFETGGMPSSHSSTVTSIATSIAILKGSNSIEFAIATVFGIIVMYDATGIRRAAGKQAGVINKIVRNLKNNNFDMKEMENDLKELLGHEPIEVLVGALLGIAVSFAMKSYILK;locus_tag=LOCUS_12610;note=WP_164921062.1 divergent PAP2 family protein (Thermosynechococcus vestitus) [pid:46.8%25%2C q_cov:91.6%25%2C s_cov:93.9%25%2C Eval:1.8e-29],MGA_1267
sequence05	MetaGeneAnnotator	CDS	62690	63004	.	-	0	ID=MGA_1268;product=ribosome assembly RNA-binding protein YhbY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016989.1;translation=MKLNSKQRSFLKQQAHDLTAVVRIGKDGLTDNIIENIENAIRVKELIKVKALQNAELSKQELREIAEKISKKSEIEIVDIIGKTIIFFKENEKKPVYSDKIKKI;locus_tag=LOCUS_12620;gene=yhbY;note=WP_011016989.1 ribosome assembly RNA-binding protein YhbY (Fusobacterium nucleatum) [pid:51.0%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:3.2e-20],MGA_1268
sequence05	MetaGeneAnnotator	CDS	63011	64744	.	-	0	ID=MGA_1269;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896361.1;translation=MKETNKINKKIERTKNNDKPRKEEKVYIMPLGGLEEVGKNSTIIQYRDEIIVIDAGSSFPDENLYGIDLVIPDYNYLEKNKDKVKGLVLTHGHEDHIGAIPYLYQKIDSTVPIYGGKLSIALAMSKFDNFGGISHKPKTYEITNRSVKKIGKYFEVEFIRVTHSIADAYSICINTPAGRIVHTGDFKVDLTPVDNVGFDFQRLAALGEEGVDLLLADSTNSEIPGFTPSERSVGEALRNEFRNAKGRIIVAAFASHIHRLQQIVDVAKETNRKIAIDGRSMVKVFEIATRLGYLEVPKGLMVSLKNVENRKDNEVVILCTGTQGEPLAALSRIAKNMHRHITIREEDTVIISATPIPGNEKAVYSNINNLLKKEAEVVFKKVAGIHVSGHGSQDELKLMLNLIKPKNFMPVHGEYKMLKAHRQLAIECGIPVENIIITENGKKIELTKEYAKEVGKVPSGDVLIDGLGVGDVGNIVLRDRQHLAQDGIVIVVVTISKKTGMIVSGPDIITRGFVYSRESENLINETTKLIKQNLEVHEKNSVTEWNILKGTIKDTASKYLYEETKRNPIILPIIMEV;locus_tag=LOCUS_12630;note=WP_005896361.1 ribonuclease J (Fusobacterium nucleatum) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:91.1%25%2C Eval:1.2e-206],MGA_1269
sequence05	MetaGeneAnnotator	CDS	64825	65460	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYLKDGILIKIEDYEKNILDLKENIEKNFFDVETDFLLERKNKKYYKDIYNILNEKGHFLYLIKDITPQIIYKKVQIIEKKIHSGQKIEIDGDVILLGDLNIGAELIATGSVFIFGKAKGFIHAGSKGNNKAIVVANEINLNHIKIANIMAKYPKIREVSVPEKISLNNNKIEVERLNENEFKKLLEKSGEKIEEKKSFFRFVFNKKRV;locus_tag=LOCUS_12640;note=WP_005816782.1 septum site-determining protein MinC (Desulfitobacterium hafniense) [pid:36.5%25%2C q_cov:48.8%25%2C s_cov:45.6%25%2C Eval:4.3e-14%2C partial hit],MGA_1270
sequence05	MetaGeneAnnotator	CDS	65482	67263	.	-	0	ID=MGA_1271;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903183.1;translation=MRKKQNEIKISLVKNYKFRLNILKIFIILVYGLVLIRLFYMQVYNREEFIEKSKKNRIKIRRIEAPRGNIYDRNGKLLVKNIAGYRLVYLNGRRYNDEIVKNIAELLGISKESVIKKIKYGEIYTYTGENVLEQDLEIEKAHKIMEKISKYSYLDVISYSKRYYIYNDLASHVLGYIKPITEKEYEKLKDNPVYTKRSYTGKKGIEKQYDELLQGKDGYEYIEVNAYNKIVKKIKNAEVKPGSNLYLSIDYELQKYITDFLGNEKAAFLAMEAKTGKIITMVSSPEYSLNMFTSKFSTKDWNKLIKNPSRPLINRITGSTYPPGSIFKPLVAMSFLEQGIDKDYEIYDPGYYQIGKWKYRSWKRGGHGYTNMEKSIIESVNTYYYTMGDKIGHKPIIETASKFGLGKKTGIDLPDEKVGILPDKEWKKVHYGEGWYRGDTVNLSIGQGYLLVTPLQMLLAYDVLANNGIGYKPHILDKVIDSEGKVKNIEHEISILYNGKKEYFDTLREAMVQVVDSNHGTGRRLRRDFVKIAAKTGSAQNSMYSDTHAWAAGYFPADNPEIVFVSFVEGGGSGGAIATKAVNAFIDKYYENK;locus_tag=LOCUS_12650;gene=mrdA;EC_number=3.4.16.4;note=WP_005903183.1 penicillin-binding protein 2 (Fusobacterium nucleatum) [pid:47.3%25%2C q_cov:99.5%25%2C s_cov:90.3%25%2C Eval:3.3e-159],MGA_1271
sequence05	MetaGeneAnnotator	CDS	67289	67702	.	-	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIIIIFLVFLETSVYVDFPYNAVALSYAGYIIFTKEYFSLPYLFIIGFVVGLSGYHVERPIVFFLFLFIILRIFYKFILFQGINIFIITLIEVILYLLYINFFEYSLLNLYSFVKEFLFVYVMNYIFYKLEFEKS;locus_tag=LOCUS_12660;note=MGA_1272
sequence05	MetaGeneAnnotator	CDS	67702	68037	.	-	0	ID=MGA_1273;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816526.1;translation=MEEKILKIIDAIEEKKGKDILVLDFEGKNSLCDKVVIATPNSEKNAQAIADEINKKMNEMGEKRLGIEGYKEAKWILIDYDDIVIHLLNSENREYYALEQLWSSAREVIRK;locus_tag=LOCUS_12670;gene=rsfS;note=WP_005816526.1 ribosome silencing factor (Desulfitobacterium) [pid:40.2%25%2C q_cov:87.4%25%2C s_cov:86.6%25%2C Eval:4.7e-19],MGA_1273
sequence05	MetaGeneAnnotator	CDS	68049	69041	.	-	0	ID=MGA_1274;product=LytR C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903185.1;translation=MNIRKNKFKRKQKKYLISLIVIVFLFFSYRTLRVNSQKKDVVWENYVLIGKRNLFIVYDKKLSIMLPMEVYLTKDMQFKNYIKEKRYADLLNVLNDVLPVKLENYIVVKNNSDIKIETEHQIIIPYIEKNGKKYILNSGLTEVFSKLYYDKEELNSIRPEEIIVDILNANGKTGYATATGKKIQEELGFKYNAANYEELTEYTYIINNGLSEETLKKLLLTINEKYIKVKENANLPTIANLVIILGKEQKNLLDIYVIRKDSYDEKVYKLLKNEGYITTKRIKKDIDISDNMIEYNSEDYYTAYKLSKLLNIENLRENNELNNKINILLK;locus_tag=LOCUS_12680;note=WP_005903185.1 LytR C-terminal domain-containing protein (Fusobacterium nucleatum) [pid:32.4%25%2C q_cov:90.6%25%2C s_cov:91.7%25%2C Eval:1.6e-47],MGA_1274
sequence05	MetaGeneAnnotator	CDS	69022	70311	.	-	0	ID=MGA_1275;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016990.1;translation=MSLNKKVAFYTLGCKVNQYETESIKKQFVDNGYNVVDFDDYADIYVVNSCTVTAMADKKTRNILRRTKKINKDSLLIVTGCYAQTNAKELEKINDIDYIVGNTDKGEIFNLISDTKKMYIKNIFDEKDYKEYSFTTFREMNRAYVKIQDGCDNFCSYCKIPFARGHKRSRQLESIIKEIKELAKEGFKEIILIGINLGSYGEDIGDIRIEDVIDEISKIDGIERIRLGSIYPDKITDRFINQLKTNNKLMPHLHISLQSGDDEILSLMKRKYDSKLVKNVLSKIKKEVKDIKFTGDVIVGFPHEKDKNFENTYNLIKDISFSDLHIFQYSDRENTLASTYQEKVSAETKKIRSKNLEKLAKEMYKKEREIYLNKELEVLVEEIKEGKSYGYSRNYLKVKIDEELEVNQIVKVKINNLTKGLLYSEYKKK;locus_tag=LOCUS_12690;gene=mtaB;note=WP_011016990.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Fusobacterium nucleatum) [pid:55.2%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:2.9e-135],MGA_1275
sequence05	MetaGeneAnnotator	CDS	70298	71017	.	-	0	ID=MGA_1276;product=16S rRNA (uracil(1498)-N(3))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016991.1;translation=MISIFVEKKNINGKIIEITNKKDINHLKNSFRLKISDIVRVVDGEKEYITHIIEVDKKYILLEIDEINENPEKSDVSIEIAMGIIKNDKMDLTIQKLTEIGIDKIIPTVLERTVVKIKEKKEKWDIIAKEALKQCQGVKLPIIEEPVKLKNIKFDMYDLIIIPYEADKEHKILNVLEKYKGKNIQNILYIIGSEGGFSTNEIKYLKELNNSEIATLGKRILRAETAAIVAGGILVNEFK;locus_tag=LOCUS_12700;note=WP_011016991.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Fusobacterium nucleatum) [pid:49.2%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.4e-54],MGA_1276
sequence05	MetaGeneAnnotator	CDS	71017	71439	.	-	0	ID=MGA_1277;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903188.1;translation=MKISTKTRYGLRALIYIATQIEENERKLVRIKEISEDQNLSIQYLEQILFKLKKANIIEGKRGPNGGYKLIKKASEINILEIFEILESDVRVVVCDKHSKACVRDNCKTIYLWDKMNKALTDILKNTTLRELIDNDIKEF;locus_tag=LOCUS_12710;note=WP_005903188.1 Rrf2 family transcriptional regulator (Fusobacterium nucleatum) [pid:48.9%25%2C q_cov:96.4%25%2C s_cov:95.8%25%2C Eval:3.0e-32],MGA_1277
sequence05	MetaGeneAnnotator	CDS	71443	72435	.	-	0	ID=MGA_1278;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903189.1;translation=MVEDRIITTDEIYTEKEYQKNLRPKYFDEYIGQEKLKEKMNIFIQAAKNREESIDHILLYGPPGLGKTTLAGVIANEMEVNLKITSGPVLEKAGDLAAILTSLEENDILFIDEIHRLNTSVEEILYPAMEDREIDIVIGKGPSARSIRIELPDFTLIGATTRAGLLSAPLRDRFGVVHRMDYYSIEELEKIIKRGARILNIDILDDGANEIALRSRGTPRIANRLLKRVRDYAEIKGDGYINKETTQKALELLGVDKEGLDELDREILNAIVKNYNGGPVGIETLSLLLGEDRRTLEEVYEPYLVKIGFIKRTARGRMITEKAYKHLEKE;locus_tag=LOCUS_12720;gene=ruvB;EC_number=3.6.4.12;note=WP_005903189.1 Holliday junction branch migration DNA helicase RuvB (Fusobacterium nucleatum) [pid:76.1%25%2C q_cov:98.8%25%2C s_cov:98.2%25%2C Eval:3.9e-139],MGA_1278
sequence05	MetaGeneAnnotator	CDS	72438	74627	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISSIILFFILTILVNAAEIKGFVKVENHEDYGVFVYVENELLYDISDQEGNFYIDNLTLGKEYTLVFQKGDLPDYKKKVKIEKNVNEVIVEIPDVRKDIRYPVVGRVNSKIDKDIFLDFNDDSYGIILKPNVQFKTSLLEGDYKAKLIQEGAYQNGISFKVEKDKVNNIGTYNMEPIDYNTLTLRFNDKIKDGVILLYKDDYLAYSKRIKNGTKNLTIEPLRSGVYTVKIKAYGKMDFVDNIEIKGSVIKDIPFENLSKFDNIYVNIYPQNIEAKVKIYNDGNIVEEVPTKGLVILEALDYKKEYEIRINAPKYKETIIKRAKVGDKLEVNLKRDVKGNLLKGYIYPFNSNATVMLLDKNKIIATTKADENGYYELETKEKVEGRKIIRVKANGFEEKTIIKTIDKSIENENFNIELEPKISRLSGTVSLNKKEKISNALVIIEELAIWQSTNNKGEYYFKNIPEGKYHIIFKKLGYESKREEITISKGEAVIKNVEIKPIGKMIFRSNIENYTLKINGKRYAIKTKLFERVEGLGLKNIIAEKPGYLSVRTQLKLTEAGEIRDVNIEFLSIEEQDKIVKEKIQKIRDYIANLELTKAEEVLYELSEVKQLKSYEKDYIDIKDELKKAKATLFGIDRNIKFEMENIKSNINISEKKDIGYLEKQRFLEKVYKQSIDRLEKIILTHPYTTYRYDILILQGDIYTKLGMVNSSKNSYEEAKKYINRRK;locus_tag=LOCUS_12730;note=MGA_1279
sequence05	MetaGeneAnnotator	CDS	74645	75253	.	-	0	ID=MGA_1280;product=DUF445 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903191.1;translation=MQGILSFFTLIIIASLIGWFTNFVAIKLLFKPYEPINLGFFKLQGVIPKRREEIAINIAETIDRDLISMKDITKTINSIELEDEIDKIVDDIVEKKLKDDLFKNIPMIAMFVNDSMISKIKGYIKDVIEENKEELVNIIIHKLENEIDFKEIIVNKINQFSLEEVEKMTINIAKKELKHIELIGAILGAIIGVVQFLLIQIM;locus_tag=LOCUS_12740;note=WP_005903191.1 DUF445 family protein (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:95.5%25%2C s_cov:96.5%25%2C Eval:1.2e-39],MGA_1280
sequence05	Aragorn:1.2.38	tRNA	75410	75484	.	-	.	ID=Aragorn_36;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00350;note=Aragorn_36
sequence05	Aragorn:1.2.38	tRNA	75494	75569	.	-	.	ID=Aragorn_37;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00360;note=Aragorn_37
sequence05	Aragorn:1.2.38	tRNA	75575	75652	.	-	.	ID=Aragorn_38;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00370;note=Aragorn_38
sequence05	Aragorn:1.2.38	tRNA	75700	75775	.	-	.	ID=Aragorn_39;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00380;note=Aragorn_39
sequence05	MetaGeneAnnotator	CDS	76086	76301	.	+	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNEYPIFSLYKVIIMKMCILAKNNNIKKIAELSNKPKFICKKCLRTSNKKENLCKAEKIKKLIKKGDSLI;locus_tag=LOCUS_12750;note=MGA_1281
sequence05	MetaGeneAnnotator	CDS	76298	77818	.	+	0	ID=MGA_1282;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003641096.1;translation=MKNKIYAIIEISYMELICKIIEKKLDNSFIILENIYHPIKLTDEFKFEDVNNLCNLIKKLEVNLKTYNIPKINIKIFGVSSLGESQNKIFFKDILIIKTGYKIEFLDLNKKNIFIYKSILNSIINTEFSNKTNLIVGIDYGHITFFLIRNLKVIYYQNISLGTIKLKKIIEELNFNPNNLENLIYDYFSSYINIIQNSISKYNIDNIFIRGSLFYKITSKISNRVNDNIYSLPKENFIKFANEIKNYSLQYLSDNYNLSEEKSEIIFPKIFFTKLLISSIPYKNLYSINLTLIDSLIYSTIFRKLSLKYNKYITNSILENTKYLGSKFNYNLEHATQVAKFTNIIINSLKTNYNFNKNDILYLTIAAFLHDIGKYISIKNHSEHSYNLIMNNTIFGLSAEAKELIALISFYHNKKFPNFSSKMFKNFDEVKTMKIIKLTSILRIADSLDRAHKVKIKSLNVTFDNHTMILNITTNDKLTIEHWSFKKKSELFTDIFGLKTILLNKN;locus_tag=LOCUS_12760;note=WP_003641096.1 HD domain-containing protein (Lactiplantibacillus) [pid:26.3%25%2C q_cov:84.4%25%2C s_cov:83.9%25%2C Eval:1.7e-41],MGA_1282
sequence05	MetaGeneAnnotator	CDS	77830	79866	.	+	0	ID=MGA_1283;product=polyphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000421678.1;translation=MVYSNKNFFNRELSWLYFNERVLDEAILDKNPLVERLKFIAITSSNLDEFFMIRVAGLKAQIEENYIKTDISGLTPNEQMEKIKIKVKKLVEKQYNCIINTLFPELEKENIFIKKYNELSLKQKDFVENYFNETIFPILTPMAIDASRPFPHLINKSLNIMTKLLIDGENRFSIIQVPTIINRFLELPSKNTKEFILIEDIIKANINKLFTGYKIDITGEFRITRDGDMIIDEDEADDLLIEIENSLQKRKWGSPVRLEVKEDLDNDILEFLTESLNLHISNIYKLNGPLDLTFLFSFCNINNNKNLEFKPQPPILSKAFSKEESIFSSIRKKDIILHHPYDSFSPIIDLIEVAANDPKVLAIKQTLYRVSGDSPIVKSLIKAAKNGKQVTVLVEIKARFDEERNIKWARKLEKSGCHVVYGLKGLKTHAKCLLIVRNENNGIRRYVHFGTGNYNDSTAKLYTDLGFITCKEEYCIDATNLFNKLTGFSSPKSWHKLSIAPEGLRNKLYKLIDKEILNAKEGREGKIIAKMNSLVDKEIIEKLYDASNAGVKITLIIRGACCLLPEVKGLSENIKVYSIVGRYLEHSRIYYFFNNNNPKIYLSSADLMTRNLDRRIETFFPIEDKEAIDLIKMILEYNLKDNYNSRIIKSDGSYELIKNKHKTFNCHKEFYSFTKKNN;locus_tag=LOCUS_12770;EC_number=2.7.4.1;note=WP_000421678.1 polyphosphate kinase (Bacillus cereus) [pid:52.6%25%2C q_cov:95.9%25%2C s_cov:94.2%25%2C Eval:3.9e-188],MGA_1283
sequence05	MetaGeneAnnotator	CDS	79930	80295	.	-	0	ID=MGA_1284;product=methylglyoxal synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002657078.1;translation=MKNKIALIAHDQKKIDLINFVNRNKEFFKKFELIATGTTGKKIAEATGLEITRYQSGPLGGDQQIGADIAKDEVVAVIFMRDPMTAQPHEPDVTALLRICDVHNVPLATNLASASLLIKAL;locus_tag=LOCUS_12780;gene=mgsA;EC_number=4.2.3.3;note=WP_002657078.1 methylglyoxal synthase (Borreliella burgdorferi) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:96.0%25%2C Eval:3.9e-42],MGA_1284
sequence05	MetaGeneAnnotator	CDS	80387	80962	.	-	0	ID=MGA_1285;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_151672826.1;translation=MYIIKNIKEEVKKRLKYDKTGHDFQHTMRVYKNALEIYEIEKTGDKFIIECSALLHDIADHKFGYNDNDRRKIILEILNNYSIEKEKIEKIIDIVNTISFSKGKIVKSIEGKIVQDADRLDALGAIGIARAFIYGGSIKSDLNEVIKHFYDKLFLLKDRMNTKTAKEIAKTREKFMYEFIKRLDREIKINL;locus_tag=LOCUS_12790;note=WP_151672826.1 HD domain-containing protein (Patiriisocius marinus) [pid:42.9%25%2C q_cov:97.4%25%2C s_cov:94.1%25%2C Eval:7.4e-33],MGA_1285
sequence05	MetaGeneAnnotator	CDS	81004	82227	.	-	0	ID=MGA_1286;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393211.1;translation=MVDIEKEVERQFKILTRGVEDLISEEEFKSKLRNSIKNNKPLVVKLGVDPTGSDLHIGHAVQLRKLKKFQELGHRVKFLIGSFTAKIGDPTGKSETRKMLTSEEIAKNIKGWLDQVQIILDLDKIEVVYNGDWLEKLTLEDTLKLLSQFTVAQMIQREDFAKRLEAGKPVSLVEFMYPILQGYDSVAIEADIELGATEQKFNLLRGRDLQKNAGQEQQVCMMTPILVGLDGVEKMSKSLGNYIGLRETPNDMFGKVMSISDELMWNYYELATDIELEEIAKLRKGVENGTLHPMDVKKRLGVEIVAMYHSREEGEKAREWFENVFSKKNLNVDLPEKEFSKGEIKIIDLIVKELEFCKSTSEARRMIKQGAVKIDEDQITDLNYIVKLEKDFVFRVGKKKIVKIIVK;locus_tag=LOCUS_12800;gene=tyrS;EC_number=6.1.1.1;note=WP_011393211.1 tyrosine--tRNA ligase (Moorella thermoacetica) [pid:51.0%25%2C q_cov:96.3%25%2C s_cov:94.7%25%2C Eval:2.9e-113],MGA_1286
sequence05	MetaGeneAnnotator	CDS	82430	82930	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDSVETKRKIKINNEIFYFREANILDIEIIFDNINKKFLEKNFINDYNKLEKEYKHNYETKLLDKSYIIYLILDSKNYYLGEIRIENKNIVNIYLIKKIRGKGYAKTILKTVLNVYKQKYNINRFISYIIPENEISIKVFQSIGFKYIKKENYKGIKMLKFETLV;locus_tag=LOCUS_12810;note=MGA_1287
sequence05	MetaGeneAnnotator	CDS	82940	84841	.	-	0	ID=MGA_1288;product=ABC-F family ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903085.1;translation=MALLTVNNLNKQFLGTYIFCDVSFSIDEKDKIGFIGVNGAGKSTLVKILLDKESHDISEKTKEFGTINKKRNLKIGYLSQHFELNEENTIFDELMSVFDYLKEDYKKIQKLNKKLSVDIEKFDEIMEELSRLSTKYEQEEGYAIEYKVKQILNGLNFEENQYNLCIENLSGGQKSRVALGKILLQEPDLLILDEPTNHLDINAIEWLEKFLQSYNRAFILISHDRYFLDNVVNKIYELENKKINIYNGNFSDYIIQKEAYLSGAVKSFEKEQEKLKKMEEFVRRYKAGVKAKQARGRQKLLDRMEKMENPVINIRKMRLKFESARLSTDKIFKIKRLKKEFNDKLLFQNLDLDIYRGDRIGIIGKNGVGKSTLLRILVEKDTFTSGTIERGEKLDIAYYDQEHANLSFDYRVLDELMYSFSLSEEEARRIAGGFLFDEEKIEKKIAKLSGGERARVSFMKLILQKPNVLILDEPTNHLDIYSREVLEEALEDYDGTIIVVSHDRYFLENTVNKIYEVHENGATYFNGNYDSYKEFKKNNVENEKEKNNDYEEQKRIKNRINSLEKKFEQIEKELEELELKKDKIQEKFDEAGKINDVSKLLDYQEKLDKLEEEILEKMTQWEEIELELNELKG;locus_tag=LOCUS_12820;note=WP_005903085.1 ABC-F family ATP-binding cassette domain-containing protein (Fusobacterium nucleatum) [pid:56.6%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:4.0e-211],MGA_1288
sequence05	MetaGeneAnnotator	CDS	85053	86126	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKIKDDLDINNSELENDDLMESIDEMIFDDNVEDEEDISDEISMPGIDEETQEVKEFQEKKKSEDEISEEDLEKLLIGIDEENGILDIPDEEEVLEELKFVDEIPNLEEEEVPKQETKLKEKKKINLPKLDISKYKDILFKYKYYIAGVIAFFLISTIFATKLMVDRQKSIKKEVYTEETQNNQTTSEAAVVITEKTIEENLSEIEKLAYYKQKLKEEPENKDIIKLKIEEVKKEIKEKEKQEVVKYVKELKTAYVLEFKSIKPTLFKIANDSLIMGFVMKDDNMDNIYNELYLAIADAFDKNENVLKINLNLFAVEGQLKKKLEINVHRYEYNRLKDKELKNIDKLLAFDTIDR;locus_tag=LOCUS_12830;note=MGA_1289
sequence05	MetaGeneAnnotator	CDS	86203	87117	.	+	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFIIFFILFNSVFSLDYHHDGISNILQEKNKPFFISIGKDGKIISWNFEKNKIINEISFNNGALNNISFSKSNNYFAISNYFGKIFILNKNSFNILNIFNFNSMSIENLYFISDSKLLLVYQNKKIILIDIFKKEKINEINLDYEILDSTIYNNKLIVLDRNNKFYFINLNNLNIESNLEFPSDKIIHKFLINKNKLLISYKNKLKLYDIKTKKINKIITYLDINITSLNFYNDNYYIGFNNGRIISYDKNLNNSILDYKLHNDKINKIIEYKNKIISISDDASVIIYDKNNNKLINIFNGL;locus_tag=LOCUS_12840;note=MGA_1290
sequence05	MetaGeneAnnotator	CDS	87129	87842	.	+	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFFTILIIFLTGCSNINKTKNIETSEKHFIDSDIYDPLEPLNRRIYYFNAVIDRNIILPTAKFYSKITPDFLEKGISNFFNNLNEIPTILNSTLQFKFDKAFVSSERFLINSTIGFLGFFDISSNSFNLEKHKEDFGQTLAFYHIPQGPYIILPILGPSTVRDTVGTTFEYISKPYTDPLQLIDYSQSTPEMIFISSINKRNNLNFRYYQSASPFEYDYIRFLYFKTRQFENIK;locus_tag=LOCUS_12850;note=WP_003402525.1 VacJ family lipoprotein (Pseudomonas) [pid:42.2%25%2C q_cov:84.0%25%2C s_cov:73.3%25%2C Eval:2.0e-45%2C partial hit],MGA_1291
sequence05	MetaGeneAnnotator	CDS	87879	89498	.	-	0	ID=MGA_1292;product=carboxypeptidase-like regulatory domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480816.1;translation=MDRLERVIYPNELDFKNVKLADALSIISKTSGITIVAESKVKDNMIDLYFVKGQNLKEILDAVMVANNLQAKEVNNIIILEQTLKSDEKTTGQIVGRVLSTDKLGITGAKIVLIKNNDVYKEVLSEAGGAYIFENINPGTYIIKGIANNYETNGDIVEIEQGKTLSINLYLNPVDSKENKGLIEVVEKSTSSENTKKLGIIKDKNGERFTEKITLKYAFADEVKQVITSMTDENSLEVISVKDQNLIILKGSTENIETAKNLIKELDKPIKQVRITAQILEITGTLTQELGIDWSYQDKDSVSSGITGQIAVATGNPIATFTSYLGNTDNVISSTINMLKQTDDASVNAVPSVVTLNGKTANLNVSAELKVGTTSSTDSDGNTTTEPLFKEAGTVLNVTPIIRDGDGEKDKITLEITSEVSSFLSSKSTNTLGDATEEDALGAAQKNKLTSIVTLEDGGVVFIGGLKKTTVNNSIYKVPVLGDMPIFGTFFKYESIIKNTRDLFIQIKAEIVNEDNKNNDIETKGFKTSTATLKQKIYK;locus_tag=LOCUS_12860;note=WP_198480816.1 carboxypeptidase-like regulatory domain-containing protein (Fusobacterium canifelinum) [pid:30.3%25%2C q_cov:94.2%25%2C s_cov:97.5%25%2C Eval:1.5e-59],MGA_1292
sequence05	MetaGeneAnnotator	CDS	89577	90002	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRLVFIIFFIFYLVSFAKNPLDNYISDDVYKESLKKFQGKNNYFKELIVDKTKINQRIIQTTGRITSTFKKIDTIIKKGDMWGGILYYIEDGIEKRKVIFGNTSIKIGDYRYYLQPHEKGVVITDISSGKILKLNVQEGR;locus_tag=LOCUS_12870;note=MGA_1293
sequence05	MetaGeneAnnotator	CDS	89995	90612	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIFGRDIDFSINTDFTEKQLKISIIILSIAILIALLVPMIIMPSLSIRSKIKELKSVEVNLQKITTTYIKEKKKYNKQLEIYEAQKKDLKELEIKFKNSTIKDNTGLKIMIDDIAEYIGVKIIEIGSIEIGEDKKGYTKKYIPYTVVGDILQISRFLYFLENSDFLITLKGSSILINRINNDKVQVKFKIGAYFIKEEGEINFE;locus_tag=LOCUS_12880;note=MGA_1294
sequence05	MetaGeneAnnotator	CDS	90624	91190	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDINFLTQEYKLKLMLKSISRMILLVILLIFTILFSINLYLNSIIENKQSIINNKNAEIKKITKNIKEVKQKMKEIPDLTSNIQIIEEVFNQKNLRVSEILYTLQENIPSGMWLDSIMYDNNNLFLSGKTIKNKQLKLNPAKNIFKFERNLKSTNRFSTIKADFIKYSNIKNNEVNEFQYQLILNSN;locus_tag=LOCUS_12890;note=MGA_1295
sequence05	MetaGeneAnnotator	CDS	91193	92239	.	-	0	ID=MGA_1296;product=type IV pilus assembly protein PilM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228636.1;translation=MFFKTKVDGAIDIGTTAIKGLKLKKNKIEKMTLLELSQGTILNGDIVDYDKFTNRLKELVELVELKNKNVVISLPVQDFFVKFLSIPLVDDKEKMAIIEGELEELIPNFIPEDFITEFISLNFVGDNEEVIAITINKDKIKNLIEIATAAKLSIVKIIPDFISLYNFLQFQKEKDKIEPEESIMVVDIGAEATKLFIEKGGDIKLQRIIAIGGNDLNDIITRIYNIDYIEAERIKKSLELAKDEYNNDIENENDRQLFQELAKLISQLEKQLKVSIEFYVSHESTPGLDKIYITGGGTLIKGFRNILKKSLEVEIDDFSYSKIIMEQFEEIDTAKCIALLGNIIEEVK;locus_tag=LOCUS_12900;gene=pilM;note=WP_011228636.1 type IV pilus assembly protein PilM (Thermus thermophilus) [pid:20.4%25%2C q_cov:96.8%25%2C s_cov:95.0%25%2C Eval:5.9e-16],MGA_1296
sequence05	MetaGeneAnnotator	CDS	92245	92520	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLENYMEIMVDEAVESFLNNNPDIRKNVSERDILDVKAYSLNKLPAHYITTLKGYTFTKLGEINIQTKVSILKVVVEAFERVLSNRNKG;locus_tag=LOCUS_12910;note=MGA_1297
sequence05	MetaGeneAnnotator	CDS	92537	93382	.	-	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKKIEKNGSALILVILLLSFFMAISLNLLYMSEEKGKRAGYKIVGQKHLSYIDESSSIGYYELYLADKYVKLGYIYDDTNTIFTGSKKDYFGKKAKYENYSSLGYFPSIPTTSEPAIAGVVIGNYIDYFTSYWNVDFNSTDQAIIILENKTSGKVDNRTWTNYENKVVKLWYDPSTTKQSIGGYKLLDITYPNGMSDFSSFTSGNNYDFEVKYIKTLVFPEIIESGKKIVEESIYDINVYQSISLETLAGYSSSTTIDKDKINIISQNIDKIEVIKRKK;locus_tag=LOCUS_12920;note=MGA_1298
sequence05	MetaGeneAnnotator	CDS	93392	93943	.	-	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRENCLNENNIKKNGFSLVELILAIAITTIILSLIIPFTLSFSKNHKRQEEINNMDLEMSKTVDIIKKVVRSSQNYNGNKAIITPIEGTTSSALVLTTTVLNSSGIYIPYWVKFEIVGNELKVGESDTSSSSIVASDTILSNVEDGYFLYDKNVVVIYLKLKNGDYTRTIRDSAVTRIDFNF;locus_tag=LOCUS_12930;note=MGA_1299
sequence05	MetaGeneAnnotator	CDS	93945	94466	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKADQNEEVSRLAFTMIDYVKSRGYNNLKIIVDNNGGTYSGKYVFKKDSLESTAYIIDTSVSGYQNFESDFNLTTTASGIDHLFILSSKSVDLSKTVIYLRLDKKGVGLEGGNKYYNPLTDKEEDTYPGYDEYIYGSVIIGTGDANSNNITGKEKEYFLTFVVSPIENWGN;locus_tag=LOCUS_12940;note=MGA_1300
sequence05	MetaGeneAnnotator	CDS	95014	95742	.	-	0	ID=MGA_1301;product=A24 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948927.1;translation=MLIFYVFLLGLIVGSFLNVCIYRIPRGASVSFPPSHCPNCKEPIKWYDNIPVFSYLLLRGRCRVCKIKISFIYPVIEIITGILYLLVYFKYGFTILTVKYIIFVSILIVLGMIDLQTYYLPEKLTFSLIFLGFALAFISDITILQSFLGAATYLFPFFMIYAYGESILHKSILGFGDLELVAGIGAFIGYRGYFELHLFFTISFVIGAIVSVILLIKKQKGRKDMIPFGPFLVLAAIIMILK;locus_tag=LOCUS_12950;note=WP_011948927.1 A24 family peptidase (Clostridium botulinum) [pid:44.3%25%2C q_cov:97.5%25%2C s_cov:90.6%25%2C Eval:9.4e-51],MGA_1301
sequence05	MetaGeneAnnotator	CDS	95758	96234	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNGFTLIELMIVVSIIAILSSITVPKFGKQIQKAKDARVLTVLSAFRSGVTIYQTDDPDFQPPSTILDIVTYLSNNIKSQMATGINSGNVTSLQFKAGTVKKDDGTESVGRGDFSGEKNIAELYYNSIVGELYIDGTTGSGIDFKDTKGKKWNEY;locus_tag=LOCUS_12960;note=WP_012583242.1 type II secretion system protein (Dictyoglomus turgidum) [pid:35.4%25%2C q_cov:41.1%25%2C s_cov:45.8%25%2C Eval:4.5e-07%2C partial hit],MGA_1302
sequence05	MetaGeneAnnotator	CDS	96293	96724	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLKNGFTLVELMIVVAIIAILSAVAVPRFGKQIQKAKDAKALSLVGNWRSASTLYYTDHEGDYATDFGDLAEAVDTQTQNQTFEKGTTTTVSESSTVTEADIVAGSPSSITIKYEGSASDGAINITTSGTNTSGKTWSDL;locus_tag=LOCUS_12970;note=MGA_1303
sequence05	MetaGeneAnnotator	CDS	97090	97806	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNRKNNIQNKFFTKYFLIIIILLFFVKTNIFIENREKEIFKDKSVKEKNYDVFLYKIFGIKKAATSLLWIKQSLEIGTPFNNSVEIETKKIYETSLKIAELSPYFLQNYYISSSILAFINRYKKYNMASSILVKGVEYNKENELLRKYLIVIGGLKGNNFDKVERVINEILNERYDIELIKYLIKVYEMRYKDNSSKILLSKIERYLKIILKYGNSKDKEYAIRKIYEYKTVYKIKK;locus_tag=LOCUS_12980;note=MGA_1304
sequence05	MetaGeneAnnotator	CDS	97816	98574	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKSLVIAKYTAKENLSNKIAIGFLVFSIILLFGFSILKELTIDNNLEMVKDIGLFFIESFLLLITVFLSSSIIIKAHKDKSIYLILTKPVNRSEYVFGIFLGILSIIFCYEFFLGGILTLVLKFQGYMFNKIYFLSYLYILYKFIILISIGILFSLISDSYITGNIFTFLIYFIAHASYDIKNIMEKTGDILIKTIMKILYFIMPKFHYLNLRDNLDYNYIFDYMDFLYVIFYTILVLIISVIIFNKRKL;locus_tag=LOCUS_12990;note=MGA_1305
sequence05	MetaGeneAnnotator	CDS	98564	99316	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKVENLTKIYKEKDIFKNLKGKKYSLGIKDISFSVNEGEIFSIIGLNGAGKTTLLKCILGLLEYDSGKIEIFGENMLINKNKKYIGYLPEISYYPKDLKLIDIMNFYGYLYELAGSELKYRIDEVLDRFDIKQYKNKRLEEFSKGMLQKVGLAQSLMNKPKLLFWDEPMSGLDPIARKKVIDIIKELKEKGTTVFLNTHILDDIEKIGERIIIINKGKIVEEINIKKDKIQNLEEYFIEKIKGDSNEK;locus_tag=LOCUS_13000;note=WP_007325468.1 ABC transporter ATP-binding protein (Rhodopirellula baltica) [pid:36.8%25%2C q_cov:89.2%25%2C s_cov:65.0%25%2C Eval:1.1e-38%2C partial hit],MGA_1306
sequence05	MetaGeneAnnotator	CDS	99334	100542	.	-	0	ID=MGA_1307;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942139.1;translation=MRYSYQGIDKKGKKYRGEREANSISELRKKLKKEGINLVKAVPIKKGGKKRKKNSIFSTIKRKEIVLFTRQLATMLDAGIPLLRTISILTEQNENIKFKEILEGVVRDLNSGVDLSTSIAKYPNQFDKLYVNMVKAGEASGSLETVLKRLAKSMEESEEIKGKVKGAMTYPIIVILISIIIVFGLMSFVVPRFKMMFDQFGKDLPSFTQFIFNVSDFFAKNWIIILGLTGVGLFLIYKYISTEKGKYNFHKFILKLPIFGPLNRKVAVSRFTRTMSTLLESGVNILTAFEIAGDTSGNTVISKVIEKSKISIREGNTLAKPLKESGEFPIMVTQMIEVGEESGTLIDMLAKVSDFQDVEVNETIQQALAALEPLAILVMAVFVGSIVIGLFLPLTQISDLVG;locus_tag=LOCUS_13010;note=WP_010942139.1 type II secretion system F family protein (Geobacter sulfurreducens) [pid:38.8%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:2.9e-81],MGA_1307
sequence05	MetaGeneAnnotator	CDS	100557	102251	.	-	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGDKLIQEGLITEEQLQIALIEQKKVKEKLGETLINLGHIRADQLLPILSEHIGVGSIIINYSDIDEELMEKLPSEFMHDNSVIPIRKEGNKLLVAFADPTNVFLVDEVQMRTKEVIKPILALKRNIQEIIIEYETRKNNQTNEDVDSILSELEHMTDEDKEFANEVEELESGLSSESAPVIRVVNAIIGKAVKIGASDIHIEPYSKTVRVRCRVDGVLIELNSFPKSAYNAVVSRIKIMSDLDIAEKRLPQDGRFRIRANGRNIDFRISTLPIISGEKVVMRILDKGAQKLDLDLLGYDEEDLRRIRSVLKKPYGMFLVTGPTGSGKSTTLYSALMEVNSGDINISTAEDPVEYEIEGINQVHCRQEIGLDFATALRSFLRQDPDVIMVGEIRDRETAEISIKAALTGHLLLSTLHTNDAPSTINRLLNMGIEPFMISSSLLAVTAQRLARKICPHCKTEKTYNKEMFLSINLDYEEYKNIPFYYGEGCSKCNGTGYKGRVGLHEIMVLDDDLRDLISARASTKEIRETAKRNGMKTLRKRALEKALKGETTLEEVLRVTLI;locus_tag=LOCUS_13020;note=WP_012583238.1 type II secretion system ATPase GspE (Dictyoglomus turgidum) [pid:47.9%25%2C q_cov:99.6%25%2C s_cov:63.8%25%2C Eval:2.0e-142%2C partial hit],MGA_1308
sequence05	MetaGeneAnnotator	CDS	102851	104056	.	-	0	ID=MGA_1309;product=L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902886.1;translation=MESIKEIYKIGNGPSSSHTMGPQKAAKLFLEKNQEAKKFIVYLYGSLAATGKGHLTDWIIKKTLGEDKTEVIFKPEIVKEFHTNGMCFEAYNKENELIDNFEVYSVGGGTIVSKGEKIDEKSIYEYDKLEDIINWCEENNKELWEYVAEREDDDIFEYLEKIWNIMNEAIERGIQKGGVLPGELKYPKKASMFYKKSRMQRGRMKSTGLTFAYALAVSEENAMGGLVVTGPTCGSSGVIPAVLRSLKEEYALTVEEITKALAVGGLIGNLIKKNASISGAEVGCQGEVGSACSMAAAMTTYIMGGNNKQIDYAAEMAMEHHLGMTCDPVGGYVQVPCIERNAVAAIRAINSAEYTLFTDGSHRVSFDEVVITMKETGIDLKNEYKETSIGGLAKFKLNKKL;locus_tag=LOCUS_13030;EC_number=4.3.1.17;note=WP_005902886.1 L-serine ammonia-lyase%2C iron-sulfur-dependent%2C subunit alpha (Fusobacterium nucleatum) [pid:57.8%25%2C q_cov:98.5%25%2C s_cov:97.5%25%2C Eval:4.3e-130],MGA_1309
sequence05	MetaGeneAnnotator	CDS	104088	104630	.	-	0	ID=MGA_1310;product=peptide-methionine (S)-S-oxide reductase MsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021447.1;translation=MEIAYFAGGCFWGIEYEFQRIKGVIDTEVGFMGGHVKNPTYKEVYTDNTGHAETVKVIYDENIVTYRELLEEFFKMHDPTSLNKQGKDNGTRYRSEIFYTNENQKKEANEFIRYIEDIKLYSKKIVTKISKANDFYPAEEYHQNYKVKIYKKKRFLHRTFRITVILITFFLLVFIKLYLS;locus_tag=LOCUS_13040;gene=msrA;EC_number=1.8.4.11;note=WP_011021447.1 peptide-methionine (S)-S-oxide reductase MsrA (Methanosarcina acetivorans) [pid:49.1%25%2C q_cov:89.4%25%2C s_cov:83.5%25%2C Eval:2.5e-40],MGA_1310
sequence05	MetaGeneAnnotator	CDS	104807	107197	.	-	0	ID=MGA_1311;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016058.1;translation=MLISLKWLKDYIEIKENINELEHALTMIGQEVEAIEEQGKNLENVVVGQIIEYGKHPDSDKLTLLKVDTGDEVVQIICGATNHKNLDKVAVAKIGAILPGDFKIKKTKIRGVESHGMLCSEKELGIGESHEGIMILSEDAKIGTPLKDYLELDDVVFELEITPNRPDCLSHLGIAREIAAYYNRKVKYPTANFTTLSENIDSNLKVTIDDKEGCKRYVARIIKNVEIKESPKWLQTKLKAIGIKPINNVVDITNYVMMEYNQPIHAFDYNKINNGEIIVRKANEGEKIITLDGEERNLSQKDIVIADNQKAIAIAGVMGAKNSEIDENTKNVVIEVAYFNPVLIRQTSKRLVLSTDASYRFERGVDIENATVVANRVASLISEIANGDVVEGVIDKYFEKYQEKEVTLNIERLNKFVGKEISIEDIGKIFIGLNFQIVESRDNIITIIPPSYRGDITREADLFEEIIRMYGFENIEDKLPNETVKSGTVYKETEAIDRAKNYLVSSGLQEVINYSFIPEEIISFMGFDINNCVKLKNPIVEDFAIMRPTLIYSLLLNIRDNLNRNINDLKIFEIAKTFEKDEKLAIEIPKIAIALAGSKDRNIWDIKPKSYDFYDIKAYVESILESFGMKSYQLIRSNNSMYHPGRSADIMVGRDLVGTFGEIHPDFAEKMDIKRERAYVGELDLEKILKYGKDKIKYEGIVKYPAVQRDLAIVVDNSVLVGNMLKDIEKSSNLIEKVELFDVYEGEKIETGKKSVAINIVLRDKKGTLEEDTINKTIEKILGIVKKKHNGELRSK;locus_tag=LOCUS_13050;gene=pheT;EC_number=6.1.1.20;note=WP_011016058.1 phenylalanine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:54.6%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:2.2e-257],MGA_1311
sequence05	MetaGeneAnnotator	CDS	107212	108231	.	-	0	ID=MGA_1312;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895121.1;translation=MKDKLLELRKEAEELIKKVESSKELDDIRVQLLGKKGKITDIMKGMKSLSNDERPVIGKLVNEIKSDITKLLEVRLKELSEKEKLERIENEFIDITLPSRKIGKGGYHPVTETQNLLKRIFTEMGFDIADGPEVEDTYYNFDALNIPETHSSRDLQDTFYIADDVVLRTHTSPVQIRYMKEHKPPFRMIATGRVYRSDYDVSHTPMFHQIEGLMIGENISFANLKAILTEFVKKVFGDTNVRFRPHFFPFTEPSAEMDVECVICKGKGCRLCKHTGWLEIMGCGMVDPEVLKEGGYDPKEVSGFAFGMGIERIAMLRHGIDDLRAFYDNDMRFLKQFKK;locus_tag=LOCUS_13060;gene=pheS;EC_number=6.1.1.20;note=WP_005895121.1 phenylalanine--tRNA ligase subunit alpha (Fusobacterium) [pid:64.2%25%2C q_cov:97.9%25%2C s_cov:98.2%25%2C Eval:1.2e-127],MGA_1312
sequence05	MetaGeneAnnotator	CDS	108264	108725	.	-	0	ID=MGA_1313;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016060.1;translation=MKILILSDSHSHFENIYSIYNKENPDKVIFAGDYAKDGKELSFAVDREEDFYIVKGNCDFFDFHTKEIIEIELLNKKFLITHGHLFAVKKNYDIIQKESENKGYDIVIFGHTHRAYYEKLKDIHYFNPGAAINGEYGILLLEDEKIEFIHKKL;locus_tag=LOCUS_13070;note=WP_011016060.1 metallophosphoesterase (Fusobacterium nucleatum) [pid:46.1%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:9.0e-34],MGA_1313
sequence05	MetaGeneAnnotator	CDS	108751	109527	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNRVLVYFSSEEEVDYLLSFMEVLKKKYKNIEITGIYVKDISKYDVIPPMVEGLVIDSTNNYILSEWNELEQKHEKQIKEKFLNKIEGEFYTKEGNASDELLEEMKLHDLLIFAKEIYLKNEIKNIFKLHYKPIIAVPKLAHYNFEKILIADDNGLNINKSFFEFIKLFDDIKEFTALSINSETESKKDLNIYLNKIDKKINYKEEIGNEVEILKDYAYEADILVIGNLRYSFILEKLTGKIGVKIIEKINKPIFLF;locus_tag=LOCUS_13080;note=MGA_1314
sequence05	MetaGeneAnnotator	CDS	109698	111734	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKLGATLDRNGVFFYLWSPDIKRCKVYIYDKNDSNKELNSFYMNKNGEYWEFYLENSKMKVSTFDGYFYQYEIELQNGEKRRGLDPYAKSMAGFNPHLEDKIGKAAIIDMESEKAGEKDRSIGMNNLKNSLELIAYEVHVRDFTINTNVEGKGTFLGFANYTEGIEHLKKLGITHVQFLPIQNYYTVNEGDRDFRDRGGKYYNWGYDPHNYFTLEGWLSTDEKDPYTRIREFRYLVKKLHENGIGVIIDVVYNHTYGYDIFENIAPGKYYRYDKEKNISLKSGAGPSLETRNEMVRKLIIDSLKFFVDEYGVDGFRFDLMGFIDTKTIREIRRALGDNIILHGEAWNFTDLDVKEAPIKGFPEYYPLGIDLAMFNDTTRDAYAGRMENKGFVQGDYSLASICRTGIIANLIYFDNGGKDVDINKDIYNRFAHSPNEVLQYLSIHDGFTLWDKINLSFKGSKEEKIKILKQASVMLFTSQGKIIIHGGVEIARTKPLAKDDPESNRAHTSENIIEIEDTLGIKHFHENTYASSDFVNMYRWNRKNDKDFKKVYEYYCGLIKMKRAIKGFRYQYTENIQKAVRFIDKDMSIDNNKYIAFIINNTLEKDNIDETNFKYLLVVHNVKKDELIIKNMFIDKNTKIILDGEKAGIEHIENSKVIVKDGEVRIPAHTSVVLAK;locus_tag=LOCUS_13090;note=WP_001232763.1 LPXTG-anchored pullulanase SpuA (Streptococcus pneumoniae) [pid:34.9%25%2C q_cov:85.8%25%2C s_cov:47.8%25%2C Eval:2.1e-85%2C partial hit],MGA_1315
sequence05	MetaGeneAnnotator	CDS	111979	112977	.	+	0	ID=MGA_1316;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582593.1;translation=MKKITIKDIAKLAGVSPSTVSNVINGVSKCSTDTRDNILALIEELNYKPNITAKSLVTKRSKLIGFVFKQDNENSFLQNLLYGIQSGIKNFPEYDIITTNINNSYNLEEWITKRNLDGIIFLGMFSSNLISKIQRLNIPILLIDNYFEQIPNINYVYSEDTLGGYLATEHLIKKKCKHIALATGSLKENELFFRRYLGYKSALEDYGIKLDGNLIFESKHIDFNSGKILGELITQNKNIDGIVSLADILAIGIIKRLNKEYNKIPDDILIIGFDNIPGCEYTTPQLSTIDQGIYEKGYKSINILINKIENNNKDSIEVQIPIKIIERESTKK;locus_tag=LOCUS_13100;note=WP_012582593.1 LacI family DNA-binding transcriptional regulator (Dictyoglomus turgidum) [pid:36.4%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:1.6e-44],MGA_1316
sequence05	MetaGeneAnnotator	CDS	113005	114129	.	+	0	ID=MGA_1317;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005161697.1;translation=MAGVILKKVEKTYPNGFKAVHGIDLEIKDGEFMVFVGPSGCAKSTTLRMIAGLEEITGGEIWIGDKLVNDLPPKDRGIAMVFQNYALYPHMNVYDNMAFGLKLAKVPKDEIDKRVKEAAEMLELTDLLDRKPKEMSGGQRQRVAVGRAIVRYPEVFLFDEPLSNLDAKLRVHMRVQITQLHHQLKEMGKTATMIYVTHDQVEAMTMGDRICVLEFGRIKQVDTPLNLYNKPKNKFVAGFIGSPAMNLLEATLTEKDGKIYVDVAGTEFLLPKEKAEKVKSHVGKKVWFGIRPENILNKITNPNETANYAKGKISVVEQMGNEVFSYFSINGVQYTSRIPSDKSGEIGNGIEYDYWFEMDRCHIFDYESEENISL;locus_tag=LOCUS_13110;note=WP_005161697.1 ABC transporter ATP-binding protein (Yersinia enterocolitica) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-127],MGA_1317
sequence05	MetaGeneAnnotator	CDS	114451	114645	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYSVFESELSKEEIIKLKREVSNEIDKKEDSIRVYSLCKNCRKNIVTIGLDKGSFYEEKFIII;locus_tag=LOCUS_13120;note=MGA_1318
sequence05	MetaGeneAnnotator	CDS	114801	115364	.	-	0	ID=MGA_1319;product=D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966334.1;translation=MKKCIFIDRDGTINIEKNYLHKIEEFEFIKNSEKAIKIFKELGYLVIVITNQSGIARGYYSENDVKILHEYINKILKERYDIEIDDFYYCPHHIKGEIKEYAIECKCRKPEPELFIKAKEKYNIDFLNSYMIGDKLSDLEGAIKLGIEPVFVRTGHGKIEEEKIYFNVKKYNDIYVFAKELKNKLNK;locus_tag=LOCUS_13130;gene=gmhB;EC_number=3.1.3.82;note=WP_010966334.1 D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase (Clostridium) [pid:50.8%25%2C q_cov:96.8%25%2C s_cov:99.4%25%2C Eval:2.3e-47],MGA_1319
sequence05	MetaGeneAnnotator	CDS	115455	116363	.	-	0	ID=MGA_1320;product=homoserine O-succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965131.1;translation=MPIVIPKKLPAHDILSNENIFIMNEERSNHQDIRPLKILILNLMPTKIETETQLLRLLGNTPLQTEITLLKTATYQSKNTSKEHLESFYKTFKEIKEHQFDGLIITGAPVETLEFEEVEYWEELTKIMDYANKNVTSTLHICWGAQAGLYYNYGIKKYELKEKQFGVFKHDIYVKNTKLLRGFDDVFYAPHSRHTTVKIEDINNHKDLILLTESKEAGAHIITSKNGKHIFITGHSEYDKDTLKKEYERDIKRGIDIKIPKNYFIDDNPNNDILVTWRAHAHLLFSNWLNYYVYQETPYILK;locus_tag=LOCUS_13140;gene=metA;EC_number=2.3.1.46;note=WP_010965131.1 homoserine O-succinyltransferase (Clostridium) [pid:64.8%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:1.0e-114],MGA_1320
sequence05	MetaGeneAnnotator	CDS	116416	116835	.	-	0	ID=MGA_1321;product=DUF2721 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005788775.1;translation=MRITLTTPAIIFSTISLLLLAYTNRFLAIASLIRNLHDKKKEENKTTYIIESQINSLKKRIKLIRDMQFLAILSLFFCVFSMFLIFFDKILYGEILFVISLIFLMLSLIYSAIEINLSVIALNIQLSECVGEECERKNS;locus_tag=LOCUS_13150;note=WP_005788775.1 DUF2721 domain-containing protein (Bacteroides) [pid:46.9%25%2C q_cov:93.5%25%2C s_cov:95.5%25%2C Eval:6.4e-24],MGA_1321
sequence05	MetaGeneAnnotator	CDS	116858	117211	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDINIYSYIFSGISLLMTTYVDRFNKISVLIREKIDKKDRFKIEILYKRINYIKRIMFFSIFSLIFDILTILSNIFIEKIVLYFFIVSIINILIAFYYLIKEILLSNEYTFSYLEK;locus_tag=LOCUS_13160;note=MGA_1322
sequence05	MetaGeneAnnotator	CDS	117383	118114	.	-	0	ID=MGA_1323;product=pyruvate formate-lyase-activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903514.1;translation=MNIKGRLHSYETCGTVDGPGIRFVVFMQGCPLKCKYCHNPDTWDINKAKYERSVEEVLYEIKKYKNFIYPKGGVTITGGEPLVQLEFVKELLKECKKEGLHTAIDTSGYIFNDKVKEVLKYVDLVLLDIKCMDEKEYLDLTSVKLDNTLKFAKYLSEINKKIWIRHVLVPGITDRDNYLHKLGEFCQNLKTVDLVEILPFHKMGEYKWKELGMEYKLYKVDSPTFERVENSKNIMKEYGLNVR;locus_tag=LOCUS_13170;gene=pflA;EC_number=1.97.1.4;note=WP_005903514.1 pyruvate formate-lyase-activating protein (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:97.9%25%2C s_cov:97.1%25%2C Eval:6.6e-68],MGA_1323
sequence05	MetaGeneAnnotator	CDS	118130	120358	.	-	0	ID=MGA_1324;product=formate C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903513.1;translation=MKAWEGFVGEEWQKEIDVRAFIQDNYLPYEGDESFLEEATEASKILWTKIMEMIKVEREKGVYDAETKLPSGIDVYGAGYIEKELEKIVGLQTDKPLKRGIYPKGGLRMVKNSLTAYGYELDKTTEEIFTKYRKTHNDGVFSAYDESIRAARRSGIVTGLPDAYGRGRIIGDYRRVALYGVDRLINERKEILKNSTKHDMNEETIRDREEYTEQIKALEALKRLGEAYGLELGRPAENAKEAIQWTYMAYLAATKDQDGAAMSLGRVSTFLDIYIERDLKNGVITEKEAQELMDHFVMKLRIVRFLRTPEYNDLFSGDPTWVTESIGGMGVDGRPLVTKNSFRILHSLYNLGPAPEPNMTVLWSRNLPENFKKYCAKVSIDTSAVQYENDDLMRSEFGDDYGIACCVSPMRIGKQMQFFGARVNLPKALLYAINGGVDEKSGVQVAPRFEPITSEYLDFDEVMTKFDNMLEWLAGVYVKALNIIHYMHDKYNYEAFQMALHDPQVKRTEAFGIAGLSIIADSLSAIKNAKVKVIRDENGLAIDYEIEGEYVPFGNNDDDTDSLAVEVVKNFMNKLRKHNTYRGAIPTQSILTITSNVVYGKKTGSTPDGRKKGEPFAPGANPMHGRDRRGALASLSSVAKLPFEHAHDGISYTFAITPGTLGKNENDRKENLINLLDGYFTPNGGQHLNVNVFNRELLEDAMEHPEKYPQLTIRVSGYAVNFVRLTREQQLDVIKRTITERF;locus_tag=LOCUS_13180;gene=pflB;EC_number=2.3.1.54;note=WP_005903513.1 formate C-acetyltransferase (Fusobacterium nucleatum) [pid:70.9%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:9.9e-315],MGA_1324
sequence05	MetaGeneAnnotator	CDS	120560	120808	.	-	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRNNYIYIIDKLLRLYLFPLILISNKNKSRKFLYNNLIKRKYKRELKLKIVNPKEKIKLSHKIKGLKFISIKNIVFNYKTN;locus_tag=LOCUS_13190;note=MGA_1325
sequence05	MetaGeneAnnotator	CDS	120805	121362	.	-	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFYLKRNKIVIDDKEYYISNDIIYELNLIKKESVSEEEYRIIIKSIIKSRALYYLSKRDYLKKELKYKLETKFFVEKKIIEEIIDELEKIGYIDDRSFIKSYIKNKNSSIEKKKYELSIKGAEKKILEEEIKELREEIKENEYKNIRKNLRKVRNREKNKQIEYLMRKGFKYEDIKTILKEER;locus_tag=LOCUS_13200;note=MGA_1326
sequence05	MetaGeneAnnotator	CDS	121334	122386	.	-	0	ID=MGA_1327;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373114.1;translation=MAAKSKNISKEQALEMAMKQIKKDFGEGSIMKLGENAKMEVESIPTGSLNLDIALGIGGVPRGRVVEVYGAESSGKTTLALHIIAEAQKMGGVAAFIDAEHALDPQYARALGVNTEELLISQPDYGEQALEIADMLVRSGAIDVIVVDSVAALVPKVEIDGEMGDQQMGLQARLMSKALRKLTGTLNKSKTTMIFINQIREKIGGFGFGPQTTTTGGRALKFYSSIRLEVKKISTVKQGDSIIGNEVKVKITKNKVAPPFKEVSFEIMYGKGISQVGEILDLAIANDIVSKSGAWFSYGDVRLGQGRENVRAKLEEDTELREEIYNKLKEVLFPNENIEEVNEEVLSEEE;locus_tag=LOCUS_13210;gene=recA;note=WP_147373114.1 recombinase RecA (Fusobacterium nucleatum) [pid:72.1%25%2C q_cov:92.3%25%2C s_cov:85.2%25%2C Eval:3.1e-129],MGA_1327
sequence05	MetaGeneAnnotator	CDS	122399	123337	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKINRDSNLSIHTQLKEQIKGLIIDGELSNDEQLPTVRQLGDFLQINKNTVSKVYSELEEEGYVESLKGKGTFVKYERDNKKIKFLKEIESVLKKGIEEGIDIDEIIGMTYFKSHYLKFMILKGEIKKAALIECNQGSIKDFKDMVKKEIGNIEIRGILIDDLLENSEKIKKEIEDIQLIIIPYIHYNEVSKVLEKFKEKEIFTLGISQSIKLLNYGKKMKNKIVGIIGKDAQEEEIINRQFRRMNIKEFKIFSEEKVSLKEFLRSIDFLIISPKKLEEYESQMKPKRPYIVFEGKYAIDDIKILKEIFE;locus_tag=LOCUS_13220;note=WP_000548044.1 GntR family transcriptional regulator (Bacillus cereus group) [pid:39.8%25%2C q_cov:34.6%25%2C s_cov:81.3%25%2C Eval:4.7e-14%2C partial hit],MGA_1328
sequence05	MetaGeneAnnotator	CDS	123493	125073	.	-	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDMTNFEELLEDFLPENVSRGEEVEGTIIRKEREYAYLDINSKLEAVVLASEVEDYEIGDTIKVSIIEENETGIRVSRRNIEMNENFEKIKEALKNQTPLKGKVIKKVKGGYIVDVLKLNAFMPNSLSTAKKDENIVGKELEVAVKDVKDEKRRKILVSAKDLLLKKEITTLSEISVGDIVEVEIENILDFGLSVKYKNIIGFIHISEVGWEKINNLRDIFKVGDKVTGKVIEKDEKNRSVKLSIKQLLEDPWNTIEEKYPLDSEVTGKVVRSVKFGIFVELEKGIEGLVHISDLTWSKKIRNIEEFVKVGDEVKVKVIELNKENKKLKLSIKALQRNPWEVAMEKFEIGTVVKGKVVDVKDFGMFVELLDDVDAFVHISDYSWSKVDSSLYKIGDEVEVKIIEIDKENKKIKAGIKQLTKSPWEIIEENYKVGDVVKREINNITDFGIFLKIEESVDGMIHISEASKDFIKNLNDKFKVGDEIEAEIIEIDNKNKKVKLSIKKLEIEKQKEEEKELLEKYSVVE;locus_tag=LOCUS_13230;note=WP_011015822.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:93.3%25%2C s_cov:60.3%25%2C Eval:4.1e-118%2C partial hit],frameshifted%2C insertion/deletion at around 125090%2C125068,MGA_1329
sequence05	MetaGeneAnnotator	CDS	125073	125948	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKIVHAKKMGFCIGVKNAVNLAEEILAKNFENVYIVGMLVHNNIVIEDLIKKGAKIISEEDILNNKYKFTSKDAILVRAHGTVKEVYDKISDTDSIIYDAACIFVNRARDILKNKINENYKIIFIGDKNHPEVKGIISYGKEKVNIFANLDELKNSVLNKKEKYLILAQTTLNKNMFNEIKEYIKENFIDYEIANTICGATFERQRATEQLATQVELLLVIGSNKSSNTKKLYNIGKNLNKNTYLIEKKEDIDKRWFEGIDVVGITAGASTPEKSIHEIEKMLKGEIL;locus_tag=LOCUS_13240;note=WP_011015822.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Fusobacterium nucleatum) [pid:46.8%25%2C q_cov:97.6%25%2C s_cov:34.1%25%2C Eval:1.4e-73%2C partial hit],frameshifted%2C insertion/deletion at around 125090%2C125068,MGA_1330
sequence05	MetaGeneAnnotator	CDS	125938	126207	.	-	0	ID=MGA_1331;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904300.1;translation=MKELEVEIKNEAGLHARPSSLFVQIAGEYDADVTVISDGEEVNGKSIMGLMLLAAEKGRKLKLIADGPDEDEVLQALQKLIEVDKFNED;locus_tag=LOCUS_13250;note=WP_005904300.1 HPr family phosphocarrier protein (Fusobacterium nucleatum) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-28],MGA_1331
sequence05	MetaGeneAnnotator	CDS	126207	127946	.	-	0	ID=MGA_1332;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_152804487.1;translation=MKKIKATSIFEGIVIGKPYLRKQKEIKIDARSLKENEIEEEIIRVEKAIDDTRYEIRHLMDSLKDRINKNELKILNVQFMILEDPVFLSDVKNKIEKDMINAEVVVDRVIKKYIKMFKSLKDPLYRERANDVSEVGRKIIENLLYITPENEDIDNKIIIAKELQPFELLKFYHDGVNILGIITEEGGKTSHTAILCKSLGIPTLIGVKNIMYLDIDPNKDIILDSRLDKQLVILDPKEEILKEYKIYEKKYEEFSKEIDQLKVEDVSTLDGEKINLHVNIGGDIEIEQLKEFKCDGIGLLRTEFIYMENDKFPSEDEQIKMYEKVYSALPENKPLIIRTLDIGGDKKLGYYDMPHEENPFLGFRAIRFCLENLDIFKTQLRAILRAGYNKNIKIMYPMISKVEEVVRANTILEEVKKELEIEKLNYKKDIEVGIMIEIPSAAIMAERYVEYVDFFSIGTNDLTQYVLAADRLNKLVSNIYDPYDIAILNLINHVSEIGKKYNKKVSVCGEMAGEPIAIILLIALGIKDLSMLPSFIPRAKKIIKSIDLKEIKKYKEKILKAKNSQEIKKLITKLLIGVV;locus_tag=LOCUS_13260;gene=ptsP;EC_number=2.7.3.9;note=WP_152804487.1 phosphoenolpyruvate--protein phosphotransferase (Alkalibaculum sporogenes) [pid:40.3%25%2C q_cov:98.1%25%2C s_cov:97.9%25%2C Eval:1.0e-112],MGA_1332
sequence05	MetaGeneAnnotator	CDS	128094	129947	.	-	0	ID=MGA_1333;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016068.1;translation=MFDNRYDVIVVGAGHAGVEAALASARLGKKTAIFTLYLDNIAMMSCNPSIGGPGKGHLIAELDILGAEIGKHTDKYNLQMKVLNETKGPAARVSRAQADKYLYRVKMKEILENQENLDIIQAEVIDIIVKEKKVVGVKTSIGIDYYSKAVVLATGTFLKGKIVIGDVEYSAGRQGENAANYLSESLLKYGIEIDRYQTATPPRVDKRTIDFSKLKKLYGNEKPNYFSIFTNKKEQSIMPTYLTFTTEETIKVTKELLKYSPIVSGIIETHGPRHCPSLDRKVLNFPDKYEHQIFLEQESIESNEIYVNGLTTAMPPFVQEKMLRTIKGLENAKIVRYGYAVEYDYIPAYQLKMNLENKILENLFLAGQINGTSGYEEAAAQGFLAGVNAVRKIDDKEPMIIDRTEGYIGVLIDDIIHKKTPEPYRVLPSRAEYRLTLRFDNAFIRLFDKAKEIGIIEKEKLSELENYINIIKKEIEKLKEIKITKKEINILLEKLGASERVTKGLTAYELLKLKEITYNSLKGFVDILELPKFVTNQIETIVKYSVFIEREKKQIEKFKKLENMKIPENFNYDNIKGISNIAKDGLNLVKPLSIGEASRISGVTGHDIALLIAHIKK;locus_tag=LOCUS_13270;gene=mnmG;note=WP_011016068.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:64.0%25%2C q_cov:98.9%25%2C s_cov:98.7%25%2C Eval:1.7e-230],MGA_1333
sequence05	MetaGeneAnnotator	CDS	130172	131545	.	-	0	ID=MGA_1334;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016067.1;translation=MIFDTIAAISTPRGEGGIGIVRISGDLALDILEKIFIPASEKNVKELKTFTINYGKLINEKKEIIDEVLVSVMKAPKTYTKEDIVEINCHGGYLVTEKVLELVLRNGARHAEQGEFTKRAFINGRIDLTQAEAVMDLIHSKTDKSISLSLEQLRGDLRIKIYELKKMLLDVTAHVNVVLDYPEEGIDDPLPDNLYDNLKEVYSQCDDLINSYDTGKMIKEGIKTAIVGKPNVGKSSLLNALLREERAIVTHVAGTTRDVIEEIINVKGIPLIIVDTAGIRKTEDIVENIGVEKSKELIEKADLVLFVVDSSTEITKEDIEIYEKVKNKKVLGILNKTDLDKKIDISEFKEINSFIEISAKEKIGIKDIEDSIYNLVISGDIENNSQKLVITNVRHKSALEKTKDSIKNIFETIDMGMPMDLIAIDLRVALDSLSEITGEISTEDLLDHVFSNFCVGK;locus_tag=LOCUS_13280;gene=mnmE;note=WP_011016067.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Fusobacterium nucleatum) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-182],MGA_1334
sequence05	MetaGeneAnnotator	CDS	131553	132194	.	-	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKSNLITLEIKAKNEEEAIEKFILDTNIIRKDYEIELEIIKKGISILGIISTNNLYNIKATKKNKIEELVIKKTKELLEKMNLDLEIEITKSKEHFIAINLYGSDNGIIIGKKGKTLNSFEFLLNTLIKGCKVEVDVEGFKEKRAETLRELARKMAEKAIRTNKTIKLNSMPPRERKIIHEVINTYEELDTYSEGKDPKRYIVIKKKKVG;locus_tag=LOCUS_13290;note=WP_147367405.1 KH domain-containing protein (Fusobacterium canifelinum) [pid:54.7%25%2C q_cov:74.6%25%2C s_cov:61.4%25%2C Eval:1.3e-47%2C partial hit],MGA_1335
sequence05	MetaGeneAnnotator	CDS	132175	132813	.	-	0	ID=MGA_1336;product=YidC/Oxa1 family membrane protein insertase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903598.1;translation=MSIIQNLIREIILMIYNVTKSYGLAIIGVTLLIKLILLPLTLKQDKAMKDMKKIQPEIDKLREKYKDDPQELNKQTMELYKEHKVNPFGSCLPLLIQLPFLWGIFGVLKQTPEAVTNVNFLFWNLTKTDPYYVLPVLNALVTFFQQKVMSNSTTQNDQMKAMQYTFPIMILFFSLSMPTGLQLYWLLSSLISTAQQYFLINKGDDKGENQQK;locus_tag=LOCUS_13300;note=WP_005903598.1 YidC/Oxa1 family membrane protein insertase (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:95.8%25%2C s_cov:99.5%25%2C Eval:1.3e-55],MGA_1336
sequence05	MetaGeneAnnotator	CDS	132788	133045	.	-	0	ID=MGA_1337;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016065.1;translation=MKKILIFLIKIYQKIMSPILGNNCKYYPSCSNYSIEAIKEHGIIKGSILSIWRILRCNPWSHGGYDPVPKKNKKGGKNVNNSKSN;locus_tag=LOCUS_13310;gene=yidD;note=WP_011016065.1 membrane protein insertion efficiency factor YidD (Fusobacterium nucleatum) [pid:60.6%25%2C q_cov:77.6%25%2C s_cov:80.5%25%2C Eval:3.6e-19],MGA_1337
sequence05	MetaGeneAnnotator	CDS	133042	133380	.	-	0	ID=MGA_1338;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016064.1;translation=MIMEKIRKNNEFQYIYSKGKKIYGYYILIYTLENNLNKKRFGIVVSKKNGNAVCRNRIKRLIRESIRLNLIKFKDNYDYIIIAKKNAGNNIEKLNLKVIEKDLIKILNRNFK;locus_tag=LOCUS_13320;gene=rnpA;EC_number=3.1.26.5;note=WP_011016064.1 ribonuclease P protein component (Fusobacterium nucleatum) [pid:53.6%25%2C q_cov:98.2%25%2C s_cov:95.5%25%2C Eval:1.4e-23],MGA_1338
sequence05	MetaGeneAnnotator	CDS	133435	133569	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTYQPNNRQRKKDHGFKKRMKTKSGRNVLKRRRAKGRKKLSA;locus_tag=LOCUS_13330;note=WP_010888783.1 50S ribosomal protein L34 (Deinococcus) [pid:80.6%25%2C q_cov:70.5%25%2C s_cov:66.0%25%2C Eval:9.6e-09%2C partial hit],MGA_1339
sequence05	DFAST	assembly_gap	134098	134192	.	+	.	ID=GAP_2;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_2
sequence05	MetaGeneAnnotator	CDS	134500	136188	.	+	0	ID=MGA_1340;product=replication initiator protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016063.1;translation=MILKEEKEIFELDEYNIDTSGDLTKDAVREIDHFDMEEKSLPNIEVKEMIIKETGNFLNLKENIINIPIEMIVFPFFTPQKQNKRVNFKYSFQDLGVTMYCTLVSKDESDKVFQPSIFEEKIYNYLISMYEQKREINDTDEYIEFEISDFICGFLGNKMNRAYYSKVEQSLKNLKNTEYQFVISNHSKLGKYKFEDEEFKLLTYQKLKLGKKVFYRVTLNKNIRKKIKDKRYIKYNSKNLLEIIDKDVVASRIYKYISKIRYSKIEDEIPLKTLAAIIPLKTEQIVSRINKKGEKRRYKLSRVKQIKKRIEKAFNVLIKLGYIKSVKIYDKKGEIVVKYQFNIEKDNKCHVSSYIGNKIPKLERVPYEKNNEIDINRYKVEEAIIIDNQDILKAKIKKAKQNMYISKLWNKRVDNKIKRLVKQKGEEFVVKILDILYTQVNYEIRTTLVQYINGIVNNLEKNSDIVEETIKVEDNLTLFEQEKKENKGNKTKELSDEEIKKIFNSLDELEKASIEKQALEICEKREKVSIEFLIKLKNQNQNIYMLTILKFIGEILIERNLV;locus_tag=LOCUS_13340;note=WP_011016063.1 replication initiator protein A (Fusobacterium nucleatum) [pid:50.2%25%2C q_cov:98.0%25%2C s_cov:85.1%25%2C Eval:2.6e-134],MGA_1340
sequence05	MetaGeneAnnotator	CDS	136764	136976	.	+	0	ID=MGA_1341;product=S4 domain-containing protein YaaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963332.1;translation=MEIVKINTEFIKLDQLLKWINVVSSGVEAKIVIQDGLVKLNGEIETRRGKKIYNDDIIEVNGRKYKIVNK;locus_tag=LOCUS_13350;gene=yaaA;note=WP_010963332.1 S4 domain-containing protein YaaA (Clostridium) [pid:61.8%25%2C q_cov:97.1%25%2C s_cov:100.0%25%2C Eval:1.6e-16],MGA_1341
sequence05	MetaGeneAnnotator	CDS	136990	138069	.	+	0	ID=MGA_1342;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016062.1;translation=MFIKNLSYFNFRNLIDGNLEFDKKFNLFLGKNGQGKTSVLESIYFTITGQSFRTKNIKDIIKYEKLKLATYLEYEDKFSEKNIAIKTISNKKEYFYNKKKVTYDEYLGRLNVISFIPEDINLIIGSPMNRRNFFDYEISQGNTSYYIHLKNYNKILKIRNTFFKNKDFSEIFEIYNQKFFEEIVEIVTMRYEYIKKISILLNLNYRKLFDNKSELILTYKNSFGDITKLNKNQIMKKLLEYYKKIKDKEKKYGYSLIGPQKDDFLFLLNGKEAKSFSSQGEKKSIIFALKISEIDMLIKEKSETPIFLIDDISSYFDSIRKESIIKYFENREIQLFLSSTDDLGINSKKFKIFKGDVNG;locus_tag=LOCUS_13360;note=WP_011016062.1 DNA replication/repair protein RecF (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:98.9%25%2C s_cov:97.3%25%2C Eval:1.2e-91],MGA_1342
sequence05	MetaGeneAnnotator	CDS	138062	138895	.	+	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEIRINPVNEIVKLGIKQSRMLKESMIRAYYNKIVEPYFFENSMIIKLDNDILIIGVKNSIWLQEFTLKKNIILYKINKIFENNYIKNIRFEIKENINPEKIYEENFEKFEPEKINLKKEEIEKIEKKIEEYDEVIKEKIKNMMILSKKKEIYLKNHNYKKCKNCGIYFYSERDICINCFNQNKHKERKKLYNIIKNIPFIKYEDLTNTHITKEQFLDIRAKIKDEVRKKMMDGANNNNIKVYKKYARIYFMIETQNSNEKEIENLVNNYLKRLIY;locus_tag=LOCUS_13370;note=MGA_1343
sequence05	MetaGeneAnnotator	CDS	138912	140813	.	+	0	ID=MGA_1344;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895130.1;translation=MSYKAENIKVLEGLEAVRKRPGMYIGSTSIRGLHHLVYEIVDNSVDEALAGYCNNIQVNILPDNIIEIRDNGRGIPVDLHPKHNKSALEIIMTVLHAGGKFEKSGYKVSGGLHGVGASVVNALSEWCEVESRRDGGVFYQKYFRGKPVEPVKKIGDCYEETGTTVRFKADYEIFETLEYEFDTLKSRLKELAYLNKGLSITITDSRKDKEKSEYLKFEGGIVDFLSEITKEEKKIIENIIYIEGTKDDVVVEVSFVYTEKQRENAYSFVNNINTHEGGTHLSGFKTALTRVINDVAREQGYIKEKDGKFQGTDVREGITCIVSVKVPEPQFEGQTKTKLGNSEVTGVVSSIVFDYLKMYLDDHPNDTKNIVERILLSKKAREAAKKARELVLRKNALEVGSLPGKLADCSSKKSEECEVYIVEGDSAGGSAKQGRDRRFQAILPLRGKILNVEKAGIHKILENNEIRALITAIGTNIGDDFDIEKLRYSKIIIMTDADVDGAHIRTLLLTFFYRYLPELIENGNIFIAQPPLYKISKGKSIVYAYSDKQLNDILKTFDEGTRYNLQRYKGLGEMNPEQLWETTMDPDTRTLLKVTLESATEADRLFSVLMGDKVEPRREFIEEHAEYVRNLDI;locus_tag=LOCUS_13380;gene=gyrB;EC_number=5.6.2.2;note=WP_005895130.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Fusobacterium nucleatum) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-260],MGA_1344
sequence05	MetaGeneAnnotator	CDS	140838	143288	.	+	0	ID=MGA_1345;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903616.1;translation=MSIEKEIYIEDEIKASYLDYSMSVIVSRALPDVRDGLKPVHRRILFAMNEMGMTNDKPYKKSARIVGEVLGKYHPHGDTAVYNTMVRMAQEFNYRYMLVQGHGNFGSIDGDSAAAMRYTEARMAKITSELLVDIDKDTIDYRKNFDDSLDEPVVLPAKLPNLLLNGADGIAVGMATKIPPHNLGELVDAIIALIDNKDITIEELSTHIKGPDFPTGGIIFGKKGIKEAYETGRGRILVSGKVDVEEKKNGRVSLIITELPYQVNKARLIEKIANLVKEKRLQGISDLRDESDRDGIRVVIELKKGEEPELILNNLYKYTELQTTFGIIMLALVNNIPRVLNLKEVLEYYLQHRFEVVTRRTRFELNKAEKRAHILEGFRIALDNIDKIIELIRASNDGNTAKEKLVESYSISEIQAKAILDMKLQRLTGLERGKIEAEYNELMKLIIELKEILNNDNRIYEIIKAELVELKEKFNDERRTEIKASRRDISVEDIIKDEKMIVTLTNKGYVKRMALDKYKAQKRGGKGISAQVTIEDDFVESMYVASTLDTLMIFTDFGKAYSLKVYEIPETSRQAKGKLITNLINLDKNEKVRAIIKVRDFSDETEVFFLTSQGKAKKTNLDLFKNMNRSGIIAIKLNEMDNLIYVGLINNEKEEIFVATKKGYAIRFGQELIRSMGRNAAGVKAITLRTNDEVVSGVIVRNEEEKILTITERGYGKRTDLEEYPLQSRGGKGVINIKSNIKTGDVVEIKSVNDDEELMAITSNGIVIRTPVEKISNIGRATQGVKVMRVAENEKVVSIVKVKKNLEDEIDIEEEE;locus_tag=LOCUS_13390;gene=gyrA;EC_number=5.6.2.2;note=WP_005903616.1 DNA gyrase subunit A (Fusobacterium nucleatum) [pid:69.3%25%2C q_cov:97.7%25%2C s_cov:98.4%25%2C Eval:0.0e+00],MGA_1345
sequence05	MetaGeneAnnotator	CDS	143527	146508	.	+	0	ID=MGA_1346;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016080.1;translation=MNFTIDLEEKEIYRGKIPFFLMNKNKNIIYLSGLNKNIDDYYFGIKDFSNKNLLKIENYNYTDIEWKEKNIELLNILKKENSIIFISLNAVFKEYFSKIKFFTIYKEKEYKINKIIKFLEENGYTRNYIIESIGEYSIRGDIIDIFSPSYDHPIRLEFFDNFLEDIRYFDIDTQKSIEKIEHIDINSNIGNSEKYSFLELLNKLKYKNYEIIIENKEFLDYKLEEYILNNREKENKIREEYAKIIFDNIHIFTKRLNENFVSKLKDYDYIKEYSKNKTIYIFTEEKRRYEEIFKGYKNIIIERKNYFEGFETAKELVITDRELKGIRVVRLEKRKEGLKLKNINQIIKGDYVIHENHGVGIYLGIEEIDNKDYLAIKYADADKLYVPIDGINKIEKYINEPGKIPEIYNLGRKGFKKRKEKIRKDIEEFAKELVQIQAKREAAVGFKFSKDTVWQEEFEEGFPYNETKDQLKAINDTKRDMESYKVMDRIVCGDVGYGKTEIALRAAFKAVMDGKQVVMLTPTTVLAHQHYERFIERFKNFPVDIKLLSRLESRGSQNKVVEGLKNGSVDIVIGTHRLLSTDISFKDLGLIIIDEEQKFGVKAKEKLKTLRIAVDTLTLTATPIPRTLNLALLGIRDISIIETAPENRKPVEIKFLEKEKNKIKEVILKEKAREGQIFYLFNSIKGMENKLNELRKILPDYIEIDFIHGQMPANQIKEKIVKFENGEFDLLLTTTIIENGIDIVNANTIIIEGIEKLGLAQIYQLKGRVGRGNKKGYCYLLLEKERKLSKKTKLRKETLENINVLGGGFQLSLEDMRIRGAGEILGDKQHGAIDTFGYDLYIKMLNEEMKKLKNEEIQKELYIDINKKGYIPNDYINETEKIRVYKRILSCKKIIELKELKNEIIDRFSKMPKETEELFEYYEIKLLAKEVGILELIETKEGYFMKLDENKIEIDRINVLILKGKLKYISTKKAIIYNGNIKKFLINLKEGEN;locus_tag=LOCUS_13400;note=WP_011016080.1 transcription-repair coupling factor (Fusobacterium nucleatum) [pid:48.9%25%2C q_cov:97.9%25%2C s_cov:99.0%25%2C Eval:6.3e-270],MGA_1346
sequence05	MetaGeneAnnotator	CDS	146509	147414	.	+	0	ID=MGA_1347;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892066.1;translation=MKKILVIAILLVSVVSCNNKKQVKEKVVEKTEKVELMDKNETPKNALARVGDEVITEDEVEMVLKSIPEQYKDYYSSEEGKKEILKELVEQKLIKKEAEKLGLDNDKELQKELNLYKERLLINSYINKNIIKKIDVTEDELKAYYEANKENYKIPEQVNASHILILTMNLNEKEKKAAYKKAQDVFKLVKEGKDFHELAKQYSEGPSAKDGGRLGWFEKERMVKEFSDAAFSTEKGKVYDGIVETKYGYHIILTEDKKESSYIPFEEKEKELKEELLNKKRLDEYNKTLERLKKEYNIEEM;locus_tag=LOCUS_13410;EC_number=5.2.1.8;note=WP_009892066.1 peptidylprolyl isomerase (Clostridioides difficile) [pid:31.9%25%2C q_cov:97.0%25%2C s_cov:93.7%25%2C Eval:1.9e-33],MGA_1347
sequence05	MetaGeneAnnotator	CDS	147414	148166	.	+	0	ID=MGA_1348;product=nucleoside triphosphate pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545835.1;translation=MNKFQELIEIMKKLRKDCPWDKEQTLDSLKPYLLEESYELIDAIDKKDYNELKSELGDLLLQVVFQSEIMEEEKRFNIDDVIEKLNEKLIRRHPHVFKDVEVENSDEVLKNWEEIKKTEKEHLDRVSVLDGIPNSLPPLIRATKLQKKVKKIGFEFEKIDDVIEKIDEEVLEFKEAIKNKDIKNLEEELGDIIFTLVNISRFLKIDITNALIKTNRKFEERFRFVEKNLDLKNSTLEEMDKMWEEAKKKI;locus_tag=LOCUS_13420;gene=mazG;EC_number=3.6.1.9;note=WP_012545835.1 nucleoside triphosphate pyrophosphohydrolase (Thermodesulfovibrio) [pid:51.6%25%2C q_cov:98.0%25%2C s_cov:97.7%25%2C Eval:3.4e-67],MGA_1348
sequence05	MetaGeneAnnotator	CDS	148139	148543	.	+	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRSKEKNLKLLNMYINKNNFIKNYFNRKDFFMRLDKFLKTARIIKRRPIAKKVADNKKIKINGKIAKSATNVNMGDILEVEYFNRYMKIEVLEVPKGNVKKEKASELIKVIETKKIETNELAFLEEDELDEEL;locus_tag=LOCUS_13430;note=WP_005900912.1 RNA-binding S4 domain-containing protein (Fusobacterium) [pid:59.3%25%2C q_cov:64.2%25%2C s_cov:86.9%25%2C Eval:1.9e-25%2C partial hit],MGA_1349
sequence05	MetaGeneAnnotator	CDS	148530	149393	.	+	0	ID=MGA_1350;product=4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016081.1;translation=MKSYKEKANAKINIGLNILEKLENGYHSLDMIMAPIDLSDILEIKFNEKKGNLKIFCNKNDVPINENNIIYKIYNKFYEYTSLQREDIEVKLIKRIPSEAGLGGGSSDGATFLKVLNNYNNNILSTNEMINISKDIGADIPFFIINKTTRVKGIGEKLEIIENKLESDIILVKPSFGISTKDAYINYSNLKNKNNANIEKIIKGLKENDVNLVRDNIDNHLQQSAKLFKNELEKFEKELYKLTKLKFYMTGSGSCYYSFVEKKDSKKIINLLKNKYGTYFISLTRFY;locus_tag=LOCUS_13440;gene=ispE;EC_number=2.7.1.148;note=WP_011016081.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Fusobacterium nucleatum) [pid:41.1%25%2C q_cov:95.1%25%2C s_cov:93.5%25%2C Eval:1.5e-56],MGA_1350
sequence05	MetaGeneAnnotator	CDS	149428	149736	.	+	0	ID=MGA_1351;product=septation regulator SpoVG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359319.1;translation=MNITDVRVRIVKGENEAKLKAYADITFDDCFVIHGLKIIDGQKGMFVAMPSRRMPSGEFKDIAHPITPETRKEITDTVIEYYEKALNSPETLEEVSSDEIEE;locus_tag=LOCUS_13450;gene=spoVG;note=WP_003359319.1 septation regulator SpoVG (Clostridium) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-24],MGA_1351
sequence05	Aragorn:1.2.38	tRNA	149814	149888	.	+	.	ID=Aragorn_40;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00390;note=Aragorn_40
sequence05	MetaGeneAnnotator	CDS	150040	151947	.	+	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAIILLFLVYSMSIFSEEASFYKDVKIDNWAYRAVKNLVENGIFDIENEEFLGDENIDRYEFAFYLSRMLNKINENKASKSDLFIIENIVYEFSKELNSFAFNSDEYIKKISNLEEKVDKLEKNNVKIQESLLNINERLKNLEQNSGINQNYILENSIYNDKLKYFQNFNLYLASGISYKPNSKIEENRYKGNYTLGLGITDENFELIIESETSDETKKDGELVVKGQIATRIDFMGGSTLSYHTKGYEKYYKSYFNNVIFDNHSSYQYNKLSSTTNYSNLKKTIGDNKRISYYDLSNETIDYELDEFDSYGLSFLNKNFIILIEKLRTDRAIDEKEGIINPSGNIAYSDTLVFFGKTSQKYIDATAMINGNVGNRDFEIVGKYPGDFYDLAGGFTLSQRDSGKEVQDYSGYKRLFLFDARINFGDTRDIEFGTELKNSNYGNNLYQSYYFSFKYLLGDTGVIKYKGENINAKNQNNFINHYFLINFNSGRLKTYTGYNIISVNKSAIVNEDSIEEIYYVYNGLYTRIQDYDEFLIKAEYQFNQKLIGKIGYYLKSLKDKIVTEENATTFQFTYNFANSIKIFAKYMQNDGEDINDRQLDINDDMLDIDFDETTGVIRKAEEGKVEIGVEIKF;locus_tag=LOCUS_13460;note=MGA_1352
sequence05	MetaGeneAnnotator	CDS	151966	152643	.	+	0	ID=MGA_1353;product=flagellar brake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015945045.1;translation=MKKNDPNQIILGELVDIEIINPDSEGRYHATKVSDIYEEDNSFSVNWPIYERRYLPARRNDKIKVILKRKDAIYYFESRIKARALEPYAHLRIENPKKLIKKQRRTYFRLPLNLIVKFIRLKDEVKEGELPPVYSGISLDLSGGGMSILSKTELELGENIEISFELTNGTRYEYVSCKVRRKKLIDIKYEYGLEFLDMPNRDREYIISYLFEVQRTRARAKDAKE;locus_tag=LOCUS_13470;note=WP_015945045.1 flagellar brake protein (Desulfitobacterium) [pid:28.0%25%2C q_cov:92.9%25%2C s_cov:94.4%25%2C Eval:1.7e-11],MGA_1353
sequence05	MetaGeneAnnotator	CDS	152665	154011	.	+	0	ID=MGA_1354;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435635.1;translation=MEKLVFNYKLAEKFIAEDELNLIKAQTMEAVKVLESGEGAGNDFLGWRELPENYDKEEFSRIKKAAEKIKNDSEVLIVIGIGGSYLGAKSAIEFLKHTFYNKQTKEERKSPEIYFAGTNISGTYIKHLIDIVGDRDFSVNVISKSGTTTEPAIAFRIFKKLLEEKYGKEEAKSRIYATTDKQKGALKQLATGEGYETFVVPDNVGGRFSVLTAVGLLPIAAAGIDIDELMKGAYDAQVDFKAPFEENYCYQYAAVRNILHRKGKDIELLINYEPRLHYIAEWWKQLFGESEGKDNKGLYPASADFTTDLHSLGQYIQDGKRHLFETLIEIEKPEEDIVIEANETDLDGLNYLAGKTMDYVNKMAAKGTILAHTDGGVPNLKITIPEATAYHLGYLFYFFEKACGVSGYLLGVNPFNQPGVEAYKKNMFALLEKPGFEEETKKIKERLK;locus_tag=LOCUS_13480;EC_number=5.3.1.9;note=WP_003435635.1 glucose-6-phosphate isomerase (Clostridioides difficile) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-177],MGA_1354
sequence05	MetaGeneAnnotator	CDS	154182	155573	.	+	0	ID=MGA_1355;product=aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002657823.1;translation=MLERKLENGWKNLDEKTKKDIFDFSEGYKKFLDISKTEREFVNKSIELAEAKGFVNADTVKELKAFDKVYYINRGKNVILAVIGEEDIENGANFVVSHVDVPRLDLKQNPLFEDLEIAMMKTHYYGGIKKYQWVSIPLALHGVVILENGEKIEIVIGEDENDPVFTIPDILPHLSRKVQDDRKAREVVKGEELNIIVGTIPTTIEDKEIKNRVKYAVLEKLNEKYGMKEEDFLSAEFEIVPAFKAKDVGLDRAIVGAYGHDDRICGYTSLKAILEVERPKKTAICYIADKEEIGSTGSTGLESKYIEYFMGDIISKLKSNYNDMMLRRCLWSSNALSSDVNAAVNPMFKSVHDSDNAAKFGYGIVVTKYTGHGGKYSSNDADAEYVYKIRKVLNDNGIKWQTGMLGKVDEGGGGTVAKFLAHYGIKTIDAGPALLAMHSPFELASKFDIYETYRTYKVFFDMK;locus_tag=LOCUS_13490;EC_number=3.4.11.-;note=WP_002657823.1 aminopeptidase (Borreliella burgdorferi) [pid:57.2%25%2C q_cov:98.5%25%2C s_cov:99.3%25%2C Eval:1.0e-154],MGA_1355
sequence05	MetaGeneAnnotator	CDS	155809	156261	.	+	0	ID=MGA_1356;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010882710.1;translation=MTVEIKKLLSKENVVFLNTQDMESTIEVLSEKAEEIGCISSKDEFKEAILEREGLVSTGIGFGIAMPHAKLENISEFFMIIGINKKGIDWDAIDRKPVVAVFLIGGPSNQQKKYLQIIAKLMLLIKNSERREKLLNAKEEKEIVEIFQDF;locus_tag=LOCUS_13500;note=WP_010882710.1 PTS sugar transporter subunit IIA (Chlamydia pneumoniae) [pid:41.4%25%2C q_cov:93.3%25%2C s_cov:88.6%25%2C Eval:1.5e-27],MGA_1356
sequence05	MetaGeneAnnotator	CDS	156286	157497	.	+	0	ID=MGA_1357;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987056.1;translation=MHINILIILAGLFLLAFVNKLVCPKLKLPEVTGYVILGAIISGVAGITVGMSKLNEVLDSIEIISSIALGIIGFSIGIELKLSVLKKLGNSIFFIVLFEVFGGFVVVAITSKIFGFQTYTALLLGSVAAATAPAATVAIIRKYKSKGELTSTILAVVGIDDAVALIVYVLAAGFASSMVTGEKLHILHIFVKVGISIFIAISIGAISGFVYSYIVKNIKNQDTMEMILVAFILLLLGLSEMFDVSELLTIMTFGAFITNLSEVTTRKSENIIEKFTGVFVGAFFIAGGAYLDYSLIKAVFGTSVLFFIARTIGKIFGAKIGATIGKASPKVKKHIGVMLLPQVGVAVALVISIKKQFVGVQVHGIDIGTFIFNILLLTTLLTEFIGPILTKRALLAVKEIKER;locus_tag=LOCUS_13510;note=WP_011987056.1 cation:proton antiporter (Clostridium botulinum) [pid:36.5%25%2C q_cov:93.1%25%2C s_cov:93.6%25%2C Eval:9.0e-59],MGA_1357
sequence05	MetaGeneAnnotator	CDS	157526	157849	.	+	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYLYVKVMDIDYKEDIFLALESVDIVKASYIEGTNLDNALTRELPLFKGFFQSEEEKSKQVILINALINDEEQAQEFITMLREAGIDVDNGEIIRVLTWPVNILVG;locus_tag=LOCUS_13520;note=MGA_1358
sequence05	MetaGeneAnnotator	CDS	157949	159718	.	+	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKFLEEKIIFSSIIKWSILALFTGIIVGTSTSLFLKAIDYGIKYRRIFSFKYYYLLPLALIISVFLIQTFAKDAKGHGTEKVIEAIHKYDGAIKLMVVPIKVLATLITIIFGGSVGKEGPSAQIGGGVMSFVSDILKIEDKDKKKLVICGIAAGFGAVFGTPVTGAVFAVEVLYVGKMLYDVLLPSFIASFTSIYVSKLFYVRHSNYLNVGNLDNSSLILYLKVFIAAILFSIVTFMFIEILNKIENIAEKIKLNIYIKTLIASFIIILIALIFSDDYLGLGLHMIDDSINGEDIIWYAPFIKIFTTTITLSFGGSGGILTPVFFIGSTLGSIVGELLHGSLPLFAGLGMVSVLAGAANTPIASVLMAVELFGGGVTPFAVLSCIITFLLTGHRSVYPTQILSMKKSESIDLEVGKEIKSTTVMGTTKKVMYLKKALDNNQLEKIIPLENIFFLKAETKEEVLKEFAKKMSNMKKKMKKKDIMKALQQREEIYSTALGHKIAIPHFEVSLNEDFFILFAILEKDIKWDDRNYVNTVVMIAKPEFEQKIYLEIVAKILKQIKDEDINRELIASKTPEDVMAVLKRKKS;locus_tag=LOCUS_13530;note=WP_010963764.1 chloride channel protein (Clostridium acetobutylicum) [pid:37.8%25%2C q_cov:74.7%25%2C s_cov:98.6%25%2C Eval:8.4e-83%2C partial hit],MGA_1359
sequence05	MetaGeneAnnotator	CDS	159868	161142	.	+	0	ID=MGA_1360;product=adenosylmethionine--8-amino-7-oxononanoate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005693582.1;translation=MEKIEDKNLWYPYAQMKTRKENFLVKGAQGVYIDIYHSEKKEEKKLIDAVSSWWCAAHGYNNKEINEAIKNQIDKFSHVMLGGLTHEIAQNASKKIVEITKEGLNHVFFSDSGSVGVEVALKMAIQYYKNKGDVSKNKIISLTHSYHGDTFKTMEIGDDPDYHFAFKEFFRDCYHIDAPKGLEANDDEIKRCINDLEKLLKEKSDKIAAFIVEPLIQAAGGFNFYSYKYLNEAKKLCEKYDILFIFDEVATGFGRTGKMFAMDYCDFTPDILVLGKALTGGYIGHAATVATTKVFKEFYSDDSEKAFMHGPTFMGNPLACSAILKSIELYEKNDYLSKIKNIEEIMRKKLINIKSNKIKDIRVFGATGVIEVGNSIFLRGLQEFAYEKGVWIRPFLNYAYIMPPYIIKEEELLKIINVLEEWFK;locus_tag=LOCUS_13540;gene=bioA;EC_number=2.6.1.62;note=WP_005693582.1 adenosylmethionine--8-amino-7-oxononanoate transaminase (Haemophilus influenzae) [pid:41.4%25%2C q_cov:96.9%25%2C s_cov:94.4%25%2C Eval:5.6e-91],MGA_1360
sequence05	MetaGeneAnnotator	CDS	161182	163275	.	-	0	ID=MGA_1361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSNLFLIALLIISNISFAFDDIDYNSFEGKAIKSLTEKNILTPLFDNKSNFEGNKNFSRYEIATILYNSIIYNENYIKKNANIQDITILKALVSEYANELGKLGATDYELNQKIDTLKIELNQKIDNNYNELKSMIDRVRFNAELEINKNFTSNNSTLDIDGRASILTKFNNYLNSTFTFDPNYGLANYDIHLSDDTLKIVMFKNIYEESDNEYYSNKKLPSFNSNFNILNGDKIENNDGYIIESTLLNKKYTTLFSTTSYGELFGVEWGGVFGYFNNKEGTKSNYNLMYTRLDNPINTTKKSFLSFNSDFNFTINNNTYTYFNVEYSTVSNKDYNSNSTNNEYILPMDDNSAIYLYSNTTKYLKDSKIDILFAGISTGKNYDITGLGDTDYQVFKQTDLIKSDINHYGGIKGISYTSPYLKTSLYHSTYVSNEINSSKEKELSFKNILKVNNNYNLTFDIINNNKDNDTTDSTLTLVNKTIYRPGITAKNVSGNNTFDKFTFGYIRNNDTNINSWELYGEHSKLYTNNKSMKFASKYYDDGDELYKQINLGWNFENNNVLSKPKTPESIPYNSDILIGGRYMNKKYSNSSSDEDNFILFYKQDLSKNNITYSFGGKYQLDRIESNGKMVDSDNNYKNNTKFSISMKYKFDNSNYLKLSYGPNDTYEDFDNFMYNYTTIYDNEQDQAKISFITKF;locus_tag=LOCUS_13550;note=MGA_1361
sequence05	MetaGeneAnnotator	CDS	163470	164753	.	+	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREILKKILKKYFKKIEKINKICIDSREVMENDLFFAIRGGNNYIKEALNKGAYVIYDKNGENIVNEKCYKVKDSIEFLQNLAKEYREKLNIKIIAVTGSNGKTTTKDIIFQIFNEKFKTKKTIGNKNNHIGMPYTLLNVEDDDEFLILEFGMSNLGEIDLLASISKPDIGVITNIGESHLEYLKTKENVFKAKSEIIPYSKKMVVNGDDFYLSKLNDKKIIKIGRNGNISILEIEIKNEYTYFKLKINDKEHKFITNLYGVHNVYNIVIAIQIAIFYEMRIEKIKDIIKNLTLTSMRFEVLKIKGNIYINDAYNASPISMKASLETFNNLYNDRYKIVVLGDMLELGINSKKYHEDLSYILERIDIKEIYLYGKEMQYLYKKIKNRLNVRYFTNKKDIQNLLGNKEEKLAVLLKGSRGMKLEEIL;locus_tag=LOCUS_13560;note=WP_124797249.1 D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase (Fusobacterium canifelinum) [pid:45.4%25%2C q_cov:100.0%25%2C s_cov:70.2%25%2C Eval:5.6e-99%2C partial hit],MGA_1362
sequence05	MetaGeneAnnotator	CDS	164770	165852	.	+	0	ID=MGA_1363;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902299.1;translation=MLYYIYLKLFNELSFLRVFKYITVRSIIAFFLSFFIVLFIGKPFINYLRRKKIGDDIRKEGPKTHYNKQGTPTMGGVLILFSILLTVLITGNWTNQYIVLLSISTLFLGGLGFYDDFKKFTVDKKGLAGKKKILAQIILSIIVWIFIKNLNLGEISFSIVNPFLKNSYIYIGSFLMLLFIIFIIVGSSNAVNITDGLDGLVIVPVMIVSLTLAIVAYFTGNIIWSKYLNLYYIEGTGEIVVFLASIIGSGLGFLWYNFYPAQIFMGDTGSLALGGLLGIISILLKQEILLGIIGVIFVIEALSVIIQVWSFKKRGKRVFKMAPIHHHFEILGVPETKVTARFWIISIMFSILGLLILKLR;locus_tag=LOCUS_13570;gene=mraY;EC_number=2.7.8.13;note=WP_005902299.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Fusobacterium nucleatum) [pid:50.3%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.4e-100],MGA_1363
sequence05	MetaGeneAnnotator	CDS	165862	167133	.	+	0	ID=MGA_1364;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029597345.1;translation=MKAIVYGAGKSGLGAKKLLEKQGYEVILVDDKNGISSQKAIKYLDEIDIFIKSPGIPYNDFVKLAIDKNINLIDEIELAYMYMNKNTKIIAITGTNGKTTVTSKIKELLEYNSYKVKYAGNIGISFSEIVLEGKDLDYIVLELSSYQLENIKTFKPYISMIINLTPDHMNRYSSLDEYYNAKFNIYKNCNNTDYFILNIDDNEIMTRFNKNINLKKISLENEADIYYKNNYIFINKEMYINKNNLSLKGIHNIQNILFIISVSEILGLDRKKLKVFLETTNTLEHRMEEFFKKEDTLFINDSKGTNIDSTIKAIEAFEKDLILITGGKDKKVDLYPLCKIIKNKVKKVYLIGETADILEEILLELEYKKENIKNLKTIEKVVDNLKLESEIVLFSPAHSSFDQFKNFEERGKIFKELILQKFN;locus_tag=LOCUS_13580;gene=murD;EC_number=6.3.2.9;note=WP_029597345.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:5.4e-118],MGA_1364
sequence05	MetaGeneAnnotator	CDS	167148	168221	.	+	0	ID=MGA_1365;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626926.1;translation=MKKVVLTTGGTGGHIYPALAIAKELKNREVETLFIGSKYRMENELVPENGFDFIGLDIKPIKITNIKSIYRLFKSIIKSITILYKENIDCIIGFGNYISIPVLIAAFLLGKKIYLQEQNINLGLANRVFYRVSQKIFVAFDKTYEDIPRKYQHKVMVTGNPLRKEFRYIDREEEREKLKIGNNEKILLVIGGSLGAKKINEAILNNWDELFKNLDIRVYWATGKNHFDEINNKIRKRKPNDVIKPYFDNIAKIMAASDLLICRAGALTVSEVIELQKPSIMIPYKSSDVGQKQNAELLKKIGAAKVYDEDNSDEAIKEAINLIKNEKLLKKMKNNLVLIKKGNSTLKIVNEIDIWRN;locus_tag=LOCUS_13590;gene=murG;EC_number=2.4.1.227;note=WP_201626926.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Fusobacterium canifelinum) [pid:50.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-98],MGA_1365
sequence05	MetaGeneAnnotator	CDS	168226	169578	.	+	0	ID=MGA_1366;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626924.1;translation=MKGIKKVFFIGINGIGMSGLAKIANSMGLEVEGSDIAKKNITKELESLGIKVYIGQKKENIKKVDMVIYSSAIKEDNPEYIAAKAKNIKMIKRGEFLAKLFNEKIGVAIAGTHGKTTTTSLMSSISMSKSPTIMVGGILPEINSNAKVGNSDIFIAEADESDNSFLYLKPKYSIITNIEEDHLENHGSFENIENSFKNFINQTEEEVILCIDCKNAKNLSKYSDKIKTYSIIDKEANIYAENINQIDNFTTFDLFIENKYIDNFKIKIPGIHNVSNAIGTIYLAIKFGVEIEEIKQKLATFNNAKRRFDVLYSNGITIVDDYAHHPTEIKATLRAAKERKTDKIIAVFQPHRYSRLKFLLDKFIGVFDLADEVIILPIYSAGEKNIYGVDEKILVEKINHSKINIIKGEEDILNKIKENKIKTTYLFMGAGDISQIAHNLSEKISNNYGV;locus_tag=LOCUS_13600;gene=murC;EC_number=6.3.2.8;note=WP_201626924.1 UDP-N-acetylmuramate--L-alanine ligase (Fusobacterium canifelinum) [pid:52.3%25%2C q_cov:98.0%25%2C s_cov:98.9%25%2C Eval:6.0e-131],MGA_1366
sequence05	MetaGeneAnnotator	CDS	169580	170419	.	+	0	ID=MGA_1367;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898186.1;translation=MEVIKNAKMKNHSNMKIGGEAKELIFIEKKEELLEVLEEAKDFFIIGNGTNTLIKDGKIDKTFITLKRLNAIKLLENNRVYVEAGLDFSKFIEFMEKNNLSGLENLAGIPGSVGGLVYMNGGAYGTEIFDYIEEIEIIDNNNNLRKIKKENIKYSYRATEIKEKKWIIISVIFKLEKGFNKEKVKELINKRENNHPLDLPNLGSTFKNPEGYYSAKLIIEAGIQGHKIGGARISKKHPNFIVNEENAKYSDVIKLIEYVKNNVKSKTGIELEEEIIIIK;locus_tag=LOCUS_13610;gene=murB;EC_number=1.3.1.98;note=WP_005898186.1 UDP-N-acetylmuramate dehydrogenase (Fusobacterium nucleatum) [pid:46.3%25%2C q_cov:96.1%25%2C s_cov:96.1%25%2C Eval:5.1e-70],MGA_1367
sequence05	MetaGeneAnnotator	CDS	170492	171154	.	+	0	ID=MGA_1368;product=cell division protein FtsQ/DivIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898188.1;translation=MVFFKKFIPIFILFIIFYNIYFFYNSDYFLIKDIQIMGKNELLKNDIIEKLDILKSKNIWKIDIEKLKELILKDVRIEKLDIKRKIPDKLIFEIEEKKPFIYVEYKGRILVSDKNGIIFSIYKEISNEDLAIIKLTNLEDLKEYISILNKLEGKYLELISELYKKENYYIIYLRDGIKIKTDIDVEKKKYSLAFKLYNHLKNKKEIDEYLDIRFKDFIVK;locus_tag=LOCUS_13620;note=WP_005898188.1 cell division protein FtsQ/DivIB (Fusobacterium) [pid:31.4%25%2C q_cov:90.0%25%2C s_cov:88.6%25%2C Eval:1.1e-23],MGA_1368
sequence05	MetaGeneAnnotator	CDS	171178	172455	.	+	0	ID=MGA_1369;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957399.1;translation=MDNNIAVAIDIGTTKIYVIIAKVDNETHTFQVKGYGVAASRGLKRGLIVDITTLSEDIERAVKKAEFMAGIKITKTFVGLSGKHIKSSVTNVELELDNAPRVIEEKDYKKLVRKAINRLVEDGRQVLHEIVYNYKVDNSSVLKNAIGMQGSFLKADVHLITGSEKEIISLKNALKNINIEIDDIILEPYASAKSVLTQSEKEFGTVIVDIGGGTTDLGIYKRDKLIYASVIPIGGQHFTSDIAQVLKIDLETAEELKKTFSDLYFDPKTEKTLQVDSKNSNDKIEVKLDVLKEIIEARIDDIIEYIEEGIELSGFGDYITNGIVFTGGSSKIAGLEKRAKQLLNYNIKIGVPIEIDGLLENMNKPENATGIGLLLYATEKKYYYSKLHKEKKQEKKIEKKEQNKNKIEKDNNIKEKVKKFFSSLF;locus_tag=LOCUS_13630;gene=ftsA;note=WP_010957399.1 cell division protein FtsA (Coxiella burnetii) [pid:32.5%25%2C q_cov:89.4%25%2C s_cov:91.5%25%2C Eval:9.0e-57],MGA_1369
sequence05	MetaGeneAnnotator	CDS	172481	173551	.	+	0	ID=MGA_1370;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902285.1;translation=MGMEEHVKIKVIGVGGAGGNAINDMIASGVSGIEFIAANTDVQDLENSAAQIKLQLGKTLTKGLGAGADPEIGRKSVEESKEEVKKILENTDMLFITAGMGGGTGTGAAPSIAEIAKELGVLTIGIVTKPFNFEGKKRMKNAEEGLERFREFVDTLVIIPNDKLFDLPNKKITLKNAFQEANNILKIGVKGVSELITKHGYINLDFADIRTIIKGSGVAMLGFGEASGEDRANIATQMALSNPLLEKSIEGAQRILLNITGGEDFTLTEANQISEAIKAAAGTEHTEEMMFGSVIDESLEDIIKVTIMATDFIDLADKEIRKEKTFETNIKVNKDKKTEEDDDYLEIPAIIRKRNL;locus_tag=LOCUS_13640;gene=ftsZ;note=WP_005902285.1 cell division protein FtsZ (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:95.5%25%2C s_cov:95.0%25%2C Eval:3.6e-93],MGA_1370
sequence05	MetaGeneAnnotator	CDS	173642	173929	.	+	0	ID=MGA_1371;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023040534.1;translation=MIRNYEIMYIINPVTTEEQKAEVIEKVNAILAAAKAEDVKVEKWGERKLAYPIDKKETGFYVLTTFKIEGTELKEVETKLNITENLMRYIVVKKD;locus_tag=LOCUS_13650;gene=rpsF;note=WP_023040534.1 30S ribosomal protein S6 (Fusobacterium nucleatum) [pid:66.0%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:2.0e-30],MGA_1371
sequence05	MetaGeneAnnotator	CDS	173957	174361	.	+	0	ID=MGA_1372;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902513.1;translation=MSMNLVVLTGRLARDPELKYGQSGTAYCRFTLAVNRVAKDEADFIGCTAFGKTAELIGEYLRKGSMTGVQGRLQTSSYETNGEKRYRTDVIVDRIEFLESKASLSTTGNITNTSKSPEPVQNSHEEEDDDEFPF;locus_tag=LOCUS_13660;note=WP_005902513.1 single-stranded DNA-binding protein (Fusobacterium nucleatum) [pid:49.4%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:2.9e-29],MGA_1372
sequence05	MetaGeneAnnotator	CDS	174380	174607	.	+	0	ID=MGA_1373;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005891822.1;translation=MDIKRRRRRRSRLKVTAKDIDYKNVDLLKKFMSDKGKINPARVTGADAKLQRKIARAIKRARNIALLPYTNTVSK;locus_tag=LOCUS_13670;gene=rpsR;note=WP_005891822.1 30S ribosomal protein S18 (Fusobacterium) [pid:63.1%25%2C q_cov:86.7%25%2C s_cov:90.3%25%2C Eval:5.2e-18],MGA_1373
sequence05	MetaGeneAnnotator	CDS	174701	175723	.	+	0	ID=MGA_1374;product=D-glycero-beta-D-manno-heptose-7-phosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627445.1;translation=MLKKERLFEILENFLTKSIAVIGDMMIDEYIIGNVDRISPEAPVPVVNVNNEKYVLGGAANVVNNLSVLGVNVLAYGIVGNDLNANKLLYKFKEKNVNTEGIIIDRERPTIIKQRILAGNQQLLRIDREKKYPISNEIENKIINNLNKNIEKIDAIILSDYDKGVLTENLAKNIIKIAKENNKIIIIDPKPKNVLNYIGATSMTPNLKEACECIGKNITENENEIIQIGKEIREKLELDHLLMTRSEKGMSIFMKNSVENIPTFAKEVYDVTGAGDTVISLYTLALSCGASYEESAKIANTGAGVVVGRVGTSVVTKEEIIEFYEEIYDKHNLKIEEKKY;locus_tag=LOCUS_13680;gene=rfaE1;note=WP_201627445.1 D-glycero-beta-D-manno-heptose-7-phosphate kinase (Fusobacterium canifelinum) [pid:46.4%25%2C q_cov:94.4%25%2C s_cov:96.9%25%2C Eval:3.2e-75],MGA_1374
sequence05	MetaGeneAnnotator	CDS	175739	176224	.	+	0	ID=MGA_1375;product=2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425513.1;translation=MYRIGNGYDVHKLVENRKLILGGVEIPYEYGLLGHSDADVLIHAVMDALLGALALGDIGQHFPDTDEKYKGISSIELLKHVNKLIVSKGYEIVNIDSIIVMQKPKLKGYLFEMRENISKVVDIEIENINIKATTEEKLGFTGNGNGVKSYAVVMLKKSNKF;locus_tag=LOCUS_13690;gene=ispF;EC_number=4.6.1.12;note=WP_003425513.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Clostridioides difficile) [pid:66.0%25%2C q_cov:95.0%25%2C s_cov:95.0%25%2C Eval:2.6e-53],MGA_1375
sequence05	MetaGeneAnnotator	CDS	176332	176901	.	+	0	ID=MGA_1376;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015693.1;translation=MKLIVGLGNPGKKYEKTRHNIGFNVIDNLAKDLGVENFREKFQGLIADTTFRSEKVLLLKPQTYMNLSGNSLIEVVNFYKLDIENDIIVIYDDMDLKLGELRIKAKGSAGGHNGIKSIISHIGDKFIRVKCGIGKPKEKGEVINFVLDNFAKAEIEEVDTLIENAKNATKDILISKSLDRVMQKYNRKK;locus_tag=LOCUS_13700;gene=pth;EC_number=3.1.1.29;note=WP_011015693.1 aminoacyl-tRNA hydrolase (Fusobacterium nucleatum) [pid:58.7%25%2C q_cov:100.0%25%2C s_cov:97.9%25%2C Eval:4.4e-62],MGA_1376
sequence05	MetaGeneAnnotator	CDS	177160	178470	.	+	0	ID=MGA_1377;product=electron transport complex subunit RsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480691.1;translation=MKLFSFKGGIHPPENKDLTENLKIEDFKIPKEICIPLLQHIGVVLEPLVKVGDRVKKGQKIGDSSGFLSSPVHSSVSGVVKKIEVRPFPVSGRVNTVIIENDYEEEIFEYPKYKEYEKLTKDELLKIVREMGIVGQGGATFPTHIKLNPPKDKKIDVLLINGAECEPYLNADNRLMLEQTEKVVKGIDIFRHILGVQRVVIGIEENKEEAIHKMKEEASKYGMEIAVLKTKYPQGGEKQLIKAVLDREVPSGKLPSEVGVVVQNTATALSVYEAVIEGKPVIEKVLTVSGLGVKTPKNLRVRIGTQFKEILDYVEIDREKTEKLVMGGPMMGLAQHSEEVPVIKGTSGILALTKKEMNPYKSRACITCGKCVDACPMNLSPLMYAKLARFQEWKEMDKYDLLDCIECGSCSFVCPANRPLTEGIKIGKAKLRAMKR;locus_tag=LOCUS_13710;gene=rsxC;note=WP_198480691.1 electron transport complex subunit RsxC (Fusobacterium canifelinum) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-156],MGA_1377
sequence05	MetaGeneAnnotator	CDS	178490	179428	.	+	0	ID=MGA_1378;product=RnfABCDGE type electron transport complex subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015691.1;translation=MDKLYRVGQSPHIRTKETIESVMYDVVIALLPTLLVAIYFFGMKALYMTLVAVISAMLAEYVSLKLMKREITIFDGSAIITGMLFAFISPVTLPYPYIIIGSVVSIVIGKMVFGGLGHNVFNPALLGRVFLMASWPALLTRYVNVDGSAGATTLDYLKKGKDLMEVFGHNVYLDMFIGKMAGSMGETSALALLIGGLYLIYKKHIDWKMPVTIISAVFILALIFGQNPFYHILSGGLFIGAFFMATDMVTTPYTTSGKIIFGLGVACITMLIRLKGSYPEGVAFSILIMNGVTSLINKYTKPKKFGEVKSNE;locus_tag=LOCUS_13720;note=WP_011015691.1 RnfABCDGE type electron transport complex subunit D (Fusobacterium nucleatum) [pid:54.6%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:3.3e-100],MGA_1378
sequence05	MetaGeneAnnotator	CDS	179421	179942	.	+	0	ID=MGA_1379;product=RnfABCDGE type electron transport complex subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015690.1;translation=MNKTLHYGLVLFIIASISASILAFINGKTAPVIAERSKREEIEARKNVLLAEDYKIEEKKEIEGMEFIPAYKNNKKIGYVVKTIGPGYGGDIVILFGVDMNGKITGINILKALETPGLGDKILNKEWQKRWIGKDKNYEFKVGVDSFAGATISPRGVYTGLMKALDAFEKEVK;locus_tag=LOCUS_13730;note=WP_011015690.1 RnfABCDGE type electron transport complex subunit G (Fusobacterium nucleatum) [pid:48.0%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:3.0e-40],MGA_1379
sequence05	MetaGeneAnnotator	CDS	179944	180561	.	+	0	ID=MGA_1380;product=electron transport complex subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904084.1;translation=MENRYFKEFSKGIVKENPVLVLLLGLCPTLGVTTSATNGLTMGLATLTVLVFSNMIVSMIKDFIPDKVRIPAFIMVIASLVTIVGMVMEAYIPALYAALGVFLPLIVVNCIILGRAESFASKNGIILSILDGLGNGLGFTFTLVLLGGIREILGNGSIFGIKFLGSFYNPALIFILPPGAFLTLGFIIATMNAKKNRSLNKKEAK;locus_tag=LOCUS_13740;note=WP_005904084.1 electron transport complex subunit E (Fusobacterium) [pid:61.5%25%2C q_cov:93.7%25%2C s_cov:93.7%25%2C Eval:3.9e-62],MGA_1380
sequence05	MetaGeneAnnotator	CDS	180562	181146	.	+	0	ID=MGA_1381;product=electron transport complex subunit RsxA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904083.1;translation=MDLGRLISIIIGSILINNFIFSRFLGICPFMGVSKKIESSIGMGMAVTFVMTLASSVTWIVYYYILKPFHIEYLEIIAFILIVASLVQFVEMAIEKTSPNLYKALGVFLPLITTNCAVLGVALINIQEEYNFIETTANGFAAAVGFTLALVLLAGTRERLEYADVPESFKGIAIAFISAGILAMAFMGFSGIKI;locus_tag=LOCUS_13750;gene=rsxA;note=WP_005904083.1 electron transport complex subunit RsxA (Fusobacterium nucleatum) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-77],MGA_1381
sequence05	MetaGeneAnnotator	CDS	181159	182157	.	+	0	ID=MGA_1382;product=RnfABCDGE type electron transport complex subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428486.1;translation=MVDIIIAVVALGTIAILMGVFLAYAAKKFEVKKDPKINEILDILPGVNCGACGYPGCSGYAEAVAMQGVDINLCAPGGAEVVEKISTITGQVAEDKEKMVARVMCQGDNTKVTKRYEFDADIKTCANALLYYGGDKSCMYGCLGYGDCEKVCPTNAIKVNEKGIAVVDEELCISCEKCVIECPKNIIKMVREKSRVSVLCSSHEKGADSRKVCSISCIGCGICAKNCPVDAIEVKGNLAVIDDSKCINCGICEVKCPTNAIKSDIKEVKKAKIIEDKCIGCTACARVCPVDAIEGEVKKKHKVIAEKCIGCGLCYEKCKFDAIKLETQIKSS;locus_tag=LOCUS_13760;note=WP_003428486.1 RnfABCDGE type electron transport complex subunit B (Clostridioides difficile) [pid:45.0%25%2C q_cov:97.0%25%2C s_cov:99.1%25%2C Eval:4.9e-81],MGA_1382
sequence05	MetaGeneAnnotator	CDS	182312	183175	.	+	0	ID=MGA_1383;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902040.1;translation=MKKYRIEKEYKGYTISEYLRNIQNYSGRSIRNLEIFLNGKRVKPKKKLRAYEVLLVKEKEKSTNIKPLEIKLNIVYEDEEILIIDKDPGIVVHPTLKKVDKTLANGIVYYFKEKYNKIMIPRFYNRLDMDTSGLIIITKTGFAQSFLQEKCEVKKYYLAIVEGIIEKDEFILEKPIGRIGNNLKREILPIENGGQYAKTKVKVLEKNIEKNITLIEVELFTGRTHQIRVHMSSIGHPLIGDKLYSDKERNIRQLLHAYRLEFINPISKEKQIIEIEMKEDMKKYLYN;locus_tag=LOCUS_13770;note=WP_005902040.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:56.8%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:4.0e-89],MGA_1383
sequence05	MetaGeneAnnotator	CDS	183255	184268	.	+	0	ID=MGA_1384;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016560.1;translation=MAVKVAINGFGRIGRLAFRLMFGSPEFEIVAINDLTSAGDLAYLLKYDTAQGRYKSDSITAGEDSITVDGKTIKIYAERDARNLPWGDLGVDVVLECTGFYVSKDKSQAHIDAGAKKVVISAPAKGDLKTIVYNVNDEILDGSEDIISGASCTTNCLAPVAKVLNDNFGLVKGFMTTIHAYTNDQNTLDGPHAKPITARRGRAAAANMVPTSTGAAVAVGKVLPELNGKLDGGAVRVPTVTGSCVDLVVELEKSVTAEEVNAAMKAAANETLGYTEDPIVSSDVIGIHYGSLFDALSTKVMTVDGKQLVKILTWYDNEMSYTAQLVRTVKKLASLIK;locus_tag=LOCUS_13780;gene=gap;note=WP_011016560.1 type I glyceraldehyde-3-phosphate dehydrogenase (Fusobacterium nucleatum) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-129],MGA_1384
sequence05	MetaGeneAnnotator	CDS	184353	185552	.	+	0	ID=MGA_1385;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989997.1;translation=MAKKIVTDLDVKGKKVLMRVDFNVPMKDGKITNDNRITAALPTIKYVLENGGKVIAFSHLGRVKTEEDKASKSLAPVAKRLEEVLGQEVKFVPVTRGPELEAAIDELKDGEILMFENTRFEDIDGKKESKNDPELGKYWASLGDVFVNDAFGTAHRAHASNVGIASNIAESAAGFLMEKEIKFIGGAVDNPERPLVAILGGAKVSDKIAVIENLIAKADKIIVGGGMMFTFLKAKGLNIGKSLCEEDRIELAKELMEKAGDKLILPVDTVLAEKFAADAAHKTVAVEDIAADEEGLGLDIGQASIELFAKTLEGAKTVVWNGPMGVFEMPAFAKGTIAVCEAIAALEGATTIIGGGDSATAAIQLGFADKFTHISTGGGASLEYLEGKVLPGVDSISDK;locus_tag=LOCUS_13790;note=WP_010989997.1 phosphoglycerate kinase (Listeria monocytogenes) [pid:79.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-179],MGA_1385
sequence05	MetaGeneAnnotator	CDS	185719	185964	.	+	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVGMNIVIYDFFCSNSPLYIDIMKVIEELDIYPNVEKIRDVDAIFNISDKPPVLFINGKKVIEGEYPDKEKLKDIIEKNL;locus_tag=LOCUS_13800;note=MGA_1386
sequence05	MetaGeneAnnotator	CDS	186002	186742	.	+	0	ID=MGA_1387;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002672329.1;translation=MSSLLKINNLKVKVENKEILKGIDLEINKGEVHVIMGPNGAGKSTLSNAITGNPKYEIVDGEIIFEGENINDLKVDERAKKGIFMSFQYPEAIPGVTVEEFLRASKSSITGRLQSVIKFKKELEEKMEELHIDKNYANRHLNVGFSGGEKKKNEILQMAILAPKLAILDETDSGLDVDAIRVVYEGVNKLKNENNAILIITHYNKVLNYIKPDFVHVVNNGKIVKSGGIEVAHEIEKQGYENIKVI;locus_tag=LOCUS_13810;gene=sufC;note=WP_002672329.1 Fe-S cluster assembly ATPase SufC (Treponema denticola) [pid:63.1%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:7.4e-83],MGA_1387
sequence05	MetaGeneAnnotator	CDS	186743	188149	.	+	0	ID=MGA_1388;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966563.1;translation=MKKNKTSVDDINRGIYDIVDKEDHSYKSKKGLSNDIVIEISKKKKEPKWMLEHRLKSLEIYNQKPMPTWGADLKDLRVEDIIYYLKPNTEMKENWDDVPDYIKNTFDRLGIPKAERESLAGVGAQYDSEVVYHNVNKELIKQGVIYTDIETALKEHEDIVKKYFMTLIRNIDHKFAALHGAVWSGGSFVYVPKGVHVKMPLQSYFRLNAKEAGQFEHTLIIVEEGASLHFIEGCSAPKYSSQALHAGAVELFVKKGAKLRYSTVENWSRNMYNLNTKRAVVDEKGTIEWVSGSFGSKVSMLYPMSILRGEYARAEFTGITFASTGQYLDTGAKVVHAAPYTSSTINSKSISKNGGIAFYRGLLKVAKNAHHVKSNVNCESLMLDNISKSDTVPIIELMNDDVDIGHEAKIGRISDETIYYLMQRGISEEEAKAMIVRGFVEPITKELPLEYAVELNNLINLELEGTIG;locus_tag=LOCUS_13820;gene=sufB;note=WP_010966563.1 Fe-S cluster assembly protein SufB (Clostridium) [pid:67.1%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:4.6e-190],MGA_1388
sequence05	MetaGeneAnnotator	CDS	188201	189268	.	+	0	ID=MGA_1389;product=Fe-S cluster assembly protein SufD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966564.1;translation=MFESYKKFNKDKLDILNSLEKPNWRRVGYQYEFKFDKIRELSKISDNDIIKIDEKIIKKIEFKNSFKENDYFIKMAELFFNSGVYIDNNKNSKYYFSFKGDKENNNILDYNIIIARENSESSIIFDYTGDIDVFRNSLFKIKAEKNAVINIFFVQRLSENSESFSNIIVEADRTSKVNQYFFSMGSKINMISNNVYLLDKEARSEVYSVYIGDKNKKIDLEFTTNHRAPYTESIIEGRGVLKDNSKKVFRGNLQFDRGAKKSIGKESEFTLLLNKNIKSDSIPTLKCDEDDVIGEHAASAGQLNDEKLFYLMQRGFDEKAAKKIIVMSSLKPIISKINNKKLVERLYNIIEERFS;locus_tag=LOCUS_13830;gene=sufD;note=WP_010966564.1 Fe-S cluster assembly protein SufD (Clostridium) [pid:37.5%25%2C q_cov:77.2%25%2C s_cov:76.5%25%2C Eval:1.3e-50],MGA_1389
sequence05	MetaGeneAnnotator	CDS	189304	190500	.	+	0	ID=MGA_1390;product=SufS family cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679842.1;translation=MHKNKFPIFENNRELVYLDSAATTQKPKEVLDAMYNYNIYNNASPNRGSYKLSLEATNLYKESKKNVATFIGAESEEIIYTKSATESLNLISYVLEKELKKNDEILVGISSHHSNLVPWQELAKRKNIVLKYIYLDKNGEFDLSDLKNKLSNNTRLVTFSYAVNTTGVVHDVKKIINLIKTFNTNIKIIVDGAQIVLHKNIDVKKLDIDFFVFSAHKMFGPIGIGVLYIKKELIEKLPPFLYGGDMIEFVEETKSIYKNNYEKYEGGTQSVELAVGLSAAIEFINKIGIKKIETYEKELHDYLLSKLKELDFIEIYFENQKNKTPVIAFNVKNVHSHDVSQILDMNNIAIRTGHHCTQPLMKYLNIPSCCRVSLSIYNTENDINKLIKSLYKVKEIFY;locus_tag=LOCUS_13840;EC_number=2.8.1.7;note=WP_002679842.1 SufS family cysteine desulfurase (Treponema denticola) [pid:49.6%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:5.0e-110],MGA_1390
sequence05	MetaGeneAnnotator	CDS	190645	191073	.	+	0	ID=MGA_1391;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966566.1;translation=MDYNKIYTSLIMEHNKSGHNKREIKNADYIERGHNPNCGDDITVQLKIKDDKIVDGAFIGIGCAISQASASILFDIINGKNINEAKHIVESYLKMIKKEEISEEDKEKLEDAVILENISNMPARVKCATLAWNGVKIIFNKI;locus_tag=LOCUS_13850;note=WP_010966566.1 SUF system NifU family Fe-S cluster assembly protein (Clostridium) [pid:56.7%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:1.9e-42],MGA_1391
sequence05	MetaGeneAnnotator	CDS	191111	192931	.	-	0	ID=MGA_1392;product=alpha-amylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005480254.1;translation=MKKFLNFLFLLVFLTIIGCDKTSNLTSNLNNSSISASLVSEWNNAYFRGTPNSWNTSPMTKVASNTWEITVTFNNGDSSGGPRFKIDRYGDWSENYPSQDYYVSPNKTYKITFYDSTHEIKVTEINNSSSSINGTMMQYFEWYLPNDGSLWNKVASESSTLSNMGITALWLPPAYKGQAGSADVGYGVYDMYDLGEFNQKGTIRTKYGTKDEYLNAINVAHQNGIQIYGDVVFNHRMGADGKENVSATRVDWNNRNVTYETKTISAWTDFHFPGRNGKYSTFNWKWYHFDGVDWDDNSKQKAIFRFNGTGKSWDWEVDTENNNYDYLMGADLDMDHPEVVQELKDWGKWYLDFTGVDGFRLDAVKHIKFTFFNDWLDYLRSSTGKELFTVGEYWSYDINKLNNYITKSNGKMSLFDAPLHMNFHNASNGNGYYDMKNIFNGTLVQSNPLKAVTIVENHDTQPGQALESPVKDWFKPLAYAMILLRQDGYPCVFYGDMYGAQNIKSQYNTIKKLVEARKLYAYGEQRDYLDNPDIIGWTRLGDANHPKAMATILTDASGGSKWMYVGKANAKFIDYLGNRSDVIYSNNDGWAEFKVNGGSVSVWIEQ;locus_tag=LOCUS_13860;gene=amyS;EC_number=3.2.1.1;note=WP_005480254.1 alpha-amylase (Vibrio parahaemolyticus) [pid:66.4%25%2C q_cov:77.9%25%2C s_cov:94.5%25%2C Eval:3.8e-203],MGA_1392
sequence05	MetaGeneAnnotator	CDS	193199	193816	.	+	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELNTKNKLIKSAMELFLEKGYEGIKVEDITKEAGVAKGTFYTYFKAKDDIFIDVISKMMEIYIDILKNLKFEEGELKKNIKKIVSLMYKTSYKHKAMYKVISLIFKNPHLLSKLFESEFPFKKMSEDIYIKLLESSKNEVRDEVIENKKIFITVLGKILDAYMFELFEIKEFKSSGKIKKITEEELEYHIKIISNTIYLAIKK;locus_tag=LOCUS_13870;note=WP_010880658.1 TetR/AcrR family transcriptional regulator (Aquifex aeolicus) [pid:31.5%25%2C q_cov:70.2%25%2C s_cov:77.1%25%2C Eval:2.4e-11%2C partial hit],MGA_1393
sequence05	MetaGeneAnnotator	CDS	193830	195101	.	+	0	ID=MGA_1394;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962668.1;translation=MRRKVVILVFLLTTLTSFAKIEIDLNTATEKVIEKSETIKKYELDLENSKLQKKEAFKSGLPSVGYSGTIAKTEDKNTFTGSDEYHQYKLTLSQPIFNGFRIITAIQNGDKYVQLSEYALEKEKNDEKLKITKNYIEALKLKKQIEILENSKKELEKNFEKIKRMYELGFVMKSDVLDINYGLIELESTILQMKNAFEISKLSIKNDLGIASDEKLILKDVKNIDKKINVINIDLGKDLIKIKNESLTAKILDINLDLAKASEKFEKANFLPMVNGQFSYGNQTTYGSIKDAFKSENLDWSVGISISGTLYNFGKNIDAYQRSKNNTKKVEYDRKFTKDNLEIALKSAYLDIVRLQKVLEAKEKALESATENYKYQEKRLNNNLIDSITFLKAENSLREANIGYNITKLDLYYAIENYKNLLK;locus_tag=LOCUS_13880;note=WP_011962668.1 TolC family protein (Flavobacterium psychrophilum) [pid:18.4%25%2C q_cov:98.3%25%2C s_cov:96.1%25%2C Eval:2.0e-08],MGA_1394
sequence05	MetaGeneAnnotator	CDS	195120	196523	.	+	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYILVLVTIILFASCGKANNKGVQKVSKETAKIVKTSTLKKIKLSKEIKTNGILNAKYEIVHSGPEAEVEKVYHKNGDFVKKGDIIVKQKDINIENNYKMALANLNAAKSNYEQVIKFSEIQVRTQLEQAKSAMISAEQNLIKAKKGAKVEQIEIAKNNLKTAESAFEQAKFNYEKNKKLYDEKLISESAFLQLETMYNQSKNQLDNAKNNLELLIKGADEEDIKILEAMYEQAKANYELVKKNVDEESWKYTINGVKAQYDSALYRYEMAKKAYDDLTIKAKISGVVSGLNLKKYQKAKPDNGPFFTIIDESSMETVVYLSVSEVINLDKNSFAEVNIEELNNTFKGKIDSIDPAASKSTNKFAVKIVIDNNKNMLKKGMYGKISLFTNPKEKLVVPKKSIVIKGLYKYIYKLEGDRVKAIKVELGVSNDEYQEVIADKLKVGDKIVVDGQFLLQDNDLVKEVN;locus_tag=LOCUS_13890;note=WP_011017032.1 efflux RND transporter periplasmic adaptor subunit (Fusobacterium nucleatum) [pid:29.5%25%2C q_cov:54.2%25%2C s_cov:73.0%25%2C Eval:2.9e-27%2C partial hit],MGA_1395
sequence05	MetaGeneAnnotator	CDS	196523	199576	.	+	0	ID=MGA_1396;product=efflux RND transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017033.1;translation=MKSISHFAIKKSVTTIMLIITMVGAGVLGMLGMSSQLLPDFDIPVSIINITWIGASPEDIDKLITSEVEDALTGIDGIKNINGYSSQNISTVVVQFNYGTDTDEKIREIQTKVNNIKKDLPSDIGEPFIDKFDINAQPILIYNLFGSDLVELNSLAENIIKPRLEKISGVGEIRIKGGLKEEILVELEPEKLAAYSLDIMQIKSILSSSNINIPLGNLKEGDKEFIVKVIGEIKTIEQVKNIVVSNNGGQLVKLSDVANIKLSTEDVESFARQNGEPSIRIEVIKVKEGNTVNIAEEAKKVMENLKESLPPGINTVLATDFSIPIKQSIGTVSNNAIVGIILASIILLIFLKNIRATLVVAIAIPVSVVFTFALLPLKNITLNVISLMGLALGVGMLVDNSIVVIDNIYRHLTELKEDKFTASANGASEMSVPIIASTATTVAVFLPIVMREGMAKEIFHDMSFSITFALISSLVVALTFVPMAASKFLDPKKSITKEGKILVNLKRVYVKILDRALKHKIITVLIAFLMFIGSIGLATLTIKTEFFPQMDQSEYLVKAKLSKGLDVKKADLIAKSMEKIVKADKFTVNYSTAVSKENITINIKTLEKNERKETINDIISQIRPKLANIPDAKITVSASSGGPGGGSDGGVQLKIYSDDLDKLSVFSQIVLEKVKKIPGLVDVKSSYEGGNPELKLDIDRDKAQYYGLRVSDIAFLISYQVQGTDAFTIKTSNKDVDVKVRIAEDYRNSIEKILDLELNTRFGKIKIKDIASFKLEEGAAQIEKENKSKIITISANTDNIDLRTATAKIKEVIKELDIPAGIRYDFGGDQEQFVDVMKDLLFGFGIAIFLMYFILASQFESFTMPIIIMGSLPLSIIGVLIGLAITRVKFNIMVMVGIIMLAGIVVNNAIVLIDYINVLRARNHPLIEAIKIAGRTRLRPIIMTTATTIFGMLPLALGIGQGTEFYQGMAIAVIFGLLFATLLTLILIPVLYSIEESIRIKFKNKHKLKYETSIYKN;locus_tag=LOCUS_13900;note=WP_011017033.1 efflux RND transporter permease subunit (Fusobacterium nucleatum) [pid:39.8%25%2C q_cov:98.9%25%2C s_cov:98.8%25%2C Eval:2.9e-225],MGA_1396
sequence05	MetaGeneAnnotator	CDS	199590	199886	.	+	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKEIRIVYSDAARNEILKIFKEEKIEKYINLEQVQAMWSKNIRHMGTHIWPGTDSIFILLLEKEKAEQLLKKLKEMKKKLIEGVDMFVTVTPVEEIF;locus_tag=LOCUS_13910;note=MGA_1397
sequence05	MetaGeneAnnotator	CDS	200076	201482	.	+	0	ID=MGA_1398;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896128.1;translation=MNKKSILAISENKDTLKSLRGELKDEYEVITFNNFLDGLDMLRESDFDILLLDENLSWFTFTEAVRKLRGIGKDIIIIALINEETEEVLEDLKKAQIYHCVIKPIELRKVNRVIIPALNNLELLKEKRELEKKLSDTEESEEIIGQNSKIKELKQVIEKVADSDLTVLITGENGVGKELVAKEIYKKSYRRKKNFIIINCASIAPTLIESELFGYEKGAYPGANMTRKGIIEEADGGTLFLDQIGAMDLKTQAKLLRVIEYGELRRVGSNRTIKVDVRFIAATNENLEESVKRGTFRKDLYHRITAFPIEVPALRERKEDIPLLANYFLNKIVSDLHKDMVVISGEAMKYLIEYSYPGNIRELKNIIERMVILSNDKVIGVENLPLEIKMKSDTLENKTITGIGPLKDILEKDIYDLAEVERVVIANALQKTRWNKQETAKLLGIGRTTLYEKIRKYDLDRRGIAKGE;locus_tag=LOCUS_13920;note=WP_005896128.1 sigma-54 dependent transcriptional regulator (Fusobacterium) [pid:57.8%25%2C q_cov:98.3%25%2C s_cov:99.8%25%2C Eval:7.6e-153],MGA_1398
sequence05	MetaGeneAnnotator	CDS	201505	202908	.	+	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLLIQSYLDKLPSKEDIKEVPEVIALIKSYSENIIDEELDKILDERHFEITTAKQENEIKNLDYSLDFYIEKLKEQLQDKKKEEQEEEKTVINCLGTVYSKYIGNTLYSRKVMRDIADTLSNYNTLEYNIKLEEASSLDEEINKLLEKLGFPSNFLIVNSIEGALYTLSNSFLKDKEILMNFKDAVNFDKIGPIDILEKNGINVEFVGYLNNISSKDYLNKLYEDRYILNVDMSYIPVENNISYKEFKNMNNKVINITDKVHIKSNRKEIKELSFELSEYLENDFFIDIVDFSKFAGFPKCAFIFIKNDEIYNEIKDNIILDVLSINKETKIFLFHLLKAYYENNKENIFIEKILLNEEEIKKKNQRIINKLEKELGDEVEISLIEGEYLTLDDRNKNEKFERELIILTPKNLDAKEVEKALKKGENAIFCWLHENSLIFNLQLLFRKDETKFLEKIKSVFTDTI;locus_tag=LOCUS_13930;note=MGA_1399
sequence05	MetaGeneAnnotator	CDS	202979	204709	.	+	0	ID=MGA_1400;product=SurA N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627831.1;translation=MAIRKLRKTMKPFIWIFVIAFIITIIGGVVSYIYSYKNAKAQKMALKLNGSYVDSLKIERAFSNGIENYRKVYGNSIDGEELKTIIFNNFIEQELLVKEAKNMKIKVSSKEINEKYNQVRANFPDEKTFNNALKMQGYTKDSLKNDIKNSLLVEKVTEKIESQAKVTDDEIKKYYENNKYGLYLDKDYEKVKDEIKERLLNNKKGRIYRAYVSKLLKSSKYEDVKEIYQKYLYNIEISKDGFEFSNIDIANRTIIQKLYGAGEKAAETAKKSIEKDIETAKKYISAGVEVNKELTTEDKIVDLREKYIAKLRKEIKISDEEIKTYFEKNSTKYETKEEAEAQIIEFELKPSKADSNKALEKAKNILKELTPENFAEKAKEYSEGPTAVNGGDLGWFTKGRMIKEFEEAAFSTEKGTINQNIIKTQFGYHIIYVEDKKTENGKESVKARHILIKENVSEDTKNNVIKKAKEILEKIKNKEITFEEAAKANSVLKNFEFKKIRRDGYIEGIGFNKELSDAILSSKLKELKLFTNNIIVIFKKTKYQKFEKANFEKSKDRVRYDILNEKINKALIEITK;locus_tag=LOCUS_13940;note=WP_201627831.1 SurA N-terminal domain-containing protein (Fusobacterium canifelinum) [pid:32.9%25%2C q_cov:98.4%25%2C s_cov:98.6%25%2C Eval:2.5e-79],MGA_1400
sequence05	MetaGeneAnnotator	CDS	204839	206146	.	+	0	ID=MGA_1401;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015819.1;translation=MTKIVNIHAREILDSRGNPTVEVDVTLECGAMGRAAVPSGASTGEREAVELRDGDKSRYLGKGCLTAVNNVNTIIKEAIIGMDALDQVAIDRKMIELDGTKTKSKLGANAILGVSLAVAKAAAKAKGLSLFKYLGGPNAKELPLPMMNILNGGSHADSAVDVQEFMVQPVGAKSFREGLRMGAEVFHHLGKLLKAKGDSTNVGNEGGYAPAKLNGTEDALDIIIEAIKAAGYEPGKDITLALDAAASEFCEGGEDGNKTYHFKREGGVKRTTAEMIDWYAQLVEKYPITSIEDGLDENDWAGFALMREKLGDKIQIVGDDLFVTNTEYLAMGIEKKSANSILIKLNQIGTLTETLEAIEMAKKAGFTAVVSHRSGETADDTIADVAVATNAGQIKTGSASRSDRMAKYNQLLRIEEELGDAAEYKGMGVFYNLNK;locus_tag=LOCUS_13950;gene=eno;EC_number=4.2.1.11;note=WP_011015819.1 phosphopyruvate hydratase (Fusobacterium nucleatum) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-182],MGA_1401
sequence05	MetaGeneAnnotator	CDS	206342	206710	.	+	0	ID=MGA_1402;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894529.1;translation=MPTINQLVRKGRRDLEKKKISPALQENPQKRGVCVRVYTTTPKKPNSALRKVARVRLTNGIEVTAYIPGIGHNLQEHSIVLVRGGRTKDLPGVRYKIIRGALDTAGVANRKQGRSKYGAKKG;locus_tag=LOCUS_13960;gene=rpsL;note=WP_005894529.1 30S ribosomal protein S12 (Fusobacterium) [pid:87.5%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.1e-55],MGA_1402
sequence05	MetaGeneAnnotator	CDS	206731	207201	.	+	0	ID=MGA_1403;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888149.1;translation=MSRRRSAVKRDVLPDSRYGDIVVTKFINYIMLDGKKSIAEKIFYTAMDKIEEKTGQNGYEVFKQAMENVKPQVEVRSRRIGGATYQVPVEVRPERQQALAIRWLVTNVRARKEYGMMDRLTAELIAAANNEGGSVKKKEDTYKMAEANRAFAHYKW;locus_tag=LOCUS_13970;gene=rpsG;note=WP_005888149.1 30S ribosomal protein S7 (Fusobacterium) [pid:80.6%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:4.4e-68],MGA_1403
sequence05	MetaGeneAnnotator	CDS	207238	209316	.	+	0	ID=MGA_1404;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015672.1;translation=MARQVSLEKTRNIGIMAHIDAGKTTTTERILFYTGVTHKIGEVHEGAAEMDWMEQEQERGITITSAATTCFWKNHRINIIDTPGHVDFTVEVERSLRVLDGSVAVFSAVDGVQPQSETVWRQADKYQVPRMAFFNKMDRVGADFDMCVNDIREKLGGNPVAIQIPIGKEDYFEGVVDLIEMKELLWTTDEMGANYDIADIREELKAKAEEAREAMIESVVETSDELMEKYFGGEEITKEELKAAIRKATISNEIVPVTCGTAFKNKGVQPLLDAVVEFMPSPIDIGAVKGTDMKDPEKELSREPSDDESFSALAFKIMTDPFVGKLAFFRVYSGVLEKGSYVLNSTKNVKERMGRILQMHANKREEKDVVYCGDIAAAVGLKSTVTGDTLCALDNPIILEKMEFPEPVISVAVEPKTKADQEKMGIALQKLSEEDPTFRVKTDEETGQTIISGMGELHLEIIVDRMKREFKVESNVGKPQVAYRETITSTTDAEVKYAKQSGGRGQYGHVKITIEPNPGKGYEFINKITGGVIPREYIPAVDKGMREALEGGVLAGYPMVDVKVTLFDGSYHEVDSSEMAFKIAGSMAIKDGAKKATPVLLEPVFKVEVTTPEEYMGDIIGDLNSRRGMVQGMTDRNGAKIINAKVPLSEMFGYATDLRSKSQGRATYAMEFSEYAQVPTNVAKAIIEERMK;locus_tag=LOCUS_13980;gene=fusA;note=WP_011015672.1 elongation factor G (Fusobacterium nucleatum) [pid:80.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1404
sequence06	MetaGeneAnnotator	CDS	159	443	.	+	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKDLKEQILKLSKRIEEEFGIEILEELTEFFEEEEYANLLLDIKVKKIKLFGDKDELSFVGFYLGDYHITFNFEYGEDEEGPYYDVEVEIINV;locus_tag=LOCUS_13990;note=MGA_1406
sequence06	MetaGeneAnnotator	CDS	467	2902	.	-	0	ID=MGA_1407;product=ATP-dependent DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480299.1;translation=MNILDRITQEACEKIKKEIQNAFGNEVFFRGITDEDMMVYDIEVIARGNEKSVPAIISYMKKKEVIIHNHPSGYLYPSDADIAVASMYANKKKGGAYIVNNDVDDIYVIVELKEEILEKIDVVPFFEKEGVLSQVFNEFEYRYEQLEMAKIIEEGLNNNKKVIVEAGTGTGKTLAYLIPAIEWAIKNEKKVIVTTNTINLQEQLLNKDIPIIKKVIPEDFKYVLVKGRGNYVCLRKYINLNRNGGINSEDFSESQIQEIEKIKEWITKTKAGDKAELYFEPSSNVWELFASETDICTMNKCPNKHKCFFMKSREEKEEADLLITNHHMYFSDLAIRKEVGFNTEFSIIPNYDLVIFDEAHNIEKVARDYFSYEVSKYSFTKAMNNIYRIKPGKSKNLGQIYNISYYIKKKNKKEYEKIKKYINDTIIPIHEELFRKGNDYFIKLMELYSGTGSINLRLRPEKLLIDENWNNLKKFEAELYISYNTYIRKQREFNRVLKDYEDEEGIINDYKKYVDRIENYFMSFKFITEMEDEKYIYWLSTNIKRGNAKLVATPLKITNELKTTLYENLDKIIFTSATIAIGKDFNYFKKSIGLEEETYEKIIHSPFNYDKQMKVYIPKDIPNPNDRNFLDEIKDFIIKLIEKAKGNTFLLFTSYSSLNYLYYLIRDKLEKDGYEIFLQGSAPRNKLINMYKIAEKPVLFGTDSFWEGVDVKGKKLSSVILVKLPFKVPSDPVVEAIIENMNKEGKNAFMEYQIPESIIKFKQGIGRLIRSKDDRGIVTILDNRLYTKRYGKIFIDNIPTKNIHYKKIDEI;locus_tag=LOCUS_14000;note=WP_198480299.1 ATP-dependent DNA helicase (Fusobacterium canifelinum) [pid:43.6%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:2.2e-193],MGA_1407
sequence06	MetaGeneAnnotator	CDS	3124	3384	.	+	0	ID=MGA_1408;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902954.1;translation=MAHSKSAKKRVVIAERNRVRNQAIKSKVKTMVKKVLLAVEANDVEAAKAALAVAYKELDKAVSKGVLKKQTVSRKKSRLAAKVNSL;locus_tag=LOCUS_14010;gene=rpsT;note=WP_005902954.1 30S ribosomal protein S20 (Fusobacterium nucleatum) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:95.6%25%2C Eval:1.8e-26],MGA_1408
sequence06	MetaGeneAnnotator	CDS	3455	4180	.	-	0	ID=MGA_1409;product=XRE family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010922480.1;translation=MNTHGEYFKKLRIDSELTLTELSKNTGVSKSYLHDIENNKIVPSDKILNKLLNYYDLKKEDESKLRRILAFAKTPNIVLEEMKTLKKEINRKNSIIEKLKKVENVEQNISFIQDNDYKEIPVYSYVRAGYNEIENYPEPEESIKIPLIGARADIVGVKVKGDSMEPKFHEGDIVLIKVGIMPENREIGVFIVENKTVIKVYNRDKTGRVILTSLNINHEPIIIDKNIEFSIVGKFWKAIVS;locus_tag=LOCUS_14020;note=WP_010922480.1 XRE family transcriptional regulator (Streptococcus pyogenes) [pid:28.1%25%2C q_cov:97.1%25%2C s_cov:96.8%25%2C Eval:5.9e-13],MGA_1409
sequence06	MetaGeneAnnotator	CDS	4522	4740	.	+	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISEVILADKIQEIANKKNISINQLAHMINYSPKSLKHTLYKMKKNNQDQSLSFDCFIAITEALNINIEELM;locus_tag=LOCUS_14030;note=MGA_1410
sequence06	MetaGeneAnnotator	CDS	4829	5245	.	+	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLFEKQLKNLFSSQNRFIQIFEKQLSNENLKLLYQNMFKTLQTRAFYYSLISQNNHFESLLFEKINNYNFFKINKLFKEFEILILKIFYKNNEFNKYNLKLIQQLIIEEKEFHDFLKKLLSKNISLESSNINKITS;locus_tag=LOCUS_14040;note=MGA_1411
sequence06	MetaGeneAnnotator	CDS	5271	6713	.	-	0	ID=MGA_1412;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016630.1;translation=MAREWEAVIGLEVHCQLKTGTKVWCGCSTDYDNAKPNTHVCPICLGHPGVLPKLNEKVLDYAIKAGLALNCDINKESKFDRKNYFYPDTPKNYQITQFDKPYAENGYLDIKLNSGREKRIGITRIHIEEDAGKSIHTTNESFVNFNRASMPLIEIVSEPDIRTPEEAYEYLNTLKTAIKYTGISDVSMELGSLRCDANVSVREKGTEKFGTRTETKNLNSFKAVAKAIEYEIGRQIELIENGGVVEQETLLWDEANGVTRVMRSKEEANDYRYFPEPDLVKVIIDNDRLERLKAEMPESKIDKVKRFIKEYDLKEKDAEILSNEIELADYFEQVAKYSNNSKSSSNWIITEVLRVLKEENKEITDFSIRAEHLAKIIKLIDNGTISSKIAKKVFEMKLTDSRDPEEIVKVEGLTQVSDSSEIEKIVDEVIANNPKMVEDYKQADEGRKPRVLKGLMGQVMKITKGKANPKLVTELFEKKL;locus_tag=LOCUS_14050;gene=gatB;note=WP_011016630.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Fusobacterium nucleatum) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:9.2e-202],MGA_1412
sequence06	MetaGeneAnnotator	CDS	6731	8191	.	-	0	ID=MGA_1413;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903492.1;translation=MKKLYKLTAKELSKLLKEKKIKAVDIVNSIFERINEVEDKIGSFVYLDKENALEQAKKVDEKIEKGIELKPLEGIPVAIKDNMVSNGEPTTASSKILSNYKGIYDATVVKLIKDEGMILIGKTNMDEFAMGSTTKTSFIKESKNPWDLERVPGGSSGGSATAVAAQEVILTLGSDTGGSIRQPAAFCGVVGLKPTYGRVSRYGLIAFGSSLDQIGPFGKTVEDVAMFMNVIAKHDEMDTTSLNIETPDYTKNLNEDIKGLKIGIPKEYFIDGMDNEVKKAIENAIEEYKKMGAEIVEISLLHTEYAPSTYYIIAPAEASSNLARFDGIRYGYRTENYKDIKDLYIKTRSEGFGDEVKRRIMIGTYVLSAGYYDAYYKQAQKVRRLIKNDFDKAFKNVDVILTPATPNTAFKLTDKKSPVEMYLEDVFTISANLAGIPGIVIPTGKNKNGLPIGMQLLGKHFDETTLLKVANNFEKRAYRIELPDNI;locus_tag=LOCUS_14060;gene=gatA;note=WP_005903492.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Fusobacterium nucleatum) [pid:64.9%25%2C q_cov:95.5%25%2C s_cov:95.1%25%2C Eval:1.7e-174],MGA_1413
sequence06	MetaGeneAnnotator	CDS	8267	8953	.	-	0	ID=MGA_1414;product=phosphatase PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948131.1;translation=MMILVYILLLFFIYKIIKEGYLKITKHFLNNLFKNISTYIVLFFVILSIFLLDKKITMLFWKKINNIDLGNIAVFFQNLGKADIISIPLIILYFVGIKFNKNLSKISILALASNLYSGIFVQILKHIILRERPFVSFNELNFFKFNKIFNYTNTSFPSGHTITGFSVCFIFFYFYKNKKIRILCIIVASLIGIFRIYEGKHWLSDVIIGAYLGIIVAKTIYELNKENI;locus_tag=LOCUS_14070;note=WP_011948131.1 phosphatase PAP2 family protein (Clostridium botulinum) [pid:32.4%25%2C q_cov:81.1%25%2C s_cov:98.3%25%2C Eval:2.9e-14],MGA_1414
sequence06	MetaGeneAnnotator	CDS	8950	10377	.	-	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKILKKNRVLIVLLIFFIIRLIWGTVLNLTDDEAYYWMWSNHLGISYYDHPPMIAYFIKIFTLIFGNNNFAVRLPANIGILIVSLLIYKISIYLFYDKKRAFWSVILFNIIPLFALAGIMSLPDTPLLIFYTLSLYIFIKIIKEKKEKYWYLLGIVVGLGLISKYNMFMVYPAIFFYLIFDKEERFWFTKKEVYLGFVLSLLLFLPVIIWNIQHDFISFSFHLVERQKKVYKFRPYLFSQFLFGQIAIVSPIIFVGLFKESIKNFNKKYVKLLIFYALPLVAIFTISSFSNPSKVHWLATAYIPLLIVYTHSVNLRKKSFNIGWKTALGLSLIIYIHLIYPILPIPEKDDITTDMYGWDKVGKIVQNMYTDKNNWFIFGSRYQTASQLYFYLPNKDYVYSLNKKIEQFDFLQNEKNLIGKNGIFIAHSFYNDDPRGIYDFDKVKLIKTIDIKRKNKVYRTFYIYKCYNYKGLK;locus_tag=LOCUS_14080;note=WP_012545854.1 glycosyltransferase family 39 protein (Thermodesulfovibrio yellowstonii) [pid:32.0%25%2C q_cov:96.4%25%2C s_cov:69.8%25%2C Eval:1.1e-61%2C partial hit],MGA_1415
sequence06	MetaGeneAnnotator	CDS	10388	10681	.	-	0	ID=MGA_1416;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903491.1;translation=MALSKEEVLKIAKLSMLEFEEKDIERFQHDLNDILKFVEKLSEVNTEGVEPLAQINDIYNVFRDDKIVKSISNEKALENAPESLEGSFVVPKIVGEN;locus_tag=LOCUS_14090;gene=gatC;note=WP_005903491.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Fusobacterium nucleatum) [pid:58.3%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:7.4e-25],MGA_1416
sequence06	MetaGeneAnnotator	CDS	10694	11341	.	-	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKIFLVDFDKTISLKDSTDELLKQYNKELVYEYQKKFKEGKLRVRDYIKGLVESLNIDEEEYKKNVIKNIVLDPYFKEFLEYINYNIRVVSAGAYENILPNFEKNEINIPIEHIYSNKVNFTNNGIKVTFPYDVNEAFEGICKKSIVEKYKTEYKKVIFIGDGSSDIPCVTSADYVFAKIGHNLEKYCSENNIRHYKYNNFNNIIEILKRERI;locus_tag=LOCUS_14100;note=MGA_1417
sequence06	MetaGeneAnnotator	CDS	11310	12752	.	-	0	ID=MGA_1418;product=glycosyltransferase family 39 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880464.1;translation=MDIKTKRVLSFVVLINIFFNILWPFYSDELYYWVWSKRLQLSYFDHPPMVAYFIKIFTIFSDNKFFIRLPALFSISLSAYIVYQLAKKAFDKKVAKYSIYIFLSTIIVQGGFMLITPDSPLILFWTLSLYFAYEYIFEDKRRGIYLASIFMGCAFLSKYTAILIAIVMIIFLLSDKEYRKVFFKKDFYLAVILGIIVSFPVLYWNYQNDFISFGFQFNHGVAIKKIIRFDKFLEFIGGQILIFHPVYFVTIFYFIIKYFKYIWQNKKLRYFFINFIFVFIFFAYNALYKKSEPNWTAPAYISGAIFLAYFYVKNNMKKTLKGAIIFTVIVVGLVKTPEFIPILPKPIKILQYRLKGFDTVYKGLDKKINLKNYEYLLIDSYHGSEIAYYLNMPKKTYILDSTRFSQYDLWKKDLKHPIKRAIYIGKINFKEKLEKRFSKVNLLQKLNYRNDLIKKEYFVYECIDEKEESFNERKNLFSRL;locus_tag=LOCUS_14110;EC_number=2.4.-.-;note=WP_010880464.1 glycosyltransferase family 39 protein (Aquifex aeolicus) [pid:28.3%25%2C q_cov:97.3%25%2C s_cov:99.6%25%2C Eval:1.4e-45],MGA_1418
sequence06	MetaGeneAnnotator	CDS	12754	13482	.	-	0	ID=MGA_1419;product=polyprenol monophosphomannose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011203156.1;translation=MSKKTLIIIPTYNESENIEKLLELIYSVKNDLNILIVDDNSPDKTYEIIERLMGDKYKEKLFLMKRKGKLGLGTAYIAGFKWALEKKYDYIFEMDADFSHNPKYIPDFLREIENNDLVIGSRYVKGGGVKNWGIIRKFISRGGSLYSRIILGAKINDFTGGFKCFRRETLEKIDLDKIISNGYSFQVELNYKVWLKGLRIKEIPIIFEDRTLGKSKMSKKIFLEAVLKVVWMRFNKNKLKGE;locus_tag=LOCUS_14120;note=WP_011203156.1 polyprenol monophosphomannose synthase (Bacteroides fragilis) [pid:49.4%25%2C q_cov:95.5%25%2C s_cov:92.8%25%2C Eval:1.6e-61],MGA_1419
sequence06	MetaGeneAnnotator	CDS	13475	13921	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIRMFLKFGIVGASGVIVNLSVFSVLTYVFDVTNTVLTASIAFLFAVTNNFIWNFLWTFRDKGINKTIKEKYMNFMIISSINFIINLIFLEIFIRVFSNVSFLKDHLKFSKVLAQFFAIGIATIFNFLGNYFITFKDKKIEGDSNE;locus_tag=LOCUS_14130;note=WP_039737632.1 glycosyltransferase (Hassalia byssoidea) [pid:25.5%25%2C q_cov:92.6%25%2C s_cov:31.9%25%2C Eval:2.9e-07%2C partial hit],MGA_1420
sequence06	MetaGeneAnnotator	CDS	13929	14636	.	-	0	ID=MGA_1421;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903490.1;translation=MEKIRINKFLASIGIGSRREIDKMILDNRIKINGQFPEPGIKVNCSDTIEIDGEKISLEIEKKVYYKLNKPKGYLSAVKDTREKTIVELIKTDKRIYPIGRLDLETEGLILLTNDGEIFNKIMHPKSKIYKKYFVVVKNKLSKFDIDKLENGIELEEGLTLPAIIENVEYESNKTSFYISIREGRNRQIRRMIKAIDNRVIYLKRVKIGKIELGDLKVGEYKKLTEEELNYLKTL;locus_tag=LOCUS_14140;note=WP_005903490.1 pseudouridine synthase (Fusobacterium nucleatum) [pid:56.0%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:8.6e-70],MGA_1421
sequence06	MetaGeneAnnotator	CDS	14617	15189	.	-	0	ID=MGA_1422;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903489.1;translation=MQMLNELEAILFLKAKDISMKELANFFELDIEDMKRALFQLKELRKDNGINVKIENEKVSLVTNPNCGEAVYRYFNPEVKPKKLSRAAFETLTIIAYNGPITKSEIEKIRGVNVDGVVSSLHEKKLVKVVGKAEKIGNPNLYEVTEDFCAYLNINSLEELPNYREIREKIKENQENKNNKDGEEIGKNKN;locus_tag=LOCUS_14150;gene=scpB;note=WP_005903489.1 SMC-Scp complex subunit ScpB (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:85.8%25%2C s_cov:90.1%25%2C Eval:1.0e-42],MGA_1422
sequence06	MetaGeneAnnotator	CDS	15173	16444	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVILFLFVYSISFGISIYSNSLLQYKIDNFDIIDIYNIQKNKKIIKQIKFKMFHKNKFLDIKEVKKIENKDNIELLFLFENNYKLDVKIYLYLNRKIIKLITNTYNKDIKLITFIKPEKESKLRKEEKYYKYNDFYFFSNNLNAYFSTIENFLNKKLKNGEEKIKDIEESIVIINNNGIDEINIFIEKSDFKKIKMKEYFKYEGKEDVIIKKILMNKNLDGSINFFYNKNFSINRENMFFSALYLLKNGYLDDVKEILNFELNNDLGENLCYSNMLFLYVFLEYIKITNDTEFLSENQENIKIKYLSKILEKINKNGLIFDNGRDIKKPKGYYIENILITYTILKKIKGYYINDKISLEIEEKIKLLKNIFDKEYKQNLNKYNKKDLLFINENNLLGEKYNINFMQELKEILGENYADVK;locus_tag=LOCUS_14160;note=MGA_1423
sequence06	MetaGeneAnnotator	CDS	16508	17554	.	-	0	ID=MGA_1424;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367094.1;translation=MKRIFNNVFGVFSEDLGIDLGTANTLVCLKNKGIVLNEPSVVAINVKSKKIYEVGAKAKKMIGKTPANIEAIRPLKNGVIADYEITEKMLREFYKIVHKRKFLTKPRVVICVPAGVTQVEKRAVMDVTLEAGAREAYLIEEPMAAAIGAGLEIFEPEGSMIVDIGGGTTEIAVISLGGIVKTTSVRIAGNKFDEAIVQYVRQKHNLLIGEKTAEEIKLNVATAMELSEDIECEVRGRNVLNGLPRNITIKANEIKEALEELISQIIEEIKLTLEKTPPELSADIYQKGIVLAGGGGLIRELDKKISESLNVPVILAENPLNCVVMGIEKLLNDFDRYKEVIISPETDY;locus_tag=LOCUS_14170;note=WP_147367094.1 rod shape-determining protein (Fusobacterium canifelinum) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-130],MGA_1424
sequence06	MetaGeneAnnotator	CDS	17566	18147	.	-	0	ID=MGA_1425;product=nucleoside triphosphate pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903487.1;translation=MILASKSPRRKEILEKIFKNIDIKTKEVEEVSDKNDVLEQIMDIANKKAIEVAKQNKTSYILAADTVVVYDNMVLGKPQNKEEAKKYLKMLSGNTHNVITAYSFLNIEKNIKILNYEITKVTFKKLDNELIKWYINQGEPLDKAGAYGIQEKGNLLVEKIEGDFYNVMGFPLSKFVSDLREKLLYDLLQIENL;locus_tag=LOCUS_14180;note=WP_005903487.1 nucleoside triphosphate pyrophosphatase (Fusobacterium nucleatum) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-51],MGA_1425
sequence06	MetaGeneAnnotator	CDS	18131	19741	.	-	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKEQKKIISISLFISALFLLSISILNTNIYKLIYNFLGSYYNLLTIYLIIFAIIINFKNEIYDMISFRLKIFLLFLFQIEIFNLYLNLKSVISKREIITYILNNYWERKGILVTVLLSTLFNMLSKNIIIVLNSLVFPLVFLIVFGKIIGFSYRTLKKIKSNKFKKKEKKAVELKNNKFEDIFLNDKKEKLRKQIKERTEKKEGKNKRESKNKKNEKKQSKNSNYDFQIERKYFRNTFFEFEKSIKIEKEDKKNKKAEEELNSKSELIQEKNNLIKFKKPNFFERRKKIKELKKKHKEKIRKEREEREKKIREIKKRKEEKNKINQKKEQIEIKIIDESLKNKKNLDKNEIKVEELRDIENKKFVQEKIFNEPNMITKEYEELKNIKNLEVQFLFNNENNRKKDIEEKEVINKKIDFNLKKEESIDENKKEKEIKDKIIKEKKRKLEKKEKLEEKLEEEKQKNFNKDKLSEGIKNNQKENFFIDIFGKDIYDKILLEIKNNQTDIIYLQKKYKVGLAMTQELLNYLKEEKNDISV;locus_tag=LOCUS_14190;note=MGA_1426
sequence06	MetaGeneAnnotator	CDS	19898	20302	.	+	0	ID=MGA_1427;product=SoxR reducing system RseC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902636.1;translation=MKNKGIITEINNNEIKVNLFKDSACSHCSGCSDGDKMSCEYTFKTNTTGLKEGDIIDFEMNNNSLLKLGLTVYILPIFLLFFMYFLGSLIKLSQGANILFSFLGLIIYFIILFVIEKIYGKNFLNQNIKISKGE;locus_tag=LOCUS_14200;note=WP_005902636.1 SoxR reducing system RseC family protein (Fusobacterium nucleatum) [pid:30.0%25%2C q_cov:97.0%25%2C s_cov:86.0%25%2C Eval:6.2e-16],MGA_1427
sequence06	MetaGeneAnnotator	CDS	20305	20748	.	+	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKIIFLFFLIISLSSFSEYYAIGANLGSNKGLNLLIYNSQEKAVQVNSSWSLNNTSTTFIFSFDQVYFSLMPDGVTPMYYGVGMKVSNKEDEYIGVRGVLGASYFAQDIDENLELYIELDPTFHLAATTNFLALEIGLGFRYYF;locus_tag=LOCUS_14210;note=MGA_1428
sequence06	MetaGeneAnnotator	CDS	20763	21278	.	+	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKICGIYFLIFIYSFAAYEEFKNDSSYEETINLYSGSSYFNNNITSAIGLNLGTTTGLNLVYNNISLTLDSRILSITNPTLALSIDSISKDDFFTIDSGIPFHYGIGIKLTTSDNTKFGFRGLVGSSIRLSDFDENLELYGDFIPTFYLPSYGNFLVFEFAIGFRYYLP;locus_tag=LOCUS_14220;note=MGA_1429
sequence06	MetaGeneAnnotator	CDS	21315	22178	.	-	0	ID=MGA_1430;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903649.1;translation=MDLHYLKIFYEVANEGSFTKAANKLYINQSAVSIQIKKFEELLNTKLFDRSSKKIKLTYSGEVLYKIAEEIFQKVKRAEKEIERIVVYDKAKIVIGSTHLIGEQMLPRILRQFVMNYPEIEFDLIIKDRTPLIKDLKEGKVDVALMGTYYVKDKELEVIEIANYPFVIIYNEEIDDPTELAEKKLIMRNDSPLTRKNIANFEKKYKVSLDDKISVQGSIETIKNLVKEGFGYTVLPYYSVYLEIEKGEFKVIEEFDNNDGYQLVVTKDKYDKKEIQKFIKQLKEFRI;locus_tag=LOCUS_14230;note=WP_005903649.1 LysR family transcriptional regulator (Fusobacterium nucleatum) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:95.4%25%2C Eval:3.1e-78],MGA_1430
sequence06	MetaGeneAnnotator	CDS	22267	24921	.	-	0	ID=MGA_1431;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015981.1;translation=MKDMAKTYSPNEIEDKWYKKWEKNKYFAATLDNEKEGYSIVIPPPNVTGILHMGHVLNNSIQDTLVRWKRMSGYNTLWMPGTDHAGIATQNKVERKLATENLTKEDLGREKFIEEVWKWKEEHGGIITKQLRKLGASLDWDRERFTMDEGLSDAVKEIFIKLYEDGLIYQGEYMVNWCPRCTTALADDEVEHIDKEGRIWEIKYPIKDSEDYLVIATTRPETMLGDTGVAVHPEDERYKHLIGKSVVLPLLNREISIVADDYVDMEFGTGVVKMTPAHDPNDFEVGERQNLEILNIMTDTGKINENGGKYKGLDRFEARKEILKDLEELGLLVGSKVHNHAVGHCYRCDTVVEPRVSKQWFVKMKPLAEKALEVVRNGEVKIIPKRWEKVYFNWLENIRDWCISRQIWWGHRIPAYYAEDGTMFVARNMEEAKAKAKEKFGKEVELTQETDVLDTWFSSALWPFSTMGWPEKTPELDMFYPTATIVTGADILFFWIARMIMMGLYEMKEVPFKTVYLHGIVRDEQGRKMSKSLGNSPDPLDLIEKYGADAIRFTMIYNTSQGQDVFFSEKLIEMGRNFANKIWNASRFVLMNLEGFDKNSINKDELNLELVDKWIYSRLNTTIKEVNEKLEKHILDEAAKIVYEFLRGDFCDWYVEIAKIRLYNSNDEIGKKTAQYVLWDILEKGLRLLHPFMPFITEEIWQNLNTGKETIMLEAYPVLNNNKINKNIEKDFEYIQTLVSSIRNIRAEMNISPAKDLEVLIKSSVENELKVLEENSIFIKNLAKLSNLKYGRNMERPASSGFRVANGSELYVPLEGILDLDAEIKKITMQIEKIEKELAKVNGKLNNEKFVSKAPTAIIEREKKIQKEYEDKLSKLKANLESFK;locus_tag=LOCUS_14240;EC_number=6.1.1.9;note=WP_011015981.1 valine--tRNA ligase (Fusobacterium nucleatum) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_1431
sequence06	MetaGeneAnnotator	CDS	25245	27254	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILIIGGVAAGATAGAKARRVSSDAEITILESGNDISFANCGLPYYIGGDIKNRSKLILESPESFYDKYQIKVDIHTTATEIDRKNKIVYAVDSRTGEKREYEYTKLILAQGGRPIAPPIPGAKENHVFQLWTLDDMDKIHSYIEDEEPQSAVVVGGGFIGLEMAEALVKRGLKVSLVEMQPHVMALMEAEIAGFIQKELISYGVELYTNKSVTEISRKNVVLNDGNKIDADMVIMSIGVKPTLKLAQETGLAIGEAGGLLVDSYLKTSDENIFAAGDMVELEHRVSGKKVRIPLAGPANRQGRIAAENALGGNHKYSGSIGTSIVRVFEAVAGITGLSLKAARKFGINADAITVHKEHHTSYYPGSKDVTVTIVYDKETGVILGGQTAGYQGADRRLDVLAVATATGRTIYELADVDFAYSPPLGTANDVINMAAYAAENRITGYSPSLTVAELDEYLENKNALWIDVRDLFAYEKANVQGAKNIPLEVFATKLNEIPKDKLIILYDYNGKKGHQALRTLIGAGYKNVINVSGGFMSIANYAMAITPKNFDVNLEEIEKKDINEIEKEEIKEEKVKETKKVDLNEPLIVDVRTTGEFLSGAYPGAINIPLDELLNRVDELGPKNRKIILYCASGSRSSYAISILSRLGFTNLENGGGIMHMMMNRR;locus_tag=LOCUS_14250;note=WP_011108297.1 FAD-dependent oxidoreductase (Bacteroides) [pid:42.4%25%2C q_cov:80.9%25%2C s_cov:65.4%25%2C Eval:1.6e-117%2C partial hit],MGA_1432
sequence06	MetaGeneAnnotator	CDS	27424	28302	.	+	0	ID=MGA_1433;product=VIT1/CCC1 transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584032.1;translation=MTIDKNIIRKFMQEEYEGYLVYKKLAKLEKNLENSKILDNIGEEELKHLETWKTLLNEKPKIRIFKVWFYIFIARFLGLTFGIKLMEINEDKGKNAYLEILKNNLDKDLATNIQKMIDDEDKHEKLLINMINEEKLDYIGSIVLGLNDALVELTGTLAGLTFALKNTKLIAMSGLITGIAASFSMAASEYLATKAEGDDDALKSSIYTGIAYIFTVIILALPYLVLKSYSSALILTLIFALLIILVFNFYISIAKDYNFIHRFLEMALLSMGVAGLSFIIGIIVKNLLGVEI;locus_tag=LOCUS_14260;note=WP_012584032.1 VIT1/CCC1 transporter family protein (Dictyoglomus turgidum) [pid:44.6%25%2C q_cov:97.9%25%2C s_cov:97.2%25%2C Eval:7.0e-65],MGA_1433
sequence06	MetaGeneAnnotator	CDS	28312	29103	.	+	0	ID=MGA_1434;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016356.1;translation=MKNIKLIVCDLDGTLLNSNHEISDFNIEILKKLKKNGLEIILASGRSYEAMLPTINKLNLTNEIISYNGAAIYKNNNLIFQKVLSKNISKELINIGKTKNIYFHAFHNFKWYIEEFTNEAKEYKERSGLQEHYIDFSTLENPNFLKLMYISSKENIDILEKFLKEKYKNTIYLGRSNDNFLEVMHKNVSKANALKQILKNKNFNTENIMAFGDGFNDYEMLKYAKIGVVMDNANKKLKSLIKYKTISNDENGVGIFLKKFFNL;locus_tag=LOCUS_14270;note=WP_011016356.1 Cof-type HAD-IIB family hydrolase (Fusobacterium nucleatum) [pid:34.4%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:2.1e-38],MGA_1434
sequence06	MetaGeneAnnotator	CDS	29172	30011	.	-	0	ID=MGA_1435;product=fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437062.1;translation=MRKIEKKLIIEEVAKLCVDANHNIPLDVISKLKISKDNEKNKLGKNVLEEIIKNDEIASREKMAMCQDTGLAVVFLEIGREIYFDFDIYEAINEGVKKGYSEGYLRKSIVRSPIFRENTKTNTPAVIHTKLVAGDKLKIIFAPKGGGSENMSTVKMMKPSDGIGGIKNFVIDFVKNAGGNPCPPIIVGIGIGGNFEKSAILAKEALFRKIDDINEDKELAKIENELLEEINKLNIGPMGFGGDTTALAVKIKSHPCHIASMPVAININCHAARHKERII;locus_tag=LOCUS_14280;EC_number=4.2.1.2;note=WP_003437062.1 fumarate hydratase (Clostridioides difficile) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-80],MGA_1435
sequence06	MetaGeneAnnotator	CDS	30024	31481	.	-	0	ID=MGA_1436;product=IMP dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017001.1;translation=MLNGKIIKEAITFDDVLLVPQKSEVLPHEVSLKTKLTKKIELNIPILSAAMDTVTEARLAIAIAREGGLGFIHKNMTIEEQAAEVDKVKRNESGMITDPITLHRNSTLLDADTIMGKYKISGLPVVEDDGTLVGIITNRDLKYRKNLDENVEKIMTKENLITASEGTTLEEAKEILLENRIEKLPIVDKNNKLKGLITIKDIDKAEEFPLACKDEKGRLRVGAAVGVGNDTLERVEALVKAGVDIITVDSAHGHSRGVLETIKKIRNKFPDLDIIGGNIVTKEAALDLVKAGVTAVKVGVGPGSICTTRVVAGVGVPQLTAVNDVYEVLKEMEIGVIADGGIKLSGDIVKALAAGANCVMVGGLLAGTDEAPGEEIIYEGRKFKIYVGMGSMAAMQRGSKDRYFQNNAKKLVPEGIEGKVAYKGSLSDVIFQMCGGIRAGMGYCGAPTIDDLIKNGKFVKITGAGLKESHPHDISITKEAPNYQR;locus_tag=LOCUS_14290;gene=guaB;EC_number=1.1.1.205;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:74.9%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:6.7e-208],MGA_1436
sequence06	MetaGeneAnnotator	CDS	31491	31991	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124795010.1;translation=MFFYEDLVKNVEKKEVNLDKEKYKFSLNFRTKIIKIGTGLPLILIGLYYMADIVNKKLSISAILGALIFYTGILIVQEVFTFRLIIDKKNDEIITKTFRFNISSIDSIELKKMVIPRTKKIEACLDIITVEKKQYIIPLVMNKKIEFCAILRELKREKFKIIKDDI;locus_tag=LOCUS_14300;note=WP_124795010.1 hypothetical protein (Fusobacterium canifelinum) [pid:31.5%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:7.1e-17],MGA_1437
sequence06	MetaGeneAnnotator	CDS	32055	33593	.	-	0	ID=MGA_1438;product=glutamine-hydrolyzing GMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017155.1;translation=MYKDSILILDFGSQYNQLIARRIREMGVYAEIVPYFTPIEDIKSMKPKGIILSGGPASVYLEEAPTLDKEIYELNIPILGICYGMQLTMHLLGGKVDKADKQEFGKAELIIDKNKSKFFNEIPKKSQVWMSHADHVVEIAPGFEKLAHTDSSIAVLADEEKRIYTVQFHPEVTHSVYGKNILKNFVFEIAKCEKNWSMENYIEKTIKEIRERVGDKKVILALSGGVDSSVAAVLIHKAIGDNLNCFFVDTGLMRKDEAKKVMETYGKNFKMNIECINAEDRFLTKLKGITDPEEKRKIIGKEFIDIFEEQKQKFKDADFLAQGTIYPDVIESQSIKGPSSTIKSHHNVGGLPEEMEFELLEPLRELFKDEVRKVGKELGIPEYMIDRHPFPGPGLGIRILGEVTKEKADILREADDIFIEELRKNKLYDKVSQAFVVLLPVKSVGVMGDERTYEYTAVLRSANTTDFMTATWSHLPYELLEKVSNRIINEVKGINRLAYDISSKPPATIEWE;locus_tag=LOCUS_14310;gene=guaA;EC_number=6.3.5.2;note=WP_011017155.1 glutamine-hydrolyzing GMP synthase (Fusobacterium nucleatum) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-229],MGA_1438
sequence06	MetaGeneAnnotator	CDS	33860	35911	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGKKISIIFVSITIFILLIINILVYQFGKALLRKQIISDIERINELTYNMVDTSVNVSVKSYLRGIAEKNLDIVKEYYKKVQNGELTEAEAKKELSRIILSQKIGKTGYPYVMSYKTGKILIHPKKSVIGKVSSLYKDIKGREQSKNEYIEYEYKGKKKALYRVYFKPWDFLISATSYKDEFKELIKKEDFRDKVLSVKIGKTGYTYIMDSKGVLVIHPAIEGKSILNAKDINGKEFVKDIIDKKEGNTIYYWKNPNDKIAREKIVNSKYYKDLDWYIVSGTYTEEIMGPIINFRNLLFIINIFILIIVAITSSIIGNTFAKPIKKLTSDIDQLSNGDLTFKTNIKTKDEINTISERINNLIDKLNITINKAHNLSQDINIQNIELEEDMTTIINSETKDSIFILKNMIENILDQVRDQTASTEETLASVEEVSASVRTVREFNTEILENSKVTLDVAKQGIEFGTIVKTDMNDVTKKVIDTNEKVKDLVNISKDIGNITVAINAISEQTNLLALNAAIEAARAGEAGRGFSVVAEEIRKLAEQTSSETKKIDEITTTIQKEVEIVAKGNEVVKEKIIYAEKGIIDLVDNLNKVVDLSKSTDEKIKDIDTNLNEQMLAVEEIAKAVENIANNSTTIESYGIKTDELGENISLILKDKLEIIRDILEKNRDLDNELKFFKLK;locus_tag=LOCUS_14320;note=WP_012546024.1 methyl-accepting chemotaxis protein (Thermodesulfovibrio yellowstonii) [pid:27.9%25%2C q_cov:69.3%25%2C s_cov:70.0%25%2C Eval:1.5e-57%2C partial hit],MGA_1439
sequence06	MetaGeneAnnotator	CDS	35986	37008	.	-	0	ID=MGA_1440;product=class II fructose-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016951.1;translation=MKRELALEFARITEAAALAAYKWIGKGDKEGADQAAVDAMRNMLNEIEIEGEIVIGEGEIDEAPMLYIGEKVGKYEEIENISQVDIAVDPVEGTRMVAQGQANAIAVLAAGNKGSFLKAPDMYMEKLIVGPRAKGAIDLNLPLMENINNIAEKMNKKVSELKGIILYKQRHYQVIEDLQRMGVSIYALPDGDVAGSLLTAIVDSGIDFLYGIGGAPEGVVSAAALKALGGDMNARLKLRREVKGISLENDKISNFEKKRCEEMGIDITKVLTIDDMVKDDEIVFSATGITKGDLLEGIKRNGNIARTQTLLIRGKTKTIRYINSIHNLEYKDDAVKELLI;locus_tag=LOCUS_14330;gene=glpX;EC_number=3.1.3.11;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:69.0%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:4.4e-133],MGA_1440
sequence06	MetaGeneAnnotator	CDS	37017	37304	.	-	0	ID=MGA_1441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKTRIKLKIVLIILIIIVMIKWWLFPIINVLYDINKLNLKIKNNELKINTLEKTYSKLQLELKNIENLDIIEKKARNLLDMKKENEKIYRIIE;locus_tag=LOCUS_14340;note=MGA_1441
sequence06	MetaGeneAnnotator	CDS	37282	37974	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAENKKEIKKKNNGMKYFILTIIMFLIFLFTLIGGIIFLDIIGVLNLSKVISKDSNIAKLPYIGNYISYSYNIHLTEEERLKNTMLKYQEILENKRKEIELKELAVTKREEDVKVLEKELLTKEKELQQKEEELIKKEEILKKLNAEYSAKDENITKFSNIYAKMQPNSVAIAVNNMELDIVSKIFEKMDEKKVALILDELSKINPLRVKEIVETMTKKNEVPNVSKNTN;locus_tag=LOCUS_14350;note=MGA_1442
sequence06	MetaGeneAnnotator	CDS	37977	38414	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFKFQKALDYKLEEEHQAKDIYFRIQEKKNKKLKEKEILINRKAELHQEFKAYKVGNIDINSLKNYNNFILKINNEIEEFNKELNIIEKNLEKAREEFFEIRKERKIFEKLKEKQLEEYKKNMQKKEDKLIDELSNNLYNRRN;locus_tag=LOCUS_14360;note=MGA_1443
sequence06	MetaGeneAnnotator	CDS	38428	39738	.	-	0	ID=MGA_1444;product=flagellar protein export ATPase FliI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870076.1;translation=MKIDFDRYNEIVDSIQTIKSVGRVVRVVGLTIESSGPLVHLGEHCYIKLLNSNKKIDAEVVGFNDNKVLLMPLGDMKGIGHGCEVIPSGRSLSVGVSKKLLGRVIDGLGNPIDDKGKIEIEKYMPLENQAPNPLARKRITEPLNIGVRAIDANISCGKGQRIGIFAGSGVGKSTLLGMISRNSSADINVIALIGERGREVREFIEKDLGEKGMKNTVVVVATSDQPALVRLKGASTATAIAEYFRDKGYNVMLMMDSLTRFAMAQREIGLAVGEPPATRGYTPSVFAELPKLLERTGNSDKGTITGLYTVLVDGDDLNDPIADTVRGILDGHIVLSRKMAEKNHYPAIDVLASVSRVINNIVSKEHLEANQKLREVLATYNEVEDLISIGAYKQGSNPKVDYAISKIEEVNNFLKQGIHEESNFEDTKDILINLFN;locus_tag=LOCUS_14370;gene=fliI;note=WP_012870076.1 flagellar protein export ATPase FliI (Thermanaerovibrio acidaminovorans) [pid:61.5%25%2C q_cov:97.0%25%2C s_cov:95.9%25%2C Eval:9.1e-153],MGA_1444
sequence06	MetaGeneAnnotator	CDS	39747	40574	.	-	0	ID=MGA_1445;product=flagellar assembly protein FliH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002668471.1;translation=MFNVIKGNFVKKNTEPVVIKHKKNTVAKENEDLIKKNEQKIENEIDYEEEYYDETEEKSDEFDNFELDEILLSKQNELKELEIQMEKLKQEAENEAYRIIEEARIEAEKESNDIKAKAWDQGYQEGYEAGKNQVLLNSSNVFSNVQRVLEEAMNEKEIMLNNSKEEIINLIIKVAEKVIKIEVNNKEILKQNLLEALKNISVSPKITVYVNWEQVQYAKELKEEMKSKFYNIEEFNILEDKTLTPGGCVIETQMGRVDASIETQLETIIDKLHEE;locus_tag=LOCUS_14380;gene=fliH;note=WP_002668471.1 flagellar assembly protein FliH (Treponema) [pid:22.7%25%2C q_cov:98.5%25%2C s_cov:94.5%25%2C Eval:6.2e-20],MGA_1445
sequence06	MetaGeneAnnotator	CDS	40567	41571	.	-	0	ID=MGA_1446;product=flagellar motor switch protein FliG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000932791.1;translation=MAEKLTGKQKAAILMIALGQDAAAEVFKYLKPDEIEDLTFEIAKVNKVQLDQKEKVYEEFNEMMVAQQYISQGGINYARELLQKAVGENKAVEIITKLTSNLQVRPFDFIQRTESEQILNFISGEHPQIIALIISYLPADKAGEIMSHLPSEKQIDIARRIAQMERTSPEMIREVERILERKISTVMGQDYTMTGGIDALVEILNNVDRTTEKTIIEGLEEAEATLAEEVKKKMFVFEDLILLDDKSVQQVLKNVENKDLTMALKGSSEEVAEKIFKNMSKRAADNLREDMEYTGPVRVRDVQEAQQRIVAVVRKLEESGEIQIARGSEDELIV;locus_tag=LOCUS_14390;gene=fliG;note=WP_000932791.1 flagellar motor switch protein FliG (Leptospira) [pid:58.2%25%2C q_cov:98.8%25%2C s_cov:97.9%25%2C Eval:3.2e-112],MGA_1446
sequence06	MetaGeneAnnotator	CDS	41584	43182	.	-	0	ID=MGA_1447;product=flagellar basal-body MS-ring/collar protein FliF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392292.1;translation=MNEFFKRIKNQFTTIWKNLTKIQKITIFFLLGSLLTFLILFFVLSSKVNYEPLFTELESKDAAKIKASLDKRGITYRITGNGTVIEVPKEQKYAIRLDLSKEGVLPDSAVGFEIFDNSKIGATEFDKQMMFLRAQKGELEKTIKSLSQVKRAVVNITPANNSPFANEKTEAKASVLIELESFETLKEENIKSIIVLVAGAIENLPKENVEVVDTSGNILSDMVDFSQEGSLASRKRIELQQEIEKKLERSANGVLNVLGGGNYRVKVSVELDFNKESYQTESYTTPTVSGEQLTQGLIRSEQNNLKEVSGGVNDVASGVPGTTSNIPGYVGKEESNSSNYKENNVVKNYELDKKNTVYEKSIGNIKRMTVSVTLNKDSVYFKDKENITPAEITQFENMVKTAVGFNENRGDKINVTVLPFNFEIAKRYNDSIAEEQKWKKYQLIGIYFIIITLIIAGGALLLFKRLESKRIKEREEKAIADLLPQLDDVNLNEEAMSIEEQERADQENQIRQIAIQKPEEVANLLRNWLMED;locus_tag=LOCUS_14400;gene=fliF;note=WP_011392292.1 flagellar basal-body MS-ring/collar protein FliF (Moorella thermoacetica) [pid:30.4%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:1.1e-60],MGA_1447
sequence06	MetaGeneAnnotator	CDS	43205	43501	.	-	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKSTNKINGIFNNNEINKNTKKGTEKFSDYLKNAINEANELKIESDNLTTDFLTGKTDNLHEVMIASQKAEIALLFVTEVRNKVIEGYQEFAKMQI;locus_tag=LOCUS_14410;note=WP_003238544.1 flagellar hook-basal body complex protein FliE (Bacillus) [pid:48.1%25%2C q_cov:80.6%25%2C s_cov:74.5%25%2C Eval:3.4e-14%2C partial hit],MGA_1448
sequence06	MetaGeneAnnotator	CDS	43514	43966	.	-	0	ID=MGA_1449;product=flagellar basal body rod protein FlgC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392290.1;translation=MGVFNIMNKAASGMTAERFRMDIIADNIANANTTVTEQGGPYRRKLVVFEEKLKKELKVPMNINIDSKEASISKSEGVKVAKVIEDKTPFRYVYDPNHPNANEKGYVAMPNVNTINEMVDLITAQRAYEANATVVTNAKSMATAALQIGK;locus_tag=LOCUS_14420;gene=flgC;note=WP_011392290.1 flagellar basal body rod protein FlgC (Moorella thermoacetica) [pid:51.8%25%2C q_cov:94.0%25%2C s_cov:93.8%25%2C Eval:1.4e-36],MGA_1449
sequence06	MetaGeneAnnotator	CDS	43984	44388	.	-	0	ID=MGA_1450;product=flagellar basal body rod protein FlgB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392289.1;translation=MKLFDNRFTILEKGLDAYNKRAEAIANNIANVNTPNYKRKDIEFEKYLNTALGENKSLEGVTTNSKHIKINTLNIKEIKPLEVVEKNTIMRNDKNNVDIEKEKVEQAKNNIRYQTAITRISQDFTLLKSVIKSK;locus_tag=LOCUS_14430;gene=flgB;note=WP_011392289.1 flagellar basal body rod protein FlgB (Moorella thermoacetica) [pid:37.7%25%2C q_cov:91.0%25%2C s_cov:90.2%25%2C Eval:2.1e-16],MGA_1450
sequence06	MetaGeneAnnotator	CDS	44420	45223	.	-	0	ID=MGA_1451;product=DUF368 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903636.1;translation=MEYIKNILKGSAIGAANIIPGVSGGTLAFVLGIYDKLTEAIGEFFEVDNKKRIEFIKFLIQIGIGVIIGILIFSKIIEYMYNNYNEATNFFFIGLIIPSVFFISKKEKVRIKSINFLFLVLGMLIVIGLGYFNGFQRIESGIINMSTVYLIKLFFCGIIAAGTMVMPGVSGSLILLLLGEYHNVIGFVNNLNILPLSVIGIGAILGIVIFARIIDFLLKTHREQTILFIIGLILASIIEIYPGITFSMLILDIISIILGMFIVYKIS;locus_tag=LOCUS_14440;note=WP_005903636.1 DUF368 domain-containing protein (Fusobacterium nucleatum) [pid:37.3%25%2C q_cov:88.4%25%2C s_cov:97.7%25%2C Eval:1.3e-38],MGA_1451
sequence06	MetaGeneAnnotator	CDS	45210	45662	.	-	0	ID=MGA_1452;product=type II 3-dehydroquinate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083137.1;translation=MKILVINGVNLNFLGKREKSLYGDKTLDDIINNIKIKAQKYNYEILDFQSNIEGEIVNRIQQAYFEDINYIIFNPGAFTHYSIAIRDALLSVKIPTIEVHMTNVYKREEFRHISVISDIVIGKLTGFGDIGYLMAIEYIKEKEESIDGVY;locus_tag=LOCUS_14450;gene=aroQ;EC_number=4.2.1.10;note=WP_004083137.1 type II 3-dehydroquinate dehydratase (Thermotoga maritima) [pid:48.6%25%2C q_cov:97.3%25%2C s_cov:99.3%25%2C Eval:5.3e-36],MGA_1452
sequence06	MetaGeneAnnotator	CDS	45673	46125	.	-	0	ID=MGA_1453;product=transcriptional regulator NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902339.1;translation=MRCPYCKSEDSKVIDSRNYQEGFSIKRRRECINCGERFTTYERVERLPIYVIKRDGSKEILNRDKILRGLLRATIKREIKREELEKIVDEIEVEIEENSNKREIKSSFLGELIMKKLKKIDEVAYVRFASVYKKFDDLKSFIKEIETIKK;locus_tag=LOCUS_14460;gene=nrdR;note=WP_005902339.1 transcriptional regulator NrdR (Fusobacterium nucleatum) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.1e-36],MGA_1453
sequence06	MetaGeneAnnotator	CDS	46134	46601	.	-	0	ID=MGA_1454;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005919085.1;translation=MELVKITDFMEEKLIKLDLDLEDKKEALNKFSEILSFSENIIDKEKCYKDLNEREMLGTTGIGKGVAIPHAKTKAATRLTIAFVSAKTPIEYESLDGEKVKLFFIFASPSSESKVYLKILARISRLIREEVFRNKLINAKTPKEILELIDKEEKI;locus_tag=LOCUS_14470;note=WP_005919085.1 PTS sugar transporter subunit IIA (Fusobacterium hwasookii) [pid:55.0%25%2C q_cov:89.7%25%2C s_cov:89.2%25%2C Eval:2.2e-35],MGA_1454
sequence06	MetaGeneAnnotator	CDS	46588	47313	.	-	0	ID=MGA_1455;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017193.1;translation=MKKIINTECIIIKKIDINESDRIVKLFSKDLGILEIFIKGIRKSKNRDINATEIGVISNYYIYKNNNKYNIKSFEINKYLNKIYSNLDKINLLYYILFILNSINVEENLIEKIYVMTKKALIYLNKEENINNIYIMLTVYLFNIIKYEGILFSVEKGNKFDIINGKITKHNNYNIIKLSEEQVIYLEKLFNIDIEGINKLKFDDKQIIDIIVILERYINYHLHIKIDFKQLMRRNILNGIS;locus_tag=LOCUS_14480;gene=recO;note=WP_011017193.1 DNA repair protein RecO (Fusobacterium nucleatum) [pid:33.9%25%2C q_cov:92.5%25%2C s_cov:94.0%25%2C Eval:6.1e-26],MGA_1455
sequence06	MetaGeneAnnotator	CDS	47321	47842	.	-	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017194.1;translation=MKKIISIMFIVFNVFIYGKELINIKSFKSFVEEETFIEKNVKIKKYNLIVEFPDKLYKEVIYPEINKGEKYIYNNNVKKTYYPLLEQYIEEPIEEDNILDYINFIKNDFDIEENINIKVEYDNGYSILIRDVEEIGGIKFPKLIEIYEKNIIIKKIRFFDIEIDKNIDENLFE;locus_tag=LOCUS_14490;note=WP_011017194.1 hypothetical protein (Fusobacterium nucleatum) [pid:31.2%25%2C q_cov:99.4%25%2C s_cov:96.9%25%2C Eval:3.7e-14],MGA_1456
sequence06	MetaGeneAnnotator	CDS	47855	48649	.	-	0	ID=MGA_1457;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796804.1;translation=MKIKDIKRKKRLRLLLFLLIIIILLFQMPLNIVKNSINGVVLPFKIFFYKVSRGAKNTVDNIKNINLILEENNRLKSENYKLILENNNLKNVLEENNRLKEILNIKSEIKEDFVIAKVSFRDALSVYDEFFINKGSDDGIKEDSVVLYKNNLLGKVKKVYKTNSIVEMITKENIYTSVIIGEKNILAILKGAKSEILEIEDVTSDNNIKVGDKVYTSGISDIYKKGIYIGSVTRVEDKKNEFFKTIYVKIPFNIFEVYEVLVIK;locus_tag=LOCUS_14500;gene=mreC;note=WP_124796804.1 rod shape-determining protein MreC (Fusobacterium canifelinum) [pid:33.3%25%2C q_cov:92.4%25%2C s_cov:86.1%25%2C Eval:4.8e-30],MGA_1457
sequence06	MetaGeneAnnotator	CDS	48750	50381	.	-	0	ID=MGA_1458;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016573.1;translation=MSKILKFNEEARKKLEIGVDTLANAVKATLGPRGRNVVLEKSFGSPLITNDGVTIAKEIELEDPFENMGAQLVKEVATKANDVAGDGTTTATVLAQAMVKEGLKMISAGSNPVFVRRGMEKGIKKAVELLKEKSKKIEGNEEIAQVASISAGDEAIGKLIAEAMEKVGETGVITVEEAKSLETTLDVVEGMQFDKGYVSPYMVSDTERMIAEMENPYILITDKKISNMKELLPLLEQTVQSSRPLLIIAEDIEGEALTTLVVNKLRGTLNVVAVKAPAFGDRRKAMLEDIAILTGGEVISEEKGMKLEEVDLDTLGSAKKVKVTKDETVIVSGAGEENKIEARVNQIKTQISETTSEYDKEKLQERLAKLSGGVAVIKVGAATETELKEKKLRIEDALNATRAAVEEGIVPGGGTALVEILKEMEDFKLEGEEGVGVEIIKRALTAPLRQIAENAGLDGGVVVEKVKNSEKGIGFDAAKEEYIDMLKAGIIDPAKVTRSALQNSASVAALILTTEVVVAEKKEKKDDLGAGMSGGMPGGMPMM;locus_tag=LOCUS_14510;gene=groL;note=WP_011016573.1 chaperonin GroEL (Fusobacterium nucleatum) [pid:76.5%25%2C q_cov:97.6%25%2C s_cov:98.5%25%2C Eval:7.9e-229],MGA_1458
sequence06	MetaGeneAnnotator	CDS	50422	50691	.	-	0	ID=MGA_1459;product=molecular chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902067.1;translation=MTIKPLGERVLVKPVELEEKTASGLILPSSSSKEKPTTGEVIALGKGEKLEDLKIKDKVVYSKYAGTEIKDGEEKYLLLNIDDILAIVE;locus_tag=LOCUS_14520;note=WP_005902067.1 molecular chaperone GroES (Fusobacterium nucleatum) [pid:58.4%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:4.8e-24],MGA_1459
sequence06	MetaGeneAnnotator	CDS	50881	52002	.	+	0	ID=MGA_1460;product=type III PLP-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082424.1;translation=MKLTENILNFSKSQDEPFFIFDTNIIKENYNLLKENINYSKIYYAVKANSHERIIKTLISLNSCFDVASIGELDLVLNLGSSPENISFGNTIKKEKHIKYAYDKGVRLFVADEFDEVKKISRVAPNSKLFIRIEMSDSDSDWPLTKKFGTNIEKAKDLLRYGKKLNLIPYGVSFHVGSQCYDKYMWKKALLEVFDIFETLKYEDIHLKFINTGGGMPVQHLREIPKIKDICHIINDTISEYFSNYSDLIVAVEPGRSMVGNSAILCSNVILVSQKEKNEWVYIDTGIFHSLMEAIEGFQYEIVCPFNKGKEKLYTLSGPTCDSVDTLYEEIHLPNDIKINDKIFFINAGAYTTGYASKFNGILPPKIFFIDEI;locus_tag=LOCUS_14530;note=WP_004082424.1 type III PLP-dependent enzyme (Thermotoga) [pid:47.6%25%2C q_cov:95.7%25%2C s_cov:92.3%25%2C Eval:2.1e-91],MGA_1460
sequence06	MetaGeneAnnotator	CDS	52038	52307	.	-	0	ID=MGA_1461;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903282.1;translation=MVKLRLTRLGRKKAPFYRIAAMEALSKRDGKAIAYLGSYNPLVEENGVVLNEEEIIKFLKNGAQPTRTVKSILVKSGVWAKFEEAKKGN;locus_tag=LOCUS_14540;gene=rpsP;note=WP_005903282.1 30S ribosomal protein S16 (Fusobacterium nucleatum) [pid:77.0%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:7.6e-30],MGA_1461
sequence06	MetaGeneAnnotator	CDS	52353	53675	.	-	0	ID=MGA_1462;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903281.1;translation=MLDNLGNRFQEIFKKVRGNGVLNESNIKDALKEVRLALLEADVNYKVVKEFVGKVKEKAVGETVLKGINPAQQFIKIVHDELVELLGGTNARLTKANKPPTIIMLAGLQGAGKTTFAAKLAKFLKKKGEKPYLVGADIYRPAAMKQLQVLGESIGVGVFTIEGSQDAVKICEEGITKSKEEHATYIILDTAGRLHIDENLMDELKEIKKMARPQEILLVVDAMTGQDAVNVASKFNETLNIDGVVVTKLDGDARGGAALSIKAVSGKPIKFIGVGEKLEDIELFHPDRLASRILGMGDVVSLVEKAQEAIDEDEAKRLEEKIKKQEFDLEDFLKQLQNIKKLGPISNLLKMIPGANQIGDLAPAEKEMKKVEAIIQSMTKEERSKPKIINASRKKRIAKGSGTNVHEVNKLLQQFEQMKKMMKMFSGGSMPKIPGMKFPF;locus_tag=LOCUS_14550;gene=ffh;note=WP_005903281.1 signal recognition particle protein (Fusobacterium nucleatum) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-169],MGA_1462
sequence06	MetaGeneAnnotator	CDS	53689	54006	.	-	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903280.1;translation=MELKEFMETSLLLSYYKNLLSNRQKEYMLKHFEEDYSLSEIAKEYAVSRQAVYDNIKRGIKILEDYEKKLGFFHRDKKILSILRKIDKKYKIDEIKKIIELLEAQ;locus_tag=LOCUS_14560;note=WP_005903280.1 hypothetical protein (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:75.2%25%2C s_cov:76.7%25%2C Eval:1.0e-18],MGA_1463
sequence06	MetaGeneAnnotator	CDS	54066	54740	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWQNFFDNPKKNYNPYMEKLKDYPKYIMYDKNEINNKKNKWKDYFENKNPIYLEIGSGNGNFTVKNAENHKNKNFIGIELKFKRLVLSAIKAKKRNLNNILFIRRWGQEIPEFIGEKEISGMYINFPDPWDGREKNRIIQESLFTDIIDKIMIEGGKIFFKTDHEGYYKDTLELLKSVKGYKVIYNTDDLHNDEKGIENIRTEFEELFTKKGIKTKYIEIEKLN;locus_tag=LOCUS_14570;note=WP_011015702.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Fusobacterium nucleatum) [pid:56.2%25%2C q_cov:99.6%25%2C s_cov:34.8%25%2C Eval:3.6e-70%2C partial hit],internal stop codon at [54789:54791](-)%2C[54798:54800](-)%2C[54804:54806](-),MGA_1464
sequence06	MetaGeneAnnotator	CDS	54804	55997	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNIFLMIIYAIGMLFKRHRIFFLKRFNFNLKEDKEYIWLHCASVGETNLIKPFINKILNETNENILLTVITETGYENAKKKYTDTRIKLEYFPLDNPFVLNKIFKQMKIKKVFLIETEIWKNFINIAYKNNVKIYLINGRISDKSYKIYLKFKFILKKIFDKIDLFCMQSNIDRERIIKLGAKKEKVVNTGNLKFSIELEQYDKKELNEIKEMYKIENKKVFVAGSTRDGEEEILLNIFDKLENTILFIVPRHLERVEKIKELIKNRNYSLYSKKENKNVDIVIIDKIGVLRKFYALSDISFVGGTLVNIGGHSLLEPLGYNKTPIFGKYLQNVKYISEKILNYNIGYKVESEKDFLESIKKIEMQDKKDVAKKIKDFFNENTEALNKVFNLTIK;locus_tag=LOCUS_14580;note=WP_011015702.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:96.5%25%2C s_cov:61.2%25%2C Eval:2.0e-98%2C partial hit],internal stop codon at [54789:54791](-)%2C[54798:54800](-)%2C[54804:54806](-),MGA_1465
sequence06	MetaGeneAnnotator	CDS	55994	56854	.	-	0	ID=MGA_1466;product=S-adenosylmethionine uptake transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596540.1;translation=MNVDKIKGYGYILLSVIFFYLMSISVKLITKNGNIPGVEVSFFRFLIGMIIVWGNKIRYNQNIKPVNKKAVYARAFLNTFAVILFFVTIQLTTTTKANIYNMTYPIFVAIFAPIFLKNETFNLKKIFAVILAFYGTYLISGIQLNSFEIADVLGILMGVVAGLAIVSLRAARLTDKPSTILFYLMNIGTLVTLIMFFYMFKMPNLKELLLLLIMGILSFLGQYTITKGYKYVSAVEGSVLSATRIFIASIMGIIFLNEANNFTIFLGGTLIFIAILILNLNKVEEK;locus_tag=LOCUS_14590;note=WP_004596540.1 S-adenosylmethionine uptake transporter (Rickettsia prowazekii) [pid:19.1%25%2C q_cov:88.5%25%2C s_cov:85.4%25%2C Eval:2.2e-07],MGA_1466
sequence06	MetaGeneAnnotator	CDS	56966	57241	.	-	0	ID=MGA_1467;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901839.1;translation=MTKKELIEIYAENAELGKKEATKQVEGFLEAVQTALIDKGAVQFVGWGTFEVKQTKERIGRNPQTGEAMTIPARKVVKFKVGKKLAEKVNE;locus_tag=LOCUS_14600;note=WP_005901839.1 HU family DNA-binding protein (Fusobacterium nucleatum) [pid:49.4%25%2C q_cov:97.8%25%2C s_cov:87.3%25%2C Eval:1.3e-18],MGA_1467
sequence06	MetaGeneAnnotator	CDS	57311	58333	.	-	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKKFYILGSVIIFLFTSFFIYNYNIMKKEKERIQMENKEIESFKISLSFLNNNNLIKINKIIETDKLELDVEFYDDNEQKFNELLQSKLFTIDKKDNKILFKNNKNELKIVINTHMLERIKMAIIIDDVGNNLRYINDFKEIDKPLTFAIIPFLSKSKESNEKLKELGYETILHMPMEGSLKNLNDRTKGLVYKNMSNELIREKFNEALKNVGEVSGFNNHMGSVFTASNDKMKVILDEAKSKGLFYFDSRTTSKSKGYKLAKEMGIKTNYCMHFLDNDKNIEAIKKEIKKAIEITKKRKKAAFIAHYHPNVAKAIKESINEIEKENIKMVSLDEVLN;locus_tag=LOCUS_14610;note=WP_010942413.1 divergent polysaccharide deacetylase family protein (Geobacter sulfurreducens) [pid:33.3%25%2C q_cov:63.5%25%2C s_cov:68.8%25%2C Eval:1.8e-25%2C partial hit],MGA_1468
sequence06	MetaGeneAnnotator	CDS	58346	58999	.	-	0	ID=MGA_1469;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015703.1;translation=MKRYVLAIDGPAGSGKSTVSKLVAKKLDGFVYLDTGAMYRMITYKCLENNIQVEEIEKIKKILEETNFDIKEDKFFLDNKDVSFDIRTKEVTSNVSKYAAVKIIREKLVDIQRKISEGKKIVIDGRDIGTVVFPDAELKIFLVASPEERANRRVKDYESKGIKADYNETLKEIIKRDKLDSEREESPLKKAEDAIELDTSKLTIDEVVEKILSYMKI;locus_tag=LOCUS_14620;gene=cmk;EC_number=2.7.4.25;note=WP_011015703.1 (d)CMP kinase (Fusobacterium nucleatum) [pid:54.0%25%2C q_cov:97.2%25%2C s_cov:96.3%25%2C Eval:9.1e-60],MGA_1469
sequence06	MetaGeneAnnotator	CDS	59021	59953	.	-	0	ID=MGA_1470;product=50S ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029493681.1;translation=MKLVELKVTYEAENYEKAKEEIINFLYEFGIQGVKIDEPFEKNPLDYYSNEKQFLLDTYAISVYFPKNFYFEKKKKLIIESFNEKFSKREDLIYNLEFYELDDEDYLENWKKYLYPEKISEHFVVKPTWRKYNASENEKIIELDPGRAFGTGSHPTTYLCVQLMEKYIDENVNVIDVGTGSGILMIVAKMLGSKEVWGIDIDEDAVEAAKENLELNNIKIDETIKVIHGDLLGKVEEKKFDVVVANILPDVLILLLDSISKVLKENGIIILSGIIKDKEQDILNAIKNQNLKVIDKNESKDWIAFTVKSV;locus_tag=LOCUS_14630;gene=prmA;note=WP_029493681.1 50S ribosomal protein L11 methyltransferase (Fusobacterium hwasookii) [pid:52.1%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.8e-90],MGA_1470
sequence06	MetaGeneAnnotator	CDS	59962	60711	.	-	0	ID=MGA_1471;product=5'/3'-nucleotidase SurE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140447.1;translation=MNILISNDDGIYAEGIKILKNFLEKAGHKIYVTAPLDEQSGAGHGITLHSPLRIKEIERDGKFFGYGINGKPADCVKIGLLKLFKDKSIDLVISGINKGTNLGTDIFYSGTFGAAAEGSLLGVKSIALSLCDILDNNHFETAANFIVKYCDKIKNIKFPKDTLLNINVPNIVNEDIKGYVYTKQGDRRYLDNIIERIDTQGNKYYWLGGKASEKGEDLEIDFVAVKQGFISITPIKLDMYSDELKKILD;locus_tag=LOCUS_14640;gene=surE;EC_number=3.1.3.6;note=WP_011140447.1 5'/3'-nucleotidase SurE (Gloeobacter violaceus) [pid:44.0%25%2C q_cov:96.0%25%2C s_cov:90.9%25%2C Eval:2.9e-50],MGA_1471
sequence06	MetaGeneAnnotator	CDS	60708	61139	.	-	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKCIRCGKEIDVISQDPDKVFYCKSCSLKLMNLSEKDLEFENDENNQETPNFFKIALNIFSTIFPGVNKLLKGEIIKGFNYLISGIFIPLIWIVLFVYINIFEIKEEIKLIYISFGFIILFNTLLIYIENFLEIWIRKEESN;locus_tag=LOCUS_14650;note=MGA_1472
sequence06	MetaGeneAnnotator	CDS	61152	61283	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSKFEIGNDNIRLNGVELILDDNKNVKEFNRIDVSLEELDFI;locus_tag=LOCUS_14660;note=MGA_1473
sequence06	MetaGeneAnnotator	CDS	61289	61939	.	-	0	ID=MGA_1474;product=TIGR00282 family metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904102.1;translation=MKILIIGDIIGKPGRKILYEFLERKKEEYDFIIVNGENSAAGFGITTKIADEFFEYGIDVITSGNHIWDKKEIYKYLDENNALLRPLNYPKSVPGSGYIIKESKNGEKIAVVNLQGRVFMPLVDSPFEVIENILNEIKKETDIIIVDFHAEATSEKVALGWFLDGKVKAIYGTHTHIQTADNRILSEGTAYITDIGMTGSHDSIIGMTIESVLPKF;locus_tag=LOCUS_14670;note=WP_005904102.1 TIGR00282 family metallophosphoesterase (Fusobacterium nucleatum) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:82.1%25%2C Eval:1.5e-78],frameshifted%2C insertion/deletion at around 61291,MGA_1474
sequence06	MetaGeneAnnotator	CDS	62005	63570	.	-	0	ID=MGA_1475;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627077.1;translation=MNIVLLASATILVAGIFLALYYKKKNIDSRLEQLKGKIKELENAKIEAEDIVETAKKKAQDIKRETEIKTKEKIYKMKEEAEKEIKAAKIEIDKKEQRIIRKEENVDNKLEKIETKEKHLEEKSRELNVKIEEIEKLKEKQELELERVAELSKQEAKEILLDKIKEELTHETAVVIREYENKLEDNKERISKRILSTAISKAASEYVVDATISVVQLPNEEMKGRIIGREGRNIRAIEALTGVDVIIDDTPEAVVVSSFDGVRREIAKLALEKLVQDGRIHPAKIEESVDKATKEVNQAIVEAGEQALFELGITDMHPEIIKTLGRLKYRTSYGQNVLVHSIEVANLASTLAAELGCNVELAKRSGLLHDIGKALDHDIEGSHAIIGAEFLKKFGEKENVYNGAAAHHGEEEFTCVESVLVQAADAISASRPGARRETLSTYLKRLENLEEIATSFEGVESSYAIQAGREIRIIVNAEEINDDKATIMSREVAKKIEERMQYPGQIKVTVVRETRAVEYAK;locus_tag=LOCUS_14680;gene=rny;note=WP_201627077.1 ribonuclease Y (Fusobacterium canifelinum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-179],MGA_1475
sequence06	MetaGeneAnnotator	CDS	63591	64673	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNPKKISLIIIYFTLVINIFSANIYEEYKNAKEYYNQKDYKKAMYSLELVLNEVPDYEDAKLLYFKINYELNNSEKVSKLFKELITTDDDVRVKLFNYLMLNNETTALLQIYDTLENKEALENIFLEYLYLNKEYNIILNKYPSIEYVKRIEKDKQKADNYYYEAISLLKNNSTNEAMVLMKKAIETYPENYIYYYKIGKVYADNKNFVLAEYNFNKALEYNDSEEIKLSLLKLYYDQKKYDKVYEMSRTISHLPEVRKILKSIYYDQKDNYKRVRIITRWNTQVTIDRRIIPNATLGDTYILSSVLPSVFDNRTGEKLATRTLPVARVRISRLDQKLATFEIIEEYTVIEVDQEYIIN;locus_tag=LOCUS_14690;note=MGA_1476
sequence06	MetaGeneAnnotator	CDS	64704	65048	.	-	0	ID=MGA_1477;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903963.1;translation=MVTNFEILEEKIGDTVILRVKGELDALVAPQLKDKLIKLTENGVKKIIIDFKELVHINSLAMGILRGRLKEIREKDGDLKLVNLNTHISTIFEMVGLDELFDIYNNENEALESF;locus_tag=LOCUS_14700;note=WP_005903963.1 STAS domain-containing protein (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:3.3e-33],MGA_1477
sequence06	MetaGeneAnnotator	CDS	65061	65447	.	-	0	ID=MGA_1478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNFFLKVEAKYELLSKIRNAVKNFLINNKIDEKNIFQLISIIDELCTNVVEHAYFSKDDKRELELKLKIKDGKIFIIVEDFGSGFKGEGHSKEEGGMGLNIVRGLVDSLEIIVKKRGTRIEALKKL;locus_tag=LOCUS_14710;note=MGA_1478
sequence06	MetaGeneAnnotator	CDS	65454	65957	.	-	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIFIITLFIISCSNLEKKQEMPVYEKKFYYYYENWDLKNAKEMLKYIKEGKKQDYLRQKLKYKLKKEQDLRELLSNIKQELKDSKYNLLKESTLDTLENELIIKNMKKYNITKAKIYFGKIKFGRDITKVPLIISYFDDSFYFEINSKLVNEKWVFISFSERG;locus_tag=LOCUS_14720;note=MGA_1479
sequence06	MetaGeneAnnotator	CDS	66017	66913	.	-	0	ID=MGA_1480;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903969.1;translation=MNKGIVIAGPTGVGKTSLSIKLAKKIDADIISSDSMQVYKYMDIGTAKITKNEMEGVKHYLIDEIEPTHKYSVGEYYNRVNEVLSNLNGKNVILAGGTGLYIRSITEGLSSLPESNLEIRKELLKYTLEELCEKLKKIDIEAYKAIDLKNRIRVERALEVCLITNEKYSKLRNKNIKNNNYTFIKIGLKRDREILYNRINKRVDIMFNEGLLNEAKFLYENYKKGIENIKAIGYKELFLYFEGKITLNEAKEIIKRETRRYAKRQFTWFNKEKDIIWFDLDKQAEEEIIENILEIFNV;locus_tag=LOCUS_14730;gene=miaA;EC_number=2.5.1.75;note=WP_005903969.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Fusobacterium nucleatum) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:1.6e-80],MGA_1480
sequence06	MetaGeneAnnotator	CDS	67001	68281	.	-	0	ID=MGA_1481;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015918.1;translation=MFIDEAIITVKAGKGGDGAATFRREKHVQFGGPDGGDGGDGGSIIFIADNNINTLIDFKYQKLFKAEDGKNGAKKKMYGKTGEDLVIKVPVGTMVRDIETGKLLLDLNKEGEKRVLLKGGKGGLGNIHFKSSIRKAPTLAGKGREGKELKIKLELKLLADVALVGYPSVGKSSLINKVSAAKSKVANYHFTTLAPKLGVVKHHDKSFVIADIPGLIEGAHEGVGLGDKFLKHIERCKMIYHIVDAAGLEGRDPIDDFEKINNELQKFSEKLSKKSQIVLANKMDMIYDDEKYEKFKKYIEKKGLKLFPVSVLLNDGLKEVLDETLVMLEKIEREPLEEEVEVENVIAEIEKDKKDWEVTIDENGTFEVTGKIIDNILNTYVFNGDAGIVSFIRMLKNLGLEKELKKHGIEDGDVIRIEGFEFEYVE;locus_tag=LOCUS_14740;gene=obgE;note=WP_011015918.1 GTPase ObgE (Fusobacterium nucleatum) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-142],MGA_1481
sequence06	MetaGeneAnnotator	CDS	68467	68748	.	-	0	ID=MGA_1482;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902873.1;translation=MLMINLQLFASKKGAGSTKNGRDSNPKYLGVKRYDGQFVKAGNIIVRQRGNKFYAGTNMGQGKDFTLFALVDGFVKFERLGRDRKQVSVYPAE;locus_tag=LOCUS_14750;gene=rpmA;note=WP_005902873.1 50S ribosomal protein L27 (Fusobacterium) [pid:75.0%25%2C q_cov:94.6%25%2C s_cov:93.6%25%2C Eval:3.6e-35],MGA_1482
sequence06	MetaGeneAnnotator	CDS	68748	69098	.	-	0	ID=MGA_1483;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016913.1;translation=MTKFTIVRKNYKIIGFYGEGHSGYANSGEDIVCSAISAISQQSAIGITEYLKIPAAIKIDEDTGYLKLDISSIKIQKKVIQHRKEIDAILESMCIMLKEIEKQYPKFLKVVEKEAN;locus_tag=LOCUS_14760;note=WP_011016913.1 ribosomal-processing cysteine protease Prp (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:98.3%25%2C s_cov:98.2%25%2C Eval:5.3e-15],MGA_1483
sequence06	MetaGeneAnnotator	CDS	69098	69409	.	-	0	ID=MGA_1484;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896540.1;translation=MYAVIKTGGKQYKVAAGDKIRVEKINAELNQEVELNEVLLVANEGEIKVGKPFVEGAKVVATVVAQGKGKKVINFKYKPKKASARKMGHRQLFTQLEIKSIEA;locus_tag=LOCUS_14770;gene=rplU;note=WP_005896540.1 50S ribosomal protein L21 (Fusobacterium) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-30],MGA_1484
sequence06	MetaGeneAnnotator	CDS	69535	69981	.	-	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREYMHEILINNSYFFLYLIGIEFFLDKKKLFLNKKEIILFIGTPIFYKLLSNNTEINFSIYFLLFLILAIFIKYKIDFLTLPFLMLPFLLVENNTFFKLTTLILVYIIISFFIKEIIKEIKTKYKKNSYEEIYLIIFAIISIIIAYL;locus_tag=LOCUS_14780;note=MGA_1485
sequence06	MetaGeneAnnotator	CDS	69978	70430	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIFSEYAVMLIVMGSVNLETSLDAVLGFLILYIFNLLLIKIFKDEYKVKLILSIFICILVEILKTIYIFSLDKNILIFSLISLLYSFKFSEKNVLKNILIIIFLSFFRKNLEMFFGMKYVENAGIGIIFFLIIRQIIENFLFFKKENET;locus_tag=LOCUS_14790;note=MGA_1486
sequence06	MetaGeneAnnotator	CDS	70440	71768	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLKISIAPFIRTKYSYKNMLNDRFITLIPFIIIKIFYFKEQFVYSYILVFTIYFMFSLFIKKYLKKEVFDINMILNQTTILMLILPQNLSIKYYLLSGIMLSFFDYLIGNLLNPVILVKLFFSIFLLNVNKINLMLFKYNIDNFRIKKNLFLGIFNDKEFGVILLILAIFYLKIKNNIKIRIPLITIIVTYVLFALKGYDSDLIIMSGPLLFSLVYLAADTIYSPYTKIGKIYYAVFIAILNFYLFYYTQNTDSIFIAILISNLLVPFFEENSTPISFGEKINYKKILKILLLFLMISIPIFSKVNSSDLNKIFETTVYIDRNDKIEGEVIYYSVKDIFGDKIGYITKVKYKENELLVGISLYKKIYNVIIQNENKKEILNEYKLVDKNKLFLRVLKNKENKTIDKIMLKILKDFEKYTYMYKKDLKKDIENAGATKYIE;locus_tag=LOCUS_14800;note=MGA_1487
sequence06	MetaGeneAnnotator	CDS	71761	73029	.	-	0	ID=MGA_1488;product=electron transport complex subunit RsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948145.1;translation=MKNFLELHYWKKEKDEIEIEHFFDVEEVLIPLDFKEKYTIYKQKNDYIHMGEVVAKDINNFPIFSSVAGTFIEIIEKNYKKDKKIKYIKIKVDIKNKKNNFKKRKNYENLTKKEFLKILKDYGIIDFNKKNTPVYKKFMKLKDDKIKHFIINGLETEPYLNGNNIVIYEKIKELKIIINFIIKLFKLENIIIIIENNKELSNFFKIHFDKSVIIKRVPKLYPLHKENLLIKYLFKKKYSRDLTKHKILMLNILCVLDIYNAVVENKPVIEKIVSVNGKGIEKPSILLVPIGMKIKDILEYCFYYNNKCKQIVINSLMDGEAIYNIELPVLRETKAIIALDEKETEKIKSYKCINCGRCVEVCPMNLVPLKFLDLSVKDVESIKKYNFDKCISCGSCQYICPTNQPLRETIYYLKKKLEEIDE;locus_tag=LOCUS_14810;gene=rsxC;note=WP_011948145.1 electron transport complex subunit RsxC (Clostridium botulinum) [pid:26.0%25%2C q_cov:88.4%25%2C s_cov:86.8%25%2C Eval:1.1e-35],MGA_1488
sequence06	MetaGeneAnnotator	CDS	73150	74001	.	+	0	ID=MGA_1489;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000877935.1;translation=MKYNLLGNSDLNVSKIGFGCWATSKHGWKDVNLNDAIKTLETSFEYGINFFDTAPIYGFGKSEEILGQVFNSVRNKIIIATKFGLRWNEFGKVIHDLSRDSIMYEIEASLKRLRTNYIDLYQIHWPDNKTDILEVINTLEELKSQKIIKHIGVSNLNIDDLKKISSFIVSTQNKYNLLEKNVESNILPFCNKKNIGFIAYSPLAQGLLSGKIDSSYKFSKNDIRRFNPLFKDKELFNKIDKINKPLINSALKFLLEKKDVSSILISMTKLNHLKENIKIAESI;locus_tag=LOCUS_14820;note=WP_000877935.1 aldo/keto reductase (Bacillus cereus group) [pid:34.4%25%2C q_cov:99.3%25%2C s_cov:94.5%25%2C Eval:4.5e-45],MGA_1489
sequence06	MetaGeneAnnotator	CDS	74511	76685	.	+	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTNFKIVLIYFIFSFLWVIYSDKFILVLTKDPIILTHIQTYKGSFFIFLSTFLIYLLIYFETKQKEKLNIENLKNKNLMNNIINNTSSFIFIKNLNGEYILTNKKYQNILENPKNFFNNEVLSQIYTTDEEIKVKKKKISVEIPINNKIFLINKFPIFDKFGNIEYIGGIGTDITTIKKNQLNNEIKSLVFENSSKGIVIFNKNGDILETNNSFKNLFPVKSNLKSINDFKEFFYDKNEFFYLINAKNNILREFWMKKKDGTLFSTWINFVPINYNNFIIFIEDISQDKTDNFKNKEVYNIDRLTGLPNRFLFRDRLSQTIINSKINNFKFALIYLDIDNFNSINTYYNFSIGDKLLKEITNRISTIIEPNYTFSRISGDEFGIIVPNFSSITELNNFLEKIQNSFNKNFYINNNEINISISLGISIYPDNGLNIDTLEKNSIFALRYVKNNGKNGVHYFTETLNKKHIERIEISNHLKNALKFNELELYYQPQVNISTGQIIGVESLIRWKHSTKGFIPPVIFIPIAEENGMIHQIGEWVINTSLNSLKEWNTLFNKKIEISINLSPLQFRKDNIVNSIYKKVKKLNLDPKYITFEITEGILIEDIDKANQIINKFKNYGFNIALDDFGTGYSSLNYLRLFKIDKLKIDRIFIADYPEKDEGKLLELIINLGKYLNFEIIAEGVETPEQYNFIKNKKVDTIQGYYFYKPMQKYKIEELLKK;locus_tag=LOCUS_14830;note=WP_011105092.1 EAL domain-containing protein (Pseudomonas syringae group genomosp. 3) [pid:30.7%25%2C q_cov:79.6%25%2C s_cov:45.9%25%2C Eval:3.4e-89%2C partial hit],MGA_1490
sequence06	MetaGeneAnnotator	CDS	76911	78512	.	+	0	ID=MGA_1491;product=Na/Pi cotransporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627741.1;translation=MLLLSILLNSLSGLGVFLYGMRIMSKSIQEASNKKLKNFIAKSTNNPFSALFLGITITLITQSSSITTVMVVGFVDATLMTLKQAIGIILGANIGTTITGWILALKIGKYGFILFGSFAIIFLFSKNYKLKNIAKIFMAFGLIFIGLEYMKESIIPIKNSPNFIKLFQLFNTNNFSGIIFSVFLGAFLTAILQASAATIGVTIALASQNLITPYTAIALVLGENIGTTITAYLASLGASKNAKSTAYAHILIKIIGVTIIIPLFYVYSNFINYISPFSNGIKYIPLAHTIFNVTNSLIFIPFIPKFILLLNKFIKIDKNEQKSKIIHKKLFESPFIILEKSNIQLKKMNKLFLNSLNNYNSLLNNKDLKSLNIILKNEKKLDSFEEKQNLLLTSFVNYNPYNNSIIDIQYYLKLSNILESMGDYIASLGKITKKAYDNKIYFSESQIHKINSIHKKIEKVAFKISILFENNKNKELIIECKYIINKNNKILNDNIKISKKNSIDFIYSEILAKYRRINRHLLYIAEILENYTT;locus_tag=LOCUS_14840;note=WP_201627741.1 Na/Pi cotransporter family protein (Fusobacterium canifelinum) [pid:38.7%25%2C q_cov:84.2%25%2C s_cov:84.0%25%2C Eval:1.5e-83],MGA_1491
sequence06	MetaGeneAnnotator	CDS	78530	80554	.	-	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILLLLLFSGCFSVKKQNFDKFVPKNSKKGDGYIFENNLSHKIEYKNNNIYIIFKTKKNDIENVYLITDNQKLKLKYLSSDRLNDYYYINLEKSIEYYFEIIDGNLIRFYDKTGIKKENNNIEKFKLEKNIQENNLKILGDVIYKLEIDSFYNGDRRNDPKYNAKGNFYNEKFNVTDFEENIDNIREIDNIIYGGDLIGVNKKRNYFKGLNIDTVELSSPFISFSADKSDVIDYRYISPNYFDINDFKNIDFEKNIYTNSDKDFIKLINDFYENNINIIIDVNLNYVSEYFFAFLDVVENGKDSKYFDWFYIYEIKKGFKKIDKDLTGEIKKERIISNIKNMKFKNTLGKPILNVQNEEVKKYLLTALKKWENSKLLGIRISGDKEIIAYLKENLNYKIILSDENTNYNFVINSLKFYKNKISKMEYLSNIIFNEFLDNKIDIISDEYTERVYSALINNNIYDNNNKSIKGDNFLEIRPDLILEDKINELKQIIFLQMWLGKNLDIYYGDEKGMWGGDIPRNRKAMLWEEEYIYLDESDDLFKYEKIKAKLNEKVIIDEVNKKIYYKVISNDKIFNYYKEIIKLKKELKNSLDTISKIINSNDKDIIILEKKDLKLVINKSSKEKKIILDVNKNSEIIFRNNLKNKEKLNIIDNKTELKLNKYDIVLIKTF;locus_tag=LOCUS_14850;note=WP_011262518.1 glycoside hydrolase family 13 protein (Aliivibrio fischeri) [pid:26.4%25%2C q_cov:27.0%25%2C s_cov:25.7%25%2C Eval:2.0e-11%2C partial hit],MGA_1492
sequence06	MetaGeneAnnotator	CDS	80606	81412	.	-	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVSKILLALSILSLSACSVIETKTNNTQGQSLFFYKDKVNDDNGYGNYKYPTDKKYTLKSLDINSIEITENKKEYNFIITVGSFINNYSNNDFGWEAQMFDIYLNFNENKYYNTIYGRNLKIKDKWDKVIVVAPLRNVDFKTKFIKENTDVKDDTTGYENITEGLIYPDNVDVQGNKFIVSVSKDKISFNKLKGIQVFSMGFDTSSNGTFNTKVDEFVGLNSFGGGTDYNGDSNVIDILGDNSLMKNYVSEEGKEEFAEIELIKVK;locus_tag=LOCUS_14860;note=MGA_1493
sequence06	MetaGeneAnnotator	CDS	81482	82081	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIILDNQKINLVKIDNFKSILSQISKILSEQNRIINEIIVDGMNVRENAEVDITKILTIEINSKKTKILLIETVNEMEVFLKKFIKNLYNIDLANNIEEELDKYLKDNIDGLEWIFNVFSSVLNLSNISFRELGIEETYLKFEDIFNTFLEYVEKGKKKQLLIFFKFQLKEFLIEIQEKTPIIMEYLISEEKLDRIKA;locus_tag=LOCUS_14870;note=MGA_1494
sequence06	MetaGeneAnnotator	CDS	82092	84191	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIQLTGLASGMDTNSMVKKLVEVEKKPIETKKKEISKLEEQKKEWADIEKKINAVKIAAQTLNTSSKFNNKETSVSDETLVSAEAATNVKNGVYVIEDIHLAKPAQVSSREGLPLKEGRNSTIISSRTGIKNPNDKFLDVFFSFINKTDYSNIGFKINGVDINVTPEDTVGLFLNKINQSNAGVKAMYDSKRRRIIFESKDETSAIKIEAKDRGFLRELGLDQYNGKEIKNGVKPESFKLLKDSDYFNDVKNGYFTINGYTFNVDPTRDSLKSIISKVNNSGANVKAVYDEGSKKISFISTIPGEDMIIENDNSGLLKKLKVMQQTKSGRDKVRSLFKGQKASFKMDGVTYERNSNSIELEGLKINLKNETKDGEKVTIKVDYNTDAALEEIANLLYSYNQVVDIIEEKTKKDGILQGDTTATSLLVNLRNKMTASVNGIEDKYNQLALIGVETDAKSGKLTINESKLRQAIAEKPLEIKKLFTQKANDAKPVDLGIGNGSKTVFDPTEPLPGEIEDIRVVVGDKSYSLDNQKNPIIKKSELYKYTVSRLDLIKYIINGDVKTKDEALAKLGKKLPPNAVIIDDVTGKIEFGTPPKKGEKIYVESKKVSTTKKIGTDEGISRRMEAFLAPYTRYGGTLKNRLKYYDERIDTINDWIDETNERITRKEDVYKAQFGSMEGALQNSKSLSSWLNGQIAGL;locus_tag=LOCUS_14880;note=WP_011392286.1 flagellar filament capping protein FliD (Moorella thermoacetica) [pid:22.5%25%2C q_cov:69.7%25%2C s_cov:85.4%25%2C Eval:1.6e-22%2C partial hit],MGA_1495
sequence06	MetaGeneAnnotator	CDS	84292	85377	.	-	0	ID=MGA_1496;product=two-component system response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011704392.1;translation=MDELLKNQKILIVDDTPENIDVLGGILNEYKRTFALNGKKVLEKVFSDNPPDLILLDVMMPEMDGYEVCKILKQDYRSKNIPIIFITAKTDVEDETYGFSLGAVDYINKPVNPEIVKARVKTHLMLKIANEKLEKQNKYLEKEVERRTEKIAQTEDLTIRTLASLAETRDNETGEHILRTQYYVKVLAEYLRDNFKYKELKDEKVIKYIFKSAPLHDIGKVGVPDKILLKPGKLTFEEFEEMKKHTIYGRDALLKADKALNGESFLHYAMEIAYTHHEKWDGTGYPRGLKGEEIPVSGRLMALADVYDALISKRIYKPAFSHEKAKEIILEGKGKHFDPDIVEAFIVLEEVFKTIAKKYKD;locus_tag=LOCUS_14890;note=WP_011704392.1 two-component system response regulator (Aeromonas hydrophila) [pid:55.9%25%2C q_cov:97.5%25%2C s_cov:88.5%25%2C Eval:3.1e-108],MGA_1496
sequence06	MetaGeneAnnotator	CDS	85383	90575	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLISLILFMINIYIVNGNEVSQLNIAIPVDTKPFSFINNNELDGIIVDFWNILGERNNLKINFIKTRFQDMKKIIKNEEIDGLAYYLYDKELAKNYIFSDIIYQLGINAYYLNKLDFDLKKDRIGILNNAFLKNYFIYSKKVKIYETAEEMIKDLKNEKIDGIILSDLEIKNVLDNFNNKLELKKLENFKLSLGYRILLKNKKLEEMIKKSLNELKISDIKSLKEKWKIDLDKIFFNKKEVEELKKSKKIDVLVKKDFPPYSFKNNFGEYDGMFIEIFEKIEKETPLKFYYLNSYTKKDEIELELDFDYSNNSNGIISSKMSMVVNENTNEINENTLKNKKIVIEKNNKKLKKIKELYKKNIDIKEVKNIYDALSLVNANKDYVYIGNNLTINNILKNNILKNIKIIKYDLIKYLNITIESNDKKLKELIEKLILNQSREFKEELLREYSLKNNIYFLLNEYEINNLKTVKTIKIGSLVKNIENNEYKIIKEYFEKLFSNIGIKYSIEDIHEGENIEKYDIIINSNKILNEENFFSKKVLYKDNPLFLVGNRYLVNNINLNNEKIAILKDYKIEKELKIKYPNLKIVLVNNIEEMLELVKKKEIDFFIIDKINYLEKIKNQNFKIELILEERYPIFYYISKKDKLLDSVLSKAVFSLEDEIKKEIYSNYELKNNNLSHQTDKYYILVIIFLSFFIFIFIIYLLIFNKKLILFQKEINELKNYERLLKFTPIGLILIDDEKIIHYLNDEFEKITGYYKEDLIGRFFREVIIDKNIFNVINEQLTIGFLSGEHKQEIDFLTAKGEKKWLKIHMKRVSNMYIAIYIFDITSEKEVEKETKYQIAIEKLFADISTHIVIYTRKNIDKEIRYGLEKLGEFIDVDRAYLFLFSKSKQHIYNHYEWRKKGIDSNIDILKGVFPFSYFMENFEKFRNIYITNINKMEKGIEKEYLLQANIKSLLCVPIRYGNELMGFVACDTVNKNKVWSKEDMSVLKIFGDIFANAIVRKEMEERLKEAKKKAELANKAKSSFLANMSHEIRTPMNAIIGITHLLMNTTLTRKQIDYVKKVEQASNNLLGIINDILDFSKIEASKLTLENTEFNINKILENISNILSIKLQNKKLEIIIEKHLDVPDYVVGDPTRVGQILLNLSNNAIKFTESGEVNIRIKKEKEYGEFLILKFEVEDTGIGIDEKYLNELFSPFTQEDTSITRKYGGTGLGLTISKRLVELMGGKIFVESEKNKGTKFTFTIRFLKSFRKKTDYVLPSINLEEIGVLLFEKNINIAKVLTMYLKRFRFKIDTAINDEEFFIYIKESNYKLIIIEYDLIKNISKKILKNIKNKNKELKILCLMNYNESLEYQKNNTLKIEVDDILLKPITESTIFDSIINIFEKFKKHNKIVKSTYIANGVNVLLAEDNEINQVVAKEILEKKGFMVDVVDNGKKVIEKVTENKYDIILMDLQMPIMDGIEATRELRLIGVDIPIIALTADAISGVKEKCIAAGMNGYISKPIVPEKMIKIISNWVGKDKILKIDDIDLEKNIKKEIEIDFKYLNYVEGIKRIGNLKLYKDILEKFIKNNFNTELELKREYNTNNFKNLSKLIHTLKGVSANISANKLSNICKEVESSIKEKNPNKLKENFEEFLEIYEKTYKEIENYLEKEKEKEDEKPKEKINNYEKLIKMLEEEDMDAVDYFESIDFGEFDKNEINLIKVLINNYEFDKALEKLKKILTISR;locus_tag=LOCUS_14900;note=WP_011071149.1 PAS domain S-box protein (Shewanella oneidensis) [pid:31.7%25%2C q_cov:43.2%25%2C s_cov:42.8%25%2C Eval:4.0e-113%2C partial hit],MGA_1497
sequence06	MetaGeneAnnotator	CDS	90711	92516	.	+	0	ID=MGA_1498;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016545.1;translation=MSNKIKNIAIIAHVDHGKTTLVDAMLKQSGIFRDNQKIEERVMDSNDLEKERGITIFSKNASIFYKDYKINIVDTPGHADFGGEVQRILKMADNVLLLVDAFEGAMPQTKYVLKKALEHGHRPIVVINKIDRPNSRPDEVVDMVFDLFVELNANEYQLDFPIIYASAKNGFAKHNLDDPDENLIPLFDTILENVDDPEGDINAPFQFLITNIYYDNYLGKIGTGRIYNGSVKLGEEVVLLKRDGERLLYRISKLIGYEGLNQVELKEAFAGDIISIAGLEKVDVGETIASKENPIPLPLIEIDEPTLAMTFMVNDSPFVGQDGKFLTSRQILARLEKEVQTNVSMKLEMTDSPDAFIVKGRGELQLSILIENMRREGYELQVSKPQVIFKELEGQKTEPIELATIDVADEYVGTIIEKMGLRKGEMINMVQGNDGYTRLEFKIPARGLIGFRNEFLTDTKGTGVLNQSFYEYEFYKGDIPTRTRGVLVATEPGVSVAYALFNIQERGTLFIEPGVDIYEGMIVGEHSRENDLIVNACKGKKLTNMRAAGSDENVKLAPPRKFSLEQALEYIEDDELLEITPINIRMRKKILKAGERKRSKR;locus_tag=LOCUS_14910;gene=typA;note=WP_011016545.1 translational GTPase TypA (Fusobacterium nucleatum) [pid:71.2%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:1.7e-259],MGA_1498
sequence06	MetaGeneAnnotator	CDS	92596	93900	.	+	0	ID=MGA_1499;product=PhoH family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942511.1;translation=MKKNFILDTNVLIHDPNAIYNFGDNRVIVPIYVIEEIDKLKRAEGEKGRNARVTARLLDTLRKNGNLNTGVKLNNNGTLIVETKGSLTSLPEFLREDKVDNRILSVAKEISDNKEQTILVTKDINMRIKADALKIPVEDYETDTIKIDELYSGLSKIEVDESLFNTINKSGKIKYNEILENEPYPNEFVNILNNNKSFLTKYNYTKKRLEKLSFSFNTPWSIKARNLEQKCAFELLLDKNIQIVTLVGKAGTGKTLLALASALEQTVEQKIYKKILVARPIIPMGKDIGYLPGSEQEKLKPWMQPIFDNFDYLSETKEDKSGEKVVEALQSMGLLKIEALTYIRGRTIPKGIIIIDEAQNLTPHEIKTIVTRAGEDTKLIFTGDPYQIDNPYLDSNSNGLTYLAEKFKNVDLAGHITLIKGERSKLAEIASKLL;locus_tag=LOCUS_14920;note=WP_010942511.1 PhoH family protein (Geobacter sulfurreducens) [pid:51.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-123],MGA_1499
sequence06	MetaGeneAnnotator	CDS	93977	95044	.	+	0	ID=MGA_1500;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966353.1;translation=MLTAFIMAGGSGQRFWPLSRNNKPKQLLKLISEKSMIRETVDRILPIIPAERIFIGTNIIQADSVKNELPFIPEENIIIEPLFKDTAAAIGYGTMIIDNKYKESEIIVLASDHLIKNEENFRKRLQSAAEEAKKGGIITLGIKPSRPETGYGYIETNGECYIGEPAPVKRFWEKPNLERAEEYVAAGNYLWNSGMFIFSSEVMLSSIEKYMPKHYSILCNIKNKICTGKYGLELSELVREDFEKFEKISIDFGVMEKSNNIKVIPVDFGWNDIGSFPALDEIFPCDENGNVVKNTHAININSKNNIIIGNNKKIIATLGVKDLVIVETDDALLVCDKNSAQQIKKLMPFLPKDNK;locus_tag=LOCUS_14930;note=WP_010966353.1 mannose-1-phosphate guanylyltransferase (Clostridium) [pid:41.9%25%2C q_cov:97.5%25%2C s_cov:98.3%25%2C Eval:1.3e-71],MGA_1500
sequence06	MetaGeneAnnotator	CDS	95217	99668	.	+	0	ID=MGA_1501;product=glutamate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964980.1;translation=MKRGIGIPEAQGLYSPLYEKDNCGIGLVANIKGIKSHDIVKNGIRVLEKIEHRGAVGADPTTGDGAGILLQLPHKFFTKVIDNLPEFSEYGVGMIFFPKNKNSRTMCKETIENIVKNEGFEIIAWREVPVNTKEVGKTAELTRPYIKQLFIKNNGSKNFELKLYILRKQIENAVKELEIEEKEYFYIPSMSSKTIVYKGLLLADQVHSFYLDLQDKDLESAIALVHQRYSTNTFPSWDLAQPFRYLAHNGEINTIKGNVNWMLSREPELFNDVIGEDIKKLFPINDPIKSDSANLDNALELLIASGKSLLDAASILVPMAWENNPDISEDLKAYFEYYSGLVEPWDGPAALAMTDGRYILGKLDRNGLRPARYIITHDDTIILASEAGTLEIEPKNIKSSNRLQPGKVLLIDTENGKIFDENEIENLLTKSKPFKKWLERKKSIDELPMPKLKNDYNKNEIIKKFRAFGYTREELKEVIANMAKNSKEPIGSMGNDAALAVLSNKSKNIFAYFKQLFAQVTNPPIDPIREEIVMSLTTNIGIHGNILIDKEENCDLIKLDTPILSNIQLAKIENLDSAEIIDICFDKNLSLEEGLNNLFENTKKIIKSGKKILILSDKNISKDKIAIPVLLATAGLHHYLIQNHLRNGIDLIIETGEAREVMHFALLIGYGALAINPYLALDSIKYLCETKQYLTNSNIDKKQEKYIKAIGKGLLKIMSKMGISTIQSYRGAQIFEALGLKNEFINKYFKGTPSRIEGVGIDVIEKETRIRHDYAFDNFLDKDDLLVNEGEYKWRKKGEKHLFSPEAVATLQYSTRIGNYEEYKKYSKIINEQSEALATIRGLFKLKKSTPISIEEVEPVENIMKRFVTGAMSFGSISREAHEALAIAMNTIGGKSNSGEGGEDPARFLDNRRSAIKQIASGRFGVTTHYLVNADELQIKMAQGAKPGEGGHLPGHKVSEEIASVRHTSPGIDLISPPPHHDIYSIEDLAQLIFDLKNVNPQARVSVKLVSEVGVGTVAAGVSKAHADMILISGYDGGTGAAPLSSIKHAGLPWELGLSEAHQVLILNNLRDRVRIQADGQLKTGRDVVIAALLGAEEFGFATAPLVVLGCVMMRSCHTNTCQVGVATQDPVLRKRFLGRSEYVINFFRFIAQEVREIMAELGFRTLDEMIGRTDLIEMNDAINHWKANGVDISKILYKPQVDSSIGTKCLRKQNHGIDSILDRELINLAKPALENGEKIIINKPIINMNRTTGTMLSGEVAKKYGSQGLPDDTITLNFKGVAGQSFAVFGMKGITYNLEGQGNDYIGKGLFGAKVIIKAPKEATFKPEDNIIGGNTILYGAIKGEAYFNGRVGERFCVRNSGAYAVVEGIGDHGCEYMTGGRAVILGTTGRNFGAGMSGGIAYVYDIDGKFESRLNKNMVIMEKVDDETSINELKSMIEKHYQYTNSNRAKEILENWDQSLQKFVKVLSPEYKALLLEGKVK;locus_tag=LOCUS_14940;gene=gltB;EC_number=1.4.1.13;note=WP_010964980.1 glutamate synthase large subunit (Clostridium) [pid:57.9%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_1501
sequence06	MetaGeneAnnotator	CDS	99671	101134	.	+	0	ID=MGA_1502;product=glutamate synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964981.1;translation=MGKLGGFLEFPREEAQKRPIEERIKDFKELYKPFTDEYLVKQAARCMDCGIPFCHFSCPVGNICPEWNDFAHKGEWEKALTILHSTNNFPEFTGRVCPAPCEGGCVLGINDKPVTIKNIELNIVEKGWENGWIKPMPPKNRTNKKVAVIGSGPAGLAAAQQLNRAGHNVTVYERDSKAGGILTYGIPDYKIEKYVVERRVNQIIEEGVKFIYNTNVGVDISVDELEKEYDAILLAGGSKLARDLPVYGRDLKGIHYAMDYLIQQNRLNAGETIPEKELITAKDKSVIIIGGGDTGADCVGTAIRQGAKTIYQIELLNKPPLDRPQDNPWPNFPQTLKINTAHEEAETCLGGKCELGEIRQWNILTKQFTGDENNNVKEFHAVRVEWITDENGKKVMKEVPNSEFKVEADLVLLAIGFVHPEHDGLINNLKIELDNRGNVKADTKNYQTSKEKIFAAGDMRRGQSLIVWAINEGREAAESINKFLSSK;locus_tag=LOCUS_14950;note=WP_010964981.1 glutamate synthase subunit beta (Clostridium) [pid:53.2%25%2C q_cov:99.4%25%2C s_cov:98.3%25%2C Eval:6.6e-155],MGA_1502
sequence06	MetaGeneAnnotator	CDS	101166	102038	.	-	0	ID=MGA_1503;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016546.1;translation=MKLEGIININKPKGITSFDVIRKLRKILKERRIGHTGTLDPLAEGVLVICVGKVTKLASLIEAKSKTYIAEFEFGYKTDTYDVTGNIIEKTENFIISKEKLINILKKFEGEIKQIPPMYSAIKVDGKKLYELAREGKEIERKARKIKIDYIKLLEFDAKKAKIECKVSKGTYIRSLIYDIGEELECFATMTSLIRTKVGKYNIKNSFTIEEIEGNFIKNNIDFLLRVEESFDFNNIEIKEKIKKNMLINGNKISYKGENGYYKIYFDNKFWGIGIIENNYLKPYKYFNIE;locus_tag=LOCUS_14960;gene=truB;EC_number=5.4.99.25;note=WP_011016546.1 tRNA pseudouridine(55) synthase TruB (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:8.1e-82],MGA_1503
sequence06	MetaGeneAnnotator	CDS	102170	103810	.	+	0	ID=MGA_1504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLDNLFKKEFDIIENNKKFLEDFFKNNNNISKEEISNSYNQLLKDYQKLLKQTLKLTALGDKFQKISLISEKEVQLLLDNSKQGFLFIDKNFIIQKKISKESLRIFNKNSITGLNILDLLSFKSEHAKETYINTLNSLFTSHPIKKRVYLSLLENNFIINKKHITIDYELTKILSDNTEVELLVFILTDITEQIKFRRRIQNEKRTILMLTSAISNSIELKNNINDYINFYHQILPEIISSYSFEESCSKIFIEIHNFKALFSQFYMFNTVKKLHHFESKLSYFMEHKLKFDIFPLIKNINHSKLFQKDKSIIEFYLGKNFFNENKYIEISEERIDLLINAVSKYCPSDNIKKEVYSLKYISLHKHFNNLKTFTYNSCKSNHKFISSFKIEGNDIMLSPKYYKNFLKTLIHLFRNIAEHAIESPEKRDLLKKTKGGNINIKTIKNKNLFSIIITDDGKGIDKKMLLKKLNSLSNGEFLKKKYSKNILEVIFEPSFSTNRTINYSAGRGVGITKVKEEIIKLNGSIKVESIINKGTRFIITLPYLE;locus_tag=LOCUS_14970;note=WP_048147076.1 chemotaxis protein CheA (Pyrococcus abyssi) [pid:30.4%25%2C q_cov:35.2%25%2C s_cov:25.2%25%2C Eval:5.1e-18%2C partial hit],MGA_1504
sequence06	MetaGeneAnnotator	CDS	103824	105248	.	+	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIKNYSLSTKLIFFLNILIMVSFLLFVILNFFYFKPRINKLSKDNEKILLLLEFKTESNINYIFDNMIFDNNNYLKFKNKLIFEKNKRLLNISNDFTETYSNIKLKKEEFFKFYYLTVFSLFMSFFIFIFILYNYINRNIFFNIKKIINDYNYNGNLKNEIIIIEEIINSYKKEIDNFNYKIKKLEKQIEFYNQDLDLRIEETALSLLKNNEKLNTNYKFIDSLRYAKKIQLSIFPEKNLLNKYFSSYFSIWKPLEIVSGDFYYAKEVNNILYFALIDCTGHGIPGAFLSIKVYQFLENILSNPYNEDTGQILTILHKKLRNILNKHESNLTDDGLEIAIFKYNPIINKLIFSNTKIPMYLLDNQNNVIEIYQKQPSLGYLKTPYNFNYSSQFIDLEEIKSIYLTTDGIIKQPNKNNNKRFSKKRFKELIKKYSLYSMHNQKNHFLSYFNNFFDEQRDDITIIGIDLKKGE;locus_tag=LOCUS_14980;note=WP_235045006.1 SpoIIE family protein phosphatase (Geobacter sulfurreducens) [pid:28.0%25%2C q_cov:61.8%25%2C s_cov:44.3%25%2C Eval:1.2e-31%2C partial hit],MGA_1505
sequence06	MetaGeneAnnotator	CDS	105252	105638	.	+	0	ID=MGA_1506;product=DUF1987 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000444620.1;translation=MEDLFIRATKYSPEIHFNISKSKLIIKGESYPENSFEFYTPLFTAIKNYFSDTSNNQLSLEIYLTYLNTSSSKCIMNIFDILELYHKKNNKDISLIWFYDEDNEEIVEIIEEFKEDVSYNFEIKKLEE;locus_tag=LOCUS_14990;note=WP_000444620.1 DUF1987 domain-containing protein (Leptospira) [pid:40.3%25%2C q_cov:96.9%25%2C s_cov:97.6%25%2C Eval:6.1e-19],MGA_1506
sequence06	MetaGeneAnnotator	CDS	105672	106976	.	-	0	ID=MGA_1507;product=NCS2 family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896779.1;translation=MENFLMNFFRIKEHHSSIKREVIGGFTTFITMAYIIFVNPNILSATGMDRGALITVTCLASFIGTIIAGLWVNVPFAMAPGMGLNAFFTYTLVIGNGASWQQALGVVFLSGIVFLLLTIIGIREKIVNAIPISLRLAVSAGIGLFITFIGLKGMGLIVGDPVTLVKLGKITTPLILGLTGLVIITVLEIKNIRGSLLIGILATTILGIMMKQVELPTAIISMPPAISPIVFKLDIKGALQISMLGAIFSFMFVDLFDSVGTIMACAHEAELVKEDGTIDKIGKILEADAIATVVGSLLGTSTTTTYVESSSGIAAGARTGLASVVTGLLFLLALIFTPIIGIVPVFATSPALVVVGVYMFKNVKNIDLKDFEVAVPSFITIVTMPLTYSISTGISLGFISYVIVTVAAGDINKIKPTMWIIALLSLLNFIVTGH;locus_tag=LOCUS_15000;note=WP_005896779.1 NCS2 family permease (Fusobacterium) [pid:57.6%25%2C q_cov:98.8%25%2C s_cov:99.8%25%2C Eval:8.8e-140],MGA_1507
sequence06	MetaGeneAnnotator	CDS	107206	108075	.	-	0	ID=MGA_1508;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016843.1;translation=MIKIIINEQYENSRIDKYIRKNYPKLKLGDIFKFLRSGKIKVNNKKVKQNYRLNIGDELSLYFIYENEEYKYYKLNEKEKQDIKNRIIYEDEEILIFFKNPKEVMHKGSGYEVGISEKLKSYLKNKNFSFVNRIDKDTSGLILGGKTLPKIRELTEIIRERNISKKYYLLVKGNINKNRFEIKNKLLNNGDKVVVDDNGKIAITKYRVIERYNSFTLLEAEILTGRKHQIRVQMQNIGHSIIGDKKYGGINDKYMYLNSYSISFDKIDIQTDIPNYFKKYINNKNIKHL;locus_tag=LOCUS_15010;note=WP_011016843.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:40.8%25%2C q_cov:94.8%25%2C s_cov:98.3%25%2C Eval:9.6e-59],MGA_1508
sequence06	MetaGeneAnnotator	CDS	108119	109231	.	-	0	ID=MGA_1509;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016844.1;translation=MKTNSRTISKLNKRLKKLDYVFIINIIIIFSFGLMTIYSATRVKTDTFIIKEIIFGIMSIVVFLVFSLIDYRIYSKNAKLIYIFNILFLLSIYIFGSKILGATRWIKLGPINIQPSEFAKIFFILTFSEHLVNGYNKNFYGLKSVFISSIHLIPIFLLIVKQPDLGTSLVLVFLYMELIFLNNIDLKTYISLIFLGIVSIPIGYFFFLKEYQKKRILTFLNPEADILGSGWNVIQSMIAVGSGGVFGKGLFQGTQNKLKFLPESHTDFIFAVLSEELGFVGSGFLVILYLFLVFSIIKIGNKSEDKYGSLVAYGIAGIIFFHSIVNIGMVIGIMPVTGLPLLLMSYGGSSLLFTAMILGIVQSIKIYGSK;locus_tag=LOCUS_15020;gene=rodA;note=WP_011016844.1 rod shape-determining protein RodA (Fusobacterium nucleatum) [pid:53.5%25%2C q_cov:96.8%25%2C s_cov:98.1%25%2C Eval:6.5e-109],MGA_1509
sequence06	MetaGeneAnnotator	CDS	109221	109496	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLSIFKKNKNSASIASNRLKVVITQDRASISQEVMEDLKKDMIKVFQKYLIIEESGLECSVQREREKNIGLSITIPVKKVKRKGNIFDED;locus_tag=LOCUS_15030;note=MGA_1510
sequence06	MetaGeneAnnotator	CDS	109508	110299	.	-	0	ID=MGA_1511;product=septum site-determining protein MinD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012255922.1;translation=MGRVIAVTSGKGGVGKTTTVCNISTGLALEGYNVAVIDADIGLRNLDLVMGLENRIVYDIVDVVEGRATLKQALIKDKKLKSKLQLLPASQTKDKTAVSPKDMAKITEELAKEFDFILIDSPAGIEQGFRNAVVGADEIIIITNPELSAIRDADRIIGLLDSYEKLNLKLIINRIRPEMVRKGEMINVEEIKDTLEVDLLGLIPDDEAVIISTNRGEAVIKDEETKAAKAYRNIIKRLLGDEVEFLNVEKIKFMDRVLNIFRG;locus_tag=LOCUS_15040;gene=minD;note=WP_012255922.1 septum site-determining protein MinD (Chloroflexus aurantiacus) [pid:55.3%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:1.4e-77],MGA_1511
sequence06	MetaGeneAnnotator	CDS	110317	110760	.	-	0	ID=MGA_1512;product=dUTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016845.1;translation=MNKVIIKLKKENENIKLPKYMTEGAAGMDVYSNNSVPITLKPLERALIPTGLYLEIPYGYEIQVRPRSGLAIKHGITMLNTPGTIDSDYRGEIKIILINLSNDEYIINPQERIAQLVLQKVYKAEFKIVEALEESKRNSGGFGHTGK;locus_tag=LOCUS_15050;gene=dut;EC_number=3.6.1.23;note=WP_011016845.1 dUTP diphosphatase (Fusobacterium nucleatum) [pid:66.7%25%2C q_cov:91.8%25%2C s_cov:92.5%25%2C Eval:2.1e-47],MGA_1512
sequence06	MetaGeneAnnotator	CDS	110753	111979	.	-	0	ID=MGA_1513;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016846.1;translation=MGKILHLDNGTPLLYEKITHINSFSMGIYVKTGAIDEKENESGISHFIEHMLFKGTEKRSAKDISEEIDNIGGKMNAYTSKDTTTFYITGLSEHFEIAADVLSDIFLNSTFTEKNIEKEKKVVIEEIRMYEDIPEEKIHDINNEYIFNGNYGKNILGTEESINALTKEKILDYYRTRYTSDNIAIVVVGNLSEEEVLKTFNLYFKNFNTIKKDRIEKKEFKLNAVKNILKKEISQVHLCVNTLGSSYTSENRYVGSILSIILGGNMSSRLFQKIREEKGLAYSVYTFNTVFYEGGAFSVYAGTTKENYNEVIDMIYEEWKDIKENGITEKELVKAKNQVLSSLILGLETTRARMSRLASSYITYNKIIPLEEIKNKINAIDLERVKKYANKIFDEKYYSVTILGDINE;locus_tag=LOCUS_15060;note=WP_011016846.1 pitrilysin family protein (Fusobacterium nucleatum) [pid:50.2%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:7.9e-111],MGA_1513
sequence06	MetaGeneAnnotator	CDS	111989	113071	.	-	0	ID=MGA_1514;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016847.1;translation=MLKKIDIYILKNFIKNWIMSLIGFNVIFILSQIFRIIGYVTQGEMTYSEALIYTLSITPDMIMTVLPLSILLGGLITVNKMATTLEITALKTSGISFFRIVRYPLIFTFTLSFGAFWFYNNVVPISNKKSRELRYEKVYNNLKISQIKADVFLKGEGNYLYYIRIINGEKNTIDNMELVLFDDELKKIKKIIVSKKGYFDIKKNNWILKEVVENDLENNETIFFNERIYDIIKEKPQDFLRDKIILREAKLNDLRDSANFIKRTGGDVSKLLVELNKRIAYPFATFVVSFLGLSLGSRFVRGASAISLALSIFLGYSYYVIQATLEALSIGGKINSFVGAWIPNLLFLVIGIYFLNKAEY;locus_tag=LOCUS_15070;note=WP_011016847.1 LptF/LptG family permease (Fusobacterium nucleatum) [pid:39.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-72],MGA_1514
sequence06	MetaGeneAnnotator	CDS	113072	114154	.	-	0	ID=MGA_1515;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901847.1;translation=MKLINKYIYKELTLPIIFGISLFTFIFLIDILVSMMENILVKSVPVLDVLELLSYTLPPIFAETIPMGVFLGIMITFSSLSTTSEIIAMESIGISLKKIIRPTFTLSFIIMCFVYFLYQSVIPRSGEKLIKISRKIAYTKPSVQLEEKIFVTGINDYNVYINHLEPEGTVADSLVIFKKEIDTIYPQVILAKKAKWENSKMYLKNATFYKVSSDGKISLKGKFEKQEVPINTFFGDFNTTIEKPENMSISDLLKKINNLKKQNKKTIKYELEMYKKLYTPSSILILSVLGVILSVNNNRTGKGASFGISILIIFIYITLINIFYMISQKGNIAPSIAMIIPNILLLLLTMFLYVKKARSR;locus_tag=LOCUS_15080;note=WP_005901847.1 LptF/LptG family permease (Fusobacterium nucleatum) [pid:39.2%25%2C q_cov:98.9%25%2C s_cov:98.6%25%2C Eval:2.4e-68],MGA_1515
sequence06	MetaGeneAnnotator	CDS	114158	114709	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLDLLFIVILLIFALLSFKKGIIYEILSIFFLGLNIVISKQLTPIVYSKLNVSVDKGIANTIIYTLLFIAVYIVFGFILKLFRFVITKSVSGSLDKVLGMILGIIKGVIVSVFLLFIITFVAKYQENLEKQLDDSKIAKIYIKAQNVILPMIPKDISDTIKKYTDEKEIKKVLKEALDKRGK;locus_tag=LOCUS_15090;note=MGA_1516
sequence06	MetaGeneAnnotator	CDS	114720	115904	.	-	0	ID=MGA_1517;product=class I SAM-dependent rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016848.1;translation=MATRVILNKNKDKKIKNFYPNVFKDEVKAVMGKYNIGDIVNVCDEKLNFIGKGYINNNTNILVRVLTTKDEDINYEFFYKKIKEAYKKRTYLKKETNSKRIFFAEADGIPGFIADDFDGYLSVQFRNEGIEKYKDIIIKAILEIVKPKGIYERSDVENRVIEGVGEQTGIIYGEIPDKIIMEDNDLRYIVDIINGQKTGFFLDQRESRKFIRRYLNKETKFLDVFSSSGGFSIAALKEGCQKVVAIDKDKYALKLCHENYNLNKFKNEFKTIEGDAFEVLKDIVKSGEQYDVITLDPPSLIKKKTERKKGREFFYNLCLDSFKIIKNGGIVGIITCAYNITLQDLIETSRMAASENEQILEVLGVNYQPNDHPWILHIPETLYLKCLWVRVYKK;locus_tag=LOCUS_15100;note=WP_011016848.1 class I SAM-dependent rRNA methyltransferase (Fusobacterium nucleatum) [pid:60.6%25%2C q_cov:96.7%25%2C s_cov:96.9%25%2C Eval:1.6e-140],MGA_1517
sequence06	MetaGeneAnnotator	CDS	115917	116762	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIVLLVLGLIILACTNNVPLQNTVKQGGIVNNTPVQTKSIDNSKFQGINYLEKKVIGISMETSGMSYEERIGFLEDRIIGNRSNDNILIRQRKLYDLVFLDGSYYSLNTKVDNLEDYIFQERDSDLDLQTRIEKIEEYLYSDRKNGEALLDRINDIYSYLLITDKDFIKKGQFLKREIGVIEIRTVKNYGSLEVGEILEFNLEKDIEGIAKTGSLVIGKVISKTTGGLFTDEKVTIVLGKIINQEKREISIYKKIELKGNVQRIFGGKYVRIDNMVIIG;locus_tag=LOCUS_15110;note=MGA_1518
sequence06	MetaGeneAnnotator	CDS	116762	117265	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQKLKISSRLITFLDIIVIVFMFIFLKSYFSVHKYSYTTKKNGLKIVSTIRNKKLNQNNFMIINLTIQNTTRKDKIIEINRKNIFNIIVEKDNKVIYKSDILDIKRERSKKIKLAQRGELKLSYEWDLTSNFKEEITTGNYKVTVYSLDLDISHSYDIEIIEEEN;locus_tag=LOCUS_15120;note=MGA_1519
sequence06	MetaGeneAnnotator	CDS	117262	118323	.	-	0	ID=MGA_1520;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016367.1;translation=MRAWAEINIKNLEHNINIIKNISNNHDILGILKADAYGHGAIEISKILKKNGIKIFGVASVDEAIELRKNGIKDDILILGCVLSDEYDDIIKYNIIITVASFENIKNIEKYKIYPRIHIAIDTGMGRRGFFSEEFLKAYNYIKNNKIAKIEGIYSHFSVADVEEEKKYTINQLREFEKLTHNIEVKYKHISNSAGIINYLDKTNSNLIRPGIALYGINTTKKELDLRNVLKFKSRIVHLKKIDKPRYISYMKKYLAKEGEVIATISAGYADGVKRAFSNKGYVKIHNVKCKIVGLVCMDQFMVSIDSSIVDKVKLGDEVIIYDENISELASMIDTIPYELLTSLTKRVKRVYL;locus_tag=LOCUS_15130;gene=alr;EC_number=5.1.1.1;note=WP_011016367.1 alanine racemase (Fusobacterium nucleatum) [pid:39.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:4.9e-74],MGA_1520
sequence06	MetaGeneAnnotator	CDS	118422	118628	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSFEMIGNNAGIIWKTLADKPKQSIVELEKETKLKRDEILLALGWLIKEDKLTYEKIGRGIKFYLK;locus_tag=LOCUS_15140;note=MGA_1521
sequence06	MetaGeneAnnotator	CDS	118651	119532	.	-	0	ID=MGA_1522;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016589.1;translation=MKRLEIINKTKIWLGFSAFLIVVSLIGIIKGLNLGIDFTGGSLVQVKFEKQADLKTLNNVFDEISNEISQVASTSRKVQIADDNSVIIRVPELTEEETGTLLKKLEEKYSKFDLLKVDKVGATIGKELKTSAISALIIGAILIVIYITIRFEFIFAIAAIIALLHDVIIAIGGIALLGYEVNTPFIAAVLTILGYSINDTIVVFDRIREVYRRNKARNLGEIIDESINDVIVRSINTSLTTFLAVVAILLFGGASLQTFITTLLIGIVSGTYSSIFVASPLVYLFEKNKKIKV;locus_tag=LOCUS_15150;gene=secF;note=WP_011016589.1 protein translocase subunit SecF (Fusobacterium nucleatum) [pid:51.2%25%2C q_cov:97.6%25%2C s_cov:90.9%25%2C Eval:3.8e-71],MGA_1522
sequence06	MetaGeneAnnotator	CDS	119535	120755	.	-	0	ID=MGA_1523;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902477.1;translation=MKKNLVFDFVIILIVLLGAAYFAFKKPIKMGLDLKGGVYVVMEAVAEDGGTITSNDMDRLIEVLERRVNGFGVSEAVVQKTGDKRVIIELPGIKDTQKAVETIGKTAFLEFKLVESDGSLTETGVNGKDLKQADISYDNFGRPQIVFELTIEGAKKFAELTRNNIGRQLAITLDGEVQTSPTIKSEIPGGKGTISGGYTIEEAKSLKTLLNAGALPVKAEILETRTVGATLGDESIAQSKQAGIIAIVLVMAFMAIFYKLPGLIADVALTICGIIIFGTLNYFEATLTLPGIAGLILTLGMAVDANVIIFERIKEELRGGNSILKSVENGFKKAYSAILDGNITTLIITAILFSLGTGPVKGFAVTLTIGILASMFTAITATRFMLKTLVLYTDIKNPKFFGVRGK;locus_tag=LOCUS_15160;gene=secD;note=WP_005902477.1 protein translocase subunit SecD (Fusobacterium nucleatum) [pid:63.2%25%2C q_cov:99.3%25%2C s_cov:98.5%25%2C Eval:8.6e-142],MGA_1523
sequence06	MetaGeneAnnotator	CDS	120786	121205	.	-	0	ID=MGA_1524;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902478.1;translation=MYKKYLSLDIGDVRIGVAKSDILGITATPYEVIDRRKTKAIKRIKEILTKENISSIVVGIPKSLDGSEKRQAEKVRLFISKLLKEIKGLEIIEIDERYSTVSADKALTAMNKKGAIEKRKVVDKVAAAIILQTFLDSKK;locus_tag=LOCUS_15170;gene=ruvX;EC_number=3.1.21.10;note=WP_005902478.1 Holliday junction resolvase RuvX (Fusobacterium) [pid:66.4%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:3.0e-45],MGA_1524
sequence06	MetaGeneAnnotator	CDS	121228	123825	.	-	0	ID=MGA_1525;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016588.1;translation=MLTGNEIRSKFIEFFKDKTHKHFESASLIPDDPTLLLTVAGMVPFKPFFLGQKEAPYPRVTTYQKCIRTNDLENVGRTARHHTFFEMLGNFSFGDYFKREAIEWSWEFVTEILKFDKEKLWVSVFKDDDETAKIWQEIVGIPAEKIVRLGEEDNFWAAGPTGSCGPCSEIYIDMGEEFGCESPTCGVGCDCDRYLEIWNLVFTEYNRLEDGSLEPLPKKNIDTGAGLERLTAALNKTHTTFETDLLFPILEKVAEMANVKYKNNEKTDFSLKVITDHIRAIIFLISDGVLPSNEGRGYVLRRILRRAVRHGRLLNITDNFLYKLVDFVVDMMKNAYPELEKTKEHVRKVIKIEEEKFSKTLDQGIEMAIREIEKLKLQKKTKFDAETVFKLYDTYGFPFELTEEIAIEHGIKVSFDEFNEKMEEQKNRARNSREVIKEEGQDEFIEKFYDIYGKTNFEGYNLLETKAIVYDIQKLEENKLQIIFDKTVFYAESGGQVSDSGIIIGDNFNGKVIDVQKRKDIYLHIVEINEGDIEKGNELILKVDKEKRDSIKRNHTATHLLHEALKEVVGEHVNQAGSLVTEDRLRFDFTHYEGLTRKQVEEVERIVNKKIFENLEVKIEYMDIESAKSKGAMALFGDKYGDIVRVVSVEGFSIELCGGTHVNRTGEIGLFNILHESGIAAGVRRIEATTGYKSFEVVNEMEREILKVAELLKTDINHIEDKIIKLLETQKELTKELEITKSKLATYEANSLFNEIEEINGVKVLLKTFKNKEAGELREIVDKAKEKLNSCVVVLGTNNKKAIFAVGVTKDLINKIKAGDLVRKIAEVAGGKGGGRADFAQAGGPNGDKVTEAIKLAKKILTESL;locus_tag=LOCUS_15180;gene=alaS;EC_number=6.1.1.7;note=WP_011016588.1 alanine--tRNA ligase (Fusobacterium nucleatum) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:99.9%25%2C Eval:1.2e-309],MGA_1525
sequence06	MetaGeneAnnotator	CDS	123905	124630	.	-	0	ID=MGA_1526;product=LPS export ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016586.1;translation=MKSIAAQDLVKIYKKRKVVNGVSLEVKKGEIVGLLGPNGAGKTTTFYMIVGIVKPELGIVYFNEKDITKYPMYKRARLGIGYLAQEPSVFRNLTVEENILSVLEMRNISKKERIAIKDELLEEFKLTHVYKSFGYSLSGGERRRVEIARTIANNPDFILLDEPFAGVDPIAVEDIQNIIRYLKERGLGILITDHSVRETLNITEKAYIMAEGKVFIQGTPKEIAENEQARKVYLGEKFKLD;locus_tag=LOCUS_15190;gene=lptB;EC_number=7.5.2.5;note=WP_011016586.1 LPS export ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-101],MGA_1526
sequence06	MetaGeneAnnotator	CDS	124627	127851	.	-	0	ID=MGA_1527;product=LptA/OstA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124794599.1;translation=MLKKSLNLFIMLFLVFFIYNTYIKKDKEIKIEFNNDIKTTNIIYNFDNYKIKAEIQTNEAISKKEIFEQTLAYFKTSILKGNKAEIDKNSNMVLRGNIKGTNSKNGWELETEELKYLAKSKRIIGNRRLTAINKEEDLKFISDTFNTNSDFSYFELIGNIKIYHGDSIIYADRAVYSEKDQNLEISGNIIINYKSQKKMLIGKFTKLNYNLKKEILISNLAYKLEMNNYTLSAKKFYYDNIKQVVIAEKDVKIYDNLKNLEMSKINYNLNNKQMIMIGEIHGNYEDFSFIADKGEAFIDSKELFLYDNIIINKEGNKIYGDKVIYNEENKKMLITGNKLRVELEKYHLISTLVEYNLNKSELQVPNNFEMLEKENKIEIYGNKLLYKIDTEKGIAEDITIINKNNKATSDNIFIDYNNKKYTLKNNVNLKNDEYRIKTDKIEMIDKDILYIPNEYTIINEKGNINGTNAIYNDIDKILLSDEKSNLKNDEYNIYFLKYKYDLKNNQITLENIIGENFKEKIKFRADNGIYIQGTNDISLKKNVEIDYNNYTAYTEKAIYNDESKLIEFPVKAFILSKDKKLKGEIYSGEIDLNNNEFLGNKFIANNEKSKILSDEIKYDIRNEIAYLNENVKYTRDNIEILTNNMIYYKLTEYIDSPEPIVFKRNNIKITLDNAKINLNKKIIKGENPLFTTINGNIIKGNYIYGEYYKNEFNFYNGLEAKIIDEKTKNSITFEGETAKIYFTTKGDKQELTRAEIKDKVDFYYKNLYLNSNYLELDNIGKTVFSTGESILEIDKTDKISSQNLEFDINNEIAKMKENVKIFNISKESGDVNTRADEAIFNNTLNKIDLSGNVISYKGDTKILADSGIYDLKQNKLYGKGNIAFTFDIETLEQKKNKEKNEKKNIEVINKTIEKIKIPKVLTEKIKTIDLKKRDGNVIIIWNSSNKNIISKYGEVNHPKYLENDEVVILTATYKLYNTEIKKEYIVKVEKESKDSYINGKILETKFDIIDNKLIIENKDLSYQFKKIKKIDDNKNIFENEFEFKLKYRFEDIEKEIEYKGYKENKKIEIVGDIQ;locus_tag=LOCUS_15200;note=WP_124794599.1 LptA/OstA family protein (Fusobacterium canifelinum) [pid:23.2%25%2C q_cov:81.9%25%2C s_cov:97.0%25%2C Eval:4.6e-56],MGA_1527
sequence06	MetaGeneAnnotator	CDS	127967	130570	.	-	0	ID=MGA_1528;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494923.1;translation=MAETPLMKQYRQIKSENKDNILFFRLGDFYEMFFEDAVIVSKELGLTLTSRNKEKGIDIPMAGVPFHSAASYISKLVNKGYKVAICEQVENPKQAKGIVKREVVKIITPGTVIDIDFLDEKNNNYLLSLIIKENRAGISYLDITTGEFKTFEIEKTKVLNEVYKISPKEILIEEESYKEIRDEIDKFLEINDINYTIINKLKTSEELIKEYFNIVSLESFGIEDKLLSIDASGIILKYALELHKYNELPITKLSYENRAEYMELNVATQKNLELFSSEKNNIGTLVWVLDECKTAMGSRLLKKFIKNPLTSIEKIKKRQNDVTFFIKDIIKREEIKENLKNIYDIERLIGKIILGTENGRDLIALKKSIKSSIEIAAILNNDKIIKIDIKKLDYLYKLIDTTITEEPPFSIREGGIIKENVNLELDELRKISKNAKDIIIEIEAREREKTGIKTMKIKYNKIFGYFLEVTKSNINLVPDTYIRKQTLTNAERYITEELKEIENKIINAKDKIENLEYELFKEISEKIRKEKNLLQQLANDISYLDVIISLASVAIKNDYIKPELNTEYSIEIKEGRHPIVEKLLIDEDFIANDVYFDREKNLIILTGPNMAGKSTYMKQVALILILAQMGSYVPADYATIGIVDKIFTRIGASDDLVSGQSTFMVEMSEVANIMNNATENSFIILDEVGRGTSTFDGISIATSITEYIHNNVKAKTIFATHYHELTELENRYKTVINYRIEVKEIDDSVIFLRKIVKGGADKSYGIEVARLAGLPNEILENSRKILKNLEEKRALIEKKIKGKQLALFGGVEEEIEDEPERIVEIKEVVPENIIEIIKYIETIDINNITPMQAINYLNEIVLKLKNK;locus_tag=LOCUS_15210;gene=mutS;note=WP_029494923.1 DNA mismatch repair protein MutS (Fusobacterium hwasookii) [pid:55.5%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:3.5e-269],MGA_1528
sequence06	MetaGeneAnnotator	CDS	130573	131514	.	-	0	ID=MGA_1529;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016583.1;translation=MKKIYVAPIAGVTDFIYRKILNEFQPDLMFTEMVSVNAVQMGNKKTVDVMLKLHENDGVQIFGKDIELMKDTAIFLEEKGVKNIDVNMGCPMPKITKNGYGAALLEDKEHVKKLLTTIKNSLKEETKFSIKIRVGYKDSKDPLFFAKLAEDLNLSHITIHGRTREQMYTGIANWEIIKDIKSKVNIPVIGNGDIFTAEDAMEKINYSNVDGIMLARGIFGNPWLIQQIREKISFGEVKTIPTILDKLNMAIKHVNYAREYIDKPFYYEIRKHLCWYIKGMKNATKLKDEINHIDNYKELLNKLEEFKLLQKED;locus_tag=LOCUS_15220;note=WP_011016583.1 tRNA-dihydrouridine synthase (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:94.6%25%2C s_cov:96.4%25%2C Eval:1.2e-97],MGA_1529
sequence06	MetaGeneAnnotator	CDS	131530	132201	.	-	0	ID=MGA_1530;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584046.1;translation=MKIASLIKSSTVDFPGEIVATIFLAGCNFDCDFCQNYELISPINVEYISEKEVIEFLKKRKNLLDGICISGGEPTLQGKELVKFIKKIKKEVREDFLIKLDTNASNIEVVKELKECLDYIAIDFKSLDYSRFSDFKTEEILDNIKKMINLKINYEVRITMYPEYIKEEEFEKVVEQLYEIGVKKIYIQQYQHAYRGVEEYYSLGTLEKFRKKFEKKNIEAEIR;locus_tag=LOCUS_15230;note=WP_012584046.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Dictyoglomus turgidum) [pid:36.3%25%2C q_cov:80.3%25%2C s_cov:81.6%25%2C Eval:1.0e-24],MGA_1530
sequence06	MetaGeneAnnotator	CDS	132307	133008	.	-	0	ID=MGA_1531;product=Bax inhibitor-1/YccA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002210775.1;translation=MYGLNGGGYYHVSEKVMANTISKILIWMVAGLLITFGVAFSIMTNPVMAMTVSRSYLLLIIAQFGVVIAMSGMVKKISVQTAKILFVVYSALTGATLSLLMMFFTTASIIYALIITVVIFSVMAIYGYTTKEDLSKFGNLLRVGIIALIILSLVNMFLRTAAIYWIVSYLGVLIFIGFIGYDMNMIKNNIIIMANGDEELIERFSVFGALMLYLDFINLFIYILRIVGLRNDD;locus_tag=LOCUS_15240;note=WP_002210775.1 Bax inhibitor-1/YccA family protein (Yersinia pseudotuberculosis complex) [pid:43.2%25%2C q_cov:90.1%25%2C s_cov:90.3%25%2C Eval:3.2e-45],MGA_1531
sequence06	MetaGeneAnnotator	CDS	133226	135139	.	-	0	ID=MGA_1532;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626551.1;translation=MINVKLPSGDIKSFENSVNMFEIAKSISNSLAKKAIAAKIDGKLVDMTYVLDKDASVELITPDTEEGVDIIRHSTAHLMAQAVIRLFPETKVTIGPSIENGFYYDFDPKEQFTDEDLEKIEAEMKKIVKEDIKIEREEKTREEAIEFFENMGETYKVEIIKAIPEGEVLSLYKQGEFIDLCRGPHVPSTRYLGSFKLKSVAGAYWRGDSNNKMLQRIYGFAFANNKELKDYLTLLEEAEKRDHRKLGKELELFFISEYGPGFPFFLPKGMEIKNILMRIWEKEHKKAGYKIIQTPMMLNKELWETSGHWFNYRENMYTSEIDKFEFAIKPMNCPGGILAYKNGLHSYKDLPLRMGEFGHVHRHEFSGALHGLFRVRAFTQDDAHVFMTKEQIEDEVVNVISLYDKFYTLFGLEYHIELSTKPEKAIGSDEIWEVSEKALANAVTKAGKDYKLNPGDGAFYGPKLDFKLKDAIGRIWQCGTIQLDMNLPERFDMSYIGEDGEKHRPIMIHRAMYGSIERFLGILIEHYTGAFPTWLAPVQVKILTLNDEVIPYADELKSILENEDIRVEIDDRAEKIGYKIREANAKQKIPVQLIIGKSEVENRKVNVRRFGSKEQVEMDIDEFIKIIKAESKPVFKN;locus_tag=LOCUS_15250;gene=thrS;EC_number=6.1.1.3;note=WP_201626551.1 threonine--tRNA ligase (Fusobacterium canifelinum) [pid:68.4%25%2C q_cov:98.0%25%2C s_cov:98.3%25%2C Eval:9.1e-264],MGA_1532
sequence06	MetaGeneAnnotator	CDS	135409	138873	.	-	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495458.1;translation=MKKHILLLYIILSINILAGDQLNINTDEAVIDFENEEFQAGGGVNFNYDDIKLKAYKLRKLKDKNIIIAEKGVIFNKGDNKVEAYKLTLNIDKNIAIIQDGVSYVEVAGAPKRHNRLYYGGEQFLASYPDKAEVKNAWFTTSHKALKVEKQDDRFKLPYHMSSKRILVYPGKKVIAYNNILYAGRIPIFWMPWYASSLKSDTQAPLFPKIGSNSDEGTYIIWGFDYGIENKNLNGSLALKQSTKKGTFIESFENIYKINDENKGKVSFYDTLIFPRGDYEEQWNFEHQHDYKTKNGELHWKYKNQTINTINAVEDSRSEAEDSGESDPYSNYEQKMSRYELSTQFDKIGKNKDTSIYAYIQYVDNKDVLKEIINNNNENLLNKDNKSEIDNEIQTKLKFDKDNLRYKLYGYYERFEDLDPGSSQSDTKSYNNIDEYRMIDKKYRIDFSYKNTDYDVWRSLSDSERYDDDKELSDYTGDSYNPYTTTQYDEKSLKDVNITLGNYNILKNYKLKFSYSYDKNYEKLNLDEDPFRSSYTNARDRQYNRTVDIIEKNIEQNGYLTELSKDSKRLKLVLGDYKSFAKDRDLYENTGYDEFVNNSNYNIIEYQDSKINTKLGNLNFLINRRYDKYFEKDSLQEFTTKEIVTKNLYNNTGDFYRKYDLKIDNKFSYYMNYFIYNSENRDFNDKVAYISDAEDSKYYRLNGKTLKKDISNELKVLFGNTDTIYNINLVTYNDAYKNKWLKNISLKNSINFNIENKKTIATSYDINNSYQEDNYKNIDNQNYKLELYDDNKEFKYNVSYYKNRVRNETIDTTLDYSDRIRAYNFLKYIDKDIINNFEYSFGEKSKKWWTLEYTITTNTTYDYNDSSGNTVNDYSENILKNQIKINYLVGDKLSEYNNYSYEVIDYNNKLDNNYSYYQNEVSYEYNDLKKDEDKKIIYTDSTGEYQVELSQSEEEKLQRKFLEQVKQERGITTDIFGIDDIADEIIYKKYNKFTLTLRADKNYTKETNFLNALELFKLRLEMHRDENKLVYSYDEENSIYNNVKTLSTSKTHYLEFIKKIGKTDEKWIYKFATKYKTELKDSNSEENLDEVRATIGKEIEFGQWQTSYTLDWNQTYLRYDYTISFSFNLFTFPDKSIGIAKKSTENELKLEAGI;locus_tag=LOCUS_15260;note=WP_029495458.1 hypothetical protein (Fusobacterium hwasookii) [pid:22.7%25%2C q_cov:98.4%25%2C s_cov:97.3%25%2C Eval:3.4e-65],MGA_1533
sequence06	MetaGeneAnnotator	CDS	139179	139859	.	-	0	ID=MGA_1534;product=metallophosphoesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146572.1;translation=MKIAFISDVHSNYYALKSVLENIKKEKANEIYLAGDIIGYHSMPNEVIELIKENNIISIKGNHDYDIINKRFDENIKDFKIWTYENLTEENKKYIINLPEELIIEKNNIRIKIVHGSSRDIAEYLFENSKQIEKEAENLKEDVLICAHTHFPYIKKIHNKIIVNTGSVGKPKIAKPTPNYIILNTENKEFEIKFVEYEVEKMCKDMKNKGLSEKHIKELRLGKVIK;locus_tag=LOCUS_15270;note=WP_048146572.1 metallophosphoesterase family protein (Pyrococcus abyssi) [pid:35.4%25%2C q_cov:94.2%25%2C s_cov:95.7%25%2C Eval:2.6e-28],MGA_1534
sequence06	MetaGeneAnnotator	CDS	140008	141024	.	+	0	ID=MGA_1535;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986709.1;translation=MYKFKNDYSEGAHRKLLEALLKHNLNQQNGYGEDIYTEEAKSNIKNYINGQCDIHFIPGGTQTNLIAITAFLRPHEACIAAKTGHIVDHETGAIEATGHKVININTPVDGKLTPELIQPVLEYHYFEHMVKPKLVYISNSTEIGTVYSKNELKNLYNFCQTNKLYLYIDGARIGNAILASDVTLQDMYNYSDAFFIGGTKNGALLGEALIIKNLDIKNEIRYIIKQRGALIAKGRIMGIQFNELFKDNLYFELAKHANNMADILTIELKKLGCSFLVESSTNQIFPIIDNKKINKLLKKFDFYIWEKFDENSSVIRLVTSWATPIKAVNAFINEYKNI;locus_tag=LOCUS_15280;note=WP_011986709.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Clostridium botulinum) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:5.5e-112],MGA_1535
sequence06	MetaGeneAnnotator	CDS	141073	141369	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNELEVKFFKALAHPIRIKIVKKLLFGELCVCDLNDDIDFSQSNLSQHLKILKDARIVTSRKEGLKVHYSIENLEKIRKSFQLIEELIRETWDIKF;locus_tag=LOCUS_15290;note=WP_018306389.1 metalloregulator ArsR/SmtB family transcription factor (Desulfitobacterium hafniense) [pid:58.1%25%2C q_cov:75.5%25%2C s_cov:69.8%25%2C Eval:1.3e-16%2C partial hit],MGA_1536
sequence06	MetaGeneAnnotator	CDS	141525	143192	.	+	0	ID=MGA_1537;product=sulfate permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164926914.1;translation=MSKVFYPKSLKVLKEGYDFNSFTKDLIAGIIVGIVALPLSIALAIASGVKPEQGLYTAIIAGFLIALFGGSRVQIGGPTGAFVIIVYNIVQKFGYTGLATASILAGIILVIFGAFRLGSFIKFIPYPVTVGFTSGIALLIFTSQIKDFLGLYDSAPTEFLEKFPYFIRNISNINFYSVFIGLITILITFFWSKKFKKIPGSLIAIITTTILVSSFKLPIDTIGSVFGDVPSSFPPLHFPSINLLTIKKLLPSAFTIAVLASIESLLSAVVADGMIGTRHNSNTELIAQGIANIFSPIFGGIPATGAIARTATNIKNGGRSPFAGIVHSITLLIIMLFLGKLAKMIPMATLSGILMIVAYNMSEIQHFIKLRKAPKSDFFVLLITFLLTVLADLTVAIQFGIILSALLFMKRMSEVTEAEFLKKEYYDTDEEFIATGILENNNPIPKEIEIFEINGPFFFGAASIFRDNLGNIEILPKFLILRMRNVPVIDATGLSALETIIKSCKKNNIQIIISGINKQPINAIQKIGLDKKLGKQFICKNINDAINIAKKNLYN;locus_tag=LOCUS_15300;gene=sulP;note=WP_164926914.1 sulfate permease (Chlorobaculum tepidum) [pid:51.7%25%2C q_cov:99.1%25%2C s_cov:94.5%25%2C Eval:1.3e-154],MGA_1537
sequence06	MetaGeneAnnotator	CDS	143264	144082	.	-	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIITEEIYIKQLKKNRKVRIYLPNDYEKSDKKYPVIYMHDAQNIYNIGISAYGMEWNVDKTLDSIFEKTKKGFIVVGIDNASERNGAERITEYSPFINNNLYKITDKYNDGYTLGGKGDKYAEFIVNDLKLYIDKKYKTLSDRENTAIIGSSMGGFISIYIGLKYQNIFSKIGGLSNAIWFAENDMIQFIKNIKKENDMTIYLDVGTNETSDERVDNFNELYINGNKKTYEILKEKGFNVNFYLIEGAKHNEVYWAKRFSNVIEALFFNE;locus_tag=LOCUS_15310;note=WP_011249477.1 alpha/beta hydrolase-fold protein (Thermococcus kodakarensis) [pid:37.9%25%2C q_cov:98.5%25%2C s_cov:54.8%25%2C Eval:4.2e-45%2C partial hit],MGA_1538
sequence06	Aragorn:1.2.38	tRNA	144183	144268	.	-	.	ID=Aragorn_41;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00400;note=Aragorn_41
sequence06	MetaGeneAnnotator	CDS	144323	144580	.	-	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFIGIFSINYEEKFIKKIKLEKNYLDLEEVDLVKLEKNYKLFFLKLFSWFDGYYFKVKDNYIKIYTNNIKDIIIKEKIDITKYL;locus_tag=LOCUS_15320;note=MGA_1539
sequence06	MetaGeneAnnotator	CDS	144736	145569	.	+	0	ID=MGA_1540;product=transporter substrate-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943288.1;translation=MKEIKAFIIVLILSLFVISCNKKNTNNSGSITKKAPLKVGMELKWPPFETITEDGKPTGISVDLAYELGKYLDRDIEIVDTSFGSLIPALETGKIDIIIASMSITKERAEKINFSKPYFYFSLVTLLNKNSNIKDKKELFSREGLKFVGPKSFVALKIPKEKANNPKLLEFDDKSSAVLEVVQGKADAFIIDAIAASEFYSKYPEQTEILWDPVEQAKIGMGLRKSDTELLEKVNTFINDLEKNGVYKRLAEKYNSIIDKSLPGQTLDFYTTPIGDE;locus_tag=LOCUS_15330;note=WP_010943288.1 transporter substrate-binding domain-containing protein (Geobacter sulfurreducens) [pid:40.4%25%2C q_cov:78.7%25%2C s_cov:80.7%25%2C Eval:1.9e-37],MGA_1540
sequence06	MetaGeneAnnotator	CDS	145569	146327	.	+	0	ID=MGA_1541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKQSIKGFNFFLAFLVFTYFVYFIIKRIPSSNFSFSFLAPYKNLIIQGWLNSILISIIALFCSLIIGFVIYIMTINNIPFLRYFIKYLAIIFNEIIFGSPLLVFVLIIYYFIGTAFNYSNRMVLGTAALSLYMAPYMTNLFKGAIESIDENQHMAAKLFGFTTIQKYQYIILPQIIKIIMPPLSGNLTFIIKGSSILYVIGYKELFYSISTAQSRTYAFTEGYILMLVSYLLITIPLIRITNYLERRYA;locus_tag=LOCUS_15340;note=WP_010938266.1 amino acid ABC transporter permease (Desulfovibrio) [pid:30.5%25%2C q_cov:81.0%25%2C s_cov:62.0%25%2C Eval:3.7e-21%2C partial hit],MGA_1541
sequence06	MetaGeneAnnotator	CDS	146328	147056	.	+	0	ID=MGA_1542;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460478.1;translation=MNLTIKNLKKDYDKPVLKGINLELKNKNIIGVIGPSGGGKSTFLRLVAGLEELTEGSIIVNGLEITKDKIKDYHKKIGFVFQSHSLFPHLTILRNITLILEKIHKINKKNAEEKTIYLLEKFGLLEHMHKLPEQLSGGQSQRASIVRSLAINPDILFFDEPTSSLDPILTYEVLETILKLKDEKKDFIIVTHEIGFARDVADYILFIDEGKIIEHGPPNILSSPKTKNLKIFLSKVLSWNKN;locus_tag=LOCUS_15350;note=WP_011460478.1 amino acid ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:51.4%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:1.1e-62],MGA_1542
sequence06	MetaGeneAnnotator	CDS	147096	148013	.	-	0	ID=MGA_1543;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MIINNNIRAENAYRHLSETQERQAASLEKLSSGVKINRAGDDAAGLAISEKMRSQIKGLEMAVRNAQDGISLIQTAEGALNETHAILQRMRELAVQSSNDTNTDADRRVIQQEMDQLRREIDRIADTTEFNTKQLLTGKYGYDPKNNSSNEGLKFQIGSNEGQTVVVTFDKMDAYALGIAGKEVKATTDRRGNDTKKEVISSDKAVSVITSSDAEKAISVLNKAVEKVSEQRAKYGAMQNRLEHTINNLRVASENLQAAESRIRDVDVAKEMVSFSKEKILSQSGTAMLAQANSQPKEVLKLIKE;locus_tag=LOCUS_15360;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:52.3%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.2e-77],MGA_1543
sequence06	MetaGeneAnnotator	CDS	148211	149092	.	-	0	ID=MGA_1544;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MIINNNITALNSYRNLTDVNNRVSKSMEKLSSGLRINRAGDDAAGLAISEKMRGQIKGLNMARKNSQDAISLIQTAEGALNETHSILQRMRELAVQAANDTNTQSDRKQIQKEMNQLRQEIDRISKTTEFNTKKLLNGDFNGQNGSKIRFQVGANEGQTVELTFNDMSAKTLRIAQVKRIETDNGTKEVDTGDAISVTDANSAQKAITTINNAIETVSEERAKYGAVQNRLEHTINNLAVSAENLQAAESRIRDTDMAKEMVALSKDKIISQSGTAMLAQANTAPQNILQLLR;locus_tag=LOCUS_15370;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-89],MGA_1544
sequence06	MetaGeneAnnotator	CDS	149431	150309	.	-	0	ID=MGA_1545;product=flagellin Hag;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228021.1;translation=MIINHNIVALNSYRNVTGVNNRVEKTMEKLSSGLRINRAGDDAAGLAISEKMRGQIKGLNMATKNSQDAISLIQTAKGALNETHSILQRMRELAVQSSNDTNTDSDRGQIQKEMDRLRQEIDRISTTTEFNTKKLLTGEFKDKGLRFQVGANEHQTVELTFRDMGAASLGVAGKRTITDAEGNTRTVATRDTALDVGTSKSAEKAITVINDAIEQVSAERAKYGAMQNRLEHTINNLSVASENLQAAESRIRDTDMAKEMVELSKDKIISQSGTAMLAQANTQPQSVLQLLR;locus_tag=LOCUS_15380;gene=hag;note=WP_003228021.1 flagellin Hag (Bacillus) [pid:56.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-82],MGA_1545
sequence06	MetaGeneAnnotator	CDS	150529	151407	.	-	0	ID=MGA_1546;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MIINHNIVALNSYRNMTDVNNRVSKTMEKLSSGLRINRAGDDAAGLAISEKMRGQIKGLNMATKNSQDAISLIQTAEGALNETHSILQRMRELAVQAANDTNTNSDRGQIQKEMNRLRQEIDRIATTTEFNTKKLFTGNFENKGLRFQVGANEGQTVELTFRDMGAASLGVADKKIVTDAEGNARTVTTRDTAVNVETSQNAEKAITVINDAIEQVSAERAKYGAMQNRLEHTINNLSVASENLQAAESRIRDTDMAKEMVELSKDKIISQSGTAMLAQANTQPQAVLQLLK;locus_tag=LOCUS_15390;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-85],MGA_1546
sequence06	MetaGeneAnnotator	CDS	151657	152535	.	-	0	ID=MGA_1547;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987022.1;translation=MRINHNMVAENAYRSTTLTNNRMSKEMEKLSSGLRINRSGDDAAGLAISEKMRGQISGLKMSSKNSQDAISLIQTAEGALNETHSILQRMRELAVQSVNDTNTDSDRKQLQKEMDRLRQEVDRIANTTEFNTKKLFTGNLARKGLIFQVGANEGQTVELTFSNMGAKALKINGWEAVKNEDGTISRRSSKDTAVDITNAKSAERAITIINDAIERVSDERAKYGAMQNRLEHSIKNLDVAAENLQTAESRIRDADMAKEMVDLSKDKIISQSGTAMLAQANTQPQSVLQLLR;locus_tag=LOCUS_15400;note=WP_011987022.1 flagellin (Clostridium botulinum) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-84],MGA_1547
sequence06	MetaGeneAnnotator	CDS	152789	153682	.	-	0	ID=MGA_1548;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987021.1;translation=MIINHNLTAMNAYRNFNDVNTRVEKTMEKLSSGLRINRASDDAAGLAISEKMRGQIKGLNMATKNAQDSISMLQTAEGALNETHSILQRMRELAVQSANDTNTQSDRKQIQKEMDRLRQEIDRISTTTEFNTKKLIDGSFKDNKLSFHIGANQDQVVTLNINDMGAKALGIAEVREVEITKEDGTKEKRYVQTENTAVDVTTVEKAEKAITILNNAIETVSDERSKFGALQNRLEHTINNLRVSSENLQAAESRIRDADMAKEMVSLSKDKIISQSGNAMLAQANAQPQGVLQLLKG;locus_tag=LOCUS_15410;note=WP_011987021.1 flagellin (Clostridium botulinum) [pid:58.1%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.6e-83],MGA_1548
sequence06	MetaGeneAnnotator	CDS	153788	154681	.	-	0	ID=MGA_1549;product=flagellin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011987021.1;translation=MIINHNLTAMNAYRNFNDVNTRVEKTMEKLSSGLRINRASDDAAGLAISEKMRGQIKGLNMATKNAQDSISMLQTAEGALNETHSILQRMRELAVQSANDTNTQSDRKQIQKEMDRLRQEIDRISTTTEFNTKKLIDGSFKDNKLSFHIGANQDQVVTLNINDMGAKALGIAEVREVEITKEDGTKEKRYVQTENTAVDVTTVEKAEKAITILNNAIETVSDERSKFGALQNRLEHTINNLRVSSENLQAAESRIRDTDMAKEMVSLSKDKIISQSGNAMLAQANAQPQGVLQLLKG;locus_tag=LOCUS_15420;note=WP_011987021.1 flagellin (Clostridium botulinum) [pid:58.1%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.6e-83],MGA_1549
sequence06	MetaGeneAnnotator	CDS	155068	155997	.	-	0	ID=MGA_1550;product=flagellin Hag;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003228021.1;translation=MRINHNITAMNAYRNLTMTNQRVEKSLERLSSGYRINRAADDAAGLAISEKMRGQINGLKMATKNSEDAISLIQTAEGALNETHAILQRMRELAVQAANDTNTQSDRKQIQQELNQLRKEIDRITKSTEFNTKILLNGDYADNGLIFHIGANKDQTVTLTLNDMSASALGIAGKIEKEIIKKDEAGNPILDANGQEVKETQLVDSEDTAISVMSVGEAEVAIKTINDALEKVSDERAKYGAMQNRLDHTINNLKVSAENLQAAESRIRDADMAEEMVKFSKNKIIAQSGTAMLAQANAQPQGVLQLLRG;locus_tag=LOCUS_15430;gene=hag;note=WP_003228021.1 flagellin Hag (Bacillus) [pid:53.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:1.2e-78],MGA_1550
sequence06	MetaGeneAnnotator	CDS	156554	157654	.	-	0	ID=MGA_1551;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963797.1;translation=MRIDLNEAKEGMIILADVYDEYGKILLSSGVRLSNKLINRLKKEKVIEIDVREQDAPKKRFEYFEEEEEIENSKVELKKFGRPEVKEKVTENCNKLEDIIKKLFLNNNVDVAKRKTIIASVVKFIKQNFNKDIIYILEYITKDRIIEGQLYYHSLNVAILSYTIGKWLKYTDKQLDTLIVAALFHDIGKIKIPEEILNKEERLLDNEYEIIMSHAKETENIMKEFGCFSKETIEAASFHHERSDGSGYPNKLNGNEINEYSKIIAVADIFDALTSKKAYREKYNSFKALEIIDNYSYSKLDNKITKLFITKFFEIYLGQGVELNDSTKAKIIRLNSNEITRPLLATTDGQIIDLALRKELEIQKFL;locus_tag=LOCUS_15440;note=WP_010963797.1 HD-GYP domain-containing protein (Clostridium) [pid:28.1%25%2C q_cov:92.9%25%2C s_cov:89.7%25%2C Eval:1.8e-39],MGA_1551
sequence07	MetaGeneAnnotator	CDS	316	1329	.	+	0	ID=MGA_1552;product=YbhN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966298.1;translation=MKHILKKRNIIFVIIVFIITIYFMLKNNYIHKEMFKNLNYFYLLIGILISFGVWVSEILMLKSILHKDISIHDSFENIALGQLFNGLTPFASGGQVVQIYHMNSKKVAYAKSTATLFIMFFIYQIILTILGIISIFFKYSYFKVVLKEKIYFIFFGFTLNLIIAIFLISLFFISKNSGRFMFGVIKKIPFLKEKYKNKLYIKIRKFIKEFYLSINIIKNDKKIVVKLIVLNLIKLFCMYIMPYFIILSLKENIKLEILLPGMAFLNMITSFIPLPGASLGAEGGFILIFHKFLLQKNIFFIMFLWRVLSYYLNILVGSLIMIYIILKEEKEIKNFIK;locus_tag=LOCUS_15450;note=WP_010966298.1 YbhN family protein (Clostridium) [pid:29.4%25%2C q_cov:89.3%25%2C s_cov:91.1%25%2C Eval:6.2e-31],MGA_1552
sequence07	MetaGeneAnnotator	CDS	1342	2361	.	+	0	ID=MGA_1553;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287604.1;translation=MKVLLYSEGKNLFSKSGVGKALEHQMKALELNGVSYTLNPEDNYDIAHINTIGIKSLKLLRELKKRKIPVICHTHTTYEDYKNSFFFSNFTSKIIKFQLKLMYNMADFLIYPSNYTKQLIKSYDIHKKGAVISNGVDINEFENKKEKLIEKFKKEFEIDKPIIMSAGLPFERKGVIDFYELAQEMPEYNFIWFGAKMTKLLPKKIKNILENPPKNLIFPGYVSREVLLGAYLVADVFCFPSYEENEGIVVLEALAAKTPIIIRDIPVYRDWLKDKKHCMKAKNKDDFKKLISLIIEKKIKLNGYEVAKERELETIGKYLKSIYEYLVYEEKEEIHNGII;locus_tag=LOCUS_15460;note=WP_002287604.1 glycosyltransferase family 4 protein (Enterococcus) [pid:43.8%25%2C q_cov:97.3%25%2C s_cov:93.3%25%2C Eval:3.7e-76],MGA_1553
sequence07	MetaGeneAnnotator	CDS	2445	2663	.	+	0	ID=MGA_1554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGRINGYTAYYKSSIKKEPQKTKKQQYVAPHVEKNIDKLASKLQKIGLYNKQGAKIVAKSIVTGNINIVA;locus_tag=LOCUS_15470;note=MGA_1554
sequence07	MetaGeneAnnotator	CDS	2943	5777	.	+	0	ID=MGA_1555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNIKAVFLLVILFSFVFTSFSFAEEKLVVLPGTIQSALGGTDWDPAGDVTKMTNIGNDIYQFKGIFPAGKYEYKVAVGGSWAENYGMNGEQDGKNIKLEIPEDNTEVTFTFDYNTKKITDSINGEAVVEETAPKVAVLGGLEIRLPGTIQSVLGGTDWDPAGDVTKMTHIGDDVYEFKAILPKGNYEYKVTVGGSWDENYGKDGAADGSNIELTVPADNTEVTFTFDYKTKSISHNLEIVGVNFIPVLTNTFEKKGKDADINVTNEFEFGILSKNLTVNSKTSLNFDLDHKKYTIVDSSIEKENLSLKDVEIEDFSADYKIGNLTVGGMINKSSYEKSTDFLGVIDPNTGSDDRDNTKNPEDIANNNIAGKVSYNNGIKLNAAVSSYKADIFEESKTKKTFGYLNLEKTFANDKIKVGTSNGLYSVKYDGKKENTAIDSTVYGEIKVNDKFSLKTEVGYVPTGTIETAITGTHKNGTNWDFIFDPADYDITDDISEVHLVGAFNGWDPADKTYTLTEQSDGTWTGTFADSVVGGKEYKFIYDATSWNGNEKGLPESSGSNAKVEETNRLDPKLDYGLNLYFAEANYNLFDKGNLKVGTKFLKANTYMPFASDDLLDDSSTGYVDNYLNADYKVLKNLKLYVEKTHKTQEVNRDKLLSTRLKAGFELTETPVVSYVKGYYLADPQDSNFNAELKEIFIETKTEKLPLVKYITVNTTQRFESKTSQYYVESELKEFSKMIEYVKGNLTYAVDDVYYSDQDGKAVQYWTEAKAHNLPIVSYVKAGYESDDNGGDGIVERSDYKDQDDNDWLKKFYAETKLEAKSLKNWDGLTVNYETRKLEEGKTDYTPSDLNQDEQYYVASEKSFIDWYSILTFTTGYKLPFDIQTNFTYKYDLAHKNTSEFEDDAMKVELEKKIGITTINASYNKQDGDEGEDYTKVSFKSVF;locus_tag=LOCUS_15480;note=WP_012257197.1 pullulanase-type alpha-1%2C6-glucosidase (Chloroflexus aurantiacus) [pid:34.4%25%2C q_cov:22.5%25%2C s_cov:17.7%25%2C Eval:5.8e-23%2C partial hit],MGA_1555
sequence07	MetaGeneAnnotator	CDS	5841	6800	.	+	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILNIFLILLSLAIIGCEGMLKDASEAGAGFGDIIVKQSNILIDSNLETTSGSGVTVTEGGIDFTTAEVKINGTSKGIGEKFEGLKSGEYKVTVEVKSIDKKDLYYGTEVVKLKVAEVLQPKITLDSWESAVNSWKITFNPTEAGVTVANEVHLVGTLNGWDPTDKTYSLVKQSDGTWSAIYDLDEGTEFKFIYDSTEWNGNDIGNNGANYKLGTNTDGVAEPVLAWKITFNPTEAGVTVANEVHLVGTLNGWDPTDKTYSLVKQSDGTWSAIYDLDEGTEFKFIYDSTEWNGNDIGNNGANYKLGTNTDGVATMDF;locus_tag=LOCUS_15490;note=MGA_1556
sequence07	MetaGeneAnnotator	CDS	6992	8608	.	+	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILKLLILFLSLFELSFASNISILEKNINENAKSFIEKTDLAIFYYTLSNVSNELSNEINANEKLNNIISNNLKSEKINNMEMFNKDFFYRQSILDNLYFGKRIGKKIPEKFKDLNWNITNVDDDKGNIILNYIFKRILNDLKYRKINIKNMEKNIEIELKNKPFYYGYFLTHIILYDSEFFSKNINISPYYKIIKELENLVDYVIKNKEYDLGYELYMCLSYFQLFENKEYKKLEKFLFKKNVFKDTILKGDTHLKVVYGISYAMKYEYTPKEKGFIESINGKIYYEVYGSKSKEEPLILISGGPGWSHEILYPLLNLSRKRQVILYDQIGTGKSNKVLTIENLSINDYIIDLSNIIQNLGLEKVSILGHSWGTMVAIDYTLKYPKKVSKLILASPVISASDWARDTKIKYNTLKSSDKDDEYTEKYLLKDLYKYMDYFIDFNENIYLKLWGESEYNINGWSKVYEKKEELNKIDKKVLITAGEFDEIYPETIKDWNNYLENSKYIIFKNTRHVHYIEDRVNFINEVNNFLKEEN;locus_tag=LOCUS_15500;note=WP_003439900.1 proline iminopeptidase-family hydrolase (Clostridioides difficile) [pid:27.4%25%2C q_cov:48.0%25%2C s_cov:97.3%25%2C Eval:1.3e-26%2C partial hit],MGA_1557
sequence07	MetaGeneAnnotator	CDS	8926	9858	.	+	0	ID=MGA_1558;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015631.1;translation=MEKKKIWLGSIFVIIAAVLWGLDGVVLTPRLYNLPVPFVVFLLHAIPFALMNFIFYKEYKKLKEFKIHDLIFMGLIALFGGAIGTLSIVKALFLVNFHQLSVVVLLQKLQPIFAIILARLILKEKTGKDFIVWASIAIIAAYFLTFGLNAPHIDAGNKNTILAAMYSIIAAFSFGSATVFGKFIVTNFDFKTATFFRYGFTTVIMAGILLFTKGFIPLVNVTKANWIILLIITFTTGAGAIALYYYGLKFIDAHISTICELAFPLSAAFFDVIINKSILSPVQWIAAFVLMITIVKISLNQNEIIEYKKA;locus_tag=LOCUS_15510;note=WP_011015631.1 DMT family transporter (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:93.5%25%2C s_cov:97.0%25%2C Eval:2.4e-82],MGA_1558
sequence07	MetaGeneAnnotator	CDS	9877	10977	.	-	0	ID=MGA_1559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNKFILKYKEYCFETFIKNLIVGSILNLFIVPIYFLQFHTKLKYFNIYFLITLIFSSFIYIYFYYTHKKNKKITYFLGIILIFLPNIFFNFLIFFNFENNLKTNYNLFHTIIFIFFFQFVFSISLNYFLILLITIIPFYINLVLLILYNKVNTNHFYTLIFPILLSIIFSIIAFFYKKQDKTFFITKLTLMNKTKELEKEIEKKVILQNILEKETLYDSLTTAYNRKALFRIFDKLMLELDSDDYISFNFLDIDNLKKVNDLKGHNNGDKLIKEFVRIISSEIRNSDYIFRIGGDEFVLIITKCTINTHNLILERISNICKDNNIHFSIGSVIKQLKHIKNLNEILKESDNLMYQDKRNNRKKY;locus_tag=LOCUS_15520;note=WP_011860865.1 GGDEF domain-containing protein (Clostridioides difficile) [pid:37.0%25%2C q_cov:44.3%25%2C s_cov:40.3%25%2C Eval:5.9e-22%2C partial hit],MGA_1559
sequence07	MetaGeneAnnotator	CDS	11004	12605	.	-	0	ID=MGA_1560;product=NFACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016576.1;translation=MIYFEGIHLKLLIDELKSIILNKKITKIVQYDKLNISLFFNKNNLFFSALPNLSICYINANKDNAPKEQLNFALILKKNLLGATLIDILQYNFERIMIFKFEKIDELGKKNIYNLIFEMMGKHSNIFLCDNKLKIINSLKPLFLEENKRNLFNGSDFEFFTSNNKLSPFDISEEQYNKIKEQYNLHKYISGIGKLTSINSNSYNEFIKNLNKRKSPILYKENNEIKIASFVRYQSLESFEKQSFNSISDMLNNYISTTISSVKINKLKQNYLKVITNKIKKNNNIIKNIIKEKEKYSDYEKYKNIGDILAANLYSIKPYQKNIELFDFYNNQNITIHLDENLTPQENLNIYYKKYNKLKKKLEYNIIREEEIKKELEYLFTLKNFIVLADNLNTLISIEDELIEQNILKRKIKKNNRKKRKNTINIEYIIVDNFKIYFGKNNKENEYITFKLADKNDIWLHIKDIPGSHVIIKGENPSENIILEAAKIAAKYSKINSGNITIDYTQKKYVKKIPNSKPGFVTYSNFKSIFLKI;locus_tag=LOCUS_15530;note=WP_011016576.1 NFACT family protein (Fusobacterium nucleatum) [pid:33.8%25%2C q_cov:99.8%25%2C s_cov:98.7%25%2C Eval:7.8e-80],MGA_1560
sequence07	MetaGeneAnnotator	CDS	12648	13313	.	-	0	ID=MGA_1561;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902078.1;translation=MSFENVNVMIEKFYKLFYETEELILKQGIKCLTTTELHVVEAIGNDSLTMNELSDRLGITMGTATVAINKLNDKGFINRKRSDKDRRKVFVELSRKGLKALKYHETFHQDIISKITKNLSNAELESFTTVFGKILTNLENQIEFVKPDIINNFMKGCKIKITEIKGSTLIKKFFKENGIVENKEVKILDKNKYNITLLVDNNKVEIDTIDSKNIIGLLLKD;locus_tag=LOCUS_15540;note=WP_005902078.1 MarR family transcriptional regulator (Fusobacterium nucleatum) [pid:46.2%25%2C q_cov:98.2%25%2C s_cov:97.8%25%2C Eval:5.0e-53],MGA_1561
sequence07	MetaGeneAnnotator	CDS	13323	13952	.	-	0	ID=MGA_1562;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902077.1;translation=MIKIAPSILSADFSKLGEEIIAISNAGADYIHIDVMDGNYVPNISFGPLVIKSIRDKTDKIFDVHLMIDKPERYIKEFVDAGADIITIHAESTVHLHRTIQLIKNFDVKVGVSINPGTPVNNISQIINDIDMVLIMSVNPGFGGQNFIEFSIDKIKEVRALSKSIDIEVDGGINNETAKKCITAGANILVAGSYIFNGDYEERISSLKD;locus_tag=LOCUS_15550;gene=rpe;EC_number=5.1.3.1;note=WP_005902077.1 ribulose-phosphate 3-epimerase (Fusobacterium nucleatum) [pid:67.6%25%2C q_cov:99.0%25%2C s_cov:96.3%25%2C Eval:2.8e-79],MGA_1562
sequence07	MetaGeneAnnotator	CDS	13945	14856	.	-	0	ID=MGA_1563;product=ribosome small subunit-dependent GTPase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627939.1;translation=MIKISTTSTIGRVLYKIKGFYYIENEEKNIFECKLKGINKRINRKDNCVVGDIVEFDPREKIINKILERKNILKRPLVANIDLLGIVFSIKSPNFDMERFNLLLLDCFYYNVKPFVIINKIDLVNNKELKIFKNSLSFLKNLNIDVFYISTITENIDTIKEYTKNKVTAFGGPSGVGKSTIINLLQNEKELETGEISKKLSRGRHTTKGATILHLNYGGYIIDTPGFSSLELPNIRNEKELLELFSEFYEYSINCKFNNCLHINEPNCYIKDLVEKNKLSKIRYDFYIKTYNTLKNERWNKYD;locus_tag=LOCUS_15560;gene=rsgA;note=WP_201627939.1 ribosome small subunit-dependent GTPase A (Fusobacterium canifelinum) [pid:52.4%25%2C q_cov:94.7%25%2C s_cov:100.0%25%2C Eval:1.9e-81],MGA_1563
sequence07	MetaGeneAnnotator	CDS	14873	15580	.	-	0	ID=MGA_1564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNIIIFLDFILIIFIIYFSINTGLKFFFNDFLLETPDLSNLTFNEAVVLLENSDIKLKKIDEDFSEFEKGKIYLQIPEAGSAIKKGRTIKVWVSKGKNRIVVPDFSNLDIIDAKVMAEQKGFSIKEIVYTHSNQKINTIITTDPKEGTIMSSDKHLSFLVSSGPINEFVRMPDIIGLNIDDARKKLEKNQLFIGSIEYIENDLIEPNIVFDASISVNEKIKKGSSINIIVSK;locus_tag=LOCUS_15570;note=WP_005902075.1 PASTA domain-containing protein (Fusobacterium nucleatum) [pid:30.9%25%2C q_cov:63.4%25%2C s_cov:74.5%25%2C Eval:5.3e-19%2C partial hit],MGA_1564
sequence07	MetaGeneAnnotator	CDS	15741	16301	.	+	0	ID=MGA_1565;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000683333.1;translation=MAKKDWEHGIIKVLLTEEQIKSRIKELGEEITRDFKDKEEEVIVVCLLKGSVLFFADLCREIKIPMKMDFMTVSSYGNEFESSREVKIVKDLDENIMGKHVIVVEDIIDSGLTLKRVLKMLGHREPKSVSLCTLLNKEARREAEVDVQYIGFDIADEFVLGYGLDFKQEYRNIPYIGIMGAFDGDE;locus_tag=LOCUS_15580;gene=hpt;EC_number=2.4.2.8;note=WP_000683333.1 hypoxanthine phosphoribosyltransferase (Salmonella) [pid:55.7%25%2C q_cov:89.8%25%2C s_cov:93.8%25%2C Eval:7.2e-54],MGA_1565
sequence07	MetaGeneAnnotator	CDS	16288	16821	.	+	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMSNTDSKLKELLDKREEENAKFRRKKKIYLFSFFSFLFVFVILFFFYKIFIQKPNIKIKTNKELVDNVVYLPVFDYYKLYSTKNKETTIDSYSKILNVKINKKYIVQLGIFKEFSNVRREKERLEKLGYKIYYEKNGDYYKLRFNVEFDNREKAESFAKNLMKINVINDYWIRLK;locus_tag=LOCUS_15590;note=MGA_1566
sequence07	MetaGeneAnnotator	CDS	16832	17638	.	+	0	ID=MGA_1567;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_011016282.1;translation=MNFKHKKKFGQNFLTNQDEVLNKIIEVSSVNANDSILEIGPGEGALTGYLLDIVNDVICVEIDKELEKILLKKYNTRKNFKLIMQDILKVDFDKEISKKVKVVANIPYYITSPIINKLIENRKYVEEIYIMVQKEVAERICSKKGKNRSILTLSVEYFGEAEYLFTIPKEYFTPVPKVDSAFMSIKLYKDNRYLDRVDEKTFFRFVKAAFSNKRKNIVNNLKTLGYSREIIEKNLEKLYLSNNLRAENLSIDNFIDLIILFKNGDVNV;locus_tag=LOCUS_15600;gene=rsmA;EC_number=2.1.1.182;note=WP_011016282.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:97.8%25%2C s_cov:99.2%25%2C Eval:4.8e-94],MGA_1567
sequence07	MetaGeneAnnotator	CDS	17631	17870	.	+	0	ID=MGA_1568;product=DUF4911 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016281.1;translation=MYSYEFFIKTEKKHIDFINKIIEAYEGVGVVRTLNPKEGEIKIITLNYFIKDIEKILENLRNKGVKLEITKQGKWGGII;locus_tag=LOCUS_15610;note=WP_011016281.1 DUF4911 domain-containing protein (Fusobacterium nucleatum) [pid:49.4%25%2C q_cov:97.5%25%2C s_cov:96.2%25%2C Eval:9.0e-15],MGA_1568
sequence07	MetaGeneAnnotator	CDS	17870	18592	.	+	0	ID=MGA_1569;product=pyridoxine 5'-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005482574.1;translation=MKLGVNIDHVATLRQARLAKEPDLVRAAVLAEKAGADGITIHLREDRRHIQDKDVYILREIVTTRLNLEMATSEDIIDIAVEVKPDMVTLVPEKREELTTEGGLNIQDKEVKEKTKKAIEKLHTAGIEVSLFIDARTDIMKIAKEIGAEFVEIHTGKYADAKTEEQRKEELKNIEDAVKAAKALKLKVNAGHGLDYKNVKDVVKIEDIVELNIGHSIVARSIFIGIEEAIKEMKRLIENV;locus_tag=LOCUS_15620;gene=pdxJ;EC_number=2.6.99.2;note=WP_005482574.1 pyridoxine 5'-phosphate synthase (Vibrio parahaemolyticus) [pid:58.3%25%2C q_cov:97.9%25%2C s_cov:95.9%25%2C Eval:2.1e-71],MGA_1569
sequence07	MetaGeneAnnotator	CDS	18579	19004	.	+	0	ID=MGA_1570;product=thioesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948808.1;translation=MKMYNDIFHRVYYNETDQMGRVYHSNFLIWMEKARTEYFRVRGTSYKDLEKIGVMLPVSDIQIKYFHAALYDDLIRIKTKINEFSRIKIEFEYEFYNEENILLAKGKSINIFTDKNGKIKRISKEIFEKIRGQKCQRDIQN;locus_tag=LOCUS_15630;note=WP_011948808.1 thioesterase family protein (Clostridium botulinum) [pid:40.0%25%2C q_cov:85.1%25%2C s_cov:89.9%25%2C Eval:2.2e-19],MGA_1570
sequence07	MetaGeneAnnotator	CDS	18980	19231	.	+	0	ID=MGA_1571;product=KH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899450.1;translation=MSKRYTKLEELLKYILEQLVEDKESIQITTTEERDLIILKVRLADGELGKVIGKNGLTANAIRGVMQAAGVKDKLNVNVEFLD;locus_tag=LOCUS_15640;note=WP_005899450.1 KH domain-containing protein (Fusobacterium) [pid:65.8%25%2C q_cov:91.6%25%2C s_cov:96.2%25%2C Eval:1.7e-21],MGA_1571
sequence07	MetaGeneAnnotator	CDS	19250	19780	.	+	0	ID=MGA_1572;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904385.1;translation=MELFYLGRINGTHHLKGTVKVYSFFEDVEKIINNKIIAEKSNGEKKILTINNIEIGGDKLLYVDFEEIKNKTEALNIMNAKLYIRRDILGTIEDGNIYQSDYIGLNVYDKEDNLLGTIEDIMETAAHDIFIILDENNEEIMIPNVEVFIKKIDFYNNKLIVDIPESLKNINKSEEK;locus_tag=LOCUS_15650;gene=rimM;note=WP_005904385.1 ribosome maturation factor RimM (Fusobacterium nucleatum) [pid:47.1%25%2C q_cov:95.5%25%2C s_cov:96.5%25%2C Eval:2.1e-33],MGA_1572
sequence07	MetaGeneAnnotator	CDS	19777	20529	.	+	0	ID=MGA_1573;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016280.1;translation=MKINILTLFPDMFSGFLNESIIKRALEKELIKINVINIRDFTFDKHKQVDDTPFGGGGGMVLKPEPLFRVLEKFKKSKIIYTSPQGKTLTQNLVKDLSKEKEITIIAGHYEGIDERVIEELVDLEISIGDYVLTGGELPAMIITDAISRLIPGVLGNTASYENDSFYNGLLDYPHYTRPAEYNGLKVPEVLLSGHHKNIEIWRKKESIKRTYIRRPDLLEKKLENKEFSKLEIKLLDEIKKEIKDKTEGE;locus_tag=LOCUS_15660;gene=trmD;EC_number=2.1.1.228;note=WP_011016280.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Fusobacterium nucleatum) [pid:66.5%25%2C q_cov:90.4%25%2C s_cov:95.8%25%2C Eval:2.3e-84],MGA_1573
sequence07	MetaGeneAnnotator	CDS	20531	21058	.	+	0	ID=MGA_1574;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964366.1;translation=MKIYSLGNKKPKISKKSYIFEGVTIIGDVEISENVNIWPGVVIRGDFDKIYIGKNCNIQENSILHNDYNKAIILEENITIGHGVILHGCYIEKNCIIGMGTTILDNSRIPKNCIVGANSLVTKKSKLEEGTLILGSPAKSIRKLIKEEREHIEKNYKEYLDLSKKYKKELIKEIK;locus_tag=LOCUS_15670;note=WP_010964366.1 gamma carbonic anhydrase family protein (Clostridium) [pid:52.2%25%2C q_cov:91.4%25%2C s_cov:95.8%25%2C Eval:1.6e-41],MGA_1574
sequence07	MetaGeneAnnotator	CDS	21055	21618	.	+	0	ID=MGA_1575;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904383.1;translation=MRDKIYLALVHYPVYNKRKETVATSVTNFDIHDISRSCRTYDIKEYHLITPVDAQIELTKRIIGYWQDGESGGFNKDREEAFENTYITESVEKLIEIIEKKEGKKPLIITTSAKTFSNSISYMDLSEKIFNDNNIYLLLFGTGWGLTQEIMDMSDYILHPIRPDGKYNHLSVRSAVSIILDRLLGDN;locus_tag=LOCUS_15680;note=WP_005904383.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:67.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-70],MGA_1575
sequence07	MetaGeneAnnotator	CDS	21630	22346	.	+	0	ID=MGA_1576;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015921.1;translation=MNIIKFDSLDSTNNYLKNLKTVVGDEVIIAKTQTNGRGRRGNEWASYEGAALFSFVLLKDYNLSIEKYTKLPFIVGISVLKVLKSIVNLEFKFKWTNDIYLNNKKISGILVENINNRFIIGIGININNTNFGKFKDIATSLKLETEREFDIESIIKKVIEQFEKEFSNYKNNGWKEQLEYINNYNYLFNKEIIVKNINNSYQARAKEIDITGKLIIEKDNNIEKIDIGEISIKKLDEE;locus_tag=LOCUS_15690;EC_number=6.3.4.15;note=WP_011015921.1 biotin--[acetyl-CoA-carboxylase] ligase (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:9.8e-45],MGA_1576
sequence07	MetaGeneAnnotator	CDS	22365	23678	.	-	0	ID=MGA_1577;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016201.1;translation=MKPIVAIVGRPNVGKSTLFNRLIGDKISIVADTPGVTRDRLYRECEWTGKEFMLVDTGGLEPRNSDFIMENIKKQAEVAMNEAHVIIFVVDGRAGITALDEEIATILRKKNKPIVLAVNKIDNYISQLEDTYEFYGLGFEKLVPVSAEHNTNLGDMLDAVVEDLEHINLPEEEEGLKLAIIGKPNAGKSSLVNTLVGEERTIVSSLAGTTRDAIDTPLVFNNQNFVLIDTAGIRRKSKIEEDLEYYSVLRALKSIKRADLCVLMIDGVEGISEQDKRIAGVAHEEQKPIIICVNKWDAVDKSEINKKTYRQILESHLPFLSYAPILFISAKNGEKVLDILTLSINIYEEYTKRITTGLLNTVLNEALILNPPPTRKGHAIKINFVTQISTAPPKFVLFCNYPELLHFSYMRYLENKFREAFGFEGSPISFIVNKKGS;locus_tag=LOCUS_15700;gene=der;EC_number=3.6.5.-;note=WP_011016201.1 ribosome biogenesis GTPase Der (Fusobacterium nucleatum) [pid:68.6%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:3.4e-176],MGA_1577
sequence07	MetaGeneAnnotator	CDS	23675	25396	.	-	0	ID=MGA_1578;product=YgiQ family radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016615.1;translation=MFIPTTKEELKFLKWNQLDIILISGDTYIDSSYNGSAVIGKYLISQGYKVGIIAQPDINSDKDITRLGVPKLYFGVSSGCVDSMVANYTATKKKRQNDDFTPGGINNKRPDRAVIKYVNLIQRYFKGENKRPILIGGIEASLRRIVHYDFWSNSLRKSILFNSKADYLIYGMGEKPILEFSKAIENNTSPNDIRGLCYISNKPKNNFIELPSFEECKSDKYKFIDAFNKFYLNNDPLTAKGLYQKHDNRYLIQNPPAYHLTTKEIDFVYDLKYEKDVHPFYKKDGIVKALDTIKNSVTTHRGCYGECNFCAIAVHQGRTIIQRSEESILKEIESIASEKNFKGYINDIGGPTANMYGIECEKKLKLGSCKNKRCMFPNTCKSLKPSHKKYNSLLTKARKIKNIKKIFIASGIRYDLILSDKNFGNKFLENLIKYHISGQLKIAPEHSEDNILNKMGKQSKNVLVEFKNKFYELNREYNQKQFLTYYLIAAHPGCDENEMKKLKKFASKELRVNPEQVQIFTPTPSTYSTLMYYTEIDPFTGKKIFVEKNINKKYNQKNILINSNNFRKKRRYK;locus_tag=LOCUS_15710;note=WP_011016615.1 YgiQ family radical SAM protein (Fusobacterium nucleatum) [pid:62.1%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:1.6e-216],MGA_1578
sequence07	MetaGeneAnnotator	CDS	25544	26767	.	+	0	ID=MGA_1579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEANILQTPNISGVEKVTSSKVSTKDIKNGKKIFDFTKIFNTTKNKKSLLEANKNNILNITNKELVDAKKHTDKDVTKEVLAGILLANANEKSSDTKIAEIKTTSTKDIGNRISRAQLGIKLANSNEILSKDEGLKIKELSSEKQKVATELIAGKELATKSKVKNNDDIFQKNKIRVKKHENNKDVFIGEGLNSDSQVQFSKTDVKGRNDLAFISSYGLKKVNKKNKDDEIQITNIDSKNMNFELKTKEGTEKVFAPNQSITYETVMEQIENGLKVNYNSQLKEMKIKLKPEELGEVEVKFKIENNIMKAEFVVQNQTVKEIIENKFNDLKENLLKQGIDAQEVNVYVSSDNQNNQNNQNNFRERYQFLANDNNTNTPIINDIHLNAVESTARLNNNITKNGVNIVV;locus_tag=LOCUS_15720;note=MGA_1579
sequence07	MetaGeneAnnotator	CDS	26777	27283	.	+	0	ID=MGA_1580;product=flagellar hook capping FlgD N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460741.1;translation=MQITNTGLKIPKELQESSPVVNESQQLGKDDFMKLLVAEMTNQDPLDPKTNTESIAQMAQFSALEQGENLNKSFNSMLRFQTLNTLSSSAQMIGKYTRAKIDGEEVVGQIKSTHLENGQVFANVIDSENQEIKIPLETIVALSKEKFEEKGKTDSKKESLPKNVIDLS;locus_tag=LOCUS_15730;note=WP_011460741.1 flagellar hook capping FlgD N-terminal domain-containing protein (Desulfitobacterium hafniense) [pid:40.8%25%2C q_cov:86.3%25%2C s_cov:78.8%25%2C Eval:1.6e-19],MGA_1580
sequence07	MetaGeneAnnotator	CDS	27304	27687	.	+	0	ID=MGA_1581;product=TIGR02530 family flagellar biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392299.1;translation=MARLLNSTYIQGLKSVNNNIDNSNKNNHGNKPSVAFENVLENEKKLKFSAHAQKRIESRRMEIKEEELKKVQEGVKKLREKGCRDSVVIAKNRAYVISIKNNTVVTIVDEPNLKDNLFTNIDSLALV;locus_tag=LOCUS_15740;note=WP_011392299.1 TIGR02530 family flagellar biosynthesis protein (Moorella thermoacetica) [pid:39.0%25%2C q_cov:78.0%25%2C s_cov:78.1%25%2C Eval:1.7e-16],MGA_1581
sequence07	MetaGeneAnnotator	CDS	27797	29563	.	+	0	ID=MGA_1582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGALYSSISGLKAHQTKLDVVGNNIANVNTAGFKRSSVNFEETMTRTLKGARGPVEGRGGTNPSAIGLGTSVSSINTDFKSGAQQTTGRKTDLRIDGNGFFILKEGNSRFYTRAGNFNLDANGNLVTPSGMKVQGWQATVREDGTMGIDSTTPLGDLQIRVGSSLPGKATDTLNYTGNLQQKAGISDLTLSVDDLSGTGKKVDVGIKFSYDKNSDKWYWKAQGEGIVGQGAFQLDEDGNIKRSFPSETIPIQNANGVLINSPVAGKITFSEIADVKNKKTASFTENSYVTSSEVYDSLGKTHTLGIKYTKLAENVWDFDVTSGSGEPVKNGKGFVTFDSVGQINGKYKYADPNDQTTWPEGVTAMYFENGVVDPTTGQVTYGDVNSEYSMDANGVVRFRGAEVPGGPKKGQIMNSQFDEKLIFDPAEKGSAPPPEGGASPLEISLNFNNVTQFAAQTTITLESQNGYGMGELETFNITDSGDIMGFYSNGYEQTIGKIALAKFTNSEGLQNIGGSAFKQTSNSGEAMVLSPGTAGTGKVVAGALEMSNVDLAQEFTDMIIAQRGFQANSKTISTSDQILENVINLKR;locus_tag=LOCUS_15750;note=WP_002680830.1 flagellar hook protein FlgE (Treponema denticola) [pid:51.1%25%2C q_cov:31.1%25%2C s_cov:39.5%25%2C Eval:1.7e-46%2C partial hit],MGA_1582
sequence07	MetaGeneAnnotator	CDS	29649	29840	.	+	0	ID=MGA_1583;product=flagellar FlbD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392301.1;translation=MILLTKLGKEKKEIVINAELIETIEENPDTVINLTTGKKFLVNEKKEEIIEKIIKYRKSIQLI;locus_tag=LOCUS_15760;note=WP_011392301.1 flagellar FlbD family protein (Moorella thermoacetica) [pid:53.3%25%2C q_cov:95.2%25%2C s_cov:84.1%25%2C Eval:1.5e-09],MGA_1583
sequence07	MetaGeneAnnotator	CDS	29853	30623	.	+	0	ID=MGA_1584;product=motility protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870068.1;translation=MDIATIVGFVLIFALMSMGMGFNFGPFIDPPSFLIVAGGTFGALFMSFPLNVVLGLPKIGMKAIKNQVPDSAGLIATLVSFSEKARKEGLLAIEADIETIEDDFLKKGIQLVVDGTDPELVKNILDTEVGFTGERHELGKSIFKSIASLGPAYGMIGTLIGLILMLGSLDDPSTIGPKMAIALITTLYGSVLANALGDPIANKLEFYNTKELAFRELAIEGILSLQAGDNPKVLEEKLKSFLSPDERASLSKEEGE;locus_tag=LOCUS_15770;note=WP_012870068.1 motility protein A (Thermanaerovibrio acidaminovorans) [pid:54.7%25%2C q_cov:99.2%25%2C s_cov:97.7%25%2C Eval:1.2e-70],MGA_1584
sequence07	MetaGeneAnnotator	CDS	30626	31486	.	+	0	ID=MGA_1585;product=OmpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986952.1;translation=MAEKKCPPEGLPGWMGTYGDLVTLLLCFFVLLFAFSTVDSQKYKNLIMSFKGTMGVMKGGKTISPDELLTNSRIEYKGSEYRYQYLSKKIDGELKKYSGDEYTQNRNENSSESTENQNKENQTKQTKKNLGEITNEDTNVKVTERGIEISLGDRVLFDLGKAFLRKEAKPILDIVYNNIKDIENNIIIEGNTDNLPINNKEFKSNWELSTARAIAVLRYFISKNSNIEKRMSVAGYADTRPIATNDTKEGRQKNRRVVIVILKSLDERFQEKVASENPVVSDQGGN;locus_tag=LOCUS_15780;note=WP_011986952.1 OmpA family protein (Clostridium botulinum) [pid:35.8%25%2C q_cov:88.8%25%2C s_cov:91.1%25%2C Eval:3.6e-34],MGA_1585
sequence07	MetaGeneAnnotator	CDS	31488	32024	.	+	0	ID=MGA_1586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADEAKNNVQEPEKKGTPFLVKALIIATLAILVVVISTATAFFVATKISSKANNQQELVQKDTNVDSVEKIEYGQTAYFGDYTVNLNEDNPRYLVVSIYFEYSPKIKAKELEKIKAEVETNKVILQDRVISILMSKSIADLKADNDFIKLRELIKDEVNKVLGKEYLINIRFSNVLIQ;locus_tag=LOCUS_15790;note=MGA_1586
sequence07	MetaGeneAnnotator	CDS	32047	33036	.	+	0	ID=MGA_1587;product=flagellar motor switch protein FliM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000136083.1;translation=MADVLSQDEIDALLSAISTGEVDIDKAKSEEEEKKIKLYDFKRPDKFSKDQLRTLQMIHETFSRLITTMLSGQLRTSVQIQVTSVDQISYQEFIRSIPELTLLTIYEMGTLEGSAILEINPSIAYTIIDRLFGGNGFKELEIYREPTDIESKVMEKILSKILGYLSEAWKDVTEVMPRIEQMESNPQFIQIVGPNEMVVVISFEIKVGNKSGIMNICYPSPLIDPIVSKLSAQYWFSNLKKEKTEENFEIIRERLNKVKVPLIVNLGEIDINFNEFIKLQVGDVLSLNTSIDKSLSVLVGNKEKFKALPGLQGKKMAISIEEVIEEGSE;locus_tag=LOCUS_15800;gene=fliM;note=WP_000136083.1 flagellar motor switch protein FliM (Leptospira) [pid:54.7%25%2C q_cov:96.4%25%2C s_cov:93.0%25%2C Eval:4.8e-97],MGA_1587
sequence07	MetaGeneAnnotator	CDS	33040	34251	.	+	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGVLSQEEINALLAGTDLSDEPEESNSSGYNLTKEEADAIGEIGNISLGSSSTALSTLLSKEVQITTPKVSVMSYNDFISESGADEKVLCQIEYRTGFIGLNILIIDKKDAILIGDLMMGNDGSNPPAELDDIYLSAVSEAMNQMMGSSATSLAGMFSKEVDILPPQLTVTDPEEIKNQTEFFKSNDEFIAVSFDMEIENLIKTKIYQIMDINFAKELIDEMFGMMNATSEPPKEEKLEPQAQPTYQAPPQPQAQPTYQAPPQSQAQPMYQAPPQPQAQPMYQAPPQPQAQPMYQPNYNVQPAQFQNFGTASQASIDANLDMIMDIPLRVTVELGRTKLPIKEILDLGAGSIVELDKLAGEPVDILVNGKLIAKGEVVVIDESFGVRITDIVSKMERINKVQ;locus_tag=LOCUS_15810;note=WP_011460753.1 flagellar motor switch phosphatase FliY (Desulfitobacterium hafniense) [pid:40.0%25%2C q_cov:57.8%25%2C s_cov:55.3%25%2C Eval:3.4e-42%2C partial hit],MGA_1588
sequence07	MetaGeneAnnotator	CDS	34266	34634	.	+	0	ID=MGA_1589;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816218.1;translation=MSKGKILIVDDAAFMRMMIKNILTKEGYEIVGEAENGAIAVAKFKELNPDLVTMDITMPEMDGISAVKEIMSSNPGAKIIMCSAMGQQAMVIDAIQAGAKDFIVKPFQPDRVIEAVSKVMGS;locus_tag=LOCUS_15820;note=WP_005816218.1 response regulator (Desulfitobacterium) [pid:77.4%25%2C q_cov:94.3%25%2C s_cov:95.8%25%2C Eval:1.0e-45],MGA_1589
sequence07	MetaGeneAnnotator	CDS	34636	35019	.	+	0	ID=MGA_1590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNTYFLNLILFLILMLLVIISYTLKKNGIKLNKKSNVINEITRYYFNAKCYISLIEINKKYILVGISENSIVKIDEFDELFLKDEFEKKEFTSFLDSYKNKNSNIEINNFKEKLKKMREAENEKKN;locus_tag=LOCUS_15830;note=MGA_1590
sequence07	MetaGeneAnnotator	CDS	35003	35740	.	+	0	ID=MGA_1591;product=flagellar type III secretion system pore protein FliP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965449.1;translation=MRKKISSIFYVLFAISSYAAIEFPQIELKVGSGAGNNNLVASLQILLIMTILTLAPSIIILTTAFVRIIIVLHFIRQALGLQQMPPNQVLVGLALVLTFFIMQPTFNDILENAVNPYLDNKISEQLFFKNIEKPLKTFMLKQTKTEDLELFLKISKSNIPKNREEISIFVVTPAFLISELTRGFEIGILIFIPFIIIDMIVATVLMSLGMMMLPPAMISMPFKLVVFVMVDGWNLILDSLVKSFF;locus_tag=LOCUS_15840;gene=fliP;note=WP_010965449.1 flagellar type III secretion system pore protein FliP (Clostridium) [pid:48.3%25%2C q_cov:93.9%25%2C s_cov:88.9%25%2C Eval:8.7e-60],MGA_1591
sequence07	MetaGeneAnnotator	CDS	35750	36016	.	+	0	ID=MGA_1592;product=flagellar biosynthesis protein FliQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435976.1;translation=MTEEMIMELITSALMTILKISLPILIVGLLVGLIVGIFQATTQIQEMTLSFIPKIISIFIVVFVLGQWMLVTLIEYTKDLIKMISRLG;locus_tag=LOCUS_15850;gene=fliQ;note=WP_003435976.1 flagellar biosynthesis protein FliQ (Clostridioides difficile) [pid:47.1%25%2C q_cov:96.6%25%2C s_cov:95.5%25%2C Eval:2.2e-16],MGA_1592
sequence07	MetaGeneAnnotator	CDS	36019	36801	.	+	0	ID=MGA_1593;product=flagellar biosynthetic protein FliR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816212.1;translation=MENFYVKVIIFLLIFSRIAGIFIISPVFSHNAITQKVKIGISAFIALLLYNSLAIQESKFYDITFSNLTSFLIKEMLLGAILGYVILLIFSIVQTASQIYSVNMGLVMASVFDPISQFQIPVLGQIKYLVLMGLFFIYGVHRKVLFLLADTFYKYPIGDLNYNINGITEFLIKFFIYSFILSIQVAMPILMVLLAVDVVLGVMSRIAPQMNVFFIGMPLKIIVGLILLIKFIPIFILYFNNVFEKMYLHLGEIIKIAFNS;locus_tag=LOCUS_15860;gene=fliR;note=WP_005816212.1 flagellar biosynthetic protein FliR (Desulfitobacterium) [pid:29.0%25%2C q_cov:94.6%25%2C s_cov:93.5%25%2C Eval:1.3e-24],MGA_1593
sequence07	MetaGeneAnnotator	CDS	36814	37899	.	+	0	ID=MGA_1594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKILKIKINLQLFADSSGDKTEEATPKRRQEARKKGQVAKSQDLGQIATLLVGIIVLRYSNTFFLVNINNYVSKQLSNLTFKELTQEKILEIISEFTEMFFTTVFPILISVLAIGLIINYVQVGFIFTLESLKIDLNKINPLNGLKQLFSIKKIIELTKTIIKLILIGFYAYYEIKDKLEESLKAPFFSVENDFILMLNLCFSVIIKISVALLIVALIDYMYQKWEFEKGLKMTKQEVKDEFKQTEGDPQIKSKLRQMQKDLLNKKMIEKVPEATVIITNPTHISIALKYERGMGAPEVVAKGIDFMALRIREIAKEHNVPLIENKPLARAMYPIVEVNQEIPEEYYQAVAEILAVILE;locus_tag=LOCUS_15870;note=WP_011986950.1 fused FliR family export protein/FlhB family type III secretion system protein (Clostridium botulinum) [pid:41.6%25%2C q_cov:94.7%25%2C s_cov:56.2%25%2C Eval:3.3e-78%2C partial hit],internal stop codon at [36799:36801](+),MGA_1594
sequence07	MetaGeneAnnotator	CDS	37916	39985	.	+	0	ID=MGA_1595;product=flagellar biosynthesis protein FlhA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965446.1;translation=MAILDSGIKNASISTLIPIGLIGVILMFFMPIPTFLLDTFQAFNITIAITIFLLSMYIKEPLDFSVFPSVLLVTTLYRLALNMSSTKLILLQGLNFNGKLIKTFGDFVVGGNYVIGIIVFVILVVINFIVITKGSERVAEVGARFTLDAMPGKQMSIDADYNAGIISEEEAKERRKKIQMESDFYGSMDGASKFVKGDAIAGIIITIVNILGGFLVGILRGEGLAEAASTYTILTIGDGLVSQIPALLISVATGMVVTRSASESDFGTDIIEQFFQEPKILYLISGALFILGVIPGMPKLSFFSLSIFLGGLGYILTKSIKEAEAKSEEEEIENVSNTEENQIEEVKNLLKVDPMELELGYSLIPIVDKEQGGDLLERITMIRKQLAMELGIMIPYMRIKDNMQLNPNEYNIKIKSSVVAVGDIMIGSYLAMNPGNIEEEIVGVPTIEPAFKLPAIWINEEQREKAELLGYTVVDPTSVLATHITETIKRHAADILDREAVKELIDNIKDEYNVIVEEVYPKKFDLGEIQTVLQNLLNEGISIRNLPLILEAMADASKLTQNIETLSEYVRIGLARQICNEFKGPDGKLRVLTLSPETEEFLKNNLQETELGNYISLDPVSNNKLLSSISEENNKCVMSGYPTVILVAPEIRKPLRGLIERDFKGIAIISYNEIIADIELEAIGMVSVE;locus_tag=LOCUS_15880;gene=flhA;note=WP_010965446.1 flagellar biosynthesis protein FlhA (Clostridium) [pid:46.7%25%2C q_cov:97.7%25%2C s_cov:97.5%25%2C Eval:2.6e-179],MGA_1595
sequence07	MetaGeneAnnotator	CDS	39985	41313	.	+	0	ID=MGA_1596;product=flagellar biosynthesis protein FlhF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965445.1;translation=MLDIKNIKLKKVKTYIEDEYRIAYAKARKELGNNLILIDKKEIKQGGVFGFFGKKKIKVTYGLEETQDYIQKKEIKAGSNVELLQALKDAAKKTIENNTENNAEEKKTGIYSPFKKENFKSIDKIKEEISIKEVNNFKPLSETLKNNEKTESFTFIEKTDEPNLEDIKKEIQKELSRELRNEKTEFFNVDDETEEFIEKLRENDIPKDIAIEINNFFTEKGYSKKNFKEGLGEYFLQHIKTSENVLDKKFLMLVGPTGVGKTTSCAKIVANNWRNEKEVAFITADTYRLEAVSQIKAYANIMRVPVEVVKRPEDLIKAVEKFKDKDIVLMDTAGRSPKNTEQMNELKEYVENIGSEIEVVLVMSATSKLKVLYETIEKFKYIGFSSIIFTKIDETSSVGSILTIMKKYNIPISFITTGQTVPDDIEIATKGKLKEIFIEGIN;locus_tag=LOCUS_15890;gene=flhF;note=WP_010965445.1 flagellar biosynthesis protein FlhF (Clostridium) [pid:31.9%25%2C q_cov:96.6%25%2C s_cov:97.9%25%2C Eval:2.4e-47],MGA_1596
sequence07	MetaGeneAnnotator	CDS	41315	42196	.	+	0	ID=MGA_1597;product=MinD/ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000371638.1;translation=MAIDQAANLRRIVKEKDLNLDKNSFKHAKILAVTSGKGGVGKTSLSVNLAALLAKSGKKILVIDADLGLSNVEIMLGVTPSYTLNDIITNKKKIEEVIIKGPFKIDFISGGNGFLELAELTDIEREEILIKIQKLDEIYDIIIIDTGAGISKNVTAFLEIADEILVITTSEPTSLTDAYSIIKILKENGNLEKVGLIINRVKSENEYIQASKVLINTTKRFLKVDIKDIGYIFEDVSVRKTIYKKTPFTIYYPDSKASTCVKNILSKITDTKIVGKEETLIDKFRKWFKSSSG;locus_tag=LOCUS_15900;note=WP_000371638.1 MinD/ParA family protein (Leptospira) [pid:39.0%25%2C q_cov:97.6%25%2C s_cov:94.1%25%2C Eval:1.2e-56],MGA_1597
sequence07	MetaGeneAnnotator	CDS	42202	43278	.	+	0	ID=MGA_1598;product=chemotaxis response regulator protein-glutamate methylesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_119841931.1;translation=MIKVLIVDDSLFMRKIIGKILEEDDEIVVVGSAKNGKEAVEMNLKLNPDVITLDVEMPIMNGLEALKEIMNTKPTKVIMLSSLTTEGAKETIEALENGAFDFLSKPDGKSVSLNIEKISDELIQMVKEAKKANINLLKVNKVKKSKEEKISFSSILKKKAKKELHKGHKKPSKIVSIGISTGGPKALQTIIPKIPEDIDAGILIVQHMPPKFTKSLADRLNELSNIEVREAQDGDKVERGVAYIAPGSHHMTLSKDKETIKLNLDPPSQGHRPSVDVMYNSLIKNYDMKKLIAVIMTGMGKDGAEGIKKIRELGGITIGQSKETCVVYGMPRVADELGGVEYVADLEKIPEYILKHIK;locus_tag=LOCUS_15910;note=WP_119841931.1 chemotaxis response regulator protein-glutamate methylesterase (Salinibacter ruber) [pid:38.9%25%2C q_cov:99.2%25%2C s_cov:97.8%25%2C Eval:6.5e-66],MGA_1598
sequence07	MetaGeneAnnotator	CDS	43297	45336	.	+	0	ID=MGA_1599;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392263.1;translation=MSMSQYMSVFIDESREHLQLMNDSLLEFEQDTEDVKIVNEIFRAAHTLKGMSATMGFNRIAELTHHMENVLDNIRNGVSIADGTTVDILFECLDTLNLLVDEVIETGQETTEVSDLMSKLDEMVKGAGKTTTKPSSKIEKKETPEEKKEEIQAEKEIDEQVEFNEYEKEILAAGKGKEMAPYLIKVELDEGCLLKAARTYMVFRNLEEIGEVIKSIPSVQELEEEKFDNSFLVAFISKKSIEEIKNSILEVSEVKDVLVSDIDINMSEKTEAREIKAVKKISEKQNKVKKSKSMVKKTTTTVRVDTEKLDLLMNLVGELVINKTRLAQLGLEYNLQDLSETLSHVDRVTSDIQAVVTKVRMVPIETVFNRFPRMVRDLSKDLGKDIDLIIEGKETELDRTVIDEIGDPLVHLIRNSVDHGVELPDKRESKGKPRTGTILLKAEHEGNSVVITIKDDGKGMDTEVLANKAIEKGILTLEEVEKLSHEEKLNLIFAPGFSTASEITDLSGRGVGMDVVKTKIEALSGSIEMSSEVDKGTETRIKLPLTLAIIEALMIKLEEEVYAIPLANIVETIDIAKEDIRTVQNEKVILLRGEIVPILNLSSILEVKTEKPEIEDRNTVVIVKAGNKKIGFIVDVLIGQQEIVIKSLGKMFQGTKGITGATVLGNGEVALILDVLTLV;locus_tag=LOCUS_15920;note=WP_011392263.1 chemotaxis protein CheA (Moorella thermoacetica) [pid:44.5%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.9e-166],MGA_1599
sequence07	MetaGeneAnnotator	CDS	45362	45817	.	+	0	ID=MGA_1600;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939190.1;translation=MSENSKNETLQIIGFKLNDEEYALEIENVQEIIKKTKMTRVARSKDYIKGVINLRGIVFPIIDLKYRFNMSSQTYDDNMRIIILEVNGVSAGIMVDSVSEVIEVDKSKILANPQQSNSEINTDYLKGVCKVNEDRLMTLLNIEKVLEIKNN;locus_tag=LOCUS_15930;note=WP_010939190.1 chemotaxis protein CheW (Desulfovibrio) [pid:41.4%25%2C q_cov:92.7%25%2C s_cov:87.3%25%2C Eval:4.6e-27],MGA_1600
sequence07	MetaGeneAnnotator	CDS	45835	46458	.	+	0	ID=MGA_1601;product=chemotaxis protein CheC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943818.1;translation=MSITIDKLGERELDILKELGNIGAGNAATALSQILARKVDMNVPQVKVYNVTDVPELLGGAENIVVGVLLKMFGDLQGNIMFLLPEDSARKLLGMMVGQEVEDVTDDMSRSAIMEVGNIIASSYLNSLSFFSELTLIPSTPAFAYDMAGALLSAVLFEVSELSDQVVLIETDFSGNGEAIKGHFFVLPNLESLNALLKLVVAKVDGK;locus_tag=LOCUS_15940;note=WP_010943818.1 chemotaxis protein CheC (Geobacter sulfurreducens) [pid:47.9%25%2C q_cov:90.8%25%2C s_cov:93.1%25%2C Eval:2.6e-45],MGA_1601
sequence07	MetaGeneAnnotator	CDS	46448	46930	.	+	0	ID=MGA_1602;product=chemoreceptor glutamine deamidase CheD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359122.1;translation=MENNVIKVGMADYKVGSAPAKLITLGLGSCIGITLYDKRKKAGGMAHIMLPKNNTKDQNSLKFADTAITLMIKDLEKMGLNKRNMEAKIAGGAQMFSFGKSDQLNSIGSRNAIAVKEILKENNIRIVAEDTGGNKGRTIELDLDTGKLRIKTIGQGETYI;locus_tag=LOCUS_15950;note=WP_003359122.1 chemoreceptor glutamine deamidase CheD (Clostridium) [pid:53.2%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:4.2e-40],MGA_1602
sequence07	MetaGeneAnnotator	CDS	46954	47727	.	+	0	ID=MGA_1603;product=RNA polymerase sigma factor WhiG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003973389.1;translation=MIDDKELWIEYKKTGNLEVREQLIIKYIPLVKYVVGKMITNLPRTVEYDDLVEYGIIGLLDAVEKYDLSKNINFKTYAVTRVRGSIYDELRSQDWVPRSVRKLAKDIEKAYIQLEKETGKEPTEEEIAVFLGIPQKKIEELYSKVDLGNISSLDDIVYDNGESKTTLVNLIEDKNVESPEEKLQKEEVKQLLIEKLKELKEKERLVLTLYYYEKLTLKEIGEILSISESRVSQIHSKAILKLRSKIATKFGNYAEFF;locus_tag=LOCUS_15960;gene=whiG;note=WP_003973389.1 RNA polymerase sigma factor WhiG (Streptomyces) [pid:42.6%25%2C q_cov:94.2%25%2C s_cov:87.1%25%2C Eval:9.7e-57],MGA_1603
sequence07	MetaGeneAnnotator	CDS	47801	48070	.	+	0	ID=MGA_1604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIDFGLIFKNSEIISKLFTSQEKILFNQQKNIKLNIEKSKNLKKEEINRIEKIELSKINTNIRKNKKQKNKNRYRDNNNGRWIDFEG;locus_tag=LOCUS_15970;note=MGA_1604
sequence07	MetaGeneAnnotator	CDS	48079	48594	.	+	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080669.1;translation=MNIGYFKFINNRDSYISGLLIVDNRGIPIEFKYTNEIIPSKKQKLLYGTTLKSYLKEELMFKNLVTSLENIVDIVIVDSIEDISLNKYIDNKVVVIRKTQERQLKDLKEFQFVAKDELLYQYEEKENPIRVIFKEEFSEEIIDILNEIKIEDILEPINRIEEVLNEICNGN;locus_tag=LOCUS_15980;note=WP_004080669.1 hypothetical protein (Thermotoga) [pid:30.8%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:3.1e-18],MGA_1605
sequence07	MetaGeneAnnotator	CDS	48579	48845	.	+	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQWKLEKIFNKKNKKDEKIKIEIKNKEIKKNILNINNVKFNNKEIEIKDGFNKIKTIRIRGYKFKKNTKINKEEDIKITNLIINKKKI;locus_tag=LOCUS_15990;note=MGA_1606
sequence07	MetaGeneAnnotator	CDS	48935	49690	.	+	0	ID=MGA_1607;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902187.1;translation=MRKTIVAGNWKMNKTNAEAVETLKKLAELTKDIDGVEIVIGAPFTALSDAVKAVEGSKIKIAAQNMNPNEKGAFTGEISPLMLNAIGVKYVILGHSERREYYGETNEFINSKVKTALAHDLTPILCVGEKLEDREANKTEAVVEDHVKGGLKDLTKEEAKKVVIAYEPVWAIGTGKTASPEQAQEVHKFIRNLLTDMYGEEIANEITIQYGGSMKPENAKELMSQKDIDGGLVGGASLEADSFAKVVKAGL;locus_tag=LOCUS_16000;gene=tpiA;EC_number=5.3.1.1;note=WP_005902187.1 triose-phosphate isomerase (Fusobacterium nucleatum) [pid:66.0%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.5e-94],MGA_1607
sequence07	MetaGeneAnnotator	CDS	49745	51283	.	+	0	ID=MGA_1608;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948029.1;translation=MAKKPLVLMILDGWGINPHKNEKNAIEEVHPKNYYDILEKYPNTQILAAGEAVGLPDGQMGNSEVGHLNLGAGRVIYQPLVKISKDIKDGVLFENKVLKPAFERIKKENKALHLMGLLSDGGVHSHIEHLFGLLEMAKRENLEKVYIHVITDGRDTPPKSSLIYIEQLENKIKELGVGKIATVSGRYYAMDRDTNWERTEKAYRAIIFGDGEKHLSAKKAVETSYMEELTDEFVKPTVITDMAGNAHSKAENGDLFVFFNFRPDRARQITRAINDKEFKHFVRGNNSEVEFICMRQYDSTIDAKIAYEDDDINNTFGEVISKAGLKQLRTAETEKYAHVTFFFNGGVETSFEGEERVLVDSPKVATYDLQPEMSAYEVTDKLVESIENELYDVIIVNYANPDMVGHTGIFEAAKKAVSVVDECLGKVKEKVLEKDGVLLITADHGNVDLMEDPKTHVPFTAHTTNPVPFIVVTNDKGIELKDSGKLADVAPTMLKLLGIEKPKEMTGESLIK;locus_tag=LOCUS_16010;gene=gpmI;EC_number=5.4.2.12;note=WP_011948029.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Clostridium botulinum) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-175],MGA_1608
sequence07	MetaGeneAnnotator	CDS	51297	51524	.	+	0	ID=MGA_1609;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904328.1;translation=MLLLFKITLFIISIFLIGLVLIQPDKSHGMSGSIGGGAVNTVFGVNEDGGPLAKATQIVAALFIINGLIVYLLTL;locus_tag=LOCUS_16020;gene=secG;note=WP_005904328.1 preprotein translocase subunit SecG (Fusobacterium) [pid:59.7%25%2C q_cov:96.0%25%2C s_cov:97.3%25%2C Eval:1.0e-18],MGA_1609
sequence07	MetaGeneAnnotator	CDS	51606	52844	.	+	0	ID=MGA_1610;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016291.1;translation=MNNLFEINYKRKQPLAYRIRPTTLAEFFGQKNIIAEGSPLRELIKKQKFINSIFYGESGTGKTTLAEIIAKELKFYFVKLNATNCSISDIKKISEESEKRLKIEGKETLLFLDEIHRFNKLQQDSLLSFIEEGIFKIIAATTENPFYNLNNALLSRCLSFKFEKLKKNDIISIINRAEEIEQIKIENEIKEFIVETSNGDARIALNYLELILEVYDNIDKNELKKIIITEEFFHKKEDKYNLISAMIKSIRGSDPDASVYWLGRLLKGGEDPRYIARRLVILAAEDIGLANPEALNLSTSAYIASEKIGMPEIRIILSEVVIYLAISSKSNSVYNAINSVFQDLESEETLEVPKYLTKEYSKNYKYPHNYDNNFVKQDYLKKNKRFYIPGNNRMENKIKEKLIKLWGKKYGK;locus_tag=LOCUS_16030;note=WP_011016291.1 replication-associated recombination protein A (Fusobacterium nucleatum) [pid:51.1%25%2C q_cov:98.1%25%2C s_cov:99.3%25%2C Eval:3.5e-114],MGA_1610
sequence07	MetaGeneAnnotator	CDS	52834	53625	.	+	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKIGEILKKAREEKGFDIAYIAEQTKIQKRYLIALEEGNYNELPGEVHIKGFLRNYCREVGLDSNKIIEMYNQYKNENFEEEENEVDDKNGILNLIIAGIVIIFLGIILLNIIDKKDENIVQEKQNISNNKNSNIKKIEKEALKTNKENNKEEKNVENENKLIKKIEIIEEKKVAKEEKNDKIDIYKEIKIIANGISWIEIKKNNKEYFTGFLKNEEKIIKVKKEEKIYIKIGDAGVVKLINDGKDLGKIGNKGEVKKFNF;locus_tag=LOCUS_16040;note=WP_011674320.1 helix-turn-helix domain-containing protein (Lacticaseibacillus paracasei) [pid:43.8%25%2C q_cov:27.8%25%2C s_cov:23.6%25%2C Eval:5.3e-13%2C partial hit],MGA_1611
sequence07	MetaGeneAnnotator	CDS	53643	54896	.	+	0	ID=MGA_1612;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016292.1;translation=MNIRAVRGTKDIFNDDAIKYNYITEIAKRIFENFNYNRIITPIFEETALFKRGIGEGTDIVEKEMYTFLDKGERSITLRPEGTASVVRAYLEHKIYGNEEITKWYYYGPMFRYERPQAGRYREFNQLGVEVLGSKNPKIDAEVIYMGYKLLEKIGISDLRVEINSVGGKETRLKYRKDLLKYLKDKKENLCNDCQTRYEKNPLRVLDCKVEKCKEIVKKAPILTEYLSEKEKKHYEEVKRLLNIYNIPFSENPKLVRGLDYYSNIVFEVITEKLGAQGTVLAGGRYDGLISTMGGKDTPAVGFAAGIERIMLLMNEKKTKKNRIGIVWLGEESSDYALLLANELRVNNFDVYMEYEKKSLRAQMKKIDKINAKYAIIVGEEEVKENKLVVKNLKTGEQIKIKRDTICEYMKGEINEI;locus_tag=LOCUS_16050;gene=hisS;EC_number=6.1.1.21;note=WP_011016292.1 histidine--tRNA ligase (Fusobacterium nucleatum) [pid:54.1%25%2C q_cov:98.1%25%2C s_cov:99.3%25%2C Eval:4.6e-130],MGA_1612
sequence07	MetaGeneAnnotator	CDS	54886	56649	.	+	0	ID=MGA_1613;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016293.1;translation=MKYRTHLLGELREKNIEEKVILTGWVDNRRDLGGLIFLDLRDRTGITQIVFNPEDLSENIINIAHKVKSEYIVKVEGTVKERFSKNPNIPTGNIEVIADNIKIINKSEVLPFEIKDDIKLNEAIRLKYRYLDIRRPKILNNLLKRNQMMFSMREFLTKKGFIDIETPILTRSTPEGARDFIVPTRTENGKFYALPQSPQLFKQILMIAGVDKYYQVAKCFRDEDLRADRQPEFTQLDIEMSFVDENDIMEMIEELAKKVFLDIVGKKIEYKFDRLSYYDAMERYGSDKPDTRFDLELKDLSDIAKECNFKAFKNVVENGGVLKGINVKSAAKDYSRKLIDELTEFVKIYGAKGLAWIKIEENYEIKSPIAKFFTKKELDEIIEKMDAKEGDILFLVADKLKIVYDSLGALRLKIGKERKLIDENQYNFLWVVDFPLLEWSEEEKRYKAQHHPFTAIKDEDIELIENSPEKVRTKSYDLVLNGYEIGGGSVRIHQEEIQEKIFKLLELSEEEIQEKFGFFLEAFKYGAPPHGGIAFGVDRFLMVLLKENSIREVIPFPKTNKGQCLLTEAPNYIDDSQLNDVGINLKK;locus_tag=LOCUS_16060;gene=aspS;EC_number=6.1.1.12;note=WP_011016293.1 aspartate--tRNA ligase (Fusobacterium nucleatum) [pid:60.5%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.2e-206],MGA_1613
sequence07	MetaGeneAnnotator	CDS	56938	58650	.	+	0	ID=MGA_1614;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016438.1;translation=MTLLEKKIESYLLDAIKETFKNIEIDEVNIQPSNNEKFGDYQTNFAMVNSKKIGDNPRKIAEKLINNIKKNEIFEKIEIAGPGFINIFIRIDYLAEELKKIGEKIEFQFLDTAGDVVIDYSSPNIAKRMHIGHLRSTVIGDSIKRIYKFLGYNVIADNHIGDWGTQFGKLIVGYKNWLNKENYKKNPIEELERIYVEFSKKSEENESLEDLAREELKKLQQGDKEARNLWKEFIKVSLEEYERIYKRMNIEFDTYYGESFYHDIMPLIIEELKEKNIAKEDEGALVVFFDENKNLHPCIVQKKDGAYLYSTSDLATIKYRRENYNLNKIIYVTDERQQDHFRQIFEITNMLDWKDEKHHIWFGIMRFADGIFSTRKGNVIKLNDLLDESVERAYKIVSEKNPSLNEDEKRNIAEVVGIGAVKYADLSQNRTSPIIFEWDKILSFEGNTSPYLQYSYARIKSIMRNANENNIKIDYNKKLIFTENSEINLIKFVYQFPRIVMLAATTFKPNLLADYIFELSKKFNTFYNAAPILKSENKDIINSRLILCDKVSFIIKEGLNLLGISTVDRM;locus_tag=LOCUS_16070;gene=argS;EC_number=6.1.1.19;note=WP_011016438.1 arginine--tRNA ligase (Fusobacterium nucleatum) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-203],MGA_1614
sequence07	MetaGeneAnnotator	CDS	58744	59226	.	+	0	ID=MGA_1615;product=chemotaxis protein CheW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939190.1;translation=MEKEKNMSDELQVVVFILDKNYYGVHILQVQEIIKMTEITQLPNTPDFIKGIVNLRGNIVPIMNLRKRFGLTEQKENENAKILILKLEELQFGIIVDEISEVEKVSVSSIEAPPKIVSGVRGEFINGIAKTNDRLLILLNIEKILTLEEKEILKEIEETN;locus_tag=LOCUS_16080;note=WP_010939190.1 chemotaxis protein CheW (Desulfovibrio) [pid:37.9%25%2C q_cov:81.9%25%2C s_cov:83.5%25%2C Eval:3.5e-26],MGA_1615
sequence07	MetaGeneAnnotator	CDS	59270	60130	.	+	0	ID=MGA_1616;product=RNase adapter RapZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416961.1;translation=MKSFEILIITGMSGAGKSSAIRFFEDRGYLTIDNLPVKLLSNMYKLFFKSSKIRKVACVIDSRSWNSAKEFINECKKLKKLEINFKILFLDSANEVILNRYNLTRRKHPIKEFNTLLENIKEERKQLEEIKDLANEIINTSNITPKELNKELEKLLTSETKKITISISSFGFKYGIPIDLDLMFDVRFLPNPYYVEDLKNKTGNNREVFDYVFNFDLTNEFYLKLKEMLIFLIPQYINEGKSHLSIGIGCSGGKHRSVSIVNKLYDELKENDTIEVLKSHRDIRKN;locus_tag=LOCUS_16090;gene=rapZ;note=WP_003416961.1 RNase adapter RapZ (Clostridioides difficile) [pid:44.8%25%2C q_cov:97.2%25%2C s_cov:98.2%25%2C Eval:3.3e-64],MGA_1616
sequence07	MetaGeneAnnotator	CDS	60142	61941	.	+	0	ID=MGA_1617;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902903.1;translation=MSNIDLNEFPDMPGVYLMKNINKKIIYIGKAKNLKKRVSSYFQKKHDRKKTEELVKNISTIDYILCKTELDALILENNLIKKYKPKYNIALKDSKTYPYLFISNEKFSKISVIRNTKYLNKNGDYFGPYPGTAFELIKIIKKIFMIRDCNRDMNKKYDRPCLKYYMKMCLGPCVYKNIEAKYNENKEQLKLFLKGNYKEILKKLEQLMNSYSEKMDFETAIIYREKIKNIKNAMKNQIVEYGKDIDEDVFLIKEEYGNIFIQVLNIRNGIIIGKNEQIISLENNIEERKIEEFFLEIFIQYYNNYVIPKNLILDKKFKKLDKLIKKWIFIEKKIKINLYYPEIKSRRKKLIEMGYLNLEKEIKNFYNRKTILEIGIKNLFTILKLKKIPRRIECFDISNIQGKDAVASMSVALEGKPSKKEYRKFKIKTKDTPDDFHMMREVLFRRYSKLNDNELPELILIDGGKGQLNSAAEILQKLGKIDKIDLISIAKREEEIFKYGESVPYIISKRDETLKILQRLRDEAHRFGITYHRKLRTKRIIISELDKIEGIGPKRKEVLLKKYKSIENIKKQSLAELKSILPEKIAITLYNSLNNERSE;locus_tag=LOCUS_16100;gene=uvrC;note=WP_005902903.1 excinuclease ABC subunit UvrC (Fusobacterium nucleatum) [pid:56.7%25%2C q_cov:97.8%25%2C s_cov:98.8%25%2C Eval:3.9e-192],MGA_1617
sequence07	MetaGeneAnnotator	CDS	61925	62308	.	+	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGVNDIKTVLIIDDEPTIRFLLKEIISDMGYKVLEASRAEKGLQLIKKEKIDLILLDIQLPNMNGLEAIQQIRKINMEVPVFMITAFHNMKNVVEMLDVEIQGFIPKPFEILELKDKISKILEAKK;locus_tag=LOCUS_16110;note=WP_012256316.1 response regulator (Chloroflexus aurantiacus) [pid:36.4%25%2C q_cov:93.7%25%2C s_cov:24.5%25%2C Eval:1.3e-16%2C partial hit],MGA_1618
sequence07	MetaGeneAnnotator	CDS	62305	63351	.	+	0	ID=MGA_1619;product=HD-GYP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948166.1;translation=MMVKTIDLKENMELKEGIVVNNIVLIEEGTKLTKELIERIKKFNIEEVSIKDEEKNIEDILLEEEKIKEEFKKEYLESIEDTKEVLEDVLNNKIDDTTLELIVDKTMGNIEKDKNILLSLMDMKSEGEYLFDHSLKTTMLAIMLGKELNYTDEELEILGKAAILHDVGMLKVKKEIIDKKSKLTLEEMEEVKKHIDITLDLLKNEEKEVLEIIKYHHERIDGKGYPNGLKSEDIPDMSKVLKIADIYAALVSNRSYRKAFNANEAIKEMVHASGKEIDLILFKKFLKIMSMFPIGSKVRLSNGKIAIVKQITENIFRPVIDIEENGKIERIDLSKKENFLLHIMGLAE;locus_tag=LOCUS_16120;note=WP_011948166.1 HD-GYP domain-containing protein (Clostridium) [pid:30.7%25%2C q_cov:96.0%25%2C s_cov:95.7%25%2C Eval:6.5e-39],MGA_1619
sequence07	MetaGeneAnnotator	CDS	63348	64289	.	+	0	ID=MGA_1620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALFFLILIIVGCSREIILRKEPLEKVPFKSELKNTGNVIKIFYIEYPKTINEKNKFWTEFSNISKKLIATQEKRNIILTKEFFDDLKILTQEKIFKEEKIFIKIASDLTEEEKKELVKYFKESEKETVDDYLKLQIKYWLTRLHKIGEFKEEKIYNEKIKNDLILEVIEKRKEQLKYIINANYNYIAKLDNINVDSKIYFNDKNVNIEYESILKNQISKYEYVYITNLTEDIIEKIYNKIIKLDKNIIISNAKYKGYIYNDKFVFFVNGEKTVKEYNEYNVFIEIKSSSLKELLKYKNLITLNEFLKGEK;locus_tag=LOCUS_16130;note=MGA_1620
sequence07	MetaGeneAnnotator	CDS	64289	65776	.	+	0	ID=MGA_1621;product=PP2C family protein-serine/threonine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896598.1;translation=MILLMYLLLNIGVIMFFKQKYQKEKIKSNEELIKNIIQRNKDYKTDDEIQDEYIELINDIENQEKALKISLDEINSYKKELNITYKSLLAKSTELEYSNLVLEKRVANLSNLNAIGKSVLSELELDKIISIILDAYFVLTGAKKIVLYLWEEGVLVNKAIKGNVKAKKKYEFIKEELDPNLIYENISKDIVDINEDIIYSNLNVKGKELGVIYIIEDSENKRKSDDRETISALAMHVAIAINNSKVYSELAIKERLNKELNIAAKIQKDLLPKKSGVKFDIDISEYFEPAKEIGGDYYDYNIYSDDEIYITIGDVSGKGVPAALLMTTIRAILKTLSFTINAPNIMLDMLNKLMYKDMSSDMFVTIFHSKYNKKTNILEFSNAGHNPLLVYRNKENNIMEENVKGIAIGFLENYNYKEGKLKLFKNDILVYYTDGITEAENENGELFGIDRLKEIILKNSYKSSIEIKNEILNGVRKYRGNKLQTDDITLLVLKV;locus_tag=LOCUS_16140;note=WP_005896598.1 PP2C family protein-serine/threonine phosphatase (Fusobacterium nucleatum) [pid:43.1%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:1.2e-111],MGA_1621
sequence07	MetaGeneAnnotator	CDS	65793	67496	.	+	0	ID=MGA_1622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINKKILLIDDQKEILESMKNLLSGQDNLKIINNKLDDLLSDFFEEEKKEQEEEKYQVDIAEDGQTGYNMVKKALERDEPYSVVTIDMRMPGWDGLRTAKEIRKIDENIEIVIITAYTDRNRKELVKKIGKPEKLLYLKKPFEREEILQIIMSLTIKWSLEKKVQNQFHIIKDSNNKLEKIIESISNIEEKVISNFSDICKVVLTELKALFDFEELFIFLENNIIKYDEKTEVDFNYKNLIKIIDTNSKFIVYNDYLITKLGDIEDVKLDNPIIAVIKFNKEKFTEKERKYFEIFITHVNNFFINSNLYIELEKKNKELVQSNIKLKLANELKRKFLVTSSHELRTPTSLLLAYSEILFDKNYRNKEKILKKIFKVSLRINELIEKMFNALTTEDMKESIAQKIEKTKLKEMYEEVKSKVEIFLEKRNQKFIYINETSYEEIHIDKHKIINFVLYNLVVNAIKFSEDGEIIIFRVKEDIEKNKILISIEDKGIGISNEDIENIFKPLFVGGEENKHHSGIYEYKSKGLGLGLTIAKNVIDSMKEEIYCKSNLKSGTVVTFTLTKQT;locus_tag=LOCUS_16150;note=WP_011022273.1 PAS domain S-box protein (Methanosarcina acetivorans) [pid:30.0%25%2C q_cov:43.9%25%2C s_cov:42.1%25%2C Eval:9.4e-23%2C partial hit],MGA_1622
sequence07	MetaGeneAnnotator	CDS	67620	68624	.	+	0	ID=MGA_1623;product=BMP family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583513.1;translation=MKKGLILTILTGLILTFVSVNTYAGLFFGNKKEKADKGLKVGIVLSIGGLGDKSFNDAAYRGLQRAKEELGVDFKYVEPASPAEDEGYLREYAEAGYDLVIATGFLMRDAAEAVAKDFPETKFAIIDDVVDLPNTQSLLFKEDEGSFLVGALAAMMSKTGTIGFVGGMEVPLIKKFQRGYEMGAKYINPDIKIGVLYTSGPNPFNDPVRGKENTLALVKQGADVVYHAAGGTGAGVIAGAKDAGIYAIGVDSNQDGEAPGVVLTSMLKRVDVAVFEAVKALKEGTFKGGIKRFGVAENGVGTTDFEFTKDIIGAEKIAKLEEIKQDIIAGKIKF;locus_tag=LOCUS_16160;note=WP_012583513.1 BMP family ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:54.8%25%2C q_cov:88.6%25%2C s_cov:87.5%25%2C Eval:1.7e-81],MGA_1623
sequence07	MetaGeneAnnotator	CDS	68767	69462	.	+	0	ID=MGA_1624;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898215.1;translation=MSVHIGAKKGEIAETVLLPGDPMRAKWIAETFLEDAECYNTVRGMYGYTGYYKGKKVSVQGTGMGVPSISIYVNELIRDYGVKNLIRVGSAGSYQENVKVRDIVLAMAASTNSGINRHRFNGDFAPTANFELFMKAVTAAKEKNIEVKAGNILTSDEFYQDDFNSYKKWASFGVLAVEMETAALYTIAAKYGVKALTILTISDSLVTGEETTSEERETTFKDMIEIALSTL;locus_tag=LOCUS_16170;gene=deoD;EC_number=2.4.2.1;note=WP_005898215.1 purine-nucleoside phosphorylase (Fusobacterium nucleatum) [pid:70.6%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:9.5e-90],MGA_1624
sequence07	MetaGeneAnnotator	CDS	69481	69873	.	+	0	ID=MGA_1625;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002906685.1;translation=MEEKKIIDLIDEAIQARENAYVEYSHFSVGAIVVDDKGKHHKGANVENASYGLSNCAERTAIFTAVTNGMKNIDTICIVADTTGPVSPCGACRQVIKEFSAENTRIILANLKKEYKILTMEELLPYGFKL;locus_tag=LOCUS_16180;EC_number=3.5.4.5;note=WP_002906685.1 cytidine deaminase (Streptococcus) [pid:51.2%25%2C q_cov:93.1%25%2C s_cov:93.8%25%2C Eval:1.4e-31],MGA_1625
sequence07	MetaGeneAnnotator	CDS	69952	70596	.	+	0	ID=MGA_1626;product=N-glycosylase/DNA lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016533.1;translation=MDIKELKNSYKRLKIDIEKRLEEFKLIWLEGNNEDIFIELAFCILTPQSKAKSAWKAITKLKETGLLFYGEEEEIVEYLNIVRFKNTKAKNLVLLRETIKDENGVIIIKEILDKLESPIKMRNWIVKNIRGIGYKEASHFLRNIGFGSKLAILDRHILKNLFKLNVINEIPKTLTAKKYLEIENKMIEFSKKINIKMEHLDFVLWYQEAGEIFK;locus_tag=LOCUS_16190;note=WP_011016533.1 N-glycosylase/DNA lyase (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:98.1%25%2C s_cov:96.3%25%2C Eval:1.2e-64],MGA_1626
sequence07	MetaGeneAnnotator	CDS	70687	72000	.	+	0	ID=MGA_1627;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016418.1;translation=MKKVAILTYGCQMNVNESAKIKKLLENNSYEVIEDIKNADVVFLNTCTVREGAATQIFGKLGELKNIKEKKDNKMVIGVTGCFAQEQGEELINKFNYIDIVIGNQNIAKLPKAIEDITNSDLKHVIFTNNEDELPPSLEADFENGFSASIAITYGCNNFCTYCIVPYVRGRERSVPMDEIIEETKKFVNKGYKEILLLGQNVNSYGKDLNSGENFAKLLEELNKIEGEFWIRFTSPHPRDFTDDVINVIAKSEKVTKSVHLPLQAGSTRILNLMNRGYTKEEYIALANKIKEKIPGVALTTDIIVGFPYETEEDFLDTLDVVEKVKYDNAFMFMYSKRSGTKAAEMDGQIDDNIKKERLQRLINLQNECSKKNSNIYKGKIVKVLVEGPSKKNKQVLSSRTGTNKVVLFEGNINLKGTFVNVEITETKTWTLYGKLV;locus_tag=LOCUS_16200;gene=miaB;EC_number=2.8.4.3;note=WP_011016418.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Fusobacterium nucleatum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-182],MGA_1627
sequence07	MetaGeneAnnotator	CDS	72023	73342	.	+	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGIRVYNLYPKLIGKMDNWINHFDRIQDMNFNWIYINPINASGFSGSDYAIKDYYLYNPMFIKGWPLKSEDYKEENLEKDRKKGNELLKKVCSEAEKRGIKVMYDIVINHTAIDSPLVKLKPEWYERDENGKVKNAGADDNGTWVVWGDLAQIDNANSPDKENLWKYWLDMLLHYCDLGIRGFRCDAAYHVPADLWNYLISNVKEKYSDVIFVAETLGCTPTQLMNVSKAGFDIVMNSIKWWNYKDEWFLKDYKEWAGKYFSMTFPENHDTERYYNEVNGNKDLAINKYAIQAYFCSSIATTIGFEFGFKRKIDVVQTNPEWWENANYDISKEISEINKIKSQYQILQEDNMIIPYDFHNEELFGFAKEALNKSEKIFVVANLSPYNWHNINIPNFYEIMNGDKIKDISHGHKMETVFNNLDYSLKPGEVKLFYIKY;locus_tag=LOCUS_16210;note=WP_003641774.1 alpha-amylase family glycosyl hydrolase (Lactiplantibacillus) [pid:27.1%25%2C q_cov:64.5%25%2C s_cov:63.9%25%2C Eval:2.2e-21%2C partial hit],MGA_1628
sequence07	MetaGeneAnnotator	CDS	73414	73788	.	+	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIVDDEVDVVEVVEMLLETEGYEVIKAYNGKEALEIVEKITPDLIILDIMMPEIDGVEVCKRMRNIQKLKDIPIVMFSAKLSAIDKKESFNAGADGFITKPFNARGFISGIETYLELGRM;locus_tag=LOCUS_16220;note=WP_002357947.1 response regulator YycF (Enterococcus) [pid:46.7%25%2C q_cov:98.4%25%2C s_cov:50.9%25%2C Eval:2.1e-24%2C partial hit],MGA_1629
sequence07	MetaGeneAnnotator	CDS	73791	74786	.	+	0	ID=MGA_1630;product=sodium:calcium antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_236615893.1;translation=MVYLLIFCILAYLTIKTGQNLSIYGDAIGDIKELDKSWIGIVMLASITSLPEMITSIFSTLLGHPDMAVSNIFGSNIFNVFIICILDVFVIKNICFTNKIDRGHLLPGFFSILISIFFIFGYIFKSFNVFHISIISIIIFIVYLVSMRLVYIYQNEYEFNMENNIGIEIEEKQNLAYKEAKKGFIINAILIVLFGIGLSYTADRISIIPIFGITLGASFVGTILLAVATSLPELTVSIQAVKLGAYDMSIGNILGSNLFNLSLLILIDLFYFKGAMFDKLTEYHIISMAASVIMVLIIILGTFFNKKKKPYDGYLVGIIYIISMYILYIYR;locus_tag=LOCUS_16230;note=WP_236615893.1 sodium:calcium antiporter (Rhodopirellula europaea) [pid:23.5%25%2C q_cov:92.1%25%2C s_cov:89.2%25%2C Eval:6.9e-19],MGA_1630
sequence07	MetaGeneAnnotator	CDS	74802	76049	.	+	0	ID=MGA_1631;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016419.1;translation=MVQPNELISYKLKELKDLAKDMGISKISTYNKEELIYQIIIEENLNKGEIIGYGRLEILPDGYGFLRESNLEKDIYISASQIKRFNLRTNDMVLGEIRTPTPDEKNYAMKKLILVNGDTLEAAKSRVQFDDLIPYYPTERAKLETDEKDNIVGRFIDLIAPIGLGQRGLIVAPPKAGKTMLISQIANNIIKNRKDIEVWILLIDERPEEVTDIKENVTNAEVFASTFDENPENHIKVTEKILEEARRKVENGKDVFILMDSITRLARAYNIVMPSSGKLISGGIDPIALYHPKKFFGSARNIKNGGSLTIIATALIDTGSRMDEVIYEEFKGTGNMDIHLDRNLAELRIYPAIDIKKSGTRKEELLFTKEELRLIWGIRRYLGKYDNAEAAKRLIDTIKNTNSNRELLEMYKSGE;locus_tag=LOCUS_16240;gene=rho;EC_number=3.6.4.-;note=WP_011016419.1 transcription termination factor Rho (Fusobacterium nucleatum) [pid:62.6%25%2C q_cov:95.7%25%2C s_cov:95.9%25%2C Eval:4.7e-135],MGA_1631
sequence07	MetaGeneAnnotator	CDS	76110	77105	.	+	0	ID=MGA_1632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRQYLKGLLLVIILGIVGLTFFKKTKSDEILPTDKFVSYKEAIKEVEGTDKIEEGSQIEDGGVEILDDNTISFEKEYVVVDKEPIDESKEIKVTYYTVQKGDSLYKISSKLGIDMNYLIANNPTVKNGIIRIGQKLKIVNDNNIEYIVQSGDSLFKIAKKYNVKMDDIISKNDLDTTNLIVGDKLIIENPDLSFINKTINQGPNFKWPIRYLGVTSPYGKRFHPVLKRNIFHAGVDLRARVGTNLYAPEDGTVKTAGWLGGYGKIIIIKHSNGYETRMAHLNNIYVKVGQKVTKGQLIGKTGQTGRVTGPHLHFEIRKNGKTLNPMKFRK;locus_tag=LOCUS_16250;note=WP_012869993.1 LysM peptidoglycan-binding domain-containing M23 family metallopeptidase (Thermanaerovibrio acidaminovorans) [pid:33.7%25%2C q_cov:87.9%25%2C s_cov:69.3%25%2C Eval:3.1e-43%2C partial hit],MGA_1632
sequence07	MetaGeneAnnotator	CDS	77222	78931	.	+	0	ID=MGA_1633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFYLASILVFSSCGIFDFFTESVTSTATKKAITLSIDNNSNSAYEAYAIFTNEEYYSYAGQIKITSNNINSSLNNYMANYNINTLGNDDIIKHPVFYNNGKLIREKSIENTISYNIRASITNTSYTEGSKEEFYALYAGTGDYYKENNELNKKQATLKKQVNNIEVKVENNNSSTRTLNIWVADDVWETVVTQEMIDALADKFLKTGFDNDIYDWVTNIYGDEWFEGNDEYTNTIDGNKEINILIYNINEGNNSNGSYLGFFDSTHNFINNENNKYSNEKIMFFIDSGNLAKKDENSNWDITYVDKEGKGPAIILSTLAHEFTHMIIFYQKYYNQDINIDSWINEMCAMTTEDILANKLGINNPINIRQDEFSLYSNSYPVNEWTNSTLHYANKYFFGAFLLRNFGVGIFHDIATNEYNGITAIEKALEKNGYNIKFEELLKYWGEAILTSDKYELDYVYSSKDLSYNGITYRVAPINVVDNKNYKNIIFYGLDDSSAPDLDLGANIYYKLTPYSIVSDSEWDITIPSGVGINIIIKDSLGNFKTKEYFEAEAIKNNNNFILEIK;locus_tag=LOCUS_16260;note=MGA_1633
sequence07	MetaGeneAnnotator	CDS	78941	79990	.	+	0	ID=MGA_1634;product=flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902396.1;translation=MRKTREIKVGNIKIGGNSNIIIQSMTNTNTANIKETVKQIKELEKAGCELVRVTVNTEEAAYAIKEIKKDINIPLVADIHFDYRLALLAIENGIDKLRINPGNIGGDGNVERVVRAAKEKNIPIRIGVNGGSLEKHILEKYGKPTPEALVESAMYHIKLLEKFEFYDIVVSLKSSDVKVMAKAYRLISNKIDYPLHLGVTEAGTIFQGTIKSAIGIGSLLLDNIGNTIRVSLTASPVEEIKVAKEILKILGYRNKGVEIISCPTCGRTEIDLIGLAEKVEEEFKKYKENIKIAVMGCVVNGPGEAKEADYGVAGGKGVGVIFKKGKIVKKVDEQDILDELRKIIEEDLK;locus_tag=LOCUS_16270;gene=ispG;EC_number=1.17.7.1;note=WP_005902396.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Fusobacterium nucleatum) [pid:70.7%25%2C q_cov:99.7%25%2C s_cov:98.3%25%2C Eval:4.7e-138],MGA_1634
sequence07	MetaGeneAnnotator	CDS	80002	80295	.	+	0	ID=MGA_1635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILIIFISCSNIDLLVRGYYEVSFEFDNNIEKVYIDNMEIIENKKYYLNRAYHTAEIILKSSSIKKVELFLVDKVGIYFISENNIYLINKKYQIIE;locus_tag=LOCUS_16280;note=MGA_1635
sequence07	MetaGeneAnnotator	CDS	80305	80763	.	+	0	ID=MGA_1636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLKIIILSILILFISCSNSSINKKIKKNKIEVVFNWDEKIYKVKLNNKNIIKNKVYYLKPDKYTISWIQTKINTELKISNKSEDTGTSFGVSFIINSKQLELIEDSYIDIVSSAKENASLKIYNKNIIKKDKEFDMLEYKEKEIKIIKRE;locus_tag=LOCUS_16290;note=MGA_1636
sequence07	MetaGeneAnnotator	CDS	80776	82695	.	+	0	ID=MGA_1637;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404999.1;translation=MALKKELGFLDLFSIASGAMISSGIFILPALAFSKAGPSMIISYLLGGLIAFVGILGIIELTTAMPKAGGDYFFINRTLGPLIGTISGVLSWFAISLKTAFAIFGISGITARFLYGEEMISSDILIISIFVTIFFVVLNIVGVDLASKFEVLLVVVLISIIVIYIIMGIFKIDIQAFTPFIQKYKINMENEFVFEKAISIFSKEGMITIFSTTAFVFVSFGGLLKAASVSEEVKNPTKNVPLALVASIITITILYTLLLFVTVGVSKGRNLMMSITPIADVGRTIAGDFGFYIIIIASMLAFITTGNAGIMAASRYPLALSRDRLFPKFISKVHKKFKTPIYSIVITGMFIMGSLLLSLESLAKTASAVILLTYILTNVAVIIIRESDMANYQPSFRTPFYPIPQIFTIIIYSLFIGELGYKAVETSFAFVIFSIILYFLYGKKHAKKQYAFLHLLIKMTENLNVTHDLESELRDIIHERDDIELDEFDKLVKQAVIMDLKGPLTLDELFEVETESLKNILGIPKNILLKLFHEREKESSTAITNFTAIPHIVLNTEKEIFHLTIIRCKEGIIYNKEKNNIKSVFLFISSKKMKKTHLQTLASIASLVRDKDFKEKWINAKNADYIRDMVLLSKRKRNN;locus_tag=LOCUS_16300;note=WP_011404999.1 amino acid permease (Salinibacter ruber) [pid:31.3%25%2C q_cov:99.1%25%2C s_cov:87.6%25%2C Eval:8.4e-84],MGA_1637
sequence07	MetaGeneAnnotator	CDS	82763	84034	.	+	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYNLFPLIAGKISDWIDKLDDIKDMNFDVIYLNPIYQTGYSRNIYAPKNFYEIDEKYLDPFSEKSPAEQFREFINEVHKRDMKIVLELIVTHTAIDSDLLLTHPEWYKYNEYGEIKKYSINNYDTLVEWGDLLEINNHHGDETIKTYLWKYWIDLALHYENLGIDGIKLHSAFNVPMDLVKELVDSLKNKNKEFIVIGDNLGASFNDMLDLAQAGVDYLFSSFKWWNFRATWFLEQHYKLKEMVKMISFPENYDTERVAMRYNENIEASKAFYILAALINSSIMIPIGFEHGNKVKLNELRGLEPELNIGNLDLKEYILHVNRLKDEINLFSEENDIYYLSQENPNIFAFKRISRDKKERALVIANLNFISSQYLKMEDIYYILESDKVIDLSLENKEEIKSKFYEKTLNPGEVRVLYTKD;locus_tag=LOCUS_16310;note=WP_011249928.1 alpha-amylase family glycosyl hydrolase (Thermococcus kodakarensis) [pid:26.7%25%2C q_cov:44.9%25%2C s_cov:24.3%25%2C Eval:5.2e-12%2C partial hit],MGA_1638
sequence07	MetaGeneAnnotator	CDS	84056	85297	.	+	0	ID=MGA_1639;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081014.1;translation=MLENLKKMDMGIYEVIIKEEERQESGIELIASENFVSKAVMEAAGSVLTNKYAEGYPGKRYYGGCHFVDEVETLAIERAKKLFNVNYVNVQPHSGSQANMAVYMALINVGDTVMGMGLDHGGHLTHGLNVNFSGKLYNIVSYGVDKETEMLDYSNIREIALEHKPKMIIAGASAYSREIDFKKFREIADEVGAYLFVDMAHIAGLVAAGEHMSPVPYAHVVTTTTHKTLRGPRGGMIMTNDEEIAKKINKIIFPGIQGGPLMHIIAAKAVSFHEALQDDFKEYQKQVVKNAKTLAKALEEKGFRIVSGGTDNHLMLVDLTSKNITGKDAEKALVKAEITANKNGIPFDKQSPFVTSGIRLGTPAVTTRGMKESEMIKIADLITKVLENIDNEEVILQVKEEVHRLSKEFPLYK;locus_tag=LOCUS_16320;note=WP_004081014.1 serine hydroxymethyltransferase (Thermotoga maritima) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:1.8e-158],MGA_1639
sequence07	MetaGeneAnnotator	CDS	85492	86322	.	+	0	ID=MGA_1640;product=Rossmann-like and DUF2520 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002349114.1;translation=MNIGFIGSGKVGISLARYFKNKNIDIIGFYELDKNKIEKYNKEFTFFKKIKEFIENIDIIFITVNDDNIKIIREKLEKLGFENKILIHMSGSLPSKEIKIKKNFAYSIHPMFAFSDDNTQDIEKATFSIEGDREKIDYLVDFFNKLGNEILKIESDKKDIYHLSNVIVSNLVLSLIEIGINYLGECGIEKNEAKKAIFPLIENNINNIKVKNIEKAVTGPVERADIITLKKHLKVIKDVDKDLYIRLSSNLLKLSKLKNVDKDYTELVEILRSDKK;locus_tag=LOCUS_16330;note=WP_002349114.1 Rossmann-like and DUF2520 domain-containing protein (Enterococcus) [pid:36.6%25%2C q_cov:98.2%25%2C s_cov:97.2%25%2C Eval:6.4e-49],MGA_1640
sequence07	MetaGeneAnnotator	CDS	86319	87146	.	+	0	ID=MGA_1641;product=3-methyl-2-oxobutanoate hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356105.1;translation=MKKTVPQFVEAKQKKEKLTMVTAYDYSIAKLVDNSNIDSILVGDSLGMVMLGYENTLQVTMKDMIHHTKAVVKGAKNTMVIADMPFMSYHVSIEKAVENAGRLIKETNATAVKLEGGIEMADTIKAIVKAQIPVVAHIGLTPQSVNIFGGFKVQGKNIDAAKKLIEDAKAVEKAGAYAVVLECVPEKLAKIITEELEIPTIGIGAGNVCDGQVLVYQDMLNMFSGFKPKFVKMYADIGKDIENAFNRYVEEVKTEVFPAKEHTFAISDDVIEKLY;locus_tag=LOCUS_16340;gene=panB;EC_number=2.1.2.11;note=WP_003356105.1 3-methyl-2-oxobutanoate hydroxymethyltransferase (Clostridium botulinum) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.6e-106],MGA_1641
sequence07	MetaGeneAnnotator	CDS	87156	88007	.	+	0	ID=MGA_1642;product=pantoate--beta-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966198.1;translation=MIKIIEKIDELRKILKEYRRNNQTIGFVPTMGYLHEGHASLIKRSSSENEITIVSIFVNPIQFGPNEDLDKYPRDLERDKKVAFENGADIIFHPKVNEMYPEKLYTFVNVENLDKELCGAKREGHFKGVATVVTKLFNIVNPDKAYFGKKDAQQLAIIKKMVKDMNFDIEIIGCDIIREKDGLAKSSRNSYLKPKERKAATILKKTLDKIKEMLDNKETDVKKIINLAIKNIEKEPLAKIDYVEIVDLYTLEKVNKIETDVLVAMAVYIGKTRLIDNFDYKFN;locus_tag=LOCUS_16350;gene=panC;note=WP_010966198.1 pantoate--beta-alanine ligase (Clostridium) [pid:61.3%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:1.2e-95],MGA_1642
sequence07	MetaGeneAnnotator	CDS	88047	88433	.	+	0	ID=MGA_1643;product=aspartate 1-decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287876.1;translation=MILSMLKAKIHRATVTQAELDYVGSITIDVELLEQSGINEYEKVHIVDINNGERFETYTIAGERGSGVICLNGAAARMVQKNDKIIIMAYCQLDSEEVENHKPKVIFVDDNNKITKISNYEKHGRLVD;locus_tag=LOCUS_16360;EC_number=4.1.1.11;note=WP_002287876.1 aspartate 1-decarboxylase (Bacteria) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:7.9e-51],MGA_1643
sequence07	MetaGeneAnnotator	CDS	88460	89107	.	+	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILMFIIIISNVIFAGTIKVTGIGKINTKPNIANISLGVMTENEDVSKAIKENTGKVSKIISKLLELGIKEKNINTSNYSLYYDKEDYNDKDSKKIYKVNNSLNIEIENIERIGEIIDLLVKNGVNNIWNISFGVKNREKFEEKAKIIALKNAEEKAKKILESQDLKLGKIKNISENIDPNIPRYSYEMNRSAVAANNYTIISSVFVEYEISY;locus_tag=LOCUS_16370;note=MGA_1644
sequence07	MetaGeneAnnotator	CDS	89206	89976	.	+	0	ID=MGA_1645;product=aminotransferase class IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015795.1;translation=MYYLNEKIYNKSPLGEDYFYGISLFETIMGYKNKLIFLDEHLKRLENSMKFIGIDKKIEKNYLYDLINQEKDLNDEFMLKIQVSSENLFIKIENFSHRYFKNGIKLVEIVKYYQSELGFLKSGNYLLNILARKEVMKENGFEGVFRNRNNIITEGTISNIFFIKDEIVFTPSLDLNILNGIVREKIIEILKKNGIKVQEGHYTSKNLLEADSIFISNSLMKLGCLWVSEYNNIYYKKSEIIHLIEKEYLKLIKSMI;locus_tag=LOCUS_16380;note=WP_011015795.1 aminotransferase class IV (Fusobacterium nucleatum) [pid:35.0%25%2C q_cov:91.8%25%2C s_cov:93.6%25%2C Eval:3.0e-26],MGA_1645
sequence07	MetaGeneAnnotator	CDS	89994	91949	.	+	0	ID=MGA_1646;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480034.1;translation=MEFNNKLKFFLIFIIFVFVILLGRLFSLQIIQSRKYKEIVKTQIIKNYNLEGKRGKILSKNGDELAYDITYFYIILNPYNIVKDNVEKEYSLILSKYIKEKKSSFEKLLNKKYKDGRKYLKIKNVLDEKLKEKLIKELKKNKLYKYSYITFETSNIRKYANEKLFRHIIGFLGYNEDNIKVGKFGVEKIFENELKGKKEKIISYVEKTRKRELPMFSSFKNNNNEINPDGDNVVLTIDYFMQYILYEELISMYNDYQPNWASGIIMNPNNGEILSMVSLPVNKVAYTKNTIIQNIYEPGSVMKPIIVSAALEEKLVSTKDTFNNLEGKIVKYDAVIRDSSNSSRGILKLEDVLIKSSNVGMVKIADRIDAKTFEEYLKKFGFYEKTNIDLPNEINIKQLPYKKWDGLKKYTMAFGQGIAVTPIQMINAFSAVINGGILYKPRVIKKITTAEGETIKEFKSEIIRSNIISKETSDTIKKILYKVVEEGTGKKAKIDGYSIGGKTGTSQKSENGRYSDDKFIVSFMGFYPLDKPEYLILLIADDPKSDKNVYGGSILAPVFKNVMKRIFKYKNIPPEKNIEELEDEEVKYNKIEFDLKYMPELKGLTYRDVIGVFKDTEFKLDISGRGKVVYQYPKPGIELKKNIAIKIKLEE;locus_tag=LOCUS_16390;note=WP_198480034.1 penicillin-binding protein (Fusobacterium canifelinum) [pid:36.3%25%2C q_cov:97.5%25%2C s_cov:90.3%25%2C Eval:2.9e-108],MGA_1646
sequence07	MetaGeneAnnotator	CDS	91954	93324	.	+	0	ID=MGA_1647;product=aminodeoxychorismate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438631.1;translation=MKLFESNISIVDFYKINKENFSEEFIILDSANKSKLSNYSYICAYFNNKITLKDNLVKFNNQIIEENIFYKAREILEINNNKKYKYPFYNGGLIGIISYDYNKYIEKLPNIAKDDLGIEDIYFVMPNLIIVKDEKTNEFYELNYSDKRFKWNNTINFKNNIEIIEEDVEWEDIKNFIPNMSKEQFEKIVEKAKYYIKEGDVFQVNLSQRFMTEFPDEDSFYLYEILRKINPSPFASFINLKEFRLISQSPERLVKLENNKIETRPIAGTRRIKKDNKIDNINFEKELKIDEKELAEHVMLVDLERNDIGKISKIGTVKVNEFMVIEKYSHVMHIVSNIIGELDKKYDGFDVINAMFPGGTITGAPKIRTMEIIEELEPTKRGFYTGSMGFIDFNGNIDFNIIIRSFIQKENKVYFQVGAGIVYDSDPKKEYKETINKARAMILAYKNYINNKKGKI;locus_tag=LOCUS_16400;gene=pabB;EC_number=2.6.1.85;note=WP_003438631.1 aminodeoxychorismate synthase component I (Clostridioides difficile) [pid:42.1%25%2C q_cov:93.2%25%2C s_cov:94.2%25%2C Eval:2.2e-88],MGA_1647
sequence07	MetaGeneAnnotator	CDS	93321	95462	.	+	0	ID=MGA_1648;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016948.1;translation=MRYLNLYVYGQEGFYVYLDENNEYEIGEHVLVMFMNRKKIGLVVSESKDREFSFKVNKILQKLYGEIKFSKNLIELFLWIQNHYLCSFSQLIDSIYPKDLKAEIEKYYKLSNEFIPADEKDKEFLNYIKKKEKYKLKTLYNRYTKGYIEKLIKKKVLEEVNQEFNTKNNYNDFKDIKVILENNKINLNEEQKLAKEKIINGNKKYYLLYGVTGSGKTEVYIQLIRDAIIENKGAIFLLPEISLTPQMIKRFKEEFGEQIAILHSKLTNTDRKKEWLSIYNGNKKIVLGVRSAIFAPVKNLKYIIMDEEHETTYKQDTNPRYNAKYVAIKRAEIDNCKVIFGSATPSIESYYFAQNNIFELIKLKNRFNSIKMPKINIVDMKREENEYFSKKLIKRTIEELRKNNQVIFFINRKGYSTYIQCKECGHVEECPNCAVSLDFYASSKEYKCNYCGYKRKYTNKCSSCGSTNLKYSGKGTEKIETELKKHFKDSKIIRVDADTTKDRDSYAQIYNDFYNKKYDIMIGTQIISKGFHFPNVTLVGIITADTIINFPDFRAGEKTFQIISQTAGRAGRDKKEGEVLIQTYNPDHYSILSVINHNYEEFYDIEIKNRKMLNYPPFSRIINIIVSGLEIEKVFKKAKKLYGILINIAKNLEIYGPIEAPIFKIKSRYRYQIFIKGERKEINRIKKYIIENVNKEKNDSVRIVIDVDPMNLM;locus_tag=LOCUS_16410;gene=priA;note=WP_011016948.1 primosomal protein N' (Fusobacterium nucleatum) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-192],MGA_1648
sequence07	MetaGeneAnnotator	CDS	95476	95985	.	+	0	ID=MGA_1649;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016949.1;translation=MIMDIVTYGSSVLREKSKKIEKIDDEIKTLLNNMVETMQEAQGVGLAAPQVGINIRAFVLDIGDGNIRKVINPEFLEFSNNIVEQEEGCLSIPGIYKKVKRPESLKIKYLNENGEEVIEQAEGLLARAFQHEYDHLEGVLFVDKISPVAKRLVSNKLQKLKKETLKKIK;locus_tag=LOCUS_16420;gene=def;EC_number=3.5.1.88;note=WP_011016949.1 peptide deformylase (Fusobacterium nucleatum) [pid:53.8%25%2C q_cov:91.1%25%2C s_cov:89.7%25%2C Eval:8.8e-42],MGA_1649
sequence07	MetaGeneAnnotator	CDS	95994	96926	.	+	0	ID=MGA_1650;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373209.1;translation=MRILFMGTPEFAVPSLEILNKYHEIIGVFTKIDKPNQRGKKIKFNPVKQYAIDNNLDIYQVKSVKSKEVIEKIKELNPDLIVVVAYGKILPNELIEIPKYGTINVHSSLLPKYRGAAPIHYAIINGEKETGVTIMDIAEELDAGDIILQAKTEISDDDNLKSVHDRLAEIGAKTLLKAIKLIEEGKVIRKSQNHEEATFVKPILKEETKINWNKSKREIFNFVRGLDPFPGAFFTFNNKIFKLYRVEEYDKTYEDAEIGEIVEFDKKRGPIVKVKDGSIILTKVKPENKKTISGRDIINGNYFELCNRLN;locus_tag=LOCUS_16430;gene=fmt;EC_number=2.1.2.9;note=WP_147373209.1 methionyl-tRNA formyltransferase (Fusobacterium nucleatum) [pid:56.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.5e-100],MGA_1650
sequence07	MetaGeneAnnotator	CDS	96948	97577	.	+	0	ID=MGA_1651;product=redox-sensing transcriptional repressor Rex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966000.1;translation=MKEERISPKVIERLTKYLRCLENLPQEDYISSEELAEKMGFTAAQVRKDLSNFGEFGIRGKGYQVRNLYADIEKILGVHKTNNVIIVGMGRLGNALFSEPEFTKESFNIVGIFDNSENKIGKEINGIKIRDIKELEHFINRKEDVNIAIITVPKSVAQELTDYLVKCGIKAILNFAPIKLNVPKNVVVENIDLYAKLQELNYWKEKVLK;locus_tag=LOCUS_16440;note=WP_010966000.1 redox-sensing transcriptional repressor Rex (Clostridium acetobutylicum) [pid:42.4%25%2C q_cov:99.5%25%2C s_cov:97.7%25%2C Eval:3.4e-40],MGA_1651
sequence07	MetaGeneAnnotator	CDS	97597	98451	.	+	0	ID=MGA_1652;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722487.1;translation=MKKIIDGRKISNAIKEEIKKEVTELKEKTGKIPGLAVVLLGENQASKVYVGSKIRTCEELGIFSEKYHLSEKTTEEELLRLIQTLNKKENIDGILVQLPIPNHISEQKIIDAISYKKDVDGFHPINVGKTLIGDKTGFKSCTPYGIIEMLKRENIEISGKDAVIIGRSNIVGKPMASLLIAESATVQICHSRTKDLAEKTKKADILISAVGKAKFIKKDMIKDGAVVIDVGMNRDENNKLCGDVDFDDVYEKVSRITPVPGGVGLMTVTMLMKNTLLSFKNNRL;locus_tag=LOCUS_16450;gene=folD;note=WP_003722487.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Listeria monocytogenes) [pid:61.1%25%2C q_cov:98.6%25%2C s_cov:97.9%25%2C Eval:4.1e-91],MGA_1652
sequence07	MetaGeneAnnotator	CDS	98602	99132	.	+	0	ID=MGA_1653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRFLIAGLIAIAVITSTYAHGGAGKMSGNGYNRNSKNLNNRDYKFTNEEIEKYETELRAKYNIKNDEKIDYKKLTDKELEEFGEILMDSMVYDKERHEFMEKLMGGDNSEQLKYMHINTAINYLEGYGFGMGGMMGNNGIWGNNSDALDILKERYAKGEITKEEYNEMKAELTK;locus_tag=LOCUS_16460;note=MGA_1653
sequence07	MetaGeneAnnotator	CDS	99144	99368	.	+	0	ID=MGA_1654;product=SHOCT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004083053.1;translation=MWRFFNGGCYNLFGGQGIMMIIFWIVIVALIFYFINKNGNKEIFKSKTSLEILKERYAKGEITKEEYEKIKKDL;locus_tag=LOCUS_16470;note=WP_004083053.1 SHOCT domain-containing protein (Thermotoga) [pid:34.7%25%2C q_cov:95.9%25%2C s_cov:90.4%25%2C Eval:2.4e-07],MGA_1654
sequence07	MetaGeneAnnotator	CDS	99435	100124	.	+	0	ID=MGA_1655;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965730.1;translation=MKRILIIEDEKNIRKIIKDYLKKENYKILEAEDGEEGLNKFFENNIDLVILDIMLPKIDGWSVCKQIRHKNKEVYILMLTARDKELDEIFGFELGADEYITKPFSPRVLVAKINRIFKKNLELNKSNKIKIEKLLINKDSHRVYYDNNLLNLSPKEYELLLYLIENKNIVLSREKILDNVWGYNFFGDVRTVDTHIKKLRKKIENNYIETIRGYGYMFSFKEIDYEKNK;locus_tag=LOCUS_16480;note=WP_010965730.1 response regulator transcription factor (Clostridium) [pid:50.7%25%2C q_cov:95.6%25%2C s_cov:98.2%25%2C Eval:3.9e-59],MGA_1655
sequence07	MetaGeneAnnotator	CDS	100108	101529	.	+	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTNKFSIKMFFIFSLILFFSMIFIILLNRVFLNKYYIYKYKIKMEKELKEISKNQNDIYYIIKNYKGEFNVFISKKKNFRDNNFHMSMGMMTNTTMMKNHIINNLIKKLDENKDYIIDSYYNMPFGYNEIVGVLKKNDDFIVMTFPINKIKENSQIANELFLIIVFIVIFSVSFVNFYFIKRFSKPLKKLIDFTNGLANLDFSKRIQLKTGDEIENLANSFNYLANELEINFKKLNDVTENLKKEKDIRDEFLKNVNHELKTPIALIKAYTEGLKDNIADDREEYYNIILNETDRMEEMVKKLLEVIKNEEINLKKLEKINLKNYIENILEKFKVDFINNNIKKDIEINESINICYTKTDFETLMVNIITNAIGNIKEPKQFYIKGKDNNEYIELAIFNSSEKIDDEEIEKLWEPFYKKDKSRKRSYGGTGLGLSIIKKILNKHKNNFLFAYNENKKGMEFKILFKKESCK;locus_tag=LOCUS_16490;note=WP_001225342.1 HAMP domain-containing sensor histidine kinase (Bacillus cereus) [pid:29.2%25%2C q_cov:67.2%25%2C s_cov:52.2%25%2C Eval:5.2e-40%2C partial hit],MGA_1656
sequence07	MetaGeneAnnotator	CDS	101535	102344	.	-	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRYLLRGKKSKIKVLIGKNNLLKKENEELKNEIYALKHRKEKIFSIISHDLMGQIATYNNLVEYLLIKLYSEDVEKKYIERTLLQLKESSKTTYNLLENLLYWAKSHLNQIEFNPNEFELREAITSQMKILKLNAENKNISLNTSIDKKIYMITDENMLKTIIRNLLSNAIKFTENNGKIEVLAEKKDNCVTITIKDSGVGISEEKINKILNNFKFSSTSGTNGEDGTGLGLILCIDFIKRLGGDLKISSIINIGSSFSFTIPITKKT;locus_tag=LOCUS_16500;note=WP_008763530.1 hybrid sensor histidine kinase/response regulator (Bacteroides) [pid:33.1%25%2C q_cov:92.9%25%2C s_cov:65.3%25%2C Eval:1.2e-36%2C partial hit],MGA_1657
sequence07	MetaGeneAnnotator	CDS	102584	102823	.	-	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902080.1;translation=MHEGCSGKFESGKQIVDKLRMMGFERQAMPLPVKIDCECQKSFIMKTFESKCPHCGMVYGVTPCHAFDKSNILAAGKDY;locus_tag=LOCUS_16510;note=WP_005902080.1 hypothetical protein (Fusobacterium nucleatum) [pid:61.5%25%2C q_cov:97.5%25%2C s_cov:96.3%25%2C Eval:1.3e-24],MGA_1658
sequence07	MetaGeneAnnotator	CDS	102856	103875	.	-	0	ID=MGA_1659;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897665.1;translation=MLNRKKLEILTIKELKEEYSFLSDYFKDNLINVENKENLTLIQLLDSIDKIEKEENTIDDDQIIENIIDYTNQMIEFLGMNDNKVKTLTIYPGYNKYGEKENYDKIDVHAGEIICIVGPTGSGKSRLLADIEWAAQGDTPTKRIIHIDNNPVDIANRFSAGNKLVAQLSQNMNFVMDLTVYEFLKLHAQSRMVENDEEIVKKIIAKANELAGEKFTKDTPITSLSGGQSRALMIADTAILSSSPIVLIDEIENAGIDRKKALELLVGEEKIVIMATHDPILALMGNKRIVINNGGITKIINVTEKERSILSELEKLDKIMQDMRNKLRYGKEITLDKKI;locus_tag=LOCUS_16520;note=WP_005897665.1 ABC transporter ATP-binding protein (Fusobacterium) [pid:67.7%25%2C q_cov:78.5%25%2C s_cov:94.0%25%2C Eval:3.1e-99],MGA_1659
sequence07	MetaGeneAnnotator	CDS	103865	104569	.	-	0	ID=MGA_1660;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016161.1;translation=MNLITFSGPPSSGKTSVIIKTIESFKQRNIKVGVVKFDCLYTDDDLIYEKIGVPVKKGLSASLCPDHYFVSNIEEVVQWGREKNLDILITESAGLCNRCSPYIQDIKAICVIDNLSGINTPKKIGPMLKSADIVVITKGDIVSQAEREVFASRVNSVNPKAKTIHINGLTGQGAYELSTLMYDNNENIETLKGKKLRFSMPSALCSYCLGETRIGEEHQMGNVRKIDLGDNNAK;locus_tag=LOCUS_16530;note=WP_011016161.1 GTP-binding protein (Fusobacterium nucleatum) [pid:77.5%25%2C q_cov:97.0%25%2C s_cov:98.3%25%2C Eval:1.3e-102],MGA_1660
sequence07	MetaGeneAnnotator	CDS	104570	105778	.	-	0	ID=MGA_1661;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897667.1;translation=MNFINKEMTIIEILNKYPETIEFFKSKGFKGFENNLMLKTVGKISLEQSIKLKKLSVDAFLEGINDFISHNIETEDITLKNSEIKTNSDISITGLLPCPVRVPLLEGFEKFKKQNSLNISADLKAASSGLDWLKESIKKDSSNISDIFISAGFDLFFEDDLMGQYRKEKIFEDITGITEYNKDFKDLNIKDPNNYYSIISVVPAVFLVNTEELGNKKFPKTWADILSDEYENSISLPVSDFDLFNAILLNIYKLYGEDGVKRLGRALLRSMHPAQMVKSDRLKMKKPIVTIMPYFFTKMTGQGGPMVAQWPEDGAIISPIFMLTKKNKKDKLENIAKFFASKEIGEILSHKGLFPSTHPKVDNKLENNKFIWLGWDFINSNDIGKLINYCEEIFNNSIKEEE;locus_tag=LOCUS_16540;note=WP_005897667.1 ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:48.4%25%2C q_cov:99.0%25%2C s_cov:99.7%25%2C Eval:3.0e-107],MGA_1661
sequence07	MetaGeneAnnotator	CDS	105900	106562	.	+	0	ID=MGA_1662;product=Crp/Fnr family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903942.1;translation=MKRLVEMSIFKGLKEIEIENILKKVRYNIKKYKKDEVIAFRGDEVNNMLILLEGFLYTEMQKNDGKCIKIDELKKGDILASAFIFGEMNYYPVDIYCKSDAEIFCITKSELLKLFRLNEQILVNYLNNISTKTQFLSKKIWFDFKNKSIIEKLRDYINENIKEDNTFKFHKSLKDISETFGVARPSLSRTLSHLIDKKIIERIGKNHYKILDEDKLLEEE;locus_tag=LOCUS_16550;note=WP_005903942.1 Crp/Fnr family transcriptional regulator (Fusobacterium nucleatum) [pid:49.0%25%2C q_cov:95.5%25%2C s_cov:95.9%25%2C Eval:4.4e-49],MGA_1662
sequence07	MetaGeneAnnotator	CDS	106630	107496	.	+	0	ID=MGA_1663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNYFLLGFGLSILITGIIMKTSLKEEKNILKSKEKIEKIEKKEEIKNKEVEKTKEEFEKLLKTIEEINNEKTNKIKEEKKEEISEKILTKKEEKKDNQIEIKKEKNIVTLAEQKENKNNEIKKEVKIETKENKIIFVENKNKLIDDFSNIYNINFGDLKDKEEIKNKLKKILDISLIRVKDKEYIISKDKFPKEIAMDISNKLNNLFGIDSVLTIKEWRLVLLKDKNLDNLVKEQKRFEKYIELEIFEKNGEYILQSKNIFFKKIAVEYANLIKNKENIDIIIMQQ;locus_tag=LOCUS_16560;note=MGA_1663
sequence07	MetaGeneAnnotator	CDS	107531	107695	.	-	0	ID=MGA_1664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMDKLTFYEQLYLEELNAVEFELKNNPFNKKYVDEWVALAKVLNEIQVARSNN;locus_tag=LOCUS_16570;note=MGA_1664
sequence07	MetaGeneAnnotator	CDS	107850	108353	.	+	0	ID=MGA_1665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLILFILLMGVQAYALDITLRLPVSTNTAFQKLNETDNSARVGIGLEAGQDLITFSIGAGMEWDKSISLSTGEKFAPRLTYGYLKYNLFPVAFKPYLVGKYGYMSAYSKSGFTSLDTSTFWGMGLGIDIFNSQGELLYTNYPVTINGTKDTMTMITLALGIKIF;locus_tag=LOCUS_16580;note=MGA_1665
sequence07	MetaGeneAnnotator	CDS	108428	108688	.	-	0	ID=MGA_1666;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005890045.1;translation=MLANKKDLVKKFGKSEKDTGSTEVQVAILTDRINHLTEHLKVHKKDHHSRLGLLKMVGKRRRLLNYLKSKDIEGYRNLIKELGIRK;locus_tag=LOCUS_16590;gene=rpsO;note=WP_005890045.1 30S ribosomal protein S15 (Fusobacterium) [pid:71.8%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:1.2e-30],MGA_1666
sequence07	MetaGeneAnnotator	CDS	108802	110928	.	-	0	ID=MGA_1667;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015954.1;translation=MNNDYENQNNSHENEDVQKNEDIQNENKESNDSNEKLDSKENKKEENKKENKTNEEKKDKKEDTKKDKDKILEELFSDENSEKKLKVNFKNIVLILFVIVLIISLPNLLSTSTTQTIKEVSYTEFINTLKNGNILRVEEKEDYLYAYDDVTKQKYKTKMITYRISQDEKLMKIIDEKNIDVISLEPDRMPLLLTNIFLSWSPMILLIVVWIFLLNRMNRGNSNSGGPQIFNIGKSKTKDGTSQKVKVTFNDVAGADEAKVELQEIVEFLKEPKKFLKAGAKIPKGVLLMGAPGTGKTLLAKAVAGEANVPFFSISGSEFVEMFVGVGASRVRDLFGKARKNAPCIVFIDEIDAVGRKRGSGQGGGNDEREQTLNQLLVEMDGFGNDETIIVIAATNRPEILDKALMRPGRFDRQVVVDRPDKKGREEILKVHSKNKKLAEDVDLQVVARKTPGFVGADLANLLNEAAILAARDNRVVITMADLEEASEKVSIGPERKSRLTIEKEKYIVAYHEVGHTLVQWMIPHTDPVHKVTIVPRGMAALGYTMSLPTEDKYLKSKNEYLSELQALLGGRAAEELVFGDITTGASNDIERATKMALAMVTRFGMVDKFGPLMLDDSQEGEWFKQRIYSEDTAKLIDAEVKKLINDAYNSAKKILSDNIELLEKISLQLLEKETIMSEELEEIIGFPQVKEDFLKDTITENLKKYKN;locus_tag=LOCUS_16600;gene=ftsH;note=WP_011015954.1 ATP-dependent zinc metalloprotease FtsH (Fusobacterium nucleatum) [pid:51.4%25%2C q_cov:95.6%25%2C s_cov:99.0%25%2C Eval:2.1e-192],MGA_1667
sequence07	MetaGeneAnnotator	CDS	110921	112276	.	-	0	ID=MGA_1668;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015953.1;translation=MRIYNKFLSTIQNNNLISKNDKIIIALSGGPDSVCLFHLLYKLQSKYNLSLYFAHINHNLRGIDADLDEQFVIELGKKYNIPTFIKSVDIKKYATSFKLSEEEAGREVRYNFFKEIKNKIGANKVALAHILDDNVETFMFRLSRGTSIDGLCSIPVKRDYYIRPLLYIKKEEILKFLEENNLRYQIDESNFKSIYTRNKIRLELIPYFEKEFNSNFKDKIISLIDELNDINKYFKKEIDNYINNSGKKFDIDKLISFPEYLQKEIIKTILKNNNIAYNRKKINKIFNLLYSNGSKEYLLNEQKKLYKIYNEFYISDNIKILNNNSLEKTLKINSNLIFNNYYISIRESDKYISKNNVFCIDKDKILHNEFLIRTRKKGDFFIPIGSKNKKKLKDFFINEKIDKYKRNSLPLIINNDKIVCVGNIRLSEEFKTTTTTKKFLIIELKEVETNE;locus_tag=LOCUS_16610;gene=tilS;EC_number=6.3.4.19;note=WP_011015953.1 tRNA lysidine(34) synthetase TilS (Fusobacterium nucleatum) [pid:38.9%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.9e-84],MGA_1668
sequence07	MetaGeneAnnotator	CDS	112288	113433	.	-	0	ID=MGA_1669;product=SpoIID/LytB domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000162390.1;translation=MKKILLFFILLSTFSFSFDYQLSLDTFGPLIRVGLKRFESNSIYIKSINGNLLIKYNNKTSILSKNDSIKITYYNNKIKILNSITNKIIIKKLDIISMFDISKNGKTYSTYRGELELLPHNNHILPINIVRTEEYLYSVVPSEIGFSFPDEAIKAQAVAARTYLFYSMKNKKFDLYDVEDGVTSQVYLGYNKENKRINDLINQTENQVITYNGKYINALFHASSGGYTANSEDVWGSKIPYLRSVDDRKNDIESPRRHWSYKINKQDFSKLIGFKVSYIKIIEIKSKRAKKVKIIGDKTITISGDKLRQIVGYSKIFSTMFTIKSSGNYFYFSGSGSGHGVGLPQWSAYTLAKKGKNYIEILKKYYQGVSIKSINYQIAEK;locus_tag=LOCUS_16620;note=WP_000162390.1 SpoIID/LytB domain-containing protein (Leptospira) [pid:37.8%25%2C q_cov:75.9%25%2C s_cov:82.4%25%2C Eval:1.0e-40],MGA_1669
sequence07	MetaGeneAnnotator	CDS	113436	115091	.	-	0	ID=MGA_1670;product=B12-binding domain-containing radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860933.1;translation=MKNILFLAINSKFVHTNLALRYIKKYIEINSFYKINLIEKTINNHLLEILTTINEENPDLIAISTYIWNSEYVYKLIIEIKKILPNTKILLGGPEVSYQAEKLMNLYKEIDYIISGEGEEIFLEFLTKDIDSVKGIYYRKEKKITFNGYKTPILNLDIIPFPYDENELSETSPLILYYESSRGCPFNCAYCMSSLDKKVRYFSLERVKTDLMKFINKKVKLVKFVDRTFNLNKKRYLEIWKFLLENYNEKTTFHFEISVDLFDEEVIKFLQKVPRKYFQFEIGIQTINEKTLNIIHRTNKLEILKKNILDIKDNIHLHVDLIAGLPEEDYNTFKKSFNYVHSLKAEMIQLGFLKILNGTEMESLVSKYNYNYLDFPPYEVLSNNYISFNDLVKLKNIEKALDFYYNSNKFLKSLNYILINFYDSPFEFYENISEYYKKRKLINVAHKQVSIFNYLYEFYLDKSFKNIDIFIEYLKFDYLSIGKTGYFPYWFKRNTDKEKYNELLNNLNFKSKREAYKKTEYEIFNYDIINNKKEKKEILFIYNNDLIIKEI;locus_tag=LOCUS_16630;note=WP_011860933.1 B12-binding domain-containing radical SAM protein (Clostridioides difficile) [pid:44.4%25%2C q_cov:88.9%25%2C s_cov:84.9%25%2C Eval:1.4e-119],MGA_1670
sequence07	MetaGeneAnnotator	CDS	115139	115969	.	-	0	ID=MGA_1671;product=protein-glutamate O-methyltransferase CheR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942855.1;translation=MIIKIEMNDKEFELFRDYIYERSGIHYTINKKTILQNRVRRRLRDLELDSYTKYFNIIKNKSMSDPEVIKFFDEVTTNETSFFRHDKQFIALEKMVIPELLANRRISTINIWSAAASTGKEAYTIAAVLKEIPELKGKNIKILGTDLNQKVLNIAKEGKYDIKDIKNVEKKYLKYFDIDEKNGIVTVKNELKSLVTFKRFNLTDRFTSIPKMDIIFCRNVFIYFQKHTQKEIVDKFYDKLNPNGFFILGHSETLNGIDNNFTYRKFNNENLMIYQK;locus_tag=LOCUS_16640;note=WP_010942855.1 protein-glutamate O-methyltransferase CheR (Geobacter sulfurreducens) [pid:34.5%25%2C q_cov:98.9%25%2C s_cov:95.2%25%2C Eval:1.9e-45],MGA_1671
sequence07	MetaGeneAnnotator	CDS	115969	116919	.	-	0	ID=MGA_1672;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015952.1;translation=MKFKKIFFLIFTVLILSSGYFYFDFYYNKNFYQLNITINTNDTIKKIYNKLNINYNFFDRVFFKFFFDSKKIKAGTFNLNNYYTKNELFKEFTKNSYKIIKIVIPEGFTLKQVKNRLNSNNLIDIKKFEEILKNKKNFYYPTPNQNFEGYFYPDTYYFTKSQSENEIINMFLDNFLKKYPPKNYPDKNKFYNNLILASIIEKEAANDKEKYLISSVFHNRLNINMKLQSCATLAYLFNYQKSNFSKKDLKINSKYNTYYYKGLPPTPISNPGKISFLAAENPKNSNYLYFVLTKDRVHHFSTTYKEHLRYKKGSNF;locus_tag=LOCUS_16650;gene=mltG;note=WP_011015952.1 endolytic transglycosylase MltG (Fusobacterium nucleatum) [pid:41.1%25%2C q_cov:97.8%25%2C s_cov:99.0%25%2C Eval:1.2e-60],MGA_1672
sequence07	MetaGeneAnnotator	CDS	116985	117251	.	-	0	ID=MGA_1673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKTIEILNSIDNFPKKIEKKKGEILKQDFILDSNFKQNSLKNLERRYYFNKDNEKYILIEEFLFKENEMEIKLENAITINYYINKK;locus_tag=LOCUS_16660;note=MGA_1673
sequence07	MetaGeneAnnotator	CDS	117369	117992	.	-	0	ID=MGA_1674;product=O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016305.1;translation=MLEELKQANDYIYSKLNEKNTFFLELEEYAEKYNIPIITKEVKEFLRFLLSTNKYQNILEIGSAIGYSTLIMSKTLNDNCHITTLEIDKERYDIAKSNFKKSNNNNIDILLGDALDIIPTLNKKYDFIFIDAAKGQYQNFFNTSYNLLNENGLIFIDNIMFRGYLYKEYPKRFKTIVKKLDNFIDYLYQNHDFTLLPFGDGIGLVKK;locus_tag=LOCUS_16670;note=WP_011016305.1 O-methyltransferase (Fusobacterium nucleatum) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.0e-61],MGA_1674
sequence07	MetaGeneAnnotator	CDS	118017	119309	.	-	0	ID=MGA_1675;product=16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016304.1;translation=MNIKERIIDVFSHYEAGKYSNIALNDYFRENPNLPIKEKSFITEVFYGMIRKQMFLEYVLRTYTKKIEYPWLKNLLRLSLYQGLFMDSDEKGVVWEAVELTKNKYDKKVANFVNGVLRKIFREKNEIFNSLLNKKEYLLYSYPKWFYNKIKSDYPKNFKEILKTLKETPYLSIRINKLKYTEKEFLNLLNKLNIKILKQVDFVYYLSDGKILNTDEFKSGKLTVQDASSYIAAKNLNANKDDRILDACSAPGGKSMVIAESMNNTGEIISLDIHEHKIKLIKNNAENMGIKNVYPILHDARKINELNGEFDKILVDAPCSGFGVIRKKPEAIYNKTISNVEELARLQLDILNSASKKLKKGGILVYSTCTITKEENTANIRKFLETHSNFSVVETDIPKNVNFIKDKYNGINIFDNFLDAFYIIKLKKNS;locus_tag=LOCUS_16680;gene=rsmB;EC_number=2.1.1.176;note=WP_011016304.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Fusobacterium nucleatum) [pid:53.7%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:2.6e-128],MGA_1675
sequence07	MetaGeneAnnotator	CDS	119410	120567	.	-	0	ID=MGA_1676;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902330.1;translation=MLPVKYKLEKKDGKARAGEINTPHGNIKTPVFMPVGTQATVKTMTPEELEKINAEIILGNTYHLYLRPTDEIVAKFGGLHKFMNWNKPILTDSGGFQVFSLGALRKITEEGVNFRSHIDGSKHFISPEKSISIQNNLGSDIMMAFDECPPGLADREYMKDSLERTTRWAKRCIKANKNPDRQGLFAIVQGGIYEDLRDQSLNELTEMDDHFSGYAIGGLAVGEPREDMYRILDYITPKLPEEKPRYLMGVGEPLDMLEAVANGVDMMDCVQPSRIGRHGTVFTKYGRLVIKNASYSEDTRPLDEDCDCYVCKNYTRGYIRHLFKTGEILGQRLATYHNLYFLIKMMNNAREAILNNNFYEFKKEFENNYTQGKKSEWIKPKKFKD;locus_tag=LOCUS_16690;gene=tgt;EC_number=2.4.2.29;note=WP_005902330.1 tRNA guanosine(34) transglycosylase Tgt (Fusobacterium nucleatum) [pid:76.1%25%2C q_cov:96.6%25%2C s_cov:99.5%25%2C Eval:1.1e-167],MGA_1676
sequence07	MetaGeneAnnotator	CDS	120576	122747	.	-	0	ID=MGA_1677;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902331.1;translation=MEYRNDLLIAIKKSASNNLNIEKIMIAYEFAKEAHLGQVRRSGEGYIAHPVAVAKILIELHMDTDTIIAGLLHDVIEDTMISKTDIIYNFGEIVAELVDGVTKLKNLPEGTKKQHENIRKMIVSMAKDVRVVIIKLADRLHNMRTLKFMKPEKQISIAKETLNIFAPLAHRLGIAKIKWELEDIAFSYLHPEIYRQIVELVNSKRHEREKYTENVLNYLKIELEKYDIKGEVSGRVKHFYSIYKKMYEKGKNFEELYDLTALRIIVKSKADCYNSLGIIHNIWIPVPGRFKDYIAVPKANGYQSIHTTVVGPNGKYIEIQIRTHEMHKIAEEGIAAHWAYKEKIKTNRRDNIYSWLRNILEWQNEAETSEEFINTVTGDILNDTVFVFSPKGDVIELTNGATPLDFAFHIHTQIGYKCIGAKVNNRMVPLDYKLKNGDQVDIITSKSAKGPGRDWLNIVVTHSAKSKIKKWIKDQEFEENYKLGKSMVEKELLKYNLKLKDIENSNIAKDFIKKQSLPNFNDLLFQIGIGRIPLDTFISKFKPIEEKNIENNLEEILDKNNKKIKSNDDNAIIINGTDNTLVRFAKCCTPLPGDDVEGYVTRGQGITVHIKTCKNLISLKNKEPERIIPVKWNESIVKNKFTKFIFNFTIIAFDRNNLLKDIINLISESKMNLLGINTHSYKNNGEKYAKLHLTIELNEREQFKRLTANLEKIKGIVSVKRDI;locus_tag=LOCUS_16700;note=WP_005902331.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Fusobacterium nucleatum) [pid:55.5%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:4.3e-233],MGA_1677
sequence07	MetaGeneAnnotator	CDS	122804	123331	.	-	0	ID=MGA_1678;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081583.1;translation=MEKNFDYLKDLIRTIPDFPEKGILFRDITTLLKNKKGLKDVIDIFTERYKDKNIDYVLGADARGFIFGAAIAYNIGAGFIPVRKKGKLPYKTISADYTLEYGTNSIEIHEDAIEKESTVVIVDDLLATGGTARAMIDLVDKIGAKIHELAFMIELKDLNGVDKLNGHNVFSILKY;locus_tag=LOCUS_16710;gene=apt;EC_number=2.4.2.7;note=WP_004081583.1 adenine phosphoribosyltransferase (Thermotoga maritima) [pid:55.4%25%2C q_cov:96.0%25%2C s_cov:98.8%25%2C Eval:3.0e-48],MGA_1678
sequence07	MetaGeneAnnotator	CDS	123410	123850	.	-	0	ID=MGA_1679;product=NUDIX hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_082285506.1;translation=MNKNPRVRVAGILVKEGKLLLIQHKKNGKEYWLLPGGGVDFGETMQKALKREFIEETNLNIRVNDLLFISEAIDPNGEKHIINFFFEVEYSSGILKLSKEKRLVDLKYIDINKIDNIVMYPNIKKELIDYFKNNDKNIKYIGNIWE;locus_tag=LOCUS_16720;EC_number=3.6.-.-;note=WP_082285506.1 NUDIX hydrolase (Leptospira noguchii) [pid:36.6%25%2C q_cov:97.9%25%2C s_cov:85.0%25%2C Eval:2.9e-20],MGA_1679
sequence07	MetaGeneAnnotator	CDS	123853	126093	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDWQINFLYKIIVFILFFFSPIIVLKLLNNFDFYIQNYIILYFFQIIILTFSYFLYEFRLRLYFSKTIKKIMNKNSKFNLNNSTYRNFFGFDSFSTFEYFFNEEIDKLFNKITELEYNYNLLDKNKSEKLNFQEEQTNKLINKITKDNNLILKKDFLLDAFLQVFDALENSNISYDMFFDEISFYLTKYFDIKELIIYKNSSKGFKIFSQLSNENKISEEILNKIKNVEGGIFVHTDYNYNSGYNFIINLKNYYIHHGVIFININDTEYLENELLFKLTKAIIQGFTHMLNNLYFVKQLNLKLKNKDKKIEELNLKLKDTENNLELQLDEVSNMYEEIVTLYKIGKEIGKIYNKKELEEKIIELSLDIIEAEFGLIYYYEHNNIKISSIVNVEDSKLKAELKLLSRMENIFFFIKNSDKEVIVNNVSILPNFSLLPSTLRKKLKNFLEVPLFNGKKIIGGIILFNKETEFSAANVSFLTSLANQISIAVQNIDFLNKEIERRKEEEQLKIASQIQAGLFPQEMPKPKNGDFYGINIPAKAVGGDYYDLIQINENIVIGIVADVSGKGIPASLLMSMLKTTFKMSITKLNEFSPEKILSLLNDYLITENLNGKFVTAVCFKIDTEKQEIELSNAGHDPVLHYDSKNNTILEYQAGGTVLGFLEETFEKEIIKYNKDDVFLLYTDGVVEARSLNNDFFEFERLYDSIKKYHQLNAKALIENLMFDIKKFTNGNKQNDDITILAIKGL;locus_tag=LOCUS_16730;note=WP_004081499.1 PP2C family protein-serine/threonine phosphatase (Thermotoga maritima) [pid:31.1%25%2C q_cov:58.3%25%2C s_cov:90.8%25%2C Eval:1.3e-43%2C partial hit],MGA_1680
sequence07	MetaGeneAnnotator	CDS	126074	126949	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKLFKLFIIFILIFNFGCSNSQKKQIENNKKQENYAIVKGINALNQNKIQVALESFLDAYSINSENIFTLQNLAFIYSEKKDYNTAESYYLKILSKKSNDTNTLYNISVLYYNQEKYIKALNYLKKISYDQLNDKILILKSKTYYALNDYKNAYNNIILIKNNNIDTDIFLVNILFKLNDISNLHPLLVSLYKKYPNNIEINILYSKHLYYNLNEYKKALNIINKYFIKNGVNKKMVIFITEICVNEKDFINAKKYINLTPEADIFDNKILELKKIIEKEVKNNERLAN;locus_tag=LOCUS_16740;note=WP_011948790.1 tetratricopeptide repeat protein (Clostridium botulinum) [pid:25.5%25%2C q_cov:68.7%25%2C s_cov:78.5%25%2C Eval:3.7e-10%2C partial hit],MGA_1681
sequence07	MetaGeneAnnotator	CDS	126939	127640	.	-	0	ID=MGA_1682;product=DUF502 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017188.1;translation=MNNKIRNNLKKYFIAGIIATLPLFATIYILSFIFKLTIHTVTQILPMQYLVDIFLENDIGINIDFIKYFLSNFLSLALVFFIIYIIGLLVSHFINYERINYFENVFLKLPLVKPIYSTFKQFNNILFSKDFKSYKKVVLVEYPRKGIYSIGFLTNNKGFFDNEHINKNELCSVFIPTSPNPTSGMFIMTKVEEVIFLNMKIEDAFKLIISGGAIYPEELITTYKEVKITKDEL;locus_tag=LOCUS_16750;note=WP_011017188.1 DUF502 domain-containing protein (Fusobacterium nucleatum) [pid:36.6%25%2C q_cov:95.3%25%2C s_cov:99.1%25%2C Eval:1.6e-31],MGA_1682
sequence07	MetaGeneAnnotator	CDS	127633	128922	.	-	0	ID=MGA_1683;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017189.1;translation=METYSQIILLIFLIILSGFFSSSETALTGFKMTKLKKVEEENENIAKLLKLWLKKPNEFLTAILIGNNIVNILASSIATTLAITLIGNNANTILLVTGIMTIIILIFGEITPKIIAKNYPTKISMSVIRIINILNIIFYPITKILIFVSRIISKFFGVELNENKLLITEEDIKSFVNVGKDEGVLEEEEQEMIHSIFEFGDTTVKEVMIPRTTMFVLEGSQLVKDIWDDIIDSGFSRIPVYEEKIDNIIGIIYVKDLFTVIKENKLHLPIKNFVREAYFVPETKELDALLKEFKKAHIHIAMVVDEYGGINGLVTIEDLIEEIIGEISDEFDDDDDGELIKKLSDFKYLVNAMISIDDLDNELNINIPISDDYDTLGGFIYSVLGRIPVINDTITHENLTIRVMKIEERRIDKVLIIINNTENNGDKGE;locus_tag=LOCUS_16760;note=WP_011017189.1 hemolysin family protein (Fusobacterium nucleatum) [pid:47.5%25%2C q_cov:98.4%25%2C s_cov:99.1%25%2C Eval:1.5e-112],MGA_1683
sequence07	MetaGeneAnnotator	CDS	128942	129385	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKITNIMSRNIVTISSDTNIKEIIHIMKEKNIGKLPVIENNKVIGVVERKSLLIKKESAPLPPVIAINDLILQLPNSKSFKERLNKLTGYLAKEIMETNFLKIDINDTLENLVTKLVEDNYTYALIFNNDSLEGIITETDLIKNIF;locus_tag=LOCUS_16770;note=WP_010980192.1 CBS domain-containing protein (Sulfurisphaera tokodaii) [pid:28.5%25%2C q_cov:96.6%25%2C s_cov:44.4%25%2C Eval:2.1e-10%2C partial hit],MGA_1684
sequence07	MetaGeneAnnotator	CDS	129457	129921	.	-	0	ID=MGA_1685;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878270.1;translation=MEQTFAMVKPGAVQRELIGEIITRFEKKGIKLVGLKLMQMSEELAKQHYAEHTEKPFFDELVKGITAGPVVAMVLEGENVINIVRTMAGATRPSDALPGTIRGDYVLDTGKNVIHTSDSKESAIREINLFFKKEEIINYSLATETWIYVLPKTE;locus_tag=LOCUS_16780;gene=ndk;EC_number=2.7.4.6;note=WP_010878270.1 nucleoside-diphosphate kinase (Archaeoglobus fulgidus) [pid:60.1%25%2C q_cov:96.1%25%2C s_cov:98.0%25%2C Eval:2.7e-49],MGA_1685
sequence08	Aragorn:1.2.38	tRNA	18	93	.	-	.	ID=Aragorn_42;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00410;note=Aragorn_42
sequence08	MetaGeneAnnotator	CDS	122	1075	.	-	0	ID=MGA_1687;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903868.1;translation=MKYKYIFGPVPSRRLKISLGVDLLKEKICNFNCVYCECGASDKLFNERKKYTPINEVLAEIKDYLEKGNYLDFITFSGNGEPTLHSEIGYLIKEIKKITNTKICVITNSSLLNKKNIREEIMQADIIMPSLDAISENVFRKIDRASSKIKLLDIKEGIKKLSEEYKGKIWLEIFFIEGLNDTKEELDKFIEYLKEIKINRIQLNSLDRPAPEKWVKAMKLNRLEEIKKYFSKELKNVEIIKKYKTKEDIFGYTKNIENFILELIDRRPSTFEDMKEILKIEDTELNKYLEYLENKKEIKKVIENRGIFYKKNIDKKY;locus_tag=LOCUS_16790;note=WP_005903868.1 radical SAM protein (Fusobacterium nucleatum) [pid:39.9%25%2C q_cov:89.9%25%2C s_cov:97.9%25%2C Eval:1.7e-51],MGA_1687
sequence08	MetaGeneAnnotator	CDS	1084	2532	.	-	0	ID=MGA_1688;product=type II secretion system ATPase GspE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000853744.1;translation=MLTSKEIMQIEIDRKTLRILEEKTIHENKVFPIKLTDKELILAMVDPSDIKIMMKIKSMLRKMVTPVAISEEEFFLLTTKYFGIGSGMFTNTDKVVTFTKEFDISDNEENAEIIKFVNKLLLDAYKRGATDIHIEPIKNDILLRYRIDGMLHNVPVPPSIKNVYAAVVSRIKIMSDLDIAEKRLPQDGRIGIKIGKENQELRVSVIPTVNGESIVIRILANQQNEMNLEYLGMREDVLKEFRKLVHKPNGIILVTGPTGSGKSTTLFSAIKELNDGQKKIITIEDPVEYKMDGVSQIQVKSEIGFSFAEGLRAVLRHDPDIIMVGEIRDKETAEIAIRSSLTGHLVFATLHTNDAISSITRLIDMGIEPYLITSSLIGVLAQRLVRRICPYCKTEKVLDNGEVYWHGEGCEYCFHTGYKGRTSIHELYLINDQTKKDILNEKSNFEIRENLLKNGWVDLKKDGEEKVKQGITTIEEIYRVAW;locus_tag=LOCUS_16800;gene=gspE;note=WP_000853744.1 type II secretion system ATPase GspE (Leptospira) [pid:46.6%25%2C q_cov:95.0%25%2C s_cov:85.8%25%2C Eval:2.5e-114],MGA_1688
sequence08	MetaGeneAnnotator	CDS	2581	3018	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903314.1;translation=MKNRMNTNKLKNTDMMNSYSQMSMLGNIQKIGKGKRKYKVNIDKNSKKYLARLIVEMKKQMGIYATNPQTKGVIDYLNYLQTECNKKNNDPVMMSFEELEFLKKTIRDSVKAMEDMKFKWYQFFRKITVKLMLTQNKYLLEELNK;locus_tag=LOCUS_16810;note=WP_005903314.1 hypothetical protein (Fusobacterium nucleatum) [pid:46.0%25%2C q_cov:95.9%25%2C s_cov:96.5%25%2C Eval:3.1e-30],MGA_1689
sequence08	MetaGeneAnnotator	CDS	3039	3980	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVVKEISSAKLEKISKKIKKGEIVCFPTDTVYGIGAFIENENSLKMLYDIKNRPYNSPIIVLLSNKDMLYKYTDNISEKTKKLINKFWPGALSIIVNKNKNIPDIISSKEKTIGFRIPLNKIAIDLIEFVGGGLATTSANKSGEISPVLAEQVFESFKNDNRVKYLIDGGATKERVESTVIDMTKEKPLIIREGIISKKEIEEVIGKVEVIKEERKTKKININIKFFNKKEDIKFNQENAYITMRKYEEFKHNKNYFYFSENGDEKDILKNLFLILDKVIKLKYNIIYVEKTNCENNSYELIYKKINKYID;locus_tag=LOCUS_16820;note=WP_011015966.1 L-threonylcarbamoyladenylate synthase (Fusobacterium nucleatum) [pid:44.4%25%2C q_cov:55.9%25%2C s_cov:81.1%25%2C Eval:1.9e-34%2C partial hit],MGA_1690
sequence08	MetaGeneAnnotator	CDS	3999	5021	.	-	0	ID=MGA_1691;product=galactose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080684.1;translation=MSELRKDPVSKRWVIFSPERAYRPNDYKVKKEKKEKEEDKYCPFCSGNEKKSGDEILAYPKTANREPNSPNWWIRVLENKYPALTPQQNLEKKGVGIYDRMNGLGRHEIIVETEDHKRCISDLTNIEVEKIIWAYRDRYIDISQEKEIKHILIFKNYGERAGASLEHSHSQLIATPVVPKRVETEIKGAKDYYKFRDRCVYCDILSQEQLDKERIIEENEEFVAFNFFAGKVPYETWIVPKKHSAFFSTITKKQIGSLAKILKNVITRIKRALGDVDYNMVVHTSPINIHENTEDVFHWHLEIMPKLTRIAGFEWGTGFYINPVLPEDAAKTLREIKLDE;locus_tag=LOCUS_16830;gene=galT;EC_number=2.7.7.12;note=WP_004080684.1 galactose-1-phosphate uridylyltransferase (Thermotoga) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.4e-101],MGA_1691
sequence08	MetaGeneAnnotator	CDS	5080	6036	.	-	0	ID=MGA_1692;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903312.1;translation=MRTNDVKVFSGSSNKELATKIAHELGIELGDAKVVRFKDGEVYVKLNETVRGDTVLVVQSTSEPVNENLMELLVFIDALKRASAKEIIAVMPYYGYARQDRKASPREPITAKLVANLLTTAGATRVITMDLHAQQIQGFFDIPVDHMKALPILAKYFLDKGFTGDDIVVVSPDVGGVKRARGLASWLDCKIAIIDKRRPKPNESEVMNIIGEIDGKIAIFIDDMIDTAGTITNGAQAVMDRGAKEVYACCTHAVFSGPAIDRLQESPLKEVVISDSIQLSEDKRIDKVTILSVSKLFSEGIRRVINNESLSSLFVKQK;locus_tag=LOCUS_16840;EC_number=2.7.6.1;note=WP_005903312.1 ribose-phosphate diphosphokinase (Fusobacterium nucleatum) [pid:73.6%25%2C q_cov:97.8%25%2C s_cov:98.4%25%2C Eval:1.7e-131],MGA_1692
sequence08	MetaGeneAnnotator	CDS	6026	7396	.	-	0	ID=MGA_1693;product=bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015965.1;translation=MNIVSLVLAAGKGTRMKSELPKVLHKVNGIPMVIKIDNELKKAGIDKNILILGHKKELIISEFKNRNINIEHVTQEEQLGTGHAIMQAKDSLKDFEGTVIVTCGDTPLIRNTTIEQFVKFHNEKNASATILTAKVENPFGYGRIVKNNDKVIAIIEEKEASEDIKKINEINSGVYCFDSKKLFSSLEKIDNNNEKGEYYLTDVIKILVNNNELVESYLLEDNQEILGVNSKVQLAEASKVLRERKNNELMNEGVIFIDPKTAYIEESVKIGKDTVIYPNVIIEGNTEIGENTIIMQNTRIIDSIIENDVKIESSVIEESIIKSGVTIGPFAHLRSKAYLKENVHIGNFVEVKKSTLEKGVKAGHLTYIGDSEVGKNTNFGAGTITCNYDGKNKHKTIIGENVFIGSDTKFVAPVVIGDNAITGAGSVITKDVPEYSLGLGRAKQLNIKEWRKKNED;locus_tag=LOCUS_16850;gene=glmU;EC_number=2.3.1.157%3B 2.7.7.23;note=WP_011015965.1 bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU (Fusobacterium nucleatum) [pid:61.2%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:5.8e-158],MGA_1693
sequence08	MetaGeneAnnotator	CDS	7562	8350	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILIVEDESIIRKGLIYTINWLEMGCIVIGDAENGEKGLEKINKLLPDVVITDIKMPRINGLEMIEKAKKKFDFETIIISSYSEFEYAKQAIHLEVFDYLLKPIDEEKLKKIIEKVKIKIKDKKIYNEIKEKIENKKENLEIININYYMYSNEQISKRILKMIEYIKENYNKKISIEDIADKLDCSSGYLSRKFREETGITFNNFVNKYKIQKSIELLNSGKYKVYEIADMLGFNNYKYFAQVFKNYMNCSPLKFINTQK;locus_tag=LOCUS_16860;note=WP_161410139.1 response regulator (Paenibacillus silvestris) [pid:46.2%25%2C q_cov:39.3%25%2C s_cov:25.9%25%2C Eval:8.3e-19%2C partial hit],MGA_1694
sequence08	MetaGeneAnnotator	CDS	8343	10073	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKKRKYFKEELKKKFIFYALLPTLFFSVFFYSVFFYYNFRLLKVNNKNKNKNISNILQDEFLSYESKINKLSNDVRLRKLIKKTQNKEEIFADLYKFINSRKIRSIFYVLDKDKNILITNDWKESKYNNKKYKLNKTVNKIKVNSSEITLIKNDSQLTKNLNTVYSIGKGIKEKDEIVAYIIFSLIEKDINSIIYTDKVEALVITDKFNNNIISTNNKLINNLGKLELTSKTKNIVKIGKNEYFYYKNNIFNDNIYVYSLTSLSYLKSFYLFGIIFMSMIFILLIMIFLMIAKKLAINQSKTVDELLYGIKLVQNGDLKTYINIKTNDEFEIIADYFNEMLDRLNKLINENKEQIHRNKMVEIKLLESQFNPHFLFNTLETIKYMVKISPENAIKVIVSLSSLLRYSINNKQEKIVLIEDITYIKDYLIIQKYRFENKLDYSINIEKDTERSIIPKLIIQPFIENSIKYGFEHKDNLIIELLSYKVNNNLIIKIIDNGKFIDEIKLKEINNILNNVDNKTDHIGIYNVHRRIKLVYGKKYGITIRNRIENDNNEGVEVKIKLPLIYVYGDEIND;locus_tag=LOCUS_16870;note=WP_011285511.1 sensor histidine kinase (Streptococcus pyogenes) [pid:27.6%25%2C q_cov:63.4%25%2C s_cov:65.4%25%2C Eval:3.6e-38%2C partial hit],MGA_1695
sequence08	MetaGeneAnnotator	CDS	10091	11107	.	-	0	ID=MGA_1696;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_141290802.1;translation=MKKLFLILLTIVTVFISYQNFRNKRNQKNTLEKNYHLVIYSPHPLSFIEPLINRFEIKEEVNVKIVSKGSLELLKLIKENKNSVDIMWGGSLSILSGGKNYFKKYISKNEEYILEKYRNIDGKITRFTAIPSILMINKNLIGNIKIEGFEDLLNPKLKGKIAMANPETSSSSFEHLINQLYAMGGNNNKGWDYIRKLIKNMNGEILNRSSDVYKGVVEGKYIIGCTFEEIGARYLENGAPIKIVYPKEGTAIIPDGVAIIKNSKNIEVAKKFIDFLTSKEIQEFISTDLNRRSIRKDVKNINLKSESNIKIISYNLDEVLKNKQNILNRYNKILLENR;locus_tag=LOCUS_16880;note=WP_141290802.1 extracellular solute-binding protein (Streptococcus canis) [pid:35.2%25%2C q_cov:87.9%25%2C s_cov:86.5%25%2C Eval:1.9e-48],MGA_1696
sequence08	MetaGeneAnnotator	CDS	11205	11930	.	-	0	ID=MGA_1697;product=MgtC/SapB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002355354.1;translation=MYNLEVDQMFARILVAIITGAIIGLEREIKNKPAGFITHTVLCVGAAIISMIQIKLSYESVNFLINYPELSQGIKIDTGRLIAQVVSGVGFLGAGTIIQNKGNVRGITTAATLWLTACLGIAVGLGYFTLALGTAIIITGVVMLLKRIEVRHIEKRIPKKIIIEYKLNKDIEKNIKNFLEIKRIKIYDKKYIRESYNGDITKRITEFSLMMPKFIDIENLINELSKVEGILKINNVRIDGK;locus_tag=LOCUS_16890;note=WP_002355354.1 MgtC/SapB family protein (Bacteria) [pid:36.2%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:1.2e-37],MGA_1697
sequence08	MetaGeneAnnotator	CDS	11942	13009	.	-	0	ID=MGA_1698;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249527.1;translation=MKNAKRLKIENLNKTFITNKNQKVVAVNNINLDIEPGEFVTILGPSGCGKTTTLRMIAGFEMPTEGKIYIGDEDVASKTPDKRDTAMVFQNYALFPHMNVFDNIAYGLKLQKLPENEIKERVSRILKLMKMEDFATRVPSQMSGGQQQRVSLARALVMESGILLFDEPLSNLDAKLRIHMRDEIRRIQKTVGITSVYVTHDQSEAMGLSDKIVIMNAGNIEQVGNPIEIYQKPKNEFVANFIGKANIVDGIVKERIEEYLEVDIHGVEYKIKSNKNYKSGDKVRIVIRPEAIDIFGEDFTGVVTKSIFMGQHHEYEVEFFGEKLEISYNNPINRKIHDVDDKLSFSFDTKALHIF;locus_tag=LOCUS_16900;note=WP_011249527.1 ABC transporter ATP-binding protein (Thermococcus kodakarensis) [pid:50.8%25%2C q_cov:88.7%25%2C s_cov:87.3%25%2C Eval:6.8e-84],MGA_1698
sequence08	MetaGeneAnnotator	CDS	13011	14708	.	-	0	ID=MGA_1699;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_172626058.1;translation=MDSKINILIRNEVENFKKNMRDPILMITIISIMILVFLFILYPLIKILSESIFYNGKISLEHYKNIFKNDSTLEIIKNTVVLGIIVSTISTLIGFLFAYASAYLKIKNKGIFNAVAILPMISPPFVIALSTILLFGRNGFITRGIFGIRDFDVYGLKGLIIVQTLTFFPVAYLMLVGLLKSIDPSVEEAARDLGASRWNVFKTITLPLMVPGLANAFLLVFIQSIADFGNPMVIGGNYTTLAIQIYLQGIGNYDIGGGTALAIILLIISIILFTIQKYYVSTKSYVTVTGKVSRERELTDSPKIVKPVYYIIVAISIFVGLLYILVPIGSFIKLWGADYSFSLNHYKYVFGLGMKPIIDTTMLALVATPISGILGMIIAFLVVRKKFIGKTFVEGTTMLAIAIPGTVIGLGYVLSYNTKPLVLTGTATILIIAFIMRSMPVGVRSGIAALQQIDPSIEEAANVLGADSKKVFTSVTVPMIKPAFFSGLTYTFIRSMTLVSTVIFLVSANYNLLTAAIMSQIDVGKIGVASAYSTILIIIVGIVVSIMQFTLSRMGVNINNGEGGK;locus_tag=LOCUS_16910;note=WP_172626058.1 iron ABC transporter permease (Vibrio cholerae) [pid:36.9%25%2C q_cov:94.9%25%2C s_cov:78.4%25%2C Eval:1.2e-102],MGA_1699
sequence08	MetaGeneAnnotator	CDS	14780	15805	.	-	0	ID=MGA_1700;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000784324.1;translation=MKKGLTLLLLLALMSTMSFAGGLFKKKKTLTIYAGLMEDHAMAAVKQFEKETGIKTNFVRMSSGETLARIRAEKDNMTASIWYGGPADAFIAAKQEGLLEAYKSPNAEIIPDKFKDKDGYWTGIYIGYLGFVMDREWFEEKGYDYPKSWQDLLKPEFKGEIVTAHPGSSGTAYTMLSTVIQLMGEEKGLEYMKKLNGQIRQYTKSGTAPGRMVGLKEIPIGITFLHDAIKYRLEGFKNIEIAAPAEGTGYEIGAVAVLKNGPDMEAAKKFVDWALTKKAQELGQKVGSYQFLTNPNANPPKEAMVLKNTKLIDYDFSWAGKNRGKLVEKFSKATKTKAPTK;locus_tag=LOCUS_16920;note=WP_000784324.1 ABC transporter substrate-binding protein (Enterobacteriaceae) [pid:42.9%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:2.6e-69],MGA_1700
sequence08	MetaGeneAnnotator	CDS	16027	16227	.	-	0	ID=MGA_1701;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356423.1;translation=MANGIVKWFNGEKGFGFITSEEGNDVFVHFSQIKKDGFKTLEEGEEVSFDVVQGQKGPQAENVVVK;locus_tag=LOCUS_16930;note=WP_003356423.1 cold-shock protein (Clostridium) [pid:73.0%25%2C q_cov:95.5%25%2C s_cov:96.9%25%2C Eval:8.2e-24],MGA_1701
sequence08	MetaGeneAnnotator	CDS	16410	17357	.	-	0	ID=MGA_1702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIIILFILSVIIFIILSSIMILKNIMKPVYIGLEEVYSDPILREDYGIFDKKTPQDYGFDYKEVVFCSHKKRLKGWYIPSQEKRSDKVIIFLHGRTSNRLVVLEYLDIIREKGLNKEYAIFMPDLRGSGDSDKGLTALGYYYKEDIFAAINYMKNGFNKTKVVLYGFSMGALGSAYAIEKYYNILKQKDIEIKALILDSPLSNSKERIIDRVKKLPLSNFYIKYAPFLFNIVIGNNLKKLYLGYLLNKIEVPILILQSLEDKTTKYSILKEELKKLKKKNNIYLQIFQKGEHVKIYRINKENYSLVIERFFQM;locus_tag=LOCUS_16940;note=WP_010867387.1 alpha/beta hydrolase (Pyrococcus abyssi) [pid:27.9%25%2C q_cov:68.3%25%2C s_cov:71.0%25%2C Eval:2.9e-11%2C partial hit],MGA_1702
sequence08	MetaGeneAnnotator	CDS	17354	18508	.	-	0	ID=MGA_1703;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902445.1;translation=MKATGIIVEYNPFHNGHKYHLEKAKKKNRKNIIIAVMSGNFLQRGEPAVLNKWVRTEMALLNGVDIVVELPVFYSIKSAEGFAEGAVRILDALNVETIIFGSEAGEINELKEIANLHFNENFQNLIKNRLKTGVSYPNAFNEALNEYGILKELKPNNILGVEYIKAGEKIKSKINFQTIKREKVDFYGEEIREKITSATNIRKLIINNEIEKIKETVPGNCYNLIKKNLDKIVTLDDFYPYIRYEIINNYKKLKKLKDIEQGLENRIYNVALQSENIIEFLENIKTKRYTTSRIKRILISILIGMYEDEYQLDYIKILGFTGNGRKYLNYIKNNCKLDFITNIKNLKENFTKERRERMSFEFKTDNIYKLVKSYEERKYPVIVK;locus_tag=LOCUS_16950;note=WP_005902445.1 nucleotidyltransferase family protein (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:99.0%25%2C s_cov:98.2%25%2C Eval:1.6e-73],MGA_1703
sequence08	MetaGeneAnnotator	CDS	18700	19479	.	+	0	ID=MGA_1704;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903485.1;translation=MLIGFDIGNTHIVTGIYTKNAKQLTSFRIATNANLTEDQYFSYLKTLSDFKHIDLKKINSVVISSVVPNLTNIFKFLSIKYFDTKPLVINSKIKLPFTFSNKIESPSAMGADRIVDISEAMFKYPDKNEIIIIDFGTATTFEIVKNNTYLGGCILPGVNMSIDALFSKTSKLPKVRFEKPETVLGRNTIEHINTGIYYGAIGQIKELITQYKAHLDSPYIISTGGVGKIISHEIDEIDEYIETLAVDGLYSLYQYNKKI;locus_tag=LOCUS_16960;EC_number=2.7.1.33;note=WP_005903485.1 type III pantothenate kinase (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:2.4e-71],MGA_1704
sequence08	MetaGeneAnnotator	CDS	19498	20235	.	-	0	ID=MGA_1705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDRLAKRLDEIKNNLKKYSECEAIIWMNSTGLELEEFNKYTGIDFIIFVKENENEFLKNISWLDCESKVIYAFKNRKNGYKVMYEDKIYLEFIIFNLDEIEEMILPEGRIIYIKNKFDINKFQIERLENNNINIDWEIGELITYIYLGLAKYNKGDKIPAFSFIQIYAVNRLLELAIILEENHLSYNIIEKENIKFQGISSNVNKFMQGYNKSKESALELIYYINKNFELNSFMTEKLIELAK;locus_tag=LOCUS_16970;note=MGA_1705
sequence08	MetaGeneAnnotator	CDS	20501	20908	.	+	0	ID=MGA_1706;product=DUF2141 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002671005.1;translation=MKKIILFLFIAYNLFANNYIINLRINNIYKNKGNIYLKIFNSKKSYKRDIPLKQFILSSDNNEISKKITLPNNYYLFSVFQDINNNKKLDKNFLGIPKEPVGLSNYNGKGIPGGFDKLKIYIDKNSTIEIKLKKI;locus_tag=LOCUS_16980;note=WP_002671005.1 DUF2141 domain-containing protein (Treponema denticola) [pid:41.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.2e-23],MGA_1706
sequence08	MetaGeneAnnotator	CDS	20952	22178	.	-	0	ID=MGA_1707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLIIFIISATSIFAEVIPASYKTVKSNAMGGTTILAEKSDMSLIYNPAMLEFIDKWHLSFLGGNIGTGNETFEVAKALQNMMDAISNANEDDVPKILNDYLDGTNTSGKNNDGNEINNKAIRADISGVIASYTGRIFGAGFGVGAFGNVNANEIALVNKPSSPELVLDMNTSLDVPLGISKSIGKNNQYSMGLSFRMVSATSMEASLGSSGLFELSDDNISDDKKNSLLGYSEYSGFSTNLGAVWQTKKLNYAFTLKDFINSVKVTKYENEEKIEEDDKLPLNLSIAISNKFTPEERGMNWYEKNIFWTVEIQNLLNKDLDGNGYDDTNFWKKLHAGAEIALINNKAFDFDFRVGLNQGYPTYGFGTQLFRTLLIDYAYFTKEVGPYIGSQEVNMHTFAFKIEI;locus_tag=LOCUS_16990;note=MGA_1707
sequence08	MetaGeneAnnotator	CDS	22198	23361	.	-	0	ID=MGA_1708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIIVSFSLLITACNMFESIDKAKDTEEVKAFKQEQALREGDFAESVNIAEETINGDSDMRATSNESEEVASKVKFDVTSLSAIQISNATINDITTLNTEDMVKAIATTTNSAVAIEGAKKVYEDISKPLENLINKNISKAKEYTEAKTTIAESKMGQGNLKTTDVLDSFTGNANLAGNIVANTSSNDDFSIADLIEVNHNYKKAYLQGALDEFMKALVKDITKFKNMKEIIPNYTDKYTAEMVTGGVWLAIEITDVFANKDQSKTQDKWIFKKYSNLTDEDKLAWMKIKPKVIITLTNLRAKLMMLLGVTEDQNGNLSAKDPSKVVNIKLLKDNYDDFYDVVDEFDNVLEKISSITFSDSINDTTEQTNYEGLLNQLGVATEQ;locus_tag=LOCUS_17000;note=MGA_1708
sequence08	MetaGeneAnnotator	CDS	23478	24461	.	-	0	ID=MGA_1709;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001012708.1;translation=MINELKDIKIFAGSTGKEFAEKMCKYLNSTLGKSSVKKFSEGNIFVQIQETVRDKDVYLVQSIGMNPNDEFTEILFWMDAFKRASAKQVTAIIPFFSYAKGDKKDEPRVSIRARVCAECIEVSGADRVVTMDLHSPQIQGFFKKPVDHLFAMSLLSEYIKTMNLNNLMIVSPDSGFAKEARMYSEYLDLPIAIADKTRRDHLENAKILDIVGNVEGKNIVITDDFTISGGTLIDLAYELKKRGAKKIYAVLSHVLLTKEGLEKIENSPIEKIISTDSVKNEYIKNNDKIKIISVAPLFAETIKRIHLRKSVSCIFEKLPYKIIKNSF;locus_tag=LOCUS_17010;note=WP_001012708.1 ribose-phosphate pyrophosphokinase (Leptospira) [pid:41.9%25%2C q_cov:94.8%25%2C s_cov:99.0%25%2C Eval:3.4e-71],MGA_1709
sequence08	MetaGeneAnnotator	CDS	24679	25242	.	-	0	ID=MGA_1710;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897833.1;translation=MKTAQEFSSGNIIKMGNDVFFILKATFNKSGRNAAVMKFKLKNVITGQIKEEVVKAGDKFDDIRLDKKSMQFLYEMDGDYNFMDQETFDQIALRKEDLEDAPKYLVEEMVIDVLFYEGKPVGIELPTSVEREVTYTEPGLRGDTTGKVMKPATIETGYELQVPLFVNIGDIIKVDTRTGEYVERVTK;locus_tag=LOCUS_17020;gene=efp;note=WP_005897833.1 elongation factor P (Fusobacterium) [pid:62.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-61],MGA_1710
sequence08	MetaGeneAnnotator	CDS	25260	26339	.	-	0	ID=MGA_1711;product=elongation factor P maturation arginine rhamnosyltransferase EarP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016605.1;translation=MKSVAIFCNVIDNYGDIGFVFRLARQLHKRNDKLEIKVFLNNLKSFNKINKNISINKTQQKLGNILYIDINKVDYFEIEKSEIVIEAFGCDIDESYFENNNKTKLIINLEYLNIEEWTKDYHLMPSYSGYNNIKKYFFMPGIEEGTGGIISDFEIPIYSKKYFFNNELKLDINIENKIITIFTYEFNFDNLMKYLKKQKQNYTLLLFGEKTQKYFRGLDKKIDNIDLIFMNYLSQEDFDKVLYFSDYNLVRGEESFVRAILAGKPFLWHAYCQEELEHLNKISGFLQIISKFFPQKEFEIYKKIMYNYNLRKINNYDRNDVYFDDFFKIDRKIFLKFSNSIKKHNLIDNLMLFIEQNLK;locus_tag=LOCUS_17030;gene=earP;note=WP_011016605.1 elongation factor P maturation arginine rhamnosyltransferase EarP (Fusobacterium nucleatum) [pid:37.5%25%2C q_cov:98.9%25%2C s_cov:97.7%25%2C Eval:8.0e-56],MGA_1711
sequence08	MetaGeneAnnotator	CDS	26450	28054	.	+	0	ID=MGA_1712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLGSIIILSILILFTKGNILLGSIFIIIQLILITFATKKLFHLQKLLENIFSKLENNDIDFTEYEDKYPSLKRLFGFFNKISQIVSIINYSSKNLKELSNHLTKETEEIIKGSNENTDNLLALENKTKDILDSVTNQYASTEEISATINNLSESFKIVAENAEQTMILSNDTAKAAKKGGKSVTKTLNEMRKIETLMQIIETKTNELASSSEKIVNIVNMINQISEQTNLLALNAAIEAARAGEAGKGFAVVAEEVRKLADDSGKATKEIEDLIKIIQNETNEVINAVQESYNEVKVGIKLSEDTIKEIDNIVEQTESTNKEVTNISNAINQQSTAIEEIQVATETVAFNGETITNISQEQTYIFEIISNKLNEFLEEISRLNEISHSLTGSINGIAILDNNNQIQDLIKWDNKYSVNNEKIDNQHKKLVTLVNTLNAAMLLGQSKSIINEIIAELADYTVTHFKDEEEYMESIGYDDLENHKKIHKTFVEQVVKVQNDIKSGKSSVSNELIDFLKKWLIEHIMKTDKKYVK;locus_tag=LOCUS_17040;note=WP_010937481.1 bacteriohemerythrin (Desulfovibrio vulgaris) [pid:31.7%25%2C q_cov:72.8%25%2C s_cov:54.9%25%2C Eval:1.6e-48%2C partial hit],MGA_1712
sequence08	MetaGeneAnnotator	CDS	28081	29586	.	+	0	ID=MGA_1713;product=YifB family Mg chelatase-like AAA ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015709.1;translation=MLSRVLSSGYIGLETFIIEVEVDINNGLPSFSIVGLADTAISESRERVRAAMKNSGYQIQPKKIVVNLSPADIKKEGASYDLPIAIGILSCYDIVNKDKFNNYLLIGELSLSGEIKKVNGIINSVILAKEKKFKGIILPAENYYEASLIKDIDIIPVKTLNDVIEFINNNKRIKIKNKIEFIDQNFEIDFKEVKGQTKAKRALEIAAAGGHNIFMIGPPGSGKSMLAKRLNTILPPMNENEIIETTKIYSIAGMLNKDEPFIKTRPFRAPHHTSSDVALIGGGRNPKPGEISLAHNGVLFLDEMAEFPKKVLETMRQPLEDKVVNISRSLYRVSFPSNFMLISASNPCPCGHYGSDTGEFCKCTERDRIRYMNKISGPILDRMDLYVEVRRLSQDELFKYSEGESSQEIYTRVIKARKIQNKRYKNKYINANMTSSDIKKYCELDNQSKDIIKNASKSMNISARSFDRILKVSRTIADLEGSENITYFHILEALNFRKKEN;locus_tag=LOCUS_17050;note=WP_011015709.1 YifB family Mg chelatase-like AAA ATPase (Fusobacterium nucleatum) [pid:55.1%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:3.7e-153],MGA_1713
sequence08	MetaGeneAnnotator	CDS	29598	30680	.	+	0	ID=MGA_1714;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003396112.1;translation=MYTWLEIDLNKLEKNYNYIKKYTNKNIIPIVKANAYGMGAIEISRFLQNKFNIEIFAVANYKEAIELYNNGITSNILIFNEIESEYLKKSIDKNFIFTIFNLFYLKKWIFYLKNDISKIKFHIKFNTGLNRLGLEKEDIPELIELVHKYNINIAGIYTHFATADSNIKFMKNQIDSFNDIISILKKYNLNYSIIHLSNSPASFNEVIIKENYARIGMALYGLQPIENKNINITPIFKWKAKIIDIRYIKKGEGVSYSQTILNKDSKIGVVPVGYADGYMRQLSNKAYVLYNNNKCKIIGNICMEKIIIDFTDTNAKIDDEVIILGNNIDIEEFAKNSNTIADDIISKFSKTITRRYIYEE;locus_tag=LOCUS_17060;gene=alr;EC_number=5.1.1.1;note=WP_003396112.1 alanine racemase (Clostridium botulinum) [pid:34.9%25%2C q_cov:98.3%25%2C s_cov:93.8%25%2C Eval:1.2e-48],MGA_1714
sequence08	MetaGeneAnnotator	CDS	30670	31248	.	+	0	ID=MGA_1715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNHQNGFTIIELLIAISIITILSTIGYATVSKQMETNAILKMRNQIPTFIKGISELSYETGEKYDISIDFNNYIITAKKNGSTTIYRKLNLEKNLQYCFIDNNNKIQNTLSRNTTSTGNINIGFSIYIFNKKNKAKSKISFVSTTKVVKFLVINRYTPKKDMYLNNFTQNRVITGSELELKDSNNWEKVN;locus_tag=LOCUS_17070;note=WP_236585678.1 hypothetical protein (Fusobacterium canifelinum) [pid:31.0%25%2C q_cov:75.0%25%2C s_cov:58.9%25%2C Eval:4.2e-07%2C partial hit],MGA_1715
sequence08	MetaGeneAnnotator	CDS	31295	31420	.	+	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKSLLINLRKIIINNIPEGFVEELNYNIIGYVVPLSIYP;locus_tag=LOCUS_17080;note=MGA_1716
sequence08	MetaGeneAnnotator	CDS	31499	31693	.	+	0	ID=MGA_1717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSNKDLLNWFKEEYSKKCNHKLDMGKRCIPFKKFNDIPYDLIADLITKIDVKTWISIYESSKK;locus_tag=LOCUS_17090;note=WP_012027268.1 DUF1801 domain-containing protein (Streptococcus suis) [pid:35.9%25%2C q_cov:100.0%25%2C s_cov:42.4%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [31418:31420](+),frameshifted%2C insertion/deletion at around 31320,MGA_1717
sequence08	MetaGeneAnnotator	CDS	32016	33842	.	+	0	ID=MGA_1718;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963484.1;translation=MCGIVGYIGERKEVKSILFNGLSKLEYRGYDSAGISILKNGNIITKKAVGKLVNLEKEIINTDMKGFLGIGHTRWATHGKPSVENSHPHLSTNNDITLVHNGIIENYDILKAALIKKGHKFLSQTDTEVIVHLIEDAYEGDIFEAVKKILPLLDGAYAIGVFTKNEPNKLIAARKGSPLVIGVGKNENFIASDIPAILEHTKDAIFLNDGEIAILTKNSVEIFDLNGDKTEKNIKHIEWSLEAAEKGGYDHFMIKEIHEQDRVINDTLRGKVFEDNVKIDEITMSDEELQNIHKIHIVACGTSWHAGLVGKYILEQELRIPVEVEVASEFRYKNPIISNKDLVILISQSGETADTLAGLREAKSKGAKTLGILNVVGSTISREADGTIYTNAGPEIGVASTKAFVSQLIALYILMLFLGEKKNILSKERRKYIISELKLLSKKVKTILNNEKNIEKIAKLFENVNSTMFIGRNINAPIALEGALKLKEISYIHAEGYPSGELKHGPIALIHENFPTVAIATKSHTYEKVKNNVEEIKARSGTIITIASEGDEKIQDISDAVLYVPDTEELFSPVINVIPLQILSYYVAKSRGLDVDKPRNLAKSVTVE;locus_tag=LOCUS_17100;gene=glmS;EC_number=2.6.1.16;note=WP_010963484.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Clostridium) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-188],MGA_1718
sequence08	MetaGeneAnnotator	CDS	33873	34964	.	-	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIKNKFFYIIIIQVIFFQLLFSNDEYKIEKIIRDNKVIGEKIINLKGDIIKEYLYKEYENDRATILDVISRGKRVKKVAELNIIYNNNKKLFAVERDLKGNINEVSFFYTFENKFIEEKRDGNGKLLQFLEYKDDGSIVDVTEEIISKRILEKLTVTEKNKTKILKSLDSLKLILSKDKKILLAQTLKPLNTAKVAEKDVLISQIVTDSIKEYTKTDFVLVNAGLFQNKIDIGNIYYENIKNILTDHKLYTLNLYGYEIIELFNNISKLPKGHREFPNTANLIWETLKNNIVITINGEPLDKYKLYSLTVNEYIKNGNGVYFKLKDKIFSEIPYKTELIVADYLNTIDIIDDSYILEDRIK;locus_tag=LOCUS_17110;note=WP_004082429.1 bifunctional UDP-sugar hydrolase/5'-nucleotidase (Thermotoga maritima) [pid:25.2%25%2C q_cov:42.1%25%2C s_cov:30.5%25%2C Eval:1.8e-10%2C partial hit],MGA_1719
sequence08	MetaGeneAnnotator	CDS	35059	35841	.	-	0	ID=MGA_1720;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005478879.1;translation=MTKDISIYSLGLLILFIIPLIITSIFLKLDIIKKTFFSIFKMCIQLFLVSLYLNYIFTLNNRFINLLYLLIMIIIATLNVANNSNLKLKKFIFYIFISIAFSQVLTLFIFNKFIINLSNIFDAKYIIAVGGMLLGNEISGTIITLNSLYNEVSKKEEKYLFLLTIGANKLEALQESIKISILSSITPTIASMSAIGIVSLPGMMTGQILAGSIPTTAIKYQIAIMLAILNAKFISSILIIIFFNKKCFTPYSLLDKEYFK;locus_tag=LOCUS_17120;note=WP_005478879.1 ABC transporter permease (Vibrio parahaemolyticus) [pid:33.5%25%2C q_cov:81.5%25%2C s_cov:78.1%25%2C Eval:2.2e-32],MGA_1720
sequence08	MetaGeneAnnotator	CDS	35846	36466	.	-	0	ID=MGA_1721;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008798583.1;translation=MENIIKIENLNLTLNNKWIFKNFNLSLNKNEKILLNSKSGSGKTTLLNIIFGFFYIDSDVYINNNKLNSKNIEKIRENISYIPQNIFFQTMKVIEFIEYIFSLKQYRKKELDILKLEKYLEIFQLDKDILNNFTNKLSGGEKQRLMLIITILLDKDIWLLDEPTSAIDSETKKKVIENILKLDKTMIIVSHDKEWLEYESIKIISW;locus_tag=LOCUS_17130;note=WP_008798583.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:31.8%25%2C q_cov:91.7%25%2C s_cov:80.8%25%2C Eval:6.6e-25],MGA_1721
sequence08	MetaGeneAnnotator	CDS	36624	37538	.	-	0	ID=MGA_1722;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986316.1;translation=MIYTLTLNPSLDYTVIVDEFKENRLNLSKEEYKTAGGKGINVSQVLQNLNVKSIAMGYLAGFTGEFIEKKLKENGILTDFIKLDNGDTRINIKMKSKNSETEINGNSPYISIEKVEKLIKKIKEISKEDIVILAGSVPKSLPSDTYIKIIKSLNKNTKFILDTRTKILKNTSKYKPFLVKPNKDELEEIFNIKLESLEEVIKYGKQLKDIGPQNVIVSLGEKGAIFITKNGIYKAIPPKGELIDSVGAGDSMIAGFTAKYIETSDLLESFKYAVATGTATAYSRGLATKKLTEKLYKEIEIEKI;locus_tag=LOCUS_17140;gene=pfkB;EC_number=2.7.1.56;note=WP_011986316.1 1-phosphofructokinase (Clostridium botulinum) [pid:48.8%25%2C q_cov:94.4%25%2C s_cov:95.7%25%2C Eval:7.4e-73],MGA_1722
sequence08	MetaGeneAnnotator	CDS	37538	38275	.	-	0	ID=MGA_1723;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000957281.1;translation=MLINERYDLILKYLKEKETVSVKELTGVTKSSEATIRRDLIELEKKALLKRVHGGATVIDDNIELSMASKTSINREEKEIIAKFAASIVNDGEYIFLDAGSTTFQMIKYLSKKKIKVVTNGIDHILELVKYNISSYVIGGEIKETTRALIGIEAYEQILKHNFSRAFLGVNSLSYERGYSTPDTEEALIKKTVINLSKKSYILADNSKFGKNSFCKFGKLEEAIIITDKLIDKRFKEKTIVKECK;locus_tag=LOCUS_17150;note=WP_000957281.1 DeoR/GlpR family DNA-binding transcription regulator (Bacillus) [pid:48.4%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:5.8e-56],MGA_1723
sequence08	MetaGeneAnnotator	CDS	38421	39497	.	-	0	ID=MGA_1724;product=3-isopropylmalate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966448.1;translation=MKKEYRVVAIPGDGIGPEITKVGIEVINKAVEKYDTKINWVEMDAGGCAIDKFGEPLPAKTLEECKKSDAVFLGAVGGWKWDTLPGNKRPEKALLGLRQGLDLFCNLRPAKVFEELKDASPLKNSIVDKGIDILVVRELTGGIYFGEKGRKGEGEDLVGYDVMQYSKKEVKRIAKVAFEAAMKRNKKLTSVEKANVLEVSRVWREAILEIAPEYPEVELNHMYVDNAAMQLVRAPEQFDVIVTGNMFGDILSDEASIITGSIGMLASASLRDDNFGMYEPIHGSAPDIANQNKANPIAQVLSGAMMLRYSFGMNEAADDIENAVNKVLKEGFRTGDIYSEGKVSLGTKEMGEAILKYL;locus_tag=LOCUS_17160;gene=leuB;EC_number=1.1.1.85;note=WP_010966448.1 3-isopropylmalate dehydrogenase (Clostridium) [pid:68.5%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:1.5e-139],MGA_1724
sequence08	MetaGeneAnnotator	CDS	39518	41029	.	-	0	ID=MGA_1725;product=2-isopropylmalate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393738.1;translation=MKKIKIFDTTLRDGEQAAGVNLNLKEKILIAKQLEAMGVDIIEAGFPIASNGDFESVREIAKVIKKSTVAGLARARKEDIDRAYEALKYAKKPRIHTFIATSDIHMKYKLKMSKEEVLNQAYEMVKYAKSYFDDIEFSAEDAYRSDPDFLCEIYAKVIEAGATTLNIPDTVGYALPEDFGRFIKYIIDNTKGIENVDVSVHCHNDLGLAVANSLAAIRAGATQVECTVNGIGERAGNAAMEELVMTLKLKKDVLSVETNIDTTHIHRISTLVSSLTGMNIQANKAIVGANAFAHESGIHQDGVLKEKSTYEIISPEDIGLKKELNLVLGKHSGKHAFENSLKEMGIELESEELLEAFKKFKDLADKKKHVTTRDVEAIVNNKTYFKEVYKLKSFQLNSGNNMTCTGMIELIKGEEIIKEVAIGEGSIDALFKAIERVTNLKVELKDYSIKSVTGGKDALGEVTVRLAYENNNTTGKAIDEDIIQASINAYLNAINKMLDNIKN;locus_tag=LOCUS_17170;EC_number=2.3.3.13;note=WP_011393738.1 2-isopropylmalate synthase (Moorella thermoacetica) [pid:57.8%25%2C q_cov:98.8%25%2C s_cov:96.1%25%2C Eval:7.0e-160],MGA_1725
sequence08	MetaGeneAnnotator	CDS	41417	41818	.	-	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLELNQEVTNKEIAEIFQCSNQGGIRKSNKTKTVVIIAKFLDCSYVHKKAGDILYFVGIGKKGDQQLIRQNKSLYNAEKEGYSIHCFELYEENKYIYKGEMSLVKEVFTEEQVDDNGKMRQVLIFPLKYKDI;locus_tag=LOCUS_17180;note=MGA_1726
sequence08	MetaGeneAnnotator	CDS	41889	42614	.	-	0	ID=MGA_1727;product=DNA/RNA nuclease SfsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877131.1;translation=MKKILNIPIDKKGIFLERPNRYLSKVKIDNEIIEAHVHDPGRLKELLFENNKVYLQKAINPNRKTKWDVIAADSGDGEKILINSKFHRYISEKILNDFEISPFGKIDSIKAEVKYKNSRIDYLLEKGNKKIWVEVKGVSLSQDKIAKFPDAPTKRGQKHLKELIELKKTGDRTAIMFLILRNSIKFRPKYETDKEFAKLFYLAKEKGVEIYPILLEYKDKWIYYKKLIDIAEIDEVEKEKE;locus_tag=LOCUS_17190;gene=sfsA;note=WP_010877131.1 DNA/RNA nuclease SfsA (Methanothermobacter thermautotrophicus) [pid:41.0%25%2C q_cov:84.6%25%2C s_cov:85.0%25%2C Eval:1.6e-37],MGA_1727
sequence08	MetaGeneAnnotator	CDS	42774	43343	.	+	0	ID=MGA_1728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNFYFFIFLFFLGCSNVSEYKNIVYKDYKTKNNFKIKNDDINTYYKSKKNLNNFFILHKTKDNIIPILHITSKEKNWVYPNKLEFISEDIFSTYFIDISENKYDNVLLFSKTTLDLKTIEKLAIPLSDSEFNTIVKYIKSIDCKIKLYSEYDNRTSYIILSDTEKKEMIKTFTLYNKLKKGEITNVN;locus_tag=LOCUS_17200;note=MGA_1728
sequence08	MetaGeneAnnotator	CDS	43333	44040	.	+	0	ID=MGA_1729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016516.1;translation=MSTKLKYFIAGEAGGLNKQTGRIDMHGIFDVLTSPIFPIVIPNMAILIGIEANGKEQTLELRLNSPKDELLGKIQVTFPPTYPGLTAKQTLKLEKLPVILKGKYTVDILEVKAKGGYQFIATEDLFTAVFPPKREFKEGEIEEILKRDDVIKTVITDYKVPDNEKVFKFQLSLDPNEKLPEGVQPFPQDDKLVVDGKEYDLTGIRRNVEWMFGRKKQQPQSEENVETENSNKNIN;locus_tag=LOCUS_17210;note=WP_011016516.1 hypothetical protein (Fusobacterium nucleatum) [pid:35.8%25%2C q_cov:89.4%25%2C s_cov:89.8%25%2C Eval:1.7e-33],MGA_1729
sequence08	MetaGeneAnnotator	CDS	44171	45094	.	+	0	ID=MGA_1730;product=DUF1385 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480077.1;translation=MNEKKVKNVGGQAVIEGVMMKSPDRIATAVRRSNGEIVYKVKELSKNNKFLSKIPFIRGGFILIESLFVGIKELTFSANQFEEEEEDLSDFQLALTVFVSMSLGVGLFILLPSFISNFIFQNSLSSANILEAILRMIFFIVYIKLISFSKDIKRVFQYHGAEHKSIYTFENNEKLTKENAKKYTTLHPRCGTSFLLIVMIISIIIYSLVDIFLPTPDTLLMKQVMKLSTRILLLPFVAGASYEFQKYTSRHLKNPIIRLLAAPGLKLQNITTKEPDFDQLEVGVVALRAALGETIENAKDITEEELQ;locus_tag=LOCUS_17220;note=WP_198480077.1 DUF1385 domain-containing protein (Fusobacterium canifelinum) [pid:55.4%25%2C q_cov:96.4%25%2C s_cov:98.0%25%2C Eval:1.2e-91],MGA_1730
sequence08	MetaGeneAnnotator	CDS	45094	46170	.	+	0	ID=MGA_1731;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796873.1;translation=MFNKLEEVVKRSEELTALLGTQEVASDPKKMMEYNKALSSMSEIVEKYKEYKKIKSDYESLKNDLHSEKDPDMKEMIHEEVKELEAKIPELEQQLKILLLPKDPNDDKNVIIEIRGGAGGDEAALFAADLFRMFTRYAERQKWKVEIIDKSEIGVGGLKEIIFSINGKGAYSKLKFESGVHRVQRVPETESQGRVHTSTVTVAVLPEVEDVGEVEINQSDLKIDTYRASGAGGQHVNMTDSAVRITHLPTGIVVSCQDGRSQLKNREQAMKVLATKLYEIELEKQRSAVDSARKLQVGTGARSEKIRTYNFPQGRVTDHRIKLTLHKLDAILDGDLNELIDALITYDQSEQLQNLGEE;locus_tag=LOCUS_17230;gene=prfA;note=WP_124796873.1 peptide chain release factor 1 (Fusobacterium canifelinum) [pid:71.3%25%2C q_cov:98.3%25%2C s_cov:98.6%25%2C Eval:3.3e-142],MGA_1731
sequence08	MetaGeneAnnotator	CDS	46219	47355	.	+	0	ID=MGA_1732;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495074.1;translation=MNKLIDILNFSTEYLTKKNISNPRLNAEKIISEVLGLDRIMLYVHFERPINTQEKEKIKSFLKKISMDNHSKNLEKKETLNSEIFLNTQSNKKFKEQNSFIFNESIEYLKKYDIKNAKLEVELIFSHILKINRMLLSLNFNKKISKENLDKIKILLKKRAKEKIPIQYLLGFEEFYGYKFIVNKNVLIPRPETELLVEECINLLKDITEPKILDIGCGSGAISITLAKELPNSKVIGIDISKEALIVAEENCILNNCENLKFIKSNIFENIKYKSFDLIVSNPPYIPNYEYKELQPEVKLHEPKLALVAENNGYYFYDKISSEARTHLKNGGLLAFEMGYNQSEKIKSFLKRDKYKNIKIKNDYNNIPRMIFAKKGEI;locus_tag=LOCUS_17240;gene=prmC;EC_number=2.1.1.297;note=WP_029495074.1 peptide chain release factor N(5)-glutamine methyltransferase (Fusobacterium hwasookii) [pid:47.7%25%2C q_cov:98.4%25%2C s_cov:94.3%25%2C Eval:9.0e-90],MGA_1732
sequence08	MetaGeneAnnotator	CDS	47355	48380	.	+	0	ID=MGA_1733;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627822.1;translation=MNIKDFDYHLPEELIAQKPINPRDNSKLMIVDKRNKLIEHKIFKDIIDYLNPGDVLVRNSTKVIPARLIGKKETGGVLELFLLKRIDLNKWEVLLKPAKKLKLGQKLYIGKLNELVATLLEIKEDGNRIVEFKYNGIFEEILDKLGEMPLPPYIKEKLEEQDRYQTVYAQKGESVAAPTAGLHFTEELLKKIEDKGIEVVDIYLEVGLGTFRPVQTDNILEHKMHSEFFEIPEKSANIINKAKSEGRRIIAVGTTSVRTLESSVDENGKIISQKNNTEIFIYPGYKFKIVDALITNFHLPKSTLLMLVSAFSNKDFMMRTYKNAVENKYRFFSFGDAMFIK;locus_tag=LOCUS_17250;gene=queA;EC_number=2.4.99.17;note=WP_201627822.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Fusobacterium canifelinum) [pid:74.3%25%2C q_cov:99.1%25%2C s_cov:98.5%25%2C Eval:2.5e-144],MGA_1733
sequence08	MetaGeneAnnotator	CDS	48393	48629	.	+	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSKETIKIIKEMRNLYKKLIEIQKEIITKLKLGNLKNSEHMKLEYELEQNKETMENIRKYFAKIQYIEEINKRMKEN;locus_tag=LOCUS_17260;note=MGA_1734
sequence08	MetaGeneAnnotator	CDS	48698	49081	.	+	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIIIGIIILSSLTYAMNLDVEALLYKNTEFKLASDLINLSSSDSINFSLGAGYLSSSSTGFATLNMLTDYNTFINGQIALRIGSTFTSSLYLATDISLSQGNFAPIISYNFNGDVIGLGLRLNF;locus_tag=LOCUS_17270;note=MGA_1735
sequence08	MetaGeneAnnotator	CDS	49100	49648	.	+	0	ID=MGA_1736;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017073.1;translation=MRIVAGIAKNRKLKTRKGHDTRPTLEKIKESLFSIIFPYVENSNFLDLYSGTGNIALEAISRGAKRAIMIEKDPEALKIIIENVNNLGFENKCRAYKNDVFRAIDILGKKNEKFDIIFMDPPYHDEICEKVIKRVLKNELLKEDGIIIAEHFIAEKMPDSIGELNKIDERNYSKKVLTFYSR;locus_tag=LOCUS_17280;gene=rsmD;EC_number=2.1.1.171;note=WP_011017073.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Fusobacterium nucleatum) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-68],MGA_1736
sequence08	MetaGeneAnnotator	CDS	49819	50049	.	+	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARGKSFEDNLKEIDNLINEIENNENLSLDESIKKYEKAMKLIQNCSQILEKSEGKVLKIKEENGKLIFSEFKKGE;locus_tag=LOCUS_17290;note=MGA_1737
sequence08	MetaGeneAnnotator	CDS	50049	50942	.	+	0	ID=MGA_1738;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017072.1;translation=MSTNLKTKFEYYKNLTNTNLENFFNELNYPQIISSGMKYSVLNGGKRLRPFLLLATLEMLNIDIKKGIPSACAIELIHSYSLVHDDLPALDNDDLRRGKLTTHKKYGEANGILIGDALLTHAFYLLSEKNLNILSADKIVKIISLTSKYAGINGMIGGQTIDIESENKQIDLPTLQYIHTHKTGKMILLPIEIAIIIANLDDVKSNVLKEYAEIIGLTFQIKDDILDIEGEIDKIGKPIGSDLELNKSTYPSIFGLEKTKEILQEKTKEAKELLLNTFGETSKILIELADFIANRDN;locus_tag=LOCUS_17300;note=WP_011017072.1 polyprenyl synthetase family protein (Fusobacterium nucleatum) [pid:62.7%25%2C q_cov:98.0%25%2C s_cov:97.0%25%2C Eval:9.6e-102],MGA_1738
sequence08	MetaGeneAnnotator	CDS	50957	52183	.	+	0	ID=MGA_1739;product=[FeFe] hydrogenase H-cluster maturation GTPase HydF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964958.1;translation=MSNLNKTPTANRLHIAIFGKRNMGKSTLINALTNQNIAIVSDFAGTTTDPVSKAMEILPIGPCVIIDTAGIDDVGELGNLRIQKSIDVIKKTDIALLVIDYNGFNNFDYKIMELLKENNTKFIVVVNKTDIQSISNEFKTDLNNYKYIELSAKNKTKINELKELIIKHSPKSFEQPSILGDLISPGDDIILVIPIDTGMPKGRLILPQVQTIRDILDNDGIIHISKERELRWTLENLKKKPKLVITDSQEFAKVSADTPDDILLTSFSILFARYKGDLFELVKGAKVLKNLKPNDKVLIAEACTHHAQPDDIGKVKIPRWIKQNIEPEIEFDFCSGRDYPNNLTNYKLVIHCGGCTLNRKEMLNRIEASTKNGVPIINYGLCIATIHGILDRALKPFEEVYLEWLDSE;locus_tag=LOCUS_17310;gene=hydF;note=WP_010964958.1 [FeFe] hydrogenase H-cluster maturation GTPase HydF (Clostridium) [pid:56.5%25%2C q_cov:97.3%25%2C s_cov:96.8%25%2C Eval:6.0e-127],MGA_1739
sequence08	MetaGeneAnnotator	CDS	52202	52804	.	+	0	ID=MGA_1740;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902889.1;translation=MYEYLFGKIVKKKVDSVILDINNIGYRIYISLNTYEKISNEKVKLYIYSHIREDAYVLYGFYSETERNFFEKLVNISGVGPKLAIAILSTFTVKDLKTIILNNDINLLKKVPGLGPKKAQKLIFEIQDKIDYKFNLEENFETKDSIHIENLKDDIYLAMESLGYNKKDIDKFIDSEKINNYNSIEEAIKDILKTIQSKKR;locus_tag=LOCUS_17320;gene=ruvA;EC_number=3.6.4.12;note=WP_005902889.1 Holliday junction branch migration protein RuvA (Fusobacterium nucleatum) [pid:44.2%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:8.7e-43],MGA_1740
sequence08	MetaGeneAnnotator	CDS	52813	53712	.	+	0	ID=MGA_1741;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020666.1;translation=MNITDRSKEANRITIIGSIENLFLTIFKLFAGVIGNSSAMLADGIHSLSDFSTDFIVILSFIFSKKPEDKDHNYGHGKIETLSTAIISIILIYVGLMLMKTGSLKVYSILNGTNLSPPKSIAVWAAFLSIVIKEIMYRQTLYVAKKIDSSILKANAWHHRSDAFSSFGTFIGIGIAFLFGHKWIIFDPIASIIVSLFVIKVGLSILYTTVNELIEGALDEEETKKIENIISSCNEIINYHDLKTRRIGNSIAIEFHILVNRNYSFVKVHDITESIENNLKKAFSNQHLYISIHMEPSEK;locus_tag=LOCUS_17330;note=WP_011020666.1 cation diffusion facilitator family transporter (Methanosarcina acetivorans) [pid:45.7%25%2C q_cov:97.3%25%2C s_cov:87.6%25%2C Eval:8.8e-71],MGA_1741
sequence08	MetaGeneAnnotator	CDS	53747	54397	.	-	0	ID=MGA_1742;product=beta-phosphoglucomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003433900.1;translation=MRDIELFIFDLDGVITDTAEYHYLAWKELCDDKGLLFNREVNEKLRGVSRLDSIKIIMEYNKKDDVSEIELIEWATEKNERYKQLIQKVTPNDLIEGITEIFNRLKNKNIKIALGSASKNAKAVIKNLGIEEIFDFIGDGYSVDKSKPAPDLFLYVAKNLNISPGKCVVVEDALAGIEAAKSAGMLGVAIGKKEDFKKADFVYNKIKDINLDEILK;locus_tag=LOCUS_17340;gene=pgmB;EC_number=5.4.2.6;note=WP_003433900.1 beta-phosphoglucomutase (Clostridioides difficile) [pid:46.7%25%2C q_cov:97.7%25%2C s_cov:93.8%25%2C Eval:2.5e-49],MGA_1742
sequence08	MetaGeneAnnotator	CDS	54408	56660	.	-	0	ID=MGA_1743;product=glycosyl hydrolase family 65 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861838.1;translation=MLNWSIVKENFDKENFMLNETLFHLANGYLGVRDSFEEDFRGKLKTVRGIYINGFYETEDIQYGEKLYGYAEYSQSILNITDVQTILLNIDGEEFSILQGKIKKFKNELNLKEGYVKREILWKSNSGKELKIDIKRIVSFTREELFIIQYNITPLNFSGEIEITSLIDGNVSNITASDDPRIGTANAKHLDVVKCEVKENIGIIENKTKHSNMSVITSCIHEVNKKNQLNIEKEHDKINFKFSLEVKENEKVEFVKYSVFTDSLRYENNYTENLKILNEVIKNGKEFYIEAQKVYLNEFWKTSDIIIDGDEKLQEGLRYNLYQLLQSVGKDMYTNIAAKGISGEGYEGHYFWDTDIYILPFFMFTNSFLAKNLLMYRYNTLEKARNRAKMMGHKKGALYPWRTINGDECSAFFPAGTAQYHINTDIAYSFIQYYLITEDKEFMQNYGAEVLFETARVMFDIGHFNREGKFVINDVTGPDEYTCIVNNNYYTNIMAKYLFENTKLAWEILKENKEQFKKLKNKIEINEEEIKEFERAKENMYLPFDEKLHIHPQDDSFLNKKVWDFKNTPKENYPLLLHYHPLTLYRYQVCKQADTILAHFLREEETTLDIIKNDFEYYEKITTHDSSLSTCIFSIMASRLRLKEKAYDYFINNARLDLDDLHHNTKNGIHTAAMGGSWMGVVFGFVGMRIKNNNLHFNPLLPDNINKIKFKINFKHRELEIILNKEKLDIKLISGDKIDVYIDNNKTTIE;locus_tag=LOCUS_17350;note=WP_011861838.1 glycosyl hydrolase family 65 protein (Clostridioides difficile) [pid:42.5%25%2C q_cov:98.8%25%2C s_cov:96.5%25%2C Eval:2.2e-179],MGA_1743
sequence08	MetaGeneAnnotator	CDS	56957	58282	.	-	0	ID=MGA_1744;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888077.1;translation=MNKKLMTGLMTAALLGTMATSAEAGLFFKKKTEEPKMKDEKVVITLASGAVGQELEINKKAAEMYMKEHPNVEIQLWDTPDSSSDRLGLYLQFLEAKSKKVDIYQIDVIWPGDMADHLLDLNQYGGKEAAKKHFEPIIQNNTVDGKLVAIPWFTDAGLLYYRSDLLDKYNLEVPTTWDELEREAKIIQEGERKAGNQDFWGYVWQGDAYEGLTCDAIEWLDSHGAGTIISPEKEITVNNPKAIKALKRAKSWIGTISPDGVISMKEEDARAIWQGGNAAFMRNWPYAYSLGNTDNSVIKGKFGVAPLPMDKGGKHAAALGGWQLAVSKYSAHPEIAADVALFMASEKVQKMRAIEGSFNPTIKSLYQDKDVLAAAPFFGSLYDVFTNATPRPSTATAPNYAQVSQKFYQAVYSVLNNQTTAEEALENLAYDLEDMTGYPIK;locus_tag=LOCUS_17360;note=WP_010888077.1 ABC transporter substrate-binding protein (Deinococcus radiodurans) [pid:52.9%25%2C q_cov:89.8%25%2C s_cov:94.0%25%2C Eval:5.0e-114],MGA_1744
sequence08	MetaGeneAnnotator	CDS	58349	59218	.	-	0	ID=MGA_1745;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173998.1;translation=MINKETKKFLNKLLLYILVIFIAFYMLFPFWWAVVSSFKNEAQLQMVPATFLPRDPVTNKIFFDLKNYRSIFNDGTFLRGLLNSTIVATSVTLLALAVGSFSAFALGKLRFKGKNASLYIILAMTMFPQVTVLTGLYAVINALRLPAMASMILSYMLFTLPFTTWVLTSFFKELPVELMQSAQVDGATPFQSFKYILLPLTAPALVTTGLLAFIAAWNEYLFALTFTSIEPSARTIPVAIALFTGAVSRQEPFGEIMAAAVIVTIPIIILVLYFQKRIVAGLTAGAVKG;locus_tag=LOCUS_17370;note=WP_011173998.1 carbohydrate ABC transporter permease (Thermus thermophilus) [pid:51.2%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:2.1e-74],MGA_1745
sequence08	MetaGeneAnnotator	CDS	59211	60227	.	-	0	ID=MGA_1746;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011173997.1;translation=MGKFKKTLAEREQILAYKLLFPSFLIMLLIAAYPLFNVFYTSFTNKRFASTVKTKVIGLKNYQKLLSVTIKKLENENQSSREVLPKKPIRYKELKRFNIGNTHYVIGASDPDFLISVGNTIYFTLWSVLLELIIGLIIALVVNSNFKGKGPMRAIMLVPWAVITVVSARIWEWMFKANRTGLFNTVISNLGLGDGQASFLTDQALQLPAIIAVDVWKTAPFMALLLLAGLQTIPTSLYEAARVDGAGPIRQFFSITLPLLKPTIAVALIFRTLDALRAFDVFQVLLADRRYSMASYNYTQLIKYKNMGMASAIGVIIFIIIFGFAIGYIKFLGVDAND;locus_tag=LOCUS_17380;note=WP_011173997.1 sugar ABC transporter permease (Thermus thermophilus) [pid:41.1%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:9.9e-61],MGA_1746
sequence08	MetaGeneAnnotator	CDS	60473	61501	.	+	0	ID=MGA_1747;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437479.1;translation=MAITIKDIAKIAGVSHSTVSRSLNDNPRISKATKDRIKKIANELGFEYNSNARGLSSSNITNTIGVIFPKTFDDVVSGLFLNSMVKRVQYNIEKNNFDTIIEFAENRFNRKSNIQRLIDRKKIDGLVLTTPEITHDDYKYILSHNIPHIFLHNKPKYFSQKSTIVFTDHKEGGYLATNHLIKNNHKNILTITEKAQEIEFQERCQGYEKALKENNIKIDKNLMLYCDITFYDGYNIIMENKDLLKNISAIFFQSDIIALGGIKALKELGYSIPEDISVIGYDNLELGTYYHPYLTTVHQPKNEIVDIAIEKLFHFINTKEKIKNEEIIAEPTLVIRESVKKI;locus_tag=LOCUS_17390;note=WP_003437479.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:35.8%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:4.7e-58],MGA_1747
sequence08	MetaGeneAnnotator	CDS	61514	62590	.	+	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDIVDIQKKYEKNFNDYEKFANFLKERLNYLFLINNFTPAKFETRVKSIKSFIKKVEKKYPKYKDPFHDITDIIGLRIITYYNTEIDDVIKILKDNFEIDYENSSDKENLLDYDKMGYISVHYVCKFCDNNNSFPYKFEVQIRSLLQHVWASIDHKLRYKTYIEIPKQIKRKLFRLSALLEVADSEFTSIKEEIEMLEKFYENKFDNKKYNLRIDISSINYYLKYNNDRIKNIAKNFNIERFKSFESAKLDNLERKLLHFLLKTNRHFIYDLDDFLNIIESNQSLIADLLDNEIIKKLSIMINSSCSFLIAFIILIDLEIDRVKKILNLTETQLLKILKLRETLNSLKCRDIVIKK;locus_tag=LOCUS_17400;note=WP_051618796.1 GTP pyrophosphokinase family protein (Deinococcus radiodurans) [pid:31.6%25%2C q_cov:50.0%25%2C s_cov:49.7%25%2C Eval:7.8e-27%2C partial hit],MGA_1748
sequence08	MetaGeneAnnotator	CDS	62600	63061	.	+	0	ID=MGA_1749;product=GAF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000494335.1;translation=MDKKNIYENILVFIEGIIADEKNYIANLANISAILFENLPNLNWAGFYLYDGKELVLGPFQGKYACIRIPIGKGVCGNSAKDKKTYIIDNVHEFKGHIACDSASNSEIVVPIIKDDNLIGVLDIDSYKFSNFDKIDKLYLKKVIEIFLKYSEI;locus_tag=LOCUS_17410;note=WP_000494335.1 GAF domain-containing protein (Bacillus) [pid:55.6%25%2C q_cov:94.1%25%2C s_cov:90.6%25%2C Eval:5.6e-44],MGA_1749
sequence08	MetaGeneAnnotator	CDS	63099	64931	.	-	0	ID=MGA_1750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISTKLFIGFLFIFLGLAGISYNLSVNTKLFAEKGDEINQNVETLKQISNESIEVKKIQDSLIKLFASANEFIYIENKEEKNRLIKKLKKNIDNVYKVSDSLGLKGTLDLVIKSLRKNVDVLIEKKEKELEIRNEIFLLNEELKKVINDGNINKSKELINILEEKNKEFMKILGEEKYTYLGKVAISMDSVYNSLAPYVDKKNKENSWTIDNVKSISEGNVELIKSVAIRNRVYIIVIVLFSILVFIILVRSIAKPLKNLTTVGKKLSDLDLTVVFPKKIEKNETGVLTLSFKTMVDTLKETIAEIKEVSKNVKHQSGNISDSALKTAATTEELSATINNISDSVSVSFNNLHEVDNKVKAISENAQGMLSLVDNISTNNSLVLEETLSEKKNLLKTLEKISLIGEDIKNSAKEINILKELSSEIHVFINKIYKVTEQTNMLALNAAIEASRAGEAGKGFAVVAEEIRKLANTSRETAEDIEGKINHITEKIDETVNISNQNVEKLSETNEEVNSVSSTIEKIVSSFETLINDLNDIHLGISNQTEDLRQLLNNSNEITNSFEEINTRVKEIDDAVMSTSEVINTLGEGATELTETSNHLDNMLHRFKQ;locus_tag=LOCUS_17420;note=WP_000486209.1 methyl-accepting chemotaxis protein (Bacillus cereus) [pid:27.7%25%2C q_cov:66.9%25%2C s_cov:61.7%25%2C Eval:1.1e-40%2C partial hit],MGA_1750
sequence08	MetaGeneAnnotator	CDS	65076	66134	.	-	0	ID=MGA_1751;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_121973253.1;translation=MSKISLGLIFGGESQEHEVSLQSAKNIYDAIDKNKYDVKLIGVDKKGNWFLFNKNFLENENNPKNIKLKNTGIELGFSLKGKNSKLIDLRTYKEINIDIVFSIIHGTIGEDGALQGMLRILNIPFIGAGILGSAVGMDKEIMKRLLVNAGIKTSKYITIRKYELIDYNKLEETLGYPMFVKPANMGSSVGISKAKNKKELEESIEKAFKYDNKIIIEEFIKGREIECAILEKNGEVLASGIGEIVPNLDKHEFYSYEAKYIDENGANLEIPAKLEKKIVNKVQEIAKEVFKILECKDIARIDSFLCKNGDIYVNEINTLPGFTKISMYPKLWNKEGIAYSELIDILISNNLK;locus_tag=LOCUS_17430;gene=ddlA;EC_number=6.3.2.4;note=WP_121973253.1 D-alanine--D-alanine ligase (Acinetobacter stercoris) [pid:50.1%25%2C q_cov:98.6%25%2C s_cov:96.4%25%2C Eval:9.7e-91],MGA_1751
sequence08	MetaGeneAnnotator	CDS	66154	66744	.	-	0	ID=MGA_1752;product=MarC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010939073.1;translation=MFRIIIENYLKLFFILTPFFILSTFLSLTSKWTKHDRKALAVKVTIAITITTVILLIAGNAIFKLFGITVDSFRVGAGILLLLSSINLVKGNIETPNTETEDIAVVPLAIPVAVGPATVGTLLVMGAEITKYSEKILLFISLILSIVSLGILLYISNIIEKLLKQKGLNILIKLTGLILSAMSAQMILVGVANFLK;locus_tag=LOCUS_17440;note=WP_010939073.1 MarC family protein (Desulfovibrio) [pid:43.0%25%2C q_cov:98.0%25%2C s_cov:96.5%25%2C Eval:6.7e-40],MGA_1752
sequence08	MetaGeneAnnotator	CDS	66841	67299	.	-	0	ID=MGA_1753;product=acetyl-CoA carboxylase biotin carboxyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583401.1;translation=MKITVENLKELAKSVEKNNISEFILETEEAKVILKRGSSEVVKTVVPQKVEYVEEVTNYDLETEEILDQDNENYDEIISPMVGTFYKAPSPGAAPFVKEGDIVKEGDTLCIVEAMKLMNEVKSNISGKIVKILIEDGQAVKKGDKLFLIEAK;locus_tag=LOCUS_17450;gene=accB;EC_number=6.4.1.2;note=WP_012583401.1 acetyl-CoA carboxylase biotin carboxyl carrier protein (Dictyoglomus turgidum) [pid:46.6%25%2C q_cov:97.4%25%2C s_cov:94.6%25%2C Eval:2.8e-32],MGA_1753
sequence08	MetaGeneAnnotator	CDS	67314	67757	.	-	0	ID=MGA_1754;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902336.1;translation=MKNKKEYFIVDREILPTSIQKVIEVNDLIQSERISKYEAIQRVGISRSTYYKYKDYIRPFFESGRDTVFNLYLLMDDHPGILSKILDAIAESNLNILTIIQNIPIDNLAAATISLQAREEKLRDIEITLEEIRGIKGVKDLRIIGNN;locus_tag=LOCUS_17460;note=WP_005902336.1 ACT domain-containing protein (Fusobacterium nucleatum) [pid:49.0%25%2C q_cov:97.3%25%2C s_cov:93.5%25%2C Eval:9.0e-38],MGA_1754
sequence08	MetaGeneAnnotator	CDS	67823	68917	.	-	0	ID=MGA_1755;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017102.1;translation=MIGIGIVGLPNVGKSTLFNAITKAGAAEAANYPFCTIEPNVGMVTVPDERMEELAKIINPQRVVNATVEFVDIAGLVKGASKGEGLGNQFLSNIRNTAAICQVVRCFDDGNVVHVDGSVDPIRDIEVINTELILSDLEAVERAITKYGKLVRAKNKEALQIMPILEKCKNHLENFQLLKTLELTEEEYNLIKVYQFLTLKPMMFAANVSEDDLATGNKYVDKVKEYAKALNSEVVIVSAKVEAELAEMEEEDKQMFLEELGVEEAGLNRLIKAGYKLLGLQTYFTAGVKEVRAWTIKIGATAPKAASEIHTDFEKGFIRAKVVAYDDFIKNKGWKGAQEAGVLRIEGKEYIVQDGDLMEFLFNV;locus_tag=LOCUS_17470;gene=ychF;note=WP_011017102.1 redox-regulated ATPase YchF (Fusobacterium nucleatum) [pid:76.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-160],MGA_1755
sequence08	MetaGeneAnnotator	CDS	69023	69259	.	-	0	ID=MGA_1756;product=carbon storage regulator CsrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000960595.1;translation=MLVLSRKKNESIIIGDDIEVIVVDIKGDQVKLGIKAPRSVSVHRAEVYEEIQAENRKAAETPKEISGLSGLFNKFKKK;locus_tag=LOCUS_17480;gene=csrA;note=WP_000960595.1 carbon storage regulator CsrA (Leptospira) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:4.5e-22],MGA_1756
sequence08	MetaGeneAnnotator	CDS	69268	69711	.	-	0	ID=MGA_1757;product=flagellar assembly protein FliW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002674247.1;translation=MKLNTSRFGEIEILEDDIVIFKDGIFGFENIKRFTILNIEENNPLMWLLAIDDPELAFVIIRPFEFNPNYSLNLADKDAEELDLEAPEDSDIFAIVVVPEDPSKMTANLQGPIVINTKKKIGKQVISTNPKHKLKHYILEEMQKYLG;locus_tag=LOCUS_17490;note=WP_002674247.1 flagellar assembly protein FliW (Treponema denticola) [pid:35.9%25%2C q_cov:96.6%25%2C s_cov:95.9%25%2C Eval:1.7e-23],MGA_1757
sequence08	MetaGeneAnnotator	CDS	69721	70293	.	-	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKMIQINTINSNIRISSTRPQMKIRGQDATMNLRKTKAKFNIKTKSDTVEIHNYPADKQLYRKNPVDLQKDISNYSLQKGNQAISEYVQDGDRMMKIENNEKNAIANISLEKLYRNGKKEINVGYFPKEPIRIRVKKGYVNINYKPYKIDLNVKKNLNINSKKGTLNIGVDRYPKVEITTYDNKIDTKI;locus_tag=LOCUS_17500;note=MGA_1758
sequence08	MetaGeneAnnotator	CDS	70326	71330	.	-	0	ID=MGA_1759;product=flagellar hook-associated protein FlgL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392268.1;translation=MRVTGKMMSTNAISNIQNNMEKMDITNDRLSKGTKINLPQDNPIGAVKVMSYQTALTEIEKYLENVDNAKTYLNSTDVSLTQVSEILQRIRELAVQSANDSFEQTARDAVASEINELIEQLVVVGNSSIGGRYIFAGYNTQEKPFKIFTGNDLLKEGEEATLDLTDVEGNLRKNILKDVPVKIDYTGDQGMMMTEVDKGVTLEYNVTGDKIFKNKEGDLFKELLYLRDSIYKGDVNSDKDNDGHTIESQIGELDRIFNMIMKYRSQVGAKMRRIEQVEARLEDNKISMSDLLSRTQDTDITKSIMDLKTQENVQRMSLSVGAKVIQPTLVDFVK;locus_tag=LOCUS_17510;gene=flgL;note=WP_011392268.1 flagellar hook-associated protein FlgL (Moorella thermoacetica) [pid:31.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-50],MGA_1759
sequence08	MetaGeneAnnotator	CDS	71342	73213	.	-	0	ID=MGA_1760;product=flagellar hook-associated protein FlgK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000535890.1;translation=MFNSLEIGKRSLVSHKLAMDTTGHNISNANKEGYSRQMVDMETVSMQDPRYGRVGIGSEVETIKRVRDSFIDDRIMKEKSESGKWETKELNLKHMEYIINEPSEQSIRNTLDEYWGAMQELSKNPEDMAIRANVKERAEELATAISTSYERFQALQTSFDGDIESTVTSINSYLKRLAEINSQIQRAEAGGQNANDLRDEFDLLTEELSKIVSIKVIRKDGENVVSLGGRVVVQKDQYKEITVKRDSKINNGMAQLLWADLEEPVRVENGNLKGLIDLRDKESVKYMKYLDELAIGIIDTTNEMNRAGFDLKGRKGQDFFEDFSTYPLIRDINNDGGNEALVYKLSGTKEIAELKKPLSEVLKIETQTTDANGNTVTTNAPFEEEGFFEINGVRISYNTSQDSLTDIIEEINKSKAGVVASAGPNGKLKLRALKDEDYYIKTLNQKSGTLLNKLGILSTENADFDFRKADSISSLSQEITGQPREGAAFRMRFAIENVDEIAASIGVDSDGDGIPDSPGNEGDGRNALRIASLKDKKSIGDFTYAEFFKSVISDLGVSSQEAKKFMKNQKVMIDNLEKRREAVVGVSLDEEMANMIKYQHGYDAAAKYITTVNEMMDTLINKL;locus_tag=LOCUS_17520;gene=flgK;note=WP_000535890.1 flagellar hook-associated protein FlgK (Leptospira interrogans) [pid:32.7%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:1.8e-91],MGA_1760
sequence08	MetaGeneAnnotator	CDS	73253	73711	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLVEILQKQLEFHKKEYKLACDRFDAIEKNDIKKLNKTILEERELTKNIENLENQRLELFEDKKHIKLIDYINDLADEEIKKKLLNIRTELKSIIEDIVQKNNDCKNIIEISNEMLEKVLKELSGKKEIGYNKYKKKENVSSNNLLNTKI;locus_tag=LOCUS_17530;note=MGA_1761
sequence08	MetaGeneAnnotator	CDS	73715	74020	.	-	0	ID=MGA_1762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKIVGNINSIYGKYTKDVTSTKKANVINNNKKVIQDKVDISFNAKKTTVDKAEVNYLKAKLNASGERSDKIADIKSRIEAGTYNVSLDKLADAILNSKRG;locus_tag=LOCUS_17540;note=MGA_1762
sequence08	MetaGeneAnnotator	CDS	74099	74494	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHKHTKCISCGKTFLQVRKNLDLCPDCMKDAEANFRIVKDYLYDYPGATAKEIARETGVGEQLILKWYEEGRIEKSDVTPASKCEICGRSILAGRICKRCQEEMKSGLGGSSTQENKAKRLSMHIAEKRK;locus_tag=LOCUS_17550;note=MGA_1763
sequence08	MetaGeneAnnotator	CDS	74496	75182	.	-	0	ID=MGA_1764;product=ComF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898707.1;translation=MQKLLMIINNLHQNFYNKIFRGFFYDRCILCQKSTDNNMYICYNCFKQLKSIAKLRSIKNIYYIWDYETIFSKLLKNYKLNRIKNLENIIVKLIKHDFFEILNKKNIEIIIPVPINNNRIRERGFNQTEEILKKLNIKYLKAKRIKATKKMSRILNKKEREKNIKNAFKIEGDLENKIILIFDDVITTGTTVNELIKTINKKYMIKEVYIFTLSLTKTAKKILNDGRD;locus_tag=LOCUS_17560;note=WP_005898707.1 ComF family protein (Fusobacterium nucleatum) [pid:36.6%25%2C q_cov:85.1%25%2C s_cov:90.2%25%2C Eval:1.0e-32],MGA_1764
sequence08	MetaGeneAnnotator	CDS	75133	75327	.	-	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKCIKCGSEKYIVKTVFLPEKEPGIKLELGKYYFKTCIQCGFTEVYNAKIIDDNKQLTPKFL;locus_tag=LOCUS_17570;note=MGA_1765
sequence08	MetaGeneAnnotator	CDS	75317	75676	.	-	0	ID=MGA_1766;product=YraN family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017105.1;translation=MNKREVGKKYEKLSLDYLKNNGIKIMDTNYYGKGFEIDIIGKKDDKIIFFEVKYRKNKKFGYAEESVDYRKQKRILKGAMNYLIKNNLQNNYIRFDIIAINNNKINWIKDAFWGDDIGL;locus_tag=LOCUS_17580;note=WP_011017105.1 YraN family protein (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:6.0e-22],MGA_1766
sequence08	MetaGeneAnnotator	CDS	75772	76749	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKFIEQIANKIIDKQDITHLKPGMIVNARVLNNNKNSVILYMNGIKIEAKSNKNIKINSVVKLKIVDIKNNEIFVKIIDENNVEFINKIKTDIDIQKEFMTILVKEKIFLKSDEIKKLVKKYGLFSKEKQDIYLQKSLIIANELNELNNNDKIELLRKYFLYENGKLEIKKIDINKKLFENLKKEYSNFKINNEELYKACKSYNEYSQKYNYLVYMFGLKTINKPIIIKEKINLKNKEEKEVNKEFIIIIEFEKLGKIKLELVIKNKNIYINFEFEKMLSKSEILKKIEITKEKLKKIGYNLIVKDIFIKIDSIQKIDNLNLKG;locus_tag=LOCUS_17590;note=MGA_1767
sequence08	MetaGeneAnnotator	CDS	76833	77462	.	-	0	ID=MGA_1768;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626801.1;translation=MNKLYEFDNNYNYPIGVDEAGRGPLAGPVVAACVRINNYIEEFELINDSKKLTEKKREELFDTILANCEVGIGIVDEKKIDEINILNATFLAMNIALSHIEIKNSIILVDGNKKIKNCNYNQKTIVKGDSKSLAIAAASIIAKVTRDKIMIEEAKKYPIYKFEKHKGYGTKEHRELLLKYGKSPIHRKSFLNKILEKNKNKGEENLKLF;locus_tag=LOCUS_17600;EC_number=3.1.26.4;note=WP_201626801.1 ribonuclease HII (Fusobacterium canifelinum) [pid:56.7%25%2C q_cov:90.4%25%2C s_cov:91.1%25%2C Eval:3.6e-50],MGA_1768
sequence08	MetaGeneAnnotator	CDS	77455	78390	.	-	0	ID=MGA_1769;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494586.1;translation=MYKEIKEFIVTENEKNIRLDRYISINISEISRREIQELIKNNNIEVIGTNKKIKASYKLKGIEKIIIKIPEKVEQELLGEDIDLDIIYEDKDILVINKQPDLVVHPGAGNETGTLVNAVISYYPEILKVKGERRPGIVHRLDKDTSGVIVIAKNNIAYDRLIEKFSNKKMNKTYLCIVKGRLKEKEGRIENLIGRDTKNRKKMTVVTKNGKLAISNYKVLDEKGDFTLIKVNIETGRTHQIRVHMKYLNHPILGDEVYGKKSNLVTRQMLHAYKLEMNHPITNEKISFIAKLPNDFKEILNKLEMRADIDE;locus_tag=LOCUS_17610;note=WP_029494586.1 RluA family pseudouridine synthase (Fusobacterium hwasookii) [pid:49.0%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:6.7e-77],MGA_1769
sequence08	MetaGeneAnnotator	CDS	78467	81148	.	-	0	ID=MGA_1770;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015785.1;translation=MLKTITKIFGTKNDREIKRIRKIVNEINKLEPEMQKLSDEDLKQKTVEFRERLNKGETLDQILPEAFAVVRETSVRVLGMRHYDVQLIGGVVLHEGKIAEMKTGEGKTLVATLAVYLNALPGKGVHVITVNDYLATRDSDMMGRIYKFLGLTVGVVTNGLPIEERKAMYACDVLYGTNSEFGFDYLRDNMVTSIEQKVQRELNYAIIDEVDSILIDEARTPLIISGPSEQTTKWYTIFNEVAKQLVRSYETEKITDPKLKKEMNIPDEKWGDYEVDEKGHTIVLTEKGVKKVEKILKIDNLYSPENVELTHYLNQALRAKELFKRDKDYLVKDGEVIIIDEFTGRALEGRRYSEGLHQAIEAKENVNIAGENQTLASITLQNYFRMYKKLSGMTGTAETEAAEFMHTYKLGVIVIPTNKPVIREDREDIIYKNHAAKVRAIVNKIEELHKKGQPVLVGTISISNSEMLSEALKRRKIPHNVLNAKYHAREAEIVAQAGRLGAVTIATNMAGRGTDIMLGGNPEYMALGELGSRDHENYKEVFEKYKAQCEAEKEKVLKAGGLFILGTERHESRRIDNQLRGRSGRQGDPGASEFYLSLEDDLMRLFGSDRVASVMERLNIPEDEPITHPLISRAVGNAQKKVEARNFGIRKSLLQYDDVMNKQREAVYASRNAAIMKDDLKDTVLNMLKDVINAEVSAKLSGDVTEDWKTKELYDRLYELYEYNLDIDKILKLTISEIKELVYNDLLAIYELKEKEFGDEIFRKLEKYILLEVTDSRWRENLKTLDQLKEGIHLRAYGQSDPLVHYQLLSSQIYAEMIGTIKEEVTSFLFKIRIKKEEDIELRHNRNAENINYIHQNETGEVERQQPRKSEKIGRNEPCPCGSGKKYKNCCGR;locus_tag=LOCUS_17620;gene=secA;note=WP_011015785.1 preprotein translocase subunit SecA (Fusobacterium nucleatum) [pid:67.1%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_1770
sequence08	MetaGeneAnnotator	CDS	81378	82826	.	+	0	ID=MGA_1771;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986715.1;translation=MYDIIIIGAGVIGSLIARELSKYNIKIALLEKNDDVSCGASKANSGIIHGGYDAKHGTLKSKLSYKGNQMYDKLNSELNFGFERIGSLVVGYNEEDLKSLKKLIENGVKNGVKNLKLLTKEKIKEIEPNINDNVQYAVYCSDVGIVSPYEVTIAAAENAIKNGVKLFLNSEVISIKKDEFFIVETQKKIFKTRYIINCAGLYSDKIANMVGIDDFYIIPRKGEYMLFEKYYGDIVNHVIFQVPTVHGKGVLVTKTYHNNLMIGPNAQEINTKDDKSTSLENLKSIYIKSKNSIPNIDYKKIIRSFAGIRATSNKHDFIIEESKIKNFINVAGIESPGLTSAPAIAQMVENILLNKESFKKNKKYNPYRKFIVKKKTKDELLSNTELKPLLDNETYICRCEQVSKEIILDALSRGIEVKSVDGIKRRTRAGMGICQGNFCSSRVKKIISKYYNIPIETVKDREEASGIINERVNRIEILKNFK;locus_tag=LOCUS_17630;note=WP_011986715.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium botulinum) [pid:54.9%25%2C q_cov:98.1%25%2C s_cov:97.9%25%2C Eval:5.7e-143],MGA_1771
sequence08	MetaGeneAnnotator	CDS	82891	83568	.	-	0	ID=MGA_1772;product=7-cyano-7-deazaguanine synthase QueC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949102.1;translation=MKERINKNRAVVVFSGGQDSTTLLFKAKKEYKEVIALSFDYGQKHKLELECAQEITKKHGIEHHILDMSLLNQLAPNALTRVDVNVPKGEVEGIPNTFVDGRNMIFLTFAAVFAKQRDINIIITGVSQSDFSGYPDCRDHFIKSLNTTLNLAMDYQFVVETPLMWLDKAETWNMAYELGVLDIIKNDTLTCYNGIKGDGCGECPSCVLRKKGYEEFEQKFLKKNF;locus_tag=LOCUS_17640;gene=queC;EC_number=6.3.4.20;note=WP_011949102.1 7-cyano-7-deazaguanine synthase QueC (Clostridium botulinum) [pid:74.9%25%2C q_cov:96.9%25%2C s_cov:100.0%25%2C Eval:8.5e-96],MGA_1772
sequence08	MetaGeneAnnotator	CDS	83600	84178	.	-	0	ID=MGA_1773;product=GTP cyclohydrolase I FolE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004451708.1;translation=MNKEKIAYHVKEILKLIGENPEREGLQGTPMRVARMYEEIFEGLKYTNDEIVKMFGVTFDEEDCYIENNKDMVLLKDIEIFSMCEHHLALMYNMKVAVAYIPKEKIIGLSKVVRIADMVGRRPQLQERIGKDIAEIMQKITETEDVAVIITGEHACMTTRGIKKPGTKTMTTTLRGKFKEDKELLNNLLGML;locus_tag=LOCUS_17650;gene=folE;EC_number=3.5.4.16;note=WP_004451708.1 GTP cyclohydrolase I FolE (Clostridium) [pid:70.7%25%2C q_cov:95.8%25%2C s_cov:93.9%25%2C Eval:2.8e-72],MGA_1773
sequence08	MetaGeneAnnotator	CDS	84186	84854	.	-	0	ID=MGA_1774;product=putative 7-carboxy-7-deazaguanine synthase QueE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966888.1;translation=MKQYKIVEKFISINGEGQRAGEISLFIRFPSCNLKCTYCDTMWANEKNVNTIYITIEDIKNDINMYNIKNITLTGGEPLLQDDISVVIQEILSINNKINIEIETNGSIDLSKLEKINRERVYITMDYKLPTSKMEGLMKIENFDKLTHKDTIKFVIGSNYDLIRAKNIIKNYIKEGKVYFSPVFKEIEPKYIVEFMKEHKLTDVRLQLQMHKIIWNPDERGV;locus_tag=LOCUS_17660;gene=queE;note=WP_010966888.1 putative 7-carboxy-7-deazaguanine synthase QueE (Clostridium acetobutylicum) [pid:52.5%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:8.1e-59],MGA_1774
sequence08	MetaGeneAnnotator	CDS	84851	85273	.	-	0	ID=MGA_1775;product=6-carboxytetrahydropterin synthase QueD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949100.1;translation=MYILQTEHSFDSAHFLKGYKGKCANIHGHRWRVVVEIKSDALVENGHLRGMVVDFGDLKKVVKEFVDFHDHALIVEKNSLSKELFNMLQGENFRLIEVEFRPTAENFSKYFYDEFNKKFDVKRVIVYETPNNSAIYEEQR;locus_tag=LOCUS_17670;gene=queD;EC_number=4.1.2.50;note=WP_011949100.1 6-carboxytetrahydropterin synthase QueD (Clostridium) [pid:56.8%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:8.9e-45],MGA_1775
sequence08	MetaGeneAnnotator	CDS	85279	86046	.	-	0	ID=MGA_1776;product=acyl-CoA dehydratase activase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358645.1;translation=MRILGIDLGSREVKIVLMENNKIIEKFKMSTVKFYKNYCNYNEKITVDLEKLGIKNIDIGISTGYGRNNTDLKMFMPINEIKAHAYGAMYQTEKKDFILLDVGGQDVKIIKVEKGIITDLDLNDKCAASCGRYLENMSNVLEISLDELSNHYINPVELNSTCAVFSESELIGKIAEGNSVEVLCAGVNYSMYKRLRPMLTKFLSDELIISGGVAKNKAIKEYLQNDYNDILILDEPQFNGAIGCCYYGMNFIEKE;locus_tag=LOCUS_17680;note=WP_003358645.1 acyl-CoA dehydratase activase (Clostridium botulinum) [pid:71.5%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:5.0e-106],MGA_1776
sequence08	MetaGeneAnnotator	CDS	86043	87044	.	-	0	ID=MGA_1777;product=2-hydroxyacyl-CoA dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949099.1;translation=MKKIGITTTVPIEVLLAAGYKVVDLNNVFIVSDDYREYIHDAEKYGFPKSMCAWIKGIYSACISEGIKEVVAVLEGDCSNTKVLLELFKEKGIKLYPFSYPHSHNLEDIKKEIDKFMSLFNVTLEEVENIRWEINNIREKARKIDELTLQGKVSGFENHILQLCLSDFDGDLDNYSKFLDEKLKEIIKRTPDIKKLNLGLIGVPTMFSDLHEFVEKFDSKIVYNEVPREFAFPRAFKYDNIYEQYYDYTYPYDIDYRIKELEKQINERKIDGIIHYTQSFCHRAMEDIIIKNRLNIPVLNIEGDKDDRLDARTKLRIEAFLDMLLDLKKRSNR;locus_tag=LOCUS_17690;note=WP_011949099.1 2-hydroxyacyl-CoA dehydratase (Clostridium botulinum) [pid:61.3%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.7e-119],MGA_1777
sequence08	MetaGeneAnnotator	CDS	87519	88988	.	-	0	ID=MGA_1778;product=sodium-dependent transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986561.1;translation=MSNNNRGEWSSRIGFIMAAIGSAIGLGNIWRFPYTVASNGGGAFLIPYLIALLTAGIPILILEFGLGHKIRSSAPGVFGKLNKKWKILGWWQTAIAFAITVYYIMVIAWAFGYLINSFTLAWGNDPKAFLFGDYLKLSSSPLHIGGLNFTVLIPLVIVWGINYIVLSFGIKDGIEKASKIFMPLLIISLLIMVVRGLTLPGAAKGLEYFFKPDFVKLLDARVWVAAYGQIFYSLSIAFGIMLAYSSYLPKDSDIVNNAFITGLGNSSFSLLSGIAVFAILGYMAQSQGVDVKDVASAGVGLAFIVFPKAINALPGMNVLFGVIFFSSLLFAGLSSSISIIETVVAAIIDNFNITRKKAINYVVLIGGLVSLIFATGAGLYILDIADHYINNYGVALSGLIEIIILAWFYNLESVREYVNPLSDFKIGNWWNFTIKYLTPAILGIMTILNIIQDIKNPYEGYSLSAIGLYGAGFVLATVVLAKIFDKLSD;locus_tag=LOCUS_17700;note=WP_011986561.1 sodium-dependent transporter (Clostridium botulinum) [pid:47.7%25%2C q_cov:98.6%25%2C s_cov:97.0%25%2C Eval:2.5e-138],MGA_1778
sequence08	MetaGeneAnnotator	CDS	89355	92423	.	+	0	ID=MGA_1779;product=pullulanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001232748.1;translation=MIMKSNSKKLVFSLIFSSLLIAGCSSNQENNPVEKVSTASISKDFSNLTVHYQRGNSDYDNFTIWAWDDVDFTGDWPHGIKYSGIDNYGAVYSLPLKPNPKKASFLFVDETDGDNGKDGSDKIIDVTKTNGSVWAMQGSDVVYYSEPDPIEDNEIRVHYKRDDGNYDNFTVWAWNDADFTGDWPHGIKYSGIDNYGAYYDIPLKTNRDEANNLGFLLVDETQGDPGKDGSDKAFTKLAKYKEIFVVQGSDDVFIGPNMETPDGLEAADIIDDNKISLKFTNTEDINEENLILKNKYSISTDIKDIKIIDNKKVVITADLRKDWYPYTIEYEGFKITLKPGLAYFDSKFSYTDDDLGAIFNSDGSITLKVWAPTSEDVQVAIFKKSNPEIEAETIPMNLTEKGVWAVTLSSDYKGDFYQYKLKHQGEKKYTYALDPYAKSMYEFKINTNASNRAITDAIGKGALVNPSEIAQISSFAHIDGYTKREDAIIYEMHVRDFTSHIDANTSAQFGTYKAFIEKLDYLKSLGVTHIQLLPVQSFYYGDESKNSEREWNYSAKNNNYNWGYDPHSYFAPEGMYSENPKDPALRIKELKELIQAIHDKGMGVTLDVVYNHTANSEIFERLVPGYYGFLNADGTPKTSFGGLQMGTTHAMTRKLIIDSIKYWTKEFKVDGFRFDMMGNLDAKTVQMAYNEAAKLNPNTLFIGEGWRTFNGDAGVTGIVPADQDWMNKTDDVAVFSDEIRNELKSGFGSEGEPRFITGGERNINTIFNNIKGQPSNFNADDPGDVVQYIAAHDNLPLHDVISQSIRKSVATHEDEIQKRIRLGNTIILTSQGIAFLHGGQEYGRTKQWKGTGKPEDKYTVVPQTKEIFIHDSYDSSDRINAFDWTAVEKNGRGYLTKEYTKGLIAIRRSTDAFRLGSKDLVDSNVSLLYPNANKSAKMIAYKATATNGDEYYVFINGYANGETPRDSSLKAGVFELNEDLSTGLVLADNDEANVNGVNEISGVTFDGNKVILDPLTAVIIKK;locus_tag=LOCUS_17710;EC_number=3.2.1.41;note=WP_001232748.1 pullulanase (Streptococcus mitis) [pid:43.3%25%2C q_cov:94.1%25%2C s_cov:76.2%25%2C Eval:9.6e-213],MGA_1779
sequence08	MetaGeneAnnotator	CDS	92520	93476	.	-	0	ID=MGA_1780;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903111.1;translation=MNKYVVGIDLGGTNVKAGIVDEATGKVVVSKSIKTNSEKGVEDTFDRIANLINELLNEKNIDKSEVKGAGLGIPGPVINFETVTFFANFPWERNLNIAKILEEKLELPVKVGNDANVITLGEAWMGAAKGYKNVLGLTLGTGIGGGIVVEGKLVEGFTGAGAEVGHIKLEADGRLCGCGQKGCWEAYSSATGIIREAVLRLRVNKNNLLWEKINRNINELEAKHIFDAAKEGDKFSEDIVDFAARYLALGIGNLLNVLNPEVIVVGGGVALAGDFLFDKVKKELSKYALSVTLEGVEIVQAKLGNDAGVVGAAALLEI;locus_tag=LOCUS_17720;note=WP_005903111.1 ROK family protein (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:2.2e-83],MGA_1780
sequence08	MetaGeneAnnotator	CDS	93553	94845	.	-	0	ID=MGA_1781;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258382.1;translation=MGKKVIAMILAGGAGTRLDILSNHRAKPAVPFAGKYRIIDFVLSNCINSNIYTVGILTQYLPRSLSDHIGVGKPWDLDRSYGGVTLLPPYQRTNGKWYVGTANAVYQNLNYVADYSPKYVLILAGDHVYKMDYRDMIKRHEETDADITIAVKKVDRKIAHHFGILSVDKDKNILEFEEKPENPKSELASMGVYIFKFEVLKELLLNNCGPNGKSDFGKDIIPENIDEYKIKAFEFKGYWRDVGTLDQYWKTNLELISEKPPIDIYEEHFMIRTKSEERPPVKFIGDGRTKNSLISNGCVIKGYVENSVISPGVIIEKGAIVKNSIILNDTIVGKNAYVDRGIIDKKVYIGENSQIGVGENMTPNKEIPDKLYSGLNVIGKFARIPANMVIERNCRIMSKVEEIDFTGIDKLKSGETIHRSEENGFFDLFL;locus_tag=LOCUS_17730;EC_number=2.7.7.27;note=WP_012258382.1 glucose-1-phosphate adenylyltransferase (Chloroflexus aurantiacus) [pid:50.4%25%2C q_cov:96.3%25%2C s_cov:99.8%25%2C Eval:1.3e-119],MGA_1781
sequence08	MetaGeneAnnotator	CDS	94860	95321	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDINYEEMLKFSKSGEEFILFRLGEEKFLIHINHIQEIIINLKLKKIEELPEYILGIINLKGEIVPVFNIKKKLDVKNIEEKKKHKIYIIISNKKKNFALIVDEIYDTLIIEKEKIIKFCKINPYINAKVQIEETKEISIVNVDKIFETIK;locus_tag=LOCUS_17740;note=MGA_1782
sequence08	MetaGeneAnnotator	CDS	95331	97136	.	-	0	ID=MGA_1783;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011815979.1;translation=MKITKQITLNVMISILIMSTLMIFSINIISKNMFERNYKIILDSKINEQELLFEKELFQDTNIIDTYFNLYNENIVDNKKIQDLEKFFLKYLDLEKKLGIYIKLKDGRGVMLSDYDKDGIYTKEKIDKNIDYFEGWSLPESDKGITEIKYQRVLYLNGREYGVIGIEFDYDKIYTELKKREFYKSGYYALLDSKFNFIYHPNIDLNNKNIFNVNGIEGLEKKQFLKTRDILEYKYLGKNKTLFYSKLKNNWILIGAVETSDLKKDLKNLQNTTLLIVILIVLFTYFIVDRFSRKFTKPIINIVNKIKVAAKGELSVRIESSTTNEFMALVSNFNFFIEKLDKVISVIKNEAQSIGNSAEEMNMANEDLAKKTSEQAASLEDNSSTMKQIGIRVNNNVAQTILATEKVKEIVTNTLRIEEASKELKSSMENINESSKQIEDITEIIDEIAFQTNILALNAAVEAARAGEQGRGFAVVASEIRALSKKSSESAKKINKRIKVTVDKIEKGNELVNETTNSISEISEKIHEMNKIIQNIRDSVDEQRLDIEVVDRIIADLEAATQSNASTAEEVSTAMTVFYQKIQEFIMQVEQFKVTGEKKEN;locus_tag=LOCUS_17750;note=WP_011815979.1 methyl-accepting chemotaxis protein (Yersinia enterocolitica) [pid:25.6%25%2C q_cov:75.9%25%2C s_cov:77.1%25%2C Eval:7.2e-45],MGA_1783
sequence08	MetaGeneAnnotator	CDS	97186	98994	.	-	0	ID=MGA_1784;product=chemotaxis protein CheA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081040.1;translation=MDNSYIKIFFEEVYDIVEDLEKILYEYNSDIDEETDVQIRRHFHTLKGDFATFDIDEYSKFFHEIEDRWKEGKEKEKIVREVLDKLDEVREFIKVAENEGFEKALSTEFSKNQNKKSCKRNKKEEEINLVTQKIDTKKELGKEVYTFHLKFYEERSLKIKEIEQLFDFYGKLISIDKEKEGNYKVVVLLENLDEIKGMLEVLLSGEGEYSVQKGEIKKKNKEKKLSSNIEELKNIQFVRIETNILDSLLNSITELSIKQSGLYMFEEKVNEEYREQYIDLLSKIKNITKELQEDIFQIRLIQANVLFYQLNKIVKDICIELDKDVQLEILGETTKIDKTILEKIAPSLKHMIKNSLDHGIESRGERRRKGKIETGHIRVEAYQENDFIVIEIEDDGVGLDSNEIYRKALEKGIVDINKTMEKEEILQLIFLPGFSTSDYVTEISGRGIGMDVVKSTIEELGGEIRIETETDKYTRFILKVPNTISIIEGFLVKTDEKYIIPLSSVEKIIDVNNVELIEDKIKYKGEEYEVGYIDSNKDIVNRVIMILKNGDQKKGYFIKDILDEREYIIRDINVTYDKLRKYSGVTILGNGELVPVINPKLL;locus_tag=LOCUS_17760;gene=cheA;note=WP_004081040.1 chemotaxis protein CheA (Thermotoga maritima) [pid:30.9%25%2C q_cov:99.0%25%2C s_cov:88.2%25%2C Eval:2.9e-70],MGA_1784
sequence08	MetaGeneAnnotator	CDS	99170	100402	.	+	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLFLTEGMGWLEVITGSMFSGKSEELIRRLRRAKYANQKVIAFKHSSDKRYDNTKVASHSKNFIEAIPASNAKEIEELVFEKYYDAEVIGIDEVQFFGLDIVPVVERFANIGKRVIVAGLDQDFRGEPFHPMPELLARAEHTDKLNAICMVCGSPASRTQRLVNGEPAYYDDPIIQVGASESYEARCRKCHIVKYREKKEGKLYFIVGTSTEIGKTYSTINLIKDDLKNNKNIIALKPIETGFKTFNSIDDSDSGKYAKLLNKELSEINEYFFNKPLSPHLASIADNTIINLNNIKTKINNALNKYDTVYIEGAGGLLVPLKDKFTFLDLIIAYRQKAEVILISANTLGTINHTLLTVDVLKRNDIKIKGIIFNNIDNIKDEKFLNDNIETIKSFTNIEILKTIDYKEI;locus_tag=LOCUS_17770;note=WP_012583168.1 thymidine kinase (Dictyoglomus turgidum) [pid:64.1%25%2C q_cov:46.8%25%2C s_cov:95.5%25%2C Eval:1.6e-63%2C partial hit],MGA_1785
sequence08	MetaGeneAnnotator	CDS	100404	101243	.	+	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIRKLEKSDKFGYFFWIKYNGKFFDAFDKIKNKKTIKEEFEISLKKLGISWAKGIQQGGRTDSGVSANKNLLYISTYFNGDLEKLKNDFNYLNKHLKIIKIEKTIPNLVIPDIIQMREYIYTYPKEKIDISEYEIIEKCKSLSGEYDLSEFTDFKGKKLKNPIRKVNIIYENNSLVFKGNSFLPKQIRIMSSYIFTNTKKIFPAKYLTLNNIILKKEYQNLIIKEIKELSINDVTKIEKLNDIYILYTNDKSALIGKRGKNIKKLRKKLGNVIIKGN;locus_tag=LOCUS_17780;note=WP_011922628.1 tRNA pseudouridine(38-40) synthase TruA (Streptococcus suis) [pid:28.1%25%2C q_cov:62.4%25%2C s_cov:78.3%25%2C Eval:3.0e-09%2C partial hit],MGA_1786
sequence08	MetaGeneAnnotator	CDS	101260	101688	.	+	0	ID=MGA_1787;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902354.1;translation=MLYKLKQVLNIIYPKIREKDYQLVIKYLEPLELNIFNEMSTYDKKHSINILKDCLKNEKLKDDILYLKLALLHDCGKDKKTKFYQRVFHSITKKGVLQFHTKRGFEKIKDINYKLALLILKHHNKNIQNEKLKIFRKIDDRN;locus_tag=LOCUS_17790;note=WP_005902354.1 HD domain-containing protein (Fusobacterium nucleatum) [pid:39.7%25%2C q_cov:99.3%25%2C s_cov:95.2%25%2C Eval:1.8e-21],MGA_1787
sequence08	MetaGeneAnnotator	CDS	101700	103463	.	+	0	ID=MGA_1788;product=TIGR03960 family B12-binding radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964566.1;translation=MVNIEKYLLKVEKPAQYLGNELNTVHKTDFISNMCLIFPDTYEIGMSNLGIKILYTIANKVDGFSLERAFSPMEDMENILRENHIPMFSLESKTPLNEFDLLGFSLGYELCYTNILNILELANIPHNREERGEEHPLIMAGGSCVVNPIPLEKFMDFFIIGDGENAIKEVAELFVKNKNLSKQEKLNLLKDIEGVYVPSLHDKTKKIKKAIVKDLNSVEYQGEQIVSYINIVHDRSIIEIQRGCSRGCRFCQAGIIYRPIREKSLSTNLKQIKNSIMTTGYNEISLSSLSSSDYSKIDILLQNIQKKYSKDNISVSLPSLRMNPHSVKVAEEIQTGKKTGFTFAPEAGSQRMRDIINKGVTEKEIIETAIAATKAGWNSFKFYFMIGLPFETYDDIEAIKTLIQKVLWECRKIKKGINITVSVSNFVPKPHTPFQWTEQMNLTEMEEKHKFLKELFSRVKGATLKLHYRETSLLEGVISRGDEKIGDLIELAFKKGAKFDSWKNKFDFEYWLESMKELNIDYNDYLRQRDENETLPWDFVDIGVSKKFLLNEWEKSKQEILTIDCRENCAACGIKKYVPECGNILSD;locus_tag=LOCUS_17800;note=WP_010964566.1 TIGR03960 family B12-binding radical SAM protein (Clostridium) [pid:45.3%25%2C q_cov:97.3%25%2C s_cov:96.3%25%2C Eval:2.7e-150],MGA_1788
sequence08	MetaGeneAnnotator	CDS	103596	104414	.	+	0	ID=MGA_1789;product=PHP domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392599.1;translation=MIDLHIHTTASDGTLSPIELVKYAKQKNLSVIAITDHDSISALEEAILEGKKKNITVIPGIEFSTEYNYKEVHILGYFIDYTNEELIKTINSLKNERINRTYKIIEKLNINNINISMEDIEKEAKGDVISRMHISNVLLKKNYVSTKAEAFEKYLGIGKSAYIKRKLTPLKAIEIIKNSGGLAVLAHPKLIHLENEKEFISLLAQNKLDGIESYYPGFSSSDVDRYINFCNIYNLIPTGGSDFHGHNRLTSDLNMLKLPQKIYLNLLNRLNV;locus_tag=LOCUS_17810;note=WP_011392599.1 PHP domain-containing protein (Moorella thermoacetica) [pid:39.8%25%2C q_cov:90.1%25%2C s_cov:86.8%25%2C Eval:7.4e-50],MGA_1789
sequence08	MetaGeneAnnotator	CDS	104438	105898	.	+	0	ID=MGA_1790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHISNMNTLNKAILINFITILTLILLDIIFFTINNQYFPLISLTLLFGIYSYIYFSNNILIKTKKYSLSLAFPIILLLTIPFINIRNLLIQNIIFLMLIINSLYLNRKVLRTNFLSIFVSIFILFLIDKNHLIITFFDLNNFITFSLNFILIFLTLSTLIRWYNKNIATFRDTLDVLEQSEEKYKKTIQNIQDGLIILGNNRIEECNDIFANMVGCSLENIIGERLETFIEKEHYEKISKYFLELIFDEVDTISFETNFINKKNNEIIRIIFSAAKVEFFSSYKILATLKDITIQKNVETLLKNNAKLLEEKVKERTLELEEANKKLNDLIQIDGLTKLYNYKFLTTKIKEKIDNSLKTSKPLSIILLDLDHFKLINDNFGHLTGDEVLIKLGKLMKNIIGNNGYVGRYGGEEFLILLPDCILEKAVEYGELIRKKVEKYNFEEFNVTISGGIATFSKEDNSYSLIDKADKKLYEAKKNGRNKIIH;locus_tag=LOCUS_17820;note=WP_000121860.1 sensor domain-containing diguanylate cyclase (Leptospira) [pid:41.1%25%2C q_cov:36.0%25%2C s_cov:58.8%25%2C Eval:3.2e-32%2C partial hit],MGA_1790
sequence08	MetaGeneAnnotator	CDS	105932	106681	.	+	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLIFMTFLLITSFSFASGLFIKSGPAWKPIKKENNTQTETFNRNWHLELDLMGKLSETWDIGAGIEFNKRYENENGKEDLGYLPIYISTRYKLRQVNTASFPYLIGRIGLSFPIKYTDNIETVSGGGYVALGIGLELDHMIIELVSSAASIQQSELLTSNKTIKFEKVSLMFGYRFGENYYTPRALYKAPVQKQPIINTKNTPINETPEYSKDVKERLDNLKQLRIDGYITEEEYYEKRKEILSDI;locus_tag=LOCUS_17830;note=MGA_1791
sequence08	MetaGeneAnnotator	CDS	106762	107838	.	+	0	ID=MGA_1792;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016482.1;translation=MVDAIYIHIPFCQRKCYYCDFLSFSNMNDEIDNYVEHLIKEINLYPKYNFDTIYFGGGTPSLLSPKHINKILENLNFNSNSEITLEVNPITVNYDKLKQFKNSGINRLSIGIQSFDNKILKLLGRLHDDKKAISTYYDARKAGFDNISVDLMFAIPNQTLKILNNDLNILKNLNPEHISIYSLIWEEGTKFWEMKEKHILMPLSNEIEADMYKKIIDFLTKNNYIHYEISNFSKQNFEARHNSKYWENKEYIGVGLGSSGYYNRFRYKNVCFLDKYYGIINISDLPIIEKEIIDKKDSFKYILGLRLLNKGISPREDKYIKICNDLVKKEFLTNTNNKYFLTKKGIFYANDVFLEFID;locus_tag=LOCUS_17840;gene=hemW;note=WP_011016482.1 radical SAM family heme chaperone HemW (Fusobacterium nucleatum) [pid:52.1%25%2C q_cov:98.3%25%2C s_cov:98.1%25%2C Eval:1.3e-103],MGA_1792
sequence08	MetaGeneAnnotator	CDS	107848	108537	.	+	0	ID=MGA_1793;product=YggS family pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016483.1;translation=MSLKDTITKNFNEINEDIKKYSPYPEKVKIVGATKYLDKYKLEDYFYSGAKIIGENRVQSLREKKEHFDNLDISKKIEWHFIGSLQKNKLKYFIDYINLIHSVDRLSIAEAIDKEAKKRNKIINCLLEINISKEKSKHGFFIEDLYENINKLKSLNNLNIIGLMTMAPFTKDKEIILNVFKNLKTLKDELNNTHFNGELTELSMGMSNDYKLALSQGATMIRIGSKLFN;locus_tag=LOCUS_17850;note=WP_011016483.1 YggS family pyridoxal phosphate-dependent enzyme (Fusobacterium nucleatum) [pid:54.7%25%2C q_cov:97.4%25%2C s_cov:99.1%25%2C Eval:9.5e-66],MGA_1793
sequence08	MetaGeneAnnotator	CDS	108554	109066	.	+	0	ID=MGA_1794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFDNIKNQFGSHSNNFDSDDFENNENSVKQEKKDNKIISINNYSDLSKSYGNEDNQDTQEKQIAMIKPKSFEEAIKISNWIEEEKIIVLSVELLTPKLTQRLIDFISGALYIKKGEMFEMTKGEVFVCIPNKYGSILDINSLTENTISKLNLKSTNNYEEIKPKFNTK;locus_tag=LOCUS_17860;note=WP_164919787.1 cell division protein SepF (Mesoplasma florum) [pid:30.4%25%2C q_cov:65.9%25%2C s_cov:75.8%25%2C Eval:2.2e-08%2C partial hit],MGA_1794
sequence08	MetaGeneAnnotator	CDS	109193	109912	.	-	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILVYFIMFSYTFSAYEIFDNSYILKIGTHLGGNYYETIKDNDGITVDTANTTIKMLSSRTYSFELHNRTEWFESVFFGVGVSYIQSSKLNKAINNGSGYMYANYLPIYLLMQKKFDSGFYPDEDMFLNIKLGIAIEYAKKEWTTATNANYTVQNILKVSSPFAAVGLGFEYNSFILEGEYQFDLSAAQSLGGSSGWSMFSNRISINIGYRFNGTFSGANFGEVITEEDPFAKYYQ;locus_tag=LOCUS_17870;note=MGA_1795
sequence08	MetaGeneAnnotator	CDS	110046	112793	.	+	0	ID=MGA_1796;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898759.1;translation=MFDNLKKHDTATKNIVNKIFFKLSKDIEGYYISIVDEHNNYIENIDHHNFNKNTQDILDIIESIETENLFSISWENNDKKVYLNEHPFLLNLLKNSKILIDDNFNKLNFIDKIYDLTLVIKNNNTELTSTLYLNNNIKNFILITENCALFDNNLVFIKDIGENFENIQDLNSTFIYEEFEKFLTITYSYFNNIIIKYNNYSVENGPLITAKPLIIIEKIDKAKSLYLKLGTFIPNFDNNFIEEYNIKNIITVNDLEQKILIHDIEFFNISKELEYLLKIIVTYQRELKLKNGYFFDETLIILEEKLAREFISKELTNLLTKYQIIGTDKFKKYNIKNVKPKLITNLSHSIDFLEGDVSIQIENEIFSIFDLLSIYKKNSYITLSDGTNALINKNYIEKLERIFRKDKTKTKISFFDLPIIQDLIDEKILIDAFPKIKEIFEGFNKISSLDLQKPDINATLRSYQEYGYKWLVFLYNNNLNGCLADDMGLGKTIQTISLLSYIYPKSKKPTLIVMPKSLIYNWENEILKFNPNLYTKIYYGITRNLDNVLDAQIILTTYGTVRNDIKFLKEIDFEMIVLDESQNIKNVNSQITKAVTLLNADHKLALSGTPVENNLGELYSLFRFLNPNMFGSAEHFNNYYLLPIQRDNDKEIIKELKQKIYPFILRRTKKEVLKELPEKIEQTLFIEMNPKQKKLYEEQRDFYYTLIKEQINTKGFTKSKFFILQALNELRQIASVPENISNNAIKSSKREVLIENIKEAVSNNHKILIFSNFIKTIENICEDLKKENIKHLSMTGSTKNRQELVDEFQNNSNIKVFVMTLKTGGVGLNLTSADTIFIFDPWWNKTAEDQAIDRSHRMGQKNTVFSYKLISKGSIEEKILQLQYEKSKLFESLISDDSNSIKTLSKDDIDFILNT;locus_tag=LOCUS_17880;note=WP_005898759.1 DEAD/DEAH box helicase (Fusobacterium nucleatum) [pid:49.4%25%2C q_cov:97.9%25%2C s_cov:99.4%25%2C Eval:8.6e-250],MGA_1796
sequence08	MetaGeneAnnotator	CDS	112812	114602	.	+	0	ID=MGA_1797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626840.1;translation=MGITKNDLLKALDRFYSKETLLKLFKKYFLNWIADGYIGGNLGLFEVSLIGHTSKKQIFLDLIFEIYSKEEIFLTIYNNLDKDIQNIFLEIAWNEKFIIDDKNKYLTEKTNGYRKILIPKTKYMFFNYNCSDENLWVKSKKENGYFYLHKDIIRWIRKYLPKPKEYDLIPINKPSTTFFLSSEKEVINKISTYYNFYSLGHIELSTSNKVLKKSKREMRKYCKLIEFYNDFGDLDFLKTETLSLFLLSLSKKYQDQKYFKPQNLKFLIIGLLDGKLISDENFNYTTKFLNYLKGVKYIWNEKEQTKKAFRTIKTVLENMPKGKAVSIDNILKYIDYRDMDIEILSPENIYNYVYINEADYGRTKISTYENYYNYVVVPFVKSIFAILGCLGVLDIYYDVPSNKNGLYLKNGYLTKYDGFKYIKLSKLGEYIFDKINNYNFGEDNENSEVYLDSNRLIISIVGDSPIRIMFLETIAERISESKFKISYKSFFKNIETEKDILEKIDIFKQKISNNLPKLWEKFFEKLITRSSSITPVNDYQIIKLKEDKELFEIILKNKKIKSKILKAENFHILIKKEDISELSNFLKENGYFNKLI;locus_tag=LOCUS_17890;note=WP_201626840.1 hypothetical protein (Fusobacterium canifelinum) [pid:39.9%25%2C q_cov:98.5%25%2C s_cov:99.3%25%2C Eval:3.9e-128],MGA_1797
sequence08	MetaGeneAnnotator	CDS	114758	115666	.	+	0	ID=MGA_1798;product=quinolinate synthase NadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454668.1;translation=MSDILSQIEKLKKEKNAIILAHYYQNADIQDLADFVGDSYFLSEKARDSNADYIIYCGVKFMAESAKILSPNKRVFFPAYANAECCMEYMATPTKVQSLKDEYPEAKVVCYINSSSEVKALSDACCTSSSAEKIVNKIDAKQIIFVPDKNLGSYIQEKTDKEIILFDGCCNVHDKVTPKHIKEYKDKYQNIEVVAHPECKKEVRDLSDYVGSTSGILNYVKTSHKKEFLIVTEKGIAHELYKQNPDKKFYFINMICNSMKKIFPETILEALQEEKYEIFVDKDIIKNAKKSLDNMLLLSRGE;locus_tag=LOCUS_17900;gene=nadA;EC_number=2.5.1.72;note=WP_004454668.1 quinolinate synthase NadA (Clostridioides difficile) [pid:53.6%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:1.8e-84],MGA_1798
sequence08	MetaGeneAnnotator	CDS	115669	116964	.	+	0	ID=MGA_1799;product=L-aspartate oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430790.1;translation=MTYNCDVLIIGSGLAALNLAINLDKSIDILIVSNSKLKDCNSYLAQGGITTIKDEKDKELFIKDTLVAGENANDIETINFVSENANKSIQNLVKLGVPFNKDKNNNLIYTKEAAHSTNRILYCDDSSGKVIWKTIFSHIINRKNIDIIDNVEIVDIKSENNNCYGAIGIDENKNIMNFNSKITVLATGGIGGLFKNSTNFNNIKGIGVSIALRHNIKVKDLEYIQMHPTAFYSTNSDKRFLISESVRGEGAYIVNDIGERFVNELLPRNKVSERILKEKKNRNIDFVYLDARHLGKNYLQNRFPKIYNFCLENGYDMSKDLIPIHPSQHYFMGGIAVDKNSKTSMNNLYACGEVSCTGLHGKNRLASNSLLEAVVFSESAANSINKEINSKDPKIINYTNNLFEIKKENIKILIDTFKKIREDLSDEFYSY;locus_tag=LOCUS_17910;EC_number=1.4.3.16;note=WP_003430790.1 L-aspartate oxidase (Clostridioides difficile) [pid:48.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-114],MGA_1799
sequence08	MetaGeneAnnotator	CDS	116945	117781	.	+	0	ID=MGA_1800;product=carboxylating nicotinate-nucleotide diphosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454666.1;translation=MNFILIDKIINEALIEDAIYDDVTTLNIISKDKKAKIDLIAKEDLIICGLEVFKRVFDILGDVNIEFHYNEGEFIKNKEIVATLEGNAQNILLGERVALNLLQRMSGIATKTYNIVKLLEGSKIKVLDTRKTTPLFRTLEKYSVKIGGGYNHRFNLSDMAMIKDNHIKAAGSITKAVNAIRKNNPFIKKIEVECETLADVTEAIIAKADIIMLDNMDNDTMKKAINIINKQAIIEVSGNVTEERINTLKTLDIDYISIGALTHSVKSSDLSMKNLVIF;locus_tag=LOCUS_17920;gene=nadC;EC_number=2.4.2.19;note=WP_004454666.1 carboxylating nicotinate-nucleotide diphosphorylase (Clostridioides difficile) [pid:56.7%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:8.9e-83],MGA_1800
sequence08	MetaGeneAnnotator	CDS	117886	120516	.	-	0	ID=MGA_1801;product=bifunctional acetaldehyde-CoA/alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948126.1;translation=MFKVTNVDELNLAIKKVREAQRKFSNFSQEQVDEIFRQAALAANNSRIELAKLAVKETGMGIVEDKVIKNHFASEYIYNQYKDFKTCGVIEKDNAFGVTKIAEPIGIIAGIIPTTNPTSTAIFKALIALKTRNGIIFSPHPRAKECTIAAAKLVLDAAVKAGAPEDIIAWIDTPSVEMSNVLMRSSDLILATGGPGMVKAAYSSGVPAIGVGAGNTPVIIDESAHIKMAVNSILLSKTFDNGVICASEQAVIVSDKIYDEVKKEFELRGAYILKNDEVEKVRNTIVIDGRLNANIVGQSAYKIAQLAGVEVPKTAKVLIGEVESVELEEPFSHEKLSPVLAMYRSTSFEDALTKADRLVELGGMGHTSVLYVDQVTQQEKINKFGKIMKTGRTLINMPSSQGAIGDIYNFKLAPSLTLGCGSWGGNAVSENVGVKHLINIKTVAERRENMLWFRVPEKVYFKYGSLPIALQELKGTKKKAFIVTDSVLASLGYTDHITTVLDEIGVDYRIFSEVKADPTLSSARAGAEAMLAYQPDVIIALGGGSPMDAGKIMWTLYEHPEVRFEDLAMRFMDIRKRIFEFPKLGKKAQFIAVATSAGTGSEVTPFAVITDDETGVKYPLADYELTPNMAIVDPQLMLSMPKGLTSASGIDVLTHAIEAYVSVLASEYTKPLSLEAIRLVFKYLPESYEKGAEAIKAKEKMANASCIAGMAFANAFLGICHSMAHKLGGTHHIPHGVANALLLNEVIKYNATDNPRKQAAFAQYKYPDAKYRYAAIADHLGLGGTTIEEKIEKLVVKIDELKAQIGIPSSIKEYGINEKAFLESLDQMTEEAFDDQCTGANPRYPLMSELKELYLRAYYGAKEYEAKKSAKEKQEK;locus_tag=LOCUS_17930;gene=adhE;EC_number=1.1.1.1%3B 1.2.1.10;note=WP_011948126.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridium botulinum) [pid:70.1%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:0.0e+00],MGA_1801
sequence08	MetaGeneAnnotator	CDS	120864	122618	.	-	0	ID=MGA_1802;product=NADH-dependent [FeFe] hydrogenase%2C group A6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868906.1;translation=MEKVKVTIDGIQTEVPKNSTILAAAKSLGINIPSLCYLNIGSADYKNDCASCRICVVEVEGRKNLAPSCATPVFEGMNVTTNSMRVMHSRKTVLELMLSDHPKDCLACSKSGECTLQDLAIQFGIREIRFEGAESTYRKDYSPSIIRDMDKCIMCRRCETMCNKIQTVGALSGVNRGFEAVVAPAFEQDLEDSVCTYCGQCVAVCPVGALSEADHTWKVVRALANPKKKVIVQVAPAVRAALGEEFGYPVGTNVEGEMVTALKKLGFDGVFDTNWAADLTIMEEASELKARLEKYLAGDEKALPILTSCCPAWVKFIEHNFPDMLDVPSTAKSPQQMFGAVAKNIWAKEEGINREDLVVVSVMPCLAKKYEAGREEFSKDGNPDVDISISTRELAKLLKQANIDLKKLEKSKFDAPLGDYTGAGVIFGRTGGVIEAATRTAYEWITGETLENVNFEVLRGYEGCRVATVKVGDLDLRIGIAHGLGEARKLLEKVKSGEEKLHAIEIMACKGGCVGGGGQPYHNGNFEIIKKRTEVLNNIDENCEIRKSHENPYIKSIYENHLEKPMSHKAHEMLHTKYFPKHKI;locus_tag=LOCUS_17940;note=WP_012868906.1 NADH-dependent [FeFe] hydrogenase%2C group A6 (Thermanaerovibrio acidaminovorans) [pid:66.1%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:6.1e-227],MGA_1802
sequence08	MetaGeneAnnotator	CDS	122658	124445	.	-	0	ID=MGA_1803;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868905.1;translation=MAYKKHVLICGGTGCLSSKSAQIAENINALLKEKGMEEEVQVVLTGCFGFCEKGPIVKIVPSNTFYVEVKPEDAARIVEEDLIKGEKIESLLYKDPSTKEKISDSDKMGFYDKQQRIALRNCGLINPENIKEYLGNRGYQALGKCLTEMTPEDVINEVKLSKIRGRGGGGFPTGLKWQFAANNHADQKYVVCNADEGDPGAFMDRSILEGDPHSVIEAMAICGYATGANKGLVYIRAEYPLAIKRLRKAMADAREYGLLGENILGTDFSFDIEIKYGAGAFVCGEETALIHSMEGERGEPTSKPPFPAESGYFGRPTNVNNVETFANIPEIILNGGEWYTTIGTEKSSGTKVFALAGKINNVGLVEVPMGTTLREVIFEIGGGIKDGKKFKAVQTGGPSGGCLTEKDLDTPIDFDTLTSKGSMMGSGGMIVMDEDDCMVAVSKFYLEFTVEESCGKCTPCRVGNKRLLEILDKITKGNGTMEDLELLRELSETIKDTSLCGLGQTAPNPVLSTLNNFWDEYVAHVKDKKCPAGSCQDLLQYTINDKCIGCTACARVCPVNCITGKVKEKHVIDQEKCIKCGACYSTCKFKAIDRL;locus_tag=LOCUS_17950;gene=nuoF;note=WP_012868905.1 NADH-quinone oxidoreductase subunit NuoF (Thermanaerovibrio acidaminovorans) [pid:71.1%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:7.1e-263],MGA_1803
sequence08	MetaGeneAnnotator	CDS	124913	125404	.	-	0	ID=MGA_1804;product=NAD(P)H-dependent oxidoreductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868903.1;translation=MSACENKLKNECFKKLEEFIDGLETKEGALISVLHKAQEIFGYLPKEVQAFVAEALGVSLAKVYGVVSFYSFFTMTPKGKYPISVCMGTACFVRGAEKVLKDFEAKLGISTGETTADGLFSIDALRCVGACGLAPVVLVGEDVYGKEEAKDVDAIIKKYKELG;locus_tag=LOCUS_17960;note=WP_012868903.1 NAD(P)H-dependent oxidoreductase subunit E (Thermanaerovibrio acidaminovorans) [pid:61.8%25%2C q_cov:96.3%25%2C s_cov:90.2%25%2C Eval:1.5e-51],MGA_1804
sequence09	MetaGeneAnnotator	CDS	157	447	.	+	0	ID=MGA_1806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEIPTAYQYEMENITDLLEAIKINNSDYTLIKLLKEHLDELIEKIDNEDVKSKIKLIRKKVVLIEKNLDIVSDRFFEETYYLLSYIRKCNKKAVS;locus_tag=LOCUS_17970;note=MGA_1806
sequence09	MetaGeneAnnotator	CDS	485	2206	.	-	0	ID=MGA_1807;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015730.1;translation=MRFSKLYLKTLKESPKEAEVISHQLLLRAGMIKKLASGIYSYLPLGKITLNKIEKIIREELDNAGCQEILMPVLQPAELWKESGRWLKMGEEMMRMQDRHNRDFVLGPTHEEVITDIIRNDIKSYKDLPINLYQIQTKFRDERRPRFGLMRGREFLMKDAYSFHTSEEDLDREYHNMYKAYERIFTRCGLNFRPVEADSGAIGGSHTHEFHVLAESGEDDILYCNKCDYAANSEKAVSNIELTQNDEAEKELTLIDTKNTSSIEDVAKFLNVDITKTVKAMMFKSILETETKYYMALIRGDYEVNEIKLKNAVNSPVELELITDEEFEKLSITKGYCGALKNISEDIYVVADETIKPMKNMVIGANIKDKHYINANINRDLKINKFYDIRMVKSGEPCPHCDGTLEIARGIEVGQVFKLGTGYAEALGAKYLDKNGKLQVMTMGCYGIGVSRTMASAIEQNYDEYGIIWPVSIAPFIVNIIPANMKNQTQVDLAEKLYKNFSETNIDTIIDDRNERLGFKMKDSDLIGLPIKIVVGKKSDEDIVEIKLRKTGETIEISANEVINKVRELIKTL;locus_tag=LOCUS_17980;EC_number=6.1.1.15;note=WP_011015730.1 proline--tRNA ligase (Fusobacterium nucleatum) [pid:61.6%25%2C q_cov:99.7%25%2C s_cov:99.6%25%2C Eval:1.6e-200],MGA_1807
sequence09	MetaGeneAnnotator	CDS	2235	3320	.	-	0	ID=MGA_1808;product=type IV pilus twitching motility protein PilT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940822.1;translation=MIDKYLKYLVDNNGSDLHLRVGNTPIIRKNGDLINLDNCERLKKTDLEEIVNDILDEKAKEKFLSSLNYDISYSVPGTGRFRLNISLSRSSYMIVARLIPFDIPDIETLHLPVILKEIAKEKDGIILVTGATGSGKSTTVAAILEHINSNYRKNIITFEDPIEFLFKDKKSIISQKEVPNDIPDFNLALKYVLRQDPDIIYIGELRDQETIETALKAAETGHLVISTLHTVNATKTISRILDFFPVDKHKQIRYQLSDNLKAVISQKLLKTVDNNKRAINEILRTTSTIQELIKIDEGTQKIPDIIKANKDMFGMQSFDQNIVELYKQNIISYEVAHANATIKTDIEMLKSGITNDLSDFY;locus_tag=LOCUS_17990;note=WP_010940822.1 type IV pilus twitching motility protein PilT (Geobacter sulfurreducens) [pid:44.2%25%2C q_cov:98.1%25%2C s_cov:92.0%25%2C Eval:1.8e-79],MGA_1808
sequence09	MetaGeneAnnotator	CDS	3328	5403	.	-	0	ID=MGA_1809;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015732.1;translation=MLLEKEIKYLSLYNKIENIDFLDEKKIKILKSLNLKYIIDIIYFFPRTYEDKSNLKKIIDIKADETVVLTGVVLKTNLVKTRTKKIIFQATLSDGTGTIRLSWFQMPYLKKTIFAGDRLSIIGKVKKTYGYEIINPEYKKIDDEDKIEAKVLPVYSSINKVTQRTLRAIIKKVINKYIDNIFENIPSSILKKYDILDRKEAILKIHFPKKNNDITLAKKRFALEELLTLELSIISKRFEVELQNKEKYKLDDNKHLVKKFLDSLSFELTNAQKKVITEIYKDLINGKIVNRLIQGDVGSGKTIVATIMMLYMVENGYQTAIMAPTEILAVQHYLSMVDSLYEFGIKVDLLTSSIKGKRKEKLLNEIKHGLTNIIIGTHSLIEDNVEFNKLGLVVIDEQHRFGVLQRRNLRNKGVLANLIVMSATPIPRSLALSIYGDLDISIINELPPGRIPIKTKWIQNENELNKMYNFIRKQLGQARQAYFVAPLIDESESLNVKSATELYEELKNKYFSDYKVALLHGKMKNSEKDKIMHDFKKKKYDIIVSTTVIEVGINVPNATIMVISDAHRFGLSALHQLRGRVGRGKFKSYCFLVSSTKNELSIKRLEIMEQTTDGFVIAEEDLKLRKIGEIFGTKQSGSSDMQFIDFVKDIKLIKFVKDLATKYLFENNGKIDNIYMQHDINKRYNVEEIKG;locus_tag=LOCUS_18000;gene=recG;EC_number=3.6.4.12;note=WP_011015732.1 ATP-dependent DNA helicase RecG (Fusobacterium nucleatum) [pid:54.4%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:9.5e-214],MGA_1809
sequence09	MetaGeneAnnotator	CDS	5354	6241	.	-	0	ID=MGA_1810;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459799.1;translation=MQYIWHFNALLVIFFWSSTFFPNKILLANGFTSSQILIIRSFIAFISLFLFYPKRIKIDKSQFKLVFLAGLFGISSYFFFEISSLKYTSPGNSTLILSTIPILNAIIVHIINKKKFEKNLLIGSIFSLIGLFFVIFNGRILQLNPLGDFLAFLAAFSWSIYTIILEKFNKNITPIIITRYVFLSGILTSLPLMFLIGDFSLNFNINISTISSLLFLGLITSAICFLLWNRVVNHLGILTSSLYIYLLPIFAMILSKIIYGYPITLLMIIGTIFTLGGVFIASRKRNKIFKSIQQN;locus_tag=LOCUS_18010;note=WP_011459799.1 DMT family transporter (Desulfitobacterium hafniense) [pid:36.0%25%2C q_cov:94.6%25%2C s_cov:96.6%25%2C Eval:3.1e-44],MGA_1810
sequence09	MetaGeneAnnotator	CDS	6298	7044	.	-	0	ID=MGA_1811;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904156.1;translation=MAGHSKWANIQHRKGRQDKARAKLFTKLAKELTIAARDGGGDPNFNPRLRLALDKAKAGNMPKDNIERAIKKGTGEIEGVEYFEIRYEGYGPSGVAFIVDVVTDNKNRTASTVRSNFSKNNGNLGESGSVSWMFHRKGVLTFSNVDEEKIMELALESGAEDIIENGDNFLVYTAPEDFENIKKALEDNELVAESAEITFVPENEIDITDEETAKQVLKLYEALEDNEDVQEVYANFNIPDELMEKLMN;locus_tag=LOCUS_18020;note=WP_005904156.1 YebC/PmpR family DNA-binding transcriptional regulator (Fusobacterium nucleatum) [pid:61.3%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:5.5e-86],MGA_1811
sequence09	MetaGeneAnnotator	CDS	7195	7731	.	-	0	ID=MGA_1812;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627936.1;translation=MKNKNEIRKSIKNKREKLDKNYIELYSKELTQIFINSSLYKNAKTIMSYIPIKNEVNTIYINQEIIKDNKTLLLPAIINDKVYPKLYNDNFIKGKYDIKEPSGDIFIDEIDLIIVPGIAFDKYKNRIGFGKGYYDKFLQKYLSSIKVSLIYPFQLVEKINNEKHDIKIDFIFDNNHII;locus_tag=LOCUS_18030;EC_number=6.3.3.2;note=WP_201627936.1 5-formyltetrahydrofolate cyclo-ligase (Fusobacterium) [pid:38.8%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:2.1e-31],MGA_1812
sequence09	MetaGeneAnnotator	CDS	7728	8303	.	-	0	ID=MGA_1813;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164925379.1;translation=MDKNLLWEELAFEISSTKIANLGNRNEKVLLGAGNKQAKVMFIGNDLNLFEDETGNTLPGTSGSFFFQVCDLVDITLDDMYITNIIKCNAKFEELTKQEINFYKDILHMQIAIINPKIIVTLGKTATEVLLEQEVDIRKIHGDVYEWNGGILLIPLFDPSYLLRETDKQMNSPRWLNWQDMKMIKEKMELL;locus_tag=LOCUS_18040;EC_number=3.2.2.27;note=WP_164925379.1 uracil-DNA glycosylase (Thermanaerovibrio acidaminovorans) [pid:29.6%25%2C q_cov:98.4%25%2C s_cov:91.7%25%2C Eval:4.8e-24],MGA_1813
sequence09	MetaGeneAnnotator	CDS	8296	9090	.	-	0	ID=MGA_1814;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016735.1;translation=MKVAILGSGSSGNSIFIESNNHKILIDAGFSGKKLKDKLNNINVDISKVNALLITHEHSDHILGAGIISRKYNIPIYITRESYESSKDKLGKIENSLLNFISDKNFNLFNTFNIYPFDVMHDATRTLGYRIEVENKKIGIITDIGYVDNYSKNFLKNLNLLIIEANYDYDMLMQNDYPWQLKSRVKSNNGHLSNDDAAKLICDIYHKNIEKVYFVHMSKDSNTYDLAYTTISSKFNENNINVDFKIINYGENSEIYYVKGENNG;locus_tag=LOCUS_18050;note=WP_011016735.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:52.5%25%2C q_cov:89.0%25%2C s_cov:90.4%25%2C Eval:5.8e-68],MGA_1814
sequence09	MetaGeneAnnotator	CDS	9231	9539	.	-	0	ID=MGA_1815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYILILILTLSFISCTAITSNATTHPIIRERREILNTEIRVQITVADNISTPRLDNYNLRHGTNYLKVPLGIHNLYWSKKGKPYIKEIKITEDNRKFIIF;locus_tag=LOCUS_18060;note=MGA_1815
sequence09	MetaGeneAnnotator	CDS	9702	13103	.	+	0	ID=MGA_1816;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017116.1;translation=MSEFVHLHLHTEYSLLDGVGKIDEYIDRAKELGMKALAITDHGNMFGAIEFYKKALAKGIKPIIGIEAYLAEYNMEEKKGKNFHIILLAKNEKGYKNLMKLSSIAYEKGFYYRPRIDKNILKEYSEGIIALSACMQGEISQALIENDNNKAKEIALEYKDIFGENFYIEIQANGIVEQKILNDKLYKIAKECEIEVVGTNDVHYVYHGDSELQDIVFCIQTGKKLDDKDRMKIETDELYMKSKEEIFEELGKYDGAIENTIKISKKCNVEIKFGEFKFPQFDIPEKFGNAQKYLEFLVEKGIINRYSENFNKEIEKRVEYELEIINKMGYEEYFIVVWDFIHYAKSKNIPIGPGRGSAAGSIVAYALGITELDPIKYNLIFERFLNPERISMPDIDIDICQERRHEVIEYVTNKYGMNKVAQIITFGTMKARAAVRDVGRVMDIPLSKVDKIAKLIPFNINLITALSKIKELKKIYDSDSEIKKLIDISIRIEGKVRHSSIHAAGIVITKNDLIEEVPIYYDTKSSIYSTQYQMKELEDLGLLKMDFLGLRNLTIIQRTLDYIAEDTGEKLDINKIELDNEKVYKLLQRGDTLGIFQLESSGITKLIKRLKPNRFEDIIALLALYRPGPLGSGMVDDFIKAKNGEIKIKYPDDTLKDILEETYGVILYQEQVMKIASIMANYTMGEADLLRRAMGKKKIEIMEENREKFVKRAMEKGYTEDKARYIFSLVDKFAGYGFNKSHSAAYALIAYWTAYLKSNYPIQYFAALMTSEIHNIDKLGLYVEDAKKHKIRLSAPDINNPSTKFVIKNGKIIFGLAAIKNIGLTIVENIIKERYENGEYRSYEDFVNRTKKYGMNKKILEALILAGALDSLPGNRKQKYLGISEVLENANKIVALDEVQQMGLFGDSSKKLDSFKFQNVTEFEKSSLLRAEKEYIGIYISGHPLDEYKDILDVYELNSIREIHNENINFVKTFGIIKNLKKLVTKKSRESMATFILEGYDLSIGVTIFPKEFKKYMHYLVENEAVYVSGTINYDNFSGNEEKKIFIREMIPLGDIDEIDSFKVYILVDEKEKSKMTRLKQLLKKYKGNHRVYLAIKNKRQVIELSKNYRIIPTKYFITELKNIIGADRIKII;locus_tag=LOCUS_18070;gene=dnaE;EC_number=2.7.7.7;note=WP_011017116.1 DNA polymerase III subunit alpha (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_1816
sequence09	MetaGeneAnnotator	CDS	13197	13604	.	+	0	ID=MGA_1817;product=acetyl-CoA carboxylase biotin carboxyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003814952.1;translation=MEFKEIKNIINILNETDLIEIDVTFGKERVFIKKDNVVKQVLKSTKAPKKEEMSKKELIEIKSQNVGNIILLNKTGEPIVKKGQSIKEGEVLAYIESVGLKAEVKSPVNGIISDVLLADGDLADYGKILFLIEKA;locus_tag=LOCUS_18080;gene=accB;EC_number=6.4.1.2;note=WP_003814952.1 acetyl-CoA carboxylase biotin carboxyl carrier protein (Bordetella) [pid:27.0%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:3.7e-08],MGA_1817
sequence09	MetaGeneAnnotator	CDS	13621	14970	.	+	0	ID=MGA_1818;product=acetyl-CoA carboxylase biotin carboxylase subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015944627.1;translation=MFKKILIANRGEIAVRIIRTAKEMGIKTVAIYSEADKESLHVKLADEAVCVGPALSSESYLKIPNVIAAAEAVGADAIHPGYGFLAENSEFAKICADHNITFIGPSPECIINMGDKATARASAIKNNVPITRGSDGIISDIEEAKKLVNEVITYPVMIKATAGGGGKGMRIARNDEELEKNMVAASQEAKAAFGNPDVYIEKYVENPRHIEVQIVGDKHGNVVHLGERDCSIQRRHQKLVEEAPSVAIDSKTRKAMGEAAVRLAKSINYDSAGTLEFLLDTQGNFYFMEMNTRIQVEHTVTEVVTGVDIIKEQILAAAGEPLSIKQEDIEIKGHAIECRINAEDSENGFLPSAGTIEKYIPAGGYGIRVDSHSYAGYTIPPYYDSMIAKLIVYGDTRKEAINRMKRALDEYIIEGVDTTIPFHKKVMNNKVYNEGDVYTSFIETHLEKK;locus_tag=LOCUS_18090;gene=accC;EC_number=6.3.4.14;note=WP_015944627.1 acetyl-CoA carboxylase biotin carboxylase subunit (Desulfitobacterium hafniense) [pid:64.1%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.3e-166],MGA_1818
sequence09	MetaGeneAnnotator	CDS	15108	15500	.	+	0	ID=MGA_1819;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393032.1;translation=MAEVGNIKIADEVVAVIASKAATNIDGVHKMSGNVADEVNKFLGKKNSAKGIKVEVGEKECTVDAYIVVDYGKPIPEVANAVQQNIIKEITMMTGLNVVEVNVYIQDLHFPSDDKEEIEAENEELIEEAY;locus_tag=LOCUS_18100;note=WP_011393032.1 Asp23/Gls24 family envelope stress response protein (Moorella thermoacetica) [pid:57.5%25%2C q_cov:86.9%25%2C s_cov:82.5%25%2C Eval:7.7e-30],MGA_1819
sequence09	MetaGeneAnnotator	CDS	15614	16171	.	+	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLWMFLFAIGWIGLGIISLGTMFLAVFPKYFSIVNYYNINFRLIILGVGFFYFALFIEKLLRLFKKEEAYYLDTENGKIRITISALNTLIKKEITKRKNLKLIKMKNSINKKGVYVKIEIEILETDNVSLKLKTIQEDIKNRTKEVFDIEVKSVDIVTSKVKDIVKVDNIGDENNADRDIREIDS;locus_tag=LOCUS_18110;note=MGA_1820
sequence09	MetaGeneAnnotator	CDS	16137	16370	.	+	0	ID=MGA_1821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTEILEKLIVNRKKILAAILGFIFGIVYISFGFLDTLIVALFTIIGYNYMRIYREVIYFFKKVLKKLKQFAKKMEE;locus_tag=LOCUS_18120;note=MGA_1821
sequence09	MetaGeneAnnotator	CDS	16398	16805	.	+	0	ID=MGA_1822;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904113.1;translation=MSRRVAREEVFKILFESELSNTDLKDVLLSYLKREELENLREPQIKFIKEYITGIAENLEEINKVIDENMINWNIDRIGNVEKVLLRFGAFELLKKDTGKEIVVNEIIEIAKKYGNEKSHEFINGVLANIIKSIN;locus_tag=LOCUS_18130;gene=nusB;note=WP_005904113.1 transcription antitermination factor NusB (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:96.3%25%2C s_cov:88.2%25%2C Eval:4.7e-27],MGA_1822
sequence09	MetaGeneAnnotator	CDS	16816	18723	.	+	0	ID=MGA_1823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRIAIIIKDHELERNISDLLRDNRYIVDILSVENIIDNILENKIDLLILGAQSINEIELARKSEKVSQIPVIVVFDRNVGNADIVDTFKKGVSDIIYVKKESYKPILDAVDRFFNKDEEEVNIEIKNINQWTVITIKSELNPKNSYYLKVKIDELLKNNRKNFIIDISTLNYMESVGLGVLIYIRKKVHEISGEAKYIITSNRIKKLISIVKLEKYIEMYDNINDVTSIEVDNDKILVAIVDDAKFMRALISTVLQEEGFATIAYGDPLEALEELRYKEPDIILVDYEMPNLNGLEFIREFKPKKRNIPTVMLTTETDVNLAVSAMRLGASDFLNKPFKKEELIHILKKVVKENKLMKENERLFQELQIREKELKKKNNQLFKLYSELEEELKLASEIQKKLLPQSYPDIAGYNFAVKYKPSQDIGGDFYDFINLNNNSYGIAFADVSGHGIPAALLSTIFKVHLVTHSKEIQEPSKLLTVLNEKVVETFPDGKFISLFYLLMSQESDTIRYCRASQEPVLHLKKDGSVQELPGSSQVLGLFSEKDFPGVLNFEDKEVELLPGEKLFFYTDGINEAQNKNDEFYGLDRLKQVLSENINCGATELIENIYGDLKDFLEGLPVIDDLTLMCIEKK;locus_tag=LOCUS_18140;note=WP_011203082.1 SpoIIE family protein phosphatase (Bacteroides fragilis) [pid:26.4%25%2C q_cov:62.5%25%2C s_cov:99.0%25%2C Eval:5.9e-37%2C partial hit],MGA_1823
sequence09	MetaGeneAnnotator	CDS	18887	19858	.	+	0	ID=MGA_1824;product=biotin synthase BioB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986728.1;translation=MDLRKLIDKEITREEAIELSRLKGSKMMELFAVANEIREKYCGNELHTCTITNAKSGKCPENCKFCAQSAHHNTNIPTYDLKDEETLLNEYSKSEDYNAKKFGLVTSGRSIKKGTKEFEEIEKFIENAKKTNKKVELCCSIGLLDAEEIKILKSKGLTRIHNNIQTSPKVYDKLVSTTHNVQDRINTIKIAKQEGIEVCSGGIIGMGETFEDRIDMAFTLKELNVDAIPLNILNPIKGTPYENMQALSMDEILKTFAIFRIIHKDKVLKIGAGREGILKDFMGMAFMSGMNGMLIGGYLTVRGREVEDDFKFIENVKKMWKNK;locus_tag=LOCUS_18150;gene=bioB;EC_number=2.8.1.6;note=WP_011986728.1 biotin synthase BioB (Clostridium botulinum) [pid:46.0%25%2C q_cov:96.9%25%2C s_cov:96.2%25%2C Eval:8.1e-73],MGA_1824
sequence09	MetaGeneAnnotator	CDS	19945	21102	.	+	0	ID=MGA_1825;product=8-amino-7-oxononanoate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001075620.1;translation=MNYLKEVLHNLKINNMHRELKDIDKLEHKYIYKEGIKYLDMTSSNYLGLRDDIRIKEAVIKGIQTYGVGSGASRLICGEADIFRNLEDKLAKYLKKERALIFNSGYDANIGVISTLFTSDDVIFCDKLNHASIYDGIKLSGAKLIRFKHMDYNDLREKIEKNQNYNKALIVTDSLFSMDGDIADIKQLIKIKEKYKNIYLMVDEAHAGGVFGENGFGIAERENVLEKIDINVGTFSKAYGVQGAYIAASATIIDYLINRCRSLIYTTALPPAFIAGINEAFDISIKEKERRIHLLEISKYFKESLIKTGYNVSETNSQIIPVLFKSNISTIKLGEYLLANNIYVVVIRKPTVNIPRIRFSLNSLLEKEDIDKVLELLKKYKKINY;locus_tag=LOCUS_18160;gene=bioF;EC_number=2.3.1.47;note=WP_001075620.1 8-amino-7-oxononanoate synthase (Bacillus cereus group) [pid:39.1%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:4.9e-75],MGA_1825
sequence09	MetaGeneAnnotator	CDS	21158	22405	.	+	0	ID=MGA_1826;product=sugar transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011793001.1;translation=MSIGSRLTIFNTLLNLIFFYFLSFIFGIDINLSFIILIFGIFIIYYIFNIYNMEKGKYQFSDLLYSFFLNLLLVIVALLVNMKELAFVFIDIFILQNIIKYFLAKFFVKKNNVIIIGKNKESEVIKRIINEKDIYNVVAELNFQEIENIEELVEKYDVERIIITENIIKESLIQKILSVKLKGVKTYNYINFFEKVEEKVLVNRINEEWFLFGRGFNILHDNFQKRLKRIFDFLLAILIFILTFPIMLVSAVIIKLESKGPILFIQERIGLGNKSFKIVKFRSMTVDAEKNGPQWAQKKDNRVTKFGKFMRKTRIDELPQLWNVIKGEMSFIGPRPERKYFIDILEKEIPYYNVRHSVKPGLTGWAQVKYPYGASVEDALRKLEYDLFYIKHQNFIFDIIIIFKTVKTVVFGKGR;locus_tag=LOCUS_18170;note=WP_011793001.1 sugar transferase (Desulfovibrio) [pid:36.5%25%2C q_cov:97.6%25%2C s_cov:89.7%25%2C Eval:9.6e-72],MGA_1826
sequence09	MetaGeneAnnotator	CDS	22448	23680	.	+	0	ID=MGA_1827;product=GumC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930608.1;translation=MQENSKVMQNEIINQNNYYEEDEIDLLDLIRVIWKRKTLIIIITVLVTIFGGIFALISKPLYKAELTFTEEKSSSSSMLSSLANSIPFGLIGGTSNNGSSSLLTILESRTFREEIVNKLGLYDYYIKYNKIELDKIEDENDKPTIYDVAKWVGNIVVVSKDEKNGIYRVEVELSDKEMVAKIANEYFTVLDNYLKEQKDDKSNLSLKYLKEQVDTVEKQINDKQAELREIEKKYKTVSILDEAKVVTEKVAELKQFIIQKENELKISKKFAGENSFEVQKIKEEIIVAKEQLNAIINGDDNLPVDIIPLRDIPQIKFELQKLEQELNVNIEVYKMLRVEYEKTKLEVLNKKSMITILDSAIDPKYPDKPNKKLIVVISFVLGGFLGIFFEFFIEFLKNIEWDKITEEKIN;locus_tag=LOCUS_18180;note=WP_164930608.1 GumC family protein (Aquifex aeolicus) [pid:26.9%25%2C q_cov:92.7%25%2C s_cov:91.0%25%2C Eval:6.2e-23],MGA_1827
sequence09	MetaGeneAnnotator	CDS	23707	26277	.	+	0	ID=MGA_1828;product=SLBB domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942486.1;translation=MKKILLFLSLSITIFAADITTTDVTTLMQANNNLNNLKKSDNIDNTDESQQQMEKLNTLQKENDKILNKEELNKEELNKEELNKEELNKEELNKEDKESNIFKRYYNEYIRNREELKMYGMDIINNSRAVKTTKTIGKDYILGMGDTININSWSDILLPDEANKNFMPILTIDNSGNLFIPNIGIIKAEGKTIAELEKDILYKANKKIKNFNIDISLKNSRTFAITVIGEINKPGIYSIDKYYNLFNILYTAGGINKNSSIRNIKIKSKEKETIVDLYDYINGNKNIEDIKINDGDIIYVPVIKEKVALYGELKKKCIYELKNEKTYEEIFKNIGAFDIFANKNLIKTKYIENLQVKVSNERLENSIKQNLISIEIGSIDKESKNSVYIYGNVVNPGEYNVDKIKDYRSLIETVGGYKKDTYLNSITLIRLKENYEKEIITFNPIDENIELKKNDTIYVYNRNDIAAKKYSNIIGAVKNPGNYEIYKNQRVLDLINFAGGIDIKENVFYKRADIYRVDEQGELNLIKFDLEKALAGDTKENIILKANDIVKIYKYEEVIKPDTVYIYGNVKEPGKIKYYKGMTLEDTIFYAKGLEKKADRNIVIARNEKIKDKISEIIVDYMKNPDFKILPNDVIFVRKDSTWQDVKTVKITGFVKYPGEYLLNDDEGINSIINRAGGFKSDAFPNGIQIKRKETQLKESRSLNLEIDDKISLEQNVFNLKVTNLKYDRELNRYKNDIKLIDGDEIYIPNRPTTVKVVGEVYAPSIIAYNENFKLKDYIDAAGGYKEKAYEKKVFIIKANGKAMKENIKKINIEAGDTIIVPKDTREKSKLDRFLDILQVSVQLLTTVLLVNTVVN;locus_tag=LOCUS_18190;note=WP_010942486.1 SLBB domain-containing protein (Geobacter sulfurreducens) [pid:23.6%25%2C q_cov:84.3%25%2C s_cov:77.3%25%2C Eval:4.7e-56],MGA_1828
sequence09	MetaGeneAnnotator	CDS	26418	27359	.	+	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLKAGGILYFENTEPREIYVLKSGRIFLKKEKGFFFYNNKINTLKVLNVGDMFGFEEIFIGIKRESRVIADIDSEILAFEDNEFSDFIKNNIEISKKMIISLSKEIRELDERIHLESKEKDELRSKTPFFDIYIYFISRGEFLKASQVLKRMMINGIEIDFVKSESKRIENFLDYSVTLEKIDLVKKYYEKSHELLIAFLKGLRHNVIYDDVLEKLLIETIDIHVAVKRESEIISELEEFIEKFQTSNRHKEMMFLLLRIYEEKKNYTKAFQVGNLLMDADLNEEEKIRFKDMITVLKEKLTLERKGEGNV;locus_tag=LOCUS_18200;note=MGA_1829
sequence09	MetaGeneAnnotator	CDS	27352	27957	.	+	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFENKKLIEKFGKNFNNGDIIFCEYEKQSKLYFIISGRVKITKIRKNEEKVLAYIGANQFIGEMAVFEDKPRTATIIAEEDTKVLEFDKDSFFEILKLAPDIAVSLVKVLSNRRYNTEKQLEIILEENSERKILRYIYEKYLNTRENEVILSLEEIKNITNLPLEEIEKYLKVYKDRGYLDLDYEKVYVRNLEWLKVRFSK;locus_tag=LOCUS_18210;note=WP_000103068.1 cyclic nucleotide-binding domain-containing protein (Leptospira) [pid:34.9%25%2C q_cov:62.7%25%2C s_cov:31.1%25%2C Eval:2.4e-16%2C partial hit],MGA_1830
sequence09	MetaGeneAnnotator	CDS	28023	29321	.	+	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIIEKLTIISIIFSMIYIVFNLKVGAIITLLFLLYIFIKKDYIYLIILILFYQSYINSDVLEKDKIYNLKIRKIGEKIEVLKINKKLSKEEYNIKTYDEINNGVFYTISKIEKKYKNIVYLDNYEIKESNLNKYRYFLYKNIEKLDLEYNTENFVKAIILGEKTSLDNSIKNKFNNIGASHILVISGFHIGLIILLLLKIAEFLKFSYRQKYFFTFILLSIYVFLVMFTPSVFRAYIMGSFILFSNIFYEKNEIRKSYCFSMILNLINNPFILRNISFQMSYIALFAIIYSYNYYNKFIGNKYFKLILLSIIIQIYLMPIFLYYFKSIYIFSFIANVVILSYAIFIIPAIFILYFINILSFNFFGILIRYIIERMYHSLYGIVTLFSKIPLMKIDIKYASTIFLMIFTYFLIFFIEYEVRKIIKSNLTKNI;locus_tag=LOCUS_18220;note=WP_011964423.1 ComEC/Rec2 family competence protein (Flavobacterium psychrophilum) [pid:23.3%25%2C q_cov:80.6%25%2C s_cov:53.3%25%2C Eval:9.7e-14%2C partial hit],MGA_1831
sequence09	MetaGeneAnnotator	CDS	29376	29900	.	+	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIVDESDILEIIEKEPIISQRKLSEKSGISLGAVNLLIKKCVKKGFIKIENLNSRTVKYILTPQGIKEKTRKTLKYIKNSYNLIIELNNKIIKLSNKHISENKTIVLLGKNDEIMEIIETTFKLNNISYDKINNIKDIEYFKNIIVYFWNTELEEKLKEKNIEYINIINDKV;locus_tag=LOCUS_18230;note=WP_012545744.1 winged helix-turn-helix transcriptional regulator (Thermodesulfovibrio) [pid:35.7%25%2C q_cov:80.5%25%2C s_cov:72.9%25%2C Eval:5.1e-16%2C partial hit],MGA_1832
sequence09	MetaGeneAnnotator	CDS	29972	31054	.	+	0	ID=MGA_1833;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107662.1;translation=MSKVALITGITGQDGSFLAELLLEKGYEVHGIIRRSSSFNTGRIEHLYIDELIKDMHIKRKINLHYGDMTDSSNLIRLIQQIQPDEIYNLAAQSHVKVSFDMPEYTADTDGIGTLRLLEAVRLLGMEKKTRIYQASTSELYGKVQEVPQKETTPFYPRSPYGVAKLYGFWITKNYRESYDMFCVNGILFNHESERRGETFVTRKITLAAARIAQGKQEKLYLGNLDAKRDWGYAKDYVECMWLMLQHNKAEDFVIATGEMHTVREFATLAFKEAGIELEWQGTGIDEKGIDKKTGQVLIEVEPRYFRPAEVEQLLGDPTKAKTLLGWNPRKTSFKELVKIMVKHDMKFVAKEDRIKKAFD;locus_tag=LOCUS_18240;gene=gmd;EC_number=4.2.1.47;note=WP_011107662.1 GDP-mannose 4%2C6-dehydratase (Bacteroides thetaiotaomicron) [pid:84.5%25%2C q_cov:96.9%25%2C s_cov:98.0%25%2C Eval:2.9e-175],MGA_1833
sequence09	MetaGeneAnnotator	CDS	31220	32149	.	+	0	ID=MGA_1834;product=GDP-L-fucose synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941290.1;translation=MEKESKIYIAGHRGMVGSAIIRRLNELGYNNLVYRTSKELDLRRQSDVEKFFEEEKPEYVFLAAAKVGGIHANNTYPAEFIYDNLMIETNIIHSAYKAGIKKLLFLGSSCIYPKFANQPIKEEELLSGYLEPTNEAYAISKITGIELCKFYRRQYGVDFISAMPTNLYGINDNFDLETSHVMPALIRKFHEAKVNGDKEVVMWGTGKPRREFLYVDDLADALIHLMNNYSDEIHVNMGTGEDIEIRELAEIIKKVVGYEGKIVNDTSKPDGTPRKLLDVERLHATGWKHKVELEEGIKKVYEWYLREYE;locus_tag=LOCUS_18250;note=WP_010941290.1 GDP-L-fucose synthase (Geobacter sulfurreducens) [pid:65.9%25%2C q_cov:98.7%25%2C s_cov:97.1%25%2C Eval:2.8e-120],MGA_1834
sequence09	MetaGeneAnnotator	CDS	32142	33434	.	+	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRGLNKKIKNSVFFALIEQGISVIFGFLSTYLIIKYIDRKIYGIYNYVLSFMVLINFINIVPANYMFKLKNNLKDEEELNVYITSFFVFEIIKGIFIFILNVILGIVLYLKFLNGIYLFIAIMSNGVLFFINQMIAVSRMVLNINFLQKKITKYRIKSTILKLLLLLLLLVFPKLEIVILANLFSQLFFGIMLYKILVTDIKFHFSKLDNKIIYKKNKQSIRNYTLTTHLLGVVSNIIYRIDPLILSGFVTMTTLGRYSVALNLGNYFMIIFQVLQNNASIALANISDEVEENTVISKFLTLSVVLSIIQYALFILFGKIFLSFFIEVKEITEIYNYMKYILLGLSIYNSMIVLGSYIALRNDPKILLLNVAIPTGIFSIIIYFGGAVIGGAVGVAVGNIIAYIFFSTLLIREVRKTNFKFILFNKYRR;locus_tag=LOCUS_18260;note=MGA_1835
sequence09	MetaGeneAnnotator	CDS	33439	34314	.	+	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISAIVMVKNEEEYIGYSIMSMYKYVDEILVVDGGSTDGTVEIINEIIAKYDLDKKIVFWEDLRPKKELIHVRTDMVKKCKGEWILRLEGDEVYSDFNAKQVRNFVKKKLRNSNVKSIGWPYHFFVDNLKTKVPVGEPHTFATIMIKNEEGIHAEHHYRDGKSETFYDEGWFDKDRKEVSIWHPYDNRILVSRNIAIHHYAFFKSTTRHNEYAEKCLKESFEKSHPQVFKRYDFKPLMKSERSREIIREIESNVENEKDGLSIKEILRNNILDLKDNLKRRLKYYKGEKI;locus_tag=LOCUS_18270;note=WP_010966580.1 TPR domain-containing glycosyltransferase (Clostridium) [pid:31.8%25%2C q_cov:37.8%25%2C s_cov:17.0%25%2C Eval:1.2e-08%2C partial hit],MGA_1836
sequence09	MetaGeneAnnotator	CDS	34511	34915	.	+	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLICADKAEIKIGDNVRFANGFQHIGCSNGIRIGNNVLVAAFVHINDGNHKYVDIDIPIINQGSYSKGKIKIGNNVWIGHSAHILGGVEIGDNVVIGAGAVVTRNIPPFSVAVGNPARVIKKYDKGIKKWIRV;locus_tag=LOCUS_18280;note=WP_064496715.1 acyltransferase (Methanocaldococcus jannaschii) [pid:52.2%25%2C q_cov:84.3%25%2C s_cov:51.9%25%2C Eval:3.4e-22%2C partial hit],MGA_1837
sequence09	MetaGeneAnnotator	CDS	35042	36310	.	+	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIAILGGGLSGISLYDILNRKYGIVSDIYEKNDKFGGLCRTEIIDGYVYDLSGGHVFNSKYKEVKEYIFELLDKSNWQYSERKSKIKFGSQIIDYPFEFSLSKVDKEIAADCIESLFKRNNEIKINSFKDALVKNFGEKIYEYYLGPYNEKIWKFSPADMDFDWIEGKLPFPNAREILIKTLNKDTKEEGMSHSTYYYPVAGGIQTMIDAISESIPSNNRYEGVEKIEFKDSKIYINKKEYDLVVNTIPLPELKKLILKLDENILNAIDNLKYNSVHSFLYPIDKENDYSWMYIPDKKIIPHRIVYQGNFAEENSPKGKSSITVEITKPELYTKEEMLENISNFLGLKNPIAENFTKYAYVIFDKHRKDNMSLIKDYFKNRNLILHGRFAEWEYPNMDICIKKSMNLAEFIMTESKNKMEK;locus_tag=LOCUS_18290;note=MGA_1838
sequence09	MetaGeneAnnotator	CDS	36311	37468	.	+	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLSNKNKNISKFFIYFTVFIFISKYYISTINIDILALNIINKTLMIIYYVYLFFSILIINYNKKEIFLISFLFLLMVVFRTPFSKDIFMIVTSFILIKRLKRKSYFKLICYTLLMYSILHIILYILNILPDKTLIEYEINGKVNIRKSLGFLSVNAFPLLMFFLYIGNTLRTKVFSKSNFIIILLIFIVVAFTKTRTIVLVIIIMNIIYFILKITNLKNNIIKFVLKINYFLFGLLTMYIGLTYKLNGILFLIDNILSYRLRFWKNMFSIMDSIDYLKGHDIYSLAKKMHNPIDNSYIYSIFGIGILFFLVYSILYYKLLEIMIEEKKYKEITVVTIFIVYSFVENIYFYAIFNPTFLYMIDYFITDKKGKENEGDFNNNTNL;locus_tag=LOCUS_18300;note=MGA_1839
sequence09	MetaGeneAnnotator	CDS	37434	38327	.	+	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREISIIIPTYNRAITLKKVINSYIIQKYVKELIIIDDGSKVEYKCLNKYINGLCEEKQIDYKYLRNKKNMGAAYCRNIGVKNSNYDYIFWGEDDVFLKEDYIERLVEEISENEIYCGAIIYDISLKKSLESQKSVIDKQRKSKKPIFDYKKMEGYFRVEGIKKQEIPFGHALILVPKSAYKGVKYYEGYDYNGYREESDAQVQMVQNGYKIYYNGNAVCYHMLRNEIEEKSGQHKGNWLKYEFFKLKNNFIFFNRYKSFFKIKYKNKSKIIASNYLFTLDVLKIILKKSVKSILMR;locus_tag=LOCUS_18310;note=WP_005795345.1 glycosyltransferase family A protein (Bacteroides) [pid:29.7%25%2C q_cov:38.7%25%2C s_cov:35.9%25%2C Eval:3.3e-09%2C partial hit],MGA_1840
sequence09	MetaGeneAnnotator	CDS	38331	39347	.	+	0	ID=MGA_1841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILIITPYKNYFGGVEIVNKELENIFTQEGHCVDYLTTDKKLKLNILQKVLFRIIGLPYITSLKFKKLSKKYDIIICNGEFSFGIKHPKCINVFHGSYKGYREYLSKELNWREKLSLMKLSYIQKLGSNGKIVIAVSDFIAKILKKQGIKVFKVIENGVDVNKFKPLNIEKVNEYIFVGGYRNNGYSKGFDVLEKIAQSDYKINCVTTRDPKGLLGYIGGNIENDLLPEIYNKHKMLIFPSRFEACSIVTVEAMACGLPIVISKVGIGEKLKNEIEEFVVETWNSEDYIKKIEKINKNYKYYSKLARDYAVKNYSKIKFKKNWLNLLEEINENKLED;locus_tag=LOCUS_18320;note=WP_012582745.1 glycosyltransferase family 1 protein (Dictyoglomus turgidum) [pid:29.2%25%2C q_cov:39.6%25%2C s_cov:45.5%25%2C Eval:4.3e-08%2C partial hit],MGA_1841
sequence09	MetaGeneAnnotator	CDS	39325	40902	.	+	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINWKINNNVISKLEINNENIINPFGIETADSYAFFSLEEGIGYKYKILSKNIKYDDKHYSYKIVNKMIEGLWEINGEESLNGKILNRKIELKCLEDSNFMDFVMRFRIKKEFVNKVLISDKELYYKNTNVYNQYSVKKVKLIGENFDIKITINDKIISEEMLPFIYARDNNGEWIIHVRMMPKIWHKEVIKLCNSWYKTQPINQILSKRILKNQKLKDYLWYHNERIPYKNKIMKFINPNAFPIVTLNKGTRLKWDVNFEIIEKEPNYKVSIVIPTYKRADYLERLLLSIKKQSFKDYEIIIIDDNSPNYNEYKIVIDKYSNQFNEFRFLRNKKNRGAPYSRNRGISQAKYDFIALVDDDDEWFPTKLENQIEIFKSSNKKTGIVYTWTKIFQGKELVGEYTPTKEGYLMEEILKECFIPSPSIMLKKKALIEAGLFDEKMPSCQDWDMWTRIISCGYECRVVKKFETIYHKHNRETIGKSKKTLKGYKLYYRKHWKLFAKKLKNELTLKNFVKYFLRMLRGY;locus_tag=LOCUS_18330;note=WP_010868277.1 glycosyltransferase (Pyrococcus abyssi) [pid:39.7%25%2C q_cov:43.4%25%2C s_cov:76.2%25%2C Eval:1.5e-40%2C partial hit],MGA_1842
sequence09	MetaGeneAnnotator	CDS	40903	42588	.	+	0	ID=MGA_1843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYEEIRKIIEQLLNYLSKENKNGKFPARTFYGETFTALSMLMYDKKKYNKEIEEIMEYYLNKKDKSVKDFHWEFNNYALFKIYEIENKLEYKENLFPLKFKGTNCSNWTMLRGLVKVITGKKEGLKEIRNKIKKNQLENGLIKDDKKVNSFQYHSFMLFLLIEAYEVTQKEWLLNSFIKGINFIYNITLANGDNSYIGRGQEQIFGYGPLLYSLEKAFIYTNDKKYKYLQKNVFIYLKKFIKKDGSIPLVLRASEKKYPFKININDINYLGWYGYNNYFDYLPFLTYFFVLLEQIFNEVEIEDENIDNKKDYYDGMYYIKRENVNYEAALAVPDYNGYLTNDMSFPYIIMGDKRITPMYGGEEYGSSLYSLEGIPLPNLFLNLNLREKIKEALYQLIFFKKISFLDRLKKILKIILKRNKKEEKYYFKNRLIYSLDFKGSFIGEGYFFKHRRDIEFKKNCIEIKETIISKDNLKIKEFKILNIFSLGSLQKKSKKEINSLINNKNISFEFKGLKEVRIDNKKYYCAIDEVTNISCYMEKDNLKKGEKIIFSYKINLNERI;locus_tag=LOCUS_18340;note=MGA_1843
sequence09	MetaGeneAnnotator	CDS	42591	43139	.	+	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFISNDLGREDSGGKAVSFRNLELLKKLEEYKIKVISFGEGMSSEFEIIFEVNYSKIELLFKNLFLYAGNLNKKNEKEILRFIFENKYEVVFLDCSLFGRIAKKIKKTNHNIKIITFFHNVEYFYYKERLKLDGVKYFPLVLSSLYNENLSCKYSDKLISLNERDKLILEKNTKGKLI;locus_tag=LOCUS_18350;note=MGA_1844
sequence09	MetaGeneAnnotator	CDS	43211	43702	.	+	0	ID=MGA_1845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFVGSYFFANIEGITWFVKNVMPEIEGKLYIVGKGMEKLREELSRENVEVVGGVEDLAEYYYNANFIVAPIFSGSGMKVKTAEALMYGKTIFGTKEAFEGYELEFGKIGEECNSRDEFIEKINQYINDKKIEKFNKFSRNNYLEKYSNNILKEGIKNLFKEL;locus_tag=LOCUS_18360;note=WP_008766015.1 glycosyltransferase family 4 protein (Bacteroides) [pid:27.6%25%2C q_cov:97.5%25%2C s_cov:41.1%25%2C Eval:8.5e-07%2C partial hit],MGA_1845
sequence09	MetaGeneAnnotator	CDS	43705	44793	.	+	0	ID=MGA_1846;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107288.1;translation=MKKILLVTAFPPNNKTAGQNYTKNLIKELSKENIIDIVSFSYKKHDFFDFNNKNVSYKKIIKNNIFTKIMGSFKFLLLFPFFTSRFSFRVLIYILKNLNEYDYIYLDFSQVFIYGLFIKNKIKFLMAHDIIIQKYKRKSKNFFLKYWVKYSENLVLKAKDSNILCFSNKDLNLLNLEYNLSGNKVDFFIEKEIQNQEIKEVEDYFCFYGAWGRKENLESLKWFEENIRYKLDFNIKIIGGGLKEDYKKILKDKGFEILGFVDNPYEILNKSKGLIAPLFNGAGVKVKVIEALACGTPVIGTEVALEGIELQNKFINKINSFEDIKKAIENLKFLKVEDKKELKIFFNRNYGKNKFIDLIKEC;locus_tag=LOCUS_18370;EC_number=2.4.-.-;note=WP_011107288.1 glycosyltransferase (Bacteroides) [pid:36.3%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:1.2e-56],MGA_1846
sequence09	MetaGeneAnnotator	CDS	44795	45616	.	+	0	ID=MGA_1847;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011107719.1;translation=MITASIVTYHNNKEELKKAIYSFLNTDLEVKLYISDNSSNKDIKQLCSDSRIEYIYNNINLGFGKAHNIVIEKAMKEGSKYHLILNPDIYFNNGVIENLTKYMENNKDVGLVMPRVLYPNGDIQRLCKLLPTPMNLIGRKFIPIKSLLEKLDYKYEMQFTDYNTEMEVPYLSGCFMFIRTSIFKEVGCFDDNIFMYLEDTDLSRRINEKYKTMYYPKVTVYHKFEKGSFKNKKLLIYHIKSAIYYFNKWGWFFDKKRKEINKEILNKNNYKKI;locus_tag=LOCUS_18380;note=WP_011107719.1 glycosyltransferase family 2 protein (Bacteroides thetaiotaomicron) [pid:54.5%25%2C q_cov:93.0%25%2C s_cov:93.7%25%2C Eval:3.1e-80],MGA_1847
sequence09	MetaGeneAnnotator	CDS	45737	46903	.	+	0	ID=MGA_1848;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000704802.1;translation=MKIAVAGTGYVGLSIAVLFAQNHEVIALDVIKEKVDMINNKKSPIVDKEIEEFLATKNLNLKATLDKEEAYKDAKFVVIATPTNYDEKKNYFDTSTVESVIKDVLKINKKAVMVIKSTIPVGYVEEVKEKYGIDNIMFSPEFLREGKALYDNLYPSRIIVGEQSERAREFAELLKEGAIKKDMPILFTNATEAEAIKLFANTYLAMRVAYFNELDTYAEVRGLNTKHIIDGVGLDPRIGTHYNNPSFGYGGYCLPKDTKQLLANYDNVPSNIIKAIVDANTTRKDHIAEMILAKNPKVVGIYRLTMKKDSDNFRASSIQGVMKRIKAKGIEVVIYEPVLKEDSFYNSRVINDLEEFKKISDVIVANRFEEELKDVEEKVYTRDLYRRD;locus_tag=LOCUS_18390;gene=ugd;EC_number=1.1.1.22;note=WP_000704802.1 UDP-glucose 6-dehydrogenase (Escherichia coli) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-166],MGA_1848
sequence09	MetaGeneAnnotator	CDS	47022	47885	.	+	0	ID=MGA_1849;product=glucose-1-phosphate thymidylyltransferase RfbA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877393.1;translation=MKGIILAGGSGTRLYPVTKAISKQITPIYDKPMIYYPLSVLMLAGIKDILIISTHRDLPVFKELLGSGKDFGVNFSYKVQEHPNGLAEAFIIGEDFIGNDTCALILGDNIFYGHGLTGMVKEAASRTKGATIFGYPVKNPKSFGVVEFDKNGKAISLEEKPENPKSNFAIPGLYFYDNTVVEKAKKVKPSSRGELEITTLNEMYLKEKTLNVINFGRGMAWLDTGTHDGLLDAANFVSTVQKRQGVMVACPEEIAYNNGWIGKEKVEELAKPLMKTHYGKYLMELIR;locus_tag=LOCUS_18400;gene=rfbA;EC_number=2.7.7.24;note=WP_010877393.1 glucose-1-phosphate thymidylyltransferase RfbA (Methanothermobacter thermautotrophicus) [pid:66.7%25%2C q_cov:99.3%25%2C s_cov:97.6%25%2C Eval:5.1e-113],MGA_1849
sequence09	MetaGeneAnnotator	CDS	48011	49723	.	+	0	ID=MGA_1850;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948373.1;translation=MKKIAYGISNFKTIIEDGYYYVDKTKYIEMLENLNERYLIFLRPRRFGKSLFISLLEYYYDINYKENKLFDEFYIGNNPTKLKNSYYILKFNFSGINTKIEKETLEGFRTKVINGIKEFLIKNKFKMKIDEEKTATEIMSTFLTEVRALIDGKIYILIDEYDHFANELLGFNYNFYQNSVSSNGFVRKFYEVIKDGTGTGIVDRLFITGVSPITLDSMTSGFNIGSDITLDSDFNEMMGFTEEEVKKLANATIENYDIDANIDRLRDYYNGYKFNKKCKNRVYNSDMVLYYMSYYQKNKEEPENIIDNNILSDYRKIGKLFEIGGRNNERIKILKEIVMGIEQEVVISSRFNLEIEFNLDDFKSLLFYMGLMTIKRVDEFGAVYIGVPNYVIRELYFEYFNKIIEEEADFKIDDSKIREAILEIARDGKIDKLIKLTENILHKLSNRDFIKFDEKYVKVIMLMYLYKSNLYFTKSEYEVEDGYIDIVLKKGTIGQPRYYGMFELKYISKKDYTEDLLKKKLEEAKEQLMKYKESEELRSMNNMKKWALVFVGSECKGMECISDNMKKDIM;locus_tag=LOCUS_18410;note=WP_011948373.1 ATP-binding protein (Clostridium botulinum) [pid:39.6%25%2C q_cov:97.2%25%2C s_cov:98.8%25%2C Eval:1.3e-101],MGA_1850
sequence09	MetaGeneAnnotator	CDS	49863	50456	.	+	0	ID=MGA_1851;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965628.1;translation=MEVFKISKFNKIETGIKDLVIIEPTVFGDNRGFFMESYSKRDFSEIGLNMEFVQDNHSKSKKGVLRGLHFQTKHTQGKLVRVIAGSVLDVAVDLRKDSKTFGKWYSVLLTAENKRMFYIPEGFAHGFLTLEDNTEFQYKCTDYYAPEYDSGIIWNDKEIGIDWELEKYGIKEEELSLSEKDKNQQTFKEFIKSGVIF;locus_tag=LOCUS_18420;gene=rfbC;EC_number=5.1.3.13;note=WP_010965628.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Clostridium) [pid:58.7%25%2C q_cov:93.4%25%2C s_cov:97.3%25%2C Eval:2.5e-58],MGA_1851
sequence09	MetaGeneAnnotator	CDS	50527	51372	.	+	0	ID=MGA_1852;product=dTDP-4-dehydrorhamnose reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015768.1;translation=MILLTGANGQLGTDFKKIFDKIGIKYIATDYTELDITNKLAIEKFVKGKEIEIIINCAAYNDVDKAEVEKDKAYTLNCYAPQNLAKIARQIDAVFLTYSTDFVFDGKKDIPYTEKDIPNPLSVYGMSKYDGEKAVLDTYEKSFVIRTSWVFGIGNNNFNTQVINWSKSKNELNIVDDQVSVPTYSYDLAQFSWELIKINKFGLYHISNNGIASKYDQAKYVLDKIGWKGKLGRAKTADFNLPAKRAKYSKLDSKKVEKIIGKNIPTWQNAIDRYLVELYNK;locus_tag=LOCUS_18430;gene=rfbD;EC_number=1.1.1.133;note=WP_011015768.1 dTDP-4-dehydrorhamnose reductase (Fusobacterium nucleatum) [pid:51.9%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:3.0e-78],MGA_1852
sequence09	MetaGeneAnnotator	CDS	51396	52988	.	-	0	ID=MGA_1853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNISYKKMFLFMFFISLFSFLPNINIEDADIMEARNFTTAREILSENNWLIPTMNGEIRITKPPLPTWITTLGFLGNHKENLGLLRIPTVFTTIFMIFLFFYFVLTLTQNKDLSFISSIVLATSFLIFKMGRTASWDIYTNVFIVGCLFYLLKSIEHIKYSFIAGIFLGFSIMSKGPVSLYAVFLPFIISYTIIYNINFKKINYKKIIIFIITSLIIGGSWYFYIFFLHTDITLKVAQVESTAWLTKHTQPFWYYFHFPIFSGIWFVLGIGALFKKNMEKFVVDIKTYRFSLLWMLISFVLLSILPEKKERYLIPVVIPMALLIGQFIYSAFLNINKNSKFINNILKIHSTIIIIFSIYIPILLFTKNYYNLNIFYIIFLTICYIIFIILFLKNFKQLDIKKLFIYTLVFMLFSNIFFAPFYLKNIMFKHNRKYQALRDVKKTDYLDNIKIYSFHQPGIRNVWNIGHKIKMINKSELDNLKFPLCIIYYDYEKDEVENLLSSYIILDKKTFYFSNTSNTELNLVKIIKK;locus_tag=LOCUS_18440;note=WP_008661302.1 glycosyltransferase family 39 protein (Bacteroides) [pid:37.3%25%2C q_cov:62.1%25%2C s_cov:60.2%25%2C Eval:1.1e-62%2C partial hit],MGA_1853
sequence09	MetaGeneAnnotator	CDS	53003	53269	.	-	0	ID=MGA_1854;product=lipid-A-disaccharide synthase N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389676.1;translation=MNNFWLKIGFLGQFMFTMRFVVQWLVSEKNQKSTIPFAFWIFSILGSLLLLSYAIHKKDPVFILGQSFGIIVYIRNIMLMKKYKNNRK;locus_tag=LOCUS_18450;note=WP_011389676.1 lipid-A-disaccharide synthase N-terminal domain-containing protein (Rhodospirillum rubrum) [pid:54.9%25%2C q_cov:93.2%25%2C s_cov:80.4%25%2C Eval:5.8e-22],MGA_1854
sequence09	MetaGeneAnnotator	CDS	53272	53976	.	-	0	ID=MGA_1855;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943189.1;translation=MEISVIIPVYNEKDNIKPMIEKVENALKKQFKNYEIIYVNDGSTDGSEEILNSIAKTNKNVKVFHFTENNGQTAALAAGFEKCNGDLVVTMDGDMQTDPEDIYVLLPYIKEYDVVNGKRATREDGFSRKLASQLGNGIRNFITNDNITDTGCPLKLFKKEVVKKFQLFNGMHRFLPTLAKIYGHSVIEVPVRHYDRQFGTSKYKTWGRALRGLKDALAVRWMKSRVLMYKIKED;locus_tag=LOCUS_18460;note=WP_010943189.1 glycosyltransferase family 2 protein (Geobacter sulfurreducens) [pid:43.4%25%2C q_cov:96.2%25%2C s_cov:95.4%25%2C Eval:1.4e-51],MGA_1855
sequence09	MetaGeneAnnotator	CDS	54157	55170	.	+	0	ID=MGA_1856;product=GDP-mannose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403393.1;translation=MVKTYLITGGAGFIGSHLIEYLLKEGNKIINIDNFNNYYDINIKIRNVLESTNKYDKKVEKLEELKSVVDSENYKLEIIDIINKEELNRVFKENKIDIVINLAAMAGVRPSLENPQLYEEVNIKGFMNILEMCKKYNIKKVIQASSSSVYGNNKRVPFKEIDIVDFAISPYAATKKACEVMGHVYYHLYNIDMIQLRFFTVYGPRQRPDLAIHKFTRLITEGKEVPFYGDGTTERDYTYIEDIIDGITKAIKYIEKKEKVYEIINLGESQTISLKEMLETLEEELGKKAKLKKLPMQLGDVKRTNADISKAKELLGYNPKTNFKEGIQKFVQWYKKS;locus_tag=LOCUS_18470;EC_number=4.2.1.47;note=WP_011403393.1 GDP-mannose 4%2C6-dehydratase (Salinibacter ruber) [pid:44.1%25%2C q_cov:97.9%25%2C s_cov:95.7%25%2C Eval:2.8e-71],MGA_1856
sequence09	MetaGeneAnnotator	CDS	55232	56464	.	+	0	ID=MGA_1857;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015738.1;translation=MKTYLITGGAGFIGANFVKYMLKKYNDINIIVLDKLTYAGNLGTIKKELNDNRVKFVKGDIANRELIEYIFANNNINYVVNFAAESHVDRSIENPKLFLETNIIGTQNLLDVAKAHWVIGKNEKGYPIFRDNVKFLQVSTDEVYGALDRDFPDGKLLIEEKKLTIDNGLSLEELNKVLKDREVIPKIFGKKFFTENTPLDPRSPYSSSKAGADMIVRAYNETYHMPINITRCSNNYGPYHFPEKLIPLMIKNVLEGKKLPVYGDGKQVRDWLYVEDHCKGIDMVINGGKIGEIYNIGGFNEEQNINIVKLIIKIIRELIEENTEYEKILKIEKENINEELITYVQDRLGHDARYAIDPSKTVKELGFYPETPFTVGIRKTIKWYLDNQEWVKEVVSGDYQKYYEKMYESR;locus_tag=LOCUS_18480;note=WP_011015738.1 dTDP-glucose 4%2C6-dehydratase (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-157],MGA_1857
sequence09	MetaGeneAnnotator	CDS	56605	57144	.	+	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIKGLFFVVLIFIGISIDKYLNNNYEKEKNEKKLLFQEKVIPIEKIDINIATKEEFLEKGISLSKYEKIKEYIEIVGGIEKIDNLITIKGFGKKTIEILKEKFYTKRNIKRKKIYINKATEKELLYFGFTKKEIEKIKKYKKENKMVYSNLDLLKILEKDRYIQFKDYILYTKYN;locus_tag=LOCUS_18490;note=MGA_1858
sequence09	MetaGeneAnnotator	CDS	57156	57884	.	+	0	ID=MGA_1859;product=site-2 protease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164930880.1;translation=MKDFLEEIKRNNPNIPKITKYIYLGILGLIGLLIINSIIKNPLILAQILVLIISVSLHELAHGYIAYKFGDPTAKIAGRITLNPIKHIDLLGLLVPVLLIFSGAPFVIGWAKPIPVSYKILKDNKKAYFSVAIAGILTNLILVFLVATIIKFVSLNIVLANIMFYMIQINLILAIFNLIPIPPLDGSKILESFLDYRGKLYLQNIEKYGFIIIIVLLYTGMLERLMMPIYNLFLIIIKIYIN;locus_tag=LOCUS_18500;note=WP_164930880.1 site-2 protease family protein (Aquifex aeolicus) [pid:45.0%25%2C q_cov:78.9%25%2C s_cov:97.2%25%2C Eval:1.2e-42],MGA_1859
sequence09	MetaGeneAnnotator	CDS	58136	58744	.	+	0	ID=MGA_1860;product=trimeric intracellular cation channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775326.1;translation=MLFVFNIIGVIAFAISGALKGLKHELDIFGIIVLGGITAVGGGIIRDIILNKIPIIFMNELDIYIAISSAIITYTVGKKLEFFSLYVKIFDAIGLATFVVIGSKIALNNNMSILGTGILATLTGVGGGVVRDILVKEIPFILKEDIYATLCFFGGMIYWVINKKFYTEDDLVYNMMFIFIIFIFRILAIKYNLNLPKRKIES;locus_tag=LOCUS_18510;note=WP_012775326.1 trimeric intracellular cation channel family protein (Streptococcus suis) [pid:42.6%25%2C q_cov:98.5%25%2C s_cov:97.3%25%2C Eval:1.9e-37],MGA_1860
sequence09	MetaGeneAnnotator	CDS	58861	59970	.	+	0	ID=MGA_1861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNILIVEDIAAARTLYKKALETEKYLITDTDRGMEAIRILKAKKVHYDLVILDIRLPDINGNEVLKQIREFEKDIPVLVLTAFSDKDMVIDMVNYGVNDYLIKPISIQKLRERVFQVLEGRKKDIITIKGKRTPNRKKEIQESNYLWTKETICPICGTKFESYNYKNKSQKLIKIETDFHEVYEKFDPIIYDIYVCPHCFFSAKPSEFNTLELKEIRALSKVTRESKYNFYELRDIDMGLESYQLLLKCYKLYKKITKSEYANIYIKIAWLYRDKKDNNNEKKYLELALKEYEKRYNLGERIEGKDGELKLKYMIAEISNRLEHYEKAMKYFREILQDKKYKEEKIYEKAQIQLQNMLEKRKKEKGD;locus_tag=LOCUS_18520;note=WP_004081295.1 DUF2225 domain-containing protein (Thermotoga) [pid:31.3%25%2C q_cov:51.8%25%2C s_cov:88.1%25%2C Eval:3.0e-21%2C partial hit],MGA_1861
sequence09	MetaGeneAnnotator	CDS	59973	60548	.	+	0	ID=MGA_1862;product=IMPACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015911.1;translation=MNTVEKECIIEFEEKKSKFIGYIKPISTKKEAEDFIKSIKIKHNNATHNVPVYRVIDNGKEYFKFDDDGEPSGTAGKPMAEIINLKEIYNVVIVATRYFGGIKLGAGGLVRNYAKTAKLAIEEAKIIEYIEKVEIIIDFPYNISGEIDRIIISNDIEILEKTYDARITFKIRVDKVKESLFNNIKDVIVIK;locus_tag=LOCUS_18530;note=WP_011015911.1 IMPACT family protein (Fusobacterium nucleatum) [pid:48.4%25%2C q_cov:99.5%25%2C s_cov:95.9%25%2C Eval:1.2e-51],MGA_1862
sequence09	MetaGeneAnnotator	CDS	60651	60857	.	+	0	ID=MGA_1863;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002851603.1;translation=MKKGIHPEYKDVKVSCSCGNEFETKSTYSKGDEIKVGICSNCHPFYTGKAKFVDQTGRVDKFKKKYNL;locus_tag=LOCUS_18540;gene=rpmE;note=WP_002851603.1 50S ribosomal protein L31 (Campylobacter) [pid:65.2%25%2C q_cov:97.1%25%2C s_cov:95.5%25%2C Eval:1.6e-19],MGA_1863
sequence09	MetaGeneAnnotator	CDS	60917	61540	.	+	0	ID=MGA_1864;product=uracil phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032884835.1;translation=MGVFEMNHPLIQHKLSYLRNKDTDTKIFRETLNEIAGLMTYEATKGLRLKEVETETPIMKTTTKVLADPVAIVPILRAGLGMVEGMVTFLPTARVGHIGVYRNEETLEPVYYYCKLPVDIAKSKVFLVDPMLATGGSANYAIDYLKQKGVKDISFLCIIAAPEGIERVQEAHPDVDIYAASIDEGLNEKSYIYPGLGDAGDRIFGTK;locus_tag=LOCUS_18550;gene=upp;EC_number=2.4.2.9;note=WP_032884835.1 uracil phosphoribosyltransferase (Fusobacterium nucleatum) [pid:71.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-84],MGA_1864
sequence09	MetaGeneAnnotator	CDS	61670	62137	.	+	0	ID=MGA_1865;product=D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896999.1;translation=MNILDRKEAAKLVKKLKSEGKTVVFTNGCFDILHVGHLRYLQEAKELGDILIVGVNSDKSVSKLKGPTRPINTQNDRAEMLVGLKPVDYTVIFTEDTPVEIINELKPSIHVKGGDYKKEELPETPIVEKNGGKVIILSLIQGKSTTNIVKKIQEN;locus_tag=LOCUS_18560;gene=rfaE2;note=WP_005896999.1 D-glycero-beta-D-manno-heptose 1-phosphate adenylyltransferase (Fusobacterium nucleatum) [pid:71.4%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:5.9e-57],MGA_1865
sequence09	MetaGeneAnnotator	CDS	62201	62665	.	+	0	ID=MGA_1866;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903737.1;translation=MKKVLTFSEIDTLVDKLSNIIKKNDVIALIGDLGTGKTTFVKRFAKNLGITENVKSPTFTYVMEYRDIEPALFHFDVYRICDAEEIYEIGYEDYLHNDGIVIIEWANLIESELPEEYLKIELFHKDENSRGVEIKYIGNEKREKEILEYVDFSN;locus_tag=LOCUS_18570;gene=tsaE;note=WP_005903737.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Fusobacterium nucleatum) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-47],MGA_1866
sequence09	MetaGeneAnnotator	CDS	62646	63326	.	+	0	ID=MGA_1867;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016759.1;translation=MLILAIDTSTNVASVALYDSKKGVIGEINLNIGLNHSETILAIIDNLFNITKYSKDKIDRVVVSIGPGSFTGIRVGVAIAKGIVYGKDIEIVGINELDMLSYTVSKTDKKIISMIDARKEKVFYAEYKYDKSEIKQISEYRVDFIKNIIENSKEEFIFTGDGAIKYREKILEYTNNKGIIINNSTGYSRAAILAELGIKKEAENIHKIEPYYVNKTQAELEKEKKV;locus_tag=LOCUS_18580;gene=tsaB;EC_number=2.3.1.234;note=WP_011016759.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Fusobacterium nucleatum) [pid:41.6%25%2C q_cov:96.9%25%2C s_cov:98.6%25%2C Eval:2.4e-45],MGA_1867
sequence09	MetaGeneAnnotator	CDS	63426	64268	.	+	0	ID=MGA_1868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNDIIIEKLKSFNFSKAEAQVYMTLIRYGELNGSQVSKLIGLNRGTVYTALNNLYERGAIVLLPEQTNVYRAENPKTLIENLTEKYILEYKNSAEILKKEFEKMEEKDTVKVESINLKGYMNFILKAKSLIYSAESELYIETNDNLVDFYEEFRELVEKDVDLYIRVYTNEKVIELVNEDFPESFNEIGFNDKNSKERKTMIVVDNEKALIGNGKKGDDFIATFTNNNYLVSIISDRIHYSIYLDNIVKNEGINYLKKHKINSLHEENILKKIKKYLKI;locus_tag=LOCUS_18590;note=MGA_1868
sequence09	MetaGeneAnnotator	CDS	64281	65333	.	+	0	ID=MGA_1869;product=D-xylose ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013094963.1;translation=MKNFFVLILIILSFLFILKYRKENFLKKSHKVKVGFLLKTMQEERYIKDKKYFEEAAKKYKMEVIFDSANNNERLQMEKLENMIAKGIDVLVLQPVNTGTASNMVEIAHKEGIRVVGYDSMIENSDVDVHVMQDSWKVGELQAKAMVKWFKEYRGEVKGNVALIMGQPGDSNAKAMSEGVLKVIAQNPGLKLVAKQSHENWASDKAMTTTENLMAKFNNNIDAFICNNSGLARGVIAALASYNLDSVGKIFVAGADADLVNVRYVAEGKQAIEIYKTIKPLAEKAAYAAYRLVVYKDKTNIDEILLYDRKVYNGYKSVPTIITPIYEVNKNNIDEVIIKNGFHKREDIYN;locus_tag=LOCUS_18600;gene=xylF;note=WP_013094963.1 D-xylose ABC transporter substrate-binding protein (Enterobacter) [pid:38.3%25%2C q_cov:92.9%25%2C s_cov:94.8%25%2C Eval:4.7e-53],MGA_1869
sequence09	MetaGeneAnnotator	CDS	65344	66882	.	+	0	ID=MGA_1870;product=xylose ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393517.1;translation=MKKIAVKVENIIKDFPGVRALNNISLEVKYGEVFILAGENGAGKSTLIKVISGDYDYYFGKVYIDNILRTKENKIKKIAVIRQELNLVEELSVAENIFLGRLLKNKFGIIDWERIYLKSKELLKKLSIENIDVKEKIKNLSISQRQIIAIAKALSKKTDIIIFDEPTSALSENEIKTLFKIINDLKNKGVAIIYISHKIDEYSYIGDKIAILRDGSLIGRVQNLKEITLDEIITKMVGRDISDMYPKETIDIGEKIFEVRNIFLKHPKYNDRYVVKNVSFQLKKGEILGIAGLMGAGRTQLMLSIFGAYEGEIEGEIILEKKELNIKSPKDAIENGIVMVTEDRMKKGLFLENDINFNVITVDKLLREISNKIGVLNFDRGKKLIRKYIEEIKVKVESLNIPIKNLSGGNQQKIILSKWLATNPKIIILDEPTKGMDVGAKVEIYKIINKLLKEGMSIILVSSELPELLGLSDRILVMNEGEIVTEFTRENATQKKIMAFATGNFKRGEIDE;locus_tag=LOCUS_18610;note=WP_011393517.1 xylose ABC transporter ATP-binding protein (Moorella thermoacetica) [pid:46.0%25%2C q_cov:98.2%25%2C s_cov:99.6%25%2C Eval:2.1e-119],MGA_1870
sequence09	MetaGeneAnnotator	CDS	66875	68032	.	+	0	ID=MGA_1871;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_208974840.1;translation=MNKIVSSKRKKSKKIILEKFLKKNMNWIILLIMVLFLSLVTDSFLTARNLSNLIRQSTIVGIIAVGMTGVILLGGVDLSVGSIVGLAAVTVTLLMEKGLNEWISIILTLIFVGGLIGYWNGYWISRYKMEPFIVTLGMMTIARGLALTISKNSSIPVKNENFTKIAGSYISIKWSIILLSICLLYILIEVTYYAIKKREVLKNKSYIKNTLLKIFGILLLFLIFIMYKGIPNPVAIFSVIIIISIFILNNTKFGRDIYAAGGNREAARLSGIDIDKVHMKVFIITSVLAAFSGIILASRLNGASPSLGNMMELDAITAVAIGGTSLSGGIGGTFGTLLGIFIISILNNGMSLLGLPESYQLIIKGLIITMAVWGDIVSKNKKYHK;locus_tag=LOCUS_18620;gene=gguB;note=WP_208974840.1 sugar ABC transporter permease (Moorella) [pid:35.2%25%2C q_cov:91.7%25%2C s_cov:92.2%25%2C Eval:3.0e-56],MGA_1871
sequence09	MetaGeneAnnotator	CDS	68167	68715	.	+	0	ID=MGA_1872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNELEERKKQFLKTQNEKSLYLGEYKERVIAALKKDQILEDDVYQEIIDAINTKEAYILKMSRDLELKKLKPYIEAAEKANIKYQLVDGISYIGDIGLIVAAKDALDEIKENVVIRDMDQDFIDAGLGEVFSKNRGKKICLDCYEEVEEKLPQYLDEFKKINFLDKLIGIKCPICKIKNKK;locus_tag=LOCUS_18630;note=MGA_1872
sequence09	MetaGeneAnnotator	CDS	68736	70004	.	+	0	ID=MGA_1873;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015649.1;translation=MDAYKIIGGSKLEGVLNVSGSKNATLPILAATLIAEGEYILKNVPSLKDVRTMFKLLEKLGLEVEKISKNSYKIINNGIKNIEATYDLVKTMRASFLVMGPMLSHSQKAKVSLPGGCAIGTRPVDLHLKGFEAIGAKIEISHGYVEAISEELIGNNVILDFPSVGATENIIMAAVRAKGITVIENAAREPEIDDLCNFLNKMGAKIRGIGSSRIEIEGVDKLKAVEYSIIPDRIEAGTFLVLSALSKGKVGVTDFKIEHLEGFILKLEEIGYKLNENNGVFYVKGEIEKPKPIRVQTMPYPGFPTDLQAQLMTLLCFSNGTSEIKETIFENRFMHVSELNRMGADIKIDGNIAIIKGNINFSGAEVMASDLRAGAALVIAGLLSEGETLVQRIYHIDRGYEKLEEKLKNIGANIERVKVDII;locus_tag=LOCUS_18640;gene=murA;EC_number=2.5.1.7;note=WP_011015649.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Fusobacterium nucleatum) [pid:65.3%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.9e-155],MGA_1873
sequence09	MetaGeneAnnotator	CDS	70004	70708	.	+	0	ID=MGA_1874;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015648.1;translation=MKKIIGINPVRELLIKRTKLNHIEIYNGLNENTKNELIELAKKNNTKIKKINKRYENSQGVIAYIEDYDYYIDFLELIEKMAKKDKSIILLLDGVQDPRNLGAIIRSAEIFGVDAIILPQKGAVKINETVVKTSTGAIEYVPISVVNNLSEAIDNLKKIDYIVYGADGKGETFYHEESYKGKIALVLGSEGFGMRFKTQKKCDKLIKIPMKGKINSLNVSVATGILLSEISKNI;locus_tag=LOCUS_18650;gene=rlmB;note=WP_011015648.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:1.3e-70],MGA_1874
sequence09	MetaGeneAnnotator	CDS	70724	71338	.	+	0	ID=MGA_1875;product=RNA polymerase sporulation sigma factor SigH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892548.1;translation=MTIVNEISDELIEQAKYGDAEAINEIFTQYKNFVFLKSKNYFLMGADKDDLIQEGMIGLLKAIRGYDKNKLASFKTFASICIKRQLITAIKTANSQKNIVLNNAVGIMGEKEENREVSYNRGLESYISYDPEELFLTKEQVEGLKNYLNENLSNFEKEVFRYMVMGLTYKDIAEKLNKKVKSVDNAIQRIKRKSEMWIKNYREN;locus_tag=LOCUS_18660;gene=sigH;note=WP_009892548.1 RNA polymerase sporulation sigma factor SigH (Clostridioides) [pid:47.6%25%2C q_cov:93.1%25%2C s_cov:88.8%25%2C Eval:1.2e-42],MGA_1875
sequence09	MetaGeneAnnotator	CDS	71486	74101	.	+	0	ID=MGA_1876;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015646.1;translation=MKEYNFKEIEKKWQKDWEEKNLFKTENKVEGKENYYVLEMLPYPSGNLHMGHVRNYTIGDVIARYKKMKGFNILHPIGWDSFGLPAENAAIQNGAHPEKWTASNIATMKNQLKKLGLSYDWDREIASYRDDYYKWNQWIFKKMYEKGLVYKKKSLVNWCPDCQTVLANEQVEDGKCWRHSKTDVVQKELEQWFFKITDYADELLEGHKELKGGWPDKVLTMQKNWIGKSFGTEVKFKLENSDIEIPVFTTRADTLYGVTYCVLAPEHPLVNELILKDNPSIKTEVENMMNQDMITRTAEGKEKNGVFTGKYVINPINNEKVPLWIGDYVLMNYGTGAVMAVPAHDERDFMFAKKYNLPIKVVITPIDKKTKEKIDLKAEEMENAFIDKGVLINSGEFNDLDNKIAITKIAEYLETNNFGERTIKYRLKDWGISRQRYWGTPIPVLYCEKCGEVLEKDENLPVKLPEDVKFTGNGNPVETSETFKNAICPVCGGKAKRETDTMDTFVDSSWYFLRYTDPKNENLPFEKEIANGWSPVDQYIGGIEHAVMHLLYARFFHKVLRDLGLLSTNEPFKRLLTQGMVLGPSYYSKNENRYLYPKEVELKGEKAYSKETGEELIVKVEKMSKSKNNGVDPLHIINEYGSDTARLFSMFAAPPEKELEWNENGLAGANRFLSRIWKLVIENKKHFNTKEINYSNISKVDKKVLRKLHQTIKKVTESIEDNYHFNTAIAAIMELLNDIQDYSVNVINKEESSESKKIFTELLLKTVLLLSPFAPHITQELWKEIGKITYLFEENWPEYIEKLTEEDEMNIAVQVNGKLRGTILVEKANINNKELIEKMALEVENVKKYTEDKNIIKIIVIPGKIVNIVVK;locus_tag=LOCUS_18670;gene=leuS;EC_number=6.1.1.4;note=WP_011015646.1 leucine--tRNA ligase (Fusobacterium nucleatum) [pid:69.5%25%2C q_cov:97.7%25%2C s_cov:97.4%25%2C Eval:0.0e+00],MGA_1876
sequence09	MetaGeneAnnotator	CDS	74239	75351	.	+	0	ID=MGA_1877;product=glutamate 5-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392099.1;translation=MRKIADVKNIVIKIGSSTLTYENGHLNLVRIEKIVRYIVELMNRGYKVTLVSSGAIGAGMGKLGYKNRPKTIPEKQALAAVGQVALIHLYQKFFSEYSKNVAQVLLTMDDFSNRERYINARNSMRVLLEKGIIPIINENDVIVIDEIKVGDNDSLSAYVSAIVEADLLIILSDIDGLYDDNPKENKSAKLIKTVEKIDGNIKKLAKGAGSKFGTGGMATKIKAAEICTNFGIAMIIAHGEKPYNLIDIVDGKEIGTYFKSKDKKLNHKKHWIKYSSKKEGVIYIDNGAVKAIKKHKSLLAIGIKKLEGHFEKGSSILIKDMENNEKGVGLINYSSEELSKIIGKKSDEIEEILGYKDYDEVIHIDNMYID;locus_tag=LOCUS_18680;gene=proB;EC_number=2.7.2.11;note=WP_011392099.1 glutamate 5-kinase (Moorella thermoacetica) [pid:47.1%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:6.3e-96],MGA_1877
sequence09	MetaGeneAnnotator	CDS	75362	76612	.	+	0	ID=MGA_1878;product=glutamate-5-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966528.1;translation=MSDYILNLGKKAKKASKILATMSTEIKNNILYNLAEELLKNAEYIKKENKKDLEAGQKKGLSKAFIDRLTLTDARIKSMAEGVRQIADFTDPIGKIEKGFKHKKGMSITQVRVPLGVIAMIFESRPNVTIDAGALALKSGNSIILRGGSDALYSNKVLKEIFVKAGEKYGLPEGAVQLVERTERELVQELITLNEYIDVIIPRGGKGLKKAIQANATIPMIETGAGLCHLYIDEFADKEKSIKIAVNAKAQRPGVCNAIETILINKDKLEEVLPDLEKALVEKNVEIRADEQSIKYLTKAIEATEEDWETEYLDLIISIKTVENLQEAIEHINKYGSMHSESIITENYNNAEKFLNEVDAAAVYVNTSTRFTDGGEYGFGGEIGISTQKLHARGPMGINELTSLKYIIRGNGQIRE;locus_tag=LOCUS_18690;EC_number=1.2.1.41;note=WP_010966528.1 glutamate-5-semialdehyde dehydrogenase (Clostridium) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:2.9e-124],MGA_1878
sequence09	MetaGeneAnnotator	CDS	76628	77446	.	+	0	ID=MGA_1879;product=pyrroline-5-carboxylate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009898446.1;translation=MKIAIIGCGNMGEAILAGIINSKLTARENIFIYDKNKEKEQLIGQKYLINFKKEGTIIDTIKYADYILLAVKPNIIENILGDIKTIIGNKIIISIAAGVLISTIENVIGSDKKVVRVMPNTPALIGMGMSSISINANITNEELEKTKKIINSFGKSEIVEEKLIDTVIAVSGSAPAYVYMFIEAMADGAVLHGMNRDMAYKFAAQTVMGAAKMILETGEHPGLLKDKVCSPGGTTIEAVAELEKKGLRSAVISAMEKCVEKSKKMSKKNIDK;locus_tag=LOCUS_18700;gene=proC;EC_number=1.5.1.2;note=WP_009898446.1 pyrroline-5-carboxylate reductase (Clostridioides difficile) [pid:52.6%25%2C q_cov:92.6%25%2C s_cov:94.0%25%2C Eval:6.0e-68],MGA_1879
sequence09	MetaGeneAnnotator	CDS	77557	77709	.	+	0	ID=MGA_1880;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940181.1;translation=MRVNVLLECTECKRRNYSVSKNKKNTPERLELKKYCKFDKKATVHKEVKK;locus_tag=LOCUS_18710;gene=rpmG;note=WP_010940181.1 50S ribosomal protein L33 (Desulfovibrio) [pid:73.5%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:1.9e-15],MGA_1880
sequence09	Aragorn:1.2.38	tRNA	77751	77826	.	+	.	ID=Aragorn_43;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00420;note=Aragorn_43
sequence09	MetaGeneAnnotator	CDS	77852	78046	.	+	0	ID=MGA_1881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASIRKTFKEINDEIKKVRWPKTEEIANATLLVAIISVFVSIYIGVFDLAFSKFIEKLSTIFGG;locus_tag=LOCUS_18720;note=MGA_1881
sequence09	MetaGeneAnnotator	CDS	78050	78649	.	+	0	ID=MGA_1882;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904074.1;translation=MEINGLKFEKKWYIIHTYSGYEKKVKTDLEKRIETLNLSDKVFRIIVPEEESVEMRRGKKKVVSRKIFPGYVMVEMLAEKEENNEGIGYRVDSDAWYVIRNTNGVTGFVGVGAEPIPMEDDEVHKLFAMIGLETEKKSEPKINLDYDIDDVVRIIEGSFEGSEGKVSNIDFDHKKVKVMIDIFGRMTPVEVEFDGVEKV;locus_tag=LOCUS_18730;gene=nusG;note=WP_005904074.1 transcription termination/antitermination protein NusG (Fusobacterium nucleatum) [pid:57.4%25%2C q_cov:95.5%25%2C s_cov:96.9%25%2C Eval:2.7e-60],MGA_1882
sequence09	MetaGeneAnnotator	CDS	78712	79137	.	+	0	ID=MGA_1883;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894933.1;translation=MAKEVVGKIKLQLQAGKANPAPPVGPALGQHGVNIMEFCKAFNAKTQDKMGFVIPVEISVYKDRSFSFVLKTPPASDLIKKAAGISKGASNSITEKAGTISKAKLQEIAETKMPDLNAADLESAMRMIAGSCRSMGVKIED;locus_tag=LOCUS_18740;gene=rplK;note=WP_005894933.1 50S ribosomal protein L11 (Fusobacterium) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-59],MGA_1883
sequence09	MetaGeneAnnotator	CDS	79211	79915	.	+	0	ID=MGA_1884;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015994.1;translation=MAKKRGKKYLEIAKLVDKTKLYTANEALELVTKTRTAKFVETVEVALRLGVDPRHADQQVRGTVVLPHGTGKIVKILAITQGENIDKALEAGADYAGADEYIAKIQQGWFDFDIVIATPDMMPKLGRLGRILGTKGLMPNPKSGTVTADIATAVQEFKKGKLAFRVDKLGSIHVPIGKADFEVAKLEENFKAFMAEINRLKPSASKGQYLRTVAVSLTMGPGIKIDPIVLSKEL;locus_tag=LOCUS_18750;gene=rplA;note=WP_011015994.1 50S ribosomal protein L1 (Fusobacterium nucleatum) [pid:81.0%25%2C q_cov:99.1%25%2C s_cov:98.7%25%2C Eval:2.1e-105],MGA_1884
sequence09	MetaGeneAnnotator	CDS	80076	80570	.	+	0	ID=MGA_1885;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904072.1;translation=MGMANDAKKQIVAELAEKIKASQAVIMVDYKGLSAVEADQLRKQTREAGVDYFVAKNRLFKLALKEAGIEADFEEELNGTTAFALGEDPVSPAKVIYEFGKTKGDFFNIKAGLVEGKKADVATIEALAKLPSREQLLSMVLNGMLGPVRKLAYAFNAIADTKEA;locus_tag=LOCUS_18760;gene=rplJ;note=WP_005904072.1 50S ribosomal protein L10 (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:9.9e-48],MGA_1885
sequence09	MetaGeneAnnotator	CDS	80627	80992	.	+	0	ID=MGA_1886;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005889295.1;translation=MAFNKEEFIKDLEAMSVLELKELVEALEEHFGVTASAPVAVAGAVAGEAAAEKTEFDVVLVEAGAKKINVIKAVRGITGLGLKEAKELVEAGGTIKEAVSKDEAEEVKKQLEEAGAKVEVK;locus_tag=LOCUS_18770;gene=rplL;note=WP_005889295.1 50S ribosomal protein L7/L12 (Fusobacterium) [pid:63.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-33],MGA_1886
sequence09	MetaGeneAnnotator	CDS	81199	84651	.	+	0	ID=MGA_1887;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015993.1;translation=MPHFLEFQLSSYEDFIQAKKAPNNRENKGLEQAFREMFPIESSNGDIKLEYMWYELHENEFPLNDELECKKRGKTYSASLKVKLRLVNKKAGDEIQESLVYFGEIPLMTERATFIINGAERVVVSQLHRSPGVSFNKEMNIQTGKDLFVGKIIPYKGTWLEFETDKNDFLNVKIDRKKKVLATVFLKAVEFFNTNTEILEEFFETKSLSLKEYIAKYDSREELLEVLRTKLEGSFLKEEIYDEETGEVILESEKVIDEETVNKLINLGIDEILFWEVKPEDKVLANSIIHDNSKNSDEAVLEVFRKLRPGDLVTVDSARSLIRQMFFNPQRYDLAVVGRYKMNKRLKLNLPEKQVLLTKDDVVTTVNYLKKLINGTGNTDDIDNLSNRRVRGVGELLLMQIRSGMAKMTKMIKEKMTVQEAASLTPQSLLNTRPLNALILDFFGSGQLSQFMDQSNPLAELTHKRRISALGPGGLSRERAGFEVRDVHDSHYGRICPIETPEGPNIGLIGSLATYAKVNKYGFVETPFVKVENGKALFDEIVYLAADEEEGLFIAQADTKVDENGMLEKEAVCRYGHEITHVPREKVNYLDVSPKQVVSVSAGLIPFLEHDDANRALMGSNMQRQAVPLLRTEAPYIGTGMERKVAVDSGAVVTSKVKGKVVAVDAKKVVIEDEKGKEHTYRLLNFERSNQAMCLHQKPLVDLGEEVNVGTILADGPATQGGDLALGRNILLAFMPWEGYNFEDAILISDRLRKEDVFTSIHIDEYETEARSTKLGDEEITREIPNVSEEALRNLDENGVIRVGAEVGPGDILVGKTTPKGETEPPAEEKLLRAIFGEKARDVRDTSLRMPHGSKGTVVEVLELSRENGDELKAGVNKVIRIFVAEKRKINVGDKMSGRHGNKGVVSRVLPAEDMPFLEDGTHLDILLNPLGVPSRMNIGQVLEVHLGLAMGNLNGGTHIATPVFDGASEEQIKDYLEKAGFNRNGKVTLYDGRTGEKFDNPVTVGRMYMLKLHHLVEDKMHARAIGPYSLVTQQPLGGKAQFGGQRLGEMEVWALEAYGASNILQEMLTVKSDDVVGRTKTYEAIVKGEEMPDPDIPESFRVLLKEFQSLALDVELFTDDGDVIDIDRESLKEDEITEFSLADLKKNEK;locus_tag=LOCUS_18780;gene=rpoB;EC_number=2.7.7.6;note=WP_011015993.1 DNA-directed RNA polymerase subunit beta (Fusobacterium nucleatum) [pid:78.8%25%2C q_cov:99.2%25%2C s_cov:96.6%25%2C Eval:0.0e+00],MGA_1887
sequence09	MetaGeneAnnotator	CDS	84700	88641	.	+	0	ID=MGA_1888;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904068.1;translation=MNIKKFDRIRIRLASPEKIREWSYGEVKKPETINYRTLNPEMEGLFCERIFGPTKDWECACGKYKRMRYKGLVCEKCGVEVTKSKVRRERMGHISLAAPVSHIWYSKGTPNKMSLILGISPKELESVLYFARYIVTESHESSVKVGKILTEREYKLYKQQYKTKIEAKMGAEAILKLLKTLNLGALHKELEKELEEVNSAQKRKKIVKRLKIVRDFINSGNRPDWMILRELPVIPADLRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLMDINAPEIVVKNEKRMLQEAVDALIDNGRRGKPVVTQNNRELKSLSDMLKGKQGRFRQNLLGKRVDYSARSVIVVGPSLKMNQCGIPKKMALELYKPFIMRELVKREIATNIKTAKKLVEEADDKVWDVIEDVIQDHPVLLNRAPTLHRLSIQAFEPVLIEGKAIRLHPLVCSAFNADFDGDQMAVHLMLSPEAIMEAKLLMLAPNNIISPANGQPIAVPSQDMVMGCYYMTKEKKGSKGEGKVFSNIDQVITAYQIKVLDTHSIIKVRINGELIETTPGRILFNEMLPEEARNYGVTFGKKQLKNLISDLYEKYGFSLTSELINEIKNFGYHYATFAGITVGIEDIEVPKEKPEILRKAEEEVMKIEQEYRKGKIINEERYRKTVAVWNRATDDVTDAMQKSLDEFNPVYMMANSGARGSMRQMRQLGAMRGLMADTQGRIIEIPIKANFREGLNILEFFMSSHGARKGLADTALRTADSGYLTRRLVDISHEVIVNKEDCGTHNGIEVADLVVEGNVIEKLEERINGRVLAEDLVFEGEVIAPRNTMIGKEIIKEIQAKGINKVKIRSPLTCDLEKGVCQKCYGMDLSNHQEILLGEAVGVIAAQSIGEPGTQLTMRTFHTGGVAQATEAQKDIKAEHSGIIEFRDMRLLDYNNESVVVSQSAKIIIEPDEYEIPTGSILKVKEGERVEKGTVLVEFDPYHTPIITEKNGRVEYREIYVKEIHDEKYNVIERLAVKPIEAGDITPRIVIFDNSNKKVAEYRIPYGAYLMVGENTEVKKGEILAKIIKTGSGTKDITGGLPRVQELFEARTPKGKAIVSEVGGRVRIPGKRKKNMIVVNIHSLENENDYKEYLIPAGEHIIVTDGQIINPGDKLIEGVISPHDVLAIKGLVAAQQYILEAVQEVYREQGVTVNDKHIEIIVKQMFRKVKIVDSGDSLFLEDEVIDKKTLDIENEKLISKGKRTIKYQPVIQGITKAAVNTESFISAASFQETTKVLANSAIEGKEDTLNGLKENVIIGKKIPAGTGFNAYKYIEPLVKEEK;locus_tag=LOCUS_18790;gene=rpoC;EC_number=2.7.7.6;note=WP_005904068.1 DNA-directed RNA polymerase subunit beta' (Fusobacterium nucleatum) [pid:74.8%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:0.0e+00],MGA_1888
sequence09	MetaGeneAnnotator	CDS	88739	89617	.	+	0	ID=MGA_1889;product=YicC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015992.1;translation=MRSMTGYSKIIEENEHFRISIEMKSVNNKGLNIKIKIPNFLNFLENRIKTEIGKKIHRGYIELKINFEDKRENENLYYYNRNNALSYMKILNEIEKEFSLKLENKVDMVVKYSNSINKQDIEINENEYTEFIMPVLNKVIDNINEMKQTEGERLKEYFIDLIENIKNNIKDISYLKENVVENYKNRLLEKLNNYKNEIDVKEEDILKEILIFTDRSDISEEYSRLISHLEQFLIELDSKHNYIGKKLDFILQEIFRELNTMGVKSNYYDISKLVVDCKSEVEKIREQVMNIE;locus_tag=LOCUS_18800;note=WP_011015992.1 YicC family protein (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-71],MGA_1889
sequence09	MetaGeneAnnotator	CDS	89632	89874	.	+	0	ID=MGA_1890;product=DUF370 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583796.1;translation=MGVIRIGFGNIAMKNRIIAIVSPDTAPSKRLKERAKNENLLIDATNGKKTRALIITDSNHVIMSAINPETLLGRIEKGEK;locus_tag=LOCUS_18810;note=WP_012583796.1 DUF370 domain-containing protein (Dictyoglomus turgidum) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:94.1%25%2C Eval:1.9e-20],MGA_1890
sequence09	MetaGeneAnnotator	CDS	89874	90437	.	+	0	ID=MGA_1891;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904066.1;translation=MKGRLFIVSGPSGAGKSTVTKLVRKKLNMTLAVSATTRKPRVGEVDTVDYHFYSMEKFQEAIKNNEFLEYANVHGNYYGTLKKEVEKKLENGEDVILEIDVQGGLQVKEKFPEAKLIFFKAPSVEELEKRLRGRNTDTEEVIQTRLKNSLKEMEYEKYYEEVIINNNVEESIKKLIEIIKRKEKEEK;locus_tag=LOCUS_18820;gene=gmk;EC_number=2.7.4.8;note=WP_005904066.1 guanylate kinase (Fusobacterium nucleatum) [pid:67.5%25%2C q_cov:88.8%25%2C s_cov:89.7%25%2C Eval:5.8e-59],MGA_1891
sequence09	MetaGeneAnnotator	CDS	90434	90685	.	+	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIGNKKKMYDELIEKIPNKYILTIVAGRRGRNLLRGEKPVVKVGPKSTMVQTVFKEILKDKINYVQNPPEKENKNETSESK;locus_tag=LOCUS_18830;note=WP_005894911.1 DNA-directed RNA polymerase subunit omega (Fusobacterium) [pid:50.8%25%2C q_cov:67.5%25%2C s_cov:86.3%25%2C Eval:3.7e-08%2C partial hit],MGA_1892
sequence09	MetaGeneAnnotator	CDS	90663	91661	.	+	0	ID=MGA_1893;product=FAD:protein FMN transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894909.1;translation=MRQVKANKILIIFLLILFIGCGNEVKKYEKTEFAFGTLIKIIIYEKDTKLAEKAANKAFEEIKRIDSNYNTKVENSLFYKLNNSKNKKIELDEEGKFLINKVLEVSKETDGMYDITVEPLLKLWGFYNKKNKLKVPTKEELKNTLKIVNYKNIIIEDNIIYLKNKKQTIDTGSFLKGYAIYKAREILKKEGIKSAFISALSSIELIGDKEGKKWKIGLQNPNNPSEILKILLIKDRAIGVSGDYQTYVEIDGKRYHHIISPKTGYPSDENKMLVIVSNNAFLSDMYSTALFSFNYKKIFDFISKYNNIEAFVVDKNNDIHISKGLKENIIEP;locus_tag=LOCUS_18840;note=WP_005894909.1 FAD:protein FMN transferase (Fusobacterium) [pid:50.0%25%2C q_cov:94.3%25%2C s_cov:93.8%25%2C Eval:2.8e-84],MGA_1893
sequence09	MetaGeneAnnotator	CDS	91756	93537	.	+	0	ID=MGA_1894;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017064.1;translation=MRLKFREEDVQNLLDNINIVDVVSEYVSLQKTGANYKGLCPFHQDRNPSFMISPSKNISKCFVCGKGGNPITFYKEYHKISYEEAVLELAKKYNVNIKVIGKYNKINEKNSIYYKILNEALEFYKENIFKNSGRNALDYLYKRGFSVDFIKKHNIGYSLSEWNSLYEYLLNKSYNLEDIKAVGLIKQGENGYYDTFRDRIMFPIYSVSGNIIGFGGRILEDRKDVAKYLNSPETVVFNKGKNLYGIEEKGLEIKKKNYAILMEGYMDVLRAKSFGFNTAIASLGTSLTENQAKLLKKFTSNIIIAYDMDNAGQEATERAIMLLKANNFNIKVVSYKDAKDPDELLTKFGKSKFLEAIKESKEDFQFLYEKYINLYNINDISGKKKFVEHFKEFFQNINSELEKNLYIEKFSKQIDIEIDALKSILIDKNKKNKKYRTEIKNNFIENRKIKKRDKIEEDLIRVFFLKKEYINYFKSYEFKDEEFNLIKNYLLKDNKGLKQILNSSEFSEENKKEILDIVNLNFKLSSEEEKEKFFLDTLIAFIRRELKERMKKIRKNNDTMSYFKLKIEFEKLKNIQTKDEILKFYNQYLLMID;locus_tag=LOCUS_18850;gene=dnaG;note=WP_011017064.1 DNA primase (Fusobacterium nucleatum) [pid:42.4%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:1.9e-138],MGA_1894
sequence09	MetaGeneAnnotator	CDS	93553	94758	.	+	0	ID=MGA_1895;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796886.1;translation=MREFIKNEKVLALVKKAMEKGKISYEEINEELPDSFPAEQIEKLIEGMEKQGIKIISSKDKKKKLEKENKLEKVKKLKDKIEEDEKVEEKIVEITDEDDEDFNFEEELEELEKLENDAISLGSGIDMVDEPIKMYLREIGQIPLLTHEQEIKLAKGAAEGDEYCKQQLIEANLRLVVSIAKKHTNRGLKLLDLIQEGNMGLMKAVEKFEYQKGYKFSTYATWWIRQAITRAIADQGRTIRIPVHMIETINKIKKASRIYLQETGKEATPEVLAKRLNMEMEKVKQILEMNQDPISLETPVGSEEDSELGDFVEDNKILSPYEEANRNLLKDQLSEVLKTLSDREEKVLRFRYGLDDGCPRTLEEVGKIFKVTRERIRQIEVKALRKLRHPSRRKKLEDFRS;locus_tag=LOCUS_18860;gene=rpoD;note=WP_124796886.1 RNA polymerase sigma factor RpoD (Fusobacterium canifelinum) [pid:62.7%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:9.0e-136],MGA_1895
sequence09	MetaGeneAnnotator	CDS	94860	95879	.	+	0	ID=MGA_1896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIEEIIKKKQIKQSEFEDFMEKCEFSEKEYCEIIDKIVESNVEIIRDEDNFSEKEEENIFSFSENYYTQDILNQYFHDISNYELLNKEEERNILRKAKNGDKEAKEKIITSNLRLVAKIALHYSRAGVYYLDLIQEGTIGLINAIDKFDLSKNYKFSTYATWWIKKEIIDALKKRVNMIKIPNYIFLSHKKISIFENDYLNKHNKKPEIKEIAEALNMSEEEILKVKNAIDMNMIDMKVETSKESDEHYDIKDYSTIEEIDKDMEKLLKQKKISTLLKKLNNREKKIIEMYYGLSVEGRFTFKEIGSELNISAERVRVLKERALNKLKYVGERLWEE;locus_tag=LOCUS_18870;note=WP_004081730.1 RNA polymerase sigma factor RpoD (Thermotoga) [pid:34.7%25%2C q_cov:85.8%25%2C s_cov:71.5%25%2C Eval:9.6e-48%2C partial hit],MGA_1896
sequence09	MetaGeneAnnotator	CDS	95879	96847	.	+	0	ID=MGA_1897;product=Nif3-like dinuclear metal center hexameric protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438644.1;translation=MILKDIINILEKKYPKYLAEEWDNVGLLVGNEKREIKKIQISLDVTENTIENAIRNNVDLIISHHPFIFNGIKQINTNSILGNKIIQLIKNDIAVYSMHTNLDSAKYGLNDFICKKLKVENSKIISENIVNLYKIKFEYNEKILKKLEKYNFFNKKNNVQTIEIFDTIENINKVVSLLNSFSITYELLKLENKLKLNTGLGRIYNLKKEIRLLDYIEIIKEKLDIKNVRVVYNENKFIKKIAIVNGSGMSFLKKAKKEKVDLFITGDIKYHEALDCFEEGFSLVDIGHYESEHFFNELILDDLKETKLEIIIFNDRKIFNYL;locus_tag=LOCUS_18880;note=WP_003438644.1 Nif3-like dinuclear metal center hexameric protein (Clostridioides difficile) [pid:37.0%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:2.1e-57],MGA_1897
sequence09	MetaGeneAnnotator	CDS	96861	97559	.	+	0	ID=MGA_1898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLFFIYLLLITSIFANIEKDELNFFNENQISKINKKIKNIEKERKVNIKIFILKEEPENQLIKDKKSVIILLFKKENGNIGINLKFTNDINIIDYKSEIDNLLEDLSPLIINKEYEDFIYELLANISDILIFVEKENNDAIGTIEKNKENQKIILKNILNLILILFLMIVLGFVIYTLYLFYIKSRDKTKCKDCNINMHIVDKIENKSGIIKIYECPKCKKIKQIIEKK;locus_tag=LOCUS_18890;note=MGA_1898
sequence09	MetaGeneAnnotator	CDS	97948	99444	.	-	0	ID=MGA_1899;product=4-alpha-glucanotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259705.1;translation=MEFSRSSGILLHPTSLPGKYGIGELGKEAYEFVDFLILSGQKLWQTFPLGPTGYGDSPYQCFSAFAGNPLLISLDNLKKEGLLTNDDLSVEETFDNNYIDYGKVINFKMPLLKKAYENFKSKNDTLLNSKFEIFCEENKQWLEDYALYRAVKDHFDGKCWVEWDDKDIVFRKPESIAHYTHELKDEINYRKFLQYIFFKQWSELKAYANRNGIKIIGDIPIFVAFDSSDAWSHPELFLFDEERKPVKVAGVPPDYFSATGQLWGNPLYNWDYIKEHNFEWWINRVKANLKLSDIIRIDHFRGFAAYWAVPANEDTAINGEWVPAPGKELFQAIRDALGKLPIIAEDLGVITPDVEELRDYFNFPGMKILQFAFDSKDESNHLPHIYSKNTCVYTGTHDNEPIIGWYTNANPDDREFAKKYLGIKKSGYDVHWEFITAAWASVANIAISPLQDILGLGNDSRMNTPGKAAGNWQWRYIKGQLNKKLALKLKDLTKLYFR;locus_tag=LOCUS_18900;gene=malQ;EC_number=2.4.1.25;note=WP_012259705.1 4-alpha-glucanotransferase (Chloroflexus aurantiacus) [pid:51.7%25%2C q_cov:99.2%25%2C s_cov:95.6%25%2C Eval:3.3e-154],MGA_1899
sequence09	MetaGeneAnnotator	CDS	99655	100635	.	+	0	ID=MGA_1900;product=ADP-glyceromanno-heptose 6-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015772.1;translation=MIIITGAAGFIGSAIAWQLNENGRDDLILVDKLKTEEKWKNIAKRDYYDWVDREELFEYLANEEIAKEIEAVIHMGACSATTEKDMDFLMKNNYEYSKKLWEFCTRYNIKYIYASSAATYGLGEQGYNDEINLEGHKKLRPLNKYGYSKKIFDIWALKQKETPKNWVGFKFFNVYGPNEYHKGRMASMVFHSYNQAKENGYVKLFKSHNKNFKDGEQLRDFVYIKDVVSIIEYFLNNNIENGVYNLGTGKERSFYDLAYNTLVNANKNPKIEFVDMPMDLRGRYQYFTKAEINKLRKIGYTKEFYTLEEGVKDYVRNYLEKDDKYL;locus_tag=LOCUS_18910;gene=rfaD;EC_number=5.1.3.20;note=WP_011015772.1 ADP-glyceromanno-heptose 6-epimerase (Fusobacterium nucleatum) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-131],MGA_1900
sequence09	MetaGeneAnnotator	CDS	100650	101450	.	+	0	ID=MGA_1901;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627503.1;translation=MNVLLVIILSIVEGITEFLPISSTGHMILVNNFLKIGNLRKEFMDSFLVIIQLGAILSVVVYFFKELNPFVKDKDIFKEKMILWSKIVIGVLPAVVLGLLFDDMIEEYFMDSSLIVALMLILYGIIFMFIEKVIKKSKINKFDNINYSTAFIIGIFQCLAMIPGTSRSGATIMGGLLLGLTKAVAAEFSFFLAIPTMVGATLLKIVKNGLNFTLNEWGLLLLGSFLSFIIAYLSIKWLMDYLKNKSFKVFGIYRIILGIIVLLLLL;locus_tag=LOCUS_18920;EC_number=3.6.1.27;note=WP_201627503.1 undecaprenyl-diphosphate phosphatase (Fusobacterium canifelinum) [pid:58.2%25%2C q_cov:94.7%25%2C s_cov:94.5%25%2C Eval:5.4e-82],MGA_1901
sequence09	MetaGeneAnnotator	CDS	101466	102545	.	+	0	ID=MGA_1902;product=type IV pilus twitching motility protein PilT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583239.1;translation=MTMLEILQKAREEGASDIHIIAGRAPVYRIKGKIESFSEERLMPDNVKELIYSILNEEQRAKFEMDKELDFSFGIKGMGRYRANIHYQRGTIAAALRSINTEIPTIEELNLPETLNKFCELKNGIVLVTGPTGSGKSTTLAAMINKINKEQKSHIITIEDPIEYLHRHQNSIIEQREVGTDTDSFSRALKYALRQDPDVILIGELRDLETIEAALTAAETGHLVFATLHTRDAASTIDRIVDVFSHDQQQQIRLQLSNSLKGVISQQLIPKKDNSGMALAYELLVGTPAIANLIREAKTHQIYSMLETGKKYGMRTMESILRDLVSRNIIDETEMIKRLRDGSFLNSKSMSSGGWNNFY;locus_tag=LOCUS_18930;note=WP_012583239.1 type IV pilus twitching motility protein PilT (Dictyoglomus turgidum) [pid:55.5%25%2C q_cov:94.2%25%2C s_cov:94.2%25%2C Eval:1.1e-100],MGA_1902
sequence09	MetaGeneAnnotator	CDS	102563	103978	.	+	0	ID=MGA_1903;product=coproporphyrinogen III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015707.1;translation=MFSIKRNFEIREESIKEFVRILIPELLDKEIEFKLKYIADHILINTKIDNKEIEFKYKNYENYIEDQVIVMAKISLLLLMGKKYPWGGLIGVRPTKKFYTMYEIIKDVELVKKILKELYLLSEEKIELLETIFYKEQNLLDRKDNNKINVYIGIPFCPTKCKYCSFASYEIKSSIGKSYNEFVDCLLKEIEICSETLSKKKIESIYIGGGTPTTLTEEDLEKILIKINEKIDFTYLKEFTVEAGRIDTLSIKKLEIMKKYRVDRISINPQTFKEETLIKLNRYYNKDEFNKYYKIAKKLGFVINMDFILGLPGETTQDILNTLENIKKYNIENLTIHTLAIKRASHLYQENYKHIELDKVKIENKINEVLEEKKLKPYYMYRQKNTYNWGENIGYAVEGTECLFNMRTISEDQDTFGFGGGAITKKIEKIKEGIYKVNRIINPKDPNAYIKEFLDRLEKKINFFNKKSFLN;locus_tag=LOCUS_18940;note=WP_011015707.1 coproporphyrinogen III oxidase (Fusobacterium nucleatum) [pid:50.2%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:3.5e-129],MGA_1903
sequence09	MetaGeneAnnotator	CDS	103984	104892	.	-	0	ID=MGA_1904;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261350.1;translation=MRYFLTFDVGGTFIKYSLSDENANFLETSKIPTNRDGDKILTDLIKIINKYKKEYTISGLAFSLPGFIDVDKGYSITGGIIKEFYGFEFKKILEEKTGIPVEVENDANCVALAEKWRGHATNSNNFISFTIGTGIGGGIFCNGSLIRGYGFGAGEFGMQINQRKNILYNMTSSTRGGLILEYAERKGLKEEDVSGKLVYELAEKGDKDALEIIEQFYEDITIMIFNLSVVLNPEIIIISGAISAREELFKEINKRLNYITSQNFFLQKIKLPKIIRSKFINDAGKVGALYHFLEMEKNRKKN;locus_tag=LOCUS_18950;note=WP_011261350.1 ROK family protein (Aliivibrio fischeri) [pid:42.8%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:1.4e-68],MGA_1904
sequence09	MetaGeneAnnotator	CDS	104892	106310	.	-	0	ID=MGA_1905;product=6-phospho-beta-glucosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003246242.1;translation=MNFQKNFLWGSASAAYQIEGAANIDGKGPSIWDIYSNIPGNTFKNTTGEVAIDFYHKYEEDISLMKEMGLKAYRFSVSWPRILPKGKGEINPKGIEFYHKVIDKLIENNIEPILTIYHWDLPQALQDEYGGWESRKIIEDFTNYCKILYKEYGNKVKYWVSLNEQNIFTSLGYLLKLHPPKKSNMQTFINVNHIANLANAKAIEEFRKHVPNGLIGPSFAYGPTYAKSAHPKDVLAMENAQEINNFLWLDVYARGEYSPLTINLLKSIGITINFQDGDKELLKKGIPDFMGVNYYSTATYRHITRKVANEINNQKGNTVQSDVKELLTDKLFVPAKNEFVRLTDWNWVIDPDGLRIALRRITSRYNLPILITENGLGAYDTLEDGKVHDDYRIEYLKEHITAIKDSINDGCNVLGYCTWSFQDLFSWLNGYSKRYGFVFVDRDEESQKELKRYKKDSFYWYKKIINSNGEDL;locus_tag=LOCUS_18960;gene=bglC;EC_number=3.2.1.86;note=WP_003246242.1 6-phospho-beta-glucosidase (Bacillus) [pid:57.7%25%2C q_cov:99.8%25%2C s_cov:98.5%25%2C Eval:1.1e-167],MGA_1905
sequence09	MetaGeneAnnotator	CDS	106373	107206	.	-	0	ID=MGA_1906;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002389896.1;translation=MKKNKELRTKIYVYGVLVFLTVLSFIPFYIMIVNSTRSNVEITRGLSLLPGKALVKNYNILLDKIDIWRGFKNSLTIAVPFTILSAYFGSLTAYGFAVYNFKYKNFLFGFILATMMIPQQLGLIGYFELNNKLGLLDTYFPLIIPALTNTMTIFFLKQYVEQSLPKSLVEAARIDGAGEFMIFNKISLPIMMPAIATMSIFNFVGAWNNYISPLVLLFTREKYPLPVLISIVRGSAYRTNYGAMYLAIAISVVPILIAFSVLSKYIINGLTIGAVKE;locus_tag=LOCUS_18970;note=WP_002389896.1 carbohydrate ABC transporter permease (Enterococcus faecium) [pid:39.4%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:5.3e-51],MGA_1906
sequence09	MetaGeneAnnotator	CDS	107225	108109	.	-	0	ID=MGA_1907;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012582885.1;translation=MKGFFKNKENYGYLFILPFFITFLIFSLFPILYTFFLSFNYYDGLSDMEFAGLAHYKRLITDPFFWTSLYNTCKIWFWNIIPQIGVALFLAGLFTLNKVKGEGFFKAVFYFPNLVTAASIALLFNVLLDWQHGPINQILIALHFIKDPINFLNIPSYAQNTVSLIQWWMWFGQTTIILLAGMSAIPETYYEAARVDGATKMQIFFKITLPLLKPTMLYVSVTSLIGGMQLFDVPAVLTDGIGAPQNSLMTMIIFLYNQAFRYENFGYASAVAYGIFAIISVLSFIIFKYMKNDK;locus_tag=LOCUS_18980;note=WP_012582885.1 sugar ABC transporter permease (Dictyoglomus turgidum) [pid:38.1%25%2C q_cov:93.5%25%2C s_cov:93.3%25%2C Eval:1.1e-44],MGA_1907
sequence09	MetaGeneAnnotator	CDS	108226	109482	.	-	0	ID=MGA_1908;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015775732.1;translation=MKKIFRVGIVGLLLLFTFVSAFAKQKVIKVWAFSDELKTYAKDFEAAHPDIKVEFTIIPNEEYPTKLRPVLRTGKGAPDIFLGEAAYVRKWVELGMWEDLSKKFKKDIIQYENQTPEYVAKLGSDNKGHIRAVSWQATPGGFFYRRALAKQYFGTDDPAKIEEMISTPEKFIAFGEKLRDASNGKVKLLAGYGEYENIAKGRRTQGWVNSNKELVIDPALIKYMDTAKALRDKNITAKTSQWTPAWFAGFSNGEIFGYVLPTWGLHYVIKPNAGDTAGDWAIVRGPAPYYWGGTWLGIYKKSKVKKEAWEFIKMLCIDEDYQYQYAKKVGDFMSNTKVDEKLAAEAGDPFLAGQNHYEFFLREAKFIKGGLETSYDLDLNSLFGNAVLNYVNGDMTKDEAIADFKKQVKNAFPRLIVK;locus_tag=LOCUS_18990;note=WP_015775732.1 extracellular solute-binding protein (Brachybacterium faecium) [pid:23.8%25%2C q_cov:78.9%25%2C s_cov:76.1%25%2C Eval:1.6e-10],MGA_1908
sequence09	MetaGeneAnnotator	CDS	109606	110649	.	-	0	ID=MGA_1909;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860719.1;translation=MNSKKIAKLAGVSRSTVSRVINNYSNVTEETRKKVQAIIDKYGYTPDAAGRSLAGKKNKVIGLFIVDHYLKKDRYVIHDSPYLSEFISYATDIADDQDYHILVSVVTQREKYEKIRTLINSKMISGAIFVGGGAKKDELEKIINLGHKIVLIDEPLEKKYENVLHLLSENFEGGYMATEELIKNGHKKIAHITGELEKFDALERLRGYKKALEDNNIKLKNKYIAYGDFTMESGYLAIEELYEQNKNDMPTAIFVANDFMAIKVIEFLENKGFRIPEDISIIGFDNSNFTHFLAGGLTTISRSIEQLVNQSITNLINFLEKDEKKFAIDKKVKVKLIKRNTVKSITD;locus_tag=LOCUS_19000;note=WP_011860719.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:33.1%25%2C q_cov:98.0%25%2C s_cov:97.6%25%2C Eval:2.0e-40],MGA_1909
sequence10	MetaGeneAnnotator	CDS	440	2602	.	+	0	ID=MGA_1912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRKFFFIQYVKKIYNLFRKFKLNNINFSKDSIKTKITISIIPIILLILLIINIYSLNAVENSMYEKAITKTELSSNNLRELLNTKINTIKNISILLQNIDKKNLLLKLDALSKHDKKIDYFFIADKTGIALSTKSKKYNFSKEKFFLEVIKGQMFSYDTYNDDDNKTLILTSPYFYQNKLEGVIGIALNIKKLNNIVNSIILSNDGYNYIIDQYGKILIHPNNDMIGVNLRKVSNNRNYNITQNIVDAINKIIDRKKYVKYKFNNVSKYAFGNKIENYDTIQASDYSFYFISTIPSSSFYNKLNNLRINIILFTLFLSLILSSIIYLIINKVSNNIINVKNMMKEISLGNGDLSKRLIITSKDEIGELAKYFNIFIEKIENIVISTKQESKKVHKISKHLKEDMFLLLSENIEHKSNSLKYKMKNIINNIENQSISVKNIHGEITNISNIITDITNQSNSSLKISSEAANSATKGSKILTESLNNIQEIELIVNDMEKEIFSLSNESKEIAKITVLISHISEQTNLLALNAAIEAARAGEAGKGFAVVANEIKKLAALSKESTNNVDFLIKNIQSKIDNTVKIAKEGHIKIENSSKTSKKSEKILNEIIEKINLTNNSVQIIHNKTYEQNLAISKIIELINTISNNSIDIEKISKEELKIMETVIKKNIHSSKKLLHASDKLKKNVAQFKITKSNQIKIDSLKENFIPDIIYNKVTKL;locus_tag=LOCUS_19010;note=WP_011267537.1 methyl-accepting chemotaxis protein (Pseudomonas syringae) [pid:24.1%25%2C q_cov:66.9%25%2C s_cov:71.2%25%2C Eval:9.8e-36%2C partial hit],MGA_1912
sequence10	MetaGeneAnnotator	CDS	2631	3248	.	-	0	ID=MGA_1913;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475979.1;translation=MNKNIARHLLEKEAVRLNVKEPFIFVSGIKSPIYCDNRKMIAFPKERGEIVNTFIDLLKDKEYDVIAGTATAGIPWASFIADRINKPMAYIRSKKKAHGAGKQIEGAEVKGKKVIVIEDLISTGGSCITAVEACKGEGASEVEVAAIFSYEFKKAFDNFKRINTNFETITNFSTLLEVAKEDKFITEEELNIAKTWNIDPENWGK;locus_tag=LOCUS_19020;gene=pyrE;EC_number=2.4.2.10;note=WP_011475979.1 orotate phosphoribosyltransferase (Ligilactobacillus salivarius) [pid:51.2%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:1.0e-54],MGA_1913
sequence10	MetaGeneAnnotator	CDS	3241	4428	.	-	0	ID=MGA_1914;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056513.1;translation=MLLIKNAKLIGYNNLMDILINNEKIIKIDENIYGENTKIIDAKGNYTLPGMIDVHTHMREPGFTQKEDFLTGSKACAKGGITTFIDMPNTNPATIDIESLYLKRELAKKSIVNYGFHFGGSYNDNSNEIKKAKNICSTKIFMNVSTGKMLIEDDEILDNIFKTSKKISVHAEGEMVEKAIKLAIKHDKPLYLCHISTKEELKIIKKYKKEYKNIYCEVTPHHLFLTKKNKTYINIMKPELKTDEDVKALWEAIEEGVIDTIGTDHAPHLLKEKEEKITFGIPGVETSLALLITAYKNNKISLEKIIKMYSENPAKIFDIKCRGRLEEGYFADIIIVDIKNKYTLKNENIVSKCGYTSFNGWDVYGKVITTIVNGRKIFENDEFYDNRGREVDINE;locus_tag=LOCUS_19030;note=WP_011056513.1 dihydroorotase (Thermosynechococcus vestitus) [pid:35.9%25%2C q_cov:90.1%25%2C s_cov:89.7%25%2C Eval:2.6e-63],MGA_1914
sequence10	MetaGeneAnnotator	CDS	4536	5240	.	-	0	ID=MGA_1915;product=orotidine-5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435818.1;translation=MNYKEKLIVALDYDNLESAKKTIDELKDEVEIFKVGLELFLNSYGKAVDYIHSLEKKVFLDLKFHDIPNTTFAASKFAIEKDVFMFNIHASVGSETMKKVAELTKNKSQLAIAVTVLTSLTDSNLNEMFSTTKTTKEIVSQLADLAYKSGLNGIVCSPLEAKSVKEKYGKNFKTICPGVRPKWAAKNDQKRVMTPYEAIKNNCDYIVVGRPITKSDNPKEAAKLVLDEIKQAII;locus_tag=LOCUS_19040;gene=pyrF;EC_number=4.1.1.23;note=WP_003435818.1 orotidine-5'-phosphate decarboxylase (Clostridioides difficile) [pid:46.4%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:2.9e-54],MGA_1915
sequence10	MetaGeneAnnotator	CDS	5277	6191	.	-	0	ID=MGA_1916;product=dihydroorotate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787859.1;translation=MNKLKTNFCGIDMKNPIMTASGTFGWGKEYSDYFDPNVLGAIVLKGLTLEPRKGNPGTRIAETPSGMLNSIGLENPGFEHFKNITMKELEEDISTNLIVNLNGKTIEEYVELTEKIDKIDRIAGIELNISCPNVKDGGMAFGANPKIAAEVTRKVREVTKKPLIVKLSPNVTDISYIAKLVEDNGADAIAIINTLLGMAIDIEKKKPVLGNIFGGFSGPAVKPVALRIVYQVYKAVNIPILGMGGISSTKDAIEFMMAGASAVSLGTSIFTNPLLPVEVIEGLNKYCKEEKLKNISDIVGILHK;locus_tag=LOCUS_19050;EC_number=1.3.1.14;note=WP_005787859.1 dihydroorotate dehydrogenase (Bacteroides) [pid:55.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.5e-94],MGA_1916
sequence10	MetaGeneAnnotator	CDS	6191	6955	.	-	0	ID=MGA_1917;product=dihydroorotate dehydrogenase electron transfer subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765719.1;translation=MAAFLEDVKIIENICLGSRYYLLKVKSEKIIKEIKAGQFCMIKPLDNALILRRPISIHNIDKENGVLEFYYETVGKGTKELSTLKAGDIINIQGPLGEGFSINIKDKKIAIIGGGMGIAPLKELIKQVNKENKVVFIAGGRDKYAFEILKNINFKNTIVVSDDGSIGEKKNTVEKLKEILEKENINMIFTCGPHIMMEKVAEVAHKNNIYCEVSLEERMGCGTGACMGCSIETTKGMKKVCKDGPVFNSKEVIK;locus_tag=LOCUS_19060;note=WP_008765719.1 dihydroorotate dehydrogenase electron transfer subunit (Bacteroides) [pid:36.2%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:5.2e-39],MGA_1917
sequence10	MetaGeneAnnotator	CDS	6965	7408	.	-	0	ID=MGA_1918;product=aspartate carbamoyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005787546.1;translation=MELQITAIENGTVIDHIPSEKTLKIMEILSLSEYDDTITLAFNLPSKSLKKKGLIKIANKYLTEKEIEKITLIAHNITVNIIENFKVKEKLIPSLPKTIEDILVCTNPKCITNNENVKSKFYIDEKENTARCNYCEREKEIEKLSIK;locus_tag=LOCUS_19070;gene=pyrI;EC_number=2.1.3.2;note=WP_005787546.1 aspartate carbamoyltransferase regulatory subunit (Bacteroides) [pid:42.1%25%2C q_cov:98.0%25%2C s_cov:94.8%25%2C Eval:4.8e-31],MGA_1918
sequence10	MetaGeneAnnotator	CDS	7410	8342	.	-	0	ID=MGA_1919;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868442.1;translation=MYKSRKDIISLNDLTKEEIEHILDTAEYIENNPNNELLKGYIVSTLFFEPSTRTRLSFWSAAQRLGAQVLGFDSPAGTSKSKGESLADTIRMAEAYSDIIIIRHPNDGSAKLASEISKIPIINAGDGANQHPTQTLLDLYTIKKERGNLDNIKIAFVGDLKYGRTVHSLARALSHFNTTFYFVAPDNLQMPKYILKELEKLNIKYESMNNYNEILSKIDFFYMTRIQRERFPDDEEYQKVKGIYIINKEIIEKANNKNLRILHPLPRVDEIDIDLDNTIYAKYFEQAKNGVPVRQALLALSLNKLDKLGD;locus_tag=LOCUS_19080;gene=pyrB;EC_number=2.1.3.2;note=WP_010868442.1 aspartate carbamoyltransferase (Pyrococcus abyssi) [pid:54.2%25%2C q_cov:95.8%25%2C s_cov:97.4%25%2C Eval:4.0e-90],MGA_1919
sequence10	MetaGeneAnnotator	CDS	8394	11600	.	-	0	ID=MGA_1920;product=carbamoyl-phosphate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892173.1;translation=MLNKSIKKTLVIGSGPIVIGQAAEFDYSGTQACNALKEEGIEVILVNSNPATIMTDKTTADKVYIEPITVEFIEKIIEKERPDSILAGMGGQTGLNIAVELYDKGILDKYNVKVIGTSIKSIKRGEDRDLFKQAMEKIGEPIIQSKIVESLEEGEKFAAEIGYPVVVRPAYTLGGSGGGIADNPEELKNILLKGLKLSRVGQVLVEKSILGWKEIEYEVMRDGNGNCITVCNMENIDPVGIHTGDSIVVAPSQTLSDKEYQMLRTSAIKIINEIGVIGGCNVQFALNPDSFEYAIIEINPRVSRSSALASKATGYPIAKVGAKLALGYTLDEIKNDVTGKTYACFEPALDYVVVKIPKWPFDKFKEANKILGTKMMATGEIMAISSNFESAFLKGIRSLEIGQHNLVHKLASKRSIEELKKRIQKPDDERIFDLVELLRRGYFKRNLAKLTGIDIFFIEKFEWIVKLEEHLKALNLENLTPELLKDLKRKGFSDKGIAELMGIDELDIYNKRIEYKIKPTYKMVDTCAAEFEAISPYYYSTYDEFDEVEITDKKSVAVIGSGPIRIGQGIEFDYCTVHSIKALQKLGYETIIINNNPETVSTDFSIADKLYFEPLVSEDVLNIIEKEKPIGVILQFGGQTAIKLAKILDEKGIKILGTSYDKIDEAEDRERFEDLMERLSINRPKGKAIWSVKDGIKTAKILEYPVLVRPSYVLGGQGMEICYDKVNLIKYLENSFDRDPENPILIDKYLNGIELEVDAICDGEEILIPGIMQHLERAGIHSGDSITIYPTQDISKEIEEKILDYTKKIAKELNVIGMINIQFIEFKGELYIIEVNPRSSRTVPYISKITGVPMIEIATNCIFGKKLKELPYGTGIYKRADLVAVKVPVFSTEKLSNVEVSLGPEMKSTGEVLGVAKTVEEAIYKGLIASNKDYTKIGKNVLVTVKDSDKQELIDIAKRLIKLKFNLIATEGTHNFLKENGIESEIINKITEGYPNILDKLKNREIDLVINTPTKANNVQSDGFKIRRTAIEYGIEIITSLDTLNAVINILENKIHKNVQEVFDINEI;locus_tag=LOCUS_19090;gene=carB;EC_number=6.3.5.5;note=WP_009892173.1 carbamoyl-phosphate synthase large subunit (Clostridioides difficile) [pid:70.2%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_1920
sequence10	MetaGeneAnnotator	CDS	11656	12705	.	-	0	ID=MGA_1921;product=glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429883.1;translation=MKAKLILETGEVFQGKAFGYISETVGELVFNTSMTGYQELLTDPSYYGQIVITTYPLIGNYGINLEDMQSKGIKVKGFVIKEEAKLPNNFRCELSIGAFLKQNKIMGIKGLDTRYLTKLIRDKGTMKAIITTKELTQKELKEKFDNFTNEEAVKNVTCKEKYRISGIGKKVGILDFGIKENIIESFKKRECDITVFPAYTKSEEILNSDIEAIFLSNGPGDPKDIPEIIENIKKLAGKKPIWGICLGHQLLSLALGGNTVKLKFGHRGGNHPVRDLEKNKIYITSQNHGYVVDKLPKGATLTHINLNDNSVEGMKIENLNIRSVQFHPEAAPGPEETAYIFDDFLKMLD;locus_tag=LOCUS_19100;gene=carA;EC_number=6.3.5.5;note=WP_003429883.1 glutamine-hydrolyzing carbamoyl-phosphate synthase small subunit (Clostridioides difficile) [pid:61.5%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.0e-129],MGA_1921
sequence10	MetaGeneAnnotator	CDS	12747	12959	.	-	0	ID=MGA_1922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIKFKNKINILPLKIKKSFFKKKFMKYKVFKKFNFLKQYIFDINILFLIKFLLLNNLNINIGVVSTN;locus_tag=LOCUS_19110;note=MGA_1922
sequence10	MetaGeneAnnotator	CDS	13142	15697	.	+	0	ID=MGA_1923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTILFLFLIISILTFTNKLDDYKVFSTNNFEIFYPKDYEYKAIKVAYFLEKYRNNTINFVGKENNEKIKIIINDAGTYSNGYANSLDNSITIYANTPSTTTEFGYMNDWERLVSVHEFTHIAQINNMDNNYTILNKFNSYIKPNMFVPNWIIEGIAVINESKIDRFDGRLNTGYFDALINAKVNYNDFPNLLEMNYYHDSFPSGQYYLYGSKFLDFLEKKYDSKTLTSFFDKQGKNYFATSFGIFFPMFGIDNSAKKSFGKPFKDLYNEWKLYEYKNAQKYKLNKNNILINTKESDNYFSLNPYKKKIFYFKREKISNEPFDYQNRYFLIEYDTITKKENILIKLNSAPTTQMEIYNNKIYFSTNEISKNYKNFENNSIGYNKQLFSYDLNNNKLKKLYKGNFRDFTIYNNKILLSKEKKGSYGSEIIDINNKLIFSTNRFIDEILIYNNKFYLVNKKEFGSYNISMLDIKNNKLIDIINSPWHETNIKIFNNFLYYTSNKNSKINSYRYNLKNKSIEILSNNLYSAEGIILDDFLYYIALTNNGKIINKINFIPDNNKSKNTIKYFENKKEISVLNNINIYKKNKNINIENKKYLLKPYYNTLGNLELGTQDALGINKFYFKSNYSFDYIKAIYENNYFNSTKIYLSKIIDDDNSLIFTLNYNLYKNLNNFINNITLVYITDFSSNILGDTISLNKNKYDLTLKNYFNITNYGNKNTINLNIKNKYFTNKLYLNHYYNYNITNYFRGYGKINIETNKNNNYFNSLDNVFKIFKIRNGLWNPNIFIGDIYANLFFDNLLLNNNSYYSYGFELISELGMANSLLLAPKIGWAKNNDNEKEIYFGFYGEL;locus_tag=LOCUS_19120;note=MGA_1923
sequence10	MetaGeneAnnotator	CDS	15736	16944	.	-	0	ID=MGA_1924;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404919.1;translation=MNIKEGIFSAFNTLRSNKMRSFLTMLGIIIGISSVIMISTIGKGFQEGIVKNLNEISKNNIDIRIEPNPDVQIKRKDMFTEEDIDYLKTINGVDSISLIKDAYVQIDLGEDKKWIQISGGNSDILRISSMKLLYGRNIFEIDNRLKRKVVIIDDLLAKKKFGKVDVIGEKIDFITDGRKETYIIIGVIENIMKKLSETIRDDIFMAVIPYRTLKKYHNIRESGYISIRVKDINEKARVGNEALKLLERVKKNKGIYKISKELSQALESFNKILSLAALFISAVAAISLFVGGIGVMNIMLVSVTERTREIGIRKAIGAKNKDILFQFLVEALILTIVGGILGLLIGYFGAQLIGKFIKIVPILSLNIFIIAISVSSIIGIVFGVVPAIKASKLNPIEALRHE;locus_tag=LOCUS_19130;note=WP_003404919.1 ABC transporter permease (Clostridium) [pid:39.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-64],MGA_1924
sequence10	MetaGeneAnnotator	CDS	16954	18363	.	-	0	ID=MGA_1925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIFIGAIIILLAIIVVKFVKKDDKRIKNNVYVKVDSIVKKDIEEIVKAKGKVDAKEVKELYSSIVQKVKEVKYKIGDRVEKNDTLILFDNNEKERLLNEIKLLNLDIENEKINLKLLKKDINNIEILQKKYEIETKEKNLENLEMNLELLEKQKKAFSIKYDTFIKNLKEKEELFKDGGLSKDELTELRNQKIDLENEMAAKDYEIYNKNQEIENRKLEIELYKKIYDIIIKNYNTDLEKRENNIKITENNLKKYNIQLKEKEKNLEKIKGKLISPFDGVILSIRAEKNMLTDTEKPLIVLANTTNMIIKTDVPTYDIGKIKIGDMVRIKTDILENGYYNGKITKISNIAEQKQEQGYIETVVGIEILVIDKDTKLKPGYDVDIEIITNKSKNTLIVPSIDIVYDNNKKYIYIVENNKLKKVEIKTGIENLNETEIIETKLDENTKIVKNPSLDLKNNMKVNVIEN;locus_tag=LOCUS_19140;note=WP_011964490.1 efflux RND transporter periplasmic adaptor subunit (Flavobacterium psychrophilum) [pid:25.7%25%2C q_cov:42.4%25%2C s_cov:52.4%25%2C Eval:1.3e-11%2C partial hit],MGA_1925
sequence10	MetaGeneAnnotator	CDS	18376	19629	.	-	0	ID=MGA_1926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLLFIIITLNIYAQEYSINYYIQKYLESNKTIYNNNIKKMELKEKELKLRKYNNFNLSLSDYFSKDYTIKGINSHYFDLTASYGDFSYSLSIDRDIDEISSNIISYEKNILDFYNSDEKYLYNNKKIDNKIEKLNLINEKYSYIDNIINKYYDIVKLNKEIKIKQKYLKNLKKEKDLLEKKFKFGKIKKLELDLYELEYKNSQLDYELLRKDIFILKNEFYNLIRIEEDENKFNENLEYNYTLDLSDYKYTTKEILKLNKELILKQKEYYKKVEIPDLSFYTNYDIKNNGYKVGLTVSKKFNIINYNKKSSEYDYENIIINNENNLKDINSEIENIKINYNKLVLNIEKTKDKIEYKKQELKIYNKLYESGEISLIDFIKKEEELNNLDIELNNYLIEAKKIELQVEKYNKYKF;locus_tag=LOCUS_19150;note=MGA_1926
sequence10	MetaGeneAnnotator	CDS	19723	21606	.	-	0	ID=MGA_1927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKEYLEILTVDDYVELKKELNKKFEENLHLLDISGYLEILEIMLKYNKNLKLSLHHFKHFINEKSSKNLDENIKKTLKVNMNASVKDDFKTIEQHDFNEKNALIFYDIIEKKITITSNFLKVLDIPEKKYTFYSLIKELYKKIDGIKPFFMKLKNEIYNDTEKIEIFYFKNGKKLEIVYKIYEFNDYRGLLFNIKILNDYYPILNYDELTGVLKRDIILKLIEDYSKDYRNKNMAVVLINLNSFRNVNNLFGFKMGDYVLKKISERIKFTIRKGDILGRISGDEFVLLLNNYNSIVNLRMIAERLLEKISEPIILLNKSYKVTASLGIAILEENKKNINHIMEYANLALEKAKIKHGNSYQFYEDIYHKEILRELKIDRELKEAIEEDQFIIYYQPLFNSQSQKITGFEALVRWKHPEKGIVSPMEFIPIAEKNGDIIPLGNLILKKAINEMKDILEAYNLKLSINFSAKQFDSPKFTHNINDIIGETRIKSKYIELEITETAVMENLDMNIQKMKELKNLGYSLAIDDFGTGYSSLSYLRKFPVNKLKIDRSFIQNLLNDEELQKIIKYIVKIAEALKLEVVMEGIEKEEEINVLKELGCTTLQGYYLCRPQPLDILKEKIKGFL;locus_tag=LOCUS_19160;note=WP_061293285.1 EAL domain-containing protein (Clostridium botulinum) [pid:32.1%25%2C q_cov:82.1%25%2C s_cov:58.5%25%2C Eval:1.8e-78%2C partial hit],MGA_1927
sequence10	MetaGeneAnnotator	CDS	21617	22201	.	-	0	ID=MGA_1928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNSNLLILKKEDREILGKIVKNEKQKNKLKIEFVGKGTLPFIQVKDELEVGIPTKDGIYVFNSSVIYFDVIDRYIIIEYPTDIEKTNRRNYERHNIHINLEVIIEGEIYKAISSDIGGGGVGFYTAHNIEKGKTVIMNFQLGKHKYEGILGIIKSEMDTVHKNIKRYGIEYTNLEDDIREDILLKIFELNNN;locus_tag=LOCUS_19170;note=MGA_1928
sequence10	MetaGeneAnnotator	CDS	22761	23201	.	-	0	ID=MGA_1929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIDLHGLTVVQAEEIFIREYNNNLNKTIKIIHGYGSSGSGGKIRKNIRKLLEKNKEYFNYKKGEIIDGNRGYTIVYPKKRIPEKIDSLKIEILKYCMVPKTKDKIAGHFRKYKPEKILKAIKYLESNDLLEIIQKGKYKCYVKK;locus_tag=LOCUS_19180;note=MGA_1929
sequence10	MetaGeneAnnotator	CDS	23272	24006	.	-	0	ID=MGA_1930;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430279.1;translation=MNNYKMMITYDGTKYLGWQRLQKNKEKTIQGKIELTISKLLKENIEIIGSGRTDRGVHALNQVANFKTNKELDSNFLSQLNQYLPEDIRVLSFIKVNDKFHSRYNAKRKTYMYRIDNSPVRDPFMRKYAYYIDERIDIIKMKEASKIFIGEHDFITFSKKSTKKSTVRNIEFINIVKRGDFIEIYITANGFLYNMARMIAGALIQIATNKKNIKEIKDLLESKSRGEHRFVVPPHGLFLLNVEY;locus_tag=LOCUS_19190;gene=truA;EC_number=5.4.99.12;note=WP_003430279.1 tRNA pseudouridine(38-40) synthase TruA (Clostridioides difficile) [pid:48.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-59],MGA_1930
sequence10	MetaGeneAnnotator	CDS	24190	24612	.	+	0	ID=MGA_1931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKIDFYDLDIICKYKYVVLVAKYNKKLVLVKHKNRESWEIPGGHIEKNETPLEAAKREIYEETGAIKYNITPIATYSVTIKNIIDYGQLFFVEIFEFDNLPNFEIEKINLFDSLPKNLTYPDIQPILFDFVEKNIERNS;locus_tag=LOCUS_19200;note=WP_000672013.1 nucleoside triphosphatase YtkD (Staphylococcus) [pid:33.7%25%2C q_cov:67.1%25%2C s_cov:59.9%25%2C Eval:1.5e-07%2C partial hit],MGA_1931
sequence10	MetaGeneAnnotator	CDS	24619	24846	.	+	0	ID=MGA_1932;product=DUF2164 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003356897.1;translation=MKLTKDEKNKMIYEIQYFFENEREESIGIIAAEEVLDFFLESIGKIIYNKGLDDAKIYFEKRLEDLALDYELLKK;locus_tag=LOCUS_19210;note=WP_003356897.1 DUF2164 domain-containing protein (Clostridium botulinum) [pid:50.0%25%2C q_cov:82.7%25%2C s_cov:79.5%25%2C Eval:1.2e-09],MGA_1932
sequence10	Aragorn:1.2.38	tRNA	24934	25008	.	-	.	ID=Aragorn_44;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00430;note=Aragorn_44
sequence10	Aragorn:1.2.38	tRNA	25025	25101	.	-	.	ID=Aragorn_45;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00440;note=Aragorn_45
sequence10	Aragorn:1.2.38	tRNA	25110	25186	.	-	.	ID=Aragorn_46;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00450;note=Aragorn_46
sequence10	MetaGeneAnnotator	CDS	25242	25685	.	-	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLIFIILISLLLISCTNVRKATEKLTLTNIQNETEVNPQPIPKFENITEYIKPSYRKVSWDEVRRKEYLRESTHLDPKMRDIILHGDVRVGMYKEDVLASIGGTDNKIKKITDFGIKEEWIYDDKILYFENGILKDIKNIQKNN;locus_tag=LOCUS_19220;note=MGA_1933
sequence10	MetaGeneAnnotator	CDS	25696	27207	.	-	0	ID=MGA_1934;product=nicotinate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016326.1;translation=MEKEIILTDFAKVINSDRYQYTESDIYLEEGLNEKIATFDVFFRKTEDGGFAVVAGVNDVIELVRILNNTSYKEKKMYFSKILEEEKLIEFLSNLKFTGSIYAMRDGEIAYPNEPIITIKAPLIEAKILETPILNIINHQMAVATKASRVTRAAGNVPVSSFGSRRAHGFDSSINGNKAAFIGGCANHSNLVTEYKYNIPSIGTMSHSYIQTFGVGKEAEKKAFDTFIKIRKNRKKNTLILLVDTYNTLEIGIKNAIESFKENGIDDSYNGIYGIRIDSGDLAYLSKKCRKILDEAGLKKATITLTNGLDEDLISTLLKQEAAVDYFGVGDAIAVSKSNPCFGGVYKIVEIDNQPVIKLSEDSIKISNPGFKTVYRIYQNNEAKADLICLKNNDNDVKKIENNDEILIRDERDRFKKTKFKENTYTVKELNIPFIENGIFLQKNIDLINNAINCRNYYLQNLLTFSEERKRLIKPHKYKIDLSQDLYNLKYNLIDIISNQIEK;locus_tag=LOCUS_19230;EC_number=6.3.4.21;note=WP_011016326.1 nicotinate phosphoribosyltransferase (Fusobacterium nucleatum) [pid:64.4%25%2C q_cov:99.2%25%2C s_cov:99.8%25%2C Eval:2.2e-182],MGA_1934
sequence10	MetaGeneAnnotator	CDS	27386	28636	.	+	0	ID=MGA_1935;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258382.1;translation=METLALILAGGRGSRLDILSEKRVKPSVPFAGKFRIIDFTLSNCSNSGIFDIGILTQYLPLSLNEHIRVGKPWDFDRRDGGVTLLQPHSKWYKGTADAVKLNIEYIKRQNSKYVLILSGDHIYKMDYRKLINFHKEKGADLTISVQPVPIEEASRFGILEADENKKIHKFVEKPAEPKSNLASMGIYVFNTDVLIKALETTEAEDLDFGKHIIPKLIEKSNVFAYEFKDYWKDVGTYDSYLEANLDLTNTVDKIELDMYDKNWVIHTRSEERPAVKFGTKAKVTQSLISNGCIIAGEVDRCVFGPGVIVNPGAVVKNAIIFNDTVIEEGTIIDGAIIDKEVKIGKNCKIGFGEDYSANKEKPHLLSSGLNVLGKGVEVPDGTVIERNCRIFGRVKSNVFEANNKYIKTGSTLKVEE;locus_tag=LOCUS_19240;EC_number=2.7.7.27;note=WP_012258382.1 glucose-1-phosphate adenylyltransferase (Chloroflexus aurantiacus) [pid:52.3%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:4.6e-122],MGA_1935
sequence10	MetaGeneAnnotator	CDS	28639	30036	.	+	0	ID=MGA_1936;product=glycogen synthase GlgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011110443.1;translation=MKHLKILFLSSELYPLIKTGGLADVAFALPKALKKRGHDIRVILPKYKLLNSKYISKAKFITKIEFKDEIFNILKIELEGLPIYLIENRAFFERDTLYENEDRDFQFAIYNEIALRFIKEINFKVNIIHCNDWHTGVLPYFLNTKFKNDKFYQNIKTVYSIHNLRFQGVFSSSIFNYLDYPTPNHEINFMKMGIKYADKINTVSKTYAEEIKTDFFGEGLNYELLAREKDLYGIVNGIDTDVFNPETDKHIYFNYNKKSFNKKYKNKEKLQKELKLPQNKDIPLIGIVSRLTSQKGLDLIECIIEELIQTENFQMVVLGTGESRYEELFLELRHKYPEKIATVIGYNAELANKIYAGSDMFLMPSLFEPCGLGQLIALRYGTIPIVRETGGLNDTVKAYNEFTGEGNGFSFTHYNAHDMMYTIRRAIKFYNDKKVWNTLVERALSGDYSWNASAKEYEDLYKSLI;locus_tag=LOCUS_19250;gene=glgA;note=WP_011110443.1 glycogen synthase GlgA (Bacillus cereus) [pid:48.1%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:1.8e-125],MGA_1936
sequence10	MetaGeneAnnotator	CDS	30095	31297	.	-	0	ID=MGA_1937;product=FprA family A-type flavoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904352.1;translation=MHNIVKISDTVYWIGTNDRRSDRFENMWPLDKGVSYNSYCIKDEKVAIIDTVEFSTHGAYLQKIEEILDGKNIDYLIVNHMEPDHSGAIEQLIFRYPNIKIVGNKKTIGLLKGFYNIENNLLEIKEGEELSLGKHKLTFAMIPMVHWPESMITYDKTDKILFSNDAFGSFGALDGGVFDYELNIDFYEDEMRRYYSNIVGKYGMQVQMALKKLANLEFEYICPSHGPIWRDEIKNIISKYDKWSRLEPEDKGVVVVYGTMYGNTAKSANIIARKLAEEGIRNIKVFDASKTHQSYILSEIWRYKGLIIGSCAYNTSTYPAIEALLSKLKLYGLKNRYVSAFGTYAWSGGGMKGIKEFAENSKGIELVGEPHDVFCSPKIEDFEKLEQIAIEMANKIKEEN;locus_tag=LOCUS_19260;note=WP_005904352.1 FprA family A-type flavoprotein (Fusobacterium nucleatum) [pid:55.5%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:2.6e-130],MGA_1937
sequence10	MetaGeneAnnotator	CDS	31597	32460	.	+	0	ID=MGA_1938;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016426.1;translation=MNPVFLRLGPLEIRYYGLMYALSFIIGLKLAKISAKEKNISEEFIEKYVMNAIIAGLIGGRLYYVIFNYKYYFKYPLEIPAVWHGGMAIHGAIIFGFLWSIVFAKLHKVNFWIFTDIASPLLILGQAIGRFGNFMNGEIHGVPTFTPLRIIFSIKPKFYEWYNYYNSLSLSEQMNYKEIVPWGIVFPNNSPAGMEFPNTAVHPAMLYELVLNFLAFLSLWFFFKKKNYKPGVLTGIYIIEYSLIRIFVSFFRAEDLMFFDFRAPHVISFILIIFATILIITKSKKIK;locus_tag=LOCUS_19270;gene=lgt;EC_number=2.5.1.145;note=WP_011016426.1 prolipoprotein diacylglyceryl transferase (Fusobacterium nucleatum) [pid:61.4%25%2C q_cov:92.7%25%2C s_cov:92.7%25%2C Eval:1.2e-98],MGA_1938
sequence10	MetaGeneAnnotator	CDS	32600	33904	.	+	0	ID=MGA_1939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKTQNFFNEILLYSGQYALFYIIMNFSKDGFKYFNDTGHTILLLILIIQTFFLVYFGKKPIPRFLGSLIAPFFYTLVEFKIDYSFVFNLAHLFFWIFSIIIGSLQAIQLNLKNIKHKKLNEFFITFINITIFLFIYFYFDLKLELLKELNNGVIDEKTFSLKLQINYFNENLKIFLTDPAHIYIIIGGILLAISIAFGRIKILKLNEKIKYLFGIYVDSNIRDKILEDGKGISEKLEATILFSDIRNFTKTSESASPESITKMLNLYFSYWSNIAKKNNGIIDKYIGDAVMIVFKSKTSEIDAVKSAFEMLDSLENIQNILKKEKLPKLENIGIGIHKGEVIAGDIGGNNRLNYTYIGDTVNIASRLESLCKKFQSNIIISKIIFDLLPFKYKKLFIYHNNKILLKGKKEKIKICLYKIINLSYLKYYNCFH;locus_tag=LOCUS_19280;note=WP_013008044.1 adenylate/guanylate cyclase domain-containing protein (Deferribacter desulfuricans) [pid:38.1%25%2C q_cov:49.5%25%2C s_cov:32.3%25%2C Eval:2.1e-32%2C partial hit],MGA_1939
sequence10	MetaGeneAnnotator	CDS	34288	34767	.	+	0	ID=MGA_1940;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986413.1;translation=MKCTNQVKDSCFRELKDFIDSLETKKGELITVLHKAQEIFGYLPVEVQEFVSEELNIPLSEVYGVISFYSFFTTTPKGEHPISVCMGTACYVNGSEKILDELKRELGIKVGETTQDGKFSLDVLRCVGACGMAPVMLIGKKTYGRVTADEVKNILKEYK;locus_tag=LOCUS_19290;gene=nuoE;EC_number=1.6.5.9;note=WP_011986413.1 NADH-quinone oxidoreductase subunit NuoE (Clostridium botulinum) [pid:60.3%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:7.3e-53],MGA_1940
sequence10	MetaGeneAnnotator	CDS	34786	36582	.	+	0	ID=MGA_1941;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986412.1;translation=MLKTIEDLKQIKNKFLEKNNEKIQIKVSMATCGITAGADSIYEYFKDEIDRINNNKIVLISTGCMGLCHSEPTIEVTLPGQKPEIYGNVDVKKAENIFKDILYKKVKESDIIISSKQKKIVLRNCGFMDPENIDDAISKDAYFALNKVLTNMSQEEVINEIKKSGLRGRGGGGFPTGLKWEFAYKNKANKKYVVCNADEGDPGAFMDRSVLEGDPHSVLEAMAICGYAIGSDEGIIYIRAEYPLAIERLKIAIKQAEDYGLLGENIFGTNFKFKITLKYGAGAFVCGEETALIHSMEGKRGEPTLKPPFPAEAGYWEKPTNVNNVETYANITAIINKGSDWFRSIGTEKSPGTKVFALAGKVKNVGLIEVPMGTTLRDVIFDIGGGIVGNKAFKAVQTGGPSGGCLTKNELDTPIDFDTLKEQGSMMGSGGMIVMDENDCMVAVAKFYLGFTVDESCGKCTPCRIGNKRLYEILEKITDGKGTLNDLDLLKDLSNTIKRASLCGLGKTAPNPVLSTLDKFYDEYEAHVKDKKCPATVCTNLIKFTITDKCIGCTMCAKVCPTDAILGRVKEKHYIYQERCIKCGSCYNACRFNAIKKA;locus_tag=LOCUS_19300;note=WP_011986412.1 NADH-quinone oxidoreductase subunit NuoF (Clostridium botulinum) [pid:57.8%25%2C q_cov:99.3%25%2C s_cov:95.7%25%2C Eval:1.0e-200],MGA_1941
sequence10	MetaGeneAnnotator	CDS	36600	38366	.	+	0	ID=MGA_1942;product=NADH-dependent [FeFe] hydrogenase%2C group A6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868906.1;translation=METVKIKINGIEVEAPKNSTILTAAKSIGINIPTLCHLNIGSIGFINNHASCRMCVVEVNGNENLYPSCETKVQEGMEIITNSTELMHVRKTVLELLLSNHPKECLTCSKSGECELQTLAQEFKIKDIRFEGEQSTYRIDNSPAIIRDIDKCIMCRRCETMCNSIQTCNILHAVNRGFESVVAPTHEKDLEDTGCTFCGQCVAVCPVGALHERDYTWDVVEALANKKKKVIVQVAPAVRVALGEEFGLEPGTDVTGKIVSALRMMGFDYVFDTNFAADLTIMEEATELKKRVEGYLAKDPDVKLPILTSCCPAWVKFIEHNYPDMLDIPSSAKSPQQMFSVVAKEIWAKDMGVDRNDLVVVSVMPCLAKKYEASREEFSKNGNPDTDISISTRELAELIKQKGFNFTNLPDSEFDAPYGTSSGAADIFGRTGGVIEAATRTAYEWITGNELEKVDFEQLRGLEGIRIAEVPELQIEGSAFRIGIAHGLGAARELLDKIKSGEEVVHAIEIMACKGGCIGGGGQPYHHGNFEIIKKRFEGIQAIDNGKELRKSHENPYIKQLYEKHLGEPMSHKAHELLHTKYFARKKN;locus_tag=LOCUS_19310;note=WP_012868906.1 NADH-dependent [FeFe] hydrogenase%2C group A6 (Thermanaerovibrio acidaminovorans) [pid:63.7%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:5.3e-218],MGA_1942
sequence10	MetaGeneAnnotator	CDS	38539	39747	.	+	0	ID=MGA_1943;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016598.1;translation=MYNETLSVFVIQGDNMKNILIGVTGGISAYKSANIISKLKKKGYNIKVIMTKNATEIITPLTLETLARDRVVIDMWEKKSNYDVEHISLAEWADLILVAPATYNIIGKIANGIADDMLSTVISAAKAPIYFAIAMNVNMYENPILHENISKLKNYGYNFIDSDEGFLACNTTGKGRLRNEDEIIKIVETHFNYKILSGKKILITAGRTEEKIDPIRYLSNKSSGKMGYSIAKYAKELGAEVILIAGPNSQEDIKGITTIKVNTALQMYEKVFEYYSNVDTVFAVAAVADYRAKDISKNKIKKNDENLVIELVRNPDILFEMGKQKENQLLIGFCAESENLIENAYKKLEKKNLDYIIANHTTYFSSNKNKVVLIDKNKNNIEFDEANKEEIAKKLLNKIFNI;locus_tag=LOCUS_19320;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_011016598.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Fusobacterium nucleatum) [pid:56.9%25%2C q_cov:95.5%25%2C s_cov:97.5%25%2C Eval:2.9e-126],MGA_1943
sequence10	MetaGeneAnnotator	CDS	39762	40130	.	+	0	ID=MGA_1944;product=NusG domain II-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016324.1;translation=MFKKGDIFIYSFIILFFSFLITTTLKIPNYKAEKIEIYVNNQLKYTYKLTKEQKIFKIPTDIGGVKVEIVDNKVRVLTSNSPKKLVVKQGFISKAGETLIGIPDKLLIKITGERKDVDYILQ;locus_tag=LOCUS_19330;note=WP_011016324.1 NusG domain II-containing protein (Fusobacterium nucleatum) [pid:44.3%25%2C q_cov:97.5%25%2C s_cov:93.8%25%2C Eval:4.1e-23],MGA_1944
sequence10	MetaGeneAnnotator	CDS	40182	40730	.	+	0	ID=MGA_1945;product=nitroreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010940892.1;translation=MNFNQLLKERRTIREFDKEYYIKDEELKEILEAATLAPSWANSQTWRFIILRDKNIISQIADTFSPNNPAIKCTKDSNLVLVACFEKNIAGISRRNEINYNIQSEWAMFDLGLSCENISLKIHDMGLGSVIIGAYDYNKAREILNIPENIELCAFISVGKPIKKTRIMPKRKNINEIIIKTL;locus_tag=LOCUS_19340;note=WP_010940892.1 nitroreductase family protein (Geobacter sulfurreducens) [pid:30.7%25%2C q_cov:98.9%25%2C s_cov:97.3%25%2C Eval:5.0e-20],MGA_1945
sequence10	MetaGeneAnnotator	CDS	40815	41804	.	+	0	ID=MGA_1946;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005795327.1;translation=MKIAFFDTKKYDKKYFDKYNSTHIIKYFEMKLNIDSVTLAKGYDAVCVFVNDEITKEVLEKLKEFNINIVALRCAGFNNVNLKIAKALDIKIVRVPAYSPYAVAEHTIALILTLNRKIHKSYLRTREANFTLSGLTGFDLNGKTAGIIGTGKIALIVIKILKGFGMKVLAYDPYPNQEKSKELDFEYTTLNNLYKNSNIISLHCPLTKDTKYIINKNSIDKMKDGVMIVNTGRGALINTQDLINGLKSQKIGYAALDVYEEEGDYFFEDYSDTIISDDILARLLSFNNVLVTSHQAFLTEEALSNIAETTLKNFFEFENDLSLTNEVIL;locus_tag=LOCUS_19350;note=WP_005795327.1 2-hydroxyacid dehydrogenase (Bacteroides) [pid:58.1%25%2C q_cov:99.4%25%2C s_cov:97.9%25%2C Eval:8.5e-102],MGA_1946
sequence10	MetaGeneAnnotator	CDS	41867	42544	.	-	0	ID=MGA_1947;product=leucyl/phenylalanyl-tRNA--protein transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546338.1;translation=MAIYTLSKDIKYFPNPNLADETGIIAIGGDLSVERLINAYTTGIFPWYNENEPILWWSPAKRAILYPKDIHISKSMKKFLKKEIYRITYDTCFEKVISLCGATRKETWITKEIKEAYIKLFNLGIAHSVEVWDEENNLIGGLYGESLGKIFFGESMFSIKKNASKVAFINLAKNLEELNFDIIDCQVQNDYLESMGVIEINRLEYLNILENSLQKPSLIGKWNFK;locus_tag=LOCUS_19360;gene=aat;EC_number=2.3.2.6;note=WP_012546338.1 leucyl/phenylalanyl-tRNA--protein transferase (Thermodesulfovibrio) [pid:49.8%25%2C q_cov:99.1%25%2C s_cov:91.8%25%2C Eval:1.5e-55],MGA_1947
sequence10	MetaGeneAnnotator	CDS	42556	44772	.	-	0	ID=MGA_1948;product=ATP-dependent Clp protease ATP-binding subunit ClpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965130.1;translation=MRLDKYANEILSKSYLMAEEEKYEYLTPEYVMYTALNYKNMRKLLMDLGVNIQELKLDLEKYLNENTYKSENGPINSILLDNIISKATLQKASAGKDIVTYYDIFLSMYDEEESHISYFLKKQGLKRIDILNYITSIDNEKSIDYDEDEFGEDEFDEDINYLETYATNLTELAKEKKLDPLIGREEILERTMQVLLRRTKNNPLHIGESGVGKTAITEGLAQLIAKNKVPKNLKDTNIYSIDIATILAGTKYRGDFEERLKNILLELSTEEKPIVYIDEIHTLMGAGAGTNTALDASNILKPYLTSSNIRFIGSTTFDEYKKFIEKNKAFARRFQTIVVEEPSVEDSIKILMGIKSKYEKYHNVKYTDKAIEAACTLSNKYIQDRHLPDKAIDIIDETAAFYRIKNNRKITITEEHIEKIISKLARVPKEKIEENEVDRLRTLDKELEKSIFGQEQAITEIVKAIRRSRVGFNDENKPIASFLFVGNTGVGKTELAKQLANTMQIPLVRFDMSEYQEKHSVAKLIGTPPGYVGYEEGGQLIDAIKKNPHCVLLLDEIEKAHFDIYNVLLQIMDYATLTENNGRKADFKNVILIMTSNAGASDMSKNLVGFGQKTMGETSVSKAINKVFSPEFRNRLSSIVLFNDLNKDMAILVTKKEIDKLNKKLADKKIKIELSEETFEHISNKALNTKYGAREIIRYIDKDIKDWLVEKILFNEIRENQNIYINIENDKLNFKIKK;locus_tag=LOCUS_19370;gene=clpA;note=WP_010965130.1 ATP-dependent Clp protease ATP-binding subunit ClpA (Clostridium) [pid:50.9%25%2C q_cov:99.6%25%2C s_cov:99.5%25%2C Eval:1.8e-226],MGA_1948
sequence10	MetaGeneAnnotator	CDS	44772	45077	.	-	0	ID=MGA_1949;product=ATP-dependent Clp protease adapter ClpS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545154.1;translation=MSLKEKIIEKNNIKFKEPNMYNVIFFNDDYTTMEFVVEILMRVFHKSLDEANNLMLLVHNQGKAIIGKYTYDIAITKVSVTKKLAKQNGFPLRVDIEKEDK;locus_tag=LOCUS_19380;gene=clpS;note=WP_012545154.1 ATP-dependent Clp protease adapter ClpS (Thermodesulfovibrio) [pid:48.4%25%2C q_cov:92.1%25%2C s_cov:92.1%25%2C Eval:1.3e-18],MGA_1949
sequence10	MetaGeneAnnotator	CDS	45052	46263	.	-	0	ID=MGA_1950;product=FtsW/RodA/SpoVE family cell cycle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903562.1;translation=MDKKNQLSTSIPNYAIFIVIISIVILLSIFSVINIASSNLNNVLNEKSLIGFKLAFKQLIFLILSLGIVFLIVFIAPYKKLENSYIVFTIYLFTNILLIWVLFGREVNGAKRWLDIPLGFKIQPSEFAKITFIILLAKIFSKIEKYNKQISFIDLIEKKIINNFIIIFIIPALVLLEKDLGTVIHYSLIFLSMFLISKIKKGFKTFILIFYIGAILLGGVYIYKTSNHNDYKFRRINSYVERLFHNKYDKDDQVTQSIYGIASGGFLGRGYGNGIQKYNYVPEIHTDFIFATISEEMGFLISTIIIISYIVLYYFLLLISFRSKNMFGKYLVFGIANMIISQVILNLYVVTGLFPTTGIPLPFLSYGGSSTLTMYMIIALALNVLRTGNIKREGKNEFKRENN;locus_tag=LOCUS_19390;note=WP_005903562.1 FtsW/RodA/SpoVE family cell cycle protein (Fusobacterium nucleatum) [pid:33.9%25%2C q_cov:90.8%25%2C s_cov:89.7%25%2C Eval:2.7e-47],MGA_1950
sequence10	MetaGeneAnnotator	CDS	46416	47174	.	-	0	ID=MGA_1951;product=tRNA threonylcarbamoyladenosine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964226.1;translation=MQHRFSRTELIIGSKNLEILNNKHIAIFGIGGVGSFVVEALARAGIENFTLIDYDDICITNINRQIHATTKTIGKLKVNIMKERILDINPKANVKALKILYNKETEDEIFKEKFDYVVDAIDMVTSKLLLVEKCKKENIPIISSMGTGNKINPTMFEVTDIYKTSVCPLAKVMRRELKKRGIKKLKVIYSKEIPIKPQISVTSCKENCVCLTNTEINCKNKRQIPGSISFSPSVAGLIIASEVVKDILNLKN;locus_tag=LOCUS_19400;note=WP_010964226.1 tRNA threonylcarbamoyladenosine dehydratase (Clostridium) [pid:58.2%25%2C q_cov:98.4%25%2C s_cov:98.8%25%2C Eval:2.8e-77],MGA_1951
sequence10	MetaGeneAnnotator	CDS	47693	49351	.	+	0	ID=MGA_1952;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393742.1;translation=MRSDNMTKGLKRTPHLSLLKALGLTDEEIGKPIIGIAGSFNEIVPGHMHLRTLIDAVKAGVRMAGGIPLEFNTIAICDGLAMNHEGMKYSLITRSLIADSIEATTMATPFDAMVFIPSCDKSVPGMLMAAGRLNLPSIFLSGGPMLAGKFRNKKIGLSNVFEYVGEYEKGTISECELKEVENTACPTCGSCSGMYTANTMNCMTEALGIGLPGNGTIPAVYSERIRLAKLAGMQIVKLYNEDIKARDILTKEAFLNAVAVDMALGGSSNTALHIPAVAHDAGVDLTLDDFNKIAEKIAQICKLSPSGNYFIEDLNEAGGIPAVMKVLHENNLLEEAKSVALKSQKEIAEKAVIKDNDVIRSFDNAYNKRGGLAVLKGNIAKNGSIVKAAGVKPEMMVHEGPARVFNSEEETVDAIYSGKIKAGDVVVIKYEGPKGGPGMREMLAPTAAIAGMGLDGSVALITDGRFSGATRGASIGHISPEAAEGGEIAIIQEGDIITIDIPNRTLNVKLSDEEIENRMKNLKKVTKNVKGLCLKKFAQNVSSAHKGAIEEL;locus_tag=LOCUS_19410;gene=ilvD;EC_number=4.2.1.9;note=WP_011393742.1 dihydroxy-acid dehydratase (Moorella thermoacetica) [pid:59.6%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:9.0e-188],MGA_1952
sequence10	MetaGeneAnnotator	CDS	49392	50594	.	+	0	ID=MGA_1953;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017132.1;translation=MFTLKDFTLAENRLKNIIKETRLIYSPAFSEESQNEIFIKPENLQKTGAFKIRGAYNKIALLSDEEKKRGLIASSAGNHAQGVAFAAQQLGVPATIVMPKTTPLIKIEATKKYGAKVVLAGDVYDEAYEEAMRLQKENNYTFIHPFNDKDIIIGQGTIGLEIFKELPDTDVVLVPVGGGGLIAGVAAAIKLVNPHIKIVGVEPEGAASMLESFKNDKITKLENTHTIADGTAVKEVGELTFNLCKKYVDEIITVSDYELMEAFLILVEKHKIIAENSGLLSLAGIKRLNVKNKKIVCVVSGGNIDVLTISSLITKGLVSRGRIFRFSITLNDRPGELLLVSDILAKQNANVIKLDHNQFKNLDRFTHVELEVTVETNGERHIQEIIKAFAKKGYSINKVE;locus_tag=LOCUS_19420;gene=ilvA;EC_number=4.3.1.19;note=WP_011017132.1 threonine ammonia-lyase (Fusobacterium nucleatum) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.1e-144],MGA_1953
sequence10	MetaGeneAnnotator	CDS	50606	52306	.	+	0	ID=MGA_1954;product=acetolactate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023692.1;translation=MKKINGARIILEGLKRQGVDTIFGYPGGKVIPLYNELYDFSGINHILTRHEQGAAHAADGYARVTGKVGVCVSTSGPGATNLVTGIMTAYMDSIPMVAITGQVATYEIGKDAFQESDITGITMPVTKHNYLVKDVKDLPRIIKEAFYIASTGRPGPVLIDIPSNIQQAEINFEEFEILHNEPIRLDSYNPNYEGHPKQIKSAIRMINQSKRPVILAGAGIIKSKASKEFIKFVERTNIPVGVTLLGLGSIPTAHDLCLGMLGMHGTYAANYSVFESDLVIAIGMRFDDRVTGNLETFAKNAKVIHIDIDPAEIGKNKKADIPIVGDVKRVLVKFLEKMPQREKTEWNETVTKWKNENPLVYKNSNEEIKPQYLIEKISELTNGEAIIVTDVGQHQMWTAQYYKFKNPDSHCTSGGAGTMGYALPAALGAKVGLPNKPVIAIVGDGGIQMTSQELMTLAHFNIPVKVVIVNNSYLGMVRQWQEIFYSNRYSQVDLEISPDFVKLAEAYSLKGVRIETPSELDEKLNDLLTSNEPVVIDVKVSKEENVLPMVPAGGDSHKMLGIKGEL;locus_tag=LOCUS_19430;note=WP_011023692.1 acetolactate synthase large subunit (Methanosarcina acetivorans) [pid:57.9%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:2.2e-189],MGA_1954
sequence10	MetaGeneAnnotator	CDS	52306	52794	.	+	0	ID=MGA_1955;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393740.1;translation=MRHVISVIVENKPGVLTRISALFSRRGFNIESLTVGHTENPKLSRMTIVVEGDTDILEQIEKQLYKLIDTLKVIDLPKDTSVNRELVLIKVIADKKNRSEIIQFTDIYRGKIVDVGENTLTIEITGDDGKLEAFISMMSKFGIKELVRTGKIALHRGEKTVM;locus_tag=LOCUS_19440;gene=ilvN;EC_number=2.2.1.6;note=WP_011393740.1 acetolactate synthase small subunit (Moorella thermoacetica) [pid:58.8%25%2C q_cov:98.8%25%2C s_cov:93.0%25%2C Eval:8.8e-49],MGA_1955
sequence10	MetaGeneAnnotator	CDS	52862	53857	.	+	0	ID=MGA_1956;product=ketol-acid reductoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_027480217.1;translation=MANIYYEKDCNFDLLKDKKIAVVGYGSQGHAHAQNLHDSGANVTVGLRKGSSSWAQVEKDGLKVDTIENAVKNADVVMILIPDEVQKDTYEKSIAPNLKKGVYLGFGHGLNIHYGLIVPPTDANVFMTAPKGPGHMVRRTFTEGSGVPCLVAVYQDVAGDTKDIAMAWAYGVGGARTGILETTFKQETETDLFGEQAVLCGGVTELMKVGFETLVEAGYDPMNAYFECVHEMKLIVDLIYEKGFEGMRYSISNTAEYGDYITGPKIITAETKEAMKGVLADIQSGKFTKDFMDDYNNGQKFLKSKRASEAEHQVEVVGKKLRSMMDFGFKK;locus_tag=LOCUS_19450;gene=ilvC;EC_number=1.1.1.86;note=WP_027480217.1 ketol-acid reductoisomerase (Deinococcus radiodurans) [pid:62.1%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:1.3e-118],MGA_1956
sequence10	MetaGeneAnnotator	CDS	53913	56012	.	-	0	ID=MGA_1957;product=methyl-accepting chemotaxis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000533108.1;translation=MKISNKIGLSIVGTVLVTTILILGNILIYTSKDIQKDAENIVMGILAGIANDMNTQIHTTMMTVDNAINILENTIDLDKIQESQEYTDNYENSILNMFYGIGRLSADKNVWFQGNTNVTKSIMHISVREKDGKMIRNAKWNVIGSSSEKDDWWVKPLQNGSNWSKPYKWDPWGKGTILVSYGKKFEKNGKVIGVVGSEFYLNHLQEELKKVKLFKTGYVVLMDQNLNLLYHPNEKLKSIYDAGQELGDLFKKEMIDSGKTSGIFRYKFQGKDKLFIYKVLKNGWILGGAPEVNEMLETLLNLQKLLLKVVIVVIVLGLILSKIIGNSISKPIKMMIAEFKKLSEGDLNSNLKVSTKDEIAELTKDFNNFTNKLKSTISQINDIAKNIVSVNIMINKSMDNLINGENSPSYTELKNSIDKGIMQLNNAIETVLDNVRNQTASSEESLAALQEISATSDNANENIKVVNNSFNKTLEIAKNSAVDMNKLTENMKNINISTEQTNKDIDKLKDLSNKIGDITVAINAIAEQTNLLALNAAIEAARAGEAGRGFSVVAEEIRKLAEQTNKETNEIDNLIKTIQLEVEDVKISATEVKEKVEEGLKMTNSAKENMDIIIEHNNQNAIQIEDVSNSIEEQAHAAKEITTAISNITDSSTEIESLSIETKDISETVTEHIKENQELLESLDELLEKLKTDLNFFKY;locus_tag=LOCUS_19460;note=WP_000533108.1 methyl-accepting chemotaxis protein (Bacillus cereus group) [pid:24.5%25%2C q_cov:99.9%25%2C s_cov:98.3%25%2C Eval:5.2e-58],MGA_1957
sequence10	MetaGeneAnnotator	CDS	56220	57707	.	+	0	ID=MGA_1958;product=YjjI family glycine radical enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099547.1;translation=MNDVIKIIKNKNLSFEQKVIELARYAENSIAPIELSNETKEMIDKGIICDLFEGNAPYRPRYIIVDFNKFMKKGSTFLELSPPKTLLEAVNNLLIFYKHIPSITTMPVYIGNIDYILEPFIKGDEDYEVIKLFLNHIDKTITDSFCHANIGPKYTKAGELILKASKELQNPTPNITLKYDENITPIEFAKLAIETSLITAKPSFANDKIFRADFNGDYAIASCYNGLKIGGGSHTLVRSRLFRLAKESKNIDDFLNNQLVKLVNNMTDYMDKRIKFIVEESGFFESNFLVKEEFIKIDNFTAMFGIVGLAEAVNYLLKLEGKKDRFGHSKIANELGYKIIETIDNLVKKHKGIYCNFSNNKYLLHAQVGIDSDTDCTPGCRIPIGEEPEIFEHIIQSAPFHKFFPSGIGDVFRFDKTTRNNLESILDIIKGGFKQGLRYISFYEDNADVVRITGYLVKRSEIEKLDNNQVVLRDTTVLGKGARDNMKVLERKLRK;locus_tag=LOCUS_19470;note=WP_012099547.1 YjjI family glycine radical enzyme (Clostridium botulinum) [pid:60.9%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:8.7e-171],MGA_1958
sequence10	MetaGeneAnnotator	CDS	57717	58541	.	+	0	ID=MGA_1959;product=YjjW family glycine radical enzyme activase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012099548.1;translation=MDNKVLINKIIPFSSVDGPGNRTAIFLQGCNFNCKYCHNPETINICNNCGECVKFCKFNALKLKNNKINYNQNNCVNCDECIKHCKYNSSPKVIEYTVSTLVNEILKYKNFIRGITFSGGECSINHLFITQFAKEIKQYNLDVYVDTNGYIDFTSLNDFVNIVDKFMLDVKAFDRNIHKKLTGKTNETVLKNLKFLIKNNKIYEIRTVLIKEIDYFDTINYVVPLIKDTNIRYKLIKYRKYGVRKKYKNLSAISDDEIKKIIQLFPKYFNFITV;locus_tag=LOCUS_19480;note=WP_012099548.1 YjjW family glycine radical enzyme activase (Clostridium botulinum) [pid:45.5%25%2C q_cov:92.0%25%2C s_cov:91.4%25%2C Eval:8.8e-59],MGA_1959
sequence10	MetaGeneAnnotator	CDS	58574	59749	.	-	0	ID=MGA_1960;product=aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011392702.1;translation=MNNEMKDKISNNLKKLKPSGIRRFFDLVQTKKDVISLGVGEPDFITPWSIIDSAYYHMKKGHTHYTSNYGLLEFRLEVANYLKKYNLQYNEKEIIATVGGSEGIDLALRAIINPGDEIIVPEPVYVPYRPMVEFMNGVAVEIDTSKTNFKITPEELEKKITSKTKAIILCYPNNPTGAIMSKEELEAIAKVIKKHQIWVISDEIYSELSYDGEHFSIASFEGMKEQTIYLNGFSKAFAMTGWRIGYLCGPEWLVTQIIKIHQYAILCAPIFSQYGAIEGLRNCNKEVKKMKDSFSRRRRLIYHGFKDIGFDVIEPKGAMYIFPNIEKYGLSDEDFAIKLLEEENVAVVPGSAFGDKFKGYIRCSYATEIELIKEAIDRIERFVKKLELKSI;locus_tag=LOCUS_19490;note=WP_011392702.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Moorella thermoacetica) [pid:50.6%25%2C q_cov:97.7%25%2C s_cov:95.3%25%2C Eval:6.1e-113],MGA_1960
sequence10	MetaGeneAnnotator	CDS	59749	60231	.	-	0	ID=MGA_1961;product=Lrp/AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025774673.1;translation=MEKIIEILKEDSRATPKDIAIMLGISEEEVKEKIKQLEKDNIILKYTTIINEEKWEDEKVQAFIEVKVSPEREMGFDAIAERIYKFPQVKSLFLMSGGFDFLIVIEGQSLKEVALFVSEKLSTLDYINSTATHFMLKKYKENDVVMEDKEKVDNRLAVMP;locus_tag=LOCUS_19500;note=WP_025774673.1 Lrp/AsnC family transcriptional regulator (Moorella thermoacetica) [pid:51.6%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:1.4e-43],MGA_1961
sequence10	MetaGeneAnnotator	CDS	60958	61416	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKILIFGLLLLVTACSNKATPEVDNAVQEKLSETQKKLELAEKNLTDVELKLKTTMEELESTKVNYNALKEENEALKEDLSAVKYDLEIANKNIKNKEVAVEKVKIEKEKIEKDNIALKEAINSLEGAKTNIDKAVNKIDTAIKGVNDK;locus_tag=LOCUS_19510;note=MGA_1962
sequence10	MetaGeneAnnotator	CDS	61559	62659	.	-	0	ID=MGA_1963;product=HDIG domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966122.1;translation=MDIVTLDIIGAVLNSLKYTNIEKYKILKRRVVLVKKLVDLINDESSFTVTIAAMLKDIGDMRNSDINHKSNYASAELIRIMPEIIPLQYEIADIILDSNEKIDGTGFYQKTDISIESQIVAIIDEYISTNKVPEVGYESIVIKGLQQIVEKDYVKIMLDNNDYIDNFFTYTLKKNNVYKIKLDNVEEEQFLSVIASIIDSGHQYTGGHTKRVATYSYVLGKEMGYDKEKLSEIRYAAYLHDIGKLVVDVGILDKPDKLTNYEFEKIKDHALYSYKILQDSPQLKNISYGALHHERLDGKGYPFGLLAKDIPTETRIITFADILDALTSNRPYRKPLTFKKALEIMEKTMVGKSIDPDIFEIAKYLF;locus_tag=LOCUS_19520;note=WP_010966122.1 HDIG domain-containing protein (Clostridium) [pid:30.2%25%2C q_cov:95.4%25%2C s_cov:89.0%25%2C Eval:7.2e-36],MGA_1963
sequence10	MetaGeneAnnotator	CDS	62680	63168	.	-	0	ID=MGA_1964;product=flavodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966687.1;translation=MGKKGLIVYYSLDGNTEYVVNKLLEKNNFDIIKLSPKKDITEKGLLKYFWGGSQVFMKKMPELNDYNKTINNYNTIIIGTPVWAGNFTPAIRSFLVKEQENLKNKKIYIFACFDGNSGKTFKKFEEFIDKNSIISTLGIKSCIKNKENNNKIIEEWIKQIII;locus_tag=LOCUS_19530;note=WP_010966687.1 flavodoxin (Clostridium) [pid:40.6%25%2C q_cov:84.6%25%2C s_cov:84.5%25%2C Eval:2.3e-25],MGA_1964
sequence10	MetaGeneAnnotator	CDS	63180	63542	.	-	0	ID=MGA_1965;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459353.1;translation=MEKKGLICECQDIHKDIIKNIKEKMYNEKLLIDLANFYKIFSDPTRLKIIYALLNTELCVCDIAEVLGMTQSAISHQLRLLRNYKIVKSYKKGKSVFYSLDDEHIYELLQTGISHHIEKK;locus_tag=LOCUS_19540;note=WP_011459353.1 metalloregulator ArsR/SmtB family transcription factor (Desulfitobacterium hafniense) [pid:54.6%25%2C q_cov:90.0%25%2C s_cov:87.1%25%2C Eval:2.0e-30],MGA_1965
sequence10	Aragorn:1.2.38	tRNA	63654	63728	.	-	.	ID=Aragorn_47;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00460;note=Aragorn_47
sequence10	Aragorn:1.2.38	tRNA	63744	63820	.	-	.	ID=Aragorn_48;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00470;note=Aragorn_48
sequence10	Aragorn:1.2.38	tRNA	63829	63905	.	-	.	ID=Aragorn_49;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00480;note=Aragorn_49
sequence11	MetaGeneAnnotator	CDS	217	2346	.	-	0	ID=MGA_1967;product=glutamine synthetase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812354.1;translation=MAEFNFKEKSVSELYGENCFSDSVLRKRVPKSIYKEFKEVQNGEKTLDLAVAEVIANAMKDWALEKGATHYTHWFQPLTGSTAEKHDSFISPTFDGQVIMEFSGKELVQGEPDASSFPNGGLRATFEARGYTAWDTTSPAFLKEDEKGTTLYIPTAFVSYTGEALDKKVPLLRSMDAVGKAALRVLKALGNTTSKKVVPTVGPEQEYFLVDRDFFFKRPDLMLSGRTVLGAMPSKGQELSDHYFGRIKERVAAFMRELDYELWKLGVASKTKHNEVAPNQFEVALVFSTVNQATDQNQITMETIEKVALRHGLVALLHEKPFAGVNGSGKHNNWSLATDDGINLLEPGKNPHENAQFLVFLTAIIEAVNKYQGLLRMSAASAGNDHRLGGHEAPPAIISMFLGDQLAEILENLVKGQTNEAKEGQLLEIGVDALPKLPKDLTDRNRTSPFAFTGNKFEFRMVGSNQSLAGPNVILNTAVAEVLNKFADKLEKADDKISAIQKLVIDSYKENNRIVFNGDGYSEEWKVEAEKRGLLNLKDTVSALEIGVTDLAYELFESQKVLSKDELDSRFDIYCETYAKNLNIEATVMLDMVKSYIFPACNDYALKLAETINQVKEAMPESEILTLPQKRILKSILENCKVLKQKEIELEKLLEEVPSIESNHELAKFYRDKVKAKMAEIREASDALEKLVDRKTWPFPTYEDLLFKL;locus_tag=LOCUS_19550;note=WP_005812354.1 glutamine synthetase III (Desulfitobacterium hafniense) [pid:58.5%25%2C q_cov:98.3%25%2C s_cov:99.9%25%2C Eval:2.3e-239],MGA_1967
sequence11	MetaGeneAnnotator	CDS	2606	4549	.	+	0	ID=MGA_1968;product=fructose-1%2C6-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948262.1;translation=MKSDIEYLKLLSTQYENIEKVSSEIINLRAILNLPKGTEHFLTDLHGEYKAFRHALKSASGVLKFKIDEIFISELMEKEKIELQGIIYYPEKKLKILKKKEILTKDWYKVILYRLIRVCKVVSSKYSRSKVRKALPENFRYIIEELLHLKEEDLNKKDYYNEIIETIINIGQGENFIITIANLIQRLIVDKLHIVGDIFDRGAYPHKILDLLLEHHNCDIQWGNHDILWMGAAMGNRALIATAIRISLRYGNLSLLEEGYGFNMRPLANFVQEVYKEEKNNIFNPILLKDELKEEEKKLISKMHKAIAIIQFKLEEEIIKNRKELQMENELYLSRINFDKYTINIAGKDYKLVDKYFPTIDKIAPEKLTDREEEIISYFVDSFLSNEKLQKHLKFLINKGSIYLKYNNNLLFHGCIPLDENGELKSFKFKDKEYKGKKLLDFFDHIVRKSYNFKNEKEDYRDYMWYLWRGKCSPLFGKQKMTTFLNYFINDKETIIEVKNPYYKLREKEETCKKILIDFEMNPETAHIVNGHTPVLEKRGESPIKAKGKLFVIDGGFSQAYQSKTGIAGYTLVYNSYGLRIISHKPFISVKKVLEEGDDVVLANEIIERQERQKVKDTDIGKELERKIEDLLDLLKAYNQGCIKEKI;locus_tag=LOCUS_19560;note=WP_011948262.1 fructose-1%2C6-bisphosphatase (Clostridium botulinum) [pid:54.0%25%2C q_cov:99.8%25%2C s_cov:97.3%25%2C Eval:4.5e-202],MGA_1968
sequence11	MetaGeneAnnotator	CDS	4557	5189	.	-	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNTIKEIAFFNILKTLIPPTSKFTNYKLNYTDLADKINMDKQIIRSAILNLANDHFIDILNDTNDEIDINFNRTYEKLLEVFSIEDIDHLLEKMQEFLQLHPNYFNIFEADDSITLYAKQVKERIGKYGIDANINDIIENGVKYYFSKKENLITIKKSIFNICEKAESEDDFEALEAILFCQLNFPIEQNPFYVTLFLSKIYIQMGKI;locus_tag=LOCUS_19570;note=MGA_1969
sequence11	MetaGeneAnnotator	CDS	5293	6549	.	-	0	ID=MGA_1970;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963647.1;translation=MKKIITPNEKLKLIRKKYGLKQSEITGNIIKRNTISMIETGKNNLTEKTAKIIVDKINDILKKRGLKDKISLDYLLESVESQVKNIIKEYNLLLEKSDYSENVIIEIDNFLIDKYDSIEKINLYNKIANYYFNQQKFFKAILYYSKSLDFIINNSDDKILYQYIFNFLLSLYNLRHYEEFLTIFSLIEPKIQTLDYTNMFLLLNIRRSVYIQKKMYKKCINDIEKYNFLTQYNNIFSLISKNFLAESHYYLKNYSLASEFYSELIESKYPNLNILGRIGLCFINYELNYLNNKDECINYIKENINNLNNNYLTKQEVYCEVIKLFSKLNNYSEVDFFYKNLIKNNFIFNNNVLEITELFLKDSISQNDFENILFIEKIVLDFIHKEYISKSSTLIYQLIKYYEKNNYIDNLLKLIKNL;locus_tag=LOCUS_19580;note=WP_010963647.1 helix-turn-helix transcriptional regulator (Clostridium) [pid:24.6%25%2C q_cov:99.5%25%2C s_cov:98.2%25%2C Eval:8.6e-28],MGA_1970
sequence11	MetaGeneAnnotator	CDS	6679	7101	.	-	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFTKIDENSIERPEGKNCILAYGYSQEENSIINEFSKKIGIEHFIHIPTEKTHHTLEELVINNLDNSTSISKINEKAIVFNAVSDKELNEFISKFKLLNLQRPLFAVVTPTSKSWKFIDLITELMKEREEFKKLHTQNK;locus_tag=LOCUS_19590;note=MGA_1971
sequence11	MetaGeneAnnotator	CDS	7184	8158	.	-	0	ID=MGA_1972;product=putative sulfate exporter family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435004.1;translation=MIYGILLSIFLGILATIFSFFIPGIGSVAIAIFLGILVRNLFLKNQSFIKGVNLTEKKLLPIAIMLLGTELNFTILMKLGLKSLIFITLMITITILTGAFISRFFGFNKKFGLLLGTGNAVCGSSAIAATAPILEADDESIGLSIAAVNLMGTFGIFFMPIIGSIVGFSDLQKGTLIGGTLQAVGQVVASGFSVNNNVGAIATAIKMGRVLSLGIVIIILDLIMSKEKIKLENKNSKFNIIKIPYFIIGFFVLSIISSINIFPIYIINFINRIGKWLLVFSMAAVGLKINFSALIEKGKKLILLELLIEIVQIFSAILLIKIIF;locus_tag=LOCUS_19600;note=WP_003435004.1 putative sulfate exporter family transporter (Clostridioides difficile) [pid:35.3%25%2C q_cov:98.5%25%2C s_cov:94.2%25%2C Eval:6.1e-52],MGA_1972
sequence11	MetaGeneAnnotator	CDS	8292	9497	.	-	0	ID=MGA_1973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRGFIIGELMNNLKINNLKFNKIINLIIENNGIPFLTGGYIRDYFLEIKEKDYDIEVYNITFNDLYSLLKSLYPKTKIVGKKYPIILLDNIEISTNNNIYNSINRRDFSINSIYYNLKTNKFIDFSNGLIDLKNKIIKLNNLDNIKKDPIRIFRAVYLYSKYNFHIDSKTAKTIKNSVQLIKTEKKERIFNEFEKIFNNVDNISKAIKYLNDLKIFNVLFSDFNFKNNILFSLNRLKKKNTSIILAILFFYTDKKILKNNLKKITNNKTLFNNIYSLTFYYSHFNSLYNNFDLTKLKRIVISTNFDNLLTLYSAINNINSNNIKIKKILNNYNMKKSDLSPIIQGKDLLKYYPNLNQKYYGKILKILYNMQLNNLFNTHLKGLELCYKLINNRYIFINKI;locus_tag=LOCUS_19610;note=WP_012583871.1 HD domain-containing protein (Dictyoglomus turgidum) [pid:30.2%25%2C q_cov:42.1%25%2C s_cov:38.0%25%2C Eval:6.7e-14%2C partial hit],MGA_1973
sequence11	MetaGeneAnnotator	CDS	9515	10123	.	-	0	ID=MGA_1974;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002656023.1;translation=MSGAVCLDGVVGVGKSTLGELLSEEFGIKFFREPVINNPFLDKFYHDKKRYSFPLQVFFLNKRFSMIKEASKLDDCIMDRSIYGDVIFSRMLMEDGEMSIENFAVYEELLSNMLRYIEKPKLMIYMKTSVDNAIKKIKERGRDYELIVDRSYWESLNKHYEEYFNSYNLSDLIILDMDKLDPRDNLKDREYIFNLIREKLNK;locus_tag=LOCUS_19620;note=WP_002656023.1 deoxynucleoside kinase (Borreliella burgdorferi) [pid:41.5%25%2C q_cov:97.0%25%2C s_cov:98.0%25%2C Eval:7.5e-42],MGA_1974
sequence11	MetaGeneAnnotator	CDS	10251	10733	.	-	0	ID=MGA_1975;product=GNAT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245754.1;translation=MNKNNFIFESKRCIVRNFIEKDIDEFIKYRNNLEWMKYQDYKGLTKEQYIKDLLPKKHLKFGVQLAIINKETNTLIGDIFLLQEKKSFWLGYTINPNYQKKGYISEVVISCIDWIFSKGNYRIMANVHKDNTPSINLLEKLNFKKIKEKTEEYIYQYKKD;locus_tag=LOCUS_19630;note=WP_003245754.1 GNAT family protein (Bacillus) [pid:28.9%25%2C q_cov:82.5%25%2C s_cov:78.8%25%2C Eval:1.0e-09],MGA_1975
sequence11	MetaGeneAnnotator	CDS	10882	12087	.	+	0	ID=MGA_1976;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627853.1;translation=MKKVIMLIFIISSLSYATELTLNKSLEIAIKNNLSIRSLKVDNKNLEKDLEITENNKYGDIKYNVNASTDISKTSYSTSILYSQPIFTGGKITEKINIAKYNVRKGEITENNIISQISTNVIDKYIEALNYKKKIDYYENSIEELKNEYKKIKLKYENKKATKMDLLQIEANILSKESELIDISNQYEISIQNIKNLLNIENDFDVTDFDVEINNIDYENDLNKIINTNEVKTKEIELKIAESNLKIDKAAYLPEVNLDLSYGGNGNNITDSVKNAEVNIGVSISGTLFDFNETKNNIYIAKKDIEKINIEKEKEIDDLQLTLKTSYLNIKRINKSIISKEKEIELKTEIFKLNKIKYENNQLTLEDYLNSENDLLLSQLKLVELKTTLYTEYQNYLDTIN;locus_tag=LOCUS_19640;note=WP_201627853.1 TolC family protein (Fusobacterium canifelinum) [pid:22.0%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:5.5e-24],MGA_1976
sequence11	MetaGeneAnnotator	CDS	12097	13584	.	+	0	ID=MGA_1977;product=efflux RND transporter periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897600.1;translation=MKKSIIGLLIIVLGISGYYFLLNGNKKNEKEVKDNKVIVIPVRETEFKNSITADGKVELKNEEEIFINKALRVEKVNFEEDDTVKAGDILITFDEEERNDLIREIESKKIQIKEQNLIIENNKFETSNIDIESQKLEMENIKKDIENIKNNLILAKLSLENLNKELEDAKKEYEVNKELFEIEGVTITELNNSKNTVNSLSESIKQKENEINSYKKELIQKNDEYELSNKKLIKLQYDYKKAETVRKNTIKEANYAIQRLELDIATLEEDLEKTVKYIASPVDGTITENNATENFMASTDTYLMKIADINSQIITAEVSAEDIDNVKVGQDVIITFNDKKTLGKVSKISSVATTVSGNGYEDVYVEIEVTYDSKTAGFRPGYSVELEIVTSKIENAKVVSSFAIKKDGKNNYVLVYNNGEAQRKNIKIIEKTKKISVIEGLEIGDKVIVNSANIKAGDKVVLTDKIISEIPKNTSQDDNEEPGPGPGLGGGKRPN;locus_tag=LOCUS_19650;note=WP_009897600.1 efflux RND transporter periplasmic adaptor subunit (Clostridioides difficile) [pid:19.8%25%2C q_cov:88.1%25%2C s_cov:94.1%25%2C Eval:2.2e-12],MGA_1977
sequence11	MetaGeneAnnotator	CDS	13602	14279	.	+	0	ID=MGA_1978;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903416.1;translation=MIILENINKIYKTGDIEVHALKNINLHIKMKEFTAIIGSSGSGKSTMMNILGCLDTATSGKYLLNGLDISQIKEDKIAEVRNKQIGFVFQSFNLLPKLTAVQNVELPMMYAGIHAHERHERAKKALERVGLEDRIHHRPNELSGGQRQRVAIARSLVNNPAIILADEPTGNLDSKSEKEIIEIFKELNKEGVTIVMVTHEPEIAANCKRAITFKDGEIISDKINY;locus_tag=LOCUS_19660;note=WP_005903416.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:64.4%25%2C q_cov:97.3%25%2C s_cov:99.5%25%2C Eval:1.0e-77],MGA_1978
sequence11	MetaGeneAnnotator	CDS	14290	15498	.	+	0	ID=MGA_1979;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404919.1;translation=MNINETLKSAFQSLVSNKIRSSLTMLGIIIGISSVIMISMIGKGSQQSITGDLKDVMDRTVTISVQSDDEVLSKKDYITKDDLEEISKINGIEGITPDIASRGGVMLNEKRKFSKITGTNENGLYVNGYDLLYGREFTEEEVEKADRVVLIDDVYAMKRFGRIDVVGEELKIDVGGGKSYNFIIVGIFENPMKSLLSTLGGREMYFPFLPYTTFQKYVNDTQISQIKFKINDINQKDSIADKVVSYLEKSHNKKDIYEIGSSSSPLDSFNNILSTVSLLLTSVAAISLLVGGIGVMNIMLVTVTERTREIGIRKAIGAKNKDILTQFLIESVTLTLVGGLLGIVLGYSISTIVGNIMNIQPILSIWMLMLAVFVSGGIGVIFGTFPAKKAAELNPIDALRHE;locus_tag=LOCUS_19670;note=WP_003404919.1 ABC transporter permease (Clostridium) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-64],MGA_1979
sequence11	MetaGeneAnnotator	CDS	15642	15866	.	+	0	ID=MGA_1980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTELKRGEQAKIIKIGDIGELKKRLIDMGVTSGEIISFKRNAPLGDPKQYVIRNTNIAIRKKDAKKIIIEKI;locus_tag=LOCUS_19680;note=WP_012545730.1 ferrous iron transport protein A (Thermodesulfovibrio) [pid:51.8%25%2C q_cov:75.7%25%2C s_cov:74.7%25%2C Eval:2.0e-09%2C partial hit],MGA_1980
sequence11	MetaGeneAnnotator	CDS	15997	16242	.	+	0	ID=MGA_1981;product=zinc ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001880566.1;translation=MKENIKKTGICPICNNVMSKNNRTGEYFCEICNEAYVKRATCNKCGKEVELLSACGALQFFCNTCNELKSKKSVNLFFKKK;locus_tag=LOCUS_19690;note=WP_001880566.1 zinc ribbon domain-containing protein (Gammaproteobacteria) [pid:44.9%25%2C q_cov:85.2%25%2C s_cov:85.7%25%2C Eval:1.1e-12],MGA_1981
sequence11	MetaGeneAnnotator	CDS	16332	17834	.	+	0	ID=MGA_1982;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000836895.1;translation=MELDYKKLLNDLIKIAISLSAERDIEKLLNIILKESMRITCSDGGSIYVKETDEKGKDYLRFAITHNVSRKIDFNEFTLPLDRNSIAGYVGFSKKTLILKNVNNIDENIGLKYNSSFDEKINYQTVNMLVIPMLDYNHELVGVLQLINKKSDYNLILEKKEEIRKQILEYNKIEAQIISSLASQAAILIERTKLYNSIENLLQSFIESMVMTLEKRDNTTSGHSRRLAGYALKFLETVSKVNYGKYAYTKYDKNQIKEIYYAALLHDIGKIGVKEYILQKRDRLTEDRINVIKYRYKYFREILSQNGEIEKIKKYDEYIKFIEETNKKGYLQEEEEEKLKEIYNEKIKINEKEEKIIDEFEYKNLSIKRGNLTDKEREEMIEHVVYSKEILDGIKWTKQLKNVPIIAGGHHEKIDGSGYPLGLKGDEITTQAKILAILDIFEALTARDRPYKPPMSVDKAISILKKEVEANHLEKDLLDIFLKEKIYELYKEELDKIIKL;locus_tag=LOCUS_19700;note=WP_000836895.1 HD family phosphohydrolase (Leptospira interrogans) [pid:36.6%25%2C q_cov:96.0%25%2C s_cov:76.5%25%2C Eval:1.1e-88],MGA_1982
sequence11	MetaGeneAnnotator	CDS	17896	18786	.	+	0	ID=MGA_1983;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010975618.1;translation=MADDIKIKFWGVRGSHNVFGDQYKKYGGNTTCLSIEIGKKIMIFDAGTGIINYGKDILKNKKNTEINIFFTHTHIDHIQGLMYFTPIYMKKYFFNFIGSAVFTASFSDILTNIMSHQYFPVKFRQTGSYKRIYETHDNQIIIIRKDSNNIEIYNKNYETYEIEKEDIVVTCMHAINHPVGGVNIYKVEYKNKKIVFATDVESYVGGDEKLIEFSKNVDILIHDSAYLNDEYKLKQGWGHSTPEMAAVNAKKAEVKKLYLTHHSPDDTDEIVDKKVEIARKIFKESYLAYETLEIKL;locus_tag=LOCUS_19710;note=WP_010975618.1 MBL fold metallo-hydrolase (Sinorhizobium meliloti) [pid:33.1%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:7.7e-35],MGA_1983
sequence11	MetaGeneAnnotator	CDS	18802	20067	.	+	0	ID=MGA_1984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVFLGMFFIYSTIFAIENLETSNNQKLNKVEGLDLIAILVENENYNLANDLLKNLSVEEKQGEKYYKNLAKIKNGLSEKDEAIKYYKYILENFDNIDKLYYNFELLKIYVTDEKYNNEVIKTIKKIKKFKLDKKSKNKLKELERIYKKKANIEYLKNIELGLGYNDNLYTLKENKIGDMYTNMNFTLMGVNKISDNYNLTFFTSYRNQLYSKETTKTNHNIFIGGQPQYFINDTLNISAPSMFKLTFENGKYSEFGINIGVLSFKTINDKSNINFGIDIGYKNNKIDNYKGTTMTLYSTYNYLDQKEILNTINFITGKEKYNESTYDNNYINIGINRTQKFKEKYNMNYGYILSYKLNSLEIDGVKKKDISHNIAGNISGKTIWEMNWSVGYTFIYGNSNINSYDYINNIISTTLSREF;locus_tag=LOCUS_19720;note=MGA_1984
sequence11	MetaGeneAnnotator	CDS	20078	21097	.	+	0	ID=MGA_1985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTILMIFYIMIFNIIFSASELDSLLQDDTEKFKDLLTEDTINEVPKKAFVSKLNGQAFLKLDNDDSWYQLVENAEIEEKMTILTTEKTTLSLKMEDGSFVNIGEKTKVYIESLKGRPQTEEITETGLNLLWGKIYSNVKKKVETGAKYEVKTGSVVAGVRGTKFTVSAAKNGRSDITVFSGIVSVKKIGSDLEILVNKNQKVKVDRKGSIGEIEQHQETPPEEEINPEETIAIVAEKIEEVKETKEESEEIKTLKEKAIEKKETIKEKSKEVVSEVKDGVKEETVNTNPEVISLKNNLTMIDNFVNQTVDQANAVEIIKKIQEIEEDKTNKLIIQIK;locus_tag=LOCUS_19730;note=WP_012583580.1 FecR family protein (Dictyoglomus turgidum) [pid:25.0%25%2C q_cov:53.1%25%2C s_cov:31.2%25%2C Eval:4.7e-10%2C partial hit],MGA_1985
sequence11	MetaGeneAnnotator	CDS	21119	21871	.	+	0	ID=MGA_1986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIMSVLLLMIVGCINYQEEKPKGELKFMINWPKKEINTNVSTNILPETKKISIYLFKYDGNNYNNSIEIKKEIIRNGESEYLITIDDLEVGNWSIDMKAYNSLDKELNFIYDDIVINEGTNAYTVFFGGPNNIYGISLDTTTNLSDFTGIEFESMGSNYSHINVDSSTYSQYDHITYTLYVSTNSDMSNAVQISEVSSTYSGEIIKFNYPIDFPSYEFTPGQKYYFKIRGENTIGYKDSNIFTISFQ;locus_tag=LOCUS_19740;note=MGA_1986
sequence11	MetaGeneAnnotator	CDS	21932	23473	.	+	0	ID=MGA_1987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIGIILILFTLLGCFNNSNDVKEQVKNATDITKGDGEFVFNVKWPKKNIVQNSNIMANILPETQTIEINLNHATLQQSKSVSIVYPATSASIDNLLAGQWNIDISGKDNQNNPLNVIYDYLNIGPGVNSYTAIFGAPNIIYNTSVEGKTVYPYDNKSNVNAGDIIYVDISSFSGIQFDSVESNCNSDFVSPSSIDNNINYQLYFGTAPTSLSLQSATKNSTSSNIQLHFDYPSDFTTTVTAPNDYYYKIVASNSHGSTHSHIFKIKMYDKGIVINDYIEKYKNFAFELWKYFYFAQASTQAAISTEYVDLMDSNNSTTGGLLITADEYGRATQVEKLFSNSTNSNIQYLDYNEAQLISLHDDSNKFEALLKYDTNGNIEAVEVYEDKDGNNNIDYNTELIEKFYNINYDTNNHLQSFKYDKYSYSTNTSPSYIDVNKTYDANVTYLGDHFTSLKYYYNSSNVAEIQYDFTTTPGVVTVDYHRYSNETSDEHFRNDEKEIYTSESSVTMTID;locus_tag=LOCUS_19750;note=MGA_1987
sequence11	MetaGeneAnnotator	CDS	23484	25808	.	+	0	ID=MGA_1988;product=adenylate/guanylate cyclase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164924872.1;translation=MLRKNIIKSGYIILTFMIFIYIIYTNLGMTFFEIFEVKTYDMRYKAMDIFEKKNREYDVVIAGVDEKSLIEIGKWPWERSIHGKLVTALTEYGVKSIGFDVSFTEEGVSKDKIDYKKNMKTIVATKYKQGIIPEQDAIELLKEINKLDTDQDYEFALALKKAKNTVIGTYNIMDIAEDISRFEYNKIYYQKSRFYKINGILDEIKEVGRTGERRVKPFEIYKIIPPIDIIAKFAYGIAPYDVGRPDIDGVLRGIVTVTKENLSNLYFPPLYLLVYLKSENLSIKDNVVLDLKNSKIDIFKDEKLYKTIPTNINGYQRLFFYGKGHTFKYISYTDIINKRVDKKELENKIVLVGYTDSAKGLYDLRVTPLDPNTPGVELHATAIQNLIDNKFMKRIEVKGEVPLLFLFGSLIIFILSIKDINLALSNILTNSVIVTYLILSYILFRKGLWIEVFYPIVVFILIYLILTIENYFLEGKEKKYIRNVFGHYISPILVEELVKKPEMLKLGGEKRELTAFFSDIQGFTSISEKMSPEELVEFLNDYLSVSTNIILEYKGTIDKYIGDAVMAIFGAPIQLENNALNACFAALEYQEKLVEFREKYKESGYPPIYARIGINSGEMVVGNMGCNIGENKKFNYTIIGDEVNLASRLEGANKMYGTYIMISENTYKKVKEDVEARLLDLARVKGKKVAVKTYELMAKKGELSQEKLKLKELYEKGLDFYFNKEWKKSKEMFLKAIEVDENDGPSKLYIKRIEEYIKNPPPEDWDGVYTFTTK;locus_tag=LOCUS_19760;note=WP_164924872.1 adenylate/guanylate cyclase domain-containing protein (Thermodesulfovibrio yellowstonii) [pid:33.5%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:4.6e-95],MGA_1988
sequence11	MetaGeneAnnotator	CDS	25854	26078	.	+	0	ID=MGA_1989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRIIRTKAPKNSAFVVKNLFALFPIYTPLKQIIKVINPMIATENIIFKCFVKAKENPAASASMLVAIARRIRL;locus_tag=LOCUS_19770;note=MGA_1989
sequence11	MetaGeneAnnotator	CDS	26080	26382	.	-	0	ID=MGA_1990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIFTLILLSIGLAMDAFAVSISQGVAVKRLKINQALTVALTFSIFQAFMPLLGFFLGKSIYNLVHNYNNIIGSVLLIGIGLKMLHEAYKEEQCERNGKC;locus_tag=LOCUS_19780;note=WP_002851996.1 manganese efflux pump MntP family protein (Campylobacter) [pid:40.2%25%2C q_cov:97.0%25%2C s_cov:51.9%25%2C Eval:1.2e-14%2C partial hit],frameshifted%2C insertion/deletion at around 26085,MGA_1990
sequence11	MetaGeneAnnotator	CDS	26412	27710	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904381.1;translation=MKKLIFLLFLLNISLTFCNTKIYNEENYKFPFKNRFTSTAIGTPPRLQYKIKKKPVVSLYKLQINKTNNIPEIFWFAKKNIFSLAKQKKKAPLVYIFSGTGGYYNAPKTKFLRDVFYNNGFHVVSLTSPSHPSFLINSSSYGYTGIIEKDSKDLYKVMKKAHEIIKKQIKYTDIYLVSYSLGGTHAAFVSKLDDKEHYFNFKKIFIINPAVNLYTSSIILDDLVEKYFPNKISDVNNFISNTENLFFNIYPHDHINLDLNIIKDNSYNLEGLGLTEEKFKIFIGLSFRNSITNISFISDIKNNLGKIVPKDTKLSKFDSITKYYKKANNMSYIKYFNEYVLENLKKDDPTLTKEKLIDMANMMSITDYLKNKKNMYVAINEDESILLPEEVKWLKDTFKGRSFIYPYGGHCGNMYYKQNVDDMLSFILDKKN;locus_tag=LOCUS_19790;note=WP_005904381.1 hypothetical protein (Fusobacterium nucleatum) [pid:35.8%25%2C q_cov:92.8%25%2C s_cov:93.4%25%2C Eval:1.2e-75],MGA_1991
sequence11	MetaGeneAnnotator	CDS	28215	29495	.	+	0	ID=MGA_1992;product=homocysteine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272631.1;translation=MSKNLKFETLQLHAGQKPDSETGSRAVPIYQTTSYVFKDTDHAANLFALKEAGNIYTRIGNPTTAVLEERLAALDGGVGALAVASGSAAITYALLTVAKAGDEIVAARNLYGGTFNLLSNTINDFGITTKFVDPDDLEGFRNAITEKTKAIYIETIGNPNCTLVDVEAVANIAHENGLPLIIDNTFATPYLFKPLEHGADIVVYSATKFLGGHGTSIGGIIVDGGKFDWAKSGRFDNFTTPDPGYHGLKYSDLGAPAFILKARVKLLRDTGAAISPFNAFLILQGIETLSLRLERHIKNARKIVEYLNNHELVKWVSYPELDENENKALAGKYFPKGVGSIFTFGIKGGVEAGKKFIDSVELFSHLANVADAKSLIIHPASTTHGQLSEEKLKEVGIKPETIRLSIGLENVDDLIADLEQAFNKIK;locus_tag=LOCUS_19800;note=WP_041272631.1 homocysteine synthase (Desulfitobacterium hafniense) [pid:66.7%25%2C q_cov:99.1%25%2C s_cov:98.6%25%2C Eval:1.7e-164],MGA_1992
sequence11	MetaGeneAnnotator	CDS	29534	31501	.	-	0	ID=MGA_1993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIFNSLRKKLLFSILPILIISIYLLSFYHAKNTKKYLLEEYRVTQNQTENEIISYIYLIDSAYKMFEKKLNEELNKDILKFVNEYNKSSKDISKINLIEVSKYFKNKYDFYIIDENTTVIKSTENKALNFNFKKFNKKLGENIDFIRKNGKIYNERLRTNVMSGFLSTWVYKSTPDKKYLFELGYTANGLKDFINDLDPLNIIDKLKKINPIIKDIKIYDVFGYQFVSNGQNYAPTKKSKEIVELAKKYTKYTKEDNEYIENIIYINLNTGFNISDHSKIIAIQYDKSFINKRLKELNQFTYFAITISVIISIFIISIISFFVTHSLKKLKFISHELSNGNFNIKADIKSNDEIGDFAKTFNIMTAKLNDSFNQIKEQNKRIEEYNLTLEEKVKERTKEIRIKNEKIVSSVRYARKIQNYILPSKKFLKENFKDFFIIWQPKDVVGGDFYFGKKIEEIIYFAVIDCTGHGVPGAFMTMATSSFLNELITKEISPSEILNGLNHRIKTYFNKNSQKISDDGLDISLIKYNSVSKKSIFVGTKLSMYLSKNGVIKTFKGDRQSIGYIKSKDHYDYTEYKFDATSDTIIYLSTDGYTDQNGGPKNFGYSKKRLINDLDQIAHKPLDEQKKIIIENLKKWKGKETQRDDITLIGIKFK;locus_tag=LOCUS_19810;note=WP_235045006.1 SpoIIE family protein phosphatase (Geobacter sulfurreducens) [pid:34.2%25%2C q_cov:51.3%25%2C s_cov:49.8%25%2C Eval:8.2e-50%2C partial hit],MGA_1993
sequence11	MetaGeneAnnotator	CDS	31513	32778	.	-	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINSKQDLEAIILGGLFLGAGGGGGKNEAIIIQNKILEYINQGKEINITTVNDNSLNSGAVVAMMGSPLALKKDNDYSAPSRAFNTLSKHMNENFNFTLPIEIGAVNSLIPILTAAQLDNLFVLDADGSRRAVPQLQLTTYSKDIKIAPAVLSNDNLNNYINSHLNITIDSEKINDLLSSDISDAEILESIARNILSSNIFECLCGISFYPFKKSELNKLADSTIQNTLSLIYKIGKNFIENNDRNLVQYIYNLFYNNKKELTTFFGGIKPIKIFKGEFVEYIPGSIDKKGFDFGTIIIKNENQEMHIFFENENLLSSLHETKKINKYKSTHKCNLWGMAPDTISYVTNEGPLSNVEVVNLSKGEKILVIGSKCDNKMRDPFISNGFYKVIYNLANHNKGGFIPKDLIPTKYIPIEKLE;locus_tag=LOCUS_19820;note=WP_003721245.1 DUF917 domain-containing protein (Listeria) [pid:26.5%25%2C q_cov:60.6%25%2C s_cov:60.9%25%2C Eval:1.6e-13%2C partial hit],MGA_1994
sequence11	MetaGeneAnnotator	CDS	32813	34402	.	-	0	ID=MGA_1995;product=FapA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002667114.1;translation=MSEKFNKVILRVAPDGVYIKIKNEPMSISSVLAFLNQTELDTFDLEAVKQAYFERGVEVKISDNIENLKKIPDIEIKISDDKMKAYLKIKNTGFIEFLSLKYLLEKAYDIGISYGINKKVLLGMIKYDYRGKFVLFAEGTPPIKGKDAMIHYKFMPKKNKDEDNPNNKIDYKERNDLFIPVKKDQILAEKTPATQGTDGIDIFGNIIPAIPGQDKVLKRGENTQLIHNGLTLVAAISGLVDINGDTISVKNILIVNDVNIKTGNIDFEGTVLVNGNVDLGYRIKADNDIRIKGVIEGAILEAGKNVIIEKNFIGSEVGKIIANHSIKIRDLEFAYLEAKENIIITDSAVNCQILAGKSVEAIQGKGIIMGGEIIAIEGLSTKILGSKNGLKTIIKTGKSISVKEAVDKIDEYKSENKKRLINIEKSLEYMENLRFAHPESFDEEKKKQFNRLLNEKLAIEYEVKSMVKDIANNLKNVHPTEGSLVKVYKICYPGVEIWLNKYKYVVTKIMKHVEFVYINNKIEIRPLRK;locus_tag=LOCUS_19830;note=WP_002667114.1 FapA family protein (Treponema) [pid:27.5%25%2C q_cov:91.7%25%2C s_cov:75.6%25%2C Eval:1.3e-42],MGA_1995
sequence11	MetaGeneAnnotator	CDS	34552	34965	.	+	0	ID=MGA_1996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWVEYAKKEIKNILDIKKLLENNGFKVKEYYKENNLYLFALYINNYKEEEEVVKIIEFKIQNKKLYRLVEKNNLFLEICYCNEKNNNIVYYLKQLGYESKILKEKKDEFVVAIEDDEGLIRIEYLKKEGNMVYRYIK;locus_tag=LOCUS_19840;note=MGA_1996
sequence11	MetaGeneAnnotator	CDS	35004	37535	.	-	0	ID=MGA_1997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIIIFFIALHIFTFAEIKTLNTKYFNFIYENELEDNALELLKNSENIANKIFEFFNYYPQNKITVILNDNYDYSYTYSDNDEVYISATSPSLFDQEKNYDNWFLYSFSINLTKTVIYKNVNGWFGRLPFSKYTAQKKFLPKWYVNGLATYVSSIILEKGITGNPISNKFKMQLKANILENKFNGFELSNGYYNNNQENEYGYYFIKFFVDTYGENKLKEAISYISNHQLFQPYDGFLKISGVNDEILFLQYYKNYLKTTFNISNKNNLVSGKTISQLYFNTIKNLQVKNRNLFFISNNNIYSYNIINNNYNRVYNKAILNYTLGDNNIYFSKVNYNNKENTYYSFSYKKSKNIKKISIERAINYINIDGKIAYIINKSGKQKLVLDNGKILINFDENFLFEKFYYDSLNYKLYFSAVKIDEKTPKIYELNLENNEINFITEGYSPFIEGDYLYFVNSINGTYNIFSYNFENNKILQLTNVLYGAFEPIVINENLYFSNYTSNGYTLNKLNLNNSYSKLIKTDMYDRYTQPQENIIEEVDRTLNIDDLEIKEFRDNFVFQNTNLTIDSFGSVFDTYSATFSNVFKTRFFKLGISENINNGKYNNSSTGIFFKNMYKNNQTGIFFNYFDNTSLNIYLSNSTTYSYAKFKYHYPLKSFNNINWFNLDLSFDSNKKYDFDLNYDKKIGSILTLYSDNIVASGYLKTKYIKVKASLAKKAFYFNDILDNNEYFDISNKSSNSIIYNIYSRYLLISKLNFNKTISINRGVPSGTYSLKNYKFNLDTYHILSSGLTQNLVLNTNVTGNGFIFTHIPVNLGIGILNQINISNKNWQTPTIYLKSKINF;locus_tag=LOCUS_19850;note=MGA_1997
sequence11	MetaGeneAnnotator	CDS	37713	37979	.	+	0	ID=MGA_1998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRTIINFYAMGSFLALISTFYIVYKYKKLFKKSEYTEKHYVVLFFIMSLSSWYFFYLFFEDLKEHSDDIEDIIIEIKRQIDMFLDEL;locus_tag=LOCUS_19860;note=MGA_1998
sequence11	MetaGeneAnnotator	CDS	37993	38397	.	+	0	ID=MGA_1999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023037397.1;translation=MEEQQRLSREELEKEVKDFRKEKERVRKIIGQIGGKRNLQNDKYINILFLIIVLIVFILGGIFHTIPITLSLEIGVFLVSLKVAYMINSQEKVNHFQFWILTSLEFRLNEISKNLKKVEKRLEKIDFEKIDKGE;locus_tag=LOCUS_19870;note=WP_023037397.1 hypothetical protein (Fusobacterium) [pid:38.8%25%2C q_cov:90.3%25%2C s_cov:98.4%25%2C Eval:3.2e-20],MGA_1999
sequence11	MetaGeneAnnotator	CDS	38400	38777	.	+	0	ID=MGA_2000;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868364.1;translation=MQKIHTNNAPKAVGAYSQGIKVENFLFVSGQIPIDPKTGEFVSNNIKEQTLQSLKNIEAIVKEAGGTIENIVKVGVFLDDINDFADMNRVYEEFFGSHKPARAAVEVAKLPKDAKIEIEAIAYIK;locus_tag=LOCUS_19880;note=WP_010868364.1 RidA family protein (Pyrococcus abyssi) [pid:61.8%25%2C q_cov:88.0%25%2C s_cov:86.6%25%2C Eval:6.0e-35],MGA_2000
sequence11	MetaGeneAnnotator	CDS	38936	40954	.	+	0	ID=MGA_2001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLLAEDDIYNFVYTKQKDFFIQIKGNLEILFVNQSFCNAFSIDETQIVGRNLGEYLNEKLKNEIVKEIRYLNKFKPYSKANYKIKFGNSKSVWYEWEYYAILNEEHIVEKYNILAREIKSDKTIENMFFFQNDILKKLSEIKTFGESLKILVDKFKSIEAFDSGILYLYNKEKNIFYLKDYINISEVFLSNKNFYNKIHVDAKSSLDKVVYVEQIDEFKKENIMSIAKIPLKTDENSFGLIVLVSHKNMIIPKALKLIIESMRYQISNIMSKLKYIDELNNTNNMIEKLYDIEGVNFYIFNKSGEIYPLKETLKFEELPIPDDIISMVKNSNDVININEYKDFNYSMLINGNNNYFELRLFRVSKLEYIIRIQDKSILEEKNNQIRVQNELLKYIVDVGNVGIIEISENKVAFNESILTILKYPKENNIISFETFKKLIHINDLEKFNFYYLDFNNSKNGYFEYKFRIKRYDNNYIWLMLKAKKEKEEKTYKFIAYDVTKFKTEENDIKELLIKDNITKLYNKTFFLKELDNEFKKLRSNINLFSVVMIYVENLNDILENYGIDIRDYVLEKFAKHLKDNLREEDLIARYSEDKFVMILKNIVNNNSESVVKRILDSFNIEQIEEGLKCKILFFDTEILDQNINLEKIIDNMVDKISTIKNNFEHIKPINN;locus_tag=LOCUS_19890;note=WP_011461076.1 GGDEF domain-containing protein (Desulfitobacterium) [pid:23.5%25%2C q_cov:28.1%25%2C s_cov:60.4%25%2C Eval:1.9e-09%2C partial hit],MGA_2001
sequence11	MetaGeneAnnotator	CDS	41233	42453	.	+	0	ID=MGA_2002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILHCSDIHLGKRPVGGIGEYSNKRYEDYFKSFEYIIESACKEKIDIFIIAGDFFDKRVINPEILEKTEKILEKLKENGIKVLIIEGNHDNIIKGNEENSWIVYLEKKGLFKRLTFSVTYIGEEKKFDFDVIKIGDVNFYGLGYPGILVNEAMEELSKRVNPLEKNIVIVHTAISSGDFLPGTIEKEIIDKFQGKVIYIAGGHFHTHITYPKENPIFFIPGASEYWNIKSEINRKKGFIIFDTETKEYKFYDSKTRDIVILNIENIKEEEEVFLKINKEKNNINIIENESLLFINISLEKNIFLNTNEIEKLFEKEKPLKIFINTKYKNSLNNRSINRENISNIYEIEKEVIKNSWDKFRDASEIVVETLNNLKIHQQEKDKERFFEVFDHFVNKIISGDNNENK;locus_tag=LOCUS_19900;note=WP_010942369.1 exonuclease SbcCD subunit D (Geobacter sulfurreducens) [pid:29.2%25%2C q_cov:59.1%25%2C s_cov:58.9%25%2C Eval:2.3e-17%2C partial hit],MGA_2002
sequence11	MetaGeneAnnotator	CDS	42440	45271	.	+	0	ID=MGA_2003;product=SMC family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016450.1;translation=MKINKIYLENYRIHDKKEINFSNGVNLLLGKNGAGKSSILEAIGHTLFSSKLRDNSAKNCIKYGRNKAIVEIEFEGNDGIEYVIKKTIKVVGNDTYSFYEKNNPEKSVATRKEIDEKIYKICGLIKQSNNIYDNIVSIKQNSFVDIFLLKPSDREKMFNEIFNTEIYREMFEKYLKEVKDEYDRKKIDIEMELKLLNENNIDINKVNLDMKNEKEVNKNLLEKEKKIRIKKDELKKEKEKLLELENEIKLIKSSIENIDSFINNIENQIKSQEKEFEIIKKAKVLLKENEKEYNEYNKNKKELGELEEKLKNYEEIKSWCEKQEKIKEKIKLEIEEKNWKIGNIKTKQENINNRVQEIKDDLIKIKNELSKKQIQEQEILKNIENKEKEKKKIKKLYDEYEKLKEEKRFLEKSLEEIKEKFSIDKQEIIEKNLNQYEKEKKKFLELKKEKEKLKNKEINIRLLIDQNKKAEEQLSTGFCPILQENCKNIEGNSPNNYFINKSKELKKEYELIINKLNKYNNVEIKLNEIEKEINLNKEKIKEFNIKKNEKHGKKLLIKELELELEKKYIQVRDILKLEKNENIKEVVSKLEKEYITLQNKQENLNIKKDIEIKKELELKLKNKELENKELENEAKILSEEIKRKQTRLKELTKQLSIGADKLKNLNPYKDKYDDLKEKNKELENKKNIYIENKKTADNYDSCLDKLEKLKQEKEVKSEEKNTKNKKKIELKKKISEIDKEKLEKEIVEIEEYIIDINEKIGISNTMIKTLKEKEEEYNKNIKEIKKLEKRLNKIKLKSNIADDFRKNINNMGKMVSKYLIEDISIKATENFREITGRTEIIKWINDENNTYQVLLKDEEGTRVFEQLSGGEQIAVALAIRTALAEILSSTNFIIFDEPTNNLDEERRKSLADSMSKILSSINQSIIVTHDDTFEEMANKIIYI;locus_tag=LOCUS_19910;note=WP_011016450.1 SMC family ATPase (Fusobacterium nucleatum) [pid:27.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.3e-95],MGA_2003
sequence11	MetaGeneAnnotator	CDS	45328	46938	.	-	0	ID=MGA_2004;product=peptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731898.1;translation=MKKRLILIFTLVFSLVMSVTSYSGLFFKKNKENKKIVKLSVEGEPASLDPQVLTDGTSILIANEVYEGLTRLDPNGNPIPAGAESWDINGNVWTFHLRKNAKWSNGEPVTANDYYYGIRHGLEPEVAAPYSYMLYYIKNSEAYNTGEIKDFSQVGVKVIDDYTLEITLDKPVAYFPSVLAFPTYFPLNEKFYKSQGDDFALEKENLIYNGPWKIKEWEHDSKIILTKNENFWDKDTIKIDELHVLMVQDVNTLANMYKNDEIDVINITGDQLPDFKDSKELINLDDSFVWYLEFNTNNKYFKNENLRKAIAYAIDRNDLVTTVRKDGSKPARSFTPEGFPGKNKSFREDYGLNLFEENIELAKKYYEMAKKELGFTEPLTLNLLIGSKPTAKGDAQFVQEQLRSKLGIQVNIENVTYQIRLQRMRQMDFDFQLTRWGADYFDPMTYMDLFVTGGGNNHTAWGNTDYDKYIDIAYNTADKSKRMDAMAAAEKILIKEMPIVPLVFNAKNILIKSRVKNLTLSSVGAEKEFYWADIEK;locus_tag=LOCUS_19920;note=WP_003731898.1 peptide ABC transporter substrate-binding protein (Listeria monocytogenes) [pid:37.9%25%2C q_cov:98.5%25%2C s_cov:99.3%25%2C Eval:2.3e-100],MGA_2004
sequence11	MetaGeneAnnotator	CDS	47208	47516	.	+	0	ID=MGA_2005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFNINNRFYNDLELIKEKKEKKEIETENKTTIQNKETKFEKILKEEIEETKEDKLDIEEENKKEINVSTIIAKTNSLEYTNGLAANYIRSYILNKYKNTKE;locus_tag=LOCUS_19930;note=MGA_2005
sequence12	Aragorn:1.2.38	tRNA	139	214	.	+	.	ID=Aragorn_50;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00490;note=Aragorn_50
sequence12	MetaGeneAnnotator	CDS	330	899	.	+	0	ID=MGA_2006;product=glycerol-3-phosphate responsive antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016313.1;translation=MNKNISDILEKNPIIAAINSEADLNAVLKSDINIVFILTSNILEISNVIKRLKEANKFVFVHIDRIEGLSSRSTLIIDYLIANTELNGIISTKHNMIKYAKNKDILAIQRFFILDSLSFKNSLKNVEDTKPDAIEILPGLMPKIIKKITKEIKIPVIAGGLIQDKQDIIGVIEAGAYGVSSTNKDIWNM;locus_tag=LOCUS_19940;note=WP_011016313.1 glycerol-3-phosphate responsive antiterminator (Fusobacterium nucleatum) [pid:44.3%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:1.5e-41],MGA_2006
sequence12	MetaGeneAnnotator	CDS	1233	1952	.	+	0	ID=MGA_2007;product=MIP/aquaporin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081684.1;translation=MGIYFAEFIGTMILILLGNGVVANVVLGKTKGNNSGWIVITTGWGFAVAIAVYITGWISGAHINPAVTIGLASIGKFSWSLVPGYIIAQILGAFTGAVLVFFSYKQHYDESDDADGKLATFSTGPAIRNLFWNSISEIIGTAMLVIGILGIGQSQNNLGGMGAFMVGVLVWAIGLSLGGSTGYAINPARDLGPRIAHALLPIKGKRDSDWGYALIPVLAPIVGGVIGAYIFQFATLIWS;locus_tag=LOCUS_19950;note=WP_004081684.1 MIP/aquaporin family protein (Thermotoga maritima) [pid:63.1%25%2C q_cov:97.5%25%2C s_cov:99.1%25%2C Eval:2.6e-85],MGA_2007
sequence12	MetaGeneAnnotator	CDS	2024	3523	.	+	0	ID=MGA_2008;product=glycerol kinase GlpK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964631.1;translation=MEKKYVIALDAGTTSNRAIIFDKEENIVAVAQREFTQIYPKAGWVEHDPMEIWATQSSVLTEVMAKANIKSEEIAAIGITNQRETTIVWDKNTGEPVYNAIVWQCRRTAPICEQLKRDGHEEYIRKSTGLVVDAYFSGTKVKWILDNVEGAREKAEKGELLFGTVDTWLVWKLTQGEVHVTDYTNASRTLLFNIKELKWDEKILKMLDIPKKMLPEVKNSSEIYGYTNLGGVNDIKIPIAGMAGDQQAALFGQACFNKGEAKNTYGTGCFLLMNTGEKAVESKNGLLTTIAVGIDNKVEYALEGSIFIGGAVVQWLRDELKLINDAADTEYFAKKVKDTNGAYVVPAFVGLGSPYWDMYARGTIVGLTRGVNRNHIIRAALESIGYQSRDLIEAMQEDSGIELKALKVDGGAVKNNFLMQFQSDILGTVVLRPEVTETTALGAAYLAGLAVGFWKDKEEISNSWKLDKKFLPEFDNDKKEKLYKGWKKAVSRALSWEEE;locus_tag=LOCUS_19960;gene=glpK;EC_number=2.7.1.30;note=WP_010964631.1 glycerol kinase GlpK (Clostridium) [pid:73.0%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:6.8e-224],MGA_2008
sequence12	MetaGeneAnnotator	CDS	3753	5195	.	+	0	ID=MGA_2009;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895612.1;translation=MYDVVIIGAGVSGASIARELAKYKLKIAVLEKENDVADGTTKANSAIIHAGYDAKEGTLMAKYNALGNQMYDKIAEELDIPFKRIGSLVLAFSDKEKEHLKMLYERGLKNGIPDMKILNFSEIKEMEPNINKKVVAALYAKTAGIIGPWELTIGMLENAVDNGVELYLNNEVINIEKTDNEFKITTKEKDFKTKVVINCAGVYADQIHNLIAKPSYKITPRRGQYFVMDKMEGEKVNRVIFQCPTEVGKGVLVTPTVHGNLLLGPDSQEVNNKEDTSTTTEQLAFVREKALKSIENLNLREVIRSFAGLRAEADRGDFIIEEANDIKGFIDVGGIKSPGLSAAPAFAVDVAKMVVEILNRNGKIEENKKFNPIRKKQIRFMELSNEEKSEIIKKDSKYGRVICRCETITEGEIVDIIHRSVGARTVDGVKKRCRPGMGRCQGGFCGPRIQEILARELNLTLEEIVLDKKNSYILTEETKK;locus_tag=LOCUS_19970;note=WP_005895612.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:60.4%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:4.9e-171],MGA_2009
sequence12	MetaGeneAnnotator	CDS	5207	6469	.	+	0	ID=MGA_2010;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016211.1;translation=MKYDIVVIGGGPAGLAAAIEAYKVGIKNILIIERDKELGGILQQCIHNGFGLHEFREELTGPEYAQRFITQLKKIGIDYKLDSMVLTVTQEKKIQMINTEDGFVEIEAKSIVLAMGCRERTRGAISIPGDRPAGIFTAGTAQRFINMEGYMVGKKVVILGSGDIGLIMARRMTLEGAEVKAVVELLPYSGGLNRNIVQCLDDYDIPLLLSHTVTNIKGKDRVEEVTIAKVDENRKPIKGTEQTFEVDTLLLSVGLIPENELSLRAGIDLDQRTSGPIVNEAMETSVKGIFACGNVVHVHDLVDFVTAESRRAGKNSAKYVLGELDESENYMRIKAEKGIRYTVPQKVRVKNIDKFLEVFFRVTDVYRNVKISIDAEGENLFSIKKEHLAPGEMEKINIPLAMLEKYRDKDISISVVEGDK;locus_tag=LOCUS_19980;note=WP_011016211.1 FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:1.1e-158],MGA_2010
sequence12	MetaGeneAnnotator	CDS	6469	6816	.	+	0	ID=MGA_2011;product=DUF1667 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016210.1;translation=MVKKLICIVCPKGCHLKVDTDNDYKVTGNQCQRGVDYGVKELTNPTRIITSTIKIKGGIHKRVPVKTDKAIPKDMNFKCMEIINTLEVESPVKMGQIVAENILDTGANIVITRDM;locus_tag=LOCUS_19990;note=WP_011016210.1 DUF1667 domain-containing protein (Fusobacterium nucleatum) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-30],MGA_2011
sequence12	MetaGeneAnnotator	CDS	7052	7399	.	+	0	ID=MGA_2012;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898626.1;translation=MKEKLIELVEKDQLREMPEFKAGDTIAVHYRVKEGNKERIQIFEGVVIRVNGGGIAKNFTIRKVSSGIGVERIIPLNSPLIDKIEVKKIGKVRRARLYYLRGLSGKAARIKEIRR;locus_tag=LOCUS_20000;gene=rplS;note=WP_005898626.1 50S ribosomal protein L19 (Fusobacterium) [pid:77.2%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:2.2e-45],MGA_2012
sequence12	MetaGeneAnnotator	CDS	7436	7999	.	-	0	ID=MGA_2013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFIACFLITSMLAFAGFEIKGGTYFNGSDDIKTFSGSPFDLDAGYTARGEFYIANEGFSIGYGAAYQSIGKHDITTTKLSYIDAAIPVYLSARYATIGYGSWMPYIKGNIGYSFYTKGKDLNSTDLIKPGLYYSGGIGANINDFLIEVTYEISKGEFKILPNNYDFSVSRISLEIGYNFSGNY;locus_tag=LOCUS_20010;note=MGA_2013
sequence12	MetaGeneAnnotator	CDS	8134	8310	.	-	0	ID=MGA_2014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLITNINENLVNAEKTVKEKRILGGMDLFHLKKEDLMIISKKDYEKLLELAASKNN;locus_tag=LOCUS_20020;note=MGA_2014
sequence12	MetaGeneAnnotator	CDS	8624	9538	.	+	0	ID=MGA_2015;product=manganese-dependent inorganic pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003226902.1;translation=MSILVFGHKNPDTDSICSAIAMAELQTKLGKDIKAVRLGNLNKETEYILNYFNIELPELIEKVKDEQEVILVDHNEKGQSVDNRDNSKILLIVDHHKIDLSTADPINLRFETVGCTSTIIAKLFKENNLVPSKEIAGLMLSAIISDTLLFKSPTCTDEDIKQAKYLAEIAEIDYEKYGMDMLIAGTSVDDKTAEEIYNMDMKPFSFGDQTATVAQVNTVNINDILKRKNELIKVMQEKIKNDKLSFALLMITDIVNKGTELLVVGDKTLANKTFGLDMSKDTVYLEGVVSRKKQIVPPLTNAAN;locus_tag=LOCUS_20030;EC_number=3.6.1.1;note=WP_003226902.1 manganese-dependent inorganic pyrophosphatase (Bacillus) [pid:51.2%25%2C q_cov:98.7%25%2C s_cov:98.1%25%2C Eval:4.3e-81],MGA_2015
sequence12	MetaGeneAnnotator	CDS	9601	10083	.	+	0	ID=MGA_2016;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000586895.1;translation=MIRKVKLSDAKQIVDIYNYYIKDTIITFEKDLIDKKEMEKRIKKILEDYFWIVYEENNKILGYAYVGKWRERTAYKFTVESSIYLDKNYTGKGIGEKLYRELIKTSKNKGLKAIMGVISIPNESSIKLHEKLGFYKAGYFKEVGIKFDKWIDVAYYQLNL;locus_tag=LOCUS_20040;note=WP_000586895.1 GNAT family N-acetyltransferase (Streptococcus) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:98.2%25%2C Eval:1.5e-32],MGA_2016
sequence12	MetaGeneAnnotator	CDS	10196	11215	.	-	0	ID=MGA_2017;product=PTS transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903941.1;translation=MKIKNLFKNFNNYLIKVLNGMALGLFASLIIGLIIKQIGTYLNLKNIIFYGQIAQYMMGPAIGAGVAYSVGAPPLGIFASIITGAIGAGSISHVNGSLIIKIGEPVGALIASLVGAELSKYVNNKTKLNIIVIPITTIILGGIAGSFVAPYIATFMKELGLFINTLTKLHPIPMGILVSAVMGIILTLPISSAALSISLGLSGLAAGAATVGCASHMIGFAISSYKENKTGGLISQGLGTSMLQIGNIIKNPLILIPPVISSVILGPIATTVFHMENNKIGGGMGTSGLVGQIATLKVMGNSAILPIILLHFILPGLISFLVSEWMRKKELIKFGDMKI;locus_tag=LOCUS_20050;note=WP_005903941.1 PTS transporter subunit IIC (Fusobacterium) [pid:47.3%25%2C q_cov:96.8%25%2C s_cov:99.4%25%2C Eval:2.1e-82],MGA_2017
sequence12	MetaGeneAnnotator	CDS	11549	12280	.	+	0	ID=MGA_2018;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904120.1;translation=MAVVTMKQLLEAGVHFGHQAKRWNPKMKKYIFTERNGIHIIDLHKSLKSIEKAYGYVREVVANGGEVLFVGTKKQAQEGIKNEAKRAGMYYVNNRWLGGMLTNFKTIKGRINRLKELEKMEEDGTMDLLPKKEAALLRKELVKLSKNLGGIKDMKSIPQVMIVVDVKKEALAITEANKLGITVIGVIDTNVDPDGVDLPIPANDDAIRSINLITSVMANAVIEGKQGVEEAAEETANVEEVTE;locus_tag=LOCUS_20060;gene=rpsB;note=WP_005904120.1 30S ribosomal protein S2 (Fusobacterium nucleatum) [pid:70.2%25%2C q_cov:93.4%25%2C s_cov:92.3%25%2C Eval:2.0e-88],MGA_2018
sequence12	MetaGeneAnnotator	CDS	12305	13183	.	+	0	ID=MGA_2019;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015713.1;translation=MAITAAQVKELRERTGAGMLDCKKALQETDGNIEKAIDYLREKGIAKAAKKAGRTAAEGLIFTTESADKKSAAMLEFNSETDFVAKNDEFKNFGSKLVNIVLNNNINTIEELKSFEVEGKTVETLITELIAKIGENMNLRRVEKVTTEGFVTTYNHLGGKIGVIVNMTGEATEENLVKANDVAMHIAAMDPKYLTPEEVTTDDLDREKEIARKQLEEEGKPANIIEKILEGKMRKFYEENTLVKQKFVKDDKLSVEKYLGDIKVVGFSRYKVGEGIEKEEVDFAAEVAAQLK;locus_tag=LOCUS_20070;gene=tsf;note=WP_011015713.1 translation elongation factor Ts (Fusobacterium nucleatum) [pid:66.1%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:1.6e-101],MGA_2019
sequence12	MetaGeneAnnotator	CDS	13252	13971	.	+	0	ID=MGA_2020;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904124.1;translation=MKPVYKRMLLKLSGEALMGDKEFGISSDAIRIYAKQIKEIYDTGMELAIVIGGGNIFRGLSGKDQGVDRVTGDHMGMLATVINSLALQNAIEQLGIPTRVLTAIEMPKIAEPYIKRRATRHLEKGRVVIFGAGTGNPYFTTDTAAALRAIEINADLVAKATKVDGIYDKDPIKHDDAIKYDRVTYDEVLAKDLKVMDATAISLCRENKLPILVFNLLQEGNMKKVIYGENIGTTVVEKI;locus_tag=LOCUS_20080;gene=pyrH;EC_number=2.7.4.22;note=WP_005904124.1 UMP kinase (Fusobacterium nucleatum) [pid:82.9%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:3.1e-107],MGA_2020
sequence12	MetaGeneAnnotator	CDS	14045	14602	.	+	0	ID=MGA_2021;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904126.1;translation=MPQSVITDAREKMDKAVEATKHKFASIRAGRANVSMLDGIKVNQYGSEMPLNQVANLSAPEARLLVIDPWDKSIIKDIEKVIVNSNLGLTPNNDGKVIRLQIPELTAERRKEYAKLAKKEAEEGKVAIRNVRKDTNNKLRRLEKDSEITEDDLKRYENEVQKLTDEYIKKIDDLYAKKEKEITTV;locus_tag=LOCUS_20090;gene=frr;note=WP_005904126.1 ribosome recycling factor (Fusobacterium nucleatum) [pid:64.5%25%2C q_cov:97.8%25%2C s_cov:96.3%25%2C Eval:4.9e-63],MGA_2021
sequence12	MetaGeneAnnotator	CDS	15747	16460	.	+	0	ID=MGA_2022;product=CRISPR-associated endoribonuclease Cas6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880202.1;translation=MRFSLRLKALDKNVDLDYRRKFLSMFKTALSDYDSDIFDKYYHEKDPIRKQMTFSPYFRNSKIKDGKLLLNNDDFILNLSVYENEMGIHFYNSLLNMKNKEFRDLFQIEKISLQREKKFRNEVIFKTKSPIIAKEHNRETNKDSYYSFEDDKFIEVLKNNLYNNMRDCFEWDVRDDIDKLEIEILSAKKIVVKNYGITIPCTLGQFRLKGENYLLDYFYKAGFSAKSSQGFGYVDVE;locus_tag=LOCUS_20100;gene=cas6;note=WP_010880202.1 CRISPR-associated endoribonuclease Cas6 (Aquifex aeolicus) [pid:26.6%25%2C q_cov:100.0%25%2C s_cov:95.5%25%2C Eval:8.9e-14],MGA_2022
sequence12	MetaGeneAnnotator	CDS	16472	18139	.	+	0	ID=MGA_2023;product=type I-B CRISPR-associated protein Cas8b1/Cst1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861771.1;translation=MEDNKIKIELSDWLYNAGVVGLYNILEHNGDKVQIKDNFLEFEINSLENFEEKYFKYFIEKYEKFTSWYKIISFQNKIEYWEEDGFQNFNEKSLEELNSYIRDVLKKYLKSNSYIAAYDLINNDFDIKLAEKEISTINLKKNQEFQDILNNIKLMIEKIIKIINYFKEDESKKYLAGKNVMYNIIKNGWNGVCFLNARTKEKDMYIDYKKYFVDSTIEYNKVKKDKFKYNCFLCDREMKDLNNDLSFLNATGFDTKRKSSHVWNFTNDVAVCPICKLIYSCVPAGINYVYSKGIFINDNSNIDSLININQKVRDEILKEHETNNSLTYRAMIIALEEEINDKVKYELSDIQLVRYDEEKYRFNILSKKLLEVLRSSRDDLNKLIKTGFNEINTYFNIYEEVLKKIMNGENLFLFIHKLLSLKLSKPVDAHYKMSHLKSMMYINIKFLKGVGFVENIEKDIIDSANKQGYFLRTEYENRNSENKIGGICYRLLNGLKTNNKDMFMDVIMNCYLYIGKTVPKIFIEALKSDENFKTIGYAFVSGLINEKDKNNGGSK;locus_tag=LOCUS_20110;gene=cas8a1;note=WP_011861771.1 type I-B CRISPR-associated protein Cas8b1/Cst1 (Clostridioides difficile) [pid:22.7%25%2C q_cov:97.8%25%2C s_cov:97.6%25%2C Eval:5.9e-30],MGA_2023
sequence12	MetaGeneAnnotator	CDS	18139	19008	.	+	0	ID=MGA_2024;product=type I-B CRISPR-associated protein Cas7/Cst2/DevR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012544921.1;translation=MKNKGLILSMIFEAESANYGEGIGNVASLKKMARGRGEQYTYISRQAIRYNIIEQLGEEKAKVKVEKKVVQFHPDSTIKDYPEIDFFGYMKTVKGSDGKTRSARVRLSNAISLETFKGDLDFLTNKGLADRNEDGMKGMNIAQSEIHHSYYKYTITADLEKIGIDENDNISLDNKEKARRVNKLLDTIALLYRDIRGRREDLKPLFVIGGVYNVKNPVFQNILDIKNNRILVNSIKEVLFDSIKNDTYCGLIEGKFDNDEEIKKELKAKSMPEFFSTIKGKVSEYYESN;locus_tag=LOCUS_20120;gene=cas7i;note=WP_012544921.1 type I-B CRISPR-associated protein Cas7/Cst2/DevR (Thermodesulfovibrio) [pid:45.5%25%2C q_cov:97.9%25%2C s_cov:97.3%25%2C Eval:1.0e-60],MGA_2024
sequence12	MetaGeneAnnotator	CDS	18986	19741	.	+	0	ID=MGA_2025;product=type I-B CRISPR-associated protein Cas5b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439785.1;translation=MSIMKAIRIKLYQNMVNYKIPSSFQLKETYPLPPYSTVIGMVHNLCGYKEYQEMKISIQGKYHSKVNDLYTRYEFKNGMEFDKGRHQLQADKFGICRGISTVELLTDVELLIHIIPENQDLIEEIKNSLDFPKIFPALGRWEDLAVIGEVKIVEIFEEELEEDLSLGDNYSVYIPLKMIKDGKIMLLGNGNKTSNQGTRYKLNKNYKKKDYGRNRVIRKWNKVEVVYSSRVLAVENEKILLDSDKKIVFAV;locus_tag=LOCUS_20130;gene=cas5b;note=WP_003439785.1 type I-B CRISPR-associated protein Cas5b (Clostridioides difficile) [pid:30.4%25%2C q_cov:98.0%25%2C s_cov:97.9%25%2C Eval:1.4e-20],MGA_2025
sequence12	MetaGeneAnnotator	CDS	19751	21949	.	+	0	ID=MGA_2026;product=CRISPR-associated helicase/endonuclease Cas3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861769.1;translation=MLYLAKSNPRETIQEHTDKLLENYNILKDIYPNLEINWDILKLACIYHDLGKMNSKFQKKLKTGKRDKDEVAHNILSIGFVDTKRLKDIFQIDEIRVLLQAIAYHHERGEYDLEKFEEELDLMKEEIKNFVYDKIQIESLKKPSIKYFNNSRIREKENEELFYKYIMIKGLLNRIDYAASSDIKVEIENVFLNKSLDSWREKKQVKWNELQVFMGKNQNENVIVVAQTGMGKTEAGLRWIGNNKGFFTLPLKTAINKIYERIKDEIIEESYSEKIGVLHSDTYSEYVNLNEDDLDIENYYTKTKQLSMPLTISTLDQLFNFVFRYRGFEPILATLSYSKIVIDEIQMYSYDLIAYLVLGLYYISRLGGKFAILTATLPEFLLDIMKEEKISFKRAERDFINEKVRHSIKIEEKEINAEDIIEKYNKNKILVICNTVKKAQEMYQKLIDNNIEKVELLHSRFIKKDRKVKEKRITELGKIESKDYGIWVSTQIVEASLDIDYDLLFTELSDLNSLFQRMGRCYRKREFKEETYNCFVFNGGEKKCSGVGQVIDRDIFQFSKDILKEVDGKIDEKKKLELINRVYSTEKIKDTKYYELIKKNISYVKKIDDYEKSKTEVRNMFRNIESVTIIPKKIYRENKIEIDENLEILEKVNQKDNSAEERKALRREKELAKIEILKFSVSIPYYAFKNGTYDEMIKINKYEILYIFDCEYSKDVGVSFKNKKNKIDPFDC;locus_tag=LOCUS_20140;note=WP_011861769.1 CRISPR-associated helicase/endonuclease Cas3 (Clostridioides difficile) [pid:36.2%25%2C q_cov:99.7%25%2C s_cov:99.9%25%2C Eval:1.6e-118],MGA_2026
sequence12	MetaGeneAnnotator	CDS	22052	22462	.	+	0	ID=MGA_2027;product=CRISPR-associated protein Cas4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016964.1;translation=MESNSEAVEIGKLIDEKSYKRDRKHIMINETINIDFMRNRKVIHEIKKSDSMEEASIWQVKYYIYYLKKHGVEDIKAILDYPKLKKRVDVELNKDDEEEIEKILLEIEKIVRDQKMPSIIDSKICKKCSYYELCYI;locus_tag=LOCUS_20150;gene=cas4;note=WP_011016964.1 CRISPR-associated protein Cas4 (Fusobacterium nucleatum) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:82.9%25%2C Eval:2.6e-33],MGA_2027
sequence12	MetaGeneAnnotator	CDS	22489	23481	.	+	0	ID=MGA_2028;product=type I-B CRISPR-associated endonuclease Cas1b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896423.1;translation=MKNTYYLLKNGELRRKDNNLIVKACDGSEKVIPIETVKEIYIMGEVNVNSKLMTFLSQNSIILHFFNYYGFYSGSYYPKEKLVSGSLLVKQVEHYRSKEKRVELAREVLKSASYNIKRNLRYYNERGRDLEDEIKTIKNLRKHLDRQNEINELMGVEGNIREGYYRAWNKIVNQDINFEKRVKHPPDNMINSLLSYVNSLVYTTVLSEIYHTQLNPTISFLHEPSTKRFSLSLDIAEIFKPILGERMIFSLLNKNMINEDSFEKEMNSLYLKDSARKVILQKYDSRLKQRIRHKVLKKNVSYRYLIRLECYKIIKHILGEKNYEGFKIWW;locus_tag=LOCUS_20160;gene=cas1b;note=WP_005896423.1 type I-B CRISPR-associated endonuclease Cas1b (Fusobacterium nucleatum) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-115],MGA_2028
sequence12	MetaGeneAnnotator	CDS	23487	23768	.	+	0	ID=MGA_2029;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903132.1;translation=MYVILVYDVKLDSAIGQKVLRNVYKICKKYMYHIQNSTFEGELSRAQIVKLRYELDEYIRKDKDSIIIFKSRNERWLDKEFWGLEDDKTSNFF;locus_tag=LOCUS_20170;gene=cas2;note=WP_005903132.1 CRISPR-associated endonuclease Cas2 (Fusobacterium) [pid:58.7%25%2C q_cov:98.9%25%2C s_cov:85.8%25%2C Eval:2.8e-27],MGA_2029
sequence12	CRT:1.2	repeat_region	23960	26872	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=attttaataagaccatagtggaatgtaaat;note=CRT_1
sequence13	MetaGeneAnnotator	CDS	66	1898	.	-	0	ID=MGA_2031;product=glutamine--fructose-6-phosphate transaminase (isomerizing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048324.1;translation=MCGIVGYIGDNNASEIILDGLEKLEYRGYDSAGIAVNYNQELIIRKKEGRLKVLDEDLKSNPIAGNIAIGHTRWATHGAPSDENSHPHFNLDKSIAVVHNGIIENYMDIKKELTQLGYNFFSETDTEVIPHLLDFYSKQSDDFFSAIQKTLKKVKGAYALGILNTKNPDTIFCARKDSPLVIGKGTNENFIASDVPALLKYTKEVYFLENEEIGVITKDSIEIFDLDKNVINRDLHTIEWSMDQATKAGYPHFMLKEIHEQPQGIRETLNRRLDENNQIMFDDINLDKSNIDSITNIYIIACGTAYNAGLQGKFALQKIAGIKADADIASEFRYSDPFIDENTLVILVSQSGETLDTLAALREAKSKGATTLAITNVIGSSIAREADNVIYTWAGPEIAVASTKAYTTQVVVFYMLALYLADIKENISKENYSHIVDELLAIPDKVQSIIETEEKIKKIAEKIKDNTNGFFLGRGLDYSIATEASLKMKEVAYMHTEAFASGELKHGTIALIEENVPVVAIATQDNLFEKSLSNIKEVKARGAYVIGVTQISNRTIEEVADEVIFIPETDDLIAGITAIVPLQLLAYYVSILRGLDVDKPRNLAKSVTVE;locus_tag=LOCUS_20180;gene=glmS;EC_number=2.6.1.16;note=WP_012048324.1 glutamine--fructose-6-phosphate transaminase (isomerizing) (Clostridium botulinum) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-220],MGA_2031
sequence13	MetaGeneAnnotator	CDS	2442	4442	.	+	0	ID=MGA_2032;product=PTS mannitol transporter subunit IICBA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009874520.1;translation=MRKRIYKRVANLISKIILENIPFFILLGILSFFGLEYSMLNDFKDIMHKYVIPVVVTYTAGRTIENKFGGITAVIVMGGVLSKYSFQSFLGPILIGVIAGIVIRKYREQIKKIPYPGYEMILNNLGTVFISLLLIMLFVYILPVYGYVQVKFLNRFKETIFNITYFPLFSVIIEPAKVFFLNNLINHGVLSVLGLAELNEKGKSIFFLLETNPGPGLGVLLAYYFYEKKKQNHVKTKDIASNIFIQFIGGIHEVYFPYVLRRLTLIPALIMGGVTAVYIFQRFDAGLVGVASPGSIIMLLVLAPVKDKIIVFFGVMISTVVTFLISYYILNRKEIMNGKKEIDNMFNRIYVNEKIKYREKINIYVVCDAGMGSSAMGATLLERKIKKAGIRNIKVDNSSVDRIPENGDIIIVHKQLLNRIDVNESEKNIITIDDFMDSKFYDILVEKLKNTIDSDIVLGKERKNIINIEKIVREEKLTEEINKKYKTKRSELMKDKKELNIEKENKEQKENRIENIVKNKKILYRENIQIGLKRTEKEKALKNIGKELFEKGYVTEEYIETILEREKVSSTYLSYGIAIPHGSAKGTPYIKQSGIVIHQYPYGIDYGDGKIVYIIIGIAALKDKHIQIISKLAELIDNEKISEQLSTAIDIEEIYQIFLDLEEEIC;locus_tag=LOCUS_20190;EC_number=2.7.1.197;note=WP_009874520.1 PTS mannitol transporter subunit IICBA (Buchnera aphidicola) [pid:33.9%25%2C q_cov:90.7%25%2C s_cov:89.4%25%2C Eval:2.0e-96],MGA_2032
sequence13	MetaGeneAnnotator	CDS	4436	6541	.	+	0	ID=MGA_2033;product=BglG family transcription antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986653.1;translation=MLNKRCLGIIKYMIDNNKSVSLKEISNIFDVSERSIRYDIDNINYFLAKNGLNQIEKMSKGLFKINETDENLYKIIEILNTRFYTFSKHERKEYIKSLALFSIDAIRLHEISETLSVSISTIKLDLKEVKIFLNESKLKLKFLSKIGLVLKGNEEKIRKAQLKFLMEYLDISKDTLISKIRKDETLGYKLIRNELKLYFENFPIRDVRIFIKRIERELQTVISDEAYRVLQFYLMIALTRLKEGKTIVSREENEKFLKSTKEYNVLIKELVHFEQNFNVEFNEYEILFLTELFLGSHSYNFNTSFYENWIEIEISINEIIKDVGKALGIDLSNDKILFDGLLNHLKPAIYRIKNDIVLENEISNEVKELYDELFDIVKKVCEDKLQIYINKQVPDEEIAFLTIHFKTAIDRKANNQKETKNVMIVCGFGYGSSKLLAQKLLERYDVNVLDTLPYHKFLEIENYNDIDLIISTLDVDDKIGYPFPIVKVNPIFSKTDRKKLEEYGLTEVRKKISLVKLMEVIKGECEIENEAVLADKLKTFLRGKLFDDRDKLGKKNLNMLLPIKNIKLDCKADNWEDAIRQAGKILVKNGSIKPGYIDEMIEAVNKNGSYMVVAGKIALPHARLTNSVLKTDMSLIKLKEVVDFPENKKVKMILAFSSVDQNEHIEALTELVTLVEDYEFIEFIEEIDDPVEIKKFITEKS;locus_tag=LOCUS_20200;note=WP_011986653.1 BglG family transcription antiterminator (Clostridium botulinum) [pid:31.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:3.1e-95],MGA_2033
sequence13	MetaGeneAnnotator	CDS	6875	7024	.	+	0	ID=MGA_2034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFILNARITRETYIYKLNEYFKSFNINNGKYNKNQKNIYEILMIYGDQ;locus_tag=LOCUS_20210;note=MGA_2034
sequence13	MetaGeneAnnotator	CDS	7594	9492	.	+	0	ID=MGA_2035;product=PTS mannitol transporter subunit IICBA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015369190.1;translation=MSQSNLSENLGEQNLKVKVQAFGRFLSSMVMPNIGAFIAWGLITALFIPVGWMPNATLSKLVGPMITYLLPLLIGYTGGKVIGGERGAVVGAIATSGVIIGTNIPMFMGAMIAGPVGGYCIKKFDEAIQGKIKAGFEMLVNNFSSGIIGMILALFFFKVMGPAVEVASTGLGNAVQVLVKMNLLPLTSILVEPAKILFLNNAINHGVFTPLGVQQSTEIGKSLFFFIEANPGPGLGILLAYWFFGKGSAKESAPGAIIIHFLGGIHEIYFPYVLMNPLLIIAAILGGMSGVFTNVILKGGLIAPAAPGSIFAALAMTPKDGFLATISAVVVAAAVSFFVGIIILNKEGQAEEDLEAAEVKMKAMKNKPSTSANNSLDAVTGVSRIVVACDAGMGSSAMGASLLRKKVKNAGLNIDVTNLAINNLTEDIDIVITHKDLTPRAKTVVKSPIHMSISNFMDGDFYDNLVEELKKKQINKGTVKIETKANDRDEAKSDILVKEGITLGLPSISKIEAIKEIGIKMANMGYVAKDYYKYMLEREEKSSVYIGNGVAIPHGTLEGKAEVLKTGIVINQYPEGIDFDGEKAYLLIGIAGKNNEHIDIISNIADIIEDEDKVVELGKTKNIDDIYNSFII;locus_tag=LOCUS_20220;gene=mtlA;EC_number=2.7.1.198;note=WP_015369190.1 PTS mannitol transporter subunit IICBA (Klebsiella aerogenes) [pid:58.1%25%2C q_cov:97.0%25%2C s_cov:98.6%25%2C Eval:1.3e-201],MGA_2035
sequence13	MetaGeneAnnotator	CDS	9719	10861	.	+	0	ID=MGA_2036;product=mannitol-1-phosphate 5-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861528.1;translation=MKIAIQFGAGNIGRGFIGKLLSQSGYKVYFTDINESIINEMKNKNQYIVEIVGEKKEENIVKNIDGVLSNDKSLIDIIAEAEIITTAVGPTVLSIIAKTLAEGIEKRKALGNTSFLNIIACENMIKASTFLKEEIEKYISNDTAEFIEKYIGFPNSAVDRIVPPMEDSTDLLRVRVEEFKEWIVDKTLFKGTIPEIEGMQLTNNLMAFVERKLFTLNTGHAITAYIGVLKGYKTIKESIENEEIQNIVKNAMKESGEVLIKRYGFEREKHYKYIDKILNRFKNPYLKDEVKRVGRQPLRKLSFNDRLIKPLRGTLEYGTSNENLIYGIAAALKYENAEDEQAKELQEKIAANNIKDVIKEITSLEEEIIVEKIAAKYLSL;locus_tag=LOCUS_20230;EC_number=1.1.1.17;note=WP_011861528.1 mannitol-1-phosphate 5-dehydrogenase (Clostridioides difficile) [pid:57.3%25%2C q_cov:99.5%25%2C s_cov:98.7%25%2C Eval:1.0e-112],MGA_2036
sequence13	MetaGeneAnnotator	CDS	13267	13803	.	-	0	ID=MGA_2037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016228.1;translation=MNVSKIENMINYINSSKTPKNKAFNEFAVEFYLETRDIPLSKFLKVRNYTSKTPKIMNTKKAGELIIESKNNPKILTFLNDNGYNDIPELNYSAIMLLRKVTPEKNWKKVIKYLKGQGTIDEINRKNKKTLLPEDKENIEIYLKEKLEITSDEFHNFLNLYSKIINNKELKKSINKLV;locus_tag=LOCUS_20240;note=WP_011016228.1 hypothetical protein (Fusobacterium nucleatum) [pid:45.2%25%2C q_cov:99.4%25%2C s_cov:98.3%25%2C Eval:3.4e-42],MGA_2037
sequence14	MetaGeneAnnotator	CDS	267	1247	.	-	0	ID=MGA_2040;product=site-specific integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016688.1;translation=MEIINVENNIILRKKKKKNNEKIDSSLFSIYKSEKTIKDYMFYLKKFLEFTYENVNFNSQNEIIELMVNVDKDDVEEYIKHLVVEKKLKNSSINKIIFSLKSLYKELEKKGANNPFKFIPSMKHNAYNLDNILKISFEEIQTILINFEKKDDISYRNYTILYTLFYTGMRSSELLNLKYNNIITRNNEKVLKLEKTKSGKIQYKPLFEDCYNEIMKYKKYIKNIYNLKEDEMNEYYIFPTNFITNKKMSYNNLYKIIKDIGKLANKNISPHNIRHSVATELSLQGADVLEIRDFLGHSDTKVTEIYINAKGILEKKALNRLPKIRK;locus_tag=LOCUS_20250;note=WP_011016688.1 site-specific integrase (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:99.4%25%2C s_cov:98.5%25%2C Eval:9.0e-88],MGA_2040
sequence14	MetaGeneAnnotator	CDS	1257	1973	.	-	0	ID=MGA_2041;product=phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393968.1;translation=MKYLIDLHVHSNVSTHAYSTLNELIQTAKDKKLLGFALTNHGSMAPDSPHDYHFGNLKIFDKYINGIRLFKGIEANIISENGDTDLPKKYYDLIEIKLCGFHKGTPYGDGKNIEKNTIALINAIKNKELTIISHLGNPSYKVHYEEVIKIASEYNVAIEFNNSSLTTSRLGSEKNCYEIAELCKKYNTFISLGSDAHHSSFLGNFQEVYKIINKVNLNTKMIINTSINKVEEFINLHK;locus_tag=LOCUS_20260;note=WP_011393968.1 phosphatase (Moorella thermoacetica) [pid:37.0%25%2C q_cov:100.0%25%2C s_cov:95.6%25%2C Eval:1.2e-45],MGA_2041
sequence14	MetaGeneAnnotator	CDS	2051	2755	.	-	0	ID=MGA_2042;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000062202.1;translation=MLKVENLNVHYGNIHAIKDLNIEINKGEIICLIGANGAGKTSTLHSISKLIIPSSGKMFFEGEEITNLSTTEIVKRGLIQVPEGRRVFANLTVLENLELGAYLKTNKKEVEKDMEKVFNRFPRLYERKTQLAGTLSGGEQQMLAMGRALMASPKLLLLDEPSMGLAPLLIQEVFNIVQEINKEMGITILIVEQNANMALKISDRAYILETGNIIKSGNAKNLLHDEAVREAYLG;locus_tag=LOCUS_20270;note=WP_000062202.1 ABC transporter ATP-binding protein (Streptococcus mitis) [pid:63.7%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.1e-80],MGA_2042
sequence14	MetaGeneAnnotator	CDS	2757	3524	.	-	0	ID=MGA_2043;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_025773590.1;translation=MLLEVHEVTKQFGGLTAVDTINLNIKKDELIGLIGPNGAGKTTFFNLLTGVYEPTSGYIKLLGEDITGQKPYRITEKGMARTFQNIRLFKDLSVLDNVRVAKIFNTDYGIFDSIFRTKKFYKEEIRVRKEAEELLDRFGLLKKMDLPAHSLPYGEQRKLEIVRALATNPKLLLLDEPAAGMNPQETTELMDLIKKVKNDFDISILLIEHDMKFVMSLCERIAVLDYGKIIALDTPEKIKNNKKVIEAYLGEVEED;locus_tag=LOCUS_20280;note=WP_025773590.1 ABC transporter ATP-binding protein (Moorella thermoacetica) [pid:60.2%25%2C q_cov:97.6%25%2C s_cov:94.3%25%2C Eval:3.4e-78],MGA_2043
sequence14	MetaGeneAnnotator	CDS	3526	4383	.	-	0	ID=MGA_2044;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124797307.1;translation=MEQYILLIMTLITINIILAVSLNVINGLMGYLSLGHAGFMAIGAYTSAILTTQYNFPIFISVIIGAILAGFFGFLIGFPTLRLKGDYLAIVTLGFGEIIRIIILNMTITGGAKGYPGIPGIKGLNGFLIGLGFAIVTVIVITNIALSAEGRALLSIRENEIAAESMGVNITRYKIKAFIIGSLFAGLAGGLYAHLIQYVKPDNFNLYKTVDILLMVVLGGSGSITGSILAAIALTSISELLREFSEYRMLVYPLMLIILMLVRPNGILGKKEITDFISFKKKRGV;locus_tag=LOCUS_20290;note=WP_124797307.1 branched-chain amino acid ABC transporter permease (Fusobacterium canifelinum) [pid:46.8%25%2C q_cov:99.6%25%2C s_cov:89.0%25%2C Eval:4.6e-66],MGA_2044
sequence14	MetaGeneAnnotator	CDS	4393	5502	.	-	0	ID=MGA_2045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIQQLINGLSLGSIYALIALGYTMVYGILKLINFAHGEIYMIGTYIGYYFFRMTFVLGLAKKYAVNSKIAVNFLDKQEIISQNPKLLMKYIANNFNEFGIIKDSNFRKSITNVAVEQAKGLKHMSEFINSNSIIIFLLLLIVSMFLTALVGIIIEKLAYKPLRNASRISVLLTALGVSIFIQNAGIKIFGGDPKAFPQLIPSKFYNITDNILISNHQIIIIFVSIILMILLEIIVHYTKVGKAMRAVSFDKSTAELMGIDVNKIISFTFAIGSALAAAAGILIGMRFNKIDPLMGMMPGIKAFVAAVLGGIGSIPGAVIGGLIMGISESLVVGYISSTYRDAIAFAILIVILLIKPSGIFGKNVKEKV;locus_tag=LOCUS_20300;note=WP_012583298.1 branched-chain amino acid ABC transporter permease (Dictyoglomus turgidum) [pid:58.5%25%2C q_cov:62.1%25%2C s_cov:77.8%25%2C Eval:4.1e-71%2C partial hit],MGA_2045
sequence14	MetaGeneAnnotator	CDS	5583	6698	.	-	0	ID=MGA_2046;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583297.1;translation=MKKLMLIVLGLILSVMSFGKDIKIGVIAPLSGPLALYGQTTVNGYDLAVKEINAKGGINGMKLVLIKEDNKGDSAESVAAIKKLITVNKVDVILGGVTSGNTMAIAPIAQEYKIPMLTPTATNIKVTTFGDYISRTCFIDPFQGEVMANFAYDNLKAKKSIIMKNAADDYSEGLALEFEKTFNENGGKVVDVINYVTGDIDFSSQLTKIKNMDTDVIFLPGYYNEVALIVKQARDLGIKAVFLGGDGWDNSKLFEIGGTSVNGSYVSTHFSKESEDKQVQNFINNYFNEFFEDPSPLSALGYDAAYIMAEAIKKAGSLDKVKIKNAINSTKNYKGVTGVISLDENRNAKKSAFILKAENGAFIYETTVDPK;locus_tag=LOCUS_20310;note=WP_012583297.1 ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:47.7%25%2C q_cov:98.9%25%2C s_cov:97.6%25%2C Eval:2.1e-91],MGA_2046
sequence15	Barrnap:0.8	rRNA	136	1648	.	+	.	ID=Barrnap_1;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00010;note=Barrnap_1
sequence15	DFAST	assembly_gap	1684	1777	.	+	.	ID=GAP_3;estimated_length=known;gap_type=within scaffold;linkage_evidence=paired-ends;note=GAP_3
sequence15	Barrnap:0.8	rRNA	1856	4761	.	+	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence16	Aragorn:1.2.38	tRNA	6	81	.	+	.	ID=Aragorn_51;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00500;note=Aragorn_51
sequence16	MetaGeneAnnotator	CDS	290	685	.	-	0	ID=MGA_2049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNFFLLILCFFVFYINILSIEFEEYNLELKKILIKRKEINFYKKENIYFENIFNKIDNIQIRLNTLIKKNFFDLLFEGNLEAKILNSDNFKNVKIRYMFIKKYSNIIDLYVDQEKEEVIIFFKVNFSFF;locus_tag=LOCUS_20320;note=MGA_2049
sequence16	Aragorn:1.2.38	tRNA	785	862	.	-	.	ID=Aragorn_52;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00510;note=Aragorn_52
sequence16	Aragorn:1.2.38	tRNA	869	944	.	-	.	ID=Aragorn_53;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00520;note=Aragorn_53
sequence16	Aragorn:1.2.38	tRNA	950	1025	.	-	.	ID=Aragorn_54;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00530;note=Aragorn_54
sequence16	Aragorn:1.2.38	tRNA	1028	1115	.	-	.	ID=Aragorn_55;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00540;note=Aragorn_55
sequence16	Aragorn:1.2.38	tRNA	1128	1202	.	-	.	ID=Aragorn_56;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00550;note=Aragorn_56
sequence16	Aragorn:1.2.38	tRNA	1206	1282	.	-	.	ID=Aragorn_57;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00560;note=Aragorn_57
sequence16	Aragorn:1.2.38	tRNA	1298	1374	.	-	.	ID=Aragorn_58;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00570;note=Aragorn_58
sequence16	Aragorn:1.2.38	tRNA	1378	1453	.	-	.	ID=Aragorn_59;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00580;note=Aragorn_59
sequence16	Aragorn:1.2.38	tRNA	1457	1532	.	-	.	ID=Aragorn_60;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00590;note=Aragorn_60
sequence16	Aragorn:1.2.38	tRNA	1537	1613	.	-	.	ID=Aragorn_61;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00600;note=Aragorn_61
sequence16	Aragorn:1.2.38	tRNA	1620	1707	.	-	.	ID=Aragorn_62;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00610;note=Aragorn_62
sequence16	MetaGeneAnnotator	CDS	1773	3032	.	-	0	ID=MGA_2050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDENFEVLEVGELEDFSIMMKSFHKRRLETKTVSIFLDSNVYNDIINRPFIFILLPFFSPPKQRGLNLIYEIENAGIKFASYLSNDTLEKFSNKQPGEFEKNVLDFIMWKVQRKILNKKEKTRIINFKITELIEYLGLKFHSSYYKKVEEALFNLQETTYKIKIKNQKKAGNIIREVYEKPLNLIRYKKVKENNVLKKSKKIFYEVELDDRLIQELEIKHYSIFDKELLKELRNKNKMSERIFQFISMKRFTKNNGEFKIETLASIIPLSLYSIIRKTDKHGNIKEYKVSKKKKVLEKLEIAFKDLVELGYLEKYEVVQFENSYKIKYVFNIKKDNSIHKSSYLTRKQIEDIDKKVNDEEIEKNKYLEIYINLNEKKQNEIKLNALKKLEKIKKRNYFLNMNEEMEFIEKTLVDYLK;locus_tag=LOCUS_20330;note=WP_011016063.1 replication initiator protein A (Fusobacterium nucleatum) [pid:29.4%25%2C q_cov:94.0%25%2C s_cov:64.5%25%2C Eval:1.8e-41%2C partial hit],MGA_2050
sequence17	MetaGeneAnnotator	CDS	7	1191	.	-	0	ID=MGA_2053;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903497.1;translation=MAKEKFERSKPHVNVGTIGHVDHGKTTTTAAISKVLAEKGLAQKVDFENIDQAPEERERGITINTAHIEYETEKRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLSRQVGVPYIVVYLNKADMVDDEELLELVEMEVRELLTEYGFPGDDVPVITGSSLGALNGEQQWVEKIMELMDAVDEYIPTPERPVDQPFLMPIEDVFTITGRGTVVTGRVERGIIKVGEEIEIVGIKETTTTTCTGVEMFRKLLDQGEAGDNIGALLRGIKKEEVERGQVLAKPGSITPHTNFSGEVYVLTKEEGGRHTPFFSGYRPQFYFRTTDITGAVNLPEGVEMVMPGDNIEMTVELIHPIAMEEGLRFAIREGGRTVASGVVSKIIK;locus_tag=LOCUS_20340;gene=tuf;note=WP_005903497.1 elongation factor Tu (Fusobacterium nucleatum) [pid:83.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-190],MGA_2053
##FASTA
>sequence01
ATTTTCCCTATTTCAAAATAATCTACTCCTACTTTTACACATGTTTCATATACTTTCTTTACAAATTCATCACTAAAATGATAGTTATTTATTAATCCCCCATCTCTTATTGTACAATCAAGTACTTTTACATCTTTTTTCATAATTCTTTTCACCTCCAAAAAAAAATAAAAACTCTGATTCAAAAAATGAACCAGAGTAAAAAAAATCCTGCTCTATAAAATAGAACAGGTTTATAATAACATAATTTATTATTTCGTATTATAATATGGCAAAACCTGATTCATATTGATTATTCAATTTAGAATTTTTTTGCCACCAATATAGAAATCTTATCATTTATCTCACCACTTTTTATATATTTTTATTTTTAATAAGTATATACTTTTATGATGCATTTGTCAATTTTTATTTTCAAATAAAAAAAACACTCAATATGAGTGTTTGAATTTTTTTAAAATTTTATAAAACCTTTTGCTTAAAAAATCTTTTAGATTTTTACGCTTGCTCATAAATTTTACTCTAATTTTAATTTAAAACCTTTTGCTTAAAAAATCTTTTAGATTTTTACGCTTGCTCATAAATTTTACTTCGTAAAATTTATTTATGGTGGTTAGGGAAGGATTCGAACCTTCGAAGGCAGAGCCGGCAGATTTACAGTCTGCTCCCTTTGGCCACTCGGGAACCTAACCACTAAATATTATATGGTGCGTCATACAGGAATCGAACCTGTGACAACACGATTAAAAGTCGTGTGCTCTACCAACTGAGCTAATGACGCAACTTGGAGCGGGAAACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACGCTCTACCAACTGAGCTATTCCCGCAAGAGACATTAATCATTATACATAAAAGTAAACTATTTGTCAACTTTTTTTTTACTTTTTTTATCTTTCAATTATTTCATAATCAATATGGTTTTCATCTAAAAAATCTAATAGTTCTTCTGTTGTTTCTAATTCATCAAAATCTAACTCTTCAAACTCTTCAGTCAATAACTCTTTTATTTTTTCCCAATCATCAGGTAATATTACCATTTCGTCATAAAATTCAAAAAGTAATGTCATTTCTTTCACCTCTCTTAATCAAAAATGTATAAAATTCGAGTTATTTTAACCTATTTAAAAAAAAATTTCAAGATTTTTTTGTTTTTTTTCTTTACTAGTCTTCAATAGTTAAATTTTCTAATAAATCTTCATCTATAACTTCTTCATTTTCTGGTGTTTTTACTAAACTTTCTAAGTTTTCTTTTGGAGTTTCAATAACTTCTTTTTTTATTTCATTTTTCTCTTTAAATTCTTTTAAGTTTTTTAAAAGAATTTCAATATCTTCATCTTCTAATAAAGTACTTATATAAATTTTTATTCTAGGTTTTATTGTATTTTTTGCAATACTTGTAGACACTAATATTCCATTTTTATATAAAAATTTGCTTAAAAGTATTGCTTCTTCATTTGTATTAAATACAATTGGTATAATATGTGATGCTGAATGTGCTATATTAAATTCCATTCGCATCAATTCTTCTCTAATTTTTTCACTATATTTTAATACTTTTTCCCGTCTTTCTTCTTCATCTTTTATTATATCTAAAGCGGTTTTTAAACTATTTATAAATATTGGCGTCATAACACTTTTATAAAATATATTTTTATTTAATGAATTTTTCATAAGAAGATTTATATAATCAACTTTACCAGACACATATTCTCCTAAAACACCTAAATTCTTAGAAAAACTTCCAACTATTATATCAACTTCATCTTCTACTTTCTGTTCTAATACTACTCCTCCTAAATCTCCTCCATAAATACCATCTGCATTACTTTCATCTACAATAAATATAAAATCAAACTCTTCTTTTAATTTTACAATTTCTTTTAATTTAGCTTTTTGTCCATCTGTATTAAATATTGTATCTGTTATAACTCCTGCTTTTTTAAACTTATCTCTATTTTTTTTAATCTTATTTTTTAAATCTTCTATATTATTATGCTTATATCTTATTAAATGTGCCCCACTTTTATATATTCCTTGATATAATTCAATAAAATTTTCTGAATCACTAAATATTATATCTTTTTCATCAAATATCGTAGGAATTACTCCTGCATTAATATTATATCCTGAATTATAAAGTATCGTATCTTCTTGTTTTTTTAATTTTGTAATTTCTGTTTTTACTTCTAAATATATATCTATAGCTTTAGAATTTACTGGTACAACTTCTGAATCTATTCCATATAAATCAATAGCTTTTTTTGCAGCATCTTTTAATTTTTCATGACTTTTAAGTCCCAAAAAATTTCCTGATGTAAAATCTAAATATTTAATACCTCTTATTAATATATGTTTATTATCTGTTTTTTCTACCCCTTGTAAATATAAATTTTTCACCTTTCCACCTCTTTATAAATTTATTAATTTATTATTTATAAAATCTTCTATATTTTTTACAACTCCATTTATCAATTTAATTCTACTCTCTATTGACGCCCATGCTATATGAGGAGTAATTAATATATTATCTAACTTTAATAAAGGATTCTCTTTTTTAGGTGGTTCACTGTCCATTACATCTATTGCTGCTCCTGCTATTTTTTTCTCTTTTAGAGCTTTATAAAGTGCTAATTCATCTACTACAGGCCCTCTTGCTATATTTATTAAAAAACTTGTTGATTTCATCATATCAAATTCTTTATATGAAATCAAGTGCTTTGTATCTTTACTAAGAGGACAGTGCAAAGTAATAAAATCAGAGTTTTTAATCAATTCTTTAAATTCCGTTCTAAAATCATCTTCATAATTAACTCCCGGTCTTTTAGCAATTAAAACTTTCATTCCTATATTTTTTGCTAATTCTTCTACTTTTTTACCTATTTCTCCATATCCAATTATTCCCAATGTTTTATCTGTTATATCAAACATTGGGTATTTTAATAGTGTAAAAATCGGTGACTGTGACCACTCTCCTTCTTTTACGCTTTTATCATATTTACATATATTAGTAGCTAATGCTAAAATATAAGTTAATGTTAATTGAGCTACTGAATTTGTAGAATATCCTTTTACATTGCATACTTTTATATTTCTTTTTCTAGCTTCTTCTAAATCTACATTGTTGTATCCTGTAGCTGTAATTGCAATAAGTTTTAGTTTTTTAGCTTGTTTTAATTCTTCTTTTCCAAAATAAATTTTATTTGTTATTATAACTTCCACATCTTTTATTCTGTCAAATAATTCTTCTTTACTTGTTGTTTTATAATACTTAAATTCTCCAAATTTATTAAAAATAGATAAATCTATATCATTGCCTAAACTAATTGCATCTAAAAATACAAGTTTCACTTTTTCCCCCTAATATTTTAAATATATTTTAAAATTTCAAATGAAAATAATAATTTTTATTTTTTACTTTTCATATTATGTACTTAGTATAATTTTTCTAAAATTATTTACAATTTATACTACTTTTTATATATTTTACAATATCTTTCTTTATTTCCTCTGAAATTAAATCTATTTCACATTTTTTTTCTTTTAATGATAATAATTTTATAAATTTTTCATTAATAATATACTCTATACTTTTTACTGTTTTTATAAAATTATATACATCTTTCCAAGTTTTTAATCTAATCCCCTCCCATTTTTTATTCCAATTTTTTATATCATTAGGTTCAAATAATATTTTGTATTTTGCATTACTACTATTTAAATTACTTGAGTGATCATCAATAAAAATAGCTCCTTGCATATTTATCATTGATTTATCAGAAAGAACTTTATACGGAAAACTAATAGTTATAACTTTTACTTCCGGAATCAATCTTTTTAACATTTCAAGTTTTTTAGAATTGTTAATATTTTTACCTACAGTACAAAAATATACTTCTTCAAATTCTTCATTTAATTTTTTTATATATTCTACTGCACCTTCATATGTATTATTACCAGAATATACTTCATCACTTTCAAATAAGTCATTAATCACATTATCTGGCGTTCCTGCTGGAATAGCAGGACTAAAATTCCAATCTTTTACATCTCTCCAATCTGCATTATATCCATATTTTTTATTATATAACTCTACAATAGCTTTTTCAGTATTCCATAATACTCCATCAATATCAATAAAAATTTTCATAATACTCACCAACTTTCCATATTAGTATAATTATCTTGTACTATATTCTTCGAATTTTTTTTAAAAATCCTTTAATTTAAATAAAAAGTCAGAGGAATCCTCTGACTTTTTTTAGAGAGAAAATATTTTTCTATAATTAAGCATAACTATAATCCTAATTCAAACGCTTCATGTACTGCATTTAACGCTTCAAGTCCTAATTTCTTATCAATTAAACATGATATTTTTATTTCTGATGTGCTTATCATCTCTATATTTACTCCTGCTTTATAAAGTATTTCAAATAATTTTGATGCTACTTCTGCAGAACCTGTAATCCCCGTTCCTACAATTGAAAGTTTACATACATCATCTTTAACTATTACTGTATTACCATTTACACTTTGTAAAAATTCATTTGCTATATTTTTTGCATTATTGAGATCATCTGTAGATACTGTAAATGAAATATCATTTTTACCATTATGATCTAAGTTTTGTATTATCATATCTATTCCTATATTATTTTTTGCTAGATGTGAAAATAAATTAAATGCAACTCCCGGATGATCTGGTACATCTACTACTGATATTCTTGCTATATTTTCATCTATTGTTACTCCTCTTACTAGTACTTTCTCCATTTTATTTACCCCCGCTACTTTAGTTCCTTTTCCTTCTTCAAATGTAGATTTTACATACAATACCAAATTATATTTTCTAGCTAACTCTACTGATCTTGGATGCAATACTTTTGCTCCAAGTTTAGCAAGTTCTAACATTTCATCATAACTTATTTCATTCATTAATTTTGCTGTTTTTACTTTTCTTGGATCTGTAGTAAATACTCCTGGTACATCTGTATAAATTTCACACATATCCGCTTTTAATGCACAGGCTAATGCTACTGCACTGGTATCAGAACCACCTCTTCCAAGAGTTGAAATATTACCTTCTTTTGTAATTCCTTGAAATCCTGCTACAATTACTATTTTATTATTATTTAATTCGCAGTTTAATCTTTCTGTGTTTATTTCTTCTATTCTTGCTTTTTTATGTCTACTATCAGTAATTATTCCAGCTTGAGCCCCTGTAAGTGATATAACATTCTCTCCTAAATTTTCTATTGCCATGGCAAGGAGTGCTATTGTTATTTGTTCTCCTGTTGATAATAATACATCCATTTCTCTTTCTGATGGATTCTCTGTTATTTCATGAGCCATATTAACAAGTTGATTAGTTGTTTTTCCCATAGCAGATACAACAATAACCATTTTATTTCCTTGTCTTTTCGTTTTTACTACTTTTTTTGCTATGTTTTTTATTTTTTCTATATCACCTACAGATGTTCCCCCATATTTTTGTACAATAATGCTCATTCTATCACCTCAATTAAAGTTCCTTTATTATTTATTTGTAATTTTTTTATATCCCATTTTTCTTCTAATGTTTCTAAAAACTCTTTCATATCATGAAAAAAATCTGTATTTTTTTTATCGATTATTGAAATAAGAGTAGGTCCAGCTCCACTAATAAATTCTCCATATGCTCCCAATTCTTTTGAAACTTCAAATATTTTATTACAATTTTTAATAAGTTCTTTTCTATAATTTTGATGAATTTTATCATTTATTCCAATTCTTAAATTTTCATACTCTTTATTATTTAAAGAATTTATTAATAATGCTACTCGTGAAATATTAAAAACACAATCTTTTCTATAATATTTTTCAGGTAATACTTTTCTAGCTAATTCTGTACTAAGTTTAAAATCTGGTATCATTACTATAAATTCTAAATCTTTTGGAAAGTTAATTAATGAAGTATATACTTTTTTATCTTCATAAACAGATACAGATAAACCGCCAATAATTGCAGGTATAACATTATCAGGGTGTCCTTCAAATTCCGTTGCTAAAAGTTTTATATCTTCTAATGTTAAAATATCATCAAGAAGATAATTTGCTGCATAAATTCCTGCAACAATAGCTGATGCACTACTTCCTAATCCTCTCGATATAGGTACATCTATACTCCCCATAGTTAACTCAAATCCTATATTATGTTTATTATATTTATTAAGAATTTTTAATATTGTAGTATATGTATAATTTTCTTTGTTATCAATTGATGATACATTAGATTTCCAAACTACTTTTTTTTCATTAGTATCTAATTTTTTTATATAATATTCATTATAAATATCAATTGCTACTCCTAATGTATCAAATCCTGGTCCTATATTAGCGCTAGTTCCTGGAACTTTAATTTTTAGCATATTATCATATCCCTTCACTATGCATTATCAATTAAAAAATATTTTACTGCTTTTAAGTATCCTGTTTCTTTTAATTTTAATAAATTTTCTTCTAATTCATATTCATTTATATCAGATACCTTTAAGGCAATCTCTCCTGATGATAAAAATGATGTAATTTCTACTCTATTACTACTAAATATATCAAAAATTTTCCCAGTAACTTTGTTTATATCATCACTGTCAACTCTAACTAACCAATCACTTTTAAAAGGGTATTTATATGTAAATTCATAATTTTCTTTTGACAAAACAATTTTACTTTCATTTTTATTAATAATAATATCTACAATATCGCCAAATACTGCACTTGCTGTAGGATATTTCCCTGCTCCTTTTCCATAAAAAAGAACTTCTCCTACACTATCCCCTGTTATCATTACTCCATTAAATTCATTATCTATTTTTCCTAGTGTAGAATCAGCTTTCACTACTACTGGTCTTACCGCTATATATAATTTATTATCTACTGCTTTGCTAAATGCTATAAGTTTTATTTTAGAATTTAAATTTTTAGCATTTATTATATCTTGAGCATCAATATTATCTATTCCTTCACAATATATATCTTTCCAATTTATTTTAAAATCTAACCCTAAATCGGTTAATATAGTAATCTTTCTAGCTGCATCATATCCTTTAACATCTGATGTTGGATCCGCTTCAGCAAATCCCATGTCTTGAGCTATTTTTAATACTTTACTATATTCCATATTTTCATTATACATTTTTGATAATATAAAATTTGTTGTTCCATTAATTATAGCTTGAATTGACAAAATATCATTTCCTACTAAACTTTCTTTCAATGGTTTTAATACTGGTATTCCACCACCAACACTGGCTTCATATGCTATTCTTACTCCACTTTCTCTTGCAATTTTTCTTAGTTCTTCCCCGTGCTCTGCAATGAGATCTTTGTTTGAAGTAATCACATGTTTTTTTGATAAAAGAGATTTTTTTACAAAATCATATGCTGGATTTACGCCTCCTAACATTTCAATTACTATATCTGCTTTTCCATTAATTATTTTATCTATACTATCAACAAAAACATTATAGTGTGCTAAATCTTTAAATCTATCTATATTTCTGTCTAATATTTGAATCACTTCAATATCTTCGTTATATTTATTTCTTATTTTTTCTCTATTTTTAATTACTAAATCATATACACCTGAACCTACTGTTCCATAACCAAGTAATGCTATTTTCATATTATATCCCCCTTATTTATTCTACTGATTCTAATTCTACTGATTCTACTGACTCTATATTTTTAAAATGTGATAATATATCTTTTAATTCTATTCTTGAGTTTGATATATCTATTTTTATTTTTACATTTGCTCTATTATTTTTAGGTGGTTCCTGTAAAATTGTAAGTATATTTCCATTAATATTTGCTATTTCTGTAAGAACTTTTGATAATATACCAGCTTTATGATTTAAAATAAATAATAATTCTATGATATTATTACTTATTTTTTTATTAAATAAAAATACTTTATCCGCTATTTTTTCATATTCTTCTTTTGATAATTTTATTTCTTCTAATGCTTTTTCTATATTATTTTCCTTTAACAAAAATTCTTTTACTGCTGATACTTTTTTTATTTTTTCATCTAGAATACTTTTATCCACTACAAGAAATCTTTTTTCCATATTTACTATCCTCCCACTTTTTGTCCGCCCAAGAAAAACTTTTGTCTTTCTCAGATAAACTTTTTTCAAGATTATAACATACCTTTTTAAATTAATCAAACATTTTTTAGTAATTGTCCTTTTTTTTTAATTCATTCTTAACATAAAATATATTTTACTCATATAAAAAAATATGATATTATTAAATTGATTCATTTTAATATATTTCTTAGTATTAAAATTGCGATTTTAAATAATATTTATTCATATGTGATGAAAAATTTATAATTTAACTAGAAGGAGGCTTTATGTTTAAAAAAAATATTTTTATATTTTTATTATTAACTTTTACAACTATTACCTTTGCAACTACTGTACCAAAAGAAGAACTAGTAACTAAAAACAATATTGTTTATGTCAATTTGGATTTTCTTAAAAAATTAGATTTAAATTATAAAAAAGATAATAACAAAGTTATCATTAATAATATTATTTTTTCAAAAAATAATATTTCTTATAATAATGTTAAAGTGAATACATTAATTAATATTATCGAAAGTGATTATATAGATATTAATGCAATAACTACTATATTTAATTTCACTTTCAAAAATAATACATTTTTAAAAAATAATGAAAAAAACTTCCCTATTACCTATAATAATTATACAATAACTAAATCTTTAAAAAAAATAATTTCTCTTTCTCCTGGAGTAACAGAAAAATTATTTAAAATAGGTGCTGGAAATATGATATATGGACGTACTTCTTATTGTAATTATCCAAAAGAAGCTAAAAAAATAGAAGATTTAGGAACTATTTTTTCTCCAAATCTAGAAAGAATAATTGAAATATATCCTGATGCTGTTATATCAGAAAGTCATTTTAATAAAAAAATCTTATCTAAATTAAATGAAGTAGGTATCGAGAGTTTTGCTTATAATTATCCAAAAAATATTAACGAAATATATGAATTTATTGATTATTTAGGAATCTTCACAAATAAAAAATATGAATCTAGAATAGTAAATTATTCTTTGAAAAATAGAGTTTCTTATTATTTAAATAGTTTAAAAAATATAAGATCAAAACCAACTGTATATTATGTAGTTGGTACTGGCGAAGCTGAATATACTGCTGGAAAAAATACTTTTATTGATGATTTAATAAAAATAGCGGGAGCTAAAAATATAGCAGATGATACTGAAGGATGGGTATTTAGTAAAGAGAAATTATTTGAAAGAAACCCTGACATTATTTTTGGTTCTGAATATAATATAAATCTAATGAAAAATTCTGAATTATATAGTCAACTAAAAGCCTTTAAAACTGGAAATTATTTTATTGTTGATGAAAATATAATGAATCTATCAGGTCCAAGATTAATAGAAGAAGGACTACCTCTATTAATAGAACATTTTCATAAACTAAAATAAAAAATCTATAAACTTATAGAATAAATAAAATACTTTAAAAAACTGTTTTTAATTATTTAAATTTAATCATTCAAATCTCAATAACATTATTAATAGGAGTTTTTATGAAAAAAAATATTTTTATAAATAAAAAATCATATCTCTACATTATCATTACTTTAATTATTCTATTTGTTTCAATATTTGTATCTTTAAATTTAGGTAACAGTGATATTTCTATAAAAGAAGTCACTGAAATATTACTAAAAAAAAGTGATGATAAAATAAAAACTCTAATTATTTGGAATATACGTTTACCTAGAATATTATCAGCTATTCTAATAGGTGGTAGTCTTGCTATAAGTGGTGCTGGCCTCCAGTCAATTTTTAGAAATCCTATGGTTGATCCTTATATTATAGGGACCTCAAGTGGTGCTGCAATTGGTGCTACACTAGCATATATTTTAAAATTAGATATGATTTTCATTAAAATATTTGCTTTTATTTTTGCTCTTATATCTTCTTTTTTTATATATTTTCTTAATAATAAAAATAATCAAATAAATACATTAAAACTATTATTATCAGGAATTATCTTAAACTCTTTTTTATCCTCAATAGTATCATTATTAATGATACTCAATAAAGATGAATTAATGAATATTCTATATTGGACTATGGGTAGCTTGAATAGTAGTTCTTTTAAAGATTTAAAAATAATAACTTTTCCTATTATTATTATTAGTTTTTTATTTTTTTTATTGCATAAAGAATTAGATATAATATCTTTTGGTGAAGAAAACGCTAGAAGTGTAGGTGTTAATAGCGAAAAAATCAAAAAATATGTTTTGATTTTTTCTATTATTTTAACATCCATCTCTGTTTCAACAGCTGGAATCATTGGATTTGTAGGATTAATTACTCCACATTTTTTTAGATTATTTTTAGGCAGTAATCACAAATATATACTTCCACTATCATTTTTAGGTGGTGGCGTATTTTTACTTATTTGTGATAATATATCAAGAAGTATTACTAAAAGTATGGATATTCCACTCGGTATTATTACTGGATTATTTGGAGCTCCTTTATTTTTATATTTATTACTAAAATCTAAAAAATAATGAGGTTATATATGTATATAGAAATTAAAAATCTAAATTATAATAATATTCTTAAAAATATTAATTTTTCAATAAAAAAAAGTAGTTTTAATGTAATTTTAGGCCCAAATGGTGCTGGTAAATCTACTTTATTAAAAATATTATCTAATAATATCAAAAATTACTCTGGAAAAATAACCATAAATAATAAAAATGTCAAAAATTATCATAATAAAGAGTTTGCAAAACTTTTATCTATTATTCATCAAAATAATACCCCCTCACTTGAATTTAGTGTATATGATACTGTAATGTTTGGTAGATATATACATCAAAGTCGATTTAATCAAAATATTAAGACAGATAAAGAAATAGTTTTAGAAACTTTAAAAAATCTTGACTTGTTAGAATATAAGGATAAATCCATACTAAAATTAAGTGGTGGTGAACAAAAAAGAGTTTTTATCGCTCAATCTATTGTACAAGAAAGTGATATTTTGCTTCTTGATGAACCTACAGCAAATCTTGATATAAAACATCAAATAAAAATTTTAGAACTTTGTAAAAAATTAAATAAAACTGGCAAAACAATTATTATGGTTTTACATGATATAAATTTAGCAATAAATTATAGCGATAATATTATTTTTATAAAAAATGGAACCATTAAAAACATTACATCTTCTAATAGTATAAATCCTCTAATATTAGATGACATTTACTCTATAAACTTGGAAATTTTTAATAATTCTAATAATAAAAAAATATTTTTTCCAAAAATAAAAAAATAATATATTTCTATTTTATAAAAAATATGCTATAATACCCACCGTTAGATAAGGAAAGTCTTGTGAAAATCAAGCACAGCCCCCGCTACCGTTAAAGTCGGAATGCTTATTAACTTATTAAGAATAATTTCTTAATAATATAACTTCGGTGGGAAGTAATAATAACAATAAATTATACTTCTCTCCCATAATATTAAAAACAAATTAAACTGGGAGGTTTTTTTATGAAAAAAATTTTGTTGAGTTCTTTACTTTTTTTATCATCTTTATCCTTTTCAAATACTGATTTTTTAAATGATTCCATTACATTAGAATTAAAAGATAGTATTATTACAGCAGAAAAATTTGAAACACCAATAAGAGATACTACTAAAAATGTGTATATTATTAACAAAGAAAATATACAAAATAGTGGGGCTACAAATATTGTTGAACTATTAAAAACTATACCAAGTATTTTTATTGGTAGTGGATATACTAATGAAGGTATTATTGACTTTAGAGGACAAGGAGAAACCTCTAAAAGTAATGTATTGATTTTAGTTGATGGAATATCTCAAAACAGCATTGATATGTCTGGACCAGATTTGAGTATTATTGATATAAACAATATTGAAAGAATAGAGGTTATTCCATCTAGTGGCGTTGTTTATGGTGATAAAGCTGTTGGTGGGGTTATTAATATAATAACCTCAAATAATAAAAATAATATAAAATTAGATGTAGGTTCTTATGGATATAGTAATTCTGCTTTAAATACTTCTAATACTTTCGGTATTTTTACTATAAATAATAATTTTTCAAAAACATTTAAAGAGGGATACAGAGAGCATAGTAATTATAACAAAGAAAATTTTGGCACTGATATAATTATAAATATTAATTCAAATAATAAATTAACTTTTACTTATGATTATAATAAATCTTTTTATAATTATGCTGGTTCATTAACAAAAGCTCAAGTTGAAAATAATAGAACAGATTCTATATCAGGAAAAGGTAGTACTTTTAATAGAAAAAATAATTATTCATTAAATTATAATTATGAAAGTAATAAATTAAAATTAGAAAATAAAGTTAGTAGCTATAATAAGTATAGTGAAGGTTGGTCTAAAATAAATACAGCCTACTTCAGTAATAATTTAAAGATAAAATATAGCTTTAGTAATTTTAATATTATAAATGGAATAGATTTTAGTGAAGCAAGTTCAAAAACAAATTCTACTAATAAAATAGAAAAAAATCAAATTGGAATGTTTTCTTTAATTAATTATTCTATTTTAGATAATTTAATAATTAATGGTGGATATAGAAATGAAACTACAAAATTAGATTATTTTACAGGTAAAGAAAAAAAATATAATCAAAATCTATTTTCAGCTGGTATAAATTATCTTTACTCTGATACTGGTAATGTTTATCTATCTTTTGAACAAAATTATAGAACTCCAACTACAGATGAGTATCAATATGCAATCTATAATTGGGCTACTTATGAAATAACTGGTTATGGATACAAAGAAAATTTAAATCCTCAAAAATCGACTACAACAGAAATTGGACATAAAGAATTTTTTGCCAATACATATATAAACACAACTATATTTAATACTATTACAACTAATGAAATTTTTTATAATCCTTCTACATTTAGTAACGAAAATATTGATGGTACTACTTTAAGAAATGGTATAGAATTTTCTACAAAAACTAATATAAAAAATATAATTTTATCTCAAAGTTATACATATTTAATTGCTAAAATAAATGATGGTCAATATAAAAATAAATTGATTCCATGGGTTCCAAAAAATAGATATAATGCTTCTATTAATTTTAAATTAAATAAATTAAACTTCGAATTAGATTATAATTTTGTAGGTAAAATGTACTCTATATCAGATTGGAATAATCAATATGGAAAAATTAATTCTTATTCTGTAGTTAACTTTACATCAAATTATAAATTTAATAATATTAATACTTATTTCGGTATTAAAAATCTAACAAATACTAAATATTATGATTATGTTACTTATGGTTCTAGTTATTATCCTGCAGAAGAAAAAAGTTATTACATTGGTATAAATTACGAATTTTAATTACTTGGCAGACTAAATTTAGTCTGCCTATTTTATCACTATGTTTTGAAAGGTGTTTTTATGAAAAAATATATTCTTTTTTCTATAATTTTTCATTTTTTGTTATTCTATTTTATAAATGACTGGTTTCTTATTAATAAACCTATTATAAACATTAATAATATTTCTGTTGGAATTATAGAAATTATAGAACCTAAAAAACAAGATAAATCAATTAACATTCCTAAAAATAATATTATTACAAAACACAAAGTAAATTTTTTTAAAAAAAATTTTAAATTGGAAAATAACGAAAAAAAAGCTATTATTAAAGAAAGTTTAAATTCTAAAAATAATATAAAAAAAGAAAAATTAACTCTCCTCAAACAAGATTTAGAATTAAAAAACCTAAAAAAAAATTTGAATAATGAAAAAAAAGATGAAAATAATAAAAAATCTATTAAGTCAAAAAGAGAATTTGAAAGTAATAAATTTAATAAACAAAAAATTTTAGAGAATAATAAAAATCAAATTTCTCAAATAAAAAAAGAAAAGAAAATGCCATTATTTCAAAATCAAAATTTAGCAAATAATAATATATCTAAAAACACCTCTAATAAAATAGAAAATATCATGAATACTCTTTCTAATAAAAATATTGATTTTGAAAAACATAAAAATAATATAAAATTTAATAATAAAAATATGAATGATACTAAAAAAAATTTGAATATTAATAATTCGTCTGGCAATAAAAAACAAATAGAAACTATAGAATACAATAAAAATATTAATTTTAAAATAATAAAATATGAAAATCCAAAATATCCTAAACCAGCTCAAATTTTAAAATTAAAAAAAGATGTTATTGTAAAAGCTACTTTTATTATAAATGAATTTGGAGATGTAGAAAATATAGAATTAAAATCTGATTATAAAAATTATAAAAAATTAGGATTTTATGAAGAAGTAGAAAAAGTTATTAAAAATTATAAGTTCTCGCCAATATTTTATAATAATAAAATTGTAAAAGTAAAATTTATAAAAAATTATAAATTTATTTCTCCATATAAAAAGTGAGTACTCTTAAATGAGTACTCACTTTTTTATTATTAAATTATTTTAAAAGTTCTCTTGTTGCAGCTAAAGCTTTATCATAATCCGGATGATTTGTTACTTCAGATACATACTCTACATATCTAACTATATTATCAGCATCTACTAAAACTATACCTCTTGATAATAATCTATGCTCTTTTATAGCAAAACCATATTTTGTACCAAAATCTAAATCTCTATGATCTGATAATGTTACCGCTTTATCAATTCCTTTATTTGCACAGAATCTGTCAAGTGCAAAAGGTAAATCAACTGAAATAGTAATAACATTTACTCCTTTCAAATTTCCAGCTTCTTGATTAAATCTAGTAGTTTGAAGTTCGCAAACTCCTGTATCTATTGATGGCACTACTGATATTAATTTTACTCCTTCTAATTCAGATAATCTAAGCTCACTTAAATCATTTTTTAAAGCTACAAAATCAGGTGCTTTATCCCCTATATTTATTTTATTTCCAAGTAGTGTTACTACTGCTCCTCCAAAAGTCACTTCATTTTTTCTTTCTGTCATATTTATTGCCTCCCCTATCATTTCGTTTTAACTTTGTAATCATTACAAATTTATTATAACTTTTTTTACCTAGATTGTCAATATTAATATTCAAATATTTTCTTTAATTCTGTTCCTTTAATCAAATCCTCTATTTTCATATATGTCATTCTACCCTCTTCATCATAATCATATACATATCGAAGATCCGCTAAAAGTTCATCTTTATTATTATATTTTTTTATAGATATTGCATCTCCAAATTCATTGTATTTATAACAAATATAATATTTTAAATTATTTTCTTTATCATAATATCTTACTTTTTTAGGTTTCCCCCTCATTATTAAATCACCCCTTTAATTTTATTTTTTTAATATTTTATCTATTTTTGTTCTAGTTTCTTTTACGATTACTTCTATATCTAAATTTTTTGGTGAAATTTTTTCTAAAAATTCCAATTCTATTTTTGTTGGTCTCGGAATTTTTTTACCTCTAGGCATAGATTTATATGCACCTCTTATTACAAACGGCTGTATATCTACTCCCAATTCTTTACTTAAAATTGCAAATGCTTTTTTAAATTCGCCTAAATTTCCATCAACCGTTCTTGTTCCTTCTGGAAAAATTACTAAATTTTTCCCTTTTTTTAATATTTCTGCACTCTCTTGAAGGGTCTCTTTTAAATTTTTATTTATATCTACTATTACTATATTTGATCTATTTGCTATACTTTTCATAACTCTATTATCAAAATGTTTTATTTTTGCTAAAAAATATGTATTTTTTAATATTTTATTAGGAAGTGCTGATAATATGGCAAAGCTATCTACAAAACTTTGATGATTTCCTACAAATATAACAGTTTTTTTTGATAATCGTTCTATTCCTTTTTTAGTAAATCTAAAATATAATTTTAATATAGGCGACGTCAAATATTTAAAAAATAATAATAAAATATGAGTTTTAGGTAATTCTATGTTTTTTCCCTTATTTAAAATCTCTTTCCAATTAATATCCGTATCAATTACATTTGTATTTGATTTTTCTTTTAAATATTTAGCCATTTCTTCTACTATCATATGTTCTGTAAAATCTTTATCTGATATATCAACTCCATAAGCTGTTGATATAAATGCCTTTAATTCTACCATATCAAGTGAATCAAGTGCTAAATCAAGCTCTAAATGAGAAGTTGGCTTTATAATTTTAGTTGATAATGTAGATATAAAATCTTTTAGCACCTTGTATTCTCTATAACTTGGTTCTTCTATTATATTTTTCTCTGTTTCATTTTCATGTAATAACTCTTTTAATTTAAATCTTCTTAATTTCCCAAGTTTTGTTTTTGGTAATTCTGTTTGTGTTATTTTAAAATCTAAAATTTTCTTATATGGTAATGCTTTTATATTATATTTTTCAATAATACTATTTTTTATAGTTTCAGAAATATTACTTATCTCTTTTTCTTTTATAAAGTTAAAGTTAGGATAAATTATAGCATTTAAATGATTATTATTATCAATTACTCCTATCTCTTCTATTAATCCTTTTGAAAATCTCAATATTTCTTGTTCTACAGAAACTGGATCTATATTTTTACCATTAGATAATACTATCATTTCTTTTTTTCTACCTGTTATTTTAATATAATTGTCTTCATCTATTTCTCCTAAATCTCCTGTTTTAAGCCATCCATCTTCTGTAAATATTTCTCTTGTTTCTTTTTCTTTTTTATAATAACCTTTCATTACATTTCTACCTTTTACAAGTATTTCACCTTCATCTGATATTTTTACTTCTACCCCGTCAAGAGGACTTCCAACTTTACCATTTTTTATATTATTTGGTTTAGTAAAAGAAATTATTGGAGCTGTTTCTGTCATCCCATATCCTTCAACCATTTTAAATCCAAAAGTGGAAAAAGCTTTTGAAATCTCTAAATCTAATTTTGCTCCTCCTGAAATTAAAAATTTAATATTTCCTCCAAATCCATCGTGAATTTTTTTGAATAATTTTTTTCTTATTTTTTCACTATTTATTTTTTTAGCTAAATTAAATACAAAAGTACTTATTTTACTAGCTTCAATTTTTGCCATAATTCCTCTATAAAAAACTTCATATAATCTAGGTACTCCGATAAACATTGTTACTTTATTTTTAATTAATGCTTCTTTTATTTTATCCGAAGATAATTCTTGTAAAAATACTATTGTTGCTCCAAAATATAAAGGCATTATAGCTGTACCTAATAAAGGTAAAATATGATGAAGAGGAAGTAGTGAAATAAATACATCACTTTTTTCATACATTTTATATTTATCTAATGATTCTATCTGCGCTATTATGTTATCTTGAGTTAACATTACACCTTTAGGATCGCCTGTAGTTCCTGAAGTATATAAAATCAAGCAAACTTTTTCAGGTTCTAATAAATAAATTTCTTCTAATTCCTCTTCTTTATAAGATTTTAATTCTATTTCTTCATAATTTATTATTTTTATCTTTAAATTATTTTCTTCAATAACTTTTTTTACTAAATTTTGTGTTTTATTTGATACAAAAATAAATTTTGGTTCTGAATCTTTTAATACATATAATAATTCATCATAATTATTTGCTGCATCAATAGGATTACATATTCCTTTTTTTTGCCATATGCCTAAAAATGCGTATACATATTCTGGCCTATTTTCAGAAAATATAGCTACTTTTTCTCCCTCTTCAATGTGTAAATATTCTGTATAATTTTTTACATTTGATAAAAGTTTTAAATACGATATTTTTTCATCTCCAAAAATAATTGCAGTTTTATCAAATTTTTTTATAAATTTCATAACCGACTCCTTACATAATAAAATATAATACTCTATTTACATTATACTATAATTTATTTTTTTAAGTAAATATTTTTTATAAAAATAAAATAAAAAAAGTTATAACCTTTTGGTTACAACTTTTTTATAAATATATTATACTGCAATTTCGCCTTCTTCTCCTGTTCTTATTCGTACTACATTTTCTACATTATAAATAAATATTTTACCGTCTCCTATATTTCCTGTTTTTGATCTTTCTGTTATTACTTTTATTACTTCTTCAAGTTTTTCATCTAATATAACTAATTCAAGTTTTAATTTAGGTAAAAATTCTACTGTATATTCTGTCCCCCTAAATATTTCTTTATATCCCCTTTGTTTACCAAATCCTTTTACTTCGCTAACAGTCATCCCATCAATTCCTATTTCCATTAATCCTTCTTTTACTACTTTTAATTTTTCTCTTCTTATAATCGCTTCTACTTTCTTCATAGATTACCTCCGTTTGTATTGATATATCCTTACATTTATTATATAATACTCCTTCGTTTTTTTCAAATAAATTTCAATTTAATTAAATAATAATATTTATAATATAAATTTTACTATACATATTTTATATACATTTTTTATTGTATTTTTTTAATATTTATGTTAAAATAATAACTGTTGAAAAATTAAATATAGGTGGTTATTATGAAAATTTTATATTACTCTACGAGTAATTATTTGTCTATTAAAAAATCAAATATTTTAACTATAAATATCTAAACCTAAGTATATCCATAAGTATATACTTAGGTTTTTTTAATTTTAAATATGGAGGGATATTATGAATTATAAAATTGATGTTATGATTTCAAAAGAAAATATCAAAAAAAAAGTAAAAGAATTAGCAAATGAAATAACTAATACATATAAGAATACTGATGAACTTATTCTTATTGGATTACTTAGAGGCTCTGTCGTTTTTTTATCTGATTTAGCTAGAGAAATAGGGATTGATGATGTAAAACTTGATTTCATGGTTGTTTCAAGCTATGGTAATTCAATGGAAAGTTCTAGAAATGTAAAAATAAAAAAAGATATTGAAGAAAATATATCTGATAGAAATGTATTAATTGTAGAAGATATAATAGATACTGGATTTACCCTTAAAAAGGTATATGAAATACTAAAACTTAGAGAACCAAAATCACTTAAAATATGTACTTTATTAGATAAACCAGAAAGAAGAGAGGTAGATGTAAAAGTTGATTTTACAGGATTTAAAATACCTGATGAATTTGTTGTAGGATATGGTATTGATTATGCAGAAAAACATAGAAATTTACCTTATATTGGAAAAGTAACTAAACTTTAATAGAATGGAAGGAGAGTTAAATATGGCAGGATATGTAGTAGTCGGAACTCAATGGGGAGATGAGGGAAAAGGGAAAATAATTGACGTATTAGCTCATAAAGCTGATTATGTTGTAAGATTTCAAGGTGGAAATAATGCAGGACATACTGTTGTTGTAAATGGAGAAAAATTTATTTTACATTTATTACCTTCTGGAATGTTACATGGAAATGGAAAATGTATAATAGGTCCAGGTGTTGTTGTTGATCCGAAAGTTTTATTAAAAGAAATTGAAACTTTAGATGAAAAAGGTGCTAAAACAGATCACTTATTTATTAGTGATAGAGCTCATATCATTATGCCTTATCATATTAAACTTGATGAAGTAAAAGAAAATGCTAGAGGAAATAAAAAAATTGGTACAACTAAAAGAGGGATTGGTCCTTGTTATGCTGATAAAATTTCTAGATGTGGTATAAGAGCTGCTGATTTATTAGATATTAATATATTCAAAGAAAAATTAAAAGATAATTTAAATGAAAAAAACGAATTATTAACTAAAATTTATAATGAAAAACCTTTAAATTTTGATGAAATTTTTAATGAATATACTGAATATGCTAAAAAATTAAAAGATAGAATAATAGATAGTGTCCCTGATATAAATCAAGCATTAAAAGAAGATAAATTTGTGTTATTTGAAGGGGCTCAAGCTATGATGCTTGATATTAATTTTGGTACTTACCCATATGTTACTTCTTCTTCTCCAACAACTGGAGGCGTAACTACTGGTGTAGGAATTGCACCAAATAAAATTAATAAAAGAATAGGAGTAATGAAAGCTTATACTACTAGAGTTGGTGAAGGTCCTTTTGTTACAGAATTAAATAATGAAACTGGTGAAAAATTAAGAGCTATCGGTGGCGAATACGGAGCAACTACCGGTAGACCTAGAAGATGTGGATGGTTAGATCTAGTCGTTGGTAAATATGCTGTAGATATTAACGGACTTACTGATGTAGTTCTTACAAAAATTGATGTTTTAAGTGGTTTTGAGAAAATTAAAATAGCTATAGCTTATGAAATCGACGGCGAAAGATACGACTATGTCCCTGCATCTATAGAAAAATTACAAAGAGCTATCCCTATATACGAAGAGTTAGATGGTTGGAAAGAAGATATAACTTCAATAAAAAATTATGAAGAATTACCTGAAAACTGTAAAAAATATATTAAAAGAATTGAAGAAATAATAGGATGTTCTATCTCGATGGTATCAGTTGGCCCTGATAGAACACAAAACATTTTCATTAAAGAATTTTAATTTAAAGCTGTCAAACTTTGACAGCTTTTTTTAATTAAAACTATACAAAATATAGATATTTATGTATAATATTTTTTGAGGTGAAAATATGAAAAATAAAAGTGCAGAAATTGCAAAAATAGCTATAAAAATGTCATTATCTACTAGAGAAGAAGAAAACAAATTAAATGAAAAATTTGAAAAATATAAAATTAAAACTACTGCTGTTGATATTGGAGGAAAATTACCAAATATAATACCAAAAATAATTGAAAATACCTTAGTAGCATCCAAAAGAAAACATATAATTCAAGATTGCCACGTACATGATGGTGCTGTAGCTGGTGCTATTAGAGAAGCTATTGCACAAGTTATGACAAAAACTAATGGCTTAAGTGTTGGCGGTAAAATAGGGATTGCAAGAAATGAAGAACATATTAGTGTTGCTGTATTTTTTAGCATTGGTCTTTTACATTTAAATGAAGTTGTTACTGCCGTTGCCCATCGTTCTATACCGATTTTAAAAGATGAAATTTGGAATTAATTTAAATGAAAAAACATTGATATAATGCAACTATTTTTAAATAAAAAGAAGTTTAAGGAGTGTAAAAAATGGAATTAAAAGATTTGTTAAATGAAAAAATATTTTATTATTTTAATGAAATAAGCAAGATACCTAGAGGCTCAAAAAATGAAATAGAAATTGCAAATTACTTAGAAGATTTTGCTAAAAAAAGAAATCTAGAAGTTTATAAAGACAAATTTAATAATATATTAATAAAAAAAGAAGCTACTTCTGGATATGAAAATATTCCTTCGATTGTTATTCAAGGACACACAGATATGGTATGTGAGAAAAATCAAAATACAGTTCATGATTTTTCTAAAGACCCTATAAAACTTCAAGTTGACGGTAATTTTATAAAAGCTAGTGGAACAACTCTTGGAGCTGATAATGGAATTGCTGTTGCATATGCTCTTGCTTTACTTGATTCTAATAATTTAAAACATCCAAAATTAGAAATATTTTTAACTAGTGATGAAGAACAAGGTATGGGAGGAGCTAGTAATTTTAATTATTCAAAACTTGAAAGTAAAATTATGTTAAATATAGATACTGAAGAAGAAGGAGAATTTTATGTAAGCTGTGCTGGTGGAGCCAGAGGTATTTTTACTATTCCTTTAACATATAAAAGTAATAATTATAGTAATATTTTTCATATAAAAATTAGAGGTCTTATCGGTGGTCATTCTGGTATGGATATAATTAAAGAAAGAGCCAATGCTAATAAACTTCTTGGAAGAATTTTAAATGAACTTAATTCTAATTTTGATTTAGCACTTGTAAAAATATGGGGTGGCTCAAAAGACAACGCTATTCCAAGAGAGTCTGATGCAATTATTGCTACTAATTCTGATTTTAATGAATTAAATAATGTAATTAATAATTTAAATCAAATGTTTAATAAAGAATATTTAGGTATAGAAGAAAATATTAAGCTTACTATTGAAGTTTTAAATGAAAATATAAAAAAGATTATTTCTAAAGAAATTTCAAATAAAATAATAAATTTATTATTTTTACATTTTAATGGAATAGAATCAATGAGTAAAAATATTAATAATCTTGTTGAATCCTCTTTAAATTTAGGAGTTATAGAATCTCATAAAGATAAAATCCTATTTAAAAGTGCAATAAGAAGTTCTGTTTTAACTCGAAAAACATTAATTATACAAAAACTTTACTCTTTAGCAAAAATATTAAATATTTCTTTTAAATCAAATGCTGATTATCCTGCCTGGGAATATAAAAAAGATTCAAAAATAAGGGAAATATGCATAAAAGAATATAAAAAATTTGCAAATACTGAACCAAAAATAAAAGCTGTTCATGCTGGACTTGAATGTGGAATAATATCAGAGAAAATAAATAATATTGATATAATTTCATTTGGTCCAAACATTTTTGGAGCTCATACACCTGAAGAAAAACTGGATATAAAATCTACTAGAAGAATATATAATTTTTTAATACAATTACTTGAAAATAGTAAAAATTATTTTTAATATAAGTAAAAAAAGGCTCTTGAGTAAAACTCAAGAGCCTTTTTTATTACACTATTATTTTTTCTTAATGTATTTTATAGTATCAAGTGCAACAGCTACAATTATAATCAACCCTTTGATTATAAATTGCCAATAAGGATTTACTCCTACATAAGTAAGACCATAGTTAATAACTGTAAATATAATTACCCCTGTTACTACTCCAGGTACAGTTCCAACTCCTCCACTAAATGATACTCCTCCAACAACACAGGCAGCGATAGCATCTAACTCATACATAAATCCTAAGTTATTTGTAGCAGAACCTATTCTTCCTGCTTCAAGCATACCACCAAATGCATAAAAAGCTCCTGCTAAAGTATATATTTTTAATAAAGTACTTGTTACATTTACCCCTGATACAGTTGCTGCTTCAGGATTCCCTCCAACTGCAAATATATTTTTACCAAATATTGTTTTATTCCATAATACCCACATAAATATTATTGCTATAAGCGCATAAATAATTAAATATGGTATCTCAAAACTTCCTATCTGAAAAGCCCCTTGTGCAAAATTACTATATCTTTCATCAAATCCTGCTACTGGAGTTGCCCCAACATAATCATAATATAATGAATTTACCCCATAAATTATAATCATTGTACCCAGCGTTGCTATAAATGGCGTTACATTAAATTTTGCTATAATTATACCATTAATTAGACCAAAGAATCCTCCAACAATCATTACAATTATTATTACAACCCAAATAGGTATTTGACCTAAAGACTTGTATACTTTATTTACATTATCCATTGATTGTAATAGTGTCGCTGATACAAGTGCTGTTAGTCCAACTAAACGTCCTGCTGAAAGGTCTGTTCCCTGAGTAACAATAAGTCCTGCTACTCCAAGTGCTATAATTATCCTAACTGATGATTGAGTCAAAATATTTTTAAAGTTTCTTATACTTAAAAAAGTTGGTTCTTTAATTACTATTATAAATAAAAGAACAAATAAAACTAAATATAATACATTATCCATTATAAATTTCCCTATATCTTTTGATGTTGTTTTCAATTTAATTCACTCCTTATTATAAATACTTAGCAGTTAACATTAGTATTTCTTCTTGACTAGTTTCTTTTGTATTAACAATTCCAGCTACTTTACCATTACTCATTACAAGTATTCTATCTGTTACTCCTAATAATTCTGGCATTTCAGAAGAGATCATAATAATACTTTTCCCTTTGTTTGCTAAATCTATCATTAATTGATATATTTCAAATTTTGCCCCTACGTCTATACCTCTTGTAGGCTCATCTAGCATAAGAATATCTGGTTCTGTTAATAACCATCTACCTAATATTACTTTTTGTTGATTTCCTCCTGAAAGACTGCCTATGCTAGTTTCTTGTTTTGGTGTTTTAACTCTCATACTGTCAATTACCCACTGTGTATCTTTTTTCATTTTATGATCATCTAAAAGTGTATTTGGCATTTGATATGCTGCCATATTAGAAATAGTCGAATTAAATCTAATATCTAACATGTCAAATATCCCAGTTGCCCTTCTTTCTTCTGTTACTAAAGCAAATCCATTTTGAATAGCTGTTTTAGGATCTTTATTTTCTATTTCCTTATCATTTAAAATGATTTTTCCACTTGCTTTTTCTCTTATACCAAATATAGTTTCTACTATGTCAGTACGTTTTGCCCCTACAAGTCCTGCTACTCCTAATATTTCACTTTTTCTTAATTTAAATGAAACATTTTGAATAGAAGGTTGATTTTTTGCCGTTAATTCTTTAACTTCTAAAATTATATTTTCTTCTGGTTTATTTGTTTTTTCTGGAAATCTATGAGTTAAATCCCTACCAACCATCATATTAATAATTTTATCTGTTGTAAGTCCTGCTACAGGTTCTGTCCCTATCCATTGACCATCTCTAAGTATCGTAATATCATCTGATATTTCTGATATTTCCTCCATTTTATGAGATATATATATAATTCCTACCCCTTTTTCTCTAAGTTTTCTAATAATTTTAAATAAATGATTAACTTCTTTTTCCGTTAATGATGAAGTAGGCTCATCCATTACTATAATTTTTGAATTATATGAAACTGCTTTAGCTATTTCAACCATTTGCATTTGTGATACAGATAGAGTGCTTACTTTTACTCTAGGATCTATATCGATATCTAAATCTTCAAATATTTTTTTAGTATCTTTATACATTTTAGCTTCATCTACAAATCCATTTTTAATTGGATATCTTCCAAGCCAAATATTATCCATTACATTTCTTTGTAGTACTTGATTTAGTTCTTGATGCACCATTGAAACCCCATGATCTAATGCTTCTTTAGAAGATGTAAAATTTACTTCTTTTCCATCTAATAATATTTTCCCCGAATTTTTTCTATATATTCCAAACAAGCATTTCATCAAAGTAGATTTTCCTGCACCATTTTCTCCCATCAATGCATGAACTGAATGAGGTCTTATTTTTAACGTTACATTATCTAGAGCTTTTACCCCAGGAAATTCTTTTGTCACATTTATCATTTCTAGAATATATTTATTATCATTACTCATATTCATGTTGACTCCTTTTATAAAATTAGGGTGCAAGCTATGCAAGCACCCTATTTAGTTTTATTTAAATTGTGCTAAATTCTCTGCATCTACTCCTACATAAGGAACTCTTACTGCTTTATTTTTTAATTTCCAATTTGTTCCTTCTAAAGGATCTTTTCCATTTGCTAAATTTACTGCTAAGTCTAATGTAGCTTGTCCTTGACTTGACGCATCATTAAGAACTGTTCCTTGAAGTTCACCTTTTTCAATTTTTACTAATGCTTCTGCTAATGCATCTACTCCATATACTGGTATATTAGTTTTTCCATTAGCTTTTAATGCTTCAATAACTCCTAAAGCCATTGCGTCATTATTTGTAATAAATACTTCTATTTTATCTCTATTTGGTCCTGATAACCAAGCTTCTGCTTTATCTTTTGCTTGTGCTGTATCCCACATAGCAGTATCTAAATGAAGATTTTCAGTTTTTACTCCTTTTTCATTAAGTGTTTTTATAACATATTCTGTTCTTGCTTCTGCATCTGGATGTCCAGGTTCTCCTTTTAATAATGCATATTGTAATACACCGTCTTTATTTAAATCCCATTCTGAATGCATTTTCCAATGTTTAGCTATTAATTCTCCTTGAATAATTCCTGCTTCTTTTGATTCTGTTCCTACATAATAAGTTTTGTCATAACTATTTAATGCTTTTTGACTAGGCTCTTTGTTAAAAAATACTACAGGTATGTTTTCTTTTCTTGCTTTTTCAATAACTGTTTGTGCTGCAGCAGGGTCAACTAAGTTGATTGCAAGTGCACTAACACCTTTAGATATAAGTACATCAATTTGGTCATTTTGTTTTGATTGGTCATTTTGTGAATCATTCATAAGTACTTTTATTCCTGATTTACCTTCTGCACCTTTTTCAATTGCTTGTCTTACTAAAGCCATGAAGTTATCATCGTATTTGTAAATAGTAACCCCAATCATTTTTTCTTTTGATTTTCTTTTGAATAATCCTCCTGCATATGCAGTTGTTGTAGTTGCAGCTAATAATGAACCAGCTAATAATAGTGTAACAGCTTTTTTCATAAATACTTCCTCCTTATAGTGTGTTTTTTTAACAAACATTTTGTTAAATAAAAACTCTTAAAATTGTTTATATAAACATAATATAATGTTTTTGTTAAAATAACAATTCTTTTATTTGTTTTTTTATATAACTTTATAAACCAACTTAATATACCTTTTAAAATCTCTAAAAGCTTTCATATAATTACTCAATAAAACTTTATTAACTTTTTTTAATTCCGTTATTTTCATTTCTAATTTATGTTGTTTTTTTTTCAACAACACCACTTACAATTAAGTTATACAACATTTTTTTAAAAAAATCAAATTTTTTTTGATTTTTTTTTATACTTTATGTCACAAAACCGCTCTAATCGTTCATTCTTAAGGATTTTAGATTAATTTATTTTTTTTATTTAAAAAAAAGGAAAATATTTATTTAAGTTATATAATATATGTAAGGTAATAAATTAAACTAATTTATAGAAAGTAGGGTGGTAAATTATGGTAAATATTGAAAAATATTACAAAAAAGGAGAGCCTTTTATAGATAAGTACTACAACTTTGATAAAATTCCTTTAAAATTTCAAGAAAATTTTAAAAATAACGAAAAAGATTTTGAATTTGCATTACATATTTCTGATTATAAAATAGAAAATAGTGGTTTACTCATTTTTGCTTTTAAAGATTATCTCTATATTTTGGATGATTCAAAAGAAAAATTTTTAGAAACAAAATTTTTTTACAGTGAAATTGATGTTATTAAAATTTCAAGAGAACTTCTTTTAGGAAAACTTATTATTATAAAAAATGATCAAGAAATAGTTATTCACTTTAATTCTTCTGCTTCAATTACTATAGAAGAATTTATAAAATACTTAAGAGAAAAATATATTGATTTTAAAGAAGAAACTCCTAGCCTACCAAAATCTAAAATATTTAATAATTTGGAAAATATTTATAATATAATGCTTTCTAAAATAGATATTGAAATAAAAGATTTTGTGTTTCAACCTGACGAATTTCTTTATAATAAAGAAGAAAATATTACTACTAAATTAACTAGTGCTCTATATTTAATAGGAGAACGAGAATTAATTATTTTTAACAAAGGAAAAGAAATAAAAATAAATAATGAAAGAGACTATGAATATAGCGAAACTTTTATACCAATTAATAAAATAATTACTATAACTGAGTCAAATCATCTTCTTTATGACGATATTGTAATTATAACTATCAATTTATTAAAAAAACAGATTAAGTTTTTATTTTCCAATGACAATAAAGATAGAAATAAAATTATATACTTAGCAAAATAACAAAAAAACTTGACAATTGTATAAAAAAATAGTACAATGCATTAACAATTTAATACTACCTAGTTTTAAAGGCGATGACAAGGAGAGTAAATATAAGATGTAGTTATGAGCGAGCTAGTGACGGTGAGAGTCTAGCAACGAAGCTTATATTGAAGAACACCTTCGAGCTGCTAACCGAAAGTTTTAATTTTGATTAAAATTAGTAGGCTTAGACGTATTCGGGACGTTATTTCCGACGGGTATCGAGCATTCTTAGAAATGTTTCCGTACTTTGTGAAAAGGACTAATTATAATTTTTTTGAAATTATACTCTTCACGTATATGTATGGATCGTGGAGAGTTTTTTTTATACAATTTAATTTATTTAACAGGGGGAAAAACATGGAAAGAATTTATATTGAGACTTTATTAAAAGAAAAACCACAAAAAGCTAAATTAACTGGTTGGGTTCACAGAATTAATTCTTTAGGACAAGTAAATTTTGTAATTCTTAGAGATAAAACTGGTGTTATTCAATTAGTTATGACAAAAGAACAACTAGAAAATTTAAAGCTAGAAACACCTATTACTGTTATTGGTAAAGTAGTCGAAAACCCTAAAGCTATAAATAATATTGAAATGCAAGTTGAAGATTTAAATCTTCTTGGAAAAGTATATGATAGTTTACCATTTGAAATAAATAAAAAAACTATTCAAGCTAAATTAGAAACACAACTAGATAATAGAACTATTGCTCTTAGAAGACCAAATATAAGGGCTATATTTAAAATACAACAAGAAATTGAAGAAGGATTTAAAACATATTTAAAATCAAAAAATTTCTCACAAATACATACTCCAAAAATTATTGATTCTTCTACAGAAGGTGGAAGCGAAATGTTTACTGTTGATTACTATGGAAGAAGATCATTTTTAGCTCAAAGTCCTCAATTTTATAAACAAATGATGGTAGGAGCTGGTTTTGAAAGAGTATTTGAAATAGGACACGCTTATAGAGCTGAATTGCATAATACTTGGAGACATTTAAGCGAATATATAAGTTTAGATGTCGAAATGGGATTTATTGAAAATGAAGAAGATATAATGAAACTTGAAGAAGATATTCTAAACTATATTTTTTCTCATTTAAATAAGACTTGTAAAAAAGAATTAGATATGTTTAATATAACGTTAGAAGAAAATTTCAAAATACCTAGAATTTCATTAAAAGAAGCTCAAGATATTTTATTAGAAAAATTTAATAAACGTTCTCCAATAGGGAATCTTGATGCTGAAGGAGAAAAAATATTTTCTAAATATGTAAAAGAAACATATAATAGTGATTTTATTTTTGTAACAGAATATCCAATCTCAAAAAGACCTGTTTATACTATGCCTCATGAATCGAAAAAAGAAGTTACTAGAAGTTTTGATCTAATTTATAAAGGACTTGAAATAACAACTGGAGGGCAAAGAATACATGATTATAAAATGTTAATAGAAAATATTAAAAAATTTGATATGAAACCTGAAAATTTTGAATTTTATACAGATACATTTAAATATGGTATGCCACCTCATGGCGGATTTGCAATTGGTTTAGAAAGGTTAACAATGCAAATACTAAATTTAACTAATATCAGAGAAGCTAGTTTAATACCTAGAGATTTAAAAAGAATTAAACCATAAAGGGGGATTAATAATGAAAATAACTGTTGATAAAGTAAATTATATTGCTAAATTAGCAAAATTAAAATTCACTAAAAATGAAGCTGAAAATTTAGCAAAAGAATTTGAAACTGTACTAGAACATTTTGCTACTATTGATAATTTCGATCTTTCTGATATAGAAAGTTATGATTTTAGTGAAACTAATTCAGAATTTAGAAAAGATGAAGTAGAAGTTTTTGAAAATAAAGAAAAGTTATTTAAAAATACTAAAAAAATGAATGGTACTAGTATAGAGATACCTAAAGTAATAGAATAAGGGGGATAATATGGATATTTTTGAAATGAGTGCTATAGAGATAAGAGAAGCTATAATTAATAAAAAGATTAGTGCTATTGATTTAATAAATAAAATATATGAAAAAATAGAAAAAGAAGATAAACAAATAAATAGTTTTATTACTTTATCAAAAGAATTAGCTAAAAAGCAAGCTGAAGAAATAGATGATAAAATTAAAAACGGTGAAAGTTTAGGGAAATTGGCTGGAATTCCAATAGCTATAAAAGATAACATTTGTACTGATGGAATAAAAACAACTTGTGCTTCAAAAATGTTAGAAGATTTTATTCCGCCATATGATGCTACCGTTATAAAAAAATTAAAAGCTGAAGATGCTATAATTATAGGAAAAGTAAATATGGATGAATTTGCAATGGGTTCATCATGTGAAAATTCATATTTTGGACCTACTAAAAATCCAGTGGATATAAGTAGAGTTCCTGGTGGCTCTTCTGGTGGCTCTTCTGCTAGTGTTGCAGCAAAATTTGTTCCTATTTCCCTTGGTAGTGATACAGGAGGAAGTATAAGACAACCGGCTGGATTTTGTGGAGTTACAGGATTAAAACCTACTTATGGAAAAGTATCAAGATTTGGACTTATTGCTTTTGGTTCATCTCTTGATCAAATTGGTCCAATTACAAGAAGTATTGATGATGCTGCTCTTTGCTTAGAAGTTATTCAAGGTCATGATAAATTAGATAATACAAGTGCAAAACTTAAATACGATACTTATTTAGATAAATTAAATAATGTTGATATACAAAATATGAAAATTGCAGTTGCTAAAGAATTTATAAAAAAAGGATTAAATGAAGAGATTAAAAATAATTTTCTTGAAACAATAGAAAAATTTAAATCTCTTGGTGCTAAAGTAGAATATATCTCTATGCCCATTACAGAAGAAGGACTTTCAGCATATTATATAATATCTTCTGCTGAAGCTAGCTCAAATCTTGCTAGATTTGATGGTATAAGATATGGATATAGAACTAAAACGTATGAAGATGTAAATGATATCATGGTAAATTCAAGAACAGAAGCATTTGGAAAAGAAGTTAAAAGACGTATAATGTTAGGAACTTATGCTCTTTCTTCTGGATATTACGATGCCTATTATAATAGAGCTCTTAAATTAAAGAAAAAAATCAAAGATCAATACAAAGAAATTTTTGAAAAGTATGATTTAATATTAAGTCCAATATCACCTGTACTACCATTTAAAATAGGTGAAAAAACATCTGACCCTCTAGAAATGTATCTTGCTGATATTTATACTATAAATATCAACTTAGCTGGTGTTCCTGCTATATCAATTCCAAGTGGTAAAAATAAAGATGGATTGCCTATTGGAATTCAGCTAATTGGTAAACATTTTGATGAAGAAAAAATTCTTAGAGCTGCCAAAGCTTTTGAGGGGGTAAAATAATGACTTTAGAAACTATTATTGGATTAGAAATACATGTTGAATTAGATACTAAAACAAAAATATTTTGTAATTGTTCAACTAAATTTGGTAAAAAACCTAATGAAAATACTTGTCCAATCTGTCTTGGACTTCCTGGTACTTTACCCGTAATGAACGAAAGAGTTATAGAACTAGCTGTAAAAGCTGGGCTCGCAATCAATTGTAATATCAATACTTTAAATAAAATGGATAGAAAAAATTATTTCTATCCTGATTTACCAAAAGCTTATCAAATATCTCAATATGATTTACCTATATGTCAAGATGGCTATGTAGATATTGAAACTGAACAAGGCTCTAAAAGAATAAGAATCAATAGAATTCATATGGAAGAAGATGCTGGTAAATTAGTACATGATGAATTCGAACCAGTATCATATATTGACTATAATAGGGTTGGTGTTCCTCTAATAGAAATAGTTACAGAACCTGATATTAGATCCATTGATGAAGCAATTATATTTTTAAAAACATTAAAAAATATTTTAGAATATGCTGATATATCAGATTGTAAAATGGAAGAAGGTTCTCTAAGATGTGACGCTAATATTTCTATGAGAAAAGTAGGAGATACAAAATTAAATACTAGAGTAGAATTAAAAAACATAAATTCATTTAAAGAACTTGAAAAAGCTCTACTTAAAGAACAAAAAAGACAATCTGAACTTTATAAATATGGTGAAGATTATAAAATTATACAAGAAACAAGAAGATGGGATAGTGCAAAAGGAAAAACTATACCTATGAGAGGAAAAGAAGAAGCACATGATTATAGATACTTTCCAGAACCTGATATTATCCCTTTAATTGTTAAAAATGAAATTTTAGAAAATGCAAAAGCATCTTTACCTGAATTACCAAGTATAAAAAAAGAAAGATTTATAAAAGATTACGCATTAACAGAAACTGACGCATCTATTATTGTAGCAGATAAATATTTAGCTAATTATTTTGAAGACATTGTAAAAGAAGGTGCTGATGCAAAAAATGCAAGTAATTGGATATTAAGAGATGTTATTCGAATATTAAATGAACAAAAAATAGAAGCAAAAGATTTTAATTTACCTGCTAAAGAATTAGCGACTATTATAAAACTTACTAAAGAAAACAAAATAAATAGTAGCTCTGCTACTCTAGTCTTTGATGAAATATTAAAAACTAATAAAACAGCTCTTGAAATAATTGAAGAAAAATCTTTATTACAATCAAATGATAGTAGTGAAATTGAAGCAATTGTTGATAAAGTTATTTTTGAAAATGAAAATGTCGTTAAGCAATATAAAGAAGGAAATAAAAAAGTACTAGGTTTCCTTGTTGGGCAAATAATGAAAGCAACTAAAGGAAAAGTGAATCCAAAAATTGCTAATGAAATTTTATCAAAAAAATTAAATTAATATTTAAACACAAAGGTTTTCCTTTGTGTTTTTCTTTACCATTTAATTATTTTTTGATAAAATATATATATACTAAAGTTTAGTTTTAAACATATCAAAATACTTATTATTTAAAGTTATATTAAATACTATTCTTGGGGGAATTTATGGAAAATATTTTTTTTGCTGATGATACAAATATTGATTTTAAAGCATCTAAAAACTTTGATGATAATTGGAAAATTATTATTGCTGATGATGAAGAGGATATACATACAGTTACAAAATTAGTTTTAAAAAATGTAGAATTTGAAGAAAAACCAATTGAATTTATTAGTTGTTTTAATGATGATGAAACTAAAAATGCATTAAAAAAACATTCTGATGCTGCAATTATTTTATTAGATGTAGTTATGGATACTCTTGATTCTGGTTTAAAAATCACAAAATACATTAGAGAAGAACTAAAAAATAGAGCTATTCGTATTATATTACGTACTGGTCAAGCTGGTACTGCACCAGAAAGAAATGTAATTATTAATTATGATATTAATGATTATAAAGAAAAAACAGAATTAACTTCTCAAAAATTATTTACAACTGTTATCTCCTCATTAAGAGGATATAAGGATATTCGTACTATTGAACATAGTAAAAACGGTCTTGAAAAAATAATAAAATCTTCTTCAAAACTTTTTTCACCTAATCAAAAAATGAAAAATTTTGCTGAATTATTACTAGAAGAGCTTTCGTCTTTGATAGATTCTTCCGATTCTATGTTTTATTTTCAACCATCAAGCTTTATGTCATTTAAAGATAATAATTCTATGAAAATAGTCGCTGCTACTGGTAATTTTTTTAAATATATTGGTTTAACTATTGATGAAATGAATGATATTCTCTTAAAAGAAAAATTGACTGACTTAGACATAAATAATAATTTTATAATTAATAAAGATGAATTCTTTGGTTGTTTTGAGTCGATTAATGAATCAAAATCCATTATATACTTTAAAGACTCTAGAGGCTTTTCTAATGTTGATAAAAATTTATTAAAAATATTTTCCACTAATGTATCAACTGCACTTGATAATTTCTTTTTAAATGAAGAAATTATTAATACCCAAAAAGAAATTATTACAACACTTGGTGAAGTTGTAGAAACACGTTCTAAAGAAACTCATCATCATGTAAAAAGAGTTGCTGATTTTTCATATTTTTTAGCTTTAAAATATGGACTTTCTAAAGATGAATGTGAAATATTAAGAGCAGCTTCGCCTATGCATGATATAGGAAAAATAGGTATCCCAGAACAAATATTAAACAAACCCTCAAAGTTAACAAAAGATGAATTTGAACTAATAAAAAAACATACTATAATAGGGTATGATATATTAAGTAATTCAAATAGAGAAATATTAAAAGCTGCTTCTATTATTTCTAATGAACACCACGAAAAATGGGATGGAACTGGTTATCCTAAAGGCCTTAAAGGAGAAGAAATTCATATTTATGGTAGAATTACAGCTATTTGTGATGTATTTGATGCACTTTCACATAAAAGAGTGTATAAAGAAGCTTGGCCTATTGAAAAAGTAATAAATTATATTTTATCTGAAAAAGGAAGGCATTTTGATCCAAAATTGGTAGATTTATTTATTGAAAATATTGACTATATTTTAAAAATAAAAAATACTAATAAAGACTATGATGAATTATTTAAATTTTAATAGAAAATAAGGAGTATTCTATGTTTTATAGTGAAATCGCAAAATATTATGATTATATTTTCCCACAAAATAAATCGCAACTTGATTTTATTGAAAATATATCACCTATAAAAAATAATGAAATTATATTAGATGTGGGAGCTGCTACTGGTTCTTTAAGTGGTCTTCTTTCTTTAAAATCTAAAAATATTTTTGCTATTGATTTGAATAATGATTTATTGAATTTTGCAAAATTAAAATATCCAAATATAAATTTTATTTATTTAGATATGTTAAAAATAGACACTTTTTTTAACAATAAAAAATTTGATAAAATAATATCATTTGGAAATACTATTGTTCATTTAAATACAAAAAATAATATTTATGATTTTTTAAAAAAATCTTTTAAGTTATTAAATGATAAAGGATACCTTATTTGTCAGATAATAAACTATGATAGGATTTTAAATAATAATATTTCATCTTTATCTACTATAGAAAATGATAAAATTAAATTTATTAGAAATTATATTATTAATAATGATATTATTAAATTTAATACTATCTTAGAAATAAAAGAAAAAAATAAAATTATAGAAAATTCTATCCCACTTATTCCACTTAAAAAACATGAAATAGATAATATGTTAACTAAAATTGGGTTTAAAAATATCAACTATTATTCTAATTTTAAAGGTGATAAATTTTCTTTTAACTCTGTTTCTCTTATTTTTTCAGCGCAAAAAATTTAAGCTGCCATAATGGCAGCTTATTTTAGTATTTTTTCTAATTTCTTAAGTGACGTCGTAGCATTTTCCCTAGGTCTTACTTCTAAAATATAAATAACATTTTCTCCAATTATCTCAAAATGTTTTTTTATATCTATATTTCCTTCTCCAAGTATTTGATGATCGCTTTTTCCGTTATTATCATGTACATGAGATACCCTTATTTTATTTTTGTTCTTTATAAAAAAATCAACTTCATTATAAACATTTTTATAAGAATGCCCTATATCCCATGTAAGATACAAGTCATATTTTTTTATAAATTCACTTAGTGTCTCTTGAACTAATACTTCTGGAAATCTTCCTGAATTTTCAATACAAATTTTTACTTTATCTTTACTATAATTTATTATTTCTAATAAATTTTCTTCTAATCTCTTTTTATATTTTTCATAAAACATTTCATCAATATATATTTTTTTATCTGTTAATGTAAAACATACACTTGCACCTATATGAAGTGTTAAAAATTTTGCTTCGATATCATTTGCGAAATCAATAACATCTTTTATTCTATTAATAGATGCTATATTGATACCATCTTGAAGTTGTAAAAAAGTAATATCTTCTGGTCCATGAAGTGTAATTATTATATTATGCTCTTTTGCATAGTTTTTTATTTTTTCCCTTTCTTCTAATGAAAAGTTTTCAGGAAAAAAAATAGGCATATTTACATTTAATTCTACTGCTTTAAATCCATTTTCTTTTGCATAGTTTATAGAATCATAAATATTTTTTTCAAAAGCTGACGCAGCATATCCTACTATATAATTCATATTGTTACTCCTTAAAGTTTTAATAGTTTTGCAAAATTAATTTCTAAATATTCATTAAATTTTTCTAATACTTCATCAGCTATATAATCATCTACATTTAGTATCATAAGTGCTTTATCACCTTTTTGTTTTCTAGCAACTGTCATTGTAGCAACATTAATATTTTCATTTCCTACTATAGTTCCTACTTTACCTATTACTCCTGGTACATCATTATTGTTTATAAGTAATAAATACTCAGTAAGTTTCACATCTACTTCATATCCATCTATTTCAAGAAGTTTTGGTTCTCCATTTGAAGCAATATTTCCTAAAAATACAACCTCTTTATCTTTTAAAATATATTTAATCTTTATAGCATTTGAATGATTTTTATATTCTTCTTTATTTTTTTGAATATTAAGAGCAATTCCATTTTTTTCAGCAAATATTTTAGCATTTATATAATTTACTTTTTCACTCATTACTGTACTTAAAAATCCTTTTAAAAAGGCTATATCCATCATTTCAGTATATTGTTTTGCAGCATCCCCCCAGTAAGACACTTCTATCGCTTTTACTATTTCTTTATTATATTGATAATACATTTTTCCTATTTTTTCTAGTAAGTTTAAATAAGGTTTTGCTTCTTTTAATTCATCTCTATTCATAGTAGGCAAATTAACGGCATTTTCAACTATCTCTCCATTTAAACCATTTAAAATTTGTTCTGCAATATTAAGTCCTACATTTCTTTGAGCATCATATGTATTTGCTCCTATATGTGGGGTTACTGTAACATTATCAAGTTCATATAATGGACTTTCTGTTCTTGGTTCTGTTTCATGTACATCAAGTCCAAAGCTAGCTATTTTACCACTTTTTAATCCTTCATATGCTGCTTTTTCATCTATTATTCCACCTCTAGCACCATTTACTAAGTGTACTCCTGTTTTCATTAACTCAATTTGTTTATAACTTATCATCCCTTTTGTTTCTTCTGTTTTTGGAGTATGTACTGTTATTATGTCTGCTTCTTTACACAACTCTTCTAAAGTCTCTTTTTTAGTTACTCCATATTTTTCAAATCTTTCATCAGTTATATATGGATCATAGGCTATTAAATTCATACCCATAGCTTTCATTCTAGTAGCCATTAAGCCACCTATTCTTCCTAATCCTACTATCCCCAGTGTTTTACCATATAATTCAGTTCCTTCTAATTGATTTCTTATCCATTTTCCACTTTTAGTTTCATTACTTGCATAGCATATACTTCTAGCTCCTGCAAACATTAATCCTATTGAAATCTCACAAGCAGATATAATATTACTTTCCGGTGTATTTGCTACAATTACCCCTCTTTTTGTAGCTTCTTCTATAGATATATTATCAATTCCATTTCCTGCTCTTCCAATTATTTTTAAATTTTTTCCTTTATTTAATAGCTCTGCATTTACTTTTGTTGCACTTCTTACTACAAGTGCATCATAATTTCCAATTTTTTCTAATAACTCTTCTCTGCTTATACCTATACATACATCTACATCAGCATATTTTTGTAAATGTTCAATACCAGCTTTATCAATTTTCTCCGCAACTATAATTTTAAATTTACTCATAAATATTATCCCCCCATTATATATGTATTACAAATATAATACATTATTTTAAGGTTTTTTTCAAGAATAAATTAATATTTTTACTAACTTTACATATAACTCTTTCCGATATATAATATAAGAAAACTATAAATAAGGAGTGCTTCTATGAAAAAAATATTTATAACTATTTTTATATTAATAAGCTACAATGTTTATGCAAATTTTGATTTAGATATAAGCTATGGTTTAGCTAATAATGCTCAACTTGCAGGAAGAGACCTTAGTGCTGGTTCGTATGAAATTAATTTAGAATATCTTGCTCAAGATTATGATTTTGCTTCAGTTGGAGCGGGAATATCTTTTTTCTCTATCAAAGATTACAGTGATTATGCTACGTTTGGTTCTCATCCGCTATATTCTATTATCCCTATATATGGTATATTTAAATATACTTTTATTCCTGATGGGACTATAGAACCTTACTTTAAAGGAAAGCTTGGTTTTGGAATATCAATAAAAGATGTTAATGTAAATGAAGGTAGTGTTGAAAACGGAGTTTACTATTCATTAGGATTAGGCGCTAAATTTTATGACTATTTTTTAGAATTATCTTTTGCAAAAAACGATGGTAGTTTTATTTATGTAGATAAAAATAATGAATCAATGGCATATAATAGAGTAGTTTTTTCTATTGGATACAATTTAAAATTTATTACTACTGGAGAAAAAACATTGTATGATAAACAAAAAGAATATATAGCACCAAAATCAACTAGAAACAATTATGATAGTATTGAAACTTTTGATAAAGATGGAAATATTATCGAAAAAGAAGGCGATATAAAAAGATTAGAAGATTTTAAAATAATAAATTAGATAAGGGGTTAAAATGAAAATAGTACTTCAAAAAGTAAAAACAGCTAATGTTAAAGTTAAAAATGAAGTTGTTGGTGAAATCTCAAAAGGAATAGTAATATTTCTTGGAATAAATAACAACGATACCGAAAAAGAAGCAGATTGGTTAGTAAATAAAATAATTAAATTAAGAATTTTTGAAGATGAAAATAAAAAAATGAATAATTCATTAATTGATATAGATGGTGAAATTCTTATTGTTTCTCAATTTACTTTATATGGTGATTGTAGAAAAGGACTACGTCCTAGCTTTACAGAAGCTGCAAGTCCTAAAAAAGCTAAAATTTTATATGATTATTTTGTAGAGAAAATTAGAAAAACTGGTATCAAAATAGAAACTGGTATATTTCAAGAACATATGGAAGTATCTTTAATAAATGATGGCCCTGTGACAATGATAATAGAAAAATAGCCTCTTAAATAGAGGCTATTTTAACATTTTATTTATAGTTTCTATCATCTCATCTATTACTTCTAGATCATTATTTTGTATTTTATTTACAACACAAGTATTTATATGTCTTTTTAATAAAACTTTTGACACTCCATTAAGTGCTGCTTTTACTGCAGATATTTGATTTAATATATCATCACAATAAATATCATTCTCTATCATTTTTTTTATTCCTCTAATTTGTCCTTCGATTCTATTAAGTCTTACATTTAAATTTTTTTTAATTTTTTCATGTTCTTGTTTATCAATTATACAACATTTTTCTTCTGTCATTTTTACATCGCTCCTTATATACACCCTATATGTATATAATACTATTTTTTTTTGTTTTTAGCAAGTTAAATAAAGGATTTTTATATATTATTATCGTATATATATAATAAGGTTAAATCTAAGGATGTGATAAAATGCAAGATATTATTTTAAAAAAAGATAATTATGAATATAATGGTATTATTGAAAAATATGATATAAAAAACCATAGAATAACTATTAAAATTCTAGCTAAGAATAAAAGAAATATATTTTTACATAAAGGTGATAGTATTGATATTGAAATTTCAAAAGCTGGTTATTATTGTCATTTCAATACAAAAATAATATATAACGATGTTATTGATCATGAAATTGTTGTAGAATACCCTGAAACAATTTTTAATGATGAACGTAGAAAATATAGAAGACTCACTTTAAGAATCGAAATAGACATTCTAAAAGGTAATAAAAACTACAAGGGACTAATGGAAAATATAAGTCTTGGTGGAATAGCTTTTATGTCGTCATATAATTTTGATCCCAGTGATATTATATACATTACTTTTACTCTTCCAAATGGTGTAATTTATAAAAATATTAAAGCAGAAATTAAATTTAAAAAAACCACTGATTTTCCTAAGATAAAAGAATATGGTACTAAATTCATAGAACTTAGCGAGGGACAAAAAGATGTATTAAATGATTTTTTATATTAAAAAAACTGCTCTTAGAGCAGTTTTTTAATTATTCAAAAGAAGGAATTTTTAAAATATCATTATCATAAATTTTAAATTTTGCAGGAATATTTTCTGTTATATCAGGAGATAAATTTGTATGTAAATATATAGAGTCCATTCCCATTCTTTCTGCCCCTTCAATATCTGTTCTATAGTCATTTCCTACCATAATCGATTCTTTTATTTTTATTTTTTCTTTTTTAATTAATTCTTCAAAAAATTTTACTGATGGTTTACCTACTTCATAATCGGATGATATATATATACCATCAAAGTATTTTTTTATATCTAAATATTCTAATTCTGGTAACGTAAACTCTCTTTGAGCATTACTTAATAAAAATATTTTTTTATTTTGTTTTTTTAATATTTCTAATAAAGGTTTTACATTTTCATATAATTTAATATATTTAGTAGATAATATTCTAAATAATTTACAAGTACTTAAAATTAGCTCTTGAGAAATATCTAATGTTTTATCAAGGTATAATTCTTCAAATACTTTTTCTATTTTGATATCTGGTGCTTCACTTTTATTAGCTTCATAATATTTCTTAGCTTTATTTAAATAACTTTTTTTTAATTCATCTGCACTATAAATAGCTCCATTATAAGAATAAAAGCTAGATAAAATTTCCCACAACTCTTGTTTATTTTCATCTGTATTAATATCAATTAAAGTTCCATATAAATCAAAAATATAATTTTTATACATTTTCTTTCTCCCATATATATTTTATTTTTATACCAATCTCTCTAAACTACCCTTTTGTTGCTCCTTGTGATAAACCTTCAACTATATTTTTTTGTAAAAATACAAATAATATAAGTATAGGAATAGCTACTAATAATGACCCTGCTGCAAAAAGTGTAAAATTATTATCCGCTCTTCCTTGTACCCATTCGAATATACCTACTGCAAGTGTCTTTTTAAATCTACTTCTTAGTATAAGTTTTGGAAATATAAAATCAAACCAAGGACCAGTAAAGTTTGTAAGTGCAATAAGAACTAATATAGGTCTAGCAAGTGGCATTATAATTTTCCAAAATATAGTAAGATGTCCCGCTCCATCAACTCTTGCTGCTTCATCCAAACTTTTTGGGATACCTTCAAAATATCCTTTAACTAACCAAGCATTATAAGGAATTTGTCCTGCTGCATAGACAATAATAAGTCCCCAATGCGAGTCAACTAGTTGTAATTTTGTCAAAAGTACAAAAATAGCTGTCATAGATAAAAATGATGGAAACATCTGTAATATCAACATTCCTATCATCATTTCTTTTCTTCCTCTAAATCTATATCTAGAAAAAGTATATGCTGTAAGAGTTGTAACAATAACTCCTATAATCATATTAAAAAATGCTATTTTTAAAGTATTCATATACCATATAGGAAAATCAGTCTTTGTAAATAATTCTTTATAATGAACTAATGTAAGTTTTTTAGGTATAAATGTTGAACTATATAAACTTGTACCTTGTTGGAATGATGATAATACTATCCAAACTACTGGTAATATTACTATTATTGCTATCAATATAAGTATACCATAAACTATGGTATTTTCAATAAATCTTAATAATTTTCTTTGAACTTTTGTAGTATTAGCCATTAAATCATATCCTCCTCTTTAAAAGATTTACTTCTAGTAAAGTTATATAATGATATTGACGCAATAAATGCAAATAATATTATTGATATTACTCCTGCCATTCCATATTGTTGATGATCTAATGTTAATTTATATAACCAAGTTACTAGAATATCTGTTTCTCCCGCATATTTTAAAGAGGAATTAACTGGATTACCATCTGTTAATAGATAAATTGCTCCAAAGTTATTAAAATTATATGCAAAAGATAATATTAATACTGGTGCTGTTTGGAATAGTAATAATGGTAAAGTTATATGTCTAAATTGCTCATATCTAGTAGCTCCATCTATTTCTGCTGCTTCATATAATGAAGAAGATATATTTGTTAATGAGCCAGAAATCAATATCATAAAATACGGTGCTCCTGCCCATGTATTTATTAAAATAACCATAATTTTTGCAAGTAATGGATCTGTAAAAAACGGAATTTTTTCAAGACCAAATGACGCTAACATATTATTAACAGGTCCAACACCACTAAACATAAGTCTGAATACTAATAAAGATATAAATGCAGGAACTGCATATGGAAGTACAAATATACTTCTCCAAAACCCCTTAAATTTTATACCTTTTTTAGCCGTAAGCAGTGCTAATACTAATCCCCCTGCATAATTTAAAAATGTTGTAGCTACCGCCCAAATAACTGTCCAACCAGCTAATCTTCCAAATGTTCCAGCCCAAGATTTTAATTTTATAATATTTATAAAGTTTTGAAACCCTACCCAATCAACTAAACTTTTAGGTGGCAAATGATTTGGAGCTGAATAGTTAGTAAATGCAATCATTATTGTAATTAATATTGGTAATGCTGTAAAAAATATAGTTCCTAAAATTGCTGGTGTCAACATAATTTTAGGGAAATTTTCTTCATAAAAATGTATCAAATAATCTTTCCCTCTAAGAATTGTTTCTCCTTTTTCTATTTGTTCTGCAATTCTTCTAGCATCTTTTATACTATAAAAATAAACTAATGCATAAAATATAAAAAGAATAACAGAAATAACCCCATCAAACATCATTAATATAGAGTGATCTCCTTGTATTATATCAAACCCTTTTACAGTTTGAGGAGTATCACCTAAACTAATAAGACCTGCTGTATTTTGTAAAATACCAGGTAGGTTATAAATAAATGTTAATCCTATAAAAAAGAAAAATAATCCTTTGAGAAAAAACTTATTTACAAAATGACCTCCACCCATTACAACTATAGAAAAAATAGTTGTTAATTGCTTTCTTTTCATCCTTCACTCTCCTTAAGTAATATAAATAACAAGGTCGACCGAGAAGAATAATCTTTTCGGTCTACCTTTATTTACTTATTTAAAATTATTTAGCAGCATTCATTGCTTCCTTCATTGTTTTAACTGCTGTATCAAGTGCTTCTTTTACAGTTGCTTTTCCATCCCATGCTTCTGATAAAGCTGCCCCAACTGGTGACCACATATATCTCATTTCTGGAATAGCTGGCATAGGTACTGCATACTGTGCTTGTTGTAAAAATGGTAATACTTCTGGATCATTTGCAATTTCAGGTGCATTTAATAATGTTTTTACAGGTGGAATTTGTTTTGTTAATTTATATCTTTCTAATAACATTTCATCACTTGTAACGAATTTTGCAAATAATTGAGCTGCTTTTGGATATTTACTATATGAACTTACTCCCATCAATCTTACTCCAGAGAAAGATCTTAAATGTTTTCCATCAAATGTAGGAAGTGGTGCAATTCCAAAATTTGTTCCAGCATTTTTAAGATCTTTTATAGCCCAAGGTCCATTAATAATTGTTGCTGCTTTTCCTTCTTGGAATAATCCCATCATCGCAGCATAACTAACATCTCCTGATTTTTCTACTGAAATTTCTTTTAATTTTATCATATTTTGAATGCCTCTTACTGCTCCCTCATTATTTATTCCTATATCAGAAGCATCTGTTCCATTACTTCCAAATATATATCCTCCATCCATTGCTAAAAATGCATGTCCATAATATGCATTTCCTACTTCCCAGAAAATACCAAAATCATTATTATTTTTATCAGTAAATGATTTACCAAAATCTATCAATTCTTCAAACGTAGCAGGTGCACTATCTAGCACATCTTTATTATAAAATAAAGCATATGTTTCTATTGATAATGGCCATGCCATAATTTTACCTTCAAATGTCGATGCTATTTTAGCTGCATCCATAAAATCACTAGATATTCTGTCTGCTGATACTAAATTTTCCATAACTAAACCTGAAGATACTGCTTCTCCCAATCTATCATGAGGAAATACAAAAACATCCGCCCCAATTCCAGCTGGTCCATCTTGAGAAAGTCTCCCAATTGAATCAGTCATTCCAACTGGTTCGTATTGTACTTTAACTCCGTATTTTTCTTCAAACTTTTTACCTGCTAACTCTAAAAATTCTCCTTCTGGCCCATCTGATTCCCATACTCTTAATTCTGCTCCTGCTTCTGGCATTATCTCTCCTGTTGTTGAAGCTTCTTGTTTTTTAGGTTCTTCTTTTTTCTTCTTAAAAAACAATCCTGCTTCTGCTGAAACAGAAGATAAAATAAGTCCTGATAATAAAGATGCTAATAAGATTTTTTTGTTCATGTTAAAAATTCCTCCTTTTTTTATCATAATACAGTTTTATATACAATAAACTTTTTTTATTTCCTTCTTATTTTTTAATTATTTTTGTTTCATATTTAGACAATTCTATATTTATTCCATATTTTTGGTACTCTTTTGGTAAAATAAATTTTGTTTGTTTTTTATTCAAGTTATGTATTATTAACAATTCTACATCATCTTTTGATATTGTATATGCATAAATATTCCTATTCAATTCTATTGTTTTATAAATCCCATCATTAAATATAGGATATTCTTTTCTTAATTTTATAAGTTCTTTAATATAATTATAAATGCTATTTTCATCGTTATATTCTTCTTCTAAAGAGATTCCATCATTTGCTTTAGTATATACAAGTCCTGAATAATTTGATGGAGCCTTTGTCATCCCTGGCCCTTTAGCACTTTTATACCAGTCAAACGGTTCTCTAATATTTTCATCTGGTTTTTTACCAAGCTGACCTAATTCTTCACCATAATAAATAAATGGTGTTCCTGGTATTGTAAATAATAATGAAAATATTAATTTTTGCTTTTCTTTATCTCCCCAAACTTCTGAAGCAATTCTATTCATATCATGATTTCTTACAAAAGTAGCATCTATAAAATTTTTGTTGTATTTACTGTATTTTTCTCTAATTCTTAAAACTTCTTTAATTAAATCAAAATTTTTTCTTTGAACAAAATCTGTTAGTTTTTTACTTATTTTAAAATTAAACGAAGCATCCATATCTTCCATATATTTTGCTACAACATTTTCATTTTCATCCCAATTTTCTCCTACAATAAATGCTTCTTTATTAATACTTTTTACATACGCTGTAAATTCTTGCCACCATTTATGATTAACTTCATCATACTCACTATCTATATGTTTTGCTGCATCTAGTCTGAATCCGTCAACTCCCATATCTAACCAATATTTCGCTATTTTTTTTGCTTCTTCTCTTACTTTTGGATTTCTATAATTCAAATCAGGCATTTCATTCCAAAATACCGCTTGATAATAAGCATTTCTTTTTTTATACCATAAATTTTGTCCCCATTCACCTTTTTCTTTAATATTATCATACTTACTTGCCCACACATAATAATCTCTATATTTGCTATTTGGATTACTTATAGCATCTCTAAACCAAGGGTGTCTAGAAGAAGTATGATTTAAAACTAAATCTAAAATAATTTTTATGTTTTTTTGATGAGCTTTTTTTATTAAATATTTAAAATCTTCAATACTACCATAATCTTTTTCTACATTATAATAATCAACTATATCATAACCATGATAACTAGGTGATTCAAATGTAGGCATAAGCCATATTGCGTCTATTCCTAAATTCTTTATATAATCTAATTGTTGTGCTAATCCTTTGAAATCTCCTATTTTATCTCCATTACTATCGTAAAAACTTCTTACAAAAACTTCATAAAAAACAGCATTTTTAGCCCAAGTAGCTCTACTTTTTTCTAATTTAACTTCTTTTTTTGCTAATTTAAAAACATCTGTATAATATTTTTTACCATTAATTTTTGCTATAATTTTATAATTATAAATATTTCCTGGCTCAAATCCATCAATTACGATTCCACTTTTTTTGCTATAATTATTTTCTAATTTAACTTTTTTTAATTTTTCTCCATCTTTTGCTAAATAAAATTCTATTTCAGAATTTTCTGGTACTTCAAACAAAAAATTTACTTTATGATTATCTAATTCAATATAATTTTCTAAATCAAACACATTTTCTTTATAATTATCACTAACTTTTTCCAAATTACTACACGAAACAAACAATAATATCATTATTAAATATACTAATTTCTTCATTATATTAAACGCTCCTTAAAGTTTTTTTAAAGGAGACTATAAAATAGTCTCCTTTTTTTAACCTTAAAATAAGGCTAAAAGAGTATATTGAGAAAGAAAATTTATTACAATTATATTAATACTATATTTTTATTAAAAAGTCAAGCTTTTTCCAAAAAAATATAGAAGCGTTTCCAAAAGTTGTGTTTCTAAACAGTGCATAAAGCACTATTTAAATAATGTTTTGGAGTTTCATTATCTTTAACTTGATTTTTTTTTAATTTTAAGTTAAATTTATAAGATGGGGTGTTTTTTATCTTAATTATCTAAGGAGTAGTTATTTATGATTAAACGACGTAGTATGAGTTTCCAATTAACTTTTTATTTTTTTATTTTTTTTATTCTAATCTCTTTAACGGATATTATTTTAAAAAATGTTTTTATTTATCCAAAAATAAAAATAGCTCAACAAAAATTTATTGAAAATGGTATATTTATTTTAAGATCTTCTGTTAACGATTCTCTTGACTTACTTTCATCTTTAAACAAAGATTATGCATACTGGACTACTCTTTATAATCATGTAGATACTCAATTTGAAAATTCTAATTTTTTTATTAATGAAAATTTTAATTATGAAACATTTGAAAATTTAGAAATCGATATAATTTCAATATATTCAAAAAATAAAAAACTTCTATGGAATGGAAAAAAAATAGGAAAAAAAATTACTACTAATTCAGAATATTTAAAAAATATAAAAGAATATATTTTATACTATAGAAATCCAAATTATTTAAATACTGTTTTAGGTATTTTTACTTTAAACAAAGAAAATTATTTTTTTGCTTCTACTCAAATAACAGATTCTGATAAAATAAAACCTAGTAACGGTTATATAATATTTGCAAAAAAAATTGATAAAAACTATATAAATAAATTAAGTATAAAAAACAATTCAAATATAGAATATATTACCCCAACAAATAGTAATCTTAAATTTATAAATAATATTACTACTAAAATAAATGATTCAAAAACACTTTATAAATATTATTTAGATGATATAAATAATATTTATCTAAACTTTAATAATATTAATGGTGAACTTGCTTTTATTTTAAAAATTTCGTTTCTTAATGGATTAAATCCAGAACATATAAATTCTACTTTTGAAAAAATATTGAGCATCATTTTTGCTTTGATTTTTATGTTGATTTTATATTTAATATCAAAAAATAAAACTATTAAACCTATAATACAATTAAATAGTCATATTAAAAAATTAATTTCAACTAATAATTATACGCCTTTAGAAATCAAAGCAGATTCTGAAGAAGCTAAAAATTTAATTTCATCTTTTAATATATTAATTCATAAAATAAATACTCAAAATGAAGAGATAAAAAATATGAATATTTATCTTACAGAACTTGCATATATTGATCCCCTTACAAAATTATATAACAGACGTATGTTTGAGGAAAAATTTCAAGAATTTTGGATTTTAGCAAAAAAAAATAATCATAATATTAGTTTAATCTTTTGCGATATTGATTATTACAAAAATTTTAATGACTATTATGGTCATTTGGCTGGCGATGAAACATTGATTAAAATTGCAGACACTTTATTAGATTCTTTTCCTAACAATAACGAATATATTTTTAGATATGGTGGTGAAGAATTTGTTATTCTTATAAATAATATAGATTTAGATCACACTATAAAAAAAGTTAAATTACTTCAAAAAAATATATCAAAACTTAATATTAAACATAAAAAATCTCTTGTTTCAGATAGGATTACGCTAAGCTTTGGGATAATAAATACTCCTTATAATAATAATATTAATTTTTTAACATTAATAAATATGGCTGATACAGCTCTTTATAAATCAAAAAAAACAGGAAGAAACACTTTTACTGTATTTAATCAACCACATTAGTACTATTTCCGAAAAAAAAACAAAAAAATATTACAAAAAGTATTGACTTTTTTATATGTTAATGGTATACTTATCTTGTAAGTGATGATTATTAAATATTATTCCTTTTCAAATAGCCAAATTATTTAAATTATTATTATTTATTTTTATTAACATTATTCCTTCATTTTAAAGCTATTTGAAATTCCTAACTCTCTTGAAGCAGGTATCCTGCTTCTTTTTTTGTATATAAATATATAGATATTATACATAAAGGAGTGAAGAGTATGACTACACAAATAACAACTTTAGATAACAATTTACCTGATAATTTGTTAATCTTACCTATTGTTACTAGACCTATTTTCCCTAATCTTATGTTTCCTATAACCTTTTCTGGAGAACATTTTTTGCAAAGTATAAAAGAAGCTTATGATAATTCAAATAAACTTATTGGTCTTGTATTAGTTAAAGAAAAAAATAGCTTAAATTTATTTCACTCAAAACTTTATGAAGTAGGGACAGTAGTTAGAATACATTCTATAACACCTATTTCTGCAAATACTATACAAATTGTGGTTCAAGGACTAAAACGTTTTTCTTTAAAAGAAATAATTCCAAATGAAAAATTTTTAATGTGGCGTGTAAAATATCATGATACAGATGAAGAAGAAGCTAAAAGTGATGAGCTAAAAGCTTATATGCTTGGAATTATGAACTCTTTAAAAGAATTATTTAAATTAAATCCAATTTTACAAGAAGAATTAAAATTACTTATGTCTCAAGTATCATATGATAAACCTAGTATCTTGATGGATTTAGTAGCTTCTACTTTAAAAATTGAAAATAATGAATTACAAGATTTACTTGAAAGTTTCTCCTTAAAAGAACGTAGTAAAAAAATATTAACTCTACTAAAGAAAGAGTTAGAAATTACTCAATTACAAATGAAAATTCAACAAGACATTGAAAATAAAGTTTCAAAACAACAAAAAGAGTTTTTTTTACGAGAACAATTAAAATTAATAAAAAAAGAATTAGGCCTTGAAAAAGATGATAAAGAAAACGAAATAGACTCTTTTAAAGAAAAAATGAAAAAACTAATTCTTTCTGAAGAAGCTAAAAAAATCGTTAATGAGCAACTAGAAAAATTAAATTTATTAGACAATAGCTCCCCTGAATACCATGTAACAAGATCTTATTTACAAACTATTTTAGAGCTCCCTTGGGGTATATACTCTAAAGATAATTTAGATATAAAACAAGCTAGAAAAATACTTGATAAAGATCATTATGGTTTAAAAGACGTAAAAGAAGTGATATTAGAGTTTATAGGTACAATAATAAAAACGGGTAATGTCTCTGGGGCTATTCTTTGTTTAGTAGGTCCTCCAGGAGTAGGTAAAACATCTATTGGACGTTCTATTGCTTCTGCATTAAATAGAAAATTTTTTAGATTTTCTGTAGGTGGGATGAGAGACGAAGCTGAAATAAAAGGACATAGACGTACATACATTGGAGCTATGCCTGGAAAAATTATTCAAAGTCTTAAAACAACTCAAGTATCTAATCCTGTAATCATGCTTGATGAGATAGACAAAATAGGAAAGAGTTTTAATGGCGATCCCGCTTCTGCACTACTTGAAGTTCTCGACCCAGAACAAAATAAAGATTTCTTAGATCATTATCTTGATATTAGATATGATTTATCTAATATTTTATTTATTACTACAGCTAATCAACTAGATACTATTCCTAGACCTTTACTAGATAGGATGGAAGTAATTAGTCTACCTGGATATATATTAGAAGAAAAATTACAAATAGCAAAAAAATATCTTATTCCTAATCAAATGAAAAATCATAATTTATCAAAAAATGAGATATCTATAAGTGATGCAGCTATTAAAAATATTATAGACCATTATGCTAGAGAAGCTGGTGTAAGAAATCTTGAAAAACAAATAAAAAAAATAATGAGAAAATCTACTTTAATTATTGCTGAAGATAATAAAAAAATTAAAATTAGAGTAAATAATATAGAAACATTTTTAGGTAAACCTATTTTTACTACTGAACAATTATATAATAAATCTATTCCAGGGGTTACATTAGGATTAGCTTGGACCTCAATGGGAGGAACTACCTTATATATTGAAGCAATTAAAATAAAAAAAGGAACTGGCTTAAAATTAACTGGTCAACTTGGTAATGTTATGAAAGAATCTGCTGAAATAGCAAAATCTTATGTAGAATCTATTTTACCTAATAAAAAAGAATATAATGATTTTTTTAAAAACAATCTAATACATTTACATGTACCTGCTGGTGCTATTCCTAAAGATGGTCCTTCAGCTGGTATCACTATGGCCCTTGCTTTATATTCTCTCGTAATAAATAAACCTATTAGAAAAGAGATAGCAATGACTGGTGAGCTTACTTTAACAGGTAGAATTTTACCTATTGGCGGATTAAAAGAAAAAGTAATTGCTGCAAGACGTGTAAAGATTTTTGAATTAATTATACCTTATGATAATAAAAATGACTTTGAAAGACTTCCAGACTATATAAAAGAAAATATCAAGGTACATTTTGTTAAGGAATTTAAAGAGGTTCTGAATATAGCATTTAATTAAAAAATGGGCATTTGCCCATTTTTTAAATTATCATTAATTTATATTTTCTTAAAATATTTTTAAAACTTTTTTCTAATTCACTATTCATTCTAAATGTATACTTTTTGTCACCATAAAAACTTATATAAATATTTTCAGAATCAATAAATTGTTCCATAATTTTAAAATCATTTAAAGATATAACTATATCTCCAGACTCTTTTATTAGAAAGTCATCATTTTCTCTTTTTCTAATAATTTCGTTAAATATAAAACTCACTTTATTATTATTTTCATCAAAAAAAGTAACAGTTTTAAACATATTTTTTTGATTTGTTATACTTTGAATAAATAATCTAAGTGTTATTCTATTTAAAAAACTAAGCTCTTCTACAATATATGGAGCTACATAAAAAGTATATCCATCAAAATTTTGAAATGTCTCTCCATTGCTATAATAATATCTAACACCTTTTTCTTCATATACATCTATTGTTTGATTTAAATTTTCTATTTTCCTGTCTCTATCTTGACCTACCGTATTTATATTTATTTTTGGTAAAAGTTGGACATTTGTTTGAAGTGATTTACTACAAGCTGCTATATTTAATAACAATATTATATAAATAATTTTTTTCATTTTTCCTCCCAAAAAATCTATTTTTTTCATATTAACTTATTATATAATATATAATCGACAAAATCAATTTTGTTTAAAACTATTTCTTTTTTAATTTATTAAAAAAACTTCTAAACTTAATTGAAATTTAATATGCTTACTTTATAGCTGACAGTTTTATTATTTTAACTATTACCTATAAGAGCATTTTCAATTAACTTAGAAGTTCTTATTTACCTTCTTTTATCTATTATTTTTTTTAATTTATCTCTATATTTTAATATATTAATCCTTGCTTCTTCCGCTTCTTTTAATGTAGGACGAATATTTTCTATATCCCATTTTTTTATAAGTACTTGTAATACTCTATCAAAATAATCACTAGGACCGTAATTTGCTTCTTTTTCAATTATTTTCATTCTTTCCTTGAAATCGTCTATAACAGAACCTGGCATCGAAAAATTTCTTATAACTTCATATAAATGTAAAACATAATTTGGTTCTATTTCAAGGTGTGCTCTAATTATTTCACTATAAAACGCATAATGAAGTGATTCATCTTTTGATAATCGTTGAAGTAAAACACCTAATTCTTTATCATATTTCATAGCTTCTTTTGCTACATTCTGATAAAAAACTAAAGTACCTAATTCTTGAATAGATGTATAAGCCATTGTTGCAATAGGCGTTTCAAAATTTGCTTCCCATCCTGCTCTTATGACTTGCTTTTTTAAAATATGTAATTTATCCGGATCTGCATTTCTTGTGAGTGTAAGATATGTTTCTAGTGCACTCGCATGCTGGTCCTCTTCTGAAGTCCATATATGTATAAAATCTTGAATTACCTCCATACTTCCTGTAAACGTACCATTTAAATGCGAAGTATACCAAGGTAGATTTAATTCTGTAAGCATAGATGTCTCAAGTGCTATAACTAATGATTTTGGCAAACTAACTTGTGATTCTTCCCAAGGAGTAGTTATAAAACTCTTTCCTTTATCCCATGGCATATATTTAGCATAATTCCAATCAATATTTTTTGCCCTTTCATTATGTCTATTATATATATCTATCACTCTTTTTTCTAATCTTATATCTAAATCTGTTCTAAACATCTCATTCCTCCCATTTTTATTGTAATCTCATTTTATAAATACTAAAACTTTTATAATTTTCCTTCTTTATAATTTGTTATAGTTAAAAATATTTCTAAAATCAAATTTTTTTAAATTTTTATTAAATAAGAATATATATTTAATATACATATATATTTTACTATTTAAAAAATATATGTATTCTATATAAAAAAAGAATAAAATATGCTTGTGTAAAATTTCGTTTAGTAGTATACTATTTCTTGTTTAATTAATATTTAGGAGGCGTCTATTTTTAAAATGAAATCATATAAAAATTTAAAAGAAAAAGCTTATGAAATAATAAAAAATAAAATTATTATGATAGAGTTCAAACCTGGAGAATATCTTGAAGAAAAAGTTCTTAGTGAACTTCTTGAAATAAGTAGAACTCCTATTAGAGAAGCTCTTAATGTATTAGAAAACGAAGGTTGGATTGAGAGCTTTCCAAGAAAAGGGATTTTTGTTACTAGAATAGATGAAGAAAAAATCGATGAAATATATGAAGTGCGTAAAAATTTTGATCCATTAATTCTTAAAATGGCTGCAAAAAATTTGTCACCTTTAAAGTTAAATCTTTTTAAGCATAAATTTGAAAATTATGAAGAGATGCTTGAGGATGAATTTTTAAAATATGATGCTGATTTTCATTCATATGTCCATAGTGCTGTTAAAAATAAATATGTATTAAAAATGATGAAAAATGTATATGAGCATAACCGAAGAATAAGAAGACTTGGTGTACAAAAAGTTCCTCATCAAAGAATTGTTGATTCAAACAAAGAACATTTAGAAATGATAGACCTTATTTTAAATGGAGAAATAGATAAAGCAGCTGATTTATTGCGAAAACATATTGAAAATTCACACAAATATTATCTAAATGTTTTATTAGATAAAGATTTATAGTTGTTTTACAAAAAAAATAAGAATATAATATATATAGGAATCCAAAACTAAGATACAATTCATCCCCTTTTATTTTTATTATCACACGAGGAGACTTATTAAAGTCTCCTTTTTATTTTTTTAAATTAATATCTATTTTTTGATAAGGTATTTCTATACCATTTCTATCAAACTCTATTTTTATTTTCTCCATCAAGTAATAGTACACATCCCAATATTTTTCTGTTTTTACCCAAGCTCTAGTTCTTATATCTATTGAACTAGCACTATGTTTTAATATTCCAATTAGAATATTTTTATCTTTTAAAATATAATTGTTTTGCTCTAGTACTTGTTTTATTATATATTTTGCTTTATCAATATTAGCTTCATATGCAATAGAAAATATCAAATCAAGCTGTCTTTCTTTATTTTTTGTATAATTTATAATTATTCCATTAGATAAAATCGAATTAGGTATAATTATTCTTTTATTATCTATTGTATCTATATGTGTAGAAAATATTTGTATATCTTTTACTGTTCCTGAAAAACCTTCAGCTTCTATAAAATCCCCTACATTAAATGGTCTAAATAATAAAATTAATACTCCACTTGCAAAATTTGATAGACTTCCTTGTAAAGCTAAACCTACAGCTAAACCTGCTGCTCCAAGAAGTGCTACAAGTGAACTTGTCTCAACTCCCAGCGTTGAAACAACAATTATAATTAAAATAAAATTAAATGCTAAACTCAAAAATGAATCTAAAAAACTTTTTAATGATTCATCAAATTTTGCTTTTTTCAAGGTTTTTTTTAACATTTTTAATAAAAACTTTATTATATATTTTCCTAAAACATATAATATTATTGCTAATACTAATTTTCGTCCATATATACTAAGCAATTCAAAATATTTTTCCATAACGCCTCCTTATTCAATTTAAAAAATATAATTTATTTAATTTTAACATTTTAATTTATTTAATGCAAAATTTAACCTCTATTCCAAGGTCATGACCTACATCTTTTCCAAATACAAGTAATGAACTAAATATAAGCATAGCAAGCATTTGGCCTATTTTACTCATAAATGTACGCACTCCAAAGAACATTGCCTCATTTCTTTGACCTGTTCTTTCTGCATCATCTGCTGCTATATCTGCTACTACAACATTTGGAAGTATACCAAATATTGCCATCGGAAGTGAAGTAACTATAACAAGTATATAAGCTTGAACTTTTGTTGATATAGTCAAAAATTCCATTCCTAAAAAAAATATATATAAATATGTAAGCATTAAATTAAAAAATGCAAATACAAGCATTTTTTTCTTACCTATTTTTTTAGCCAAAATATTTACAATTGGATAAAATATGAATGAAAATAAAACTAACATCATATTAAGTATCCCCATCATAGCTTCTGGCAATCTCATAAGTACAGTTGTATAATATATAAGACCTGTTTGAAATACTGTAAGAGCCGTAAAATACATAAGGTCTGATATTGTAAACATTAAAAAATTTTTATTACTAAAAGTACTTTTTATTGAGTCAAGCATATTTTGACCGCTTGGTTTATTATCTGAATATTTTTTTTCATCAATAGTAAATACTGGTATAAATAAAAATATAAGTGCTACTAGCGCCATTAAACCTATTGTTATACGAATAGCTAATACTTTTTCCATTCCATTAGCTATGAATATATTCCAAAACGAAGGAGCAAAAAATGCTATAGCTGTTCCTATAAAAAAAGTAACTGATATTGCTGTAGATAGATTAATTTTATCATTTGAATTCTGCCCTAACTCAGAAAGTAATGCAAAATATGGGGTAACATACATTGTGTAAAATATATAAAAACTAAAAAGTGTTATTACTAAAAATATTACATTTATCAAACTAATACTATTTACTGGTGAATAAAATACAAGTGTTGTAAATATAGCTAAAGGTACTGCTGATTTCATCATAAATGATATTCTTCTACCATATTTTGACTTTGATTTATCACTAAGATTTGCTATCCATGGATCTGTTACCGCATCTAAAAATCTTCCCGTCATAGTTATAAGACCTATTATTGTTAAAAATCCTAAAATATTTCCTTGTGGAATATATTTTGGTAAATTTGCTTCTTTTGGTGCTAAATAAAACCATACTAAGTAAATATTTATAATTCCCATTAGCATCGACCACCCAAGCTGTCCTAGCGCATATGATATTATTGTTAATAATTTTAATTTTTTCTCTTTCATAATTTACCACCTTTATAATAAATTTAAAAAAATACTATTTATTATCTTTTTTTATTAAAAGAATTTTATATTTTTACATGCTTTTTTATTTTTCTATTTTTTAAAAAACTCTAATATATCTCTATAAACCTCTTGTTTATTTAATTCATTAAGCATTTCATGACGACCATCTCTATAAAGTTTCATGCTTACATCTTTTATCCCTGTATTTTTATAAGCGTCATACAACCTTTTCACACCTTTCCCAAATTGCCCAACTGGATCCATTTCCCCTGAAAAAATATAAATTTCTAAATTTTTATTAATATTATTTAATCTTGATAAATCTTTTAATTTGATTAATCCGTCATAAAAATAATAATAAAATTGAGATGGAAAGATCCCTCCACAAAGTGGATCTTTAATATATTTTTCTACTTCTTTTTCATCTCTATTTAACCAATCTTGCTTTGTTTTTTTATTTTTAAATTTCAAATTAAACATCCCAAAATTTAAAAAATCAATAATTTTACTAGGTTTTACCTTATTATTTCCCATTTCTAATTTTGCGATAATTTTACCAAAATTTAATTCTAACCCCATTTTTCCACAAGAACCAGAAAAAATAGCTTTTCTAATATTTTTACTATTTCGTATTACATATTCTTGTAGTATAAATGATCCCATGCTATGACCAAGTACATATACAGGTAAATTATTATTTTCTTTTTTTATTATCTCTGTCAATAAAATTTCATCTTCTATCATTTTATTAAATCCATCTTTCCCAATCTCACCAAGCATTTCATTTGATTCTAATGTTTCACCGTGTCCTCTGTGATCAGTAGCATATACAGAATATCCATTTTCATTTAAAAATTTTGCAAATTCATCATATCTTTTAGCATGTTCTGCCATACCATGTATTATCTGTACAATAGCTTTTGGCTTTCTAATTAACCATTTAAATGTAGTAATTAATTTGTTATCTTTTGCATTAAATATAAATTTTTCCATTTAAAATACTCCTTTATTTTTTTATAGCTAATTTTACCACTTCATATGCTCCATTATAAATCCCTATTTTTTTATTTTTAATAATTGCATTACACATAAGTTCTAATAAATCATTTTCTTTTAACATTAATTCTAAAAATTGTAATGTTTGAGCTAAATTTCTACATTCTATTGTACCATCTCCAACTTCACTACTTCTAATAGCTCCCCAAGCTTCATGCCCTCCAACCCTTTCTATTAAAAGCTTTGGTACTGGATAAAATGATAATTCGCTTGGTTTTGTAATAAATATATCTGCATCTCTCATTAAAATATTTGTAGAATATACTGCTTCAAAAATATTTTCATTATATATTACATACAGTCCTTTTGCTTCTTCTGTTTTTAGAATGTTTGAAAGATCTTTCACTTCATTATATTTATTAAAATATTTTTTTGCTAAAATTTCTATCCCTTTTATATTTTTTTCTATATTTTCCCATACATTTTTATGATCTCCTAAATTTATAAATAAAGCTACTTTTTCATTTTTTATATCCTCAAGCATATATCTAATAATATTTTCTACTATCCCCTGCTGAGCTCCAGCGCCTCCTATACTTATAAGCACTCTTCTGTTTTCACCGTTTTCTATCCTTTTTAATCTAGCTTTACAATCAATTTCAATATTTTCTACTAATTCATGATCTACATAATGTCCTGTATATTTTATATCACTACTTGGAATCTCTTTTAATCTATTTTTTTTAGACATATCTATAAGAGCTCTATATCCCATATATGATGAAGGTGTTTGAAGTGTGTGTAGACTTCCTTCTGCAAGATGTAATCCTAATGGGAAATTATCCGGTATAACATTTATAACTTTTTTCATTCCTGAATGAATTGCAGTTTGAGCATTCCATACATGCGTAGCTATATATGGTATATTTTTATCTAAATTATTATATATACTTGTCATTAATTCTGTCATTTTTTGATCTATAAAATTATATTCTATACTTTTAAATCCATCTGTTGTTACTTTTTCCCAATAAAATTTATTAAATAATTTTGATTTTTGAGAAAGTCTAGAACCTAAAGAATATAAATCATTTAAATGAGATATAATTTTACTACTATTTGCTTCTTTAAATGATAATAAATCAAACCAATAAGGGATATATCCCATAGCATTTGCTGCAGAAGCTATTGCCATTGCTATTCTATAATGACCAAATCCCATACGTATATTTCCTATAATTATTCCTTTTTCTTTTTCTATTTCTTTTCCTTCATTTGATATTACTATATTTTTTAGATTTATATTATCAAGAGATTCTATATCTTTTACTTTCAATTTATAATTTTTATCTCTATCATCACCAAATTTTTTAATATAACTTTTTTGCTTTTTTAATGCTTTTTTTACTACTTTATCACTAATTTCATTTCCAAAAATTTTATTACTCATAAAATTTATCCTCCATTCATTTATAAATATTTAATATTCTTTTTTTATAGTTTGATGCTTTTCTAATTCTATATTTTTGTATTTAATTTTTTTATCATTTAAATTAATATAAAATATATTCTTTTTACTATTTAATTTCACTTTAATTTCAAATATATTATTTTCTTCTTTCACATTTAATATCTCTCGACTTTTTATTTCTTGACTAAATTTATACATCTTTTTTTGTTTTTTATTATATTTTGAAATATTATCTGAAGTAAAAACAAGTGTTCCAAATATATTGTTTATCCAAAATAAAGTTTCTTTTTCATTTTCACTAAGGGATATATTATCTTCTCTAAGTAAAAATACATCTGGATCATTATAAAAAGCAAATCCATTCATATGGTATCTATATATACTATTTCTTATAGCATTTTTAGTAGATATTCTTTCTCTATGCATATATTTCATATACCATTTATCATCCCAATCAAGTCCTATATCACAACCAATTCTACAATAATCAACTACTCCAAAAGCAGAAACTAAAGGAACTCCACATCCTAATATTTCTTTATCACCTATGATTTCTCTTAAAAATAACATTGCATCTCTCATTATTTCTGCTCTTGTTTTATCTTTTCTTGGAATTAAACAAGCTACATACAAAAAATCTAATTTAAATAATTTATACCCCCATTGATTTATCATTACATCAAATACATTTTTTAAATATTCTCTAAAATCAGAATTATATATATCAAGAGCATAAAATCCACTCCAATTTGACCCTCCATATACAAATTTTCCATTTTCATCTTTTAATATCCATTCAGGATGTTCAGAAACTAAAATTGATTTTTTTTCTGCTGCAAATGGAGCAAGCCAAATTCCAGGCTTATACCCTTTATTTTTTATTTCTTGTGCTAAATATTTCATTCCCTTTGGAAATTTATTATTAATCAATAACCAATCTCCTACAGCGTTTTGATACCCATCATCTATTTGAAAATAATTAAGTTTTGTTTTTTCTTTAAAAAAATTATCTAAATTTTTTAAAATTATTTTTTCTGTTATATTTTCATAATAGTTATACCAACTACACCATCCATTAACTTTTTTATTTTCTTTTTTTTCTAAATTTAATATATCAAAATATTTTTCAAAAATTTTACTTTCATTTGTATCAATTATATTGATAATATTAAATAAAGTTATTTTTGAATTTATCTCTTTTTTTTCTAAATCTTTATAAAAAGTAATTTTATTTTGTTTTGTATTATGTTCTATAAAAGTAAAACTTTTATAGTCATTTAATGAGCCTAAAAAATATATATTCTTTTTTGACTTAATATAAGTATATGTACTTGAATGAAAAATACCACTCCTATTTTTATAATTATAAAAGTTATAATCACCATATTGTTTGAATTTATATTTTTTAACTATAGGAGATATTAAAAAGTTAAATTTTCTTTCTTTATAATTAATATCAACTTCTTTAGAATCACTCCATGATTGATACCCATTAATAAAAATTTTATCACTTTTTATATATTCATAAGATATTTCCATTAATACTTTTTCTATAATTATTAACTTATTAGGTAAAAGCTCTATATAATTGCCATTGCTTTTAATATTTAAAGAAAAATCTTTACAAATATAATTTTTTTCTAAAATTATCTCTTTTTTTACTTTTTTATTTTCAACTTTATAAATAATTTTAAACTTTTTCATCTAAACTCCTAACTTTTTGTTCTGATTAATTACATTAATTTTATTATTGATATTAATATACTCTATTTTTTTATTTAAATCAACTTTTTTTTAAAACTTTTTTTAACCTTTATTAACTAAATTAATTAAATCTTTTATTTATTAATATTTATTAAAAAAAATTTACTAACATTATTAACACATTAATATAATTGAATTTTATACTTTTGTGTGATATCATTTATTTAAAGATTATTATAAATATTGTTTTAAGAATTAACTTAAATGAAAGGGTGGATTTTATGACTCCAGAAGAAAAAAAAGAAATTCAAAAACAAAGAATTAAGCGTTTTTTTATAGATGCTACAAAAGATTTACTTCGAGAAGAGGGGTTAAATAGTATATCTACTAAAAAAATTGGTGATAAAGCCGGATATTCTTATGCCACTATATATAATTATTTTTCAAATTTTAATGAATTAATATGTATAAGTCTAGAAGAATTAGCAAATGAAATGAAAGAAGTTTTAGAAGAAAGTTCAAAAAATTTAGAAAATAATATCGGAAAATTATTAGAGTTATTAAATATATCTATTGATTATACAATTCAAAACCAACATGTTTATAAACTTTTTTTATCTACAACAATAGATTATAATTATTTTAAATATACTAAAAATAAAAGATTTATACATCCTGCATATAATTTGTTGATTTCAACCATTAAAAATTTAAAAGAATTTTCTAATTTTTCAGATGAAGATATCCAAAATTTCGCAGATTTAGTATTTACTCTTTTTCATTCTAAAATACAATTTTTCTTAATACAAAAATATCCTGAAAATATAGAAAATTTAAAACAAGATATTTTTAATAATTTAAATTTTTTAATAAAAAATACAATAAGGTAGGTAATTATGAAAAAATACTTTGAATTATTTTTTGTTTTTTTTAAAATAGGTGCTTTTACTTTTGGTGGTGGATATGCGATGCTTCCCATTATTGAAAAAGAATTAGTAGAAAAAAGAACTTGGCTTAGCAAAAAAGAACTTCTTGATATAACCGCTGTCGCACAAATGACACCTGGCGCTATTGCAACAAATACAGCTACATATCTTGGATTTAAACAAAAAGGAATTTTGGGGGCTTGTTCTGCTACTTTTGGAGTAATATTACCTTCTATTATTATTATTACATTAATATACAAACTTTTTAGTCAAAATTTTGATTTACCTATTGTTAAATCAGCTTTCTTAGGAATCCGTAGTGCGATTATCGCTCTTATTTTAAATTCTGTAATCAAAATATTTAAACATAGTATAAAAAACAAGTATACTTTAACTCTTTTTATTATTTCAATATCTATTTTAATTATTTTTAATATAAATCCAATTTTAATAATTGTTTTTACTGGAATTTTTTCTTTTATTTTATCTATTTTATTTAAAGACATGTTTAAAAAAATGCTTTAAATTAAAGGATAATATTTGTTTTCATTTTAAATTTTAAATTTCAAAATTTTATTTTTAATCTTAAAATTAATAAAAATTTAGGAGGTAATTATCATGATAGAAAATTTCCCAAAAGAAATATTAGAAAAATTTTATGAAGGAATATATTTTGTGGATAATAATCGAAAAATACTTTATTGGAATAAAGGTGCAGAAGATATCTCTGGATATAAAGCTGAAGAAGTTATAAATAAACACTGTTTTGATAACATACTTATGCATGTAGATAATACTGGAAATCAATTATGTAAAAATGGATGTCCTCTACACAAAACATTACAAGATCATCAATATAGAGAAACTAAAGTTTATCTTCATCATAAAAATGGACATAGAGTTCCTGTATATATTCGTACTTTCCCTATGTTTGATAATAACAATCAAATCATTGGAGCTTTAGAAATTTTTTCAGATGCATCATTTCAAAAAGAAATATTAAAAAAATTAAAAAAACTAATTATGATTGATAAATTAACTGGGATACCAAATAGAAGATATTTTGAGGCTCAATTTGATAGTAAGCTTTTAAATTATAAAAAAACTAATATTAAATTTGCTATTGCAATACTTGATATTGATCAATTTAAAAAAGTAAATGATATTTATGGACATGATGTTGGAGATAAAATTTTAAAAATAATTTCAAATACTTTAATTAGTAATATTGAACCTACTGAAGTAGTTGCTAGATTTGGTGGTGAAGAATTTATGCTTCTGTTAAACGAAAATAACTTAGATAAATTGATATTTAAAATAGATAAGATAAGAACTCTTATAGAAAATTCAGGATTTAAAGTAAAAAAAGATGAAAAAGAATTTGAAGTAAAAGTAACTGTCACAATTGGCGCTACCATAATAGAAAAAAATGATGATTTTGATTCGGTATATTCAAAAATAGATAAATTTCTTTATGAAGGAAAAAATTCAGGGCGAAATATATCTATAGTTAAATAGAAAGGATTTATTTATGATATATTTTAAACTTTTTTTAACATTTTTAAAAATATCAAGTTTTAGTTTTGGTGGTGGTCTTGCGATGCTTCCAATTATTGAAAAAGAAGTAGTAAAAAATGGTTGGTTAAGCACAAAAGAATTTCTTGATATTGTTGTTGTATCTCAAATGACTCCAGGCCCTATAGTAGTTAATTCTGCTACGTATGTAGGTAATAGTATAGCTGGTATTCCAGGGGCTATTTTTGCTACCTTTGGGGTTATTTTACCATCTTTAATTATTATAATATCCTTAGCCAATTTACTTAGAACTCTCGAAAACAATTATTATAAAAAAAGTTTTTTTATGAGCCTAAGACCTGTAATTATATCATTAATATTATATGCAGGTATAATTATAGCTAAAAACACCTATTTTATTAATTCAAAAATAAATTATATTTCAATAATACTTACTCTAGTTTGCTTATATTTAATAAAAAAAACAAACATACATCCAATTTCTATTATATTAATATCAGCAATCATAGGAATAATAATTTTTTAGTTTATATAAATAATAAATAAAAATCATGGTTTTTAACCATGATTTTTATTTTAAATATACTCTCATCAAAAGATCGCCCGCTTTTATTTTACCCGTTTTTTTCTCTATTTTATCTACTTTTTCCATATTCGCTATTACAACTGGTGTACATATAGATTTTGCATTTTCTTTTATATAATTCAAATCATATTTTATAAGTTTTTCACCTTTTTTTATTTTTTCTCCTTCTTTTAATTTGGTAAATCCTTTTCCTTTTAAACTTACTGTATCAATTCCAAAATGAATAATAAGTTCTAATTCTTGTATTTCTATAGATATAGCATGTAAAGTGTCAAATATACTTGATAATTCAGAATTACAAGGAGCATAAATAATAGAACTATTCTCCTCTGGTATTATCCCAACTCCATCACCTATTACTCCAGCTGCAAACGCTTCATCTGGTATTTCTTCTAAGCTTATAATCTCTCCATCTATTGGTGAAGATATATCTACAACTTTTATTTTATTTTTTGTTTGATTAAAATATTTAAATAATTTATTTAATAGATTCATCTTATCCTCCATCTTTTTGATTTTTTAATTAAATTATACTTTATATTTTTCATTTGTCAATTAATTTAATTTTTTTATTTTTTCAATTAAATTTAAACTATCAAATGGTTTTGAAACAAACTCATTTATCCCTACTTCTTTTGCTATTTTTTTTATATTTGAAAATCCTGCCATTGTACTTACTAATATAATTTTTACATTAGGCATTCTTTTCTTTATTTTTCTACTAGCTTCTATTCCGTTTATTTTAGGCATATTCATATCCATAGTAATTATATCTGGTTCAAATAAAAATGCCTTGTCTATTGCTTCTTTTCCATTACTAGCTTCTGTTACTATTTCATACCCATTTTTTTCTAAAATTTCTCTTATTTCTTCTCTTATATAAAATAAATCATCTACTATCATTACTTTTTTCCCCATACTATCACTACCCTCAATCTTTTTTATTATTTTTTCTTAAATATAATTAAATCATATATATCTTTATATTTATATGGAATTGACATTTTTTCTATTAATATATTCCATAATTTAATAAAGTCCTTATTTGTTATATTTTTTAATTCTTTTAAAAATTTCTCTTGAAATCTCAAGTTTTTACTATTTTTTATATAATCAACAAATTTCATTTTAACTAAACTAATCTCTTTTTCATTTAACTTATCTTTTCTCGAAAAATAAAGATAAAGTACTTCATTATTATTAATGCCATTTTCAAAAATAATTTTTCTAAAAAATGATGCAATGTAATCATATTCTAAATTATTATGAAAATTATTAGTTTTTTTATCTATAAAGGGAATAAAAACGTCTAACATATGATTTTTTTCTATAATAATTGAACGTCTTTTCATCAATTCAATTACATCTAATATTATTTTATTTTGAACTCTCTTAAATTCTTTATCTATTTCAATACTTATTCCTATATGAGGAAAATATTTTGATGTAAAATCATCTGAGTGTAAATAATTTTTTACCTTCTCTCTATATTTTAAATTTTCACTAAATTTTATAAAAAATTCATAGGATTTTTTTATAAAAGAATATACAATTTCTTTATTTAATAGAAACTTAAATAATATTTCCAACTCTTTATTTGTATATTTATTAAAAGTAAAAGTTTTAATTGTTAAACTTATTAAATTCAAATCTTCTTTTGTTATATTAAGATCAAATTCTTCTTTATCAACTAATTTTTCAACAACACCATTTTTTATATATTTATTTTTATTAATTATCAACATTTTTATTAATGGAATTATTTTATATAAATCTTTTTTAAATGTAATTCTAACAAAATTATTTTTTTTTAATTCTTTCTCATAATTAAAAAAATGATCTACATCTATCATTCCTTTTGCTAAAATCCCAACTGCATTAAAAGTAATTGTTTCTGGTACAAATTCTTTATCATTTAACACCTCTTCACTCATAACAGCTACATATTGTGCTATCCCACCACCTAATGAGTGCCCTGTTATACTTATTTTAGTATAGTCTACACTATCTAGTATTAATTTATAAAATAATAATCCTTCATCAAATTGTTTTGGTTTTTTAGCTATTCCAATAAGTAAATCTGTTTTTAAAAAATCTTTATATGCTTCTCTTATAGGATATACTTCACTCCCTCTATAAGATATAACCACTTCTTTTGTTTCAATTTTTTGAAATGCTATAGCATAAAATCCTGTTGGATTTTTAACAAGCTTATTGTATCCCGTCCTATCCATCACATCTAAAATAATAAATTTATCTAAAACATCTTCAAAATAATCATTTAATAATTCAGAATTTTTTAAATAATCCATCTTTCTAAAAAGCGAATTAGAATCCATAATTCTATTTTTATTTGTATTAAATAATTCTCTTAATGTTTTACCTTTGTCTGATTTTTCAAAATAACTATATGAAACCCCTGCAAATATTAAATACTCTTTATCAGTAATCATCTCTATCACCTATTCTTTTATTTTATTTATTATTCTACAATATTTTTATTTTCCTACATATTTTTTATTTTTTTTAAATAATATTGTACTTATTTTAAAAAATATAGTAAAATATTTTGTAATAGTATTTTATTAAAATCAAAGTTATACTCAAATAATATAGTTATTATTAATATTAGATAAAAAAATCTAATATAAAAAATTTAATATATACTAAATATAGAAAAATGTAGTAAAAGAAGGAGTAGTAAATATGATAAAAGTAGGTCATAGACAAGAATTAAAAGTAAATAATATATCAAGTATAGGTGCATATTTAGATGCTGGAACCAGTGACACAAAAGATAACATACTTTTGCCTAATAATGAATTTGTTGATTTAGATATAAAAGTAGGCGATTCTTTAAATGTACTAATATATAGAGATTCTGAAGATAGACTTATCGCTACACTTAGAGAAACAAAAGTAGTAGCCGGTAGAATAGAAAAACTTGAAGTTGTAGATAAAGCACCCATTGGAGCTTTCTTAGACTGGGGATTAAATAAAGATATTTTACTTCCAAAGGATCAACAAGAAATTGATGTAGAAATAGGCAAAAAATATTTAGTTGGATTATACGAAGATAAAAAAGGTAGATTAACTGCTACAATGAAAATATATAAATTTTTATTACCTTCTACTAAACTTAAAAAAAACGATATTACAACAGGTACAGTATATCGAATAAACAAAGATATCGGTGTTTTTGTAGCCATTGAAAATAGATATTTTGGACTTATTCCAAACTCAGAAGCAAAATATAGCGAATTTAAAATAGGCGATGAAATTACAGTAAGAGTAATTCGTGTAAGAGAAGATGGCAAAATAGATCTTAGTCCTAGACAACTGTCATACTTAGAAATTGATGAACATTCTAATATAATTTATAAATATATGGAAAATAATAACGGAATATTAAATCTTACTGATAAAAGCTCTCCTGATTCAATAAAAAAAATACTTAATATAAGTAAAAAATCATTTAAAAAAGCCATTGGAAATTTATTAAAAAATAATAAAATAATAAAAATAGAAAAAGGATTTAAAATTATAAAATAAATAATTTTATAAAATTTCAACTCTTAGTGATAAACTTTGTTTTAATAAATTCATTAAGAGTTTTTTATTTGAAATTTCTAATTAATTAAAAAGTAAAGAACCTGTTAAGCGGTTCTTTACTTTTTAATTTAGTTATTATTATTCTTTTACTCCACCTACAGTTAATCCCCCTACTAAATATCTAGATAATGATACAAACAATATTATTACTGGAATACTTGTTATTATTGCTGCTGCCGAATAAATCCCCCATGAAGTTGCAAACTGGCCTTGCATATTTACAAGTCCTACTGGTAAAGTAAGCAATTTTTTATTTGTTAATATAATTCTAGCTACTATATACTCTGACCAAGCTGTCATAAATGAAAATAAAAATGATATTGCTATTGCTGGAGTTGATAACGGTAATACAATTTTTATAAGAGCCTGTACTACATTGCATCCATCAATATATGCACTTTCTTCTAATGATTTTGGTACTGTATCAAAGTATCCTTTTAAATTCCATACTGAAAATGGAACTGCTGTAGCAATATAGGGTATTAATAGACCTAAAAATTGATTTATAAGTCCTAATTTTACTAAAAGTATATACATTGGTAATAATAACATAGGCGCTGGAAACATTTGAGTTACTAAAAATATCATCATTCCGCTTTTTCGTCCCCAAAATCTAAATCTCGAAAATGAATAAGCTGCTGATATTGATAATACTACTCCAAATGCTGCAGTTACCAAAGATATTATTAATGAATTTTTTAACCATATAAGAAGATCTTTTTCAAATAAAGCTATTCTATAATTTTCTAAAGTCCAATTATCAGGTATAAGTTTCAATGTCATTGAAAATAGTTGATCTCCAGGTCTAAGGGATACTGAAAGCACATTCAATAATGGATAAGTAGTTAAAAATGCTATTAAGATCAAAACTGTATATATCAATATAATTTTAGGCCAACTATCTGTTCTTTCAAAATATTTCTTTTTTATCTCCTTCATATTAAGCATGACTTTCATCACCTCCAATTATATTACTTTTTGCAACAAATACTACACCAAATAATAGTAATATTAAGAATATTACTACAGAATAAGCTGCTGCATATCCATATCTATAGAATTGGAAGGCTAATCTATATACATCTGTTACTAAAATTTGTGTTTCTTCATTACCAAAACCATTTGCTATTATTATTATTACATTTAGCATATTAAATGTCCATACAGTACCAAGTACAATTGATGGAGTCATTACTGGTTTTAATAACGGTAAAGTAATATTTTTAAATTGTTGCCAAGGTGTAGCACCATCTATTTCAGCTGCTTCATATAAATTTTTTGATATCGATTGTAATCCTCCTAAAGCCACCATCATCATAAAAGGAAATCCAAGCCATATATTGGTAATTATAGCTGCTAAAAACGTAAGAGAAGGTTGTGAAAGCCAATTAAGAGGTGGTATTCCTATCTTACTTAGAAATATATTTACTGCTCCAAATTTAAAGTTAAACATACCTCTCCATGTAAGAGCTGCTATATATTGTGGCATTGCCCAAGGTATTATTAAAAATACTCTTAAAAATGCTTTCCCTGGTAATTTTCTATTTAATAATACTGCTAGCCAAAGCCCTATTGTAACATGAAAAAATACATTTACCACTGTCCATATTATTGTACGAATTAATGTTTTTACTAATCTAGGATCAGTAAATACTCTTACATAATTATCAAATCCTATAAATTGAGGATGTCTAAATGTTTTTAAACTCATATTTGTAAGTGATAACCAAAATCCATATAATAAAGGATAAAAAACCATAAGTGCTAAAATTGTAAGTGCCGGTGCTATAAAGTAATAGGGTGTACTTTTTTTCATAAGTAATTGATTTGCTGTTTCCTTATTCTTCATTTCTTCCTCTCTTTCCTATTCTTTCTTTCTTAATATATTCTTTTAACCTTTTTTTTTAAATGTTTTTAAAAACAAAGAGGCTTTAAGCCTCTTTGTTTTGCTGCTATCTACTCTCTCTAAACCTTTTCTCTCTATTTCTATATTTCAAAGCTTATTATTCCCCTCTTATTGTTCTTATACCGTATTCTGCATCTTCTTGCATTTTTGCTGCTGCTTCAGCTGGAGTAAGACTTCCATTTATAACTGCTTCTAAATTTGGTCTCATAGCATCCCATATTGCTCTCATTTCTGCAACTATTGGCATTGGAGTTGTTTTTTCAATTGTAGCTATAGATGCTCTTTGTAATGGATCATTTTTAATTTCAGGTAATTCTCTAGCCGCTAATACAGACGGTGCTTGTGATTGAGCTTTTGCATATTTAGCATTATTTTCAGGTGATAATACAAAATCAAAGAATGTTGCTATCGCTTTATATTTATCTTCTTCAACAGATGAAGAAATTGAAAATCCTTTAGTAGCTGAATAGAATGTTGCATTTCCACCACCATTTGGTAAAGTTGACATAGGAGCTATTCCTAAATCGATTCCTGCATTTATATATTCTTGCCATGACCATGCACCATTTAATAAGAATGCTGCTTTCCCTTGTTTAAATAATTGAGAAGACATATCATAATCCATTCCTGCTTCTCCAAGACCATATTTATTTCTTATATCATATGCAAATTGAAGAGCTTTTACCATTGCTTCATTATTTAATGTAGGATTATAATTTTCATCCATTACTCTTCCACCGTAACCTTGATACCATCCTATAAACCAATATGGTTCTTTTTCATTATATAATAATCCATAAGTTGAATTTTCTGGATTTAACTCATCTACTTTTTGATATTTTTTAGCTATACTATAAAATTCATCCCAAGTTTTTGGAGCTTCTTTTACCATTGCTTTATTATAAAGTAGTGCTATTTGATTTCCATTCATATCTGGTATTTGATAATATTTACCATTAATTTTTCCTGCTTCTAGAGAATTTTTTTCAATTTTAGATAAAAATTCATTGCTTACTACTTCATCTACAGGTTTAATTAAATCAGATACTATAAATAATCCTATATTATCATTTGGACCATAAACAATATCAGGTCCTTGCCCTGCTAAACTAGCATTTTGAAAGTTCGTTCTTAATTCTTCATTTGGATAATGTGTAACTGTTACTTTAATGTTTGGATTTTGAGCCATAAAGTCATTTACAATTTCAGTAAATACTTCAAGTCCTGTTGGTTCCATTTGTTCCCATACTACGATTTCTTGTGATTCGTTTGAAGCTTTAGCCTTTTTCTTAAATAATCCTGCATTTGCTTCTGTTGCTAGTCCTGCTAATAATGTTGTTGCCAAAATACCTGTTAATAATTTTTTTTTCATAATCTCCTCCTTATATTTGGTAACGTTTCCAATTAACTCTAAAAAAATTTTACTGCACTACATAAATACATTTTGTAATCTATTAATATTAATACTACATTTTTTAAAAAAAATCAAGAACTTTTTTTATCAAAATAAAAAAACCTCTTATTTATATCTTTAAAATAAGCGGTTTTCAATTAAAAAAATTTTACTTATTAATCTTTGTAAAAATAATAATTTATTGTATTTGGATACGTAGCTGCTAAATTAGATTTATCAATAAGAACTTTTATATCGCTTCCATTATCTGGATACATTGAAACTCCCATTTTTAATATAAACTCTATTTTATTTCCAAAAAATATTATTTTTTTACTCTCTTCTAATATAGAATTTATATAATGTAATACTATAAGTTTAGTATTAACTCTTTTCAAATATATATATATTTGATTAGTTTCTGTTGTTGCTATAACATTATCTATAGGTATTATTTTTCTAATTTTTTTCAAAAATAAATCTATAATATAATCTTTTTTTTCAAATCCATATTTTTCAATTATTCTATTAAAATTTTCAATATTAATACTTAATATTGAAAATTTTATATCTTTATCTATATATAAATCCTTCTCTATCTCTTCAATAAAAAAATTAATACTTTTTTCTCCTGTAAGCATATTAAGACTATTATTAGTTATTTTATTATGAATATTTTCTTCAGTTAATAGAAATATTATTTTTTCATTATATTTCATAGAAGTTACTTTACAGCTATTTATATAATTATATTTTGTATGAAAATTCCAGTTAATATTATGTTTCATAGGTTCACCTTTATAATTTAATAAAAACATTGTTATAGTTTCTTTATATTCTTCTGTTATTAAATCAATTATTTTTAATGTCAATATATCTTTAGAAGAATAATTCAATTTTTTTAAAAATTCTTTACTTATTTCTAAAATATTCCATTCAAAATCTGTAGTTATAAAATATATACCTGATAAATTAAGTACTTCTATTATCTCTTCCATTTTTCCCTCCATATCTTAACTTAATAAAAGTTTAACCTATTTTTTATAAAAATTGCAAATTATTTTTTATTATTTTTAGTTTTATGCTATAATATGATAGAATTTTATCTAGAAAGGAACGTTCTTATGATTTTTATTGATGGTGTTGTTGGAGCAGGTAAGAGTACATTGGCAAAAATTTTAGCAGATGAGTTAAATATTCCATTATATAAAGAACCTGTATTTGAAAATCCAATTTTAGACAAATTTTATCATAACAAAAAAAAATATAGTTTTCCTCTTCAAATATTTCTTTTAAATAAAAGACTTAAAATGGTTAATGATGCTATGAAAACAAACGGTGTTTTTGATAGATCTATATTTTGCGATATTATTTTTGCAAATATTTTAACTGAAGATGGAGATATGCTTAAAGAGGAATTAGAATTATACAAAGAAGTTAGTGAAAATTTATTATCTCATATAACTTTACCAGAACTTACTATATATTTAGAAATTTCTACTGATAATGCAATAAATAGAATAAAACAAAGAGGAAGAGATTTTGAACTTTTAATGCCTAGAGATTACTGGGAAAAATTAAATATTCATTATAGAAACTATTTCAAAAATTATAATAAAAGTAAACTACTTATAATAAATGTTGATAATTTAGATATAGTAAATAATGAAATTGATAGAAAAAAAATATTAGAGAAAATTAAAAAAAATCTATAATATATTTCAAAATAAAAAGCTGGTTTCTAAGATAAGAAACCAGCTTTTTATTTTAGTAATATAAATAATCATTAAAATTAGTATTATTTGACTCTTTTCTATTTTTAAACTCTTTTATTAAACTACAATCACTAATAAAAAGGTTTAAAATATCACTTAAAGTTTCATTTTTTTCTTTTCTATGTCTAAATTCTTCTATAATATCTATCATCATTTTTATCACCCTCCTACTATTTCTTTAATAAGACTATACTCTATTTTGTTCATTTTTTCAATACTAAAAATAAAAAAATACTATATTATTATAACTATCTATACAGTTTATCATAATAATATATTATATATATCATTATATAGTAATTACTTTCTATTGTTTTATACTTATTAAATCAAGTATAATACTATAAATAAGTAATACCAAGTAAGAAGGTGATTAACATGAAGTATAATTATTTAAATAAATATCTAAATAATCTTCCCTTTTTAAAATACTTAGATGATTTAGAACTTATTTATTTTCTATCTATTTCAAAGGATATATCAAAAATTGAAAATAATAAAATTGCTGAAAAAAATTATGAAATTATTTTAAATGAACTTTTTGAAAAAATAAAACAAGAAAACATCATATATTTTTATGAAATAATGGACTTTTATCAATATGAGATAGATAGAAATCCAAAAAAAGTAGAAAATTATTTAAATGATTTACTAAAAAAAATAGAAATTATATCTAAAAACTATAATAAAAAATATATAATAATAAATCAAGAGTAAATTTTAATCTCTTGATTTATTTGAATAATTCTTTTATTTCTTTTGAATAATCTCTCCCCTCATGTGTTATAAGTGGTGGTAGTATTTTTAATCCTTTTTCTGCATTTTTCATACCTTCAATAACAATTATTTTAGATTCTCTCTCCAATTTTGAATGACAAAATCTAAGTCGTTTTGGAGTTAATTTATATTTTGAAAATATTTCTAAAATTTCTTCTAATCTATCAGCCCTATGAACCATAGCAAAATATCCTCTTTCTCTCAATATATTCGAAGCAGCCTTCACTATTTCTTCTAATGTTATACTTATTTCATGTCTAGCTAATGTTAATTGATCTAAGTTATTTAATTGTTTTTTATTTCCATCAAATTTAAAAAATGGTGGATTACTAATAACCGCATCAAAACTTTGATATTCAAAAAAATCATTCCATTTTTTTATATCACCATGTATTATCTCTATTCTTTTATCCAGTTGATTTAACAAAATATTTCTTTTTGCTAAATCAACTGATGTTTCTTGCAATTCTAATCCATATATTTTAGCAGTGCATCTTCTTGATAAAAGAAGTGGTATCACTCCATTACCTGTACCTAAATCTAATATTTTTTTAACACCTCTATTTATTGTTAAAAAATGTGATATCACTACTGAATCTAAAGAAAAATTTAAATAATCATTTCTTTGAATTATTTTCATTCCTTCTATATTAAGCAAGTCAATTAATACTTCATTTTCATGTTTTAAAATCTCTTTCAACTTATTCCTCCACATATTTTTATTATACTCTTTTTTAAATTTATTAAATTATAACAAATTTATAAATTTTTTTTAATTATTTTATATAAAAAACAAAAAAGACTCTATCTCTTTCATGAAATAAAGTCTTTAAAATATAAAAAACTATAATTTTATTTTACCATGCAATGTAGCAACCATCACCGCTTTTATTGTATGTACTCTATTTTCTGCTTCATCAAAAACAAGTGATTTTTCTGATTCAAATACTTCATCTGTTACTTCCATACATTCTAATCCATATTTATTGTATATTTTCTGCCCAATTTTTGTATTTAAATCATGAAAAGACGGTAAACAATGTAAAAATATAGCATTTTTATTTGCCATATCCATTATTTTTTTATTTACTTGATATGGTTTAAGAAGTTTTATTCTTTTATCCCAGACCTCTTCTGGCTCTCCCATTGATACCCATACATCTGTATAAATTATATTAGATTCTTTTGTAGCTTCCTCTATATTTTCAGTTAATTGTATACTACTTGTTTTAGCTAAATCTTTTACTTCATTAATTAATTTTTCTTCTGGCCATAATTCTCTTGGTGCTGCTAATCTAAAGTTAATTCCTACTTTAGCACAACCAATCATCAATGAATTCGCCATATTATTTCTTCCATCTCCAAAATATGTAAAATTCAATCCTTCTAATTTACCAAAATGTTCTTTTATTGTAAGTAAATCAGCCAATACTTGTGTAGGATGAAATTCTGTAGTAAGTCCATTCCACACAGGAACCTTTGAATATTCAGCCAATGTTTCTACTATTTCTTGAGTATACCCCCTATATTCTATACCATCATACATTCTTCCCAATACTCTAGCTGTATCTTTTATTGATTCTTTTTTCCCTATTTGAGAACCACTAGAACCAATATAAGTAACATTTGCTCCTTGATCATATGCTCCTACTTCAAAAGCACATCTTGTTCTTGTAGAGTCTTTTTCAAATAAAAGTACAATATTCTTATTCTTCAAATATTTTTCTTCTTTTCCATTTTTTTTGTCTGTTTTTAATTTTTTAGCTAATTCAATAAGATAAAAAATTTCTTCTTTTGTATAATCTAAAAGTGTTAAAAAACTTCTTCCTTTCATAGTAACATAATCCCCCTTAATTTTAGAAATGGCTGGCAAAGCCAGCCAAAACTTTATTTTATTTCATCCATTATTACTGCACAAGATGCATCACCAGTTATATTTACTGCTGTTCTCATCATATCAAATACTCTATCAACTCCAAACAATAATGGTAAAGCTTGTATTGGAAGTCCTGCAGATAATAATACTGCTACTACAAGTAAAGAAGGTCCCGGAACTCCTGCTTGTCCTATTGAACCTATTGTAGCTGTTATTATTATTGCTATATATTGAGGAAACCCTAATGTTATCCCATACATTTGTGCAAAAAACATAGCTACAAGTGCATAATAAATTGCATTTCCATCCATATTTATAGTAGCACCTAATGGTAATACAAAAGATGTTGTTTCATTTGACACTTCTAAATCTTCTTCACATACTTCAAAAGTAACAGGTAATGTTGCCATCGAAGATGATGTTGATAACGCAACTATTTGTGCTTTTGATATCTTTTTTATAAAATTTATTGGTGATTTTTTTGAAAATGTTTTTACTAATGTTGGATATACTCCAAATGTTTGTATTAATAAAGTTATTGTATATACTAGTAATAATTTTACTACAAGAGCTAATATATCATATCCAAATGTTCCTACCGCATCAGCCATAAGTCCAAATACACCAATTGGAGCAATTATCATAACTTTCATTATCATCCATATCATTGCTTCATTTAATCCTGTAAGTACAGTTAAAACTGGTTCTCTTTTCTCTTTTGATATTGCTGAAAGCCCTATTCCTAAAAATAAACTAAAAAATAATATTTGTAAAATATTTCCTGTTACTAAAGAATTTATAGGATTAGTTGGTATAATTCCTATTAATGTATCCCAAAATCCTGCTATTTCTCCTTTATCAGCTAAACTTCCTGCCATATCTAAAAATTCTTTTGGTAATGCTGCTTCACTTAGTCCAAGTCCTGGTTTAAATATTCCTCCCATTATAAGTCCTAATGTTACAGCTACTGCTGTAGTTCCTAAATAATAAACAAATGTTCCAATCCCAATTTTACCCGCTGATTTAGTTCCGCCTAATGACGATGCACCTAAAATTATAGATACTGTAACTAAAGGTATTACAAGCATTTTAATTAGCGAAATAAAAACGTGTCCTAATGGAGCAAAAATTGTCGCTTTTGGTCCCATTACTGCTCCTACAATAATTCCTAAAATCATTGCTATTAAAATAGCTACTCCTAAATTAATCTTACCTTTTTTCATAATAAAATCATCACCTTTCACACTAGAATATACAAAAATTATATAATTTTTATAGCTTTTTTCAAATATATTATTTAAATCTAAATAATATATTTTATATATAATCATATTTATACATCTGATTACTAAAGTTTTTTTATATATTTATCGAAAATAATTAGTGAATATAATTGCTTTTTTTTGGTTTATTCTATATAATAAAGCTATGAAATATATTTACATTTTAAGGAGGATAGTAATGAAAAAAATATTACTTATATTTTCAGCTATAATGCTTTATTCTAATTTAGCGTTCTCTGCTGTTGAAAATCTTTCTACAGGAGATGTTTATCTTTTTGGAGAAAGTAATAATAATAATTTAACAGTACAAGATAATCAAGAAACTCTTGCATTAGATGAATTTGATATACAAAATAACACACAATCTAGTGCTACTGCTACTACTGATAGATTTCAAATAGGAATTGCTTTAACCACAGGAAAAAGAGAATATAAAGAGATGGCTAAATTTGAATTTATGCCTTTATTTGATATAAAATATAAACAATTTTATTTAGATAAAACAGTAGCCGGAATTTATATAATTCAAAATGAAGAAATAAAAGTATCCCTTGTAGGAGAATACAATATGGCATCATATGATGCGAGTAAATTACCTTCACCATATAATATTATAATGAACAATAGAGATAATGAAATTCATGGCGGTTTTGGTATAACATTTACACCTATTACTGATAATAATATAGAATTTAATCTCAGACTTACTCGTGATTTTGTGGGAAAAAGTAATGGTTTTAAAACATATATAGAAGCTATTAGAACAATACCTTATACTCAAAGTATTATCTTAAAACCAAAGGTTTTATATACTTTTATGAATAGAGACTATATCAATTATTACTATGGTGTAACAAGTAGTGAAGCAGCTAAAGACACTGATGTTACTGCTTATTCTGCTCAAACTTCAGGATATAAATTTGGTTTTGGATTTGATTTAGATTATCAAATAAGTAGAACTTTTACTATAAAATCCTTTAATAAAATAGAGTGGCATTCTAATGAAATAACTGAAAGTCCTATTACAGAAGATTTAAGTATTGAAATAGGCGGAGGATTTGTTTTATCTTTATAATAATTGTCAAAAATAAAAGATCTGATTTGAAATTCAAATCAGATCTTTTATTTTTTGAGATGTTGATTCTCTTATCTGAAGTGTTACAGGTAATATTACATGCTGTTTAAACCCTTCTTTATCATTTATTTCTCTTATTAAAAGCTCCATTCCTCTAGAACCCATTACATATCTAGGTTGTCTCATTGTTGTTATTGCTGGATAAAAATATTTTGTAGTTTCTATATCATCAAATCCTACAATTGATATATCCTCTGGTATTCTAAGTCCACTTTGTAATATAGCTCGAGATGCTCCAAGCGCTATTAAATCCGAGTAACTAAATATTGCTGTTGGTCTCTCTTCAAGTTTTAATATTTTTTGCATGGTTTCATATCCACTTTGATAACTTTGTTCACACTCAAAAACCAAATCATCATTAAATTCTATTCCATTTTTTTCTAAAGCCCTTCTATACCCTTTTATTCTTGGCATTGCAGAATTTTTATCATCTTTATTTATAGTAAGCATCGCTATTTTTTTATGTTTTAATTCACAAAGATAAGTTACTGCTTCAAAAGCAGCTGTTTCATTATCAATATTTATACTTGAAAATACTTCTGTTGTATCTTTTCTTTTAAAATTTGTTCCTGTAGAAATAAGTACTACTGGTATATTAGCATCTAAAAGTTTATTTTGTATCTCTTCTGTTAGTGTCCCTCCTAAATATATTATACCATCTACTTTTTTTTCACACATCATTTGGATAGATTCTAATATTCTATCTTCATATTTTCTTGTATTATTCAAAAAAATGCTATAACCATATTCATTTGCTGTATCCTCTATTCCTTCTACTATATCTGAATAAAAAGCACTAGATAATTCAATTAATATCACTCCTATTGTTCTTGTACTTTTACTTTTTAAGCTTCTAGCAATATTATTCGGTGTATAATTTAATTCTCTCATAGCATCTAAAACTTTTCTTCTTGTTGAATCTTTTACATTTGGATGTTCATTCAAAACTCGAGAAGCAGTTCCTATTCCTACTCCAGCTAATTTAGCTACATCTTTTAATTTAACAATTTTACTCATAATTTATCTCCTTAAACTAATAGTAAATTTTATATTTTAAAATAATTTTGGAAATTTTCAAATAAAAATCCACATACAAAATCAAAGAAACGTTTCCATTTTTTATTTCATTATTGATTATACTATAAACAATTTTTTTTGTCAATAAAATAAACACATTTTTTTAAATTAAAAACATATTTTTTGAAGTTTTTTTTCAAGTAAACCATTAAAATAAAAAAAATAGCTCTAAAGAGCTATTTTTTTTATTTTATGGAATTAATTTTGCATATGTTTCCAAATCTATATCTTTCGAATAATCTATTCCTTCTACTTCAAATCCACCCAATTGTAAAAAATCTTTTTTAAACCCCGCATAATCTGATATCTCTTTAAAATTATTTTCATTAATTTGCTTCCATAATTCATTTACTTTATCTTGTACATCTTCTTCCATTTCTAAATTATCCGGTCTATATCTTCCTTCTTTATCTATTATTGGATTATCACCATATATCATATCTAAAAATAATCTATGTGTTTGTTCTATACAACCTTCATGAGTCCCTTTTTCTTTCATTACTTTAAATAAAAGTGTTGCATATACTGGAAATATCGGTATGTATGCACTAGCTTTTGTAACAAGAGCTTTATTTGAACTAACAGCAGCTTCTCCTGATAATTTCTCCTTTAATATTTTATTTAATTCTTTTGCTGTTTTTTCTAAATGCCGTTTTGCTGCTCCAATAGTACCATCTTTATATATTCCATATGTTATTTTTGGGCCAATGTAAGTATATGCAAAAGTTCTAGCTCCTTTTTCCAATACATCTGCTTCTAAAAGAGCTTTTATCCATAATTCCCAGTCTTCTCCTCCCATTACTTTTACAGTAGCTTTTATATCTTCTTCGGTAGCATTCTCCATTGTTTGCTGTATTAATGTATCATTTTTCAAATCTACTGTAGGTCCTACTATATCTCCTGTTGTACTTTTTAATGCTGATATATAAGTTTCTCCATCAATTGGATCTTTTCTTCTTCCAGAAGCTAAACTATATATTACTAAATCTACTTTTCCAAATTCTTCTTTTATATATTTTATTACTTCATCTTTCATTTCAAGCGAAAAAGCATCTCCAACAAAATTTTTTGCTTTTAATCCTTCTTTTTCTGCAGCTTCTTTAAAAAATATATTATTGTACCATCCTGCAGTCCCAGTTCTTTTTCCTCGTGGTCCATTTTCATAAGATATACCTATTGTATCTGTTTTGCTTCCTCCAAATGCAAGGGAAATTCTTGTAGCAAGTCCATATCCTGATGACGCACCTATTATTAATGCTTTTTTTGCTCCATTATATGATTTATTATTTTTTACATATTTTATTTGCTTTTCAACTAATTTTTTACACCCTTCTGGATGAGCTGTAAGAAGTATGCCTCCTTTGTATTTTGGCTCAATTATCATTACTTTTACCTCCATCTTTCTTTTTTTGCAATTATAAATATAATACTATATTTCCTAAAAAAATACAATTAATTAATTATCTCACAAAATTTATTGTTTTTATATTATAATAAAATAAAGACTTTTCACTTCATTATAAAAAAACACCTGTTTTTTTATAATGAAGTGTGCTATAATTTAATAGATTTAAAATATTAATTTCTCTAAAATCAAAGGAGGTTAATTATGAATATTTTTAATTTTAAAATAGACAATGTTTTCACTAAAGATAAAGAAATTGAACTTTTTAATAAATATAAAAATGGTGATTATTCTGCAAAAGAAGATATTATAAAACATTCTTTAAATATGGTATTAAAAATAGCACATAATAACAAAAAATATGGTTTAGATCTAGAAGATTTAGTTCAAGAAGGAATAATTGGAGTGATGCATGCTATTGAAAAATTTGATATCAAAAAAAATATTCGTTTTTCTACTTATGTATATCCTTGGATTAATCATTATATAAATAATGCTATTAATACAACTTCAAAACAAATAAGATTACCCCAAAATTTAATATTATTATCTAAAAAAATAAAAAAATTACAAGAAGAATATCAAAATAATTTATCTTTAGAACATATTTCTGAAAAACTTTCACTTTCACTAGATAAAGTTAAATCATTATTAAGTTATCATGAATACTCTTTTTTATCACTTGAACAAAATATTAATGACTTTTTTAATTCAAAATTTGAAACTGCTATAGAAGATATAAAAAGCAGTAATATCTTTAATAAAATCGAGATTTTAGATCAAATCTCTGATATGTTATCAAAACTTACTGATAAAGAAGCTGAAATAATTAAATTACGATATTTTAAAGAAGAAACGTTAAAAAAGATTAGTGAGCAATTTGGTATAACAAAAGAAGGAGTAAGACAAATAGAAAAAAGAGCCCTTGAAAAATTAAGAACTATTTATTTTAATAAAAGTGTAACTATTTAAAAATGCCCGGTTAAAAACCAGGCATTTTTTATTATAAGATGTTCACAACTTTATTATATACTATCTATTTTGTTTAAATCCTCTAAAATTTCCTCTTTTTTGATTTTGACCTTTTATATAACTTTTTCTCTCTTTTCTATTTATAATTTTTTTATATTCTAATTCTGTTAAAAGAGGAGTTAATTCACTATTTAATGTTTTTACTTTTTCCCAGTTAACATTATCATTACTAAGCTCATTATCTATATCTAACATTTTTTCTCTTACATCAAGTAATAAATCTTTTATTTCTTCATCTAAAATATTATTTTTTTGATTTTTGTTATCTTCTCTTCCTATTGGTCTATTAATCCCTTGTCCTTTTTGATTTCCTCTTTTTTGATTTTTTCCTATTATTTCTCTATTATTTTGAAGATTATCTTCTCTAAAATTCATCTGACCTTTCATTCCATGATTTTTTCTAGCTATTTTATTTGTTTCACGCCCTGTTATATCTTCTATTTCTTCTCTAACCTTAAAACTATCCAATCTTAATGTTTCTTTTAATTCTTCATTTGCTGTAATCAATTCTTTTAATTTTGTATCATCAATTGTCTCACTATTTAATAATCTCTCAATAGCAATATTATTTTTTTCTATTTGATATAGTTCATCTTTATGCTCCTTATAATCTGCTTCTTTTAATTCTTTTATTTTTTGTAGTTGTTCATCAGTTAAATTTAAAAACATTCCTCTTCCATTTCCATTTTTCATTATTCCTTCTTGGTTTTTTCCATTATTATTAAATCCATTTGCAAATGCTAAACTTGATACCATTAACCCAACTAACAATATTCTTTTTTTCATTTTAAATCACCTTCCTAATATTTTTTTATTTCTTTTCTATGCTCTTATAATAATCCTTAATTTTGAAAAAAATGTGAAGTTTAAATTTTTTTTTATTTTTTTAAAATATTATTGACTAAAAAGAAAAAATAGAATAATATCCTTTATAGGGTAATCGCTTTAATTAAAAGGAGGTAATCTATAGATAAAAAATTTTAATTTATACTTAGATTTAGATTAAAGATTATTTAATTATAATTTTGGAGGTTTTAATAAAAAATGGATATTTTTAATTTGATTCAAAATGAAGAGCTCTTAAATATACAAGAAAATATTTTTAAATTTGATTTTTCTAAAAGAAATTCAGCTGGAAATACTGCTCTTCATGAAGCAGTAAGATTAGGTAATTATGATATTATCGATTTGCTAGTTCAATATATTGATGATATTAACTGTAAAAATCTAAATGGCGATACACCTATGCATTTAGCTGTTGAATTAGGGGATTACGAGATAGTTTCATTATTATTAGACTATAATGCCAACCCTAATATTGAAAATAATAACAGAGTTACACCCAAAAAACTAGCAATTTTACAAAAAAAAGAATCTATCTATCAATTATTAATAAATGAAGATTTTTATAATTTTGAAGAAATAAAACATAAAAAACATTTTGATGATGAATACAGTTATTAAAAAATGAGCCTAAGGCTCATTTTTTAATTTATCTTTTTTTTGCTTTTTCAATAGAAATTTTTCTACCTTTTATTTGTTTATTATCATTTAGTATTTTTAATACTTTATCTGCTTTTGATTTTCTTATTTCTACAAATGAAAATTTATCTAATATATCAATATCTCCTACATCTTGAGATTTAAGATTACATTCATTTAATATTGCACCCAAAACATCTTTTTTAGTAATTTTATCTTTTCTTCCTGCATTTAAATACATTCTAGTTGTATCTTTATTTGAACCTTTTCTATCTCTACTATTTCTACCATCTCTATTTTTTTTATTTTCTTTATAATTTATATCATCTTTTGATTTTTCATCTTCATAAAACTCTGTATTCATTTTAAGAAGAACTGCAGCAACTTCGTTTATTTCATAACCTCTATCAAATAAATTATGTAATATTTCAAAGTATATGTCTAAATCATTTGATTTTTCTATATTTTCTTCTATTGTAAATAAAAAATTCTCCATTTGTTTTAATTTTAAATCTTCTTTAGAAGGTATAAGTTTTTTTGTAATTTCTTTATTTATATATTTTTCTATATTTATTAGTTTTCTTTTTTCTCTTGGTGTAGTTAATGTAATTGAATGTCCTTTTTTCCCAGCTCTTCCACTTCTACCTATTCTATGTACATAATACTCTTCTTTATCAGGAAGATCATAATTTATTACAAGTTCAACATTTTGAATATCTAGCCCTCTAGCTGCTACATCTGTTGCAATTATAACTTGTAAATCTCCTTTATTAAATCTTTGAAGTACTCTCATTCTAGCTTCTTGTTTTAAATCACCATGGATTTTTTCACATTGAAGACCTAATTTTTGTAATTGCTCTGTAATATCATCTACTTTATTTTTAGTATTACAAAATATAATTGATTTTTCTGGATTATAATAGTGTACAAGTCTATTTACAGCTTCATTTTTATCTCTTTCATTTATTAAATAATAATGTTGTTTTATCGTATCACTTGTAACAGTTTTTTGTGTTATTTTTACTATTTTAGGATTGTTTTGATATTTTTTTGCTATATTCATTATAACTTGTGGCATTGTAGCTGAAAAAAGTACTGTTTGTCTATTTTCATTTACATCCTCTAATATAGTTTCTATATCTTCTCTAAATCCCATTTTTAGCATTTCATCTGCTTCATCTAAAATCACAGTATTAATATTATCTACTTTTAATGTTCTTCTTCTTAAATGATCCATTATTCTACCAGGTGTTCCTACTATTATTTGTACACCTCTTTTTAATGCTTTAATTTGTCTTTCTATTGATGTTCCGCCATATATAGATAATACATTTAGTCCTCTTATATATTTTGATAATTTTTCAAATTCATTTGACACTTGTACAGCAAGTTCTCTTGTTGGGCATACTATTATTATTTGTGGTGCTTTTATACTTATATCAACTTTATTAAGCGCTGGAATAGCAAATGCTGCTGTCTTTCCAGTTCCTGTTTGAGATTGGCCTATTATATCAGAACCTTCCAATAATAAAGGAATAGCTTTTTCTTGTATTTCTGTTGGTTCAATATATCCTAAGTCTGATATAGCTCTTTTTATCTCCTCTTTGATATTAAATTCATTAAAATTCATAAATTACTTTTCAACTCCTATTTTCACTTTTTAATTTTTTTATCCAATTTAATTATTATACTATATTTTCATTTAAAAGTAAAGCTTTAATTAATTAAAATTATTTTTATTATTAATATAATTAATGTGTTCTTTGTAAAAACATCTATCCATTACAAAATTTATATTATTATGAAAAGCCATTTTTTTAGATTCTTTACTTATAACTCCTTCTTGTAACCAAATAGTTTTTACTTTTTTTTCTATTGCTTCTTTTACTAAAGGATACACCAGTTTTGAATTAATAAAAAATATAGCTGTATCTATCTCTTTTTCTATATCTAATATCGACTTGTATACTTTTTCTCCTAGTATAATTTCGGCCTTTGGATAAACTGGAATTATTTCATAACCAAATCCTTTGAGTTTTGCAGCTACTTGATAACTTGTTCTAGCTTCATTTGGTGATAGCCCTACTATTGCTAATACTTTAGAGCTCTCAAATATTTTAGTAAAATCTTTTTTTTCTTCTTTAATTCCTTGATATTCTTCCATACATTTTGGTCCACAAAAATAAACTATTTCATTTTCTTTTTTCAACTTGTATTTTGTTAAATTTTCATCTACATCAAAACTGCATATTGGACATTTTTTCATTTTTTCATCCTTTCTTATCTTTATTCTTAGAATTTTTACCTTTTTTATAATTTATTCTTTATTAAGTATTAATTTCCTTTTTTTAACAAATTTTATTTGTATAAATTTTAAAATTTTATTATCAATTACTCGTATATTATAATTTCTTGATATTTAATGGTTATTATTATATAATAATAAAGATATTTAAATTTTTAGGAGGATTATTAAATGAATAAAAATTGCTTATTTGTAGGTATAGCTGGCGGAAGTGGTTCTGGTAAGACTACAGTAGCACAAAATTTAGTAAGTGCTTTTAGCCCAAGTGATGTAGTTTTAATATCTCAAGATTCTTATTATAGAGATAATCCTGATATGAGTTTTGATGAAAGAAGTAAATTAAACTATGACCATCCAAATTCTATTGAATTTGAACTATTAAAACAGCATCTTCTAGACTTGGCTAATGGAAAAAGTATTAAAAAACCTATTTATGACTTTACCAACCATGCTAGAAAAGAAGAATATGAAGTGGTAGAACCTGCAAAAGTAATTATAGTAGAAGGAATTTTAGTCCTTGCAGTACCTGAAATAAGAAAACTTTTTGATACAAAAATATTTGTTGATACTGATGCTGATGAAATGCTTCTTCGAAGAATAGAAAGAGATATAAATGAAAGAGGTAGAACATTTGATTCAGTAAAAAAACAATATTTATCTACAGTAAAACCAATGTTTTTAGAATTTTGTGATCCTAGCAAAAGGTATGCTGATGTTATTATCCCTAGAGGAGGACAAAATAAAGTTGCTATAAATATGGTAATAGCAAAACTTAAAAGATTTTTAAAAAAAGGAGCTATTTAATATATGAAAATTTATTCTTGGAATGTAAATGGAATAAGAGCTGCCGAAAGAAAAGGATTTATTGAATGGTTACAAAAAGAAAATCCAGATATAATTTGTATACAAGAAACTAAAGCTCAAGAAGAACAACTTAGTGATAAATTATTAAATATTGGCGAATACAAATCATATTTTATGTCTGCTGAAAAAAAAGGATATAGCGGAGTTGCTATTTATACGAAAATTAAACCTAATAATATTTATAACTTAGGAATTGAAGAATTTGATAATGAAGGTAGGGTTATTATTGCCGAATTTAATAATTTTATTTTATTAAATGCATATTTCCCAAATAGTCAAGAAAAAGGTAAAAGAATAGATTATAAAATAGCTTTTTGTGATGCTATTCTAGATTATGCAAACAATTTAGTAAAAAAAGGTAAAAATATTCTTATTTGTGGAGATTATAATATAGCTCATAAAGAAATCGATCTAGCAAGACCAAAACAAAACGAAGAAAATCCCGGTTATTTACCAGCAGAAAGAGAATGGATGACAAAATATTTATCAAATGGATATATTGATATTTTTAGACATTTTTATCCTAATACAATTAAATATTCATGGTGGAGTTATAGAGCTAGAGCTAGAGAAAATAATGTTGGTTGGAGAATAGATTATTTTACTTGTAATAAAGATTTTATTAATAATATTAAATCAACTGATATTTTAACTGAGATTGAAGGTTCTGACCACTGTCCTCTATTTATTGAAATAATTTAATAAGATTTTTTATGTTTTTAAAAGGAAATTTTATTTTTCTTTGTATAATAAATTACAGAAATATCTTTTAAGGGGTTGAGTGAAATGATTATAGAAATAAAAGATTTTATTAATAAAGATCCCGATATATTGTACAAAGAGATAAAATCGGATTTAGATAAAGGCATGAAAATTATAGTAGATTTTAAATTTATTCCTAATATCACATATGATTTTTTAAATTCTACAATAGGAAAAATAATAAAAGAGTATAATTTTGATATTATAAAAAATAAAATTAATTTTATTAATGTAGATATTGAAATTAGAGAAATGCTTTTTAAAATTGTTAATGATTAAAATTTAGCAAATTTTAGTAGGAATGTTATTCCTACTTTTTTATTTTTATGATAAAATATTTTATAAAATAATAATTTAGAGAGAGGAGATTTTATGATAAAACTTATAGCTACTGATATGGATGGTACTTTATTAAATAATAATCATGAAATTAGCAAAGACTTTTGGGAAGTTTTAGAAGAAATAAAAAACAAAAATATCCTTTTTTGTGTAGCAAGCGGAAGGCAATATTATAATTTACTAGAAAAGTTTTATAAACATAAAGATGATATACTTTTTATTGCAGAAAATGGAAACTATGTTATACATCAAGAAAAAGAAATTTTTTCAAATAGTTTAAATAAAAAAATAATACCAGAATTTATTAAATTAGTTAGAGAAATTGACGACTGTTATATTGTTCTTTGTGGTAAAAAATCAGCATATGTAGAAGATGATTATAAACCTTTTTTAAATGAAGTAGGAAAATATTATGCCCAATATAAAATTATAAAAGATTTAGAAAAGATTAATGATGATATTTTAAAAGTTGCAATTTATGACTTTAAAGGTTCTGAACATAATGTTTATCCTTACTTTAAAAAATTTGAAGATAAATATAAAGTAGTTGTATCTGCAAAACATTGGCTTGATATAATGACTCTTAATGGAAATAAAGGAGTAGCTATACAAAAAGTACAAAAAAAGTATAATATAACAAAAGATGAAACTATGGCTTTTGGAGATTATTTAAACGATTTAGAAATGCTAGAAAATAGTGGTTATAGTTATGCAATGGAAAATGCTCATCCAAAATTAAAAGAAATAGCTAAATATATCACACATAGTAATGAAAATAATGGTGTTGTAAAAACATTAAAAGAAGTACTAAAAAATTTATAAATTTAATAATTTATAAATTATATAACAATAATAAATATAATATATTTATATTTATTAAATAAATATATTATAATTAAAATGGTTTAGTATAAATGAGGTGAAAGAATTATGAAAATATCAGTAATTGGAGCTGGTATGGTAGGAACAGACATTGTATCCTATCTTTTTAATGTTGGTAACTTCTCAGAGATTGTCTTAGTGGATATAAATAATGAAAAATCTTATGCTGAAATAATGGATTTTCGACATACTCAAAGTCTTTTTTATACCAAAAATACAAAATTAAATTATGGTACTTATAAAGATTGTAAAGATAGTGATATCGTTATTATTACCGCAGGAATTCAAGTAAAAAAAGGTGATACAAGAGAAAGTATTGCTGCTGCAAATTCTAAAATAACAGTTGAAATAGTGAAAGAACTAGAAAAATATACTCCTAATTCTATATTAATTTTAGTGACAAATCCTGTTGATGTTGTTACTTATTTTGCAATAAAACATTCAAAATTTCCTGCTCATAAAGTAATGAGTTCTGGAACATTACTTGATACTTCTAGACTTACATATTATTTAAGTACAAAATTTGATATTGACCCTAAAAATATAAATGCTTATGTTTTTGGAGAACATGGTAAAACATGTTTTATTCCATGGTCTTTATGTAATATCTTTGGAGTAAATATAGATACTTTTACAAAAATAAATAATTTCCCTTCTATAAATAAAAAAGAAGTAGAAAAATATGTTGTTGATTCTGGATTTGATATTTTTTTAAAAAAAGGAAATACAAACCATGGAATTGCTGCTAGTATTTATAGAATAGTTAGAGCTATTACCGTTAATGAAAAGTCTATTTTACCCGTTGGTCTTTATGTAAATAATATTTATGATATTAATGATATTGTCCTTGCTTTACCTGCTATAATTTCAAAAAATGGTATAGAAAAAATATTAAAAGTAGAGTTGAATGAAGCCGAAAAAGAAAAATTAAGAGATTCAGCAGATTTTTTAAAAAAAATAATTAATACTGTAAAAATATAAGGGGGAGTTAACAATGGTAGATACTCAAAAAATTTGGATGAATGGAAATTTAATAGATCATGATGATGCTAAAGTACATGTATTAGCACATGCTTTACATTACGGTACAAGTTTTTTTGAAGGAATAAGAGCTTATGAAACTAAAAAAGGAACAGCTATATTTAGACTTGATGAGCATATTGATAGATTATTTAATTCTTGTAAAATATATAGAACAGATGTTCCTTATAGTAAAGAAGAAGTAAAGCAAGCAATCATTGACACTATAAAAGCTAATAATTTAAAAGCAGGTTATATAAGACCTCTAATTTATAGAGGATATAATGTTTTAGGAGTAAATCCTGTAAAATGTCCTGTTGAAGTAATGATAGCTGTATGGCCATGGGGAGCATATCTTGGAGAAGAGGCCCTTAGAAATGGAATAAAAGCTCAAATTTCTTCATGGAGAAGGCTTGCTCCAAATACTATGCCTACAATGGCAAAAGCTGGAGGGAATTATTTAAGTTCTCAACTTATTAAAATGGAAGCTTTAGAAAATGGATATGATGAAGGAATAGCTTTAGATTATTCTGGAAATGTAAGTGAAGGAAGTGGTGAAAATCTATTTGCTATACTTGATGATGTAATCTACACTCCACCTATTGGTTCTTCTGCACTTGTAGGTATTACTAGAGATACAATAATTAAAATAGCTAAAAATTTAGGATATGAAATCAAAGAACAAGTTATTCCAAGAGAATTTTTATATATAGCTGATGAAGTATTTTTAACTGGTACAGCAGCAGAAGTAACTCCTGTAGATACTATTGATAATATAAAAATAGGAAAAGGTAAAAAAACAATAACGCATAAAATACAAGATGAATATTTTAAACTTGTAAAAGGTGAACTTATTTATGATGAAAAATGGTTAACTTATGTAAAATAATCCAAAAAATTTAATAGAACTTGTAAACCGAACACTTTAAAAAGTTTAAGTTTACAGGTTCTAATTTTTTTTAATTTGATTTTTAAATTTAAAGGATTTTTTAATAAATTTCGTATAGAATAATGATGTTATAAAAAATAAAAATGGAGGTTCTATCAATGAAAAAAAATATAAACGATATTAGTATAAGACAAGTTGTAAATTTTAATATTTCTGAAATTTTAATTGAAAATGGCTATAATTATGAAAGCATAAATGACTCTGTTGCTTTAGTTACACTAAAAGATATTGACACTAAAACTATTATAGTAAAACAAGATAATATATTGTTTATTCAACAAGAAATAATTAATTTAAATCAATTAAAAGAGGACCTAACTTTATATAAAAAACTATTAGACCTAAATACTGAAATACTACCTGTATCTATTGCTATTGATTCAACTGATGAAAAAAATCAAAAATTAGTTATAAATGAATCTTTAAATATAACAAACCTTGATGTAAATGAAGTCTTACAAGTTTTTGAAGCTATAGAACTTGCATTACCAAAAATATTTAATATAATAAAAGAATATAAATAAATATATTAATTTAATAAAAAATATAAAAATAATAGGAGGATAACAAATGGGAATATTTGATAGACTAGGAAAAGTTTTTAAATCAAATGTAAATTCAATAATTGATAAAATGGAAGATCCAGAAAAAATATTAGAACAAAATATTTTAGATATGGAAAAAGAATATACTAAAGCTAAACAAGCTATTGCTTCTACAAAAGCTGAAGAAATAAGACTTACAAAACAAATAAAATTTTTAGAACAAGAAATAAACAAATGGGTAAATAATGCAAAAGCTGCTCTTAATGCTGGAAATGAAGAGCTTGCTAAAAAAGCACTAGAAAAAAAACAAGCTTTAACAAAAGAATTAGAGCAAATAAAAAATGATAGAAATTCCATTTCTACAAGTACTGAAAAACTTATTAGTGATCTTAAAATGATGGAAAATAAAATAGAAGAAGCTAAAAGAAAAAAAGATCTTTTAAAATCAAGAATTCAATCAGCAAAGGCTAAAAAGAAAATAAACGAATTAAAAAGTACTACTTCTACAATAGGAAAAAGTGCATTTGATAGTTTTAGCAAAATGGAAGAAAAAGCAAATAAAATAATAAATGAAGCTGATGCTATAGAAGAAATTAATAAAGAACTAACTGGAGAAGATTTAGAAGCTCAATTTGAATCATTAAATGGAAATAGTGATGTTGATGATGAATTAGCTAAATTAAAATCTGAATTAAATAAATAAGAATAGGAAGGGGAAATTATGAACAACAATAATAAAATGCTTTTTATGATTATCATAATATTTCTTCTATTTGTTCTTATTAGCTCATGTGAACGTAGAGCATACTTTTATCCGTCACATGGTGGTTTTTTTTGGTGGTGGGGCGGTAGTAGAAGAACTACAATAATTAACAATAATATTACAACTAAACCATTTAGCACTTCAAAAAGAACTAGTAGTAGTAGAGCTAGAAATAGAAGTTTTTCTTCTGGAAAGTAAAAAAAATCAAGAAAAGGGGTACTTAGAATGTTAAATAATATAATAAATATTAATGATATTTATACTATTACAACTATTATTATAGTAGTTATATTAGCATTATTGGTAAAAAAGTTTTTTAATTTAACAAATAAAGAAGAATTAAATAAAATTATTAATGGAAAATCAAATGTTTTTGCTATAAGATTTGCTGCAATTTTATTTGGAGTAATTTATGCCTCTAGTGGTGAAATATTTGGTGGTTCTATTGGCTTATTTAATGATATTATTAGTTTTTTCTTATATTCAATATTAATGTTTATATTAATATTTATAGCTGTATTTATAGGAGATAAACTTTTATTATCAGAAATAAATAATATTGCTGCTCTAAAAAAAGGAAATACTGCTGTTGCTTTATTTGAACTTTGTTATATTATTGCTACAAGTATGACTGCAAGAGCTACTCTCATTGGTGACGGTGGAAGTGTAATATCGGTACTTTTATTTTTTATACTGGGTCAGACAGTTCTTATTTTATTTTTCTTAATTGCATTAAAATTGACTCCTTTTGATGATGTAAAAGAAATTAGCAAAAATAATATTGCTGCTAGTTTGTTTTTAGGGGGATTATTACTTGCAATATCTGTTATAAACTATTATTCTTTACTTGGAGATTCTACTGAAATGTTGCAAGATGCAATTTTTTATATTATAAGTGCTATAAAAGGTGGGGTTCTTTTACTCTTATTTGGATATAGTATTGATAAAATTATATTTCCAAAAGTTAATATAACAAATGAAGTTATAGAAAAAGATAAAAATTGGGGATTAATTTTTATTGTTTCAATGTTAACAATTGCAGTTTCTATAATAATAGGAGCAAATCTCTAATGCAAAATAAAATAACAAACAATAAAAGCGAAAAAAAATATATTTTATTACTTTTTGCTGTTAGTATGTTTTTTACTGGAATGTCTGGGATAATCAATGAATATATCTTAGCAAAACTTTCTACAGATATTTTAGGAAATTCTGCTATTCAATGGGGTATTGTAATTGGTGTTATGCTTTTAATGATGGGAATCGGCGGTTCTATCCAACTATTAATTAAAAATAATCAGCTTATAACAGGATTTGTAACTATTGAAATTTTATTAGCTATATTAGGTTCTTCTGCTCCTATTGTTGTTTTATGGGCTTTTGGATATACTAGCCATAACTTTTTACTTTTTCTTTATTTTTATATAATTTTTATAGGGTTATTAGTTGGCGCTGAAATCCCTCTTTTAATTAGATTGAGTAAATTATATCTCAAAGAAACTACTCATGTAATTTCTTTGATTTTTTCTATGGATTATATAGGAAGTTTTATCGGTACTTTAGTTTGGCTCTTTTTTATTATTAAAATAAAATTACCTCTATATAAAATGAGTTATGTTGTTGCATCTTTTAATTTTATTGCAGCTTTAATTACATTTTTATATTTAACTAAAACTGAAAGAAATAAAAATAATGGAAAAATAATAATTTTCATTATAACGTCATTTATGATAATATATTCTTTTATCAATTCTGATAAATGGGAAAATCTTATTTATCAAAAATTATTTAAAGATCCTATTATATATAAAATAGACACTCCTTATCAAAGTATAGTCCTTACTAGAAATAGTACTACAAAAAAACACTATCTATATATTAATGGAAATACTCAATTATATGAAGGAGATGAAAAAATATATCACGAATCTCTTGTTATTCCTGCTTTATCACTATGGAATAGAAGTCGTGTGTTAATTCTTGGTGGCGGAGATGGCTGTGCTCTTCGTGAAGTATTAAAATTTAAAGATGTAAAAGAAGTTACTTTGGTTGATTTAGATCCTGAAATGATAAAGTTTGCTAAAAACAATCCTATTATGAAAAAAATAAATAATAATTCTTTTAAAGATAGTAGAGTCCAAACATTAAAAGCTGATTTTATAAATTATACAGATAAACAAAAAGACATTTATAAAGAAAAAGGTTATAATTTTGAAACAAAATTATATGAATATGAAAAAATTGCAAAAGTAAATGTTTTTAATGTAGATGCTAAAAAATTTCTTGAAAACGTTAATAAATTTTATGATGTAGTTATAATAGATTTTCCAGATCCAAACAATATAGAACTTACAAAATTATATTCTTTAGAATTTTTTATAAATGTAAAGCGAAAATTATCAAAAAATGGAGTTTTTGTAATGCAATCTACCTCTCCAACTTATTCGAAAAAAGCATTCTGGACTATTAAAAAAACCATGGAAGCAGCGGGATTTAATACTGTTCCGTATCATATTGATGTTCCTAGTTTTGGAGACTGGGGATTTATAATGGGCTCTCAACGAAAAATTAATAAAGACTATTTAATTTCACGATTTAAAAATCTTAAAAATTGGGAAGTTAAGACAAAAGAAATAGACCCTGCTACATTTATTTCAAGTTTAAATTTTAGAAAAGGTTTATTAGATGATAATAAAAATTATATAATAAATACTTTAGCTAATCCTGTATTACTTGATTTTTATTTATTAGATGGCTGGAAAGATTATTAAGGAGGAAATATGTCAAATTATACAGAAACTGGAACTGGTAGAATTCAAAAAGTATCAATAAAACCTGAAGATGTCCAACTAAGTGATTTTATTGTTATTGATGATACATGGTATGAAATAACTGCTATATATAAATATATAGATGTTGAAGATGACGATGATTATTGGTTTGATTTCACTGGTGTAAATGAAATAGGTGAAAAAGTATATATTGGAGTGGATAAAAACGAAGAATATATTTGGGAATATTCTATTTGGAAAATTATTCCAAAATCTGAAGTTAAAACACATGAAGACATGAAAAATATAACTTATGATAATCATAAAACAACTATTAAATATAAAGATATAAAATATAAATTATATGATGATAACAATATGTTATATGAAGCTCATGTTATTAGTTGGGTAAATGGCCGTAATAAAAATCCTATTTCTTATCCTGTATGGATATCTGATTTAGAAGATAAAACAGGTGAAAAATTTTTAAGTATTGAAGTAGATGAAGATAATGTAGTAGAAGTATCTATTGGTGAATATATCTCAAATGTAGAGCTTATAAAAAATGAAAAAAATATTAAACAAAAAGATTCTATTTTAAAAAAATTGAAAAATTTATTTAAATAATCAATAAAAAAATGAGCGATAACAACTGCTCATTTTTTTATTAAATTAATATTCTTTTATAATATTTTCAAATTCTTTTATAAATTCAGTAAAACTTATATCTTTATTATAATATTTTATTAAAATATATCTTTTTATTGCTTGGAACTCATAATAATTTATTATTTTATTATAAAAACTTTCTGATTTTGCTATACAAAGAAAATTATTATTATAATACACTTTTATATACTGCATATTATTATAATCTATTTTTATAGTTATGCTTTTACCTATATATTCATTTAATATTTTATTTGAATAAAATAGATTGTTATATCTCACTCCTTGAATTTGGACTTTTCTTTTACTATTTATTGATATTAATAAAGGATTTAATATATTTTCATCTCTAATAAATTCAATCTGTTTTAAATTTTTATCCCAAATAATATATTTTCTATAATTATATGTTAAATAGATAAAGTTCTTTACTATTTTTACAAGCTCTTTATAATTTAATTCAGTATTTTCATAAATTAAAAAATCTTTCAAATATATCTCTTCTAGTTCATAATAAAAATCTTTATTACTATTTTCATTTTCATAACATAAAAAAGTTTTTATATTTAGTTTTTTTTCGATTTCTAAAAAAATATTTTTTTGATTCACTTTTTGATTATTAATAATAAATTCTTTAGGTTTACCATAAATATCATATTCATAATTATTTTTTAGTATAGCCTTTCTAAGTAAAAGATATATTTCTTCTATTGTTAGGGGTTCAAAATTAATATAAAAACTACATATTCCTTTTGAAAAACTATCATAAATAATATGTAAAAATGGATTTTTTAACTCATCTGTTGTTTCATCTAATATTTTTATATTTAATATTTTATAACTATATTCAAATATTTCATTTGATGTTTTGGTAAAAGGAACGTTTTTATCAACTACTTTTTTTACAAATGGATCTAAATTATTTATTACTCTATAGACTGTATCATAATTTATATTTTTATTTATTTTAGACACGAGTTTATAAATATCAAGTATCTTGATAGCAGGATTTTCTGTATAAATCTCTTCTATTTTTTCTACAGTTTCAGTATCCAATATTCTAAAAGTATTTTTATCTTTTCTTGTATTTTTTTTGAGACCTTCTAAACCATTTTTTTTATATGCACTTACCCATCTTTTTAATGTGCTGTATGAAACATCACTTTCTTTACTTATCTCTTTTAAATTTTTTTGTTTTTTTAAAAAAGGCTTTATTATATTATATCTTGTTATTTCTATGCTATTTTTTTCTATTTTATCCATTTTTTACCCCCATTTATTCTCTATTATTGTATAAAAAAACTATTTTTATGTCAAACACTAATAAAAAAGCTCAAATAAAATCAAAATAAACAATGTTATAAAAATAAAACATTTTAACAAACTTATCCTTTAAAATTAATATTTATATAATGTTTTTAAAAAAACAACATACAAAAAAAGGCTCAAATAAAAAATAAATTTTCATAAAAACCTTGACAAATTAAAAAAAAGCTTGTATATTAATATTACTTGGTAATGATTTAATATCAATAGTAAGTTATCAATTAAAATTGTTCTAAAACAAAACAAATATTAAAATATATGAAAGGATGGGAATATGAGTTTTTTTAAAAAAATCTTTGGTAAAAAAGAAGAGAAAAACTATGTAGAAATTTATGCACCATTTGATGGTGATATAATTCCACTAAGTGAAATTCCAGATGAAGCTTTTTCATCAAAAATTATTGGTGATGGTGTTGGTTTAATACCAAAAACATCTGGAACTATTGTAGCACCTTGTGATGCAGTAGATTTTAGTATTTTTGAAACTAATCATGCAACTTCATTTGAATTAGCTAATGAACTTGAATTAATAGTACATTTTGGTATTGATACTGTACAATTAGAAGGAAAAGGTTTTACAAGACTAGTAAATGAAGGAGATTCTATAACTAAAGGAAAAGAATTAGTAAAATTTGATTTAGATTATATAAAATCTAATGCAAAATCACACAAAACTCCTGTTATAATTACATCTATGGATATGGTAAAAAAAATTGAAACTTCTACTGGTAGCGTAAAATCTGGAGATTTGTTAATGAAAGTTTATCTTAAAAAATTATAAGGAGAGTGAAAAATGAAAGCATTTACACAATTACAAAAGATTGGTAAAGCACTTATGACACCTGTAGCAATATTACCTGCAGCAGGATTATTTTTAGCATTTGGTAATAAACTACAACTTCCATTAATGGAACAAGCTGGTGGAGTAATTTTTGCTAATTTACCATTATTATTTGCAGTTGGTACTGCTATTGGACTTGCTAACGGAGAAGGAGTTGCAGCACTTGCAGCTATTGTTGCTATACTTGTTATGAATACTACAATGGGAATAGTAAGTGGTGCTGAAGCTGGACTTGCAGCTCATGATAGAGCTTTTGCTAGTGTTCTTGGAATTCCTACACTTCAAACTGGAGTATTTGGTGGTATTATCGCTGGGGTTATAGCTGCTATGCTTTATAATAAATATTATAAAATCGAACTTCCTCCATTCTTAGGATTCTTTGCAGGAAAAAGATTTGTACCTATCGTAACTGCTGTTGCTGCATTTTTAATAGGACTTGCTATGCCTATAATTTGGAAACCAATTCAAGCTGGGTTATATCAATTATCATATTTAGCAAATGAAACAAATACTAATATTTCTACATTTATATTTGGAGTAATTGAAAGATCATTGATACCATTTGGATTACATCATATATTCTATTCTCCATTCTGGTTTGACTTTGGAGAATATATTAATAAAGCTGGCGAGTTAGTAAAAGGAGATAACAGAATATGGTTTGAAATGTTAAAAGATAATGTCCATAACTTCTCATCAGCTACTTATCAAGGTGCTGGTAAATTTATGACTGGTAAATTTCCATTTATGATGTTTGGATTACCTGGAGCAGCTCTTGCTATGTATCATGAGGCAAAACCAGAAAAAAGAAAAATTGCTGGTGGTATTTTGTTCTCTGCAGCACTTACTTCTTTCTTAACTGGTATTACTGAACCAATTGAATTTGCTTTCTTATTCGTTGCTCCTGTATTATACGGAATACATGTATTAATTGCTGGTACATCATTTATGCTTATGAATATGCTTGGAGTAAGAATAGGTATGACATTCTCTGGTGGAGTAATAGATTTCATTATGTTTGGAGTAATGCCTAATAGAACGCCATGGTGGTGGGTAATAATTGTTGGTGCTGTATTATTTGTTGTTTATTACTTCTTATTTAGATTTGCTATTAGAAAATGGGATTTAAAAACTCCTGGTAGAGAAGAGGATGAAGTAGAATCAGAAGAAGTAAGTTTAGGTGGACATGAATTAGCTGTACTAGTTATTGATGCACTTGGTGGAAAAGAAAATTTAAAATCAGTTGATGCTTGTATTACTAGACTTAGAGTAGAAGTTGCTGATACATCAAAAGTAAATGATGGAGAACTTAAAAAACTTGGTGCTGCAGGTGTTTTAAAAGTTGGTGCTAATGGAGTTCAAGCTATATTTGGTTCTAAAGCTCAATTTATATCAAATGATATAAATAAAATGATAAGATAATTAATTAAAAATAATATAAAAAGCTAGGAAATATCCTAGCTTTTTATATTATATACAAGTTCATTATTTTGAGTATCTACATATATTTTATTATTCTCTACTACTTTACCTTCTAATATCATTTTGGCTATATTTGTTTCTAGGATTTGCTGTAAATATCTACGTAAAGGTCTTGCTCCATAATGTGGGTCATATGCATTTTCAATAACAAGATCAATAGCTGATTCACTTAATTCTACTGTTAAATATCTTTCTTTTAGTTTTTTATTTATCTCTTTTAGTATTAAACTAATAATTCCTTTTATATGTTCTTTAGATAAAGCTCTAAATACTATTATTTCATCTACCCTATTTAAAAATTCCGGTTTAAATCTTGATTTCATCTCATTCATTACAAGATTTTCTGTTTCATTATTTACCATTGGATCATTTAAAATATATTCACTACCTATATTTGAAGTCATTATTATTATAGTATTTTTAAAGTCTACTAATTTCCCTTTGCCATCTGTAAGTCTACCATCATCTAAAATTTGTAAAAGTACATTAAATACATCTGGATGAGCTTTTTCAATTTCATCAAATAATATTACTGAATATGGTTTTCTACGTACAGCCTCTGTAAGTTGACCTCCTTCTTCATATCCTACATATCCTGGTGGTGCACCTATAAGTCTAGTAACACTAAATTTATCCATATATTCACTCATATCTATACGTATCATATTTTCTTCATTATCAAATAAATTATAGGCAAGAGTTTTTGCTAAATATGTTTTACCTACTCCAGTACTTCCAAGAAAAATAAATGAACCAATCGGTTTTTTAGGATCTTTCAATCCAGCTCTTGCTCTCATTATAGTATCTGCTATTGATTTTACTGCTTTATCTTGTCCTATTACTCTCTCTTTTAAATGAGATTCTAGAAGTAATATTTTTTCTTTTTCACTTTCCATAAGTTTTGATACTGGAATTCCTGTCCAATTTGATATTACATCTGTTATTTCTGTTGAAGTAAGCTCTTGTTTTAACATTCTTCCTTCTTCGTTATTTTCTGATTTTTTCTCCTCTTCTTTTAATTTTTCTTCTAATTCATGCAATTTCCCATATTTTAACTCTGCTATTTTATTAAGATCATAATTTCTTTCTGCTTCTTGTATTTGTAAATTAACTTTTTCTATCTCTTCTTTTAATTTTTGTACTTTATTTATCTCATCTTTTTCTAATTCCCATTTTGTTTTAAGATTATTTTTCTTTTCATTAATTTCAGCTAATTCTTTTTCAAGTATATCCAATCTTTCTTTTGAAGCTTTATCTTTTTCTTTTTTTAAAGCTTCTTTTTCTATTTCTAATTGCATTCCTCTACGAGTAAGTTCATCGAGTTCTTCTGGCATAGAATTCATCTCTGTTTTTATTTTAGCTGCTGCTTCATCAATAAGGTCTATTGCTTTATCTGGAAGTTTTCTATCGCTTATATACCTATTACTAAGTACTGCTGCTGATACAATAGCATTATCTGTTATTCTTATTCCATGATATATTTCATACTTTTCTTTAAGCCCACGTAATATAGAAATTGTATCTTCTACAGTAGGTTCGTTTACCATAATTGGTTGAAATCTTCTTTCAAGAGCTGCATCTTTTTCAATGTATTTTCTATACTCATCTATAGTAGTAGCACCTATTACTTGTATTTCTCCTCTAGCTAACATTGGTTTTAGTATATTTCCTGCATCCATTGCACCATCTGTCTTTCCTGCACCAACTATAGTATGTATTTCATCTATAAATAATATTATGTTTCCATTACTTGATTCTAGCTCTTTTAATACTGCTTTTAATCGTTCTTCAAACTCTCCTCTATATTTAGCTCCTGCAATTAATGACCCCATATCAAGAGAAAAAATTGTTTTATTTTTTAAATTTTCAGGTACGTCACCTTTTACTATTCTAGATGCAAGTCCTTCTACTATAGCTGTTTTACCTACTCCAGGATCTCCTATTAATATAGGATTATTTTTAGTACGTCTAGATAATATTTGTACTGCTCTTCTTATTTCTGTATCTCTACCTATAATTGGATCTATCTTACCTTCTTTTACTGCACTACATAGATCTATTCCATATTTATTAAGTACATCGTATGTTCCCTCTGGATTTTGAGTATTAACTTTTTGATTTCCTCTTATTTCTTTTAATACTTTTTCAAATTCTTTTATATTAATATTTTCATTTTTCAAAAATTGATTATTGTTTTTAAGTAATGCTATAAAAAGATGCTCTACACTTATATAAGAGTCTTCATATTTTTTTGCTATATCTTCTGCTGTTATTAAAATTTGATTTAAATGTCCGTCAAGTCTAATAGAATTTGGATTTTGTCCTTCTACTCTTGGCATACTATTTAATTTTGCCTCAAGTTTATTTGTAATCCCTATAACATCCTTATTCATTTTTTGTAAAAGTTTTGGAATAAGTCCATCTATTTGCGTAAGTAATGCATATATTAAATGTTCTTCTTTTATTAATGGATGTTTATATTTAATCGCAAAATTATGTGCACTTGATAACGCTTCTATACTTTTCTGAGTATATTTTTCTTCATTCATCTCAAAAACCTCCCTTCTTTTTTTATTAGCACTCTATATTGATGAGTGCTAATAATTTCATTTTAAATATATCACTTTTTTTTATTTATGTCAAGAAAAAAAAAAGAAATTTTATTTTTTTTTGTATATATATATTAAGTAATGGTTTTAATATTTAAGATTTTTATTAAAAAAAGGGGGTATTAAAATGAAATTAAAAAACAAAATGACTTTTTTATTGCTTGTTATGTCAGTATTACCTATCCTAATTTTAGGTTCTTTTACTTATCAATTAGGTGTAAAAAATAGTATCGATATTTCAAAACATGAGGCTAAAGAAAAAATTATTACTTTAAAAAGTAATATAAACGACTTTTTTAACAACGTTGATTTACACAGTGATATATTAATTAATGCTTACTTAAATAGAGGTTGGGACGGTTTTAAAACTCAATTTAATATAATTAATAAAAAATTTAATAATGTCTATCTATCTGCTTATATAGGTTTTGAAGATTCAAAATTTTTAAGTGAACCAAACTTAGAACTTCCTGCTGATTATGACCCTACAAAAAGACCTTGGTATGGTATTGCTAAACGTAATGAAATTGTTATTACAGACCCTTATCCAGATGCGGGTACTAGTGATTTAGTAGTTACAATTGCAAAACAAGTAATAAAAGATGGTAAAAAAATTGGTGTACTTGGTTTTGATATGAATCTTTCTGCTATTCAATCACAAGTATTAAAAACTAAAATAGGTGAAAGTGGATATGCTTTTTTATTACATGAAAATGGCCTTACACTATCACATCCAAATAAAAATATTGTTAATAAAAAAATTAATGATTTTTTAGGTAGTCAAGTAGATGAATTGTTTACTTCTAACCCTCAAGGGGAAGTTGATTACACATTTAATAATGACAAAAAATTTTTAATTTATGAAAAAATTCCTTCTGCTAGATGGATAATTGCTGGTGGTACATCATATAAAGAATTTGAAGCTAGATTTAATTCTATAAAACTCTTTATAATTTTACTTACAATTATATTTTTGATATTTTCTATTATTATTTATTTTGTATTTAACAAGACTATTACTCAAAATATATATAAGTTTATAAATATATTTAAAGAAGGTGCAAATGGTAATCTAAATGTATCTTTAAATTTAAAGACTAATGATGAACTTGAAATGTTATCAAACGAATTTAATCAATTTATGAAAAAATTATCCCGTATTATAAATGAAGTTAAAAAATTATCTCAACAAGTAGAAAATGATACACGAGATATTACAGAATTAATAATTGCTGTAATTAATGGTGTTGAAGAATTACAAGGAATTAAACAATTAAATGAGCATATTAATAAAGTGCTTGATAATGTACGCAATCAAACAGCATCCTCTGAAGAAAGTCTTGCAGCTATTGAAGAAATATCCGCCACAAGTAAAGCTATGAGTGACAAAGTAAGATCCAGTGTTAATGCTTTTGAAAAAACTCTTAATATTACAAAATCTAGTTATAATAAAATTGATACTTTATCAAATACTATGCAAGAAATAAATAATAGTGTTGAAAATACTAATTCTCAAATAGATAAATTAAAAGCTATCTCCTCTGATATAGGAGAAATAGTTATAGCGATAAATAATGTTGCTGAACAAACTAATTTACTTGCTTTAAATGCAGCTATTGAAGCAGCAAGAGCTGGAGAAGCTGGAAGAGGATTTGCTGTTGTCGCTGACGAAATAAGAAAACTTGCTGAACAAACTAATAAAGAAACTGAAAAAATAGAAAAATTAATAGAAAATGTACAAAGAGAAGTAGATAATGTAAAAAATGGTGGCGAATTAGTAAAAACAAAAGTTACTGAAGGACTTAGCTTAATGAATGAAACTAATGAGAATATTTCTGATATAATTGATTTAACTAATAAAAATAATGATGATATAGGAAATATAGCTTTTTCTACTGATGAACAATCTACTGCTTCAACCGAAATTACTACTGCTATTAGTAGCATCGTAGATAATTCAACAAATATAGAATCATTGGCTACTGAAACAAGTCAAATATCTGAAAAAATAAAATTACTTTTAGAGGATAAAGTAGAGTTACTTTATAAATTAAATAAAATTGTAGAACAATTAAAAACTGATTTGGAGTTTTTTAAATAAATTTGAATTTATTATAATATTTATTGTATAATAAAATATCTTAATGAAAGGAGATGGTAAGGTGAAAAAAATTTTACTTGTATTTTTTATACTATCAAATTTTGCTTTTGGACTTGAAGTTAATAGAGATATTTTAACTACATCTATAGAAAATAGAGAGCCTATAAACGAAATATCTGAGTTTAATCTATATGATAAAGCTTATTATTTTACAGAAATTACTAATGCTAATGAAGAACAGTATATATATCACGTTTGGTACTATATTCAAGAAAATGGTATTAAAAATAAAATGGCAAAAGTTAAATTAAAAGTAGCTGGTAATAGATGGAGAACTTGGTCTTCAAAAAATTTATGGCTAGAAGGTGTTTGGGAAGTTGAAGTTGTTGATAAAGATAATAATCTCTTATCAAAAAAAGAATTTGTAGTTAAATAGCATAAAAACCCCTTGAAGATTCAAGGGGTTTTTATATAAATTTTTCATCTATTATTTTATCTTTTCCTTTATTTTTGGCCAAATATAATAATGTATCTATTTTAGATAATATTTTATCCTTTTTATAATCTTCTACATCTATAATTCCAGCACTAAATGTAACATTTTTATAAGATCCGTAATTTATTTTTTTTATTTTTTTTCTAATTTCTTCTAATATATATTTAGATTCTTGTAGAGTTTTATCTGGAAAAATAACTAAAAATTCTTCTCCACCTATTCTTCCTGGTATTATAAAATTATTTGTATATTGCCCGAGTATCTCTCCTATTTTCCTTAATACAAAATCACCTATTGAATGACCATATGTATCGTTAATCTCTTTAAAGTCATCTATATCTATAATTGCTATACAAAATTTTTTCTTTTGTTTATAAGCCTCTGAAGTTCTCCCAATATCTTTCTTCTATTAAAAATATTTGTAAGTTCATCAATTGTAGCCATCTTTATAAGTTTTGCATTTAAATGTTCTAACTCTTTTGTTCTTTTTTCTACCTCTAATTTTAATATTTTTTTTGCTTTTTCTTTTTGTTTTATTCTTATTTCTAAATATCCTACAATAATAGTTGAAATGAAAACAATATAAATAACATATCTAATATTAATATTAAATTTAGATGGTTTATTAATTATAATACTATTTTTAGGAATATATTTCACTTTAAATTCTTTTAATTTATTATAATCAAAATAATATTTTGTACTTGTATCTAATATTAATCTATCTGGAAATTCATTATACACAAGATACCTTAAAGCGATTTGAGCAGCTTTTTTACCTTGATTTTTCCCAGAAACTAAACTCCCACCAATAATTCCTTTATTTAAATAAAAATCCCATGCTCCAAATATCGGTACTGTTGCTACAGTATTAATTTTTGTTAATGCTTCTTTATAACTTAGAAACCTCCCGGACCTATCTCTATTTAAGGTAAGTAAAAAAATTACACTACTATTAGTATCTAATTTTGATATATTCTCTACTAAATCTTCTATAACAAAATCTCTAATAAGATGAATATCTAAATATTTTTTATATATTTCTATTTCTGGTGAAATTTCCTTATATATTTTTTGCCCAGTTAATGTATTATCCAGTATAATATATACTTTATTTCTTCTAGGAAACATTTTTATAAGTGCTTCAAATGTGTCACTAACATTTATCTGCTCTTTTACTCCTGCTATAATTGATGCTTTACTTATATCATAATCTTCAAAATTATTTACTCCACAAAAAACTATAGGAATATTTTTAAAAAGTGTATCTCCATAATCAAGTGCAAATTCAAATGCTGCATTATCTACAGCTATAATCAAATCAAAATTAATTGTATACACTTTTTCTTTATACAAGTCTATAAGTTTATTATAATATTCTTTTGTAAAATTTCTTTTTGTATCTAAATATTCATAATATATTTTTATATTAGGATAATCGCTTAATTTTTCTTTAATTCCTTCTGATATAGAATCTGTCCATTCGAGGCCTTGATGATACGAGTATATCACCAATACTTTTTTTCATTTGCAAATCCATTAATAATAATTACAAAAAATATAAAAATGGTTATAAAATATTTCATTGTATTCCCTCCCAATCCTTAATAATAATTTTACTACATTTTCTCAAAAAATACTATTATTAAAAAATAATTGATAAATATAAAAATTTTTCTTATAATTTAAATAAAAAGGAGGAAAACTATGTTTGAAATAATAATTCATACATCAAAACGAAATGAGATGATAGATATATCATCAAAAGTATATAAGTTAATCAAAGAAAATAATTTACAAAACGGCATATTATATCTACATGTTATGCATACAACGGCTGCTATTACAATAAATGAAAATGCTGACAATGATGTAAAAATAGATTTAATAAATGCTTTAAACTCTTTAGTCCCTAATATAAAATTTTATCATTATGAAGGAAATTCTGATGCTCATTTAAAAACTAGTCTTATTGGTAATTCTGTAAATATATTAATTGAAAATGGTAATCCGATTTTAGGTACTTGGCAAGGGATATATTTTTGTGAATTTGACGGTCCTAGAAAAAGAAAAGTTGTTGCAAAATTTATAAAAGAATAAAAAAAGCTGTCAAAATTTTGACAGCTTTAAGTGTCAGTGATGACACTTTTTATTTTGATAATTTTTCATCTATTGCTTTTGCAGCTTTTTTCCCAGCACCCATTGCAAGTATTACAGTAGCAGCTCCTATTACTGCATCTCCTCCAGCATATACATTTTCTCTCGTAGTTTCAAGCGTATCTTCGTTTACTACAATTCCCCCCCAAGAATGTGTATCTAATCCAGTTGTTGTTTCTTTTATTAATGGATTTGGTGTCTGCCCAATAGCCATTATAACACTATCTACCTCTATTATATGCTCACTATTTTTTATTTCAATTGGCCTTCTTCTTCCAGATGCATCTGGTTCTCCTAATTCCATTTTTATACATTTTATACCTTTTACCCAATTATTTTCACCTACTATTTCTATAGGATTAGTTAGTAGTTTAAACTCTATTCCTTCTTCTTTTGCGTGATGAACTTCTTCCAATCTCGCAGGTAATTCTTTTTCACTTCTTCTATATATTATATATACTTTTTTACTTCCTAATCTAAGTGCTGTACGTGCAGCATCCATTGCCACATTTCCTCCGCCTATTACTGCTACTCTTTCTCCTTTATATACAGGTGTATGAGAATCTTCTTTATATGCTTTCATTAAATTTACTCTAGTTAAAAATTCATTTGCAGAATATACTCCATTTAAATTTTCACCTTTTATTCTCATAAATTTTGGAAGTCCTGCCCCACTTCCTATAAATATAGCTTCATATCCATCTTCTTTTAAGTCGTCTATAGTATATGATTTGCCTACTATTACATTTTTTTCTATTTTTACTCCGAGTTTTTTTATGTTTTCTATTTCATATTTTACAATGTCTTTAGGAAGTCTAAATTCTGGTATTCCATAACTAAGTACTCCACCTTCTTTATGAAGAGCTTCAAATATTGTTACATCATATCCATATTTAGCAAGGTCATAAGCACAGCTAAGTCCTGCTGGACCACTTCCAATTACTGCTACCTTTTTATTTTTTTGATTTTTTACTTCTTCTATTTTTACTAAATTTTTTTCTCGCATATAATCAGCTACAAATCTTTCAAGTCTTCCAATACCTACTGGTTCACCTTTAATACCCCTTACACAGGCTCCTTCACATTGATTTTCCTGTGGGCATACTCTACCACATATTGCTGGTAATGAATTTTGCTCTAAAATTATCTCATAAGCTTTTTCTATATTCCCTTCTGCTACTTCTTTTATAAATCTGGGAATATTTATATTTACTGGACAATTTATTACACATTTTGGATTTTTACATTGTATACATCTTTTAGCTTCTTCTATTGCCTGTTCTAATGTATATCCAAGGGCTACTTCTTCAAAATTTTTATTTCTTACATCTGGATCTTGTTCATTCATTTTAACTTTATTTAAATTCATATTATACATATTTTTCCTCCAAGTTAAAGTGTCTCATCTAATCTACATTTATGCTTCTCTTCTATATCTTTATACATATTTTGTCTAGATAATAATTCATCAAAATCTACTAAAAATCCATCAAAATCCGGTCCATCTACACACGCAAATTTTGTTTTACCATCATATGTAAGTCTACATCCTCCACACATTCCTGTCCCATCTATCATTATTGGATTAAGAGATACTGATGTTTTTATATTATATTTTTTTGTTATATCAACTATAAACTTCATCATAATGAGTGGGCCAATTGCAATAACTTCATCATACTTATTTCCACTTTCTATAAGTTCTATAAGTTGCTGTGTTACAAAACCTTTTCTTCCTTTACTTCCATCATCTGTTGTTATATACATATTATCTATAAACTTACTAAATTCATCTTCAAGCAATAAATATTTTTCATTTCTAGCTCCTAAAATTAAATCAACTTTTATCCCCATTTTATAATATTCTTTTAATTGTGGATAAATAGGTGCTGCACCAACTCCACCTGCTATTCCAAGTATTCTTTTTGCATTTTCTACATGTTTTACAGGTTTTCCAAGAGGTCCTGCTAATGCAAATATAGTATCTCCTACTTTTTTAGTACCTAACAGTTTTGTTGAATAACCTACTTTTTGATAAATTAATGTTATTGTTTTCTTTTCTCTATCATAATCAGCTATTGTTAAAGGAACTCTCTCCCCATCTTCTTCTACCATAATAATTATAAATTGTCCTGCTTTACAATTTCTAGCTATATGTGGCGCTTCTACCACTATTTTTTCAACATCATTATTTACTATTTTTTTTTCTAATATTTTATACATATTTCTACTCCTTTATACTAAAACTCTACAAAATTTTTACTATATATAATTATATCTATTTACTATATTATTTCAAAGTATAATAAATAGATTTATTTTTTTATAAAAAATATCCTAAAAAATAAATACAAAAGTATTAAATAATTATACAAAATTTTAATACTTAAGTCAATATTAAAAAAGGAGATACTTTAAAATAAAGTTTTCTCCTTTAATTAATAATTTATTTTATCACGATTTAATCTACTTCTTTATATATTTCCTATAAATCTTTCATATAACTCTTTATTTAGTTTTTATTTAATTAATAGGCTTTTTTAAGAATTTCTCTCATTATATCAATAGTTAAATCATGTGTTTCTGATATATTATTTATATGATGTGCTTCCAAACTTTTTATTATATCTTCTATCTGTTCTTCTTTTATACCATAATCAGAAAGATGCGTTTTTATTCCTAATTTTTCAAAAAATTCTCTTGTTTTATTTATTGCAATATCAATTTTTTCATCATCATTTTCTATATCTATTTCCCATACTCTCTCAGCATATTGGATAAGTTTATCTCTTTTTTTATCTTTTCTTACTTCCCATATAGCTGGCTGAAGTATAGATAAAGTTTTTCCATGATCTATCCCAAATAAATATGTAAGTTCATGCCCCATAGCGTGTGTCGCCCAATCTTGTGGCACTCCAAGTCCTATAAGACCATTTAAAGCCATAGTAGCGCTCCACATAAAGTTAGCTCTGCTATTATAGTCATTTTCTTTAGTTAAACAATCATCTGCTATTTCAATTAGAGTTTTTAATATTCCTTCTGCCATTCTATCTTGTATTTTTGCATCTACAGGATATGTTACATATTGTTCTACTGTATGTATAAATGTATCTGCTATTCCATTTGCCACTTGTGTTTTAGGGAGTGTATATGTAAGCTCTGGTTCTAAAATTGAAAATTTAGGAAATGAATGTTTACTCATAACTGGAAATTTACCATTTTTATGACTAACAACTGCTCCACTATTCATTTCAGAACCTGTTGCAGGCAATGTAACTACTGTTCCAATTGGTATTATTTTACTAAAATCATTTTCGTTAAATTTTCCATATAATAAATTTTCTGGAGTCTCTCCTTTGTAATTAGCAGCTAAATTAATAAATTTAGTTCCATCCATTACACTTCCGCCTCCTACAGCTAATAAAAAATCAATGTTTTCTTTTTTTACTATATCTACTGCTTTCATTAAAGTATCATATTTAGGATTTGGCTCTATTCCTCCAAATTCAAAAATAACTCTTTTTCCATTATTAATAGCATTATATACTTTATCAAAAGTTCCAAATCTCTTAACGCTTCCTCCACCATAAGTAATAAGAACTCTTGCATTATCTTTAATTAATTTATTTAATTCTTTTATTCTGTCTTTTCCAAATACTATTTTTGTTGGATTTTGAAAATCAAAATTAAACATTTCATACCTCCTATTTTTTTCTTTCTTTTTTATCTCTAATAGAAGTATACTCCTTAAAGTTAACTCTAAGTCAAGTTTTTTTTATTTGATCATTATACCATTTTATTTTCATATCTATTTTATTTAAATTTTTTTCTAAATCTTCCATTTTTTTTAATACTTTTTCTTTATGATTTTTCAATATCTCTAATCTTTTAGGAATAGTTTTATCTCCTTCTAAAATAAGTTCTACAAGTTTTTTTATGTCTTCCATTGACATCCCAGTTTCTTTAAAGCATTTTATTAAATTTATCCACTCAATATCTTTTTTTTTAAAAACTCTTTTCCCACTTTCATCTCTATTTATTGGTAATAAAATTTTTTCTTTTTCATAATATCTAAGTGTAAATGTTGTTAAATTTACTTTTTCTGCTACCTCTCCTATTGTATAATTCATAATTCTCCTTTCATTATTTTTTATTAATTTACTTTGTTTCTACATATTTTTAAAAATAAAAAACATATAAAAACTTACAATTATATTCATTTATATAATGAAATTTTTTTATTAACACTTCTATAAAAACTAATAATTTTAATTTATAGATAAATTCATTAGTTTTATGCAAATTTTATTATATCACAAATTATTAAAAAAATTTTATTTTTATTTTTTTTATTAATTATTTTTTTAATTTGATTTTTTAAGCTTGATTTTTCAATTTAACTGTACTATACTTAACTTAGGTATTTATTTGGAGGAACTTATGAATAAACGTGGAGGAAAAAGAGAAGGCGCTGGTAGAAAGAAAATAAAAAAATCATTAAAAAGAGATAAACAATGGAGGATATCTGTAAATGAAAAAGAATTAGAAATTTTAAATAAAAAATATGATGCACGAGCAAAACAAATCCTAATAAAAAATCTAATTAAAGGAGAGAAAAATATGCTAATAATTTCCATTTTAAACCAAAAAGGTGGTATTGGTAAAACAACTTCTGTAAGAAATATTGGATATCTTCTATCTAAAAAAGGTAAAAAAGTATTACTTGTTGATATGGACCAACAAGGTAATTTAACAACAAGTTTTGGTATAGACAAAAGAGAACTAAAATTTACTATTTATGATTTATTAAAAGATACCGCTCAAAAAGATTATACATTACCTACTGAAGATGTTATTATTAATGTACAAAAAAATCTTGATATTATTCCTAGTAATATACATTTAGCTAGAGCTGATTATTTCTTTGGAAATGTTCGTGGCCGTGAATACTTGTTAAAAGAAATATTAAAAGATGTATCATATATGTATGATTATTGTCTTATAGATTGTCCACCAAATCTTGGTGTAATCACTGATAATGCTTTAGTTGCTAGTAATCGTGTATATGTACCCATAAAAGCTGAAAAATTTGCACTTGAAGGCATAAATGATTTATTAGATACTATAGAAGATGTAAAAAAATTCTTTAATTCCGAAGTAGAAATAAGTGGTGTATTTTTAAATCAATTAAAAGTGCGAACTAACCTTCATGAGGTATTAACAAATGAAATAAAAGAGTATTTTGGGGATAAAGTCCTAAAAACAACTATCAGAGACAGTATTAAAATAGCTGAAGCAAGTGCTTTAAACCAATCAATTACAGAATATTCTCCAACTAGTACTGTTGCAAAAGATTTTAAAAAATTAGTAGACGAAATACTTGAAAGAGAGGAAGGATAATGAAAAAAGATAAATTTTCAACTTTTCAAAACCCTTTATCAAAAAGAAAAGAACAAATAAATATTTCAGATAGTTTAATTTCTGAAAATACAAAACAATCTGAAATAGAAAAAAATAAAATTATACAAAAATTTGGTAATATTTCTAATATTACTAGTAATTTAATTAATTTAATTGATTTTGATAATAAAGAATTTATTAATAGAATTTATAATAGTGTTGATGAATTGAAAAATGATGAATTAAATGATTTAATTGAAAGTATAAAAGAAATCGGTTTAATAAATAGTGTATATTTAATTGAAAAAGATAATTTAAAAAATAATAAAAAGTTTATAATTGTAAGTGGACTTCGTAGATTATTGGCTATAAAAAGCTTAATAGAAGCTGGTGAAACTATTCGTGAGATTAATAGAGTTATTATTTTTTCAAAAGATACTCCCGTTGATGTACTTAATAAAATAAGTATTGATGAAAATACAAAACGAAAAGATCTTACTATGCTAGAACTTAGCTATAAATTACGTAAAGACAGTAAAATAAAAAAAATACCAATAGAACAACTTATGTCAGAACATAACCTTAATAGAAGAAAATTTTTTAGAATAACAAAAATTATGGATTATCCAAAAGAACTTCAAGAAATTGTAGATGAAATAGGAGTCAATAAAGCGGAAACTATTAATAAAATTCTTAAAATTAATAAATATAATGAAGATATAAGAGATATAATAAGCAGATGTCAAATAATGACAGAAAGGGAACTAAATGATTATTATAAAAAAGTAGCAAAAAAAGAGAAAAAAACAATTGATATTAAAATCAATAATAAAAATACACAAGCTGTTATAAAAATAAACAAAAAAATTACTCCTGAAATTAAACAATTATTAAAAGAATTTAACGAAAAAATAGAAAATTTATAAAGCTACCATTTCTTGGTAGCTTTTTTATATTTCATTTACTATTTCTAAAAATTCTTCTATTAATTTTGGATCAAATTGTGTTCCTTTATATTTAATCAATTCTTCTATTGCTTCTTGTTTTGTTTTTATCTTTTGATAAGGCCTTTTATTAGTCATTGCTTCATAAGATTCTAATATATTTAATATTCTACATTCTATTGGAATTTCTTTCTTACTTAATCCTAGTGGATATCCTTTTCCATCCCATCTTTCATGATGTTTTAGTATTAATTCTGCAATATTGGCATACTCTCGATAATTTAAAGCAATTCTGTATCCTTTTTCTGAATGAGATTTTAAGGTTTTCCAATCTTCATCTGTTAATTTTTCTTTTTTAGTCAATAATTCATCTGATATAGTGATTTTCCCTATATCGTACACCTCTACAAGTAATAGAAGCCTTTCTTTTGTTTTTTTATCTAATTTCAATTTTTCTCCAAAAATTTTAGAATATTTTTTTAAATTTTCTATATGCCTATTATAAGAAAAATCTTTCCTATTTATTAGATTTTTTATTTTAAATAATAACTCTTTTTTCTCTTTTGATTTTATTAACATTTTATTTTTATACATTTTTTCATCTGCTATTTTAAATAATTCCGTTATATGATCGTTATCTCCTATACTATATCCAATAGCCACTGATAAATACAGTATTTCATTTGATAAAGTTTGATTATATTTTTCTATATTTTTATTTAAACTATCTATTAATTCTTTTATTTCGTTTTCATTTGGTTCTATTATTATCGCTACAAATTCATCACCACCAACTCTAGCTATAATATTATTTTCATTTATAGTTTTTTTCAATATTTTAGCAAAATTTTTTAATATCATATCTCCATAATGATGTCCTAAAATATCATTTATAAGTTTTAAATTGTTTAAATCAAAATTTAAAATTCCTATATTAAATGTTTTTCTAATTTTATACTCATTTATTATTCTTTCAAAATAATTAAAATTATTTAACCCTGTTAATAAATCATAACTACTTAAATGTTCTAATTTTTTTTCATACTCTTTTTCTTGAGTTATATCACTATATATCCCATATCCACCTATAATTTTATTATCAAATACAATATTTATAGTTTTTATTGAAACATTAATAGGGTTTTTATCTTTTGTATATCGTATAGTTTCAGTATTTAAAGTACCCATTTTTATTGTTTTTTGTGTTAAATATTTTGCTTCTAATATTGATTTATCTACAACTATTAAATTATCTATATTTTTTCCAACTGCTTCTTCTTTTGTAAATCCAAATATTTTAGTAAATGCATTATTTATATTTAAAATTGTCCCATAATAATCTATTTCTACTATTGCATCCTGAGAATTATTAAATAATGTTTCATATCTTATTTTTTCATATCTTTCATTTTCTTTTTCTATTAACAATTTTTTATATAATAATTGATATTTAAGAGAAAATAAAACTACTAAACTCACTATAATAATTAAAAATCCAATTAATAAATTCTTTTGAAAATTTAATAAATATACTAATTTATTATTTTTATAATCTAAATATTTACCAGTTCCGATATATACTTGAATTTCAGGTATTCCTCTTATATAAGATAATTTTTTCAATTCTTCATCTATAAGTGGTGCTTTATTATAATATTTATAAAAACCTTTTTTTTCTTTACTTTTTGCTAATTTTATAAGCTCTTGTATAACATAATTTCCTTTAACATCTTTATAATTCCACATATTTTTCCCAATTTTATTTTTTTCATATGGCTGAACTAAATATTTTCCTATATAATCAGTCATAAAAATATAATTTAAAGAATATTCATCTTTATAAGTCATATTTGAAAGTATATTTTGAATTTTTTTAATAGTATCATTTTTAGAAATTTCTTTATTATTATACCTTTCTATTATTGGTTTTATTAAATTATAAGCCATATCTACTTTTTGGACTAATTCAATTTTTATTTTATTTTCTATTTCTTTTTCAAATTCTTCATTTATATGATTAATAAATAAAGTTAAAATTATTATTATTGTTACAGATAATAATAATATAATTTTTATATTAATATAATTTATTAACTCAAATAACTTTTTCATATCATCACCTTATTTAAAATTTTAATTACTATAGTTATTCTAAAAATTATAGTAATTTCCTACTATTTTTATATTAATATTACAAAAAATAAAAAAAAACACTCATATCTGAGTGATAAAATTAAATAGTATAAATAAATTTTACTTTACTTTTAATTTAAAACCTTTTGCTTAAAAAATCTTACAGATTTTTACGCTTGCTCATAAATTTTACTTTATTTTTAATTTAAAACCTTTTGCTTAAAAAATCTTACAGATTTTTACGCTTGCTCATAAATTTTACTTCGTAAAATTTATTTATGGTGCCGCTTGCCGGAGTCGAACCAGCCACCTACTGATTACAAGTCAGTTGCTCTACCAGATGAGCTAAAGCGGCATATATTATTTATACAAATTTTTACGTTTGCTCATAAATTTTACTTCGTAAAATTTATTTATGGTGGTCGCAACAGGACTTGAACCTGTGACCCCCTGCTTGTAAGGCAGGTGCTCTCCCAACTGAGCTATGCGACCTTTGGTACTCCGTAGGGGAATCGAACCCCTGCCGCCAGGATGAAAACCTGGAATCCTGACCTCTAGACGAACGGAGCTTATTAATTTCTAAATTTTACTTTAGTTTTAACTTAAAACCTTTTGCTTAAAAAATCTTACAAATTTTTACGCTTGCTCATAAATTTTACTTCGTAAAATTTATTTATGGTGGTTAGGGAAGGATTCGAACCTTCGAAGGCAGAGCCGGCAGATTTACAGTCTGCTCCCTTTGGCCACTCGGGAACCTAACCATATTTTGTAAAATTCAAACTAAAAATTATTAACCTATTTAAACCTTTTGCTTAAAAAATCTTACAAATTTTTATGCTTGCTCATAAATTTTACTTTATTTTTAATTTAAAACCTTTTGCTTAAAAAATCTTTTAGATTTTTACGCTTGCTCATAAATTTTACTTCGTAAAATTTATTTATGGTGCCGCTTGCCGGAGTCGAACCAGCCACCTACTGATTACAAGTCAGTTGCTCTACCAGATGAGCTAAAGCGGCATATATTATTTATACAAAATATTATGTAATCATAAATTTTACTTTACTTTTTATTTAAAACCTTTTGCTTAAAAAATCTTACAGATTTTTACGCTTGCTCATAAATTTTACTTTGTAAAATTTATTTATGGTGGTCGCAACAGGACTTGAACCTGTGACCCCCTGCTTGTAAGGCAGGTGCTCTCCCAACTGAGCTATGCGACCTTTGGTACTCCGTAGGGGAATCGAACCCCTGCCGCCAGGATGAAAACCTGGAATCCTGACCTCTAGACGAACGGAGCTTATTAATTTTTAAATTTTACTCTTGTTTTAACTTAAAAACCTTTTGCTTAAAAAATCTTTTAGATTTTTACGCTTGCTCATAAATTTTACTTTGTAAAATTTATTTATGGTGCCGCTTGCCGGAGTCGAACCAGCCACCTACTGATTACAAGTCAGTTGCTCTACCAGATGAGCTAAAGCGGCATATATTTAAATGGCGGGAGTGACGGGGGTCGAACCCGCGACCTCATGCGTGACAGGCATGCGCTCTAACCAAACTGAGCTACACCCCCAAAACATTGGGGTGACCGACGGGATTTGAACCCGCGACAACCAGTGCCACAAACTGGCGCTCTACCAACTGAACTACGGTCACCACTATGGAGCGGGAAACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACGCTCTACCAACTGAGCTATTCCCGCTTTTTATTTTGCCCCTCAAGGCGAGAATAATAATATCATATTTTACCTTATCCGTCAAACATTTTTTTTGTTTTTTAAAAAAAAAAAATTAATTATTTAAATTTAAAGGAATCTCTCATATATTAAATTTTTATTTTTTCATTTCTTAATTCATTTTTTTAAAATTATTTTTTAATAAAATAAAAGTTATTATACTAATAACAATATCCGATATTGGTGCCGCCAACCATACTCCATTTATATTAAAATATTTTGGTAATATTATTACAAGTGGTAAAAATATTATTAACTGTCTTGATAAATTTAATATAATTGATTTTTTTGCTTGATTTATACCCTGAAAATAATTAGCGCCTATTATATAAAATGCATTCAATATAATAAACGACATATAAATTCTTAATCCATTTTTTCCTATATCTAATAATTCTTGATTATTTTTGTTAAAAAGATTTATAAAAACTTTTGGATATATTATTATTAAAGTAAAAATCAAACTACTTATAATTAAAGAAAATATAATAGAATATTTTAATGCTTCTTTTACTCTATAATAATTTTTTGCTCCATAATTAAATCCTATTATCGGTTGTGCTCCTGAAATTATTCCATTTATTATCATTACTAGAAACATCTGTATGGTACTTATTATTCCCATTGCCGCCACTGCTATATCCCCACCATAATTTAATAAAGTTTTATTTAAAAATGTTACAACTATACTATTTGCTATTTGTAATAAAAATGGTGATATCCCGATACTTAATATTCCTTTTACAATTTTATAATCAATTCCTAAATTTTTTACTTTTAATTTTAATATACTTTTTTTACTTTTCGTAAAATGATAAATTACCCAAATTGCTGATGTAGTATTTGAAAATGCTGTAGCATAAGCTGCACCTTTTATCCCCCATTTAAATACAAAAATAAATATTGGATCTAAAATTATATTCAAAATTGCACCAATAAGCATAGTAAACATAGCTGTATTAGCATTTCCTTCTACTCTAACAAAATTATTCATTCCCATTGCCATAAAATTTGACAATACTAAAAAGTTTAATATTTGCATATAATTTCTAGAATAAACTATAGTATTTGTTGTAGCTCCAAACATAAAAAGTATTTTTTCTAAATAAATACTACTTATTAGCATAATTGATAAACTAAATATTACAAAAAGTGTAAAGGCATTTCCTAAAATTTTTTCAGCTTTATCTTTTTTCCCTTCACCAAGCTTTATAGAAGCTAAATTTCCGCCACCAATGCCAACAAGCATTCCTATTGCTATATATATAGTAAATATTGGAAAAGTTATACTTATACCTGTCATTGCATAAGCTCCTAAACCTTTACCTATGTACATTCTATCTACAATATTATAAAGTGCAAATACTAAACTTCCTGTAATAGCTGGTATAGCATATTTTATTAAAAGTTTATACACTTTTTCTTCTGATAATTCTTTAATATTTCTCATTTTCTTTTATCCTTTCTAAATTTTTATTTATTTTTTTTATGAAATCAAAAAAAATCTCTTTTTCTTTTTCTGAAAAATTTAACATTAATTTAATATTTATCTCATTAAATATATTTTTTATTTCAGGGTAAATTTTTTCCCCTTCTTCTCCAATATATAGTTTATAATATCTCTTATCAATTTTATTCTTTTCTCTTTTTACATATTTTTTTTCTATTAATTTTTTTATTGCTTTTGTAATAGTCGTTTTATCAATTCCTAATTTTTCTGCTAATTTATCTTGACAAATCCCTTCATTTTTTTTAATATTTATAAGAATTTTAAATTGTCCACTTCCTATTTTATATTTTTCTAATTTTTTTGATAAATATAAATCTATATCTCTTGATAAATGAGATATTTCTTTTGTCAAAATTTTTTTTTTATTTTTTTCTATCACTTTATTCTCCTTATTAATTAATTTTAATAATTATTATTTACTTTTAACTCTCTTCTTTTTTACAAACAAATCAACTAAATTATATACAAAATTAGTTGGTATGTCAACTATATAGAAAATTTTATTTTTTTATATATTCTTTTCATAAAAAACTTATAAATTTTTTGAAATAAATATTAAGTTTAAGTTTTTTTAGTCGATATATAATAATGAATAAAAAGGTTATCCACGGAGGGATAAGTTATAGATAAATCAAGGAGGGTTTAAACATGATAATTAAAAAAATTTATAATAATCTATTAAAAAAATATTTTTTGAAAATAATATTAATAACTACCTTATTAGTTTTAGCGAGTTGTGAAAAAGAAAAGATTTATATAACAAAATTAATTCCTGATGATTCAGTTTCCGTAAGATTTAGACCTGATCCAAATGCTACTAAAATTGGTTCTGGAGGATTAATTCAAATATATTTATCTGGCGGAGGATATAGTAATGCTCTTATACTTCCTACTCAAGAAATTCAATTAGAAAAAGATACTTTATATAATTTAAGTTGGTCTTATGATAATGGAAGTGGTGGTACTGGAGGAGCATTAGGTACATTTATTCTTAGTTTCTATAATGATACTGAATTTGTTATTATCTATCTTGGTGATGATAACAATGAAATTAATCCTCAACCATATTAATCAAATGTTGGAGGGAAAAAATGAAATTTTTAAAATTTTTTGTACTAATTTTTAGTTTTATAATTATATCCTGTAGTAAACAATCTGGAATACTATCTACCACTAATAGTACCATTGCTTCTGGATATAATAGTTATACAAGTGCTGAAATAACAAATATTTATAATTACATAAATTCTAATAAAATTGAAATTACTTCAATTCCAAATTTAACTACTATTGAATCAAATTACTTAAAAAATAACATAACTTTATTATTAACTACTATAAGTAATGAAATATTAACAGGGACTGTATCTGAATCTAGAATATCTGAAATAAAAACTGCTACAAAAGATGCAATATCATATTTCGGTATAAAAACTTATGATGAATTATCTTATATCTATCAAAATATTGGAATTGCTCTTACTCGCTCTTCTTCATTAGGTTTAACTACTGAAGAAAATACAACTTTAACTTCTATCCAATCATATATAAATACTGCAATGACTTCAATTAAACAAAATAAAGACGTTAATCCTTACTATTCTGAAATAGGATTACTTTTATTAGTTTATAGAGAAGGAAATTATTCATTATTACAAAATAATTCTTTATTAGAAAAAGTAGGTATAAATCTCGATCAAATAGATCAAACAAATGATATAGCTTTAAAACTTGAGACATTGCAAGCTGAATTAGATGAATTTAGTGATTTTGATAAAAATGATTTATCTATTGCTGATGCATTAAGAAAAAGCTTAAATACATTAAAATCATATTATATTTCTTATACCCTTGGTGATGAAACAACAATTGAATCTCAAGAAGCATTATTTAGACAAGCTGAAACTGCTTATTTACCGTATACAACTTCAATGGAGGCTACTATTAATAGCACTATAACTGCATTAAAAGCTCTCTCTGACGATGATATTTCAGGATATGAAAATATTTATAATGAAATAATGGCTGTTTTAAATGACTACGAACAAAAAAAAGCATATTATAATGCTAAAAACTTTAAAAAAATTATATCTGAAACTATTAATATAGCTACAACTTATAGATATATTCAATCAAAAGCATTAATTATATCTATATTAACTGAAAATTAAAAAATTTTATTTAAGACTATTGTTAATACAATAGTCTTTTTTATTATTTATTTCAATATATAAAATCAAATGTATAAACATTTAATGTAAAAATATCTTTTATAAATATATGTATTCTCTTTTCATAAAATTTCAATTAAATATATCTATATTTCTAAAAATACTAAAAATTTATAACTGTATTTTCATTTCATAATTTTTTATGCTTAAATCTTTAAAATAAAAAGTTTTTTAATTTATATATATGTATAATTATTTCCTAATTTATATTAATTATTTTCTTGTAGTCTTTTTTTTAATTAAAATAAAAACATTCATAAATACAATTAAGCTCTTTTTAAATTTACAAAATTTTCTTAGTGTTATATAATAATAAAAACATTTAATAATTTTATGAAAGGAGTATACATTTGAATATAATATTTAAAAATCTAAAAAAATCAATCAATCTTACTATTACTTTATTTAAAATACTACTGCCACTTAGTATTTTTATAAAAATTTTACAATTAACAAATAGTATAGATTATATCTTGGGTTTATTTTTACCTATAGCTAAAATTACAGGAATATCTACTGAATTAGCTACTGTCTGGATAACTGCTATGCTTACAAATATATATGGAGGCTTTATTACTTTATCTAGTTTTGCTAAAAATAATGTTTTTACAGTAGCTGATATTACAGTTCTTGCTACTATGATTCTTTTAGCTCATACTATGTTTTTAGAAACTGCTATATTAAAAAAAGCTGGCGGGAAAAGTTTATACATTGTTTTATTGAGAGTAGGTAGTGCTATTCTTGTAGGTTCTGTTTTTAATTTTATTTTTAAAACATTTAATATCTTAAATTATCCTGCAAATATTATATGGAAATCTAAATCTGTAAATTTTACTATAAATGAATTTATATTTTCTCAAATAAAAAGTTTTTTTTATATTTTTTTTATAATATTTTTAATATTAACTATGATGGATATTTTTGAAAAAATAGGAGTTCTTAAATTAATAAATAAATTATTAAATCCTCTTTTGGCATTATTAGGAATTTCTGATAAAGGCATCAATATAAACCTCATAGCGCTTGTTTTAGGGATATCTTATGGCGGTGCTATACTTATAGAAGAAAGTTCATCAGGAGAGCTCTCAACTCGCGATATAACATATTCTATTATATTTATAAGTTTATGTCATGCTATCATTGAAGATTCTCTTCTTATGCTTACTATTGGAGCTAATTTTATTTGGATAACAATCGGAAGATTTTTTTACACTATCGTATTTTTAATAATTTTTAATAAAATTTATCTAAAAATTATTAACTTTAGTTCAATTATAAAAAAAGTTTGACAAATTTTAAATTTTTTTTTATAATTTATCTTGTTGTTTTTTGTGTAATATAATCCCCTTTTGTTTTTTTAATTAATTTTTGTTCTAAGACACTTTAAAAAAAGCTCGTATGAGCTTTTTTTTATTATTTATTGCAATTTGTAATGATTTCAGTTATAATTTTATTAGAAAAATTTAATAAAAAAACAAGGAGTGATATTATGAAAATTAAGGGAAAAATGTTACTATTAATTTCATTATTAAGTATTGTCAATTTTTTACTCTATACTTTTATTTCTAATAAAATTATAGGTTTTATTGTTAGTTTGGTTTTATCAATAATAGTTACCCTTATATTAATTGGAAAAACTATTAAAAATATGGATAAAATAAAAGAAATATTAATGAATTTATCTGGAAATACTTCTGATCTTTCAATAAAACTTGATATTAATTCTAATGATGAAATTGGAGAAATCGCTAAATATATTAATATATTTTTAGAAGATTTAGAACAAGTAATAGCACAAATAAATCAAACAAGTAAAAAAGTCGCTGATTCTTCTCTATATTTATCAGAAAATCTAAAAGATATATTAAATAATAATAATAATGAAAATCATATGCAAGCAATAAAAGAAAAAATGGAATATATTGCTGAAAATGTGAATAAACAAACAGCATTTTCTGAAGAGGCAGCTTCAGCAACAACAGAAATTTCTCAATCAATAAATAGTATTCATGAAAAGGCTGAAAATACAAAACATTTAGCAGTAGATACAAGTAAATTAGCAAAAGAGAGTGAAAAAAATATAATAAAAAATCTTCAAGAACTTCAAAATATTGAAGAAAGTGTACAAAATATAGAAAATAAAACAGAAATTTTAGAAAAATCTTCACAACAAATATTTAATATAGTAGAAATGATAAATAAAATAACAGAGCAAACAAATCTACTTGCGCTAAATGCAGCAATAGAAGCAGCAAGAGCTGGAGAAGCAGGAAAAGGATTTAGTGTCGTTGCAGAAGAAGTCCGAAAATTAGCAAATAATTCATCTGAAGCTACTCAGGAAATAGAAAAAGTAGTAAAATCTATTCAAGGAGAAGTAAATGAATTAGTAAATCTTACTAAAGTTAGTTATAAACAAGTACAATCAGGAAGAAAAACAACAGAGATAACAAATACTAAAATTTTAGATATTATAGAAAAAATACAAATTACAAGTGAAGAAATAGAAGATATTTCTATATCAATTAAAGAACAAAAACATGCTGTTGAAGAAATTAATTTAGCTATGGATGAAATATCTAATAGAAGTGTAGATATTAGTAATTTAACAAATGATCAATTAGAAGCTAATACATTTATTACTGATTTAGTAAAAGATACTACTCAATATTCTGCAAAGTTAACTGAAGTCGCAGATGCATTAAAAAATGTATCTTCTGGATTTAAAATAAATAAAGATATTAAAATAAAAAGAAAAAAAGCTGTTGAATGGACAAGTGATTATAGTGTTTCAGTTGAACTTATGGATCAAGAACATATAAAATTATTCGATTTAATCAATGAATTAAATGATGCTATGATTAATGGTCAAAGTTCTGATAAAATAGAATCTATATTAGATGGTTTAATAGATTATACAGAATATCATTTTGGTGATGAAGAGAAACTTATGAAAAAAATAAATTATTCTGGATTAGATGAACAAATAAAAGCTCATAGAACATTTGTAAATAAAATGAAAGAATTTAAAAAAGATATGCAAAGTGGAGAATTACTTTTATCTGTTAAAATAATTAATTTTTTAAAAGACTGGTTGATTTTACATATTTTAAATATTGATAAAAAATATAGTGAATATATGAATAAAAATGGTATAAAATAAAATATAAGACTCTTCTTTTATAAAAGAGGAGTTTTTTTATAATTATTTATATTTAATAATCTTCATAATCGAGTATAATTTTTATAAAAATTATACCTGTTAGATGTTTTAATGTATAAATGTATGATGTAGGGAAAATGAAATGTTTATACATTAAAGATTTAAACCTTTATTTATTTATGTTTTTTATAGTTTATAAAATAATTAATATGAAAAGTATATACATTAAAAAAAACTTAGCAAAATCAATAAAAAAAAACTTATGAAAAGTACATACATTTTTTTATATCAATATTATTAATATATTTTAGAATAAATATAATATATATTTTTATGAAAAGAGTATATATAAATAGTATTATTATGTTTATTCTATGTTTATACATGTATTAAAGTTAGTAAATATCAAGATTTTTTTAATATTTTATATTTTTAATAGTTATAAAATGTATTAGGATATGTTTATACACAAAAAAAATACAGTTATTTTAATAGTTGTTATAATAATAAGTTTAGGAAAAGAATATACATTTTTATAAAATATTGATTTTAAAGGAAATAAATATATAAATATAAGTTATGAAATAATTATACAGTTAAAAAAGATTAGTATTTCTAATGTATATAATGTTTTTATTCAAATAAATGTAAAATGAAAAGTTTATACATTTATTTTTTTATTTATTTTATATTTCATGAAATAATTATACAGTTATAAAAGTCTTATTTTTTAATAAAATTTTAAAAAAAAATTTTTCATTGTACTTATGAAATGATTATATACTTATTTTGATCATTAAATTCAACGTTTATATAATATGAAAAGTTTATACATTATATATATAAAATTTATATTTGAGAATATATACAATTATACTTATAAATACTAAGTTTTTTTTATGTATTCATATTTCATAAAATTCTTGATTTATTTTTATTTTTAAAGTAAAATAGGAAAAGAAAGTACATATATTTCATTTTGGGAGGATAAAATTGAAATTAGAAAAATACCAAATAGATACTAATGGAAGTCTTAAAAAAGAACTTGACATTATAGAAAATGCTACAAGAGAACTTATTACAAAAGGCAGTCAAGAGATTATTATAAATAAAAAAGAACTTCAAAATATAGAAACTAAGACTATTGAAATAGAAGGTACAGGAAATTTTATTGGTGTAAAAAATAGTATAATTAATATACCACTTGAAATGATAGTTTTTCCTTTTTTTACTAATCAAAAACAAAAAAGAAATGTAAATTTTGAATATAAATTCACAGATGTGGGTATTACTATGCGTTCAAAACTTTCAAGTTTTGATAAAAATGATAAAGTATATCAACCTTCTTTATTAGAAAAAAAAATATATAATTATCTTATTATTATGTATGAAAAAAATATAGAAGAAGAAAAAGAGATAGATTATATTCAATTTGAAGTTGCTGATTTTATAGAAAAATTTTTAGGTAATAAAATGAATTCACAATATTATCCTAAAGTAGAGCAAGCACTTAAAAATCTTAAATATACTCAATATGAATTTTTAGTAGATAATCATAAAAAAGCAGGAAAATTAAAATTTGAAAGTCCTAGATTTTTTTTATTAGATTATACAAAACTAAAAATTGGGAAAAGAGTATACTATCGTGTAAAATTAAATTCAAATATAATTAATAAAATTATAGAAAAAAGATATATAAAATATGATTCTAAAAATTTAATGGAAATAACAGATAGAGATTCTGTTGCTGATAGAATATATGAATATATATCTATGAAAAGATTTAATAAAATAGAAGGAAAAGAAAAAATAGAAGTTTTAGCAGGTATTATTCCATTACAAACTATAAAAATAAATAAAGTGAAAAATAAAAAAGGAAAAATAGTAGAATATAAAACAAGTAATATGAGTTTTGTAAGAAGAAGAATAAAAAAAGCTTTTAATGTATTGAAAGATATGGAGTATATAAAAAGTTTTAAAGAAGTAGAAGAAGAACCAAAACGATATACAATATATTATGAATTTAATACAGCAAAAGATAATGTATGTCATGTGTCGTCATATTTATCAACTCCAGAAAGTTTAACTTTTATGCCAAATAATATGGAAGAAAATATTTATAGTGATGAAATATCAAATTATGAAAAATTTGAATTAGCATTAAAAAAAGTAAAAAGAAATATATATTTTGCTAAAAAATATAATAAAAGAATATATAAAAAATTAGTGAGACTTTGTGATAGTGAAGGAGAAGAGTTTGTAGTAGAGATTTTAAATAGAATTTACAGTGGATTGAATACACAAATAAAAAAGACATTAGGTGCTTATATAGATACAATAGTAAGAAATCTAAAGAAAGAACAAGTTAATAATGTATCACCAAAATTATTTAATTTTGGAAATGATCATACACTTAAAAATAATATAGAAGATGCAGAGATAATAAAAGAAAATAATAAAAAAGAAGAAATAATCGAAATAGAAGAAAAAGAATCAGAAAAACCTGAAAATACTAATGATGAGCTAGAAAATACTTTATTAAATTTATTTGAAAACTTTAGTGATGAAAGAAAAGAAGAAATAATCGAAACAGCAAGAGAATATTTCTTAAAAGATACAGGATGTGAAAAATTAAATCCTATTCAAGAAAAAATATTTAATAGTGAAAATGTAAAAAAATTATATGTAAGAAGAGTTTTAAAAGAAATATTTGGAATATAAAGATGTGTTATTTAACACATCTTTTTTTTATAAAAATATATGAAATAATTTAATTATAATTCGATATCAACAGTTTTTAATTCTTTATCAAGTTTTTTATAATTAGGTAATATTTTTTCTATATCTTTCCAAAATTCTTTAGAATGATTCATGTGTTTTAAATGCATAAGTTCATGAATAATTACATAATCAATTAAATCTTGTCGACACATAATTATTTTATAATTAAATGTAATTTTTTTGTTAGAATAACATATACCAAAACTTCGTTTTAAATTTCGTATTCTAATTTCTATAGGTATAAGTTTTAGATTTTGGGAAATAATAATACATCTATTAGTAATATATTCTTTTGATTTTTTTAAATAAAAGTTTTTAATTAAATCTTTTATTTTATTTGAATTATATACATATGTAATATTTATTATGAAATGATTATACATATTATTTAATATAAAATCTTCTTTTATATCTTTAAAAACAAGTGTATACTCAGTTCCTAAAAAATAAAATTTATTATTTTCTGTGTAAGTTTTTTTAGGTAAATTATTAAGTTTGTTTATAATCCAATCTGATTTTTTATGTATTAATTCAATTATATATTTATTACTTATATATTTAGGTGTATTTACTTTTACTAAACCATTTTTTTCTATAATTATAGAAATGTTTTTCTTTTTCTTTTTATAAATTTTATATTTTATGTCATTTCCTTTAATATTAATAATTTTTTCCATTAAAATTCTCCTGTTTTTCTTTCATTTTATAATTTTTAATTATATTTGTAAAATAAAATAGTTTAAAAGAAAAAATAAATTAAAATTTAAAATATAATTTTAGGTTTTTAATTTATTATCAAATGATAACACATAAAAAAGAACTATAATATTATAGTTCTTTTTTTTAGATAAAACTATGTTTTCTCTGAAAGTTTAAATAAACTTTCTATTCCGAGTATAAGAGCTGCTTTACCATCTCCTAGAATTGATGCTCCTAATATATAATTAATATCATTAAAATCATTACTGAGAGGCTTAACAACAATTTCTCTTCTATCTAATACATCATCAACGGGAAGAGCTTTATATTTACCATCTACATCAAGAACAACCATGATTTTTGCTTTACCATTACCATCAAAAAATTTATTGCTATCAATTACAGGAATAATATTATCTCTTAAACGTATAAAATCTTTTCTTCCCCCGAGATAAACATAATCTTCATTTTCTATTTTAAATACTTCTTTTATAAACACACTAGGAATTATATATTTGTGTGATTTTATATTTACTATAGTACCATTTAATGAAGTCATATTTTGAGGAATACGTAGTTGAATAGATAATCCTTGGCCTATTCTATTAGTCATTTTTATTTTTCCACGTAATTTTTGTATTTCTGTTTTAACAACATCCATTCCGACCCCTCTACCAGCTATTTGATTTACTTTATCTGCAGTAGAAAAACCTGGTAAGAATATAAAATTTATTATTTCATATTCAGTATATTTTGTATTTGGATCAATTAATTTTTTTTCAAGAGCTTTTTGGTATACTTTATCAGGATTTATTCCTTGTCCATCATCTGTAATATTAATATAAACATATCCTTTTTCAGAGTAAGCATTTAAAAATATAGTTCCAATTTCATTTTTACCATTTGCTATACGCTTTTCTTTATTTTCTATCCCATGAGAAATAGAATTTTTAATAAGATGAAGCAAAGGGTCAACAATTTTACTCCCAATAATTCTATCAATTGTGGTATTTTCACCAGAAATTTCTAGTTTTACTTTTTTATTTAATTTTCTCATTGCATCATGGGCATTTAAACTAACTTTTTGAAAAATAGAGTGTAATGTAATCATTCTAAATGAAATAGATAAATTTTGTATATCTTTTGTTATTCTAAAACTTTTATAAATATCTTTTATTAAATAACTATCTTTATCAAGAATTTTTATTGCGCTTTGTTCTATTTGAGATTGTATCATCATTAATTCTTCTAATAAATCAATAAGTTTATCAGCTTTTAATGCAGGAATTTTTATCATATCTTGTATAATATCTTTTTTTGATTGTTTTGATTTTTTTTGTATTTTTAATGCATGGATAAGATCTTGATTACTTATTTTTTTTTCAGCAATAGCAATTTCACCAATTTTTTTACCTTTATATTTTTTAGAACGTTGTTTTAATAATAAATCATTAATATCATCTTGAGATAATTTATATTGTTCTTGTAAAATTTCACCAATTCTTTTCTCAGAAGTATTTTTATATTCTGATATTTTTATATTAATCTCTTTTATTAATTCTTTAAGATTATCTATAAAAATATTATTTTTTAAAAGAGATTTATCATCTGCAATTTTTCTTATATAATTAAAAAATTTAAATATTTTATCTAAATATAAATCAATAAATTCAAATTCTTTTTCTTGTAATATTATAAACATTGTATTTAGGTTATTGCTAATGTCGGTAAAATAAAAAATATTTTCATGATTATAGTTAGCTAAAAAAGTATGTATTTTTATTAATTTTTCTTGTAAATTTAAAAGAATGGTTGGAATTTTTTCAATATCTTGTTCTACAAGTGTAAGTTCAATTTCATCTATATATTTTATTAAATCAGAAAAATTTTTAAGTTGTAATATATTTTTTTTAGTATGAGTTTCTTTTTGTTCTATATTTTTCTCTTTGAAATCAAATGAAATATTTTTTAAATCTATATTTTTTATAAATACTTTTTCTACTTCTGGGAAATTAGCTAAATATTTTTTTAACTCATCTAAAGATTTATTACTTGAAAAAAGAATATAAATAGAGTTTTCATCTATTTCATTATTACCATTTGTAAAAGTATCAAGTGTTGGGATTGAGCTTATAAAATTTTCTTTATCTTTTAATGATGTAAGAATCATAAAAGCCCTAGCAGAAGCTAAAGGTGAATTTTCATTAATAATTATTTTAGTAAAGAAAATATTTTTTTGTTCTTTATATTCTTCTTTTAAAATAGTTCTAAAATTTTCAAATTTATCAATTTTATTTTCAGTAGAGCTGTTTATTTTTATATTTTTATCTTCTATTCCCATAAATTTATTAATTTTACTTATACAATCTAATATAATTTCTTCATCCACATCATCTTCAGTAGCACTTATTTCAATACTTTCTACAAGTGACGACATTATATTATAAGAAACAACAAGAGTTTGAATAATTTTATCATTTATATTGAGCTCTTTAGAACGTATTTTATCAAACAGATCTTCTACTTTATGGGTAAGTTTTTCTAAGTTATAAAATTCCATTGTTGCAGACATACCTTTTATAGAATGTGCAGCTCTAAATATTTCATTAATGGTATCATCTGTATATTCTCCAGATTGTAAAAGTTCTAAATCTGTCTCAAAAATTTCAAACAAATTTTTTATTTCTTTTATAAATTCATCTAGATATTCAGATAAATCTATTTCCATATTTTATCACACCACTTTCTAGTTTAAGATTTATAATCTAGTTAATTTTACTAAGTAATTTGCAATTTGAGATAAAGGAATTTGCGTTTTTACAGCACCTATCTCATAAGCAGCTTTAGGCATACCATATACAGTAGAACTCTCTTTATCTTGACCTATTGTATATGCTCCTTGATTTTTCATATAAAGAAGACCTTTAGCTCCATCTTTCCCCATACCTGTAAGAATTACTCCTATTGCATTTTTACCACAATATTTTCCAACTGAATAAAACAAAACTTCTACAGACGGTCTTTGAAAATGAACGGGTTCATTTAAAGTAAGTTTTGTATATAGCTGATTTCCAATTTTCTTTACTTCCAAATGCCTATCTCCAGGAGCAATGTAAACAGTATTTTTTTCTAAAAGGATGTTATCTTTTGCTTCAATAACAGTTAAAGGGGTTATTGTATCTAAATGTGAAGCAAAAGAAGAAGTAAAAAATTCAGGCATGTGTTGAGTTATAAGTATTGGAGGCATACCTAAAGGTAATTTTTTTATAATTTCTTTTAATGCAACAGGACCACCAGTTGAGGCCCCTATTGCAATTATTTTATTAGGATTAAATTTTGTAGGGATATTTAGTATATTTTTACTGGGTTGAGAAACAGTATTTTTTTTATGTAGCTTTATAAGTGACAAGGCATAAATTTTTTTTTCTAATTTTTTTAAATTTTGATTGTCAAAAAAAATGGGACTATTAAAAGAAAGTATTTCTAATGCACCATTTTCAACTAATTCAACACCTAATTCTTTATCATTTGAAAAATCTCCAGTTACTAGTGTAGGAATATTTTTAAATTTAAAAACTTTTTTAAGAAAAGATAATATATCTATATCTAAATTTTTATTTATAATAAGAACATTAGGTGTATCATAAACAATTAAATTACGTCCTGTTTTAATATCATTAGTAATAGTTAAGTTAATATAATTGATATTATTAAAATATGCTTTAAAAGTTTTTATTAAATTTTTATTAGGTTCAATTATAAGAAGTTTTATTGTATTCACATCAATCATCTCTTTTTGTATTTATTTCTTTTAATAATTCTATATAGACATTTCCTGTAAAAGTGTTAAAAGTAACACGTCTACCTTTATATCCACCAATATCTTTATGTTTTATATAAATTTTATATTTTTCTAGAGTTTTAATAGCCATTTCAATATTATCAATTCCTATATTTGAATGAATAATTTTAGAGCTAGCACCACCAATAATAGTAGCTTCTAAGTCATTTATATTAGAACCATTTTTTAAAAATGTTTTGATTAAATAATTGGTAGAGTATTTACCATTGCTAGCTATGTTGGCATTTTCATCATCTAATGTAAAAATATAATGATTCATTCCGCCAATTTTCTGTTTTTTATCATATAAACAAACAGATACACATGAACCGAGGATAGTTTTGATAATATATTTTTCTTTACTAAAAAAAAGATATCCTGGATATAAAAAATATTCATTCATAGAATCATCCTATTTTTGATATATAGTTGGTTTTAAATATTTGAATTTATGATTTAATTGACCTAAACTTTCAGAATGGCCAATAAAAAGTAAGCCATTTTTTTCTAAATTATTATAAAATTTATTAACTAAAGTTTCTTGAAATTCACTGTCAAAATATATCATAACATTTCTACAAAATATTATATCAAAGCTATTTTTAAATATAAAAGGTTCTTTTAAATTAAATGCTCTAAAAGTTATATTGTTTTTTATAAAAGGATTTATAGTATAAGCATCTTTTTGTTTTATAAAATATTTTTGTAAATAATATATAGGAATTTCATTTTCTATAATTTTTGGATATTTTCCTTTTATAGCCTTTTGTAAAACATTATGACTAATATCTGTAGCTAATATTTTTATATTTATATCTTCTGGAAGGTATTCATGAAGAACCATAGCTAAAGTATATGGTTCTTCGCCTGTAGAACAAGCAGCACTCCATACACGAATTTCTTTATTTTTGAGAATCCTTTTATTTTCATTTAAAATAAATTTAATATTATTTTTTATAAAATTAAAATGATTGATTTCTCTAAAAAAATTAGTTTTATTAACGGTGATTTCATTTAAAAGTTCAATTTTTAATGCTTTAGAAAGTTTTATATGTTTTATATATTCTTTTATAGTTTTAAAATTATTTTTTTGAAGAAGTTTTTTTATTTTAGTATCTATTATATATTTTTTATCATCACCTAAATGAATTCCAAAGTTTTCATTAAGAAAACTCTGGAATATTAAAAATTCATCGTTATTCATAGTAAGCTCCTTTTTATCAGAAAATTAAACTAAAAATCTAATGGGTCATCTTCTAAAGGAATAACATCTTCAGCTTTTAGTTCAGTATTTTTAAAGGAACTTTTAAGTTTAGTTGGTTTATATGATGTAGTATTACTTCTTATATTTGTATGATTAGTTGATTTATTATTACCATATACTAAATAATTTAAATCTCCTACAATTAGTTTCATACTTTTTGCCTGTGAGTTAAGTTGTTCGGAAGCAGCAGCACTTTCTTCAGCATTTGAAGCTATATTTTGTGTAACTTGTTCCATTTGAGACACAGCTTTTGATATTTGAATTACTCCTTGAGATTGTTCTTGACTTGCGGTTGCTATTTCTTTTACTATTTCACTTACTTTTTCAGAATTTTTAGAAATTTCATCTAGTGCTTTTGCTACTTTGTCAGCTATTTCTACTCCTTTTTGAGATTTTTCTATACTATCTTCTATCATTTCAGATGTATCTTTTGCTGCTTGAGTACTTCTTTGAGCTAAATTTCTCACTTCTTCTGCAACTACAGCAAATCCCATACCAGCTTCTCCAGCTCTAGCAGCTTCTACAGCAGCATTTAAAGCTAAAATATTTGTTTGAAAAGCTATATCATCTATAACTTTTATTATTTTAGAAATTTCATCACTAGAATTTTTTATTTCATGCATCGCAATACTCATTTCTTTCATTTTATTATTTCCATCTAAGGCTACTTCTTTTGCTGCTTGAGTTAAATCAGCAGCTTTTTTAGTATTTTCAGTATTTAATTTTACCATAGATGATGTTTCATCAAGAGTAGAGGATGTTTCTTCTATTGATGATGCTTGTTCTGAACTTCCTTCAGCTAATTCTTGACTAGCAAGTGATAATTGTTCAGAAGCATTAAATACTTGTTCACTGCCATTTTCAAGTTCATTAACAGCTCTAATAATAGGTTTTGTAATAGAATTACTAAGTAAAAATGCTAAAATAATACCAATAATTATAGAAAGAATAGTAATTATTGTAATAGTAAATAAAGAATTATTTGATTTTACAGAAATATTATCAATAGTAGATATAGTTTTATTAAATGCAGAAGTTTTTAAAGTAGAAGCTAGATCAATTATTATATTTCCGGCATCTGTTCTTAAACTACTTAATTCTGTTATTCTTGCTCGTATTTTAAGATGTTTATTACCAAATTCTTTATATTTTTCTAAAATATTACTTATTTTATTTAAATTTTCTAAATGGATTGGATCTTTTTCATTAGATGTAAGAATATTTAATGCATCATTAATTTTTTTAATATTATTAGAAAATGAATTGCTATTATTTTCTGATATATTTTTTTGACTTTTTTCTAGATATAAAAAAATATTTTGAGCATTATTTAAACTACTAGTAATTTCTTTTAAATCATTATTATATATAAAAAAATCTTCTGTTGTTTCAATTTTATTATTCATATTAAAATTTTTACTTAAATCACTTTGTTTAGCATTTAAAAAATCCTTTGTAATGTTATATATATCTAAATATAAGGAGTCAAGATTTGAATTAACTATAGGTAATTCCTCGCTTACTAAAGTATGAGTCTCATAAATTAATTTTTTATAATTATCTAATGCTTTATCAATTGCATTTACTTTTTCTCTTAAATATTCCAAATTTTTATTTTTATTTATTATTTCTTTTGATTTTTCTATATCTTTATTAAATCTTTCTAATATCTTTTCAACTACAGTAAAATCCCTTTCTTTAAGTGTAAATCCGTATTTTCTCATATCAAACATTAAATCCCAATTATCAGTATTTAAAGTATCTCCAATATTTAATTCTTGTATAACTGTATTACCTAAAAAATTAGTATTTTTTTTAATATTATTTGAATTAATAAATGAAAAGACTCCAAGAATAGTTAATAATCCAATTATTCCTAAAAAACCAGAATTAATTTTAGTACTTAATTTCATTTTGATATCCTCCCTCTTTAAAATAAATATTTTATAAGTTTTGTAATTTATTTTTTGTAAGAATTTTTTCAATATCTAATAAACTAATAACTCGATCCTTTACTTTAGCCATCCCTTTAATAAATTCACCATCAATTTGTATCTCTTCTTTAGAAATTTCTTGTATTTGTGATTCATGAATATCAATAACTTCAGCAACAATATCTACAGCAATTCCCATTTGTTTTGATATTTCAGAAGTATTGATATCTACTACTATAATACAAGTCCTTTCATCATATGATTTTTCTTCTAGTCCTAGTTTTAATCTAAGGTCCATAATTGAAATAACTTTACCTCTTAAATTAATTACACCTTTGATAAAATTAGGAGTTTTAGGTACTTCTGTAATAGGTAACATAGCTATAATTTCTTTTACTACATTGATAGGAATTCCATAATTTTCATTTTTTAGTACAAATGTTAGGTATTTGGACTTTTCCTTCATGACTATCCCTCCTTTAATTAAACTTGCAATTAAGATATACTGTACAAAAATAAAAATCCTTTTTAAAAATTAAAAAATTGACAGAACCATTATAAAGTGTTAATATATATTCATGACAAAAAAAGTAATGTATGTTATTAAAATATATAGTAAAAATAATTATAAAAAATTAATAATTTAAAAATATAGGAGGTATAAATGGAAAAAATATTATTTACAACAAAATCATGTCCAAATTGTCCACCAGTAAAAGAGATGTTAAAACCTTATGAAGATATAAAACAGCTTGATGCACATGAAAATATGGATTTAGTATCTAAATATGGAATAAGAGCCGTTCCTACTCTTGTTGTTGATAACGGAATAGACTTTGAAATGTTTACAGGGTATGATAAAATTAAAAGTTTTATTGATAACAAATAATAAAAAAGGACTTAATTTATTTAAGCCCTTTTTTTATTTAAATTTTATTTTAAAAAAATAAAAAGGATACTTTCTTATTATATAGTAAATAATATGATGAATTTATTAAAAAAATACAAAAGAGACTTATAAATAAATATAAGCCTCTTAGGTAGAAATTTAAGGATATAAATGTGGTCTAGTGTAAAAGATTGTCTTAAGAATATGATACAATATTTTAGATAGATTGTCAATAAAAATTTTATTTTTTATAATAAATTTTATTTTTATATTAGTATGATAATATTGTAATAATTAAAAAAAAATGATAATATTAAAGTAGGGTGAAAATGATAATATTAAAGTAGGGTGAAATTATGAAAAAAGTTAAAGTAAATGAGTTAAAGCCGAATATGATTTTAGCTGAAACTATACTTGGAAAAGGTGGAAGGATTCTTTTATCAACAGGAATAAAATTAAACGAAGCTCTCATTAATAAAATAAAAGAAACGGGCAAAAAATCTATATATATTGAAGAAGATAAACATGAGATTAAAATGGAAGGAATAGCAGAGAGCAATGGAGAAAAAATTCATTTTGGCTCACAAGTAGATATTGAAGAACATTTAAATATAGAATTAATGCAAAAAGTTGAAGATGATTTTGAAGAAGTTGCTAATACTGTAAAAAATGGAATTCTTAATCTAAATCTTAGTGAAGAAGAAATTGTTAAAAATACAGGAGATGTCACAGAATTTATTAAAAATAATTTTAATTCAAATTATGCATATATTTTTAGAAGTATTATGACAATAAGAGATGTAGATGAGTATTTATATAGGCATTCTGTTAATGTTGCCGTATTATCTTTTTTACTTGCTAAATGGTTAGGATATAATGATGAAAAATTAAACAAAATATTATATGCTGGATTGTTACATGATATAGGAAAATTAAAAGTGGATCAAAATGTTTTAAATAAACCAGGAAAACTTACAGCAGAAGAATTTGAAATAGTAAAAAAACATGCACTTTATACATATAAAATATTAGAAGATTTTAGATCACTAGATAAAGAAATACTTTATGGAGCAACATTTCATCATGAAAAACTTGATGGAAGTGGTTATCCATTTGGTTTGAAAGATAATAAAATACCTGAATTTGCAAGAATAATAGCTATTGCAGATATATTTGATGCGATGACTTCAAATAGAGTTTATCATAATAAAAAATCACCTTTTTTAGTACTGGAGATGTTTAGTACAAATAGCTTTGGGAAATTAGATCCACGTATTGTGTATATATTTTTACAAAGATTTGTAGAGTACTATATAGGAAGTGAAGTTATATTAAATAATGGTAAAAAAGCTAAAATAGTTAGAATTAATTTTACTGAAATAACAAAGCCTCTTTTATTAGATGAAAATGGAGATTTTATTGATATGTCCAAAGAAAGAGATGTAAAAATAGATGATTTTTATGTAAAAGAATTAGAAAATTTTGATAAATAAAAAGACTAATAGTAATAAACTACTATTAGTCTTTTTATTATGTTAATCTTGAAAATTTAATTTAACTTCTAAAATTTTATCAAATATATTAATAAAACAATCAACTAATTCTGGATGGAAATGCTCTCCGCGTTCTTCTTTTATTAAATTCAAAGCTTTTTCTGATGGCCAAGGCTCTTTATATGGTCTTTTACTTGTAAGAGCATCAAAAACATCAGCAATAGCAACAATAGAAGCGTAAATGCTTATTTCATTATCTTTTAATCCTCGGGGATATCCTTTCCCATTATATTTTTCATGATGTTCCAATGCAACTATTTTTGCCATTTTTAATAAATCTGAAGGATGATCACCTATTATTTTTGCTCCTATATTAGAATGTGTTTTCATAATTTGCCATTCTTTATCATTTAGTTTTCCAGGTTTTTGAAGAATATTATCTGGGATACCAATTTTTCCAATATCATGCATAGGTGCAGCATTAAATAAAAGATTAGCTTCATATTCTGGAATACCATATTCTAATGCTAAAAGCTTTGAATAAGTACTCATTCTAATAATATGAGCACCAGTTTCATTATCTTTATATTCAGCAGCTAAACCTAATTTTCTAATTATTTCTAATTGAGTATTTTGTATCTCTTTTGTTTTTTTATCTACTTCAATTGCTAGTGCTTTTGTTTGATTAGCTAGTTTTAAATGTGTTTTAATTCGTGCTTTTGTGATAGTTGGTCTTATGGGTTTTGTTAAATAATCTACTGCACCAGCTTCAAATCCGAGCTTTTCATCAACTTCTTGATCTTTAGCTGTTACAAATATTACAGGAATATTTTTAGTCTGAATATTATTTTTTAAGTTTCTACAAACTTCATAGCCGTCCATCTCAGGCATCATTATGTCTAATAAAATCAAATCAGGTAAAAATTTTTCAGCTATTTTTAGTGCTATTTTTCCATTTTTAGCTACTTTTATATTATATTCTTCATTTAAAATACCTGCTAAAACATCAAGATTTTCTGGGGTATCATCGACTATTAATATAGTATATTTATTCATCAACATCCACTTCCTCATTAATCAACTTATTAACAATGTCAATTGCTTCATCATATTCATAATTTTCTAGTAATGACTTTAAAGTAGTAATCTCCTTTTTATTATAATTTAGTGAATCAATTATATCTATTGCTTTAGAATCATATTCTTCAAGTTTTTCTTTTAATTTTAATAATTTTTCTTTAAAATCTTTTTTTGAAATTATATTATTTGATTTAATATCTTCACTTTTTTTAAAATGAGTATTTATTTTATTTATTAAATTTTCTAAAGAAATTTTGATAGTTGTTATAATATTGAGCTCTTTTTCAGTAAAATTTTTATCTAAATTTTGCTCAACTTCTATAATTTTATTATATATTTCATCAGCGCCAAGATTTCCAATAACACCCTTTTGTTTATGGAGAAAAGATTTTAATTCTTTAATATTATTATTATCAATTGCACGATCGATATTTTTTGAAAAATCTTTATTATTTTCAGCAAATTTTTTAAGAAGTTTAATATAAAGAGGTTTGCTTCCTAGTCTTTGGATAGCTTCTTTTGTATTTAATTCGTTAAAATTTTCTAATATAACATCTTCAGAGTTGATATTGTTTTTATTAGATAGTATATTTTTTTTAGTCCATTTTTTTATTATAGAAAATAATACATTGATATCAATAGGTTTTGTTATATAATCATTCATTTCATGATTTAATACTTTTTCTTTTGTCCCGCTCATTGCATCAGCACTTAATGCAATGATAGGTATTTTAATACCCATATTTCGTATTTCTAAACTAGCTTTATATCCATCAAGAATAGGCATTTGTAGGTCCATAAGAATTAAATCATAATTATTGTTATGATTTTTTAATAAATTAACAGCTTCTAAACCATTATTAACTAAAGTTACATTTATTTCTTCGTTTTCTAGTATTTCTTTTATTACTTGCTGATTGATTTCATTGTCTTCTGCGACAAGAATATTTATATTTAAAAACTCTTTTGAGCTAATATTTTTGTTTTCTTCTTTTATAAGCTCTTTATCATTAGTATTAAAAGCTTCTATAATACTATCATATAATATTGACTGACTAAGTGGTTTAATAAGTATAGTTTCTATTTTTTCATTTTCAATTTGATTTAATATATCTTCTCTACCATAAGAAGTCATAAATATAAATTTTATATTATTAGCTTTATTAATTTTTTTAATTTCACGTAAAGTTTCTACTCCATTTAATCCAGGGAGTTTATAATCCATAAGAACTAAATCATATTTATTTTTTTTAATCATTTCAATAGATTTTTCGCCATGAGAAACTATATCATTTTGCAACTCAAAGCTATCTAGATAATTTTTTATAACTTCTTGAGAGGATTCATTATCTTCAACGACTAATACTCGTATTGAATTAAAACTAATAGGTAAAAATTTTTTATTGATTTTATGCTCACTTATTTTAAGAGGGAGAGTAAAGAAAAAAGTACTTCCCTTTTTATATTCACTATTTACTCCAATACTTCCTCCCATCATCTCTACCAATTTTTTAGATATACTTAATCCAAGTCCTGTACCACCATACTTTCTAGTAGTAGAAGTATCAGCTTGAGAGAAAGCTGTAAATAATTTATTGAGTTGTTCTTTAGTCATTCCTATACCTGTATCACTTACTTCAAATTTTAATATTAATTCACTTGTTGATTCTTTTAGATTTAATATAGATATATTTAATTTAACTTCTCCTTTTTCAGTAAATTTAATAGCATTATTTGTTAAATTTAATAACACTTGATTGATTCTAAGTGGGTCACCAATTAAATTTATAGGAATATTAGGGTCTTTTTTTATTATGAATTCAAGACCTTTAGAATGTGCTTTAATATTTGTAATATTAGATAGATTATCTAAAAGTTCATCTAAATTAAACTCTATTTTTTCTATTATGAGTTTGCCAGCTTCTATTTTTGAAAAATCCAAAATATCATTAATTATTCCTAATAAATTTTTTGAAGCTTTATCTATTTTTTTTATATAATCTAACTGTTTTTTATTAAGCTGGGTTTGAGCAAGTAAAGTACTTAAACCTATAATAGCATTCATAGGAGTACGAATTTCATGACTCATATTTGCTAAAAAATCACTTTTTGCTTTAGTAGCGGCTTCAGCTGTTTCTTTTGCTTTTTCTAATTTTTTATTTAAATTAATAAGATCAGTAATATCAGTACTCATATTATAAAGGCCGATTATATTATTATGTTTATCTGTTATTGCTCTTTTATTTGTTTTTAGATGATAAATATTTCCGTTTTTATCTTTTATAGTTTCTATTAAGTTACTTATTTCTTTACCATTTTTTAGTATTTCTTTTTCTAATTCTAAATTATGATTACTTTTACTTACGATATCATCAGAACTATCTTTTCCTATTATATCAGTCCAATGTTCATAACCTAAAAAATTAGCATATTTTTGGTTTGCAGCTATGTATTTTAGATCTTTATCTTTTAAGTATATAAAGTCATTTGAATTTTCTAAAATAGCTGAGAAATTTCTATTTAAAGCACTTATTTCATCTATATTTTTAAATGCTATTACAGCACCAGTTATTTTATCATTTTCTATAATAGGAACACTATTGTATTCAACGTTTATTTTACTTTTATGTTTACACCAAAACACTTCTTCAACTCTTGAATTTTCTAAGCCTTGTGTATATGATAAATATATTGGAGAATCTTCTTTAAAATATATACTCCCATCATGATGTGCATATTGTATAGTTTCATGAATATTTTTTCCTATAAGTTCATCTATACTTTTATACATTAAAATTTTAGCTGCACTAGGGTTTATAAAAGTGATTTTACCGTTATTATCTACACCAATTATCCCTTCACCTATTGATTGTAACAATAAATTACTTTGTTTTTCAGCTTTTACTCTATCAGTGATATCTATACTCCAACCACCTATTAAATATAAATTGTTTTCAGAATCATATAAAGGGAATCTATATTCCATAAAAACTTTTCCACTTTTTTTACAATGGATATCTTTTTGTATTATTGATCTTTGAGTTATAACCTCATTATCCATAGAATTATACAATTTAACCAGTTTTTTCTCTTGTATAATTTCAGTATCAGTTTTTCCTAAAACATTTTCTTTTAAAATATTAAATCTTTTTTTAAATTTATTATTTACATATATATAATTTCCTTTAATATCTTTTAAAAACATTATAGCAGGAGAAGAATCAAGTATACTTTGTAGTTTTTTTTCGCTTTCAGCTAATTCTTTTTCTATTTTCTTTTTAAGTGTAATATCTTCTAAAACTATTAGATAATTTTTTATATTATCATCATCATCTAACACAGGTGATATAATTATAGAAAACCAAATATTATTATTATTTATATCACCTTGCCAAATATCACCACTTTTAATTATATTCCATATGTTATCTGGAATATAATTAAAAATATTTTTAACATTATTATTTATAATTTTTTCTTTTGGAATAGATGTAAAATTTAAAAAAACTTCATTTATATATTCAATTATTAATTCATTATTACAAATAACAGTTGCAGTTGGACTTTGTTCTATAGCAGCTGTAATAATTTTAAGCTCATTTGTACGTAAGTTTATTAATTCTTCTAAATGATTTTTATATTGATTTAATTCTTCTTCATTTTTTTTAATTGAGTCTGTCATAATATTAAATGAAGTAGCAAGTTCTTCAAATTCATCTTTAGTATGCATCTCAATTTTTTTATCTAAAACACCTGTATTAGTAATAAAATCTGCCTCTGTTTTTAGTTTTTTAAGAGGAACTATTACTATTTTATGGATAAGTATAATAAATAATATTGTAAGAGCTGTAAGAGAGAAAAATAAAATAGCAAGGACAGTAAAAATTGATTTACTTATTTCACTTTTTATTTCACTTTCTGATAAAAAAGTAAGTGTTTTCCAATTTAATTTATTTGAATAATATGAAAAAATTTTATAATCAATATTTTCATAATTATAATCAATAATTGAATTTCCAGATTTAAAACTTTCTAATAGTTTTTTTGTGCTAAAATTTTTATTAAGCATTTTATTTTTAGAAGCTATTACATTGTTATTTTCATCAACAAGAGCTATCCAACCATTATCTAACATATTAATAGCTTCTATATGTTTTATTAAAAAATCAACAGATACATTTATTCCAATTATACCCATCACGTTATGTTCTTTATTTAATATAGCTTTTGCTATAGTAATAAAGCTTTTATTTTCTGAATCATATGTAAAGATATGAGTATCTAATGGATTTTTTAAAGCGTTAATATACCAAGAATAATTTTGATAATCTTTTTTGATTTTATTTTCTGATGAAATATATTTTCCATCAGTAGTTGCTAAAAAAACTTCCTTTACATATTCATGAGCTAATTGATAATCTCTAAAGAGTTTAGATAATTTAGTATTAGGATTTGTTTTAGAAATATGAGAAATAATATATTTATCCATCATATTTTTATCTTGAAATGCAAGTTCTGTATTTAATGATAATGTATTTACATCACTTTTTAAGTCATCGACAATTGATTCAATAAAAAAATTAAGGTGTTCCATTTGTTTATAGGCACTATCTTCGATAATACTAAAATTTTTATTCATCATTTCTTTGCCTACTTCTATACTAAAAAAAGTAAATATAGAAACAAGAGAAACAACAAAAACAATACTTATTTTTTTCTTTATATTCATAATTAGTCTTCCTTTCTTTTTTTTGTAATTAAAGTATATTTTTTAAAAAGTGTCAGTGCTAACACTTTTTAAAAAAATATTTTGATAAAATATGAGGTTTAGCTTAATTATTTATAGCAAACCTTATAATATTTTACCTTTAAAATTATAGAAATTCAAGGTAAAATAAAGTATAAGAATTTTATTTATAAAATAAATTTATTAAAATAAAAAGTAAAAAAATAAAGTGTCAGCGCTGACACTAATTGAGGTGAATAATGGAAACAATTTTTATAACAAATTATAATGAAATATCAGATTATGAAAACACAATATATATATTTGAAACAATAACAGATAAAGAATATTTTTTAAAACAAAGAAAAAATATATTTGATAATAATATATATATCAGTTATACAGAATTTTTAAATCAAATCTTTGTTACAGATTATATAGTTCTTAGAGAGGAAAAACCAGTATTGTTTTTTTATAAATCATTGTCAAAAGAGTTTAAAAAAAAATATAATTTTATAAATTATTATGATTTTATAGATACTGCATATAATATTATTAATTTTCAAAATATTTTAAAAGAATATAAAATTGAAAAATTAAAAAATCTTGAAAATTGGCAACAAGAATATATTGATAATATAACAAAGGAATATAAAAAATTTATAAAATATATTAATGAAAGAAAATATACTATTCAATCAGAAATATATAATATAAACAATTTAAATATAGAGGCGATAAAAAATTATAAAAATATTATGTTTATAGAAAAAATAAATATAACGCCATTTGAAAAAGAATATATAAGAAAACTATCAAAAAATTTTAATATAATAAATACTCTATTTGTATCAGCAAAAAGTTTTGATAAAAAAAAATATAAATTAGTAGATAATTTTCAATTAGATAAAGAAAAAATAGAAGTTTATGAAAATAAAACAGTAAAAGAAAGTATAGCTATTTTATTATCTAAAATAAAAGATATAAATTTTATTTATACATATGATATAGAAAATATAAATTTTAATATATACAAAGATTATATAAAAGTTAATAAGTCAAATAAATTAGAAAATACTAACTTATATTATGTAATAAGTCAAATATATAACTTATTAAAAACTATAGTGGAAATAGATAAAAAGAAATATATTTCAATGAAATCATTAATTGAAGCATTATATAGTATAGAAGTAAGAGAATATTTTAATATAAAAGAAGAAATAGTATCATATCTATATAAGTATAAAGAAGATGGGTATTTGTATATAGATGAAAATATATTAACAGAAGATAAAAGTTATTTTCAAAGTGATAAAAGCGAAAAATTAATACAGATAATAGAATTAATAAAAAAATTAAATAAATTTAAAACTTTAAATGAGTATATAGAGTACTTTTCAAAAGGATTTAATTATGAAAAATATGAAAATGAGAAATATCCAGATATAATAGCAAAATATTTTGAAAGTTTATCAGAAATTAAATCTTTAATTGATATATTCGGAGATAAATGGAATGGTTATTTTAAAAATATCTCTGAAGGACTTTTTAGAATGATACTAAAATATTTTCGTGCAAAAAATATAGAAGTATTAAATGATAATACTATAATTATAGATAAAATAGAAAATATACCAATTATAAATAATAAAATAGCTATAATAAATGTATCAAGTGGAAATTTTTTAAATAAAAATTTTGATTTTTTACTAAGTGAAAAGCAAAAAGAAGAAAATGGAATTATTACTTATGATGAAAAAAAACTTATTGAAAAGTATAAATTTTATAGAATGATAAATTTTAGTGAAAATATTAAAATTTTTTCATTAAAAGATGAAGAAATAGGACTTGATAGAAATCCATTTTTAGAAGAATTAATATTAAAATACAATTTAGATATAAACAAAAGTGAAATTGATGTAGATAGAATTTTTATAGATAATTTTAAAATGAAAAATAATGAAAAATTAGAATTTGAAAATATTTATAATATATATGTAGAAAATAATGATTTTAGAAATAATAAACTTAATATAGGAAGTTACACATATATGGAGTTAAAAAAATGTAAATATAAATATTTTTTAAGGTATATAGGTGAAATATTAAATCAAAATATAATAATAAAAGAAGAATTTAGCAAAAAAATAGTAGGAATATTTTTTCATATGATAATGGAAAAAATTTCAAAAAAGATTATGGATGAAAATATAGAAAATTATTTAAATGAATTAATAAAAAGCTATTATAAATTTATTGAAACAAAGCTTCCTATTAATTATGAAAAATATTATAAAGATATTTTTATTAAGCATTTTGAAAAGAATATAATTAAGTTTGTATATGAAATAAGAAAATATATAGAAAATAATATAGAAACAGAAAAAAAAGTGGAAAAAGAAATTTTTGAAATCAATAATATAAAAATTAATATGAATGGTCGTATCGATGCATATATAGAAAATAATGATAAAAAAATAATTATTGATTATAAAACAGGTAGTGGAGACGATATGCAATTAAAATTTTATGAATATCTTATAGGTGAAAGTGTAGATAAATATATATATGATTTATGGAAAGGTGAATTAGATAAAAAAGATAAAAAAGATAAAAAAATAGAAAAAGAAGATATAGTAAATGAATTAAATTTTTTAAATATAGGATATTATATGAGAACAGAAAAAAAATCAAATTGTAATAATTGTGAATACATAGATATATGTAATGAGGTGAATATTAATGAAAATAATACTAAAAGCTAGTGCAGGAACAGGAAAAACTTATAGATTATCATTGGAATATATAGCTAGTTTATTGAAAGGTGAAAATTATGAAGAGATAGTTGTAATGACTTTTACAAATAAAGCTACTGCAGAAATAAAAGAGAGAATATTTAAATTCTTAAATGATATTATCATACAAAATAAAAATGGAATAGAATTAATTCAGAATATAAAAAAAATACATGATATCGAAATAAATATGGAAAAATTAAAAATGATATATAATAATATGATAAAAAATAGAGAGCTTATAAAAATATATACAATAGATAGTTTTATTAATTTTATATTTAAAAAAATAGTTGCACCTCAATATAATATATTTAATTATGAAATAATAAATACTGAAAAGCATAATGAAATTTTATTAGAAGTATTAAAAAAAATATTTGATAATCCTGATTATTTTGAAAAAATAGAAGATTTTTTACAAGAAAATATGGAAAAAGAATTAGAAAATTATACAAGATTTATTAGTGGAATTTTAGGAAAAAGATGGTTATTTTACTTAATAGATAAAAAAGAAAAAGAAAAATATATAGAAAAAAACACAATTGTAGAAAATTATAATAAAATTATAGATTTGATTATGGATTATAAAGATATTACAAGAGATGAGATTTTTAAATTTTTAAATAAAGATTATCAAAAAGTACTTGAATTAAGTAATAATGAAATAAAAGAATTTTTTTTAAATAATAGTAAAAAAATATTAAAAGATGATAAAAAAATATGGAATGGACAAAAAATAAGAAACAATAAAAAAAGAGCAATAGTAGATGAACTTACTTTTTATTTTAATGAAATAAAAGAGGAAATCGCTAAAAAGATATATAATAATAAAATACTGAATTATGAAAAAAAATTAAAAGAAATGTCAGAAATAATTTATAAAATTTATGATGAAATTGTATTTAGAGAAAAAAAATTTACACACAGTGATATTAGTAATTATGTATATGATTATCTTTTTGTAAAAAGATTTGAAATATTTCAACAAAATTTAGTAGTTCAATTTATAGAAAATGTTTTAGGAAATGACATTACATCTTTGTTTATAGATGAATTTCAAGATACAAGTGTATTACAATGGAAGATATTAAAGCCATTTATTAGAAAAGCAAAAAATTTAATATTTGTAGGAGATGAAAAACAAAGTATTTATAGATTTAGAGGGGGAGAAAAAGAACTTTTTCAAAATTTAAATAAATTAATTGGAGCAAAAGAAGAATATATGAACATTTCATATAGAACAGATAAAAATATTTTGAATTTTATTAATATAATTTTTTCAAATATACCTAATTGGAAATATTATAGTATAAATCCTATAAAAAATAAAGATGAAGGATATGTTTATACATATGTAGATAAAGAAGAAAAAGATATATTAGAAAATTTAATAAATACTATAAAAAATAAAATAAAAAATAGAAGTAATAGTGTAATTTTAGCAAGAAATAATAAAGAATTAACTAAAATAACAGAAAAATTAAAAGAGGAAAATATTGCTTTTATAACAAATAGTAATCAATCTATTATTTTTCATAGAGTTATAAAGCCAGTATATAGCTTATTAAAATATTTTATAACAGAAAACATTTTCTTTTTATTAGAATTTTTAAGAAATGATATTATATATATAAATGATATGCTTCTTAAGGAAATGATAATACATAAAAAAGAGATAAATAGTTTTTTATTTAGTGATTATGAAATAAATATACAGTTATCAAATGAAATAATGATATTAGTTAATAAAATAAAATCAATATACAATATAAGAAATACAATAGATGAGATAGTAAAAGAGATTTATAATCAATTTAATATATTAGATACATATAATAGTAATAATGATATTGCAAATATTAATAAATTTTATGATATTGCTACTAATTATAATGATATAAGCAAATTAATTCTAGAATTAGAAAATAATATAAATAATGAAAAGTATAGACAAGCTTCGGGTAAGGATAAAAATGCGATAAGTGTAATGACAATTCATAAAGCAAAAGGACTTGAATTTGAAAATGTATTATATTATATAAAAAATAAAAGAAGTAATGAGATTAAGGAAAACTATTTTATAAAATTTGATAAAAATTATGAAAAAATAGAAGAATATATATTTACTCACGAAAATGATATAAAAACCTTAGAAATTTTAGAAAAAAATATTATAAAAGAATATAAAAGAAAAAACCTTGATGAAGAGATAAATAATCATTATGTGGCAATGACTAGACCTAAAAAAAATCTTTTTGTTTTTTATTGTCGTAATTATAAAAATGAGTTAAATGATAGCTTGTTTTCAAAGATTATAGATTTAGAAAATGAAAATACATATACTATTGGTGAATTTAAAGAAGTATTAGAAGAAAAAAAAATAGATAAAAAATATATAGATATTTCAAATTATAAAAATAAAAAAGAAATAAATAAAAAAGAAGTAGAGTATATTGACCTTGAAAGAGAAATAAAAAGAAAAATAGGACTTGCGACACATTATTATTTGAGTTTTATTAAATACAATAAAAAAGAAGAACATGAATATGCTAAAAAAGCTTTACTTAATAAATATGGAAATATGTTTGGAAAAAAAGAAATAAATAATATTTTTTTAAGAATAGATGAATTTATAAAAAAATATAAAAAAATATTTAATGAAAGATATAAAGTATTTACGGAATTAGAATTATATCATAATAATAAAAAATATATATTAGATAGAGTAATGATAGATAATCAGGAAAAGATAATACATATATATGATTATAAAACGGGTGGTTATAAATTAGAGCAATTAAGAATTTATAAAAATATATTAGAAGAAAAATTAGGAAATGTGTATAAAGTAATGACAGGAGAAGATTATTATTTAAAAATAGAATAAAAGATTAAATTAAAATAAAAATATGAGAAAAGTAGTAGGGTACCTTTCTCATATTTTTTATTTTACAATAAGATAATTATTCCATTTATTATCTTTTGTACGTAGTATTATACGATTTCTAGAATAAAGTAATGGTTTATTTAAATTAATATTGAGAATACCATTATTGAGATTATACCATTTCCAACCATAACCAGAAATATACACTTCAATTTGTTTAATAGAATTATTTAGAGTTACATTTATATTAGTTATTGAGTTATTTTTTATTTCAATATTATTCCATCTAGCTATTAAATATTTTATATTTAACCAAAATTCTATATTGTCGTTTTCTCCAAGAGCAATTCTATTTAGATCATAAATATTATTTTTATTACTAATAGCACCTGAATTTTGATTAAAAATTGCTTGAAAATTTAAATTTTTTAAATAATTTAAGATATTATAATCATATTCACCATAAGGATGACTATAATAATTAATTTTTTTATTAAGTTCTTTTTCTAAAATATTTACACTTTTTTTGATATCGTTTAATAATACATTAGTAGAAATATTTAGAGAATGTTGGTGAGAATGACTATGTGTAGCAACTTCACCATATTTACTGATATCTCTAAGTTCCTCAAATGTAACAAAATCAGGATATTTACCAATAATGGGTTCTGTATTGGCAAATAAAGTAAAAGGATAGTTATATTCTTTGAATACAGGTAATCCATTATTATAAAAACTTTTATATGCATCATCTATAGTAAATGCTACCCAATTATCAGGAATTTCTTCATTATTTTTAATTTTAGATACCATATTTTTTAAAGAGACTACTTTGTAATTATTATTCTTTAGATAGTCAAAGTGTTTCCTTAAAGTAGAAATAGAAATATTTGAAGAGGTAAATCTATTATCTCCAAATCTATGATATACAAATATATGTCCATCAGCAAATAAACTGTAGCTAAAGATTATAAATAATATAATCAAAATGTTTTTAAAATTCATAAGTCCTCCTATTTGTCAATTTTAGCACATTTACAAAAAAAATACAACCAAAATAAGACACTATTAAATAAATATATATAATTTTAATTTTTAAATCCGGATATTGAAAAATAAAAAATAGCAATAAAATACTTGATTAAAAAAGTAAGAAATGATAAAATAATAATATTTCATTATAATAAAAACATAATTTTTTTTAATTTTATGTTATAATATGATAGATTTTTTGAAAGGAGTAATATTTTGAGAAGAGTATATTTAGACAATGCAGCTACTACAAAAGTAGATGATATTATAAAAGAAAAGCTTTTTAATGAATTTGACAATTTTTTTGGAAATCCTTCAAGTGTACATAGTGAAGGACAAAAATCTAAGATGATATTAGAAAAATCAAGAGAAAAAATAGCTGATTTATTAGGAGTAAAGTCAAGAGAAATTATATTTCTTAGCAGTGGAACAGAAGCAAATAATAGTGCAATAAAAGGAATTGTATATAAAAATCCAGATAAACATTTTATGACTACTAAAATAGAACATTCCTCTGTTTTAAAAACATTTGAATATCTTGAAAAAAAAGATTATAAGATAGATTATATTTCAGCAGATAATAAAGGAGTAGTAAATATAGAAGAACTAAAAAGTAAAATAACAAAAAAGACAAAACTTATTTCCGTAATGTTTGCTAATAATGAAGTAGGTACAATTCAGCCAATAAAAGAGATAGGAGAAATATGTAAAAAAAATAATATTGTATTTCATGTAGATGCAGTTCAAGGAATAGGAAAAGAATTAATAAATCCAAAAAATTTAAATATTGATATTATGAGTTTTTCATCACATAAATTTTACGGGCCTAGAGGAGCTGCGGGATTGTATATAAATACTGGTATTGAATTAGAAAAATTACTTCATGGTGGAAGTCAAGAAAGAAAAAAAAGAGCAGGGACTGAAAATATATTTTCTATATATGGAATGGCTGAAGCATTAGAGCTTAGTTATAGTAATATTTATAAAGAAAAAGAAAAAATAAAAGAATTAAGAGATTATTTTGAAAATAAAATATTAAATGAAATAAAAGATATAAAAATAAATTGTAAGGATTCTAAAAGAGTTGTAAACATTTCTAATATAACAATAAAAAATATTGAAGCTCAATCAATTTTGTTTAATTTGGATTTGAATGGGATAGCAGTAAGTGCAGGATCTGCTTGTGCCTCTAGTGCACTTACACCTTCACATGTATTAGAAGCAATTGGACTTAATAAAGTAGATGCAAAATCTTCAATAAGAGTTAGTTTAGGAAGATATAATACAAAAGAAGAGATAGATTATTTTATAGATAAATTATCTTTAGCAGTAGAACAAGAAAGAAATTTAAATTTTTAAAGTGTCAGCGCTGACACTTTAAAAATATTTAAATATAAAATAAACTTTAAATAGATAAAAATATCCATTAGATAGAAAAGAGTATTATTTTATTAAGGTTTAAAAATATTTAAGGAAGGAGAAATTTAATGTCAAATTTTAATATAAAAAATTATACAAAATATTTAGAATATAAAAAAGAAAATAAAGATATTACTGTAGCTGTAGGAATGAGTGGAGGAGTTGATAGTTCTACTGTTGCATATTTATTAAAAAAACAAGGATACAATGTAGTTGGGATAACTATGAAACATTGGGGGGGAATGAATGAATTAAATAAAGATAGTAAAACTTGTTGTTCTTTAGATGATATTTATGATGCTAAAAAAGTATGTGATGATCTTAAGATAAAACATTATGTTATAAATCTTGAAGAACCTTTTAAAGAAATAGTTGTAGATTATTTTATTGATGAATATATAAATGGACGTACTCCAAATCCATGTATGGTATGTAATAGAAATATAAAATTAGGGAAATTAATAGAGTATGTAAGAAAATTAGGAATAAATTATTTAGCTACAGGACATTATGCTAAATTAAAAGAGGGAATACTTTGTATAGGAGATGATCCCAAAAAAGATCAAGTGTATTTTTTATCACAAATTAAAAAAGAAAATATGAAATATTTAATGTTTCCTATAGGTGATTTAGAAAAACCAGAAGTAAGATTTTTGGCAAAAGAGCTTGGAGTTAGAGTATATGCTAAAAGTGAAAGTCAAGAAGTATGTTTTGTAGAAGATGGCAAATATAAGGAATTTATAAAAGATATAACTAAAAAAGACTTTGAATCAGGCGATATTGTTGATAGAAAAGGAAATATATTAGGGAGACATAATGGTATAATTAATTATACTATTGGCCAAAGAAAAGGACTTGGACTTGCGCATCATAAGCCATTATATGTATATAAAATAGATGTTAAAAAAAATCAAATTATAGTATCAGATGATAAAGATTTATTTAAAGATACAATATATGCAGAAAGCATCAATTTGTTATTATTTGATAATATAAAAGAAATAGATGGGCTAAAATGTATGGCAAAATCTAGATCAAGAGATAAATTTCATAAAGGAATAGTAAAAGTATTAAATGATAATGCAATTTTATTTAAAGCAGAAAATGAAGAAGAGAATTTTCGAGCAGTTACTCCAGGACAAGGACTTGTTCTTTATAGAGAAGATGGAGTAGTTATAGCTAGTGGATTTATAAAATAGGAGAAATATATGCAAATAAGATATATAAAAGCTAGTTTAGCTACTATGATTACTATTTATTTAGGGGAAATATTTAATATTGATTCTCTTTTTTTTGCTACAATAGCAGCTGTAATTTCATCTCAAATATCTCATATAGATACAGTTATAGTAGGTAAAAAAAGGATATTTGGAACAATACTTGGTGCAACAGTAGGAATGATATTTGCTTCTCTTTTTAAAAGCAATATTTTAATAATAGGAATAGGAATATATTCTATAATTTATATTTCAGATAATATTATAAAAAGCTCAGCTGCAAATGTAGCCTGTATAGTATTTTTGGCAATAATGTTAAATTATGGAAATAAAACACCTTTTATATATGCATTAAATAGATTAATAGACACAAGTTTTGGGATAATAATAACTATTATTGTGTCTATGTCATTATCTTTAATAAATAAAAAATATAAAATTTTTAAAAAATAGTAAAACTAGAAAATTTTATTTTTCTAGTTTTTTTCTATATTTATCTATAATTTTTTCTAATTCATTATTTTTTCGAGCTAAATACAATAAATTATCAAATTCTTGTCTAAAAGAAAGAGAGTAATCAGCTTTAAAATATTTAGAATATCCAATATAAACAGGTTCTTTTGTGATTGTAAACTCTATATTAAAATCAGAAAGTTTTTTATTGGTAACTTTATTTTTTCTTAAAATTTTTAGTGCATATTCAAAAGTAAATTTTTCTAATATTATAAAATCGACTCTTTTATCAATCAATTTTCTTAATTGTTGTTCGGGCGTAAGGGAAGTGTCGTCATATTTTATATATTTGTTAAAAATTAATTTTCTTAATTGAGGAGATAGCCAACCATCATATCCTCGTATATTTGCAATAGTTTTATTATAATAATCCTCCGGAAATTTTAGGTTATAATTTTTACTATCTTTTAAAGAAATCATAAAGGCTTCTTCAGTAAAAAGTGGCAATGAATAAGGGTATATATATTTCCAATCATATCCATGATAATATGGTGGAACTAATGCAAATCCACGTCCTTCTTTCATTAATATTTTTCCTCTTTCCCAAGGTATAGGTTGTATTTTTATATTATAATTTTTCATTTTAGAAAAAATATGATTTAATATATCTATATATAAACCTTTTGCTTCTCCATTTTCTTCATAAGACAGAGGAAAATAATTACTATCACAATATATTATAATTGGAGTATTTGATGAAAAGGTATACAAAGAAAATATAAAGTAAATAATTAATTTTAATTTCATTTTTTCACCACCTAGAATTATAGTTTATAATAATATATACAAATTTCTTTTAAAAATCCTTTAAAAAAATTTGTATATATAAGAGGTAAAAAAAGAGGAATATATAATTATAATATTTAAGAAAAGAAAACAGATACTATATATTATAGATATAAATATTTTTATAAAAATTAGATGAGAAAGAAATTTATATAGAAATATAGAACAGGAGATAAGAAATTTTAATGTATAATATATAAATCTAAAATAAAGTGTCATCGATGACACTTTATTTTAGATCACGGAAAAAAACAACTTTATCTTTACTGGTTTTCTTAGCTTTATACATAGCAGTATCAGCATATTTTATCATTTCATAGAGAGAAATTGGATTATCTTCTAAAAGACTAGTAGCACCAAAACTAGCAGTAATTTTTTTATCTAAGCTCTTTATTTTTATCTTTTTTAAATTATCTTTTAATTTAGTTAAAAAAGGGAACGCTTCATCATAATTTATATCTCTAAGAAGAATTAAAAATTCTTCCCCACCGTATCTATAAAGAAAATCTTTTTGTTTAATATTCTTTTTTAATATTTTTGATACATTTATTAATACCTGATCACCAATATCATGTCCATAGGCATCATTAATATGTTTAAAATTATCTAAATCTAACATTACACAGAGTAGAGAACTTTTATTTTTTAATGAATAATTAAAAACTTTTTCTCCTACATTATCTAGAGAAAGTCTATTATAAGCTCTAGTTAAAGGATCTATTTCTACTTGCTCTCTTAAAACTTGTCTATAATTTTCAAATAAAGTTAGAAATTGTGCGAAAAATTCATTTGCTCTTTTTATATATATCCAATCAATTTTATCATTATCATTATTTATTTTTAATATTTGTTTTAAAGCAAGAATATGAATATCAAAAATATCCATTATATCATCAATAATAAAATGGTTTTTTATAAATAAATCATTATATACAGAAATTAAAGCTTCTTCTTCATCATTGTTTAAAAGATATGTTTTAAGCCATTTGGTATAGATATCTTTTATTTCCTGTATATTATCTTCAAAATTCAAAATTTATTCACCTCCTAGAATAACACAAGTAGCATCATCTATTTTTATACTAAATTCTTTTAAAATTTTTTCTGCAGTTTCTTGATAATCAGTTATATTTTGTGTAGTGATATAGTTTAAATAAGTATCTTTTATACCATCACTATTTATTATTAATTTTTCTTTATGAAAATTAGTATCAAGAGTTTTTATTGGTATTTTTCTATCAATTTTTCCTAAAACTCCAGCTTTATTTATTAGTTTTTTAATACCTTTATCTGATAATAAATAAGCACTAATATTACCTATATTAAAATATTCTAAAAAATTTTTATGAATAATAGAAGCAAAAATTACACATCCTCTTGTATTATGTAACTTATTATTTAAATCTAAATATACTTTATTTAAATTATCACTTTTAAAATCATTTAAATACTCTTTTATAAGATTTGCTACAAAATAAGCTTTTTCGCCATGACCAAGAGCATCAGCTATAACTACTAAATAAGAGTGATTTAATTTTTTAATATAAACTAAATCCCCGCTATGTTCTTCAAGGTAATGAGGTCTAGTTGCAACTCCAAATATCAAATTAAAATTTTTATTATTATTATTACTTTGTGATAACATAACAGTTATTTCGAATCCATTATATTTATTTTTTTTAATATCAAAAAAAGAAGAATTACTTTTAATTACTTTTAAACCTAAACCTAATCCATTACTTAGTTTTAATACCTTTTCATTTTTTTCTCCATAATCAAACGCAATAATTTTTATATTATTTTCGATAAAAGATATATCAATATAACCGTAACCACCATATTTTAATATATTTGTAGCCAATTCACGCGTGATTAATAAAACTTTATCGTTAAAAATCAAATTATCTTTTAATAACTTTTTTAAACGAAATTCTAAAATAAAAATATCATTTTCATCAGAGATATTAATGTGAAGAGGTTCGATCAAAATTTACGCCTCCTTTTTTGAATTATTACAATAGTTCCTTTATCTTTTTCACTATCTATATAAAAATAATCCATTAATCTTTTTACTCCAGATAAACCAAGGCCTAAGCTTGTTTCAGTTGTAGTAAAACCAGAAGTAGTAGCTTTATCTATATCAGAAATACCAGGTCCATTATCAATAGCAACAATTTCAAGAAATTCATTGTTATTTTCATCAATTAATTTTTTTGCTAAAATGCTTCCTGTTTTTGCATATCTAAATATATTTCTTGCTAACTCAGAAATGGAAGTAGATATTTTTGTGATATCTGATAAAGAAAATCCTAGTTTTTGACAAAAATGTTTTATGCTTTGCCTAGCTAAAATTATATCTTTTTCTTCTTTTACATTTATAATTATTTCATATTGTTGGAAATCAATATTTATCAAAAAAATCACCTCAATTATTGAGTTGCTTTGTCATTTCTAAAGCTTCCTCTAAATCTTTTACAAATGTTATCTCTCTAATATTTACTCCCATTTGAGCTAAGGTAAGAGAAACCATGGGCTGCATACCACAAATATAAGTATCACATCCAAGAAGTTTTGCCATTTTTGCAGTTTCAGTAAGAGAATAAGATATATAGCTATCAAGAATATCTACCATACTTATATCTAAAATTATACTTTTTAAATTATTTTGTTCCACTTCTTCTAATATTTGATGTTGCATTTTTTCTACAGTGGTATCATCTAATTCAATTTGAATAGGTACTATAAGATTCTTATAAAGTTTTATAGAGGTAACGACTCTTTCCATTTATTCCTCCTTAATTTTATTTTTCTAAAATTAAATAATTTAGTGCTGTTTCTAAGTCTCTTTTAACTATTACCATATTAAAATCAATTCCTATTTTAACTAAAGTATGAGCAATATTTGGTTTTATACCTGTAAGAATTACATTTGTACCTAATAATTTAATAGCATTAAATGTTTCAATTAAAAATCCACCAACTATTGTATCAATAACATTTACACCAGTAACGTCAATAATAACATATTTTGCTCTTGTTTCAGAAGTAAATGCTAATAATTTTTCAGCCATTGATTGAGCTCTTTCACTATCTAAAGTACCAACAAGTGGAGCTACAATAATATCTTTCCATAGTCTAAGAACAGGAACAGCTAACTCAGAAAGTACATCTTTTACCTCTTCTAAAACAACTTCTTTTTCTTTTAATTTTTCATCACTAAGATCTATTAATAATTTAATCAATTCTACAAAAGGAAAACCATTTATTTCTTCATTAAGTGTCTTTAAAGCAGTAAATACTTTTTTAAAGTTGTTTGAAGAAATAATAGGTCTTAAAGTATTTTTAATTTCAATTTCATTATTCATGTTATTTTGTGCTAAAGTAACTAAAAAATTTTCCCAATACACTTTTTCACTTATAATTTTTGAAAGTTTAATAGATAAATTTTCTAAATGAGTAATAATATAATCTTTCATTTTAACCTCCTAAATTAATATTTTTTCTAAAATAGATATACTGAAAAGACAGAAAAATCCTTTAAATTAAGAAGAAATATTAAATAGTAATAATATAGTAATATAATCTCTTAATAAAATCAAGGTGAAAATATAAAAAAATATATCTAACAAGGGAAAAATGTATGTAGTTAAACTTATAATTTTCAATTTGTCTTAAAAAAATGTTTAAATATATTTTAAATTATGTTATAATAATGGCTTTGTAAATCAAATGAGAGATTAGGAAGAAAAACGAAAGGAGAGAAAGAGTGTTAAACGTAAAATCAATTAAGAATGATATATTATCAGGAGTTACAGTAGCTTTAGCCTTAGTACCAGAAGCAATTGCATTTTCATTTGTAGCAGGAGTAAATCCGGTAATAGGTCTTTATACTGCATTTATGATGGGATTAATTACATCTATATTTGGAGGGAGACCTGGAATGATATCTGGAGCTACTGGTGCAATAGCTGTAGTTTTTGCAGACTTAGTAAATTTATATGGTATAGAATATTTATTCGGAGCAGTAATTTTAATGGGGATATTTCAAATGTTATTTGGAATATTAAGATTGGGGAAATTTGCTAGAATAATACCACATCCTGTTATGTTAGGATTTGTAAATGGTTTAGCAATAGTAATATTTAAAGCACAATTAAGTCAGTTTAAAGTGTTGGATAATTCAGGAAATTTTATATGGATGAAAGGTAAAGAGTTATATATAATGTTAGCGTTAGTATTATTAACTATGTTAATAATTAATTTATTACCAAAATTAACAAAAGCAGTACCAGCAACATTAGTTGCAATAATTGTGGTTACATTAATATCTATATATTTAAACAGTAAAGGTTATAATATAAAAACTGTAAAAGATTTTGCTGGTGGAGAAATAAGAGCAGGATTTCCAGAATTTCATTTACCCAAAATACCTATAAGTTTGAAAACATTAAAAATAATATTACCATTTTCAATAACAGCAGCACTTGTAGGACTTATTGAATCACTTCTTACTTTATCACTTATAGATGAATTAACAGAAACAAGGGGAAAAAGTAATAAAGAATGTATAGGGCAAGGCTTAGCAAACTTAATAAATGGATTTTTTGGTGGTATGGGTGGTTGTGCTATGATTGGACAGTCAATGATAAATGTAACATCCGGAGGAAAAGGAAGATTATCGGGAATAACAGCAGCACTTAGTTTAATAGGATTTGTAGTTTTTGGAGCAAAACTTATAGCTATAATACCATTAGCAGCTTTAGTAGGAGTAATGTTTATGGTAGTAATAGGTACTTTTGAATGGGAATCGTTAAAATTAGGAAAGAAAATTCCTTTATTTGATTTGGCAATAATAATAATAGTAACAATTATTACGGTAGTACATGATTTAGCTCTTGCCGTAGTAGTAGGGATAATATTATCTGCTCTTAATTTTGCTTGGGAAAAAGGTAAAAAAATAGAAATAAAAGTAGAATACAAAGAAAATAAAAAAACCTATTATATAGATGGACCTTTATTTTTTGCATCGAGTTCAAATTTCAAACAAAAATTTTCACCTAAAAATGATGAATATGATAATATTATTATAGATTTTAAACATTCACATGTAATGGATCATTCAGCGATTGAAGCAATAAATTTTGTGGTTTCAAAATATAGAGAAGCTGGAAAAAAGATATACCTTAGACATTTAAGTCAAGATTGTAAAAAACTTTTAAAAAATGCTGAAGAAATAGTAGAAGTAAATATAATGGAGGATCCAATATATTACATAGCAGATGATATGCTAGACTAATAAATAAAAATGTCGGAGATTATCCGACATTTTTATTTATAATTTATTGATAGTTTCTATAAATTTTTCAAGTGGTTGAGCTCCTAATAAATCTAAATCATCATTAAAGAATATTCTAGGGACAGAACTTATGCCAAATTGTGTAGATAATTCGTTAAAAGCATTTGCTTCTATCATTTCAGCATCTATATTTTCATTAAGTAATGCTAATTTGTGGGCTGCAATAACTGCACCAGGACAATGAGGACAACTAAGTCCAATAAATACTTTTATATTTACTTTTTTATCAATGCTTTTAATTTGATTGATTAAATTTTCTGGCATATCTTGTTCTTTACCAGATGCTTCTAAAAGAGAAAAAATAAAGGAATTAATTTCATAGCCAGCTGGTGGACCATAAAATTTCATTCTTGTTTGACTATTATCTGATTTTAACAAAGTAAAACCAGGAGCTTTATCTATTCCATATAAAGTTGCTTTATCGTTTTCTGATTTAAAATTATAACTTTCTAATGATAATTTATCTGTAAGTTCTACAACCTCTTTTATTATTTCTTCTGTATCTTTTGAAATTTGTTCCTCATTTCCAAAAAATATAATTTTTACATTATTTTCCATATCCTTTAGTACATTTTTTAATTGAGACTTTATATCGTCGTTAAATATTGACATTATTTGTTGCCCCCTTTTTATTTTTATAAATTTTATTTTTTCATTACATATTCACAAGCAGCCATTGCAGCTTTAGCACCCTCACCACTTGCTATAATTATTTGTTTGAATGGAACTGAAGTAATATCACCGGCAGCAAATACTCCAGGTACATTTGTTTCACATTTTTCATCTATAATTATTTCATTAAAATTATTTAATTTAATAATATCTTTTAAAAAGTTAGAGTTAGGAATAAGGCCTATTTCTACAAATACTCCATCAGTTTTATACTCATAAGTTTCTTTTGTATTTTGATCTTCTATCATTACAGATGTTACATATTCATCTCCTTTTATTTCCTTAATCGCACTAGATAAAAGAATTTTATGATTTTCGTGTTCTTTTAATTTATCTATAAGTATTTTATCAGCTTTTAATGAATCTGTAAACTCAACAATTGTCACATGTTTAGCTATTTTTATAAGATCAAGAGCAGCTTCAACACCAGAATTTCCTCCACCAACAACAACTACATTTAAATTTTTAAAAAATGGTCCATCGCATGTAGAGCAATAAGATACTCCACGACCTCTAAACTCTTTTTCTCCAGGGACATTTAATTCTCTCCATCTATTTCCTGCAGATACAATTACAGATTTTGTTTTTATAGACTGTCCATTATCTAATGAAATTATTTTTATATCATTTTCTATTTTTAATCCAGTAACAAGAATACCGTCTTTAAAAGCAATTTCAAATTGTTTTACTTGTTCTTCAAATTTTTTAACAAGTTCTTCTCCTTCTATATAATTGTATCCCATATAATTTTCTATAGACTTTGTATCACTTACCTGTCCACCAATATTTTTAGTAACAAGAGCAGTTTTTACACCTTTTCTCATACAATAAACAGCAGCAGTCATAGCTGCAGGTCCGCCACCGATTATTACAACATCATAAAGTTCTTTTTCATCTAATTCTTTAGCTTTTGAATCAGCAGATAAATTTAAATTAAATGATAAATCCATAAAATCACCTCATTTTAATATTTAAGAATATTATACTAAAAAAACTATAAAATTCTTTTTCAAATTTTATTTCAAAATTGTAATTATTACAATTTTAATATAACATATAAATTTTACTTTGTCAATAATACTTTTTTATAGGCTTAATGTCAATTTTTTAATATTGTATTTGAAATTTGCTTTTTATTTTTTTGGAATTATTTTCTATATTTTATATTATATAACTTATTAAGATAATTTCCTAATTTTATTTAAATATGATAAAATATATTTAAATAGTAATTTTTATTTATGAGGTGATTTATGAATATACTTAGGCAAGTTTTTATTTTAATTTCAATTAATTATATCGGTAATCTTTTATCAGGTATTTTCGGATTAGTTATTCCTGGAAATGTATTAGGGTTTTTAATACTATTTTTACTGTTATTTAGCAAAATTATAAAACCAATTCAAATAGAAAAAGTTTCAAATTTATTACTTTTTAATCTTACATTTTTGTTTATACCTTCTGGAGTATCTTTAATAAATATTTTAGACAAATTAAAGTCTGTTTGGATTCAAATTTTAATTATATCAATTTTATCTACAATTATTACTATTATAGTAACAGCTTTTACAATTCAATTATTAATGGGGGATAGAAATGAATGATTTAATTTTTAATAATATTAATTTTGGTATAGTAATTTCATTATTTTTTTTCATATTTTTTACATATTTACATAAAAAAACAAAATCTCAAATTATTAATCCTCTTATTCTTACAATGGTATCAATAATATTATTCTTATTAATATTAAATATTCCTTTTAATTATTATAATAAAGGGGCAAAATTTATAGGATATCTTTTAGGTCCTGCTACTGTAGCGTTAGCGTTACCTTTATACAAACAGATCCATTTATTAAAAAAACATTTTTGGGTTATTTTAATTGGTATATTGGTTGGTTCTACAACGGCTGTTTTATCTGTATTATTTTTGTCAAAAATTTTTGGTTTAGATAGAATTACTATTATATCTTTATTACCAAAATCAATTACAACTCCTATTGGAATGAGTATAAGTCAATCTTATAATGGAGAAGTACCTTTTACTATTATTGCTATTATTATTACAGGAAATACTGGTGCTATATTTGCCCCTTATATATTGAAAATATTTAATATTAAAAATAGAATAGCAAAAGGAATAGCAATAGGTACTGCTAGTCATGCTGTAGGAACTTCAAAAGCACTTGAGATTGGAGAGATAGAAGGAGCAATGAGTAGCTTAGCTATTGGTCTTGCAGGTATTTTTACTGTTTTTATTATACCTATTGTTATAAAAATATTTAATATATAAAAAAACTGCTAATTTTTAGAAGTTTTTTTCTTTTTTTTAATTAACACCTAATTTTCAATAATTTCTCATATAAAAGTTTTAAAATATTAATTTATAAATCCATTATATTTCCTATTTTTTATATTTTTTTAATAAAAGAGGATTAATAAATAATTATTAACCCTCTTTATTTCTTTTTTTATTAATATTTTTAAATTTTTCCTACCAAGTCTTTTCCTGGTTTTAGTGTATCTTTTCCTTTTTCCCAATTGGCAGGGCACACTTCGCCATTATGTTCTGCTACATATTTTGCTGCTTCAAGTTTTCTAAGAATTTCTTTTGCATTTCTTCCTATTGGCATATCATTTACTTCTGAAACAACTATATCTCCTTCTGGATTGATTATTATAGTTCCTCTATATGCTAAGCCTTCATCTTCTTTATATACTTCCATTGCTCTAGATAAAGTTCCTGTTGGATCTCCTAACATAGGAAATTTAATTTTATTAATAGTTGGAGATTCATTATGCCATGCAAAATGTACAAAATGAGTATCAGTACTTACAGAAATCACTTCGGCTTTTAATTCTTTAAATTTGTCATAATTATCTGCCATATCTCCCAGTTCTGTAGGGCAAACAAAAGTAAAATCAGCAGGATAGAAAAATAATACTGTCCATTTCCCTTTATAATCTGATAATTTTATTTCTTTAAATTCTCCTTCATGAAATACATTAAATACTGTATCTACTAATTTTTTCTCAACAATTTCATTTCCTTCTATTATATCATAATAAAAATCATTTAAATTTCTTCCAATTACTGCCATATAATTACCTCCTTATTTATTTTGTAATGATTACATTTTTATTATAATTTCTTTTTTGGAAAATGTCAAGAGGTTAAACAATAATTTATATTATTAAAATATTTAATTTTTCTCCATTACTTATTGTAGATACTGCAAATTCTGCATTTGATAATATATAATTTATGTCATTTATTGTTTTTTCTCTAAAATAATGTGTCACTCCATAAGAAAAACTAAAATTTAATAATGAATTTAAATGGTCTTTAATATTTACATCTAAGTTTATTATGTCTATTTTTTCTAATCTTTTGTTGATATTTTCTACTAACATATAAAAAACGGTATCTTTATATTTTCCTATTTTTGTTGGAGAATTATTAATTTCTATCTCCTTAAGAATTAAAGATATATTTTCTAATATTTTTTTCATAAAACTTTCTCCATATAATTTTTCTAATTTTTCAAATTGATTTATTTTTACAAATATTAATCCAAAATTGATTTCATTTTCTAATAATTCTGTTATATTTTTTATTAAATATTTTTTATTAAATATATTAAAATCATTATCAATATAAATTTCTTCTTTTGCTTTAGTATATTCTAAAATATTATGGATATATACTCCTATATTTTTAGTTAAATCATTTTCTATATTGATTTCATTAATATCATATTCAAAATTTACTGCTTCAAATATGAGCACTCCATAATACTCATCTAGATAATAAATAGGTTTAATTAACTTACTTACATGATATTCTCCATGCTCATTAAGAATAAAAATATTCTTGTTTTCTTTTCCTCTATTATAAAGATTTAAAAATTCAATATTTAAGTTTAAATTTTTTATTTCTTCAAATTTATTATCTTGATAAAAAAAAGCTTTATTATCAAAGACTATTTCGGCGGCGTCATATCTAATTAATTCTTTAAAAAATTTAAATATTACTTTTATCATCTCTTTTAATTCAAGTTTATTATTTATATATTCTTCAAATTTAAGTTTTCTTTCTAAATTATCTCTTTCTATTAGATAATTTATTTTTTTTTGGTTTATAGTTTTAAAAAATTTTTTTTGATTCATTTTTCTCCTCCTATTCATATTTTTCTAGTATGGATATTCTAAAATTATATTAATTTTCCTTTATTTATAGTTTTTTTATTTTAAATTTAATTCTAAATCTTTTTTTCATTAAAATATTTCTATATCTCATTTTTTTATTTAAATAATAACAATATATATATTATATAATTTTTATATAATATATATATTGTTATTATTTCTATTTTTAAGTTAAAATAATCAAAATTAAATAAATTTAGATGATAGAGGCGCGAAGCTTAAAAGTACAAATATGGAGAAACCTATTCTATGAAGTATTTGGAAAGGAAGATTCGCCGAAGTGTATAACCTTAGGAAAGTTATATGCTGGTTTTATGGATAATATCCATGAAACTGTCATTATTATTGTAGTATAATAATGGAGTGCTATCTGCTAAAAATGGGTGTTATATTTTACTATAACTTATATTTTCAGCTGATAGATGTATTCTCTATCAGCTTTTTTTTATAACTATTTGGAGGTTAAAATTATGAAATTATTTGGAAGTATGGAAAATATTAATGGTGTTTTACATATTGGTGGATTATCTGTAAATTCTCTGGTTAATACATATGGGTCACCATTATATGTTATTGATAGAGAACACGTAGAGAATATTATTGAATTGATGAAAAATTCATTTAAAAGTAAAAAGTTTTCTACTGAAATAGCTTATGCTTCTAAAGCATTTATTAATAAAGCTATGTGTCAATTTGTAAATGCTAAAGGATTGTCTTTAGATGTTGTTTCAGATGGTGAACTTTATACAGCTAAACTCGCTAATTTTCCAAGCGAAAAAATATATATGCATGGTAATAATAAAACTGATGAAGAATTAAGAATGGCAATTGAGTATAATGTGGGGACGATTGTTGTTGACAGTAAAGAAGAATTTTTTAAACTTAGTAAACTAGCTGAAATATCAAATAAAACTGTTAATGTAATACTAAGGGTTAATCCTGGAATTGATGCTCATACACATGAATATATTCAAACATCAAAATTTGATTCAAAGTTTGGCGAATCAATATTTGATGACTCTGTAATTACTTTAATTAAAAATATGATAAATCACGACTACATTAATTTTTTAGGTTTCCATTGTCATATAGGTTCTCAAATATTTGATGAAAAACCATTTTATGCAGAGGCTGAAGTTATGCTTGACTTTATTAAAAAAGTAGAAAAATTATTAAATTATAAAATAAAAGTATTAAATCTAGGTGGCGGATTTGGAATTTATTATTCTAGTGAAGATGACCCTATTGACTTAGATATTTTTCTTAAAAAAATAATAGAGATTTTAGAAAATAAATTAGAAGAAAAGAACTTGAATATAGAAAAAGTTGCTATAGAGCCAGGAAGAAGTATTATAGCTAATTCTGGAGTAACGCTATATAAAGTAGGAAGTACAAAAACTACTTATAGTGGTAAAAAATATATATTTGTTGATGGAGGAATGACTGATAATATTAGACCCGCTTTATATCAAGCAGAATATGAAGGTGTTATTGCTAATAGATTGAATGATACTACTTGTGATACATATACTGTCGCTGGAAAATGCTGTGAATCTGGAGATATTTTAATTAAAAATAAAAATTTTGTTATACCAAATAATAATGATATACTTGCAGTTTTTTCAACAGGAGCTTATAATTATAGTATGGCAAGTAATTATAATAGACTTAAAAAACCTGCTGTAATTATGGTAAAAGATAAAAAAGTAAATTTAATTGTAAAAAGAGAAACTTATGAAGATTTAATTAGAAATGATTTAGATTTTGAAGAATAAAGTGAGGGGAAAAATGAGAATTGTACAAAAATATGGTGGTACATCAGTAGGAAGCATTGAAAAAATTAAAAATATTGCTGACCACATAATAAAAATGAAAAATGAACACAATGAAATTGTTGTTGTTGTTTCTGCTATGGGAAAAATGACTGATGAACTAATACGAAAAGCTAAACAAATTACAAATAATCCAAATAGAAGAGAGCTAGATATGCTTCTATCAACAGGTGAACAACAAACAATAGCTTTACTAACTATTGCATTAAATCATAAAGGTCAACCTGCTATTTCATTAACTGGTAGTCAAGCAGGAATTGTAACAACGGGTACTCATACTAAAAGTAAAATTAAAAATATTAATAAAGAAAGAATAGAAGCTCATTTGAAAGAAGGGAAAATAGTAATCGTAGCAGGATTTCAAGGAATAAATGAAAATGGAGATATTACAACACTTGGTAGAGGAGGTTCTGATACTAGTGCTGTTGCTTTAGCTGCTGCTTTAAATGCTACATGTGAAATATACACAGATGTAGATGGAATATATTCGGTAGATCCTAGAGAATATAAAGAAGCTAAAAAATTAGAAGAAATTTCTTATGAAGAAATGATGGAAATGTCAAATTTAGGTGCTGGAGTAATGGAAGTTCGTGCAGTAGAGCTTGGCAAAAAATATAATATACCTATTTACGTAGGAAAAAGTTTATGTCAAAACAATGGAACATATATAGTAGAAAGGGAGCAAGTAATGGAACAAAAACTAATAACAGGTCTTAGTATAAATGAAAATGCATTAATGGTTAATTTATTAAATCTTGAAAATGAACCCAAAAAAATAGCTTATATATTCTCTGTACTTGGTGCAAATGATGTAAATGTTGATATGATAAGTCAAAGTATGAGTAATGGAAATAAGATAGATATAAGTTTTACATGTCCTTTGACAGAAGAAGATTTATTAGATAAAGCTATAGTTCTAATAAAAGAACATCACCCTAACATTCAAATATCTAAAAAATCAGATATTATAAAAGTATCAGTAGTTGGAGTAGGAATGATAAGTCATTCTGGCGTAGCTGCTAAGATATTTGATATATTTGCAGAAAATAACATTAGTTTTTATCAAATAACAACATCAGAAATTAGTATATCATTTACAATTGACAAAGAAAATAAATCTAAAGCAGTAGAAAATATAGCAAAAGCTTTTAATTTATAATTAATAATATTTATTTTTATTTATATAAATTATGATAAAATTAAAAAAAAAGAGGTAAATTTATGATAAAATTTGAAAAATATCATGGTCTGGGAAATGATTTTATTATTTTCTTAGAAGATGATGTAAAAAAATATAATTATAGTGAGCTTGCAAAACAAGTCTGCCATAGAAATTTTGGGATTGGAGCAGATGGAATGATAGTTGTCGCAAAGTCAACTATAGGTGATGTTAGAATGATATTTTTTAATGCTGATGGTAGTGAAGCTCCTATGTGTGGAAATGGCGTTAGATGTTTCTCTCATTATGTTAGAAATAACAATATTGTTTCAAAAGATATAATAAATGTAGAAACTCTAGCCGGAATTATAAAAATAGAAACTTCTATTAGAAATAATAAATTTTTTGCAAAAGTAAATATGGGAAGTCCTATTTTTACTACAAAAAATATTCCTATGAGTATAGATAAAGAAGATTATATTTTGCAAGATATAACTTCATTTGATAAAACATTTAAAATATCATCTCTATTTATGGGAACAACTCATTCTGTAATAATAGTTGATAATATCGAAAATCTTGATATAATAAAGTATGGAAGTGATATTGAAAATAATCCTTTATTCCCTAAAAAAACAAATGTAAATTTTGTTGAGGTAATAGATAATAAAAATATAATTGTTAAGACCTGGGAAAGAGGAGCTGGATTTACTTATGCTTGTGGTACGGGGACTTGTGCTTCTGTTGTAATGACACATAAATTAAATAAAACGGAAAATAAAGTAACAGCACAATTACCAGGCGGTATATTAATTATTGAAATAATAGATAAAAGTGTTTTTATGACTGGTCCAAGTGAAAAAATAGCTGAAGGACAATATTTTATAAATTTAGCTAAATAAGTTAGTATTTATATTATTTAAAATTTAACATAAAGGGGAGATGTTTTATGAAGAGATACAATATAGCAATAGTTGGAGCTACTGGAATGGTAGGAAGAAAATTTTTAGAAGTTTTAGCAGAAAAAAAATTTCCAATTGAAAATTTATATTTATTTGCATCTTCTAGGTCAGCTGGAAATGAAATTGAATATCAAGGGAAAAAATATGTAGTTGAAGAATTAACTGAAAAATCTTTTGATAGAAATATTGATATAGCTTTATTTTCAGCAGGGGCATCTATTAGTAAAAAGTTTTCACCTATTGCAGCTAAAAAAGGTGTAATAGTTGTAGATAATAGTAGTGCTTTTAGAATGGAAAAAGATATTCCATTAGTTGTACCTGAAGTAAATCCAGATGATGTAGAAAAACATAATGGAATTATAGCAAATCCAAATTGTTCTACTATTCAATCTGTTTTACCATTAAAAGCATTAGATAAAAAATACGGTATAAAAAGAGTTATATATTCTACATATCAAGCGGTATCAGGATCGGGAGTAAAAGGAGTAGCTGATTTACAAAATGGTCTAAAAGGTGAAGAACCTAAAAATTATCCATATCCAATAGCTAATAATTGCTTACCACATATTGATGTATTTTTAGATAATGGATATACAAAAGAAGAAATAAAAATGATTGAAGAAACAAGAAAAATTCTTGGAAAACCAGAATTACCAGTAACTGCCACATGTGTAAGAGTTCCTGTAGAAAATAGCCATAGTGTATCGATGAATATTGAGCTAGAAGAAGATTTTGATTTAAATGAAGTATTTGAATTATTTAATAATTTTGAGGGAATAATATTACAAGATGATGTACAAAATAATATATATCCTATGCCATTATTTGCTAGTGGAAAAAATGAAGTATTTATAGGTAGAATAAGAAAAGATTTTAGCAATCCAAATACATTAAATCTGTGGTGTGTTGCTGATAATATAAGAAAAGGAGCTGCAACTAATACAGTACAAATTGCGGAGCTTCTTATAAAAAAAGGATTAGTATAGGGAGGTATAAATGTTTACAGGTTCTGGTGTTGCAATAATTACACCTTTTAAAGAAGATGGTACAATAAATTTTGAAAAATTAGGAGAATTATTAGAGTTTCATATAAAAAATAGCACTGATGCTATTATAATTACTGGTACAACTGGTGAAGCTTCTACATTAAATGATGAAGAGCATATAGCAGTAATTGAGTACACTGTAAAAAAAATAAACAAAAGAATTCCTGTAATAGCAGGAACAGGAAGTAATGATACTGCTCATGGAATAAAATTAAGTAAAAAAGCAGAAGAGGTTGGAGTTGACGGATTACTTCAAGTAACTCCGTATTATAATAGAACTAATAAACAAGGTTTAATTAATCATTTTGAAGCAATAGCAAATAGTGTAAATATTCCTATTATTTTATATAATGTTCCAGGGAGAACAGGGATAAATATTCCAGTGGAAGTTGTAGAACACTTGAGTAAACATAAAAATATTATAGGAATAAAAGAAGCAAGTGGAAATATATCTTATGTTGCTGAAATTGCAAGAAGAGTAGAAGAAGAGTTTTATATATATTCTGGAAATGATGATATTATCGTTCCTACATTATCACTTGGGGGAAGAGGTGTAATTTCAGTTATTGCAAATATTATGCCAAAAGAAACTCATGATATTGTAGAATTATTTTTAACTGGTCAAATAAAAGAAGCTTCTAAATTACAATTAAAATTAAAGCCTTTTATTGATAGTTTATTTATAGAAACAAATCCTATTCCAATAAAAAAAGCTATGAATTTAAAAGGTTATGAAGTAGGGCCTTTAAGACCTCCTCTTTATGAATTAAGTAAAGAAAGTACTAAAATTCTAGTTAATGAAATGAAAAAATTAAATTTAATTAAGGAGTAGTCATATGAATATAGCTGTTTATGGTTATGGAAATATGGGAAAGTTAGTTTGCGATGAAGTACAAAAAGATAATTCACTAAACTTTGTTGCTGCTATTGACCCATTTATAAAAGAAGAAACGGATAAAGTGTATAAATCATTAAATAAAGTCAAAGAAAATATTGATGTAATTATAGATTTTTCAAACCCTGCAAATATAGATGAAATATTAGAATATTGTATTAAAAATGATATAAATTTGCTTATAGCTACAACAGGATTTTCAAAAGAACAAGAAAAAAATATTAAAGAAGCAAGTAAAAAGATAGGAGTTTTACAAGCAGCAAATACTTCATTAGGAGTAAATCTAATAGCTGAAACAATAAAATATTTTGCTCAAACTCTATATGAAAATTTTGATATAGAAATTATAGAAAAACATCACAATCAAAAAGTTGATTCCCCTAGTGGGACAGCAAAATTATTTTTTAATGCTATTAATGATTCTCTTCCTGAAAAAAAAGAAGCAATAAATGGTAGAGAAGGAATTATTGGAAAAAGAACTAAAAATGAAATAGGAATTCATGCGGTAAGAGGTGGTTCTATTGTGGGAGAACACACTATTATTTTCGCTGGAACTGATGAAATTATTGAAGTAAAACATGAAGCACTTTCAAAAAGAATTTTTGCTAAAGGTGCAGTTGTTGCTGCGAAATATCTGATAAATAAACCTGCTGGAAATTATAAAATGAAAGAAGTTTTAAACTTAAAATAATATAAATTTAATATTATAAATAAATAATAAATATTTGAAAGGAGATGTTATGAACTTAAATAGTGCAGAAGAAATAATTAAATTTATTAAAGATGCTAAAAAATCAACACCTTGTAAACTTTATATAAAAGGAAAATTATCTAATATTAATTTTTATAATACTAAAACTTTTGGAGATGATAATTCTAAAATTGTATTTGGGGAATGGGAAGAAATTTCTAAAATCTTGGAGGAAAATAAAGATAAAATAGAAGATTATGTACTTGAAAATGACAGAAGAAATTCGGCTATTCCAACTGTTGATTTGACGCAATTTAATGCAAGAATAGAACCAGGAGCTGTTATAAGAGATAAAGTAAAAATAGGAGATAGAGCTGTTATTATGATGGGAGCTGTTATCAATATAGGAGCTGAAATTGGTGAAGGAACAATGATTGATTTAAATGCAGTACTTGGTGGAAGAGCTACAGTAGGTAAAAATTGTCATATAGGAGCAGGGACAGTATTAGCTGGGGTTATTGAACCACCTTCAGCAACACCTGTAATAATAGAAGATGATGTTGTAATAGGTGCTAATGCTGTTGTATTAGAAGGAGTTAGAGTAGGTAAAGGTGCTGTAGTTGGAGCTGGATCTATTGTTACCAAAGATGTTCCACCAGGAGTTGTTGTTGTTGGAAATCCGGCTAAAATAATAAAAGAAAAAGATGAAAAAACTGAAGGAAAAACTCAATTAGTGGATGATTTACGTAAATAGTTTTTAATAAAAATAATAGGGTGATGATTATGTTTTATGAAGAAGATAAAAAATATATTTTAAATACTTATAAGCGAATTCCTATTGAATTTGCTTATGGTGACGGTGGATATTTATTTACTTATAGTGATGAAAAATACCTAGATTTTTTTAGTGGAATAGCTGTAAATCAACTAGGACACAATAATGAAGGAATAAAAAATGCTATTAAAGAACAACTAAATAAATATTTGCATCTTTCAAATTATTTTATACAAGAACCTGTAGTAAAACTTGCAAAATTATTAGTAGAAAATAGTTTTGCATCAAAAGTTTTTTTTACTAATTCTGGTGCAGAATCAAATGAAGGAGCATTAAAGCTTGCAGTAAAATGGGGAAGGAATATAAATATAAATAAAACGAGTATTGTGTCTGCTCTAAATGGATTTCATGGCAGAACAACTGGAAGTTTAGCTCTAACAGGTCAACCAGAAAAACAAAAACCATTTCAATCAATATTACCAAAAGTAAATCATTTTATATATAATGACATTGATAGTTTAAGAGAAATTGTCAATGAAAACACTTGTTGTGTGTTTTTAGAAACTATTCAAGGAGAAGGTGGAGTTGTTGATATATCAGAAGAATTTTTAAATGCTTTAATAGATTTAAAAAACAGATATAATTTTTTGATTATTGTTGACGATATTCAGGCAGGTCTTTTTAGAACAACTGAATTATTTTCATATATGAAATATAAAAATTTTATTCCAGATATTTTAACAACGGCAAAAGCTATTGGTGGGGGACTTCCTTTAGGTGCAATATTAGTGAGTGAAAAACTTGAAAATGTTTTTGTGCCAGGGGATCATGGAACTACATTTGGAGGAAACCCTGTAGCTTGTGCAGCAGGTGTTTATTTATTACAAACCTTAACTAATGAAGATTTTATTGATAAATCAAAGAGTATAGCAAAATATTTATATAAAAATCTTTTAAAATTAAAAGAAAAATATCCTATCATAAAAGGAATAAAAGGAAGAGGATATATGCTTGGATTAGAAGTAGGAAATTTTGCTAATACTATAAAAGATATGGCTCTTGAAAGAAAAATGTTATTAAATGTAACAAATAATACTGTTGTAAGATTACTTCCAAGAGTGAATTCTACAAAAGAAGAAATAGATGAATTTTTATCAAAATTTGAAGATATTTTAAATAAAATTTCATATTTAAAAACTATTGAAGAATAAAAAAAAGGATTTAGAGTTGCTCTAAATCCTTTTTTTTATTTATATAAAATTAAAACATTGGTGGATTACTTACCCAAATAACTCTTGCTTTTGTTTTTCCAGGATTAGAAATATAGTGATTTTTATTTGCTTTATAATAAAAGCTTTCACCTTTTTTGGCCTTATACTTTTTACTTCCAATATGCACAATAACAGTTCCATTTAATACATAGCCAAATTCTTCACCTTCATGAGCAGAATCTTCTTTATATTTTCCCCCGGGTTCTAATTCTACTATTATTGGCTCCATACTATTTTTTTGAGCATTTGGTATTATCCATTCTATTTTATAATCTTCTTCCTCTGCTTCGAACACATCTTCTTTGCTAAAAACTATTTTTTCTTCTTCATCTTCATTAAAAAATTCTTTTAAATTGCTTCCCAAACTTTCTAAAATATCCATTAATGTAGCAATTGAAGGTGAAGTTAAATCTCTCTCTAATTGAGAAATAAAACCTTTTGATAGTTCACACCTTCTTGCAAGTTCATCTTGAGTAAGATATTTTTCTTGCCGAAGTCTTTTTAGTTTTTTTCCTATCTCCATAGTTCACCCTCTTTTTTATATTTTTAATTCTTTTTTTAAGTCCATCACCCAATTCTCTATTCTTTCTATTGATAAATCTGCTTGATTTATATCATCTATCGCTAAACCTAAAAATTTATTATTTAATATAGCTTTACTTTCTTCAAAATTATAAGTTCTTGTATCTGTTTGACCAATTAATTTTATATTTTTATCTTTTATTACTGTATAAATTTTTTCTACTGCATCAATAAATGATTCATGAAACAATACTTGATTTCCTGTTCCAAATAAAGCTATATATTTTCCTTTTAAATCAACTGTTTTTAATTCTTGTAGTTTTTCATTCCATGCATCAGGTAATGCTCCTACTCCATATGTAGGTGTTCCAAATATCACTAAATCATATTTAGAAATTTCTTCAAATCCTTTATTTTTAATATCGAAAATATCTATATCCATATCAAAAGCATATTTTATATCATAAGCTACATTTTCTGTTATTCCATTTTCTGATGTAAAATAAATAGCAATTTTATTCATGACTATCACTCCCAATTTCTTTAATTTTACTTATACATTATATACTAATTTTTTGAAATTTCAAAATTTTTTTAGATGTTTAGTTATAATAATTTAAATCTTTTGATATAAAACTAATTAAAAGTTTTCAAAATTTTAAAATAATTTTGAGCTTCAAAATTTATTATTGACAAAAAACAATTATATGATATAATTTATATAAGATATATATATTTGAGTTTCAAAATATTTGAAAGAGGTGTTAGCTATGACTTTAAATGAATTAAAAGTAGGTAACAAAGCAAAAATTTTAAAAATTGAAAATTTAGGAAAATTAAAAAAAAGACTAATGGATATGGGAATAACAAAAGGTGAAGTTATTAAATATCAAAGAAATGCACCTTTAGGTGATCCAAAAGAATTTATAATTAAAAATACTACTATTTGCATTAGGAAAAGTGATGCTAGTAATATATATATCAAAGAAATTTAATTGTTGACTTTTTTGATAAATAAATCACATTAAATATATTTAGGAGGAAAGATGATAAAAGTTGCATTTGCTGGTAATCCTAATGTTGGAAAATCTGCATTGATAAATGCGATTTCTGGTGCTAAACTTCATGTTGGGAACTGGCCAGGAGTTACTATAGAAAAAAAAGAAGCTGAAGTAATATATAAAAATGAAGAGTTTTTATTCGTCGATTTACCAGGTGTATATAGCCTTAGTCCATATAGTATGGAGGAAATTATTACTAGAGACTATATAATAAATGAAAATCCGGATATCGTAATAAATGTAGTTGATTCTACTAATTTAGAAAGAAACCTATATTTAACTACACTTTTAAAAGAACTTGGTAAGCCTATGATTCTTTTATTAAATTTTCACGATGAATTTGAAAAATTAAATTATAAACTTGATTTAGATACATTTGAAGATCTTATTGGTATAAAATCTTTTTTTACTAGTGCTAAAACTAAAAAAGGTATTGACGCTCTTTTAGATTATTGTATTGATCTAGCTAAAACTAAAAAAGAACAACATCATATTAAATATAAAATTAAATTTAATAACTTTATTGAAAAAAAATTAATAGAAGTAGAAGATATACTTAAAACTTCAAAAGACTTTAATATATTTTCAAAACAATTTCATTTAGATTATATGACTATAAAAATTCTTGAAAAAGATAAGCATTTCTTAGAAAAAATAGAAAATTTTGATATTAATTATCAAAAAATAGAATTAATAAGAAAAGAATTAGAAAAAGAATTTGAAGAAGACATAGAAACAATTTTTACAGAAAGTAGATATGGAGTAATTAAGGGAATTTTAGCTAAAACTTTTACTACTTCTATAAAAAATAGATTAGATACTACTGAAAAAATTGATAAAATTATTTTAAATCAATTTTTCGGTCCGATATCATTTGTAATAATAATGGGTCTATTATTCTCTATGACTTTTAATGGGTCTGCTCCATTGATTGATTATACGGATCAATTTATTGCAGATTATATCGGGAAATATATTGCATTATTTTTACAAGATACTCCAAATTGGTTACAATCATTTATTGTAGATGGAATAATCGGAGGACTTGGTGGAATTTTAGTGTTTGTTCCTCTTATGCTATTTTTACATTTCTTTATTACTTTACTTGAAGAAAGTGGATATATGTCAAGAATAGCATTTATTATGGATAGACTTATGAAAAATGTCGGTTTAAATGGAAAAGCATTTTTACCAATGATGCTTGGATTTGGTTGTTCTGTTCCAGCCATTTATTCTACTAGAACATTAGAAGACAAGAATTCAAGTAAACTTACTGCACTTATGATTCCTTTTATGTCTTGTGGTGCACGATTACCAGTTTATGCATTATTTACTGCTGCTTTTTTTGGTAAACAAGCTGGATTTATCATTTTGTCTATATATTTAATAGGGATATTAACTGCTATAATTATAGGTTCTATATATAAAGCTCATAAATATTTTAAACCTGAAGAAAAAGCATTACTTATAGAGCTTCCACCATATAGAATACCTTCATTTCATGCTGTAATTAGTTCTACATTTAGAAAAACAGGTGAATATATAAAAAAAGCAGGAACAATAATTTTAGCTATGTTAGTTATTTTATGGGCTCTTATGTATTTTCCAAATAATGGTAATGTAGAATCCTCTTTTGTGGGAAAATTTGGTAAAACTATAGCTCCTGTATTTAAACCTACTGGTTTTGCTGATAGATGGGAAACAGTGGCGGCTATTCCACCAGGATTAATAGCAAAAGAAATAGTTGTTGGTTTTTTAGGACAAGCTCTTCAAACTAATACTGGAGATGAAGAAAAAGAAATTGAATATAATTTTATAAATGATACAAAAGAACAAATATTTATGTTAAAAGACGCTATAGTTGACTCTGCAAAATCAACTATAATCATTGATATTAAAGGACTTTTTACTCCGCCAAGTAAAGAAGAGTTAGAAGAACAAGGTGGAAATGGAATAATTACTCAAATTCAAAATTTATGGACTGACAGTAGAGCAAAGCTTAGAGCATTTTCATATATGTTATTTATTTTATTAACTATACCTTGTGTTGTTACTCTTGGAGCGTATAAACAAGAGTTTGGTTGGGGAATTTTAAAATATGTTTTTCTTATATATTTAATCGTTCCCTATTTAGTTTCAACATTAGTATTTCAAATAGGTTCTTTAATTATTAGATAAGGAGATGAGAGTTATGAAAACATTAATAATTTTGATTATTTTAGCTATACCTTTATACTTTTCATTTAAAAAATTTTTTAATTTTATAAGAGGTAAAGAATCAGCATGTCATTGTGATAGTAAAAATAGTGAGTGTAGTCATTGTCCTGTAAATAAATAAAAAAAGGTTGCTAATTTTAGCAACCTTTTTTTAGAATTTCAAATTATATTCAAATTCTTTTCTACAAAATTTTATATTTTTAGATTTTTTTTATAATAATATTATTTGGTTTTATATCTTTATGGATAAATATAATCAAATGAAAACAAAAAAGCATTATACTTATAATAGCATAATGCTTTTTCTATTTATCTTTTTTCTAAATTCTTAATTGTAAATATATTTTTATTTATATCTACATCTAACTCTATATTTGTTATGATTATTTTTGTGTATGTGTTTTGTTTTAATTTATCTGACATTTTAAATTCTGTCATATAATACCTATCACCAATTTTTTGATATTTTTCTACTTCCATTACTTTTAATAATTTTCCTGAATTCGCATACATTTCTTGTGTTTTAAATACATATGTATTTTTTTCTATAGTAACAATTCTTTTATAATAAGTAACTTCTGTATCTGGTTTTGCTATCATTTCTATATAATAATATTTATCATCTTCTTTAATAATTTTTGAATTATATAAATCATTTAATTTTGTTCTATCTGTTTGATCTTCATAGGATATATCACTTCCCATCATACTTTGTTTTAGCATATGTCCAGCAATTTTTATTGTTCTATTTGCTTTTGGTAAATATATCCACAAACTATCATCTATTCTGAGATATTTTGTTCCTTTATCTCTTGGCGGATATAAAAATTCCATAAATGATTGTTTTTGTCCTATATTATAACTTTTAAATTTTTTAGTGTAGTCTTTATTAGTTTTATGTATTATCATTTCTCCAGTATATATAGCTGTTTCAGGGTACATATTATAATCGACCATATCTATAATTTCTTGTGCTGTTTTTCCAAATGATATAGTTGAGATTATTATTAAAAATATAAATAGTATTTTTTTCATAAATATCCTCCTAATTTCTTAAATTTTCTACTATTTCTTTTTTTGTTTGTGGTAATATTGCGAGGAATGTAGATATAAAAGCTATTATAATTCCTATTATAAATACATTTATTATTATTCCCCATGACATTTTTGTATAAATAACTGTCCCTAAATTTATATTATTAGATACATTTTCTAATATATCACCAAAATGTATTCCATAAATTGATAAATAGTATCCTAAACTACCACCAATTATTAAACCTATTAAAGATCCTATTAATCCAAGGACTATTCCTTCACTTAAAAATAATAAATTTATTTTAAAATTTGACATTCCCATAGCTTTTAATATTCCCATTTCTTTTTTTCTTTCAAATACTGTCATCATCATAGTATTTGAAATAACCACTCCACTAAGTATACCTAATATTATTATAAAAATAGCTTTTATAACAGGTAGCATTTGAGACATATATTGATTTATTCCTACTTCATTCCATTTTTTTATAAGATATTTATCTTTTAAAATATTTAGTATCTCTTTTTTAGTTTTGTTTATTTTTGTATCATTTTTTAAATATATAGCAAATTCGGTAGCTCTACCATCTATATCAAGAAGATATTGCGCATCTTTAAGTGTAATATAAAAACCTCTATTCATTCTGTCATTATCATATTTATAAATTCCGACTATTTTATAATTAAGTGCAAACATTGAAGCGTTAGCTGTACTCGTAATTACTGTAATTTCATCTCCTAAATCAACTTTTAAATTTTTAGCTAATTTATCCCCTATTACAACTTCACCCTCATTAGTATAGTCTAAAAACCTTCCTTTATATATATATTTATCAAGTTCTAAAACTTTATAATCATTATTTTCTATACCAAATCCCATAGCTTTTTCATCATCATTTTCCATATTATACATAATAGAACCAAATTTTATTCTACCTAACATATACTTTATATTTTTTATATCCTTTAAATTATTTTTTAATAATTCATAATCTACATTTGCAGAAGTATCCATAGTTTTTTCTTTTAATTCATAATCTAAAGTTGTAATTCGTATATCGCCTGTTAATTTTTTTCCTTCTCTAATAAATAAATCTTCTACTCCACCAAAATAACTAAATCCAAATAAAAGACCTGTTATTCCTATTATAACTGCCATAATGGTAAGAATACTTCTATTTTTATTTCTAAAAATATTTCTAAATGCCATTTTTAATAGCATAATTTATCACCTCACTATAATATAAAAATTAGCTTTATTTAATTTTACTAATTATTTCTTATTACTTCTACTGGTTCTAACTTTGTTGCTTTATTCGAAGGATAAAAGCTAGCAAATAAAGCAACGACTACTCCTACTATAAAATATATAAAAGATATTCCAAAATCATAATATACATAAAATTTTTGAGATATAGGAAGTGCAAAACCACCATCATTAAAATCTTGAGGAAGTGGTATTCCTGTTTGCTGAAGCTTTAAAGTAATAATAGAGCCTAGTATAAATCCTATTAAACTTCCAAATACTCCAAGCATCATTCCTTCATATAAAAAAAGTATTAGAATTTCTTTTTTTCTCATACCATTTGCCATAAGTATTCCTATTTCTTTTCTTCTTTCCAACATAACCATAAGCATAGTATTTATTATTCCTACTCCTGCCATTAGTAAAATTACTATACTTATTATTCCAAATGCTTTTCTTCTAATTTTTACAATATCTAAAAGTCCACTTAATTCTTCTTTATAATTTACAACTCTTACCCCTAAATCATTTAATTTTTTTATTTCATCTTTAGTTAATTCTTCATTTACTACAATATCATTTATTTTATCTATATCAATAAACTCTTTTGCAAAATTAATATCTATAAAAGCTGTTTTTCCATCAATAAAAGGATTCTCAGTTTTTAAAATTCCTCCTATAATTAAATCATATGCATTTATATTATTATCTTTAGTTCTAGCTATTATTGTGATACTATCACCAATTTTTAAATTTAATAAATTAGCAAGTTCATATCCAATAACTATATTTTTTTTATTTTTTAAGAAATTTCCTTTTAAAAGGTAACTACTTCTATTAAAAATTTTATCTTCTTCAGATCTATCTACTCCATAAAAATTTATTTGTAATTCTTCAACTCCATTATTTATAGAACCATTAAAATAAATTCTATATGCACTCTTTTTATTTTTTAATATTTCTCTTATCTCTTTTTCATTTTCTATTAAGAAATCTTTTGAATCATTATCTTCTTTTTCATCATAATAACCTTTTTGATAAAGCTTATTTATCCCAATTTCTGTACGAATAGATGTATCAATTATCTGTCTTTCAAGTCCCCTATTTAACCCTTCTCCAAGTATTGCAACCATTACTCCTACTATAATTATTATAAGAGTAAGAAAAGTTCTTATTTTATGTCTAAATATATTTCTAAATGCCATTTTAAATATCATTTTATTGCCTCCAATTTTGATATTTTAATTATTTATAATATATTTAATAATTTTAAATTATCAAATATAAAGTTTTTATTAATAATTCCTTATTACTTCTGCAGGTTCTAAAGTTGTTGCTTTATATGCCGGATAAATACTTGATATAGCTGCTACTAGTATTCCAATTATTAAATATATAAATGAAATAGTAGAATTATATGAAAAGTAGAATATACTTGATATAGGGATATTATTTGTAAATGAATCTATCTCTTTAGGAAGTAGGATTCCATTTTTTTGATAATATAATGTAACTAAAGTCCCCAATATAAAACCTATTGTACTACCAATTACTCCAATAGTTGTTCCTTCTGATAAAAAAAGTATTAAAATCTCTTTTCTATTCATTCCATTTGCCATAAGTATGCCTATTTCCCTTTTTCTTTCAAGCATAACCATAAGCATAGTATTTATTATTCCCACTCCTGCCATAAGTAAAAGAATAATACTAACTACAAACATACTTTGTCTTTTGATTTTCATTGCTTCTATCATGTTTTTTAATTCAATAGTATAATTTATTATTTCTATATTTAATTTATTTAATTTTTCTAATTCATTATCTAAAAGCTCATCTTTTATAACAATATCATTTATTTTATCAATTTCTAAAAACTCTTTAGCAAAATTTCTAGATAAAAATATTACATTTTTATCTAGAAGAATATTATTTGTTTTAAATATTCCCGAAATAATCATATCATAAGCATTTATAGTATTATTTTTTGTACGCGCTAAAATTGTAATAGTATTAATTTTAAGTCTAATAAATAAGCAAAATCTTTTCCTATTATCAATTCGTTTTTTTTATTAAAATATTTGCCTTCTATTATTTGAGAATTTCTATTAAATACACGCTCCTCTTCTTTTTTATTTATTCCATAAAATTTTGCTCCTAATTCATTTATACCATTTGTTATACTTCCATTAAAATGAATTCTATAACTTACTGCTTTATTTTTTAAAATATCTCTTATTGTTTTTTCATTATCGATAAGATGTTTTATTGGATTTTTATCTTCTTTATTTTTGTAATATCCTTTTTTATATATTTTATTTTTACCAACATCTGTTTTTATAGACATATCTATAATTTGTAATTCGAGTCCTTTATTCGCACCTTCTCCAATAATTACAATAAATATTCCTATTATAATCATTACGAGAGTAAGTATAGTTCTAGCTTTATGTCGAAATATATTTCTTAAAGTCATTTTGAATATCATAAATTTCTCCTTCCTTATAACAAATGGAAGTATATTAATTTTGTAAAATACCATCTCTTAATTTTATTATTCTTCTAGCTCTTTCTATTATCATAATATCATGTGATGAAAAAATAAAAGTTGTATTTAATTCTTTGTTTAATTTTTCCATTACATCTAAAATAGATTCTCCAGTATCAGTATCAAGGTTTGCAGTAGGTTCATCTGCTAATATAATAGCTGGTTTTTTTACAAGTGCTCTAGCAATGGCAACTCTTTGTTGTTGTCCACCTGACATTTCAAGAGGTTTTCTATTTTTAAGGTTTAATATTCCTACCTGATCTAAAATTTCTTCTATTAACATATCTTTTTCTTTTTTTGTATATCCTCCGACTAAATCAAGAGCAAGTTCTATATTCTCATATGCTGTAAGTACAGGTATTAAATTATAACTTTGAAAGATAAAACCTATCTTTCGTCTTCTAAAATCAGCTGCTTCTTTTTTACTTAAATTACTTATATTTTCTCCATCAATAATAATTTCTCCGGTTGTTAATTTATCCATAGCACCAATTATATTTAATAATGTTGTTTTTCCGCTGCCAGAAGGTCCTGCAATTACTGAAAATTCTCCTTTTTTAATATCTAAAGTGATATTTTTTAATGCTTTTACAAAAATTTTTCCATTATGATACTCTTTTGTTAATTTTTTAATTTTTACAATACTCATAATTTCACCTCTTATTTTAAAATATTTATTTTTTTTAATAAGTGCTATAAATTTTTAAAAATTTATTTTGAATTCTAATTCCAATTTATCATTTATTGATTGTGTAGTATTAAAAATATTTTTTATATTATTATATTTATAATTTGTAATATCTATTGTTGTATAGTCATTAAAAATATAAGATAGATTTGAGAGTATAACATTTTCTTCACCTTTAAAATCAAATATAAAAGTTTGATTATATGTGATTAGATCAGTTAATGAATAACTAAAATTTGTATAATTTAATACTATTTCTTCATCAAAATTATTCATAATTTCATTAGCAATATATAAGTTTTTTTCAAAAATATCAAATGTATAATCGATTCCTAATGTAGCTATTTTAGTACTTGTATCTTTTATTTTTTTATAATTAAATTGTGACCAATATCCTACTATGTCTTCACCTTTAAATTCAACAATAATATCTTTTATTCTATTTAGAGATAATTTATAATCTAAATAATTTAAATTATATTCAATGTTATTAAAAGAATTTATATATCTAACAGCAATATTTTTATTACTATAATTGTTTTTAAATAAAAATCCTTCTATTTTTGACATACCAGTAGGTCTATATTTAATATCAAGTCCATTTATTCCTTCTTTATCAGATTTTGGATTTTTAATATCTGCTTGATTAAAAATATTTGTTAAATTAAATAATGTTCCAAGGCCCCAATTAGTTTTTTGTTTTCCGATACTTAAAGTTAAATCATTTTGATATATTTCTGCAAAAGCTGTATAAACTTTCAAGTCATTATTAGTATCATAATTTTCTCCTAAAAAACTTATTTCAGTATATAAATCATTTTCATATAATTTTATTCCAAATTTTGCACTATTATAATAAGAGATATCTTCATTATTGTAACTATATTTACTATTTAATTCTGTTGTATAATCTATTGCAAATATTAAATTTGATACTAATATAAATAATAAAAATTTACTAATATTTTTCATTAATAATTTCTCCTTTCGTGATTTTTAATAATTCTTAGTAAAACTCTAATCTATATTATTTTACTGTGAAATTAATAAAAGTTTTTATATATTTAATTGGAAAATTTCTTCAAAAATTCTTATAGTTCCTTTTTTTAATCCTAAAACTTTTTCAACTAACCTTTGTCTAGTATATACAAATTCTTTTAAATAATTGGGATTATTTAACATTTTTTTTGGATCTCCTGCATAAGTAAGCAAATTTAAAAAATGCCCAAGAGTTATTTCTGGATTATCTATATCAAATTCTCCAGTTTCTTTTCCTTCTATAAAAATTTTTAATAGATACGGAGAAAGTTTTTCCATATAAATTTCTTTGAATCTATATATTAATATATTAAAGTTTTTTTCTAAAATATATCTAGCAATTTTTTCTGTAAATTCTTTATCCTGTGTTTTCATTTTTACCATTTCACCTAGAAAAGTAATAAGCTTTTTAGTAGCACCTATATCTTTTCTAATTGATATAATTTCTAATTTTTTAATTGCTTCATCAAATATATAGTCAAACATTTTTTCTAAAAATTCTTCTTTACTTTTAAAATAATAATAAAAAGTACCTTTTGCTACTGCTGCTTCTTTTATTATTTCTTCAATAGAAGTTTTTTCATATCCTTTTTCGCTAAAAAGTTTTTTACCTGCTATAAAAAGTTTATCTTTTTTTGTCATAAAACTCACCTCTTTTTATACTGACCGTCAGTCTAGTATAATATTAGCTTTTTTTTTAATTTTTGTCAATAGTTAGTTTTGAAAAATTATTTATTAAAATATAAAACATTTAGCTCTTGACAATAAAAAACAAAAACAGTATATTAAGATTGTTGTAAAAAATATACTACAAAGAGGAGTTTTGAAAATGGTAATAGGTAGAGATATATTAGGAAATTATGATTTAGGTACTAACAGAGAATATTTATTAACGAATGGAAACGGTTCATTTTCGAGTGGGTCTATTAATGGTAATTTAGCACGTAGTTATCATGGAATATTGGTAAAATCATTTGATATACCTCTTGATAGAAAAATGACATTACATAAAATAGAAGAAAATTTTGATGGAATTGATTTGTTTACTTCTAAAAGAATAGATGCTAATAAGGTTATTATTAAAGAAGGATTTAAATATATTCAATCATTTGAAGTAAAACCATTTCCGAAATGGATATTTTTGGTAAATGGTTCATTGCTTGAAAAAGAGTTATTTATGCCTTATGAAAAAGATATTGTAATAATAAAGTATAAATTATTATTATCTGCTAAAAAAGATTTGAAATTAAAAACAAATATGCTTTTTAATTATAGATATTCGGATCATATTATTCCTTTTAGAGATTATAATTATGATGTTTATACAAAAAATAATCATTTAGAAATAATGTTTGATAATCATAAAATGTATATTTATACTAATGGCAATATAAAAAAATCAGAGTATAGAAAAGATAATGAAGATTTTTATGGAAATAAAATTGAGGGGACAGTAAGAAAAAATATAGCATACGATATAGAATTAAATGAAAGAGGAAATTATAATTTGGACTCATCATATGAAATAGCAAATAGTGAAATAACTTTAAATGAAGGTGATACATTTTATATAGTAGCTTCTTTTGAAAAATTAGATAATATTAATATAGAAAAAATGTATAGTGATGAATTAAATAGAGTAAATAGATTAAAAAATATAGCATCAAAAGATAATGAAATAATTAGAGATATTGCGTATGCTTGTGATCAATTTATAGTAAATAAACCTTCGATTAGAGGGAAAACAGTTATTGCAGGTTATCCATGGTTTGGTGATTGGGGAAGAGATACAATGATAGCTCTTCCAGGGCTTACTCTTTCAACAGGCAGATATGATGACGCAAAAGCTATTCTTTTAGCGTTTGCAAAATATTGTGATAAGGGAATGTTGCCTAACTTATTTCCAAACAAAGAGGGAGATGAACTTCAATATAATACAATAGATGCAGCTATGTGGTATTTTTATGCTGTATACAAGTATCTTGAGTATACAGATGATTATGAATTTGTAAAAAACAATATTTATAATACTCTTAAAGATATAATAAAATTTTATAAATCTGGAACAAGATATAATATACATATGGAAGAGAATGGAATGATATCAGGTGGAAGCAAAGATAATAATCTTACTTGGATGGATGTAAAATATAAAGGCTGGGCGGTAACACCTAGATATGGTATGGCAGTTGAAATATCAGCATTATGGTATAATGCATTAAAATTAATGGAAGATTTAGCAGAAAAATATAATGAGGATAATAAAGAGTATAAAGAATTGTCTAACTTAGTAAAAAATAATTTTGAAAAGATATTTTGGAATGAAGAAAAAAATTGTTTATATGATTATATATGTGAAGAAGGTAAAAATGATGATATCAGACCAAATCAGATTTTCGTAGTATCTTTGCCGTATTCATTATTATCAAAAGATAAAGAAAAAAAAGTAGTAGATACAGTTCTTGAAAAGTTATATACTTCAAAAGGATTAAAGTCTTTATCAAGTGATAATATAGAATTTAAAGGTTTTTATTTTGGAAATTTATACGAAAGAGACAGTAAATATCATCAAGGAACAGTATGGGGGTGGTTAATGGGTCATTTTGTAGGAGCATATAATAAAATATATAATAATAAAGAAAAAAATAGATTGTTATTAAATGGATTAATAGAACATTTTTATAGAGAAGGATGTATAAATTCAGTATCAGAAATATTTGATGGTGACGAACCACACAATGCTAGAGGATGTTTTGCACAAGCTTGGTCAGTATCAGAGCTTCTTAGAGCTTTAAAAGAGATGTGCTAATTTTATAGATAGCAAAACTTTTAGGAGTATAATTTAAATAATTCTTTTTAAGTAAATATTAAAAAAACAAAAACGATATCAATTATAATTAAATAATTGGTATCGTTTTCTGTTATTTTTATAGATTATACAACCATTTTATTTTATTTGAATTAATTATTTTTAGTTTATTTTCTATATTGAGTTTATTTATGTTATACTATTAATAATAATTTAGGGTGATTAAATTAGGAATATTTTTTATGTTAATAGTTGCATTAATAATGTGAATTTTAAAGAATAAATACTAATATGTGAGATATTACAGACAGTTAGATAAATAATAGTTTTATAAATTTCTAAAAAAATTTTTAAATAAAAAAATTTAACATAATATTAAAATTTTAAGGAGGAAAATATGCCTTTGAATACAAAAAAAGCTTTGGGTGAATCATTAAAAAAACTTTTAATTAATTCAAATCTTGATGAAATTACTATTAAAGAACTTTCTAAAGAGTGTGGAGTTAATAGACAAACATTTTATTATCATTTTCATGATATTTATTCATTAGTTAAATGGATTTTTAAATCCGAAGCAGTGGAACCTATAAAAAACTTAATTAATTATGAAAATTGGCAAGACGCATATTTAAAAATTTTTGAATTTGTTGGGGAAAATAAAGTGTTTTGTAAAAGTTGTATGAATTCTTCTGGACGAGAATATCTTAATCAATTTCTTTCTCATATCACAAATGATTTATTAATTGCGGTAATAAATGATGTTGCTAAAGAGAAAAATATTAGTGATTTTACAAAAAAAATAACAGCTAACTTTTATAGCTATGGACTTACAGGAATTATTTTGTCATGGATTCGAGATGGATTTATAGAAGAACCAAAAGTTCTTGTAAAAGAGGTTAATAATTTAGTAGAAGGGGATATAAAAAAAATAATTGAAAAGCATTTAAATGAAAAAAAATAGACATTTTGTTATAAATGTCTAAAAATTATACAGACGATAACTGGTGTCTATTGATTTATTTCTCATAAAATATTATTATTTATTATAGCTTGGATTCATGAGATTTTATGAAGTATATATATTATTAAATATATTATATAAAATAATTGATAAATTTATAAAAAATATTGTGGATTCAAGTATAAATTAATTATTAATAACTATTATTAAAAGTTATTAATAATTAAAATAATATATATAGGGAGGAAAATATTATGGGAAATTATCAAAAGATTAATACACTTAAACCAGAAGGAATTGAAAGTAAAAAAGCTTATTTAATTGGTGGAGGAATTGCTTCTTTAGCAGCGGCAGCTTATTTAATAAATGATGGACATATGAATGGAGAAAAAATCACTATTTTAGAACAAGGTAATATTTTTGGTGGTGCAATGGATGGTATTGGAAATCCAGAAGAAGGTTATGTAGCACGTGGCGGACGAGAAATGGAAGAACATTATGAATGTACTTGGGATTTATTTAGTAAAATCCCGTCTATTGAAGAACCGCATCGAACTGTATTAGATGAATTTAAAGAGTTAAATGATATTGATCCAAATTATTCTAATTGTAGAGTAATTGCCAATCGTGGTGAAAAGCTTGACTTTTCAAGTTTGGGATTAGAAGATATTCATGTAAAACAATTGACTAAACTTTTTTTAGCAACTGAAGATGCACTTGGGAAATTAACAGTTAAAGAGTTTTTTGATGCATCATTTTTAGAAACTGATATGTGGTTATACTGGAGAAGTATGTTTGCCTTTGAAGATTGGCATAGTGTAGTTGAAATGAAACGTTATATGCATAGATTTATACATTTAATACCTGGAATGACTAAAATGGATGGATTATTATTTACTAAATATAATCAATACGATTCTATGATTTTGCCATTAAAAAAATGGTTAGAATTACAAAATGTTGTTTTTGAAAATAATACAAAAGTAGTGGATTTAGATATAGAAATCAATTTAAATGAAAAAATTGTAAAAGGAATTCATATATTGCGTAATAATAATAATGAGGTTATTAAAACTACAGAAAATGATTTAGTGTTTGTTACTAATGGTTCTATGACTGAAAACTCAACACTTGGAAATATGAATACTGCACCTGTTCTTGATAGAAGTGAGGGTGGATGTTGGAGTTTATGGAAAAATATAGCTAAAAAAGATAGTTCATTTGGAAGACCAGAGGTATTTTGTTCTGATATTGACAAAACCAAATGGGAATCTTATACAATTACTGCAAAAGGTACTAAAATGAAAGAATTAATAGAAAAATTTGCAGAAAGAAAAATTATTAAGAATAGAACGGTTACAGGTGGAATAATAACAATTAAAGATTCAAACTGGTTATTAAGTGTAACTGTAAATAGACAACCACAATTTAAAAATCAACCTGAGGATACAATTGTATTATGGGCGTATGCTTTGTTCCCTGATAAAAAAGGTAATTTTATTCAAAAGGAAATGAGCGCTTGCACTGGGAAAGAACTTCTAGAAGAATTATTATATCATTTTGGAATTGACGAAGAAAATATGCAGGAATATATTAATGAATCAATAGTAATTCCAGTAATGATGCCGTATATAACAAGTCAATTTATGCCTCGTGTAAAAGGAGATAGACCAGAAGTTGTTCCAACAGGGAGTAAAAATTTGGCATTTTTAGGTCAATATACAGAAATTAAAAATGATTGTGTATTTACTGTAGATTATTCAATTCGATCAGCAATTATAGCTGTTTATACTTTACTCGGCCTTAAAAAAAATCCTCCTGAAATATATTCAAGCCAGTATGATATAAGAGTAATTGCAAATGCAGCTAAAACTTTATATAGCGGAAGACCTCTTCCTGCAGAATTTATAATTAAAAAACTTTTGAGTAATACATCTTTAGAAGGATTAATATAAAATTAGATTAATAAGATTTTATAAATAATTAGAATATATGTAAATCTTTTAAAATTTAAATTTTTATAACAGAAGTAGCTTTATTGTTACTTCTGTTTTTTTTAATTCTAAATTTAAACAAGAGAATTCTTTATTAAGGAAATAATAATAGTATATTTTATGTAAAAAAACTAAAATTTTAAAATAGTCATTTTAAAATATATACATTTTTATTTTTCTTAAAAATCGATCTCTTAAATCAAAAAATTCATTTTCTATATAGTAATTAATAAAAAGAAATCCAATATCATGTCTAGGTTTTGTTTTCATCAATTTAAAATAAAATTCTTCGATTAAATTTACAAAAATAATATCATTTTTGTCTAAAAAATAAAAAGCCGATTTAATAGAAAGATATTTTTTTTCAGTTGATGCTAATTGATTTTGTAAAATATTTTTAATAGATTTTAAAGCCATTTTTTTATTTGGAAGAATTTTAGATATTTCAATAAATTCAAATTCTATTTCTGATATTAATTTATCATTATTTCTACTGGTATTTAATTCTTTTAAAAAAGATTTTAATTTCCTTATATAAAGACTAGCTTTTTGAATATCATTCATTTGTTTTGATAAAATAAGTAATTTTAAATTTACAATACTTTTTTTATAAATAGATTTATATTTTAATAAAAGACCTCTATAAATAGAGTTAGCTTTATCAAAATATTTTTCAAGTTCATAACATTCTGCTAAAAGTAATTTTAATTCAAATATTTTTTCAGTATCAGTTTCTATTTTTTCTAATTCTTCAAAATATCTTAAAGCATAATTTATAGTATTTAAATTTTTATGAGAGATACCTAATAAATAAAATATTTTTTCTTTATAATTTTCTAATGATTGAATATAACTAAAAAACTGATTTTCTAAGTCGATATTTCTATTAAAATTATTAAAAATAATATTTATATAGAGCGTATTATAAAGGATCTCTTCAAAATCTATATTAATTTCAGGATTTAAACTATCAATTAAAATAGAATCATATAAATTATATGACTCTTCGAAGTCATTTAATAAAAACAATATATCAGCTGTTTTTTTAAACAATAAAATTTTATAAATAGAATGAGTTGTTTTTAGTGTTGTACTTTTTATTTTTTTTAAAACTCCATACACATTTTTAGAGTTAACAGCCTGGTATAAAGAATTGCATATTTTGTCGAATTGTTCTTCTTCATCTTCTAATAAATATGAAACGGTAATTTGTTTATCAATCCCACGTTCTTTAAAAATTTTATTAAAGTTTTGAGTAAGAATTTCAGCTACTCTAGGACTAATAGTTTTTTTTTGAGACTCTATTATAGCTAAATAACTACGTGCAATATTATCCTTTGAAAGGTCTTTTTGACTTATTTTGTATTTTTTTCTTAAGTTGACAATTTTTTCGACTGGGGATAATACTTGCATAAAAACCTCCTAAAAACTTAAAATAAATTTTTCTCATAATATTATATGATAAATTTCAAAAAAAAGCAATTATAATTTGATATTATTTACATAATAACTAAAGTTAATTAAGGAGATTATGTGAAAAAAATATTTAAAATTAACTTAAAATAAACTTTTCTTTTGCAAAAAAACATAATTCTTGATATAATAAGTTAACTTTATTTTTGATAAATATTTTGGAGGAGTTATGAATTTAGATGCTATATTAAAAAAAGATGATTTAACTAAAGAAGAATTAGTATATTTGTTAGATTTAAAAAATACTGAAGATATATCAAAATTACACAAAAGAGCATATGAGATAAAACTAGAAACAATAGGCAATAAAGTATATTATAGAGGTCTTATTGAGTTTAGTAATATTTGTGTGAAAAATTGTAATTATTGTGGAATAAGAAGAGATAATAAAAGTGTAGAGAGATTTCATATGACAAAAGAAGAAATACTTGATACAGCTAAATGGATATATGAAAATGGTTATGGTTCTATAGCTCTTCAATCTGGTGAAAGACAAGATGATGAGTTTACAGAATTTGTAGAAGATATTATAAAAGAAATAAAAAAAATAGGTAACTTAGGGATTACATTATCACTTGGTGAACAATCATATGATACATATAAAAGATGGTTTGATGCAGGAGCACATAGATACCTTCTTAGAATAGAAAGTTCTAATGAAGAAATATATAATTCCTTACATCCAAAAGACAAATTACATGATTTTAATACAAGAAAGCAATGTTTAATAGACCTTCGAAATATTGGATATCAAGTGGGAACAGGAGTAATGATAGGACTTCCAGGACAAACAGTAGAAGATCTTGCAAATGATATCTTGTTTTATAAGGAAATGGATATAGATATGATAGGAATGGGGCCTTATGCTCTTCACAAAGATACACCTATGGGACAAGGTAAAGAAGATAGTATAGAAGAGATTCAAGACAGAGTAAGATACGGATTAAATATGATAGCTGTAACAAGAATATTTTTAAAAGATGTTAATATAGCAGCAACAACTGCACTTCAAGCGCTTGATCCTTTAGGGAGAGAAAAAGGATTAAAAGCAGGTGCAAATATACTTATGCCAATTACTACAATAGGAAAACATAGAGCAAAATATCAACTATACGATAATAAACCATGTGTAGAAGACACAAAAGAAGAATGTAAAGGATGTTTAGCAGGAAGAGTAAAAAGTGTAGGCGATGAAATTGTATATGGAGAATGGGGAGATTCACCGCATTTTTATAATAAACAAAAAACTTTAGGATAAATTCCTAAAGTTTTTTTATATAATTAAAGATTAAATTAGTGATTTTATCCAAATCGTTTTCTATTTTATTTAAATTTTCTAAACATATATCATTTGATATTTGTCTTTTTATTTCATTATAATCAATAATATTTATAGTGTTTAGATCGATAGAAGAAGCATATTTATATTTTAAAAGATAATTTCTAATAAAATTATCCTCTAAAACATCTCTATTTAAAACAATTGTTTTTGTATGAGAAATAAGAGCTTCCGCGACACTACTCCAGCCTGATTTTATTATAGCTATATCACTAGCTGCTAAATAATTATGTGTATCAAGAGTATCAATGCTTAATTTTAAGCTATTTCCATCTTCGTTAGTAACATCTATTCCGTCGGTATAAATAACTGTACCGTCAAAGTTTTTAACAACTAAATTAGATAAATTAGCTGATTTTCCACAGCTAATAAAAATTATTTTGTTATATTTTTCTTTTATTTGTTTTATTTTATGAGTGTTAAATTTTCTTGAAATAAAACCTATGGTATCAATATTTGTATTTATAAAATTATGATCTAAAGAGGGAATATATTCGATATAATAATCTATTTTTTTATAAATGTTTTTATAAAAATTGATTATATTTTCTGAAATATTAAGATATTTGTATTGATGATACCATGTAAAATTAGAAGCTTGAATTATTGGAATATTTAGATTTTTTCCAACTTCTATTCCTATTAAAGTAATATCATTTATAATTAATTTTATGTTTAATAGACTTAAATTTTTGACTTCGTTTTTAATTTTATTGTCAATATTTTTTATAAAATTATTTAAGGATTTTTTAGTTTCTAAAATATTTATTTTTAATGAATTTTTATAGTTTATAAGACCAATGTCAGTAGTAAATTCAGAATAGATAATTCTATTTGAATAATTTATTAAGTATTTTTTTGCAAAATCAAGATGTGGTTTATCACATGCAATATAGATATTATATTTAGAAAGCTCTAAAATATTTTTTATAATCGCAACATTTCTAGTAAGATGCCCAAAACCATGACTCGATATATAAAAAGCTATATAGTCCATTTTTGCTCCTTTTTTATAATGATTAAATAGTTTAGTCAAAATATTTTGAATGAAATAAAAGAACACTTTCAAGCTCTTTTTCTACATATTCCCAACGATGACCTTCTCCTTTTACAAGTCTAGCTTCATAATGAAAATTATATTTTTCCATATGTTCAACAATATCTTCCCATTGAAGTAACATAGTATATCCTTTATTATCGTATTCGCCAACACTCAAGTAAAAATATTTAGACTTTACAAGTTCCATATCTTCAGACATTTTTCTTTTTAATAAAGTAAAAACATTTTCATTATTAGAATATCTAATTTTTTTCCCAAAAATTTTTCTTAAATTTCGTAATTCTTTGTTTTTATCACTAAGTTTAAGATGTTTTAATAATCCAAAACCTTTTAAAAGTCTAGAAAAAAGTCTAGGGAAATTAATAGCACCAGCTAAACTAGCAATAGTTTTGTATTTATCAAGATGCTTTAAAGCTAATTTATAAGCCCCATATCCACCCATAGAAAATCCAGTTATTCCCATATTTTGAGTATCAATATTATATCTTTTTTGAATATCATTAATTAATTCTATAGTAAAATAATCTTCATATTTTTTATTTGAAATATTATACCAATTTGTATACCAGCTTCTGCCATTTGCACCAGATTCCGGTAAAACAAGAATAATATCTTTTATTTTATTATTATTAATTAGAGAGTCATAGGTTTCTAAAAGTTTAGCTTTTTCAATCCAATCAATAGCACTATCTCCTAATCCGTGTAAAAAAAATAAAACAGGATATGTTTTCATATTATCATAATTATTTGGCAATACAACAAAATAATCCATAACTTCTGATACAAGATCACTTTTTATTCGATGTCTTTTAACAGTTAAAGTACTATTTCTTTTTTTATGAGAATAATCTTTATAGTTAATCATTTCAACATTTTTAAATTTTAATATTTTTAATATTTTTTGTTTTCTATATAGTTTATATAAAATATAACTTAGTAAAATATAAGTAATTATATTTATTGTTAATCTCATAACTTTCACCTCTTTCATATATAATTATAGCACTATTAAAAAAAAAAACAAATATAAATACTTTAAATTTGCCGAAAATAATTATATAATATATAAAATATTTTAAAAAGGAGTGTTTAGCTTGAAAATCATAAAAATATTATTTATAATAATAATAGTTTTATCTGGTGGATGTCAAAGAGTTCAATATGTATCAGTATCAAAACCAAATATTGACACTTCGACAACAAATCATTTTTTAACACCACAAAAAGATACTATCTTAGAGGGAAATGATAGTGTTAAAGATATTAATAAGAAATCAAATCAAATAGAAACATTAATTATTGAAGATGATGGTTCTTATTATTATTCAGATTAAAATATATTAGGAGGATAAAATGGAAATTATTAACAAAAAAACTTTTCAAAAATACAAGGTTACAAATAATGAATTATCTTTATTATTAAAATATGGGTATATAAATGAAGAAAATGGTGGTTTTTATTTTGATGATAAAAATAAAAATAAAATTATTCTATTAATAAAAGCAGATAGAACAGATAAAATTAATCAAGTATATGCTTTAAGAGAAGTTGTAGATGAACTTCATGATATTTATGCAAAAGATTATTTTGAATCAGATACTATAAAAGTGAATCATCTATTTTTAAAAATAAGAAAATTAAAAAATTTATATGATACAATAGTAAGTGAAGGATTTAAAAAAGATAAGTAATAAAAAGGTAAATAATATTCTTACGTAGACATTCCCTGTTAAAAGAGCTATAATATATATTAAGATATAAATAATATATAAAATTATTCACAAAAATATTAGTGTGGTTTAGGGAGGGGAATGTGGATAAAGAATTTTTGACACCAGGAGAAAAACTGAGAAAAATTCGTAAAAAATATAGTTTAAAACAACATGAAATAACTAATGATGAAGTAACACGTAATTTTATTAGTATGGTAGAAAACAATAGAGCTAATTTAACAATGAGAACGGCAGCTATTATTTGTAAAAAAATAAATGAATTGATTTTTTTAAAAAATGAATTATTTGAAATAAAACCGGAAGAACTTCTTAAAACAGTAAAAGAGCAAATTGATGAAAAAGCTTTAATGTATTTCAAAAAAATAGATAATATTAAATCAAGTGATGAAATAGAAGAAATAATTAATTTTGTAATTGGAAAAGAGTTATCAAATAACATATTTAAATTAAATGTTAAACTAGGAGATTGTTTTTATAAAAATAATGAATTAGAAAAAGCAAAATTTTTTTTAAATACAGCGTTTCATATTGATTTTACTAATAAAGAAATTATAGAAGAAGTGGAAAATAGTTTTTTTAAATTAGCAAAGATAAATTTTTTTACTGATAATATAGAGTGCTTTCGTTCATTAAAAAAATTCATTTTAAATAAAAAAGAATTTTTTTCGGATAAGTTTATAAAATCACTTAATTTTTATTTTTTGTTATTTGAAATATTAAAAAAAAATAATATATTAGAATTAATTAATTATTATGAAACTAGTGATGATATACGATCTTTTATTTTAGGAATTTACAATTTACATTTAGAAAATTATAGCCTTGCAAATTCATATTTTGATATTATTAATAATTCGGAGATTATGATTTTAAAATTAATTGCTAAAATTAAAACAAACCTTTATATTTCAGATAAAAATTTAAAAAAATATTTAATTGAGTTGAAAAATATTTTAGAAAGATTAAAAGAAAATGAATTTTATTATTTGGGATTATATGCACTTTTATATTTTAAAGAACATATAATTATAGAAGAAAACTATATATTAAACGAATTAAATAATAGAGAATTTGAAAAGTATTTAAATTATAAAATTTTTAAAGAGATATTTTTTAAAGATAGTGAAATTCATCTAATATTAAAAGAAAAGAAGAAATTTGAATTATATAAAAATGAAAAAAATGTTGATTATGTATTAAAATAGCGTAAAAACTTATTTTGCGCTATTTTAATTTATAAAATTATTAAAAATAAAAAGAATTATAAAAATTTATTAAATAATTTTAAACAAGAATAAAATTTATCCGATAATTAAAATATATAAATAAATTTTTTAATATAATTAAAGGTGGTAAAATGTATAGTCAACGATATGGATTAAAAACAACAGTATATAATAAGATGATAGATGTATTCAAAAAATATCCTCAAATAAAGCAAGTAAAAATATTTGGTTCAAGAGTACGTGGTGATTATAAAGAAAATTCAGATATTGATTTATCTATTACTTTTAATGAAAGTGGAGATAATATAATTTATAAAGTTATAGAGGATTTATCATTAATTGATACTATACTTATTTTTGATGTGATAGATAATGATAAAATAAAAAATCTAATGCTATGGGAATATCTCGAAAAAGAGGGAGAGATAATTTATAAAACTAATAGACAAGGGGAAGCTATTGTTGACAGAGTACAACTTTTAAAACAATTATCTAATTTTAATATAGCAATAGATTCATTAAAGCAAGGAATTGAGGTATATAAAGAATCGCAAAATGATGCACTTATATTAGATGGGATCTTAAAAAGATTTGAACTTTGTTATGAATTTGCATGGAGGCTTATAAAATCATATTTAGAATACAAAGGATTAGATATAAGTAATGATCCTAAAATAAGTATAAAACAGGGATATAAAAATGATATAATAGATAATGGTGATAAATGGTTAGAAATGTTGTTAGATAGAAATAAAATAATGTATGTATCAAATAGTGAGATAAAAATTAAGATATTTTACAGTATAAGAGATAATTATATATATTTATTAAGTTCGCTTTATAATAAAATGGATAGTTTATTAAATATAAAAAAAAATAAATAAATTTTGAAAAGCTCTTTAGTATAAGTTAAAATATATTAAAGAGTTTTTTTATTTAAATAATAAGATTGCATTTATTTTTGTAATAATTACAAATTTATAAAAAAAACATTGACTAAAGTTTACAAATTTGGTATAAAATATGTAAATAATATAAAATCTAATGTGAATAAAATCATAAAAAAAATAGGAGGATTTAGTATGAAATCTCTAGAATTAAAAAAAGATATTTATTGGGTAGGAGCTTTTGACCCAAATTTAAGAATTTTTGATATTATAATGGAAACACAGTTTGGAACTACTTATAATTCTTATATAGTAAAAGGTAGTGAAAAAACAGCAATTTTTGAGACAGTTAAAGTGAAATTTTTCGATAAATATGTAGAAAAATTAAAAAGTATATTAGGTGATTTAAATAAAGTTGATTATATAGTAGTAGATCATACAGAGCCGGATCATGCAGGGTCTGTAGAAAAATTATTAGAACTTATACCACATGCAAAAGTAGTTGGGTCACAAGCAGCTATAGATTTTTTAGCAGATATATGTAATAGAGAAATAGATTCAATTGTTGTAGAGCACGGTGATACTTTAAATCTTGGGAATAAAACACTTAAATTTATTTCAGCTCCATTTTTACATTGGCCAGATTCTATTTATACTTATGTACCAGAAGACAATTTATTATTTACATGTGATTCATTTGGTTCACATTACAGTTTTGATCAAATATTATATTCAAAAATACCAACTGAAAAACATGATGACTATATGTCAGCATTATTATATTATTATACTGCTATTTTTGGACCATTTAAAAAATATGTACTTGAGGCAATAGATAAAATAAAAGATTTTAATATTGATATGATATGTACTGGGCATGGGCCTGTATTAGATAAAAATCCGTTAGAAATAGTAGAAATTTATAAAAAATGGTCAATAGAAACAAATTCAAATGAAAAACCTAAAATAGTAATTCCTTATGTATCAGCATATGGATATACCGAAGAAATTGCAGAAAAAATAATAGAAGGAATAAATAGTTTTGGGGATTTTGATATAAAAAAATATAATATAAATATTGCAAACTATGGAGAATTAAAGCAATCAATAATGAATGAAATATATTGGGCTGATGGGATATTGTTAGGAACATCTACTATAAATGGCGATGCACTTCCACCTATTTGGGATATAGCTATTTCATTAAATCCTATTGTACATGGTGGGAAAATAGCGTCTGCATTTGGTTCTTATGGATGGAGTGGAGAAGGAGTACCAAACATTATAGATAGATTTGAACAACTTAGAATGAATGTAGTTGATCCATACAGAATAAAATTCAAACCATCAAAAGATGAACTTTTAAATGCTGTAGAATTTGGTAAAAAATTTGCAGAATATGTAACGACAGGCCAAGTACCACCTAGAAAACAAGAAGAAATAGAACTTTTAGAAACTTTGAATCCAAGTGGAGAAATAAAAAAATGGAGATGTCTTGTATGTGGAGAAATATTTGAAGGTGTTCTTCCACCTATGGTTTGTCCAGCTTGTGGAGTAGGACAAGAATTATTTGAAGTTATAGAAGAAACATCAGCAGTATTAACAACTAGCGAAGCAGAAGAAAATATTATTATCATAGGAAATGGAGCAGCTGGAATATCGGCTGCAGAAGCTGCTAGAGAGAGAAATAAAAATGCTAATATAGAAATAATAGCAAAAGCTTCTATCGATGCATATTATAGACCAAGTATATCAGATTTTTTAGGTGATAATGTTACATTAGATGAGCTTTATTTAAAAGAAAAATCATGGTACATAAAAAACAATATAAAAGTTTCATTGAATACATTAATAGAAAAAATAGATACAAATAATAAAACTATTTATTTAGGAGATTCTACAAAAAGAAAATATGATAAACTTATAATAGCTACTGGAAGTAGATCAAATATTCCACCAATTTTAGGAGTTGAAAAACCAGGCACTTATACTCTTAGAGGAAAAGTAGATGCAGATAGAATAAAAGAAAATCTAAAAACAGTAAATAAAATAGCTGTAGTTGGTGGAGGAATTTTAGGATTAGAAGTAGCATCAGAAATAGCTGAAATGGGAAAAGAGGTAATTATAGTAGAAATGGAAGCAAGAATTTTTCCAAAACAGCTTGATGAAGAGGGTTCAGTTATTTTAGAAGAAATCATAAAAAATAGAGGAATAAAATTATATAAAAATCACTTTGTAAGAAAAATAAACGGCAATGAAAAAGTAACAGGAATAGAACTTGATAATGGAAAATCTATTAATGTGGATATGGTAATAATAAGTGCTGGAATTAGATGTAACAAAGAGCTTGCAGAAAGATCAGGAATAATTACAAATTACGGAATAGTAGTTAATAATAAAATGGAAACAAATGTAAAAGATGTTTATGCTTGTGGAGATGTAGCAGAATTTGAAGGGATAGTACAAGGATTATGGAAAACAGCACTTGAGCAAGGTAAAGTAGCAGGAGCAAATGCGGTAGGAGATGATTTAACGTATACATTAGAAAATCAACCTGTAACATTTTCAGGATTAGATACAGAGATATTTTCAATAGGAGATATAGGAAATGATCCAGAAAAAAACTATCAAATATCAGTATATAACGATCCTATAAATAAAGTTTATAAAAAAGCGTATTTTGAAAATAATAAATTTGTAGGTGGAGTACTTATAGGAGATATAACAGCTGCGGGCTCTTTATTATCAGGAATAAAATTAAAATCAGATATGAAAGAACTAACTAAAAAATTATATAAATAATTAAATAAACATCAGTTAATTTAGATTAACTGATGTTTTATTATAAAAAATAAAATTTTAATTATTATTCAAATCTATTAAATTGACAATTAAATAAAAAAAAGTTATACTATATTGATTAAAATTATAAGTAAGGAGAGGTAATGGAATGAAAAAGATATCAATGTTTATTGTACTATCTACAATTATTATAACAGCAATTACATCTATAATAGCTTCAAAACTTATAGGAAACTTATTACTTTTTAGTTTAGCAGTAATAATAATACCACTTATTTTATCTTTTATTATGCTATTTATGTTTATTTTACCAAGACTTGGAGCATTAAACACAATTTTTAATGTATTAAAAGATATCGCAGAAGGAAATTTGGAGACGGATTTATCAGAAGTAGAAAAAGTTAATCCAGCTTTAGCAGAAAAGCTTTCTAAGTTTTTTGTATTATTGAATAAAGTTATAGATAATTCTGTTGTGAGAATAGATAAAATTCTTGATAAAAATAATGTATTAGAACAAGATCTTGATGGGATTGTTATGGGGAATAATGAAAGTGTAAAAAATGGATTATTACAATTAACAGAAGCAGTACAAGATACTATGGATCAAATGAGAAATCAAACTGCAAGTACTCAAGAATCACTTGCAGGAATAGAAGAAGTATCAGCTTCAGCTATCTCAATGAATGAAAATGCAAAATATTCATTAGATATATCAACAGAAGCAAAACAACAAGCTAATGAAAGTATAAAAAATATTGATAATTTATCAAATAAAATGAATCAGATTAATCAAAGTGTGGAGAATGCAAATGTAAAAATTCAAGAATTAACTGTACTATCAGAAAATATAGGAAATATTATTATTGCTATAAATTCAATATCAGAAAAAACAAATTTATTAGCGCTAAATGCAGCAATAGAAGCAGCTAGAGCTGGAGAAGCAGGAAGAGGATTTAGTGTAGTAGCAGAAGAGATAAGAAAATTAGCAGAGCAAACAAATGAAGAAACAAAAAAAATAGAATCAATTATATTTGATATACAAAATAAAGTAATGGATACTAAAATAGCAAATGATGATGTATCTAAAAATGTTACAGAAGGACTTGAAGTAAATACTGTTGTTAATGAGCAAATAAATAAAATACTTGAAATAACAGAAAAAACAAATGCAAAAATAGAAGAAATAACTTATGCAACAGAAGAACAAATGAATGCAACGGAAGAAATAAGCAAAGCAATAAATAGTATTAGTGAAAGTGCTACAGAGATAGAATCAAAAGGAATGTTTAATTTAGAAGTAACAGAAGAAGTATCAGATATGCTCGCGACAAAACTTATAGAAATAAAAGATATAATAAAAGAGCTAGAAAATTTTAAAGAAGAATTAAAGGAATTAAAAAAATAAATTATATAAAAAGGACTTTAGGATTTAAAAACCTAGAGTCCTTTTTATATTTAGGATTCACGATTTACCATAAAAAGACTGTAAATCCAAATGAAAAAAATGGAAGAGGCGCATATCCTAATAAATCTTGAATAAACCCAAGTCCAGTACTGTTTACCATAGTATCTATTTGATTTTCTAAATCACCTATAACAGTATTAGAATCAGGTAAAGTAAAATCACTTGGTGGAGTAACACCATATTCGTTTAATTTGTTTTGTAAGTCAAATAAATCAGATTGAAGTAAAGCTTTTAATTCAGTTTCTTGATCAGTAGTTAAAAGGTCATTAGCACCGTCGTCTATCTTGGTAACTATATCATTAGCAGTTGTGCTATCAACAGTAGCATTTATATCAAATGTATTAGCTCCTGATATTTTTTTTACAAATTGTAATCCTATTTCCCAGTCTAAACTAAGAAAATCTCCGTATTGATATCCCCAACCTAAACCTATATATGGTAAGTATTTTCCAAAATCAGTATTGACAGTTCCGTTCATAATTGCGGGAGAAGACCCACCATAATCATAAGAAATATTATTCATTTTAAAATTAATATCACTTAAATTGTATGTATAACCACCAGTTAATCTAAATCCTCCTGCAAATGGATGAAAATGAGCATTAGCTTTAAGAGCAGATATTTTTAAGTTACCAGTCAAGTCCCCAGTTGTAAAATTATTAAGTGTAAAATTATTATATTCTAATGATGAGCTAAAAAAATCATTAAATGTATATATCCCCTTTAATTGATAACCACCAGTACTTATTCCTACGCCTATACCAAGATCTTCTTTAGTAAAAGCATAAGAGAGAGTAGAAATTATTAATATTAATAATAGAATTAATTTTTTCATATTTTTCTCCTTTCTATATATATTTTTATAAATAATTAATTATAGAATTTTAACTTTAAAAATAATATTTAAAGTTTTTCTATTAATATTATATTCGAAATTTTTTACAAAAACTATAGAAAAAATAAGTCCTCATAATGAGGACTTAAATTAAAATTTAAATTTATTGATTTCATTATTTACAGTATCTGAATTTTGGGCTAGATTTTCAGCTACAATAACAAGATCATTTATAGAAGTACTTGTTTCTGTCATGGCATAATTTATTTCTTCAATACTTGAAGAAATATCTTCAAATACGCTTTTTATTTCATTAGAAGTAGTACTTAATTCTATTACTTCATCAGTTTGCTTTCTAGTGTTATCATAAACCATATCTATAGATGATACAGCATTTGAGAGGACATCCATAACTTGTTCAAATATATTTTCGATTCTTTTTATTTCATTAGTCATATCAGACATTTTTTCTCTTGATTTATTTGAATTATTTACAGTAATATCAATTTTTTCAGAAACATTATTAACTTTATTTTCTATTTCTTCTGCCATCATTTTACTATTTCCAGCAAGTTTTCTAATTTCGTCAGCAACTACAGCAAAACCTTTACCAGCTTCTCCAGCTCTAGCTGCTTCTATTGCTGCATTTAGTGCTAATAAATTTGTTTGTTCTGTAATAGCATAAATTTTATTTACAAATTCTTGTATCTCATTTGATAATGATTTTAAAGTTTCTACTTCATTTATATTATCTTCAATTTCATGTGTAATAACATTAATTTTTTCAGTAGCACTTTTTATAGTAGACTTTTCTTCGAGAGATTTTTGTAACATTGATTCATTTTCAGATTTTATATTATTAAATTCATGAAGCATATTTTCAGAATTTTCAGCTATAGAATTTGCATTTTTAGCCATTTCTTGAAGTTTTTTAACAGAATTATTAACGTTTCCTGTTATTTCGGAAACACTAGCAGATATTTCTTCTGATGAAGAGCTACTTCTCAGTATTGTATCAGATATTTTATTTGCTTCATCTTTTGTATGTTTTGAAGAATTACTAACTTCTTGAATAGTTTCTTTAAAAGCAGCTATCATTTTTTCAAAAGATGTTCTAATTATTTTCATTTCATAGTTTTCTTTAATTTTTTTAGATTTTTGTTTTTTATTATTATTTTTAGATTTTTTATTAGAATTAGACTTTTTAATTTTTTTAGATTTTTTTTCTTTTTGACCTAATTCATTAAAATCAATATTTAAATCTAATTGTGAAAGTTTTTCAGTCATAGCTATTAATTTATTTAAAAAGCTATTAATATTATTAGTAATATTAATAGAAAGTAGAGTAAGTAAAGCTATTATTCCTAGAATAATAATAATATTATTAATAGAACTAGATTTTATATGTTTTTCTGTTTCTTCAGTAACTTTTTTAATATTATTAATTGACATAGTATTTTGAAGTTGAGTAGAATCAATAAATGGTTTTAAAACAAAACCAACATTATCAAATTCTACTAGTATTTTTCTTTCAAAAATATTATTAATATCATAATTAAGTTGTTCAATTTCTTTATTTAATTTTTGGATCTTATCACTATTTTTAGAAATATCAGAAATACTAGTGGATAATTTTTTTATTTGAATCTCTTTTTTTAATTTTTCTTTTATTAAATTAGAATAATTTTTTGTATGAGTTCTCAGTTTATCTAATATAGGAGAAACACCATTTCCATTAGAAGTATCAATACTTGAAAAACCTCTTTCAAAAGAATCGATACCATTAATGGCATTAGTTTGATATTTTTGTACTAAAAAAATATTTTTAGATTTTCCTAGTAAAAAAATATTCTTTAAATAATCATTAGTAAGCCTTGTTTGGGCTATTTGAGCAAGAACCATTTTACCATTATTTTGTTTTATTTGTTCTACACTACTTGCAATATTTTCAGCTTTCTCAGAAAAACTTGAAGCTGTATTATTAAAAATACCAAGTAATAAAAATAGCGATAAAATAATAATAGCAAAACCACCTTTTAATTTTGTTGTTAACTTCATAACTGCTTCACTCCTTTATTTACCATCTCTTAAATGTACTAAAAGAAAAAAATTTAACTATTTATATACATCTCTATTTAAAATTATACAACTTTTTTATTTGAAATACAATAAAAAATTATTTTATAATTGAATTAAATTTTTCAATATCATTTATAATTATATCTAAAGCGCCTTGCCAAAATTCTTTTTTTGTAATATCAATATTTATTGAGTTCATAATATCTTCAATATTATTTTTTCCAGTTATAGATAAAAGAATATCATATTTTTTTATAAATTTATTTTTATCTTCTAAATATAACTTATATAATCCTTTTGCAAAAAGTAAACCAAAAGTATAAGGGAAATTATAGTAATTTACTTCAGCAGAATAATAGTGAGGTTTACATATCCACATATATTTGTGTAAATAATTTTTGTCGAGGCCTTTTCCATATGCTTTTTTTTGTGCTTCTAACATTAGATTATTTATTTTTTCTAAAGATAGTGAACCTTTTTCTCTTTCTTTTATAAAAGAATCTTCAAATAAAAATCTAGAGTAAATATCAACTATAATTTGAGTATTATGTGTAAGATCTTGTTCTAAAATAAATAATTTTTCATCATCTGAAGCATTTTTTAAAATTGCATTTTTTACAATTGTTTCGCAAAAAATAGAAGCAGTTTCAGCAATAGGCATAGTATAATTACTATTAAACAGATGTTGATTTTTAATTGCTTCACCATGGTATCCGTGCCCTAATTCATGAGCTAAAGTAGAGACATCATTAAAGCTACCACTAAAATTTAACATTATTCTACTTTCTTTTTCAGAATGAATATTTAAACAAAAAGCACCACCTCTTTTTCCTTGAGCTGGTAAAAAATCTACCCAATTATTATCAAAAGCTTTTTTTGCATAGTTACTAAGAGAAGAACTAAATTTATTAAAATTTGTTATAATAAAGTCTTTTGCTTCTTCTATAGTATATTTTTTATCAATATTTCCAATGGGAGCAAATAAATCATAAAAAGGAAGACTGTTTTGATGCCCTAAAATTTTAGCTTTTTTTAATAAATATTTTTCAAAATATTTTAAATTTTCTTGAATAGTTTCAAACATTATATTTAACGTAGATTTACTTACTCTTGACTGAATAAGAGTTTTTTCTAATAAAGAATTATAGCCTCTCATTTTAGCTTCTAAAATAGCTTCACCTTTTATAGCGTTTAATGCAAAAGAAACAGGAGATTCTATATTCTTGTATGATTCTATTTCAGCAAAATATGCCTTTTTTCTTATAGTAGAATCTTTATCATAAGCAAGATTTCTAATAGACGAAAGAGGTAATTGTTTTTGTTTACCATTTATTTCTATATTTACTAAAAGATTAGCGGTAAGATTTTCTTGAAGTTTTGTCCAGTATTTTGAACCTGTATTTTTCATTTTTTCTAATAAAAGTTCTTCATTATCACTTAATAAATGTTTAGATAATTGTTTTTGTTCACTTAAATAGAATTTAAACTCTTTTAAATAATTTCTTGAATTGATTATATCATCTAAATTATCTAAATTTTTTAAATATTTTTTTAAATTAACTTCTATTTCAGTAATATTAGTATTAAAGTTTTCAATTTTTTCTAAATATTCCATAGCGTCACTATCATTTACATTTGTACTTAATTTTAATTCGCAAAAATAATAAATTTTTAAAAATTTTGAAAAGTACTCAGAATATTCTTCTAAAAATTTTTCTAATAAATTAATATTATTTTGATTAAAGAAATTTTTAAAATAACTTTTTTTTTCAATTAAATAATTAAAGTCATTTTTAAATTCTTCATTATTAAAAGATGTATATAAAATATCTAAATTCCAATTATGCATAAATCCCTCCTAATTTTGTATTTATATTATAAATATTATAGCACAAATAAATAAATTACTACAAATCAAAATCATTTTTTAAAATACACTTTTAAACTCATTACAAATATGATATAATATAAAATATAAAATAATTAGAGGTGAATTATGAAAAATACAAGAGATAATATTTTTATTGGAGCACATGTAAGTGTTAGCGGAGGAATAGAAAAAGCTCCGATTAATGCAAATGATATAGGTGCAAAAGCATTTGCATTATTTACTAAAAATCAAAGAAGATGGGATTCAAAACCCTTAGATGAAAAAAATATAAAAAAATTTAAAGAAAATTTGGTGAAATATAATTTTAATCCTAAATATATTTTACCACATGATAGTTATTTGATAAATTTAGGGAATCCTAATAAAGAGAAAAGAGAAAAATCATTAAATGCTTTTATTGATGAGTTAGAGAGAGCTTATCAATTAGGATTATTATACGTAAATACACATCCAGGAAGTCATTTAAAAGAGATATCAGAAGAAGAATGTCTCGATTTAATAGCTGAAAGTATTAATATATCTCATAGTAAAACAAAAGATGTAATAGTAGTACTTGAAAATACAGCAGGACAAGGAAGTAATTTAGGGTATAAATTTGAGCATTTAGCCTATATTATTGAAAAAATAAAAGATAAAAATAGAATAGGTGTATGCCTTGATACTTGTCACACATTTGTAGCAGGGTATGATTTAAGAGATGACGAATCATATAATAAGACTATGAATGAATTTGAAAAAATAGTGGGATTTAAGTATTTAAAAGGAATCCATTTAAATGATTCAAAAACAGAGTTTGCAAGTAAAAAAGATAGACATCATAGTATAGGAAAAGGATTTTTAGGCAAAAAATTCTTTAAGTTATTTATGAATGATACTAGAATGCAAAATATTCCAATAATTTTAGAAACTATAGATAATAGTATATGGAAAGAAGAGATTGAATATTTATATTCTTTAATTGAAAACTAAAATTAATATATTATTTAGATAAAAAACCTATACAAATATTGTATAGGTTTTTATAATTCCTCATTATTATTAAAAGTTTTAACAGTTGAATCGAGTACATACATGATATCTTTTCGTTCTACTATTATTTTTATTTTTTCACTTAGCTTTTTATCTTTTCGGATTCCATTTAGTAATTCTTTTGCAGGATTAATAGCTATAGGTTTTCCAACAGATTTAAACATTGTGATATCGCCATTAGTATCACCATAAGCATAAGAGTTTGATAAATCAATATTATATTTTTCTACAAAATTATAAATTGCTTTTTGTTTACTTTCAGAATCCCACATTGGTGTAACTTCACCAGTAAAGATATTGTTTTTATCAACATGATAAATACTACCACAATAATCATCTACTTTATATTTTTTTGCCATTTTAGATACTAGAAAATCAGGACTTCCAGAGATAAAAATAACTTTATGTCCATTTTCCATATGCCATTTTATTCGATCTCTTGTAAATCTATAAACTCTTTCACCTTTTAGTCTAATAACTTGATCTGAAATAAATTCAACATGATTTTTATTTAAGCCTTTCATTGATTCAATATAAATAGTAGCTAATTTTAATAAATAATCATCATAGTTTCCTTGCCTTTTATCCCAATCATGAAAATTTTTTTTGTTCCCATGCCATACAATAGGATCAACAACTTCATATCTTATTAATTTTTTAAAATGTTCTACCATAAGAGAATCTCTATACAAAGTACCGTCTATATCAAAGAATGCTGCTATCATTATGCTCATCTCCTTTTTAGTAATTTAAAGTTTTTAATTTTTTTGTAAGTTCATAAATATCTGCTTTAATAATACTAGCATAAGTGTAAATCTCATTAGTTTCTAATTCATTTAATAGGATATAATTAATGAGTCTATTAGTTTTATTCATTTTAAAATTTCCAATAGATGCAGATATATTTTTTAGAATTTTTTTAATCTCTTCTATATTATTATCTTCTATATTTTTTTCAAAATCCTCTAATTCTTTTTTGATATTATTTAGAAAATTTTTTGATAATATTTTAAATATCTTATCTCCATAATGCATTTTTAAATTATCGATATCAATATTTATATTATTTAAATATTTAAAAGTAACTTTTTGAAGTTCTTCGTAGATAATAGGTTTTGCGACATAATCATCTATTCCAGCTTCAAAATATTGATTTTCATAACCATGGAAAAGATGAATAGTAACAGCAATAATAGGAGTTAATTTATCATTTTTTCTGATTGCTTTAGCTAAATCAAAACCATTTATATCATTTAATTGAATATCTAAAAATATTAGAGAAAACTGTTCATCTAATAATAAATTAAGAGCTTCTTTACCAGTTTTTACAGCAGTACATTTTATTCCCATTAATGTAAAATATTCTTTTGTAACTTCAGAATTTATGTTATTACTTTCAACAAGTAAAATATTTTTTTTCTTTCGTTCTTCTTTATTTTCTAAACTTCTTTTATGATATAGTTTTAATTCATTATATAAGATGTTTTGTGATATAGGATTTAAAAAAATATAATTTAAATTATATTTTTTTAAAGTGATAATATTATTTGGATTATATATTAAAAAAATAGATTTTTCTTTTAGTATAAAATTATTTAATAATTTTGGGAAAATCATTTCACTTGATAAATCAATAAAATCTTCTGAAATTAAAAAATAATCATATTTTTGAATAAATTGTTTTTCAGATAAAAAGTTAAATAAATTAGCTACATCGTAGATATTAGTATAATTAATATCTAAATTAGAAAAGAATTGCTTATAATATTTAAGTAAAAAAAAGTCTTTTTCAGCAATAGCAATATTTAGAGATAATTCTTTTCTATCAAATTTAGTCATAGGAAATATTTTTATTTTAAAACTAAAAGCTATTTGACTAGGTGATAGATAAGTAAATTTTATATGTTTATTTTTTCTTAAAAATTCGCTAAATTCTTCTTTTATAATTTTCTTTTTTAAATCATATATATATATATGCATATAATTTTCACTGATTGCATTTTTAATAATAATATTTTTATAAGAATCTTTTTTTACAATTTCATCTAAAATACTAACTAATGTTAATTTTAAATGATTTTTATTTGTTTTAATTATTTTTGGAGTTTCTTTACAAATATCAAAGATAATTTTAGTATTATTATCATATATAGAATATTTCATTAAAAAAATAATTTCTTCTAATACTTTTCTAATATGAATTATATTTAACTTTTTCTTGATGTTAATATACTTAATAATAAAATATATTGTTATAATAAAAATAATAAAATTTAATAGAATAAAGTTATTTAAATTGGTATAAAAATCATATAAATTATTTTTTGCATAAGAAAAAGTTGGAACTAATAAAAATAATAAGATATACATAATATTCACCTCTTTAATATATTATACTATAAAGTGAAATATTTGTAATAAAATTTTTTAGTTTATGATATAATAGTAGGGATTATTTAAAATAGAAACAAATAAAAACAAATAAAAAAATTATAAATTTTATAAAAACGTGGAGGGAAAATGGAATACAAAATGATAATTACAGATATGGATGATACACTGCTACGTGATGATCATACAATATCTAGAAGAACAAAAAAAATTATAAAAAAAGCACAAGAAAAAGGTGTGAAATTTGTATTAGCATCAGGTAGACCAACTTTTGCTATGAAAGATTATGCAAAAGAATTAGAACTAGATAAATATGGGAGTTATATAATATCTTATAATGGTGCTGTAATTACAGATGCAAAAGAAAATAAAGAAATTTTTAGAAATATGCTGCCAAAAGAGACAGTTCATGAACTAGTAGAATTAAGTAAAGAACATAATATGTATATACATACATATCTAGGGGATGATATTATTACAGCAACACCAAATGAATATACAAATATTGAGCAAGACATTACTAAAATGGATATAAAAGTAGTAGATTGCCTAAAAAGTCATGTAAATGAAGATGTAGTAAAAGTTCTTATGTTACAAGAACCAAATTATTTGTTAAATATAAAAAATAAAATACAACCTTTATATAAAGATAAATATAGTATCACTATATCAAAGCCTTTTTTCTTAGAATTTATGCCACATGGAGTAAATAAAGGAAAAAGTCTAGAAAAATTATTAGATATATTAAAAATAAAAAAAGAGGAAGTTGTAGCTATTGGAGATGGATTAAATGACCTTGAAATGTTAAAAGTAGCAGGACTTCCGGTATGTGTTGAAAATGCAAATGAAGAATTAAAAAAATATGCAAAGGTTATAACAAAATCAAATAACGAAGATGGGATAGCAGAATTAATAGAAAATTATATATTAAATTAAAGAGTAGTTAAAACTGCTCTTTTTTAATGAAAAATTTATAAAAATAGAGTAAAATAATAATATTCAAGTAAAGGAGAATTATGATTTTTAAAAAATTTAAATTAGGTAATTATAGGTTGCAAAACAAAGTAGTACTTCCACCAATGGTTAGGTTTAGTATTTTAGATAAGAGTAGTTATGTAAATCAAGAACTTATTAATTATTATAAAAATACATGTGAAGCCAGAAATGGACTTATTATAGTAGAAGCTACAGCAGTATCAAGTGACGGGAAATTACGTGATAATCAAATAGGAATATGGGATGATAGTTTTATTGAAGGACTTAGTAAAATAGCAAAACTTGGAAAAGAATATAATATTCCAATGTTACTCCAACTACATCATGCAGGATTTAGAGAAAAAATAAAAGATGTTAAAGAAGAGATTTTAGATAAAATACTTGATGATTTTGTAAATGCTACAATTAGAGCTAAAAAAGCAGGATTTAATGGTATTGAGATACATGGTGCACATAGATATTTGATTTCGCAATTACACTCAAAAATATGGAACACAAGAGATGATAAATATGGTGGGAATTTTCAAAAAAGAATGTATTTTATTACAGAATATGTAAACAGAACAAAAGAGCTTTTTAATAATGATTTTTTATTGGGTATAAGAATAGGAGGGAATGAACCAGGGATTGAAGAAGGAATAGAAATAGCTAAATATTTAGAAAAATTAGGATTTAAATATTTGCATATATCACACGGTATTCCATATCCAAATATTAAAAGTTTTGATAAAGTAGAAAAACCAGAGGATTTCCCATTGAATTGGATAAATTACTTGTCTTTTGAAATAAAAAGAAATGTAAAAATACCTGTAATAGCGGTATATGAAATAAAAAAATATGAACAGGCAAAATATATTATAGATAATAATGGAGCTGATTTGATAGCCGTAGGTAGAGCACAACTTAATAATTTTAATTTATTAAAAAAATGGCATAGAAAAGAAAAGTATGAGAGGAGTCTAAAATGGAAAAAAAATTAATGTTTGATAGTATAATTTTATTTATTTTTTTATCTACACTAAGCTTTGCAGAAGACATCGTTATACATTCTCTTGAACCTGGAATGATGGATAATAGAGGCATGGGAATGTATAAGAATGAAAAATATTTGTTTCCAATTTTTTCAATAAGTTATCCATTGATAACAAATGATATGAAAATGGGAAATATAAACTATCCAGCAAAAAAATCATGGAGTTTTATGTTTGAAAGTGGTTTAACTAAAAATGAATTTATTAATTTAGGAATAGGAGTAATGTATACAGAACAATTTAGATTATTAACATTATCAAGTTATACAACTTATTCAACACCAGATACTTATAAATTTGTACCAATATATATGATAGCAGATGTTTCTCTTTCTCCTTATACTGCTTTTGTTTTTAAATTAGGAGTGGGAAATGTAAAAGCAAATAATGAGTTTATAACAGAATTTGGCGATATAGTATCAACTGGATATTATTATGCAGGAGGAATTAGATTTTTATCTCTTGAAATATTATATAGTATAGATAGTTTAAAACTTTCAAAAGGAGTTAAAGTTAATAATAATAAAATAAGTTTAGTATTTTAACTTAATATATAAAAAAGTGCTATTATCAGATAGCACTTTTTTATATATTAAATTTTTTGTTTAAATAAATATTAAATGTAGCATTGCCTAAATTTTAATGTTTTTATATAGATCAAAAAAAGATCTGTATTCGTAACAAATGTTACTGAATATAAAAAATATATTTGGTAAAATAAGTTTAGTAAAAAAGTCAGGTATTAAAAGATAAAAAAAAAAGGAAAATATATTTTTTCTCGTATATAAAAATGGTAAAAAAAATTCGTAACAAATGTTACTGAATATAAAAAATATATTTGGTAAAATAAGTTTAGTAAATTAATAAAAAAATAAGGAGGTATTTAAATGTTTTGTTATCAATGTCAAGAAGCAGCAAAAGGAACAGGATGTGATATTAAAGGGGTATGTGGGAAAGAGGCACCAGTAGCTGATATTCAAGATATGCTTATATTTGTATTAAAAGGTATTTCATATGTTTCTTCGGTTCTAAGAGAGGTAGAAGAACTTCCAGAACATAATATTGTTGATGAATATGTTACGACATCTTTATTTACAACTATTACAAATGCAAACTTTGATGAAGATGCTTTATTTAATAGAGTAAAATCGGGTATAGATTTAAGAAATAGTTTAATAAAAATAGCAACAGATAAAGGAATTGAATTAGCTGATTATGATCAAGTAACTTGGAATCCTGCTAATGATGAAGAAATAAAAGAGAAAGCAAAAAATGTAGGGGTATTAGATACTGAAAATGAAGATATTAGATCTTTAAGAGAGTTAGTTACTTATGGATTAAAAGGTGCAGCAGCATATTTAGAGCATGCAAATAATTTAAAATTTGAAAATAAAGAAATAAATAAATTTATACAAAAAGCATTGTCTGATTTATTAAATGATGAATTAGGAGCAGATGAATTAACAGCTCTTGTTTTAGAAACTGGTAAATATGGTGTAGAAGCTATGGCTTTGTTAGATAAAGCAAATACAAGTGCATTTGGAAATCCTGAAATTACTAAAGTAAATATAGGAGTTAGAAATAATCCAGCTATATTAATTAGTGGACATGACTTAAACGATATGGAACAATTGTTAGAACAAACTAAAGGAACTGGAGTAGATGTATATACTCATAGTGAAATGTTACCAGCAAACTATTATCCAAAATTTAAACAATATGAACATTTTGTAGGAAACTATGGTAATGCATGGTGGAAACAAGTAGATGAATTCACTTCATTTAATGGGCCTATTTTATTTACTACAAACTGTATAGTTCCTCCAAAAGCTGATGCAACATATGCAGATAAAATATTTACTACTGGTGCTGCAGGACTTGCTGGGGCTACTCATATAGTGGCTGATGAAAATGGCAAAAAAGACTTTACTCCAATTATTGAATTAGCTAAAAAATGTAAACCACCTGTAGAAATTGAAAAAGGTGAAATTATTGGTGGATTTGCCCATAATCAAGTATTAGCATTGGCTGATAAAGTAGTAGACGCTGTAAAACAAGGAGCAATTAAAAAATTTGTGGTAATGGCTGGTTGTGATGGTAGAATGAATTCAAGAAATTACTATACTGAATTTGCTCAAGAATTACCTGATAATACAGTAATTTTAACTGCGGGATGTGCTAAATATAGATATAATAAATTGGATTTAGGAGATATTGGCGGAATACCTAGAATTTTAGATGCTGGACAATGTAATGATTCGTACTCATTAGCTGTTATTGCATTAAAATTAAAAGAAGTATTTGGACTTGAAGATATAAATGAATTACCAATATTCTATAATATTGCGTGGTATGAACAAAAAGCTGTAATTGTATTACTTGCTTTATTATACTTAGGTGTTAAAAATATTCACTTAGGACCAACATTACCTGCATTCTTATCTCCAAATGTTGCAAAAGTACTTGTAGAAAACTTTGGAATTGCTGGAATTGGCGAAGTAAAAGAAGATATAGAAAAATTCGTATTATAATTTTATATATGTGACATCAAAAAAGACTGACTTATCTTAAGTCAGTTCTTTTTGTTTTTAAATATTTATCAAATAAATTACTAAAAAGATTGAGTATATAGTTTAGAAAGAATATAATAAGTGTAAGAAAATAATTTTAAAAAAAATAATTTTAAAAAATAGAAAGCAAACCTTAATTATGATATGATTAATCTCTAGCCAAAAATTAAATCAAAAGAATAAAGAAAAAAATAAAGAAATAATTAGATGATTTAATAATTTTATAAAAAATGAAAAAACTAATGAAATATTTTGGGCAATAAAATAAATGTCGGTAAGTTATAAAAATAAGGCGTCTTAAATTTTTTCTTAAATTTGACACTATCCATATATATAAAAAAATTTGACATCGCAACTATATGATAATATAATACATTAGAATGTAATAATGTATTTGGGAGGGATATAAATGAATGAAACAATAGTAATTATTGGTGGTGGAGCAGGTGGAATGACTACAGCATCACAATTAAAAAAAATATCACCAGAAAAAAGAGTAGTTGTATTTGATAAAGGCCCTTATGTATCATGGGCAGGTTGTCCAACACCTTATTATATAGCAGAAGAATTACCTTTTAAAAGTGTAGTACATTTTACACCAGAATTTTTTAGAGGAAGAGGAATAGAAATATATGAAAATCATAAAGTAATTAAAATAGATAAAGAAAATAAAAAAATAATGGTAGAAGGAAAAGAAATTAATGGAGAATTTGGCTATGATAAATTGGTACTAAGTCTTGGTGGGAAATCATTTGTACCAAAAATAAAAAATTATAATAATAAATTAGAAAATCTTTTTAAACTTTCTCATGCAGTAGAAGCAGAAAAAATAAAAGATTATATAGATAATAAAAAACCTAAAAAAGCAGTAGTAGTAGGTTCTGGCTTTATAGGACTTGAGATGGCAGAAGCTTTTAAACAAAGAGGATTAGATGTAGTAATAGTAGAAGCTATGGATAAGATCTTTCCTACATTAAATGAAAATTTTAGAAAAATACTTTTAGATAAAATGAAAGAAAAAGATATAAAACTTTTATTAAATGAAAAAGTTGTAGAGATAAAAAATAAAGATAATAAAGTAACAAAGTTGATATTTGAATCAGGAAATTATATAGAGGCAGATATATTTTTATTAGCAATAGGATTGAGACCAAATTTAGATTTATTGATAGAGTCAGGATTTGAATTAGAAGACAACAAATTAGAAACAAATGAAAAATTTGAAACAAAATACAAAGATATTTACGCACTTGGGGATATGGTATATAATAAAAATCTTATTACAAAAAAAGAAGTGTACGCTCCATTTGGTGATGTAGCTGATAAACAAGGAATAATTTTATCAAAAATTTTATCTGGGAAAAATGTACAATGGAGAGGAATAATAGGGACATTTGCTACTTCATTTTTTGATATAAAAATAGCTAAAACTGGATTAACATATGATGAAGCTTTAAAAGAAGGATATAATGTAAAATCAATTAATGTAACAGGAGTACCAAAAGTATCAGGATTTAAAGATAGTACTAAAGGAACTATGGAGATAATATATGATGATGATAAAAAAATAATACTTGGGGCATCAATGCTAGGATATGAAGCAGTAGCACAATTTATTGATCAAGTAGCTATAGCAATAACTTATAAAATAAGTATAGAAGATTTATTTTATGTAGATTATGCTTATTCTCCAACTAATGCAAGTGTTTGGAACCCATTAGTTGTAGCCTATAGAAAAGCATGTAAATAAAAAAGTAAATAAAAAAGAAAAAAAATATTGACATGTTTTTTATAATATGATACTATTATTCTTGCCTGAAGTGATTGCGGGAATAGCTCAGTTGGTAGAGCGTCAGCCTTCCAAGCTGAATGTCGCGAGTTCGACCCTCGTTTCCCGCTCCATCTTTATGCTCCGTTCGTCTAGAGGTTAGGATTCCAGGTTTTCATCCTGGCGGCAGGGGTTCGATTCCCCTACGGAGTACCATATTTGCCGATGTAGCTCAGTTGGCTAGAGCATACGGTTCATACCCGTAGTGTCGGAGGTTCGACTCCTCTCGTCGGCACCAATTTATTTATAACAGCTTTTAAGCTGTTTTTTTAATTTTTTGTATTTTTTTTTAGAATATGCTAAAATATTCTTAAGGTTTATATGAATACAAAAATTAAAGGGGTAAATTATGTTAAATAAAAAAAATAGCAATTATCTTTTGAAAACATATAAAAAACATGATAAAAATTCCTTTATTATAGAGATTGATTTGGATAAATATAACGAAGTTTTTAATGAATGGGATAGATCTCATATAAGAAAAAGAGATATTCATCCTGAATTAGAAGAATATTTAGATAGTTGTTCTGAAGATATTCCTTTAAAATACAAACTTGTATTATATTTGTATTTACCAAATAAAATAAAAGATGAAAAAAAAGAAAAAACAATAATTGAAGCTATTCATAATTATTATGAATACTTACTTCATTTTAATCAAAAAAAAATCTCTGAAATTAATTCAGAATCATTAAGACATCTTATTTTTTCTTTAATATTATTAATTCTTTCTTTTTTTATGAAGTTAAAAATTCATAATGTATTATTTAATGAAACCTTAATAGAAATATTATATATTGGAGCATGGGTGCTTATGTGGGAAGCTTTTCATAATACATTTTTGTCAACAAGTAATATTCGAAAAAAGTCAAAAGAGTATAAACGATTTTTACAATCTAAAATTTATTTTTATTATGAAACTAGAGTAAACAATTAAATAAAAATTAAAAAATATTGAAGAGATAAGGATTTTTATTATTAAAGGTAATTATTTTATTTTAAAATTTAGGAGGGAAAATGAAAATAGGAATTTTTACAGATACTTATTTTCCAAATGTAAATGGTGTTGTTCGTTCTATTGAAACACTTAGGGAAAATTTAGAAAAAAGAGGCCATGAAGTATATATTATAACAACTGTTAAGCTTGATAAAAAAGAAGATAAAGTATTAAGAGTATCAAATTTACCTATAGAAATATTAGAAGGATATAAAGTAGCACTTCCTTATTCAAATAGAGTATTTAAAGCTGTTAAGAAACTTGAATTAGATGTGATACATACACATACAGAATGGAGTATAGGAGCTTTTGCAAGAATATGTTCAAAAAGATTAAAATTACCAATGGTTCACACATTTCATACGATGTATGAAAATTATTTGCATTATATAACAAAACAAAGAGGACAAGTAATTAGTAAACAATTAATGAAAAGTATAGTTAAAGGACATAGTAATTCTGCTAAATATGTTATTGCACCGTCACTAAAAGCTAAAAACACTTTAGAAAATTATAAAGTAAGATCAAATATTGAGATAGTACCAACTGGAATAGAACTTAGTAAATTTAAAGAAAAAATTAATCAAGAATTAATTAATAAAAAAAGAGAAGAATTAAAAATTGATAAAAATGATTTTGTAGCAATGTATTTAGGAAGAATAGCTAAAGAAAAAAATATTGAACCTATTATAAAATCAGTATTAAATATAAAAATATCAAATTTTAAATTAGTTATTGTTGGAGATGGACCTGAAAGAAAAAATCTAGAAAAAATAGTTAAAGAAAACAACTTGGAAAATAAAGTAATATTTACAGGGCAAGCAGCAATGGAAGATGTCCCGATGTATTATAAAATGGCAAATCTTTTTATACAAGCATCTAATACAGAAACTCAAGGATTAACTATATTTGAATCTATGGCATCTGGAACACCATTATTAGTAAGATTTGATACAAATATTAATAGTTTTTTTGAAAATAGAGTAGAATGTGTTTATTTTAATGAAGAAGAAGAAATATCTGAAAAAATTAATGAACTTATTGAAAATAAAGATTTATTAAATTATATAAGAAAGAATGCTCTCGAAAGAATAGATGAATTTTCAGCAGAAAAATTTGCGGAAAATATAGAAAAAATATATTTAGCTGCGATAGAGCTTAAAAAAAGTAGAAATAAAAAAAAAATAAAACTTAAATTTTCTTTTAGAAAAAATAAAAATTGATTTTAAATAAACCACTTCTTATTAGATAATAATTTTATTATCATAATAAGAAGTGGTTTTAATTTATAATTATACATTTGTATAAATACTTATATTCATTTCTGTATATTTAAACTTTATATTTGAAATAATATAAAGAGGGGTTAAATTACCATCTTTTAATAAGCTTTTTAATTTAGTACTAATATCAATAATTATATTTTTGTTATTACAAGGCTTTTCAAAACTTGTAAGACATTTTTCAAAATTATCAGGAGTATCTAAAGAGGCATCTTTATAATTAATAAAAAATTTCATAATAATTTTTTCTTTTTCTTCTAAATATTTGATATTTTTAATATGCAAAGTAGCGGATTTGATTTTATCAAAATCTACTTCACCTGGAATTTTAATATACATTATATTATTATTTTCAATTATATTATTTTTATTTAATATGATTTGAAAATGATTTAAAGTTTGTTCACCAGCAATATTTTTTTGCATAAGTCTTTTTACTTCCTCGATAGGTAAATTTTTACCTAATAGATACATAAGTTTAGTTACAGCTGCTTCTGGAGTAAGGTCGATACCACTAATTACACCAGAGTCAATAAGTCCACTACTAGCCTGATAAAGACCTAATTTTACCATTCCACTAATGCATTGAGTAATATTTATAATAATAACATTTTTTTCAGCTATTTCATGAAGGATTGATAAAAACTCAGTATTACTAGGTGCGTTTCCATTTCCATACGTTTTTAAAATTAATCCTTTAATATTATTTTTAGAAGTAAAAATTCCTTTTAGAATATTTGGGTCAAATCCTGGAAAGAGCTCTAAAATCATGATATTTGATTCAAGTTCTGTATTTATATAAAAAACTTCTTCAGGTTTTGGAAGAGGTTTTATAAACTTATCATTAAAAATTATTTCTGCTCCAGCTTCTGCAAGATGAGGATAATTTGGAGAATCAAATCCAGCATATTTATTTGTATATAATTTTCTAGAACGATTTCCTCTATAAAGTGCATCTCTAAAAAATATAGTTACTTCGGGAATAGTTTTTTCATTGCTAGCAATATCTAAAGCTGAAATCAAATTTTGTAAACCATCAGTTCTACTATTTTGTAAAGGAACTTGAGAACCAGTTAAAACAACAGTTTTACTTAAATTTTTTAACATAAAAGATAAAGAAGAGGCTGTATATGCCATGGTATCAGTTCCGTGTAAAATAACAAAAGAATCATATTTTGAATAATTTTTATAAATTAAATTTGCGATTTCTATCCAATTTTTTGGTTTCATGTCAGAAGAATCAATGAGTTTTGGCAATTGAATATATTCGGTATTATATTTATATAAAATAGGATATTTATATGCAATATCTTTCCATGATTTTGCAGGGATAAGAGGACTTAAAGGATTATTTTTATCTAAATTGACCATTCCAATTGTTCCACCGGTATTAATAATTAATATTTTTTTTGACATTTTTCCCCCTTCAATAAAATTATTGTATTTACTCTCTTGTTTATAGTACTTAATTATTGTATAATAATATGGAAATATTTTCAAATGAAATAGAAAGAGGGGCTAATTATGAAAGTAAAAGTTAATAGACAAGAATTTATAGAAATACTTAGTGATTTAAGTATAATTATTAGAGATAATCCAGTAAGACCAATTATTTCAGGTACAAAACTTATAGCGCATGAAAATAATATTTTAGAATTTAAAGGAACAACTCTTGAAATGAGTATGGTAGCTAAAATACCTGCACTTGTAGAAGAACCTGGGGAAGTAGTATTTAAAGTTCCTTTAGTACTAGAATATATTAAACTTTTAGAAGAAGAAAATATAGATTTAGAATATAAAGATGGAGTAATATTTATTCATAGAGCAGAATTTTCAGTATTTGATACTGATGATTACCCCAATATCAGACAACTTAATGAAGGGATAAAATTTAATATAGATATACTTGATCTTTTAGATGGATTTGAAAAAGTGAAAATGAGTGCGGCTACTTCATCTGATAATGTATCTATAAATTGTATTCGTATGGAGTATAATGAAAATAATATTCATTTTGTAGCTACGGATACATATAGACTTGCATATTTTAAATTAGAGGCAAATATTGAAGAGGAATTTGGGATCTCAATTCCTTTAGAAACAGTACAAGCATTTTTAAAAATATTTAAAAGTTATAGTGGAGAAGTCGAGTTTACTATTCAAGATAGTTATTTACAAATTCAAACAGATAAAATAACAATATTTACAAGACTAATAGATTCTAAATTCCCTGATTATAAAAATATTTTAAAAAATATTCCAACAGATAAAAAAATGGAAGTAAATAATGAAGAATTTAATAATTCATTAAAAAAAGTGTTAACAGTAGCAAAAATAAATATGGATACAAAAGATGCTGCTATATTTAGTTTTACAGGAAATAAAATGACTGTAATTGCAACGTCTGGTAGAGCAAAAACTACACAAAAAATTGATATGATAAAAGATGGTGGAGATTTTAGAGCTTCGTTAAATACTAGATATGTATTAGATTTTACTACAAAAATTAAAAAAAATATTATAATTTATGGAATAAATAGTAGTTCTATGTTTGTATTTAAAGAAGTTAAAAATGATAATTATTATTATATTCTTATGCCTTTAGCATTGAGAGAATAAGAGAACAAAAAAAGTTGCATCTTGAATTAAAATGTGGTATACTCCTATTGTAGTAATTCGAAATAGTAGTTTTAATAAGGTTTTTGTGAAATTATGAAGTCTGAGTAGTATTTCCAAAAGTTATTAAAAGCAGTACTATTTAAGAATTAAAAAAAATATTTTTGGAGGTATTACAAAATGGCATTAGGAACAGTTAAATGGTTTAATAGTGAAAAAGGATTTGGATTTATTACTTCAGAAGAAGGAAACGATGTATTCGTACATTTCTCTCAAATTCAAAAAGATGGTTTTAAAACTTTAGAAGAAGGAGAAAAAGTAAGTTTTGATGTAGTTCAAGGACAAAAAGGACCTCAAGCTGAAAACGTAGTTATAGTAAAATAATTAACTAATAGCTATATATTATAAGCCTGCATTTGCAGGCTTTTTTTTATTACAAAAATATATGTTTTTTAATTCAAAATATGTTACAATTAAGTAAAGTTAACATATATAAATTATTTAAATTTTTTTAACTATTTATAAAATTAATAATATAGAGATTTATATATAAGCTAAAATAAACTCTTTTTAAAGGGGGATAAAATGGAATTAAAAACAGAGCCATTTGATACATTAGTATTAGAATATAATTTTTATGGAGAAAAATTTGATATAAACAAAAAAAATTTAATAGGAAGTAAATTAAATAATAGATATGAAATTATTAAAAAAATAAGTGATGGTGGGACAAGTATAGTTTTTTTAGTAAAAGATATTCATGATGATAATAGATATATTGCAAAAATTTTAAAAGAAAATATTAATATACAGTTATTAGAAAATGAAATAGAGAAATTATTAGAATTAAAACATGAAAATATAGTAAATTTAATTGATTATAAAAAAGAGTATGGAATAGAACCAGCATTTATTATACTTGAATATATTGAAGGCAAATCATTAGAAGAGATTTTAAAAGAAAATGAAGATATGAAAGAAAAAGAAATATATCATATTTTTTATCAAATAGCAGAAGGAATAAAGTATTTACATAGTAAAAATATAATTCATAAAGATTTAAAGCCTAAAAATATATTAATAAATAATAAAAATAAAGTGAAAATAATAGATTTTGGAATAGCAGATTATTTAAAAGATAATAATATAAAAGCAGGAACAAAAATATATTGTAGTCCTGAACAAGAAAAAGGAGAAATATTAGATAAAAGAACAGATATTTATTCATTTGGAATAATGTTTTATGAGATTATTGCTAAAAAATTACCATTAGATATAAAAAATATAAGTAATATTGATGAATTAGAACCAGATAATATATTTTTTTATACATGGGATATAGTAAAAAAATGTCTTGAAAATCAAAAAGAGAAGAGATTTTTAAATTTTAATGAATTAATTTTTGAAATGAGATTAAGTGAATTTATAAAAGAAAATCTTTATTTTAATTTTAAAAATGAAATGTTAGATGAGAATAAAGAAAAAGAAATTATAAATATAGGGTTAGAAAAAGGATTTAGTAGGAATCAAATTTTAAAAGCTATAAATAAAGTATGTGAATATAAAAGTATAAAAAGAAGTTTTAAAATTCATATAGATGACGTTATAGATAAAATGAAAAAAGATATAGAAATAAAAAAAGGTTTAACTTTAGATGAAGATAAAAACTCTTTTATAAAAGAAATAAATGCAAAGTTTTATAATTTAAACATTGAATTAATTGAAGAATTATATGATAAAGAAGTTTTGAAATATAGAGAAATTCAAGAAGAAAAGTATAATAGTATTATAAAAAGAGCAGAAGAAGAGATAGAGATTGAAAATAGTGAAATAATAATTAATGATTTAGAATATTTAAGTGAAAAAGGATGCTTAAAGGCGGATTATTTATTAGCAAATATATATTTACAAGAAAAAACACAAGATATAAGAAGATTTTGGCATTATGTAGAAAGAGCAAAAAAATATAATTATTATTTGATTTATAATGCTATTGGGAAATATTATTTATTAGAAAAACTTTATGACGAAGCTAAAAAAAATTTTATTATCGCTATAAAAAATAATATAAAAATATCACATAACGGGATAGCATTAATTGAGTTGTATGAGGGGAATAACGAAAAAGTGTTGGAAGAGCTTGAAAAAACAGAAGATAAAAATTCTTATAATAATATTGGGTATTGTTATTATAATGGAATAGGAGTATTACAAAATATAGAAAAATCAGTAGAGTATTTTAATACTGCGTTTAAAATGAATAGTAAAATAGCGGTTTATAATTTAGCAATTTGTTTAGCAAATGGTAATGGAGTAGAAAAAAATATAGAAAAATCTATAACATTGCTTAATACAATAAAAGATATTAAATATGCAAAAAATTTATTAGCAATACTATTAAGAAAAAAAGATTATAACACTGCGATAGAATATTTTGAAGAATTAATTTTAGAAAATTATAATATTGCTTATTACAATTTAGCTATTTTATATGATGAAAATAAAGAATATGGAATGGCAATGATTAACTATAAAGAATATTATGAGATAACTAAAGATGAGAAAGTATTATTTGATATAGCATATCTATATATAAAGCAAAATGAATTAAATAAATTAGAAGAGGTAATTCAAGATATAAGTAATACAAAATTTGAAAATAAAAATGAAATATTAGGGATATATTATTTTTATAAAAAAGATTATAGTAAAAGCTTCGATTATTTATCAAAAGCATTAAAAAATGAAGAAAAATATGCTTCTTTTTATATGGGAGAACTTTATTTAAATGGATTAGGAATAACACAAAATTATTTAAAAGCATTTAAATATTATAATAATGCTAGGAAAATAGGAATTAAAGAAGTATATGATAAATTAATATATTTATATAATAATGGTTTTGGAGTTATCAAAGATGAAGAAAAAGTAAGAGAATTAAAAGTAGAAAAAGAAAATATAGATTATACAGATCTAAGCAAAAAATATAAATATAGTAATGATATAAAATGGGCATATTAGGTGATAAATTATGAATAAATTATATTCTATAAAAGAAATATCAAATTTAGCAAAAAATATATTAGATGAAAGATATAAAAAAAAGGGTTGGCTACTAAAAAAATTAGAAGTTATTTCAGCAGAAACAGTAATAAAAAATATAAAAAAAGGCGACTCTTTAATAAAAGAAAATGAAAAAATAAATGACGAAGTAAAAAAAATATATAATATTCAAGATGCGCTTTTAGCTTATTATGTAGCATTTCATAGAAGTAATGAAAAAGATAAAAGAGCAATTGAAAATATAAAAAAAAATAAAATTCGTTATTTGGATACAATAAAAAAATATATAGAATTAAACATTGACAAAAAAAATAATTACGAAAATATTGAGATTTTAGAAAATTTAATAAATATTTTAAAAATAGAAAAATTAGAACAAAGTTTATTACTTGAAAAAAGATTTTTTTTAAATAAAGAAGCAATAAATACTTTTAATAAAATAGAAGCTTTAAATTATAATGATTATAAAATTGCAAATGAAGAGTTTAAAACATATTTTAAGTATAATCTTCCTATAATTAAAGAACTGAAAGCTAAAATAATAAAAAAATATAATGAAAATATAAATAATATAAAAGAATTTTTAAATGGAAATAAAAATATAGAAAATATAAAAGAAAAATTAATTTATATTTCTTATATAAATCCAGAAAATTATAAAAAATTAAAAAATATAATTAATAATTATTATAAAATGGAAAAGATAATACTTTTTTTAGAGTCTGATAATGATTATAATAATTATATTAAATTAGAAGAATTAAAAAAAGAATATAATGAGATAAAATCTATAAATTTTGTAGTACCATTATTAATAAATACTTTTAATAAATTAAATAATAAACTAAAAAAATATAATAAAATTTATTTTAGGAAAAATTTACAAGAATTTTTTAATAATAATCATCAAGAAGTATATGATAAACTTTTTTTAGTTGAAAATTATTATAGTAAAACAGATAAAAAAATAATAGATTTATATTTTTTAGAATTAATAACAATTTTAGATGAAATAGATATAGATAAAAAATTAAATAAACTAGAAAATTTGATAGAAACTGATATAAATTTAGATACAAAAGATATATTAATAGAAGAACTTATGGAGTACTATAAAAAAGAAATAAAAAACTATAATTTTTTAGATGAATATACAATAAAAATATATGATAATCAATATGATATATTTTATAATATAATAAATAAAAATAAAATTACAATTGGTAGAAGTAGAATAAATGATATAGTATTAAATTCAAAATTTGTATCAAGAAAAGAACATCTTATTATTAACTTGGAAAAAATGTTATTTGAAAATCCAAAGTTCAAAATATTTTATATTGATAATGAAATAAGTGATATAGTAAATGAAAAAGAAATAAAAAAATCGTTATTTGAATTAAATATAGGAAATGTATTTACATTTAAAGTGATAGTTAAAGAAAATTATATTTTATTTATTCCATATGAAGATAAAACAAATATAAAAGAATGTAATGAATTTTCTTTTGAGGATTTTAAAAAAAATATTTATATTATAATAATAAAGAATAGTTCATTATATTTTGATAAATATAATGTTAGTGATATTGAAATCGGAGAAGAAGAATTTAGTTTAGAGTATTTAGATAATAAATATTTCATTAATTATAAAGATAAAATGAAAAGAGTAGTTAAAAAAATTGAGTTTTTTATCGATAATAGATATAAGGTGTCTATTAAATAATGTTTTATATTAAAAAAATAGGAGGAGAATACAATGAAAAAACTATTTTTTACAATCATTTTGACGATATTTATAATTTCATGTGGAAATAATACGCCAAAACAACCTGTAATAGAAAGAGATCCTGTAGTGGGAGAAACTAAAATTCTTAGAACTAGACCAGTAGATGAACCTAGTTGGACCTCATCAGTTTATAAAGCAGCAAAAGATTTTCCAGAATATGAATTATTTGTAGGGATATCAGCTTATTCTGGGAATGAAAGAGATGCAACAAAACTAGCAGAACAAGATGCTATACAAAAAGTAATAAATTATTTAGGAACTTATGGAGAAAATAATTTAAAAAAAGTATTTTCTAGTAGTGGAGTAGATTATGTAGATATAGCCGAAGCATCTCAAGAAAAAGTAACGCAAATAGCTAAAAATTTTGCTTCTGGAATAAAAACATTAGAAACATATTTAGAAGAGGGAGAAAGATATTCAACAAAACAAATTTGGGAAAAATATTTTAAAATATATGTATTATATGGAGTAGAGAAAACAGATTTCAATTCCGCTAGAAATAGAATTATTCAGGCACAAAAAGAGGTGTTATTAGAAAAATCTAGAACTGAAAGAAATGCAGAAGCAAAAGAAGCTATGGAAAAAGCTATTGAGGAGTTAGATGCATTAACAAAATAATATAAAGAGGTATTTTTATGAAAAATAAACTGCTATTTACTTTATTGGTAATAATAATAGGATGTAGTAATAATAAAGTAAAAATAATATCCAATCCGAAAGCTTATGATTATATAATTGAAAATCAAATTCCCTCTAAAAGACCAGATTGGACATACAATCTAAAAAGTATAGAAAATAAATATAAAACTTATGAGCTTTTTGTAGGGATATCTAATTTTTCTAATGATGAATACACTGCTAGTAAAATAGCTGAAGAAAATGCTATATTGCAAGTAATTAAATATTTAGGTGTTTCTGCTGAAATAGAAAGAATAACAACTAAAAGAAGTGAAAATAGTAGTTCTATTGATAATTTTAATTTAAAAAGTAAAGAAATAAGTAAGCAAGTATCAAAAAATTATGCTGAAAAAATTATACTTCTTGAAAAATATATAGAAGAAGGGAAGTATTTTGATCCGAGAAGATTTTGGAGACCATTTACAAGAGTATATTCTCTTTATGGTATTGATAAAAAAATAATAAACAAATAGCCCTCTTAAAAGAGGGCCATAAAAGGAGGTTATTATGATGAAAAGTTTTATTAGGACTATTCAATATAAGTTTACCTCTATTTTCTTAAAATAAAATTAAAATAAAATTTTTTTTGAATAGTTTAGGAGTGGAAAAATGGCTAAGAAAAAAAAGATGTTTTCAAAAAATAAAATGTTAAATAGAACGAAACTTTTAATTATTATTTTAATTATATTTATTTCTATTTTAATAATGATTAATAAAAATTCTTCAATTTCAAAAGAAGAAATACCACAAGAAATCAAAGTAACTATTGAAAAAGGAAAAGAAAAGCTAGAAGAAAAGCCAAAATTAGAAGTAATTGAGTTAAAAGAAGATTTATCTAATGAATTTGATTTGAAAAAAACAGAAAACACAGTAAATAGTAATATAAATACAAAAGTAAAAACAAGAACAAAAGTTCTAAAAGAAAGAGATGTAGAAAAAGAAGAGCTTATTGAAAGAGCAGAGAATTCCATATATGAATTTAAATCAGATAAAGAAATCTGGGAAGAATTAGAAGATATTAGTAAACAAAAATTAAAAGAAAAGCAAAAAAATTAATTTATTTGCAAAAAATAAAAAAAATTTGTATAATTTTATTAAGGAAAATTGGAGGAAAAATTGTATTTAGAAACAAAAAGACTTATATTAGTACCTGCATATAAAATAAATGTAAAAAAGGTTTTAGAATATTTAATTAAAAACAAAGAATTTCTTAAGCCGTATGAACCAAAAAAAATGAAGAATATTATAAAATTTGGTATCAAAAAAAATTATTGAAAATGTATAAAAAATCATTTAAAAATGATAATGAATATAGATTTTGGCTAATTAAAAAAGGGGGATAATAAAAACATTATAGGTTCTATAGCATTATCAAATATTATTCGAGGAGCTTTTCAAAATGCGTTTTTAGGTTATAAGTTAGATAAAAATGAAATAAATAAAGGTTATATGAGTGAAGCTGTAAATGAAATTATTAAATTTGCTTTTGATAACTTAAACTTACATAGAATTGAAGCAAATGTTTTACCGAGAAATAAAGCTTCTATGAAAGTTTTAGAAAAAAATGGTTTTATTTTAGAAGGATATTCAAAAGATTATTTAAAAATTGATGATGAATGGAAAGATCATATACATATGGTAAAATTAAATAAAAAATTATAAAGGCAGGGAATTAATTTGAAGATGATAAAAAATATGATTCAAAACATTTTAGGGAATAATTATTCAGAAGAAGAGTATATATTAGAGATTGAAAATTTAAAAAATGAATGCAATGAGCTTATTGATGTAATTCATCAAAAAGATGAAAAAATAAATGAGTTATATAATGAATTGGAAGAGATGAATAAAAAAATAAAATCTATTCAAAATACAACTAAAATAGATAATAATTTATTGGATAAACTTGACCAAGAAATAAAAAAAAGAGATAACAAAATAAAAGAATTAGAAAATGAAAATACAAAAATTAAAATAGAGCTTAATTTATTAAAAGAAAGTAAAACAATTTTATCAGAAGAAATAAAAAATGTTGAAACGATAGAATTTAATTTTAAAATTTTGATTAATGATTTTTTTCCAGAGAGAAAATTTGAAAAGTTTAAAAAAGAATGCGCTTTAAGAAATTTTATATATGTTGATGATATATTAAAGTATGATATATCTATGTTTGAACTAACAGAAACAAAGTTACAAAATGTTATTGAAAGATTGAATGATTACAGAGAAAAGAAATTTGATAAAGAAACAATAGAATATTTAAAATATGGAGATAAAATAAGTAAAGTGTTTTTTAGGTATAGAAGTTTTGTAAAGTTTTGTAAAGGTATAAATTTAGAAAATATAATAGAGCTTAAAGATTTTGATTTTAATATATTATTAGAAAATGGATTTACAAAAGTACAAATAGAAAAAATTAAAACTAAATATAATGAATATATGAGCTTAAGAAAAAAATAGAGAGAATTATTTTAGTTCTCTCTATTTTTATTTTCTGCCTCTAGTTTTGAAAAACTACAACCACAATAATTTTGTCTATAAAGATTATATTCACAACTTAATTCTATAGAACGTTTATAGCCATTTTTCTTTTTAAAATCACTTTTTAACCAAGGAATATTATATTTGTTTTCTAATTCAAGTCCAATTTTATTAATAACTTGAGAATCTTTTAATGGACTAATCGAAAGAGTAGTACAAAAATAATCATATTTATTTTTTTTTGCTAAAATAGCGGTTTTCTCAAGTCTAAAAGTATAACATTTTTTGCATCTAATACTTCCTTCGCCTTTTAATTCTTCACCTTTTATAGCAGAATAAAAATCTTGGATATTATAATCACCTTCTATAAATGAAATTTCATTATTTGAAAATTCTTTTATAAATCTTTTTTGTTCTTCTTTTCTTTTTTGATATTCAGTTTCAATATTTATATTTGGATTATAAAAGAAAACTGTTATATTAAAAAAATTATTTAAATATTCAAGGACATAACTACTACAAGGAGCACAACATGAATGTAATAATAAATTGGGCTTACTAGTAAACGAACTAATTATTTTTTCGAATTCCTTTTGATAATTAATTTTATTCATTTTCACTTCTTTCTTTTTTTAAAAAATTATTTTTTTCTAATATTTTATTCCATTCAGCAATTCTATCAGCATATTTTTCAAATAGCCAACTATAATCACCTTTTATTTCTATAGAAAGAATTTTATCGCCTTTTTCAATTGTTTTTACAATTTTTTCATCAGAAGTACTCACAATTTCACCAAAAATTGTATGTACTTTATTTAATCTATCAGCTGGATTTTCAGTAATAAAAAATTGACTTCCATTTGTATTAGGGCCAGAATTAGCCATAGCAAGCATACCACTATTATAAAAATCTAACCAATCAACAAATTCATCTTCAAATGAATATCCTGGGCCACCAGTACCATCTGCATTAGGATCTCCACCTTGAATCATAAAACCTCTTATAACTCTATGAAAAGTTAAATTATTATAAAATCCATTAATTGATAAATTAATAAAATTAGTTACAGCAATTGGAGCTGCCTCTGGATATAAAAACAAATTAATATCGCCTTTATTAGTTTTTATAACAGCTCTAATATCATTTTTATTTTCGTTTTTAGTAGATAATGAAGAGCAGGCTATTAAAGGTATCATAATAATAAAAAGTAAAATTTTTTTAATGTTCATTGAGTTAACCTCCATTTTTTTTTATATTATAGCATAAGTTTTATTAAAAATAAATTATAGAAATTTATATATAATGTTTAGAGAAAGAGAATTAGCGAATTCATAAGCTTTTTCTACAGCTTCATCATGTAGTTCTTTAGGGGTATGGCAATCTGAATTAATAAGAACTTTTACTTCATATTTTTTTGCTATTTCCCAAAATTCGTATCGTGGATAATTATATCGAGGGCCTAAATTAGTATCCTTAAATCCTTTTCTTATACCATTAGCATTTATTTCCAAAGGGATATTAAGTTCTTTAGCGGTTTTACATATTTTAATAGAGGCTTCTTCAAAGTCTTTATCCCAAGTAGTATTAGCGTTTGTAAAAAGATCAGGATGTGCAATAAAATCAAATAAATTTGTATTCATTGCTGCTAATAGTTGTTTAGTATAAAGATTTAACCTAGATTTTGTATTAATTTCCCATGAAGAAATTAAATTATTGTTTTCTATTATATAGTGTGGACCAAGTACTAAATAATCAAGTTTTTCTTTTAAAGATTTGTAATATTTTATAAATTCAGGGAAATATTCTATTTCTAATCCTTTGTATATTTTAATAGAATATTTTAATTTTGCAATATCTATAGCCTTTATATAATCATCAAAATCTTTTAAAGTCATTCTATCAAAAAGGTAGTCAGGTAAAGGTCCATGATCAGATATTCCAATAATATTATAATTATGTTTAATTGCTTCTTTTATGTAATCATCTACATCACCAATAGCATGGCCACATCTAAAATTATGAGTATGATAATTTGTTTTCATAAAAAAATCCTTTCTTTTTTTTATATTATATAAATTTTTTTAAAAAAAATCTAGAAATAAATATTAAATGAGCATATAAAATTTTTCGGGGTAAATTTAATAAAAATATTTTAAAATTGTGAAAAATATGTTATTATAATTTGGTAAAAAAATAATTTTAATATATAAAGGAGGATATTTAAAGTGTATGAAAATAATATTACTTATTCTAAAGTTGTAAAAATGGGTGAAAAAAAATCAAAAAGTACACTAATGAATACTTTTTTATTTGGTGTATTAGGAGGAATATTTATTGCTTTAGGATACATTGGGTATATGAGTGTAGTAAAAAATATTATTAAAATTGATAAAGGAATAGCAGGTCTTTTAGGAGCAGCAGTATTTCCAGTAGGGATAATGCTTTGTGTAGGAATAGGCGGAGAGTTATTTACAAGTAATAATCTTATTACATTGTCATTTTTAAATAAAAAAACAAATATAAAAAAATTAATAAAAAACTGGATAATTGTATGGATAGGAAATTTTATAGGAGCTATATTTATTGCAATTATTGCAAAGCTAGCAGGTATTTATAAAAGTAGCGATATGTACAATATTGCTGTAAACATGGCACACCATAAATTAGAATTAACGTTTATAGAAGCTGTAGCGAGTGGTTTTTTTTGTAATATTTTAGTATCTTTAGCTGTATGGCTTTCTCTTAGTTCTAAAAGTTTAATATCAAAAATTTTTGCACTATGGTTTCCTGTAATGCTTTTTGTTTTGTCAGGATATCAACATGTAGTTGCAAATATGTATGTACTTTCAATAGCAAAGCTATTAGACAATTCAATACAAATACAAAGCATATTTTTAAATAATTTATTTCCAGTAACTATTGGAAATGCTCTTTCGGGAGGGGTTTTTATACCATATATATATTTTCAAATATTTAATAATAAAAAAGAAGCTATAGTTTAATAAAGTAACTATAGCTTTATTGTCATATAATTATTTTTGATTGATTCGTTAATATTTATTTTTTCAAGGAAAGCTAAAAATTTTTTTGAATTATTGTTGGAAATAGTTTTGTTTTTAATAATATGATCAATCAAATCAATTTTATTATAAAAAAAGTTCAAGTTTTTAATTTTCATTGAAATTTTATTTAATGAAAAATTGTTTGACTTTAAAAAATATAAGTATATAAAATCGGTAACACTATTTTTATTATATAAAATTTTATCTTCAACAGATAAATCATCAATATTTTTTATTATAGAAAAATATTTATTGTTTTTAGATTTTGAAAAATATTTTGTATAATTATTATCGTCTTTAAAATACTTAAATAAAATTAGATAAAAAATATGTATATTTGAATTAAATTTATTATTTTTTATTAAATCATCTATTTCATCGATAATATTTAGGATACTATTATAGTCATTTAATTTATAATAAATATATAATTTTGTGGATAATATTGTATATTTTATAAAAAAAGAATTTGTTTCACGTAAACTTTCTAGTAGTTTAAAAACATAAAAAATTTCATTATATTTTTTTTGAATTAAAAGTAAGTTGACATATTTTTTTATAAAAAAATATAACGAAGATCTATCTTCATTTTTTATAGCATAATCAATAATTTCAAAACAATATTTTTCAGCTAAATAATATTGTTTGTTTAGAATATAAAAATCAGCAATTTTAGTATATAAAATAAATTTAGAATGAAAAGTTTTTTTATGTTTAGTAAAAGAATTTATTTCTTGAACAAGTTCTTCAGTAGAATGAGAGGAAAATTTTTCAATATAGTCAATAAAGATTTTATCTGTTTGCTCGTCAAGTGATTCTAACAATTCACTAGGCGAGATAAAAATATTAATATTTCTTTTTTTTAAAATTCCATTAATGGTATTTACAATTTTTATACCATTTTCTTTTGTTAACTTTGCTTTTCCATTTTCAATCATTGAAATTAAATTTCTAGTAATTTCATCACCAGTGATTTCGTGTTGTTTTAATCCAAATCGTTTTCTTAATCTTTTTAGTTTTTCCTCGGGTGTAAGTAATTCATATTTCACTAAATCACCCCCCATAAATTAATTTACTTTTATTATAATATATAAAAACAAAAAAGTAAATTTGATTTAAAAAGAAAAAAAGACCTTGATAAAATCAAAGTCTTTTTAAGGGGCAGGTTAAGTGTACAGGTTATATTATAATAATACTATTTTTTACTTATTTTGTCAACATTTTTTTTTATCTATGTTTAATATATATTTATATTAGATTCTTTCGATAGTTAATATTATAAATATTTATTCTTTATCAACTATTATAATACTTGCATTATCTTATTTTATATGATTTTTACTTGTAATATCAAATAACTTTTTTTATTGATATATCTGGATTTAAATTTTTATTTAATAAATTTATTATATAATGTTTTTGCAAGAAAACTATTGTTATTAAAGTTAAAACTTTAAAATATTAAAGAATAAATATTATACTTGACTTAATGTGAAAAAAATTATAAAATATATCTGTTATAGTTTACACGGGGATGTGATAACATGAGATGTTTTATTGCTTTAGATGTAGATGAAAATTTTAAAAAAGAGTGTATTAAACTTCAAAAAGAGCTTAAAAAATTTGGGATTAAAGGTAGCTATGTGAAAGCTAATAATTTTCATTTAACATTAAGATTTTTTAGAAATGCTGAAGAAAAAATAGCATTAGAAATTATTCAAAATTTTGAAAAAATTCTTAAAGAAAAAAAAGAATTTAGAATTTCATTAAGAGAAAAGTTATCAATGTTTATTAGAAAAGATGGAAAAAGTATTGTATGGCTAGGGATAAAAGAAAACAGAGATAAAGTAAAAAATATTGCTAAAGAATTATTTGACATAACTAATACTTATGTACTTGAAGATAAAGACGTAAAAAATTTTAAGCCACATTTTTCATTACTTAGAACAAAAATTTCTACAAAAGAAGATGAAGAAAATATTATGAAAATTATTGAATCTTTTGACTTAGAAATTACAACGAAAATAAAATCAATTTCGCTTTATAAAAGTGAACTTACACCAAATGGACCAGTTTATTCAAAACTTTATAGAATAAAATTAGAAAAAGCAGAATAATTTCTGCTTTTTTATTTTACAATAAAGTTGATTCTCTTTCGATTAAATTTATATTTGTTATGAGAATATTTGGATTAAATTTTTTATTTAAAATTAATTTGATTAAATATTCTAAAGCTAATTCTCCTCTATGTTTAATTTCTTGATTTATAGTAGTTAATGAAGGAGTGTAATAATTGCTTATATTAATATTATCAAATCCTACTATTCCAAATTCGTTAGGTATTTTTTTATATTTACTTATTTCTTTTACTATTCCAATAGCTAAAATATCACTTACTGATACTACTGCATCAATATTATTATTTAATATTTCTTTAGCTATTTCAACTCCAGCATCAAAAAAAATATTTTTGCTTTCTAAAACAATAGGAATGTCTATCTTGTATTTATTTAATGCCTCTAAATAGCCTTTATATCTTAGAGAATTTACCTTACTAGATTTTAGGTTGCTACTACAAAATGAAATTTTTTGATAACCTTTTTTTATAAGATGCTTTGTTGCTAAATAGCCACCTAATTTATCATCGATATTTAAAGTAATGCTATTTTTTGGATAATCTACATAGTTGTCAATAAAAATACAGGGGATGTTACTTTTTTCTATTTTTTTTATATAATTTTTAGATATTTCTCCAATAACAATTAATCCATCAATATTTCTCATATTAACCCATTCGATAATATTTTCTTTTTTCTTTTTTGAGTGTAAATAATTTATTATAATATCATATTCGTTATCTAATGAAGTAAGTTTAGAATTAACACCATCAATAATAGTATTATAAAACGGATTTCCCGTAAGAAAATTATTATCAATGTATTCAGGTAAAATAATTCCAATAAGCTTAGAAGTTTTATTTACTAATGTTTTTGCAGCAAAATTAGGAGTATAATTAAGCTCTTTTATTGCTGCAAGCACTTTTTTTTTAGTTTCATTACTACATCTTTTAGGATGGTTAAGCACATTAGAAACTGTTGTTCGAGAAACGCCTGCTTTTTTTGCCACATCAATTATTGTTATAGACATAGTTACTCCTTTAAAACTTTTTTAATAATGTGATTATATTAGAATTTTGCTATATATTATAAATATTATCAAATTGAATATTTTCAAATTTAATGATATCATTTTTTTTATGTATTATTAAATCAAATTTAGGTAATATATAATTATCAATTATTTTACTTATTTTTACTGAATTATCTATTTTTTCTACCTTTATTATAGAATATTTTTCATTTTTATACTCAAAACTTATTCCATCATCAAAATAAAACTCTTTACTCAAATTATTTTCATCTGCATAAATATGAATCGTTATTTTATCATTATTTTCAAAAATATAATTCATTTCACTATTTTCAATTAAAATAGAACCTTTTTTTACAAATAATAATAATTCATTTAAATTAGCTTTCATTATATAATAATTATTTCCTTCAAACTCTTCTTTTGTAAAATAGTTTATCCATTTCCCATTTGGTAAATAAACTAATCTTCTATTTTGTTTTGGTCTAATTATTGGAGCTACTAAAATATTTTCACCGAATAAAAATTCATCATTTATATTGTGTGTTTCAATATCTTCTTGATAGTGATAAAATAATGGTCTGAGTATTGGATTACCTTTTATACTACTTTCTCTAAATAAATTATATAAATAATCAATAAATTTATATCTTAATTTTATGTATTTTTTTATAATTTCAGTAGTTTCATTATCAAATGCAAATGGTTCTTGATATCTAGAATTTATAACACTATGATTTCTACAAAGAGGATAAAAAATACCAAGTTGTGTCCATCGAATAAGTAATTCTTTATTTGTATCATCTATAAAACCACCAATATCGGATCCAACATAACTATAGCCACTAAGTCCTAAATTTAGAAGCATAGGTATACTTCCTTCTAAATGCTCCCATACAGATGAATTATCACCTGTCCATAATGAAGAAAATCTTTGAGTTCCAGCTGAAGCTGCTCGTGTTAATATAAATGGTCTTTTATTTTGAAGCTTTTTAACTCCTTCATATGTAGAAATTGCTTCATAATGACCGTATAAATTGTGTACTTCTTTTTGATATCTTTTAATACCATTATCGTCAATATGATATGAATCTTCTGGTAATGTTTTAGTATCATTAGACATATCTGCTATTTCATTCATATCATTCCAAAATCCATCTACTCCAATTTTTATTAAATTGCTATGTAATTCTCCCCACCATTTTCTTACTTTATCTCTTAAAAAATCAGGAAAACTACTATCACCAGGCCATACTTTACCTATATATACTTCACCATTTTTGTCTTTTATAAAATAATCATTTTTAATTCCTTCTTCATATACTTTATAACTATCTTCTACTTTTACACCAGGATCAATAATTACAACTAATTTAAATCCCATTTTATGAAGTTCTTTAGCCATATTTTTAAAATCTTTAAAATTTTCTGAATCAATAGTAAAAACTTTATAATTTTCCATATAATCAATATCTAAATATATAACATCTGCTGGGATATTATTTTTTCTAAATTTTTTGGCTATTTCAAGAGTTTCTTTTGTATTCATATAACTCCATCTACATTGTTGAAAACCTATAAAGTCTTTTCTAGGTAATTTTAAAGTTCCTGTTAAATTGGAATAATTTTGAACAACATCTTTAATATTTTTTCCATAAATAAAATAATAATCTAGGATTCCACCATCAGCTTTATAAACTACATTTTCGGATAATTTTTTAAAATCAAAATATGTTTTATATGAAGTATCATAAAATATCCCATAACTTTTGCTTTCATCAGTAGCGATATAAAATGGTATAGATGTATGATAAGCTCTTTGAGCAGAATTATGCATAGTAGTAACTCCTAAAACATCTGTATTCCAGTTGTATGTATCCCTATCTATTAAATTAATAAAACCATATTTTTCTCCTAATCCATAAAAACCTTTTTCAAAAGTAACCTTTCTCTCAACCTTTATAGGATTAATTATTTCTAAATCTCTTTCGCTTAATACACTATCTAAAGATTCTGTATTTTCAAGTTTATTTTTTATTTTTTCATGTGTTTTAAATTCTATTTTTGTATCTTCTAATAAAATTTCATCTTGTTTATTTAAAATTTTAATAGTTAAATTATTGTTTATAATAATATCAAAATTTTTAGTATATATTTTATTCTTATCTTTAGTAAATTCTATTTTAGTAGGCTCTAAAATAACTGCATCTGTAATATTTTTTTTAGGAATATAATCCCCATATACAAATCTAACAATATTTTCATTATAAAATAAGATATTTAGTTGATTTTTTTCATTTTTAAAGATAATTTTTTCCATTAGTTTACCACCTCTTTTTAAACTCTTTTTAAATTTTGAACGTTCAAATAAATTTATATTAATAAAAATATACTCTATTTTTTTTATATAGTCAATGATTTTTAATAAAATTTATAGTTATTAAATAAAAAAATCTAGGATTTTTCCTAGATTTTTAAGAGATGTTCACATATACTAAAATAGTTATATTCAAAATAAAAAAACTATCGAATAACTCGATAGTTTATATTTATAATCTATGGTGCGAAGGGAGGGACTTGAACCCTCACGTCGTAGACACTAGATCCTAAGTCTAGCGCGTCTGCCAATTCCGCCACCCTCGCGAGCAAAAATATAATATCATTATTTTATAGTTTTGTCAATTAGTTTTTTTAATAGTAAATACCTTATTTATAAAATTAAAAAATAGGTACTTAAATACCTATTTTTATGTAAAATTATAAACATACATTAACTTAATATTTTCAATGATTTATTTTTATTTTAATAGCGCACTAAAAAAGAATGTAACAAATTTTTTTATTATAATTTATTATACTTCATTTTAAGAGTTTTTTCAAAATCATTTAAATATTTTTTTGCACCACTACTTTGAGAAGATTTCCACTTAGTAATAAAATCTAATAAATCATTTACTTCTCTTTTAGCTATATTTTTGTTTTTTCCTGTTTTTATCGCTTTATCAGCAAGAGTAATTGTTTTTTTATATCTTTCAACCATTGACTTTTGATTTATAGAGGCACCGCCTAAACCATCAATTGTTTCTAATTTTAGAATTATTTTATTAAGATTATTTATCATCTTTTTAGTTTTTTCAGTAGCATGACCTGATTTGTTTTTATACGAATTAACTATATTAATAAAGTTTTCAATATTATCATAAATCTCTTCTTTGACAAAAAAATCATTCTTTTTAATAGCTAATTTAGCAGTTTTAACTAAATTATTATAAACTTTAATTGTTTGATGTTCATTTAAAGAAGCTCCTCCTAGTCCATCAATATTAGCAAAAGTAATACTAGATAATATTAATAATAAAATTATTATCTTTTTTTTCATGTTATTCACTCCTTTTTAAAATTTTTACATTTAAATCATACCATAAAAATATTAAAATTTCTATTTTTTTATCAATATTATAAAGAATTGAAAATAATAATTTTTTATGTTAGGATTACAATATAAAATAGAATAAAAGGAATTGTTAGTCTGAATAGAAAAATTTACATTTATGGAGGAAAGATGAATAGAAAATATATAGGTATACATCTTAAAGATAAAAAACAATTAACAGAAAATAAAAAAATAGAAAATTTTATTCCAAAAAGAGTTAAAATCTCTTTAAAACAGCATATAGGAACAAAAGCTTTTCCTATTGTTAAAGAAGGAGAAGAGATATTATGTGGACAGGTAATAGCGATAGAAAATTTTTCTCCTAACATACATTCTTCTATTTCAGGAAAAATAGAAAAAATTACTGAAGGTTTTATTGAAATAAAAAATGATTATGAAGAAAATAAAGTTGAAAATAAAAAAATCAAAATTGACACAATAAATAAATTTATAAATTTATTAAAAGAATATGGAATAGTAGGAATGGGGGGAGCGATGTTTCCTACCTATAAAAAATTTAATATTCCAAATGGGAAAAAAATAGAAAATCTTGTAATAAATGCTGCAGAATGTGAACCATATTTAAATGCAGATAATAGAGTAATAATAGAAAAATATAATTCGATTATTAAGATACTGGAATTTATAAAAAAGTTATTTAATATAAAACATATAATAATAGGAATAGAAAAAAACAGACATGAAGCCATAAAAATTTTAGAAAATTCAAATAAAAAAAAGTTATATAAAATAAAAAAATTAAAAACAATTTATCCGCAAGGAGCAGAAAAGCAACTTATTCAAAGTATATTTAATAAAGAGATAAAAACACTTCCTATTGATGAAAATATTGTTGTACTTAATATTTCTACTTGTTATGCAATTTATAATGCGATTTTTAATAATAAACCTCTTACTAAAAGAGTTGTTACAATTAGTGGAGAAGCTATAAAAGAACCTAAAAATTTACTTGTACCAATAGGAACAGATATAAAGGAGTTGCTTGAATATTGTAAAATTAATGAAAGTAAAGTTTATAAAAAATTTTTAGGCGGACCGATGATGGGAGTAGAAATAGATAAAAACTCTACGATTATTAAAGGGACAAATGGTGTAATTGCTATATCTAAAAAAGAAGCAAATATATATCCAGAAAAAGAGTGTATATCATGTGGGAGATGCGTAGATGTTTGTCCAATGAATCTTATTCCTTTAAAATATGTTGAATATTATAGAAGAAATCAGTTAGGAAAAATGAATGAGTATGAATTAAATAAATGTATAAAATGTGGATGTTGTCAATATATTTGTCCTGTAAATCAACCACTTATGAAAGCTATTTGGACGGGAGTAAATTATAAAAATAATTAAGGGGGAACAATGAAAAATAATATAAAATCAATTGCTCCATTTATTCGTACAAATTATACAATGGAATCAACAATGTACGATGTAGTTATTGCACTTTTACCAGTGTTAACAGCAGCTATTTATATCTATGGAGTTAAAGTTATATATATATTACTAATCTCAATTATTACGTCTTTATTTACAGAATTTTTAATTACAAAAAGTTTTAAACTTAAAAATCAAGTATTTGATGGAAGTAGTATAGTTACAGCTATGTTATTTTGTTTTACTTTACCTATAAGTATTCCATATCATGTGGTTATTTATGGAAGTGTATTTTCAATATTTATAGGGAAAATGATATTTGGAGGCGTAGGTAATAATCCTTTTAATCCAGCCCTTTTAGGTAGATTATATATTATGATATCTTATCCACAATATAGTTATAATTATATTGATACTACAGTAGGTGCTTCTATTATTCCACAATTGAAATATATAGGCAGTGAAACAATATTTACATTTTTTAATGGTAAATTAGGTTTTTATAAAGATATTTTAATAGGAAGTAGTAAAAGAATTACATCTATTGGAGAAGTATCAATTTTAGCAATAATATTAGGAATGATTTATTTGAAATATAAAGGGCATATTAAGTTAAGAACTCCTATATCAATTTTAGGAACGTTAGGAATTTTATATGTTATTTCAGGAAGAGATATTATGTATTTATTTCTTGGCGGAGTAATATTTGCAAGTGTATATATGGCTACTGATATGGTATCTTCACCATATACTCATAATGGACTTATTATATATGGAATTGTTATAGGTTTATTTGTATATGTTTTTAGAGATTTTACATCAAATCCAGAAGGGATTACTTTTGCAATATTATTAGCTAATATTTTAGTTCCAACAATAAATAAACATACTTTATCTAGAAGTTTTGGAGGAGAAAAAAACATGAAAAAGATTAAAACTATTTTTTTAATTATAATAGTCGTAATATCATCTGTTATTATAATTAATAAAACTGATAATATGATAGAAAAAATTAAAATAAAAAAAGAAAATCGTTTAAAACAAAAATTTATTAAAGAAATTTATGGTGAAAATGCTAAAACTTCTGATAAAATAGAGATAAAAGGAGATTATTCATTTGTTCCAATAGAATTGGAAAATCAAATAGTTGGATACATAACTATTTTTGAAAGTAAGGGCTATAGTGAAAATATGATTAAATTTTTATTAGCCTTGGATATAGAAGGAAGAATAAAAAGATTAGAAGTACTTTCTCAAAATGAAACAGAAGGCTTAGGATCATATGTAGCTAGTAAAAAATGGAAAAATTTATGGATAAACAGAGATTCTAGTTATATTTTTAATAAAAAAGTGGATGCAATGACAGGAGCAACCTTTACATATTTAAATTCTTATAAAACTATTATAAAAGTACTTGAAAGTTATGATGAATTAATAGGAAAAAATTCTTTAGAAATGGAGGATGTAGATTTTTTAGATTTAGAACCGATAGATTTTTAAAAGTTTTAAGATGAAAAAGGAGGAAATGATTTGGATACAATATTTATTTATCCGATAGCTGTTCTTGCAGTTGGAACTGTAAATAGTTTTGCAGCTATCCTTAGTTTATTTTTATTTTTAATAGTGTTTATATATAGTTATTTTATAAAAAAATATATTACAAAAAGTTATATATTTATAGCAGTATCTATATTGATTAGTTTTATTTATCTTTTTTTAGATTATATGAATTTTAGTTGGTATATAGATGCAAAATATATGGCAATATTATATTTTACAGTTATTTTAGCTTTGGAATATATAAATAAATTAGAGATAAAATATTTTATAAAAAATATATTTTTATTTTTATTTTTAGGAATTATAAGAGAATTTTTTTCATACGGTAAAATTTTTAATAAAACAATTTTAACAAAATTTGAGGGTTCACTAGTTTTAACTTACAGTGCAGGAGGATTATTTTTACTTGTATTTATTTTTATATTTATGAATTCAAAAGGTGATAGTTTATGATAGTTTTAACGATAAAATTATTTTTAATAGGACTTTTACTTAATAACTTTATATTTAAATATTTTGTGGGGATAGAAATATTTTCTAAAATAAAAAATATAAAAGAATTCTTAAAAATTTTTTTTATAAATATATTACTCGCAAATGTTGTTAGCTATGGGATAGTAAAGTTATTTAAGATTAACTCTTTTGCTATAAATATATTAGTAATAAGTTTAATAGCTACAATGGTGTATGAAATTTTATTTAAAAATAAGAGTGAATATAAAAATATTATTCTACTTTACACAATATTTTTATATTTAACTATAAAAGAGTATACTTTTTTAGCACTTATAATATATGCTATTTTGAATACATTTTTTATAGGAGTTTCACTTTATGTAATACAAAATTTATATGATTATATTGATTATAAATCAAAATTAATAAAACCAGAGCTTATATATACCCTGGTTATTAGTTTAATATCTATGATATTTTTTGGTTTTACTGGTTTTCATTCTTAGTTTTTAAGTTAAAAGATGTATTTTTAAAATTTTTGGAATAAATATTATTGGCTTCTTCTCCTACTATACTAATTGATTTATACGCTAAAAACCTTAATAATGAAAGTATAGTTGTTTTTCTTAAAATTCTAAATGTCCAGTACCTAGGATTTGCTATATTTAAAGTCATCCAAGTTTTTTGCAATTTATTAATTAATTTATGTTTATTAGCTTTTTTTATTAACGGAATTTCTAAAAACTTATTTTTACTATCATTCAAGTATAATATTTGAGAAATTCTAACTTTTTTTAATAATTTAAATGTAGGAGTATCTAATAATTTTATTAATTTTTCTGAAATATGAATATTAAGATATAAAAATTCTTCTAAAGTAAGTTCATATAAGTGATATTGTGAAGAGGGAAAATACTCTTTTGAAATTTTATTTATAAGTTCAAATATATTATCTTTAAAATAAAATAAATTTTGTTTTAAATTAAAATTTTTATTAAATATCATATTTTTTTTAGCGTCTTTAATTATTTTGTTTATTTTATCATCATTAACGTTTACTCTATCATATATTTCCACTTTTTCTTTATTTTTATAAAAAACATTTAAAACAATAAAAAAAATAGTTATAATTAGAAAAGTAGTAAGTATTCCAGCAAAAAATCCTATAAAAAACATATTATCACCTCATAAACAGGTTAACATTTAAAAATAATAAAATCAAGTAAGTTTTTTTGCTAAAAAAAATTTAGCAAGTAAAAATGTAATTATTACAAAAATAAAATTATTTTAAAATTTCTTGAAAAAATAAATGTTTTCATATATAATATTTTTAAATTAAAATTTAGTAAAAAATTATTAAGATTTAACTAAGGGGGAAATAAATGTTAGAAATTTATTTAGTAAGACATGGGAGAACTGACTGGAATGAAAAAGGAATAATACAAGGTCAACATGAATCAAAATTAACAAAAGAAGGGATAGAACAAGCAAAATTGTTAGGGAAACGTTTAAAAGATATAAAGTTTGACGCAATATACTCATCACCAATATCAAGAGCAGTAGAAACAACAAAAAATATCTTGGGAGAGAGTAATTATAAAAAACAAGAGATTATTTTACGTGATGAATTAAAAGAAATGGGATTTGGGATAGCTGAAGGACTTAAAATAGATGAAATTAAAAAAAAATATAGTAAAGAATGGGACGATCATTATAATAATCCTCAAAATTACAATCCTATTATTTATCAAGGGGAAACATTTCAACAATTATTAGAAAGATGTAGAAATTTTCTTGAAGAAATTGTAAAAAAACATAAAAATCAACAAATATTAGTAGTAAGTCACGAAGTAACAATACAAGCTTTTATAAATATTATTAATAAATATGAATTAAAAGAGTTTTGGAACGGTGATAGTATAGAAAATACAAGTTTATCTATATTTAGTTATAATAATGATTTTGAAATAAAATTGTTATCTGATGTTTCTCATTTGAAATAAAAAATATTTTTTTTGAAAAAAATATACGAAAAACAAACTTTTTAAAAGAAAATATCTTTTAATATTTCTTGACAACAAAGGAAATATATATTATAATTTTATTGCTGCAAACAAATTGCGGAAACGCAGTTTACCATCTCTCTAAACCCTTTTCGTTTAAGAAGAGGGTTTTTCTATTTTTTGAAAATTTTTATAAATTTTATAAATTTAAAAAGAGAACTAATAAATGTACTAGTTCTCAAAATGTTTTATACCTTTTAGTATGCTGCATTATCCACAAAGAAAATTAACTCTTTTTTAGCTTTTATATAACTCGCGGGATATTTTTTATCTTTTTTTAAAACTTTCTGTAGTATTTCTTTTTTATTTTTTCCAGATACTAAAAATACAATGTAATTGCTATTATTTAGAGTTTGAAGATCTAAAGAGACTCTATCATAATTTATTCTATTTATATTTTTAGCTACTGTAGTTATTTCTATACTATTTTGATTAAAATTTTCAGGGAATAATGAAGCTGTGTGCCCATCATTTCCTATACCTAATAATATAAAATCAAAATTAGGATATTCATTTTCTGATAAGTTAAAAAATTTAACTATATCATTTTCATAAAATTCTTTACTTTCTTCTAATGTTTTTAGATATGGAATAAAATGAAAATTTTCTTTTGGAATATTAATATGATCTATGAGGGAAGATTTTATTAGATTATAATTACTATCATTTGAATCAAGGGACACATGTCTATCATCTACAATAAAGATATTTATATTATTCCAATTAATTTCTTTTTTTTCAGAAAGTAATTGGAAAAATTTTTTTGGAGTATTACCTCCTGATAGAGCAATATTAAGTAAAGGCTTATTAAGATAAATTTTAAAAAAATAATTCACTAATTTTTGAGATAAATTATTTAAATCCTGTCCTATATTTATTTTATTCATTTTATTTCCTCCAATGTCTATTGTCTTTTTCAATAATTTTTATAGAATCAAAAGGTCCCCAACTACCAGCCGGATATTGTTTAGGTAGTAATTTATTTTCTGCCCATAAATGTAAAAGTGGATCTACAATTTCCCACATCTCTTCTATTTCATCTTGTCTAGCAAAAAGAGTAAGATCAGAGTCTATACAGTCAATTAATAAACGTTCATACTCAGTTAACTTATTAATTTCAAAAATTTCTTTATAGTTAAAATTCATAAAAGTAGAATGAACTACATTTCCAATACCAGGTTTTTTGATATTTATATTCATACAGATTTCTTCATTTGGTTGAATTTTAAATATTATAGAATTCGAATCATAAAAATTACAATGGTCATTAATTAGTTTTAAAGGTGGTTCTTTAAATTTTATATAAATTTCAGTACTTTTTTCAGGGAGTCTTTTTCCAGTTCGAATATAAAAAGGTACATCAGCCCAACGCCAATTATCTATATAAAATTTTCCTGCAAAAAAAGTCGGTGTTTTAGAATTAGGATCTACATTTTCTTCTTCTCTATATCCCGCAATATTTTCATTATTTGAGTATTGCCCAAGAATTATATTATCTTTTATATATTTTTCATCCATTTTACGTATAGATTTTAAAATTTTAACTTTCTCATCTCTTATAGAATTTGCATTAAAATCTGCTGGGGGTTCCATTGAGATTAATGATATTAACTGCATAATATGATTTTGAACAAAATCTTTAATTATTCCTGATTTTTCGTAGAAACGACCTCTACCTTCTATTCCAATACTTTCAGAAACTGTTATTTGTATATGGTCAATATAATTTCTATTCCAAATAGGTTCTAAAATAATGTTACTAAATCTAAAAAATAATATATTTTGTACTGTTTCTTTTCCTAAATAATGATCTATTCTATATATTTGTGTTTCTTCAAAATAGTTGTGTAAAAGACTATTTAAATTTTTTGCAGATTCTTTACTTTCACCAAAAGGTTTTTCCATTACAACTCTTGTTTTTTTAAAATCATTAAATTTATCTTTGTTTTCACCAATATTTTTAATAATCATTTTTGAAAAAAATGGAGGTGTAGCAAAATAAAAAATTATATGTTCATGAATTTCTTTGTTTATATTATTTATCATTTTTAAAAAAGCTTTATTATCGTCAAATTCGGCTGTTATAAAATCAAAATGGTTAATAAATTCATCTATATTATCTGATTTATCATTAACAAATTCATCAATCGATTCTCTTATAAAATCATGGTAAGAACCTTTTCTATAAGGATGACCAAAACCAATTATTTTAAAGTTAGAATTTAAGAAGTTATGAGAAAATAAGTTGTAAATAGATGGAATTAACTTTCTTTTTGTTAAATCACCAGCACCACCGAATATAATTAATATAAAATCATCTACTTTAAATTTTACATCAAGCTCACAAATATCTTCTATTTTCATTACTTATCCCCCTTTTTAATTTCGTGTCCACCAAATTGATTTCTAAGTGCAGCAAGAACTTTATCAGAGAAAGTTTCTTCTTTTCTTGAACGAAATCTTTGCATTAAAGATAAAGTAATAACAGGCATAGAAACACTTTGTGAAATAGCTTCTTCTACAGTCCATCTACCTTCTCCAGAATCAGGGACATATCCTCTAATATCTTTTATATAATCTTTATCTTCGAAAATATTTGAAATAAGCTGAAGCAACCAAGAACGAATTACACTTCCGTGATCCCACACTTTAGATATTTCATGCAGATCTAAATCATATTCTTTTTTCGAATGTAATAATTCAAAGCCTTCAGCATAAGCTTGCATCATTCCGTATTCTATTCCGTTATGAACCATTTTAACAAAATGTCCAGAACCACTAGGACCAGTATAGATATAACCATTTTCTGGAGCTAAAGATCTATAAAGAGGTTCTGTTTTTTCAAAAACTTCTTTTTTTCCACCGACCATAAGACAATATCCTTCGGTTAATCCCCATATTCCACCACTTGTACCTACATCAACAAATTCAATTTTTTTTTCTTTTAAAAAGCTTGCTCTTCTTTCGCTTTCTTTATAATTAGAATTACCTCCGTCGATGATAATATCATTTTTACTTAATAAGTTTGATAATTTATTAATAAGATTTTCAGTAATTTCACCGGCAGGAACCATTACCCATATAATTTTTTGTTCGGGTAATAAGTTTATTAATTCTTCAATAGAATTACTTGCAATAGCACCATACTTTTTAAGAGAATTTACATTATCGATATTTACATCATAAACAACTACTTCATGATTAAAATTAATTAATCTTTTAGCCATATTACTTCCCATTTTTCCAAGTCCAATCATTCCTAATTTCATATTGTTTCCCCCTTTATTATTTATAGAAAATTTAATTTCATAAGTAATTTAATAATTATTTTTAATGAATCCTTTAAACAAAAAAAATTTATTATCTAAAATTGTAATTATTACAAATTTAAATTAATTATATTATATTGAAAGGGAAAATGCAAATATTTTTTGATGTTTATACATTTAAAAATTCTAAAATCGAAAAAATGAATATTTATCGAACGATGTGTAAGCATAGTTAACAATATAAAAAAATAATTAAATTAAACTTGACATATTATAAAAAACTAATATAATATAAAACATATTAAAAAAATATAATATGTTTTAGGAGGTAGATATGAGGCAGAAATTATTAAAGAAAAAGAATCATCAGGAGTGGAGTTGGGTATTAATTTTTGCATTTTTTGCATTAGGAATAGTTGACTATCATTTTGGATTGCTAGGGTTAGCTTGTATGACAATTCCGTTATTTCATGCTTTTAAAGGACATGGAAAGATTCATTGTTCACACTATTGTCCAAGAGGATCATTTTTAGGAAAATTCTTAGGAGAATTCTCATTAAACAATAATACACCAAAATTTATGAGAAAAAAATGGTTTAAAAATATGATACTATTTATTATGATTGGTATGCTTAGTTTTTCTATGTATCATTCAGGCGGAAATCCTAAAAAAATTGGATTTGCAATATTTAGATTTATGTTAGCATCGTCAATAATAAGTGTATTATTAGGTTTAATGTTTAAGCCAAGAAGTTGGTGTCAAGTTTGTCCAATGGGATATAGTACAGGATTAATAAATGAATTAAAATTAAAAAAATCAAATAAAAAAGTGGCATAGGAGGTAAATATGTATATAATAGATGAACATACATGTATTGAATGTGGATTTTGTCAAAAAATATGCCCAAAAGAAGCTATTGAAAAAACAGAAATAGCTTATAAAATAACTGGAAAATGCGTTAGTTGTGGTTTATGCGTAAAAAAATGTCCGGTAGATGCAATATCAAAATAAAAACTTCTTTTAAATAGCTTTATTAAAATAAAACTACTTAAAAAAAGCTTTTGAAAATAAAAGAGTGTATAACAATACACTCTTTTATTTTTTTCATATAAGTTTGTAATGCTAAATTATTTGTATAAAAAGATAAAATATGTTATTATTTTTTTAATATTATAAAAAGCAAAATAAGGGGGAGTATGAATGCTTGAAGAAATAAAAAATGAGGTAAAAAATCATAGAAGAAAATTACATACCATACCAGAAACAGGTTTTGAAGAATTTAAAACATCTGAATATTTAAAAAATACATTAAAATCATATGGATTTGAAGTAAAAGAGATTTGCGAAACAGGATTATATGTATTTATAAAAGGTAAAGAAGATACAACAATAGCATTTAGGACAGATATAGATGCATTAAATATTGAAGAAGAAAATAATATAGAATTTAAGAGTATTCACAAAGGGAAAATGCATGCATGTGGTCATGATGGGCATATGTCTATTATGCTGGGATTTGCTAAATATTTATCCAGTATAAAAGAATTTAAAAAAAATATTTTATTAATATTTCAACCTGCAGAAGAAGGGCCTGGAGGAGCAAAAAATATTGTAGAAACAGGAATTTTTGATAAATATAATGTAGAAGGAATATTTGGACTTCATTTATTTCCAAATATAAAAGAAGGAGTAATAGCATCAAAATCTGGAGAATTTATGTCTGCTACAGCTGAAATAGATATAGATATATATGGAAAAGGTGGGCATGGTGCTATGCCACATACTGCCATAGATACTATTATAATAACCTCAAAACTTATTGAAGCATATCAAAGTATTATTTCTAGAAATATTTCTCCTATGGAAAATGCTGTACTTACATTTGGTAAAATAGAAGGTGGAACAGCAAGAAATATAATAGCAGAACATACCAGAATAGAAGGGACGATGAGATTTTTTAATAAAGAAGTATTTGAAATTATAAAAAATAGAATTTCTGAAATTAATAAAGGATTTGAAAAAGCTTTTGAAATAGAAATAAAAACTGATTTAAGGCCCCTTTATCCAGCAGTTATTAATGATAAAAATTTATATAGTAGATTTCATAATGCTATTAAAAATAGTGACTTAAAGTATGAAGAAATAAGAGCTATAATGCTTGCAGAAGATTTTGCATATTATCAAGAAACTATTCCAGGACAATTTTTCTTTTTAGGTACTGAAAATAAAGAAAAGGGTTATGACAAACCATTACATAATTGTAAATTCAATTTTGATGAAGAGATATTAATTAACGGAGTAAAAGCATATATTGCTATCTCTAAAGAATATAAACTATTTTGAACATATTAAAAAGAGAGTTTTTTAAAAAACCTCTCTTTTTAATATGTTCAAAATCAAATCATAATTTCCTTTTATATGTGGGACATTACAGTTGCTACAATCTTTTATGTTATTAATATATTTATAATTTCCACCACATTTTTTATCAAGTAAATATAAAGGACAAAAGCAAAATAAACAATTAAAGTTTTCTTGTGCGACATCTTTATGACAAGGGAAATATTCACAATTTTTATTTTGAAAAAATTTATAATTTTTCATTAATTATCTCCAAGATATTTAAGTTGGTAAATAGTTGGTTTAATATTAATTAAATCTTCACATTCTGCATCACATATATATATGTTTTCAATAAAAATCTTTATTTTACTAAGATCAAATGGGTTGATTATAATATTTGCATTTTCTCCGGTGTATAAGTTTAATAACTTATGTTTATAAATATAAGTTTGATATCTAATTATACCATTATTGATTTTTCTAGTGCTTTCAATTGGCTGAAGAAGAGCATTTAAATAATCTTTTTTTGTAATGATTTCTATTCTTTCTAAATTTTTTTCCCATTTTTCACTTTTATTAAAATTATAAATTTCATTTATATATTTTTTTATTATTATATCAAATTTTAAAAAAGTTATTTCTTCTTTACTATTTAATTTTAAATCTTTTAAAAAGATATTATTTAAATCTTGAAAAAATTTTTTCATTTTTTCTTCTTGTGAAGTGATAAAATTGATATCAATTTTTAAATCTTTTTTTATAGTTTCTATCAATTCTCTGTGTTGTATTTTAAAATTATTTAAAATATATTCTTCGGGTTTTCCGTATATTAAAAAAGAATTTGATTCATTTGCTAAAATAGCTGAACGAAGTAATGATAGAGCATCATTGAATTTAGCTTCTTCGAAAGTTAAATAATAACTACAAATTGCTTTTGAATAATTATCAAATATAATATGTAAAAAAGGCTTTTTATAGTTATTAGACAAACAATCATAGATATCGATATCTAATTGTTTTGAATAAAATTCAAAAATTTGATTTGAATATTTAGACTTTATATCTTTAGAAGCATATTTTTTTACAAAAGGATCTAAATTATTTATAATACGGTAAACGGTATCATAACTTATTTCTTTTTTACCTAAACTTTTTAAAAATTTATTTAGTTTTTTATGTGCATCTAAAATTTTTAAATTAGATTCAGTTTGATATAAAAAAGCTAAGTAATCTAAAATTTCTTTATCTACACTTCTAAAACTATTTTTGTCTTTTCTTACAGTTCTTTCTAATCCCATTATACCATCTTTTTTATATGCGCTAACCCATCTTTTTAAAGTACTATATGGAACTAATGATTCACGACTTACATCGATTAGATTTTTTTCTTTATCTAAAAAAGGTTTGATTATTTCAAATCTTTCTTTACTTAATAGATTATTGTTTTTTTTCAAAATTCTCACCTCAGATTCTATACAAATATTTTATCTTAAATATTTTTCTATGTCAATCAAGAAAAAAATTTTAAAAAAAAATAAAAATTTAAAAACCATAAAAAAACCTTTAAAAACAATAAATTTGTCTACAAAAAATATTTTTTTAAATAAAAAGGCTCATTTATTTTCAAAAAAACTTGACTTTTTTATAAAAAAATATTATTATTATATTAATCAAAAAACATTATAATAGCACTTATAAAACTAAAATAGAACAGTGTGTTGAAAAAACACAAAACAAAAATAAAATTATTAAATATGGAGGTATGTAATTATGGCGAGTAAAACAGTAATAATAACAAATGAAACAGGAATGCACACAAGACCAGCGAATGAATTTGTAAAAGAGGTAAAATCATTTAATTCAGAAGTTACTTTATCAGCAAATGGAAAAGAAGTAAAAGCAAAATCTTTATTAAAAATTTTATCATTAGGAATAAAAAAAGGAACAGAAGTGACAGTGACGGCTACTGGAGATGATGCTAAGCAAGCTGTAGAGAAATTAGCTGAGGTATTAGCTAACTTAAAAGATTAATTTTTAAGGAGAAGAGAGTATGGAAAAATTTTTTAAAGGGATAGACGCTTCCCCAGGTATAGCTATAGGTAAAGTTTTTCTTTATGAAGAAGTAGAGCTTGATATAAAAGAAATAAGTAATATTACTTTTGATGAAGAAAAACAAAGACTTTTAGAAGGTAGAGAAAAAACTAAAATTCAATTAGAAGCTATTAGAGAAAAAGCTAAAATAAAAATGGGTGATGATAAAGCGGCTATTTTTGATGGTCATATAACGCTTTTAGAAGATGAAGAACTTTTTGATGAAGTAGTAGAAAAAATAGAAGATGAAGGATATACTGCTGAATATGCTTTAAATGAAGGAATAAAAGAATATTGTGCTATGATAGCAGCATTAGAAGATGAATATTTAAGAGAAAGAGCTGCTGATTTAGGTGATATTGGTAAAAGATGGATAAAAAATATTTTAGGAGTAGATATTTTAGATTTATCAAATTTACCAAAAAATTCTATCATAATAGCAAAAGATATAACACCTTCAGATACTGCTCAAATGGATTTAGAAAATGTAGGAGCATTTATTACTGAAATTGGTGGGAAAACAGCTCATTCAGCTATAATGGCACGTACTTTAGAAATACCGGCAGTTGTTGGTGTAGCTAGAATTACTGATAAAATTTTAAATGGAACTGAAATAATAGTAGATGCAAATACCGGATTTATAATAGTTAATCCAAGCGAAGAAAATAAAAATAAATACTCTAAATTGAGAAAAGAGTTTTTAGAAGAAAAAGAAGAGTTAAAAAAAATAAAAGATAAAGAAGCTATTACAATAGATAATCATAAAGTAAATCTTTGGGCAAATATTGGAAGTCCAAAAGATTTAACAGGAGTGTTAGCAAATGGTGCTGAAGGTATAGGACTTTATAGAACAGAATTTTTATTTATGAATAGTGATAAATTACCTACTGAAGAAGAACAATTTGCTGCATATAAAGAAGTAGCAGAAAAAATGCAAGGTAAGCCTGTAACTATAAGAACTATGGATATAGGCGGGGATAAAGAACTCTCATATTTAAAATTACCTAAAGAAATGAATCCGTTTTTAGGATACCGAGCTCTTAGAGTATGTCTAAAAGAGAAAGATATGTTTAAAACACAACTTAGAGCGCTCCTTAGAGCTTCTAAATATGGTCAAATTAAAATAATGTTACCTATGGTAATTTCTTTGGATGAAGTCAGAGAAAGTAAAAAAATATTAGAAGAGTGTAAAAAAGAATTGAGAAAAGAAAATATAGAATTTGATGAAGAAATTAAAGTTGGAATAATGGTAGAAACACCAGCAACAGCATTTAGAGCAAGATATTTTGCTAAAGAAGTTGACTTCTTTTCAATTGGAACAAATGATTTAACTCAATATACTCTTGCAGTAGATAGAGGGAATGAAATTATTAGCGATTTATATGATACATATAATCCAGCTGTACTTGAAGCAATAAAAGTTACAATAGAAGGAGCCCATGCTGAAGGTATAACTGTATCTATGTGCGGTGAATTTGCTGGAGATAATAAAGCAACAAAACTTCTTTTAGGACTTGGTTTAGATGCGTTTTCTATGAGTGCAACGTCTATCCCACGAGTTAAAAAAGTTATTTTAGAATCAAATTATGATGATGCAAAACAATATGCAAATAAATTACTAGAAATGGATACTGCAAAAGAGATAATCTCTAATTTATAGTTACCTAATAAATACCAAGACATTGGTGTTTAAACCCTTTAATTCAATCTATCCCCCCTTATAATATATTTATAAGGGGGGTATTATTATAAAAAAAGATAAAGATATACCAAAATTGTAAAATAAAAATAAAAAATAATAAAACTTTAAAAAGTATGCATTTGGAGATACAATAAATAAATAAATATAAGTTCAGAATAAAGACTTATATATGAAAATTTACATAAAAAGTCCCGAAATTAAAAAAAATGTATTTATATCGAAAAAAGGTATTTACAAAATTAATGAAAAATGATATTCTAACATTGTGTGGTAAATATGTGCTATTATATAAGTGGGAGTGGTTATGTTGAAGAAAATTGAATTAAATTTTTTTGAAAAATACTTTTTAGTATTTCTTTTTTTAATAAACGATTTTTTAATTATTAATTTTTCTATTCTTTTTTTTAATAAAGTTACTTTATTTTTCGATAAATCTATTTTTAAGTCTATTTTTTTTAATTTTTCTCTTTTGGAAACTTTTTTATTAATATTGATTTTTTATTTTGAAAAAATATATAATTTTGATTTTTGGAATATATGGGAAGAACTTTATAAATTTTCATCTTCTTTGTTAATATTCGGTATTATTTTATCTAATTTTTGGTTAATAATTGATAAAAATTATAATTTTTATCAATTATGGTTATATTTATTGTTTTTATTTATTATATTTGTTATAAATAGAATGGTGTTAAGGTATGTTTTAAGAAAATTAAATTTAAATATAAAAAATGTAGTATTAATAAGTGATGAAGTAAATTTTGATAATATTTCTAATTATTTAGAGAATTTAAATTTTTTATCTTTTAATAAAATAAAAGGGTATGAAATTATTGATGATGTTAATAATATGGATACTATAAAAAAAGAGATGATAAAGAAATATAATAATATAGAAGAATTAATTATTGTTTCATCAAAATTAAATAAATCTACAATAAATGATATAGTTTTTCAATTTGAAGATATAGCTCCTACTATAAAACTTATTCCAGATTTTTATCAAGGTCATAATTTTTTACTCAATTTTTCATGGAATAAAGTAATCACTCTTGTTTCTCATAAAAATCTTATGAATCCTACAAAAAAAATAATTAAAAGAATAATGGATATAACAGGAGCTTTGATAGGCGTTACTTTATCAATCCCAATGTATACAATAGTATACTTTTTAATAAAAAAAGAAGATGCTGGAAAAGTATTTTTTGTCCAAGATAGAATAGGATTAAATGGAAAAGCTATAAAAGTAATAAAATTTCGAACTATGGTAAAAGATGCAGATGAAGTGCTAGAAAAAATGCTTTTGGAAAATGAAGAAGCAAGAAAAGAATATCAAAAAAATAAAAAATTAAAAAATGATCCACGTATAACAAAAATAGGAAATTTTTTAAGGAAAACAAGTCTTGATGAATTTCCACAATTTATAAATGTATTAAAAGGAGATATGAGTATAGTTGGACCTAGACCATATTTATTTAGAGAAAAAGATGATATGGGAGAAAATTATAAAAAAATTATTGCAGTAAAACCAGGACTTACAGGAATATGGCAAGTAAGTGGAAGAAATAATTTAGATTTTGAACAAAGATTAAAATTAGACTTGTTATATATAAGAAACTGGAGAGTATGGCTTGATATAATAATTATATTAAAAACTATAAAAACAGTATTAATAAAAAAAGGAGCTAATTATGATACAGAATAGTATAGATATAGTTATAATAGGACTAAATGCAGAAAAAACAATAGTTAGATGTCTAAATAGTATAGAAGGAGTTATAAAAGTAAATAGTGATAAAAAAATAAAAGTATATTATGTAGATGGTGGGTCAGTAGATAATACACTTTTATTAGTGAGTAGATATAAGTTTGTAAATATATTAAAGTTTAATAAAAAAAATCCTACTCCTGGAGCACAAAGAAATTTTGGATGGCAGCAAGGAAAAGGAGAATATGTTCAATTTATAGATTCTGACACTACTCTTGAATTAAGCTGGTTTAATGAGGCTTTAAATTTTATAAAAAAAGATGATAAAATTGGAGCCGTTTGTGGAAAAAGAGTAGAACTTTATCCATATATATCTTTTTATAATTGGATAGGAAATATTGAATGGAATCCAAAATTTGGAAATGTTTTAGAATTTGGTGGAGATGTTTTTATAAAAAGAGAAGTTTTAGAAAAAACAAATGGTTATAAAGATAGTTTAATAGCTGGAGAAGACCCAGAACTTTCTTATAGAATTAGAAATTTAGGATATAAAATTTTGAAAATTGATAGAGTAATGACATATCATGACTTAGCTATGATAAATTTTAGACAATATTTAAAAAGAAGTTTTAGAAGTGGATATGCATTTGCAGAAATCAACTATATGTATAAAGATATGTGGGGACAAGAACTAAAAAGAATACTAGTAAGAGGAGGAATTTCTTTAATATTATTCATTATTGCTTTATTATTTGTGATAATAGACTATAGAATTACTTTATTTGCTATATTGAGTTCGCTATTATTATTATTTAGACCAAGATTGTTTTTAGTAAGTAAGTTTATGATTCTTTATAATTTAAATAAAGATGAGGGTAAAAAATATGCTTGGCATGTATCGCTTGTTGTTTTACCACAATTTTTAGGAAGCATAAGATTTTATTTAGGAAAATTATTAAAAAAACCTTTAAAAAATAATAAGATGAGATTATCTACTGGAGGAATAAAATAGTGAGATTTTTTTTTATAATATTATTATTAATGTTAACAATAAGTTGTAGTAATAATAATACAAAAACTTTATATAATTTTAAAGATAATAATATTAAAAGAGAAACTATTAGTGATAGTGAAATAAAATTATCTTCTGCAGAAATAATAAAAAAATTTAATAAAAAAATAAAAGAATATAAATTGAAGCAAGGAGATATAATAGAGCTTATTCCAAATGATATATCATTTAGTAAATTAGAATTAAAAATAACTCCTGATGGAAAAATTAATTTAAAAGATATTGGAGAAATAATAGCAGAAAATAAAACTATTTTTCAATTGCAAAATGAGATAAATAAAAAACTTTTAAATTATTATGATAATTTGAATTATATAATCAATTTAAAGCAAGGGAATAACAGTGTATATGTTTGGGGAAATATTGCAAAACCTGGAGAATACAAGTCAAATTATGAGGATACTTTAATTAAAATACTTACTAAAGCAGGAGGAATAAATCTTAATTTTGAAGATTTAATGGATACGAAAATATATTGTAAAATTATTCGTAAAAATGAAGCTATTGTTATAGATTTGGTTGATATGATCATAAATAATAATCTAATAGGAAATGTATATTTAAATGATAATGATATAATTTACGTGTCTATTGATAAGATAAAAGAAAAAAATATATATGTTTATGGGGAAATTACTAGGGCAGGTAAATTAGAATATGAAAAAAATCTAACCTTAATTGATGTAATATTAAGAAGTGGAGGATTTACAAAAAACTCTGATTTAGAAAAAGTATATTATATACATAAAAATGATAAAAAATATGATATAAGAGTATTAAATTTTAAAAATATAAAAAATATAAATTACAATAAATTAATAGTAAAACCTGGAGATATGGTATTTGTTGAAAAAAATAATATGTCAAATTTTAATGATTTTTTAATTAATGTACTGGAACCTTTAAAAGCAATAAATTTATTTACAGATACAGCAGTCAATATTAATAACTTAAAATAGGAGAAGTTTATGAAATTAAAAAAAAGAAAACAGATAATTCCTTTTTATATTTTACAAAAACATATAATTTTAATTTTGATTGTGGGAATATTATCTTTTTTTGTTGTGTGGAATAAATTGAAAAACACAGTTCAGATATATTATGAATCAACAGGTATTTTAGAAATAGATCCAGTTATAGTTCCTACATTTTCAATAAATAGTTTTGAGGTATCTCAAAATAGTATTACTCAATATTACGAAAAATATGTAGGGACGCAAATAAAAAAAATTACAAGTAAAAAAATAGTAAAGAGTGCTTTAAAAAAATTAACAAAAGAAGAATTGAAAGCACTTTATGGTTCTGATGAGATAAATGATTTTTTAGTAAATATATTTATAAGAAAAATAAAAGTAGAATATTTATCTAATACACATTTAGTAAAAATTTCATTACAATCAAAACAAAAAATAGGAATTGAACATTTTATTAATTATTTAATGAAAGAGTATATAAATGAATCTAATGATAATAAAATAATAGAAGATAATTTTAGAATACAATATCTTATTGAAGAAAAGAAAAAAATAGAATCAGAAATTCAAGGGAAATTAGTTTTAGTAAAAAAAATTGCTCAAGAAATAGGAACTGGTAATTTTGATTCTAGTGATATGCCTTATAAATCAGAATTAAATAGTTTAGAAACTTCATATGTAGAAGTTTATAAAAATAAAATTGAACAAGAAAAAAAATATTTTGAATTAAAAAATGAGATAGAAACTATAAAGAAAATGCCAATAGAAAAAGAGATTAAATCTCTTTTAATTCAAGATAGTGTATATAAAGAGATAAAATTAAACTACATAGAAAAAATAAATAAATTAAATGATGAACTTGACTCCATTCCAAAAGGAAGTAATAAGGAAAAACAAATATTAGGAAAAATAAAAGTTTATCAAAATAAAATAGAAGAATTAGAAAAAGAAACGAAATATAATCTGAAAAAAAATATAGAAAAATCTAGAGAATATGACCTTAAAATAAAAGAACTTAATGCAAAAACAAATTATGAATCAGCAAAAAAACAAGAAGAAGCTATAAAAGAGCAACTTGAAGAAATAAGAGGAAAATATTCAGAAATTTCATTAAAAATATTAGAGGCACAAGAACTTAATTTTGATATATTACAATTAAAAACTTCTCTTAGTGAGATAAAAAATAGGATATCATATCTTATTTCTGAAACTAAAAATCCTGGTCGTTTAAAAATTTTGGAAAGTGCTAGCAAAGTATATGGACCAGCTGGAAATGATGCTATGAAAAGAAAGGTTATTGCGTTAGTATTAGCTTTTGGTTGGATATCGTTTTTATGTTTTATATATGAAATATTAGATCAAAGGATTAAAACTCCTCAAGATGTAAAATATGCATTAGGATTTTCGTCGGCATGGCCTATATCACATTTAAAAAAAGGAAATTTTATATCAGCAAGTTTATATAATACACATAGTGTTATATATAAAGCGATAAAAAGTCTTGTAACAAAATTAAATATAGAAAGAGAAAAACATGGAGCTAAAATAGCAGTGATAAATGGGGTGGATAAAAAATCTGGTGTAACAGAATTGATAATAAATGCAGCTCATACAATGAGGGAAAATTGTGATAAGGTACTTATTCTTGAATTAAATACAGAGAGTGCAAATATCGCTAAAAAAATGCATATAGACATAGATCGAAATTTAGGATTAAAAGATTATTTAACGGGGAAAAAATTAAATAAATGTATTTATAAAGATTATGAAAGAAATATAGATATTCTTCATATGGGCGGTATAATCAATATTACAAATAAAACAATAAAAGAAATTTTAGAAGATTTAAAACAAGAATATGATTTTATATTTATTGATTCAGCTCCAGTTATGCAATCAGCAATGACAGAATATTTGTTATTACAATCTGATATTGCAGTACTTGTTATTCATGGGAATTATACAACACATAGTAAACTTATAAAAACCGTTGAGCTTATAAATCAATTTGAAATAGACAGCTTTACAACAGTAATAAATTGGGGAAGAGTGGGAAAATTTAAAAGATAGGACAAAAATATGGCTAAAGCAATTATTTTGATATTTATTTCAATGTTAATATCAGCTAGTTTTGTATTAAAAAATAAAAGTGAAAAATCATTTATATATATTGTATTACCTTCTATATTTTTATTTCCAAATAGTTTTTTCTTTCAATTAAATAGTTTACCACTTATGGAGATAACGATTCCTATTGCATCACTTTTAGTTATCTCTGCTTGGTACGTTTTTTTTAAAATTTACGAAGCAAAATTTACTTATTTTGATTTTTTAATTTTACTTTATATAGTGGCTCAATTTATTATTGGAATAATAAAAGGTGAGTTTGGATTTAGTTTTCGAGTATTTCAAAGTGATTTAATACAAAACTATTTTTTGTATTTTTTTGCTAGATATTATTTTAGAAATAGTAAATTATTAAAAAAATCTCTTAAGATAATAGTAATAATAAACATATTAATGCTTATTTTTGCACCTATGGAGATGTTTCAAGGGAAATATATTATAAAATATTTTTGGTTAAGTAGCTATCCTTTTTTACAACAAGCGCCACGTTGGGGACTCAATAGAATACAATTATTTTTTCCACATCCTATAATCGCAGGGATTTGTTATTCGATTTTTTCAATAATTTCAGTATATTTTTTTGTACATACAAAGATAAAAAAAGAAAAAATATTTTGGGGAATATCAGTTGTTTTAACATTTATCGGTGTAGTATTTTCTATATCAAGAGGGACAATTGCTTTTTTAATGATATTTTATTTGGTATATTTTTTAGAAAGAAAAAAAATTAATTATAAATTTTTATTTATTATAGGAATAATATTTTTTATAGTATTTAAACAAGAATTTTCTAGTCATGAAGAAGTTCTGGATGATAGTGCAAATTATAGATTAAATTTAATTATGAATATAGATGAATTAATAGGTCAAAGTATGTGGATAGGTTATGGTGGAAATATAAAATATACTGGTAAAGTGGGATATGCTTGGAATAATGAAGATACGATGACAATAGATAATTTTTATTTATATCGGGTATTTACTGGTGGAATAATATCTCTTTCACTTTTTATGTTTCTTATTTTTAGAGCATATTATGAATATCTAAAATTAAAAGAGATAAAAGAATGTATATTAGAAAAAGATATGAAATTTGTAAATTTAGCGATAGTAGTAATTTTTTTTATTGTAATAAATTATTTCTTCGTAGCAAATATGTATACTACAGATCTTATATTATATATAATGTTTGGTATTATATCTGCAAACTATGAAAAATATATATTAAGTACAGATAACAAAGTAGAATATAAATTTAAAAGAATACTATAAGAGGAGCATAATAAATGGCAGAATCAATAAAAAAAAATGTACTTATGGTAATATTAAAAAATATATCATTATTAGTTTTTCCCTTAATTACTTTTCCTTATTTATCAAGAGTATTAGGTCCAGAAGGGATGGGGATTATTAATTTTGCTACAACTTTTTCAAATTATTTTATGCTTATTCCCACAATGGGTATTTCGATGTATGGAGCAAGAGAAATAGCTATAGCAAGAGATAATAAAAGAAAGTTAACAAAAAATTTTAAAGAAATATTAATAATTACATTATTATTTACATTTTCAATGTTTTTTTTATATTTAATAACAATAATTAGTTTTGAAAAATATAATAAAAATTTTGTTTTTTATTTAATATTTGGATTTGGAATAATAACAAATAGTGTTAGTATAGAGTGGCTTTATACGGGGCTTGAGAAGTTTAGCTATACAGTTTCAAGAGGAATAATAATACAAAGTTTATATATTATATCAATATTTATTTTTGTTAAAAATGAAAAAGATATAATTTTTATACCAATTTTATTGTTATTATCTAGTTTTATACAAATGCTGATAAATTTTTATTATAGTAAAAAATTTATAAATTATGATCAAAAATTTCATTTGAAAATTTATAGTAGAATAAAACCAATATTAATTATAACTATAGGAACTTTAGCGTCTACAATACAAGTAACAATGGATATTATAATGTTAGGTTTTCTTACAAGCGATTGGAATGTAGGGATATACAACGCAGCAATTAGAATAAATAGAATAGTAATAGGACTTTTAATAAGTTTAGGAGCTATTTTTTATTCGAGATTATCAAATGTATATGGAAATAATAAAAAAGATGAAGCAAATATAATATCTCAAAATTGGTTAAAGTACATATTGATGATAGTTTATCCGTCAATTATAGGAATATTTATTCTTTCGGATGAAATTATTTTATTACTTGCAGGTAATGAGTTTAAAGCGTCAATATTTACTTCGAGATTAATGAGTATAATAATATTATTCTCAGTATTAACAAATTTTTTTGCAATACAACTTTATTCTAATAAAAAGGAAAAAACAGCTATTAAAATAAATATTATAGGAGTAATTGTAGGATTTGTTTTTAATATTATTTTTATTCCATTATACAAACACAATGGTGCAGCAATTGGAACAATAATGATTAGTTTTATAGTTTCTTTTTTACATATGTATTACACAAAAAAATATATTAATATAAAAATAGATTTTAGAATTAAATATATTTTGTATAGTCTAATTATGGGAATAGTTTTGTTAAAAGTAAAATCATATTTAGACTATAAAATTTATATAAACATTTTAATTATAACATTTTTAGGTGGATTAATATATTTTGGAATATTGTTTATATTTAAAGAAATAAATTTAGAAGAGATAAAGTTAAAGGGGAAATAAATGGATAAAGTACAAGTATTAATGGCTACTTATAATGGTGAAGATTTTATAAAAGAACAAATTAATTCAATACTCAATCAAACATACAAAAATTTTGAATTACTCATAAGAGATGATAACTCTAGTGACAAAACAGTGGAAATTATTAGAGGTTATATAAAAAAAGATAATAGAATAAAATTAATAGAAGATAATAAAGGAAATATAGGTATAAATAAAAATTTTGAATTATTAATAAATATTAGTAATACAAAATATATAATGATAAGTGACCAAGATGACATATGGTTTAAAGATAAAATTGAAAGATCTTTAAAAAAAATAAAAGAAATAGAAAATGATAAACCAGCATTAGTATTTTCAGACTCTATACTTTATAAAAATAATTGTGAATTTGGAAATCATATAGGGAAAAAATTTTATAAATATAATGACTCTAAATTTCTAATGGGGATAAATATAGCACAAGGTTCTACAATGATTTTTAATGAAAAATTAAAAGAAAAAATTTTACCATTTAATTTTTATTCTGATTATTTGTATGATTTTTATATTTTTAAAAATGCAAAACTTTATGGTAATGTATATTTTATAAAAAATCCAACAATGTATTATAGAATACATAATAAAAACCAAATTGGTATAGGTAGTGACTATCTAAATATTATATCTAAAATTCGTGATGAATATTATAGATATTTTATATTTTATAAAAAAATTAAAGCAGGTGCTTTATTTTATAGTAAAACAAAAGAAAAATATAAAAGAGATATGAATAAAAAAATAGAAGTGTTTACACTAATTTTTTTATCAAATAAAAACAGGTTTATAAAATTATATTATTATTTCAAAGAGAAATTTTTTACATATAACTTTTATATAAATCTATTTATTGTATTAAATATATTTGTAAATAAATTTAATAAAAATCTCAAGGGGGAAGACTTGTGATAAAGAAAATAATAAGGAAATTAGTATATAAAATCGCAATAAGAGACAAGAAATATATGGGATTATATAGAAAAATATGTAAACCAAGAAGTGATGAATATGCGGAGTATTTAAAAAAAATAAATTACCTATATTCAATAGGTGAAGGATGTAGAATAAATCCATATGCTGGTTTTACAGATCCTAAATATGTAAAAATAGGTAATAATACATGTTTATCAGCGTGTACAATTATTGGTCATGAAGGAGCAGTAGCAGTTTTTGCAACAGCAACAGGAAAAGTATTAGATAAAGTAGGAAAAGTAGTAATTGGTGATAACTGTTTTGTTGGATATGGAGCAACTATTATGCCAAATGTAGTAATAGGAAATAATTCTATAATAGCATCTGGCTCTGTGGTAGCAAAAGATGTCCCAGATGGTGTAATTGTTGGTGGAGTACCGGCAAAAGTAATAGGACTTACCAAAGATTATATAATTCGCCTTGAAGAACAAACTAAAAAATATCCTTGGTATGATTTAATAAAAACAAGAACAAAAGTATATGATGACGAAATGGAAAAAGAGTTACTAAAAATGAGATTAAAATATTTTTTTGAAGAATAAAGGGGAACATTATGAAGAAAATACTTTATTTATGCAGTGAATATCCAGCACTTTCTCATACTTTTATTGATGTGGAAGTTGATGAATTATCGAAAAATTTTGAAATATATACTAGTTCTATAAATTATCCTAAAAATATAGAAAAATTTAGTGATGACTATGTAAAAAGATTGAATAAAACGTACTATATAAAAAAAGAAAATAAAAAAAATATTTTATTGATAGTATTAAAATATTTTATTATAAATCCATTAAAATTTATTAATATATTAAATTATACCTATAATCTTTCTGTAAAAAATGGAGTAAAAAATATTATTAAAGCAGTGGGATATTTTATAGAAGCAATACTTTTACATAATTATATGAAGAAAAATAATATAAAGCATGTACATATACATTTTGCAAATCCAGCAGCTACAGTAGCTTTAATTGCTAAAGAGTTTGAAGGAATAGAATATAGTATTAGTGTACATGGACCTGATGTTTTTTACAATGTAAAAGAAAATTTAATTGTTGAAAAAATAAAAAATGCAAAATTTATAAGAGCAATTAGTTATTTTTGTCAGAGTCAACTAATGAGAGAATCTACACCAGATTATTGGGATAAAATAAATATTATAAGGTGTGGTATAGATTTATCAAAATTTAATAATATAAATGAATTTGTAAAAGAAAAAAAAGAAAATGATAAAATAAATATTTTATGTGTAGGAAGAATAGTGCCAAGTAAAGGACAATTATTATTAGTAGAGACAGTAAAGAAAGTTATAAAAAAAACAAAAAATTTTAAAGTAACATTTATTGGAGGTGGAGAATATTTAAAAAATTTAAAAGAAAAAGTAGAGAAATCGAATTTGGAAAATTACATAGAAATATTAGGGCCTGTAAATAATGATAAAGTTATAAAAGCTCTTGAGAGTAGTGATATATTTGTATTGCCATCATTTGCTGAAGGAGTTCCAATAGTTTTGATGGAAGCAATGTCTAAGAAAATTATTACTATTTCTACTAAAATAAATGGAATTCCAGAACTTATAGATGATAAAAAAGATGGGTTTTTAGTAGAAGCTTCAAATATTGATGAATTAAGTGAATTATTAATTGAGATTATAAAAAACAGTGATAATTATAAAGAATTAAAAAATAATGCAAGAAAAAAAATAGAGAAAAAATACGATATAAGAAAAAATATAATTAAATTAAAAGAATTATTTGAAGAAAATATAAGTGATTAATAAAATTTAATTAGGAGGAAAAATGTTACTGATTGTTTCGATAATATTAGTTATATGTACTTTACCTGGTTTTTTGGAGATAACTTTATTAACTTTTTCTAATGTATTTTTAAAAGATAAAAAAAATAAAAAAATAAAAAAAGATATAAAGTTAGCAGTATTAATACCTGCACATAATGAAGAAAAATTAATAAAAAGATGTATTAAAAGTATAAAAAAATCTAGTGATTTAGGATATTCGTATGATATAATTGTTATTGCAGATAATTGCACTGACAAGACAATAGAGATTTCGAAATCTGAAAATGTAAAAGTTTTAGAGAGAAATAATAAAGAAAAAAGAGGAAAAGGTTTTGCATTAAAATATGCAATGGAAAAGTTAAAAAATGAAAATTATTATGGATATATTATCATTGATGCAGACAGTATAATAAAAGAAAATTTAATAGAAGAATTTGGGAATGCTTTTTTAAATGGTGCATTAGCAGTACAATGCTTAAATTTTGTAAACGAACCATATATTAGCAGAAGAAACAGTTTAATGCATTTAGCACTTATGTCAATGAATGGGCTTAGACCATTAGGCAGAGAAAAATTAGGAATTTCAGCAGGGATATTAGGAAATGGGTTTGCATTATCGAAACAACTTATTGATGAAATTGGATATAATGTAAATTCTATTGCAGAAGATATTGAATATCATTTAGAGATTATTAATTCAGGTAAAAAAGTAAAATTTCTAAAAGATACGGCTGTATATTCTGATTTTCCTACTACTGAAGAAGGAGCTAAAAGTCAAAGGGCTAGATGGGAAGGGGGAAAATTTTATTTACAAAAAAAATATTTTTTTAAATTATTAAAAGAGGTATTTAAAGGGAAATTTCATTTAATAGAACCTTTGTTAGATCTTATGATTTTACCATTAGCTTTTCAAGTAACGTTATTATTAATTATTGGAATTATAGGAGGAACTGGATTTAAAATTTATTCTTTAATAAATATTTTTATTATCTCATTTCATATAGTTTTATCTGTATTATATTTTGGAAAATTAAAGGATTTATTAATTATTTTTGAAGTACCAAAATATATATTTTGGAAAATTATAAACTTACCGTTGATATTAAGCCATTCTAAAAAAAATACAGAATGGATAAGAACAGACAGAAAATAAAGAAAGGTAATAGAATATAATGATTGATATATCTGTAATAATAGTATCATTTAATACGCGTGAATTATTAAAAAGATGCATAAATGAATTAAAAAAAGAAATTATGGAAATATCCCATGAAATTATAGTAGTAGATAATGATTCAAGAGATGGGACAATAGAAATGCTTGAAACAGAATTTAAAGATGATATTATCCTTAGAAAAAGTGGAGGAAATTATGGTTTTGGGATAGCAAATAATTTAGGATATGAAATGGCAAAAGGTAAATATATTTTATTATTAAATTCTGATGCATTTATAAAAAAAGGAAATTTAAAAAAGGCGCTTGAAAAAATAGAAAGTGATAAGACAATAGGGGTATTAGGTGCTAAGCTGGAATGTGAAAATGGTGATTGGCAACCATCACCAAGATCTTTTCCAACAGTTTTACAAGATTTTTTTGTACTTAGTGGAATAGCAAGTAAATATAATAAGTCGAGTTTTTTTGGGAAATCTTTAATGACATATAAAAATTTTAATAAAGAGTTTGAGTGTGATTGGGTAACTGGAGCATTTATGCTTATACGTAGTGATATTATAGGGAAAAAAATATTTGATGAAAGATATTTTATGTATTATGAAGAAGTAGATTTTTGTTTAAAAATAAAGGAAAAAGGCTATAAAATAATATATTATCCAGAAGTAGAGGTAATTCATTTAGGAGGAGCTTCAACGAGTATATTTTCAGAGAAGTTAATATCTAAAAATGGAATGCAGATGACATTATGGAGACTACAGAGTCAATATTTATATTATAGAAAAAATTTTGGATTAATAACAGCTTATTCATCTAAATTAATGGAATTAACATGGAATATTATTAGAACATTAAAAAATAAAAATAATAATTTAAAAAAAGAGGAATCAAGAATTATTATAAAAATGATTAAAAAGGCATGGGAAAATACAAAAGGTGGAAAAATTTCTCCGGCTTTTCCTTGGAAAGGATATTAAATTTATTGGGTGTGTGGAGTGTAAAGGAGAAAAATATGTTTGAAAATATAAGGGAAGATTTTCGGAATTATAATAAAAAAATTGAATGGGGATTTATTGCTATGCTAATTTATAGATTTGGAAGATGGAGATATAGAATAAAAAATTCTTTTATTAGAAAACCATTCTCATTAATTTATAAAATACTATTTTTTTATATAAAAGGAAAAGGGATAGAAATACCTTGTGAAGTAGAAGTAGGTAAAAATTTTAAAATTGATCATCAAGGAGGGATCATTATTAATGGTTACTCCAAGATAGGAAATAATTGTAGAATAAGACATAATGTAACATTAGGAATAGCTAGAGTTGGAGAAACAAAAGCTCCAATTATTGGAGATAATGTAGATATTGGTGCAGGAGCAATTTTAATAGGAGATATAAAAATAGGGAATAATGTTTTGATTGGTGCAGGAGCAGTTGTATTAACTGATGTACCGGACAATTGTACTGTAGTAGGAGTACCAGCAAGAATAATTAAGAGGTAAGAGATGAAGAAATTTTTTTTAATACTATTTTTGAGCATATATACGTCATTATTTTCGATGTCCATAGGTGTGAATGTTGATTGGATATATGACTGGAGTAATATGAGTTTATTTACAGACCTTATAAAACAAGCTAGAGGGTTTGGAGATAGTAATGAACCATGGAAAAAAATAGGCGAAATAAAAACAGATAATAATGGATGGCCGATAGAAGATTTTGGGATAGTTGTATACAGTGGAAGAAAAAATTATTATGATAAAATATATAATTTAACTTTTGATATTGTAGACAAAGTACCTGAAATAAAATTTATAAAATCAACTGGAACTATAAAAAATATAAAAATAACAAATAATAGATATAGTGCAAAACTTTATTTACCTAAAGATAATACACAATTAATATTGTCTTTTAAACATATAGGTAGTGGAATAAAAAATATAAAAATAATAGATGAAAAATATAAAAATAATGAAGTGTTTACTGAAGAATTTATTGAAATGCATAAATATTTTAAAGTGCTTAGATTTATGGAATTAAAAAGAATAAATGAAACTAGTATCGAGAATTGGAAAGATAGAACTAAAAAAGAAGATATTTTTCAAAATAAAAAAGATGGAATAGCATGGGAATATATAATAGATATAGCTAATACATTAAATAAAGATATTTGGATAAATATTCCATATAAAGCAAATAATGAATATATAAAAAGTTTAGCATTACTTTTAAAAAATGGCTTGAATAAAAACTTAAATATTTATATAGAATATAGTAATGAATATTGGAATACTATTTTTCCACAAAATACATGGTTAAAAGAACAGTATATAGAACAAATAGAAAAAAATAAGAATTTAAAAGAATATAAAGTGAAAAATGAATATTTTAAAGCAACATTAATTGCAGTAGAAAAACTTATAAAAATTAATAAAATTTTTAGTGAAATTTTTGGGAAAAGTGAAATAAATAATAGAGTTAGAATAATAATAGGTGCTCAAATTGTATGGACAGATGTAATAAAAACACAACTTAAATATATAAAAAAATATTATGGAAAACCAAATAAATACTTTTATGGATTTGCAGGGGGCGCTTATATAAATGTAGAAAATCCAGATAATAAAAATTTTAATGATATATATAATTTTATTAATAATAAAATAGAAAATTCACCATTAGATTTACAATACAAAGAAAATGTAAAAATTTCTAAAAAATACAATATAAAATTTTTAGCATATGAAGGTGGAATAGATATTGCAGGAAATGATTTTAAATCCAGTAATGAAATAGAACAAAAATTTATACAGACAGAAGATTATGTAAAACTTATGAAAAAATATTTAGATATTTGGGATAGATATACAGATAATAGCTTATTTATGTGGTATAAATCAGGGGCATCAAATAATTGGGGATTTGTAGAAAGTATGGATAATTTAAAAAATAAAAAATTTATTAAAATTAAAAAATTATTATTAGATGAAAATAAAAAGGAATAGTATTATTTAGCGATGTAAAAAAGGAGTGAAATATGGATGAAATAACATTAGTAAATGATCTAAAGATAACAGGATTTGAATCGTATAACGAATTATTCAATGAGATATTATTAAAAAAGAACATTCAAAATTTTTTAATTATTAATTATATGTATTGGGTTCCTTTTGTAAAAGCTAGAAAAGATAAAGATTATTTAGAATCTTTAAAATATTCAGGTTATATTTTACCAGATGGAGTAGGACTTTTAACATATATAAAAGTTTTATATGGAAAAACATTATTAAATTTAAATGGAACAGATTTAAATCCAGAATTAATAAAATTTTTTAATGATAAAAATATGAAGATAGCACTTTACGGTACTACTCAAGAAAATATAGAAAAGTGTGTAAAATCTTTAAATTCAAAAAATATTGATATATATTATTATCAAAACGGATATAGGGGACTTGATTTTTCTAAAATAGAAGATAATTCAGTTCTATTTGTAGGGAAGGGTAGTCCAATACAAGAGATTTGGGTGAAAAATAATTTTAAAACTATAAAAGAAAAAAAGCTTATAGTAGTCACTGTAGGTGGATATTTTGATTTTGAAGCTGGTTTTTATAAAAGAGCTCCTAAATTTATAAGAGATTTAAAAAGTGAATGGATATATAGAATTTTAGACAATCCTAAATTACAAATACCTAAATATATAAATAATTTTTATTTTCCATGGTTTATATTTAAAGACTATATTAAACTCAAAAAGAAAGTAAAAGAAAAAATTTATGTATAAAACTTTCAAATTAATTTTTGAAAGTTTTATTTTTTTTGAGGAAAAGTGTAGAGTTAAGTAGTATAATATAATAGAGGTAATTAATATATGAAAGAGGTGGGATAATGAAACGGGTAATAATTCTAAATTTATTGGTAATAATGACGTTTTTTACAGGTTGTTTTGGGAATAAAGATAATAATACAGATACTATAAATACTGGAGGAGGAAGTGCGTCAGTTGTAACGGTATCTGGTAATTTATCGACAATATCAAGTGCAACTACTAATGGAAGTATAGCTTTTAATACAACAGGAACAAGTGTTACGGGAAAATATAAATATATTTTAGCTTGAAACAAAAGAACCTATAAAAGGTGAAATAAAAAATGATGGTTCGTTTTCTGTATCTGTTTTTACAGGAGAATATATGTTTTATTTCTTAAATGAGTATGGAATAAAATTAAATGAACTTGGATTTGATACTAGTGATAAAACTGTTGGGGAAATAAATAAAAGTCTTGATTTAGGTGATATTGAAGTAGATGAAATACAAAATAAAATAGTTGCAAAAAGCGAGAATATAGAAACAAAAGATGGAAATAAAGTTGTGATACAAACAAAAACTAAATCAGAAGTTAAATTAAATAATACAATTATTAAAACAAAACTAAAAAAAGTAACAAAAACTATAATAGAAGATAATAATTTAGGAGAAGTACAGGAAGATAAGATAATAATTATTGTAAAATCAACAGATACAGTAAAACAAAAGATAGTATTAGAATTTTCTAGTGAATCAGAATCAGAGGATGTACCAGAATTAGAATTTAAAACTATAAAAATAGTAAAAGAAGAAAAAATTACAATAAATGGAGAAACCAAAGTAAAAATAACAACTAAAACAAAAACTATAGTCACATTTGATGCAAAAGAAGTAGGAAAAGATATTGAAACAGTAAATGATAAATTGAAAGATGATTATAATGATGGAATATTAGATACATCAAATATTTTAACATGGAATATAACTGCAGATGATTTTAATGTATTAAACCCAAAATCATTATCCGAAGTATATGATAGTATAAGAAATATAGAAAATAAAAGTAATAGTAATGCTATAAATTATTTATTTAAAGCTATATTAAGTACAGAAGAGCTTGAAACCACTATTAGAGACGAAATATTAGATGGATTGAATAATACTACATTGGTAAATCAGCTTAAAAATGATACGGATTATAAAACATTTAAATATGCATTAGATTTTTATAAACCTTCTACTTTTTATAATCTACAATCAAAAAATGTATTGAACAAATTAGATAATATAGTAGATTTAATAGAAAATTCTTATTTAGTAGGTGAAACAGTTGTATTAGATAGTAAAATTTAACAGATGGATATAATGTAATTATTACGCCAGAAGTGTTTGAAATAATGAGTGGATTATTTAAAGTATTTGTGTCTCAAGTATATTGGTTGGCTTCTTTTGATATTTCTGATGAAGCTGATTATACTATATTTGAAAACTTAATAGAAAATTTTGATTCGTTATATTCAAATTCAAATACATTAAGTGAATTTTTAAATAGTTATTTTAAAGATCTATCTACATTTGATGTAAATAATGATTATCAACAAAAAGCTCTTACTTATATAAAAGAAGCAATAACAGAAATTATAGAAGGTATAGATGGAATATCTGTATATAATGTTGATAATTTGTCAGATAAGGCAAATATTATTTCTTTTGATTCTCAAGTAGAGAAAGATGATTTATTAGATGGATTAGAAATAATAAAAGAAGCATTAAGTGATGAAGGAGCAATAATTAAGACAGAAGATGGAGAATCATTTAGAATTAATTTATCAAAATTATACACTTTTGATTTGAAAAAAATGATGATAGATTTGACACAAGGAATAACAAATTTAGACAAAGCAGATTATGAAATGGAAGTGAATTTTTTAAATTCTACATTAGGTGGAATTTTCCCTGATGGTATACCAACTTTATTAAAAGATGATATATTAGAAGTTGAAACATATGAAGAAAGACCAGTAATATTAGATAATGGAGAAATGTATTGGAAACATTTTATAGTTATAAGAGAGTATGATAGTAATTATAAATTTACAAAAGCAGAAGTATATGATGAAGAAAAAGATGAATTAGTAGCAAAATATATATATGAATATGATGATGAAAATAATACAGTAAAAGTAATAATAAGTGATAAAAATGGAAATGAAACTGGGGAATATAGATTATATCAAAATAAATTAAACGGACATCTCATAGAAGAAGTTGTTTTAGTATATGAGTCTAATGGAAAAGAAATATTAATGAAATACATGTATGATGAAAATGGAAATAAAACTAGCGAGGAAAAAGTTATTAATTAAAAATAAAAAGCTCTGTAAATACAGAGCTTTTTTTAAAAAGTCTAAGGAGAAATATGAAAAAGAATATTTTATTATTTTTATTATTATTTAATAATATTTTTTCAAATGAAATATTTTATAAATATAGTAATCTATATAATAATACTGAGTATAAAATATATTCTCAAAATTATTTTATAGATTACAATTTTTTTAATGTAAACTATGTTGAAAAAAAAATAAAATTCCAGAAATAGATTATTTTAGTGATTTATTAAATCTAGGATTAGATTTTAAATATTATAGTTTTGAATATAAAAGTATAAATTTTAAAATACCGTATTTTTATTTAGATAATGAGAAATTAGAAATGGAAAAAAGTAAAAATTATATAATATCAAATAGAATAACAATTCCTTTTAAAAAATATAAAATAAGTATTAAATATAGTAAAAATATTAATCAAAATTATAAATTTATATCAAATTATGGTAACTTTATTTTTAATGATTTTGATTATAAAGGTTATAAATATAGTATAGAAAAAGGTAAATATAAATTTATATATGATATTAATAGTTTTAAAACAAATTTTAAATTAAATAACGTATCTGAATTAGGAAAATTTAATGGGAAATGGTATTTAATATCATTAGGAACAAATAATTTAAAGATTAATTATAGAAAGATTTATTCAACTTCATATTTTGATATAACTAAAAATAATGCATTTTTTGTTACAAGTAGTCTGGATAGATATTTTTATGGGAAAGCTAATATAGATATAGAAAATTATGAATTAGAAAATGACTATATTAAAAAAATTATAGAAATAAATTTATATTAAATAATAAATTTGGTATTATACAAAATAACAGTAATATTTATTTAATGACAGAATATTATAAAACTCTTCTTAATCTTTTTTTTATTAAAATATCAGAAAAATACAAAACAGAAAATATATATTATGATATACCAAAATATATGTATTATAATATATTAAATATAGGATATGAGAGAAAGATAAAAAATAATTTTATTATAGGTATAAATAAAATAATTCCAATTGTATTAAATATAAAAATAAAAACAATAAAGACAAAAAAAATAATATAAATGCAAATATGATGGGGGATATGAATAAGAATTTTAAAATAGGAAAAACGAAAGAAATAATCTTAAGTGGAGTAACAATTTATTTTAAATATGAAATCTAAATTTATGATAAAATATAAAATAAGTATTTCTTGATTTAGGAAACAAAATATAGAAAAAAGTAATTTTATTTACTTTAAATGAGGTATAGATAAATATTGAGTTTCATATAAATTATATATTATCTTTTGAAATGAAAACAGTATCATAAAAAAAACTAATTTTGGATGAATAAAATAGGATAAAATGTAATGGAATTTCAGATTTTCGTTCTTAAAACATAGAAAATGTATTTTTTTCGTTAAAAAAGTTAAAAAACTATTGACTTTTTATAAAAAATATAGTAATATAACTATTGATTAATGTAACCGTTTACATCAAAGGGGTGTAGAAATGAATATAAAAAAGGTGGCAGAATTATGTAATGTTTCTGTAGCTACAGTTTCTAGAGTTATTAATAAAAAAGGGAACGTAAAGAAAGAAACAGAGGAAAAAATACTAAAAGTAATAGAAGAGCTTAATTATATACCAAATGCACTTGCTAGAAATTTATCTAAACAGGAAAGTGATGTAATAGGGGTAGTAGTTCCAGATGTTACTAATGTTTTTTATACTGAAGTTATAAAAGGAATAATGGAAAGCGCTAGCGAAAATAATTTACATGTAATCTTTTATAATACAGATTCTGATATGGAAAAAGAAATAAATGCGCTCAAAATGATAAAAGAACAAAGATTAAAAGGAGCACTTTTAATTAGTGCATTAAAAAAGAGTAATAAAGATAAAAAACTATTGAAAAAAACGCTTGAAACATTGGATATGCCTCTTATATTAATAAATAAATACATAGATAATTTACCATATGATGGAGTATTTACAGATGATATAATGGCAGGATACTTGCTTACAGAAGCTCTTATAGATAATAAACATAGTAATATAGCTATACTTACAGGGGCTAAAAACTCTATTGTAGCAAATAATAGAGTGATAGGATATAAAAACGCTTTTAAAGATTATAATATAGATATAAAAAATGAAAATATTATATATGCAGATTTTAATAGTATTGAAAATAGTTATAAAATAATAAAAAAACATTTTTCAAATAAAGATATACCAAAAGGGATAATAGCAGGAAATAATAATATAACTATTGCCTGTGTAAGGTATTTTAATGAAAGAAAAATAAAAATTAATAAAGATGTGTCTCTGGTTGCATTTGATGATATTGAAATCTTAAACTGGTTGGGCGTGGAGCTTACAGTAGTAAGTCAAAATCCTAAAGAGATGGGAAAAGAAGCATTTAATATGCTATTTAATAGAATAAATAATAAAAGTATACCTATTAATAGAATACATGTAGTACCAGAATTAATACTTCGAGGCTCAGAAAAAATATTAAAATAAATAATTGGAGGTAGAAATGGATATAAGTTTTTTAGATTGGTTAGGATATTTGGCATCATTTATAGTTCTTGTATCACTTACAATGAGCTCTATTCTTAGACTTAGATGGTTTAATTTGTTTGGAGCATTACTTTTTTCAGCATATGGATTTGCAATAGGGTCAATACCTACTGGAGGAATGAATGCTGGAATTGTACTTATAAATATTTATTATTTAGTGCAATTATATACACAAAAAGAAGATTTTAAAATAATAAGAGCAGAGAAAGAATCAGAATATTTAAAATATTTTATCAGTACAAATTATAATGAGATAGAAAAATATTTTGATGTAAAAGATTTAGAAGGAGAAAAAGAATATTATTTTATGCTTAGAAATAATCACACAGCTGGTATTTTAGTAGGTGAATCACAAGAAAATAATAAAACATTTTTTATTAATATAGATTATGTAACACCTGAATATAGAGATTTTAAATTAGGGAGTTATTTTTTTAATCAAAATATAGATTTTATTAAAAATAGAGGTTATACTAAATTAAAGACTAAAACAAATAATGAAACACATAAAAAATACTTAGAAAAAATAGGATTTAAAAAATCAAATGATGAGTACTACATCAAAGAAATAGCTTAATTTTTTTTTAGGAGGAATAATATGTATAATAAAGTAATGGAAACAGTAGAATTTTTAAATGAAAGAGTAGAAATGAGACCAAAAGTAGCAATTATTTTAGGTTCAGGACTTGGAGATTTGGTTGATTATATTGAAGAAAAAATAGAAATACCTTATGAAGAAATACCAAATTTTCCTGTATCAACAGTTGCAGGACATGCAGGTAAATTAGTATTTGGAAAAATTAATGGAGTAGAAGTTCTTGCAATGAAAGGTAGATTCCATTATTATGAAGGTTATGAAATGAAACAAGTTACATATCCTATTTATGTAATGAAACAGTTTGGAATAGAAAATATGATTGTAAGTAATGCAGCTGGAGGAATAAATAAAAATTTTAAACCGGGGACATTAATGCTAATTACGGATTTTATAAATATGTTTGGAACAAATCCATTGATTGGTAAAAATGATGAAAGATTTGGAGTAAGATTCCCAGATATGTCAGAAGCTTATTCAAAAGAACTTATAAGTTTAGCTAAAAAAGTAGCTGAAAAAAATAATGAAAAATATGAAGAAGGAACATACTTAGGGACAACAGGACCGTCATATGAAACAGCTGCAGAAATAAAAATGATGTCAATAATGGGAGCAGATGCAGTAGGAATGTCTACAGTTCCTGAAACAATAGTAGCTAATTATTTAGGTATAAAAGTATTAGGAATATCATGTATTACAAATATGGCGACAGGAATTGCACAAACTGCTCATTCTCATGAAGCAGTGGTTGATATTGCAGTAAAAACAGGTGAAAGATTTTGTAAATGGGTAGTAGATATAGTATCAGAATTAAAATAATTAAAAGTAAAACTAACAAAATAAAAAATAATCTTGACTTAGTATAAGTTTTTTAAGTAAAATAAAAAAACGTTTTAAAAAATAAATTGATATTAGGAGGGTATCCGTGAGCAACTATATATTAGAGATGAAAAATATTCGAAAAACTTTCTTAGAAGGGAAAGTTGTAGCAAATGATGATGTTTCTCTAAGAGTAAGAAAAGGTGAAAAACATGCAATCGTTGGAGAAAATGGTGCAGGGAAATCTACTCTTATGAAAATATTAAACGGATTATATCAACCAACATCAGGTGATATATATTTTCATGGTAAGAAAGAAATAATAAATGGTCCTGGAGAAGCGGCAAGACTAGGTATAGGAATGGTATACCAACATTTTATGCTTGTGCCAACTCTTACAGTAGCAGAAAATATGATACTAGGAGTAGAACCTAAAAAAGGATTAGAATTAGATATTAATACTGCTAGAGAAGAAGTAAAAAAAGTATCTGAAAAATATGGATTAGCTATAGATCCAGATGCTAAAATAAGTGATTTATCTGTAGGGATGCAACAAAGAGTTGAAATTTTAAAAATATTATTTAAAGGTGCAGAATTATTAATATTTGATGAACCTACAGCAGTTCTTATTCCTCAAGAAGTAAAAGAACTTTATAAAATTATGGACAATTTAATAGCTGAAGGAAAAACAATAATATTTATTACTCATAAATTACAAGAAGTTTTAGATATTGGGGATAATATTACAGTTATTAGAAAAGGTAGAGATGTAGGAAATTTATCAGTAAAAGACGCTACAAAAGAAAAAATTGCTAATATGATGGTTGGAAGAGCAGTTTTATTTGATGTAGAAAAACCTGAAGTAGAATTAGGAGACGATTTATTAGTAGTTAATAATATAAAAGTTAAAGGAAATAAAGGTGGAGTATTAGCTCTTGATGATGTTTCGTTCACAATAAAAGCTGGAGAAGTTGTAGGAATAGCTGGTGTTGAAGGGAATGGACAATCTGAACTCATAGATGTACTTACAGGGCTTAGAAAAATAGAAGCTGGAACAATTACATTAGAAGGAGAACCTCTTGCTAATATAACTCCTAGAGAAGCTACATTAAAAGGAGTGTCTCATATACCAGAAGATAGATTGAAAAGAGCAGCGATAAGTCAGTATACATTAGAAGATAATTTAGCATTAGGACAACATCAAGATATATATGCAAAAGGAATTTTGAGAGCTTTTAGAGATTTTAATAAAATAACAAAAAAAGCAAAAGAATATCTTGAAAAATATGATATAAGACCTAGAGAACCAAAAATAATATTTGGTAGAATGTCAGGTGGGAATCAACAAAAAGTAATAGTTGCTAGAGAACTTGAAAAAAATCATAAATTTTTAATAGCTGCTCAACCAACAAGAGGAGTGGATATAGGAGCTATTGAATCTATTCATAAAATAATACTTTCAGAAAAAAAAGAAGGTAAAGCTATTATGGTAGTATCTTCAGAACTTTCTGAAATATTAAACTTAAGTGATAGAATAGTAGTAATGTTCCACGGAAAAGTAATGGGAATATTAGATAGAAAAGATGCTACAGAAGAAAAATTAGGAATATTAATGGCAGGAGGTAAGCTTGATGAAAAATAAATTAAAAGAGCTAGCAATACCTTTTTTATCGGTATTAATCGCACTTGTAATTGGTGGAGGAGTTATAATTTATCTTGGTGAAAATCCATTAACTGCATATGGATATTTATTTGGTGGAGCATTTGGAAGCGATAGAGGTATAGCAAGAACGATGCTTGAAGCGACACCTATGATATTTAGTGGACTTGCAATAATGTTTGCTTATCAAGCTGGAATGTTTAATATAGGAGCTCAAGGACAGGTAGTTATGGGTGGACTTGCAGCAGCAGCAGTAGGAGCATTTGTTAATAATCATTTTATAAATAACGTATATGTAGTAGTATTAATCGCAGCAATAGCAGGATTTTTATGGGCAGCAATAGCAGGATATTTAAAAGCAAAGCTTGGAGTCCATGAAGTAATTAGTACGATTATGTTAAACTATATAGCTAGTAATTTTGAACAATATTGTTTGAATTATCCTTTAAAAGAAGGTGGACCTCTTGGACCAACACCTCAAACACCTCCAGTAATGGAAATATCAAGATTACCATTATTGTTACCTGATAGTAGAGTATATTTAAATGTAGGATTTATTATAGCTCTAGTAGCAGTAGTTGTTGTATGGTTTATCTTTAATAAAACTGTATTTGGTTATGAAATAAAAGCAGTAGGATTTAATTTTACAGCAGCAGAAAATGCTGGTATAAATGCTAAAAAGATATTATTATTAACTTTAGGGATTAGTGGATTATTAGCTGGTCTTGCAGGAGCTGAAAGAGTTCTTGGAGGAGTTGGACAATATACATATAGACAAGGATTAATGGCAGAATATGGATTTGATGGTATAGCAGTTGCACTTTTAGGTAAAAATACTCCTATAGGAGTATTAATATCAGCGTTCTTATTTGCAACACTAAGAGTTGGAGGAAGAGCAATGCAATTTAACACTTCTATTCCAAGTCAAATCATTATAATAATTCAAGCAGTAATTATATTACTAATTGCTTCAGAAAATATGCTTTCTGATTTACTTAAAAAATTTAAGAAAAAGGAGGCTAAAGCATAATGGGTATATTTATTAGTTTAATTTTAGCCACAATAAGACAAGCGGCTCCAATTTTAATAACAGCTATTGGAGGAGCATTTTCAGAGATAACAGGTGTTGTAAATATAGGACTTGAAGGTATGATGTTAATGGGTGCATTTAGTGCTGCAATTGGATCATATTATACTGGAAATCCTTATATAGGAATTATATCTGGTATGGTAGCTGGAGGATTAATGGCAGCAGTACATGCAGTACTTAGTATAAAATATAAAGGAAATCAAACAGTATCAGGTGTTGCGATAAATTTATTTGCATCAGGATTTACAGTATTTATGCTTAGAGTATTGTTTAATCAATCAGGAAATACTCCATCTGTACCAAAAACACCACAATTATTTGGGATGTCAATAATAGTTTATATTATTTATATATTAGCATTTGTTGCAATATTTGTAGTATATAGAACTGTAATAGGGCTTAGAATGAGAGCAGTTGGAGAACATCCATTAGCGGCAGATACAGTAGGAATAAATGTAGATAAAATAAGATATATTGGAGTAATATTATCAGGAATGTTTGCAGGACTTGGAGGAGCTTATTTATCAATAGGAGCTTTAGCACAATTTACTAAAAATATGTCAGCAGGAAGAGGATTTATTGCTTTAGCAGCGGTAGTATTTGGTAAATGGAATCCAAAAGGAATACTTTTAGCAAGTTTATTATTTGGATTTGCTGATGGATTACAAACTTTAGCACAACAATATGTAAAAGCTATTCCACCGCAATTTATTCAAATGTTACCATATGTTTTAACACTTCTTGCGCTTGCAGGGGTAGTTGGTAAAGCGGTAGCACCTAGTGCGTCAGGGAAACCATATGATAAAAACGAAGCTTAATAATATTATTTAAAAATTAATAAAATTATACTTGAAATATTGGAAATTTAAGGGTAATATTAAATATAGTAGAGTCCGGGAGAAAATCCCGGATTTCGAAGAGAAATGTTGTAATCGATTACATGTTTAATGTGATAAGCATATTATAATTAATTTATCTATAATTTTGGATATTTAGATATATTGGAATTAATAAAAAAAGAAAAATAGGAGGAATAAATATATGAAAATATTTATAGATACAGCAAATGTAGAAGATATAAAAAAAGCAAATGATATGGGTGTAATATGTGGAGTAACAACTAATCCTTCATTGATTGCTAGAGAAGGTAGAGATTTTAAAGAAGTAGTTACAGAAATTACTACTATTGTTGATGGGCCTATTAGTGCAGAAGTAGTATCATTAGAAGCAGATAAAATGGTAGAAGAAGCATTAGAATTAGTAAAAATTCATAAAAATATAGTAATAAAATTACCTATGACAATAGATGGACTAAAAGCTTGTAATATACTTACTAAAAAAGGAATAAAAACAAATGTAACATTAATTTTTAGTGCAAATCAAGCATTATTAGCAGCAAGAGCAGGAGCAACTTATGTAAGTCCATTTGCTGGAAGACTTGATGATATAGGAGTAGATGGAGTAGCTTTAATAAAAGAGATATCAGAAATATTTAAAGTACATAGTATAAAAACAGAGATAATAGCAGCAAGTGTAAGAAATGGACTACATGTAAAAGAGTGTGCAAAAGCAGGAGCACACATTGCAACAATACCATATGGAGTAATAGAAAAAATGACACAACATCATTTAACTGATGCAGGAATAGAAAGATTTTTAAAAGATTGGGAAGGATTCGTTAATAAAAAATAGAATATATTAATATAGAATGTTTAAGGGTATAAAATTATAGTTTAGGAGGAATGGCAATATGAGAGCAGTAGATATTATTCAAAAAAAAAGAGATAATTTTGAATTGACTAGTGAAGAGATTAGTTTTTTATTAGACGAATATTTAGAAGGAAATGTACCTGATTATCAAATGTCATCATTTTTAATGGCTGTATATTTTAATGGTATGAAAAAAAAGGAATTAAAAACTTTTACAGAAAAAATGATGCATTCGGGAGACTTAATAAAATTTGAAGGTGTAAATAAATTTTTAATAGATAAACATAGTACTGGTGGAGTAGGAGATAAAACTACTATTGCATTAGCACCAATATTTGCAAGTTTTGATATAGGAACTGCAAAACTTTCTGGAAGAGGTCTTGGACATACCGGAGGAACAATTGATAAATTTGAATCAATAAAAGGGTTTACTTTTCCTGAAACAAGAGATGAACTTGTAAATATGGTAAATAAAACTGGAATAGGTCTTATGGGATATTCAGATAAAATAGTTCCACTTGATAAAAAATTATACTCTTTAAGAGATGTAACAGCTACTGTTCCAAGTATTCCTCTTATTGCTAGTAGTATAATGAGTAAAAAATTAGCAGTATATGCTGATGGAATAATATTAGATGTAAAAGTAGGTAGTGGAGCATTTATGAAAACACTTAAAGATGCTACAGACCTTGCTAATACAATGCTTGATATAGGAGATAGTTTTGATAGAAAAGTAGTAGCAGTACTTACTGATATGGATCAACCATTAGGAAGAGCAGTTGGAAATACTTTAGAAGTTATTGAAGCAATAGAAACTTTAAAAGGAAATGGGCCAGAAGAATTTACTTATTTAGTTGAAACTTTAGCAGCAGTTGGATTACAAGTAAAAGGAGATGTAAAAACATTAGAAGAGGGTAGAGAAAAAGTATGGGACATGATCAAAAGTGGAAAACCTCTTGAAATGTTAAAAGGATTTATTAAAGAAGCTGGAGGAAATCCAGGTATTGTAAATGACTATTCATTATTACCAACAGCTAAAAATAAACTTGAAGTTAAATCAGATAAAACAGGACATGTAAGTAAAATAGAAGCTGAAATGATAGGAAAATCTGCTATGGTTTTAGGTGCAGGAAGAGCTACAAAAGAAGATATTATAGATCATGCTGTAGGGCTTGTGCTTAATAAAAAAATTGGTGATGAAATAAAAGAAGGAGAATTATTGGCTACTATTTATTATAATGATGATAAAAATTTAAATTCTTCTATTAAACTTTTAAAAGAAGCATATGAAATATCAGAAAAAGAAATAGAGAAAAAAGATGTAATTTTAGATATAAAAAGTGTAAATATTTAATGGCTTTAATATAGAGATTAGGAGGAGTCTCATGAATATACAAAATATAAAAAAAGTAGAGCTTCATCTTCACTTAGATGGGTCACTTAGACCGAGTACAGTATTAGAATTAGCAAAAAAAGATGATATTGAATTACCTACATATGATTTAAATAAATTAAAAAAATATTTAAGTGTAGATGAGCATAATAAAGATTTAGTAGAATATCTAAAAAAATTTGAAATACCGGGTAAAGTTATGCAAACAAAAGAAAATCTTTCAAGAGTAAGTTATGAACTTGTAGAAGATTTAGCAAAAGATAATTATATTTATGCTGAGATAAGATTTGCACCACATTTTCATTTAGAAAAAGGATTAAATTTAGAAGAAGTGGTAGAAGCTGTTTTGAAAGGAATAGAAAAAGCTACTAAAAAATATGATATAAAAATTACTTTACTACTTTGTATAATGAGACATCTTTCTTTAGAAAAAGCTTTTGAAATATTAAATTTAACAGAAAAATATATAGGAAAAGGGGTATCAGGACTTGACCTTGCTGGAGATGAATTTAATTATCCAGCTACTATATTTAAAAAAGTTTTTAATGTAGCTAGAAATAAAGGGATACCTTTTACGATACATGCAGGTGAAGCTAGAGGTCCTGAAAGTGTTTGGGAAGCTATTAGCTTGGGTGCGAAACGATTAGGGCACGGAATAAGATCATATGAAGATGAAAGATTAATAGACTGTTTAAAAAAAGAAGATATCGCGTTAGAGTGTTGTCCAATCAGTAATTTGCATACCCATGCTATAAAAGATTTTCGTAATTATCCACTAAAATTTTATGTTGAAAATAATATAAATGCTTGTTTAAATACAGATAATAGGACTGTATCAAATACTAACTATCAAAAAGAGGTAGACTTTTTATCTAGCTATATTAATATAGATTTAGAAGATATAAACAAATTTAATAAAAATGCAATTAAATCAGCATTTATAACTGAAGATGAAAAAAAACAGCTTTTAAATAAATTAAAATAAATGATGGAGGAATAATAATGGAATTAAATAAATACATTGATCATACAGTATTGAAAGCAACTACAACAGTAAATGATATAAAAAAACTTTGTGCAGAAGCTAAAGAATATAAATTCTTTTCAGTTTGTGTAAATGGTAGCTATGTTAATTTAGCTAAAAAAGAATTAGAAGGAAGCGATGTAAAAGTAGCTGCTGTAATTGGATTTCCTTTAGGGGCTATGAGTAAAGAGGCTAAAGTATTTGAAGCAAAAAAATGTATTGAAGATGGAGCAAATGAGATAGATATGGTTTTAAATATTGGATTGCTTAAATCAGGAAAATATGATGAAGTAGAGCAAGAAATTAGAGAAATCAAAGAAGCTATTGGAGATAATGTATTAAAAGTAATATTAGAAACTTGTTATTTAACAGATGATGAAAAAAGAAAGGCTTGCGAATTATCTGTAAATGCTAAAGCTGATTTTGTAAAAACATCTACAGGATTTGGAACAGGTGGGGCAACTTTTGAAGATGTAGCACTTATGAAAGAAGTAGTAGGGGATAAAGCACAAATAAAAGCTTCTGGAGGAGTAAGAGATTTTGAAACTGCTAAAAAATATATTGATATGGGAGTAACTAGACTAGGGACTAGTTCAGGAGTATTATTAATGACTACAGGAAAAGCAAAAGAAGGAGAGTATTAATATATGGGCGTTTATAGCGCCCCTTTTACTATTTTTGTAATTAAAAAAATAGTATAAAGAAAGAAAATAATGCGCTTTTTAAGTAGATTTTATAAAAAATTTAATATTTTACTATTAATATAAGATATAGGAATTAGGAGGTATAATATGAAAGATATAGAAAGAGTAACAGTTATAGTTTTAGATAGTGCTGGAGTAGGAGAGTTACCAGATGCAAAAGATTTTGGTGACGAAGGTTCAAATACATTTGGACATATAGCGGAAGCAGTTGATGGAATAAGTTTACCAAATATGCAAAAAATGGGACTTGGAAATTTAACAAATATAAAAGGAGTAGATCCTTTAGTAGAAACAAATGGAGCTTATGGAAAAGCTAAAGAAGCTTCAAAAGGAAAAGATACAACTACTGGACATTGGGAAATAGGAGGAGTTATTTTAGAAAAACCATTTCCTACATATCCAAATGGATTTCCAAAAGAAGTAATAGAAGAATTTGAAAAAAGAACAGGAAGAAAAGTTTTAGCGAATAAACCATCTTCTGGTACTGTTATACTTGATGAATATGGAGAAGAACAAATGAAAACAGGAGCATTTATAGTTTATACTTCTGCTGATCCAGTTTTTCAAATAGCAGCACACGAAGAAATAATTCCTTTACAAGAATTATATAATGCTTGTAAAATAGCTCTTGAAATTTGTAATGAAATGTCACCAGTGGCTAGAGTAATAGCTAGACCATATGTAGGAGAAGGGAAAGGTAAATTTACTCGTACATCAAATAGACATGATTATTCAATAGCACCACCAAAGGAAACAATACTTGATAAAGTAAAAGCTGCAGGATTAGATGTAATAGCGATTGGAAAAACAAGTGATATTTTCTCAGGAAAAGGTGTAACTGATTCAAGAGGAACAAATAAAGATAATAAAGATGGAATATTAAAAACAATAAAAGCGTTAAAAGAAGATACAAAAGGATTGATTTTTACAAATTTAGTTGATTTTGATATGGTTTATGGTCATAGAAGAAATCCAGAAGGATATGCAAACGCATTAATAGAATTTGATAATTATTTACCAGAAATAATAGAAAATATGAAAGAAAAAGAGGTATTGATAATTACAGCTGATCATGGATGTGACCCTACATACAAAGGAACAGACCATACTAGAGAATATATTCCTATATTAGTATATGGAAAAGGAGTAAAATCTGTAAATATAGGAGAAAGAGAAACTTTTGCAGATATAGCTGCTACAATTGAAGAAATTTTATTAAATAAAGAAGTTGAAGGAAGCTTTGCAAAAGAAATATTAGAATAAAGTTAAAGAATTATATTAAAATTTGTTATTTCTATTAAAATATTAAAAAAGATATATTTGATTTTTATAAAAAATAGTTTCTATAAATAATAAATAACAATATTGTATTTTAGATATATAATTTAGAATATATTAATTTTGTAATAAAAAACTATAAAAAGGAGAAATCAATGAGAAAAGAAAAAATATTTTTAAAAGCAAGAGCATCATTAGTTTTTATGTTTTTATTAAGTGTTATGATATTTGGAGCAGATAAAAAGATTACTATTATGGAAACATCAGATATACATGGTAGAATTTATGCATATGATTATGCAATTGATGCACCAGATAAAGATGCAGGATTAGCTAAAATCATGACAATTATAAAAGAAGAAAAAGCCAAAGATCCAGATACAATATTAATTGATAATGGAGATACGGTTCAAGATAATAGTGCAGAATTATTTAATGATTTACCAACTCATCCAATGATTCAATCATTAAATTTAATGAAATATGATGTATGGGTATTAGGTAATCATGAATTTAATTTTGATTTAAATTTTTTAAAAAGAAATATAAAAGGATTTAATGGAACAGTATTAGCAGGAAATATTTACAATACAGATAATGAAGAAAGATTTGTAAAAGCATATAAAATATTTAATATAAAAGGAGTTAGAGTTGCAATTGTTGGAATGATAACACCTAATGTAACGCGTTGGGAAGCAAGTAGTCCAGAGCATTTTGAAGGGTTAAGATTTACAAAATTAATTGATGAAACAGAAAAAGTATTAAATGAATTAAATGGGAAATATGATGTATTAATAGGTAGTTATCATTTAGGAAGAAAAGGGGAATATGGAGGAGCAGGACTTTATGATATAGCTGATAAATTTCCTCAATTTGATGTATTATTTGGTGGACATGAACATGCTAAATATATAGAAAACAGAAATGGAGTACAATTAATAGAACCTGGGAAATATGGTGCAGCAGTAGCAAAAGCAGTTATAACAGTTTCTGAAAATAAGGATAAATATAAAGTTGCATCAATAAAACTAGAAAATATTGATACTATAAAAGTTAAAGAAGATAAAGAAATCTTAGATAAATTTGAATTTGTTGATAAAAAATCTAAAGAAGATGCTAATAAAGTTGTAGGAAAAATAACAGATGATTTTATAAAAGGAGTAGATTATATTACAAAAGCTGATAAAGTAACAACAATGCCAACAGCACAAGTGGAAGATACAGCTATAATAGATTTAATAAATGATGTGCAAATGTTTTATTCAAAAGCAGATGTTTCATCGGCAGCACTATTTAATTTTGGAAGTAATTTGAAAAAAGGAGAATTTAAGAAAAAAGATGTAGCATATATCTATAAATATCCTAATACTTTAATAGGAGTAAAGATAACAGGTAAAAATTTAAAAAAATATATGGAATGGTCAGCATCTTATTATAATATTTATCAATATGGAGATTTAACAGTTAGTTTTAATCCTAATGTAAGAGGATATAATTATGATATGTTTTCTGGAGTTACTTATGATATAAATTTATCTAAAGAAGCTGGAAATAGAATAGAAAATTTAAAATTTAAAGGGAAACCGATAGATGAAAACAAAATATATAAATTAGCTGTAAATAATTATAGATTTGGAACATTATTAGGGTTAAAATTAGTAACACCTGCAGATAAATATTATGATTCTTATGCTACAATGCAAGATTCAGGAAGAATTAGAGCATTAATTATAAAATATGTACAAGAAGAAAAAAATGGTGTAATATCACCAAAAGTAGATAATAATTGGAAAATTACAGGAGTAATATTGGAACATCCATTAAAAAATAAAGTGTTTGATATGGTCAAAAAAGGTGAAATAAAAATACCTACATCAAGTGATGGAAGAACAAAAAATATAAAATCATTAAATATAAGAGATTTAGAAAATAAAGGAATTATAAAACTTTCTGATATAAAAGGGATTATAAGATATAAAGTAAAACCAGGAGATACATTAAGTAAAATAGTTAAGGATAAAAATATTGAGTGGAAAGATATTGCTCAATTAAATGGATTAAAAAATCCAAATAGATTGAAAGTAGGACAAATTATATATCTTTATTAAAAGAAGAGCCGTAAGGCTCTTCTCTAATTATTAATAAAAGGAGATAATGTATGAAAAAGTATATGGATTTAATAATTTCTGCAATTTTGTTTTTAATTTTAATTATTTTTCAAATTAATTTTTTAAATCAACAAAGTAAAAGAAAAAAATACTTTAAACAAGAATTTGAGGTAGCAATTGTAGAAAATATAATAAAAGAAAGATTGGAAAAAGATAAAGTTATTGACAATAGATATAATGGAAGTCAAACATTAAAATTAAAAATTTTAACCGGGAGATTAAAAGGAAAAGAATTTGTAGTAATTAATCCAATGAGTGTAATGCATAATGCAAAGGCTGTTAAAGGGATTAAAATGATTGTAGGGATAACAAAAGAGAACGGGAAAGATTCTATTTGGGTTTATAATTATAAAAGGGATTATGTAGTATATATACTTGGTGGATTATTTATGATGTTATTAATAATGTTAGGTAAAAAGCAGGGAATTAGATCTTTAATTTCTTTAATTATTACAGGAAGTAATATAATTTTTATTATATTACCACGTATTTTTGCAGGACAAGATCCAATAATGGTTTCTATAATAACTATATCAATAACAACTATTATATCTTTTTTATTAATAAGTGGATATAATAAAAAGAGTCTATCTGCTATATTAGGAACTGTTGGTGGAAGTATTATAGCAGGGACATTAGTTTATATAGCAGGGAAATTAGCAGGTTTATCTGGAGTTACAATGGATAAAGGTCAACAATTACTTTATGTAGCTAGAGATTATAATATAAAGATAAAAGGATTACTATTTGTATCAATTTTAATAGCATCTCACGGTGCGATAATGGATGTAGGAATGTCTATAGCTTCTTCTGCATCGGAAATATATAAACATAAAAAAACTATATCAACATTAGAACTTTTTACTGCATTAATGAATATTGGAAAAGATATAACTGGAACTATGGCTAATACTTTGATATTGGCTTTTGTAGGAAGTTCTTTAAATTTAATGATGTTAATTTATGGATATAATATGCAATATTTACAATTTATGAATATGCCAATTATTGTTACAGAAGCTATAAATGGTTTTGCTGGAAGTATAGGAATTATTTCAACAGTACCATTAACAGCATTAATATCTGTAATTTTAATAAAAAAAAGTAATATAAATAATAATTTATTAAAGAAAAATTTATTAAAGAAAATTATGACTCTAAAAAAATAATGTATTTAAAATAATTTTATTTTAATTATGATGAGCCTTTTTTTATAGTTAAACTAATTATTTTAGGGATAAAAAAACGTGGTAAAAATTTTTGAATAAAAATTAAAAATTTATTATAATTGCCATAAAGAATAAGTTTTTTGTTATTATTAAATTTTTTAATAGAATAGTTTACTACTTTTTCAGCGTTAGGAATATTTCCTCTCCATTTACTAGGCGTAATATTTGATTTTTCTAAAAATTCTGTATTAGTAGCACCTGGACAAAATAAAGATATAAAGATATTTTTGTTTTTATTTTCCTCAATTAAGGATATAATAAAATTTGTAACAAAAGATTTGGATGCTGAATAGGTATTCATATATGGTACTGGCTGAAAACTTGCCGTTGAAGAAACAACTAATATTCTACCATAATTTTGTTTCTCCATTTTTTGTAGTAAATATTTTAATAATTTAACTATTGATAAAATATTTACTTGAATAATTGATTCATCTATTGCAATATCATAATTTATAAATTTTTTCAAAATTCCTATACCAGCACAATGAATAAAATAATCAATTGTTATGTTATTAATAGATGAATTTAAAATTTCAATAAAATTATTTTTAGATAAATCAAGGGGAAGGACTGTAACATAAATATTATATTTATTTTCAAAATCAAATTTTATATTATTTAATATATTTTTTCTGCGAGCAATTAAAATAAGATTATAATGATTTTCAGCATAATATTTAGCATATTCATATCCCATTCCACTACTAGCACCAGTAATTAAAGCTGTTTTATACATAATATCACCTTATAATAAAAAAAATATTAAATAAATAAGTAAAAAAATATTTATAAATAAGCTAATTAAACATATTAAAATTAAAAAATCAAATTTTTTTTTAAATTTTTCAAATACTAAATTAATTGCTTCTATTTCTTCTTTTATTTTTTCAATATCTTCAGTATTTTGTATATTAATTTTAGAAAAATTTTCTTTAATAGTTAAACTATTATTTTTTCTTAAAAAACCTCTTTTTAACAATTCAATCATCATTTACTCCTTTGTTAATCACTTTTTAATGTTATTTTTAAAAATGTTTGAAATATTATCTTTTATACCTATTTCATTTATAGATTTTAACGCATTTTCACGGCTAATTTTTCTACTTAATTTTTCATCAAATTCAGATGAATATTTGCAGTATTCTTTTGTAAGATAACCAACTCTTAAAGAAAGTAGTGCATTACAAGTACCATCAAATATACTATCAGTTATTTTTCCACCAATTTTACTTATTATAGGAAAACTGGATAAAAATTGTTTTAAAAATGAATCAACTAATTCAGTAATAGTTATATCTGAAAATGCTGATGCAGCTAAAACATTTGCAAGAACAGAAATATAAATATTAAGAATTTCTTTTAATTTTGGTCTTTGATTATATAAATGAGCTATTTTCCAAATAAGTTCAACTTGTAATTTTAATATAAAAATAGCATCTAAAGTACCATTTTGTGATATGGCAGTAGATACAAAAATAGATTTTGCATAATCTTTTATAAGTTTATCACATTTTTTATCTGTAGTTTTTTCTATTTCTCTTAAAATGGTTTTAATTCCATTTATACTATTTGCATTTTCAAGAGATTTTATTAAATTACGATTAATATATTCTTGCATATAATTTTTTTTTAATCTTTTTTTATATTCTTTGAGTATTCTTTTTTTGTATTTATAATAAAAATCTCTTTTTTCATCAGGACTAGAATAAATATATGGTCTTTTAAGAGATTTTTGCAATAAAAATAATTTAATAATAGGATATATCATAGAAATAAAAATGATTATATATATGCTCCAAATTACATAATACCCATAAGGAATTTTACTTCCTACTTTAATAGAAAAATTATCTAAATCATTATAAAAAGAAATACTCCAGAATATAAATAATCCAATTATAAAAGGGATTAAACTATTGAATAATATCTTTTTCATTATTTTCAACCTCAATTCTATTTCTTCCATTTGCTTTGGCATAGTATAAAAGTTCATCAGCTTTTGCAATGGTTTTATCAATATTTTCTATAAACTCAGTTATACCTACACTCATAGTAATATTTATTTTATGAGTTAATGGTTTTTTATTTAAATAAGTTTGAATGTCTTCAAGAATCAAATAACTTTCTACTATATTTTTATGAGGTAAAATAATTATAAATTCTTCGCCACCATATCTACCAACAATATCATTTTTAGTAGTGAATTTTTTTAATAATTTAGCAAATTCATGTAAGATTTTATCGCCCATTTGATGACCATATTTATCATTTACTTGTTTAAAATGGTCTAAATCAATAAGTGCAATAGAAAAAGGAATATTTCTATCAATAAGCTCTTTTAATCTTAAAAAAATAAATTTTCTATTGTATACTTTAGTGAGCTCATCAGTCACAGCATATTTTATTAATTTTTTTTCTCTACTGATTACTTCTTTTTTTAATCTATTTATTTCAGTAGCGATACTAGATATTTCATCTTGTGATATTAAATTAATATCGTGTATATTATAATTTCCTTTTTTTAATTCTTCGATATTTGAAATGATATGTTCCATTTTTTTAGTTACAGTATTATTAAAAATAATAGAAGAAAGAAATACAAAAACAATTATTAAAATAATAAACTCTATAACTAATACAAGAAAGAGTTCATTTGTATATTGTGAAAGGATAGAAAAATCATAATGAGTTTCTAAAATGTAGTTTTTAATAAATCCTTCTCTATCTACAGAAACTAATATATATTTTTTATGCCAATTTTTTTCATCTAATGATAATTTACCTTTATTTTTTATTTCATTTAATGTAACTAAATTAATATTTTTATCATTTATTAGAGAGCTACCATTTTTACCATCATAAATATTTATATATTTTAAGAAAAAATTAAATTTATAATTATCTATTTTTTTTAAAATATTATTTTTAAAATAATTTGGGTAAAACTCTTTGTTTAAATAATTATCTAAATTAATTACACCAATAATTATATTAAAATTTTTATCTCTGTATATTGAGTATACTTTTTTTTGAGTATTTTCAAAAAAAATGTCTCCAATATAAAAATCTTGTTTTTTTAATTTATTAAAGTAATAATTTGTATGATCACTAAGAATAGAGGAAATGTTTTTATTTAAATATTTTTTTTCATTACTTGAAAAAACAACTTTATTATTTTTATTAAAAATAATTATGTCTTCAAATTGATTATTTTTATTAATATAATTCAATTCATCTTCATTCCATTTACTTCGAGTTTTACTTATTTTATTTAAATTTATTAATTCATTTTCTATTTCATTTACTTTTTTTATTAAAAATGTTTTTGATTCTAAAAAATTTTCTTTTAAATAATATTTTATATCACTTATTAAGTAAGCTTCATATTTTTTTTCTTCAGTATCAATAAAATTTTTCATATGATAATTTTCATAAATTCTAATAAATGAAAATAAAATAGAATTTGATATAAATAATATTGTTATTATATAAATAATAAATTTTCTTTTCATAGTCACCTCTTATAAAATATTTTAAATAATATATTATATATATTTTAACATTTTTATATTAAAATTCAAATAAAAAAAGTAGAGTCAGACATGTGACTCTACACAAAAATTAGAAAACTAAAAGGGGAGAATATTAAGGTTCTCTTGTATATATATTATATTATAAAAAAAATATAAAAAACAATATTTTTATATAAAATAAAAAATTTTCAATATATTATAAAATATGATATTATTATTTTGTAAAATATGATATTATTTTTAGGAGGTGACAAAATGAAAGAAATAAAAAATTTTGAAGAGCTTGATGAGTATTTATATAGAGGTTCTCTTATTTTTGCTATTTTAATATCTATTATATTTATAATATTTAATATTATAGTAAGATTTCCAATATTAATAAATATAAAATGGTTATTTTTGATATTAATGTCGTTATTTTTTTATAAATTTGATAAAAATCAAAAAAAAATGAAATTTTACTATTTTGGATTTTTAATATGGTTTTTTATTCCTTATGCCTTTATTGATTCGGGAGGAAGTGCAAATAATACTATTTTATATTCATTTTTATTAGTTATGATATTAAATTATTTATTTAAAGGAATTAAAAGATTATTTTTAGTATTTTCTTTAGTTATTGTGAATATTATATTAATATATATAGAATTTAAACATCCATATTTAGTTAAAGAATATAGTATAACTAGTCAATTTATAGATAGAATGATACAAATATTTTTTACTTTTTCATTTTCTACTTTTATAACTTCTAAATATTCTAAAATATATGAAAAATTAAATCAAAAATTATTTAGACTAGCTAATTACGATATTTTAACAAATACATTTAATAGAAATTATTTTAATATGCATTTAAATGAATTAATAAAAGATTATAAATATTTAATTTTATTAGATATGGATAATTTTAAGAAATTAAATGATAATTATGGACATTTATTAGGCGACAAAGCTTTGATAAAAATAGTAGAATTATTAAAAGAAAATTTTAAAAATGATATTATATGTAGATGGGGTGGAGATGAATTTGTAATATTATCAAATTTAGATAATTATAAAGAAAAATTGTTAAAAACAAATCAAAAATTTTGTGAGTACATAAAGAAATATGAAGAAAGTGTAAACTTTAGTTATGGAGTAGCAATTATAGACAGTATTAAAAATCCAGATGAGTTATTTAGATTAGCTGATTTAGATTTATATAAAAATAAAACAATAGTTAAAAGTTAATGGGCGAGAGCATTTTATGTAAGCTATAATTAAAAAAGATTGCTTTTAGCAATCTTTTTTATATATTTATTTTTAAATCATCAAAAGTTAACCATATTTTGTCAAGTTTTTCCATAGTTGATTTTAAATCCACGATTTTTTGATTTAATAAATTAGATAAATTAGTTATTAATTTCAAATTGAATTCGCTATTTTCTTTTGTTTCTTCAGCTTCTTTTGATATGCTTTCAATTGCAGTTTTTATATGAAAAATAGCAGTCATCTGTTCGCTTATAAAATTCACAATTTCTTTTGTTTTAGTATTACTAACATCATTTGTCTGAGAAATATTATTTATTTTTTCAAATACAATATTATTTATTTTAAGACCTGTTTCTACATTTTTTGAGACTGTATCGTTGGCATTTTTACTTTCAGATACATTATTTTGTATGTCTTTTATAAGATTTTCTATTTTTTGTGTTTCAATATTTGTTTGTTCTGCAAGTTTTCTTATTTCATCAGCAACAACACTAAATCCTTTTCCGGCTTCTCCAGCCCTAGCAGCTTCAATAGCAGCATTTAATGCTAGTAAATTAGTTTGTTCTGATATTTTGTTTATTGCAAATACTATATTTCCTATATTTTTTGATGTACTTATTAATTTATCTATTTTTTCATTAGCTTCTTGAATACTGTTATTAATTAAATTCATATTTTTGTTTAATGAGTTAATATCTATTTTGCTTTCTTCAACTTGTAGTTTTGCTTTATTAGAGATTTCTAATAGATATTGTGCATTTACATTAATTGTAGCTGAAGACGTAGATATTTGCTCAATAGAAGATAATGCTTCGTTTATGTCATTAGATTGGTTAGTCATTTTCTCCATAATAATATTTGCATTATTTTTTAAATGTATAAGTCCATATGTTAATTCTTCGTTTTCTCCTGAATTTATAGAATCAAGAGAAATTTCTAATGCTTTGTTATCCATATATATTTCTTCTAAATGTTCTTTTAAATGGTTTATTTCATAATTTTTTTCTTCTGTTTTAGAATTATGGTAGATAAATGATAATAAAAATATTGAAATTATTATTGAAATAAAATTATATTTCTCTAAGAAATTTGAAAAATATATAATACCGTAAAATACGATGAGATATAAACTAAACTTCATAAAAATCGCTCCTTTTCACTCACTTTCTTTTTGTGATAGAGATAGACGGGAGTGTGAAAGGTAAATATCTATCTCTATCATTTATTTTATTAGGGTGGCAAATCAAAAATAAGAATTTATTATTTTAAAATTATAATTTTTTTAGTTTGAATTTTTTCCAAGGTGTAATAATATCTAAAAATCTTAAATCATTATTACTTATTCTTCCAATTACATTACTCTTTCCATTATTTTTAATATTTTGTAATGCAATATGGAGCTCACCTTTATATCTTAAATAGTTATCATTTTCTATAAATACATCACCTTTTTGTATATCTCTAGTATTTTTGGGTGGAATTGAATTTGTATATTTTATTCTAGGCATAGTAGAACGAATAGTATAATTACTAGCATCGCCTCGATAATAATGAAGTTCTTTAAATACTATATTATATTCTGTATCTGATAATTCTATTTCTGTTTCAATATCTAATGTAATTAATTCTTTGTTTATTTCACTTAATTTTTTTAATTCTTCTTCACTAGCAAAACAATTTGCGATTATTACATCATCTATCAAGTCACTATAAAAAAGATCTTTTGCTTGAGTATCTATTGGCAAATCTCTATGTTCTTCTAAAGTACAAAGACCTTCAGATATATTCCATGGTCCAAATGTAGCATTTTGAGAATTAACAAATGCAGCTAGTCGAATACCAGCTTTTTTGAAATCTAAGCTGGATTTAATAAAATTTTCTTTAGATAATCCAGACAATCTTTTTGGATAAAAATTATGACAACCAGTTAATTTATGTAAGTTTGGATGATATGATAAAATATTTTCAAGATATTTTGTACCTGTACTAGCATTTAATTCAATAATTAATTCATAAGGATTAAAAGTCATAATAGATTCTTCATTTCCACTATATGATTCATCAAGTCTTAAACCATCAACATTTAGAGTATTAAAAAATTCTAAATTGTCATAATCAACCCCAAGTTTATTTAATACAGCTGGTGAGACATCTGCAATTATTTTAAAATTTAAATTTTTCGCATAAGATATAGTTTTTTTAAATGTATCTAAATCTCCATCACTAGATAAAAGACAAGTAAAAATACGCGTAAAACCATATTTTTTTGCAAGATTTAAATAAGTTTTATTTTTTTCAAATGTAGCATGTTCAGGATAGATTGAAATTCCTAACTTTCTCATAAATTATTCTCCTTTAAAATATATTATTTATGTTTTTCATCAAATTTAAAGCTTAATTTTATTATAAATTTATTTTTAATAGCAATTTTTTTTCCCAAAATCTATTATTTATCTTTATCTTTTTTCTTTTTAATTTTGTTATATTCATGAGTTAGCCTCCAAAAATATTTTCAGCATCCCTTAAAAGGGACGCTGAAAGTAGAGTGAATTAAAACTTTTAAAATTTATGAAAATATTAAGCAGAAACTGTTTGAGTTTCTTCTTCTTTTAGGAGTGAATCTTCATAAATTTTCAAGAATGGGATATATATTATAGTAGATAAAACTATTAATCCTAAACTTAATACAAATGCCATAAAATTAAAATTTGTTGCAAAGAATGCAGCTATTGGAGCAGGTGTTGTCCAAGGTACTAATGTTATTATTTTTCCTACTAATCCTGATTTTACTGCAAACCATGCAATTGTTGCATTTATTATTGGTACAGTTACAAAAGGTATAAATAATATTGGATTCATTACTATTGGAGAACCAAATATAACAGGTTCATTTATATTAAATAATCCAGGGACTATTGATATTTTTCCAATAGAACGTAAGTGTTCTACTCTACTTCGAGACATTGCTATAGCTAGACCAAGTGTTGCTCCAGAACCACCTAAATAAACAAATGAATCTAAGAAGCCACCTGCAAATATTTTAGGTAAAACTTCTCCTGCTTGTAATGCTGCTTGATTGGCAGCTAAGTTTGAGAGGATTATAGGGTTTATTATTGCTACAACTACATTTACACCGTGTAAACCAGCAAACCAAAGTACATGTACAATAATCAATATAGAAATAACTGCTGGTAATGAATCAGATGCTGAGACTAGGGGTTGGAATAATCTCATAATTAATTCAGGAATCATTACTCCTTGAACTTTTTGAACAATTATACTTATAGGTTGAAATATTAATATCATTGCTATTATTGGAGTTAGTAATTCAAATGATCTAGCTATAGCAGGTGGTACTGAATCGGGTAATTTTATCGTTAATTTAGCTTTTACTAATATTTTAAATACTTCAACTGATACAAATGCACAAATAATAGCAGTAAATAAACCTTTTGCATCGAGATACCGTGCATCCATAACTGGCATCCAACCTCCATCAGGTATATGGAAAAGATTAGAAGCACCACTTGCTTGGCCAACAGGTAACCAATCAAGTTTTGCTGATGTCAATAAAAATGTAAATAATGATAAAAATCCACCAGTAATATTATTTAAGCCATATTGCTGAGATAAACTATAACCTATACCAAATGATACAAATAATGACATTATCCCCATACTTACATAAAATGGTTGAACCCAATTAGCTTTATGAGCCGCCATTAGATCAGCATACCATTTCATATATATAGGATTTTTGATACCTTCTGATAGGTATTCTTGTGAAATGGGTAAATTTACTAATAATAATACAATAGAACCAATAATTAAAAATGGCATTGTAAAAACGAAGCCATCTTTTAAGGCAGTTAAATGTTTATTACTGGCCATTTTTCCTGCAATTGGTAGAAGTTTTTCTTCTACAAAATTCATCATTTTACTCATAATATCCTCCTTATGTTTTATATAAATATTTACTAAAAAATACTATTTTAAATAACTCTTTTAAAAAATGAGCTATTAATTCTGATGTAAAGAAAGTTTTTAATTTTTATTTTATAAACTAATTATATAATTTTTTATACATGGAAATAAATTCTTTTATTAAATCTTTTGCCATTATAGCTGTCATTAAATGATCTTGAGCATGAACCATAAGTATATTTATTTCTATTTTTTCTCCATTAGCTTCCATAAAAATAAGTTCTGTTTGTAATCTATGAGTTGCTAATATCTTTTCTTCAGCTTCTTTCATTTTTTCATTAGCTTTTGTAAAATTACCTTGTTTTGCAAAATCAAGAGCTTCAAAAGCTAAACTTTTACTTTCACCAGCATTTCCTACAAGTTCCATTGCTATACTTTCTAAATCAAATTCCATTTTTCCTCCTCAAATTATAAGCTAAGCGCAAAATCTAGTATTTTAGCTCCATTTAATGTACCATAATCTCTTGAATCAATGACTTCTACAACTTTATTATGTTTTTTAGCTATTTCAGTAAGCTCATTTTTCTTAAATCTAACTTGTGGTCCTAATAAAAATACATCATATTCATTTAATTTGTCATGAAAATTTTCTAATCCTAAAGCATCAATTTCAATTTCCAAACCTCTTTTATCAGCTTCTTGTTTCATTTTTCTTACAACAATTGATGTAGACATTCCTGCACTACATAATAATAATATTTTTTTCATACCTCTCTACCTCCTAAAAATTTTATTTATTTTTTCAGATATTCTTTATCTTGACCTAAGTCTATAACATTTTCTTTTTTGTGTCAAATTTCAGTAAAAAATGTGCTTTTTTCGTCTTATAAGTTTTATAATAAAAGGAATTATTCTGTTTTTTTTTAAAAGGTATTGATTTTATTATAATTAAATTTTTAAAATATTAATTATAATTAAATTGGGAAAAATAAATTTGTTTTTTTTCGTTTATAAGGTATAATTAATATATAAATATTTATAAAAAAAATTTTAAAAAAAAAATTTTTTAAAAAAAGGTGGGAAAATGAAGATACCGTATCTTAATAATTATTATATTTACATTCAAAATGAGAAAAAAATTACAAAACGTGAAAGAGAATATCTTAATATTTTAATTGATGAATTTTCTAAATTTAAAAAAAATTTGATTTATGATATTGAAACAGTGAAAAAAAATTTTGATATTTCCGTAAAAGATTTTTATGAGATACTTATTTCTATTTCAAATAAAAGATATATTTTTGAGATATATGAATTAGAAAGTAAAATAGCAGAAGGGATCTTTTCTATAATTAATAGTATAAAAATGTCAAAAGATATATTAGAAGTAGAATTTAATGAAATATTATTTGAAGCTTTAAATCCAGACAGTATATTTTATAAATTTGGTTTTTTATCAATTTTAAAAATAGAAAGTCAAAATATACTTGATTTATATAATTATTTTTTAAGGTATCTCAATAGAAATAAAGGAGAATTTGAAATAGAAATAGAAAAATTAAAAAATATATTACAAGTAGAAGAAAAATATGGTAGATTTTATGACTTTGAAAGATATGTATTAAAAAATATTATAGAAGAATTAAATAATAAAAGTGATTATATTTTTAGATACGAAAAAATAAAAATAGGTAATTCTAAAAATAATAGAATTAAGTCTTTAAAATTTTATTTTGAAAATAGAAAAGAGTTAGAATTATTTAATAATATAGATGAATTGTTAAATATAATAAAGTATGAAATAAAAAATTTTGAAAAATTTAAAAAATTATTTTATTTGTATTTAAATAAGAAAAATATTAAATATATAAAAAATAATATAGAGTTTATAAAAGAGCATTTTGATGGTGATTATGAAGAGTATTTAGAAAAAGCATTAAAAGAAAATTATTATTCTAATCATTTTAAAATATTAGATAAAAATGGGGAGAGGTTGGATTTACTTGTTGATTTAGAATCAGAATATCATAATATTTTTCAATTTGAAACAGATATATATAAAATTTTAAAAGAGATAAAATTTTATTATGATATAGATTTTTTAAAAAAATTATATGAATTTAGAAAAAATAAGATATTATTTTATGAAGATAAAACAATTAAAATAATTGGTGAATATAATAAAAATTCTAAAAGTTTTTTAAAGATATATAAAAAATAATTTGATATTATTTGTAAGTTAAATTTTTTTTAATTAAAAAAGGTGAGTATATGAAAATAGTAAATATAGAAAAAATGAAAGAAATTGACAAAAGAGCATATGAAAAATATAAAATTAATGAAATATTGTTAATGGAAAACGCCGCTATTTCATCCTATAATTTATTAAAGGAAAATTTTAAATTAAAAAAAGAAAAAATATTTATCATTTGTGGTATAGGAAATAATGGTGGAGATGGATTAGCGCTTGCTAGAAAATTATATAGTGAAAATTTTAATGTGTCGTATTATATTATTGGAAATGAAGAAAAATATAGTCAAATTTCTAAAATAAATCTAGAAATTTTAAAAAATATAAATATTAAAAGAGAAAAGGACTACGAAGAAGGACTAGAAAAAGCTACACTTATTATTGATGCTATTTTTGGTATAGGTTTAAGAAGAAATATAGAAGGAGAATATTTTGAAATTATTAACAAAATAAATAATAGTAATAAAAAAATTGTTTCCTTAGATATTCCTTCTGGGATTAATGGAGATAACGGTAAAATAATGGGAACAGCTGTAAAATCTACTTATACAATAGCGTTTGGTGCATTAAAATATGGAAATATACTTTATCCAGGTTGTGAATATAATGGTGAAATTTCATTATCTAAAATATCATTTCCAGTTGAAAATTATAATGATATAAAAACAAATATTAATTTACCACTTGAAATCCCTTTAAGAAATGAAAATAGTCATAAAGATAGTTTTGGAAAGGTAGTGTTTTTAGCAGGATCAAAAAAATATTTGGGAGCACCAATATTTTCTACAATGGGATTTTTAAAATCTGGTGGTGGCTATGCTAGGCTTATTACTTCTAAAAGTATTATAAATATATTATCAACAAATGCAAAAGAAATAGTTTATTTTGGAATGAGTGAAAATGAAAGTGGAGGAATAAGTTTTAAAAATATTGATAAAATTAAAGAAATTTTTCTACAAAACAAAATGATAGTTGTAGGACCGGGGATATCAATTACTGAAGATAATAGAAAAATCATTAGAGAGATTATAAATCTAGATGTTCCTATTTTATTTGATGCAGATGCATTAACTATAATTTCTAAAGATATCAATATATTATATAATAGAAAAAATAAAACGATACTTACTCCTCATTTAGGTGAATTAAGTAGATTACTTAATATATCTATAGAGAAAATAAATAAAAATAGAGTAGAAATATGTAAGGAATTTGCAGTAAAATATGGAGTTATTTTAGTAGTAAAAATAGCTCGAACAGAGATTTATTATCCAAATGGAGAAATTTTTATAAATTTAAGTGGAAATAGTGCACTTGCTACTGCAGGAAGTGGAGATGTGTTAACTGGAGTTATTGCGAGTCAATATATATTAGGGCTATCAATAGAGGAAGCAGTAAGGCAAGGAGTTTTTCTACACGGATTTACAGCAGATATTATAGCTAAAAATAAAGGGAAGGACGGAGTAATAGCTAGTGATTTATTAGAATATTTACCTATTGCTATGAAAAAAATAAGAAAAAATTATAATAAAATATTAAAAAAATATAGTATTAAAAATTATTAATTAGATAAAATTAAATATGATAATTTTTATAAAAATAAAATCATTAATAGAAGAGATTGTAATTTTTATTTTAGTGATAAAAAGGAGAAAAATGTTTCTTAATAAAGATTATTTTCAAAATGATGCAATATTTTTAGCGAAAGATTTATTAGGTAAAATTTTAGTTAGAGAAATAAATGGTAAAAAGATATTATGTAAAATAGTAGAAACAGAAGCATATATAGGGCCTGAAGACAAAGCATGTCATGCATATAATAATAAAAGAACAAAGAGAACAGAAGCTATGTTTTTAGAAGGTGGATGTACTTATGTATATATGATATATGGGATGTATAATTGTTTAAATATTGTAGCAAATAAAAAAGATAAACCAGAAGCAGTATTAATAAGAGCAGTAGAACCACTTAATGAATTAGAATATTTAAAAAAGAACAGAAATATTAAAAGTAAAAAAAGATATGATTTAACAAATGGTCCAGGGAAACTTTGTAAAGCTCTTAAAATAGATAAAAAATTAAATAAATATGATTTATGTAAAAATAAAAAACTTTTTATTTTAGATAGTAAAGATAAAAAAATTGAGATAGTAGAAGCTAAAAGAATTAATATTGAGTATGCAGAAGAATATAAATATAAACTTTGGAGATTTTATATAAAAGGTAATAAATTTGTATCAAAAATTTAGAATGGAGAATAATATGAATAGAAAGCTATATATGAAAAAAATAAAAGCTCCTCTTGAGAAATAGGGCTATTGATATATTTTAATAAAATAGATATAAAGTAATATAAAAATATAAAGAGTATTTCTAAATATTTAGAAATACTCTTTAATTTTAATTAGATAAATAAATTACTATTTGCATTTTCAGAATCACCTAAATAAGTAGCAACTCCTCCAATTTCAACTCCGTCAATTAATTCTTCTTCTTTTATTCCCATTAAATCCATAGACATTTGACAAGCGATAATTTTACCACCATTATCTAAGAATTGTTTCATAAGAGTTTCTACAGAATCAACATTATTTTTTTTCATAACAAGTTTTATCATTTCAGCACCCATTCCTCCCATGTTCATTTTAGAAATAGGAAGTTTACCAACATGTTTTGGAAGCATAATATCAAACATTTTAGCTAAACCTGATTTTTTAACTTTTACTCCGTCTTTTTTTAGAGCAGTTAATCCCCAGAAAGTAAAGAACATGCTTACTTTTTTACCCATTGCAATAGCTCCATTAGCTATAATAAATGAAGCAAGTACTTTATCTAAATCTCCACTAAATACAACTATAGTTTGTCCATCTAAAGTTTTTGCAGGAGCATTAGTTGTATTTTCAACTTTTGGTGTATTTTTTTGTATTTTAGCAGTAATTATTCCTTTACTAGAAGTCACTTCAAGTAATCTATTACCTGTTTTATTTGCCCAAGCAACTACATCTTTTTTAAATCCAGGATCAGTTGCTTTAATAGATAAAATATCACCATCCTTTAATTCTTCTATTGTTTTAAAAGTTTTCATTATAGGTCCTGGGCATTGTAATCCACAAGCATCTACTTCAATACTTTTTGCATCTTCAGCATGAGCAACATGCATTCCACCATCATTTTCAGTTATATAGTTATCAATCCCTGTTGAAGTTCCGTCATTTTTAAATATTCCAATATTTGATTGTTCTACTGTAGTTGGATACCAGAATTTATATCCACCATTCAAGTTTCTTGCTTTAAATCCATTTTGTACTAATATTCTATAAGCTAAGAATCCTCTTACTCCAATAGCACAATATACAATATATTCTTTTTCTTTGTTTAATTTATCGAGATTTTTTCTTAATTCGTTTAAATCAATATGAATTGAACCAGGTATAGTACCAAGCATATTTTCTTCTTTTGTTCTTATATCAAGAAGTACCGATTTATCAGGATCAAGATCTTTCAATTCATGCCATTCAATATGTTTTAATTCGCCATTTTTAATGTTTTCAGCTATATAACCAAAGAAATTTATAGGATCTTTTGCTGAGTTAAATGGTGGAGCATAAGCAAGTTCTAAATCTTGTAAATCCCAAGCTTTAATACCACCTTTCATAGCAGTAGCGATAACATCAATTCTTTTATCAACACCATTATATCCTATTCCTTGAGCACCATATATTGTACCAGTTTCTTCATTATATACAAGTTTTAAAACTATAGGAGTAGAACCTGGATAATATCCAGCATGATCATTTTTATTTACAATAAGAGTTCTATATTTTATTCCATATCTTTTTAAAGTTTTTTCATTAAGACCAGTAGAAGCCGCAGTCATGTCAAATACTTTTGCAATTGCAGTTCCCATTGTTGCAATATATTTATTTTGTTTTAATCCTAGCATATTATCAGCTACAAGTCTACCTTGTCTATTAGCAGGCCATGCTAGAGGGACAAGAATTTTTTTATTTGAAACAAAACAGTTTACTTCTATAGCATCTCCAACTGCATAAATATCTTTATTTGAAGTTTGCATATACTCATTTACTTTAATTCCACCAGTTTCACCAATTTCTAAATTAGCTTCTTTTACTAATTTTACTTCAGGTCTTACACCAATTGATAAAATTACAATATCAGTATCAATAAAATCACCATTTTCTAAAACAACAGTAGTTTTATCGCCATTTTTTCTAAATTCAGTAACACCGTTATTCAAATAAAGTTCTACTTCTTGTTCTTTTAAATGTAAATGTAATTGAGCAGCAATATCAAAATCCATAGGTGTTAAAATTTGATTAGCTTTTTCAATTATAGATACTTTTAATCCTTTGTGTTTTAAATTTTCAGCGACTTCTACTCCTATAAATCCGGCACCAATAACTACAGCTCTTTTAGCTTCTCTAGTTTTCAATCCTTCGATAATGTCATCCATATCATTCATATTTCTAAGAGTATAAACATTATCAACATCATTAATCCCTTTAATAGGAGGTTTTATTGGAGAAGCTCCAGGAGAAAGTAACAATTTATCATAACTTTCTTCATATTCCTCAGAAGTTTCTAAATTTTTTAATATAACAACTTTTTTTTCAGTATCTATTTTTATAGCTTCAGTTTTTACTCTTACGTCGATATTAAATCTTTCTTTCATCCCTTTAACAGTTTGAACTAATAAATTATCTCTTTCTTTTATTACACCACCAATATGATAAGGTAATCCACAGTTTGCAAAACTAATGTAATCTCCTCTTTCAATCATAATGATTTCAGTTTCTTCGCTTATTCTACGAAGTCTAGCAGCAGCACTAGCACCACCAGCGACACCACCGATAATAATTACTTTCATTTATTCATCCTCCTTAAATTTTAATAATAGATTGTGAAAAAAAACATTTTATAAGTCATAAATAATGTATATCATTATATTATAATAATATAATATGTTTGATTTGTCAATATTATTTTTTCTTTAAATTATTATTCTAAAATTTTTTTGAAATCCTTTAAAAAAAATTAAAATTTTATATTATTAAAGATTTAGACATTAATAAAAAATGAAATTTTGACGAAAATATATATTAGTATAACAATAGTTAGGAGTTGGTAAAATGAAAAAATATTTTTTAATTTTAGTATTATTATGTGCAACAATAACAAATGCACATACAATTGAACTTGAAGGAGGAATTGGAATAATAAATAGTATTTCAACTGGAATAACAGGAATTATTCCACTTAATCAATATTCAAAAGATATTTTAATTAATTATAGTAGTGGGATGACGCCATTAATTGGAGAATATTATGGTGTAAGTATTAAGCTACAAGAACCTAATGGATTTAGATATGGGATTTTTTATAAAGAAAGAACTATATATGATGGATTATGGGAGGATATTTTTAGTAATATTTTTTCAGGGGGAAGCTCAAATAGTAATGCGCCAGATAGTAAATACGATATATATGGTATAGGATTAGATAAGGTGTTTTCAAGTGATGAGTTCTTTAGTCCATGGGCTGGAATAGATATAGGATATAGTTATTTACGTAATAAAGATAGTTGGAGTGGAGAAAATGGATATAAAGATTCTTTTTATATGGACTTTAAATTAGGAATAATGATAAGATTTTAATCTCGCTATAATTAAATAAAAGAAATATATTAATATTAAAAAAAATAAATATTCTAAATAAAAAAACAGCTAAGATTTAGCTGTTTTTTATTTAGAATATTTAATATTGATAAATATTATTTTATGTTTTGATTGTTTATTATATATTCAAAAGAAAGGTTTCCACCAAATATATCAAGTGCACTTCCTACAGTATAATGAATTTTTCCATTTCCAATACTATTAATAAGCTTAATATCTTCAAGAGAACGAATCCCACCAGCATATGTAGTAGGAATAGAACAATAATCATTTATAAGATAAAGAAGTTCTTTGTCAATCCCTTGTTTTTTACCTTCTACATCCACTCCATGTATTAAAAATTCATCACAATAATTTTCTAATATTTTTATATTTTCTTTAGATATTTCAAAATTAGTAAAATTTTGCCATCTATCAGTTACAACATAGTATTTATTATTATTTTTTCTACAACTTAAATCTAATACCAATTTATCTTTTCCTATTAAATTGGATAAATTTTCTAGACGTTTAAAATCTATTTTACCATTATTAAATACATAGGAAGTAACAATTACATGACTAGCTCCGTATTCGATATACAAATTTGCATTATTAATAGTTATTCCACCACCAATTTGTAGTCCATTAGGAAAAGCTTTTAATGCTGAAATAGCTTCTTCATCATTTCCAATACCTAGTTTAATTACATGTCCGCCAGTTAAATTATATTTTTTAAAAAGCTTTGCATAATAACTAGCAGGTTTATCAGAAACAAAGTTTTCAATAATGGAATTTGTCTTATTATCTGAAAGAGTTCCTCCGACGATTTGTTTAACTTTTCCATTATGTAAATCGATACATGGTCTAAACATATTTCCCCCTTAAAAATTTATAATTGTTTTTATTTTTTATATTGTAACGTAGTTTTATAATAATTTCAAATGCTATATAAAACTTATATTGATTATATATATTATAGATATATATAATTTCTATATTATAAATAAGACAAAAAAAGAAGTGAAATCATCCTTTATTTACTAAGAAAAAGAATAAAAATAAATTCTTGTATTAGTTAAGCGGTACTATATACGACAAAAACTATTGACTAATTCATTGTTTTTTTGTATTCTATAATAGAAGAAAATTTAAAATAAATCTGAAAAAAGGGGTATGTTGTTATGAAAATATTATCACCAAATGAAAAAATTGTGTATCTAAGAAAAAAATTTAAAATTAGTCAAGTAGAACTTACACAAGGAAAATTTTCAAGAAGTTATCTTGGGATGGTTGAAATAGGGAAAACAAATTTCAATAAAAAATTTGCAAAAGCTATAGTAAATAATTTTAATACTATTTTATCTAATCGGGGGATAGATGAAAGAGTAGAATTAGATTACTTATTAGAAACAAAAGACGAGCAAATGAAAAAAATATCTGATAATTTTTTACAAAGAATTGAAACTGGAGAAGATATTGAAACTATAGCTCATGAAGTTGAAAAATATATCCATGAATATAATATTGATACTAAAATAGAGCTTTATAAAAAAATAGCGGATACATTGTATACTAATCATAATTTTAAAGAATCATTATATTATTATCTTAGAATTTTTAACGACATAATTATATCTAAAAACAATAAAATATTATCTGAAGTTTCATTAAATATAATAAGAATATCATATAATTTAGAAAATTATGATGAAATAGTAAGATTAGAAAAATTAATTAGATATTTTTTAGAAGAATTTGAAGAAGAAATAAGAAATAAAATAATATTTAATCTAGGACTTACATTTTATAGATTATCACAATATGAAGAGTCTTTAGAGTATTTTAAAAAATTAGAATATATAAAAGATAGAGAAACTGTTTTTAGAGTTCAATCAATGATATCACTTGTTTTAAGAGGATTAAAAGAATATGATAAATCACTTTTTATACTTAGAAGTTTATTAAAAAAATACGAGGAAAATGACAAAAAAATATTAATAAATATGTATTTATTAGAATTATATAAAGAAATAGAAAACATAGAAAAAGTAAAATATTATTTTAGAAAAAATAGAAAACTTTTAGATGTTCATATAAATGATGTAGATGCTGATTATCTTTTAAAACATTATTATGAAATAGCAAATACAGCATTATATCTAAATAGAAATGAAATAGCTAAAACTTATTTTGAAAGATTAATGGATATAGAATATGATGATATTACATTTGATTTGGCTTTAGAATATAGATTTAATACTATAGAAAAATTATTATCTTTATATAATAAAAAAGATTTTCATAAAGCTAGAAAATTATTTGATAAATATATAAAATTATTAAATTATAAAAAAGATTTTATATATGGATATTATTTTATAGAATATTTTAATAAGTTTAACTATAAAGAAAACATAGAAAAAACAATATTTAAATTAATAAACATTAATAAACATTTATAAAATATATAGCGTTCATCTAATATATATATGTGATGATTATAAATGACAATATTGACTTTTTTTTTAATTTTTTGTAAAATATTCTTAAATATAGACGTGTATACATAGAAATATATAAAAAGACAAGGGAGGGTACTATTATGAAAAAATATATTTTAAAATTATTATTATTAACTCTTGCATTTGCTTTTGTAGCATGTGGAGGCGGAAATACTAATACAACGAGTAGTAAAAAAACTTTTATTACAATAGGTACAGGAGGAGTTACTGGGGTTTATTATCCAACAGGTGGAGCAATAAGTAAGATGATAAATTCAAAATCAGAATATAATATAAAAGCAACTGTTGAATCAACTGCAGGGTCAGTTTATAATATCAATGCGGTATTAAAGGGTGATTTAGATTTTGGTATAGCACAATCTGATAGACAGTACCAAGCATATTACGGTCAATCTGAATGGAAAGAAGCTGGAAAACAAGAAGAATTAAGATCAGTATTTTCTATCCATCCAGAATCAATTACTTTAGTAGCATCAGTTGATAGTGGAATTAACTCAATAAAAGATTTAAAAGGAAAAAGAGTTAATTTAGGAAATGTGGGTTCTGGACAATTACAAAATGCTAAAGATGTATTAGAAGCTGTAGGAATTTCAGAAGACGATATAAATGCTGAATATGTAAAAGCAGTCGAAGCACCAGGACTTTTACAAGATGGAAGAATAGATGCATTTTTTTATACAGTAGGACATCCAAGTGGAGCTATAAAAGAAGCTACTTCTGGAAGAATAAAAGTAAAAATAGTAAATATAACAGGGCCTGAATTTGATAAATTAATAAATGATAAACCTTATTATGCAAAATCTATAATAGAAGCTAAAAATTATCCAAATGCGCAAAATACAGAGGATATAAATTCAATAGGAGTAAAAGCAACATTAATAACTTCGACAAAAGTTAGTGAAGATGTAGTATATGCTATTACAAAAGAAGTATTTGAAAATTTTGAAGATTTCAAAAAACTTCATCCAGCTTATTCTACTCTTACAAAAGAAAGTATGCTTCAAGGATTATCAGCACCTATTCATAAAGGCGCTTTAAAATATTATAAAGAAGCAGGACTTATGAAATATATAAAAAAAGAACTAATTAAGTAATTGATAAGGCCTCCAATCTTTAGGAGGCTTTTATATTTCAAATAAAGGGAGTGTGAAAAGATGTCGAAATTAGATGAAAATATAGCAGAAGAATTATTAGAAGAAGAAATAGGAAAGATAAGACACAAAAGAAAATTTGATTCTTTTTTAATATCTACAATTTCTATTTTATGGGCTTTATTTCAGTTAGCATTACCAAAATTTTTAATATTAGATAGTGTATCAACAAGAGCAATACACCTTACTTTTGCTACAGTTCTTATATTTTTAAGTGTTCCAATGATAAAAAGGCCATTAAAGAAATTTAAATTTTTACATGAAATAGACAAAATACCATTAATAGATATCATATTTGCTATACTATCTATTTTAGCTATTTTATATATAATAATAGATAAAGAAGGAATAGCCAAGAGAGCTGGTATGCCAAATACAAATGATTATATTATGGGAATAACTACTATTATTTTAATACTTATTGCTGCAACAAGAGCAATAGGTCCTGCATTACCAATAATAGCTATGTTAATTTCTTTATATGGATTTTTAGGACCAAATATGCCAGGAATATTTGCATTTAGAGGAGTGTCTCTTACAAAATATCTTACACAGATATCACTTTCTACTGAGGGAATATTTGGTATTCCACTAGATGTATCTGCTAATACAGTATTTTTATTTGTTTTATTAGGGGCATTACTTGATAAAATAGGAGCTGGACAATTTTTTAATGATTTATCATTTGCATTACTTGGAAAATATAGAGGCGGTCCAGCAAAAGCATCTGTTGTATCAAGTGGACTTAGCGGACTTATTTCAGGGTCAAGTATAGCAAATGTAGTAACTACAGGAACTTTTACAATTCCATTAATGAAAAAAAGTGGTTATCCTGGTAAAATAGCAGCAGCTACAGAAGTTGCAGCTAGTACAAATGGACAACTTATGCCTCCTATTATGGGAGCAGCAGCATTTATTATATCAGAATATCTTGGAGTATCTTATATAGAAGTAGTAAAAGCAGCGATAGTACCAGCTTTTGTATCATATATAGCGTTATTTTATATAACACATTTAGAAGCGTTAAAATTAGGAATTAAAGGATTACCAAAAGCAGATTTACCGAATTTTTTTAAAGTACTAAAAAATGGATGGCACTATTTAATACCATTATCAGTTTTAATATATGAGTTAATGATAATGAGACATTCGCCAAAATTATCAGCTTTTAATGCGATAATTGTTTTATTTGCTGTAACATTTGTTCAAGAACTTATATCAGCTAAAAAAAATAATAAAACTATAGTTGAAGGACTAAAAAATGGAATATTTATAATAACTGATGGACTTATAGCTGGTTCAAGAAATATGATGGGAGTAGCATTAGCTACTGCAGCAGCAGGAATAGTTGTTGGAGTTGTATCTCTTGGAATTGGTAGTATGATAGTACAAATAGTAGAAGTATTATCAAATGGAAATTTATTTTTATTATTATTTATAACAGCTATTGCAAGTTTAATATTAGGAATGGGATTACCTACAACAGCAACATATATAGTAATGGCATCTATTACAGTTCCTGTGATATTAAAGCTTAGTGCTGTTTATTCATTTAATCCTGTTGCACCAGTAGCAGCACATTTATTCTGTTTCTATTTTGGGATATTAGCCGATGACACTCCGCCTGTTGGTTTGGCAGCTTATACAGCAGCAGCTATTGCAAAATCAGATCCAATCGAGACAGGGATACAAGGATTTATATATGATTTGAGAACAGCAGTAATACCATTTATGTTTGTATTTAATCCAGATTTAGTTTTAGTAGGAATAAACAACTGGCCAGAAGGAATATTTATATTTATAATGACATCATTAGGAGCATTAGCATTTACTAACTTTACTCAAGGATGGTTTATAATTAAAAATAAATGGTATGAAACAATATTATTCGCAGTAGCAACTTTAATATTGTTTTACCCTAAGTTGATTAATCTTTTACTACATATAGATAATATTCATAGATACGTATTTTATATATTTGGATTATTAGTTTATGGATTAATATATTTCTTGCAAAAAATTAGAATAAAAAAAGAAGTGAAAATAGCATAAATTATTAAAGTAGTGCAATTAGCACTACTTTTTTTAATTACATATATATAAATACTTTTAACATTGATTTTATTAATAAAACACTATAAGTTTATTTTTTTAGTACTATTATACTAATTTTTTATTGACTTTTTGTAAAATATATGATATTTTTTTGTTACAAATGTATTAAAAAAATATACAGGAGGATTTTATATGAAAAAATTAGGATTGTTAAGTAAACTTATAATTGGAATTATTTCAGGTATAATTATAGGTCTTATATCAAAAAGTTTAAATAACTTTAGAATTGTCAGAATAATGTCTACATTTTCATCAATATTTGGAAATTTCTTAAAATTTATAATACCGTGTATTATAATAGGATTTGTCGCTCCAGGTATAGCGGATTTAGGTAAAAAAGCAAATAAATTATTAGGATTAACAGTAGTTATAGCATATGTATCTACTATAGTAGCAGGATTTAGTGCTTTTTTAATTGGAAGTAATATATTACCAAAATTTATAAAAGCAAAAGAGCTTAGTAAAAATAATAGTATAAATATAGAACCATTTTTTACAATAGATATGCCTCCAATAATGGGAATAATGACAGCTTTAATATTTGCTTTTTTAATTGGACTTGGGATGGCACATTTAAAGTCAACAAATTTATTTAATGTAATAGATGATTTTCAAAAAATAATGAAAAATACAGTAAACGCAGTACTTATTCCATTCATTCCATTACATATAGCAGGAATATTTGCAAAAATAAGTGCAAGTGGGGAAATTTTTTATACAATGAAAACATTTTCATCAGTATTTATAATGATTTTATCACTTCAATTTATTTATGTATTGGTGCAGTATTTTATTTCATGTACATTTGCAAATAAAAATATGTTTGAAGCAATAAAAAATATATTGCCAGCTTATTTTACAGCATTGGGAACACAATCATCAGCTGCTACAATACCAGTTAGTTTAGAATGTTCTAGAAAAAATGGTGTAGATGAAGAGATAGTAGATTTTGTAGTACCCTTAGGAGCTACGATACATTTAGCAGGAGATACAATTACATTAGTTTTAGCTACAATGGCAGTTCTTTTAATGTCAGGAACAACTCCAACATTTACTATGATGTTTCCATTTGTTTTAATGTTAGGTATTACAATGGTTGCAGCTCCAGGAATACCAGGAGGAGGAGTTTATGCTACATTAGGACTTTTAGAAAAAATGTTTATGTTTGGAACTGGACAACAAGGATTAATGATAGCTATACATTTTGCTCAAGATAGTTTTGGAACGGCTACAAATGTAAGTGGTGATGGCGCAATAGCAATACTTGTAAATACAATAAATAAAAAAATAAAACAAGTAATATTAAATAAAGTAAATTAATATTAAAAATCCCATTTAATAAATAAATTATCAAATGGGATTTTTAATTATTTTAATAATTTTATTATATCTTTTGGAGATAATACTCTTCCAGTAGATTTAACTATCTCATCAACTACAAGAGCTGGGGTACTCATTACTCCATATGCCATAATATCTTGAATATCTTCTACTTTTTCTATTTGTGCATTTAATTCTAATTCTTCTATAGCTTTTTTTGTATTCGCTTCTAAAGTTTTACAATTTTTACATCCTGAACCTAAAATTTTAATTACCATGTTTAATCACTCCTTTTAAATTAATATTTAGAAATTTATATATTATATAAGATATTAAAAATTTTGTGTATTTTTATATATTTTTATTTTTTCTTCATCAGAAATAATTTTGTTTAATATTTCTGCAATAATAATTATTCCAAAAATATCTACTATTAATCTTGTTATTGCAAATTTTGCTCCTAATGATGACATTTCAAATAAAAACATAGGAATTTTTGTAGTTGACCATGCACCTAAAAATATTATAATGTTTTTAAATTTTACTCCTTTTTTCATAAATACAGTTGCTATAGGAAATGCACCATATAAAGGACCTGCAGCAGCAGAGCCTATAAATATAGCAAGAAAAATACCTTTTAGCCCTGATTTTTCTCCTAAATGTTTAGTCATAGTTTCTTTTGATATCCATATATCTAATAAACCTAATAAAATAAAAATAGGAGGTATAATTAAAATCATTTCTTTTAAAGAATTAATTGTAATAAAAAAACTTTTCTTACCAATTTCAAAATTTATTGCTAAAAGTATTAATAGCATAGTTATTGTAATTAAAAAGAATACATATCGTTTAACTAATTTTTTCATTTAAATCACTACCTTACCAATTATAAATGCTACTATAAAAGAAAATATAAATGCTAATAAATTTCTAGCTATAGTAAATTTTGTATTAAAATATGTTTTTTCAATAGAAAAAGTAATTATTCCTACCATCATGAGTGTAGATATAAAAGATGCAATTTGCATATATCCAGCGCCATTTTCAAGAAGTAAAGCAGCAGTAGGGAAAGCTATAAATCCAGGTATTAATGTAATAGAACCTATTATAGCCGATATTAATATACCAAAAATTCCAGATTTATCTCCAATTATTTTAGATATTAATTCTGGACTAAAAATAGCTAAAAGTATTCCTGCTAATACAATAACTCCTAAAAATTGAGGTAAAATATTTTCAAATGCTTTTAATCCTTTTTTTAAAGCTTTTTTAGTTTTATTTTTATCTTTTATAAAAGAAATAAATAATAAAATTAATGTTATTAAATATAAAATTATTGTCATTATATAACCACCTTTTTTATTTCAAATGAAATATTTTTAAATATATAGTATATCATATAAATAAAATATTTTATATAATTATTTTTTTGAAATTATAATTATTTATTTTGCATTCATTATTAACATTTGTAATCTATTTTCTATATTTGCAAAACTTGTATTTTGATCGTAATCTAATGCAAGAATTTGTATATCAGGATAACGTTTTTTCATAGGTTTTATTAATCCTCTACCTGTAACATGATTTGGAAGACATCCGAATGGCTGTACAATAATAAAAGATTTCACTCCTTTTTCGGCATATTCTAATATCTCAGCAGGTATTAACCATGTTTCTCCTGAATTATATGATTTATCTACAAGTCCTTCTATTTTTTTACTTAAATCTTTAATACTTATTTTTTTTTCATAAAATTTAAAGTTTTTCATTCGTTTATTAATTTCTTTAAGAACATAATGATAAGCTTTATCTGTAACATCTGCATATAAAAAACTTAATGCAGGGTTTGGGAAATGATGTTTTTTTATCCCTTCTTTTATTGTAATAACTTCTCTTCTAAAGAAATCAACCATTCCAGCCATTATTACTTCTAGTCCATTATTTTCTAGATATTCAACTATTTTATAATTTGCTGTTGAATGATAGTTCATAAGAATTTCACCAATAAAAAAAACTTTTGGTTTGTATTCTTGTTTTGTTTCTATCTTATTAAATCTTTCTACAGCTTTCTCAAATATATTAAAAGGTTCAAAAAATCCTTTTTCAAGAGAATTAGCAATTTTTTTTACATAATATTCATAAACTTGTTTTGTTTCACCTTTATTCACTTCATAAGGTTTTATTTTTCTTTTTATTACTTGTAAAGTATCAATAATTGCTACTCCTACAAGCATACGTACTTGAAATTTTATTCCAAGTTTTATTCCAGGATGTACTCCAAGCGGGTCATTACCTGTAGTTACTATAGGAATATTTTCATAACCAAATGAATTTAAAGCATTTCTTATGACCATTAGATACTGTGCTGCTCTACAATCTTCACAATTTTGAGCAAGTCCAAAAGCAATTTCATTAGGATTATATTTTTTTTCTTCCAAGACTTTTAACATTTCTCCAGTATTTATAAAAGCTGGATAACACATATCATTATGTACGTATTTTTTAGCAAGTTCTATAGCTCTTTCATCAGCAATTTCAAGTCTTTTAGCTTTATAACCTAAGTGTTTTACAACAGCTGTAGCAATTTCACTAAATGCTTCTGAAAGGTTTGGAATTAAAATTGTTTTTAACTTTTTATCTTCATATTTAAATCTAGCTTTATATCCATTTTCTAAAGATTTTATTTTAAATTCTTTTTTCTCTTTTCTTTTTTCTTTTATTGTTTCAATAAAAGATTTTATTCTAATATTAAGAGGACCTATTACTTCTCCTTCATCTACTTTTAAAGCCAATAGTTGTTTATTAGAAATTTTATTTAATATTCTTGCAAGTTCATCACTATTTATAGCATCATGCCCACAACCAAAACTAATTATTTGAGCTACTTCTATATCTGGCTGTTTTGCAGCCCATAATGTAGCCAGAATCATTTCTGAATGAAATCTATTATTTACATCTATCATAATGTTTTCTATATCTTTATCGTTTATATCATAAGGGACAGAATCAATAGTTAATATAGGTATATTATTTTGAGTAAATATTGATGAAATATTATGATTAATTAAACTATCTGAATGATAAGGTCTTGCGGCTAAAAGGACAGCAAAAGTATTATGTTCTTTAGCATATTCTATTGCCTCTTTACCTATATTTATTAGTTCTTCATTAAATTTATTTTGTGAAATATTTGCTATATCAATAGCTTTTTTTATTATATTTTCTTTTAAATTAAATGTTTCGGTCATATATTTTATAATTTGTTTATCCTTTAATTTTTCACTTGTCCATCTAAAAGTGGGATTATCAATTATTAGATTATATCTATTACTTATATCATTATTTTGAGAAAGCATTAAAGCTGAACCTTGTACTACCGCACATAATCCATCTGAATTTTTTAATTTTTTAGTAATTTTAGGTAATTTTAAAAAAGTAGGGATAAAAATTCTATCTACTTTTTTTTGAGCAAGATTTTCAATATGCCCATGAGCTAATTTTGAAGGGAAGCATATAGTATCTGAAGGTATAAATTTCATTCCTTCTTCAAATATTTTGTAAGAGCTATTATCTGATAAAATCACTTTAAATCCAAGTGTTTCAAAAAAACTTTTCCAAAATGGTAAACTATTCCAAAATTCTAATATTTTAGGAATCCCAATAGTAATATTTTTTTGAGGTAATAATAATATATTTGAATATTTTTTTAATATTAATTTTTCTCTACTTTTCATTACATCTGGAACTTTGTTAATTTTATTAATTTTTTCTTTTAATTCTTTTTTAGTTTTTTCGATAGAAATATTGCCAATAATTTCTCCACGTTCACATTTATTTCCTGTTACAAAATATGTACCATCAGAAAATTCAATTATACTTCTTACACAGTTATTTGTACAAAATTGACATATAGAACCAGATTTTTTTGTATAAGAAAAATTTTCTAAATTTTCTAATCCAATAAAAGTAGATTTATAATTTTTTTGCTTTGTTATGAAATCTTTAGTTAATAAAGCAACTCCATATGCTCCCATTTCTCCTGGGAATGGAGCACGAATTACTTTTTTATTAGTATATATTTCTAATGCTCTGAGTACTGCATCATTTTTAAAAGTTCCACCTTGAACATAAATTACATTACCTAAATTATCAAAATCATTTATTCGAACAACTTTAGTAAATACATTTTCTATAATAGACATACATAAACCAGCTAAAATATCTTCTTTAGTTTTACCTTGTTTTTGTTCAGTAATAATACTACTATTCATAAAAACTGTACATCTAGAACCAAGTCTTGAAGGAGATTTTGATTTAAATGCTAATTTAGCAATATCTTCTAGTTTTACATCTAAAGATTTTGCATAAGTTTCAAGAAATGACCCACATCCTGAAGAACAAGCTTCATTTAATACAATATCTGTTAAAATATTATTTTTAATAAAGATAGCTTTCATGTCTTGCCCACCAATATCCAATATAAATGAAATATCTTTATTAAATTTTAAAGCTGCTTTTGCATGTGAAACAGTTTCTACATTATGATAATCTGCTTTGAAAGCTTTATATAGCAAATTTTCTCCATATCCTGTCGTTCCTACACCTTTTACATTAAATTTAATATTTCTTTTTCTATATTTATCTTTTAAATAGAGTAAGCCTTGTTTTGCAACTGTTAAAGAATCTTCTTTATTTGAACTATAAAAATTATCAATTATTTTATCATTTTCATCTATAAAAACTATTTTTGTAGTTGTAGAACCACCATCAATTCCAATATAAATATCTATATTTTCATTCTCTTTTAAAATTCTTTTTAATTTAGTTTTAGTATGCCTTTTATAAAATTCATCTTTTTCTTCTAAGTTTTTAAAAAAAACATTATTATAATTATCATTTGTTTCTAAATTATATTTATATGCTTCTAACCGTTTAATAATTTTCTCTAAATTATATTTTTTTGTATCTTTAAATAATTGATTAATAGCTAAGGCAGTACCATAAGCTACAAAAATTTCAGAATTTTTGGGAATGATAACCTGATTATCAGAAAAATTTAGTCTTTCTTTAAATACTTTTATTAATGTAGGATTAAATTTTAGTGGTCCACCTTGAAATATAACAGGAGGTAGTATTTCATTTCCTTGAGCTAATCCACTAATAGTTTGTTTTGCTATTGAATGAAAACTAGAAAGTGCAATATCTTCTTTTGGAACTCCTTGATTTAATAAAGGCTGAATATCTGTTTTTGCAAAAACTCCGCAACGACCAGATATATTATATATATTTTTACCTTTTGATGCCAAACTTTCAAATTCTTCAGTTTTAATATCTAATAATTCAGCTATTTGATCAATAAAAGCTCCAGTTCCACCAGCGCAAACTCCATTCATCCTCATATCAGTATTAACTATATTACCTTCATTATTATGATTAAAAAATATAACTTTTGCATCTTGACCACCTAGTTCAATTGCAACTTTCGTATTTTTGTATTTTTCTTTTACTGCAATTGCATTAGCAACAACTTCTTGAATAAAATTAATATTTAAATAATTCGCAATTTTTTCTCCGCCACTTCCACAAATTGCAATTTTAAAATTAAAATTTTTAAAATTAATATTTATTTCATTTAGTATTTTTTTTAAAGTTAATATAATTTCTGCATTATGTCGTTGATATATAGAATAAATAATTTCATCTGTGTTATTTATGATAACAGCTTTAATTGTAGTTGAACCAATATCGATTCCGAGTAAATAAGTAGTATCCATTATAATCACCTTTTTCATTTTTTTATTTTATAAAACTATATATTTTTTATCATATATTTTTAAATACAACAATAGGCAATTATAATTTTTTTATTATAAAATTTTTAGTAGAATCATTTTTTTATTGATTGTTATAATAGCCTTTTGCTTTTCTCATTTCAAATCTAGCTACAAATATAGCTGCAATAAATCCTACTGTAAGTAATATATAGGAAGTATTATAAAAAATTTTCGATATAGTATATTGTTTCATTATATAACCATTAAGTGCTGTTCCACTAGCACCACCTACAAACATATTAAATGATGCAAGAGACATAGCAGTTCCTCTCATTTTAGGTAATTTTTCTTGAGCTGTAGAAATAAGAGTAGTTTGCATAAAGATAAATGCTATACCAAATCCTATTAAACTAATTCCTAATATCCACACATTTTTATAAGATGATATTGCAAATAACGACATAAATCCTAATATTCCTGCTGTTATTAAAAAACCATGTTTTAAAATAATTCTTGCTTTCGGAACAATTTTTCCACCTATTACAGTTCCTACTCCAAATAATGATAAAATTAATCCAACTTGAAGTATATTGAATCCTGTAATTGATTGGAGTAATTTTCCAGAATATGTAAAACTTCCAAATACACTAAAACCTACAAAAAATATCAAAGTAACTAATCTCATAAATCTATAATTTGATAAAGGAACTTTATAAGCTGAAATAAAGTTAAGTTTATTAACTACAGGGTTATCTCTTTCAAGCATTTTTAACATAGCTAAAGCTAAAATTAATTCAGCTATACCATATCCGATATAAACGATACGCCAAGAACCAAAGTATGCTAATGCGCCACCTATTGCTGTAGCTGTAGCACCACCTAAAAACATAAGTCCCATTACTTTACCAAGTGCTTTTTGTCTATTTTGATTATCAAAACTTTGTCCTACAAGTGCCATAGTTACAGGGAAAATACCTGCTCCAAAAGCTCCGTTGACAGCTCTAAAAAATATAAGAGATGGTAAATTAAAAGCAAAGCCTCCTAAAATACTAAATGTAGCTGTCCCAAGTGCTGCAATGTTTATTATTTTAGTTTTTCCGTATCTATCTGATAATGGACCAAATAATAAAGTAAATAATCCAAAAGATAGCATATATGCCGTAACTGATAATGCTGCAGTTTGAATGTTAAGATTTAAATCTTTTGCTATGTCAATTAAAAGAGGTGCTGCGGCATAGTTATCGCCATTTGCTAAAAAGGCCATTAATCCAAGTATTAACAACATTTTATTCATTTTTTTCATATCATTGTTCATTTTTTTACTCCTTATATATAATTTTTTTATTAAATAATCTTTTGGTTATAATAACCAATTAAATAGATATCCAACAATAATTATTGATATACCTGTAATTATAACAAATGTAGTTATTAATCGAGGTTTAATTACTTTTTTAAGTAATATCATTTCTGGTAATGAAAGAGCTGTAACTGCCATCATAAATGCTAATGCAGTACCTATTCCTACTCCTTTATTAATTAATGCTTCTGCTATTGGAATAGTTCCTAGAGCATTTGAATACAAAGGTATACCAAATAAAACACCAACTATTACAGCTATAGGATTATTAGGGCCTGCATATTTTGCTAAAAGTTCTGCTGGAGCCCATCCATGAATTAATGCTCCTATTCCTATACCAATTAATAAATATATCCAAATTTTTTGTACTATTTCTATTACATGTTCTTTAGCATAATTAACTCTATCTTTTTGTGTCATTTCTTCAATAATTGCATTTCCAGCTTTCATTTTGTATACATATTCTTCTACATATTTTTCCATTTTAAGAAGTCTAATTATTATACCGCCAATTATACCTATAATAACTCCTGTTATTACATAAATTGTAGCTATTTTCCAACCAAAACTACCAAGCAATACAGCAAAAGCAGCTTCATTTACTATGGGAGATGTAATTAGAAATGAAAAAGTAACACCAATAGGAATTCCAGCTTCTACAAAACCGATAAATAAAGGAATAGAAGAACAAGAACAAAAAGGAGTAACTATTCCGAGTAAGGACGCCATTAAGTGAGCACTAAATCCATTATATTTTTCAATTATTTTTTTTGTTTTTTCAAGTGGGAAATAACTTCTAATATAAGTAATAGTAAAAATCATAAAACTAAGAAGAATTATAATCTTTATACTATCATAAAAGAAAAAATGTATACTTTCACCAAGTCTTGTATTCATTTGAAGATTAAAAACATTTTCTACTAATAGCTTTATTAGATCATAAAGCCATCCAAAATTAAAAATATATCCTAACATTATATTTTAACCACCTTTCATTTTATTGTTTTACTATTTAATAAAATTCTAATATATTATAATAGGAGATCCTTGTTTTGTCAATAAGAAAATAAAAAGTTATTTTTTTCTCTTGATTTTTATTGAAAATAAAGTTAATATTATATATGTACTAATAATTAAGAGGATTTTTTGTAAATAAATTTAGAGATGGTTTGATATATGAAAAATATAATATACTAGAAAATATTTATAATGAATTAATGAGAGTAAGTTCAAAAGGAACTTATACTCATCAGAAGACTTATAAAAATTATAGATAAAGAAAAATTAGATGAGGAGGATTTGTAATGGGAAAAAATCAACATGTAGTTCCACATGGAAAGGATTGGGCAGTTAAGGGAGCAGGAAATTCAAAGGCGACTAAAGTAACTAAAACACAAGGCGAAGCTATTAAAAAAGCAACAGAAATTGCTAAAAACCAAAAGTCGGATACAAAAATACATGGTAAAGATGGAAAAATAAGGGCAGGGAACAGTTATGGGAGTGATCCTTGCCCACCAAAAGATAAAAAATAAAAAAGATGAGTAATTTGATATGGCTACTACTGGAGAAAAACCAGGAATTGGAACCTATATTTATAAAAAAATGTGGAACTAGAATTAGATTAGATGACAACACAGATATTATGTCGCATGTCCAAAATGTAATGCAACAGAATTTCTACAAAGCTTTGGTTATAAATACATATCACTAGTATGAGGAGTGAACAAGGTAGATGTATTTCTGTCTGATGTCATCGTAAATAGGTATAGGTTATATGATTGCTATCATTTAATTATGAAACTAAAAAAATATATTGAAAATAACTAAAAAAATGATATTTAAAACTAATAAAGGAGATTAAAATTTATGGCAAAAACAGATAATAGCAGTTTTGAACAAAAACTATTTAAAGCGGCAGACAAACTTAGAAAGAACATTGATGCCGCAGAATACAAACATGTTGTGTTAGGTTTGGTGTTTCTAAAATACATTTCCGAATCGTTTGCAGAACTCTATGACAAATTAGAAGCTGACGAATGGAGTGACCCAGAAGATAGAGACGAATACATTGCTGAAAATGTTTTTTTTGTACCCAAATTAGCTCGTTGGACTCATATTCATTCTCAAGCTAAATTGCCAACTATCAAACCATTGATGATGCAATGGAAGCCATAGAAAAAGAAAACAAAGAACTTAAAAATGTGCTCCCACAAGTTTATGGCAAAGCCAATTTAGACAAAACCTCTTTGGGTGAATTGATTGACTTAATCTCTAACACAGAACTACAAGCCGAAAACCAAAACTCAAAAGACCTTTTTGGTAGAGTTTATGAATACTTTTTAGGAGAATTTGCCAATGCCGAAGGAAAAAAGGGTGGACAATTTTACACACCAAAAGCGATTGTAAAACTGATGGTTGAGATGATAGAGCCTTACAAAGGGAGAGTTTACGACCCTGCAAGTGGTAGTGGTGGAATGTTTGTGATGAGTGAAAAGTTTGTAACTGAGCATCAAGGAAACATAAAAGATATAACTGTTTACGGACAAGAGAGCAACCAAACCACTTGGAAACTTTCTAAAATGAATTTAGCCATTCGTAACATAAATTCAAAGTTTGTGGCTTGGAATACCGAAGGCTCATTTTTAAAAGATGCTCACCCTGATTTAAAAGCCGACTTCATTTTAGCCAATCCACCTTTTAACCAAAAAGATTGGGGAGCAGATATTTTACAAGAAGATGGACGGTGGAAATATGGCACACCACCAAATGGAAACGCCAACTTTGCTTGGATGCAACATATGTTGTATCATCTATCGCCAAGAGGTGTAATGGCAACGGTGCTATCTAATGGAAGTTTAAGTTCCAATACTTCGGGAGAAGGAGAAATTCGTAAAAACTTAGTAGAAGCTGATTTGGTAGAGTGTATTGTAGCCCTACCAAAACAACTTTTTTACAATACTGGTATTCCTGCTTGTATTTGGTTTTTGCGTAGAGAAAAAAACAGCCATAGCAAAGATGTTTTATTTATTGATGCTTCTGAAATGGGCTTTATGAAAGACCGTGTGCATAGAGACTTAGCCCCAGAAGACATTAATAAAATAAAAGAGACCTACCACAACTGGCGTAAAGACGAAAACTACGAAGACCAAAAAGGTTTTTGTAAATCTGCCACGCTTGAAGAGATACGCAAACATTCTCATGTATTAACACCAGGACGATATGTAGGCATACCCGATGAAGAAGATGACGGCATACTATTTGAAGATAAAATGACTGAACTTACAGCAACTTTAAAACAACAAATGGACAAAGAAACCGAGCTTAACCAAGAGATTGAAAAACAACTTGCTAAAATTGGGTTTAGATTATGAGTGCAGATAATAATGTACCAAAAGGTTGGGTGGAGACTACTTTGGGTTTGTTTCCTGAACAATGGAAAATAATAACAGCAGAAAATTTTTGTATAAAAATTGCAGATGGAACTCATAACTCACCTAAAAAAACAAAAGAAGGAAAGTTGTTAATAACTTCTAAAAATATTAAGAATAGTAAATTAGAAACATCTTCTGCATACAATATTTCCATTGAAGATTTTACTGAAATTAACAAAAGAAGCAAAGTTGACAAATGGGATATTTTATTATCAATGATTGGAACTGTTGGAGAGGTTTGTTTATTAAATAATAAACCTGATTTTGCCATAAAGAATGTTGGATTATTCAAATGTGGAGATGAAACAAAGGCTAAGTGGTTATTTTATTTTTTAATTAGTAAGATTGGTCAGAATTATATATTGAGTAGACTATCTGGGACAACTCAAAAATATATAACTCTTGGAGAGCTCAGAAAATTTCCAATTCCAGTCCCCCCACTCCAAGAACAAGTCGCCATAACAAAAATACTAACCGCCTTTGATGACAAAATAGAACTCTTACAAGCCCAAAACAAAACCTTAGAAACCACCGCTCAAACCATTTTTAAAGAGTGGTTTGTGGAAGAAGCAGGGGAGGATTGGGATAGAGTTAGTTTAGGTAATTCTGAGTTATCTAAAATAATAGGAAGTGGACTTACAGAATTTAGAGGAGAAAAGATATATCTTGCTACTGCTGATGTTCAAAATGAAAAAATTGTTAACACAGAAACTTTTATAACATTTAACAAAAGACCTTCAAGAGCAAATATGCAACCCGTATTAAATTCTGTATGGTTTGCAAAAAAAGGTAGTGTTAGAAAAGTACTGATGTTTGATTTAAATTCAAAAGAAGAAGTTGAAAAATATATTTTATCAACAGGATTTAGTGGATTAAAAACTACAAATCTATCTCATTATTATATTTGGCTATTCGTATTTAGTAAAGAATTTCAAGAAATTAAAGATAATTTATTGAGTGGTAGTGTTCAAGCTGATATTAATAATGACGGGATTAAAAATATTATGATTCCAAAACCAGATAATAACATTTTAGAAAAATTCAATAATATCGTTGAACCATTGTTTCATAAAATTCAAAAAAATAATTCCCAAATCCAAACCTTAAAACAAACCCGCGACACCCTATTACCAAAATTAATGAGCGGGCAGTTGCGAGTTGATGAATTTAAAGAGAGTGCGGTATGTTAAACGAAAATACCATAGAACAATCATTCATTGACCAATTAATAGCTCAAGGCTACACCTATTATAATGGTAAAGAGATTGCCCCAAATAGTGATAATCCACAGCGAGAGAATTTTGCATCAGTGATTTTAGAAAAGCACCTAAAAGCATCATTAAAAAAATTAAATCCGACATTGAGCGAATCGGAACGAGTTGAAGCCTATCAAAAAATAATCAATCTTGGCACAGAAGATATAATGGAAAACAACGAGCGTTTCCATAACTTACTTACAAATGGTGTAACGGTAGAATATACCAAAGACGGAAAAACAAAGGGGATTAATGTTACTTTGTTAGATGTTGAAAATCCTGACAACAACAGCTTTTGGGTAGTTAATCAGCTTGTAGTAAAAGAGAACAACAACGAGAAGCGTTTTGATGTAGTTATTTTTGTAAATGGTTTACCTTTGGTATTTGTGGAGTTAAAATCTGCCACAGATGAAAACGCAACACTTCGTAAAGCTTACACACAAATTCAAAACTATAAAAAAGCCGTTCCAACTATTTTTTATTATAATGCTCTTTGCGTTATTAGTGACGGAATAGAAGCAAAGACATCAAGTATATCAGCACCATTTACCCGTTATTTATCGTGGAAATCGCCAGAGAAATTAGACAATGACCCACGGACAGAATTACAAATTTTAACCCAATATATGCTGGGTAAAAAAACATTAGTTGAGCTAATACGATACAATACTGTTTTTGAGCAAGAAGAAAAAAAAGATGAAAAAACAGGCTTAGTTTTTCAAGTTAAAATCAAAAAGGTTGCAGCGTATCATCAATATTATGCGGTACAAAAAGCAGTTAAAGAAACTTTGAGAGCCACAAATTCAAAAGAGGGTGACCGTAAAGTTGGCGTAGTTTGGCATACACAAGGTTCGGGGAAATCATTATCAATGGTTTTTTATGCAGGTCAAATTATTACACACCCAAAAATGGGAAATCCAACCATTGTAATGCTTACTGATCGTAACGACTTAGACGACCAACTTTTTAGCACTTTTGGAAACTGTAAGCAACTTTTAAGACAAACACCTGTGCAAGCCAATAGCCGTGAACATTTAAAAGAGTTATTAAAAGTTTCAGGTGGAGGTGTAATATTTACCACTATTCAAAAATTCGCACCACAAGAGGGAAATATTTACGAAACACTATCAGAACGCACAAATATTGTAGTTGTTGCAGATGAAGCACACCGTAGCCAGTATGGTTTTAAAGGTAGAGTTGTAGAAAATGAAGAGGGTTCGGAAATTAGATACGGAAATGCAAAATATTTGCGTGATGCTTTGCCCAATGCTTCATACATTGGTTTTACAGGAACGCCAATTGAAAAAGAGGATAAATCAACGCCTGCTGTTTTTGGAGATTACATTGATGTTTATGATATTAAACAAGCCGTAGATGATAGAGCAACCGTTCCAATTAGTTACGAATCTCGTTTGGTAAAAATTAAATTAGATGAGCAGACCGCCAAAAAGTTAGATGAAGAAATTAATGATATTTCTGATGCTACGGAAGAGCAGATTGAAAAAGCAAAGAAAAAAACAGCGACGATTGATACCGTAGTAGGACACCCTGACAGATTAAAAGATATTGCCAAAGATATTGTAAGCCATTTTGAAGCAAGGCAAAAAGTTTTTGAAGGTAAAGCTATGATTGTAGGAATGACACGAAATATTTGTGTGAAATTATACAATGAAATAGTCGCATTAAAACCCCAGTGGCATAGTGATGATATAGACAAAGGAACTATTAAAGTTGTAATGACAAGTTCGACAGATGACCCCGAGATATTTCAACCGCATCACACTACAAAACAGCAACGAAAAGATTTAGCAATACGGATGAAAGACCCTAATGATGAGTTAAAATTGGTCATTGTTCGTGATATGTGGCTTACTGGATTTGATGTACCGAGTATGCACACTTTGTATGTAGATAAAAAAATGCAAGGGCATAACTTAATGCAGGCAATTGCAAGAGTAAACCGTGTTTACAAAGACAAACCAGGTGGTTTGGTGGTTGATTACATTGGAATTGGTCAAGAACTTAGAAATGCAATGGCAACTTATTTGCAAAGCGGTGGGAAAGGTTCAGCAATTGTTGATATAAAAGAAGCTATCGCAGGAATGAAAGAGAAATTTGAAATTGTAGAGCAGATGTTCAACGGTTTCGATTATAAAAGTTATTTCAAAGTTGATACAGCTCAAAAATTACAAGTTTTGCTCGGTGCTCAAAATTTTATGTTATCTGATGTTAAACTCAAAGAGAGATTTTTAAAAGAAGTAACATTGCTGTCAAAGCTTTTTGCAATGTCAGTCCCAAGTTTTGAGGCAGAGGTGATAAAAGATGAAGTTGCATTCTTTCAAGCTGTAAAATCAAGAATAAATAAGTTTTCAGGGAATGGAATTAAATCGGATTACGAAGTTGAAACTGCGATTAAGCAAATTGTAGATGATGCACTTTCAAGTGATGGTGTCATAGATATTTTTGAAGCAGCAGGAATTGAAAGTCCTTCAATTAGTATTTTGTCGGATGAATTTTTATTAGAAGTTAAAAATATGCAACAAAAAAATGTTGCGTTTGAGTTGCTCAAAAAACTATTGAGTGATGAAGTAAGAGTTAGGAAAACAAAAAATATTGCACAAGGAAAAAAGTTTTCAGAAATGTTAGAGTCGGTTGTTAAACGATATCATAATAATCAAATAGATTCTGCACAAGTATTACAAGAATTATCAGAAATTGCCAGAGAGATGCGTTTAGAAGATCATAAATCGGAAGAACTCGGACTTACACCAGAAGAATACGCTTTTTATAGTGTGTTAAGTGAAAATGAATCAACTAGTTTTTTAGATGATAATAAGATGAAAGAATTAATTCACACCATTGTTGATGTAATTAGGAAAAATGCAACTGTTGATTGGAGCAAAAGAGATGATGTAAGGGCAAAATTAAGATTAACAGTAAAGAAAATATTGATGCGTTATGGTTATCCACCAGATTTAGCAAGAATGGAAGCAGACAAAGTTTTAGCACAAGGTGAAACATTAGCAGAAATATTCTCATCAGAAAATTAGAGTTATGAAAAGAAAATCTAACCCAAAATCCATACACATTTGCAATTTGCATGAGTCAACGCTTAACCGAAAATTACAAATGTGTATGTCTTGTCATCGTAAAGCTTACGAATCTCAAAGTCAACGTTTAATAATATTTTCCCTATATGTTTTATAGATATTTTAAATATACAAGAATGGGAAAATTACTTTTTTTAGAAAGTCCTCATATAGAAGAATTTTTTAAATATCAACTTAAAACTTGCAATAAATAGTAATCTTTGGAAAGAAATACAGTGTGAAATTGTTTCTTTTAAGATTGAAAAAGATAATCTGGTTAAGCGATATGAATTACCTAATTATAATTTGAAAATAGAATACAACTACTCTGTTAATGAAAAAAAATATAATGGGGATAATATATATTTTGGATATAAACCTTCAAAGTTCTCATTTGTTTTGGAGAAAAAGAGAGGACAATACGATGTAGGAAATATTGTTATAGTTTTTTATGATCCGCTTAATCCTGAAATCTCTGTAATTGAACCTGGTATTCATTTTCAAACCTTAGAATATCCCTTAATTGGAATTTTGTTAATGTTAATGTTTATATACAATTTACTTAAATTACTAAAGAAAGGATAAAATAAAAATGAGGAGGATCAAAGAAATTAAAAGTATCCAAAATAAGCAAAGAAGTATCATAATATTAGGATTAATGCTAATGTCTATGAATTTATTATTTACAGATGAAATTGGGAAAACTAATAATTATATCAGTATTGGATCTAATTATTTAGAAGAACAACAATTTAATGAAGCCATAAAAAACTTTGAAAAGGCATTAATATTTGATGATAGAAATAAAGAAGTATATTTTCTTCTTGGATATAGCTATCAAAACCTTAATAAATACAAAAAAGCACTTAGTTTTTATAATAAAGCTGTAAAATTAGGGGCAGATGATGGAAGAATATATTATGGAATTGCTGAATGCTACAGTCTATTAATGGATAAGGAAAAGCTGCTATTTATTATAAAAAAGCTGTAACAAAAGTAGAAGAAACGATAGCGTTAACTGAAAAAGATATAGAGGCATATTTACTTTTAGGGCATAGTTACTTTGGTATTAGTGAATATAAATCAGCCTTAAAGTATTATAAAAAAGCATTAAGCCTAAACAAGAAAGATGGTGAAATTTTTTATTACATTGGATAAATTTATTACTATATTAATAATTCAAAAAAAGCTGTAGATAATTATAAAAAAGCAATTAAACTAGGTTTTAATAATAGTCAAGTGTATGTTGCTTTGGGTGATTTTTATTATGACAAAGATCAATTTAATAAAGCATTGGAATTCTACAAAACTGGGTTTGAAAAAAATCCGGAAGATTTAGGATTAAATCTTGCTTTAGGACGTTTTTATTACAAAGATTTTAAAGATATGGATAAAGCTATAAAATATTATGAAAAAGCTTTAAATATACTTCCTGAAAATAGAGGTCTTTATTATGTAGTGGGGAAACTTTACGAAAAAAAAGGCATCTATAATAAAGCGATTTTTTATGTAGAAAAAGCAATAGAAATAAGTCCGAATATGTGGAAATATTATAACCTTAAGGGAGAAATATTAAAAAAACAAGGTTTCGCAAAAAAGTCTGAAAGGGCTTTTAATATGGCACGCAGCTTAAAGGAAACACAAGGTGATTAAGTGAAAATAGCAGTAATTGATAGCGGAGCACCTGAAAAATCGAAGTTAAATATTACAAATAAATACAGAATATTTGTTAATCAGGATTATGAAAGCTACGTATTAAAAGATAGAATAGAAGATGAAAACGGTCATGCTACACTTGTATTTAAAATTTTAGAAAAATATTTAAAAAAAGCTGAAGAAATAATTAGCATAAAAATACTCAATAAAGAGCTAATGGGGAATTCAATTGCTTTAGCAAAAGCAATTGAATTTGCGGTGAACGAAAAGTGCAATCTGATAAATATAAGTCTTGGAACACCGAATAAAGAGTTTATTAAAAGAAATAAAAATGCTGTAAAATATGCAGATGAAAAAGGTGTAATGATTGTAGCTGCACATAGTAACGGCATTAAAGAAATTTCTTATCCTGCAAGTTTTAATAATGTTATAGGGGTAAAAGGAATAGATGAAAAGAAAGTATCAATTGATTTTAAAAATAATAATATAAATATGGAAACATGGCAGAGATTAGAAGATGAAGAGGAAATAATTGAAATATCAGGATCCAGTTATTTAGCTCCTCATATAACTAGATTTATAGTGCGAAATATTTAGAAAGAAAATAATCACAAGATAAATGAAAATATTATTTCTTCCTGGTTAACAACTTTAACAGATGTTTTAAGTCTAATTAAACAAGGATATAAGTATCATAAGTAAGTAAATTTTAAGCATAATAGTCTTAGTAGACTTTTGTTGAATAAAAGGTATTAAAAAAATTCTAATAGGTAAGATATAGGCTGATTTTTGTCAAATATAATATGATGTACATACGAGATGACACCAAATTTTAAGTCATCAATTAAAACCTCTTTTCCTTATTGTAGTTGCATACAGAGGAAACATTATACGATAGAAATCATTCTTTAACATTTTAAAAAAGTTTATTTTTGATTTGAAAGAAAAAATCTAAAATTCATCTAAAAGAAGTTTTTGCCGATTGTTCTAGTTGGTTTGATAAAATTTGGAGGTGAAAATGGAAGAATATATTATAATCCCGAATTGGATAAATAATATTCATGAAATTAAAAGTGAAAACTTAAAAGAATTTTTTGAATATATTCTGAAATCAGAAGATAATAAAATTGATATAGAGTATTTGAGAAAATACTACAAAGAAAGTCGAGAAATAAATTTTAGAAATGTAATAGACGAACTAGCATTAAGAGGATTTGAATTTAAAACATTGAAATCAAACAATATTTTACCAAAAGTAGAGTATTGCGAGGAGGAAGAACTAATTTTTGTATCAAGGCTAGGAAAGAACTTTGTAAAGATTGATTTTAAAAATTTGAATTTAGGAAATTTTATTGAAAGATTTCGAGTTAAAGATGATTTATTTTTTAATAAAATTCCTTATAAGGGGTTTCGCTACTTAAATCCAAATGTAAATAATGAAATATTAAAAAAAGAATTTAAAAATACTTTTAATTCTAGGAAAAATAAAGAAGAAAATTTTTTAAATGAGAATATTGAAATTGATAATCAAAAGGATTTCCTTGAATTAGTAGAAAATCCAAAACTCAAACCCGAGTTAGATAATGAGATTAATTCAATAAATTATATCTTTAAAGAAAGAAAATTTGAAATGTTTAGAGAGTTTTGTAATAAAAAAGAATTGAAATATATATACGAAATTAATAACAATACTTTTATTAGTTTTCAAAATGAACTAGGAGTTGGATCTAAAAAACTTTATCAAGTTAAAGAATTTTTAGAAAAAAATATTACCCCTAATGACATAAAAAAAAGATTTGAATTAATGTACAATAAAGAAATAAATCTAGAAGAGAATATTTTAAAAGAATTCGGTGAAATAACTGTTTCTCGAGTTTTGAAAGTATTTAATATAAACTTAAATATTAAGGATGATATAAAAATTGAACAACTGAACAATAGAAAGATCAGTCAATTTATTGAAATTAATGAAAATTATGAAAATGAAAATTTAGAGAAATTGATAGATATTATAAACAAACTAGAATCTCCATCAAAGATGATAAAAAAAATATCTTTTAATGAAAAAGAATATGAGATATTTGAAAAAAGATTTCTCGATGGAATGACTTATGAAAAGATCAGCAAACTATTTGGAGTGACACGCGAAAGAATTAGACAAATTTTAGAAAAAATTCATAAAAATGTTTTTCATGAATTAAAAGCAAATAATTTTTTGCAAATAATAAAGCTTTTTTTTCCTAACAGAACTTTTATAGAAAAAGAAGAATTGATTAGAATTATTACTTCTAAAAATATCAATTATATTTATTTGTTTAATAATTATAATAATGAGATATTCTATTATTACGAACCTTTGGAATTATATTTTTTCAAAGATATTTCGAGGCTAATAAACGAAATTAAAAACTTTATAAATAAATTACCAGATTATTTTTATTTATTTGATTTTTTAGATGAAATTATTGATTTGTTATCAAAATATAAAATGGAAGATATAAAAATAGAAGATATTGAAAATCTATTAATGTATTATGGCTTCATTAAATATAATGAATGTTTTTCAAGAATAAAAATGACGGTAACTTTGTTTTTTAGTATTGTTTTCGATCAATATATAACAGAGCCAATATATTTTAATGAAGAAGGGCTTTTATATTTAAAAAAAATTGGTATAGAATTTTTAAACTATAAATTAACAGGAAATATTAGATCATTAGAAGGGAGAATTAGAGATAATGATGAAATTGTATTGGTTGGACCAAAAACTTTTTTGAATATTAACAGAATAAAATATGATTTAAATATCTTAGCAATAATAGACAAATATTTACTGAAAAAAAGTAAACAACAGGATAAAATTAATGCTGAGGAAATATTTAGTGATTTAAAAGATATATTAATTGAAAATAATATTAAAAATAAACAAACACTATATTCAATTATTAAATATAATTATGAAGAAAAATATAATATTGGGAAGGGAAATACTTTAGATATATTTTTAAATGATAATATTGAGAAACTTAGCAAAGAGGAACAGGTCGTAAATATTGTTAGAAAATATAATAATCCTATCAACAAAGAAATTATCTTAAGAAAACTAAACTGGAAACTCTTTAAACTTGAAGATACTATATCTAAATCAAGTAAAATTATTTCTTGGGGAAGAAATTTAATAACATTAATTGAAACAATAAAAATAACGAAGGATCAGAAAAGAAAATTAAATGATTTATTAAATCAAAAAATGGAAAATGGATTTACAACAAGCCATATCCTTTTGAATGAATTAAGATTTGATTCAGAACTTAATAAAATAATAAAAAATAATAATATAGAGAATTCATTTCAATTAGCTTCTATTATAAAAAATATATTTACAAATATTGGAGGACGTACATTATTTCTTTATAAATTAAATAGTGGTATTACTTCTATAGAAAAGGTTATAAAAAATAAATTTACTGAAATTTTATTAAAAGAAGATTTAAAGTTTTTTTTAGAAGAATACGGATATAAGAGTGGGGCTATTGCACAAATTTTGGGGAAATTATTAAAAAAAGAAATTTTTGTAGAAATAAGTCGTGAAGAAATAATTCTAAAAGAAAAATTAAATATACCTAATGACGTATATAATAAAGTAAAAGATATTATTGAGGATAATTACTTTAAAAATGAATACTTAAGTTTGCATAGTATAGAAGGGTATAGAAAAATTTTACCCAAAATACAATATAAGTGGAATCCTCATTTATTAGGAACGATATTAAAAAATGTAGGATATAGAAAAATAGAAAAGAGTAACGGTGATTATAGATATAATAAAATAATAATTGTAAGGGAAGATAGCCATATAAAAACATTTGAAGATTTAGTTTACCATATTTTAGAAAAAGAATATAATGGAATTTTTCATGAATTAAAAGTATATGATTTTTTAGTTGAAAAAAAAATAATAAATGGCAGAGAGTATATTGAAAATAAGAAATTACCATTGGAAATAAAAAAGTCAGAAATAATTAAAATTGATAAAGTTGGTAGAATTGAGTTGGTGAAGTAGAATTTCATTAAATGATTTAAACTTAAAATTTAAATATAGATCTGATATTGATGAGCTTTATAAAGATTTTTATATAAAATATCATGAAAATTTGGAATATTTTATGATAAATATAACAATCAAGTTTTATTTTCAGGTTCATCAAATGAAACTATAGGAGGTATGAAAAATAATTTTGAAAAAATAGATGTGTTCATAGAATCTAATAATTTAATGAGGATAAAAGATGCAATATATGATTTTGAGCGTTTATGTGAAAATAAAACAAAAAGATTAGAAGTCATAAAATTACTAATGGAAGTAAAAAATAAAATACTTTCTTTTAGGAAGGATAGAAAATTAATGAATACAAATTATAAAAAAGAAAATATAATAACTCCAAGAGATTATCAAGTAGAGGCAATAAATGCACTAAAGAATAATAACTATAAAGGAATATTTGAGATGGCAACAGGTACGGGAAAGACCATTACAAGTATTTTATGTGCTAATAACTACTATATCACAAATAAAAGGATATTTTTGATAATATTAGTTCCTTTTATTCATTTGATAGAGCAATGGATATTAACTCTTGAGAAACTTAATTTTGAAAACATTTTAAAATGTTTTGGAAATAAAAACAAGTGGATATATCAAATGAGAGAAAAAGTCAGAGATTATAATATAAATATTAGTAAAAAAGAGGTAATAATTACTACATATAAAACAGCTTCTTCTAAAGATTTTAATGATATAATTTTCAAATTAAAAGGAAAAGGGTTTTTAATAGCTGATGAATGTCATTATTTTGGGATTAAAAGCTTAAGATATAAAATAGACGGTAGATTAGGATTGTCCGCAACTCCAAATCGCTGGTGGGATAAATCAGGTACTGATTTTATTTATGAATATTTTGAAAAAACTATTTATGAATATAATATGGAAAAAGCAATTACAAAAGGAAATCTTATTAAGTATAATTATTTTCCGATAAAAATTGACTTATCAGAAAAAGAAATAAAGGATTATCAAAAGTTAACCAAGCATTTAGTATATTTGTTTTCAGAAAAGAAAAAAGACAAACAGAAAATTGAACAAATAACAAGAAAAAGGTCATCTATCCTATCAAAAGCTGTTAATAAAAAGGAAATTTTATTTAAAATATTATCAAATAAAAATTTTGATGAAATATCACATACATTGCTGTATTGTGCACCAGGAGAAATTAATGAATTAACTAAATCAATTGCTAATTTAGGAATAAAAGTTTATAGATTTGACTCAAAGGTAAAAAAAGTTGATAGAGAAATGTTATTAAAAAATTTTGAAAATGGTAAAATTCAAATACTTGTTGCAATAAAATGTTTAGATGAAGGAGTGGATGTTCCAAGTACAAAAGAAGCTTATTTTCTTTCAAGTACTTCCAATCCTAGAGAATTTATACAACGACGAGGTAGAATATTAAGACCTGCACCAAATAAAAAAAATGCAAATATTTATGATTTTATTGTAATTCCAAAGAACGTAGATGAAGTTTTATTTAAGAATATTGTTTCTAAAGAAATGCCACGTTTTGCTGAATTTTCAAAATATGCATTTAATGAGTTTTATGCTAGGAAAGAAATAAAAAAATACTTAGAAAAATATAACCTTTCTTATTTAATGGACAAATTACCTTGGGATATATATAACGAATTTCAAAATGAATGGGAGGATAATGAATGGATATAAATTCAATATTAATAAAAGAAATTGAAGAAAATTTTCCAGTAGAAGTTAAAGAGTTGGCTATAATTATTTTGTCTGAATTAAATAAAAATAAATCAAATAGACAAATAGAAGAAATCATTTTAGAAGAATTAAGAGAATCGTTTATATAGGAGAAGACGTAAATGAAAATATTGAAAATATATTTAGAAAATTTTAGACAATTTTATGGAAAACAAGAGATTGTTTTTTCAAAAGGAGAAAAAAATATAACTGTAATATTTGGAGAAAATGGAAAAGGAAAAACAAGTATTTTTAGAGCTTTAATATTTGCTTTATTTGGAAACAAGTTTTTGGAACAAGATAATGAGAAAGAAAAGATACATTTAGTAAATTTTAATATTCTTGACGAAAATATTGGATGTCCTGTAGAGGCTTGTGTTAAAGTTGAATTTGAAGAAAATGGAAAAGTTTATTTTTTAGAAAGAAGTATTACTGGGTATAAAGTGAAAAATGAAATTGTAGAAAAAGTTAATAAAGCAAAGTTGTATATGCAAGATAGTAAAGGTAATTATTCTGGAGATCCAATAGTAGATGAAAATTTTATAAAAAGTCAAATAGAAAAAATTATTAGCTCAAATATAAAAGATTTTTTTCTTTTTGATGGTGAAAAAATAGATGCACTTGCAAAAACTAATATACTTATTAGAAAAAAAGTGAAGCAAGGTATAGTTCAATTGTTACAAATTGATAAATTAGATAAATCAATAGAAATTACTAAAAATTTATATAACAAAGAGAATAAACTAATTTCTACTCAAAGTAGTAATATGAATATAAAAAGCATAGAAGAACGAATAGAAGATAAGATGAAAAAATTGAATGAAAACTTTGAAGTAATAAAGAAAAATGAAGAAGAACTTGAATTTTGTAAAGAAGAACTTGATGAAATTGATATAAAGTTATCGAAAAGTGAACCAATAAAAAGGATACAAGAAGAATCTAAAAATATTAAGGTTAAAATAAAGGAGTATAATGAAAAATTGAATTTATTAAAAGGAAATTTGAGTAGAAGTTATTTTAATAGTTTACATCAATTTTTCATGAAAGATTCTTATGAAGAAGTTAAGGAATATTTAAATCAACTTTTAACCGAACAAAAAGATTTAGTGTCTATTGAAATAATAGACAAAATTCTTTTAGAAATGAAGTGTATTTGTGGTACAAATTTAAATATTGACAAAGAAGCATTGAAGAATATAGAAAAGATTAAGAATGAATATAAAAAATCGGAATTAACTCCATTAATAAGGTTGATTAATGAGATTGTTCATGATTTTTCTTTAAATAAAGATGAAATTATTAATAATATAAGAAAAGATTTATTAAAAATAAAAAATACAAAAGATGAATTAAATAAATTACATTTTCTTCTAGAAAAGAATAATGATGATATAAAAGAATACAGTAAAGAAGAAGAAAACTTAACTAAATTAGAGGAAATAAGTGAAAAATTAAAAACTAAATTTGAAAAATTAAAAATTGATATCAGAGCTTTACATAAAGTAAATGATGATTTAAAGAAAAATATTAACAAAGAACAAAAAGAACTTGAAGTATTAATGTCTAAGGATAAATCATTAAGGGCAGATTATGAAAGACTTAAATATTTGAATATTTTAAAAGAAAATTTTGAGAATATATTTGAAAAATATAGCAGTAAAATAAGAAAAGACTTATCGTATGAATGTACAAAAATTTTTAATAAATTAATTGATATTAAGAATAAGAATTTAATAAATGAGATTAATATAAATGAAAAGTATGAAATAGAATTAAAAAATTGGTCTGATATACAAACTAATCAAGATATTTCTCAAGGGCAAAGACAAATCATTGCATTGTCTTTTATTACAGCATTAGCCAAAATTGCTTCTGGTGGTCGTGAAAATATTGAATTTCCCTTATTTATGGATACTCCATTAGCAAGAATAAGTGGAGAAAACAGAGACAATATTATTGATAATATTCCAGAATTAACAGTACAATGGATTTTATTATTAACAGATACAGAATTTACAGTAACAGAAGAATTAAAAATAAAATCTACACAGCGTTTGGGTAAATGGTATATTTTGGAACAAATAAAAAATGGATATACCAAAATTACCTCTAAGAAATTAGATGATTCTATAGCGAAAAGGAGGTAGTAATGGATTTTCTAAGTGAGCAACAATTAATTTTTACAAGTAAAAAATATGAAGATATTTATATTTTTTTTAATGAAACCTTTAGTATAAAATATCAAGATTTGTTTATACTTTGTTCGGCGATTGGCTTTAAGAATAATAGACATATAAAATTTGATTCAAAAGGGAGAGAACTTCGGTCAAATTATTTTAGTTCAGCTCAAAAGGCAACCGCATATTCAATAATTCTTGCAGATAAAGAAATAGGTAGAGAAATAGAAAAATTTGAGAATAAAAATTTTATGTTACTAGCAAGAAAAAAACTTGAAGAGTATGCAGAAGGAGGTATGGAAATACTTTTAGAAGAAGTATTTGAGAATAAATTTATAGAGAGCAAATTAGATATTGTATATAAAGAATACGATATTGATTTATTTAGTTATGTACTGGAGAAATTTGATGAAATTCCATTTTAAAAAATCCGATCATCCTAGTCAGCTTTCCTAAAATTATATGAGTTTTGAATTTTTTATATAAAACTGAAAGCGGTTATGATTACAATTTATCAAGAAATGACCTAAAGGACAGGCTAATTTCTACCAGATAACCTCGAGTTATACGACTTTTTTCATTAACTGAATTAGGATGTTTTCACTAAAAGCTTAAATCTTACTTTTTTATTGTAAAGCTTAAAAAATTATGTTATCTTAATATCGTTATTTAATAAGTGAGCTAAGCATAGATGATAATATCTTTGCCGGTTTGATAAAATTTCATATTTAAAAAGAAATATTACATAATTAATTGTATAAAAAAAACAAAAAAGTTATTTTTTTCTCTTGAATTTTATTGAAAATAAAGTTAATATTATATATTTTAAAATAAAGGGGATTACTTAATGAAAAAGACGTTTAAAAATTTTAAAGATTTACAAGATATAGAAAACTTCTTTTTAAAAGAAGAGAATAATGAAAATAAAAAGCAGATAAAAAATACAAAAGAAGAAAAAAATGAAAACAGTAAATCTATAAAAGCATTAAAAAAAGAATTAAATAGTGTTAAATATGAATTAGAACAAATAAAAAAACACCTCCACAACAAAAAGTCCGATAATGAAAATACTGAAATTGCTAAAATGTTTATAGATTTTAATGTAGATGAAATATATAATGAAGAAAGTAAAAAACAATTAGAAAAATTACAAAATGAAATTCAACAATTAAAGAAAGAAAATAGAAAATTAAAGAAAGAAAAAGAAAATATAGGGAATACAAATAAAAAATATGGATATGATTCTATTTACAATAAATTAAAAAGTAAATATAATTTTTTATTAGATAGAAGTATTGTTTCACTAGCAACTGCTGAATATCTATATAAAAATGAAACGAATAATAAAATGGATTATTCTATTATATATATTAATTATATAAAAACATTAGAAATAGAATTGAAAAGAGTTTATCAATATAATAATACAAAGCTAACATTTGGTAATATAATAAATAGACTTGAAAAAAATCCATTATTTAAAACATTTGTATATGCAATAAATAAGCAAAAAGTAGTACAAACTAGAAATATAGCTATCCATAAACGTGTTATCTCAAAAATGGAATGTGGTAAAATAAGAAAACTTCTTATTGAGGATGATTGGTTATCAAGAATAGCATATTTATTAAATGAGGTAGATAAAGAAAATAAAATGGTAAAAATTAATATGAAAATTATTGAAAAAAAAGATATTATTACAATAAATGGTAAAAATTATACACATTATATTACAGATGGTGATATAGATATTATATCTCTAAAAACAAATTTAAATGGCAAATTAGTTGGTACTGGAGAAATAATTGAGTATCAATGTGAAGAGTATATTACTTATTAAATAAAGTTCTTTGATATTGTTATCAAAGAACTTTATTTTTTATAAAAAAACTCTATAAAAAATAAAAGGAAAATCTTTATATTAGTGAATATAAATATAAAGATAATATTAAAAGGTGGTAAAGATGATAAAGGATATTTACAAATCAGTAGAAAAAACATTTTTTGCAATTCTTATTTTTGATAAACAGTTTAAATTGAATTATATTAATGAAATAGGAGCTAAAAATCTTAGTTATAATATTTCAGAAATAAAAGGAGTAAATTTAAAATATTTTTTTAAAGAGAATAAAATAGAAATAATACAAAAAAATAAGTTAGGAATTTTAATTAAAGCATTTGTAAAAAATAAAGGAATGAAATATTTTAAAGTTATAATAGAAAAAAATAAAGATGATAAAATAATTTATTTATTAGACGTTAGTTTCGAACAAAAAAAAATGAATATTTTATTTGATATTTTTGAATTAAGAGATTATTTATTTAATTATATAGATGACTATATTTTTATTTATGAATTGAATAATAAGTTAGAAATAAATAGATTGTTAGAAGTAAATTTAAAAGTAAAAAAAGAATTATATTATACTCAAAATGAATTATTTGATAAAAAAATAAATGAATTATTTATTATAAAAGCAAAAGATTTATATTCAAAAAATAAAACAAAATCTAAGTTAGTTAGAAGAAATGGAAGTTATATAACAGTAGAATTAACTAAATTAAAAATAGAAAATAAAAATTTATTTATAATAATAGCAAAAGATATAGAAATAGAAGAAAAAGCAAATAACATATTGGAAAAAAATTTACAAAATAGAGATAAATTAATAGATGAAATTGTGGAGACTGTTAGTAAAATTGTAGAACAAAAAGATCCTTATACTACAGGGCATCAAAAAAATGTGGCTAAAATAGCAGTAAAAATAGCTCAAAAATTAGAACTTGATGATGACATAGTAAAAGCGATAGAAATTGCAGGAAAACTTCATGATGTAGGTAAAATTTCTATTCCAACAGATTTATTAAATAAACCAGGAAAACTTATAAATGAAGAATTTAGTTTAATAAAAACACATGTTGATAGTGGATATGACATATTAAAAAATATAGATTTTCCATGGGATATAGCTGAATATGTATTAGAACATCACGAAAGATTAGATGGAAGTGGATACCCTAGAGGATTAAAAGATAATGAAATAAGAATAGAGGCCCAAATAATTGCTATATCAGATGTAATAGATGCAATGATATCTCATCGACCTTATCGACCGGCACTTTCAAAAGAAATAGTAATAAATGAATTGAAATCTAAATCAGGAATACATTTTAATAGAAAAATTACTGAAATTGCTATAGATATATTAAATGAATTGGAGGTATAATATATGGATGAATTATTCGAATTATATAAAATATCCACAAAAGAACAAAAGCTAGATTTAATAGATGAATTTTTTAAAAGAAAAAATTATTTAGAATATATAGATAGGTTGTTTGAATTATTAGAAAATGAAAAAGAACTTATCATACGAGAAAAAATTGTATTTTCATTAAAAAAATATAATACTATAGAAATAGTTCAACAAATATTAAAATTTTATGATTCAAATGATGTATATTTGAGAAATATTGCAATAGATATTGTTACTTCATATTATGAGTTACCTTTACAAAATTTATTAAAAATGTTAAATAGTGAAAATAAACATATTAGAAAGCTAGCTTTAGATACACTTTTTAATACTAGAAACCCTATGATGGCTAGTTTTATTATGGAATCTTTAATTAATGAAACTGATATAAATAACAAAATTACAGCCGTAGAATATTTAGGAAAATTAAATGCTAAAAGATATGCTGATGATATCGTAAATTTATTAGATAAAGAGGACAATGAATTTTTTACTGTGACAGTAATAGAAGCGTTAAATTATATAGGAAATGATTATTGCTATAAAAAATTATCAGAAAAATTTAATGATATAGAAAATGTAAGTATTATTATATTAAAACCATTAATAAAATTTTGTGCAAAATTTATAAAAAAAGATATGATATATAAATTAAAAAAATTAAAAAAACATTATAAATTTTTAGCTAAAGAGATTATTTTTGCTCTAAATTCTGCATTTCAAAATTTAACAGAAGATGAAATTTTTGAAATAGAAAAAGATATTTATAATATATTAAAAGAACTTTTAGAATTGAAATTATCTGATATTATATATTATGAAGTATTAACTTTATTATCTTTATATGATAATGAAGAGGTAGAAAATATAGCAAAAAAATATTTATATGAAAAAGAAGGTATAATAAGATATAAATCAGCTGAGATATTAATTGAAAAAAATCAAATAAAATACATAGAAGATGTAAAAAAAAGTTTGAATTATGAAAAAGATCAAACAATAAGAGAGAGATTAAGAGAATTAATCAAAGGTGAATAAAATGGGATTAAATATAAATAAAATAAAAGAAAAACGGGAAAGGATAGATCTATTAGATAAAAATATATTAATAATAAAAGATATTATATATGAGTATTCAGGAATATTTATTTCTGAAAATCAATATTATTTTTTGTATACTAAAATTCAAAAAAGATTAGAAAAGGTTGAAATTAAATCCATAAGTGAATATTTAAAATATTTAAAAAAAAGTAATAATGAAATAAAAAAATTATTAAATGAAATTACAATAAATGAAAGCTATTTTTTTAGAGAATTTAATCAATTAAAAGTATTTGGAGAAGAATGCCTTATAGAAGTAGCTAAAAATAAAACTGATAAAAAAATAAAGATATTATCAGCGGGATGTTCTATAGGTGCAGAACCATATTCAATAGCAATTATTGCAGAAGAAATGTTAGGGAATGATAACTTTGATTTTGAAATTATAGCTATTGATATTGACGAAGAAATATTAAAATTTGCTAGAAAAGGTATTTATGATAAAAATAGAATAAATCAAATACCGAAACTTTATTTAGAAAAATATTTTCTAAAATATAATGAAAAATATATTATAAATGATTTTATAAAAGAAAAAGTAAAATTTAAAAGAATTAACTTAGTAAACGATAGAGAGCTAAGAAGTTTGGGAAAAAACTTTGATTTTATATTTTGTAAAAATGTACTTATATATTTTAATAGCTTTTCTCGTCGAAAAGTGATAGAGAATTTTTATAAAATGATGAATGAAAATGCTTATATATTTTTGGGATCTTCAGAATCATTAAATAGAATAACAGAAGCATTTTATATAAAAAAAATTGAAAATCAAATTGTATATCAAAAAAAGAGAGGGGAAAATTATGAAGATATTAATTATTGATGATTCAGAAACTACAAGAAATTTTTATACATATATTCTTGAAAGTCAGAGAATAGATGTAGTTGATGCAAGTGATGGAATGAATGCATTAGATAAACTTTATTATTATAAAGATGAGATAAAACTTATATTAACTGATTTAAATATGCCAAATTTAGACGGGTTATCATTAATAAAAAAAATTAGAGAAAATAAAGAGTTTGAAGAAATTCCTATTGGGATATTATCTACTCTTGATGAAAAAGATAAAATTGAAGAGGGATATAGAATAGGGGCTGATTTTTACATTATAAAACCAGTTGAATCGAATAATTTTATTGAAATAGTAAAATCATATTTAGAGGTAGAATAATGGAAGTTGTTGATTATATAAAACAATTAAAACGAGAAATTATTAAAAATGAATTTAATCAAGGAATGATAGAGTTTTATAGAAAAAAATTAAGAACATATAATTATTTATTTGAATTATTAAATTATTTTGAAATTTTAAATAAAACATATCAAAAAAATAAAGATGAAATAATTAAAATATTAATTAATGATATAAAAGATGAAATATTGTTAGATTGCAATTTTATTTTAGATAATAAAAAAGAAAATACTCAAAATAAACAGACTATAGAAAAAGAATTTAATAAAATTAAACTTTTAAATAAAAAAGAAAATAAAGAAATATTATTATTTAAAAATATAAATTATATATTTAATAATAAACTTGAAGAAAAGACTTTTAATGATTATTTGTTAGAGGCAAATGAAATAATAACTAAAATAGAAGAAAATTGTATAAATTATGAAAATAGTTTAGATAATGAAGTGTTGAAAATCCTAAAAAGAGAATTACATACTTTAAAAGGTAACACAAGATTATTAGAAAGTTTTGAATTGGATAAAAGCATAAAAAATATTTTAAAATTAATAGAAGAAAAAACTCATTATTTTGAAGATATTATTATAAATGATTCACTAATTAATAATATTAATATATTTTTTAGTTATATTGATTTTATAAAAGAAATTTTAGAAAAATTTGAAAACAAAAAAAATATCATTGATTTAAATGGATTTAAAGAGTTATTTAATTATAATAAAAAAGAAGAAAATGAAAATGATGTTATATTAAATAATTTTATTATCCAATTTAAAGAGTATATTCAAATTAATATATTAAATAAAAAAGATTTTAATTTAGCAAAATTGAAAAGGAGCTCAAAAGGTTTTTATAATTATGTAAAAAAGAAAAATATTAAAAAACATATAAAATTTATTGAAGAAATATATTCTAATGTAGAAAATAAAAATTTTGATAAAATATATAATTTAATAAATTCAACGCAAAAAACAAATAAAAAAATAGATATAAGTAATAAAATTTATTTAAATAAAGAAACTATTAATAATTTAGAAATAATATTAAATAATATGTTTTTATTAAATTCTGAATACGAATATTTATTGAAGAAATATTCTATAAATAACAATGAATTTATAAATTTTAAAAAGAAATTTAATAAAAATATGGATAGCTTTAATAATTTATTAAACAATATAAAAATGGAAAAAATAGGAACTTTATTTAAAATTTTAAAAAGAAGTATTCGTGATATTGCAAATGAACTTAATAAAAAGGTAGAAGTAGAAATAATGGGTGAGGAGAGTATACTTGATAAGGATATATATAATAAACTTCAAGAACCGCTTGTACACATTGTGCGAAATGCTGTTTATCATGGTATAGAGAGTATTTCAGAAAGAATAGAAAAAGATAAAAATGAAAAAGGAAAAATAAATCTAAAAGCTTTTAATGAACGAGGAAATATAGTAGTTGAAATTTCTGATGATGGAAGAGGTATAAATAAAGAAAAAATAAAAAATAAAGCAAATAAATTAAATATAAAATATGATGAAAATAATATATACAACTTGATATTTTTACCTAATTTTTCTACTAATGATGAGGTGGATAATATATCTGGTAGAGGGATAGGAATGGATATAGTAAAAAATGTAATTAATTCATTAAATGGAAATATAAAAATAGAAAGCAAAAAAAATGAAGGAACAAAGTTTATATTGAAAATTCCTATAAATTTATCAATTGTTAATGGTATATTAATTAAGATTAATAATATAAAATATATTTTACCTATAAATAAAATTGATAAAATAATTAAAAATAATTTTGAAATAAGAAGTTATAAAAATGAATATTTTTTAAAACAAAATAATGAAATTTATCCAATTTATAGTTTTAATTCTAATTCAAACTATAATAATAAAATATATATATTGCTAAAAAATAATGAAAAATATATAGCCTTTATGATAGATGAAGTAATAGAAAAAAATAAATATTTAAATAAAAAATTACCAGATATTTTAAAAAATGAAAAATATTTATTTGGAGTATCTATATTAGGAAATGGTGAAATTTTAGGGATATTAAATATTGAATATATATTAAATGGAGGATAAAATGGAAAAAAAAAGATTAGAAACGCCAGAAAATTATAAATCTGATTATAAATACAGTATAAAAAATCATAACTATGAAAAATATAATCCTATAAAAGAAAAAGAAATGAGTATAAAAAAAATTAGTAAATCAAAAGAACAAGGAAATTTACGGCGAGAGATGCTCGCTGAGAAAATAGCTTCTGCAACCCAAGAGTTGGTTAAAAATATAGAAAAAATTAAAGAAGGTAATGATTTTTCTATACAAATTTTTGAAAATATTTCTTCTGTAAGCTATGAATCAAGTTCTGCTATTGAAGAGTCAAATCAAATTATTAGTGAAATTAATGATAAAATTAGTTTATTTAAGAAAAGTATAGAAAATTTAAAATTAAATATACTAGATAATAGAAGAATTATAGATTTAATGATAGTAACTTTAGAAGATTTAATAATGGATATCAATGAAATTGTAGAAAAAAATAATGTATCTGTAAAAAAAATAGATGAATTAAATGAAAAAAATAAAATTATAGAAGAATCATTAAAAATTATAGTAAAAATAGCAGATCAAACTAATCTTTTTGCATTAAATGCTGCAATAGAATCATCAAAAATGGAAGGGAAAGGAATCACTTTTGACATATTATCTAATGAAATCAGAGAACTTGCTGATATTTCAGAAAATTCAGCACAAAATATAAATATAATAATAAAAGATTTAAAAAATATTATTATTTCAATTGTAGAGATAATAAATAAAATAATAAATAATTCAAAACAGGATAATAGTATAGGTGATGAAATAAAAATAAAATTAAACTTAATAAATACTAAATTTAATAAAATTTTAGAAAATACAGATAACTTGTTTAGAGAGTTAGATGGGATAATTTTATTATATAAGAAGATAAATTCTCAATCAGAAATATTAACAAATTCTATTCAAAATATATCTATAGCATTACAAGAATCTTCAAATGCAAATGAAGAACAAGTAAAAGCAATAAATGAAATATTGTATGCTTCAAATGAACTATTAGGAGTAGCAGAAAATCTAAAAAATAATATAAAGGTAGGAAATTTAGCAGAGATATTATCTTCTACAGCAGAGCAATTATCTTCTAATATTGCTGAAACAACAAGCGCTTCATATGAAATAATAGAAGGATTAAAATCTATTTCAAAAGAAATAAATGAAATGGGAAATACTATAAAAATCACTAATAAATTTTTAGATGCGATTAAAGATAAAAATAATAGCTTTATACTTAGTTTTAAAAATGATTTTAATGAATTAAATAAAATTTTTGAATTAATTAATGTCAATAATAATAATTTAAAAGATATAAAAAGTGATTTAGAAAATAATATAAATTTATTTATAAATATTTTAGAAAAAATTGATTTGTTTGAAAATAAAATATATTCAATAGAAAAAATAATAAAACAGATAGATAGAATTACTATAAAAATTTCAACTTTAGCGGTAAATGGATTTTTAGAAGCTTCGAGATTTGGTATAGAAGGAGAAGGTTTTACAAGTGTATCAATGGATATAAAACAACTCACATATGATTCTGAATATCAAATAGAAAAAATTAATAATTTGATATTAAAATTGAAACAAAATAATAATAAAATATATTTAAATATAGAAGACTCTAATAGATTATTAAATATTAATAATAAAAAAGCAACTAATACAATTATGGATTTTAATAAAATAAATGAAAAATTTAATTTTTTATTAAAAAATTATACAAATATAATAAATGAATTTGACATTATTAACAATTCTATTTCTGAAATAAAAATTGGACAAGAAAATATATTAATTAGTGTAGAAAAATTAATAAAAGATATAGAAGAGGTTATCAATTTTAATTATAATAAATTTAATTCTTTTGAAGAAATATCAGAAGCAATTGAAGAAATATTATTAGTAGCTGAAGAAATAAAATATTAAAAAGGAGAATTATGAAATATTTTAGTTTTGTTATAAATAAAAAAAAATATATTATTGAAAATAAATATATTAAAGAAGTTATAGAAGAAAATAATATTTCACCGATATATAGCAAAAATAAAAATATATTAGGGATTATAAATTATAGAAATGATATAATTCCTGTATTATCTATTGAAAAAAATATTAATAGTAATAAAATGTTAATTTTAAATTATAATAATTCTTTATATGCTTTAAAAATAGAAAAAATTTTAGAGTTTTTAGATATAGAAGAGTTTTCTAATGAAATAATTAAAATAAAAAATATAGAATACATTTATTTTAATTTAAATAAACTTCTTGAAATAAAAAAAATATTAGTATCAGATACTAATGATACTCAAATTAACAATATCGTTAAAAAACAAATTAAAAAAACAGAAAAATTTTTAATTTTTAAAATAAATAATGAAAAATATGGATTAAATGCTAATGAAATTGTTGAAATAATAAATTATAAAAAAATAAAAAATATACCTTTTAAAAATAAGGATATTAATATTTTAGAATATAAAGGTAAGTCAATAGTTGTTATTGATATTTTAGAAAAAATAAATAATGAAAAAATAAAATTAACAGATTTTTCTAAAATAATAATTTTAGAAAAAGAGAATAAAAAATTAGGAATATTGGTATCTAATATAGTTGAATTAATTGGGAGAGATAATAATGAAATATTAGAAATCCCTCATTATTTAATTAGTAAAAATATAAAAGAAATAAGTAGTATTACTTATGATAATGAAAAGAATATGATTTTTATTTTAGATATATTTATTTTAATGAATTATTATGAAAAAGTTGATATTAGAATAAATAATAAAAATAATAAAGATACAATTAAAAAAACTAGATTTATCGAATTTGAAATAAAAAATAAAAAATATGCTGTTAAATTAAATGAAATAGAAGAAATTTTAAGTTTTGAAAAAAATGATAATTTAAATGTTTATAATTTAAGAGGAGAAGTATTACCGCTATATGATTTAAATAAAAAATTTAATAATAAAAATAAAGAAAATAATCTTAATAATAAAATAATAGTAAAAAAAATTAATAATAATAAAATAGGTTTTATTGTGGAAAAAGTATTAGGGATTAAAGAAATAGAAGAAAATAATATATTAAATATAACAAATATTTTATTATTAAAAATAAAATATTTTAAAGGGGTTTATATTGAAAAAAATATAAAAACAATTATAGTGGATTTAAAAGAAATTATTTCACAAGAAGAGATGAAATTAATTAAAGAAGCTGGTGAATAAAAATGAAAAAAATTAGGGTATTAGTTGCTGATGATTCAGCATTGATTAGAAATTTAATAAAAAATATTATTAAATTAGATAATAGGATAGAAATAATAGATTTTGCTAAAAATGGAATAGAAGCAATAGAAAAAACAATAAATTTAAAACCAGAAGTAGTTCTTTTAGATATAAATATGCCTAAAATGGACGGGCTAACTGCATTAAATAGAATTGTTTATGAAAAAATATGTCCGGTAATAATATTTTCGTCACTTTCAAAAAGAGATTCAGTTATTACTTATGAAGCTTTTGAATTAGGAGCTTTTGCATGTATAGAAAAACCAAGTAGTGGATTATTATTAAATATAAATGATATTTCTAAAGAATTATTACAAATTGTAATAGAAGCTGGAAGAATAGGGAATGATATTAATAAATTAAATTTATTATACAAAAGAGTAAAACATAAACTAATTAAAACTCAAAATTATTATGATTTAGAAGATATTACAAGTAAAGTTGTAAATGCAGTTACTATAGGAATATCTACTGGTGGGCCTAAAAATATATATGAAGTTATACCTTATTTACCTGAAAATTTAAATGCTCCTGTTTTTTTAGTACAACATATGCCGCCAAGTTTTATAGATTCATATGCTGAAAGACTGCACAGATATTCAAAACTAAAAGTTGTTGTTGCAGAAAATGAAATGGAAGTAAAAAATGGTGTTGTTTATGTAGCAAAAGGTGATTATCATTTAAAAATAAAAAAAAATACTGAGGGAAAAGTATTTATAAAATTATCTAAAATACCGGATGATTTATTTATTCCTTCTGTTAATATAATGATGAAATCTGTTTTAAATGTATTTAAAGAAAGAACAATAGGCGTTCTTATGACAGGTATGGGAGATGACGGAGCAGATGCAATGGTAAAGATTAAAAAAAATGGTGGTTTTACAATAACTGAATCTAAAGAAACATCTATTGTTTTTGGAATGCCAAATGAGGCTATAAAAAGAGGTGGTTCTCATATAACATTACCTTCTTATGCTATTGCAAAAGAGATAGTTAATAGAATAAATAAATTAAAATAAGCTACCTATTAAAAGTAGCTTATTTTTTAAAATGCAGGTATTATAGCACCATTATATTTTTCTTTAATAAACTTTTTCACTTTTTCACTTTGTAACACTTTTATAAGTTTTTGTATTTTTTTATTCTTTTCATTTCCAGCTACTACAGTAACTATATTTGCATATGGAGAGTTTGCACCTTCTACAAGCAATGCATCTTTAGCTGGATTTAAATTACTCTCAAGAGCATAATTTCCATTAATTACAGCAGCGTCTACATCTTGTAATACTCTAGGAAGTTGAGCAGCTTCAAGAGCCTTAAATTTTAATTTTTTTGGATTTTTTATTATATCAAATTCTGTAGCATTTAATCCTGCATCATCTTTTAATTTAATTAGTCCTTTATCTTCTAATAAAATAAGAGCTCTTCCACCATTTGAGGGGTCATTTGGTATAGCAATTATTGAGCCATTTTTTAACTCAGATATATTTTGAATTTTTTTAGAAAATAAACCCATTGGCTCTACATGCACAGTTCCTACTGATACTAATTTTAGGTTTCTTTCTTTAGAAAATTTATTCATGTAAGGTATATGTTGGAAAAAATTTGCATCAATTTCTCCATCATTTAATGCTAAATTTGGTGTTACATAATCAGTAAATTCAACTATTTTTAATTTGATTCCCTCTTTTGCTAAATCTTTTTTAATAAATTCTAAAATTTCAGCATGAGGTATAGGAGTTGCTCCTACTTTTAATTCGTTTTCATTAACTTTCTTTTTAAAAAGTCCTGCAAATGTTGTTGTTGATAGTATTAATATTAATACTAAAATAAAAATATTTTGTTTTTTCATAATAAATTCCTCCTTATATATATTTATTTTATTAAAATTTTTATTATCTATTTTTTTTAATATAAAAAACTATTTTATCACCAATATATTGAATAATTTGAACTAAAATAATTATTACAATTACAGAAATTATCATTATATCCATTTTAAATCTTTGATATCCATATCGAATAGCTAAATCGCCTAAACCACCACCACCAATAGCACCTGCCATTGCAGAATATCCAAGCAAGTTAATAATTGTAATAGTAAGCCCATTTGCAATACTTGGCATAGCTTCTGGTATAAGTACTTTTATAATTATTTCAAATGGAGAAGCTCCAAGGGATAATGAAGCTTCTATAAGTCCTTTATCGACTTCTCTAAGAGCGCTTTCTATTATTCTAGCAACAAATGGAGCTGCAGATATGGAAAGTGGAACAATAGTAGCAGTAGAGCCTATTGTAGTTCCTACTATTATTCTTGATAATGGAAAGACTAATATCATTAAAATAATAAAAGGAAAAGAACGTAAAATATTTATAGTAGCATCTAAAATTCTATTTAATTTTGGCATAGATAAAATATTGTCTTTTTTAGTAATTAGTAATAATATACCTAAAGGTCCTCCTAAAATAGTTGAAAAAATTGTTGACCAAAATACCATATATAATGTCTCCCAGATTGAAGGGATTAATAATCTTAAAATATTATCCATTATAAAGCACCTCTATTTCTAAATTTTGATTTTTTAACCAATTAATAGCATTTTCTTGATTTTTTAAATCACCCTCAAATTCAACTATTAAATGACCTATATTAGTAGTTATAAGTTTATTTATACTTCCACCAATTAAATTTACGTCTATATCAAATTTTCTAACTAATTTTGAAATAATAGGTTTATCTACAATTTCTCCTGTGTAAATAATCTTTATAATTTTACAATTATTTTTCTTTAATAAATCTATCTCATCTTTTTCTTCTGGGATTAAATGTGCAACTAGTTCTTTAGTAATTTTACTTTTAGGATTTATAAAAATTTCTTCTGTTTTTCCTTTTTCAACAATTTCTCCATATTGTATAATAGCTGTTTTGTTACAGATATATCTAATTACTTCCATTTGATGTGTAATAAGTATTATAGTTAATCCTAATTTTTCTTGAATTTTTTTTAAGAGTTCGAGTATAGATTTTGTTGTTTTAGGATCAAGAGCACTAGTAGCTTCATCAGACAATAAAATTTCAGGATTATTAGCAAGTGCTCTAGCGATAGCAACTCTTTGTTTTTGACCGCCACTAAGCTGACTAGGATAAAAGTTTGCTTTATCAGATAATTCTACTAATTCAAGTAGTTCGCTTACTCTATTATTAATATCTTTTTTCTTCCATTTAGCTATCTCGAGAGCAAATGCCACATTATCTCTTACAGTTCTAGAAGATAATAAATTAAAATGTTGAAATATCATTCCTGTTTTTTTTCTAAAATTTCTAAGTTCTTTTTTTTTAAAATTAATAATATTTTTTCCATTAATAATAATATTTCCACTAGTAGGTTCTTCTAATCGATTTAACATTCTTATAAATGATGACTTTCCAGCACCACTCAATCCCATAATGCCAAAGATATCATTTTTTTCAATTGTTAAATTCAAATTTTTTACTGCGTGGATTTCTTTTCCATTAGAATGATAAATTTTATTTAGATTTTTTATTTGAATCAAAATAAAACCTCCTATTGTATATATATTTTTTTTAAATCATATAATAAAAAAAACTCTTTCGAATTTGAAAGAGTTTTAATCACAAAACAATCTCTCATCTTCGAATTATTTTGATTTAAAATCTTAAATCAATAATTCACGGAATTAGCACCACACCAAACAGGTAGGTTGCTGAAGTTTCTAAGGGCCGTTCCCTCCACTTCTCTTGATAAGAATTAATATTTAATTTTGACTAATTATACATGTTTTAGTTTTATTTGTCAATAGTTTTTATTTTCATTTTTTTAAATGAAAATTGTAAGTTTAGTTGCACACATTTTCCCCTATGCTAATTTAACTAATTTTTCTTCATAAACTTCATTTGAACTTTTAAATCCAAACATTTTTCTTGAATAATTATTCATCATAGACTCTTTTACCGGATAATAAAGTTTACTTACATTTTTTATCGTTGTAAATCCACTTATTTTCATACTTTAAACTTATCTATTTAGTATTTTTCTAGCTGATATTATAATATCCTCTTCTCTTATACTATCTATATTATCTCTATTACTACTCTCTAATAATATTGACTTATCAGTCTTATTAAACCATTCTCTTGGATTAGTATTTCCTGCAAACAAACTTATTCTTGGAGTATTATAAATATGAGCAAAATGACTTGGTCCACAATCATTAGATATCACAAGAGAAGTCTCTTGTAATAACATTCTAAGTTTGTCAAGTTTTTCTCCTATAACTAAGTTATACTTCTCTTTATAAGGCTTTAGTTCTTCTTGTTCTTTCAACATATCATTTCCTAATATAAAGTTTATTTCATAATCATTTTCAAATTCTCTTACAACTTTTAAATATTTTGACAAAGGATATTTTTTAAAGTCATTACTCCCACCTGGAATGATACTTATACTTTTCTTTCTTCTTACATTCTCTAAATAATATTCTTCTAGTTTTCCATCACAAAGCTTCAAATAGTTATGCGCGATATACTCTTTTTTATTAAAGATCTTTTTTTTCTTGTAAAAAATCGATAATGGATTTTTACGTTTATTTAAATACCCTGTAATATTTCTAAAAAACAAAGCCAATATAAAAGATATTCTTATCGACCTATATCTAAAATTATAAACTTCAGTTACATTATAATCTTTCTTTATTTTTTTTATAATTTTAAACAAATCCAAAAAACTTTTTTTTCTATATTCAAACGCCAAATCTATATAACCTAAGTTTTTTATTACAAAATAAGATTTCTTTGTTCCTACAGTTATTATTTTCTTATTTCCTTTTATTTCTTCAAAAAAAGGTATTTGAGTTATCTGATTACCCAAAAAAGGTTTATTAGGTAAAAGAACTAAAATTGCATTTTCCATTATTTTTTTCTTACCTCCTCCAAAATCTTAAGTTCTTTTTTAGCTTTCTGTAGTTATCTATATAAACAGAATAAATAAAAACAAATTTATAATATATACCATTTTATTCTATTAATTTTACAAAATTTCTTCTGTTATCTTTTAATATTTTTCCTTTTTCCAATAACAATTTAATTAATTTTGCTTTTTCAAATTGCAACTATATCAACCTCACATATCAAGATATCAAAAATTCAAATAAATCTTTAGACTTACCTTTATTCTTATATCTTCTTACTGTTGCTTTTACACTTATTTTATCATATTTAGCTCTTTATACAAATACTTTTAATAGATTTTTCTTGAATAATAATTTTTTTATAATTTAAAATTCATTTCAATTATTTTAGATTTTTATTAGATATAGAGTTTATTATTTTTTATATAATTAATTATACAGTGCTTTATATTTTTTTAATTATAGAATAATTTAATCCAATTTAAATATGCTTAAAAATTTTTCATCTATTGTATCATTTACTATTTTTTCTTTAACTAGTATGTTAAAATATTGTTTTACTTTATCTATAAGTTCCTCGCCATCAACATATTTAAAGTTAACTCTATCTAAAAATTCTTCAATTTTATCTGGAGATTGTCTCATTATATCAAAAGATAATTTAGCAGCCTCTTTTTTATTTTTGATAACCCAATTTATAGCTTCTTTTAGTTCTTCTAATAATACTTTTGTTAATTCAGGATGTTTTCTTACAAATTTCCCTTTTAATACTAATCCGGCATTAGGAAAACTTCCAAATCCATTATTTATATCATTCCATATTTTGTTATATGAAATTATAGAAAAGTTTTCTTTTCTATCTTTCATTGTTTTTATTGCATATGCAGCTTCAGGTTCTCTTAATACTACAGTATCTGCTTTCCCTGTTATAAAATCTAAATATATTTTTTCTGGTCTTCCAAATGGTTTTCCATATTTAAATTTAAAATCATCTACATTAAAGCCACTAGCTTTTATTAAGTATTTAGTTATTTTTGCTGGAGGAGCTTCATCAAATAATGGAGTATATATCTCTTTTCCTATTAAATCTTTAAAACTATCAGCTTTATATCTTGTTAAAATTACAAAATTATCCCATACAAATAAAGCAGGTATTTTAACATCACTATTTTTCAATTTAGAAGAAGTAATAAGTGCAGAAAAACTTATATCAGCTTTTCCATTAGCTATCCAACCTAAATGTTTTTCTGTTTCATTCCAAACTTTTAATTCTTTTATATTTATAGATTTCCTTATTTTTTCAGATTGTAATAATTTCATCATAACTGGATAAGCAACTGGTGTTGCTGATTGAATTACTACATCTACTTTATCATTTTTTATATTTTCCTTATTTTTTCTTTCTATTTTTTTATGAAAATATATCCAGATTTCTTGTTTGTTTTTTTCTTCAATAATATTTTCAAATCCCATTTCACTTAACATGTTAATCATAGGAATAGGATTGAATTTTTGAATTAATATAAATCCATCATCTTCTTTTAAAGAATATGCTTTTTTAATTATTATATCAAATGGATCTGTTTCCATTTCTCGTACATCTAATATATCAAATTCATTTTTTCTATCTTTCCAATTTACTTTTTTATCAATTTCTGGATTAAATATTGATATTCTAAATTCTCTATTTTTTTCAATATTATATTTAAAATTTAATCCTTCTATCACTTTTAATAATTCTGTTGGGAACTCTACAGATAATATTACTATATTTTCTTGTGGTTTTAATTTTGATGTTTTTTTAATTAATTCTTCTACAGTTTCATTATTATAAATAAATCTTTCATTACTTTCTTTCCATGTTATTTTTTCACTTTTCATTTCAAAATCATTGTTATCTTTCATTGCAGTTATACATTCAGGCATATTTTCTACTAATTTTTTTTCTACTCCTAAATATTCATTTATTGTATGTAAAATTTCACATATAGAGATACCTGTAACCTTGGCAGCTTCTTTAAAAGTTACAAATTTTGCTAAAGTATTGTACATAATAGGATTTTGTATTCTTTTAAATTTTGGGGATAATTTTATTAAAACATCTTTTAGATCAGTGTATTTATCTAATGTATCTTTTACATTTGCATTGGCAAATATTGGATCTATATCTTTTTGTTTTATTTCTATTATAGCATTTACAGGACATATAGATTTTGCTTTTTCACATTTTTTAAGTTCATCATTATTTTTTGGTTGTGAAAACACAAATGCTTTATTTTCTTTATTCATATTAAAATTTTCTTCTGCCACGCCAACACAAGCTCTACAACTTATACATTCTTCTGTAACTTTAAATTCTTTCATTTTCTTTACCTCCTAAGTAAACTTTGTTTTAGATATATATTAGCACATCCTAATATTAAAGTCAAAGTAAATTATATTTTTTATATTAAAAAATATAATAAAATTAATAGTTTATTTAATTATACTATACAATTTCCTTTATATCTATTTTTCTTTTTTACGTTAACATTTTCATTACCGTATTCAACATACATAAAATTATCATTCTTATAAATAAAAATTATTTAAGATAATATTTACTTATAAAATACTATTAGAAAAAACTAAATATAATAAAGATTATATTTAGTTTGGGATTCTTAAATAAAAATTATTTAAACTAAATTTTATTTAAGAATTTAAATTATGAAGAGATATAGTTATTTTTATGTAAAATATATTTTATATATGATTTTTATTAAAAAAATATATTAGATAAAGTACATACTTTTTTATATAATATATATGTAATAATTCTTGTGTATACACGAAAATATTTAGAAAATGGAGGTAAGTTCAATATGGGGATGAGTTTAGCCTATAAGATTTTATCTAAAAATCTTATTAATGGAGAATTAAAAGCCGGAAATGAAATAGAAGTAAAAGTTAATCAAACGTTAACTCAAGATTCAACAGGTACAATGGTTTATTTGCAATTAGAAGCTATGGGAATAAAAGATATAAAAACAGATTTATCTGTAGCATATATTGATCACAATACTTTGCAAGCTGGTTTTGAAAATGCTGATGATCATACATTTATAAAAACAGCTGCAGCAAAATATGGAATAATTTTTTCAAAACCTGGAAATGGTATATGTCATCAATTACATTTAGAAAGGTTTGGTAAACCAGGTAATATTTTACTTGGTTCAGATAGCCATACTCCAACAGGTGGAGGAATGGGTATGATAGCTATTGGTGCTGGGGGGCTTGATGTAGCTGTAGCTATGGCAAAAGGAAGTTATTTTTTAACTGTACCTAAAGTATTAAATGTAGAATTAAAAGGTAAATTAAAACCTTGGGTAAGCGCAAAAGATGTAATATTAAAAGTATTACAAGAACTTACAGTTAAAGGCGGAGTAGGATATATAGTAGAATATACTGGTGAAGGAGTAAAATCACTTTCACTTACAGATAGAGCTACTATTACAAATATGGGAGCTGAACTTGGAGCAACTACTTCAATATTTCCAAGTGATGAAATTACTTATGATTTCTTAAAAAGACAAAAAAGAGCTAATGATTATACAGAATTAGCAGCTGATATTGATGCAAATTATGATAAAAAAATTGTCATTAATCTAGATGAGTTGAAACCTATGGCAGCATTTCCACATAGTCCAGATGCAGTAAAAGAAATAACAGAAGAAAATAAAATAAAAGTTGATCAAGTAGCTATCGGTTCTTGTACAAATTCTTCATATACTGATCTTATGAAAGTTGCTGCAATACTAAAAGGGAAAAGAATAAATCCAGATGTTGATCTAGTAATATCACCTGGTTCAAGTAATATATTAAAAATGATGGCTGATAATGGAGCTCTTGGAGAGCTTATTAGTGCTGGAGCAAGAATTTTAGAAGCAGCTTGTGGACCATGTATAGGAATGGGACAGGCGCCTAAATCAAATGCTATATCACTTCGTACTTTTAATAGAAATTTTAAGGGCAGATGTGGTACTAAAAATGCTGATGTTTATTTAGTTTCTCCAGAAGTAGCGGCTGTTTCAGCTCTTGAAGGATATTTAACTAATCCAATGAATTATGGAGAAGCACCTAAAATAGAATTACCTAAAGAGTTTCAAGTATATGAAAATTATTTTATATATCCACCTAAAAATAGAGAAGGTCTCGAAGTAATAATGGGACCAAATATTAAACCATTTCCATTAAATAATGCTTTAGAAAATAGTATTACTAAAAATGTAATATTAAAAACAGGAGATAATATTACTACAGATGATATTATGCCTTCGAATGCAAAATTATTACCATTTAGATCAAATATACCAAAATTATCTGAAAGTTGTTTTGCTACAATAGTAGATGATTTTAAAGCAAGGTCAGAAAAATATAATGGTGGATTTGTAATAGGTGGAGATAATTATGGACAAGGTTCAAGTAGAGAACATGCAGCTTTAGTTCCTTTATATTTAAAAGTAAAAGCTGTTATTGCAAAATCATTTGCTAGAATTCATAAAGCAAATCTTATAAATTCAGGGATTTTACCATTAGTATTTGAAAATAAAGAAGATTATAATAATATTGATGAATTTGATGAATTAGTACTTAATAATTGTATCGATAGTGTAAAAGCAGGTATATTTACAATAGTAAATAAAACTAAAAATAAAGAGTTTAAAGCTATTTTAGAAGTATCAGATAGAGAAAAAGCAATACTTCTTGAAGGTGGATACTTAAACTATGCAAAAAAATAAAATTAATTTTGATTATTAATTGATATAAAGAAATTCAAAGTTTTATAAAATTATTAATACTTTGAATTTCTTTTATATATGAAAAAATAAAAATAAGGGGGATATACGTATGTATAATGTAACTTTAATTCCAGGTGACGGTATAGGACCAGAAATAGCCGCGATTACTAAAAAAATAATTGATGCTACAAAAGTAAAAATAAATTGGGAAGAGGTTAACGCTGGAATAGATGTATATGAAAAAACAGGAGAATTAGTACCCAATAATGTATTTGAAAGTATCGAAAAAAATAAAATTGCATTAAAAGGGCCTATTACTACTCCTATAGGAAAAGGTTTTAGAAGTATAAATGTTCAACTTAGAAAAAAATATGATCTATATTCAAATGTTAGAGAAGTAAAAAGCTTTGAAGGAATAAAAAGTAGATATGAAAATATAGATATGGTTATATTTAGAGAAAATACAGAAGGTTTATATATAGGTAAAGAAAATAAAATTGATGAAGAAACAGTTGAAGCTATAAAAGTAATTACTAAAAAAGGAAGTACAAGAATAGTAAAAGCTGCTTTTGAATATGCTAAAAAAAATAATAAAAAAGTTGTTACGGTAGCACATAAAGCCAATATTTTAAAATTTGCTGATGGGTTATTTTTAAATTGTGCTAGAGAAGTAGCAAAGGACTATCCAGAAATAGAATTAAAAGAAGTAATTATTGATAATATGTGTATGCAAATGGTAATTAATCCAAATCAATTTGAAGTAATAGTTACTATGAATTTATATGGGGATATTCTATCTGATTTAGCTGCTGGTTTAATTGGAGGATTAGGTATGGCTCCAGGAGCTAATATTGGGGAAGATATTGCGATATTTGAAGCTGTTCATGGTAGTGCTCCAGATATTGCCGGTAAAAATTTAGCAAATCCAACTGCACTTCTTTTATCTGGAATATCTATGTTAAGATATCTTGGTGAAAATAAAAGAGCAGATATAATATTAACAGCATTAAAAGAAACATTTAAAGAAGGAAAAGTATTAACAAAAGATTTGGGAGGTAATGCAACTACTACAGAATTTGGAGATTATTTAGTAGATAAAATCTCTGCACTTCTTTAAAAAAGGAGGTATCTATGATATCAGAATCAAATATTAAAACATTAAATAAATTAATAGAACATGCAAAAGAAAATAATAAAATTAATCCTACTTATTATGATCTGTATGATATAAAAAGAGGATTAAGAAACAATAATGGAACTGGAGTTCTTGTTGGACTTACAGAAGTAGGATCAGTTCATGGATATGTTATTGAAGATGATAAAAAAATACCTCGTGAAGGAAAACTTTTTTATAGAGGCATAGAAATAAATGAAATAGTTAATGGTTTCCAAGAAGATAAACGATATGGATTTGAAGAAACTATTTATCTTTTACTTTTTGGAAAACTTCCAAATAAAAAAGAATTAGACGATTTTAATAAATTATTAGGAAGTATGAGAAATCTTCCATCTGGATTTAATGAAAATTTTATTTTAAAACTTCCAAGTAAAGATGTAATGAACCTTTTACAAAGAACAATTTTATTTTTATACTCATTAGATGATAATCCAGATGATATATCTATTAATAATATAGTTAAACAAAGTTTATATCTTATTGCTAGATTCCCTACTATAATAGCTTATGGATATCAAGCAAAAGTTTATAATTATGACAATAAAAGCTTATTTATCCATCCAGCTAGAGAGGATTATAGTACAGCTGAAAATATACTTCATATGAGTAGAGCTGATTCTAAATTTACAAGAATTGAAGCTGAAGTATTAGATTTATCTTTAGTTATGCATGCAGAACATGGTGGAGGAAATAACTCTGCTTTTGCTACACACGTTGTATCATCTAGTGGTACAGACACTTACTCTGCTATTGCTACAGCAGTTGGATCATTAAAAGGACCTAAGCATGGTGGTGCAAATATAAAAGTAAGAAATATGATAGATAATATTAAAGAAAATGTAAAAAATTATTCTAATAAAGAAGAATTAAAAAAATATCTTAAACAAATTTTAAATAAAGAAGTTTTTGATAAACAAGGTCTTATTTATGGAATGGGACATGCTATTTATACTATTTCTGACCCTAGAGCAATGTTATTAAAAGAAAAAGCTAGAGAATTGGCTATAGATAAAAATGCTGTAAAAGAATTTGAATTATACGAAAATATTGAATTATTAACTAAAGAAATTTTTTTAGAACAAAAAAATAAATTAATTTGTGCTAATGTGGATTTATATTCAGGGTTTGTTTATTCAATGCTTAATATACCACAAGAATTATACACGCCACTTTTTGCAACAGCTAGAATAGCAAGTTGGTGTGCTCATAGAATCGAACAAATTTTAAGTGATAAAAAAATTATAAGACCTGCTTATAAAAATGTAAGTAGTATTAATAAATATGTAAAATTAAAAGATAGATAACAAAAAACTCTTGAATCGTCAAGAGTTTTTAATTTTATTTTTAATTTTTATAAATTCTTCTATATTTTCTAATAAAATATCAACTAATTTTGGTTCGAAATGTTTACCTTTTTCAGATTTTATATATTCTAAAGTCTTTTCTAAAGAATATTCTTTTCTATATATTTTAGGATGTAACATGGAATCAAATACATCACAAATACTAATTATTCTAGAAAAAATATTTATTTCTTTACCTTTTAAACCTCTTGGATATCCAGTTCCATCCCATTTTTCATGATGTTCATATGCTATTATAGCACTTGCTTGTAATAAAGCTCGTTTTGAAATTTTTAAAATATTATGTCCTATTTGTGCATGTTGTTTTGCTACTTCAAATTCTTCAAATTTAAGTTTTGTAGGTTTATTTAATATTTTTTCTGTTATTCCAATTTTTCCTATATCATGTAATGGTGCAGCATATTTAAGTATTTTAGATTTGTGTTCATCAAGACCATATTTTTTAGCAAATAAATACGCATATTCTGAAATTCTTTTTACATGAAAATTTGTTTTTTCTGATCTGTTTTCAATGGCTTCTCCTAATGTAAGTATAACATCTTTTTGTGTAGATAAAATCTCTTCATTTAAAATAATATTTTCAACGGCAGTTCCTATATTTTTCCAAAATATATTTATTAAATTTTTATCTATATCACTTAAAGGCTCTGTATTTTCAAAATATACATACAATTTTTTATTATTAAAATATTTTAGGCAACCTACAAAAATATTCTCTTTAATCAAACTATCTTTAGGCCGCTTTAGACACTCTATATTACTATTTAAAAACAAATTTTTATAAATATTTTTAATTTCTTCTTTCTCTATAGAAAAACTATGAATAATATTAAAACTCTTCTTTTTTACACATAAAATAAAACTTTTATCTATATCAAAAGTATCTTTAAATTCATCAGCAATTAATTTTGAAAAACTTTTTAAATTATGTTCAAGTTTAAATAATTTGGGAGCAATAGAAATAATTTTTTCTAATACAAGTTTATTTCTTTCAATATTTATGATTTCTTTATATGCTCTAAGGGAAGATATTATAGATGTAATAAGTTTTTGAGCTGTTAATTCTGTTTTTTCTTTATAATCATTTATATCATAATTTAATATAATATTTCTTTCTGGCGCTAAGCCAGGTTGTCCTGTTCTTAATATTATTCTAATACTTCTATTATTTAATTCATTTCTAATAAATTTAACTATTTCTAAACCAGAATTATTTTTATTCATTACAACATCTAATAATATAATAGCAGTATCTTTATTATTAATTAATGCATGTTTTGTTTCTTTATCATTATAGCAGTTAATTAATTCTAATTTTTTATTATCATATTTAAAATCTTTTAAAACTAATTTAGTTACAGAATGTATATCTGGTTCATCATCAGCAATAATTATCTTCCATTTCTTTTTTCCTATATTTTTTTCATTGTTTTTTATAGTTTCTGTATGAAATAGTTCATTCATGATTTCAACACTCCCATAATTTAACTTGGAATATCCCCACTATTAATTATATAGTTTTATTAGTTTTTTTTCAAATAATTATTGTCTTTTTTTAAAAATCTTTTCATAAATCAAAACTAAAATTTGATTTTAAAACTTTTTTAACAGAATTAAAACAATATTGTTTTTTAGGTAAATATATAAAAATAACTTTACTTATATTGACAAATAACTTATAAAAGAATATACTTTAAAAGTAAAATGGTAAACTAAAAGGAGAAATATTTATGAAGAAAAAGTATACAATTGCAGATGTTGCAGATTTGGCTGGAGTATCAAAAACCACAGTTTCAAATGTTATAAATAATATTGAAAATAAATTTACTGAAGAAACTAAAATTAAAGTATTAAAAGCTATAGAAAAACTTGATTTTAATATAAATATTGGTGCTAAAAGTTTATCTGAAGGAAAATCATATTTAATAGGTGTAATTTTGCCTATATATAAAGATACTGATATTTTACAAGAAAATTTCTTTTTACAAGAATTTTTATCAGGAATAAATAGATATTTAAGTACAATAAAAAATAAATATGATATAATTTTTACTGGTGTTAATGAAAATAAATTTAATATAAAAAATTGGATTAGAAAAAGAGCAATTGATGGTGTTATATGTTTTGGACTTACAAGTAATTATATTTATGAATACCTTGAGCAATTAAAAATACCGACTGTCATTGTAGATGATCTAAGAGATGCTACAAATGGTTTTTCTAGAGTTTATATTGCTGATAAAAAAGGTGGATATTTAGCTACAAAGTATCTTATTGAAAATGGTCATAAAGATATAGCATTTATAAATACAGGAATTAATCTAAGTAAAGTTGAAAAAAATCGTTTTAATGGATATATTGAGGCATTAAGTGAGTATAATCTAAATTTTTATGAAAGTAATTGTTTTGAATTGAAATATCTTCATTATGATTCTGGAGTTTATATTGCTGATAAAATAAAAGATTTAATAGGGAAACAGTTTACTGCAGCTTTTGTAACTTCTGATATTATTGCTATTGGTCTGATCAATAGATTACAAGAATTAGAAATAAAAATCCCTAATGATTTTTCAGTCGTAGGATTTGATAATATATCTCTTAGTAAATATATATATCCAAAATTAACTACTATTGATCAAAATATCTATAAAAAAGGACAAAGTGCTGCTGAAGAACTTATAAAAATTATTGAATATGATGATATTAAAAAAAATATAGAAATGGATGTATCACTTGTTATAAGAGAAAGTGTTAAAAATGTTAAGGAGTGATTTTTTGTTTATTAAATATAAGTTTTTAAAAATTATAATTTTTTTATTAGTAATAAATTCTATTATTACTTTTAGTGAAGAATTTAAAATAATAAAGAGTAAAGAATTTTTAACTGTTTGGAAAAATGTAGGGGATGTAAGATATGTATCTTCAAAGAAAGATTTTATAATTATATATCATTATGGAAAAATAAGAACGAAAATTTCTTTTATAGATAATAATATTGTTCATGTTCAAATAAGTAATAATAATAAATTTTCAGAAAAAAGTTATGCAGTTATTAATAATAATAAATTTAAAGATTTTATTTATTCAAAAGATAAGGACTATATATATTTATCTACAAATACTCTTACATTAAAAATTTCTAAAAAAAATTTTAATATAGAAATATACAGAGGAGAAAAATTAATTAGTAAAGATATAGAAATAAAATGGAATGGAAATAGATTTTATAACAAAAAACTTATATTAAATAATAGTAAATATTATGGTTTTGGAGAAAAAACAGGTGATTTAGTAAAAAATGGTTTTCAAATGAAAATGTGGAATAATGATAGCTATGATTATGATAAAAATACGGATCCACTCTATATGTCTATTCCATTTTTTATAGAATTTAATAAAGAGTATTGTAATGGAATTTTATTTGATAATACTTATCAAACATATTTTGATATTGGATATACTGAAAAAGATAAATATTATTTTGGAGCTCTTGATGGAGAATTAAATTATTATTTTATTAGTGGAAATAATCCAAAAGAGGTTATTAAAAGTTATACTAATTTAACTGGTAGAATAAATTTGCCACCAAAATGGTTGTTTGGATATCATCAATCTAGATATAGTTATTATCCACAAAAAAAAGTAATAGAATTAGCAAAATCTTTTAGAGATAAAAATATTCCTGCTGATGCAATATATTTAGATATAGATTATATGGATAGATATAAATCTTTTACAATTGATAATAATAAATTTCCAGATTTTAAAAAAATGATAGATGAACTACATAATATGGGATTTAAAGTTGTGAGTATTATAGATCCAGGAATAAAAATGAAGTCAGGGTATAATGTTTATGATAGTGGAAAAGAACTAAATGTTTTTTTAAAAAATGATAAAGAAGAATTAATTAAAGAAAAAGTTTGGCCGGGATTAGCGGTATTTCCAGATTTTACAAATAAAACTGTAAAAGAATGGTGGGGAAAACAATATATTCCTTTAATTAATTTAGGAATTGATGGATTTTGGAATGATATGAATGAACCGAGTATTTTAAATAGCAAATCTAATACACTTCCTTTAAATACATTGCATACAGATTTTAATAAAAAATCTTTTCATACTAAAATTCATAATGTGTATGGTCAGGAAATGGCAAGAGCTTCTCTAGAAGGATTGAATAGTCATAGACCAAATTACCGAAATTTTATATTAAGTAGAAGCGGTTATGCAGGAATTCAAAAATATGCTGGTGTTTGGACGGGAGATAATAGATCAAATTTTGAACATTTAGCCTTAAGTATTCCAATGCTTTTAAATTTAGGATTATCAGGAGTTCCTATTTCAGGTGCTGATGTCGGTGGTTTTATTACTTCACCATCAAAAGAATTATTTATTCGTTGGATGCAATTAGGAATATTTTATCCTTATTTTAGAAATCATACCGCAGATAATACAAATCCTCAAGAACCGTGGGCCTTTAATGAAGAGACGACTAAAATTATAAAAAAGTATATTAATTTAAGGTATAAATTAATACCATATATTTATGACTATATTTATGAATCATCTAAAAATGGTATCCCATTAATGAGAGCTTTATTTTTAGAATATACCAATGATGAAAAGTTATATACAATAGAAGATGAATTTTTATTTGGTGATTCTTTACTTATAACACCTGTTATAAAAGAAAATACTTTTAAAAGAGAAGTATATTTTCCAAAAGGGAATAACTGGATAAATTTTTATACAAATGAAGTTTATCAAGGAGGGAAAACTTATTTAATTAATGCTCCATTAGATATAATTCCTATTTTTATTAAAGAGAATGCTATTATTCCAATGCAAGATATAGTACAATATATTGATGAAAATGAAAATAATTCGCCTCTTTATATAAATATATATGGTGATGAAGATACAAATCATATTTTGTACTTAGATGACGGAATATCAAAGAATTATTTAAAAGGAGTTTTTACTAATATAGAGATAAAAAAACAAAAAAATAAAATTAGTTTTAATATAAAAAATATTAATTATATACCGAAAAATAAGAACTTATATATTGTTCTAAAAAATAAATCTGTAAAAAATATATTAATTAACAATTCTAAATTAAATGAAATAAAAAATAAACAAGAAAAAGGGATAGGTTTTTATTATAAAAATAAGGATACTATTATAAAGTTAAAATTTTTTATTAAAAATATTGAAATTCAATATTTTTAATAAAAGTATATTATTTAAAAAATAGGCTATATTTTGAATATATTAAAATATAGCCTATTTTTATAAAATCTCTATTCTATTTCTCCCATTTTCTTTTGCAATATAGAGTGCTACATCAGATCTTTTTAGTAAAGTATCCAAGGTATCATTAATTTTAATAGTTGTAATTCCAAAACTACAAGTTTTTTGAATGTTTTTATCAGAAAAAACTTTCTCAGAAATAATTTTTCTTAATTTTTCATAATATAATTTTACATCATAACAATTTTTTTGAGGAGAAATAATTAAAAACTCTTCTCCGCCCCATCTTCCAAAATAATCTTCTTTTTGTTTATTTTCTAAAATAAAAGTACTAATTTCTTTTATTATTTGATCTCCAATATCATGTCCGAAAGTATCATTAACATTTTTAAAAAAATCTATATCAATTAGAGTAATAGAAAAAATACTAGTGTTATCATTTATAAATTTATTATAATTTTCTACTAATATATTTTTTAACTTTCTTCTATTATAGATATTTGTTAAATCATCTTTATGAGAAATACTTTTAAACTTATCCGTTAAAGTAAGTAACTTTTGCTGTTGTATATCATTTATTTTTATTAGTTTTTCAAATTTTCTTAACATTTTTTCATAATTTTTTTTTAATTTGAAATATTCAGAAATTACTTCTTCTTTGTTTATTTCATTATTTTTTTTAAAATAAAGTATCTTTTCTTCAGCTTTTTTTAGTATTTTATTCTCTAAATAAAATTTCATATTCCTCCCTTTAAAAATTAAATTTCAATTATTTCAAAGGGAATTTCTAAATCTTCTTTAAATTCTTCACCTGTTTCTAATATATTTCTATCATTTTTTTTATAGAACCATTTAATAAGTACTTTTCCACCATCTAAATAATAAGATTCTAATAAATCAAAAATATCAAGCATACATTTAGAAGAGCTTGTGTTTAGATAATCAATATATAGTTCTAAAGTAATTTTGTTTTTAACTTCTTCTATATATGCTTCTATCCATTTAAATATCTCATCAAAAAAATAAACAACATTTTCTGGATAAGAATTCCCTTTTAAAATTATCTTACCGGTATTTTTATTACATTTTATATCAAAATTATCTTGTGTCCCTTCAATGTATAAATTTTCCATCCCTAATTAAATTCCCTCCTTATCTATTGTAACTTCTAAAGTGAAAAATGACGTGTTTTTATCAATTTTTTTTATTTCGGCTTTTAGAGAATTTAATGAATTTTTCCTCATATAGATTAAACCTAATCCTGCACTATTTTTATTTAGTCTGGGCTCTTTTAATTTTTTTTTATATAATTTTTTTATTTCAGTAGAATTTAATGAATTTAAATAATTACATTTTTCTATAAGTTCTCTACCAATTTCAGAAGAAACATTATTACCTGAATAAATTTTATAATTTTTTTCTTTTTCAATAGCAATAATAATTCCATTTTTTAAATTATTTTGTTTAAGTGAATGAAGTTGAATATTTTGAGCCATTTCAATAAATATAGAACATACTTTTTTTAAAATAGAATAATTATTTTCTAAATAACAATGTTCATAATTTAAATTTAATTTATTTTTTAAAGACTCAACTAATTCATATAATTTTTTTTGAGTAAAATTCCCCTCAAAAAAAATTAATATATGATTATTTTTTAATATTTTTTCAACTTCAAAAAAATTTAGACACCCCAATGTCATCCCTCTTTTCAAAATTTTTTTGAAATTTTTTTGAAATTTTTAGTTTTTTTTATTATAAAATTATAACATATATTCAGATTTTATGTCAAAAAAAATAACTTTTTTGTTAAATTTTTTTTGAAATATATTATAGTTTATGTTAGAATTAGACAGAATATTTATTATGATATCTATATCACAATTTTAATCTTAATTTAAGGAGGAGTTATTATTAAAATATTAATTGTTTTTTTTATAGTATTCTTAGTGAGTTGCACAAATTTAAAACCTTTTAAAATAAAAAATAATAAAATAATAAAAACAGAATATTATGATGTAAGTAAAAAAAATAGAAAATCTGTGTTAGAATATAAAAATAATATATTAAAAAAAGAAATCAATTATTATAAAAATGGAAATATAAAAGAAATAATAGAATATAAAAATGGATTAAAAAATGGTGTTACCCTATTATATAATGAAAATGGTTCTTTATGTAAAAAAGAAACTTATTTTGAAAATCAACTAAATGGTGAAGTAATAGAGTATTATTCTAATGTTATTCCTAAAAGCATTTATAATTATAAAAATAATGTATTAAATGGTAAATATCGTAAATTTTATATGACTGGTAGTGTTAAAGAAGAAGGTGAGTATAAAAATGGATTAAAAAATGGTGAAGTAAATAAATACAATGAAAATGGAGATATTATTTTATCTGAATACTATAAAAATAATAAAAAAAATGGAATATCTATTGAATATTATCCAAAAAGTTTTGATTTTCCTAATTTAATAAAAAAGAGTGAAGTTATGTATCAAAATGATTTACCTATAGGGAAAAAAATTGTTTATGATATAAATGGGAATATTATCTCTATTATAGACTATTCAAAAGAAATAGCCGAAGAAACTATCTATTATAATTATGAACAAAATAAAATTAAACGAAAAAATTATTTAATTAATAATAAATTAGAAGGAATATCAAAAGTATACTATGATAATCCTCAAAATTCATTAAAAGCTGAATATAACTATAAAAACTCTATGTTAAATGGAGAAATTATCGAATTTTATGAAAATGGTAATATCAGAGAAATCATTAATTATAAAAATAATTTAAAAAATGGTATTGAAACATATTTTTATCCAAATAAAAATAAAAAATATGAAATAACTTATAAAAATGGTCAAGCAAACGGACCTTTTAGATATTATTATGAAGACGGAATTCTTCAATTAGAAGGTTCTTATAAAAATAGAAGGTTTGATGGTAAAATAACTAGTTATTATAAAAATGGTAATATTCAATCTATTGAATTCTATAAGGAAAATAAAAAAATTAATACACATTATTTTTATAATAAAAGCGGTAAGTTAGAATATACTATAGATTACACAAAGGAGAAAAAAAATTAATGATAACAAAAATATTTATAATAGCTACTACTCTACTAGCTGTAATGAATCCGTTTGGAAACGTACCATTATTTGTAAGTATGACAGAAAGTTTATCTAAAAAAATGAGGAATAAATTATTTGATTTAATAGTTTATACTGGTTTTTCTATTGTTATTCTTTTTGGATTAATAGGAGATATTTTACTTAAATATTTTTTTAAAGTGGAAATGATGCAAATAAAAGTTGCGGGGGGACTTATACTTATTATAGTAGCTATTAAAAGTTTGCTTACACCTAAAGAAAAAAAACAAAATAACTCAAGTAAAAATATTCTTGAAAGTGAAGAAGAAATTTTACAGCAAGGTATTATTCCTATGGCATTTCCTATATTAGTAGGGCCTGGTACTATGACGACTATTCTTATTATAAAAAAAGAATCCGGTAGCCTTTATGTAATACTTGCTACAATTATAGCTTTTATTATAATAAAAGTATTACTTACTTATTCTCATTTTATAGAAAAAATATTTGGTAAATTAGTTTTATATATTCTTTCACGTGTAATGCAAATATTTATTATTGCAACAGGTGTAAAAATGTTAGCAACGGGTATATTTGAAATTATAAAATCATTTCAATAGGAGGTTTAAAATGAAAAAGAAAGTAGCTATTCATTTAGCAAATGGTTTTGAAACGATAGAAGCTTTAACACAAGTTGATTTATTAAGAAGAGCAGAAATAGATATAATAACGGTTTCTATTACTCAAGATAAGATTATTGAGAGTAGTCAGGGAATAAAAATAACAGTAGATAAGTTATTAAATGAAGTAAATTATGATGAAATAGATATGATAATATTACCTGGAGGTATGCCGGGAACTACTAATTTAGAAAATAGTGATGATTTAAAAAGAGTTATAATTGATTTTGATCTTGATAATAAATACATTGCAGCTATTTGTGCTGCTCCTATGATACTTGGTAAAATGGGATTTTTAGAAGAAAAAAATGCTACATGTTATCCTGGGTTTGAAAAATATTTATTAAATGCTAATTATCTTCCAAATGAAAAAGTTGTAGTAGCTGATAATATCATTACTTCGAGAGGAGTGGGGACATCTATTGATTTTGGGTTAAAATTAATAGAATTATTGATTAATAAAGAAAAATCTGATGAAATTGCAAAATCAATTTTAAAAAATTAAAATAATTTTTTAATAATATCAATACAAAAAAAGAGAAGTCTAATTAAATAAACTTCTCTTTTTTTAATATAATTCAGGAAACATTATTCTTTCTACACCTTCTATTATTATATGAAGTATCATCATATGAATTTCTTGAATTCTATCAGATGTAATTCCAGGAATTATAAATTCATAATCGCAATTTCCTTTTAATTTCCCACCATTTTTTCCCAATAAACCAATTGTTTTTATATTTAGCTCTTTAGCTTTCTCAAATGCCTTTATTACATTAGTAGAATTTCCACTTGTAGAAAGGCCAATTAATATATCACCATTTTTTCCATATGCTTCTACGCCTTTAGAAAATATATAATCAAATCCATAGTCATTTCCTACACAAGTAATGTGAGAAGAATCCGAAATACTTATTGCTGGAAGAGCTTTTCTATTTTTTCTAAACCTTCCTGTAAACTCTTCTGCAAAATGCATTGCATCACAATTACTTCCACCATTTCCACATATCATTACTTTATTACCATTTTTAAAAGCTTTTGTTATTTCTTTTGAAATTTCTTCAGTTATTTTAAAATTATTTTCATTTTCTATAAACTTCTTTAATAAATTAAATGCATCAATGTATGATTTTTTTAAATTCATTTTTTCTCCTTTCAAATATTTATTCTAACTTATAAATGTTACCAAAAAAAATATATAAAATCAAGGTGATTATTTAAATTTTACTAATCTCCTTGATTTTTTTTATTTATAAAGATATTTTTTTTAATATTTCTTTTTCTTTTAAATTTAAATTTACTAATATTATACCTATTATTAATAAAAGAATTACTGGATAAAATACATATATATATGAACCGAATGTATCTTTTATAATTCCTGAAATTATTCCAGCTAATAGAGCTCCTATTCCATAAGCTAAAAACATTACTCCATAGTTTTGTGAATAATTTTTACTTCCAAATATTTTACTTGTAGCTGCTGGAGCAATAGATAGCCACCCACCAAGATTTAACCAAAACATAGAAAAACTTATAATATAGGCAATTATACTATGTTCTCCTGTTAAGATAACAATTATAGAAGAAATTAGTAATATAAAATATGAAACATTTATACTTATTTTTACTCCAAATTTATCTACTAATATTCCAAATAAAGGTCTACCAATTCCGTTAAAAATAGCAAAGAAAGATACATATATAGCTGCTTGTTTTGGCGATATATTTAGTAAATTTTGAGCAAATGGACTACTTATTCCTATTATCATTAAGCCTACAAAAGTTCCGATTGTATAAGTAATAAATAAGATATAAAATTCTTTTGTATTTAACATTTCTTTTAAAGTATAATTTTTTGATTTTTTATTTTCTTTTATTAAATTATAGGTGTTTTCTTTTGGGTATTCAAATGGTAAAGCTAAAATTACATTTATTACTATAAAAACTATACCTAAAATTTTAAAAGTTGAAAAAATCCCAAATTTTTCAATTAAATTTGATGCAAGTGGTGCTGTAATAAATGGAGATAACCCAAATCCAGCAAGAGTAGCTCCCACTGCAAGTCCCTTATTATTTGGAAACCATTTAGCTGCTACACTCATTGGAGCTCCATATACAATACCTACCCCTATTCCACCTAGTACTCCGTATGTGAATATAAGAAAACCTATATTTGTTGCATAACTAGATAAAAACCAAGCTATTCCTACTAATATTCCCCCAAATATTATTGTAAGTCTAGGCCCTATTTTATCTAAAAAACTTCCAGCAATAGGCATAGTAAGCGCATAACACATTAAAAATATAGTATATGGTAATCCTGACTCTGTTGCATTTAGATTTAATGCAATTTGTAATGGTTTCCTAAACACACTCCATGAATAAATTGTTCCCAATGTCATAAAAATTAATATTCCCAATGGAATATAAAGATGTTTCTTCTTCAACATAAAATCACTCCTTTATTATTATTTTTATTAAATCTAAAAAAATGAAAAAGACTCCCCTTAAAAAAGAGAGTCTTTTAAAAAATATATTCTATTTATTTTTTTCTTTAATTTTTTTTGTTTAAATTTATTTTTAGTTTTCCTTAATTTTCTCAGCATAAAATCACCTTATTATTTAAGTATAACATATTTTATCATAGATAAAATATAATTTCAAGTATTATTCATCTACTGATTGTACTTCAAAATCATTTTGAGAATCTCCTACTATTTTTACTTTACTAGTTCTGCTTCTAGAGCTTTCTTCACTTTTACCTATAATTTCAAAATCAGCTTTTGGTACAAATCCTTCTATTTGGAATCCACTTCCAAGGCTATTAGATAAATTATCTAATATATCTAATTTAAATGTAATTCTACCTCCAGCTACATCTTTATGATTACTTATATTTAATGCTATTACTTTTACTTCCCCATCAAGTAACTCATTATTTTTTATCTTAGTTTTATATGTTTCGTAATTATTTATATCAACTGTATATTCAAATGTTGTATTTTCACCTAGAATTTTTTCAACACCTTCATCTGTATATTTAAGATCTGTTACTTTTACACCTTTTATTCTTACCTCTTTTATTATTATTTTCCATAATTTTGTATAATCTTTCATATTACTAGCATCTAATATTAGTGTATAATTCGTTCCTGATTTATAATCAATATATATTTTAAAATTATTTATAGGATTACTATCAAATTTATTATCTTTTAATATTTTTAAATTTCCTAATGTTGAAGCTTTTGAATCTACAGTTATACTATCTGATGTTATAAATGTTTTTTCATATCCAGAAGTAGAATAAAGAGTTATTTTTGAAATATTATTCATACCATTATCTACTGTAATGTCTTTATTAATAAAATTTGTAATAGTATAATTTTTATTGTTTATTGTTATTATTGCTTTTGATAAATCTACATTGTCACCATTACTATTTTTACCATTTATAGTAAAATATATTTTATTTTTTATTATTTTAAACTCTTCATCCATTATTTGTTCTATAAAATTAGTAGAATCTGCTGAATTTTCCATATCAGATGTAAGAGTTATATCAATGTTTTCTATAATTTCATTATTATATGTAATAGTTTGAGTTAAATTGCTCTCTGAAGATTTTGCTGAGTTTCCTGCTTTATCTATTACTTCTATATCAAACTCTATCTCCTGTCTTCCAATAAGTTCTTTTATTAATTCTTTTTCTTGAATAAGCTTAAATTGCTCAATAACTTTATTATTTTCTGTAATTTCACTTATATTATCTTTAAAATCTATTTTATTTTGTTCGTATTCAAGTGATGTTTCTAAATCAGGATTAGTTAATAATATATAATTTTCTTTATTAAAAGATAATTTATTATCTTTTACAGTAAGATTTATATTAAATTTATCTCCTACTTTAAAATCTGTAAAATCTGTATTAGTTATTTTTTCAATAGTAAAATCAGTTATAACTGGTGCTATTGTATCCATATAGTATACACTATTTAATACTCCTTCTGTGTTATTATTATATTCTTCTAATAATTTATTTTTAAAATTAACAGCAGTTACTACCTTATTAGCTATTTTCCCAGTTTTACTTATTGTTACTATTTTTTTAATCTGATATTTTCCATCTAAAGAATTACTCTCTTTTATTTTATCTGTACTTATACTGAGTTCATTAGAGTTTGTTGCATTCCAATAGATATTATTAGTTAAATCTATATCTTTACTAGATAAAATATTTGTTTTAGTTTCTATCAAATCTGATTCTGTTTGATCATAATTATATAAAGCTATATAACCTATAGTATCTATATCACCCCCTATTATATCAATACTTCCGGCATCATTTAAGTAATATTCACCTTCTATAGGCTCTAAAGGCGTTGTTCCTTTTTTATATTTTGAAATTTCTCCGTATTTTGCAGTATCACTTTTATTTTTTATTACTTTTATTTTCACTATTTCATTATTATATATTTTTCCACTAATATATGTTTCTTCTTCTATATCATCTGTTATTTCTATATTATAGATTAAATCTACTGTTCCATTATTATTATTTTTTGATTTAACAAAAGTAATTTTATCTAGTCCACTTAATGTTAATCCAAAAGGTTTTTCATTTATAGTTATAATACTATCAGCATCTAAAGTTATTTTTAGTTCTGCTACATTTCCATTATTCATATAAAAATTATCTGTTATATTACTATTAGAACTTGTTACTGAAGTATATTTTATTATATCATTAGTACTAAATACTTTTAACTTTTCAAAAAGTTCTTTATTCGTATTATTTGTAATAGTAGTACTTTTTAATTCAGGCATAAAGTATATATTTTCTAATATTTTTTGTTCTCTTAATCCATTTTTATTTTCTACATATGCGTATACATTATATATTTCACCTTTATTTAAATTTGATTCAGGTATATTAAATGTAAATGGATATTGCGTATCAATAGTACCATTTTGTATATTATTATAACTATTTTTATCTACATATACTATATCTCCTTTTGAATTTTTTATTGCTATCCAAATTCTACTTAAATCTGTGTACTTATCTTTTGCCCAACCATTAATTTTTATTAAATTATTTTCTACTTTAAATATTCTATTTGTTGCATCTTCATTAGGTGTTGTAATATGTATTTCAAGAGTTTTTAGTACTGGTTCTATATAAATTCTATTACTATTTTCTGTTACATCTTCAAGTTGTTTTGTTAATACTGCATCACTTCCGGTATCAAGTGTTAAATTTAAATCAAAATATACTTTTCTATTTTTCCCTTCTTCATAGATATCATCATTAAAAGGTGTTGTATATTTTAAATCCCATCTTTGAATTATCCCTAATTTTTTTGCATCTTCTACTAAATATGATTTTAACAATGTAGTGTTACTAGTAATATAATGCCAAGAAATATCTAATCCTGGTTGATTTCTAAAATCAGTATATGGTCTTACAGATGAGGAGCTTCTATTATTAGCTATTAATGAAAAATAAATATTATTATTTTTCATTTTTTCAGATAATTTTTCTATTACATCATTATATGTATAACCTAATTTATTAATTCGCGGTCCTGCGTCTAAACCTTCATCTGTTGGCATAATAATCCATTTCTTAGATTTTAATATTATATCATTTTTATTTGAAGTTATATTACCGTATTTATCAAGACCTCTTCCATAATCTTCAAAACGTTTTATTGCATAATGCAACGCCCAAGCTCCATTACCTTGAATACCTGTTACTCCATCCCAATAAATACTACTTCCTCTTACACCATTAGCGCCTACTTGTTTTATTGCTTGTTGTACTATTGAAAGATCATCAAACCATCCATCTCCAGTTCCTTCATCATTTCCTTTATATACAGTTAGATAATATTCTCCATTTCTAACCATTCTTCCTGATGTTTTTCTAAAAATTTTTCTTTTTAAAATTTTATATATATTATTTGGATCAGCTTTTTCTTGTACAAAATTACGATAATATTCTCTAAAATATACTTCACCATAATTTCTTTTCTTTGCTGGTGATGGTACATCTACTATATGTGATGAACGATAGGTATTCCAACTACTATCTTTATAATCAAATTGATCATATCTAATAGCTCCTTCTAGTACACCATTTCCATATCCTATTGTTGATTTAACTTTAAAATCATCTTTTCCATCATTTGTTTCAGGTACAAATTTTATTCTATTAGTATCACTATTTGAACCATTTAAAAGCCAAGCATCTTGAGGTGCTTCAAATGAAATAATATTAAATTTTACATCAAATCCATTTGACTCAAGCAAGGCTACTATATCGCTTAAACTATCTTTTACAGCTGCTAATTCTTGACTCATTGATGCAGACCCATCAGCCATAATTATAACATCAAGAGGATATTTAAGTCCCATTTTATTAGATTTAGTTATAGTTGAAACTTTCCCTAATTTCTCTTCTGTTTCTCTTATTTCTTTTATATAACCTATTTCTCCATTTTCATTAGATAAAATATTATCTGTAGTTAATGAAAGTTGTTTAGGTGCTTTTGTAAAAAAGTCTACATTTATTACTGGATATGAAGATTTATCTATACTATTTATCATATAAATATTATTTGCTGTTGCATTACTTCCTTCATCTATTGCTGGTTTTCCTGAGGTAAAAACAGCTGTTGTTTCTAAATTATATATATCATAATCTCCATTTTCATCACTATATTCTGTATATATTTCAATTACAAATTCTTCATTTATAGGTAATCCTTGAATTACAAAATTTTCTGGTGAATATATAAATGTCATATTCCCATATTCAGCTTTTTTATTATATACATAATAATTAAATTCGATATCTACATAATCTATTTTATTATCTATAAAATCTTGATAATTTTCTTGTGATAATAAATTTTTATTATATGTTTTATTATAAACATCGTATTTATATTTAGTTTGATTATTTCTATAAAGTCTAAACATGATTTTTTGATTATTAAAATATTTAGCATATTTATTTGCTTCTATTTTCTTCCAAGTTATATTTACTAAATCACTATTTTGATTTAATTTAATATTATTTAGCTTTAATGGGTAATAAATATCTATAAGTTTATTTTTTAATGAATCTTTTAATGTTAATTTAGACACATTTGTAACATTATCTATACCTTCCATTACATCTTTATTTATAAATATATCACTTCCTGCACTACTACCCTTAAAATACCATTTTGAATTATATTCAATATAATCGTTAACTAAGTTATAGCTTAAGTTCTCTACATCTAAAGAATTTATCGTTCTTATTGCTTGAATAGTTGAACTATTATCATCTTCTAAATACGATAAATCTGTAAAATCTTTATCGATATATTTAGAAGCATGAAAAACTATAGTCTGATCTCTATCAGCATCTCTAGGTTCAGCAATAATAAGTTCTGGTATTATTGGTCCTGTTATTTCAATATCTCCTTTTCCTTTTATATATGAATTACCTGTTAAATATAAATTTTTTGAAATAACACTTCCTTCTATCCTTGCACTTCCAGTTAAATTTACATCTGCATTTGGAGCATATATATAATTTATTGGAGATACCCCTCCGTTTATAGTTACATTTTGACCTGATGTCACTATTCCATATTCAAGACTAGCACTTCCAGTTATATTTATATTAGTATTATTTGCATAAATTTTACCAGTTGTTACGGCGTTTCCATTAATTGTTAACTCATTTCCTTTTGTTATTAATTCGTTAAAATCTATTTTTGCACTACCTGATATATTTATATCAGCTTGTTCTACATACAAAAAACCTTGTATTTCTATCGCATTAGCTAGATTAAGGGGTGCAGTTCCTAAATAATAGTAATAAATATAGCTATTATCATTTTTACTATCTATAATTTTACCATTTGACTTCAAATCAAATGTAGTCGTTACTATAAAAAATAATCTCCCTGTACCGTTTCTATTTATTATAACATCTCCACTGATATCTAATTTGTCAACTTTTATATATAAATCATTATTTCCAACATTAATAATCATTTTATCTTTAACAGTAATATTCTTGTAATATCCACTATCTTCTGAATTAATTGTCACATCATTATTATAATCTTCATATATATCTTCTTGAGAATATAAACCATCTACTACTGGTGTTTTAAAATCTAACCAATCTGGTATATCAAAGCTATATTGTTTGTTTAACTTAGATATCGTATTATTTTTTACATTATTATAAAATTCTTGTTGTTCTATACTTCCTGTTTTATACCAATCTGGGAAATTAATTATATCGTCTGCTATTGCTGTATTTCCTATATAAATAGAGCGATAGTTTAATTTTGTATCTCCAATCCAAGAAGTACCTTCTAAAAGTATAGGTTTTTCTCCCTGTATTAAGCTATTTGCATTGCTTCCTGTCATTCCTTCAATTCTAGATGAACCTGTTAAATTTACAATCCCTTCAATTGAAAAAGCAGTCCAATCTTTTACTATAATATTTTCAGCAAAAGTAAATGCAGTCATAAAAATGAATATCAATCCCACTATTTTCTTCTTCATAATATCACACCTTCCCAAATAATTCTTTTTTTGTATTCCAATACTAAATTCGAACTATTATTTTTATTTTTTCCATATTTTTTATCATAAAAGTCTCTTTAAATAATAACATATTGCTCTTAAAAAGTCTATAAAAAAAGCAGCTTAAAATTCATTTTAATAAAGCTGCTGTAAGATAATTTATGTACTTATATTATATTGTCAATCAACTCTTCTAATTCTCTTCTTTCTGCTTGAGAAAGATCATACCCTAATTTTAATTTTTTTAAAATTTTACTGTTCTCTGCTAAAGACGAGGATTCTAATATTTTTATTATTAATTTTTTATAAAAATCCATAAATTTACTCCTTGTATTTTATAATTATATTATACTCTATAAATCAATTATTTCAAACTTTTATGTTGTTTTTATTATTAATTTTTTTATTCTTTATAATTCATTATCTTTCAATTATTTTTTTGTTTTCTATTAAAATACTGATAATAATAACACTTTATCCCACCATTATATAGTTTTCTATTTTTATCAGATTTTTTCCCAAAATATCTTTCAAAATCTTCATTTGAAGTAATTAAATAAAACTCAAAATCTTTATAATATTTTTTATATATTAGTCCCATCTCTTTATACAAATTAATTACGTAATCTTCATCTTCTAGTCTTACACCATATGGTGGATTAGAAATTATAACGCCATTTGTATAATTTTCTCTATTTTTTAAGTTTCTTAAATCTTTGTTTTTAAAAATAATTATATCATCAACATAAGCATTTTCTGCATTTTCTATTGCTAAATCAACTATACTTTTATCTATATCATAGCCAATAAACTTTTTATTAGTTGTTCTTTCATTTGAAAAAGCTTTATCTCTAACATCAATCCAAATATTTTCATCAATTATATTCCATTTTTCAGAGACAAAATTTCTATTTACACCAGGCATAATATTTTTAGCTATCATTGCAGCTTCTATAAGTAAAGTTCCTGTCCCACAAGTAGGATCTATAATTATATCTTTTTTCATTGCATTAGCTAAATAAACTAACGCTGCTGCTAAAGTTTCTTTTATTGGTGCTTCATTGTGTTTTGCTCTATAACCTCTTTTATGAAGAGGATCTCCAGATGTATCAATCATTATTTTTACAATATCTTTTTTTATTTGTACTTTTATTTTATAACTTGCTCCATCCTCTTCAAATCTACTTACTTTGTATTTTTCTTTTAATTTTTCAACAATAGCTTTTTTTATTATTGATTGAGAATCTCTTTTACTAAAAAGTTTTGATTTTACAGAACTTATCCATGATATAGGAAAGTTTGCATCAACTGGTAATATTTCTCCCCAAGAAAGTCTCTTAGTATTTTGAAAAAGTTCTTCAAATGTTGTAGCTTTAAATTCACCCATTTTTAAATATATTCTATCTGCACAGCGAAGAGATATATTTAATATTGGTATATCCTTTATTCTACAATTTATTTCAATTTGTCCATCAAATACTTTAAAATCAGTATATCCTAAGTTTAATAATTCTTTTTTTACTATAGCTTCAAGTCCCATAGTTGTTGTCGCTATTAAAGTAATTTTATTCATAATTGTCCTTTCTATTTCTTAAATAAAATTTTATTGCTATTTTATAAAATGGATAAATTAAACTCAATATTAAAATAATAAGAATAATTTTTATTGATTTAATTTCTAAATATTTCTCAATAAAAATATCTATTTTATAAAATATTATTATTCTTGCAAATGCATTAAAAACAAAATGTGAATATATTGCATACCATATATTTTTAGTAGTGTAATAAATAAAGATAAAAAAAACATTTAATAATGATAAACTTATAAAATCTACTCCAAATAAAGAATATATAAAAGTCGAAATAAAAATCGCCCACCAAAAATTATATTTTGCTATTAATCCAAATAAAAATTTTCTAAATAAAAGTTCTTCAAATATAGGTGAAATAAATAAAAGTGTTATCCATATTTCTTTTTCAGTCATTGTGATTTCGGGTAATTTTATTAAATTTGGTAAAATAATCATTATAAAATTAATTGGTAAAATTATTAAAAACCTAAAAATTATACTAAGCAAAAATATTTCCCATAAGTTATCTTCTATTTTTTTGTAATTCATGATCAGCCTCACTATTTTTTACTAAATTATATCATATTTTTTATTTTTTGTATTGAAAAAAATTGTTTTACAAAGTATAATAGTTGTATTAATATAACAACTTTTTATAATACTTTATAAAATAAAATTTATAAAGTATTATACCTAGGTGACAAGATATATAATATAAATATATTGAGAGAGGAAAAATTTATGAAATACTATAGTTTTCTTACATTCTTTTTATACTTTTCAATGGGTGCTACATTGCCTTTATTTTCACAATATCTACAATCTATTGGGTTATCTGGTATAGAAATAGGTTCAATTTTTTCTATTGGTACTTTTATTTCTATATTATTTCAACCATTTTGGGGATTTATAGCAGATAAAACTAATGCAATAAAAAAATTCTTATATTTTTATTGACTTTTTCTGCATTGACTATTAGTTCTATTCCTTTTACTAAAAGTTTTATAATTATTGCTGTTTTATATGCCTTATATCAATTTTTCACTTGTGGAATTTTCCCATTAAATGATGCTGCTGTACTTCATTCAACACATGAATTTGGAAAAATAAGGCAATGGGGTTCTGTTGGATTTGCTACTGCTGCTTTTATATCATCAATATTAGCACAATATCTTTCAAATAATATTATTTTTTATATCACTGCCTTTGCTTGTTTTACTGCTCTTATATTTTTAAAACAAATTGATATAAAAAGTATTCATGAGGAAACTATTAACTTAGTTTTATTAAAAGATTTATTTAAGAATAAAAATTATATATTATTTTTAATTATGGCTTTTTTTATAGGTGGTACTATAAATGCTAATAATACATATTTTGGATTACTTTATAAAAACTTAGGTGGTACTACTTCTGGTATTGGATTTGCATTTTTACTTTTCGCTTTAAGTGAAGCACCTTTTTTAAAAAATAGTGATTTTATAATAAAAAAATTTGGTGTAAACAAATTATTAATATTTTCTGGAATATCTTTTATGCTTAGATGGGGAATATACAGTTTTATTCCTAGCACAAAAATAATATTAATATTGTTTTTTCTACAAGGAATATCAATTGGAACTTTTTTAGCAGGAGCTGCACAATATATTAAATTGCATACAAAACAATCTCAAACTGCTACTGCTATTACCATATATTTCTCGCTTAGCTTAGGAATAGGTTCAATGCTATGTATATTTTTATCTGGTATAATAATAGATAAGATAAATATTTTTGCAGCATATAAATTTTATTTCCTATGGTCTACTATTGGATTTCTCGTTTTAATATATCTTTATTACTCATTAAAAAAACAAAACCATAGATAATTTTTTGGAGGTGGTTAATATAATTATAAATACTTTGTCAAAATTTGGATTTACAGAAATAGAATCAAAAGTTTATTATGAACTTATTAAAAATCCAAATTCAAATGGTTCTCAAATAGCTAAAATTCTTAATTTACCTCGAACTTCAGTGTACTCAGCATTAGATAAGCTTTTAAAAAAAGGTTGTGTATTTTTGCTTGCTGAAAATGATAGTAATAAATATATCGCACTCGAATCTAGTAAACTTCTTAAAAAACTAAAAAAAGAGTATATGGAAGGTATAGAATTATTAAATGATGAATTTAAAAAAATTTCTATTAATGATGAAAATAATCAATACATAAATATTAATGGTGAAGAAATATTTTTTGAAAAAATACGTGAAATGATTAAAAATGCAAAAGAAGAAATATATATAAATACAAATTTTGATTTAAATTTATTTGAAAAAGAATTTTTAGAACTAAAAAAGAAAAAAATAAGAATTATTCTATTTACTTTTGAAGATATTGATTATTCACATTTAGGAATAGAGGTTTTTAGTAAAAAATTTACTGGAAAATGTCGTGATGATTATAAGCGTATGATGATTGTTATTGATATGAAAGAAGCCTGCATTGGAGAAAAAGGAAGAAATAAAGAGTTGATAGGTAGTTTTACAAAAAATAGATTACTTATTGATATAGTTACAGAACATATTCATCATGATATTTATCTTACTAATTTATCAAATTTTTATAATATCGATATGAATAAAATAAAAATAAATACTAAGCATGAAAATTTGTTTAATTAAATAAAAAACTCTCACTTTTAATTTGAAAAAAATGAGAGTTTTTTATTTTTAATTAATTTTAATCTAATTTTTTTTTAATTAAAGTTAATTGTTCATTTTTATGAGTAATTATATTTGAAAATGTTAATCCTATTAATCTTATCTTATTTTTATAATCAAATTCCTTTTTAAATTCTTCTAATAATTTAATAAATTCTATTTTATTCTCACTAAAATCTTTTAAAGTTTTAGAACGAGTAATTATGTGTCTATCTTCAAATCTTATTTTTAACACAAGTGTCTTTGCATAATATTTTTTATTTATCAGTCTTTTATAAATTTTATTAAAAATATCATCAAGTGTATTAAAAATAATAATTTTATTATCTGTATTAAATTTAAAAGTGATTTCATTCCCTATAGATTTATATTTTCTTTCAGTTTTAATTTTTCGATAGTCTATTCCTCTACTATAATCATAAAGTAATTGAGCCTTACTACTTCCTAAAATTTCTTTTAAAAAATAATAATTTTTTTCTTTGATTTCTCTTATTCTATTTATATTATTCTGTCTTAAAAATTTTTGTGTTTTTTCTCCTATTCCTGGTAAAATTTTTATATCTTTTTCTTTAAAATATTCATAATATTCTTTATTATTTTTTATAATAAAAAATCCTCCTGGTTTATTTACTTCACTTGCCAATTTAGCAGTTAACTTATTATATCCTATCCCTACTGAGCAAGTAAGTTTTGTATGTATATAAATTCTTTTTTTAAACTTTTTTATAAAATACTCATAACTAGGATATTTATTTATAATATTTGTTATATCAATATAACCTTCATCAAATGCAATAAATTCTATATTATCGGTTAATTTTTTAATTAAATTTTGAATTTGATATGCAACTTTTATATATTTATTTTTATCTACATTAAGATATATTCCATTTGGACATAATTTCCGTGCTTCAGTTACACTCATTGCAGAATGCAACCCATACTTCCTAGCTTCATAATTACAAGTTGTTATTACACGAGTTCCTACAATTACAGGCTTCCCTTTTAATTTTGCATTATCTCTTATTTCAATTGAAGCATAAAATGCATCCATATCATAATGCATTATAACTTGCTTTTTCATTTTTCTCCTTATATTAATAAAATTATTTATACTAAATTTTTTCTTTATTTTAATTATATCATATTTTATACTAAAGAAGTAGTTTAAATTATTATTCTTTAACATTTTAAAAGTAAAAAAATCCAGTAATTACAAGGTTTTTTTTACTTTTACTTAATACAAAAAAAATATTTGACAATAAACTAAAAATATAGTATTCTTATTTAGTGTTTATTTATACTAAATTTTTTCTTTATTTTAAATAAACATTTATTTTTTGATAGAGGATGTGGTCAAAATAGAAAGAAAAAATCTAAATCATAGTGTAACTCCTCTTTTTGATGCTTTAAAACAATTTAAAAAGGACAATATAATTCCTTTTGATGTTCCAGGTCATAAAGCAGGAAAAGGATTGCCTGAATTTACTGATTATTTTGGAAAAAGAATAATGGAAGTCGATGTAAATTCGATGAAACAATTGGACAATTTAGCTAATCCTACTAGTGTAATAAAAGAAGCTGAAGAATTAATGGCTGATGCTTATAATGCAGATCATGCTTTTTTTCTAATAAATGGAACTACTTCTGGAGTTCAAGCAATGATTATGAGTTGTTGTAAGCCTGGAGATAAGATAATCTTACCTAGAAACGCTCATAAAAGTGCTGTTAATGCATTAATATTATGTTCTGCTATCCCTATATATGTACAGGCAGATATAAGAAATGATTTAGGTATAGTAATGGGAGTATCACATAAAGAAATAGAAAAAGCAATTAGAGAAAATCCAGATGCAAAAGCTGTATTTTTATTAAATCCAAACTATTATGGTGCTGTTTCTGAATTAAAAGAAATTATTAAAATCGCTCATGAACATAACATGTCAGTACTCGTAGATGAAGCTCATGGTGCACATTTAAATTTCCATCCTGATTTTCCTAAAAGTGCAACTACTCTTGGTGCTGATATGGCTGCTACAAGTTTACATAAAACAGGTGGTTCTTTAACTCAGAGCTCTATCCTTTTATTAAATGAGGGAAGAATAAGTAAAAATAAAGTAAAAAAAATTTTAAATCTCACTCAATCCACTAGTGCATCGTATTTATTAATGAGTAGTTTAGATGTAGCTAGAAAAAATCTTGTTTTAAATGGAAGAGAAAAATTTGATAAAATATTAAAACATATAAGATATATTAGAAATGAATTAAACAAAATCGAGGGTATATATGCGTTTGGAAAAGAAATTATAGATAAAAAAGGAATCGCAGATTTTGATGAATCTAAACTTGGAATCAACGTGGCAAAACTAGGTCTTAGTGGGTTTGAAGTATATGATATTCTTAGAGATGATTATTCTATTCAAATGGAACTTGCAGACACTTATAACGTTCTTGCAATAATAAGTATTGGGGATACCGAAGAAAACTTAAATAAACTTTTAGAAGCTTTTAAAGATATTTCTAAAAGATTTAAAGGTACTAAACATATAATAGAACATCCAACACTAGAAAATCCAAAGGTTGTTTTATCACCTAGAGAAGCTTTTTACGCAGAAAAAGAAAATGCTATTTTAGATGATTGTATAAATAGAATTAGTGGTGAATCTATAATGGTTTATCCTCCAGGGATTCCAATAATTACACCTGGAGAAAAAATAACAAAAGATATGATTAATTATATAAAATTTTTAAAAACTCAAGATACTGTGTTTAATGGGGCAGAAGACCCTGATATAAATTATATAAAAGTTGTAAAATAAACTGGATATAGGGAGGAATAAATGAAACTTGATACTTTAGGAAGACATATTTTAGTTGAGTATTACAATTGTGATGAGGAAATTTTAAAAAATGTTGAACTTATTCAAGAATTAATGAATGAAGCTGCAAGAGTCGCCGGTGCTACTATTGTAAATAGTGTATTTCATCATTTTAATCCTTGGGGAGTAAGTGGAGCGGTGATTATTTCTGAATCACATTTGACTATACACACTTGGCCAGAATATGGCTATGCTGCAGTTGATTTATTTACATGTGGAGACACTGTGAATCCATGGAAAGGTTTTGATTATTTAGAAAAAATGTTAAAATCTGATAGAAGTGAATCGATAGAAATTCCTAGAGGAATGACTGAAAAAATCAAAAAGTATTATCCAAAACCATTAGAAAAAATTGTGTTTAAACCAGAAAATAATTAATGGAGGTATTTTTAATGGAATTATGGTTTACTGAAAATCACTCTGAGGGAGCAAGATTTTCAATCAAAATAAAAGAACATATTCACTCTGAAAAAAGTAAATTTCAACAAATAGATTTTTTTGATTCTTATGAATTTGGTAGGTTTTTCACATTAGATGGTTATGTAATGGTAACAGAAAAAGATGAATTTATTTATCATGATATGATAGCTCATGCACCAATGGCCACAAATCCAAACATTAAAAATGTACTTATAATTGGTGGTGGTGATGGTGGAAGTGTCCGTGAATTAACTAGATATTCTTCTATTGAAAAAATAGATATGGTCGAAATAGATGAAAGAGTTGTTAGATGTTGCCAAAAATATTTACCTATTACCGCATCAAAGCTTGAAGATAGAAGAGTAAATCTTTATTTTGAAGATGGCGTAAAATTTGTAGAAAATAAGGAAAATATTTATGATCTAATAATTGTAGATTCTACTGATCCTATTGGGCCTGGCGAAGGATTATTTACTACAGAATTTTATAAAAATTGTTATAAAGCTCTAACTAATAATGGAATACTTATCAATCAAAATGAAAGTCCATATTATCCGTTTAATGCTAGAGAAATGAAAAGAAGTCATAAGAAAATTAAATCAATTTTTCCTTTAAGTAAAATATATCAATTTCATATGCCTACATATGGTTCTGGGCATTGGTTGTTTGGATTTGCTTCAAAAGGAATTGATCCAATAAAAGATTTTAAACCTAAAGAATGGTTAAAATTAGGATTAAAAACAAAATACTATAATATTGATATTCATAAAGGTGCATTTGCACTTCCAACTTATGTACAAGAAATGTTAAAAAACCTTGAAGATTAAAAAAACATGCCCTTGATTCCTTAACAAGGGCATGTTTTTTTATAATCTATAAAAAATTACTATCCTAGTGCTACATCTAAAAACATCATTACTGCAAATCCTAAAAGTGCTCCTAACGTCGACATATCTGTCTCATGCCCTAGTTGAGATTCTGGAATTAATTCTTCTACAACTACAAATATCATAGCCCCTGCTGCAAAAGAAAGCGCATATGGTAATAAAGGTTCTATAATAAAAACTAGATATGCTCCTATTACACCGGCAATTGGTTCTACTATACCAGATAATTGACCATAATTAAAAGCTTTTAATCTAGACATTTTTTCTCTACGAAGTGGTATAGATACTGCTGCTCCTTCGGGAAAATTTTGGATTCCTATACCTAATGCTAATGCTAAAGCTCCTGCTAAAGCTCCTGTTGTTGGATTATTTGCTAATACTCCGAAAGCTACTCCTACTGCAAATCCTTCGGGTATATTATGAAGTGTAATTGCTAATACTAAAAGAATACTTCTTTGTAAATGAGTTTTTATTCCTTCGGCTTCATCTATTTCTAATCCCATATGTAAATGAGGTAAAATTCTATCTAATAGATATAAAAAAGCCCCTCCACCTAAAAATCCTACTAAGGCTGGAACCCAACCTATTTCTCCTCTTTTTTCAGCCATTTCAATTGCTGGACTAAGTAATGACCAAAAACTTGCCGCAATCATTACTCCTGCTGCAAATCCTAACATAGCATTTAATAACTTTTTATTTATTTCTTTAAAAAAGAAAACCATGGCTGATCCTAGAGCAGTCATAAACCATGTAAATAGAGTCGCTAATAATGCTAATAAAATAGGATTTATCGTTAACATTTTTTCTAACATTTTCTCCTCCTTTTTTATTTTTCAAAAAATTTATTTAATAATTTATTTAATAATTTTAAATCTTCTGTTCCGCATAGTTCTCTTATAGAATGCATAGCAAGCATAGGTATACCTATGTCAACAGAATTTATTGGTAAATTTGATTGAGAAATTGGACCTATTGTTGAACCACCTCTAGTATCAGATCTATTTAAAAAATATTGATATTTTATATTATTTTCTTTACATATTTTCTTTATATAGCTTGCACTATAAGCATTAGAAGTATACGAATAATTTGAAGAATATTTAATTGCAATACCATTATTCATAAGCAATTTATTTGTTATATCTCCTTTATTTGAGTAATTAGGATGAAAAGCATGTGCTCCATCAGCTGAAATTATAAAACTTTTTTCAAGTGAAGATATAAAATCTTCTCTGTTTAATTCCAGACCATAACAAATCTTTTCTAATAAATAAGATAATGAAAGAGAGTCAGCCCCCTGAAGAGTTGTACTTCCTATTTCTTCATTATCAAAACAAGCTATAATTTTTGTGTTTTTATTATTTTTATTATTAATTAATGCATTTAAACTAGTAAATACAGAAGCTAAATTATCTATTCTACTAGAAGAAATCATCTCGTTATTTAATCCGATTGTACTTCCTTTATCGTATTCATATAAAAATAATTCAAAATCTAATATTTGATTAATATTAATTTCCGTTTCTTTTGAAATAATATTTAATAAATAGTTTTCTTTTTCTAATTTTTTTGTCATTATTTCTATTATCGGAAGTAAATTTTCTTGTGGATTTAATGATATGCCTTTATTCACTTCTCTATTTTGATGAATAGCTAAATTTGGTATTATTAGTAGTGGTTTATTTATATTTACTATTTTAGTAGTCAAATCTTTTAATATTATTCTTCCTGCAATAGATAATGGCCTATCAAGCCAAGTATTATATATAGGTCCTCCATATACTTCAATATTTAATTTCATATAATTTTCTATTATTATTTCAGGATTTGGTTTTATCTTAAATCCTGGACTATCTGTATGACTTCCTATTATTTTAAAACCTGTTTCTTTTATATTTTCTTCACCTATTTGAAAAGCAAATAAACTGCTATTATTTTTAATAATAAAATATTTACCTTTTTTTTCAAGATTCCATTTTTGTGACATATCTAATTCAATAAAATTTTCTTTTAATAAAATTTTTTTTATATTATCTACAGCATTAAACGCAGTAGGGCTATCATATACAAATTTTAAAAACTCTTTTTCCATTAATCCTCCTATTTTTTTATTTTTTTAATCTCTCAATAGTTTTTTGTATCTATTAATTTTAGATTCTAAATCAGGTAAATTAATAAATACACCATCTCTAAGAATCTCTTTTTTATCTACAAATAATGCTACTGTCGGAGCAGCTAAAATTCTATATACATCTCTTATTTCTTCAACCACATCTACTTTTGCTTCAACAAACTCAATTTCTAATTTTTTAGCTAATGCTTCAACTTTAGGTTTTAATGATTCACAAGCATTACAACCTGTAGATGATACATAAAATATAACTATATCCTTTGTCTCAATTATTCCTTTAATTTTTTCTATATTTTCTAAATACATATATCTCTCCCTCTCTACTGTAAATGTGAATTATCTAAATATTTAATAATTTTAAATTCATTATCAAAATAAATATGTGTAAGTGCTGTATTTTTTACATGCCCTCCATCCCAAAATTCTTTTATATTTTTATTTTTTATATTAAATAAAAATGATTTTATAGTTACACCATGTGATACTATAACTATGTGTTCATTTTTATTATATTTTTTTATTATTTCTTCTAAAAATTCTTTTGTTCGATTATTTAAACTATAAAAGCTTTCTCCATTTATTTCTTTATGATTATATAAATGTGGATAATTCCAAAATTGTTCTATAGTATTACCATACTTTTTAATCCCAATTTCTCTATCAAGTCCTTCTAATACTCCCATATTAATTTCTTTTAATCTGTTATCTAATTCTATATCAATATCTCTATTTCCTTTTAAAATTTTAGCAGTATCATATGCTCTCCCTAAAGGACTTGAATAAATTTTATTAAACTTGATATTTTTTAATTTGTTTGCAAGTTTTTCTGCTTGTAATTTGCCTAATTCAGTTAGATTAGAATTTTTATGCCCTTGCCATTTTTTTACGATATTCCATTCTGTTTCTCCATGCCTTATTATATAAATATTCATTTTTTACCTTTCATATTTTACATTTCATAAATTATCATTTTTTTATTTTATATATTTCACAATACTTTTCTTTTAGATAATCACAAAAATATTGTGGATTCAACTCTTCGTTAGTTATATCTTTTATAAGCTCTAATGGCTTTTTCATTTTACCATATTTATGTATTTTTTCATTTAAATATTTATTGATTTTTTTAAATTCACCATTTAATAAAGTGTTTTTTATGTCAATTTCCTGAGATAATTTATTGTATATTTGAGCAGCATATGCATTTCCTAATGCATATGAAGGAAAATATCCAAAAAGTCCTGCTGACCAGTGTACATCTTGTAAAATACCTTCAGCATCATTCTCTATTTCAACATTTAAATAATCTTTCATTTTTTCATTCCATAAATTAGGTAATTCGTCTATTGTCACTTCATCATTAAAAATTGCTTTCTCTATTTCATATCTAACTAATACATGTAATGAATAAGTAAGTTCATCAGCTTCTACCCTTATTTTACTATTTTCTACTTTATTTATCAATTTGTAAAATTCAGCTATTGATATATCTTTAAATTCTTCAAAATTTTCTATAAATTTATTATATATTCCTTTCCAAAATTCAATACTTCTACCAAACATATTTTCATACATTCTTGATTGAGATTCATGTATTCCCATTGAGGTACCATGTCCCAAAATAGTTTCACTTACCTCATCACTTATTCCCTGCTCATATATTCCATGTCCACCTTCATGAAGTACAGAAAATATGGAAGATAATATATTATTTTTATAATAATGAGTTGTTATTCTTACATCTTTATTAGAAAAATTTAATGTAAATGGGTGCATACTTTCTTTTAAAACACCTCTATTAAAATCAAAATTAATATATTCAGCTAAAAATTTTGCAAATCTCTTTTGTTTTTCTATATCTACATCAATATTAAGTTTTTCATTATCTATAATTACATTAGAATCTTCTATTTTTTTTAATAATGGCACTATATTATTTTTTAACGCAGTAAAAAATAAATCTGCTTTATCTACTGTAAGTCCCGGTTCATAATCATCTAATAAAGTGTTATATTTATGCCCTTTATATCCTCTATATTTGATAAACTTTTTATTAAAATCTATTATTTCTTTTAAATAAGGTTTAAAAATATCAAAGTCTTTTTTAGTTTTAGCTTCTTCCCACACAACTTGTGCTTTTGTAACTAATTCTTGATATTTAGAATATTCTTCCACAGGAATTTTTGTAGCTTTATCATATTCTTTTGTTAATTCATTTATTACTTTTGCATTAAGCTCGTCAAGTTTATCTATATTTTCATTCAATATATCTAATGTATCTTTCATCTCTTTTGATAAAAGAATATTATAATTTTCTGTAATAAAAAAACCCATTGTTTTACTTATTTTTTCTACACTTGCTTTTGGAGCCTCAGTCTCCATATCCCATTGAAATATTGCCATAGCATGTTCATATGCTTTCATTTTATTTGTTAATTCTTTTATTTTTTCTATACTTTTTTTTATATCCATTGCTCCTCCTATTTTATTATATTTTTCTTATCTACAATTTTATTTAAGTATATTTATATTTTCTTACAGAACTTAAATATAAAACTTGTATAAAATTTCAAAAAAGCCACTAAATTAATAGTGACTTAAATTTAAATCTTTTTTAAGAAATTTATAATCGTTCTTACTGGCTGTCCTGTTGCACCAAATTTATAGTAAGAATAAGGACTATCTGTATAAGCGACTCCTGCAATATCCAAATGAATCCATGGTTTCTTTTGAACAAATTTTTCAATAAACATTCCAGCTGTTATTGTCCCTGCAAATCTACCACCTATATTTTTTACATCAGCAATTTTTGACTCTAATAATTTACCGTATTCTGGAAAATTTGGTAACTTCCATACTCTTTCATCAGTTTCAATCGAAGCCTCTTCAAGCTTTTTATATAATTCATCATTATTAGTTATAACTGCTGTTGTTGTAGTTCCTAATGCAACAAGTGCTGCACCTGTAAGAGTAGCTACATCTATTACTTTATCGGCTTTTTCATTTTCTATTACATAATGCACTGCATCTACTAAAGTAAGTCTTCCTTCTGCATCTGTATTTAATACTTCTATTGTTTTTCCTGCCATACTTCCTATTATATCACCAGGTCTATATGCATTTCCCGCAATTGAGTTTTCACATGCCGCTATAACTGCAATTATATTTTTATCGATTTTTAATCTTGCAACTGCACTCATTACTCCTATTACTGTAGCAGCACCGCCCATATCACTTTTCATTGTATCCATACTATTAGTAGGTTTTAATGATAATCCTCCTGTATCATAAGTAAGTCCTTTTCCAACTAAACCAATCGTTTCATTAGATTTATTCCCTTTATATCTCATTACAATAAATTTTGGTCTTTTTTCTGCTGCTTGTGCTACAGATAAAAATGCTTCCATTTTTAACTCTTTTATTTTTTCTTCTTCAAATATTTCTACTTCAAATCCATATTTTTCTCCATATTCTTTTGCTTTTTCTGCCAAAGTTTCTGGATATATAGTATTCGCGGGCTCATTTATAAGCTCTCTAGTTATAAAAGTAGATTCTGCATAAATTTTTGCTTCTTCTATTTTATTATTATTAAGATTTCCTAATATATCTATTCTTTTTATTTTTTTCTTTTCAGCTTTTTTAGTTTTATATTTATCAAATTCATAGTTTGCAAAATATACTGTCTCAACTAAAGCTTTTTCAATATTTTCTATTGGATTATTTTTAATAATTAAAGTAGATTCTACATTTTTTAATGTTGTCAATCCCTTATATAAACTTTTTCTAACAATTTCCGTATTTACTTTTTCTTTTTTACCTAAACCTACTAGTACTATTTGAACTACACTATTTCCTTTAGCAAATGGTATAACAAAAATTTCTTCTTTTTTAGCATTAAATCCAGATTTTTCAGCTAAATTTTTTAAATAAAGACCTTCTGAATAAAATAACGTGTTTTCAAAAGTAATATTATTTTTATACATAAAAATAATATATGAATCGTAGTTTTCTATTATATTGTCAATTAAATTTATCGTCATTAATAACCTCCTATATGTTGTTTTTTATATTATACACCAATATTATGTTTTTGTAAATTAATAATTACAAAATTGTAATCATTACTACTTTAATGCGTTTTTTTAATTATAACATATTTTTTTATAAAATATCTATCTAACTAAAAAATAAGACCTATTTTTTTAGGATTTCAATAGGTCTTAAAAAAATTATTTATTATTTTTTGTTTTAAATCCTTGTATTTTTACATCTAATTCTTCTACTAAACTAATCATTCCTTTTAATTCATCAAGATTATTATCTAGTATCTGTCCAATTTTTTCAGATATATCATTCGTGTTTATTGCGATTCCTTCTATATCTGTAGAACTATTTGTCAATAGTTCTATTGCTTTTGTTACCTCTTCTATTGAAGTTTGTTCCTCATTTATCATTTGAGTAACATTTTTTACATATTCATTATTATTATATATAATTTCGTTTATTTTATTTATAGTGTTTTTAAGCTCCTCTGTAGCTTTTACTGCAAAATCTACTTTTTCATCAATATCACTATTTGATTTTTTTACATTATTTATTTGATTTTGAATCTCATTTACAATATTTTCTATTTTTTGAGTTTCTTTATTTGTTTGTTCTGCTAATTTTCTTATTTCATCAGCAACTACTGCAAATCCTCTTCCTGCTTCTCCTGCTCTAGCTGCCTCTATTGCTGCATTTAATGCAAGTAAATTTGTTTGTTCTGCTATTGCATTTATTGCTAATGTTATACTTCCTATATTCTCTGAAGATTTAACTAATTCTTCTATTTCTCCGTCAGCTTTTTCTACACTTTCGCCTATGGTTCCCATTTGTAAATTCATATTTTCTATTTTTTTTCTACCTTGTTTTGAAATTTCTAATGCTTTTTCAGATTCTTTAGATACTATATTTGTATTTCCTACAACATTTTGAGATACTGCTGATATCTGTTCTATTGCAGCCAAACTTTCTTCTGAAGCTGCTGCTTGATTTCTTACATTATCAAGTATTGTTCCTATATATTGTTGTAAATCTATTGTTCCATTTTCTAATTTTTCTTCTAACAAATCAAAATATTTTGATTTACTACCACTTATTATATTATCCATGGTATTATGTATATAATCATTCTTTTCTATAAGAATATTTGATAATGACTTCATATCAAATATTAGATCATGTAATTTTTCAATAAATTTATTAAAATATCCTGCTAATTCTCCTACTTCATCTTGTGTTTTAATATCAAGTTTTACTGTAAGATTAGCTTCTCCCTCAGATATTTCTTTCATATTTTTATTTATTATTTTTAAAGGTTTTAAAGCTTTATTTACAATAATTTTAATTAATATAATACCAATAATTATTACTATAATTGAGTTTATTATAGCTCTTCTTTTTAAATCATCTATTTTATTCAATGCATTTATTTTTTCAATTTTTATTTTTTCTAATATTTCATCAATATATGTTCCTGTAATGAGTATATAATCTTCAACTTTTGTACCATATATTAATAATGTCCCTGCAGACATACTTCCAGGTTTTTTCCATTCATATTGAACAAATCCACCACCTTTTCTTCTTACCTGATCAAGTAATACTTTATATACATTTTTCCCATCTTCTCCAATTATATTGTATTTTGCATCATCAAGAACTTTTCCAATTTCACTTTTAAATTGAGGTTCAAATAACATTGTTGGATATGGTCCCTTTGCATTTGTTAACCAAAAATAACCAGACCCATTTTTATTATATCTTACAGTTCCAAGTACTTCTTTGATTTCGTCTAGAGATTTTCCTTTTATCATTCCACTTACTATTCTTACCATTTCTGTAAGTTCGTTTTGGACTGAAAGAGTCCCTTCATTTTCTAATCTTGCTATATATTCACTAGCTTTTTCTTTTTCTGCTTTTATATTTTGATATACATTAATTCCACTAAATAAAATTAATAATATAACTACAGCTATTTCAATTTTCGTTCCTATTCTCATCTTTTTCAAACTAAAATTTTTAAGATTTAATTTTTTTAAAAAATTATTTTTTTTTAATCCCGACTTTTTATTTTTTTTCTTTTTTATTTTTTTCATCGTTCCCTCCCTAATTTTATAAACACGTGTTTATAACTTGAAGAATAAAAAGCAGCTATATCACTGCTTTTTATTCTTCAAGTTAATTATACTCTATTATTTTTTTTTTTTCAACTTTATTTTGTTTTAAATCCTTTTACTTTTTTTTCTAGTTCTTGAACTAATTCAACAGTATCTTTTATTTCAGAAAGATTATTATTTAAAATATCCCCTATTTTAACCGAAATTTCTTGAGTATTTATTGATACACTTTCTATATTGGTAGAGCTATTTGTTAATAATTCTATAGCTTTACTTACATCTTGAACTGACATATTTTGTTCATCTATCATTTTATTTACATCTTGAATTAATACATTGTTTTCATCTATTAATTTATTTATATTTAATATAGTTTCTGTTAATTCATTTGTTGTATTTAGTGTAAATTCTACTTTATTATCAATGTCTATATTAGCTTCTTTTACATTTTCTATTTGTTTTTGTATATTAGACACTATTTTTTCTATTTTTTTAGTCTCTTTATTTGTTTGCTCTGCTAATTTTCTTATCTCTTCTGCTACTACACTAAATCCTCTTCCCGCTTCTCCTGCTCTTGCCGCTTCTATTGCTGCATTTAATGCAAGTAAATTTGTTTGTTCTGCTATTGCATTTATTGCTACTGTTATATCACCTATTATTTGTGATGATTTAACTAATTTGTTTATTTCTTTTTCTGCACTGTCTACACTATTTCTTATAGTACTCATTTGACCATTCATATCCGTTATCTTTTTGTGGCCGCTAACAGATACATTTATTGCAATTTCACTATTTTTACTGACGTCATTTGTTTTTAATTTTGATTCTTGAGACGCTGCTGAAATTTGTTGTATTGCAGCTAAACTTTCTTCTGAGGCTGCCGTTTGATTTCTTACATTATCAAGTACTCTATCTATATATTCTTGTAAATGGATAGTTCCTGCTTCAAGTCTTTCTTCTAACTGATGCAAATACTCTGATTCTCTTCCTTTAATTATATTATCCATAATATTATGAATTTGTGTATTTCTATCTGTTAATACAATCGTTAATTGTTTAATTTCATATATAATATCATGTAATTTATCAAGAAATTTATTAAAATATTCTGCTAACTCTCCCACTTCATCATTAGATACTATTTGTATTTTATTAGTAAGATCCGCTTCTCCTTCTGCAATAAGTTTCATATTTCTATTTACTTCTTCTAATGGTTTTACTATTTTTCTTAAAATTAATCTAAAGATTAACCAAGAAATAATAATAATAATAAACGATAAAATAATTTGTCTTATTATTATATTTTGTATATTTTTTTTGGCTGCTATTTTTTCCCTATCTATTATACTTTGAATTTCTGATAAATATATTCCTGTTGCTATAATATAATTCCCTATTTTTTTACCATAACTAAGTTTTGGTTCTTTTTTCCCACTTTTTGGATTTAACCATGTATATTCTACAAAACCAGCCCCATTTTTATTTGCTTTTTTAACTAATGCAACAAATAAATTTTCTTTATTTTCACCCACTACATTATATTTAGTATTATTTAATAATTTACCTGTAAGTGATTTCCCATTTGGATTATATATCATTTTGGGATAAGGTAGTGTAGTATCATTTACCCAGAAATAACCTGTTGAATCATATTTAGCTTTATCCAAAATCTCTATGATTTCTTGTTCATTTTTCCCTTCAATAAAACTTGCTATTGAATCCACTAAATTTATTAAATCTTGTTTTTTTTCATTGTAATAATTTTTAGTTAAATTTTCTAATACTCTTTTACTTCGCTTTTGTTCTGCTATTATACTCACTATAGAATTAAATAAACTAAAAATTACCAATACTAATATCACTGCCACATTAATTTTTTTAGAAATTTTTGTTTTTTTCATCGTTTCCTCCCTGATTAATTTAACGACCTATTTTCCCTTTAAACATACCCAATCCAAAAACTAATTTAAAACGAGCCATTATACCATATTTCAGAATAAAAATCAATCTTTAAATACAATTTTTATTGTTAAAAATAAAAAAAGACTACCATAATTAATATGTTAGCCTTTATATTTTTTTATTTGACTTTAAAGAAATTTAAATCTTCTTGTAATTTATTAATAATGCTCTCTAATGATGAAAGTATTTCTTGATTCATAAGTATTTTTTCTTTAATTTCATTTGAAGTATCTGTTACTTCTATTGTTAAACTTTCTATTTCTGTTGAGCTATCAGCTATACTACTGATTGCCGTTGTTACTTCTTTTGATGCATGTGATTGTTCGTCTACAGCTACAGAGATTTCATTTATTTGTTTAGCATTTTTATCATTATTCTCTTTTATTCTTGTCATATTTTCAAGTGATCGATTTGTTAATTTTATTCCTCTTGTTACTTTTTCTTTTACTTCATCTGCTCCCGTTTTTACTATTTCTACTTCATTTTGAATAGTTTTTACTAGGTTTTCTATCTTATCGGTTTCTTTATTTGTTTGCTCTGCTAATTTTCTTATCTCTTCTGCTACTACACTAAATCCTCTTCCTGCTTCTCCTGCTCTTGCCGCTTCTATTGCTGCATTTAATGCAAGTAAATTTGTTTGTTCTGCTATTGCATTTATTGCTACTGTTATATCACCTATACTATTTGACAATTCCTTTAATTTTTCTATTTCTGTATTTGTTTCTTCAGTACTTTCACTTATATTTTCCATACTTTCTGTTAATTCTGTTATATCTTTAAAACTTCTCTCTGTTATTTTTAATGTTTCAGCAAAAGAAACGTTAGTAACTTTAATATTTTCATTTATAGTTTCTGTAGTAGCAGTAATTTCTTCTAACGCTGCTAAGCTTTCTTCTGATGCTGCCGTTTGATTTCTTACATTATCTACTACATTTTCTATTGCTTCATTAAGTTGTATTATACCGTTGTTCAATTTATCTTTTAATTCATTATACACTTCACTGTCTTTACCATTTATTAAATTATCCATTATATTTACAACTAATGTAAAGGTATTTTTTACTTCGTCTCCAAGGTTTTTAGTTTCTTTAATTATAGTTTTTATTCTCTCCATAAATGCATTTATATCTTCTGCCATTACAGCAAACTCATTATTTTGTTTTGTAACTATTTTAGCATCGAGCTCTCCATCTTTTGCTGCAGCTTCTAATACTTTATTAACATCTTTAATAGTTTTTGCCATTATATCAGTAGCAAAACTTAAAATTAATACAAGAACAATAAACATTAGTATATTAGAAAATATTCTTTGTTTTATATTTTTACCAAGTACTTTTAATTCATTTTGTTCCATATTTTTTACTTTTACTTCTATATCATCTATATAAAAACCCGTTCCTATATACCAATCCCAAGGTTTAAATTGCTTTACATGTCCAAGTTTTGGGAGCTCTGTAGTTCCACCAGGTTTTGGATAATAATATGTAACATAAGATTCACCATTTTGTTTTGCTATATCCACTAACTCTTTTACTAATTTTTTCCCTTGTTTATCTATTAAGTTTTCTCTATTTGTTCCCTCTGCTTTTGGTTTAACTGAATATAATATATTAATATAATTACCATTATCTATCCAAAAATAATTATTTCCAGTATATCTCATATTTCTGATTGTTTCTTTTGCTTTATTTTTAGCCTCTTCTAATGTCATCTCTCCAGATTCATAAAGTTTATTATACTTATCTAACACACCTATCCCCAATGAAACTAGGTCATTTAACTTTACTTTATTAAATTCAATTTGTTCATCTCTCAGTCTTGTTACTCTCTCTACTAACTCTTTATTAAAAGTATAAGAGGTATATAAAATATCTAATATTGAAATTATAATAAATGCAATAAATACTGGAATAATTATTTGATATTTTACTTTTTTTCTCTTACCTTTTTTCATTGTCATAGATTTTATCACAACTACCACACTCCTTGTTTATTTTTTATAATAACTCCTTTCCCCTATTTCCCTAAATAATATTCTTTGTTACTAATCTTATACTCTTCTCATTATTTTTTCCTTTTTTTTTTATTTTTTAAAACAAAAATGAGTAAAAATTAATTTAGCCATTGATTCAAGAGAACTACTCACCACTTAAATTCTAACGAATTTTGAAGTGGTAGTATTCTGCTAAGCAATTGATAAAATTTTATATTTCGTCCCACCCAGTAACAGCGCTTGATTGATTATAACTTGTAACTGTACTTTCAAAAAAGTTTGCTTTTGTATCTCCTGAGCCTTCTGTATCTGCTATTTTTTCAAGATGTTTATATGGATTTTTATCAAACCCTTTATATAATTCATTTAATCCTAAACTTCTAAGTCTTTGATTAGCTAGCCATTTTGTATATTCTTCTGTACTTTTTTTATTAATCCCAAGTACATCATCACCTATAATATGATTTGTCCATTCTATTTCTTGTTTTACTGCTGTGTCAAACATTTCATATACAATGTTATCTATAAAAATTTCAGAATTTTCTTTTTTGATATCATTAATTATATTTTGAAAAAGCACTACATGGCTAAGTTCATCTCTGTTTATATATCTAATAATATCTGCTGTTCCAGGCATAAGATTTCTACTAGCTAATAAATAAAAAAAGTTAAATCCATTATAAAAATATATTGCCTCTAATAAATAATCCGCAACTAAAGTTTTAAAAAAATTTTCTATCGTTTCATTATCATGATATTTTTGATAAATCTTTGCTATAAATTTTATTCTATCGAATAACACTTCATCATCTCTCCAAAATTCATAAATATTTTCTCTATCATCAACAGGAATAATACTTTCAATTGTATATGCATAACTTTGTGAATGTATAGCTTCTTGATAAGTTTGTATAGATAACACTAAATTTATTTCTGGTGCTGTAATTACTTCCGATATTTTAGGTACATTGTTTGTTTGAATACTATCTAAAAATACTAAAAATGATAAAATACCATCATATGCTCTTTTTTCAAATTTTGTAAGCTTTTTATAATCTAAAGTATCCATTGTTAAATCTACTTTTTCTGGTATCCAAAAATTTTCCATCATAGTTCTATAAAGTTTATTTGCCCATTTATATTTCACATTATTTAAATTAAATAAATTTGTTGTACTACCATTTATTATTCTTCTTTTTTCTATATTATCATTACCTTTTGGATTGAATAAAAGTTTTTTAGTTAATAATTTTTCCAATTCTTTTCCAGACATACTATCCTCCTAAATTTTATTTTCTTTAAAAATCTTAATTTAATTAAACTCATTTTTTATTTTTCCAATTCTTTTATTTAGATATTTCTTTCTTCTTAATTTTTTATAATAATTTTTTAATTTGCACAAGATACACATTCTTCTTTTTCATTCATTCTATTACTATTTTTCTGAATTGTTCTAGTATAATATATAGTTTTACATCCTTTTTCCCATGCTGTCATAATAGTATTATAAATATCTTTTGCTGTAATCTCCATATTTAAATTATAAACTAGCTCAAAACTTATTCCTTGATCTATCCATTGTTGAATTGTCGATATAATTTCTACTACATCGGTTTGTGGAATATTTTTATTTTCTTTGTAATACCAAAACGCTTTTTTTATAAATGGCGGTGCTATTGGTACAACTCCTTTTGCATTTTTATCCATATAAAATTTATTAAATATAGGTAATACACTCGCACTACAACCTTGTACTAATGCACTAGAAGTATTTGGTGCTATCGCTAATAATTGAGAGTTTCTTATTCCATATTTCTCTAAATTTTCTATTGTTTTTTCCCATTCACTATATAAATTACTATTTTCTCTAAACCACTTTTTATTTTTTCCAAATAATATCCCTTTACTCCATTCACTACCTTCGTATTTTTTATATTTCCCACGTTCTTTAGCGAGTTCTATACTAGATTTTACAGCATTTAAAGCAATATATTCAAATAAATCATTCACCTCTATTAATGTTTCTTTATTTTTTCTATAAGGTAGCTTATTTATTGCTAAATAATCTGCAAGTCCCATGGCTCCTACTCCTATCGTTCTATATATCTTATTATGGAGATTACTTTCTTGAATAGGAGTAACTGTTAAATCAATAGCATTATCAAGTATCCTTACAGCTAACTTAGTAGCCTTTTCTAAATCTTTTCTTTCTAGTAAAGTAGAAAGATTTAAAGAAACTAAATTGCATGTATGTACAAGTCCACTTTTATATTCACTTTGGATTTTTTCTTTATTAAGAATTTCTTTATTTAATTTTGTTGGTTTAAAATTAGAAAATGATTCTTGACAAAGATTTCCGCTTCCTATCATTCCATCATGTTTATTAGGATTTGTTTTATTTACAGTATCCTTAAAGAAAATATATGGCATCCCTGTCTCTATTTGTGTTTTCATTATTTTTTTTAAAAGTTCTTTAGCCTTTATTTTTTGAGTTAATTTTAGTTTATTATCATTTTCAAATATTTTATAATGTTTTTTAAATTCTTCACCCCATAATTCAGCTATTTCAACATTATATTTTAATCTTATTTCATTCGGTTCAAATAACGTCCACTCTTTATTTTCTTTTACTCTTTCCATAAATAAATCATTAACTACTACTTGTGGAAAAATATCATAAGCTTTTTTTCTTTGATCTCCATTTTCTGTTTGAAGCTCTAAAAAATGTTCTATATCTAAATGCCAAACATCTAATGCAACAGTTACCGCTCCTGCTCTTTTTCCTAATTGATTAACTGCTACTGCTGTATCATTTATAATTTTTATCCAAGGAATTACTCCACCTGAGGCCCCTGGAGTTTTATTTATTTCTGCTGATGTACCTCGAATTCTACTAAGATTTACTCCTACTCCACCACCATTTTTAGATATTTTAGCTATTTCAGTTATATTGTAAAATATACTTTCCAAAGAATCATCTATCGCTGTAATAAAGCATGATGATAAATTTCCATTTGGTTTTCTCAAATTTATAAGTATAGGAGTGGCTAAAGATATTTTTCTTCCTGCAATATGATGATAAATTTCTTTTGCTATTTTTAATCTAGTTTCTTTTTTTTCTGTAGATGCTATCATAAGCGCAATTGTCAAAAACATCTCTTGTGGAAGTTCAAATACATTATTTCTATCTTTAATAAGATATCTATTTACAAGCATTGACATTCCTGCATAATCATATTCAAAATCATATTCTTGATTTATAAATGTAGATGCTTTTTTTAATTCTTCGTCACTATATATTTTTTTTATTTCATCACTATATAAACCTTTTTCTATCGCATTATTTACAAAATTTACATAATCATAATATCCCTTTTCTTTTATTTTTCTATTAGATTCTTTATATATTTCCATTAATAAAAGTCTTGCTGCTAATTTTTTCCAATCTGGCTCATCAACTGTAGTCATTGCAAGAGCTTGTGTTATAAGAGAATTTTGTATATCTTTTGTTGTAATAGTATCTGTATAAATACTTTGAATATGGCTTTCAAGTTCTAAATAATTAATCTCTAGATCTTTACTTGCCCATTCTAGTGCTTCTCTTATTTCTTTAATGTCTACTTCTGATACTCTGTTATCTCTTTTCACAATTTTAGCCATAACCTTACCCTCTTTCTTTAATTATATTTATTTCATTTTTATTATCGTTACAATAATAATACCATATATTGTGCTTAGATTCAATTTTTTTTCTATATTTTGTGCTATAAATAAATTCTCTTTATTATTATTTTAAATTATATATTCTCTTTATTATTATTTTAAATTATATAAAGAGTTATTTAAACTATATATTACTAAACAATATAAAATAATGTACTTAATAAATAGTATAAATATCACAAAAAAATATTGCATTTTTAACGACAATAAAATATAATTATTAGCATAACAGAAATTTAAGGAGGATTTTATGGAACAGTTACAAAAGAAGTATGGTTTAGCAACAGCTGTTGCAATGGTGGTAGGAGTTGTAATTGGGTCTGGAGTTTTTTTCAAAGCTGATGACATCCTAAAACTTACAAATGGAAATTTAATATATGCATTAATTGCATGGGGAATAGGTGCTTTTTCAATGATTTTTGGTGCACTTGTTTTTGCTGAGTATGCTCAAAGAATAGAAAAATCAAATGGTCTAGTTGATTATTCAGAAGCAGCATATGGTCCAAGATTTGGATACCTTGTAGGATGGTTTAAAGGAATAATCTATTTTTCGCCTTTATCTGCAATACTTGCATGGGTCGCATCACTTTATACTATGATATTATTTAAAAGTAGTAATCCTGTTAACTCAAAAGAAACTTGGATTTTAGCATTTATATATTTATCAATAATATCTATAATAAATTGGACAGCACCTATTTTAGCTGGTAAATTGCAAGTAACTACTACTATAATTAAACTAATACCTTTATTTGCAGTAGCAATAATTGGAACAATTAGCGGAATTATTAATGGGGTTACAGTATCTAATTTTATTGAAGCAGCAAATCAAGTAGGAAGTAGTAGAGGAACACTTGCATCAGCAGTTGTTGCTACAGCATTTGCTTATGAAGGCTGGATAATAGCTATTACAATAAACAACGAAATAAAAGATTCAAAAATAAATTTACCAAAAGCTCTTGTAATAGGCACATTTATAGTATTTGTTGTGTATATATCATATTTTTTAGGGATAGCTGGAGTTTTAAAAACTGGAACTATCGTAAATGAAGGTGATAATGCTATTAGACTTGCTACTACACAGTTATTTGGAAATATTGGTTCTGTTGTATTAACTGCTTTTGTAGTAATATCTTGTCTTGGTACATTAAATGGTCTTGTTTTATCAAATATGAGAATCCCTTATTCACTTGCTATAAGAAATCAAGGACCTATACCAAATATTTTATCTAAAATCAATCCTAAAACAAATACACCTATAAATTCTGGTATTTTTTCTAATATTTTAACACTTATATATCTAGGGTTATGGTATGCTAGTTTAAATAATTTATTTGGTAGATATATAGGACTCGATGAAATTCCTATAGTAATGGTTTATGGAATATATTTATCACTTTATATATGGTATATAAAAGAATTTAAAGAATTAAATTTTTTCAAACGATTTGTAATACCTATTTGTGCAATTATTGGAGCATTAATCATATTATATGGTGGGATAACTAATCCTGCTATTGGAATATATCTTGTAATTTCTCTTTTAGTATTTGCGTCAGGACTATTATTCTATAGAAAAGCTTAATTTAAATAAAAAACCACTAAATCAATTATAATTTAGTGGTTTTTATATTATTTGTCATTTTTAAATCCTTGTGATTTCATTGTAGGATACACATTAGGGAAATATACTTGCTTATATATACTTGCTGTTCTACTTGACCAATTCTCTTCATTTTCAAGACCTATTTCTTTTAAATACATTTCCATTGTTTTATCATAATCACTAATATATTTAATTAAATTGTCTTTTTGATATTTTTCATTATGAATAAATGTTTCTTTTGGTAATCTTGGTTTTTGTTTAGAGTTATTTTCAGCATATCCTATACATAATCCTACTAAAGGATATGTATACTCAGGTAATTCTAAAAGTTTTATCATTTCTTCTGGATTTCTTCTAATTCCACCTATAGGAACTATTCCAAGTCCTAAAGATTCTGCTGCAATTATTGCTGCCCCCATAGCAAGTCCTGAATCAAATGTCCCAACTGCTGTACTTTCAATACTTTCATGAATAACTTGAGGTTCACCTGCTTTTTTACCTGCTAAATAAGTTTTATAAAAATCTGCTACAAATACTAAAAATACAGGTGCTTTTGCAATATATGGTTGTCCACCAGCCAATTCAGCAATTTTTTCTTTTGTATTTTTATCTTTTACTACAATAACTGAAACCTGTTGGCCATTTATTGATGTAGGCATTGCTTGAGCTGCTTCTAAAATTGCATCAAGATGTTCTTTTGGAATATCCTTATTTAAATATTCTCTAATTGATCTATGGTTTTTAATTGTTTTTATAGTTTCATTCACATTATCATCTCCTAATTTATTAATATACTTAATCATAACATTTCTTTAGTTTTAAAGTCAAGTTTTTTTGTGTATTTAAATACTATTTTCATTTTATGTTAATTTTATTTATTTTTTATCTATAACCATAGATTTTATTTAAAATCCAAAACTTCTCTTTCCATCATTATCTATATCTATAGTGATTAATTTATGTCCAAATCCATTTAATTCTACATATGCTTCACCTATGAACTCATCTTTAATATTTTTAATAATACAATCCCCTTCCCAATATTCAGGCCCAATCCAAAATTTATGTTTACAAGCTAATTCTTGATTTTTTATTTTAGGATAAACATAATAATCCATGTTTTTTAACTTTATATGCCATCCACTAGGATATTTTATTTTTGTTTTTTTACTTATCCATTCATTAATTACTTTTACATTAAAATCTTCTTTAAATAATTCTATAGTTTTATTATTCTTAGTTATACTTCCATAATTATTTTTATTTTCTTTAAAAAAATCAAATAACATAATTGTATTTCCATTTTTTAATGATAATGCAAACCACTGCCACCCTTTAAAAATAGCTTGATACAACTCACCTAATTGTCTATCAAACCATGTTATTCCATAAATATCATATATTTCATTATCTATTTCCATAATCCCACTTGTTTCCATTTTTTCTCTAGAATAATAATAGGTATAGCCTCCAAAAGTATATTCATAAGCTTTTCCATTATATCTGATAACTGGTTTTTCTTTTAATTTTAATTTTAATTTAACTAAATAATTATCTATTTTAAAATTAAGTTTATCTTCTCCATTTCCCCCACTACATTTTGACCAATTTTTTTTGTTTTTAAAATCAAATTTATAACCGTTTTTTAATTTTTTAGGTAAAGATAAAAATTTTACATCTTCATAATAAGAAAAATTTTTATCTTTTATATCTGTAATAGCAGCTTGTGCTAATTCATTTTTAAAAAAAATAAAACTATTAAAAGCAAAAAAAACTATTTCAAACCCAAACTCTCTTTCTTCTTTACTCTTTCTATTTACTCCTTTTAGATGACCTGTCCAATACCACCATTGAACATCTTGGTCTCTTTGAAAAGAATCAAATTTTGGTAACGTTATAACTCTTTTTTTTCTATTTTTAAAAACACTCAATGGATGATGTACATTTTTTACATAAAATAATTTTTGATATAAATATGCTAAATATTTTTTTAAATTCATCTTAACCCCTTTTAAAATTTATTTTTTAAATTGAAAACCTAAATTATCCTCTGTAAATATTGAAAATATAAATGATAAAATATAGTAAAATATTACTTTTAACACTAAAAAATAATCTTTTTTTGAATTAAATATAGAAAATAATTCTTTTAAAGTAAACTTTTTAATAATTACTAAAAATAATTTAAATACCTCTTTTTCTTCTAACTCCAAACAAAACATAGTTTCTAAAGTTTTACCTTTAAAATTGTCTACTATTGTTTGAGTGAATTTATCAATAAGTTGTGGTTTAGCATTTGATAAAAAATGTAATACCAATTTATCCATAACAATTTCAAATTTTTGTCTTTGATTAAATGAAACTATTTTATCAAGATTTTTTTTATTTAATTTATCTTTTTTTATTAGTTTATTTAATTTAAAAGCATAATTTTTATAATTATTTAATATAAAAGACATCCCCCATCCCGCAGGAATAGTCCAACAACCAGCATCACCAATAAAAGCTAATCTATTTTTCGAAATTTTTTGAGATACTTCATTTGATGGGTACCAACCAAATCTAACTTTTAATATTTTTCCATTTTTAAAGTCTTTTATAGAATTTTCATTCTTTAATATTGCATTAAATATATACTTCATAGTATTTTTATCTACTTTATTTTTTGAAAAAAATAAAATGAATACAAAAACTCTTTTTTCATCTAATACTTCATACTCCATAATAGGTCTAAATTGAAATAAATTAGTATTTTTATCTATTGGACTATCTTTAAATGCTTGCCAAAGCATATAATCACCAATTTGCATATTCCCTAAATTTCCTGGGTGTTTTAATTTGCTAGTATCATCAAATTCTAAATCATATCCATATACTGACCAATGATAATAATTATCTCTATTTATATTTTCTTTTTTTACAATCATTGAGTCATAGCCTGAAGCATCTATCAATATTTTTGCTTCTATTTTTTCTTTTCTATAACTTTTATTAATTATTTCTACAACTACATTAGTATCTTTTATTATATAATCACTACATATAGAATTTTCAAATAATTCTCCATTATTTTCTAAAATAATGTTTTTAAAATGATTTAATAATCCTGCCTGATCAATAAAAGGATAACACTTATATTTTTTATTTCCCCAAGGCGGATTTGTATCCCATTTTATTTCTAGATGTGGGGTATACTCTAAAAATCTTTTTACTCCATTATATGCATACTTTTGTAAATCTTTATCAAGCTTACTTATTACATTCCCAGGTATAAGCCATGAACGATTTGTTTTTCCTACAATATTTTTTTCAATTATAGCTATTTTATTACCTAGTTTAGAAAGTTCACTTCCTACACTAAGACCGCTTGGTCCACCACCTATAATAATCACATCATATTTCTTCATTTAAATCCCCTTTCATTGTTTAAAATATTCAATTACATAAAATTAAAATGTAAAGAATTTTTTAATACTATTAGTTTTGTAAGTAATATCTATTACTCTAAAATTTATATCGGTATATTTAATTATTTAGTTTAAAAAACTTAAATTAATTGTAAGTGATTTAAAATTGAAAATATTATTTAATTTTGGTATAATTATAAAGTTAAAATAGAAGAATATTAGGAGGATTTTTATGGAAAACTACATTCTTGACAAAAAGATATATGAAAGTAATAAAACTTTAATATACTCTATATTTGATAAAACATCTAATGAAAAAAAAATAATAAAAATTTTAAATAAAGAATATCCTACAAAATATGATATTGATAAATTTCTATATGAATATAATATTGGAAAATTTTTAAATATTGAAGGAATTATCAAATATTATGATTTAATAAAATATAAAAATTCTTATGCTATTATTGAAGAATATTTTAATGGTGAACCAATAAAAAATCTTTCTTCTTATTCTCTAAAAATAATTTTATCTATTTTAATTGATATAACAAAAATTATTTCTAAATTACATAATCAAGAGATAATTCATAAAAATATAAATCCTTCTAATATTTTATGGAATAAAATTGATAATACAGTAAAAATAATTGACTTTGGAATTTCTGAAAGAAATATTTCCAATAAATATCTAAATATCGAAAATGTTATTGAAGGTACTTTAGCTTATATTTCACCTGAACAAACTGGTAAAATAGATAGAGAAATAAGTTATACCACTGATTTATACTCTTTAGGAATTACATTTTATGAATTGCTTACTGGAAAGTTACCTTTTGAAACTGATAATCCTCTTGAAATGATTCACTGGCACATTGCTAAAAAACCTGAAGAATTACGAAAAATAAATCCTAAAATTCCAAAAGTATTATCAGATATAGTAATGAAACTATTAAATAAAATGCCTGAAGATAGATATCAATCTGCTAATGGTCTTCTTTTTGATTTAAAAAAATGTTTAGAATATTTTGACAAAAATACTATCAAAGAATTTATAATAGCTAAAAATGATTACAGTGATAAATTAATTATTAAAAATAAAATATATGGTCGAGAAAAAGAAATAAATTTATTATTAAATAGTATTAAAAAACTAGAAAACACTTCTTCTACTATTTTTGTTCTTGGTGAATCAGGGAGTGGAAAAACTTCTCTTATTAATAATGTTTTATCTAAATCTTTAAAAAAAGATACTTTTATATTAACAGGTAAATTTGAGCAATTTAAAAAAAATATACCCTATTTTGCTATTACTCAAATATTAAAGAAATTATTAATTGATTTATCCAAATTAGATCAAGAACAATTTAATAATTTAACAATTTCATTAAAAAAAGAACTTGGAGATAATTTAAACTATTTAATTGAAATTTTACCTGAACTTTCTAAAACTTTTGATATACCAACAAGAATAAATGAAGATACTAAGATTGATAAAAACAATATTTTGAAATACATATTAAAAAAATTTATTGATATTATTACTAACTTTAATTTAAAATTAATTATTTTTTTAGATGATTTACAATGGGCAGATGCTGCTTCGTTAAATTTTATAGAAATTCTAATAACTGAAATCAACAAAAATCTATTATTTATAGGAAGTTATAGAAATAATGAAGTAAATTCTATTCATTATTTGAATATTATTTTAAATAACATTAATAAATATAATTTAAATATAAAAGAAATCAAGTTAGATAAATTGAAAAAAAATAACATCTACGAATTTATTTCTGATAATATATATACCTCAAATAAAGATAAAAAAAATCAACTTTCTAAAATATTATATGAAAAAACTGAAGGGAACCCATTTTTTTTAAAGGAATTTATTATTTCACTTTATAATGAAAACGATATATATTTTAATTATGATAAATATGAATGGGAATATAATCTTGAAAATATAACAAAAAAAAGTATTACAGAAAATATTTTGAAAATTTTATATAAAAAAATGAATAGATTAAATAAAAAATATTTTGAAATCTTAAAATACTGTGCTGCCCTTGGAAATGAATTTGAATTTAACAGCTTAAAAGCTTTAACAAATATACATGAAAATGAACTTCAAGAAATAATGAATTTTTTAATTAAAGAAAAATTTATTATTTTAATAAATGTAAATCAGTTTAATAATATTTTTAAATTTTCTCACGATAAAATAGAGCAAGCTATAATTGATGCTATGTCTGAAAATGATTTATTAGAAAAGCATCTTCAAATTGCTGAATATTTAATAAATAATTTTGATATTCATAATGAAAATATTATTTTTGATATAGTTTTTCATTATAATAAATGTTTTAATATTATAAAAGAAGATAAAAAAATAAAAAATATTTTATATTATAATTATCTTGCTGGAGAAAGAGCAATTAAGTCATTAGCTTTTGATCAAGCATATATATATTTTAATTTTTTTTATAACAATTTGAATATATATAACATAAAAAGCGATAGTGAATTATTAGAAAAATTTTATACTAAATATATTGAAACATTATATTATACAAAAAAATACAATGAACTTGTAAAAATATTTAATATAATAGATGCTTATACCGACGATTTCACCAAAAAATTATCTGCATATGAAATATATATTGATTATCTAATAGCTGTTAATGAATATAATAAAGCACTTGAAATTGCTTTAAAATTTTTAGAAAAATTTGGGATAAATTTATCTAAAAACCCTTTAAAAATAACTATAATTACTAAATTATTAATATTACAGAATAGGATTAAAAAACAAGATTTCAATAATTTACTTCATAGAAAACCAGTAAATGATAATAAAATTAAAATAATTTTAAGAATTACTTCTAACATATTAGGAACTGCATATGTTGCTAACCCAAATCTTTTTATTCTTTTAGTTCTTACTCAAATTGAACTTACTTTAAAATACGGTAACTCTAGTAGTGCTCCTGAAGCATTTTCATTATTTGGTCTATTATTAATAGGTCTATTTAATAATTATGATATCGGATATAAGCTTGGAAAACTTGCATTAAACTTAATTAAAAATAATAATTATTCAGATTACAAAGGAAGAGTTATTTTTTATAATACAAATTTTATTCTTCATTGGAAAGAAAATAGCATTAAAAACCTTAAATTAATCGATGATATTTATAAAATTTCTTTAGAAACTGGAGATTTGGAATATGCTGCTTGGTCAATATTTTTACGAGGTGAATATGAATTTTTTTCTAGAGGAAATATTAATAAAGCTATTATTTATTTTAGCGATATAACAGAAAAAACATCAAAACTTAATCAAATCAAACAAAAAATTTATTCTACAATTTTTTTAATAACTACAAAATATTTATTGAATATAATATCATATGATGAATTCAATAAAAAAATGTTTGATATTTTAAAAGGTTCTGAAATAGAAAATGATAAAATTGCTATATATTTTGTTTATTATCATCTTGCTGTAGTCAATTATCTATTTGAAGATTATAAAAAAGCTTTAACAAATATTAATTTAGCTGAAAAATATTTAGACAGTAATATGGCTAGTATGAATTATCCTATGTTTTATTATTTTTCATCTTTAATTCATCTTAGAGCCTATAAAACTAATATAAAAAATAGTGTTATTCATAAAAAAATTAAAAAATATTTAAAACAATTATCAATTTATGCTAAAAATTCTACAGATAATTATTTACATAAATATCTAATAGTTAAGGCTGAATATTACAACTATACTAATAATAAAAATGCTAAAGATATCTATGAGGAGGCTCTATTCCATGTAAATCATAGTGAAAACATCTTAGATATTGCTATTATAAACGAACTTATAGCTAATTATTACTTTGAAAATAAACATTATAGAATTAGTGATATTTATTTAAAAGATAGTTTTTATAATTATGACAAAATTGAGTTAAATAATAAAATTGAGTTATTAGAAAGAAGATTTAATCAAACTTTTTTAAAAGAGCACTATGATAATATTGAATTAAACACAACTATGAATACAGTCTCTTTTAACAATGATACGCTTGATATTGATTTTTTACTTAAAATATCTAAACTTTTTTCTTCTGAAATTATATTTTCTAAATTATTAGAAAATATAATGAAATACCTTATTGAAACTATTGGGACAGAAAAAGGATATATTTTAATAAAAAGAAATAATGAATTTTATATAGAAGCTAAAATAGATATTAATTATTCAGATATTGAACTTATCTCAATACCATTAAAAGAAAAATTAGAAGAAAATATATCTTATGATATAATAAATTATGTATTAAAAACTAAAAATTTATTTGTTTTTAATGAAGATAATAACGAATTTGATTTTGTCATTGATAGCTATATAAAAGAAAATTTAGTAAAATTTCTTTTATGTATACCTTTAATTAATGAAGGTGAATTAATAGGATTAGTCTATTTAGAAAACAATGTTGTAGTAAATAAAGTATCAAATATTCAAATAGAAATACTTAAAATGATATCATCACAATTAGCTGTATCTATTAAAAATTCTATTATATATGAAAAATTAAACAAATTAAATAGAACTCTTGAACGAAAAGTTTTTGAACGAACTCTATCACTTGATGAAAAAAATAAAAAACTTACTGATAGTATAAATTATTCTAAAAAAATTCAAGAAAATGTTTTGCCTAAAGAATCTGATATCATAAAATTTACAAAAGATTCCATGCTTATTTATTTACCAAAAGATGTGATTTCCGGTGATTTTTATTGGTTAAAAGAAATTGAGGAGAAAAAAGTATTTATAGTATCTGATTGCACTGGTCATGGGGTTCCTGGTGCATTCTTATCGATGATTGGCTCTATTTTATTAGATAAGTTATTAATCAATAACTTACTTCTTAATCCATCTAAAATATTAAAACAACTTGATAATGATTTTAAAAAATATCTTAAACATAACAATACAAATAAAAAATTTGAGCAAATAGATGGTATGGAAACAGCTATAGTTACTCTTTATCAAAATAAAATATATTTTTCTGGTGCTAAAAGAAATATTTATATTTTGAGAAAGGAAAATAACACTTGGAAGCTAAAAGAGATAAAGGGTAATAAATTCTCAATTGGTGGGGTCCATAGAAAAAATGAAAAAATATTTAATACGATTGAATTTGAAGTAATAAAAAATGATATTATATATATGTTTAGCGATGGCTTTGTAGATCAAAATAATAATAAAAATGAAAAGTATGGTATAAATAGATTTGAAAATCTTATTTTAAATATAGCCGATAAAGATTTAGCAGTTCAAAAAACATTAATTTTACAAGAATTATCTACTTTTATGAAAGATACTTCTCAAAGAGATGATATCACAATACTTGCATTTAAGATATAAAGTTAACTTTTGATTGCTTTATTTAATATATAATTAAGAGGTAAAAAATGAAAAAAATTAGAGTAACTGTTCCCGAAGATATATACAGACTTATTAAAAATGATATAGAAGATTTTGGCATAAATAACAATAAACTCTGTAATTTTATTTTAGATAAATATAAATATAAACGTGAAAATGAAGATTTATTAAAATCTCAAGGAAAATCACTTAGAAAAATTATTCAATTTGACTTAAATCTAAAAAATAAAGAAATTTATTATAATATATTACGAATAAATAAAGTAGCGGTAGAAGCAGAATTTTTTAGAGAATTATTTAAATATTATTGTTCCAATTTTAAATATAAACGCGAACTTTTTGTTTTTTCTGATTTAGTACAAAAAATTATTTTAGCTATTGAAAATAAAAATAAAATTAAAATTAAATATAAGAAAAAAATAAAAATAATTGAGCCCTATTTTATCAAACGTGATGAACAAGGTGAAGAAAATTATCTGTTTTGTTACTGCTGTACTTCGAAAGAATATAAAAATTATAAATTAAAAAATATAGATTTTATATCTGAACTCTCTGAAAAAGTATTAAGACGTGATAAAAAATATATTGATTCTATTAGAAAAAATTTTGATCCATTTTTATCACATGGAAAAATAGTAAAAATAAAACTTACAAAAGAAGGTGAAAGTCTTTTAAAAACGTATACAGTACATAGACCAAAACTTTTAAGTAAAAATAATGATATTTTCGAATTCGAAGCCTCTACAGAAAAAGCTTTTCTATATTTTAGACAGTTTTTATCTGAAGTTATAATATTAGAACCTCTTGAACTTCGAGAAAAAATAAAAAATTACTTAATTAATACTTTAAAAAATTATATAGATTAAATATATATAATATATTTTACTTTATATATAATTTAGTGTAAAATTAGTCTTAATAAAATAATACAACTTATCAAGAGAAGTGGAGGGAACGGCCCTAAGAAACTTCAGCAACCTACTTTAATGTGTGGTGCTAATTCCGTGAATTAATTGATTTAATAAAATTAAATCAATAATTCAAAGATGAGAGATATAGTTTATACTACTTCTTTCTACTTTGAAAGAAGTATTTTTTTTAGGAGGGATTATGAAAATAAAAGACATATATATGCAAAAAAAAGAAAGTAAAAAACCTGTATTCTCATTTGAAATATTTCCACCAAATAGTAAACATCCTATTGATACTATTTATAATACAATTGACGAATTATCAAAATTTAACCCTGATTTTATAAGTGTAACTTATGGTGCTGGTGGAAGTACTAGAGGACGGACTGTAGAAATTGCTTCAAGAATAAAAAATAAATATAATATTGAATCTCTTGCTCATCTTACATGTATTGAGGCAAAAAAAAATGAAATAGACGATATATTATATAAATTAAAAGAAAATAACATTGAAAATATTTTAGCATTGCGTGGTGATCATCCAATAGATAGAGAGCCCATAAAAGGTGATTTTAATTATGCTAGCGATCTTATTACATATATAAAAAATAAAAATATGGATTTTTCTCTTGGAGGAGCATATTATCCTGAAGGACATTTTGAAACAAATGATCTTATGGATTTATTTAATTTAAAAAGAAAAGTTGATTTAGGAGCAGAATTTCTTATTTCTCAAATATTTTTAGATAATGAGATACTATATAGATTTAAAGAAAAAACTGATAAATTAGGAATCAATGTTCCTTTTGCTGCTGGTATTATCCCTGTAACAAATGCAAAACAAATGAAAAGAATTTTTTCATTATCACATTGTTCTATTAGTCCAAAATTTAAAAGAATTCTTGATAAATATGAGCATAATCCTGAAGCATTAAAAGAAGCTGGAATCGCTTATGCTACTGAGCAGATAATTGATTTAGTTGCCTGGGGTATAGATGGAATTCATCTTTATACAATGAATAAAATAGATACCACTAGAAAAATAGTAAAAGATATAGAATATATTATAAAATAAGTATAAATTTATAGTAAAATTTTATTTTCACTGCAACAACAAATAATAAATTTATTGTTGCAGTGTTTTTCATAATTAAATTTTTTTAATTATCTTTTATAGCTTTTTCTAGTGTAAAGTAAAATTCTACTCCATTTTTTTTATTAATTACTCCAAAATCTGAATTATGATTTTTTAATATCCCACTTGTTATAGCTAATCCAAGCCCTGTTCCACCATACTTTCTTTCCTCCAAGTCATCAGCTCTATAAAAAGGTCGCCAAATATAATCTAAACTTTCTTCTGGTATATTTTTACCTTCATTAAATATTGAAATTTTTATTGTATTTTCTCCAAATTCTTCAACATTGATTTTTATTTTTCCATTTTCTTTTACATATACAAATGCATTTGACAATATATTATCTACAACAGATTTTATTCCTTTTTTATCAGCTAACACCGACTTATCAATTAATTTTAAATCTAACTTCACATTTTTTTCTTCTATATCTAAATTATATTTTTCTAAAACATTTATAATAAATTCTTTTATTTCTATTTTTTCTTTATTTATCTCTTCTATATCTATTTTATTTATATTAATAAGATTATTAATTATTGATACCATTTTTTCTATTTCTTCTTGAATAACTTCATAATAAAAATCTCTTTTTTGAGGTTTTATATTATCTTTTAATCCTTTAGAATAACCTTGAATTATAGCTAATGGTGTTTTTAATTCATGGCTCATATTTGAATAAAATCTTTTTTGAATTTCATTTATTTTTTCTTTTTTCTTAATATCAGCTTTCAATTTATTTATATTTAATTCAAGTTCTTCTGATAAAAAATTTATACTTTTTGCAAGTTCCTCTAATTCATCCTTACTATTTATATCAATCTTTTCTTTAAAATCAAGCTCTGCCATTTTATACGTTATATTTTTTATTTTTATAATTGGATTTATCAATTTTTTAGATACTAATATATTTATTACTATAATTACTACTAAATATATCACTATAAACATTATCAATGAAAAAAGAGTGATTATTCCAAAAATTTCATCTAATCGTGTAAGTATTGCTGATATAAATATTGCTTCTCCATTTTTTTTGACATATTTATAAAGTAAAATATTTGCATTAAGCTGTTTTGTCCTTATTTCTTTCAAATAAAACTTTTCATTTATTTTATTGCTATGTTGAAATTCTAAAAAGGCCTGCTCTATTTCTGGTGGTATTGGCGGTCTTTCTCTAATATTTTTAAATTTTTCATTTATTCTTTTTTTTAACTGTTCTTTTAGCTCATTAGTTTTTTTTTCTTTTAAATTAACTTGAATTATTCCTACTAAATACTTTTCTTGAAGTAATTTTACATTTTCTCCTTTTTCAATAAGTTTTCTTACTTCTTTTATTTGAGCTTTCTTATATGTTATATATGTAGGAATTGCAATATGTCTAGCTACAAAAAATAAAATTATAAAAACTATAAACATTACACTACTTACAATTAAACCTATTTTTTTATTTAATTTCATTTATCTCACCTTCATATTTATATCCAACTCCATGCACAGTTTTAATTATATTTCCTATTTTTTTTCTTATGGTTTTTATATGTGTGTCTACAGTACGTATATCCCCCTCATAATCATATCCCCATATTATATCTAATAATCTTTGCCTTGATAAAACAATATTTTTATTTTTTATAAACGTAAATAAAAGTTCAAATTCTTTTTTAGAAAAATCTAAGACATTTTCTTTGTATTTAAGTATTCTTTTATCTAAATCAAGCTCTATATTACCATCTATTATTTTATGCTCTTCTGGATAGATTCTTTTTAAAAGAACTTCTACTCGTTTTAAAAGAACATCTGGATTAAATGGTTTTCTTATATAATCATCTGCACCATAATTAAGACCTGTTAATTCATCTTCATCAGTTGTTTTTGCAGTTAACATTATTATCGGAATTTTTGAGAACATTCTTATTTCTTTAACTAAATCTATACCATCCATTTTGGGCATCATTATATCTGTAATTATTAAATCATATTTAGTATTATAAAACATATCAAAAGCATCTTCACCATTTTCAGCTTCATCTACTTCATAATCATTTTCTTCAAGATAATCTTTTAGAAGCCATCTTATTTTTTTTTCATCTTCTACTAAAAGAATTTTTTTCATATATTTTCACCTCTTATAAGTCTAATTTATCCACTTTAATTAAAACTAATATTTATTAATTTTTTTAATTTACTATTTCTCTAAATAAATTAATATAAATTTCAAGTTATTTTTTCTATGACAAATATCACTATACTTTAATATATTTTTAACTTTTATTTATACTATATTACCATAATTTTATGAAATTTTTGTGAATTTATTTTATTTTAATATTGACTGATAAAATATCATCTAGTATAATATTATATATGAACAATTATTCATATGTTTTTAAGGAGGAAAAATGATAATTAATGAAAAAGTAATGTTAAAAAATCTCTTTTGTAGCAGCTGTGCTACAAAAATAGAAAATAATATTAAAAAAATGCCTGAGCTTGAAAGTGCAGAATATAATTTTTCAACTCAAATATTGAAAATCTCTTTTAAAAATATTTATAAAAGAGAAAAAATTTTAGAAAAAATAAAAAATATTGTTGACACTATAGAGGATGGAGTAGACGTTTTTTATCTAAATGAAGCAAACAATAATGTGAATACTTCAAATAAAAAAAAGCTTATTTTATTAATACTGTCAACCACTCTATTTATTAGTTCATTTTTTATTAATAACAATTTTAAAATAATATTTATTATTTTGTCCTATATAATATCAGGATATCCCATTATTATTAAATCAATTAAAAATATACAAAAAGGCGACTTTATGGATGAAAATTTTTTAATGACTATAGCCACTCTCGGTGCATTTTCAATAAAAGAATATCCTGAAGCTGCGGGAGTAATGCTATTTTATCAAATTGGAGAATTCATGCAAGATTTAGCTGTAAATTCATCTAGAAAATCTATTCAAGATCTACTTAATATAAAAGCGACTTATGCTAATCTATTTAAAAATGAAACAATAATAAAAGTTTCGCCTGAAGAGCTCAAAATAAGCGATATTATAATAGTAAAAAATGGTGAAACTATACCAGCTGATGGTGAAATAATAGAAGGAAAAAGTTATTTTGATACTTCATCTCTTACAGGAGAATACGTAAAAAAATATTTAAAAACAGGTGACAACGTACTAAGCGGATTTATAAATACTGACCGTACTGTAAAAATAAAAATTAAAAAAATGTTTACTGATTCTACCATAGCTAAAATCTTGGAGCTTGTAGAAGATGCTGCTAGTAAAAAAGCAAAAACTGAAAAATTTATTACAAAATTTGCAAAATATTATACTCCTTTTATAGTTTATTCAGCTTTAGTTATTGCATTTATTATTCCTTTATTTTTGGGTAACTTTTCAACATGGTTTTATAGAGCTCTTATATTTTTAGTTGTATCTTGTCCTTGTGCTCTTGTAGTATCAATTCCACTTGGATTTTTTGCAGGAATAGGTAGAAATTCTAAAAATGGAGTTTTAATAAAAGGTGGAAACTATTTAGAGTTATTATCCGAACTTGATACAATAATTTTTGATAAAACTGGGACTCTTACAAAAGGAGAATTTAAAGTAGTTGAAATAACTGGCGATATCTTAGAAATTACAGCTTATGCTGAAAATTATTCAAATCATCCAATTGCTGAAGCAATAATAAAAAAGTATAACAAAAAAATCGATATAAATAAAATTCAAAAACATCAAGAAATAGCTGGATATGGAATAAGTGCAAAAATATTTAATAAAAGTGTATTAGTTGGAAATAAAAAACTAATGCAAAAATACAATGTCTCAATTCCTAAAATAAATAAAAACGGAACAATAATTTACACTGCAATTAATAATGAATTTCAAGGTTACATAATTATTGATGATATTATAAAAACCGAATCATTTAATACTATAAAATCATTAAAATCTAATAATATCTCTACTATAATGTTAACTGGTGATTCAGAAAAAGTTGCTAACTATGTAAGCACTAAATTAAGTATAGATAAATATTACGCTGACTTACTTCCTCATGAAAAAGCAAAAATATTTAAAGAAATTAAAAATAAAAAAAATAAAGTAGCTTTTGTTGGTGATGGTATAAATGATGCTCCTGTACTTGCTATGTCTGATGTAGGTATTGCTATGGGCGGAATAGGTTCTGATGCTGCTATTGCTTCTGCTGATATAGTGTTAATGGATGATAATCCATATAAAATTATTGAAGCTATAAAAATATCAAAATTTACTAAAAATATAATACTTCAAAACATAATATTTGCTCTTTCAACAAAAATTTTAGTATTAATTTTAAGTTTATTTGGAGTTGCAAATATGTGGTTTGCTATATTTGCTGATGTCGGTGTTGCTTTACTTGCCATACTTAATTCAACTAGAATATTAAAAGAAAAATAGTGCACGAATTAGCACTATTTTTAATATATAAAAAAACAGGAGAGAATTTTATTCTCTCCTAAAACGGCTTCACTAATTCATTTGTTTCAATTTCGATACAAAACTCCTTCAGTGATTCTTCCTAAATATTTTATTCTTACTTCTTACTTCTTACTTCTTACTTCTTACTTCTTACTTCTTACTTAAGAATACTACTCTTTTCTTTAAAATACAATACTTATTTTTATTTCTTTTATTACAAAATACTACACTAACAATTAAATGGTTTAATTCTTAAAAAAAATTTTCATTAATACAATAATTTTTCTAATCTTTAATTTTTAATACATAAAATACAACTACAACATTTACAAACTATTAATCTTAAAAAAGCTATTATTTGTTATATGTGAAGCCGTCTTGTATATATATTACTCTATAAAAAATTTAAAAACAACCTTTTCTATAAAATATTTCAAAAAAATATTTTGTTCGTTGATTTTATTAATCTAAATAGAATTAAAATATATATCATTTTTTAAAATAATTTTTTTTGTTTTTCAATACTTCTATTATATCAAAATTATATTCTTTAAGTTTCGGATTATAATATTTTGATAATTTTTTAATATTTAATTTTTTAAAATTATCATATGATATTAATTCTCTATAATAATTTATATTTTCTTTAGTTATTATTTTCATTTTTGTTTTTATGGGAAATTTCCCTATATCTATCCCCATAGAATGATCTTTTATCATAATTAAGACTAATACTCCTTCGAAAAAATGACCTCCTACGGTTGTTGTAAAAATACCAGTATCTGTAGCTTCTAATCCAATATTACTCCAATCAATTCCACCAAAAATAATATTATTTATCTTTTTAGGATTAATTTTTTTTATTGAATTATATCCTCCTAATGCAATAAAATCACCTGCTCCCCATATTATGTTTGTTTCTGGATATCTATTAATTAAGATTGATGTTTTTAAATATGCTTCACTGTATTTCCAATTAGTATAAAAAATTTGATTTATTATTGTATTATTTTCTTCCCTTACAGCTTTTTTCAATCCTTTATTTCGATTATTTGCTACAGAACTATCAAAAGAACCACTTAGTCCTATTATATTTATTTTTTTATCATAATTTCTTTTTTTTGCTTCATTAATAAGCTCTTTTGCTAATATATATCCAGCATATTCATCATCTGGATATATATGTCCTATCCAATACTTATATTTCTCTCCTACTTTACCTATTACATTTTTATCTCTTTCAGGAATATCACTATTAAATGCAAAAGTATACACTTTGTTTTTTTCTGCACAGTCTAATATTTCTTTTGAAATATTTACTAAAAAAGGTAAAATTAAATAATCTGGTTTATCATTTTCAATTTCATTAATTGCTAACTCTTTTATTATTGTTCTCCCAGTTTTATCAGGATAAAGTATTTTTAAATCCATTTCAAGTTGTTCTGCTGTAATTTTCATATATTTTATCACTTTATCTCAAAATGGATTTCCTGGTGGATCTGTACTTATAAAAGTTATTTTAGCATTTGCTGAAAAGTTTAATGTGTAAATAACAAACCAAAAAATCAAAGTTAATTTTTTTAAATTAATAATCTGCATTTTTAGGCGTTCTTGGAAATGGTATTACATCTCGTATATTTGACATACCAGTTACATACATAACCATTCTTTCAAATCCTAATCCAAATCCTGAATGTGGTACAGAACCATATTTTCTTAGATCAGTATAAAATTTATAATCTTCTTCTTTTAAACCATTTTCAGCCATTCTTTTTTCTAATATCTCTAATGAATCCTCTCTTTGGCTTCCCCCTATTATTTCTCCTATTCCAGGTGCTAATAAATCCATAGCTCTTACAGTTTTACCATCTTCATTCAATTTCATATAGAAAGCTTTTATTTCTTTTGGATAATCAATTACAAATACAGGTTTTTTAAAATATTCTTCCGCAAGATATCTTTCATGTTCTGTTTGCAAATCAATTCCCCATTCTACTTTATAATCAAATTCTTTTTTACTATTTAATAATATATCTATTGCTTCAGTGTAAGTAACTCTTGAAAATTCATTATTTAATATATTATTTAATTTATCTAAAAGTCCTTTCTCAATAAATTTATTAAAAAATTCCATCTCTTCTTTTGCGTTTTCAAGAAGATATTTTATCACATATTTTATCATTTCTTCTGCTACATCCATATTTAAATCAAGATTTGCAAAAGCCATTTCTGGTTCTATCATCCAAAATTCTGCAGCATGTCTAGCAGTATTTGAATTTTCTGCTCTAAATGTAGGCCCAAAAGTATATACATTTCTAAAGGCCATACAATATGTTTCTACATTTAATTGTCCACTTACTGTTAAATTTGTCTCTTTTCCAAAGAAATCCTCTTTATAATCAATTTCTCCTTTATCATTTTTAGGTATATTATTCAAATCAAATGTTGTTACCCTGAACATTTCTCCAGCACCTTCACAATCACTACCTGTAATTATTGGAGTATGTACATATACAAAGTTTTTTTCTTGAAAAAAACTATGTATTGCATGTGCTAATAATGATCTCACTCTAAATACCGCAGAAAAAGTATTTGTTCTCGGTCTAAGATGTGCAATTTCTCTAAGAAATTCAAAGCTATGTCTTTTATTTTGTAATGGGTACTCAAGATCTGCTTTTTGTATTACTTTAATATTTTTAGCTTTTATTTCAAAATCTTGACCTTTTCCTTCTGATTTTACAAGTTTTCCTTCTACAATTATTGAAGATATTATACTCAATTTTGCTATTTCATCATAATTTTCTATTATATTTCTTTCAAAAACTATTTGTATTCCTTTAAAAAAGCTACCATCATTTAATTCAATAAATCCAAAATTCTTAGAATCTCTAATTTTTTTTATCCAACCTGATAATTCTATTTCTTTATTCATAAAACTTTCTTTATTTTTATAAATATCTTTTACAATGGTTTTTATCATTTATATCCTCCCAATTAGTTTATTTCATTTTCATTTACTATTTTTATACTATCAAGGTGCCCTCTTACTTGTGCTCTAAATTTTTCTAAATAAATTTTTCTATATTTCTCTCTATCTTGTTTTTCAATTTCAGTAAGCTCTCTTTGTTTCGCTAATCCAGAATAATAATTTACCATTTTTATTATACTATTCATTTCCATTTTTTCAGACATTTTTACACTCCTTAACACTTTATCGTAAAAAAATGCTCTCCACTTAATTAAAGTGAAAAGCAATTTAAAATACTCGTTTTATTATAAAATTTATACGCTATTTTGTCAAGTAATATCAATATATTATACCTTTTTATTTTTCATATTTGTTTTCATTATATACATTATTTTATCTGCTTTATCAATAGTATGTTTTATATTTTTTTCAAATTTAACTATACCATAAGAAATAGAAAGAGGTATCGTAAATTTTTTGATTTCTTCTTGTATACTTTTGAATATTATTTTTATCATTGTTTTTTTACTATTTTTCATAACTACAATAAATTCATCGCCACCATATCGTATAATACACTCATTTTTATTTAAATATTTTTTTATGCTATCAATAATATGTACTATTATTAAATCACCAATATTATGTCCATATTTATCATTAATTATTTTCAAATCATTTATATCTATAAATACTAAATAATCATTATTTGTAAGAGAAATTTTATCTAAATATTCCCTATTATAAATACCCGTTAATGGGTCAGTAATTGCTTTTGTTTGAAAATAAGATAATTTTAAATTTAAATATTTTATCTCATCAATTACAATAAGAACGACAAAAATAGAATAAGATAATAATCCGTATGAAAATAAAAATCTATGCTCCATTATAGGAAAATAATGTATAAAGTAATCATTAAGTGCTGTCAAAAGAAGAAAAGTAAATATAATATTTATTTTATTATTTTTTCTATTTAAATATATAATATAAAACATTGTAACTATTCCAATAGGTATAAATTCATTAAAATAATTATATAACATAAGATAATTTTTTGAAAACATAAAAAATATTATTGGAATTAATAAAATACATTGAAAAAACTTTTTTAATAAACTCTTATTATTATGACTTTGTAAAAATATAAATAAAGAACTCATTAAAGATATATAAACTATTTTTTTTATAATAAAATATGTATCTCGATTTATATATGGTGAATAATAGATATCTCTAGTAAAAATATAAAGTAATATAATTGAAATAAAAAAATAAACATCCTTTTTACTTTTATTTTTATTTTTTGAAAAAAGAAAAAAAGAAAAAATAACTATCGTAAATAATAATACTCCATTCATTATTGAAATCAAATAATAATTAAAAAAATATATTATATTATAATAATAAAATTTGTTAACTGGTAATAAAAAAGGAGATATATTAATTCCTGCATTACCTAATGAAAATATTTTTACTTCTAGATTATTACTTTCTTTTAATTTTGGAAGTAAAATTCCTTGAGGCATTAAAAATGTATCCATCAAAATATTTTTATTATAACCAATTTTTTTTAATAATTTTCCATTTAAATAAACTTCTGTATAATTACTAGATATAATAGGAAAAACTAATAAATACTCACCTTCTTTTTTTTTAAAGCTAGTCTTTAAGGTTATTTCTCCTCCATTAATATCTCGTATCAGTGGAATATCTACTTTTTTCCCTTCTTCTGTATACCAAGTTTTCAACTTATAAAAACCATGATTTATATTTATCTCATTACTTGCAAATCGCAATAAAAAAAATAGTAATATTCCTACAATACTAAATAATGAGTTTTTCCCTTTATTCATTTATAATCTCCCCTAATTCATAAATAATAATTAAAAAATAAATATATTTATTATTATATATAAAAATAGACTAAATGTCACGTGTTTTATAAGTTGTTTTTAAATAAAATTAATTAATCTTGTAAAATAATTGTGAGAAATAATAGTTAAATAGATTTCTTTACTTAAGGAGAAAATAGTGTTAAAATAAATAAAATAGAATTATATATTTTAATTTAGGAGAATGGTTATGTATATTAATGATTTAATTAATTTCTTAAATATTTTAGAACTACCATATTCTATTATTAATGAACAAGGAATTATCATAGAAGTCAATGAAAAATTTTGTGAGCTTTATAATTATTTACCTTCAGAATTAATAGGAGCATATTTTACTAAATTAAGTGCAGAAACAAAATATCTTTCCACAGAGGAATGTAAAAATATTTTCCTAAATTCTTTTAATAAATATAATAGTTTCTTTAAACACCCAGAACCATATGAAGTGATGGATAAAAATAATAATAAATTTTTTATTAATACAATTTCATATGATTTTATAGATGAAAATAATACTAAAAAAAGATTAAGTATAGATATTCAGCTAAAAAACACTAATAAAATTGAAAGAATAAAAGAAAATTTAAATAATTATAATAAATATAAATATGTTTCATTAGATTTTTTAAAAAAAATTATTGATTCCCATTTATTAAATAAAGATTATTTTAAATTTACACTTTTTAATATAAAATTTATTAATGCTATTATTTTTGATGAAAAAGATGAATTTTTAAAAGAATTTTATGATAACCTAGTTAGTATTTTTGAAGATAATATTACTGTTTCTTTTATTTCAAAAAATAGAATTATAATTTTTTATGATAAAATTGATATAAATAAAATAAAAATCATTTCAAATAAAATATTAAATATTTTTTCTAATCCCTTTGAAATAAATAATAAATTTATAAAAGAAAATCTAAAAATTGGAATCACACAATTTTTAGATAATAGAAAATATGATTTTAATTCTTTATATGACGAATTAGAAATTGCTTTAAAATATTCAAAAGATAACGGTTATTTAATATTTAATAATGAAGTAAATCTTCGCCTTCAAAAAGAAATAGAAATTAATTCTATAATATTTGATGCATTTAAAAATAAAGAGTTTATAGCATATTTCCAACCATATTTTTCAGTAAAAGAAAATAAGTTCGTTTACTGCGAAGCTTTAATGAGACTCATTTCATCAAAATATGGAATAATATCTCCAAGCGAATTTATTCCTCTTTTAGAAGAAAATCGTTTTATTACAATGGTCGAAAAACAAGTTATGAATAATATTTTTAAAAAAATTATTAAATGGAAAGAAAAATATAAAATAACATTTCCAGTATCGATAAATTTATCTCCTATTCAATTTAATAACTTGGATTTAATTGAGTTTTTAGATGAAGCTATTATATTATATGAAATAGATACTACTAAAATAACATTTGAAGTAACAGAAACAACAATTATGGAAAATATTGAAATAAGTAAATTTGTTTTAAAAAACTTAAAAGACAAAGGATTTAATATTGCTATAGATGATTTTGGAACAGGATATTCATCATTAGCATATTTAAATAATTTCCCAATAGATTATTTAAAAATTGACAGATCTTTTATTAAAAATATTGATACAAATAAAAAGGATCAAGCAATAGTAGAAGCGATAGTAAATATGTGTAAAGCCCTTAAAATAAAAGTTGTTTGTGAAGGGATTGAAACAAAAGAGGAATTTGAATATTTAAAAAAAATTGATGTTAATCTATTACAAGGTTTCTTTTTTTCTAGACCATTACCTATAGAAGCATTTGAAAAAAAAGTATTTTATTAATAATATTTGTAATATTATATTCAAATAAAAAAATCAGAGTTATATTTTACCCTGATTTTTTTATTTGAATTTTTCCAATTTATTATATTTATTTATATTTTTTTAAAGTCTCTCCATCTATTCTTAACGTAATCCATTCATCCATAGATTTTGCTCCTATTTTCTTATAAAATTCTAGTGATGGTTTATTCCAATCTAAACATGACCATTCAACTCTTCCACAACCCCTATTATTTGCTATCTTAAAAAGATTAGTTAACATTTCTTTTCCATAACCTTTTCCTCTATATTTAGGTTCTATATATAAATCTTCTAAATATATTCCTGGTTTCCCAAGAAATGTAGAAAAATTATAAAAAAATAACATAAATCCAATGTATTCATTTTTATATTTAGCTAATATTACTTCACAATACTTTTTATTAAAAATATTTTCTATTAGAATTTCTCTAGTTGCTACAACTTCATTTTCCATTTTTTCATATTTTGCAAGTTCTTTTATAAAATAAAATATTTCATCTACTTCATTTTTTTCTGCAAATTTTAATGTTAAATCCTCTATTTTTGTATTAATTATCATTTATTCCTCCTCAACAGGATAAATTACTCCATGTTTTTTTCTTATTAAATCCATAATTTCCAATACTTGTAATGTTTTTGAATGAGAAGCTATATCACTTTCTAGTTTCCCTTCTTGTATACATTTACATACTTCATCAGCTTCAAAATTATATCCATTATATCTACCTTCATCAGTATAATTAATTATTCTTGTTTTTGTACGAAGTTGCATCTCTTTGCACATCCAAAACTTTTCAAGAGATAAACTTCCTTTTGTACCATATACAAAAGCTCTATTTTCAAAATTTTGTCTACTTGATGTAGATAATTCAGCTTGTATTCCATTTTTAAATTTTATTAAAATAGATACATATTCATCTACTCCTGTATCACCTTTTATAGCCATACTTTCTACTTGTTCATATTCACTATTTGCTAAAAAACAAGCAAAGCTTATAGGGTAAATCCCTAGATCAAGTAATGCTCCTCCACCTAATTCTTTATTATATAATCTTGCTTGTGGATCAAAAGGTATTTTTAGACCAAATTCAGCTTTAATTAATTTTATATCACCTATTTCATCCTCTTTTATCCATTCAACTGCTCTCTCAATAGCAGGTATAAAGTACATCCACATTGCTTCCATTACAAATAAATTTTTTTCTTTTGCTAATTTTATTATTTCTTCAAACTGATTTTTATTTAAAGTTATTGGTTTTTCGCATAATATATTTTTTCCATGTTCTATACAACTTTTCATATTTTCATAATGAAAATTATGTGTCGTTGCAATATAAACTACGTCTATCTCTTTATTATTTAATAATTCTTCATAACTATCATAATAATTTTTAATTTCATACTTTTTTGCAAATTTTTTAGCTTTATCAAGTGATTTTGAAGCAACTGCTATCATTCTTCCACCGAGTACATATCTAAAATCATTCATAAATTTAGTAGCTATATTTCCAGCTCCTATTATTCCCCAATTTAACATTTTATTATCACTCCTATTCTACTATTACAATAAAAAAGATATCATAAATACCCTTATGATATCTTATCACTTTTTTATTCATTTTACAAATTTTAACCATAAAAATTCATATGGATCTAGCTTAATTAATCCATGTTCCAGATTTATTTCATTTCCATTATATATATTATAAACTCTGTATCCTAAATTTGCTCTATTTAATATTTCTTGAGATACTACTTGATAATGTTCTGAGACATTCATAAGTACAAGTGTTTTTTCACCTTGATACTCTCTTAAAAATGAAAACACATGTTCATTTTCATTTTTTATTATAGTATAATTATTTTCATTATAAAATTCTTTTAAATTTTTTCTTATTTTTATCATTTTTTGAATAGCTATAAATATTTTATTTTCAATAGTTCCTTCTTTTTTTCTATTTTCCACTTTATTCCAATTAATTATAGGTCTATTTAACCATCTATTATCATTTTTCTTACCTTCATCATTTAAAAATGAATAATCATTTGTAAATCCTACTTCATCTCCATAATATACTAATGGTATTCCACCTAACGACATTATTCCGCTATGCATAAGAATAATCCTTTTTACTGCTTTATCTATTAAATCTCTATTTTTTTCTAAAATCCCCTTTTCTAATCCAAGAAGTGATGCTGTAGCTCCTGATATTCTTGCATCTTTTGTTTTGGGATTATACATAAATCTCTCTCCCTTTGCATAACTACTAGGAAATTCTCCCACATAAAATGATATAATAAATTGTTTATGATCAAAAGGGCTATATCCAGCAGAGATTATATCATGATCAGCATATCCAAGTCCTATATCATCATGGCATCTTATATAATTTACCCAAGTTGTATTTTTAGGAATTCTTGGAATATTTTCAAGGCCTCTTTCCAAAATTTTTTTATTTTGTGTAGCCATAGCATCCCATAAATATACCATATAAGAAGCATTATAAGCTATTTCACACTCATCTACTATTCCACCACCAAGGTATTTCACTATTTCTTTTGGCTGAACTATAGCTTCCGCTTTAAATACTACTCCTGGTGCTACAATTTTTGCACATACTTTATATAATTGTAAAATAATATGAGCTTCTTCTAGATTTTGTGAATCTGTTCCTATTTTTTTCCACATAAATGCCACTGCATCAAGCCGAAGTATATCTACACCTTGATTTGCTAAATTTAACATAATTTTAACCATTTCAATAAATACTTTTGGATTTGTATAATTTAAATCCCATTGATAATTATTAAAGACTGTAAATACCCATTTATCTATCTCTTTTCTATAAGTAAAATTCCCAGGAGCTGTTTGTGGAAATACTTCTGGTAATGTTTTTTCAAATTCATCCGGTATTACTCTGTCATCAAACATATAATACATATCTTGATATTCTTTTTCTCCACTTAATGCTTTTTTTGCCCATTCGTGTTCATCAGAAGTATGATTTAACACTAAGTCAAGTTCTAAAAGCATATTTTTTTCTCTAAATGTTTTAGAAATATCTCTTATATCATCCATCGTTCCAAATTTTTCATCTACTACTCTATAGTCACTTACTGCATAACCACCATCATTTTCTTTTTTAGGCATTTTAAGAATTGGCATAAGATGTACATAATTTATACCTAATTCCTCTAAATAATTAATTTTTTCTTTAAATCCTTTTAAATCTTTATTATATCTATCTACATAAAGCATTGTTCCTACCCAATTTTGACTCATATACCAATTATTATCGAGTTCTCTTTCTCTATCTAGCTCTTTTAATTCATTACTTCTCTCTACATACATATCAGCTAATGAAATAATAAGTTCTTCTAATCTGTCCACAAATAATGAGTTTTCTTTATATAATTTACTATATTTTTCATATAATGTAGTAAAATTTTTACCAAGTCTTGTATAAAATATTGTTAAGTCTTTTTTTGAATACTTTTTATTTATTTTATCTATGCTTTCATATAAATATTTATCTTTTAGCATTTTACACTCCTCTAAATTTATATTAAATAATTTAAACACTAATTTACATAAATAGATACAAATAATTTTTTACCACTCAACCCTTATCTTCACTATTTTTTTATTTATATTTTTATCTATATAAATTAGTACTCATTAAATTATTTTTTATTCTATTTCATCTAATGTAGGTAATGCACTTATTGCTCCATATTTTTCACAAGTTCTAGCTCCTACTTTATTTCCAAAATTTATTATTTCTTTCATTTTTTCCATATTTTTTATATCAACTTTTGTTAAGTTTTCTTTTATTATTTTATAAAGTACCCCTCCAATAAATGCATCTCCTGCACCTGTTGTATCTATTGGTTCTATTTTTATGCTATTTATTATTTCTTGTTTATCATCTATACTAAGTAATGTCCCTTCTTTTCCTAAAGTTACTAGTACTACTTGTGCACCTATTTTATGTAATTCTTTTACTCCTTCTTTTACATTTTCTTTTCCCGTTATTAATAATATCTCTTCATCACTTACTTTTACTATATCAGATTCTTTTATATATTTTTTACTCTCTTTTATAAATTCTTCAACTTTCCCCTTCCATAAATCTATTCTATAATTTGGATCAAAAGTAATTATTTTATTCTCATTCTTAGCTAATTCTAAAACTTTTTTATATGTTTCTTTTAACTCTCCTCCAAGCAATGCTGTTGCTGAACCTAAGTGTATTATTTTAGCTTCTTTTATCTTTTCTATATTAAGCTCTTCATATTTTAATTTTTCATCAGCTCCTCTATTAAATATAAAATCTCTTTCTCCATTATTTGCTATTGATACAAATGCTAAAGTTGTATTTTCTTTTGTATCTAAAATAAGCATATCTGTACATACTTTTTGATTTTCTAATGTTTCTTTTAAGAAAATTCCAAAAGAATCTTTTCCTACTTTTCCAACAAAACTAGCATTCCCCCCAAGCTTTGATATAGCAGCACATACATTTGCTGGAGCTCCTCCTGCTTTTTTTATAAAATTTTCTCCATTTACAAGTCCCATATCTATATCAGTACATATAAAATCAATAACTAATTCACCTACACAAACTATTTTATCCATTTCTTACCACCTCACATGATTTTCTTATTATTAATTCTGTATTTAAAACTATCTCTTCTTTTTTACCATTATTAATTAAATTAAAAAGTGCTTCTCCTGATTTTTTACCAATAATATCAATATTTTGAGAAATAGAAGTTATTTCAGGAGTAAAATAAGCATCTAGTTTAAAATTATCATAACTAATTATTGATATATCTTTTGGTATATTTATATTTTTATCTAAAAACCCTTTTACTAATCCATATGTAGTCATAGCTCCAGATACAATAAATGCAGTAGGCATATCATCTAAATTTAATAACATATTTGATAGTTCATACCCCTTTTCTATACTAAAATCACTTTTAAAAATATAATTTTCATTATATAAGTTATATTTTTTAGATATTTTTTTAAAAGATTCTAATCGTTGATAAGAAACATAAGCTTTATTGTGTCCATTTATAAATCCTATTTTTTTATGATTTAATTTTTTTAAATAATTAAATGATTTTTCTATCCCGGTATCACTATCACTTACAATTGTAGAAATATTAGGACTATCATATTTATAATCAATTAAAACAATCGGTAATTTTGATTGACTTAATTCTTCTAATTGCTTAGTATTATATTCAAGACCTATAAAAATAGCCCCTTCAACTCTTCTTTCTCTACAAAGTTCTAAATAAGATTTTTTTTCTAAACTGTCAGTAGAAAAAACTATAACGTCAAAGTTATTTTTATTAGATACTTCTAATATTCCTGAAAGAAATGAAAACCCTGTATTTTCTTCATTTGGTATTTTATATCTCGAAAGAATAAATACTCCTATTGTATTACTTTTTTGATTAACAAGCCTACTAGCTATAGTATTTTTAGTATACCCCATTTTTTTTGCTGTTTTCTTTACTTTTTCTTTTAATTCATCACTTATATCTGGTCTATCATTAAGTGCTTTTGATACAGCAGTTATTGATATTTCTAATTTTTTAGCAATATCTTTAATTGTTACAGACATATTTCCACCTCTTTACTAAAACGTTAAAGTTAATACTATATTATTTCAAAAATTTTATTTTGTCAATAACAAATTTTAATATTTTATTAAATATCAAAAAAATAAAACCACAAGATTTATAAAAAATAAATATTATATTTTTAATTAAAAACTTTCAACTTAAAATAAAATATCAACAGTTTTTTATATTTATTATCTGTAATCTTATGGTTTATTTTATAAAAAATATAAAATTTTTTATTCTATCTCGCAAAATTTTTTTATCTCATTTATTATCTCTTTCCCCTGAGTATATCCTAATTCAAATGCTTTTTTTAATTTTTCTTTATCTCTTTCTGTTCTAGCAATTGGAAGTTTTGATTTTGGTCGAATAATAAATGCTTTCCCATTTTCTTCTAATTTTTCAAGTTCTTTTATGGCATTATTATAATTTATATGTCTATTTTTCATTGTTTCTCTTAATTTTGGATAATCTTTATATATTATTTTTCCTAATGTTTGTAGTTTCATTTTACTTTTTACATATCCTTTTGGTTGAGTTAAAATCACTATTATTTTTTCACAACCATCATCTAAAGCTTTTTTATATGGTATAGGATCTGCAATTCCACCATCTAATAGCTCATATTCACCAAGTTTTACTATTTTAGAAACATATGGTAAACTTGTACTTGCTTTTAATGCTTCTGATAAAGAATATTTTTTAAAATTTTCTATATAATGTGCTTTTCCTGTCTTACAATCTGTTGCTGTTACTATAAATTTTTGTTTAGAATTATAAAAAGTATCAAAATCAAATGGATTTAATTTATTTGTTATCTCTTCAAAAATAAATTCCATTCCAAATAATTCACCTTTTTTTAGAAAATTTTTATAACTTATATATCTTTCATCATTTATATATTTATATGGAATTTCTATATTTCGTCCTTTTTGCTTTGAAATATAGTTTGCTCCATTGCAAGCACCCATAGATACACCAATAACATATGGAATTTCTATATTTTTTTCTAAAAAATAATCTAAAATTCCAGCAGAATATATTCCTCTAAATCCTCCACCTTCTAATATTAACCCTATTTTTTTTTTCATATTTTCCTCCTTACTTTAATCAAATTATATCTAATAAAATTAACTAAATATTTTATTTATAATAAATTTTATACTATTATTTACAATTGGAATATAATAAATCACTGGTATAATAAGAGCTGGTAATAAATTAAGAGTTTTTATTTTTACAGCTTTTAGTATATTTAATCCTGTTGTCATAATCAAAATTCCACCGATTATTGATATTTCATTTAACAATTCTAAAGAAACTGTTCCATTTAATATTTTTGCTATAAAATAAATACTTCCTTGCCAAATTAAAAGAATCGGTGCTGATAATATGATTGTTATCCCAAATGTAGAAGCTAACATAAGAGATGTAAAACCATCTAATACAGCATTTATAAATAATAATGTATGATTATTATTTAATGCACTTTCTATAGGCCCAAGTATTGACATAGTACCTACACAAAATAAAAGAACTGCTGTTACAAGTCCTTGAAGTGCGTTACTATCACCTTTATTATATTTATTATTAATGTTTTCTATTTTTTTATCAAGATTAATAAATTCACCTATAAGAGCTCCTATTACCATACTAAATACAAATAAAAGTGGTTCATTACTTTTTGTAATACTTTTTGATATCCATGCTATTCCTAAAGAAATAGCTATTAATCCTATACTATTTAATACATTATTTTGATATCTTTCTTTTAATCCCTTATTAAATATACTTCCTATTATACTTCCTATTATTATCGTTATTACATTTACTATTGTTCCTATCATAATTTTTTCCCCTTCTATTTTAATAATGTTTTAATTTAGTTTATCAAAAAAAACAGATAAATAAAAGGATTTATCTGTTTTTTTTGTATAATATTTTATGATTTCTCATAACGGAGGTAGTACAATGAATATAAATATTAAAAATTATAAAAATATATTAGACAATATTAGTGATGGTGTTTATTTTGTTGATAAAAATAGAAAAATATTATATTGGAATAATGCTGCAGAAAAAATTACTGGATTTACATATAATGATGTAATTAACTCATTTTGTTATCATAATATTTTAAGACATGTTGATAAAAGCGGGAATGAATTGTGTAGAAATGGATGTCCTTTATTAGAAAGTATGAAAACAGGAACTTTCATTCATGCAGATGTTTATATGCATCATAAATCTAGTTATTTACTTCCTATATCAATAAAAGTCTTTCCTTTAAAAAATGATAAAAATGAAATAATTGGTGCTATTGAAATTTTTAATAAACAAAAAAAAATAAATAATACAACTCCTTCTCCACTTGCTTTAAAAGAATTTTTAATGTATGATCCTCTTACAAATCTACCAAATGCAAAATATCTTTATAAAGTAATAAATTCTAAACTTAATGAGATAAAATCAATTAAACGAAATGTAGGCATTTTAATAATAGATATTGCTAATTTTACATCTATTATTAATAAACATGGTTCTGATATTGCTAATCAATTACTTAAAATAGTTGCTTTTACTTTAAAATCAAATATAAAAACTGGGGATATAATTGCTCATTGGAAAAATGATAAATTTGTTTTAATATTTAATTTAGAAAACAAAGAAGAATTAAATAAAATTGCTATAAGACTTAAAATGCTTTCTGAAAAAACATCTATTTTAATAGAAAACAAAAATATTTCGCTTAGTATTTCAATCGGTGGAACATATTTTTTAACTAATGATAATATTGAAAAACTTATTGATCGCCTTAACAATGCTTTAATTAAAAGTAAAAATGATAAATATAACAAAATAAGAATATTAGAATAAAAAAGCTATCGAAAATTTCGATAACTTTTTTTATTTTGACATAGCACTATTAAATTGTTCTACTACATCTTCCATATCTTTTAAAAATTCATCTAAATCGCCTGATATAATTACCTCATTCATTATATCTCCTTGAGATATTGAGTCTACTATTTTTTGTGTATCTTCATTTAATACTTCCCCAAAAATAGTATGTTTATAATTTAACCACTCTGTTGGTACATGTGTTATAAAAAATTGACTTCCATTTGTATTTGGTCCAGCATTTGCCATCGCTAATATTCCTGATTTATTAAATTCTATACCTTCAACAAATTCATCTCTAAAATTATATCCAGGACCTCCTGCTCCTGTTCCTGTTGGATCTCCACCTTGTATCATAAAATCAGCTATAACTCTATGAAATTTTAATCCATTATAATAACCTTTTGTTGCTAAATTTACAAAATTTGTTACTGTAATAGGTGCGATATTTGGAAATAATTTTAATTCAATATCTCCTTTATCAGTTTTAATTACTGCTTTTAAATTATACTCTTTGTTCAATTTAACCTCCTTAAAATCAATAAAATTTAATTTTTTTATTACTCTATATTTCAAAAATTTTGTAACTAAAAATATTGCTAACACTATTATAATTATAAAAATAATATTATTTTTAAATACCATTTTATTCATTATTCTCTCCATTCATTTTAAATTCATCTTTATATATTTTTTCTAATTCATTTTTTGAAATAGTTCCATACATTTCATAATACCATTTTTTTGCTAAAAACTCATTTAGTTTTTCAAGTCTTTTATTTATTTTAATTATTTTATTATTTAATTTATCTATTTTTTTTCCATTTTCTTTTACTTTTTCAAAATATTTTAATTCTTCATCTTGCTGTATTGCATCAGCTAATGCCTTTTCATATTCTTTTTGTTTTTCAAGTAATGGTTTTCCTAACTTTTCTATTTCAAAAAGTTTTTTATTAAGCTCTTTTTTTTCAAATTCAAATAATCTTTTTACAGCTATACTACCTGAATTTTTAGACATTTTTTCTCTTTTTTCTATTTCTTTTAATATATATTCTTTTGTTAATTTATTACTTTCTCTTATTTCTTCTATATTTTTTTCTATTTCATTGAAATTTTCTATATTTTCTATATCATTTTTTGAAATAGAATCAAAATATAAATATAATTTTTCAAATTTTGGTATAACCTCTTCATCTATTTTTTTTATATTTTCTATATCATTTAATTCTAAAAACCTTTTTTTATTTATATAAGCTTTTTCAAGAATTTTTAAACATATTTCTTTTACATATTTAATAAATTCCAACTTTTTCATTTATAACTCCTTTTATTTTTCTATTATATCTCTTGCTGCAGCTACTCCCATAGATATTGCTGCTTGAATATTATATCCTCCTGTATCTCCATCTATATCTATCACTTCACCTACAAAATACAAATTTTTTATTAATTTTGATTCAAGAGTATTTTTATCAAGTTCTTTTAATTCAATACCCCCTTTAGTTACCATTGCTTTCTCAAAACTATCTAATTTACTTACTTTAAATCTATAATTACAAAACATATCTAAGATTTTTTTTCTGTTTTCTTTTGATAAATCTGCTATTTTTGTATATTCAAGATCTAATATTTTTAATATTTTATTTATAAATCTTTCTGGAATATCATATTTTAATAATATTGTTTTAATTTTCTTTTTATTGTTTTGATTATCAATAAATTCATTTTCTAAAATTTCTCTATCTGTTTTAACAAAATTAAATTCTAAAAAATCATTCTTCTCTATATTTCTACTATTATTAATTATAATTGGGCCACTTAAATTTTTATGTGTAAATAATAAATCACCATATACTTTTTTATAAATTTTGTTTTTTTTAAGTATTTTCATTTCAATATTTTTAAATGATATTCCTGATAAATCAAAAAAAATATAATTATTTACAAATATCGGTGTCAGTGCTGGCACTATTTTGGTTATTTGATGTCCAAAGCTTTTTGCAAATTTATATCCATCACCTGTTGTTCCTATTTTTTTATAACTTTTTCCACCAGTCGCTACTATTACATATTTAGATTTATATTCCAATTTATCTGTTTTTACAATAAATTCATTTTCTAATTTTTTTATCTCTTTAACTAATTCTTTTACTCTATATTCACCTTTATATTCTTTTAATAATAAATTTATTACATCAATAGATTTAAAAGTTTCTGGAAAATATTTGCCATCTTCTCTTTTTATTAATTTTAATCCATTTTTATTAAAAAAATCTATTGTATCTTGTGGTGAAAATTTATATAAAACTCTTTTTAAAAATTTTCCATTTTCACCATATTTTTCTAAAAAATCCTTATAATTACCAGTATGAGTAATATTGCACTGACCACTTCCAGCTATAAAAAGTTTCCCACCTATTTTTTCATTTCTTTCTATTATCAGTACTTTTTTGTTATTTTTTGCTAACATAATCGCAGAAAATAATCCACTAGGACCAGACCCAATTACTATTATATCAAAATTCATTAATTCCTCCAAATATTAAACCTAAATTATTTTTTAAAAATACTTCCTTGTATTTCAAGGAAGTTATTTTATCAAATATTTTTTTTGATCTTTAATAATTTTTTCTATATCAATAGTTCTATTAAAATCTAATTGATATATATTAAAATCAAAAAAACCTTCTTCTGTTTGTGGTATAGATGTTTTAGGCCGCTTATACTTTGATATAAAATCATACAAAATAACAATAAAACTAATATCTCCATTACTATCTTCTACTTCTCTTATATCAATAATTCTATTTTTATTAATATTTAAAGCTATTTTTATTATTTCTTCAGCTTTTTCTATACCTAGTTCTTGTATTATTTTATTAAATGTATCCACTAATTTAAGAGCAAAAAGTGGTTTCATTCCACCCTTTGGATAAAATTTTACTATTGCCATATTATTACCTCTCTTATTTTTATTAACATTAACCTCTTGGCTCCCAATCTCCTCTATTTATTATAGCACCACTTGTTATTTCTTCTTCTTTTACATTAAATTTAGTTAATTCTTCTACTATTTCATCTAGTGTTATTCTTACTTTTGTTTTTTCAATATTATTTGGTGTTATTACAAAATCATATTCCTTATAATATTCATTATTTTCTATTGAATATATAATATCTTGACCACCTGTTCTATAATCTTTATTCCCTTTATACCAACCTACAGTTGTATCTAAATATATCTCTTTATTTTTATCTAAAGTTTCTTTAACTATATTTTTTATATTCATTCAAAACCCTCCTTAATTAAAAGCTGCAAAACATTTTATCATATTTAGTTAGTATTTTCAATATTGTTTACTTTTTATATTAATAATGATATAATGTGTCGGATAATATAATTATTAATAATTAATATAGATTTAGGAGGATAAAATGATAACAGTTAGTGGATTAGGACTTAGATTTGGAAGTCGTAAACTTTTTGAAGATGTAAATATTAAATTTACTCCTGGTAATTGCTATGGTGTAATTGGAGCAAATGGAGCCGGAAAGTCAACATTTTTAAAAATATTATCAGGTGAAATAGAATCAACAGAAGGCGAAGTAATTTTAGGACCTGGTAAAAGATTATCATTCTTAAAACAAGATCACTTTGCTTACGAAGAAGAACAAGTACTTGATGTTGTAATTATGGGACACAAAAGATTATATGAAATAATGCAAGAAAAAAATGCTATTTATGCTAAAACTGATTTTTCAGATGAAGACGGTATGAAAGCTGCCGAACTAGAAGGTGAATTTGCTGAATTAAATGGTTGGGAAGCTGAAATGGAAGCTGAAAAACTTTTATTAGGCCTTGGATTAGAAACTGATAAACATTATAAATATATGAAAGAATTAACAGAAGCTGACAAAGTAAAGGTTTTATTAGCTCAAGCTTTATTTGGACATCCAGATATTTTATTACTTGACGAACCTACAAATGGTCTTGATATCAAAGCTATTACTTGGTTAGAAAATTTCTTATTGGATTTTGATGCTACTGTTATTGTAGTCTCTCATGATAGACATTTTTTAAATAAAGTTTGTACTCATATAGCTGATATCGATTATGGTAAAGTGAAATTATATGTTGGAAACTATGATTTCTGGTATGAATCAAATCAACTTATGCAAGAACTTATTAGAAATAAAAATAAAAAACTTGAACAAAAAAGACAAGAATTACAAGAATTCATCGCTAGATTTAGTGCTAATGCTTCAAAATCAAAGCAAGCTACATCTAGAAAAAAACAGCTTGAAAAATTAAAACTTGAAGACATGCAAGTTTCAAATAGAAAATATCCATTTATAGAATTCAAGCCTGAAAGAGATGCTGGAAATAACATGCTATTTGTTGAAAATCTATCTAAAACTATAAATGGTGTAAAAGTTCTTGATAACATAAGTTTTACAATTAACACAGGTGATAAAGTTGTATTTTTATCAAGAAATGACTTAGTTACTTCTACTCTACTTGATATTTTAGCTGGAGAAATTGAGCCGGATAGCGGTAGTTTCACATGGGGAGTTACTACATCTCAAACATATTTACCTAGAGATAATTCAAAATATTTTGATTATGATGGTTCTATAATCGATTGGTTAAAACAATACTCTGATGACCAAACAGAGTCATATGTTAGAGGATTCTTAGGAAGAATGTTATTTTCTGGTGAAGAAGCCTCTAAAAAAGTTAAAGTTCTTTCTGGAGGAGAAAAAGTTAGATGTATGCTTTCTAGAATGATGCTTTCTAAAGCAAATGTTCTTTTACTTGACAATCCTACTGATCATTTGGACCTAGAATCTATTACATCATTAAATAAAGCATTAATAAAATTTAATGGTACTATTTTATTTTCTGCTCATGATCATGAATTTATTCATACTATAGCTAATAGAATAATAGAAATTACTCCAAATGGATTAGTTGATAAATTAATGGATTATGATGATTATATCGAAAACGAAGAAATCCAAACAAGATTAGAAGAATTGTATAAATAATCTAAGTAAAAGCCCAATTTTCTAAATAGAAAATTGGGCTTTTATTATACTGGTTCTTGATAATCTTTACTATTTTTTATTGAATTTAGGTTTATATGACAATAACCTGTAGGATTTTTTTCTAAATAGTTTTGATGATAATCTTCTGCCTCAAAAAAATTACTTTCTTTTAATATTTTAGTAGCTACTTTTTTATTAAAATTATTTTCAATCTCTTGTATCATTTTTCTTATAATATCATATTGCTCTTTATTATTATAAAAAATAGCAGTTGCATATTGCGGGCCTACATCTCCACCTTGCCTATCAATAGAAAAAGGATCTATTATATCAAAATAATGTCTTAATATTTTTTCTAAATTAATTATTTTTCTATCATATTCAATATATACAGCTTCTAAATGTCCTGTTTTTCCACTGCACACCTCTTCATAAGTTGGATTTTTTTTATTTCCACCTGCATATCCTACTTTTGTTTTAATTACACCTTTTAATCTTTTAAAATATGCTTCTACTCCCCAAAAACATCCACCCGCTAATATTATTTTCTCCATAAAATCACTTTACTTTCTTCTTAAAATTTTTTCTTCTACTATTATAGCTTCTTCTATATATTCTTTATCTTTTTTACCTAAAAAATTCTTTATTATAGTTAATATTATTTTTAATACTTTCATTATTATCACCTCTCTATATTATAGTTACTTTTATTATAAAATTACAATATTAGAGATTTCTTAAAATTTCTTTAATTTATTAATAAACTTTTCTCTGCTTACTATAAACCTTTCATGTATACCCTTTCCTATTTCGCCTCTATCAGAAGTAACTAGTACTTCAAATGTAAGTTTTCTTCCATCAATATTTGTTAATTTAGCTTCGCCTTTTATTTTTTCTCCTATTAAATTTGCTTGCAAATGTTTTATATTTATAGATATCCCTACTGTTGTATCATTTTCATTTATATATTTTTTCACACAATTCATAGCACAATTTTCCATAAATGCTATAAGTGAAGGTGTTGAGAATACTTCTAAATCACCACTCTCTACGTATTTAGCACTTTCATTTTCTTTTATTATTTTTTCTTTAGTATACTTCAATCCAATTTCTAACATCTTAACCTCCTGTATTGTTCATTTTTAAAATAATTTTATTAAATATTTTTAAAAAAGTCAAATTTTATTCTTTTTTTTAATTTAAAAATTTAATAAAATATAGTATAATAATGTATATATTTAAAAAGGGGTGTGGATAATGATAAGACATGTTGTAATGTGGGTATTAAAAAAAAATGCTAGAGGAAATACAAAAGATGAAAATGCATTTATTTTAAAAGCTGAACTAGAAAATTTAAAAAATGAAATTCCAGAAATAATAAAATTAGAAGTTGGTATAAATAATGATGAATATTCAAGTAAAAATTTTGATGTTGTTTTAATTACTGAATTTAAATCTTTTGAAGATTTAGATAAATATAAACATCATCCAAAACATGTAGAAATAATAGATTTAGTAAAAGAAATCGTTGAAAATAGAGCCTGCGTAGATTATACATTTTAATTTTTTTCAAATTTTATTTTAAAAAGGAGTTTTTTTCCACTCCTTATTTTTTTTGTAAAAAAAAATTTGACAAATTCTGTATTCTGTTTTAATATTTTTATGGAAATATAATAACTACTTTATTTTAGGAAAAAATATAAAATTAAAAGTAGAGGTGGTAAAATGAAATTTTCAAATGAAAAAATTGGAAAAAATGCAGGCAAAGTTTGGAATCACTTAAACACAAATCCTAATATATCTTTTAGTAAGCTTCAAAATGATTTAAAACTTACTAAAGATGAATTATTGCTCACTATTGGATGGTTATTTAGAGAAGAAAAGCTAATTGTTGAAAAATCTAGTAGAGGGTTTAATTTTTTATTAAAATAACGAAAAACAGTTGGAAATCCAGCTGTTTTTTAGTTAAAATATAAAATAAAAAAAGCTATAATATTTAAATATTATAGCTTTTTTATTTTATAAAATATTATCTCCAATTTCACCTGTTCTTATTTTTATAGCTTCTTCAACTGAGGTTATAAAAATTTTCCCATCACCTATTTCTCCTGTATATGCAGATTCCTTTATTGTTTTAACAACTTTTTCTACCATATTATCAGATATAAATAATTCTAATTTTATTTTTGGTAAAAAATGTACTTCATATTCTGCACCTCTAAATATTTCCTTATATCCTTTTTGTTTACCAAATCCTTTTACTTCAGATATTGTCATTCCTGTTACTCCTATTTCTATTAAACTATCTCTAAGAATACTTAATTTTATAGGTTTTACTATAGCTTCTATTTTTTTCATTTTTATTCCTCCTCAAAATATATTATTTATTTTGAATCAATTTTATTAAAATATTACCATTAAATTTTTATATTTCATAAATAGATGAACTAGTTTGAAATTCTGGATAAGCATCTGCTTCATGTTCGCCTATATCAAGACCTTTTAATTCCTCTTCTTTGCTTACTCTTATTCCAAATATTATTTTTATTACGTTAAACATAATAAGTGATGTAACAAATGCAAATATAAACATTGCTAATACTCCTAAAATTTGCACTCCTATTGTTTGAGGATTAAATAAATTTCCATTATCAAATATTCCAGCTGCAATTGTTCCCCATGCTCCATTAACTCCATGTACCGATACTGCACCTACAGGATCATCTATTTTTAAATTATCGATAAATCCAATAGAATATACTACTAAAATTCCAGCTAATATTCCTATTATTACTGCCGACCATGGAGCTACATTTGCACATCCTGCAGTAATTGCTACAAGACCAGCTAATGCTCCATTTAAAGTCATACCTATATCATAAGTTTTAAATTTTATTATTGATACAATAAGAGCTGATATACTTGCTGCTGCTGCTGCTAAAAGTGTATTCGCTGCTATTAATCCGATTTCTTTTGTTCCTGTAGTAGTAGACCCTGAATTAAATCCAAACCAACCAAACCATAATATGAATACTCCAAGAGATGCTAATGTAAGAGAATGTCCTGGTATAGCTTTTACCTCTCCGTTTTTACCAAATTTGCCTATTCTAGGTCCTACTGTCATAGCTCCTGCTAACGCTGCCCATCCACCAAGCGAATGAACCACTGTTGAACCCGCAAAATCTATAAATCCTAAATTTTCAAGCCATCCAGTTGCTTGTCCATATAAACCAGCCCATGCCCAATGACCAAATATAGGATAAATAAATGCTGTTAATAAAAAACTTGCTATTAAATATGAACCAAATTTTGTTCTTTCTGCTAAAGCACCTGATACTATTGTAGCCGCAGTTGCTGCAAAAACTCCTTGAAATACAAAGAATGTCCAATCCCATCCAACCAAACCATTAGCAAAGAAATTTGTCATTCCTATAAAACTCCCCTTACCAAACATAAAAGCAAATCCTACTGCCCAAAATGCTAATATTCCCATAGAAAAATCCATTACATTTTTCATAATAATATTTCCTGCATTTTTAGCTCTTGTAAAGCCTGTTTCTACCATTGCAAATCCTGCTTGCATAAAAAATACCATTGCTGCGGCAATTAAGGTCCAAGTCCAGTTAAGATTTGTTTGAACTTCATCACCTGTTGCTGCCATTATCCCTGTTGTTAACAAAATAAATAATAATATCCCCAAATTTTTTTTCTTCATTTTCTTCTCCTCCTTTTATCATTAATAAAATATATATATATGTTTTTTTATAGAAATTTAATTTATAAACTCTATATCAATACTATTTTTCTCTTCTTGAGGTTATTTTACACATTTTTTTATATTTAATCAAATATATGTAAATACTAATTATAATTAATTATTTTTATGTGTAGAATTATAATTAATTATAAACAAAAAAAGACTCTTATTTAAAGAGTCTTTTTTTGTTTATAATCCTATAAATTTAATTTTGATATTTTCCTAATTTTTTTAGTAATTCTTTTAATAATTCTTTTTCTTCATTTCCCAAAACATCAAATATTTTTTCTAAATTTTTTAAATGTTTATCAAATATTTTTTCAATAACTTCCTTCCCTTTCAATGTAAGAGAAATCAAAAAAGCTCTTCTATCACGGGGATCTTTCTTTTTTTCAATTAAATTTTGTTTTACTAAATTATCTATTATTACAGTCATAGTTCCACCTGTAGAAAAAGTTTTATTGATTATATCTTTTATTCTACTATCCCCCTTATGATATAAAAATTCTAAAACATAAAATTGCGATTCTGTAATTCCTTTTTCTTTAAATATCGGATAAATATTTCTATTAACAGATTGTGTACATCTATTAAGTATTAAAAAAAGTTTCAAATTTAAACTATTTTCTTTTCCATAATTTTTCTTTTCCATAATTTTATTATACAATTTATATTGATTTTTATCAATTTAATTTTATTACTATACTAAATTTTACTTTGTTAATATTTTATGCGCTTCTTTAAATCTTTGAAATGCAGTATAAATAATTGCTATAAAAAACATCATTGTTATAATTATTAGATATTTTTGAAATAATATCATAAAAGTAAAAAATATAAATCCTTCTGTTCTTTCTGCAAGCCCTGGCTGATAATAAAATGATTTTTCTCCTTTTTTATTTGCAACTGCTCCTACGCTTAAAAATATTGTCATTGTTATCACTATACTAGATGTAAGTAAAAGCAAAGAAAAAGTAGCATTACTATTTTTTATTGCTAAAGTTATTATCATTCCTATTTCCACTAATCTATCAAATACTATATCCATTATAGTCCCAAATTGAGACGAAGTCTTTGTTTTCCTAGCGATAGTCCCATCAACAGCATCTAAAGCTCCGGATATCCATAATATTATTACTGCTATTAAATTAAAATCTGTTAATATAAATATATTTATAGTCAATCCTAAAATAAAAGCAAATATTGTTACTTGATTTGCAGAAATATTATTTTTTATTAATAAATCCGCTATTAAATTGAAAAATGGTTGAATAAATTTTCTTGCTCTTGTATCTAACATTTTATGCCTCCTTATTGATATCTTTTTAAATATCTAAATCACAATTTTTTTCATATATAATAAACTTCATCCATTTTTATATCAAATTTTATTTTACCTCTTAATTTATATCTGTTAATATTTTCAATTGAATCACAATAATATATTTTACCATTTTCAAATCTTATTATTAATTCACATATATTTTTATAATAATTAATCCCTTCAATATTTCCTATTATTTTACCATTTTTCTTTATAATAATATCTTTATCTTTTATAATTATTTTTTGATTTTTATCAATTTTATAATAATTTTCAAAAATTTTACTATCAAATATATTTTTCATTCCTAAAAATTTAGCTACCTTTTCATTTTTTGGTTTTTTATAAAGTTTTAATGGCTTATCTGTTTGTAATATATCGCCATCTTCAATAAGTATTATTCTATCTGATAATTTAAATGCTTCATCTTGGTCATGAGTAACAAATATTGTAGTTACTTTATTTTCTTTATGAATATTTTTTATTAAATCTTGCATTTCAAGTCTTAAATTTTCATCAAGTGCTGAAAAAGGCTCATCCATTAATAAAATTTCTGGTTCTATTGCTAATGCTCTAGCTATTGCTACTCTTTGTTTTTGTCCACCACTAAGCTCATGTGGATATTTTTTATTAAAATTTTTTAACCCTAATTTTTCTAATAAATTATCTACTTTCTTTTTTATAATTTCTTTTTTTTCTTTTCTCATTTTTAATCCAAATCCAATATTTTTTTCAATATTTAAATGAGGAAAAAGATAATCTTCTTGAAATATCATAGCTAGTTTTTTTTCTAATAAATTATAATTATTTATATTTTTATTTTTAAATAATACTTCTCCTTTATAATTTTTATCTATTCCTGAAATAATATTTAAAATCGTTGATTTCCCTGAACCAGATTTTCCCAAAAGAGATATAAACTCTCCTTTTTTTACTTCAAAATTTATATTTTTTAATTTAAAATCATCATACTCTTTTGTAATATTTTTTAGTTTTATCATGTTTAACCTCTTTTTATATTAATTATTTAAAATTATAAATTAATTCAATTATATTTTATTTTTTATACAATTTTCCAAAAATTTTTTCTATAAATATTACAGATATTATATTTAAAACTATAAAAATTATTACATATACAGCTCCAATAGCTCTATTTCCTCCTACAATATATGGAAAAGTAATAAGTGGTAATGTAATTATTTTCCCACCACCTATTATATATGTAAGTATATAGTTGCTAAATGAAATTAATAAACTTAATATTATTCCACTAAGTATAGAAGGCATAAGCATAGGTAACGTGATTAATAAATATTTTTTTAATGATGATGCCCCATATAATATAGCTACTTTTTCATAATTAAAGTCAAAATTTTTATAACCTAATATAAGAGTTCTTAGCATATATGGAAAAGTTGGAATAATATGTATTAATATAACTCCAATAAAATTTTCTACTAAATTTAGTTTTATAAAAATAAAATGTATCCCCATCACTGAAATTATTGGTGGAATAATAATTGGTGCAAACATAGAGTGTTCAAAAAATTTTCTACCTTTAAATTTATCTTTTACAAGTGCATTTGCTGCAGGCAAACCTATTATTAAATTTATTAAAGATACAATTATCGCTATTATCAGACTATAAAATATAGCTTTATATGTAATAGGCTGTTTAAAAACATATTTCCACCATTTAAGAGAAAGATTACTTGGAAAAATATTAGGATATTTCCAAGTATTTGAAAATGAATATAAAACAAGTGGTATATATGGAAAAATAAATATTAATCCGATTAGTAAAATTATAAATAAAAGCATTATATCTCCTCATAATTTTTTTTTAATATTTTATATGAAATAATTCCTAAACTTATTGTTATTAAAACTATTATTATATTTATGCTCATTACTTCACTTTGTGTATTAATAAAATCCTTTGAATGCATATCATATGTCATTACTGATAACATTTTAGGATATGTAAGTCCAAGCATATAAGGAATTTCAAACGCACTAAAAATAAATGCTAACAAAATAAACGCACTATTAAAAAGTGTTGGAATTAAAAGTGGTATAATAATATAAATAAAAAATTTAAAATTATTAGCTCCGTATAATTTACCTACTTTTATCCATTTATCAATTATTTTATCAAGAATAGGATAAGTCATAAGCAATACAAAAGGAAGAGTTTTCCAAATATATGTAAGAATAATTCCTATTCCATGAGAATCGTTAATTAAAATTGGAAATTCTTCAAAATTTAAAATTACTCCTGCTTTATAAAATATTTTAGATAAAAATCCTGTTTGAGCAAGAGTTATTATACTTATATAACTACCTATAAGATACGGCACTAGCATTGGTACTAAATATAACTTTTGAAGTTTATCACTTAATTTAAAATATTTTAATTTCAATAAGAATAATAAATATAAAATAATAATAGCAAATAATATTACAAACCCTACACTGAGTAAAGATATTTTTATACTAAGAAACAGAGAGTCTAAAAACTCTCTATTTCTAAAAACTTTTATATAATTTTCAAATGTAAATTTTGATTTCTTATTAATTAAAAAAAATCCAAAACTTTGTAAAACTCCTAAAAATATTCCATACCAAAATAATAAAAAAATTGTTAAAAATGCTGGCAATATTTTTATATATGGTTTAATTTTTTGCAACATTTTCATACCACTCTTTTTCTATTATCTCTACATATTTTGATTTTATTTCTGGAATTCTATTTTTTGATAATACATCAAATGATATACTAGCATCTCCTATATCAATTTTATCAAATTTTTCTTTTTGCATAGTAGTTAATTTTGTAAAATCAAGAACATTTCCATCTCCCCAATTATTTGGGATTTGTTTTTGATATTGTGCATCAAATGATATTAAAAAATTTATCGTCATAAGAGCTGCAGCTTTATTTTTTGCATTAAATGGTATACTTAAATAATGATTATTAAATATTGTCCCATTTTCAAATAAAAAAGTTTTAGTGGCTTTCGTAAAGCTACCATTTTTTATTCTACTTTCTACAAATAATGGTGCATAATCCATTGTAAAATATATTTCTTGCATTGAATATAGTTCATGCATTTTACCACTACTTTCAGGATAAGTTTTTCCTTCTCTCCATAAATATGGTTTTATTTCATTTAAATAGCTCCATAATGGCTTTAGTAATTTTTTTATTTGACTTTCTTCTAAATCCTCATTTACCAATCTAAAATACGCCTCTTTATCAATACTAGAAAATAATTGTCTTAAAAATACACTTCCTATAAAATCACTACTTTGTGGATAAGTAAATTTCCCACGATATTTTTTTACAATTTCTTTTAATTCAACATGATTTTTAGGATAAGTTACTTTTTCACTATCATATGCGAAAACAAATTGAGCAGTTCCCCACGGCGCTTCTAAATAATTAATTGGTTCCCCAAAGTCAGACTGTATAGTTTTTTCGTCTACATAGTTTAAATTTGGTAAAATTTTAGCAAATTCTCCCCATAAAAGTCCATTTTCTTTTGCAAATTTAAAATTTTCTCCATTTATCCATATAATATCTACACTTCCATCTTTTTTATTTGCAATTTTTTCAGTCAAAAGTTTATTCATAATTACTTTTATATCATCTACGGGTACTCTATTTATAGTAATATCTTGTTTTTTAAGATTTTTCCCGACATATTTATCAATATAATCGTTTATTACTTCACTTCCTCCCCATGCATATATATTTACCACTGTTCCTTTAGATTTTTTTTGTATATTTTCCCAACTCTCATTTAAAGTTACATCATTACTTTTCTTGTTACATCCAATAAGTATTATAAACAATAAAAATATAATTGTTTTTTTCATTAAACCTCTCCCTTTTTAACAAATAATTTTGGAATAAACGATAAGATTACAAAAATTATTGCTGCTACTGCAATTAAGATAATATTTTTTTTTGATATTCCTTCTCCACTTGCTATTGCTCCAGAAGATAGTACATATACTGCAGAACCAGGAATAATCAATATACTAGAAAGTATAGCATACATTACAAACTTTATATTTGTAAGTCCATATATATAATTTTGCAAATTAAATGGAAATATCGGTACAAGCCTAGTAATTAACAATATTCTCCATCCATTTTTTTTGACACCTTCTTCTATTTTTTGAAATGTATCATTATCTTTAACTTTATTATATATAGTATCACGTATAAAATATCTTGCAAGTAAAAAAGCTAATGAAAGTCCTATACTAGCACCTAGTACCACATATACAAGTCCTAGTATTGGTCCAAAGATTATTCCTCCAATAAGTGTAAAAGGCGTTCCAGGAAGAAATAACACCGTTGCTAGTGCATATATAATAATAAATACTATTGGTGCTACTATACCAAAGTTATTTATCCAATTTTTAAAATCTTCAATATTTTTTACTTTTTCAAATATATTTAATTTATATAGTAAATATATCAATATCACTAAAAGTGTACCAATTAATATTTTCTTTTTCAAATTTTTCACCTACCTATAGTATCTTTTTTTTATTTCTTCATATCTTTCTCTATTTTTACCCATATCTGAATATCCAACTCTTGAAGCTGATTTAAAATGAATAACTTTCTCATTTTCATCAAAATAAAATTCTACATCATCTTTAAATTTTAAACCGCTTGTTTTAAAAACAACATGGATATAATTTTTATCTTTTCTTTCAATTTTAGCATTTTCATAACTATTTAATACCTCTAATATTTTTACATAACTCTTTTCTTTATTCTCAATGAATTTTAATGGCTCTACATATTTTTCTTTTATATCTGTTTGACTCGATATATTATTTGGTGATTTTTTTAATTCATAAAATTTTCCATTTATTACACCTATATTTTTAGGTTCAACGTTATTTTTTATTGTCATACCTCCAACTAATATTATAAATACTGCTACTACTGCATTCATAAACTTTCCTCCTAATATTTTTAATAAAATAAAGCTTATATATTCTATAATAAACTTTTTTTAATATATATTTTTATCTATACTAATTTATATATCTATACCTTTTATTTTTTAAAATTCATAAAAAATTTTACTATTGGATTTTCTAAAATATTATCTACTGCTACTTTCTTGGATATTTTATTTAATACTTCAGAATAAGTAGGATAAGGGTGTATTACATTAACAAGTTTTGCATAATTTATTTTCAACGTTTTTAAGACTTGAATTTCTGATATTATCTCTCCTGCTCTTTCTCCTATAATTGTAGCACCTAATACATATCCTTTTTTATCTAAAAAAAGTTTAACTTTCCCAATATCACCTTTTTTAGTCATGGCTCTATCAATATTTTTAAAATCAAACTGATATTCTCTATATTTTATATTTTGCTTTTTTATTTCTTCTAAGCTCATTCCAGCTGTAGCAAGTTCTGGTGAAGTAAAAGTTGTCCATGCTACATGACTATAATTAATATTTTGTTTTATTGGAAGTACAATATTTTTAGCAGCCAAAATTCCTTGTACATTCGCCATATGTGAAAATTGATAAGGCCCCACTACATCTCCAACAGCATATATATTTTTTATAGTTGTTTGTAATTTTTTATTTACAACTATTCCTCTTCTTGTAGTTTCAACTCCTATTTCTTCAATACCTAGATCTTCAATATTTGCTTTTCTTCCAACTGCTACCAATAAAGCTTCTCCTTCTAATTCAAATTGTTTATCCATATTTTTTACAGTTAATATTTTTTTATTATGTTTTTCAATTACTTTTATAGCTTCTGTTTTTTCATAAATTTTTACTCCTTCATTCTCTAATTCCTTTTTAATTATTTGAGCAAATTCTCTATCTTCTTTTATAAGTATACTTTCCATCATTTCTACAAGTTGTACTTTTACTCCAATTCTATTTAAAGCTTGTGCCATCTCTATTCCTATCGCTCCTCCACCCAAAATAATAATTGATTTTGGTAATTTTTCAAGATAAAATAAAGTTTCATTTGTTAAATAATCAACTTTTTCTATCCCTTCAATTGGCGGTATAAAAGGTGATGAGCCTGTTGAAATCACAATATTTTTTGTTTTATACTCTTTTCCATTTACAATTACGCTATTTTTATCTTTTATTTTAGCTTTTCCATTTAAATAATTGATACCATCGTTAATTAATTTTTCAGGAGTTTCATGAGAATATACATTTAAAATTACCCTCTGTATATTTTTTAATACTTCTTTTGTATCTATTTGAAAATCTTCATTATATTTTTTTACTGTATAAATATCTTTCGCAATATTAATAAGTGCTTTACTCGGAACACATCCACTCCAAGTACATTCACCACCTGGTTTATATTTTTCAATCAATAAAACTTTTTTTCCAAATCCAATAGCAGTATATGCAACTGAAAGCCCCGCTGCTCCACTACCGATAATTATAACATCATACATATTATTTCCTCCTATTTTCTTTATTTTAGTGTATCATAAAAATAAATTGTATGCAATATAATTTTATGATATACGTTTTTTTTTTATTTACTTTATTATTCTTAATAATATTTTAAAAACCTTTTTTTATTTTTTTCAAAAAAAACTTGCATTTAAAGGGCAAAATAAGGTATATTAGTTGTAGTGAAGCATATAATAAAATAGGAGGTAAATAATGAATAAAAAAGAATTCGTAGCTTTGTTTGCTGAAAAAGGAAATTTTGAATCTAAAGCTGAAGCTGAAAGAAAATTAGATGTCCTTTTAAAAACTATCGAAGAATCTTTAGTAAATGGAGACGAAATTAATTTTGTAGGATGGGGAAAATTTGAGGTTCAAGAAAAACCTGCAAGAAAAGGTAGAAATCCTCAAACAGGAGAAGAAATTGAAATTCCTGCTAAAAAAGTTGTTAAATTTAAACCTGGTAAAAAATTAGCTGATAAAGTTAATAAATAATTTTTTATAAAAAACTGCCTTAGGCAGTTTTTTTTATTTTTTAAAGGATTTTTATTTTTTTTCAGTATTATATTATAGTAATATATTTTTATTGAGGTGGGATTATATGATAATTTATTATTATACAAATAAAGGGAAGAGATCAAATAATGAGGATTCTTTACTTATTAAGGATATTGTCATAAATAACAATATGAAAAAATACGAAAAACTTGTTTTTAATGATAATAAGGGAAAGTTTTTTATAAGCGATGGACTCGGAGGAGAAGAAGCAGGCGAGATAGCAAGTCAAACCATTCTTAATGAATTAATAAATTCTTCTAATCTTGATTCTATAGATAATATTCATAATGAAATTAATAATATAAAATCAATACTTGATGACTATAGTATAAAACATAATAATCTTGTATTTGGAGCTACTTTAGGTGGAATATCTTTAGGAGAAAAATCATTTATAATCAATATAGGGGATACTCGTGTTTATAAAATATCAAATGTTGATACTAAACAATTATCTATTGATCATACATTAATAATGAAATATGTAGAAAATGGACATGTACCTAAGTCTAATATACGGTTTAATCCAATGAGAAATCTTATTGTATCTTCTATTTCTGGCGGTTTTGAAAATTCTATTACTAAAACAAATATAAAAAAATTAAATTATACTAAAAATGATATCTTTCTTATTTGTAGTGATGGTGTCTGGGAACTTTTTGATGATGAGGAAATATATAATGTTTTTCTAAATTATTCATTAGAAAATGGATTAGATTTATTTTTTCAAAAATTGATTAATAATTGTAAAGATAATATTTCATTTATAATAATAAAAATAGAAGAGTAAAATTTACTCTTCTATATCTGTTAAAGTATCATAAAACTTTGTATAATCTTTTCTTTCTTCTTTTACAAAATTTATTGCTGCTCTTGGGTGTTCATTTAATTGTCCCGTTAGCATATACGCTGTGTTATATCCCCATTTTAACTTTTCCTTCATTTCTGCTTCTTCTTCTTCTATAAATCTTAATAATGGCTCTATTTTATA
>sequence02
GAAGGAATAAGTGTAAGAGTAATAAATATGGGTACAATAAAACCATTAGATAAAGAAGCAGTATTAAAAGCATCAAAAGAAACAAAAGTAATATTTACAGCAGAAGAACATAGTATAATAGGAGGATTAGGAGGAGCAGTAGCAGAATATTTAAGTGAAGCAAATCCAAGTAAAGTAGTGAGAATAGGAGTAGAAGATAGATTTGGTCAAAGTGGAAAGGGAGCCGAACTATTAGAAAAATATGGATTAACAAAAGAAGGAATAATTAAAAAAGTTAAAGAAAATTTATAAAAAAAGCCAAAGTAAGATGCTCCGTGTCTTACTTTGGATATTTTAATATATTCATAAATTTTCTATGAGTATATTAAAATAAAAAAAAGGAGTAACAATATGAGAAAAGAATTGTTATACATTTATAATCAAACTTTAGAGTTGACTACCAAAAAAGATAAAATATTAAGAAATAATATTTTTATTTTAGCAATAATATTTTTGTTGATTAACTTTTTTTTAGGATTTTTTCTAAATTTATATAAAATTGAGGGATATATTTCGGATAATATACAAATAAAAATTAATTTTTCTAAAAATTTAGATTTGAAAAATATAAAAGATTTTGAGAAAAAAATTTTAGAAAATAAAAATATAGATTACGTAAAATTTCTCCCTCAAGATATGGCTTTTAAAAATTTAGAAGATGAATTGGGAATGAAATTAGGGACAACAAATCCTTTGAATAATTCTATGATATTATATTTAAAAAATGTTAACAATTTAGAAGAACTAGGAAGAGTCGAATATGAATTAACTAAATATAGTGAAATTGAAGAAGTAATAATAAAAAGAGAATTTTTAGATAAACTTTTAAAATTAAAAAATAATATATTAAAAATATTAAAATTAGGAGCTATTATTCTTATAATCCCTTTAATTATACTGTTTTATTTTATATTTAATCTTAATTTTTCATATTTAGAAAAAGAAATATTACTAAAACATGAAACACATGAAGTGTCACATAATATTTTAATATTGATACCCTATTTTTTTAAAAAACTAATAGGATTAATAATAAGTTGGATAATAGCATATATAGTATTTATTCCATTTTATGATGAAATTATTTTGACTATTAATGGAATAGATCCTTTTATTGTATTAGCTTCGTTTAACGAAATTCAAGGTTATATCTTTTTATCTTTTGTTATAGTTGTTATTTTATTAATATTAGCTACTATTATAGGAAGAGTGAAAAAGTATGAAGAATAAAATATTAATAATAATAATATTTTTATTTTCTATTTCATATGGTGAAGATTTAGATACTATAAGAGCAAAGGTAAACAATATAGATAAAACTATTGAAAAAAATAAAACAAGTATTGTAGAAGCTAAAAAGAAAGAAAAAGAAATTTTAAAAAAATTAGATAGAATTGAAAATGAGTTGAGTAAAATAACAAGTGATTATAGTGAAATGTTAAAAAAGTATAACACATTAAATAAAAATGTTGAATATGCAGAAAAAAATTTAAAAATAATTGACGAAGAATTGTTAGATATAACTCTACAATATCAGAATGTTATAAAAAAAATTGAAACAAAGTTTTATCTACAAAAAGAATTATTAAATAATATTGAAAATGAATTTAAAAAAGATGAATATATTTCATTATTAAATAATTTTAAAGAAAAAATATCTAAAATTAATTATTTTAAAACAAAAGTAGAAGAAGTACAAGAGAAAATTTTATTAGAAAAAAATGAAATAGGAAGTTTAACAAAAAAGCTTTATATAAAACAAAAAGAAATGAAAAATAAACAAAAAGAACATGCAACTTTAGTTAAGCAATTAAAAAGGCAAGAATATTATTTATCAAATAGAATACAAGTTTTACGTAAAGAAAAATTAGAAGCTGAAAAACAGATAGAAAAGATAATTCAAGAAAGAGCAAAACAAGCAGGTATTGCAACAGTACAAATAATATTAAAACAATTAGGTGAAATGTTAGTTCCTGTTAAAGGTAAAATAATAAAATATTTTGGTGAAGAAAAAATAAATGATATAACAATGCAAGGAATAGAAATAAAATCTTATTTGGGTGCAGATGTAAAAGCTATAAATAAAGGGAAAGTTATATTTGCACAAAAATTTTCTGGATTAGGAAATCTTGTAATGATAGATCATGGATATAATTTTGTTTCTGTATATGGTAATTTGATAAAATTAAATGTAAAAGAAGGTGAAATTGTCTCAAAAGGAGAAAATATTGGACTTTTAGGGTTTTCAAGTGATAGAGAACCAGTATTATATTTTGAAACGAGAGTTTCAGCAGTAAGCACTGATCCAATAATATTTTTGAAAAAATAGATAGCTAGGAGGGGAAATGCTATATTTTTTATCGGTATTTATATTAATAATAGCTTCAGGATTATTAGTATACTTAATAAAAAATCATAAAAAAATTAAAGATTTTAGAAAAGGATTAGAAAAAGATTTAAATACAGAAAAAATATATAAGTATATTCAAATGAAAGGGTATAAAATTATTCAAAATAAAGTATATTCGTACTATATGCTATTGAATGGAAAATATGCTGAAATACAATTAAAACCCGAATTAACAGTAACTAAAAATGGTAAAAAATACGCAGTTATTATAAATAAAGATAAAGAAATAGAAAAAAATACTGAATTAAGAAAAAAAATAGCAGAGATTTATTATACTGGATATTTTTTCGGTGTAATAGTGTATAATGTTAATAACACAAAATTAGATAAAATAATATATGTAAACAGAAAAGAAAGATATAATAAAAAAGTTTTCCAAATATTAATAGTAATAATTATGATTTTATCTACATTATGTAGTTTCTATACACTTAATTTCTTTTTAAATAGATAGGAGAATTTATGTTTAAAAATGTTTATATTATATATAATACAGATAAAATAGAAGCTATAAATTTTTATAAAGAAAGTTGTAAATATTTAAAAAAAAAAGGTGTAAAAATTTTAGATGAAAAAAATATTCATAAAGCAGAATTTTTTATTATAATTGGTGGCGATGGAACATTATTACATGCTAGCCATAAAATTTATAAATATAAAAAACCAATTTTAGGTATTAATAAAGGAAATCTTGGATTTTTAACGGAGATTAAAAGTGGAGAAGCTTTTCAAATGTATGATGAAGTTTTAAGAAATAAATTTAAAGTTTCTAAAAGAAAGTTTATAAAAATATTATATAAAAACAAAGAAATTTTAGGACTAAATGAAGCTGTTATTGCAAAAGATGGTATAAATAGTAAAATGATAAATATAAAAGCAGAAATAAATAAACAGTATTTAACAACATATAGAGCTGATGGAGTAATAGTATCAACTCCAACAGGTTCAACAGCTTATTCTTTATCTGTTGGTGGTCCGATTATATCTCCAGAGCTCGATGTAATGATTATAAATCCTATTGCACCACATACATTAACGGCACGCCCATTAATAGTAAATAGTAACAAAAAAATTGAATTTAAAATAGAAAATAATACAAAAACTTATTTGCTAGTTGACGGAAGAGAAAGCATTAGGTTAAATTGTGGAGATAAAATAGAGATTACTATGTCAAGTGAATATATTGAGCTTATAGAATCTAAAAATAGAGATTATTATTCAGTACTTAGAGAAAAATTAAAATGGGGAGATACGCATGCTAAAAGAACTTAGAATAGAGAATTTAGCAATTATTGAAAAATTATATTTAGAATTTGAATCAAGTTTAGTTGTATTAACTGGAGAAACAGGAGCAGGAAAATCTATTATATTAGATGGAATAAATCTTTTAATAGGTGAAAGATCAACTCAAGAAATGATAAGAGACGGAGCAGATAAACTCTTAGCAGAGGGTATTTTTGAGATAAATAATAGACAAATAGAATATTTAAAAGAATTAGATATTGAAGTAGACGATAATGAAATTATTGTCCAAAGAATAATAGAAAGAGCGGGAAAAGGAAAAGCTTTTGTAAATGGTAGAAGAGTTCCTTTAAATTTATTAAAAAATATTATGGGAACTTTAGTTGATTTAGTAGGACAACATACTCATCAAGCACTTTTAGAAAAAGAATATCATTTAAAGCTATTAGATAGATTTTTAACTGAAGAAGAAAAAAAAATAAAAGAAAGATTAGAAGAAACAGTCAATAAATATAATAGTTTAAATAAAGAATTAAAATTATTAAAAGATGAAGAAAAAGATCTTAGAGAAAAAAAAGATCTATATGAATATCAAATAAATGAAATTGATTCTTTAAATTTAAAATTAGGAGAAGATGAAGAATTAGAAGAAGAATATAAAAAATTATTTAATTCAGGGAAAATAAAAGAAAATTTAGAAAAATCTTTAATGCTTCTCCGAGAAGACGAGATAAATGCATTGTCAATAATAGGAATGGCGAAAAGAAATTTAGAATACATATCTAAGTATGGAAAAGAATACGAAGATATATTAGAAAACTTAAATAAAGTTTACTATGAACTAGAAGATGTGGTATACTATATTGGAGATCAAAATGATAATATTGAAAATAATGACTTTAGATTAAATGAAATTGTCGATAGATTAGATAAGATTAATAATTTAAAGAAAAAATATAATATGGAATTAGAAGAAATTTTAAATTATAAAGAGGAAATAGAAGAGAAATTAAGTAAAATAGATTATAATAGTTTTGAATTAACAAATTTGGAAAATAGTATTCAAGAGATAAAAAAGAAATATTTAAAATATGCAAAAGATTTATCTGGAATTAGGAAAAAAATAGCTCAAAATATAGAAGAAATGCTTATAAATGAATTTAAAGATTTAAAAATGGAAATGGCAAAATTTAAGGTTTTTTTCGATGAAAATAATGATATATCAAAAGACGGAATTGATAGTATAGAATTTATGATAACTACAAATATAGGGCAAGATTATAAACCGTTGAATAAAATAGTTTCTGGAGGAGAAATTTCTAGAATTATGTTATCATTAAAATCTATATTTTCAAAAGTTGATAGTATACCTATACTTATTTTTGATGAAATAGATACTGGTGTTGGTGGAGAAACTGTTAGAAAAGTGGCAGAAAAACTTAAAAATATAGGAGAAAATGTACAGGTAATATGTATAACACATTCTCCAAATATAGCGGCGAAAGCAAAACAACAATTTTATATAGAAAAAAAAATAATAGATAAGAAAACAATAACAATAGTAAAAGAGTTAAAAGGGAAAGAAAGGCTAAATGAAATAGCAAGAATGTTAGCGGGTGATAATATTACTGATGCAGTAATTAATCATGCAAGCGAGCTTTTAAAGGAGGGATAGTAATGGCATACAGGGAAAAGCTACATGAATCATTAAAGCAAACAACAAAAAAATTAATTGCACATGAGCCTATAATAAATGAGGTTGGAGTTATTAAGTCACCATTAGATTTAGAAGATTTTACTATTATAGTAGGAATGGTGGGTAAGATTGAAGGACAATTAATTTTTGGATTTGAAAAAGATATTTTAAAGAAAATTGCACAAAATATGGGGGAATTAGAAGATTTTACAAATGATCATCTTTCTATTAGCTTAATATCTGAATTTTCTAATATATTAACTGGTAATGCAGTAACTTATTTATCAGAACACGGATATGAAGGTATAAAAATTACACCTCCTTCTATTGTAATGGGACAAGATATTAATTTATCTACTAAATTAGAAGAGATACATAAATATTTATTAACATTTGATGATAATATAGGAGTTATTTCTCTTTATGTTGCATTAAAACATAATAATTAAGCAAGGAGGAACAATTATATGAATGTTGAATATATTAATCCGTTTACACAAGCAACATTTGATGTGTTGAATATGTTGGGAGCATTTTCACCTAAAATAGGAAAGTTATCTGTAAAAAATGAGCCGGTACCGAGTTATGGAGTATCTGTTATTGTTGGAGTAATAGGGAATATAAAAGGACAAATAGTATATAGTTTTACAGAAGATACAGCAAGAGGAATTGCTTCCGCAATGATGATGGGAATGCCAGTAGAGGCTTTTGATGAAATGGCAAAATCAGCAGTATCAGAGCTTGCAAATATGATAAGTGGGAATGCAAGTACTGGAATAGCAGCAAAAGGATTAGAAGTAGATATTTCACCACCTACATTAATAACAGGTAATAATGTGAGAATAACTTCAAATGTAAAACAAACAGTAGTAGTACCTATTGAAACTACAGCTGGTGTAATTGAAGTAAATATAGCAGTGGAGTAAAAATATAATGAATGAAATTAATATAAAAGAATTAAAAAACTTTTTAAATTATTTACAAACTGAAAAATACTTTGCAAAAAACACTTTAGAATCCTATAAAATAGATTTAGAAGTTTTTTTTTCAATGTTAAATAAAAATTATGATGATATAACAGAAGAAGATATTTTAGAACACATTGAAATATTAAGAGAAAAATATACTCAAAATACTGTAAATAGAAAAGTTACAACTTATAAAAAATTTTTTAAATATCTTTATAAAAATAAAAAAATAAAAAAATTAATAACAGAAAACATAAAAAATTTAAGACAAATAAATTATATTCCTGAAAGTTTATCAAAATTAGATATTAAAAGAATTATAGAGAATTGTGATAACGATAAAAAAGGGGCACGGGATAAGTTAGTAATTTATTTATTAATAAATACTGGATTATTAATTTCAGAAATATTATCTATAAAGAAAAGTGATATAGTAGATAAAAAATATTTAAAATATTCACATAAAAAATATCCTAAAATGATAGAGTTGCAAAATGATACTTTGGAATTATTAGATGAATTCATTGAAAAAAATAATATAGAAGATAATGATTATATTTTTTTAGGATTAACTAGACAAAATTTTGCAGCAAGATTAAAAAAATATGTAAAAAAAGCAGGAATAAATCGAAATATATATCCTAATATGTTTAGAAATACATTAGCACTTGATTTATTGGAAAAAGGTGAAGATATAAAAAATATAAAAGAAAAGCTAAATTATATAAACATTTCAAGAGCTGGTATATATAGTATTCGAAATAAAAAAAGTATAAAAGATATTTATAATGAAATAGCAATAGGAGATTGGGATGTATCAGAAAATATTTAATGCCCTAGGAGAAGAATATTTAGAAATAAAAAAGTTATTTCTAAATAAAGAATTAATATTAGCTTATGAAAAATTAAATGAATATGAAAAAACAAAAAAAAATAAAAATTATATTTATTTTTTAAAAGCATTAATATGGATAATTCAAAAAAAAAATAAAAAATCTTTAGAATATTTTGAAAAAATTAAATATGAAGATATAAAATTATTAATAGGTAAAGATGAATATTTAGAAATATTAGGAACAATATATTTAGAAGAAAAAAAATATTTAGAAGCGGCAAAATATCTTCAAGAAGCATTAACTATAAATAAAACTAATATTAATGCTAAGTTTAATTTAGGAATCATTTATATTCATTTAAAAGATTATAAAAATGCTTATAAGACATTTTTAGAATTAGAAAAATATAATATAAAAAATAATGAATTAAAAGAAAGTATTAAAAAAAATATTATAACCTTAGAAAAGGTAATGAATTAAAATTCATTACCTTTATTTATAAGTAATAAAATATAAAATGAAATATTTATATTATTATTTTATCTTTGAAAGGAGAATTTTAATGGATAAAACTAATGTTGAAAGTTTTAAATTAGATCATACAAAAGTAAAAGCACCATATCTTAGAATTGCTAAAGATCTAGAATATAACGGTGTTAAAGTAAGAAAATTTGATTTAAGATTTTGTCAGCCAAATAAAGAAGCAATGGAAACAGGAGCTATTCATGCAATAGAACATATTATGGCAGAGGAATTTAATAATTCAGAATATGGAATAAAAGAAATTATAGATTTTTCACCTATGGGATGTAGAACAGGGTTTTATATTATAATGTTTACTGAATTTGATCAAAAAGAATTATTAGAAAAAATAAAATTTTATTTAAATAATTTATTAAAATATGATGAAATACCAGCTGCAAATGAAATACAATGTGGAAATTATAAAGATATGGATTTAAAAAGAGCAAAAGAAATAGTAAAAAAAGTAGTTAATAATTTAGAGTTGTTTTAAAAATAAAAAAAGAACTTCTTATAAATTAGGAGGTTCTTTTTTATTTTCATTGATAAATTAAAAATATATGATAAAATATACACATATATATAAAATTAAGGAGAGAGAAATGAAATCAGGATTTATTGCAATGGTAGGAAGACCAAATGTAGGGAAATCGACACTTACAAATAAATTGGTAAAAGAAAAAGTAGCTATAGTTTCTAATAAGGCTGGAACTACAAGAGATCAAATAAAAGGAATATTTACAAAAGGAGATAGTCAATATATATTTGTAGATACACCTGGAATACATAAACCAAAGCATCTTTTAGGAGAACATATGACAGATGTTGCTATACGAACCTTAAAAGAGGTAGAAGTTATATTATTTATATTAGATGGGACACAAGAAATTAGCACAGGTGATATGTTTGTAATGGAGAAAATATTAGAAGCAAAGGGAACTCCTCGTATAGCAGTTATAAATAAAATAGACTTATTAAGTGATGATGAAATTGAGAATAAAAAGAAAGAAATAAAAGAAAAATTGGGAGAGTTTGATAGAATAATTACACTAAGTGCTGAGTATGGTATAGGAACAGAAAAAGTATTAAAAGTATTAGAAAATTATTTAGTTGAAGGAGTAATGTATTATCCAGAAGATATGTATACAGATATGCCAATATATAAAATTATTTCTGAAATAGTAAGAGAAAAAATATTAATAAAAACAAAAGATGAAATACCACATAGTGTTGCGATAGAGATAATTAATGTAACAAGAAGAAATAAAGGAAAAGATAAATACGAGATAAATATTTATGTAGAGAGAAATTCACAAAAAGGTATTATTATAGGAAAAAATGGTAAACTATTAAAAGAAATAGGAACTGAAGCAAGAAAAGATATTGAAGAACTATTAGGTAAAGAAATATATCTTAATTTATGGGTTAAAGTCAAAGAGAAATGGAGAAAGAAAAAACCATTTTTAAAAGAACTTGGATATTTTATTAATGAAGAATAAAGAAGGTAATAAAGTGAAATATAAGATTTTAGCTATAAGTGATATACATATATTAAAAAAATATTCCATAAATTTAATATTAGAAAAATTTAAAGATATAGATTTTATTATTTCAGCTGGAGATGTTAGTAATGATTATTTAGATTATTTAGCTTCTATATTAAATAAAGATATTATTTATGTGAATGGAAATCATGTATATAATGAGAAGCATAATATTTCATTTTGTAAAAATATAGATGGAAAAATTATTAAATATAAAGATATATATATATTTGGATTAGATGGTTCTAGAGTATATTCCTTTAAAAAACATCAATATACAGAAAGAGAGATGTTTATAAAAATTTTAAAAAATATACCTCGACTAATTTTACATAAACCTGACATAGTTGTTACACATGCTCCAATAAGATATATTCATGATAAAGAAGAGCATGTACATAAAGGATTTAGAGTGTTTTATAAAGTTATAAATTGGTTTCATCCAAAATTATGGATACATGGACATATACATTTAAGCAATCATTATGAAATACAAGAAACAGAATATAATGGTACGCGTATAATAAACGCTTATGGATATAAATTGATAGAATTTCAAAAAGATACTTGAGGTGAGCAAGGATGAATGGTTATATAAAAACAGAAGCAAAAGAAGCGTACAAAAAATTTTTAAAAGAAGCAAAAAATCCATTAAAGATTTTTGAAAAAAGAGGAAATTTAAAAAAGTTTGTTGATAGGCAAAAAGAATTAGCTGCATATAATAGTGTATATTTAGGAGTAAAAAATGTAGAATTATCTAAAATTGTTGGTAGTGTACAAAAATATATGGATTTTGATAAAAATTTTGTACCCAAAAATAAAATAATAGAAACAAGATGGTGCAATATATATATTGCTTATCAGACAAATAATAGATTGCCATTAGTTCAATTATATAAAATAAAAGATGAATATTATGTATATGATGGAAATCATAGAATATCTGTTGCAAATTTTTTAAATTTTAAAAGCATAGAGGCTGAAGTAACAGAATTTTTACCCTCGACACATAAAAAAGAAGATATTATATATAGAGAAAAATTTTTATTTGAAAAAGAAACAGAATTAGAGGGGATAGAATTTAGTGAGATTCATCAATATAGAAGAATACATAAGGAAATAAAAGATTTTAGTGATTATCAAAAAGAAAAATATGATAATAAAATTGATTATAAAACAGCAGCAAAAATATGGTATACAGAATTATATAAGCCAGCAATAACTATATTAAATGGAAATAATATGCTTGACTATTTTATAGAAAGAACTATATCTGATATATTTATATATTTCCTAGATCATAAATATTATGAAAGTGAAAAATATATGGAAGATGTAGGATATACCTATGCCTTGATTAGTTTTATAAATCATATAAAAACAAATGCAGATAAAAGTCTAAAATCAAGGATAAATGTATATAGTTATTTAAAAGAATTTAAGTATTTAGAAGATTTAGATATGAAAAAAAGCTTAGATAAAGAAACATTAAATAAACTAAGTATATTAAAAGAAATCACAGAAATAGATTTTTTATATAATTTTATAATTTTATATGAAATAGATGAATATATAGAAAGAAAAGATATTAAAGATTTTAGAGCTGGAGTAGAAAAATGGTATAAAAAGCAATTTATAAATAAATTTGATGAATTAAATAAGAGAATAAGCCAATTGCCAAAAAGATATTCAGATTATTTAAAATATATTGAAAATGAAAAAGAAATAATATTTCATCACTTTAGAAGTTTTAAAGATATAGCAAAGAAAAAATACAAAAAGAAAAAAGTAGATATTGTAGCAAATTATATTTTAGATATATTTATACCTATAGTTGAATCTATTCAAATATCAAATGTTGATAAAAATGACTTAAATAAAAATTATATAAATATATATGATGGTATTTATGAAAAATATACTTATTTATTTGATTATAATCAAAAGATAACTATTTACAAAGCAGCAGAAGCATATTTTAATTCTGAAGGAGCTGTATATTTTAAAATTAATGATTGGTTTGGGACTAAATATATTAATAATAAAAAAAGAGCAGAAATTTTATTGAGAAGTATAAATAAATTAGACAAAGAATGGCAAGAATTTCACATAGAGTTAATGAAGAAATATGGTGAATTTGGAAGATTTGATACGTTATTTAAGCTACAAGAATTAATAAAAATATCTATTGAAGAGTTTGGTACAGAAGAAACTAAAAATAAAGTTAAAAATGATTTAGAAAAATTGTTTAATCAGAAAGAAATAAATGTTTTTTATAAAACTAAAAGAGGTTTAATAGAATTAAAACAAAATGAAAATTATAGTTTTGTTGATTTTTATGTAGATATAATGGAGTCTTCAAAATATTTAGGAGAAGATAAAAATTATGTAGATATAATAGATTTAGCATTTAGTGTTATGTATAATTAAAAAAAGATTATGAACTATTAAGTTCATAATCTTTTTTTAATTATAAGTATTGAGCTAATTTATTTTTTAGAGCTTCTTTTGGTAATAAACCAATTAATTTGTCTACGATTTCACCATTTTTAAAAATGTACATTGTAGGAATACTTCTTATACCATATCTAGCTGCTAAAGACTCAACTTCATCTACATTTACTTTAGCGAATTTAACATTAGGCATTTCTTCTGATAATTGCTCTATAATAGGTCCTAACATTTTACAAGGACCACACCAAGCAGCCCAAAAGTCAACTAATACTACTCCATTAGCTTCCAATACTTCTGCTTTAAAATTGTTTTCATTTAAGTGTAATACTTTACTCATATTATCCCTCCATTATTATATTAGAAAATTCTAATGTATTTTAACATATAAATTTAAAAATGTCAAATATAAAATAAATTTTTTATTAAAAAAATAAAGAATAAAATATTACAGATAATAGTGTGAAATTTGGATATGTATATGTGTCTGAAAATTAAATTTAATAAATAGAAAAAAGTAAATTTATGAAAGGAAATTAAGAATAATATTAAAAGTTGCAGAACTTTTTTTATAGATCTGACTATAAAGATGTAGAAATAAAAAAATATTAGATGAATTAAATATTCTAATATTTTAAAAAGATCATTTTTATTATTTTAATAGTAAAGATACGATAGTACTTAAAATATAATATAATTTCTAGAAATTTTTAGTTAGTTTTTTTGAAGGTACTTTAATGGTAGTAAAATTTACAAAAATAGTGAAATTAAAGATAATATATAATTATCTAATAATAGAAAAAATAAATTGTATAATTATAAAAAAAGAGCCTCTTAATAATTAGAAACTCTTTTTTTAATGTAAAGATTATTATTTGTAAATAAAAAAAACTTGACAAATAATATTAATTTCTGTATAATAATTGAGAAAAACCTTTCCCACAAAAGGTCTACCGTTATAACTTATAGAGATTATAACAAGGAGGAAAATCAGTGAATAAATATACAAAAATGTTAAAAAAAGAAGAAGTTAGTAGAAAATGGTATCATATTGATGCTGACGGGCAAATACTAGGAAGATTAGCTGCAGAAGTTGCAACTATGGTTATGGGTAAAAAGAAAGTAAGCTATACTCCACATGTTGATAATGGAGATTATGTAGTAATAACAAATGCTGAAAAAATTGCTGTTACTGGAAATAAAATGGCTGATAAAAAATATTATAGACATAGTGGATTTCCTGGTGGAATGAAAGTAAGAACTTTAGAAGAATTATTAGCTAAAAAACCAGAAGATGCTATCTTATTGGCTGTAAAAAACATGTTACCTAAAAACAAACTTGGAAGAGAAATGTTAAAAAGAGTAAAAGTATACGCTGGTAATGAACATGGACATATAGCACAAAAACCTGAAACGGTAGAATTATAAGAGGAGGTAAGAGCAAGTGGCTGTAAATCAAATTTGGGGAACTGGAAGAAGAAAAACTTCTACAGCGAGAGTTAGATTAATTCCTGGAGCAACAGGTATAACTATAAATGGAAAAACAATGAAAGAATATTTTGGTGGAAGAGAAATTTTAGCTAAAATAGTTGAACAACCTTTAGTATTAACTGAAACTTTAGAAAAATATGAAGTAAAAGTAAATGTAAATGGTGGAGGGCCTTCTGGACAAGCTGGCGCTATTAGACACGGAATATCAAGAGCTTTAGTAGAAGCTGATGAAAATTTAAGAAAACCTTTAAGAGATGCGGGATTCTTAACAAGAGATTCAAGAATGGTAGAGAGAAAAAAATACGGAAAGAAAAAAGCAAGAAGATCTCCACAATTCTCAAAAAGATAATTTTAAACAGGCATATTATGCCTGTTTTTTTAATATTCTTTACTTTTTATATTTTTATGTGATATAATAATAGTAGATTATTATATAAAGGGGGAGTATTATGCTTTTTAAAAGAAAAGAACAAAATGAAGTATTAGATACTATTGCTCAAAATGATGTTAGAAATGACCAAGTTGAAGAATTAAAAAAAGAACTTGAAAAAATGGAAAGCTTAAAAAATAGTTTTTTAGAATCAATATCTACATCAAAAAATATTGATAAAGAATTAAATGAAGTATTAAATTTTGTTACTGATAATGTTATGAATTTAAATAATGTTTTAGAAAATATTATTAATAATGAAATTTCTAATGATAATACTGAATTTGAAGAAAGTCTTTTAGAAGTAAAAGAAAAAATAGAAGAAAATAATAAATTAATAACAGATACATCAAAAAATATAACAGATTTAAATAAACAAATAGAAAAAACTACTTCTACTATTTCAGAAGTATCTTCCACTGTTGTTAAATTAGAAAAAAATAATGTAAAAATGAGAAGTTTAATTGAAAAAATAAATGATATTTCTAGTCAAACAAACTTACTGGCATTAAATGCAGCAATAGAGGCAGCTAGAGCAGGAGAAGCAGGAAAAGGGTTTTCAATTGTAGCCCAAGAAGTAAAAAAATTGTCTCAAATGACACAAGATGCAGCTACAGATATAGGAAATGAACTTTCAAAATTAACTGGAGCTTTAGAATTTATTGCAAATAAATCAGTTGAAGGTGAAAAAGACCTTGAAAATGGAAGAGATTTAGCATTAAAATCAGAAAACAGTTTTAAAGATTTAATAAATAATAAGTTAATAGATAGTTTAAATAAATTCATTGATGTTACTAAAGATATGAATTCGTCATCTACTATAAGTGAGGAATTACAAAATTTAAAATCAGAGATAGAAGAAGTTATTACAGGGATAGAAAATGTTCAAGAAAAATTAAATGAAAGAGAAACTTTGTTTGAAAAAACAAAATAAATAAAAAAGGTCCTTTATTATAAAGGACCTTTTTTATATTTATACAGATTATTTACAAAGTTCATTAGCAAGTTGAGAGGCAATTTTTGCATTATTGTATACAAGCTGAATATTTGAATCTAAACTTTTTCCTTTTGTTATTTCTTTTACCTTTGATAAAAGAAATGGAGTGCTTTCTTTACCTTTTATTCCTTTTTCATCTAATTCTTTTAAAGCATTATTAATAGCATTATTAATAATATCATAATCCATTTGATATTTTTCAGGAATAGGATTGGCTATTACCATTCCACCTTTTAAATTAAGTTCATATTTTACTTTTAATGCATCAGCAAGTTCTTTTATGTCATCAACTCTATAATCTACAAAAAATCCACTTTTTCTAGTATAAAAAGCAGGAAGTTCATTAGTTTGATAACCAACAACAGGAACTCCATGAGTTTCAAGGTATTCTAAAGTAAGCCCAATATCCAATATTGATTTAGCTCCAGCACAGACTACAGCAACATTGGTATTTGCTAATTCTTCTAAATCAGCTGATATGTCAAAACTTTCTTGAGCACCTCTATGTACCCCTCCTATACCTCCAGTTGCAAATACTTTTATTTTGGCAAGATTCGCTATAATCATAGTAGCAGCTACAGTAGTAGCGCCATCAATTTTTTTTGCTAAAATAAAAGGTATGTCTCTTCTACTTGTTTTAACTACATCTAGTCCTTTTTTCCCTAAATAATCAATTTCTTCTTTTGACAAACCTACTTTTAATTTACCGTTTAAAATAGCAATAGTAGCAGGAATAGCTCCATTTTCTCTTACTATTTTTTCTACATTTAGAGCAGTTTCAACATTTTGAGGATAAGGCATTCCATGTGATATTATTGTAGATTCTAGAGCAACAACTGGTTTATTATTTTCTAAAGCTTCTTTTACTTCTTTACTTATTTCTAAATATTTTTCTATCATTTATAACTCCTTTTCTATTTTTCTTATATTGTCAAAATTAAAATTTGGATTAATAGTATCACTACTTTGCATTGTAAGGATAGATGCGGCTAAAGAAAAACTTAATTTTTCTTTAATTGAAAAATTATTTATAGTAGAATAAATAAGAGCAGCCATAAAAGCATCACCAGCACCAGTAGCATTCACCACTTTTTGTTCTTTTATTTTAAAAATTCCTTTTTCTTTTTTATTGTTATAGTAGACACCATCTTTTCCTAAGGTAATAAAGACCTCTTTTACACCTTTATTAAAAAAATATTCTGCATTTCTATCTAAATCTGATTCATTATTAATAGATATTTCAGATAGAGTTTCAGCTTCTAATTTATTTGGTTTTATTGTATGAAAATATCCAATTAAATCTTTTATTTTTTTTGCTTTAGATACTGATACAGTATCTAAATAAAATTTTGAATTTCCTGTTTTTAATATATATTCTATAGTTTTTTTAGGAAGATTTGTATCAATAACAGTTATATCAGCGCCGTTAATATATTTCATTTTTTTATGCATAAATTCAATATGTAGTTCATCAAAAATATCCATTGCAGAAATTGCAACGTACATATCTCCTGTTTCATCAAGTATAGAAAGATAAGTAGAAGTATTTTTATTTTTTAAAATTAATGAATCATTTATATCAAGAGAAATATTAAGAGAATGTTCAAGAATTTTTTTCCCATAAATATCGTCACCAAGGACAGTAATAAGCTTTGTATTTTGAGAAAGTTTAACTAAATTTTCAGCAATATTTCTACCAACACCTCCAAGAGAAATTTTCAAATTTCCAGGATTTGAATCATTTGGATTTAATTTTTCTTTTGGAAAGCCTTGGATATCAATATTAGCTCCTCCAATAACACAAATATAAGGGTTCTCTTTTAAAATATAGCCTTTTCCTTTTATATAACCTTTTTTCATTAAATTGCTTATATGGACAGCAATAGAAGAACGAGTTATATTAAGCATGTCAGCTAATTCATTTTGAGAAATCATTGGATTTTCTCTAATTTTTTGAAGTATTTCTTCTTCTCGATCTGTCATCTCTCCTCCTTTCTAAACTTTAATTTATATAATAAACTCTTGCTTATAATATTACCTTAAAATTATAAAAAATACAAGTTTTTTTTAAAAAATTTGATTTTTACTTTTTTAAGTAGTATAATTAATTGATCCCATGATTGAATATATATTCACAAAAAATGAATTGTTATATATTTATAATAATTTTTTTTAAGTATATAGCGATTTTAGGGTCAGATTTATATTTTTTGGAGGTATTGTTATATGTTACACGGAACAGTAAAATGGTTTAATGCAGAAAAAGGTTTTGGATTTATCACATCAGAAGAAGGGAAAGATATTTTTGTACATTTTTCTCAAATCAACAAAAAAGGATTTAAAACTTTAGAAGAAGGAGAAAAGGTTACTTTTGAATTAACTGAAGGACAAAAAGGACCTCAAGCTTCAAATGTAACAACTAAAGAAGATTAATTTAACAAAAAGAGCAGAAAATTTCTGCTCTTTTTATTTATATATTATTCTATTTCTTCCTTTTTTCTTAGCTTCATATAATGCCTTATCAGCAAGTATAAATAACTTTCTTTCTTGATTAAATTCTTTTGGAATAATTGAAGCAGCACCTAATGTAGCAGTAACAATGTTACTTACTGTAGAAAATTCATGTTTTATTTGAAGTAATGATAATTCTCTAAAAAAGAGATTTACTTTTTTTGTGACAATTTCTTTATTTGTGTTGTATAAAATAATAGTAAATTCATCCCCACCATATCGAGCTAATACATCAGCATCAAAATTAAAAGCTCTTTTAATAGTTTCAGCGACTTTAACAATACAAAAATCTCCCATTAAATGACCATAATTATCATTGAATTCTTTAAATTTATCAATGTCTATAATAATTAATGTTATACTTTCTTTATTCATTGCAGCTTTATTCCAAAAAGAATTAAATTTTTTATTGAAAATTCTTTTATTATAAAGTTTAGTTAAATCATCTTTTTGAGATAAATCTCTCAATTTATTATTTAAATTTTTTAATTCTTCTTCTGCTTTTTTTCTTTTTATTACTTCTTTTTTCAAATCATTTGATTGAATAGAATTTTTTAATGCGATAGCTATATAATTAGTTAAAATTCTACAAATTTCAATATGTTCATTGTTGTATACATTAGAATTATAACTTTGTAAAGTAAGAACACCTAGAATTTTTTCTCTTATTATTAATGGAAAAAACAGTATTGAACTAGGTACAATTTTTGAAATAAAATTTTTATTTAAAGGAATATTATATTTATAATATTCCTTTTTCCAATTATTAATTATTATTTCTTTTTTATTTCTAATACAGTATGCTCCAAGACTTGAAGAGTCGTTCAATTTTTTTGGATCATATTTAATTTCTTCGTTATGTTCTTTAAAAATAGCATAATTTATTGTAGAATCTTTATTATTTATAATGCCAATTCCAAAAATATCAATAGGTATAATTTTAGATAAATTTAAATATATTTTTTCTAAAAGCAAATCAAAATCCATTATAGAGGTAATTTCTATTCCAATATTATTAATTATTGATAAAGTATTAATATAATTAGAATTATTTAAATAATCGTTTTCAACTTCTTCATCTTCAAATTTATAGTTAAAATTTATTTTTTTTTCTATATTATTAGAGATGTTTTTATTGTACTTCTTATTTTCTTTTTTTTGATTAATTATCTCTTTTCTAGAATAAAGATAAGCTTTTTTATAATTTTTAATTTTAGAATAATACATTGAGGCGAGCTTATAGATATCAGATAATATAAGATTATTTCTATAAGAAATATATGTAACTTTTGAAAAATAGCTTACTAAATTTGAGTATTGTTCTGTTAAAATACAATTTTTAATTAAATTAATAGTATCTTCTCTAAAATGAATAATGCTAATGGATTTTTTATTATTTGTTTTCATTAAGTGAAGCGAATGTTTTTTTATTTTTTTATTTAATTTTAAATAAGTTTTATTTAGTAAATAAAATAAAGTATTTTCAAATTCTGTTAAATTATAAAATTTAATAAAAACTTCTGCAATTTTTAAATATTTTAAAGCTTTATTATATTCATTTAATTTTAATAAAATTTGACTAATATTTAAAAAGGGAATAATTTTATTATCATTTTGGATAGAGTATTCTTTACTATGTTTTAAAATTTCTTCAAGAGATAAAAGCATATAGTAATATGCTTTTTCATATTCTCCAATATGGTATTCTAAAATTGCTATATTATTATATAAAATATATAAAAAACTTTTATCTTCAATGTCACTTCTATAATTATAAGCTTTAAAAAAATATTCACTAGCTTTTACATAATCTCTAATATCATAAAAAATATTGCCTATTTCAAAGTATAATCCAATTAATTCATCCTTTAAGTTTACTTTTTTATATAAAGAAACCATTTCAAGGAGAAGATTTAAATACTCATCCACTTTTTCTGTATAAGTTAAAAAAGAACTATTAATTAATTTTAAATATGTACTTTGCTGAAATAAAAATTCTTGAGTATTATTTTTAATATCAACAATAGATTTGATATTAAAAATATCAGTAGCATTATTATTTGAAAATTTTAAATATTCTTTTATTTTTTCTTTTAAAATTATTTTTTCTTCCAATGCCCTATCCCCTTTGTATTTATATTAACAATAAAATTATACCCCTAATTTTTAAAAATGTCTATATAGAATTAAAATAAAGATATTTGATTAGTATCGTTTAAACCTTCAATAGCATTAACTTCTTTTAATTTATCTACAACAGTTTGCGAAGCTTTAGTACGTCTTTTTAAGTCTTCATAAGATATAAATTTTCCTATCTTTCTTTCATTAATGATATTTTCTACAACAGAAGTCCCTAGACCATTTAAGCCTATTAAGGGTACTCTTATTTTTCCATTTTCTATTGTAAATTTAAAACCATCAGATTCATAAATATCAATATCTAAAAAACTAAATCCTCGAGCATTCATTTCAATAATTATTTCGCAAAGAGAAAGTTCTGCTTTTCCCTTTACATCAAGTTTTCCATTTGACGCTAATTCTAATCTATACTTTTTTATAAAATCTATATCCTTTAACATAATATCAGAGTTAAAATCTTCTGCTTTTCTACTTAAATAAGCAGCATAGAAAGCAAGCGGATAATGTACTTTAAAATAAGCTATTCGCATAGCCATCATAACATAAGCTACAGCATGGCCTTTAGGAAACATATATTTTATTCTCCTACAAGATTCTATATACCAATCTTTAACTCCATGTTCTTTCATTAATTTAGAATATTCTTCCCATTGTTCATGTTCTTTTGAAGGCCTACCTTTTCTAACAAATTCCATTATTTTAAAAGCGGTACCTTTTTCAATACCATTATCAATAAGATAATTCATTATATCATCACGAACAGAAATAACTTCACTTAATGTACATTTTCCAGCCCGAACAAATTCTTGAGCATTATTAAGCCATACATCTGTTCCATGAGAAAGTCCAGAAATTCTAACAAGTTCAGCAAATGTAGTAGGCATAGTATCTAAAAGCATTTGTCTAACAAATTGAGTTCCAAATTCAGGAATACCAAAAGTTCCTACTTTTGAGCCGATATCTTCTTGTGTAACTCCAAGTGATTCAGTTGAAGAAAAAAGTTTCAATGTTTCTTTATCAGCTAAAGGAACTTCATATATATCAACATTAGTATAATCTTGTAATAATTTTATAGTAGTAGGATCATCATGACCTAAAATATCTAATTTTACAAGCTGTTCATCCATTACATGGTAATCATAATGAGTAGTAATAGAATCAGATTTTTGATCGTTAGCTGGTTTTTGTACAGGACAAAATTCGTAAATGCTATGTCCTTTAGGAACAACGATCATTCCGCCAGGATGTTGACCTGTTGTTTTTTTAACATTTTCACATCCTTTTGCTAGTCTAGTCATTTCTGCAGAACGAAGATTTATATTGTTTTCTTCACAATATTTTTTTACATAACCATAAGCATTTCTTTCAGCTAAAGTTGATATAGTTCCAGCTTTAAAAACGTTTTCTTTACCAAATAATCTTTCGGTAAATCTATGTATTTCTGATTGATATTCTCCAGAAAAGTTTAAATCTATATCTGGGACTTTATCACCATTAAATCCCATAAATACTTCAAATGGAATTGAATGTCCATCTTTTTTATATTGAGTACCACATTTTGGACAGATCTTATCTGGGAGGTCAACTCCACTACCTTCTTGATTCATAAATTCCGAATTTTTACAACTTGGACAAATATAATGTGGATAAAGAGCATTAACCTCTGTTATTCCCATCATAAAAGCTACAAGTGATGAACCTACAGAACCACGAGAACCAACCAAATACCCATTATCAAGGGACTCTTTTACTAATTTTTGAGCCGATAAATATAAAACAGAAAATCCATTTCCAATAATTGCATTTAATTCTCTTTCAAGTCTTTTTTCTATTCTTTCAGGTAATGGATTTCCATAAATCTCATATGCTTTTTCATATGTCATTTTTCTAACAGTTTCTTCAGCATTATCAAGTTTTGGAGGATAAAAACCATCAGGTACAGGTTTTACTTCTTCTATTTCATCAGCAATAAGGTTAGGATTAGTAATAACTACTTCTTGTGCAACCTCATTACCTAAATAACTAAATTCTTTTATCATATCATCTGTAGTTCTAAAATAAAGTTTATTGTCAGTATCAAAATCTTTAAATCCTTTTCCGTATAATAAAATTTTTCTATATATATTATCTTCTTCATTCATATAATGCACATCACCTGTTGCAACAACAAGTTTATTTTGTTTTTTCCCGAGCTTATATATATATTTATTCATTTCTAAAAGTTCATCGACATTTTTCATACTTCCATTTTCTATCATAAACATATTATTTGAACGGGGCTGTATTTCTAAATAATCATAAAATTCAGCTAATTTTTCTATCTCTTCTTTTGCTTTACCTCTAACATAAGCTTGGATAACTTCTCCAGACTCACAAGCAGAACCGACAATTAAGCCTTCTCTTAATTTTCTAAGAAGAGATTTTGGAACTCTAGGTTTTCTATGAAAATAATTTATATGAGCTTCAGAGACAAGTTCATATAAATTTTTAAGGCCAACTTTATTTTTAACAAGAATAATAGCATGATATGTAGAAGCATTTTTTATATCATTTTTAAATATGCTATCAACTTCATTTAATTTATAAGCACCTTCTTTAAGAACAATATTTATAAATTTTTTAAATACTTCAGCAGTTGCTTCAGCATCATCAATAGCCCTATGATGATTGTCTAAATTGATTCCATAATCTTTACATATTGATTTTAGACCATGACGCGATTTATCTTTTCTTATATTTCTACTCCATTGTAATGTGTCTATAACAGAGGGAGAAAGCTCTATATTAATTAATTTAGATTTTTGAGTTATAAAACCTACATCAAATGATGCATTATGAGCAACTAATGTAGTATCTTCTATAAATTTTAAAAAATTAGGAAGTTCTTTTTCGATAGTAGGTGCATCTTTAACCATTTCATCTGTAATATTTGTTAATTTTATTATTTCATCAGGTATTTTTCTTTCTGGACTAATAAAAGTACTGTATTTATCAATAATTTTATTACCTTTTAGTTTAACAGCACCAATTTCGATAATTTTATCATTATAAGGATCAAATCCAGTAGTTTCAATATCAAAAACTACATATGTTTCTTCTTCAATAGCTACATCTCTTGGATTTTTTACCATATGGAGTTCATCATCAACTAGATATACTTCACAACCAAAAATTACTTTAAAATCATTATATTTTTTAGCAGTTTTATATGCAGCTGGGAAAGCATGAACTACACCATGATCGGTAATAGCAATTGCTTTATGCCCCCATTTAGCAGCTTGAGAAACTAAATCACTTACTTCAACAACAGCATCCATTTCACTCATTTTTGTATGAGCGTGAAGTTCAATTCTTTTTTCCGGATAACTATCAATTCTTCCTTTTATTTTTGGAGCAATTTCCATAATACTATTTACCATAATATATTCTTCATTGTTGTTATAAGAATCTATACTTTTTTTACCTTTTATTTTTACCCACATACCTTTTTTTAAATTTATTTTTTCATTTTTCTTTAAAAAAGTTTTTACAATTATAGAATCAGTATAGTCAGTAATAGCAAAGGTTACTAAAGTTTTTTCAGTACGTAGAGCTTTTTCAGTATAAGAAAAAACTTCCCCTTCTAAAGTACAAGTATCATTTTGATGAATATATTCTAATTCTTGAAAAGATATAGTTTTATCTTTTATTTCTCTACCATAAATAAGATCTTTATTTTTACTTGTAGTAGTTTTAGGAACTTTAATATTTTCTTTTTGAGTTTTTTCAAAATTATTATGATATGTTTCTTCTTTTTTTATAATTTCTTCTTCTATTTGTTTTTTTTCTTTTTCAAAATTTCCTATTGAAAATTTCACTTCAGAATTTATTCCGAATTCTGTTAATCCTTCTTGAATTTTTAAGTCTATTTTATTTTGCATAAGATAAGTTAAAGAAATGTCATTCTTTAATTCAATAATTATATTATCGTTATTAATAATAACATTATAAAAAGCTAAAAAAGATTTTGCTACGACTTTTATTCTTTTTATATCTTTTATAACTCTATCAACTATTAATTTTTTCTCTTCGTTACTCAAATTCTCTTTAGAATATTCTATTTGAAATTTAAATCGTATTTCTTCACCAAATTTTTCAATAAATTTTTGCTCTATGATGTCAAGTTCTTTTAAATTTTGAATATCATCTATGAAACAAATAAATTTTATGGCTTTTTGTTTTTTAGCTACAATAAGTTCTTTGATATCGACATTAACTACTCCAAAATCTTTAAAAGGATTTTTATTTGGAACAATTGTTATAAAATTTTTATCCATAAATTAAACTACTCCTTTAATATTTTTTTTACCTTTTATTATATCATTTTTGAGTAAAAATTTTAAATTATAAATAATAAAAAAAGATAAAGAATTTTTTCTTTATCTTTTAGGTCTATTAATAGTTATATCTGATATAAAAATTTTTTGATTAAAAGATACATTAATAATTTCATTAGCAACATCCAAAGGGTCCATAAAAGTGTCAAAATTATAGTTAGCATTTGAGTCTTTCCAAAAAGGTGTTTTCATTCCTCCAGGATAAATATTTATTAATTCAATATTTTCTTCTTTTATTTCATCTCGAAGAGCTTCTAAAAAGCCTTTAGCACCAAATTTTGCACTATTATAAAGAGATTCATTTTTCTTTCCTTTTAATGCAGCAGTTGAAAGAATAGAAATAATTCTTTGATTTTTTATCTTATGTCTAAGCATATAGTCGCAAATTGATTTAGTAATCAAAATTAATCCAAATAAATTAGAATTAAATATATCAATCATTTTTTCTTTTGTTATATTATTAAAATTGTTGTAAAAACCTTTTCCAGCAACATTAAAAAGACGTTGTACGTTATATTGATTTTTATCAAGAAAATCAATAAAATAATATACTCCTTTTTCATCAGAAATATCCAATGGATAAGTAATTATTTTAGATTCTTTTTGGTATTCTTTTAACTCTGATTTACATTTTTCTAATTTTTTGATATTTCTTCCTATTAATATTATATTCTCATCTTTTTCAACAATAAGTTTTGCTATTTCAAAACCTAAACCAGAACTTCCGCCAGTAATAATATTGTACTTCATTTAAATCCTCCATAAAATATATTATAATACTTAATTATAATATATTTTAGAGAAAAAATAAATAAAAATTATTATAAAAAGGAGAAATCTCTTCCTAAATTTTAGGAAGAGATTTTTTGAGATGATGTATTTAATTAAATAATTAATTAAAATTTATATATAAAATTTGCTGCTAAGTAATCATTAGTGTCAAAATCACCAAATGTAGTTCCTGAATCACCTTCAAAGATTTTATACATTACTTTAAAGCTAGTATCATCTTTTACTTTAAATTCTATTTGGTTATTTAACATATAATCTTTATCTTCTATATTATATACAACTTGTATTTCAGGTAAAACTCTTTCGTTTTTAAATTTATCAGATATTTTTGCAATAAGAGTATTAGCAAAATTATCATTATCTAAATTTTGAGTATACTCAGTTTTAACTTGCACATTAACATTGATGTTATGCAATGCTAAATCTTTGTCTCCACCAATAATAGATTTTACTTGGTTATTACTATCTTCTATATTATAGTAAGCTAATTCAGCTCTTGAATTTATTCCAAATAATACAGTAGAAAGTTCTGTTCCAATAACATCATATTTTTTGTACTTAATATCTATATTTTTTATAGTAGATAATATTGCAGAATCAGGAAGATTACTCAATGATGAAAGAGTTGAAGTTTCTAATTCACTACCATTCATATAAAATGAAGCAGTTTTCTCGACTCCATGGTAATAAGAAATGCCATAATCATATCCATTTTTACTATTTGTATATCTTATACCAACTTGACCATTTTCAGCGATATTATCACCATAGATTTTATTTTTTAAATTAGATATAGCAGAATATAATTCTAAATTTTTAGTAGCAATTGTTTCTAAACTTGTTTCTAAGTTTAATTGAGTTGAAGTTTTCCACAAATCATTATCAGCTAATTTAGTTGTAGTAGTCTTTGGTGCATATACGAATTCAAGATTTCCGTTTCCAATATAATAATTTACTTGTACTAAATTTTCTGGTATTTTTCTATCTAAATAATCAGGGTTTATTATATCGCTCATATCTTCAGCATTAAAATTGTCTATTACATGTACTTTATCGCCTTTTCCCCAAACTAATTTAGTTTTTCCGACTAAAACATCATAATTATCATAGTAAAGTCTAAATGTTGCTTCATCAATTTTTACCATTTCGTCTCTACTATCATATAAGAAATTAGCTTTCAATTCAGAATTAGCTTTACTTACTTTCAATTCTGTTTTAAATTTTTGATAATCATCTATATTTAATTCATTATCTTTAATATTTTTAATTCCTTGAGTAATTATTCTATTTATTAAGTTTAATTCTCCATTAAATTCAAAATCTAATTTATTTGCATCTTCAGTTACAAAGGCATTGTCTGAAAAATCAGCTGAATCAGAAAAAGCACTATCAAATCCAGAGTCAGTAGTATCAAAACCATCATCAAATGCAAAAGAATTTATTGATAAAAGAGATATTAAACTAAGTAATAAGAATTTTTTTTTCATTAAATTTCCTCCTATTAATTTTTTAATATTTATTTACAGTAATTTTTTATCTTCCAGTTTTTAAATATTTTTGTGTAAATCTAGCAGGATTAATTGCTTTATTGTATTCAATATAAGGAGAACCAGATTTACTTCTTTTTATATATAATTTAGTTTTATGTCCAGTTTCTACATTTTCCATAATAGTTTCAAAAATTGTCCATATTCCATTAACTTGTGCTAAATCTTGTTTTACAGTTAATATTTTTTCTATTTTTTTTGTTTTTTTACTATAAAGTTCAGCTTTTACAACTATAAAATGTTCTTTACTAACCCAAGAAATTACTTTATCATATTGAGAATCTTCAGAATTTTTTGCTTTTGATTCGATTACATAACAATCATAATTTCCTAATTTTTCTTCTCTTAGTAATTTATGATTATCTTCTTCAACATCTCTAGTTTCCATGTCATCATAAGTAAAATCAGAACCCATAAAAGAACTACTTCCTTCAGAAGATGATATTCTTCTTACTCTTTTTAATGCAGGTAAATAGATCCATTTGTCATCATCTCTATCTTTGTTTTCTACTTGTAAAAATCTAGTGTTTTTAACAGATGCAGGAGCTTTAAAAACCATTATACTTCTCGATAAGTCATTAGCTTCATCATAAGTTTCACCCCATACTTCAATTGTTCTAGGATTTACAGTACCGTCTTTGTCTATTAAATCCATTCCCATTAAGGCATGTAAAGTTTTACCAGTATCTCTATCTTTTACAGCTTGCATAATTTCTTTCCCTGTCATAGAGAATGCTGATAAAGACATAACTACAATTAATAAACCAACTAAAATTTTTTTCATAAAAATTTCCTCCTTTATAATATTTTATTTTTATTTATTATATTTAGTTTCATAGAGAGAATATTTTCTCTCTATGAAATTTTAATTATTTACTTATAAACTTAGGCTTAAATAAATTAAGTAATGCAGGTAACACAGTCATTGATGCTGCAGATGAAGTAATCATAGTAAGACTTATTAATAACCCTAAATTAACAAGAGGTACAAAGTTTGAGAATAATAATACTGCAAATCCACCCGCAACTGAAATAGCATTAAAGATAATTGCTTTACCAGAAGTAATCAAGGTATTTTTTGTTACGATTTCTAGATCATCACTTCTTTTTCTTTCATAATTATATGTAGATAAGAAGTGAATAGTATAATCAACACCTATACCAATTGCTATAGACGCTACCATAGCAGTACCTAAGTCAAGTTTTATACCAAAATATCCCATTAATCCAAAATTAATAAGAAGTGATAGAGTAAGAGGGATTATTCCATAAATACCAGCAATTATTGATTTATATGAGAACGCAACAATTATAAATACTATTATTAAAGAAGAAATTATACTCATAATTTGGCTCGATACAATTAAATCATTTACAGCAGATGACATATCAGCATGTCCAGCAACATTTATTGTATAACCTTTAGGGAAATTAGCTGCAGCATAATCTTTTATTGCTTTTTCTACTTTTTTAGTATAAATATTACTTCCTGTTTTTAACTGTATAATCATTCTTGCTTTTGAAGGTTCTAGTTGATCATTAATGTAGTCATCTAAACTCCCTGAATAAAGAAGTAAATATTGAGAAATAAGGTTTTTAAGTTCATCTCTATTTGCTGCCATATATTTTTTAGGATTATAAGGGATTTCATTATATGAAGCACCTTTATAATTTAATTCTTTATTAATTACTTCCACTAGTTCCTCGGCAGTTAGATTAAGTTTATCAGAGTGTAAAATAGCGTTATTTATAACTTTAATAACATCATTTGCAGTTTTTATCTTTGGTGTTTTATTTTCTATAGTAGTAGTAGTTTTTTCTGATTGAGAATTATCAGTAAATGAATCATCACCAAAACTATTATCCTCAGTAAATGAGTCATTACTAAAACCATCATCTACAAATCCAACATCTAAATCTGAATCAGAAGTTGAATCAGAAATTATTTCTTCATCTTCTTGAGGATAATTCATAACTTGGTTCATTCTTTTTAAGAAGTCAGCGAATGAAGTAACTTCCCCTACTTTAGAATAATTATATTTTAAAAATTTTTTTAAATTATCCATTTCTTTTAAAATTTCAGGATTTGTTAAATCACCTTTATTTTTACCTTCGATTAAGATGTCCAATACTGTAGTTCCATTAAAAGTAGAACTTAGATATTTATCAGAAACTCTTATTTCAGAACTAGGTTTAAACATTTCAATTAATGGACCGTCAACTATTATTTTTGACATTCCAATTATAGAAATAACAATTATTATTAATGAAAGAGATAAAACTCTTATTATTTTTCTACCAAAATAATGATAAAAACCAATTAAAATTTTTGTAATTAATCCATCATCAACATCATCATCATCAGAAATTTTTAAACTATTATGTCTTACTAATAAAAGAGCAGGAATAAGTAATACCGCAACAATAAGAGCGACTAATACTCCAACAGCTGTAAATATACCAAAATGTTTTATGGGAACAATACTACTTGTAGCTAATGAAGCAAATCCAGCAATAGTAGTAACCCCTGCTAAGAATACAGGTTTACCAACTTTATGTACAGTTTCAACTACAAGCTCTCTATGTTTAGCTTCTGATAATTGAGATTTTTCTTTTTTTAAATCATCATAATAGTGACTTATAATATGTATTCCATAAGCACTACCTACAGCCACTAAAAGTACTGGAATAACAGTTGACACCATAGTTAAATTAATATTTAACATTGCCATAAGTCCAATAGTCCATATAGTACTTACAAGTACAGTAATAAGTGGTAATAAAACGCCACTAAGATTTTTAAATGATAAATATAATGATAATACTACAACAAGGACAACAAATGGAATAAGTCTACTCATGTCTTGTCTCATATATTCACCAAGTAATACAGTAATAACAGGAGTACCCGCTACATAATAATCCATAGTTGGATTATTGTATTTATTTAATACATCTTTAATATCATAATAAATTTTTTCTTTTTCTTCTATTGATAATCCCTTTTTTAATTTTATTAAAATTTGAGTAGATTTTAAATCATCAGAATATAAATTTCCTTTATAAATTTTCCAACTTAATAATTTTTCTTTTACCATATTTAACTCAGTTTCTGTTTTAGGAATTTCTTTAGCAATTTCTCCTACTTTCATTCCTTCAGCAGTACCTTCAATAAAATCAGTATTAGTAAGCCCTGTTACATCTTCAACATTATTAATTTTTTCAAGATCTTTGATTAATTTGTTAATTAATTCAAGATTTTTAATTGTAATAATAGAACTTGTTTTACTTTTAATACCGATTGCCATAGCATCAGTACTACCAAATATATCTTCCAATCTATTTTTGGTTATTCTTGAGATATGATTTTCTGGCAAGAAAATTTCAACTTCATTATTAATTTTTATTTTAGGTAATTGCCAAGAAAAAAATCCTGTCATAGCAACTATAAATATTATAATTAGCCATGGTTTTTTAAAAAATGTGTTCATTTGTACCTCCTTAAAAATTTATATTTTAATTTAAATTATACATACAAGAATGTATTTACATAATGTTTTTTAAAACTCCTTTACGGAGTTTTAAGTAATTTTATTAAATTTTTTACAATATAATCACTAGGGAAATCATCATATATATTTTCATTAAACATTAATGCTCTATCAAAACCTAAAATCATATTTATTACAGCAAAAGCTAAAAATTTTGCATCTAAATCAGTACGGATGTTTCCTTTAGTTTGTCCTTGAAGAATTAAGTTGTTAGTTTTGTTAATAATTTTTATTTTTATTTCACTTAATAAGTTATGGATTAAAGAAGTATCTTTTGTAAAACCTATTTTAAATTCAATTATTTGTTTGTATTTCTTTATGTTTTTATCAGATGTAAAATAATCAAAATATTTTTTAACTAATGCTTCAATTTGACATATAGAACTTGTATCTGTTTTAGATATTTCTTCATCTATTTTAGTTAAAAAACTTCCTAGATACATTTCAGTTAGCTCTTTTAATATATCAAATTTATTTTCAAAATGCCAATAAATAGCACCTCTAGTTAAATTTGCTTTTTTTGCGATATTATTTAAAGTAGCGGTTTCATAACTTTTTTCTAAAAAAACATCTAATGCAGCTTCTAAAATAGCTTGTTTGGTTTTATCAGCGTCTTCTTTTGTTTTTCTCATTTAATTTACACACTCCTTGTGAATATCCCTGAAATTATATTAACATACATGTATGTATAATGTCAATATTTTTTTTAATTTTTTATTCAACATCTTTTAATACTGAATTTATAAATATCATCCCAGTATCATAAATATTTTTTTTTATATATTCTGTGTCTACATTTGAAATAAAATCGGTACACACAAGAGTGGCTAAACCATGAGCATAAATCCAGCATTTATGTAATAACCATCTTCTTTTTTCTTCGCCTAATTTTTGAAATCTTTTATCTTGGTCAAATTCTTCGAAAATCATTTTATTAAAATCATGAATCAAATCTTTATAAAATTCTTGTTTTAAAAAAATAGAATCAAATAATTGACGCTCATTTTTAGCAAATAAAACAATTCCCATACCTATATTTAAGAAAATCTTGTCAGTATATGGTTTTTGTACATATTCTAAAAATGTAGTTTTCGCCATAGAAAGTATTTCATATTTTAATTCTTCAATTGATTTAAAACTATTATATATTGGTGCAGGAGAAGAATTTAGTTTTTTTGCAATATTTCTTGCAGTAATATATTCTATTCCTTTTTCTCTTAATAGTTCATATGTTTTTTTTAGTATTTCTTCTTTTGTAAATACAATCTTTTTTGCCATTTTTTATACTCCTTAAATTCTCTTAAAAAATAAAGTTGATTATTTTTCATAAATTTTAAATGTGAATTTTTTATATTCTTTTTCTTTAATAATTTTAAAATTTTGCAGATTTACATCGGGGAAATATATATCGCCTGTATAACTTCCTTTTATATGAGAAATATAATATCTATCAACTTTATTAATAAAATAAGTATAGATTTCTCTACCGCCAATAATAAAAACTTCTTCGTTTTTAGATAAATCAAAAACTTCTTCAATATTATTAATAGTTATAATTCCATCAAAAGAAAATTTTTTATCTCTGGTTAATACAATGTTTTTTCTATTAGGTAAAGCCTTGCCAATACTATCAAAAGTTTTTCGTCCCATAACAATAGTATGTCCTGTTGTTATATTTTTAAAATTTTGTAGATCCTCTTTTATTTTCCATGGGAGATTGATTCCGTCTCCAATTAATCTATTTTCATCAAAAGCTACAATAATACTAAGCATACAACCTCCTAAAATAAAATTACTTATGTAATATTATAATAAAAATATTATTTTTACACAATATAAAATTAAAATTTTATTAAATTATGCCGATAAAAATTATGTATAAACAAATTAATATCTTAGAAAGGCTGGTTGAGTAAAATGAAAAAAACACTTATTTTTGCTCTTACATTTATTTTATTAACTGTTAATATATACTCAAAACAGGGTGTATCAGTTATGTATATTACTGGAATGTCAAATTCGAATTTAAGTGGATTAAATTCAAAATTTGCTAGTAATGGTATTCCAAAAGTTGAAGAAGCTTTTTCAGTACAAGGGGCAAGTGGATATTTTACATTTGATAGAATAGTGTTGGGGCTTGAAGCAGCAGCATTATTAGGAAATGATAAAATAAACACTAATTATATTGTAGGATTAGATGGAATGTATGGAAAGATAATAATGGGATATGCATTAATTGATAATGGAAGACTTAGTATAATACCAAGATTCGGTGTTGGAAAATTATCTATGGATGTAAAAGTAGAAAAAAGAAATAATAACGACATACAGACTGTAGATGATGCTCTCACATTGTATACAGAAAAAAGTAAATTTAATATGGCAGGGACAATGTTAGATGCAGGAGTTTCTATGGAATATAATCTTGGAGTAGATGGAATGACAGGATTTATGTTTGGAATAGAAATGGGGTATAAATTTTTACCTTTAAATGCAGACTTTACAATGGATGATTTATCATTAAAAAGTACTCCAGCTGTAAATATGAATGGTTATTATTTTGTAATCAAACTTGGAGCAGGACAATTTAATTAAAAAATTATATAACCAAAAGCTTATTTACTAAGTTTAGTAAATAAGCTTTTTTAGTTTATAAAAAATAAAATTTGATTAATTGACTTGTATATTTAGTTTTTATATAATGAATTAGTAATAAAATTTTAGAAAGAAGGTAATAATATTGTTTATTATAGAATTAAAACTTGAAATTCTTATATTTTTCTTTTTTTCATTTTTAATATTTGAAAAGATTAACTACTATTATAATCAGGGGAATTCATTTTTAAAACATGATAAATCTAATTTAGCAATTATGCTTTTTAATACTATTATTTTTAATTCATTTTTTAATTATGTATTCTTTTTAACTACCTCATCAAGACTATTTAGGAAATACGGGGTATTTCAAATATTAAAAATTAATTATATTATTAAAGGAATTTTGATTATTTTGTTATTAGATTTTTGGACATATTTTTGGCATAGATTAAATCATGAGATGAAATTTTTGAGAAAGTTTCATAAAGTGCATCATACAGACACTATGATGAATGTGACTACTGCAGTTAGATTTCACTTTATAGAGTTTTTATTATCTTTTTTAATGAAAACCTTGATAATTTTAATTTTAGGAATTTCCTTGAAATACTTAATAGTTTATGAAATAATTATGAATATTTGTGTTTATTTTCATCATAGCAATATAAAAATAAATAAAAAAGTAGATAATATATTAAATAAAATAATTGTTACTCCTTATATGCATAGAGTGCATCATTCTATTATAAAAAAAGAAAGAAATAGTAATTATTCAGCATTATTAAGTATATGGGATAAAATATTTAATACATATACTTATAAAGAAGATATTCAAGACATTATTTTTGGATTAGAAAAATATCAAGATAAAAAATATGATACTTTTATTTATATGTTGATTACACCATTTAAATAATTTGTTCGAAATATTAACTATAAAACCGAACAATTTTTTAGTCTTGACATATTGTGTAGATTTTTATATACTCATAAAAACTAAAAAAGAATTTTAAAATATAAAACTCTTTTTTCTTTTCATTTGTGGAGAGTATAAATTGTAGAATGGTAGTATGGTAGGGATAGAACTCTTTTTTATTCCTTTCATTAAAATTTTTTCAAAATATAATCTAAATCAAAAAAAACATTAAATTTTTTCAAAAATAAAGATATTATTAAGAAGACACTGTATACTTTGTATTAGTTTTATGATACAATATAATTATAAAAAACGAACAAATATATAAAAACTTTTGTTAGTTGTAAAATTCTAAAAAAAATATTAAGATTAATTAAGATAAATTTTAAATAATTAAGGAGGAATGATGTTATGATAATACAAATGGGAATAGAAGCTACGGAAAGAGATGTTTTAAATGTAATAGAAAAGGCAGAATCTAAAGGATTGAAAACAAGTAAAATAATAGGACAAAATATAATAGTAATAGCACTTATTGGAGATACAAGTAAAGTAAGTGATGAGGACTTTGCAGAAATGAAATATGTAGATAGAGTTACAAGAATACAAGAACCATATAAAAAAGCGAATAGAAAATCACATCCTGAAAATACAATAATAGATATTAATGGAATAAAAATAGGAGGTGAAGACTTCGTTATTATGGCAGGTCCTTGTTCAGTAGAAACTCCAGAGCAAATAACCGAAGTAGCAAGAGCTATAAAAAAATCAGGAGCACAAATATTAAGAGGAGGAGCATTTAAACCTAGAACATCACCATATAGTTTTCAAGGATTAGAAGCACAAGGATTAGATTTACTTAATATTGCGAAAAAAGAAACAGGACTTCCAATAGTATCAGAACTTATGGCGATAGATCAAATACCTCTATTTTTAGATAAAGTAGATATAATTCAAGTTGGAGCAAGAAATATGCAAAACTTTGCCTTATTAAAAGAGCTTGGGAAAATAGACAAACCTATCTTACTTAAAAGAGGAATGTCAGCGACAATAGAAGAATTTATTATGTCAGCAGAATATATAATGGCTGGTGGAAATAACAAAGTGATTTTATGTGAAAGAGGGATAAGAACATTTGAAACATATACTAGAAATACTCTTGATTTAAGTGTAGTACCTGCAATAAAAGAATTAACACATTTACCTATAATTATTGATCCGAGTCATGCTACTGGTAAATGGTGGATGGTAGAATCACTTTCAAAAGCAGCAGTAGCAGTAGGTGCAGATGGACTTATGGTCGAAGTTCATAATTGTCCAGAAAAAGCTTTATCAGATGGCCCACAATCGTTAAAACCAGAAAAATTTGATAAATTAGTAAAAGAACTTCGAAAATTTACTAATATAGTTGGTAAAAAATTATAAGAGCAGGTGAAAATCAATGATAGAAAATGGATTTAATATTACTATTGTAGGCTTTGGACTTATGGGTGCTTCATATGCTATGGCATTAAAAAAATTTCATAAAGGTAAAATTTATGCAGTAGATATAGATAAAGAGAGTTTATTAAAAGCAAAAGACAGAGGCTTAATTGATGAAGGATTTGTTGAACCAAAAGAACCATTAGAAGATTCTAAATTAGTTATAATATGTTTGTACCCAAAGCTTTTGGTAAAATTTATAGAAGAAAATAAAGAAAATTTTCAAAACAATGCTATAATTACAGATATATCAGGAGTAAAATGCGATTATATAGAAAAAATAGATAACATTTTACAAAAAAAAGCTGATTTTGTTTCAACACATCCTATGGCAGGAAGAGAAAAACAAGGAATGGATTATGCAGATGCTAATATTTTTCAAAATGCTAATTTTATTATAATAAAAAAAGAAAATAATAAAAAAGAAAATGTAAAACTTATTGAAAATCTTGCTAAAAATATGGGATTTTTAAGAGTGACTAAAGTAACAGCTAAAGAACATGACAATATTATAGCATTTACAAGCCAACTAACTCATGCAATAGCTGTATCTCTTGTAAATAGTGACGATGAAAAATTTAACACAAAATTATTTATAGGAGATAGTTATAGAGATCTTACGAGAATAGCTAAAATAAATAGTGAATTGTGGAGTGAATTGTTTTTAGAAAATAAAGAAAACTTAATATATAGAATAGATAATTTTATAGATAAATTAGAAACTATAAAAAATGCTTTATTAAATGAAGATAAAGATAGATTAATAAAAGAGTTTAAAGAGTCATCAGATAGAAGAGATAGATTTTAGGAGGATATTAACTATGAAGAAAGTAATAATAAATCCAGAAAAAAATAATATAAAAGGAGAAATAGTAATTCCACCTTCAAAAAGTTATGCACATAGAGCTATTATATGTGCTTCGCTTGCAAAAGGAAGAAGTATAATTGAAAATATAGATTATTCTGTTGATATAAATTCTACAATAGAAATAATGACAAAAATGGGTGCGAAAATTGAAAAAAATGGAAGTGTTTTAACTATAGATGGAACAGATAATATAAAAATAACAGATATAGATTTAAATTGTAATGAATCAGGATCAACAATCAGATTTCTTATCCCTTTAGCATTAGCAAGATATAATAGGGCTAAATTTTTAGGGAAAGGTAAATTAATTACTAGACCACTTGATGTTTATTATAATATATTTGAAAAACAAGGAATTAAATATGAAACAGATAATGGGAAATTGCCACTTTTTGTAGAAGGAGAATTAAAACCAGATACTTTTATAATACCGGGGAATATTAGTTCACAATTTATAAGTGGGCTTATGTTTACATTACCTTTATTGAATGGCGATTCTATCATAAAAATAAAAGGAAATTTAGAGTCTAAAGCTTATGTGGATTTAACACTTGACATGTTAAATAGATTTGGAATAGAGATAGAAAATAGAGATTATCAAAATTTTTATATAAAAGGAAATCAAAAATATAAAGCACAAAATTATAGAGTAGAAGGAGATTTTTCTCAAGCAGCTTTTTGGATAGTAGCTGGATTAATTGGAGAAAATCCAATTACGTTAAAAGGAATGAACATTAATTCGCTTCAAGGAGACAAAGAGATATTAAATATAGCTAAAAGAATGGGCGGGCAACTAGATATAAAAGAAGAAGAAATTATAGTTTATCCTTCTAAAACAAAAGGAATAAAAATAGATGTATCTCAGTGTCCAGATATAGGGCCTATTTTATCAGTACTTGGAAGTGTATCAGAAGGAGAAACTAATATAGTCAATGCTGAAAGACTTAGAATAAAAGAATGCGATAGAATAACGGCATCAGTATCAGAACTTGCAAAGCTTGGGGCAAATATACAAGAAATAGAAGATTCTATAAAAATAATAGGAGTTGAAAGATTATCAGGAAATAAAACAGATAGTTGGAATGACCATAGAATAGCAATGTCTTTAGCGATAGCATCAATTAAAATAGATGGAGAAATAGAGATAAATAATAGCGAATGTGTAAAAAAATCATATCCTAGTTTTTGGAAGGAATTTACAAAAATAGGAGGTCATTTAAATGAGTGCAACGTGGGGTGAAAATATTAAATTGACAATATTTGGAGAATCACATGGACCGGGAGTGGGAATAGTTATAGATGGACTTCCACCAGGACTTCAGATAGATATGGAGTTTGTTAGAAATGAATTAGAAAGAAGAGCAACAGGTAAAAACATGCTAATGACAGCTAGGAAAGAACCGGATGCGATAGAAATAATTAGTGGATATTTTGATTATCATACGACAGGGGGGCCGCTTTCTTTTGTAATAAAAAATAAAGATCAAAAATCAAAAGATTATTCACAATTAAAAAATTGGATGAGACCAGGACATGCAGATTATACAGGAAATGTAAAATATAGAGGATTTAATGATTATAGAGGTGGGGGCCATTTTTCAGCTAGAATTACAACTCCTTTTGTTGTAGCTGGTGCTATTGCAAAACAAATTCTTGCAAAAGAAAATATTTATATTGGTTCACATATAAAAAGTATAGCAAATATAGAAGATAGAGATTTTGAAGAAAAAGATTTAAATAAAAATATATTTGGTGAATTAGCCAAAGAACAGCTATGTGTATTAAATAAAGAAGTAGCTAATAAAATGAGAGATGAAATATTACAAGCAAGAGAAGAACTTGATTCAGTAGGTGGAATAGTAGAAACTGCGATTATAAACCTTCCTGCTGGAGTTGGAGAACCATTTTTTGAATCAATAGAGAGTAAACTTGCTAGTATGATATTTTCAGTACCGGCAGTAAAAGGTATAGAATTCGGAAAAGGATTTGGAATTACTAGACTTAGAGGCTCTGAAGCAAATGATGAGTATTATTATGATAAAAATGGTAATGTAAAAACAAAAACAAATAATAATGCAGGTATACTCGGTGGGATATCTAATGGTATGCCTATAGTATTTAAAACAGCATTAAAACCAACAGCTTCTATTTCTAAACCTCAAAAAAGTATAAATATAGAAACAAAAAAAGAGGAAGAGTTTGCTATAACAGGAAGACATGACCCATGTATAGTTCCTAGAGCAGTAGTAATATTAGAGTCAGCAGCAGCTCTTACAATTCTAGATATGTTAATAGAAAGTAGGAGATATAATGGATTTAAATAAACTTCGTAATGAAATAGATGAAATTGATAAAAAAATAGTAGAACTTATCGAAAGAAGATATGAAATAGCAATAGATATAGCTAAATATAAAGAAAAAAATAATATTCCTATATATAATGAGATTAGAGAAAAAGAAGTTATTAATAAAAATTTGAAATATATAGAAAACAAAGAGTTTATGAATGAAGTAAAAAAAACATTTATAAATATAATGGAACTTAGTAAAGATATTCAAAAAAGAGTGATTAAAATAAAAAAAAATTTAAATGTAAAAGAAGCTAAAAAAATAGGATTTCAAGGAAGTGAAGGTTCTTTTAGTCATGAAGCTTTATTAAAATACTTTAAAAATTATGAGGAAATAAAAAAATATCCTAGTTTTGAAGAAGTTTTTAAAGCAATTAATAAAAGAGATATAGAGTATGGAATAGTTCCAATAGATAATTCTTCTACAGGAGAGATAACAGATACATATGATCTTATTAGAAAATATGGTTTATATATAGTAGGGGAGATAGCTATAAAAATAGAACAAAATTTACTTGGGATATCTGGAGCAAAACTCGAAAATATTAAAGAAATTTATTCTCATCCTCAAGGATTTCAACAAAGTAGAGAATTTTTAGATGAACATAAAGATATAAAATTAGTGTCATTTCCAAATACAGCACTTAGCGCACAATATATAAAAGAGCAAAATGATAAATCAAAAGGTGCTATTGCTAGTATTAGAGCAAAAGAAGAGTATGGATTAGAGATAATAGTGCCAAGTATAAATTCTAATAAAAATAACTATACAAGATTTGTTATAGTAGGAGAAAATTTTGAAAAAAGTATTGAAAATAATAAAATAAGCATAATTGTATCAACTCCACATAAAACAGGAGGATTATATAAATTTATTAAAAAATTTGCTGACAATAATCTAAATATGTTAAGTATTAAATCAAGACCTATTCAAGATAGACCATGGGAATATTTCTTTTATATTGATTTTGAAGGAAATTTAGAAGATGAAAATGTAAAAGATACATTAGAATATTTTAAAAAAGAGAGTGGATATTTTAAATTTTTAGGTAATTATAAAAAAGATGATAATATTTTATAGGGGGAAATTATGTCATATGGATTATTAGGAGAAAAGCTTGGACATAGTTATTCAAAAATTATACATGAAGATTTTTATAAGATACAAAATCTCAATTATTTATATGAATTGATTGAGATAAAAAAAGAAAATTTAAAAGAGATAGAAAAAAAAATAAGAAGCAAACAATTATCAGGTGTAAATATAACTATTCCATATAAAACAGAATTTATAAAATATTTAGATATTATAAGTGAAAATGCAAAAGCTATTGGTGCAGTTAATACAATATATTTAAAAAATGGAAAACTTATTGGAGATAATACAGATTATTATGGATTTAAAATGACGTTAGAATATAATAATATTAATTGTAAAGATAAAAATGTATATATTTTAGGAAGTGGAGGTTCTGCTAGAGCAATACTTAAATGTATATTAGACCTTGGAGGAAAAGTATTTATAGTTAGTAGAAATAAAAATAAAGCAGAAGAAAAATTTAAAGATAGTTTTAAAAAGATTAATTATTTAGATTACTCTCAATTAAAAGATATAGATAAAGATGATAATATTCTAATAAATTGTACACCAATAGGAATGTATCCTAAAGTAGAAGACTCACCTATAGAAAAAGAGATAATAAAAAATTTTAAAGCAGTAATAGATATTATTTATAATCCTGAAACTACAAAATTATTAAAATACGCAAAAGAAAAAAATATAAAATATGTAAATGGCCTTTTTATGCTTGTAGCACAGGCAATAAAAGCAGAAGAATTTTGGGGAAATATAGAAGAAAATTTATTTGAAATAATAGAAAAAATATATTTTAAGTTGAAACTACAATTATATAAAAATAATATAGTGCTTATAGGTATGCCAGGTTCAGGAAAAACAAGTTTTGGTAAGCGTATATCAGAAAAACTAAATAGAAAATTTGTTGATTTAGATGAAGAAATAGAAAAAGTTAAAAATATGAGTATTTCTCAAATTTTTGAAAAGTATGGGGAAAAAAAATTTAGAGAAATTGAAAGTGAAATAACACAAAAATTTTCAAAACAAAAAGATTTAATAATATCTACTGGTGGTGGAATTATTAAAAATAATAAAAATATTGAAGCTCTAAAAGAAAATGGAATAATTATTTTTATTGATAGATCTTTAGAAAACTTAATAAATGATATAGATGTAAAGCATAGACCGTTATTAAAAAATAATGTAGAACATATAAAAATACTTTATAATGAAAGATACTCGATTTATAATAAAGCAGCCGATATAATAGTTAAAAATAATACTAATTTTAATAATGTATTAGAAAAAATTTTAAATAATATTGTAATCTAGATAATTCTAGATTACTTTTTTTATATATGATATAATATGAGAAAAAGAAAGGTAATATAGAATGAATAAATTAAGTAACAGATTGTTAGCAATATTTGCATGTTTTTTATGGTCAACAGCATTTGTAGGAATTAAAATAGGATATACTTATTATAGTTCACCTTTTAATTTTGCAGGTTTAAGATTTACTTTAGCAGGAGTTTTACTATTACCATTAATATATAAAGAAAAATTATTTAAAATATTAAAAGATAATTTAAAATTTATATTTTTTATTAGTTTAGCTCAAACTGGTATAGGATATGCTATATTTTATAGTGCTATGAAATATGTAGATGGAGCAGTAGCAGCTATAGTTATAGGGGCTTCTCCACTTATTACAGCTATTTTATCACATTATTTATTAGATAATGATAAGATGAGTAAAGCTAAATTTTTAGCACTCATTAGTGGAATGTTAGGAATAATATTAATAAGTTTATCAACAAAACCATTTAGTGTAAATGGATTAAAATCAATGTTAGGAATTGGATTACTTTTATTTAATTCAATACTTGGTGGAATAGTAAATATAAAAATATCTAAAAATAAAATAGTAATAAATCCTATAGTATTATCTTCATTACAAATGATAATAGGAGGTATATTTTTATTAATAATAGGTAGGGTATTTGAAGGAAAAATTTATTTTGATTTTCCGATTGTATTTTATATTAGTTTATTATGGCTTGCTTTTTTATCAGCAGCAGCAATATCTATATGGTTTAAATTATTAAAATCAAAAGATATAAAAGTATCAGAGCTTAATATGTGGAAATTTTTAATACCACTTTTAGGAGCTTTTTTAAGCTGGATAATATTACCTAATGAAAATCCAAATTTTTTATCAATAATAGGGATGATAATAATATTAATATCACTTGTATCTTATAATAGAATAAAAAAATAGAGGTGAATTATGAAAAGATTATTAGAAATAGCAAAGCAACTGCAAGCAATATCTCAGTCAGGATTATATTATTCAGAAAACGACTATGATTTAGATAGATATAAACAAATAGAAGATTTAAGTGTAGAAATGATAGAGCTTCTTACAAATAATAGTATAGAAAAAATAAAATTAGTACTTTGTAATGATGATGGATATAAAACTCCAAAGGTAGATGTAAGAGGAGTTATTTTTGATGAAAAAGATAGAATATTAATGGTAAAAGAAAAAATAGATGAGAAGTGGAGTATTCCTGGTGGATGGAGTGATATAGGATATAGTCCTAAAAAAGTAGCTGAAAAAGAAGTGTTTGAAGAAGCAGGACTTGTAGTAGAAGCTCAAAAATTACTTGCTGTATTAGATAAAAGTTATCATAAGCATCCAAGTGATATAAATCATGTGTATAAAATGTTTATTTCGTGTAAGGTAGTAGGTGGAGAATTAAAGAAAGGTATGGAAACTCTTGATGTAGGATATTTTGATATTAATGATTTACCCGAACTATCTATAACAAGAATAACAAAAGAACAAATAGATATGTTATATAAATTTCATAAAGGTATTTATACGGAAACAATATGTGATTAAAATAAAAAGCTCAAAATAGATTTCTATTTGAGCTTTTTATTATTTATATTTAATTCTCTAAAGGAAAAGTAATAATGAATTCAGTACCTTTAAAAGGAGCACTTATACATTTGATATTACCTTTTAATCTTTGAGTAACAATGTTGTATACAATATGCATACCTAAACCACTCCCTCCTTTATCTCGCTTTGTAGTAAAGAATGGATCAAATATTTTTTTTCTATGTTCTTCAGACATTCCTTTACCATTATCTTTATATTTAAAAATAATTTGATTATCTTTTTTTTCTATTATTATATCTATAATTCCTTCATTAGAATTTTCAAATCCATGATTAAGAGAGTTAATTACAAAATTTGTTATAATTTGTGAAAAATCACCTGGATAACTCGTAATTTCAAGCTCTTTATCACATTTAAGATTAATCTCGTAATTAGTTCTTTTTATTTTGGGATATAAACTAAGAAAAACTTCATTAATATATTCATAAACTTTAAATTTACGCTTATCTTGTATAGTTTGGTCTACAGAGATTTGTTTAAAACTTTTTATTAAATCAGAAGCTCGATTTAAATTTGATAAAATTAATTTAGAAGATGTATCTGCATCATCTAAATACATTTCTAGATCATTTCTTGTCATAATACTTTTTTCATATTTTTTCTTTATATTAGAAGTTGATTCTTCTAATGTAGAGGCAGCAGTTACTCCAATTCCTATAGGCGTATTTATTTCATGAGAAATTCCGGCTACAAGACCACCAAGTACTGCCATTTTTTCAGAAAGAATAAGCTGTTCTTGTGTTTTAGTAAGTTCATCCATTGCTTTTTCTACTTTTTTAACTTCTTCAGCAATTTTTAACAATAAATTTGAATTTTGTAATGATAAAGTTGCTTGGGATAAAATCATAAATAAATAATTAATATCTTTTTTATTTATAATTTTTTCAATTTCTAAGACTACAGCTCCAACTATTGATTCACCATAGATAGCAGGAATAATAAGTATATGAGTGTTTTTTTTAGTTTTTTTCATATGTATATTTTTATTTGTATCTTTAAATAATTTAGGTGTTTTATTTTTTTCAATAAACTCTAAATAAGGATTGTTTTTTAAAGGAACTAAATTTTCTTTTATTACAGTTTGATTAATCAAAGCGTCTAAAGTATAACTATAGTAACTTTTTTCTATTTTAACTAGATATTCAAAATTAGTATATTTAGAGATATCTTTAAATATCTTTTTCAGTTTAAAAAGTATTTTTTCACTGTTCAAATCAGAATTAAAGTCATTAGTGATTTTTTGTAATGATTCTAGAGTATCACTTTTTTCTTTTTGTGTAAAGTATTCATATGTACTCTGTAGAGATACTTCTATTGCATATTTTAAACGAAGTAGAGTATTAACTCTGGCATAAAGCTCTTTTTTTTCAAACGGTTTTGTTATATAATCATTGGCTCCTGATTCAAACCCAAGTATAATGTCTTCTGTTCGATCTTTTGCAGTAAGCATTAATATAGGTAAATTAAATAATGAATAAGTTTTTCTAACTTCTTTACATACTTCATAACCAGACATTCTAGGCATCATTACGTCAAGTATAAGTAAATCATAGTTAAAATTTTTAATTTTTTCAAGTGCTTCTTCTCCAGACATAGCAACATCAATATTATAATTTTTTAATAATAATTGGTCTACAAGAACTTGTAAATTTATGTATTCATCATCTACAATAAGGATATTTTTATTTGAATTATTAGGATTAAATTTTGGTAAATAAGCTTTATTAAGATTTTGTTTTTCAGCATTTTTAATTCTGTCTTTTAATTTTTTTTCTCTTTTTATTTGTTCTCTTATTACTTCTTCTTCAAACATTCTGTCTTGATCAACTTCATCGCTAATAGGAAGAGTAAATACAAAAGTAGTTCCTTTTCCTAAAGTAGATTCTACATAAATACTACCACCTTGTAATTCGATAAGTTGTTTTGTAATAGAGAGCCCAAGGCCAGTTCCACCAAATTTTCTTGAAATAGAACTATCTCCTTGCTCAAAACTTTCAAAAATTTTATCTAGTTTTTCAGGTGCTATACCAATACCACTATCTTTTATATAAAATATAGCAGTATCTTTTTTTTCATTTATTTTTGCATCTATAATAATTTCTCCTTTATGAGTAAACTTTATAGCATTACCAATAAGATTGTATAAAATTTGCTCAATCCTAGCATCATCACCATAGATTATTGGAAAATTTTTAGAAATTTTATTAATTAGTTTTATATCTTTGTTTCCTATCAAAACTCTACAAAGAGTAGTAACGACTGCTGTTATTTGATAAATATCTATATCTTTTAAAGAAATTTCTAATTCTTTATTTCTAATTTTAGCAAAATCTAATATATCACTAACTAAATTAAATAATCTTTTAGCACTTGACATTATCATATTTAAATTAAATTCAGTTTTTTTAGAAAGTTTTCCACCAGCGCCTTCTAACAATGATTCTGTTAAACCAATAATTCCATTTAAAGGCGTTCGAAGTTCATGGGAAGTATTTGCCAAAAAGTCATCTTTTATTTTATCTAATTCCTTTAAACGTTCATTTTTTTTCTCTATTTCTATTATGTTATTTTCTAATTTATCAAGCATATCATTAAAATAATGGGCTAAAATTCCAATTTCATCATTATTTTTTATATTTATTCTTTTAGAATAATGACCATTCCCTATATCTTTTGCAGTTTCTATAAATGTGTGTAGAGGATTTAGTAATATATTTGCAAGTATTAAAAGGAATATAGTAGCAAAAATACATCCGAAAATAGACATAATAATCATATTAAAAATTATAGAAGTAATCGAATTATCTAATTGTTTAATATTGCTAGCGATACCGTAAAAGCCAATAATATTGTTATGAAAATCTACTAATGGAGTATAGAGTACATAATAATTATTATTATCTATTTTTATTTTTTGTTTTGCATAAATATTATTTTTTATATTTTTTAAATTAATATCATATTTTATTTGAGTGCTATCCTTTATATGACCATTTGAATCTGAAATGAATACCAATTTTGAGTTATCAAAAAGTATAAAAGTAGTGTTAATTTTTTTAGAAAGTTGAGAAATATTATATTTTTGTTTTTGAATATTTTGAATTAAAACAAGACTGCCTAATTGAGTTTTAGATTTAGTAAGAATTGGAGCGTTAACAATAATTTTTAAATTTCCATTATCATTCCAAAAGCTGTATTTACTTTTTTTAGATTTTATAAAATTTTTAATAAAAGAATTATTACTTAAATTGGGATGACTAATAGAATTATTGTTTTTATTAAAAATAATAATTTCATCAATATCTGGATTTTTATTTAATATATTTTTACTGAAATCATCAATTTTCTTATATAATTGCATTTGTAATAAATTAGTTAGAGTAGAATCTTGAGTAATATTTTTTGCTTTTAAAGCAAATTTTTCGATATTATTATTTAATATTATATTAGCTGAAATTGATTGAGTGGAAAGTAAATTTAGAAGTTCTTTATTAGTATTTTTTATAAATAAATTAATATTATAAAAAGTAGCTAAAGCAATAGTTACAACTATAATAGTTAAAACAGAAACAATCAATTTTAATTTTATTGAATTTCGTATCCGATATTTCATTTTTCACTCCTTGTGTAAACTATATTTAATTATAATTGATTAAATAATATCAAAAAAAATAAATAGTGTAAAGTCAATATTTGTTAAATAAATTATTTTTTTTGAAATATTTTAAAATAAAATGTAATATTTTAGGACTGAAAAAAGCAAATGAAATATTCTAATAATAATTAGTAAAATAAAAAATCCTCTTAATTATCTTAAGAGGAAAAAATTGATTTATAAATTGCCTTGAATAATATTTTCTAATTTTAGCTTTTTTTGAATCTCGTTTAATACTCGTCTTTTATTTAAGCTCCATTTTGGTTTAAAAAGAGTGTCTTTATCTCCATCTCCTGTGATTCTATGAATAATAATATTTTTATCTAAAATTTTTATAGAATTAACTATAAGATTTATATATTCTTTTTCTGAAAAAACATGAAATTTTTCTTTTAAATATAGATAATATAAAGAGGAATTTTTTATTATGTAAAGTAGATGTATTTTTATTCCCCATGGTTTTATTTTATTTATATATTCAATAGAATCAAAATATTCTTCTTTTGTTTCATATGGAAGACCTGCAATTATATGAATTACAGTTTTAATATTATTGTTTTTTAATTTGTAAAATGAGTTTTCAAAACTATGAAGAGAATAACCTCTATTTATAAGTTTTGCTGTTTTTTCATGTATAGTTTGAAGGCCTATTTCTATCCATAAAAAAGTTTTTTTATTTAATTCATTTAATAAATCTAAAATTTCTTTATTAATACAGTCGGGTCTTGTAGCAATAGCTAATCCAATTACATTTTTATGATTTATCGCCTCATAAAATATTTTTCTTAAATAATTTATATTTCCATAAGTATTTGTAAAGCTTTGGAAATAAGCAATTACACTATCTGAATTATGTTTATTTTTTATGAGCTTTATTTGTTTATTTATTTGCTCTGTAATAGTATCTAATTTGTTCCCCGCGTGTTCACCACTACCTTCTTCACTACAAAATATACAACCTCCATAAGAAATTTTTCCGTCTCTATTAGGACAACTAAGGCCAGCATTTAATGATACTTTATATATTTTTTTTCCAAATGTTTTTTTAAGTTCATAATTTAAGTTATTGTATCTTTTATCTCCCCACATAAATTCTCCTATAATTTTTCTATAACTAATTTTTTTAATTTATTAATATCTATAATTTTTACATACATAAAATCTTTTTCAATAATATTTTCTTCTATAAATTTTTTAAAAATTCTTCTTATTTGTCTACTTGATTTACCTAGTGACGAAGACAGTTCAGTAATATTTAATTTTTGAATTTCGTTATTTTCATCTAAACTATTATAAAGATAGGTAGCAATTCTATTTTCTAGAGGATAAAGCATAGATTCATATATTATACTAGTATCATTATATAATTTTATAGCTAAAGTTTGTAAAATTTTATTATTAAAAACATTGTCTGTTTTAAGTAAAGTTTTGATAAATTCAATATCAAATTTTATTACATAGCTATCTATAATAGCTTCTACATTATGAATATAAGGTTTATTTAAAACAAGCTCTACATCTCCAATAACTTCTCCAGGTTCTAAAAAAGCTACAGATAAAGCCTTTCCATTTTCATTAGTTGTAGATACTTTAAATTTTCCATTTACAATAAAATAAAAATATTTTGGTTGTTGTTTTGATAAAATTAAAAAACTATTTTTTTTAATAAATTCTAAATATGCTTTATTTATATAATTATTACTAAAAAAAGAATCTAGAGCATATTTTTTATAATATTTTTCTAATAATTTATTATTCATTAAATCACCTTTTTATTTTAATTTTATCACAAATATATAAAGTAGTATAGAAATTTTATTTTTATTAAAAAAGAAAATAGAAATTTATTTTAATAAATAATAAAAAAGCTAGATATTATTCTAGCTTTTTAGACTTTAAATTTATCAACTAATTGTCTTACTGATTCTGATATATAACCTAAATCTTGTGCAACAGCGGCTACTTCTTGATTAGATGCTGTTAATTCTTCACTAGCTGCTGATACTTCCTCCGAAGCAGCGATATTTCTTTCAACAACATTATTTATTTTATCAACTTTTTCTACTACTAAATCTTTTGATTTAACAATTTCACCAGTTGCACTATAAGTATTTTTAATAAGTGGAGTAATATTTTCAACAGAATCTATTATTTCAATAAATGAATTAAGTGTATTTTCTACAGCTTTAGTTTGTTCAATAATTAGATTTTCAACATTTTCAGATGTTTCTATTACCTCATTTGTATCATTTGTTATAGATTTTATTAACTCTATAATTTTATTAGTTGAAGTTCTTGATTCCTCAGCTAATTTTCTTACTTCTTCAGCTACGACTGCAAATCCTTTACCATGTTCACCAGCTCTAGCAGCTTCTATTGCAGCATTTAGTGCTAGTAAATTAGTTTGTTCTGAAATACCAGAGATTATATCAGTTATACCACTAATTTTATTAACAGATGTTATTAGTCTATTAACCTTTGATATTACTAGATCAAATACATTTTTTATATCATTTATTGAATTTACTAATACATCCATTTCATTTTTTCCATTATTAGCTTTATTAGCACTATTTTCTGTTTCATTTTTTACTTTAATAAGTTCATTATATACATTATCAATACTAGTAGTTAAAACTTTTATTGAATCAGTTATATCTTTTATATCATTTGATTGTTCTAAAGCGCCCGCTGTAATATTTTGCATTGTCGCAGCTAACTCTTCAGAAGCGGCAGCAGTTTCTTCAGATGTAGCAACTAAACTTTTTGAATTATCGTCTAGTTTTATAAAATTATTTTTAACATTTGATAATAAATCATCTATATTTTCGATAATAATAATTAAAGATTTTGTCATTTCTGCAAATTCATTTTTTCCATTTACTTTTAAATCAAAAGAAAAATCATAATTTGATAATTTATTTAGAATTGTAGTGATATTTTGTATAGAATTTTTTATTAAATATGTTAAAATAAAATTAAACATAGCTAAAATAATAATAGCTATAATAGAAACAATTAAAAAACCTTTTTTTGAAATATTATATGAATTATTTATTTTAATTAATGAGTTTTTAGCATATTTTTCATGTAATGAAACTAAATTATCAATATTTTCTTGAGCTTTTGCTGCATAATCTCGCAATAAATTTATTTTTTCTTTACTAATTTTTTTTCCTGTTTTCATTATTTCAAAATAGTTTTTCATATTTTTAATATACAATAAATAATATTTTTTAATATTATTAAATATTTCTTTCTCTTCTGTAGTAAGATTTTGACTTTCATATGTATTAATAATATTGTCAAGTTCAATTATTTTTTTATTAATATCAGATACTAAATTTTCGTTATAATTAGAATATAATAAATCTATATTTTTTATTCTAATTAAATAAAAATCTGTTTCAAATTTTTTTAAATTTAAAGAAGTAAGCATATGTTCATTATAAATAGAATTTACATTTTTATTAAGTATTTTCATTTTGTTTAATGAAAAAAAAGTTAAGTAACTCATAATTAAAATAATTGTAACTATAGCTGAAATAAATAAATTTTTAATTTTTATATTATTTATCATTCTTTTTGCACTTTCCAAATTCATTATATTATTCATTTGATAACCCCTCCTAAAATTTAGTAAAATATTTAAATATTAATTAATAGAGTCCCTCTTATTTTCCCTCCTTTCTTTTTTTATTAATTTTTTTTATGAAATTGCTTTTTTATTATAATTTAAAATAAATTTTGTTAATTCATCAATAGTTATGGGTTTAGATATATAGTATCCTTGAGCTTCAAAACAATATAATTTTGATAAAATTTCTAGTGTATCTTTATTTTCTACACCTTCAGCAACAATTTTTTTATTCATCAATTTAGAGATTTTTATAGTAGACTTTACCATTTCATAATCTATAATATTATTATCTAAATTTTTAATAAATTCTTTATCTATTTTTATAATATCAATAGGAAGATATTTTAAATTTGCTAGCGATGAGTAACCAGTACCAAAATCATCCATAGCAATTGTTAAATTCATTTTTTGTAACTTTAATAATATTTTTTTAATAGAGGATAGTTCAGTTATAATATCTCGTTCAGTTAATTCAAATTCTAAATTTTTAATTATATTTTTATTGCTATTTAAAATATCCATTAATTTTATTAAGAATAACTTAGACATTAGATTTCTAGGACTTATATTAATTGAAATTTTTATATTAATATTTTTCTTTTTTAGATTATTTAAATCATTTATTACCTTTTTTATAATCCAAAGAGTTAGATTATTTATATATGTAGTTTTTTCAACTTGTGGAATAAATTTATTTGGAGGAATAAAACCTTTAGTAGAATGTTTCCAACGAATTAGAGCCTCAACACTTTTGACTTTATTATCGGCTAAATTTAACTTTGGTTGGTAAACAATAAACAATTCATTTTTTTTAATAGCATTATGAATATCAACTAATAATTCAGATGTGAAGTAAATTGGAAAATTTACAGTATCATTATATATAAAATAATCTAAATTATTCTCTTTTGCATAGTATAAACACGTGACTATTTTTTTAAAACCATCATCAAAATTATTAATATAATTTTGATGTATACCAACTAAAAAAGTTTTTAAAAATAAAGACATATTATTTATAATAAAAGGATTGTTATTAATGTAATCTAAGAAATTTATTATCCAGTTTTCGGTTTCATTTAACGAATAATTTTTTAATAAAAGTAATAATGAAAAATCGTTATTTATAAAAATTTCAATTTTTTTTTTATATTTATGTTTTAAATATTTTGAAAAATTTAAAGAAAAATCACTAATACTATTGTTTAAAAGAGATGTTATTTCTACAATATTATTAACATCAATTAAAATTAAAGAAAAATTTTTATTGCTTTTTAATAGTTTATTTACTTTTTCTTTTAATAATTCTTTTTCATTATAAATATTAGTTTCAAATCCAACACTTTTTGTAATATTTTGTTTCTTTTTTAATAAATATCCAATAAAACCACCTAATAAAGTTAAAAGAAAAATTCGTAAGATATAATTAAGAGGACTTTGTTTAATTTGTAAAGTTGTGTCAAGCGGTAAAAAAGCTAAAAATATACCAGCAAAAAAGCCATTAATAGCTCCGCCAAAAGTATAATAAAAAATAGCAGATATAATAATAGGTATTAACATAAGATATGGAAAAACATATTTTGTACCTCCACTATAATATACAATAATATCAATAATTACAAATAATAATAGAATTACCAAAATCAAAAAAAATTGTTTAGTTTTAATATTCATTTATATTTTGTCCTCTCTTGAATCATTTTTTTAATTATTAAATCGTTTTCATATTATTTATATTATATATTAGGAATACAAAAAAAACAAATATTATGTAAAATACTATATAAGATTTTATATAAATTGTCAATATATCATTTATTTATAATATTTATAATAAACGTTTACATTATTTTTTGAAAATGACAAATGTCATATTTTTAAATTTTATATTAGTGTAAAATAACCTTAGGAAGGTGATAATATGAATATAATACCATTAATAATAGGAAGTTTAGTTACAATAATGCTTACATTAAATAGTATGCTATCTCAAAAATATGGTAACTTGTTAGCATTACTTATTATTCATATAATAGGTTTTATAGTAGCTGTGATTATAAAAATTATAAAAAAAGAAAAATTTATAAAATTACATAGATATTTTTTCTTAGGTGGTGTTGTAGGAGTAACATTAATTGGATTAAATAATTTAGTTCTTTTAAAATTGGGACCGAGTTTAACAGTAGCTATTACACTAATATCTCAAATGATTTTTTCGACGATTATAGATTATTTTGGCTTTTTTGGATTTGAAAAGAAAAAAATTAATAGAGAAAAAATTCAAAGTATATTTATTATATTTATAGGTATACTATTTTTAGTGATAGAAAGGGGATAAAATGTATTTTTTATTGGCATTTTTAGTAGGGGTTTTAGTGCTTCTTAGTATAATAATTAATTCAAAATTAGCTAATTGTATGGGAATGTATAGTTCTATGATTATTACTTATTTTATATCAATAATAATTCTGTTAGTATCAATGATATTTTTTAATAAAAATATAGTAGTTGATTTTAGTATAGATAATTTTTATATTTATTTAGGTGGAGCATTGGGAATAATAGTATTATTTTTATCAAATAATATTGTAGGGAAAATACCTGCCGTTAATATGACAATATTTATAATTGTTGGTCAATTAATTACAGCATTTATTATAGAGTTAATTATGTATAATAATTTTGAAATAAAAAAAGTTCTAGGGAATTTAATTATTCTTTATGGAATAAAAAAATTACCTAGAAAATAGAATTAAAAATAATAAATAAAAAAAGATGAAAATTTTTTCATCTTTTTTATAAATTAGAAAATTTTTTTATTAAGAAAAATTCTTTTTTTATATAGTTGTTTTTTATACAATAAAGAATAGTATTATAAATATTTTTTTGAGTTCCATCAATAAATACTCCATTTTGATTTATTGATATTAATACATGAAATTTTTTTTCTAATTTATTTACTTTATTCTCGGGTATATCATATTGAAAAATATTAATAAATTTTCCATCAATATTTATTAAATATAAGTTTCTATATTTTTTTTCATCTTCTAATCCTTCTAAAAGATAATAATTTTTATAAATATTTTTAGTAATCACAGATTCAAAAGCTCCGGTATTGGAGATGAAATATTTTTTTTCTTTTTCAGAATATATAACATTTAAAACTCTTCCTACATTATCAATATAATTACCTTCTTTGATACTAATGATTTTTCCATCGTTATTTTTTATGATGTTTTTTTTAACTTTTATACTAGGATAACAAGCTGTAAACAATAATAAAAAAATTAATAAATAAATTTTGTTTTTCATAGGATAAACCCCTTTATTTTATAAGATTTAAATCTTTCGCCATTTTTTCAAAAGCAGAAATACTTCTTTTTATCATATTAAAATCTACACAATATGACATTCTAAAATATCCAGGACATCCAAACCCACTACCAGGAACTAATAAAATATTATATTTTGTAGCAAATTTTACAAATTCTATATCGTTTTTAATAGGTGATTTTGGAAATAAATAAAACGTTCCTTCTGGATTTACCATAGTAAATCCAAGTCTAGTTAAATTATCATACAAAAAATCTCTCTTTTCTTGATAATCGGCAATATTTACAGAAGAGTTTATACCATCTGCTACAGCTTTTTGTGCAAGTGCTGGAGCATTACCAAACCCAAGAGTTCTATTACAGAAAATAAGTGCATTCATTAAAATAGAAACATTTTCTATTTTAGGATTAACTGCAATATAACCTATTCTTTCTCCTGCAAGTCCAAGAGATTTACTAAATGAATTTACAATAATACCATTTTCAAAAATATTTAAAATATTAGGAATTTTTATATTATTATAAACAATTTTAGAGTATGGTTCATCAGAAATTATAAAAATTTTAGAATTGAATTCTTCTTCTTTTTCTTTTATAACTAGCGACATTTCTTTTAAAATATTTTCTTTATATACTACTCCAGTTGGATTATTAGGCGAATTTATAATAATAGCTTTAGTTTTTTTAGTTATTTTCTTTTTTAATTCATCTAAATTTGGTTGAAAATTAGTTTTTTCATTATTGATAGTTACCATAATTCCATTATGATTTTGAATATAAAAGCCATATTCTACAAAGTATGGAGTAAAGACAATAACTTCTTCTCCAGGATTTAAAATAGCTCTAAGAACAGTATTTAAAGCTCCAGCAGCCCCACAAGTCATTACAACATGTTCATAACTAAGTTTTTTATCAATGATATTTTTATTAATTTCATTAGCCATAGTTTTTCTAACATCTAAAAAACCAGCATTACTCATATATCTGTGTACACCTTTTTCAGAAGAATGTTTAATAAGAGAGTTTATTACTTCAATAGGAGGTTCTGCAAATGGATTTCCTATGCTATAGTCATATATATTTTCTTTTCCATGTATTTTTGCCAGTCGTTCTCCTTCTTCAAACATTTTTCTTATCCAAGATGAATTTTGCATATTTTTATTAATCTCATTTGAAATCATACTGTCCCCCTTTTATTTTATAACATTTATTAAATCAACTTTTAAGTTTATCAATAGCTTTTTCAAATTCTAATCTTGTTATTCCAAAACTATTTAACCTATTTAAAAATTGTTTTGCATTACAATATCCTATACGAAGTATTTTTCCTAATTTATCTCTTCTTTCTTTTGAATCAATTTTACCAGATAAACCATTATCAATAATATCATTAATTGTAAAAACATTTTCATTAGTATTTATTTTAAATTTTGCATTTTTTAAAGCTGTAATAATAGCTTCTGGAGAAGCGTTTTCTACTCCAATATTATTATTTTTTCTTCCTTCTTTTCTAGTGATATATGCATGTTTTACATTAGGAATTTGAGATTCGATTATTTTTCGTATTTTTTCTCCTGCAAAATCAGGATCAGTAAGAATTATTATTTCTTTTTTTTCACTAGCTTTTTTTATTTTATCTAGACTATTATTTTTATGCACTGAATAACCATGCACGGCGATAACTTCTGCATTAACTGCTCTTTTTACAGCAGATATATCATCTTTTCCTTCAACCACAATTATATCTTCTATATTTAATTTCGACATTAATTACTCCTTAATTTTTATTTAAATTCAAAAAATTATATCATAACTTTTATAAATTATCAAACATAAAAGTATATTGTTAAATAATGAAATATACTACCAAATAATACAAAAATATGCCAAACGGTATGATGATATTTAAATAATCTAAATGCAAAAAATATAGTGCCTAATGTATAAAAAATACCGCCAATTGTTAAAAAAATAAAACCATTTATAGATAAAACAGGAAGTAAAGGTTTTATAGAAAAAACTATCATCCACCCCATAATTATATATATTATAGTAGCAAATCCTACATATTTATGTACCCAAATACTTTTAAATATTGTTCCAATTAAAACAAAAATCCACTGAATAATAAAAATTGTCCAACCAATTTTATTGTTTAATAAAATTAAACAAAACGGAGTATAGCTTCCGGCGATAAGAAAATATATAGAAATATGGTCAAATTTTTCAAATATTTTTTTTGATTTTCCTTTTGGAAATGCATGATATATAGAAGACATAGTATACAGATTTATCAAACTAAGGCCAAAAATAATATAACTAACTGTGTGAAGAGTGTCTTTGATTATATAAGCTTTTATCATTAGAAAAATAAAACCAACAACAGAAATTATTGCTCCAATTGCATGTGTTATTGAATGAGAAATTTCTTCTTCTTTTGAAAAATTATTTATTATTTTCATATTTTATAACCACCTTTTTAATTAAGAGTTCTATTGCAATATCGTCTTTTATTAAACCATTTTTTATATTTGCCTCAGTTATCAAAATTTCTTTTAAAATTTCTTTAATGCTGCTTATAGTATATTTATTAATATATTTTAATTTTTTAAATACAGAATATGGATGTGTATTATTAAAAAGATATTTATTATTTTCATAACTATTTTTAAATTTATTATAATTATTAGTATTAATTATTTTGCCTTCATTGATTAATAGAGTTAATTTTAAAATGTTTTGAAATTCTTTTGTTAGAGTATAGAGAATAAGCATATGTGATTTGTCTTTATTAATCATTTTATATACTTCATTAGGATTTCCAAGTAAAAGATTTTCAATAGCTTCAAAACTATTATATTCTTCATTTATTGAGATTATATTTTTAGCTTTTTCAATATAAAATTCTTCTTCATAAAAATAATTTTTTATTTTTTCAATTTCATTTTTTATTTTATAAATGTCATGACCTATCATTTCTGTAAGTTTAAAAGCGTCATTTGTACTTATCTTTAATTCATTTTTTATATAATTAATATAAAAATCTTTTTCATTTTTAGTTTCTCCAATTATCACTTTTGCAAATGATTCACATTCTTTTATTTGCTTTGCAGTAAGTTTTTTATTTATTAAAATTATTACTATTTTATTTAAAATATTAAAATTTGAAATGGTTTTTATAAAATTAGACAATTTTGAAAGTTTTTCAGCTCTTTTTAATATAATAGTTTCATTATTTCCAAACATGTTGTTTGTAGATATTTTTTGCAAAAAATTTTCAAAATCTTCTTTTTGGGTAGCATCAAAAGTGATAATAGGATAATTGTTTTTTTTAATTAATTTATTGTATTCTAATTCAATAGAATAATCACCAGTTAAAATGTAAAACATTTTACTCCTTCCAAAATTATATTTAAAATCTTAAGTTTTTAAAATACTTCATCCCATATATATTTTGGTTCCATACCAAGATATATATCAAAATTACCATATTTTTTTATTTGAGAGATGATCTCTTTATAACTATCAATTCTTATTTTTTTAAAATATCGTTCTTTACCATCTATTCCGATAATAAATTCATTATAAAATAAATCTGTGTTTTTCTCAGCAAGGACTTTTTGACGAAGACCTTTTTTATATCTTAAAGTTCCAATCCCTATATCTTTAATCCTAGTAGTATTAAGATTATTAAAAATATAATCAATCATTTTAGTATATTCATTAGTTCTATTTTTAATATTAATTATTGGATCAAATCGAAGTCCTATATTATATCCATGAGATTGCAGTTTTTTTGCTGCCTCTACTCTTTCTTTTAAATTATTTGTTTTTAATTCATATTTATCAATTATAGTATCTGGACTAAACGTAAATGAAATTAAAATATTTTCTTTAGCAGGATATTTTAATAAATTATTTATATTATTGCTTTTAGTTCGTATTTCAAGTATTAAATCTTTACGTTTTGAAAAATATTTTATTAAATCACTTGTAATATTTGTAAGATTATCCATAACAAGAGAATCATTCATTATACCACAGCTTATCATTATATTTTTCTTTTTAAAATTATCAAGTTCATAAAACATATCTGTTATATTTACATAAAATACAAATGCACCATGATTAAAATAATCTCTTAAATAGCAATACAAGCAATTAAAAGGGCAATTATTTTCATATGACAAATAATATTCTTCTTTTATTCCTTCTAATTGTTTATCAAGATAATATTTTTTTAAAAATTTTCCTTTTTTTACTGTAAATAAAGAGTATTTTTTTTCTTCTTCATAGGTTAAATTTTTCTTTTTAATTATATTAATAAATTCTTCTTCTGATGATACAATATTATAATTTTTTATTTTTTCTAGTATTTTAAGTCCTTTTTCATAATTTTTAATATCTTTAGTAATATATATTTTCTTCATTTTGTTCCTTTCTTAAATTTTTAAATCTTTATTTTTTTATTTATAGAACTTTAATTTTTAAATTTACAATTTTATTTGAAATAAAAGAATAATTGTATAAATATTAGTTTACATAAGTATAATTTTTATATAAAAAAATAGATATACATATGAAATTATTTTTTGTTTTATAAAATTATATATGCTTTTCATGTAATTCTTTAAGTATTTCTTTTATTGTATAATTTTCATTATCAAGTTGTAGTTCAAGAGCATGCTTAATAATATTTTTTATTTTTTTACTTTCAGTATAACCATTTTTTAATAATATTTTTCCATTTATAATAGGGACTATATTTTGCAATTGATTTAAATAGAGATTAATTTTATTTTCTATTTCAGGATAAGAATATTTTATTAAATAAATTATCTCAAGTGGAATATTATTTAATAAAAAATATATTTTAGAGTTTTTATTTGCAGTTTTCAATTTTTCAACAATAATTTTTCTTTCATTAATTCCAATCGATATTTTACGTATAAATTTATTTTTGAATCCAAATCTATGAAAAATAGTTTTTAAATCTTCACTATTAAGTCTTCTAAATAAAGTTATTAATAAAATTTGCCATGGTTTAACATTATTTTTAATAATTTCATCCTTATTTTCGAGTACTTTTTTAAAAATATTATATGTTGAAGGAGTAATAATTATATTTAAATTAAACTTTTCAAAAATATTAAATTTTTCAAATAAATTAAGCGCCTTATGAGGATTTTTATCTTTTAATATTTTAATAATCTCATTTTTTAACCTATCAAAACTGATTTTATTTAAAAATCCATCATTTACAGCTTGAATTAAAAATTTTTCAGTATCACTTTCTATATCAAAATTATATCTTGAAGCAAATCTAATAGCTCTTATTATTCTAGTAGGGTCTTCAATAAAGCTTAAATTATGTAAAATTTTTATTTTTTTATTAATTAAATCATAGTATCCATTATAATAATCAATAAGTTTTCCAAAATTATTATAATCTATTTCAAGAGCCATAGCATTTATAGTAAAATCTCTTCGATAAAGATCTTTATCAATACTGCTATAAGATACAGTAGGGAGCGATGTAGGATATTCGTAATATTCTAGCCTACTACTAGCTAGGTCTATATTTAAACCAGTTTCTAAAAAAATAATAGCAGTTTTAAATTTTTCATGAGTAATTATTTTTTTTATATTCAAAAAGACATTTAATTCTTTTGCAAATGCTATTGCATCTCCTTCAATAACAATATCTATATCAAGATTTTTAATATTTAATATTAGATCGCGTACAATTCCGCCAACTAAATATGCTTTTTCATTTCTATGCTTTGAAACTTTTTCAATAATATTAAAAATATCTATTATTTCTTTTGGAAATTTATTTAAAAGATTAATATTAATTATTTTAGGATTTTTCTCAACAGGCTTTTTTAAAATGAATTTTTGTTCATATAAATTTCTTAAAATGTCAGTTCGTGTAACTATTCCAATAAGTTTATTGTTTTCAACAATAGGAACTCTTCCAATTTCGTTTTCAATAATAATTTTTTTTAAATCTTCAATAGAAGTATTAGGAGTAGATATAATAATATTTGAAGTCATATAAGCTTTAACAGGGGCATTTGAAAAGCCGTGATGTATAGCTTTATCAATATCTCTACGGGAAATTATTCCAATTGGCGTATCATCTTTAATAACAGGAATGCCACTATAACCAAAATATATCATGATTTTATGTACATCTTTTATTTTTGCATCAGGTTTTACGTATTTAACAGGAGTACTCATTATATATTTAGCAGTTTTATTTTGAGGAATAAAATTAGAAATTTCATTTTTTAAATCAAGAAAAATTTCATTAATATTAACATTTCTTAAAAATCCAGAAGCAGCCTCGGAGTGACCACCACCATTAAATTTTTTTAAAATTTCATCTAATTTGATTGATTTTGATGTACTTCTAGCTATTATTGAAATATTGTTGTCATATGAATATAGTAAAAAACAAGCATCACAATCTTTTATATCCATTATTTTATTAGCGATAACATCGAGATTTTTATGAAATTTATTTCCAATAATTTTTGTAATAAAAATTTTATGTGAGTAATGATCTATAGTTTCTCCAGAATTTAAAAAATTTAAAAATAATTCAAATTCGTTTGTTTGAAGGTTTTTATTAACAAACTCTAAGACCATATCCAGATTTGCACCAAATTTTAATAATTTCGAAGCAAAATACATATCTTCGTAAGTGGTATTTTTAAAAGTAAAATTTCCAGTGTCTTCATATATTCCCATAAGTGCAATGGTTGCTTCATAATTGTTTAGTTTTATATTTTTTTTAAAAATATATTTTAAAATATTTGATGAATTAGAGCCTATAATATTTTTGAAAATTTTACCTTTTTTAATATCATTATTATTGGCGGAATGATGATCATAGATTATTATCTCTACATTTTTTTTATATATAATATTTTTAAAATTACCTATTCTATTTATATTTGAAGTATCTACTATTATTAATTTTGTAATTTCATTTAAATCAATATCTTTTATTTTTTCAATATTTAATATATCTTGATATAAATTAGCGATTTCTTTTACGTTTTTTGAAACATTTCCAGAAAATATAAGTTTTGCATTTGGATAAAGTTTTTTAGCTAAAATCATTGAGGCAAAACCGTCTAAATCAAGATGAATATGACTTGTAATTATTTCCATGAGTTACTCCTTGTATTTTTCAATAAAAACTTTGATTATATGCGCAGTTATTCCCCATATAGCACCGTGACTACTTTCATAAAGATATATATTTTTATGCACTTTTTTCCAAGGTTTATGATAAAATTTTGGTAATTTTAATTTAATACTCGGTAAAAGCCACACTTTTTTTCCATATTTTTTTATATAAGGTGAATGCCATGTTTGGATAGAATATTCTTTCATATTATTTTTTTTAAAAAAATTTGTTTCAACTAAAAATAGATATTCAACTTCTTCTTTTTGATGATTCAATTCATTAATAGATTTTATGTCTAAGTTAGCAGTAAAACATTCTATATAGAGTTTTGAATCGATAAAAGTACCAAAATATTCTATATTTTTTATTTTTTCTTTTTTAATGCCAGTTTCTTCAATAGTTTCTCTTATTGCAGTATCTTTAAAATTTTTATCTAAAATTTTATCATATTGACCACCAGGAAATGATATTTCACTTCCTTGTCGAATATTCTTAGCTCTTTTTTGGAATAAAAAATATTTTTTATTATTAATTGTAACAATAGGAATAAGGATTGCAGCTTTAAAATATTCTTCAAATCCAATTATATTCATATAATCTCCTTTAATATATTTAAAACAAGTTCAATGTTTAATTCAGAAGATGAGAAATTAATTCTGTTATTATTTCCACCGCCTTTAATGTTATATTTAGATTTTATTACATCAAATAAAGATTTACAATTAAAGTTATCAGAAAATATAGTGAAGTTATTATTTTCAGATGAAATTAAAATATAATTATTTAAAATATATTTTTTTAAAAATGGATTAATATTATTTATAGCCTTATTAATAATAATTAATTGATAGTCATTAAAAAATATTTTTTTACTTAATTCGTGAGATAATTTTAACTCTATAATTTCATTTTTTAAATTATTATTTTCATTTTTTAAAGATTTAATATTATTTTTTAGATCGATAATTTTTTCATTTATTTCAAATGATTGACTACTTAACTGATTGTTAGCAAATTTTATAATATTTATTAAGTTATTAAAATATTTAAAAGCCCTATCGCCAGCTAAAAAATACACTCTTGTTTTTCCACCTTTTACTTTTTCAAAATTTATTATTTTGAAAATTTTTATTTCGCTTGTATTATTTACATGATATCCACCACAAGGAACAATATCATAATCTCCAATTTTTATTAATCTAATATTATCAGTTATAGCAACTTTTAATTTGGTTCGAGTATTATAATTTTTTAAATCATTAATATTGGTAAAAATTTCAGTTATTTCTAAATTTTTTGATATAATCTTATTTACTTTATTTTCTAAAATATCTAATTCATCTTGTTTTAGAGTTTTAGGTATATCAAGGTATGAATAATCTTCGTTCATAGTTACACTATCTATATATAGATTTAATTCTTTTAAAACAGTAGCGGCAAAAAGATGTTCTGCACTGTGTTGAATAGAGATATCTTTTTTCCAATTGATATCTTCAATAAATTCATATTCTCCAGGATTTAAAAATTTATCGATTAAAATATAATTTTTTGTTACTGATACAATGTTAGCATCAGCAATTTTTCCTCTATCTCCTAATTGTCCACCTTTACCATCTGGATATAAATGATTATTTTTAACTTTTATTTTATAAAAATTATTATCTTGATTTATATTTATAATATTTATTTTCATATAAATTACCTCCATTTTTTAATTTTCTTTGTAATATAATAACATTTTCATATATATTTTGTATAGAATATTTTCAATAAGCTTTCTTGCAAGGTGATAAAAAATAATGTATAATATGAGAGATTTTAAAGGAGTGATGAAAGATGTATAAAAAAAAAATTAATAAAATAAAATCTTCTATGACCCCATCTGAAATACTCATATTATCTTTTATAATAATAATAACAATTGGGACGATACTTCTTAGTTTACCAGTTGCAAAATTAGATAAATCAGCTGGAGTATTTACCGCTCTTTTTACTGCTACTTCAGCAGTATCGGTTACAGGATTGTCTGTAGTAGATATAAGTAAAACATATTCATATTTTGGGAAAACAGTTATACTTATACTTATTCAATTAGGTGGATTAGGAATAATGACTTTTTCATCAATATTAGCTTTATTAATAGGTAGAAAAATAAGTTATGAAGAGAAAAAAATATTGAAAGAAGATTTAAATCAAGAAGCACTTGGCGGAATAATTAGATTTGTAAGAAAAATCATTTATATTGTTCTTTCAATAGAAACTATAGGAGCAATTTTTTTATTTTTATCTTTTATAAAAATTATGCCTTTAAAAAAAGCTATATATTTTTCAATATTTCATTCAGTATCTGCATTTTGTAATGCAGGCTTTTCATTATTTAGCACAGGTTTAGAGGGGTTTTATGGAGATATAAATATAAATTTGGTTATATCGTTTTTAATAATTTTAGGTGGAATAGGGTTTGCTGTAATTGATTCATTGATACAGTATATAAGAACAAAAAAAGCAAAATTTAATTTAACTTCAAAATTAGCGTTAATAATTACAGGGATTTTAATTATAGTTGGATCTATTACTTTTTTTATTTTTGAAAGAAAAAATAATCTTACAATTGGAAATATGAGTTTATTTAATAAAATAATAGCATCATTTTTTCAAAGTGTAACAACGAGAACAGCAGGATTTAATACAGTATCTATGTCAAATTTAAAACCAGCAACAATTTTTATGATGCTTATATTTATGATGATAGGAGCTTCACCTGGTTCTACAGGTGGAGGAATAAAAACTACAACTTTTGGAGTTTTAGTTTTTTATATAATAGGCATAGTGAAAGGGCAAAAAGATATAAATATTTCTAATAGAAGAATATCATGGGAAATATTAAATAGAGCACTTGTAATATTTGCAATATCAATTATATATGTATTATTTATAATTTTTTTAATATTAATGATAGAAGAAAAAGATTTTATGAAAATCATTTTTGAAGTTGTTTCAGCGTTTGGTACAGTAGGATTATCTATGGGGATAACAGCTGATCTATCATTAGCTTCTAAGATACTTATAATAATAACTATGCTTATTGGTAGAGTAGGACCTCTTACATTTGCATTAGCATTGGGAGAAAGAGCAAAAAGAATAAGTTATAGATATCCTAAAGAAAATATTTTAGTAGGATAATATATGGGAGGAATAATGAAACAATATTTAGTAGTAGGATTAGGAAGATTTGGAAGTAGTATAGCTGAAACTTTATATAAAGCAGATGAAAGTGTTTTAGCACTTGATATAGACGAAGAAATAATTCAAGAGGCAATAAATAATGATATTGTAGATAATGCAGTTGAAATAGATGCAACTGATGAAAAAAGTCTTCAAGATTTGGGTATAAATAATTTTGATGTAGCTTTTGTTTGTGTAGGAACAAATATACAAGCTAGTATACTTATAACCCTTACATTAAAAGAAATGGGAATAAAAAGAGTTATATGTAAAGCGGTAACAAAAGCTCACGGAAAAGTTTTAAAAAAAATAGGAGCAGATGAAGTTGTTTTTCCTGAAATTTATATGGGGAAAAGAGTTGCTTTAGCAGAGATGGAAACTAATATAATAGAACATATGAAATTTTCCGAAGAATTTTTAATTATAGAAATAAAAGCACCAGCTAGTTTTGTAAATAGAAGTTTAATAGAACTTGATTTAAGAAAAGATTATAATGCAAATATTATAGCAATTAGAAGAGAGAGAGGAGATGCGGTTCTTAGTCCAAATGCAACAACTAAAATATTTGAAGGTGATACATTAATTGTTGCAACAGATGGTAGAACAGCTAAAAAATTGGAAGAATTAAAATAATAGAGTTAAAACAAATAATAGGAGGAAAAATGTTTAATGAAAATTTTGATGTAATTGTAGTTGGCGCTGGACATGCAGGTTGTGAAGCAGCTTTAGCAGCAGCAAGAATGGGAATGAAAACAGCTATGTTTACAATTACACTTGATAATATAGGAATAATGTCATGTAATCCATCAATTGGAGGACCTGCTAAAAGTCATTTAGTTAAAGAAATAGATGCACTTGGTGGAGAAATGGGGAGAAATTCTGATAAAACTTTTGTTCAAATAAGAGTTTTAAATACAAGAAAAGGACCAGCGGTTAGATCACTAAGAGTGCAAAGTGATAAAAAAGCTTATCATAAAGAAATGAAAAAAACTATTGAAAATACAGAAAATTTATCAGCAATACAAGGGATTGTAACAGAACTTATTGTAGAAAATAATGAAGTAAAAGGTGTAAAAACTAAAGAGGGACTTACATATTATGCAAAAGCGGTAGTACTTGCAACGGGGACATTTTTAAGAGGTCTTATACATATTGGTGAGAATAAATTTAAAGGTGGAAGAATGGGAGAATTATCTGCAGAAGAATTATCGAGTTCTTTGGAAAAATGTAACTTGAAATTAGGTAGATTTAAGACTGGAACGCCTCCGAGAGTAGATGCAAGAACTATTCATTTTGATAAAATAGAAGAACAGCCAGGAGATATTAATCAAGGATTAAAATTTTCTAGAAAAACAACAATAGAAGAAGCTAATTCGAGGAAACAAATTCCTTGTCATATAACATATACAAATACAGAAGTTCATGATATTATACTAAATAATAAGCATAGATCTCCTATGTTTAATGGAACTATAGAAGGAGTAGGGCCTAGATATTGTCCATCAATAGAAGATAAAGTATTTAGATATCAGGATAAAGAAAGACACCATCTATTTTTAGAAAGAGAAGGCTATGATACAAATGAAATATATGTAAGCGGATTTTCTTCTAGTTTACCAGCAGATCTACAATATGAGATGTTAAATAAATTACCAGGACTAGAAGATGCTAAAATAATGAGATATGCTTATGCAATAGAATATGATTATGTTGATCCAGAAGAATTGAAGTATTCTTTAGAAACTAAAAAAATTAGTGGATTATTTTTAGCCGGACAAATAAATGGAACTTCTGGATATGAAGAAGCAGCAGCACAAGGCCTTATAGCGGGAATTAATGCTGTTCAAAAAATAAAAGGGGAAGAACCAGTTATTTTAGACAGAGCAGATTCGTATATTGGTACATTAATAGATGATTTAGTAACAAAAGGAACAAATGAACCTTATAGAATGTTTACGGCGCGTTCTGAATATAGACTTTATTTAAGAGAAGATAATGCTGATTTGAGACTTTCTCATATTGGATATAAAGTTGGGCTTTTATCCGATGAAGAATACAAACTTATAGAAACTAAAAGAAAAAATATAGAAAAAATAAGAGTTCAATTAAAATCAAATGTAGTAGGAAGTTCAAATAGAAGAGTGGTTGAAATACTAGAAAAAAATGGTGAAAAGCCTTTAAAAAGTGGAATTAAATTAGATGAGTTTTTAAAAAGACCAGGTATAAAATATAGTGATGTTGAATATGTAGCGGAAGTTATGGATGTTGAATTTGATTTTTCGGATTTTGATGAAGAAACAAAATATCAAGTAGAAGTTCAGACAAAATATGAAGGGTATATAAAAAAACAACTTAAAATGATAGAAAAACATAAGCAACTTGAAAATAAATTAATACCAAAAGATTTTGATTACGATAATATAAAAGGAATAACATTAGAAGCAAAACAAAAATTAAAGCAAAAAAGACCTTTGAATATTGGACAAGCTTCTAGAATATCAGGAATAACGCCAGCAGATATATCAGTATTATTAATGTATATTAAATAATCAATACTATTTAAGATAAAAAATACTTTAAATTAGAGGAGAAATATGAGAGAATATCTAATAAAAGGAATAGAAAAAATTGGAGTAGATATTTCAAAAGAAAGTATTGAGAAATTATTGAAATATTTTCAAATTTTAAAAGAATACAATTCACATACTAATCTTACTGCAATAAGAGATGATAAAGGAATAATAGAAAAGCATTTTTTAGATTCTCTATTAGTCCAAAAAAACATATTAAAATATATAAAAGGGAATGAAAAAGCAATAGATATAGGTACGGGTGCCGGTTTTCCCGGCATGGTACTTGCTATTGTCAATACAAATATTCAATTTACCTTATTAGATTCTGTTGGGAAAAAAACAAAATTTTTAGAGATTACAAAAAAAGAACTTTCTTTAGAAAATGTGGAGATTATAAATGATAGAGCCGAAAATTATATTAATGGAAATAGAGAAAAATATGATTTTGGATTTTGCAGAGGAGTATCAAAATTGAATGTTATATTAGAATATGAGATTCCGTTTTTAAAAGTTAACGGGAGGTTTTTTCCTCAAAAATTAGAATATGAAGAAGAATTAAAAGAAGCTGAAAATGCTTTAAAAGTTTTAAATTCGGAATATATTGAAGTGTATAATGAAAAATTACCTTATTCAAATGATAAAAGAGTAATATTAAATATTTTGAAAAAAAGTAAAAATGATGAAAAATATCCAAGGAAAAATGGAAGACCATTAAAAAAACCGTTATGATTAAGGAGAATGTATTATGAGTAATACTACTGATATTAAAAAGGTAATAGATAAACTAGATGATTTACCTACGCTACCAATAATAATACAACAAATATTAGCGTTATTAGATAATCCAAATAGTACGGCAAAAGATATAAATGAAGTTATAAGAAGTGATCAATCTTTAACTATCCAAACATTGAAATTAGTTAATTCTTCGTATTATGGATTTCCTAGAAAAATAGGAACAGTAACAGAAGCTATAGTTGTATTAGGGTTTGATACAGTTAGAAGTCTAGTTTTAAGTGCTAGTGTTTGTAAAATGTATGAAGGTGGAAGTGGACCATTTAATAGAGAAAATTTATGGGTACACACCTTAGCAGTTGCATTTGCTGCAAGGATTATTTCTAAAACTATAAAATATCCTCAAGAAGAGATAGCTTTTGTATCAGGGCTACTTCATGACATAGCAAAAGTATTCGAAGATCAGCTTTTTCATGATGAATTTATAGAGGCACTTACAAAAGCTAAAAAGGAAAATAGAAATTTACATGAAGTAGAACAAGAGATATTGGGTTATGACCATACAAAAATTGGAAAAAGACTTTCTAATAAATGGAATTTACCCAAAAGTATAACTACAGTAATAGCATATCATCACACTCCAGAGCTTGCAATTAATACTGAAGATGGAATATTGCCATGTATAGTAAGTGTTGCAGATGCACTTGTAAGACTTAGAAAGATTGGAGATAGCGGGAATAATGCAAAACCAAGCTTAAGTAAAAAAATTTTGGATGCTTTGAAATTAAAAAAAGAAGATTTACCAGTAATTATTAGAAAGTTAGAAGCTGAATTAGAAAAAGCAGAAACATTTTTAGAGCTTAATAAATCCTAAGTGTTAAGGAGAAAAATATGTTAAAGAAAGTTTTTTTATCTATAGTATTTATTATTTTAAATATAAATGTTTTTTCTTATAATTACAAAATTATAGGAGATCCATATGTTTCTAAAAAAGGAAATATAGGACTTGCAAATGTAATTAATAATTATAATGATAATTTATTTATATCGGACTATATGTTAGGTAAAATTGCTATGTTTGATAAAAATGGTAAACTAGAAAAAGAATACAAAAACATTAAGAAACCTATTTTTTTTACTGTTGATAAAAATTACATTTACGTGAGTGAAAGTAGCAATAATGAAATAATAAAAATTGATATTAAAACGGGAGATAAAAAAACTTTTTTAAAAACTGGAATGATGGAAAAAGAGGTTTTACACCCAGGAGAATTATTAGTAAATGATAATAAATTATATGTATTAGATGAATATAATTATAGAGTACAAATAGTTAATAAAGAGACAGGTGACTATATAGGACAGATTTTACTTGAGAAATTTAGATATGATTATAAGCCTTATTCGTTTTTAAATTATTCAATGATAATTATAGACAATAAATTATATGTATTAAATAATTATAGTAAAAAAATATATGTTTATAATATGAATTATAAACAAGTTAATGAAATTAATCTTGAAAATATGAAAAACCCAGTTAAATTATATAAATTAAATGATAAATTATATATTTATGATGCTACTGAAAATATTTTAGTAGATGTGGATAATAATATAATAAAATTAAATATAGAAACAAAATATAACTTATCTGGAATAAATCATTTTGATACAAAAGAAAAATTCATTTATATATTAAATCATAATAATGTTTATAAATTTGATATAGAAAACAACAGTTTAGAACTCTTATTTAAGCTATTAAACATAAGAGAAAATGAATACATAAAACCTATAGATATAGATGTAGATAATGAAAAGAATCTTTATATTTTAGATGGAGAACTTGAAAAGATATTAGTCTATAATAAATATAAAGAATTAATAAATGTAATAAAAAATATAGGTGAAAAGCCTCAAAGTATTTGTGTAGATAAAAACAGTAATATAGTTATTACATTTCCTTTTGAAAATAAAATCAGAAAAATTTCTCAAACAGGGAAATTAATAGCAGAATATGGAAATTATAATATATTTAAAACAAATGAAATGTATTATTATGAAAAAGAGATACAAGAAAGTTATGATCCTAAAAAAATAGATAAAAATATTTACAATCTAATAGTAGACTTGGATGAAATGGGGAATTATTATTTAGCAAATAGTAAATTGATGAATATTACTGTATTAAATCCTTTTTTTGAAAAAATTAAGGAGTATGGACAAAAAGCTAGTATAATTTCTGTTTTTAGAAATAAAAAAGAAAAAAATAGTTTTGGATGGGATGAAAAAAATAAAAATAATTTAACTGATATATTTGTTAATGAAGATACAGTATATGTACTAGATAAATATTATAAAAGAATAGATATGATAAAAAATAATAAAATAGAAAAAAGCTTTGAAGATGATTTTTCTGAAGAAGGATTGAATTCAATTTATGTTGATAAAGAATATATTTATGTTGTAGATTCATATAATTTTAGAATAAGAAAATATAATAAAGAATTTAAATTAATAGAAGATTTAAGTTTTTTAAAAGAAGGATTAATACCTTTAAAAATAAATGAAAGATATGTAATATTTAAAAAATATATTGAGGATTTTAATGCACAATATATAGTACTTGATATTCAAAGCGCATTAGACAAATAAATGATGTTGGTGAAATTTGATGAATAAATTTATAAAAAAACATATTAAATTTTTTGATTTTTTAGGAATAGTTGCATTAATAGTTATATTTGTTTTTTTATTTATGTTTATAAGAACGAATTTCACACAATTAGTGAAATTAGGTTTTAAACAGGGGCTTGGATATAATATTGATTTTGAAAATGTATCATTTAGAAATTATAACGAAATTTTTTTCAAAGATCTAAGATTATATGATAAAGAAAATAATGAATTAATAGTTGAGGATAAAGAGGTTCATTTATATATTGATTATAAAAGTTTTTTTAATTCTCCAATAAAAAAAATTTATTTTAAAGAGCCAAAATTATATATAAAAATAAAAAATAAAAAGGAGTTAAATATTCTTGATGCAATTTTAGTCTCAAGTAAGAAAAAGGTTAAAAATAGTTTAATTCAAAAAATAACAATAGAAAATGCAAATATTGAATTGAAAGATTATTCATATAAAACGCTAATAAAAAAAGATATAGTAGCAGTTAACGGAGATATAAAATTTTATTCTTTAAATAAATTTGTTGTTGAATTAAAAGGGTATACAAAAGAAAAAAAAGATGCATTTTTTGGTTATAAATTTATAAAAAATAAAGATAAAATTAAAAATATTTTTGAATTAAAAAATTTTAAATTAGAAAAAGAGTTTATTCAATATGGACTATTAGATGAATATATAACAGCTAATAGTGGAAGCTTTGATATGAAGTTAGAAATAACAAATAATAACGATCTTTATGGGAACTTAATATTAGATAGCGATAAAATAAATTATATTGGGAACTCTCAAAATTTAGAAATTAACAATGTTAAAAGTGAAGTGTTTTTTTTAGGTCAAGATATAAAAGGATATATTAATGGTAAAATAAAAGATAATGAACTAGAATTTTTAATTAATAAAGAAGATAAGAACTCACAAATAAAAATTATTTCAAAAAATTTAAATATAAACGATATCATAGAAGAAATAAAGTTTAAGAATAAAGATATGTTAAAAGATGTAGAAGGAATATTATCATATGTAAGTTTAGATCTCAACTTTAATGGTAATAATTTAAAAAAAACTAATCTTTATATGCGAAGCAAAAGAATAAATTACTTAGAAAATAGTGCAGAAAATATAAAGGGAACAATATTTTATAATAATGGAATTTTTGGGATAAAAGATTTAACAACAACTTTAGAGTTGATTCAAAATAATATAAAAAGTAAATTTGATATTAAATTAAATAGTGATTATATATCAAACGAATTAATAAGGACAAATTATTATATAAATAAAATTGATTCTAAATTAGATTTTGAAAATTTATATGGAGAAATTAATTATGATATAAAAAATAAGCAAATAAATATAAATAATAATACAAAAAATTTTAAATTTAAGTTTTTAATAAATGAAAATAAATTTTTATTAAATTTAAATAGTGCAGGTTATAAGATAAATTTTTTAAATAATATTGTATTTGATTTAAAAGGAAATCTTTTTTTAGATTTTAATTATAAAAAACGCCAAATTAATAAACTAACATCAGATATGATAATAAAAAATAATTTATATTTTGATAATCTAGAAATAAAAATAAGAGAGAGTGAAAAATTAAAAAAATACAATATAGAAACATTAAATATAATAAAAAATAACAGTTTTGTTAAGATTAATGGATTTTTTATAAATGATAGATATACTCTTTATATAAAAGATTCAAAATTAAATGCAAAAGATATATATTTTTTAAAAAAATATCCTAAATTAAAATTCAATTCAATAATTAGAGGAAAAATAGAGGGTGATTTTTATAAATTACAATTTAATGGTGATTTTTTTGGTGATGGTGAATATATTGCAAAGCTAAATAATATAAAAACAAAATTCAAATTAGAATATAGTAATAAATTAAAAATTAAAACTAAGTCATCTTTAAGTTTTTTTAATTATGATAATATTAGTTTAAAAGAATTAAAAGTTGAATTAGATTATAGAGATAATAAATTATATATAAATAATATAGAAAATAGATATTTAAAATTAAAAGGTATTTATGATTTAATAGAGGATAATATAAATATAGAATATCGAGTAAATAATTATTTATTAGATAATATAAAAGAATTAACAAAGCTTGATATAATTGGAAAAAGTATAAATTTTTCAGGGAAAGTTAAAGTTAAAAATAAACTTGATTTTAAATTAAAAATAGAAGAGACACAATTATTGTATTTAAATAGTTATAATATTTTATTAAATGGAGAAGTTGAATTAAAAAATAATATTTTATCGTTCAATGATATTTCTATTAATAAAAATAAAATTAATGGTAAAATAAATTTAGCTACACAAAATATAGATATTAATATAAATATATACGAAGATAATATTAATACAATATTAAAAAATGATAATTTAAAAGCAAAAATAATAGGGGAAAGCTATGTAATAGGAGATTTCAATAAAATAAAAATAATAAATAAATTAAATTTTAAAAATATGTATTATAAAGGATATAAACTACCAAATGTATCAACTGAATTTAGTTATTCAGCTAAAAAAAATAAAAAATATATTGGGAATATAGATTTTAGTAAGCTACAAATTATTCAAAATAATTATTCTATACTAAATTTATTTGGAAATATAAATTTTGATACAGGAAATGTGAATATAAATTCAAATAAAAATAATATAGAATTTGAAAAAATAAACAATATATTTATGGAAAGTCAAATAAAAGGGCGATTAGGAACAGAATTCAAATTAAAAGGAAATATTTATAAAGAATTTGATTATAGATTGAGACTTGAAAGTAAAAAACTTGAATATAAAAAGATTAATTTTGATAATATATTGATAGATATGACAGGAGATAATGAAAAAGTTGTTTTAAATAAAGCTTTAATAAGATATAATGATAATATATTAAGTGGAGTTGGAAGTTATAATTATAATAATTCAAAATATGAATTTAATTTAGACGGAAATGATATAGACATAAGTTTTTTAAATATTTTAAATATACCAAATCTAAAAGCTATTGGAGGAATAGCGGATATATCATTAAAGTTTAAAAATAAAAATCAAATTGGAAGTTTAAATATAAAAGATTTTTTTGCAAAAGATAAATATGGATTAATAGATTTGAAAAATGTTACCATAGAAAGCGAATTTAAAGAGAATAAAATTTTTATAAAAACTATAAAAGGGTTATTAAATAGTGGAGAAATATTTGTTAATGGAGAAATAGATTTTCCGATAATTACTTTAAATAACAATAAATATGAAATAAAATTTAATAAATATAACTTATCTTATATATTAGAAAAAATATCAGTATATGATAAAAAAAGATTTAATTTGATTATAGATTTATCAGGAAATGTAAATGAAAGTAAAATAAATTCAACGCTAAATATTTTAGCTGGAAATATATATAATTTAAGTTTTTCAGATAAAAAAGTAACATTATCAGAAGCAAAACTAGAAAAATTTTTAAGTTTAATAGATGTAGAAATAGCAATAAACATAAAAAATAGTATAACAGCTAATATAGAAAAAATTTCTGTTATAAATGATATAGAAGCTGATTTAGATGGAGGGGGAATATTAAGAATAACAAATGGAAACATTAATTTTATTGGGACGATAACTAGTGAAAATGGAGCCGTAACCTTTAATGATAATATATTTAAGCTTACAGATGCAATAATAGTTTTTGATAATCCAAATAGTTATTTACCTAATATTAATCCTAGTATCACTATAAATGCAGAAACGAGTGTATCAACAGAGAATATTTATGTATCACTAAATGGAAGGTATAATGATTTAAAAGTAAATATGACGTCTAGTTCTGGATTAAATGAGATAGAAATAACATCGCTTTTATTGTTTAAAACGACTTTATCTGATTCAAATGCAAGCGAAGTTGTAAAAGATATTTTAAATAGACAATTTGAAGGTCAGTTATTTAATCCTTTATCTAATGAATTAGAAAGAATATTTAATATAAATAAAATAAAAATAAGCTCTCCTGTTTTTTCAAAAAATGAAGAAAATGGAAACTATAAATTTACAAATGATATTATATTAGGCGCTAATATAGAACTTAGTAATCCAATATATAAAGATATATTATCATGGAATTTATATACAGAATTTTCCCAGTATGAAAGTGGAAAAATAAATGATTATGATTTATGGTTAAATTATAAATTTAATGATAATGTTTCATGGAAAACAGGAATAAAAAAACGAACTCCTGGTTCGTTAGAAGATGATAGGATTAGTTCACATATTGATTTAGATTTCAAGTACAAAGTTGATTCTTTTTTTACATTTATTAATTTTTTAAAAAAAAGCAACTAAGATGGAGGCAAAAAAGTGATTAAGAAGAGTTTTATATTTTTAATATTTATTTTAAGTATTACAATAAGTTATGCAACACAAGTTAAAATAGGTAAAATTTTTGTAAAAAACAATGAAGAAGTCCCAATAGAAGTAATTCTAAATAAAATGAGCTTAAAAGAAGGACAAATATTTACAACAGAAGAAATGGTAAAAGACTATGTAAAATTAAAAAAAGAGAAATATATAGAAGATTTAAAAATATTTCCACAAATTGAAAATGGAGAAATAAATGTAGTGGTTGATATTCAAGAAAATATAGATGCCGTTAGATATTTAAAAGAAGAAGGGATAGTTCCAGTATCAGAGCTAGAAAAGATTGATAAATCATTAATAATAAAAAGTATAGAAGTTTTTGGTAATATAAATATATCAAAAGAAGAAATATTAAAAAATGTACCTGTAAAAATAGGAGGATTCTTTTCTAAAACTAAAATATTAGAAGGGCAAGAGAGAATATTAAAAACAGGTTATTTTAGAGAAGTAACACCAGAAGTTTTAAAATATAAAGATGGAATATATATAAAATATAAAGTATTGGAAAATCCGGTAATAACAGGAATAAAAATTATAGGAAATACACTATTTACGCAAGATGAATTAACAAAAGATTTTATTACTAAACCTGGTGAAATCTATAATATTAATAATTTAAAAAAAGATAGAGATAGTTTATTGAAAAAATATTATGATAAAGGATATTCATTAGCAAATCTAGTTGATATGAGATTAGATGAAAATTATAATTTAACAATTCAAGTTTCTGAAGGAATTGTTAGGGGAATTCAATTTAGAAAAATTGCTAGAAAAGAAGACGGAATGAGAAGAAAAGCAAATGATATTAAATTAAGAACAAAGGATTTTGTACTGAGAAGAGAAGTAGAATTAGAAATAGGAAAACCTTTTGAAAGAGAAAAATTTGAAAAAACAGCGAGCAATTTATTTAAATTAGGATTATTTAAAAATGTTACACAAGAATTTAAAGATATAGAAGGAGATCCAGATGGAAAAATAGTTGTGTTTTTATTAGATGAAAATAAAAGTGCAACTTATACAGGATCGATTTCCTACGGGTCATCAACAGGACTTTTAGGAAGTTTAAGTTTAGAAGATAAAAATTTTAAAGGTAAAAATCAAACAGCTGCACTTAGCTATGCGCAAGGAACTAGCACAAAAACTTATAATTTGAGTTTTTCAGATCCTTGGGTAAAAGGGACAGAAAGACTTTCTTATGGATGGAGTATATATAAGAAAAATTATACAGATACAAGCAGTACAGACGCTTATTATGTAGATAAAATCGGTGGAAGTGCTAGTTTAGGAAAGGGCCTTTCTAAAAGAGTTCGTGTAAATGGAACAATAAAATATGAACAAATAGAAGAAAGCAATGAAGATGAAGAAGTACAGTCAGATTATGATATAATTACTTTAACACCATCATTTACTTATGATACAAGAAACAATATTTATGATGCAACAAAAGGTGATTATGCAAGAATCTCTTTACAATTAGGGAAAATATTAGGCTCTGAAGAATTTGCGGTAACGGAACTAGAGCTTAGAAAGTATAAATTAGCACTTTCTGAAAAAAATAGTATGGCATATAGACTTATGACAGGAATGGCTTCCTCAAATGTTAAAGAAGGATTGAAATTTAATGTTGGTGGTGGAAGTAGTTTAAGAGGATATGATTATGGTGATTTTCAAGGTGTTTATCAATTATATGGAAATATAGAGAATAGAACAAAATTAGATGATAATTTTCAATTTGTGCTTTTTTATGACTTTGGAAGAGCGTGGGAAAATGAAACATCATTTAATCAAGGATTAATTAATGGCGAATATAGTTCGGCAAGTGATTATGTAAAATTTTTACATGATATAAAACATTCTTATGGATTTGGAATAAGAATTCAAACGCCTCTTGGTCCATTAAGATTTGATTATGGATGGCCAATTGGTGATAGTGACGTAAAAGGTGGACAATTTTATTTTAATATAGGACAAATGTTCTAAAGAATAAAGAAACATAAAAAATTTACTAAAATTAAGGAGGAAAAGATGAAAAAAATAGTTTTATTAGTTATGATGGTTTTATTAGGATTAAGTGCTTTTGCACAAAATATTGGGGTAGTTAATTATCAAAAAATTCTATCTAATTATAAAGGATATAAAGATGCAGTTAATTACTTAGAACAAGAAAAATCTAGATTACAAAGTGATATAGATAAAAGAGTAGCGGAGTATAAAAAACTAGAAAGTGAAGTAAATTCTCAAAAAAAATCTACAGAAGAAGACAAACAAAAGCTTCAAAGAGAATTAAAATCTTTAAATCAATACGTAGATACAATGAAACAAGTATTATCAAAAACAGAATATGAGCAAATGAATACTGTAAAATCTGATATAAATGTTGTTATTCAAGAAGTTGCAAAAGAAAAAAAATTAGATGTGGTACTAGATAGTCAAGTAGTGATAATAGGTGGGATAGATATTAGTGATGTTGTAATAGAGAGATTAGCTAATACCGAAAAAATATCACTTGATTAATTTGGAGGAAAAATGTATTCAATAAAAAGATTGTCTGAAATGATAAATGGAGAAATTTATGGTGAAAGTGATATCACTGTAAAAAGAATAGCTCCATTTGAAAGTGCAACAAATAGAGAATTGACATTTGCAGCAGATAAAAAATATTTATCAAAGTTAGATGAAACAAGGGCAAAAGTAATAATAATTCCTAATATAAACAAAGATATATTACCTAAAGATAAAACATATATCATTGTAAATGATAGTCCTAGAATATTGATGCCAAAGATATTAGATTTTTTTAAACCAAAAATAAAAGATATAAAAGAGATGATTGAAAAGGATGCTAAAATATCTAATAGTGCTAAAATAGCCCCAAATACTTATATTGGTCACAATGTAGAAATAGGTGAAAATACTATTATTTATCCAAATGTTACTATATTGGAAGGTGTAAAAATAGGGAAAAATTGTATCATTTATCCAAACGTAACAATAAGAGAATTTTGTGAAATAGGCAATGATGTAATATTACAACCAGGGTGTGTAATTGGTTCAGATGGATTTGGATATGTAAAAGTAGATAATAAAAATACTAAAATAGATCAAATAGGAAGAGTTATTATAGAAGATAGAGTAGAAATAGGAGCAAATTCTACTATAGATAGAGGCGCAATAGGAGATACAAGAATAAAAGAAGGAACAAAATTAGATAATTTAGTGCATATAGCACATAATGTAGAAATAGGAAAAGAAAGTATAATCATTGCTCAAGTAGGAATAGCTGGAAGTACAGAAATAGGAGATAATGTTACTTTAGCTGGACAAGTTGGAGTAGTAGGGCATATTAAAATAGGAAATAATGTTGTAGCTGCAGCTAAAAGTGCTATAACTGGAAGTATTAAGGATAATTCTAAAATTTCAGGTTATCCTGCTATTGATTATGCAGAGGATTTAAAAGCAAAAGTAGCTTTTAAAAGGTTACCAGAATTATTAAAAAGAGTAAGAGTTCTAGAAAAGTTAATTAATAAATAGGAGGAATAATTTTGAAAAAATTTATTTCAATAATATTTTTGTTAATATCACTAGTAATATATGCAACGCCAGCAGTAACTGGAGTAACTGGAACAATGGATTTTCCATCAGCATATATTTTAAGAGAAAAAAATTATACAATAAGTGGAAATGTAGATAATAATCAATCAAGAAAAAATGATACTCTTTCAGCAGATGCAGTATTTGAAATAGGATATTTACCACAAATTGAAACTGGATTTAAACTTTCTACAAATAATAGTGAACTTGATCAAACATTTATTCAAAGTAATATAAAGTTTCAAATAGTAAAAGAAGAAGATAATCCAGCAATAGCAATAGGTTATGTTGAATATGATGAGTATGAAGCTATGGCTGATCAAAAAAATGAGGATGGGAAAAATCTTACAGAAGCATATGTATATTTAGTAATGTCAAAAAGATTAAAATCAGTTGAAAATAAGGTAATGGATCTGTCTTTAGGATTTAAATATGGAACTACTATAGAAAAAAAAGGAATGACTGATTATTTTTTAACATTAGAAGCTCCAATATATACAAAGGTAAAATTATTAGGAGAGTTATATACTTATGAAAAAGAAGATAATAAAAAAATAATTACAGGAAATATTGGGGGAGAATTTTTAACGAGAGATACATTAAGAACAAAAGTATTTTGGCGTTTAAGAAATAGTAGCTTTGGAGTAGCAGTAACATATATAGGACTTATAAATAAATAGGGAGCGTATGCTTCCTTTTATTTTTATAGAGAATTTATGAAAAATAATATATATTTATAAAATATAAAATAAAATGAAAGGAATAAAATGAAAAAAAAAGGAATAATAGGAACACTTTTTTTAATATTAATTAGTTTTGTAATAGTATATTCAAAATCAAATGAAGAAAAACAAAATATAATACCTAAAATATTATTAGAAAAAGAAGAAGATATAATAATCTTAAAAGGAGAAAAAGTTAAACCTGTAAATTATGTGATAAAAAATTTTTATAATAATAATTTAGATATAAGTAAAAAAAAATTAAATTTTATATCAATTATTTTACCAGAAATATTAATGGTAAAAACGGATATAGAAACTCAAAAGGAATACTTAATGAAATTAGAAAAAAAAGAAGTATTTACGGAAAAAGAGAAAATTTATATAAAAAAATTAAAAATAAAATATAGAAGTAACTCAATAAAGGAAATAATAGAAAAAATGGTTATACCGCCAATATCTATAATATTGGCACAAGGAATAACAGAAAGCGGTTGGGGAACTTCAAGATTTTTTGCAGAAGGAAATAATGTTTTTGGAGTTTGGACTTATAGAGAGGATTTACCTAGAATAAAATCGTTAAATGGTGTAAGAGGAATTAATGAAGTATATTTGAGAAAATTTAATAGTATAAAAGATAGTATTGAAAATTATTTTTATAATATTTCAGTTGGGAATGGATATAAAAATTTTAGAGAAAAGATTAATCAAAATAAAGATAAATTTGAAATAATAAAAGAATTAAAAAATTATTCTGAGGAGCGAGAAGAGTATGTAAAAAAAATTGAAAATATTATAAAATACAATGAATTAGAAAAATATGAAAAATATCAATTAATAAACTATAACTAAATCAATATAAATTGTCGATATATATAATATAATTGCTAGAGAAGAGATTTTATGATAAAATGTCTTATATTACAAGGAGAAGGTAACTTCTCTTTTTTAGTAAATTAAGGAGTAAAAATGTTTGTGTATTTAGAGGGATATTCTGAAAAAATTAAAATTCAAGTTAAAGAATTATTTAATAATAATCTTGTAGAAAAATACTTGTTTAATAAATATAAAGTGAAACACAATATATCTACGGATAAACTTTTATACGGATATGTAGATAATTTAAGAAAAAAATATTTAAAAAAAACAAAACCTTTAAATAAAGTAAAATATGATAGTAAAATAAAATTAAAAAAACAAGCACTTGGTCTTAATATATTTAATTATAAAATACATGGAAATAAAACAATTGCAACTAATGAAATAAAAATTTCTACAGATTTTAAAAATGTTCCAGAAGAATTTTTAAGATTTGTTGTAATACATGAATTAGCACATTTAAAAGAAAAAGAACATAATAAAGAATTTTATAAATTATGTACTCATATTGAAAAAAATTATTTTCAATTTGAATTAGATATGAGGATATATTTAACTTATATAAAATTAACAAATAAATACTTATGGTAAGAATTGAATTATCAGATTATATGTGATAAAATAAGAAGTAATAAGTATAAAATGGGGGTATAAATATGTTGAGAGGAATATACACTTCAGCTTCAGGAATGACAACACAAGCAAAAAAACAAGATACAATAGCAGATAACTTAGCAAATATAAATACAACTGGGTATAAAAAAAGTACTACTATAATGGAGCAAGGAAAAGAATTTGATATTTACAGAAAAGAAAATGTTGAAGCAAGAGTACCAGAACGAGAAGAGGTAAAATTAACGAAAATAGGTAAATTAGGTACAGGAGTTAAGATTAAAGAAAATTATATAAATTTTGAACAAGGAGAATTAAAAACTACAGAAAGTAATTTGGATTTTGCAATAAAAGGAAAAGGTTTATTTGCAATTGAAACAGATAGAGGAATTAGATTTAGTAGAATGGGAAACTTTAGTATAAATTCTGAAGGGTATTTAGTTAATCATGAGGGTGATAAAGTACTTGCATACAATGAAACGGGTAAATTAGGTTATATTAAACCATTAAAAGATTTTAAAATCAAAAAAAATGGAGAAATTATAAATGGAGATATTATTTCAGAGGTAGCAATAAATAATCTTAATATAGATTATAGATTACCAATGGAAGAAGCTAAAACGACAGGAAATGCATTATATATAGCTGAATTCGATGATACTAGAGAATTAACAAAAGAAGGAAATAGTTATTATTTAGCAGATATATCAAAATCAAAGTTTTCATCAAAAAGTGATGTTTATCAAGGATATCTAGAAATGTCTAATGTAAATACAGTAAAAGAAATGGTTGAATTAATTAATGTACAAAGATCTTATGAAACTAATCAAAAAGTATTAAGCGCTCAAGATGAAACATTAGATAAAGTTGTAAATAATATTGGAAAATGGACTTAATGAGGTGAAAAAATGAAATTAAATAAAATCATTATATTATTTTTGATAGTAATAGTAGCTAGTTGTACAAATACAAATCCACTTATAAACACTGCTGCTACAGTAAAAGGTCTGAATAAAAATAGTGAAACAGCGGAATATCCTACAGAAAAAGCTAGTAGAATAGCCGAAATGCCAGATATAAGTGTGTTTTTTCCAGAAGATGAAAATAAAAGTAAAGACGAAACAAATTCATTATGGAATATTGAGCAAAATTCTCTTTACAGTGATGGAAGAGCAAATAAAAAAGGAGATATTTTATTTATTTTAATAAATGAAGAAGCAACAGCAAAACTTACATATAGCAATGCTAAAACAGGGTTTACTAATTATAGACCTGTAGATGATAAAATAGCAAAAGAGACAACTTCAACATCGCAAGCAACTAATCCAAGGGATAAAAATATAGCTAAAGATAAAATAGAAGAGACAACAGATACAACGCCAAAACCAGATTCAAATTCTTTTGATGGAACAGGAGATCAAAGTAGAGGGGCATCATATACAGGAAAAATAGCGGCAAGAGTAGAAGATGTAGACAAATATGGAAATTTATTCATAAGAGGGACCAAAACAACACTTTTAAATAATGAAATAGTCACATTAGAAGTAACAGGATATATTAGACCAAATGATATTGAAATTGATAATACTATTGATTCGAAATATATTGAAAATATGGAATTTAGTTATAATGGCGCTATGTATGTTGGAAAGCCTAAAATTACTAATATAGGTGATAATAAACAGTATATAGAAGAAAAAAATACAATAGATAATACTCAAAATACTGGGAATAAAACTAATATAGAAGAAAAAAATACAATAGATAATACTCAAAATACTGGGAATAAAACTAATATAGAAAATAAAAGAAAAAAATTCTTAGGTATTTTTTAAAAAATAAAGTGTATTACCTTTTTAGGAGGAATAAATGAAAAGAAAAATAGTAATAATATTATTTTTAATAATAAATATTATCTCTTTTTCTGAGCCGAAACAGAGGATAAAAGAGATAGCAAGAATAGAAGGTGTTAGAAAAAATCATTTAATCGGAATGGGATTAGTTGTAGGTTTAAACGGTACAGGTGATAGTGCAAAAAATTTAACACCACAATTATTAAAATCATTATATAGATATTTTGGTACAGAATTAGGTCAATCTCAAGTAGACTCTAAAAATGTTGCAGCAGTAATGGTAACGGCAGAACTACCTTCTTTTAAAAAAATAGGTGATACAATAGATGTTACAGTATCTTCGATTAATGGTGCTAAAAGTTTAGAAGGAGGGATACTTCTACAAACACAGCTTGTTGCAGGAAACAAAGTTTATGCATTAGCTCAAGGGACTTTATCTAGAGTTACAGGTAAAAACATAACAAATAGTGTAAATGGATATATACCAAGTGGAGCTACAGTAGAAAGAGAAGTAGAAGTTGAATTAGTAAATAACAATAAATTATCAATTATTTTAAATAATCCAGATTTTACTACTGCTTCAAGAGTTGCAGAAGTTATAAATAAAAGATTTAATTATGATACGGCAAAAGCAATAGATGCTTCTAAAATAGAAATAAAACAAACATATGTGTTTGAAGATGATATTGTAAGTTTTATTTCAGCTATAGAAAATTTGGAAGTTGAAACGGATAGAAAATCCAAAATTGTAATTTATGAAAAAAGTGGTACAATAATATTAGGGAATGAAATTAAAGTATCACCAGTGGCTATATCACACGGCGATCTATCTATAGCAATAGGAAATAATACTGGAACAGATAAAAAAGGAAATGCACTATATTTTAACGGATCAACAGTAAAAGATGTAGTTGATATGCTTAATTCAATAGGAGCTACACCAAATGATATAATATCTATTTTACAAGCTTTAAAAGCATCAGGAGCAATTGAAGCAGAAATTGATGTTAGGTAGGTGAAAAGAAATGATTAATACAACAAATTATTTAAAATATTTAAATACTGTAAAAATACCTGAAAAAAAATTAACAAAAGATGAAAAAGCATTAAAAGAAACTAGTGAAGAATTTGAAGCATTATTTGTAAAAATGTTATTAGATTCAATGGATAAAACAGTTGATAAAAGTAATAATATGTTTTATGCAGGAAATTCAGAAGAAATATTTAAATCAATGTTAAATACAGAATATTCTAAGCAAATGGCTAAAAGTTCTGATTTTGGTATTGCTAAAAATATATATGAGCAATTATCTAAAAATGTAAATAATAAAAAATAAGAGGATGAATATGAAGAAAATATATAAGTATATACTTTTATTTTTAATAAATATTAATATTTTTTCAAATGAATATATTGATTATCAAGATATACTATTAGGGAGTATAGGTAATATTAAAACAGTGTTAAAAGGAGAAAAAATAGAAGATATTTCAATAAAAATAATAACTATATTAAAAGATGAAAATTCAAATAGTGATATGTTATTATTTCAAATGATTGATAATAATACATTTGTATCTGAAGGAATGAGTGGGTCACCAGTATATATTAATAATAAATTAATTGGTAGTGTTGCGTATGCACTTAAAGATAATAGGAAATATGGACTGATAAAACCAGTGAATTATTTTGAAAAATATCCACAGAAAGAATTATCAACTGAAGTGTTACCAGGAACATCTATTGCTATCTCCCCAACAAGAGGAGATATTTTTTTAGATAATATAGGCACGTTAACATATGTAGATAAGTTAAATAATGTATATATATATTCACATGGCCTAAATGAAATTGGAGATATTAAATATTATTTAAATAAAGCACATATTGATTTTGTTTATAATGATATTAATAATTCTTTTAAAATTGGACATAGCACAAAAACAATAGGAGAAATATCAAGTGATACAAAAATAGGATTTAAAGGTAAAATAAATAATAATATTTCAGAATATAAATTTTTAATTAATTTAGTTGAAAAAGATAGTGAAAATAAGAAAAAAATACAGTATAATATTATAAAAAATGAAAATACATTAAGAAAATATTTAGAAGAATCATTGTCAGTAGCACTACAAAAAAATGTAAGGAAAAAAGAATATAAAACAGTAAAATATAAATATAAAATATTTAATAAAAATGGTTATAAAATATTTGAAGAAAGCAATATATTAATAGCTGAAAATGGTATTATTAATGGATTAGCAAATACATTATCAAACAGCATATTGAATGTAGTTGATAATAAATTTAAATATATAGATTTTGATAAAATAGAAATTAATATAGATTTTTATGATGAGAGCAAAATAATGTATTTAAATGAAATAAATTTAGATAAAAAAATATTTGTGTTGGGAGAAAAAATAAATATTAAATTAGGATATTTAATTCATCAGGTTGGGAATGTTGAAAAGATAATAGAGTTTGAGATACCTAATAATATAAAAATAGGGAAACTCACTTTAGAAGCTTTGGTTAATGAAGGTAAAAATAATGAACAAGCAAAAAATATAGTAGAATATTTATATAACTTAGAAAATAATATACAAAATAATGAGCTCTTGATTCAATTAAAAAATGAAGAGGGCGAAGTTATTTTTATGAAAAAATATAATTTTGATTATTATATTATTTCTAACAATAATTATTCTAAAGATATAATTATTGATAGTTTTGAGGCAAGTACAAGTAATTAAAATTCATTAACAAGCGAGGGGATAGGCTTGAAAAAATATGTTGTAAAAGGAAAGAATATAGATGAAATTTTGGAAAAGATATCTTCGCATTTTAATATTCCAAAAGATAAAGTGAATTATGATATTTTAAAAGAAAATGAAAAAGAAGTAGAATTAAAAGTTTGGATAGTAGATAATGAAGACATAAAATATTCTGAAATATTAATAAAACCTGATGGAATATTTTTAAAAGTTTTAAAAACTGATGAAGATGTTAAATTATTAGAAAAATATGTCATATTAGAAGTTCAAAAAAAAGAAATAAAAGATTTTGATTTAGGGAAAATAAAATTCGCAACTTTAAATCAAGGACAATTTGTAAAAATAGCAGAACATGATAAAGATTATTATATTGATGCTGAAGTACATATAGAAATTTTAAGCCCACTAGAAGCAACAATTGAAATTGTAGCTCCTAAAAGAGGTAATATGCCTGAGTATACTCATATTTTGGAGTTGATAAAACAAAAAGGGATAATTTTTGGAATTAGAAAAAATGCTATAAAGACTATATTAGAAAATAAAATATTTGAAAAAAGAGTTGTTTTAGCTAAAGGGAGAGCACCTATACAAGGGAAAAATGCGAGACTTTTATTTCATTATGATAGAGATAAGAAATTAAAAGTAGACAAAAATAATAATGTTGATTTTAAAAATTTGAATTGGATAAAAAACGTAAAAAAAGATGATATAATTGTTGAAAAACTTTCAATGATACCTGGAAAAGACGGAATTAATATTTTTGGTAAGCCACTTCCTACAAAAGCAGTAAAAGATATAAAATTACCAAAAGGTAAAAATACTTATATTTCTAAAGATGGAATGAAATTATGCGCTAGTATAGATGGCCAAATAATTGAAGAACAAAATAAAATAAGTGTAATGCCTATATTAACAATAAATGGCGATATTGATTATTCTACTGGTAATATCGAATTTATAGGAACAGTTCTTATAAAGGGTAATGTATTGACAGGATTTACTGTAAAAGCAAGTGAAGATATAATAGTAGAAGGTCTTGTAGAAGATGCAATATTAGAAGCTGAAAGAGATGTTATAGTTCAGAAAGGAATTGTAGCAAATGAAGAAGGGGAAGGAAATATAAAAGTAGGAAGAGACCTTCGAGCTAAATATATTCAAAATATGAAAGTAAAGTGTTTTGGAAAAGTAATAATAGATGATTATATTTTATTATCTGATATAGAAGCTAAAGAAGAAATAGAAGTTATTTCTGGAAAAGGAAGAATAATAGGAGGTAAAGTAAAATCTCAAAAAGGAATAACAGCAAATATTGTTGGTGGAAAATTTGAGACACATACATATTTAGAAATTGGTGTTTTTTCAGAAATATATCAAAAAGAAAAAGAATTTGATAAAAAATTACTTGAATTAGAAGCTAAAAAAGATAGATTAGAATTTAGAAAAAAAGAATTTATGCAAAAAAGTCCAGTAGTAAGAGCTGCTTTGAAAACAAAAGAAAAAGAAATTAGAATACAATTAAAAGAATTAAAAAAAGAGTATAATAAGTTATTAAAAAACAAAGAAAATTTAATTCAAGAATATAGTGATTTAGGAAATGCAAAAGTACAAGTTTTACAAACATTAAATCCAGGTGTTTTAATAAAATTAGGGAAACATATATATTTAAATAAAGAACAAAAATTACACACAGTATTATCTATTGATAGAGAAACAGGAGAATTGGTTATAGAATAGGAGATTTTATGAGGAAAAGGTTATATTTTGAAAAAAAAGATGAAATGATATATATATCACATCTTGATACTATTAGATTGATGGAAAGATTATTTAAAATAAGTGGAATTGAATTAGAATTTTCACAAGGATATCATCCAAGAGCGAAAATATCTTTTGGGAATCCAATATCTGTAGGAGAAATAAGTTTAAAAGAACCTATAGATATTGTTTTAAAAAATAATATCAAAAATGAAATTTTATTAAAAAAATTAAATGAAAAAGCACCTAAAGGATTAAGATTTATAGATGTAGAAGAATTAAGTAGTAAAGGCTCCATAATGTCGGAATATAAAAAAGTAGAATATGAAATAGAATTTTTAAAAGAAGAATATTTTGAGATGTTTAAAAAGATTTTAGATCAAGATGAAATGATTGAAATAAAAGAAAAAAAAGATGGAAAAATTCAAAAAAGAAATTTAAAAGAAAAAATAGAATTTATAAATTTTATAGATAAAAAAGCACAATTAATTTTAAAAAATTTATCACCAAATGCACTTCTTAGATTAGCTAAGATAGATAATGAATTTTATAAAATAAAAAGAATTAAATATACAAAATAGGAGGACATATGTTAGAGCTGAGATATATAAGAGATAATGTTGAATTTTTAAAAGATATGTTAAAAAATAGAAGGACAGAAGTTGATTTAGATAAATTTGAACAATTAGATGCAGAACGAAGAGATTTATTAGAAAAAGTAGAAAAGTTAAAACATAAAAAAAATATAGTCTCTATAGAAATAGGGAAATTAAAGAGAGAAAAAAAAGATGCTACTGAAATAATAAAGGAAATGGGGAAAGTAAGTCAAGATATTAAAGAGTTAGATTCTAAATTAAGTGAAATAGAGAAAGAATTAAAATATATCCAAATGACTATACCAAATGTGTATCATGAATCAACACCTATTGGAAAAGATGAGAATGAAAATATTGAGATTAGAAAATGGGGAGAGCCTAAAAAATTTGACTTTGAAGCAAAAGAACATTATGAAATTGCTGAAAAATTAGATATTTTAGATTTTGAAAGAGGAGCAAAATTAGGAGGATCTAGATTTACTTTATATAAAAAACTAGGAGCCAGATTAGAAAGAGCATTAATTAATTTTATGTTGGATTTACATACACAAGAACATGGCTATGAAGAAATAATAGCTCCAATTTTAGTAAAAAGAGAGATAATGGAAGGAACAGGACAACTTCCAAAATTTGAGGAAGATGCATATAAAACAACAGATGATATGTTTTTAATACCTACATCAGAAGTACCTTTAACTAATATTCATAGAAAAGAAATATTAGAAGAAGGAGAATTGCCTAAATATTACACAGCATTTTCTGCATGTTTTAGAAGAGAAGCGGGATCATATGGGAAAGACATAAAAGGAATAATAAGACAACATCAATTTAATAAAGTAGAATTAGTAAAATTGGTAAAACCAGAAAATTCTTATGAAGAGCTTGAAAAAATGGTGTTAAATGCAGAAGAAGTACTAAAAAGGTTAGAATTACCGTATAGAGTTATTCAATTATGTACAGGAGATATAGGATTTTCTGCAGCTAAAACATATGATATTGAAGTATGGTTACCAGGACAAAATAAATATAGAGAAATATCATCTTGTAGTAATACCGAAGATTTTCAAGCTAGAAGAATGGGATTAAAATTTAGAAGAAATGGGGAGAAAAAATCAGAATTTTTACACACATTAAATGGTTCTGGGTTAGCTGTAGGTAGAACAGTTGTAGCTATATTAGAAAATTATCAACAAAAAGATGGCAGTGTAATTATCCCTAAAGCTTTAAGACCGTATATGGGGGGGATAGATGTTATTAAATAGTATAATTTTTTTATTTATTATTTTAAATAAAAATTTTATATACCAATTGACAGTGAGTATTTTATTGCTTACTATCAATTTTTTTAATAAAAAGAAAACAAAAATTTATCAAAATATAAAACACGTATACATTTTTTTTATTTTAATTTCCATTTCTAAAATTTTTATTTATCAAGAAGGAGAGGTATTAATAAAATTAGGGAAATTTTTTATTACAAAACTTGGATTTTCACTTTTTTTAAATAATTTTTTAAGATTAATCAATTTAACTATTTTAGCACATAATATTACAATATTAGCTAGAGATAAAATTTCACTAGGAGAATACGAGAAAATATTTAGTATTATATTAGATATGACACCGAAAGTGTTTAATAATTTTAAAAAAAGAAGAAAAATAAAGTATTTTTATAAAAATATATTTAAAGAGATATATAAGAGATTATAAAAAAAATTGATTTTATTGTTAAAATCTGGTACAATATTAGAGTGAAAGTGTATTAAAATTTATATCTAGGAGGCTTTTGTATGAAATATAATTATAAAGAATTAGGTCTTTCTAATACGAAAGAAATGTTTAAGCATGCAAATGAAAATGGTTATTCAGTTCCAGCATTTAACTTTAATAATATGGAGCAAATGGAAGCAATAATTGAAGCTTGTACAGAAATGGGTTCGCCAGTTATATTACAAGTATCAGCTGGAGCTAGAAAATATATAGGGAAAGAAATTGTTCCTTTTTTAGCACAAGCAGCGGTAGCTTATGCAAGATCAAAAGGATCTGATATTCCAGTAGCATTACATTTAGATCATGGACCAAATTTAGAAACAGTTAAAGACTGTATAAATTATGGATTTTCTTCTGTAATGATAGATGGTTCTCATCATTCATTCGAAGAAAATATAAAAGTATCAAAAGAAGTTGCTGATTATGCACATCAATATGATGTATCAGTAGAAGCAGAATTAGGAATATTAGCAGGAGTAGAAGATGATGTAGTTGCAGAAAAAACTATATTTACTCAACCTGATGAAGTAGAAGAATTTGTTTCTAAAACAGGAGTAGATTCATTAGCAATAGCTATAGGAACTTCACATGGAGCATACAAATTTAAACCTGGTGATAATCCTCAAATAAGATTAGATATTTTAAAAGAAATAGAAAGAAGAATACCTGGGTTCCCAATTGTTTTACACGGTTCTTCATCAGTACCAGCAAAATTTGTTAAATTAATAAATGAAAATGGTGGAAAAATTGCTGATGCGATAGGAATTCCTAATGAACAATTAAGAGATGCTTCTAAATCTGCAGTAGCGAAAATAAATGTTGATACAGATGGAAGATTAGCATTTACAGCAGGAATAAGAGAAGTATTCGCTAAAAATCCTTCTGAATTTGATCCTAGAAAATATTTAGGACCAGCAAAAGAATATATGAAAGAATATTATAAAGAAAAAATACAAACTGTATTTGGTTCTGAAGGAGCTTATAAAAAAGGGGAATAATTCTTGACAGAATTATAAAAAAAAGTTATAATAATTTCTATAAAATTAAATATATTTGAGGTGGGAGTCTAAAACCCACCTCAAAAAAAAAACTTTAGACGAATTTTTTTTTTCGTCTTTTTTTTATTGTAAATTAACATTTTAAGGAGGAAGAATGAAGCAAACAAAATATATTTTTGTTACTGGAGGAGTAGTATCATCATTGGGAAAGGGAATAACAGCGGCTTCTTTAGGAAGATTGTTAGAAGAAAGAGGTTATAGTGTAACTATTCAAAAATTTGACCCATATATAAATGTAGATCCAGGAACAATGAGTCCTTATCAGCATGGAGAAGTATTTGTTACTGATGATGGAGCTGAGACAGATTTAGACTTAGGACATTATGAAAGATTTATAGATCAAAGTTTGACTAAATATAATAATGTAACAACAGGGAAAATTTATTCAGCAGTAATAAATAAAGAAAGAAAAGGAGAATATCTTGGAGGAACAGTACAAGTTATTCCTCATATAACTAATGAAATAAAATCAAAAATAGAAATAGTAGGAAAAGAAAATAATTCTGATATAGTAATAACAGAAATAGGAGGAACAGTAGGAGATATAGAATCAACTCCTTTTTTAGAATCAATTAGACAATTTAGGTATGACGTGGGGAAAGAGAATGTATTATATTGTCATGTTACTTTATTACCATATATAAAAGCAGCAGGAGAGTTAAAAACAAAACCAACTCAACACAGTGTAAAAGAATTAATGAGTATAGGGATAAGACCAGATGTTTTAGTTTGTAGAACAGAAAAAACAGTAACTGATGAAATAAAAAGAAAATTATCTTTATTTTGTGATATAGATGTAGAAGGTGTAATCGAATGTCCAGATGCTTCTACAATTTATGAAGTACCATTAATTTTAGAAGAATTAGGATTAGCTGATGTAGTATGTAAAAAATTAGGATTAGAAAATAATAAACCTAGTTTACATGAATGGTCAGAATTAGTAGATAGAATTAAAAATCCTGAAAAAGAATTTAAAGTAGCTATTGTAGGGAAATATGTTGAATTAAAAGATGCGTACATAAGTATAAATGAATCTATTTTACATGCAGGTTATAGTTTAAAAGGAAAAGCAAAAATAGACTATATACAAGCAGAAGATATAGATGTATCTGTATTAAAAAATTATGATGGTATTTTAGTACCTGGTGGTTTTGGTCAAAGAGCAGTAGAAGGTAAAATTAAAAGTATACAATATGCAAGAGAAAATAAAATTCCATTTTTAGGTATTTGTTTAGGAATGCAATGTACAGTTATTGAGTATTCTAGAAATGTTTTAAATTATAAGGATGCAAACTCTACTGAATTTGATGAAGATACTAATTATCCAGTTATTGACTTACTTCCAGAACAAAAAGATATAGAAGATATGGGTGGAACAATGAGATTAGGGGTTTATCCATGTAAATTAAAAGAAGGAAGTTTAGCTAAAAAATTGTATCAAGAAGAGTTAATATATGAAAGACATAGACATAGATATGAATTTAATAATGAATTTAAAGAAATAATTATAAATGCAGGACTTGAAATATCTGGAACTTCACCAGATGGAAGGTTAGCTGAAATTGTAGAATTAAAAAATCATCCTTATTTTATTGCATCACAATTTCATCCAGAATTTAAATCAAGACCAAATAGACCACATCCTTTATTTGTAGGTTTTGTTAAAGCTATGTTAGGAGAAGAAATATAAAAAAGAGAGAGAGAAGCTCTCTTTTTTTGCTAGTAAAAATAGTTAAAAATTGATAGAATATAGTGGCAATAGAATATTTATATTTTATTAGAAATTGTTAAATCTTTAAAATTAAGGAGAGAAAATGCTAGTTAAATTAGAAAAAGCTATTATATTTGATGAAAATTATAATAAAATAGAATTTAAAAACCCAATTGAAAATACATATGAAGAGTTAAAAGAAAAATGGAAAAAAAAGGATGAGAATTATAATAAAATTGATTGGAAGTTAGAATTTGGAATATATGATAAAAAAAATAATAAAATAGGAGAATTTTATTTAGATACTGAAAATGAAATTATAGCAAATATTGATTTAGATGGATATTTTAATGGTGAAAGTTTAGAGATAGAGGATGGCATAGAAGTAAAGCTAATAAAAAAAGATTCAGGGTTATTAGAAGCTATGATATATTCTGAACTTGTTAGAAATGATGTTTTAGATGAAAATCATCAAGATTTAATTTATATGAATCTTTTTCCAGAGTGGTTAAATGGTTTGTTAATTGAAAAATCAAATGAAAATGAAGTTTTAAAAAAATTTAAAGATTACTTTTTAATAATATTTGAAAAATATAATATTATAAAAGTTCTTGACTTAAATAAAGAAAATTATGAAATAATTTGTTATAATGATGAAATAAAAGATGAATTTAAAAGTTTTTTAAATAAAACGCTAAAAAAATATGAATTTATACTTCATCAAGTAGAATATGAAGGAAATATAGAAGAATTATTTGATATATATTATGAATGGAAAGAAAGAATATAGGAGTGAGTTTATGAAAGAGTATTTAGATATGGTAAAATATGTTTTAGATAATGGAGTAAGAAAGAAAAATAGAACAGGTGTAGATACTATAAGTACATTTAGTTATTTTTATAAAGTAGATCTATCGAAAGGGTATCCATTATTAACAACTAAAAAAGTATATTTTAATTCAATGTTAAAAGAATTATTTTGGTATTTAAGTGGCGATGAGCATATAAAAGAATTAAGAAAGCATACTAAAATATGGGATGCATGGGCTGATGAAGAGGGAAGATTAGAAACAGCTTATGGAAGATTTTGGAGAAAATATCCTGTGCCAAAAGAGAATCATTTTAATGGAGAAGTTTGGGTAGATAAAGATAATAAATGGACAACAGAACACCAGGATGGAACTTTGACATTTGACCAAATACAATACATTATAGACACTTTAAAAGAAATTAAAATTAATCCTGAAGCATCTAACGGTAGAAGGTTAATAGTTTCAGCATGGCATCCAGGGAATGCGACTATAAGTAAATTACCGCCATGTCACTATACATTTGCATTTAATGTACAAGGAGATAAATTAAATTGTCATTTAACTCAAAGAAGTGGAGATGTTGCTTTAGGAATACCATTTAATTTAGCGTGTTACTCGTTATTAACTATGATGATAGCAAAAGAGTGTGGTTATAAAGTAGGTGAATTCGCACATACAATAATAGATTGTCACATATATGAAAATCATATAGAAGGGTTAAAAGAACAAATAAAAAGAACTCCTAAAGAATTACCAGAAATAAAAATAGCTGATAAACCTTTTAATGAATTAACGCCAGAAGATATAGAGTTAATAAATTATAATCATGATCCATTAATAAAATTTGAGGTAGCTGTATAAATATGTTTAGCAGATTTAATATATTATAAAGAAAATATAAAAAGGAGTTTATACTTTAAACTCCTTTTTATATTAAAAATTTTTATTTAAATAAGTATAAATATTTTGAATATCCCTTTTCTTCCATTTCTGCTTTAGGAATAAAATTTAAAGCTATTGAATTTATACAGTATCTTAATCCAGTAGGTGGAGGACCATCAGTGAAAACATGTCCTAGATGGTTATCAGCATATTTACTTCTCACCTCAATTCTTTTATAAAATAAACTTTTATCTTCTTTTTTTAATATAAAATGTTCATCTATTGGCATAGTAAAACTAGGCCAACCTGTACCAGATTTATATTTATTAGTAGAGCTAAATAAAGGTTCACCAGATAAAATATCAACATAAATTCCTTCAAGTTTGTTATCCCAGTACATACCAGTAAAAGCTCTTTCTGTTCCATTTTTTTGAGTAACTTTATAAGTTAAATTAGATAATGTCTTTCTTAACTCTTTATCAGTGGGTTTTTTATAGTTGCTATATTTTGTATTAATACTATTCAGTTTTTTCCCTTTCCATATTTTTTTTAAAAATTGATCTCTTCCTGAACGATATCTATAATAATTATATTTAATAGAATGTGTTTTATAAAAATTTTGATGATATTCTTCAGCTTTGTAGAAAACTTTTGCAGGCAAAATAGGGGTAATAATTTTTTTACTATATAAATTTAATTGTTCAAGATTTTTTTTAGAAATTTCCGCCATTTTTTTTGTTCCTCATTTAAATAAAAAATAGCAGTTGAATATTGAAAACCTCTGTCAACAAATTGTCCATCAGGATCTGTTGGGTTTATTTGTGACCAAAAAATATCTAATAGTTTATTATAAGAAACTTTTTCATTGTCAAATAAAACTAATATAGCTTCTCTATGACCGGTTTTACCATTAGCTACATCCTTATAACTAGGATTTTTTTCATTACCACCTGTAAAGCCAGAATAAACTTCTTTAACACCATTTATTTTTTCAAAAGGAGGTTCCATACACCAGAAACAACCACCTGCGAAAATAGCTTGTTGTGTTTTTGAATAAGATGGATTAAACAATATAATAAATATTAATAAATAATATGATAATTTATACATAAAGATCCTCCAAACTAGCATGAATGCTAGTTATTATTTTAACTAATTATATTATATGCGATAAAAGTTAAAAAAACATGATAAAAAAAATAAAGAATATAAATATAAAAAAGTAAAAAAAAATTGACATTTTAATTTAACTATGATAAAATATTTTTTGTTCTCAAGGGGGTGTAGCTCAGTTTGGTTAGAGCGCATGCCTGTCACGCATGAGGTCGCGGGTTCGATCCCCGTCACTCCCGCCATTTAAATATATGCCGCTTTAGCTCATCTGGTAGAGCAACTGACTTGTAATCAGTAGGTGGCTGGTTCGACTCCGGCAAGCGGCACCATAAATAAATTTTACGAAGTAAAATTTATGAGCAAGCGTAAAAATCTGTAAGATTTTTTAAGCAAAAGGTTTTTAAATTAAAATTAGAGTAAAATTTATGAGCAAGCGTAAAAATCTGTAAGATTTTTTAAGCAAAAGGTTTTTAAATTAAAATTAGAGTAAAATTTATGAGCAAGCGTAAAAATCTGTGAGATTTTTTAAGCAAAAGGTTTTTAAATTAAAATTAGAGTAAAATTTATGAGCAAGCGTAAAAATCTGTAAGATTTTTTAAGCAAAAGGTTTTTAAATTAAAATTAGAGTAAAATTTATGAGTAAATGTAAAAATCTGTAAGATTTTTTAAGCAAAAGCTTTTTAAATTAAAATTAGAGTAAAATTTAGAAAATAATAAGCTCCGTTCGTCTAGAGGTCAGGATTCCAGGTTTTCATCCTGGCGGCAGGGGTTCGATTCCCCTACGGAGTACCATATATGGTTAGGTTCCCGAGTGGCCAAAGGGAGCAGACTGTAAATCTGCCGGCTCTGCCTTCGAAGGTTCGAATCCTTCCCTAACCACCATAAATAAATTTTACGAAGTAAAATTTATGAGCAAGCGTAAAAATCTATAAGATTTTTTAAGCAAAAGGTTTTAAATAAAAAGTAAAGTAAAATTTATGAGCAAGCGTAAAAATCTATAAGATTTTTTAAGCAAAAGGTTTTAAATAAAAAGTAAAGTAAAATTTATGAGCAAGCGTAAAAATCTGTAAGATTTTTTAAGCAAAAGGTTTTAAATTAAAAATAAAGTAAAATTGAAAGAAAATTTTTGAAGAATATATTAAGATAAGCATCCTAATTAAAGGATGTTTTTTTATTGACTTGACACTTTAAAATATGGTAGTATTTAGTAAATAAAAAAACTTAATAAATAAAAAAATTTATATAAAAGGAGTAAAAAATGGAAATAAAAAAATTAAAAGAAAATTTTTTTAAGGACTTATTAAAAAAAGGATTTACAGAAACCACTATAGTAACTCATAGAAAAAATATAGAATTTATTCCTGAAGAAATTTTACTAGATATTGATAGAATAATAGAGTATTTAAAGGAAAATTTTAATAATACAAATAAAACAGATGTAAATAAAATGATAGCAACTTTAAAAAGATTATTTAGTTATTTATATAAAAATTCTGATATATCAAAATATAAAGAAGCTAAATTGAAATTATTACATTATAAAGAATTAGTTAGTAAATAAAGTATATAAATTATAAATATTAGTAAAATATCTTATTATAGGGTGATATTAAAATTTCAATTCAATAAAAAAGAGCTCAAAGCTCTTTTTTTATTGAATTGATTTTTAATAATATGTATAGTATACTAAATTTAAAGATAATTAAAAAAAAGAAAAAGGTGATTAAAATAAAACTGAAAAATAAATTAATATATTATATTATTTTACCATTGGTATTAATCATATTTGTTTTAACTTTTTATATATCATATGAAATAAAAAAGAAACAAAAAGAGATGTTTTTAGATAAAATAGAAACAGATAATCAAAGTATTAAAATAATAAATGAAAAACCATTATGGGCTTATGATTTAAATGCACTTTATGTAAATTCAAAATTTTTTTTAGATAAACCTGAAATAGTAAAAATAGTAATAACAGAAAACAAAAATAAATTAATTGAAATAGCAGATAATACATATGAACCAGATATTTTTTATACTATCAGTGTTTTTCATGATGGATTGAAAATAGGAGATATATATATCGAATATTCTTCAAAATATATAGATAAAGAGATTAATATAATTCTTAGCCAAATATATATAGTAGAATTATTTTTTATAATAATATTTTCATTTTTAATATTTGTAATTTCAAAAACAGTATATACTCCTATACAAAAAATTGTGAAAGCTTTACAAAATTTAGACAAAGGAAATTATGAATTTGAACTCATATTAGATAGAAATGATGAATTTAAAATAATAGAAAAATATTTTAATAAAGTAATTAAAGGGTTTAATTATGAGCGGAAAAAAAATATTGAAAATATGGAGCAGATAAATAAAACAAAGGATGAACTGGAAGCAGCATATAATCAAATGATTTCTATAAATAGTATGCTTGAAAATACTTTGAAAGAATTAGAATTATCTGAAACAAAATATAAAAATATTTTTAAATACTCTCCAGGTGGAATAATAATATTAAATATTAAAAATGAAAATTATGAAGAAATAAATGAAAAGGTTTTAGAGATAACTAAAAATTTTACATCTAATTATGAAAGAGAAAAAATAGAATATATTATTGAAAATGTTGAAGTAATGAAGCTAATAGAAAAAATGATAAAAACAAAAAAAATGTTGAAAAAAACAATAAAATTTGAAGAAATTGAAAAAACATTAATGGTTACGGTGGCACCTATAAATAATAATTCTGAATACGCACAGATATTTTTAAATGATATAACAGAACTAAAAGATTTAGAAGAGAAATTAAAAAATTATGCAGAAACTCTTGAAGTAAAAGTAAAAATGAGAACAGCAGATCTTCAAAAAGCAAATGAACTAATAAAAAGTCAACAAGAAGAGATGGTAAAAAATGCTTATAATAAAGCTTTTATAGAGGTAACTTCGGGAATAATACATAATATTGGAAATATTGTAAATATTATAAATATGAATATGGAAGAACTTATTGTAGAATATCCTGATAATGAAAAAACATATAAGTTTTTTAATGAAATATTATCTAGAGAACTACAGAAAATAGATATAAAATCAAAAGAATTAGAAAAAATAATTAAAATCACTCCTGAAATTATTGAAACGATGAAGGAATATGATGAGAAAATAAAAGAAAAGATTGAATTAATCTCTAAGAAGCTTTTACATTTAAAAGAGATAATTCAATTGCAACAAAATTTTGTAGGTTCATTAGGAACGGAAGACTATAATAATATAAATGAAATAGTAAAAGAAGTTATAGAAATTTATGAATCATCTTTAGAAAAAAGAGGAATAAATTATAAATTTAATAGAGGTGAAAATCAAGAAATATTATGTGATAGAGGGCAAATATTTCAAGTAATAAGTAATTTTATAAAAAATGCATACGAGGCTATAGAGGAAGCAGAAAAAAAAGAAAAATTATTAGAAGTAACTACGTACAATAATAAAGATAAATTTATTATAGAAATAAAAGATAATGGAATAGGAATAAAAGAAGAAAATTTAAATAAACTTTTTGAGTTTGGTTTTTCAACGAAAAAAGAAAATGGAAAAGGGAATGGCTATGGACTGTATAGTTGTAAATCAATTATAAAAAAATATGGAGGAGAAATTTTAGTAGAATCTAAGTATGGAGAATATACAAATTTTAAAATCATTTTACCGAAAAGGAGTACAAAATAATTGAAAAAGAAAAACTTTATAGTAATACTTTTTATAGTAATAGTTAATTTAACATTTACAAATACAAAAGAAAATTACGTAATTGCTAGTTTTAATACATTACATTTAGGATGGAAAGGTAAAAATTATAAAGAATTATCTGAAATAGTTTCATTATTTGATTTAGTGGGATTAGAAGAAGTAATGAGTAAGGATGGATTAAAGAAGCTTGATAGTGAATTAGAAAAATTAACTAATGAAAAATGGCATTGGCATATTTCAAAGTATAGTGTAGGAAGAAGTAAAAAATATAGAGAATATTATGCATATATATGGCGAGAGAAAAAAGTTAAATTTAAAAGAAGTATGGGTTTTTTTAAAGAAAAAAATGATGAATTTATTCGAGAACCATATGGAGCAATTTTTCAAATTAAAAATTTAGAATTTGGATTTGTACTTAATCATTTTATTTATGGCGATAAGAAAAGAGATAGACAACTAGAAGCTGTTTATTTAGATGAAGTATATGATTATTTTACTAAATATACTAAAAAGATATTAGTAGCAGGAGATTTTAATTTACCAGCATATGATATTTCATTTAAAGATATGATTAGAAATAAGATATTTTATGCAATAGATCCATCAAATAAAACAACAATTGGTAAATATGGATTAGCAAGTTCATATGATAATTTTTTTCTATCATATGAAATATTTTCTGAATATAGTGGAAGAAATGGAGTATATGATTTTACAAAAGATAAAAAATATGACAAGCAGTACGGAAAAGAAAAATATAAAATTCTTCGAAAAACAATATCAGATCATTTACCAGTATTTATAGAATTAAATATATAATAAAGTTGTGAAAACAGCTTTATTTTTTTTGTTTATATATGTTATAATCAAATGGAAAGAAACTAGTTGTAAAAGGGAAATAACTATAGAAAACCAAAAAACTAGGAGGAATAAAGTGAATATATTAAAAAGATTATTTAATAAAAAAAATTATAGAGATTATTTTTTAAATGGAGAAAATATAAAGTTTGATAAAAACTTGAAAACAGGAATTATCTTAGATAATATTGATAATGAAAATGGTAGCTATATAATAGAAAGGTTTTTAGAATTATTAAATGAAAATTTAGATAAAAAAAACATAAAAGGAAGTCTAAGAAAAAGTTTAGAAAAATTAAATAAAGAATTTTTAGGGAAATATGAAAATGTTAGTATCCAAATATTTTCTGAATTAGAAGACAAAAAAATAATTATTTTAAATATAGGAAATATAAGATTTTATGTTTATTCAAATAATGAAATAAGGCAAATAACAGAAGATGATACAGAATTTTTTAGATTATTTAAAAATAATATGATTGATTATTCAAAAGCAAAAGAGAGTCCATTAACAAATATCTTAACAAATTCTTTAGGGAAAAATAATTATATAAATACATATGAATACTTCATACAGCAAGGTGATAGAATAATAATATTAAATTCGAAAGCTTATAATAGAATTGGAGAGACTGGAATAGAAAATATTTTAACAAAAGAACTAAATTTTGATAAATTAAAAGATAGTTTTATTAAAAATGAAAATGTTTTTTTAAAAAATGTAAGTAGGTGATAAAAATAAATAAAAATAATTTTATTAAGCTTTTTCCAAAATCATTAAAAGAAAAAATAGCAAATATATATGAAAAAATAGAATTAGTAAAAAATATAGATTATTTTATACAATTAGAAGAATTTTATAGTGGAGAAATTTGGAAAAAGTTATTAAAATATGAATATGAATTAGGAGTTAAAATAATATTAGATAATTATATAAAAAATGGAGAAAGAAAAAATATAATAATAGCACCTATTGATTTAGAATTGAATTATGACCAATATTTTAATTTGAATATGATAAAAATAGAAAATCTATCAAAATTCAAAGATTTAGGGCATAGAAATTATTTAGGAAATATTCTTTCATATGGAATAAAAAGAGAAAAAATAAGTGATATTGTAATAAACGATGGAAATGCATATTTCGTAACATTTTCAGATATAGCAGAATATTTAATCAATAATATTAATTCAATAGACAAAAATAATGTAATTATAAAAAAGATATATAACAATGAAAAAATAGAGATACAATTCGAAAGAATAACAGGAATAATATCATCAAATAGATTAGATAATATAGTGTCTTTATTAACTAAACTATCTAGAAATGAAGCAGTTAAATTAATAGAGAAAAATTTAGTTTATGTAGATTATGAAGTAATTAATAAAAAAAATAAGAGTTTGAATGAAAAAAATATATTAACTATAAGAGGGTATGGTAAATATTTTTATAAGGGAATAGTGGGATCAACCAAAAAAGACAGATTAAAAGTAGAAATGATGAAATTTATGTAGGGGAGTGAGAAAATTTGAAAAAAAAAATAAAAAAAATAAAAAATTTTTTAATGTTTTTATTTTTGATAATTATATTAATTTTTACAATATATTTATTTAGAAATCCAATAATAGAAAAAATAACTGAAAGTACATTGACTAAAATAAATGGTGCAAAAGTAGAAATAGAGGGATTAAATAATCCTATTTTCACTTTAAATATTAAATGGAAAAAAATGCAATATACAGATAATAAAAATCCTATGAAAAATAAATATGAGATAAATAATGTTAATTTTACTTTGAAATCAAAACCATTATTAGCAGGAAAATTTATTATCGAAAATTTTTCTGCTAATGAAATATATTTAAATACTGATAGAAAAGAAAGTGGTGCAATAGAAGTAAAAGTTAAAAAAACTAAAGAAACTTCAAATAAAGATAATAAAGTATTAGAAAAATTAAATAATATAGTTAAAGATAAAATTAAACAAGAAAAAAGAGGATTAATTAATGAAGGATTTGATAAAGATAAATATATAGAAGAAAAATTAAACTCGTTAAGTCTTGAAAGTGACAAGAAATATATAAAAGCGAAACAGGAATTAGAATTAAAAAAAGAGTACTGGAAAAAATTATTAGAAAAAAGAGAGTATGAAATCAAGTTGAAAAATATTGAAACGGAAATAAAAAAAATTGATGTAAAATTAGAATTAGGTGAAGTAAAGAGTTTAGAGGATTTAAAAAAATTAAATGCAAAAAAAGAGAAACTTGAGAAAAATAAAAAACAAATAAATAAACTATTAAAAGATATAAATACAATAAAAAAAGAAATAGAAGAAGATATAAAAAATTTTAGCTTAGATATCGCAGAAATAAATAAAACAAAAAATGATCTATTTGAAGAATTGGATAATGATTTGAATAAATTAAATGATTTTAAAGATAATAGCGGAAATGAATTAAATGAACTAACTAGTGCTTTTTTTGGAGAAAAAAGTATAAAAATTTTTAATATAATGTTTGAGCAATATAATAAAATAATTAATATTTTTGGAAAAGATAAAAGTAATAATAAAAAAGAAGAAAAAAAAGAAAAAATGCCAGAATTACCAAAATTTTGGATAAAAAATAGTAATATAAAAATAATTGAAAATAATAAAATTTATTCAGGGGAAATAACAAATATCACAAATAATCAAAATAAAACTAAACAACCAACAATAATTGAATTAATTAATAAAAATAATGAAAAAATAGAATCTAAAGTTTATGCATATATTGATAATATAAAAAATATAAAAAGTTTAGATATAAGTATAAATGATAAACAAATAAAAAATGAAGATATGGGATTATTTAAAATAGAAGAAGGAAATTTAGAAGGTAAAAATAGTATAAAGGATACAAATGATGGTTTTTTTATAGAATTAAATTATAATATAAAAGATATTGTAATTAATAAAGATATAAAAATAGCTAATAAAATATTAAAACAAGTTTTAATAGATAGTTTAGATGAGATAAAAGTATTAAATATTATTTTAAAATTTGAAAATAATAAATTTATATTTAATTCAAATTTAGATAATGTAATAGCTAATAAAATAAACGAAATTTATAAAGCAGAATTAATAAGAGCAAAACAAGAAATAGATAATAAATACAGAGCTAAAATAACTAATATAAAAAATAGTTATATAAAAGAAATGGAAAAATTTGAAAATGAGTATAGAGAGAAATTAAGCATATTAAAAAATGGAAATTTAGAAAAACTAAACAAATTAAAAAATCAAGAAAAATTACAAGAAAATATAAAAAATGATATAAAAAATAAAGAAGAAAAATATCAAAAAATTCTTGATGAAAAGAAAAAAGAACTTGAAGAAAAATTATTGTCAGAACAAGAAAAATTAAAGGAAAAAGCAAAAATTGAACAAGGGAAATTACAAGAAGAAGTAGATAATAAAAAAGAAGAAACTCAAAATCAAGTAGAAGAAAATTTAGAAAAATTAATACAAGAAGAATTGGAGAAAAATAAAGATAAAATAAAAAATATATTTAAATTTTAGTTTAATCTTAAAAAAAATGATATAATTTTTTAATGTAAAAGTAGAGAGGAGTTTAATATGAATAGATATATTCGTGCTATAATTCCCTCCAAATTAAATTATTATTTTTTAAGATAATAATTTAAGGAGGTAAATTGTGGACATAAAACAAGTAAAACAACTTATTGAAGAAAAAAAATATGTGAAATTAAAAGAAGAATTAGAAGATATACACGAAGTAAATATTAGTGAAATATTAAAACTTCTTGATAGTAAAGAAGCGTTATTGATATATAGATTATTATCAAAAGATATAGCTGCTGAAGTATTTTCATACTTAGATCCAGATGATCAAGAAAAATTAATTAATGGATTTACAGATGTTGAAATAAAAGATTTAATTGAAGAATTATACTGGGATGATATGATAGATTTAATTGAAGAAATGCCTGCAAGTATTGTTAAAAAAATATTAAAAAATTCAAATGCAGAAAATAGAAAGCTTATAAATCATTTTTTAAATTATCCTGAAGATAGTGCAGGAAGTTTAATGACAATAGAATACATTTCTCTTTATCCGGAAATGACAGTTAAAGAATCTCTTGATTATATAAGAAGTGTAGGAAATGAAAAAGAAACAATATATACATCATATATTTTAGATAAAGGAAAAAAATTATTAGGAACAGTTTCTTTAAAAGAACTTATTTTAGCTGAACCAAATATAAAAGTAAAAGAAATTGCAAACGAAGATGTAATTTCAGTATATACAACAGATGATCAGGAGTTAATAGCAGAAGTATTTAAAAAATATGATTTAATAACAGTTCCTGTAATTGATAAAGAAGGCAGAATGGTTGGAATAATAACAATAGATGATATCGTAGATGTAATAGAAGAAGAAACAACAGAAGATATCCAAAAAATGGCGGCAATAACACCATTAGAAGAAAAATATCTTGATATAGGGCCTATAGAGATGGCTAAAAAAAGAATACCTTGGTTAGCTATCTTAATGATATCTGCTTCACTAACATCTGCAGTAATTAGTAGATATGAGTCTATATTAGCTCAAATGACAGTGCTCAGTAGTTTTATGCCACTTCTTAGTGGAACCTCAGGGAATGCAGGATCACAAGTTTCAGCACTTATTATACGGGGATTATCTTTAGGAAATATAAAGTTAAAAGATTTGTATAAAGTTATTTGGAATGAATTTAGAACAAGTATTATAATAGGTATAGTTCTTGCGATAATTAATTTCTTTAGACTTTATTATTTAGAAATTGCATTAGTAGGAAATCCAGAAAAATTTAGAATATCATTATTGGTATCAATTAGTTTAATGTTTACAATAATAATGTCAAAAATTGTAGGTGGGATACTGCCAATAGCTGTAAAAAGCATAAAATTAGATCCAGCTTTAATGGCAAGTCCTCTTTTAACTACAATAATCGATGTAATGTCATTAATTGTATATTTTAACTTAGTTCATTTCTTTTTTAACATATAAAAAAGCTTGACAAAAGATAGAATATATTATATAATCATACTCGCCACACTAGCTGGGGAGGTAGCGGTGCCCTGTAATCTACAACCCGCTCTAGTAGAAGTGAATTCCGACTTAAGGTATATTTTGGTTGTGGTTTGACTCTAGAATGAAATGTTGAGAATAGAGTCCTAGATGGCAAAAGAATAGTGAACCGTGTCAGATCTTGACAGAAGCAGCACTAAGCTATTTTCTTTTGGGTATTTAGGGTAGCTCTATTTGAGTGGATTTCTATTGTATCACACAGTTGAAATATATCAAGGGTCGGTGTGTGGCCCTTTTTTATTTTTTGAGGGGGGAAATTATGGATAATTTATTAATTATTATAGGTGTTTTATGTGTTATAATATCTTTAATATCTATGATAAGTTTAAGAAGAAAAGTGGATGAAAGAATTGAAGTATTTAAGGATCATGAGTTGGAATATAGGGATTTGAGAAATGATATAATAGAATTAAAGGATGAATTTTCAAAAAGTGCTGAATTAGAAATTATGAATCTTGATAAAAAAATGAGAGAGCTTAATAAAACTAAGGTACTTATTGAAAATAAGATAAAAGAGGGACAATCATTAAACCAAATTTTAGAAAATACATTTGAAAAAATAAATAATATAGAAGTAAATGTAAATAGTAATTTTAAAGAAAATCCTAAGTATTTAGAAAAAATAATAATAGACTATTATAAACAAGGATTATCAATTAGGGAAATTGCTAAAAAAACAGGGAAAACTTTAAATGAAATTCAAATGATAATGGGACTTACATTAAATTAAAAAATAAGATTTCATAAAAATAAAGAGTAAAATTAGTTACTCTTTATTTTTAATTTAGAAATATTAGAAATATACTTATTTTTATTAAATAAATATATTAGATAATATTCTTTTTTTAAATTACTATTAATAAAAATAACTTCATATTTTATTTCTAAAGGTTTGATTAGATAATTTTTTTGATTAATATTAATAATACAATTAAGATTATTTAAGATATATTCAGATAAAAAATTAAGTTTATAATCTAAAATTTGTTTATCTATATTAAATTGTGTAATATTATATTTTTTCTTTAAAACTTCTAATTGGGATTTTAAATAAAAATTTTCTGGAAATTTATTAGATTTTTTAATATTACAATCACGGCATAATAAAACAGCATTATATTTATTTTTATATTTTAAAGGATAACCTTTTGATATTGGATAGTGATGATCAATTTCTAAATTGTTTGTAGAACCGCAATTAAAGCATTTATTATTAAACAAATTAAAAATATACTCTTTATCATTTTTATTAAAGCTTTTATCTAAATAATTTCTATATTTTTTATTATTAATATGATTTAAAGTATATTCATATGTTTTTAATGAAGTAGAATTATTATTATTTTTTAAAATATAATTTAAAAACAACAATAATAATAATATTAAAATAATAATAAGAAACATAATTAACCTTTTATTAGATTTTCTAATTTTTTAATTTGTTCTTTTTTTCCAAAAACTAATAATTTTGAATTAGGATTTATTAATGAAGTAGAAGTAGGATTTAATTTTATTTTATTATTTTCTTCAATACCTACAACTATTAAACTGGTTTTTTGAGGAATTTTAGCCTCTAATAATGTTTTGTTTACAAGTTTGCTATTTTTAGGAATATCAATAAATTCTACTTTTAGCTCATCAACACCACTTTCAGTAATATAATCAATAAATTTGTTAATATTTTTTTGAGCAGTGATTTTAACGATTTTATCTGCAGCAATGCTAAGTGGAGAAATAACATAATCAGCACCAGCTTTTTTTAATTTTTTTTCACTATGTAAATCAAGTGCTCTAGTAATCACACTAATTTTATTATTTAAAGATTTTGCTGATAATGAAAGAAATAGATTTTCAGCGTCACTTGAAAGAACAGCTACTAAAGCTTTAGCTCGTTCTATTCCTGCTTCTATTAAGGTTTCATCTTTTGTAGCATCTTCATTTAAAATTAAAATATTATTTCCTAAAGTAGATTCTAAAACTTTAATTTTTTCAATATCACTTTCGATAACTACAAAATTTTCATTTGATTTAACATACTGTTCTATAATTCTATATCCAGTTCTACCTGCACCACAAATAATTATATGATTTGATAAATTATTAATTTTACTTTTCACTTTTACTCCTTTTAAATATTTATTTAATTCACCTTCTAAAATAAATTTTACTATTACAGATACACTATATAACACAAAACTAATTCCAATAAAAATTAAAAATATAGTAAAAATTTTACCAGATAGTGATAGAGGCTTGAGTTCACTAAAACCAACAGTTGATATAGTAATAGCAGTCATATAAATAGCATCCATTAAAGAATAATTTTCAATATAAATATAACCTAAAATTCCTATTAAATATATTGTTATTAAAGATAATATCATTAATAAAAAGTTTTTAAAATTAATCATAGGACTCCTTTACTTTTAATTATATAGTAATATAACATGAATTACAACAATAAATTATTGCTAAATAGTGTAAAGTATGATAAATTTTATATAAGAAAGGGGAGATAAAATGAAAAAAATACTTTTATTTATTTTAAATTTAATTAAATATGTAATAAAACAAATAGTATTTATAATTCTATCATTTAGTATATTATTTGGGATTATATTTTACTTTGTATCGGTTAACTTACCAAGTGAAATGGAGAAAACAGTTGAGGTAGTACCTGATTCATATCTTGAATTGTCTTTTCCAGATGGATTAAGAGAAAAAAATAATTTTGAAAGCATAGTAGAAAATATTTTTGATAACAGAACAACTTCATTTTATGATGCAGTAAGAGCAATCGAAAATGCTAAAATGGATAATAAAATAAAAGGAATTTTAATTAATTTAACAACTATTAATTTACCAATGGTATATATGGAAGAAATAGGAAAAGAATTAGAAGAATTTAAAAAATATAATAAAAAAATTTATGCTTATGGAGAAATAATAACAAATGGCAATTATTTTTTAGCTTCATATGCAGATGAAATAGTTATGCCACCTTCACATTCTACAATTGTTAATTTATCGGGATATTATCGTGTAATAGGATATTATAAAAATTTATTTGATAAAATAGGTGTTAAATTTGATGTATTACATATAGGTGATTATAAAACATATTCAGAAGAATATATTAGAGAAAATATGAGTAAAGAAAGAAAAGAAGAATTAAGTAGAGTATTAGATTATTCTTTAAATTATTTTGTAGAACAAATATCTAAAAATAGAAATATTGATAAATATAAATTTTATAATAATTTAATAAATGGAAAATATGTTAGTAAAGATTCTTTGATTGCAAAAGAGAGTAAATTAATTGATGGATTAGAGTATTATAATCAATTTTTAGTTAAAAAAGGGATTAATAATATAATTTCTATATCTAAATATAATAAAGCTCGAATAGAGAGAAAAAGTAAAGATAAAATAGCAATAATTTATGCAGATGGAAATATAGATTTTGAGACATCATATTCTAATATGAATTCAATTACATATAGTCAAATGGAAGAAGAATTAAAATTAGCAGAAGAAGATAAAAATATTAAAGGTATAGTCTTTAGAGTCAATTCTCCAGGAGGATTAGCGCTAATAGCAGAATTGATTACTGAAAGATATAATAATACAAATAAACCAATATATGTATCAATAGGAAGAGTAGCCGCATCTGGGGGATATTATATATCTACTGTAGGTAAAAAAATATTTATTAATAATAGTAGTATAACAGGTTCAATAGGAGTTGTAACTAGAATATTTAATGTAAATGAACTTTATGATAAATTAGGAATTAGATTAGAAGAGATAAAAAAAGGAAAATATAGTGATTTATATTCATTAAATAATAAATTAACAGAAGAAGAAAGAAGAATAATTATTGAAAACCAAAAAAATACATATAAAGAATTTAAAAATAGAGTTGAAAAATCTAGAAAAATTGATTCAGAATCATTAGAAAAAATTGCGCAAGGGAAAATATGGATAGGAAAAGAAGCAGTAGAGAATGGCTTAGTTGATGGAATTGCAACGCTTAATGGAACTATTAAAATTATGGCAAAAGATTTGGGATTAGATAATTATAGTATTATTGAAATTTATAAAAAAGTAGAAGATAATAATTTAGTTTCAAGATTTAGTAAATATATCAAAGTTAATAATATTTATGATAAGTTAAATGAAGAATTAAAATATATAGAGTCATATAATAAAAAAATTCTTTTAATGAATGAATATGATATATAGTTGAAAAAAATGAAAAAATAGAATATACTTAAGGAAAGGCTTGGAGGTGAAAAAATGCTTAAATATGAAGAAGCATGGAATTATAATGAATATCTAAGATCATCCTTAATAGAATATAGAAAAAAGCAAGAAAAAATTTTTTCTAAAATTTCATTAAAAAAAGAAAACATAAAAAAGATAAAAAATATTAAAACAAAAGTAAATATTGTAGTTTTTGCTGAAATATACTGTCCTGATTCTAGAGCTGTTATACCTTTTTTGGAAAAAACAAGACAAGAAAATGAAAATATAGATTTATATATTTTCCCAAGAGAGGGGAATGAACATTATTTATCAAAAATAACAAATGAAACTAAAATCCCATCAATATTTATTGAAGATATAGAACAAGAAGAATTATGCTTGATATATGAAGAAATTTTACCAGATTTAAAATTTAAAATAAAAGAACATATTTTAAGAGACGAAAAAGATATTGCACAGGAAATAATATATAATTATAGAATAGGTAAATATAATGATCAATTAGAAGAGTATTTAGTTAATAAAATTATAGAAAATATAATATAAAAAAACTCTGGCAAAGCCAGAGTTTTTTTATTGTTTAAACATATTGATCAAATCATTTACTTTATCTGTTGTAGATGTAAGGTTTTGAGCAGCGTCACTTAATTCATTAATTATTTCAGCAGTAGAAAGTACAGCAGTATCAATTTCATTTACTCGAGTACCTATTTCCTCAAAGGTAGCAGTTATATTATCAGAGTTGTTTGATAATTGATTTAATTCATTTGTTTGATTAGAAATACTTGAATGAATTGTATTTAATTCTTTAATTAAAATTTCAAATGAATTTACAATACCTTCAATCGTAGTAGAAACATTATTAATTTCTATAATAGTCTCTTCAAGTTGAGATTTATTATTATTAGAACTTGTTACATTTTCGTCTATTTTTTTAGACATATAATTCATTTTTTCTTCTATTTCCTCAGCAGTTTCTCTAGAAGTATTAGCTAATTTTCTAATTTCGTCAGCAACAACAGCAAAACCTCGTCCTGCTTCTCCAGCTCTAGAAGCTTCAATAGCAGCATTTAATGCAAGTAAATTAGTTTGTTCTGTCACATTATATATTTTTTCAATAAAAGTATTAACTTCATTAGATAAAGCTTTTAATTCATTAATTTTTTCAGAGTTTTCAGAAATGTGCTTACCAACACCACTTATTTTATTTAATGTAAGTAAAAGATTATCTTTTTCTTTTAAAGTATCATTTAATACTTCTTTATTATTTTCTGTAATTTGTGCAACAGTTGATAATATTGTATTTGAATCAGTTGATATATTTTTTACTTGAGAATCTACTTCATTTAAAGTTTCTAATGATTGTTTAATAGAAGTAGTAATTGTATTTATACTGGCTGATAATTCTTCTGTAGTTGCAGCAGTTTTTAATACAGAATTACTGATAGACTCAGCTTCATTAGATACTTCGTTAGATACTGATTGAATATTAAATATAATTTTACGAAGAGCATCAACCATAGTTTTAAAACTTTTTGTAAGTATACCAGTCTCATCTTTTTTAAATCTTCTAGGGAAAGGAACCGTTAAATCAAGTTGGCTTAACTTTTCGGCAGTTCGAGTAAGATTTCTAAGAGGTCTATTTATACTAGTAATAGTAGTAAGAAGTATTGATGAAACTAATAATGAAATAAATAAAATAATTATTAAAGTACGAATTCCAATTTTTTTAATAAGTAGTATATTTTGATTAGATATTTTTCTTATATTTTCAATACTAGTAAGATTTTGTTTGTTTTTTAGATCAACGTAAGGTTTTAAAGAATAATAAATAGTTTCAATATTTGTATTAATAGTAGTATTTATAAATACTTGTAATTCATCTCGTAAAGTTATAATTTCTTTCTCTTTTTCTAAAAATTTAGTTAAAATTTCTAATTGATTTTTATCATTTGATTCAATAGATTTTTTTAAATTATTACGAAATGTAAATAAATCATTTTGTTTTTTAAAAATTAGATGTTTTTTATTTATTAATTTTTCTACATTTCCATTAAAAGTAGTAAATAAATTATTTAATGTTCCTTTTAAATTAAGTTTAGAAGCTGCAGAATAGATATTATCAATATCAGATTTTATTTTTTTCTGAATAGCATTTATATCTTTTGGATCTTCAGCTCTTTTTAATTTATCAATAGTGTTAAAAAAAGTAATAAAAGAATTTTCTAATATTTGCATGTCCGCATTTGCTTGAGCAATTTCTTTTAGATATTCAGTGTTTTTATTAATTTCTAGTGCTTCTTTTTTAAATGAAATATTACTAATAAAAGAATTAGCAGCAATACCAGTCATACCAAGAATTAATACAATAAATCCTAAAAATAATTTTTTTGAAATTTTCAAAATAAACCCTCCTAACTAAATATATATATATTATAACGTAAAACTTTTAGTTTTGACAAATAAATTTTATTTTTATAATTGTAAACGATTACAATTTATAATAAATTTTTTTAATTATTATGTATTATATATTATAATAGAAAAAAAATCAATATAAAAATAGAAATTGACTTTTCAAATAATGAATGATATAATCAGTTTTGCTATTTTTAATAAAAATTAAATAATGGAGGAAAGAAAATGAGAAATGAAATGTTATGGTTTATTTTACTAATAATCAATTTTTCTTTTATAATTTTTTCGTATAAAAAATTTGGAAAAGTAGGTTTATTTACTTGGATACCGATTTCTACAGTACTAGCAAATATTCAAGTTATGATAACATTACAACTTTTTGGATTTACAGCAACATTGGGAAATATAATATATGCTAGTGCATTTTTAGTAACAGACATTTTGTCAGAGAATTATGGAAGAAAAGAAGCGGATAAAGCGGTATGGATAGGATTTTTTAGTTTAATAGCAACGACTATTATAATGAATTTATGTTTATTATTTTTACCGGATAATAGTAAAAATTCAATGGATTTATATAATAGTATAAAATCAGTTTTTAGTATTATGCCAAGAATAGCAATTGCCAGTTTAATAGCATATATTTTATCTCAAAAGCATGATGTATGGGCATATCATTTTTGGAAAAAAAGATTTTCAGAGAGTAATCAAATATGGATAAGAAATAATTTAAGTACAATGATAAGTCAGTTAATAGATAGTACAATTTTTGTACTTATTGCATTTGTTGGAACGATGCCTTTTAATATTGTTATTGAAATATTTTTAACAACGTATTTATTAAAATGGTTAGTAGCTGCTTTAGATACTCCTTTTATATATATAGCAACGTATTTAAAAAAGAATAATAAAATAAATGAAATATAAAAAAATAGAGGAAAATCCTCTATTTTTTTATATTTATAATATTAATTTTCTTTTATTAAAATTTCAGTTACTTGAAATATATGATTTTTAATACGTCTGTATGTATTTAACATATCCATATAACCAATAGTATAAAAAAGGTCTTTTTTGGTATTTCTAAACTCATCTAAATGCGTATTTCTAATTTCTTTAAATAAAGTTGTAATTTTAGTTTTAACTTTAAAAGATTTTAAATAATTTTCTTCAGTTCTTTCTGTAGATATAATTTCATTTACAAAATGAAAGTAATTATTTAATTCAGAATGTAATTTTAACAAATCAACTTTTTCTGCCTTATCAAGAGTAATATTGTTATCTAAAAGTTTTAAGTATAATTTTATTTCACTCATTAAATAATCACTAATTGATTCATATTCATCAACAATTGTTAAAACATTTTTTGCTTCAATAGAGATTTCATTAGAAAAATTTTCCCCCAAAAGCATAGAAGAAATAGATGAAATTTCTTTTTGAACGATGTCTAATTTATCTTCTAATTTAAATATTTCTTTAACCTGATTAGATGTTTTATCTAGATTTTTTTCAAAAATAATTTTAACAAGCTCAAACATTTTAATAACATCTTTTCCCATATTTTCAACTTCGTCATTAATATTAGAAATTGCTATTGTTGGCGTTTCAAGCATTCTTACATCTAAATGTGTATATTTTATTTCTTTAGTTTCGTCTTCTGTTGAAGGTATTAATTTTTCAAGTAATTTTGCAAAATATGTTATAAACGGTGTAAATAATAATGCATTTGTAACGTTAAAACTAGTATGAGCTGTAGCTAATAAAGTAGTAGGGTCAGTCGTATGGTTTGTAATGTTTTGAATAATATTATAAAAAAATGGAAAAATACTAATAACCCAAGTAACTCCAATTACATTAACTATTGTATGAGCAAGAGCAGCTCTTCTAGCATTTACTGAGGCTCCTATTGATGCTAAAAATGCAGTTATTGTAGTACCAATATTTTCTCCTAGCACTAAAGCTACTCCGGTAACAGGAGTTATTAATCCTTGACTTGCTAAACCTATTGTTATTCCAAGTGTAGCGGATGAAGATTGAACAACACTTGTCATTAAAGCACCTACAGAAGCAGCTAAAATTATACCTTTTAAATTATGTGCTTGGAATTTATGAAATAAACTAATGAAATTTGGGTCAGATCCAAGTGGTTTAAATCCTTCTTTCATAAATTCTAAACCTAAAAATACAAAACCTAAACCTAATAAAACCATACCTCTATTTTTAGTTTTTTCTTTTTTACCAAAAACAAATATTAAAGCACCAATACCCGCAATAAGTTGTCCATATTTACCTACTTTTAAAACTAGAATCCATCCAGTAATAGTAGTACCAATATTTGCTCCTAAAATTAATCCAAGAGATTGTTTTAGAGTCATAAGACCAGCATTAACAAATCCAACTACCATTACAGTTGTAATAGAAGATGATTGAACAAGACCAGTAACTAAAATTCCTATAATTACTCCAATAACTCTATTATCTGTTAATGATGATATTATTTTTTTTAAACGATTTCCAGCTAAATTTTGCATTCCATTAGATAGATAATGCATTCCAAATAGAAAAATTCCTAAACCACCTATTACTTTTAAAATAATCTCATTCATTCCTTTAAATTTCCTCCTTATAGAATATTTAATAGCATATAATTTTATCATATAATTTAATTTTTTTAAACTAAATTTACATTTTTTTTACAATTAATATAAAAAAGAACAATATGGCTTATTTTAATACTGTATAATGCTTTTTATTTAAAAATAAAGTAAAAATTATAAACAAATAGTGTGTTTTAAATTTTTTGAAGATCGAGTTAAGGCTACATATATTATGTTTAATTCTTCATAAAACCATTTTTTTATTTTTTTATAAAAAAATACATTATCTTTAGATCTATCTAAAATTTTTAATGTTTCATTTATATTCATAAAATCGTTTAATAAATAAACATTTTTATATTCTAATCCTTTAGCAGCATGAACTGTAGATAAAAATATATTTGCTTCATTTTTATTTTTACAAATCGACTTATCAATTTTTTCTAAATAATTTTTCATATTATGGCCATATTTTTTTATTAAATTAAAAGATAAAACGATTTCACTATTCAATTCTAAATTCTCTTCTATATATTTTTCTAATTGAGAAAATGATTTATATTTTTTTATTTCACTATTTATATTTTTTCGATTTCCACAATACAAACTATAACAGTCTTTTAATGCTGAAAAATCAATTTTCCTAAAAAAAAATAATTTTTTATCTAAATTTTCTATAGCATATTCAAAAAGTCCAGCATTTGTTCTTGCAAGAACAAGTATTTTTTCATCTTTAAAATCTTCTATAATTTTTTGATTTATATTTTTTCCAACGATAGTTATATTATTCTGTTTAAGTTTTAAAATTTTATTTACAAAATCAGCTAACTCACTTCCTATTCTAAAAGAATGTGTAAGATACATAATAGTACTATTTTCTAATTTCATAAAATATTCCATTGCATTTATAGCACCTCTAAATGCATAAAGCTGTTGGTTTGTATCACCTACAATGATTTTTTTCGCATTTGGGAATTTATTTTCAATAATGTCAATAATTACACCATTGCTATCTTGAGCTTCATCAAGGAGTACAATTTCATAAAAAAGTTCTTTCTCTCTATATAATTGATAAAGTTTTAGATAATGGTCATGAATTTGAGGAAGTCTTTCATTATTCATATCATCAAAAATTTTATTTAATATAGTTTTAATCGTATCATAATAATTTATTAAAAGTTCATCTTTTTGTAGTAGCTCAAAATTAAGTTCAATACTTTTTAAAATATAACTATCTTTTTCTTCTAAAATTTCATCTCTATTTTTTGATTTTTTATTTTCTATTTTTATTAATAAATAATCATAAAGCAGTTTACTTAATAAAATAGAAGTATCTAAACTTTCAAGTTTTTTTTCATATCTAGCTTCATTTAGAATTATAAAATTTTTAATATCTTTTAGTAATTTGTTTTTCAAATCAAAAGAATAAAAAATATACTCTCTGAAATAGTTAATAAATTCTTCGATAGAAGTATATTTACTTTGTAAAAATTTATTGTATAAATTGATATAATTTTTTGCAGATTTATATGATAACTTATATTTTTCTGATATTTCAATTATATTTAAATTATTAACTAAATTTTTTTTTGAATAATATTTATAAGCTAAGCCATGTGCTGTTTTTACCTCAATATTTTTTAGATTATATTTTTTAAATTTTTCTTCAGCTTCTTTTTTCATAGCTCTGTTATATACTAAATATAAAATATTTTTGTTTATATTTTTTAAGGCTATTCCCATAAGAGTACTTGTTTTTCCACTTCCAGCTACAGCATTTACAACTAAAAGTTTTTTATTGCTATTAATAATTTTCAATTGTTCTTCTGTCCATTTTGGCATATTTTTCTCCTAAAAAAAAGAAGCATTAAGCCTCTTTTTTCTTTTGTTTTAATATATACTTAATTGCTTCCGTTGCGGCTATAGTACCATCAGAAACTGCAGTAGTTACTTGACGTAAAGACTTTTCTCTAACATCACCAGCTGCATAGATTCCTTCGATATTTGTTTTCATATCATCTTTTGTAATAATATAACCATTTTGATCTACATTTGCAAAAGTAGAAAATAATTCAAGAGAACTTTTTGTTCCTAAATATAAAAATGCATAATCAGCTTTAATTTCTTTTTCTTCGTTATTAATTTTAACAATAACTTTTTCAACGAAATCATTACCAGTAATTTTAATTAATTCGCTATTAGTTATTATTTCAACTTTTTCATTATTTATTAATGCATCATATGTTTTTTTATGACATTTCAATTCTTTTTCATTTACAAAAATTTTAATGGTTTTTGAATATTTTGTAAGAAAAAGTGCTTCTTCAGCGATCTCTTCACCTTGACCAAAAAGTGTAACATCTAAATTTTTGGTAAAAGCACCATCACAAGTGGCGCAATATGAAACACCTTTTCCAAGAAATTCTTCTTCACCTTTAATTTTTTTACTATTGTTTTTAGACCATCCTGTAGCGATAATAATAGTTTTAGCTAAAAAATTATCTTTATCAGTTTTTATTATTTTTGGTGTAGAATAAACATCAATATCAAGTAAAGTAGCATTGATTATTTCAGCACCGTATTTTAAAGCTTGTTCTTTCATTAAATTATTTAATTCTTTTCCTTTCAATCCTTCGGGGAATCCAGGATAATTATCTATTTTATGAGCTGAAATTAAACTTCCTACATTTTCTTTATGAAGTATTAGTACATTCATATTAGCTCTAGCACCATAAATAGCTGCTGTAAGTCCAGCTGGACCACCACCAACAATAATTATATCATATATTTTGTTTTTCATATATTATCACTCCTTATTATATTAGAGAATTCTAATATAATTATATCAAAGTTTATCTAAAAAATCAATTAATTCTTTTACTTTTAATTCTTGAATTTCATAGCAAACGATTTTACCAGTTTTTTCATATTTTAATATTCTAGCATTTCTCATATAAGCGAGATGTTGGCTTACACTTGATTGCGAAACCCCTATTATTTTTTCTAATTCACCAACACAAGTTTTTAAACTATTTTCAGATCTGTCACAAAGTGTTTTTAATATTTGAAGTCTAATAGGATTTGATAATAATTTTAAAATAATCGTAACTTTATCGTAATTCATAATAATTCCTTTCTATATTTTATAATATATTTTTTCTAAATTAATTGTAGTTTTTTCACCATGGCCTGGATATAAAATAGTATCATTTGGATAAGAAAGAATTTTTTTTATACTATCCATAATACTTAGCATATTTCCAGTAGGGAAATCAACCCGTCCATGAGTACCTTTAAAAATAGTATCTCCTGTTATTATAATTTTTTCTTTTTTATTATAAAAAACTTTACTACCTATTGTATGGCCTGGAGAATCAATAACTAAAAAATCATTAATATAGTCTCCACCAGAAACTTTTATAATTTCATTATTGTTATATGAAAAACAAGTTCCAATTACAAATTTAGATAAATTTAAATTATCATTAGTTAAAAATTCATAATCTTCTTTACCAATATATACTTTGCAATTGTATTTATCGACTATTTCTTTTATTCCAAGTATATGATCAATATGTCCATGCGTTAATATTAATTTAGTTAAAGTTAAATTTTTTTCTTTTAAAAAGCTATCTATTTCAGTAATATTTTTTGAAGCAATATCAAATAATATAGCATTGTTTTGATCATAAACTAAATAGCAATTAACTAAAAGAGAACCTAATGTAAATATCTTAATTTTCATAAATTCACCTCTATAAGATTATACGAATTTTTAAAAATAAAAGCAATAATTAATTTTAATTGACATTTTTTTCATATATAACTATAATTTAATATAATAAATACTAAGGAAGGTAATAACAATGAAAAATAGAAAGCATCAATTAGCTAATGAAAAAATATTAAAATTAATATTAAAATTATCTTTACCTGCAACGATTGGAATGTTAGTTTCATCACTATATAATTTAGTAGATACAATTTTTGTAAGTAAAGCAGAAGGACCTTTAGGAATAGCAGCTTTGACGATAGTATTTCCTATTCAAATGTTAATTATGGCGTTTACTCAAAGTATTGGTATTGGTTCAGCTTCAATTATATCAAGAGCTCTTGGTGAACATAAAAATGAAAAAGCAAGTGAAATGTTTGAAACAACAGTTATTTCTTTAATTATTTTGAGTGCCTTAGTTATATTTTTAGGAGTATTATATTTAAAACCAACACTTTTATTATTTGGTGCAACCTCTTTAATACTTGAAAAAGCAAAAGATTATTATTTTATTATATTAATAGGTTCGCCATTTTATATATTCGCGTTAGGACTTAGTAATATTGCTAGAGCAGAAGGAAACTTAAAAGTATCAATGAATGGGATGTTATTTTCAGCAATATTAAATATAGTATTAGATCCTATTTTTATATTTAAACTTAATTATGGGATTAAAGGAGCAGCACTTGCGACTGTAATATCACAATTTATATCATTTTTATATTTATTTAGATATTTCTTTTTTTCTAATAATTCGTATATAAAATTTAAAGGATTTATATTTAGAATTAATTATTTTATTGAGATGATAGGTATAGGTTTATCTTCATTTACAAGACAAGCAGTAAGTTCAATAGTTGCAATAGTTTTAAATAATACATTAAAAATATATGGTGGAGAAATAGCAATAGCTATAATGGGAATAATAAATCGGACATTAATGGTAATTTTTTTGCCGATGTTTGGTATAATACAAGGAATACAACCTATTATAGGATTTAATTATGGTGCGAAATCATTTGGCAGAGTAAAAGAAACATTGAAAATGGCTGCAATAATAACAACTATTTTTTGTACAATAGTTTTTTTGATAATGCAGCTATTTCCAAAAGGAATTATAAGAGTATTTTCAAATGATATTAATTTAATAAACATGTCTATATTACCAATTAGAGTGTTTAGTTTAGCATTTATTACGATTGGATTTCAAATAATTGTGGCGGGATATTATCAATCAATAGGGAAAGTGATTCCAGCATTGATATTATCTATCGCTAGACAATCAATATTTTTAATACCTTTAATATTGATATTACCAAAATATTTAAATGAATTTGGAATTTGGATATCATTTCCAATATCAGATTTTATGGGGTTTTTAATATCGCTAATATTTATATTAAAAGAATATAGGAAAAATCTCTCACAAAAATAAATCTTTAATGAAATTTTTAGATTCCTATAATAGACTATAATATAATTAAGGGTGTATGTGGGAGGCATTTATTAATGAAAAAAATATTAGTTTTAATAATAAGTATTATTTCAATAACTATATATGCAGAGGATATTCACTCTTTTTACGTAAAATATAAAATAGAGGGGATAAATTCAGGAATTCTTGAAATATATATAAAAGATAACGGAGAAAAAGAAGCTTATTATTCTACTGTAGAACTTAGTTATGGGAAATACAAAGATTATGTAAGAACAGGTTTGATAAAAAATAGAGATATATTATATACTCTTAATTTTAAAAATAAAACATATTTTAATGAAAAGATAGAAGAGGATTATGTACCAACATATGAATTTGATTTTTCTAAATATGAAAAAGTAGGTAACGGTAAAATCCTTGATGTAAACACAGAAATATATAAAGTAGGAAATAGTTATTATTGGGTATACAAAGGAATAATATTGAAGAGTTTACAAGTGATTAATAGTAATAAGATAAAAACAAATGCGATAGAATTTATAAGAAATTTAGAGATTCCAGAAGAAAAATTTGATATCCCAGAAGGATTTATTTTAGTAGATAATCCATTAAATAAATTATTTAAAAAAGAAGATAATCTAAAGAAAGAATTTGAAGAGTTTAAAGAAGATTTAGAAAAAGAATTTAAAGAATTTAAAAAAAATTTAAATAAATAAAAAATTTAAATACTCCACTTATAGTAAACGGTTAAAATAATAAGACTGTTAGCTATAGGAGGAGTATTTTTTATTTAAAAAAAGGAATTAATATTTAATAAAGTATATGTTAATTGGAGGCGAGTGCTATGAAGAAAATAAATTTTTTTATATTATATTTTATTTTAGTAAATATTATTTTAGCAAAAGAGAATTTCATTTTACCAATAGTATTTTATTCTCCAGAATTAGGTTTTGCTGGCGGAATAATCTTTAAAAATTTAGATAAAAAAGAAACAATGTTAATTTCAAATAAAATATCAAGTTTTTTAACAACAAATCAATATAAATCTTTAAATTATAATTATAATATAAAATATTTTAATAATAGTAGATTTAATATTAACTTAAATTATAAAGATTGGTTATATGATTATTATTTAAATAGAAAGATAATAGATGATTATAATCAAAAAATAATACAAATAGAAATAAATTATAATCAAAAAATAATAAAAAAAATATATTTTAAATATGGTTATAATTTTAGCAAAATAAAAATAAATAATAATAATTTTTATTTAGAAAAAGAAAATATAAATTCATCAGGAATAAATTTTGCACTAAACTATGAAAATATATTAATAGAAAAAAATATGAAAAATGGTGAAAAATTAGAAATAACTACAAATATTTATAATAAAAAGTTATTAAGTGATCAAGATTATATAAAAAATACTTTTGATTACAGAAAATATTTCAATATAAAAAATAATCAAATAAGAGCGCAAATAATGATAAAAGATATAAATGGGGAAGTACCTTTTTATTTGAAATATGATTTAGGTTCAAATACTTTAATAAGAGGATTTACAGAAAATAAATATTTAGGAAATACTTTTATTGGAGGACAAATAGAATTCGAAAAAAATTTTAATAAAAGATTTACAGGAGTTTTATTTTATGGTACAGGAGATACAAATGATAATTTTGATAATATAGATATATTAAATTTAAAATCAGCAATTGGATTAGGTATTAAATATATAATTTCTGAAGATTTTAAAGTGAGAATGGATATGGGATTTGCAAGTGATGGAGATAAAAATATGTATATAAATTTTTCAGATGCAATATAAAAAATAAGGGGATTCCCTTATTTTTTAATTGTTTTATTAGGGTGAACATAATAATAATTTTCTATTCTTAATATTTTGGCTTTAGTAAACTTGTCAGTAGGGAAAGTATAAGTTTTATGAGCTTTTACAATTCCCCAAATATCTTTTCTTTTTTCAGATGTACCATCACTTAAATAATATCTTCTATCTCTTATTGACACGAGCATACTTTGATTATTAAGGTTTTCAGCTTTCCATTGAATTTTTGTCCGACCATCAGGTTTTATATAATATCTTATATAAAAGTTTATTTTATTAAACTTTCCATAGTATTCCCATTTTGTCCAGTTTAATTCATAAAAGAATTTAACTAAAATTATTATTAAAAGAAAAATAATAAAAATAAGTCTTTTTCCCCATTTTTTTATATAATTTATTTTATTTAACTTATTCATATAAATACACCTCCTTTTTAATTATATTATATAACAAAAGTAGATATTTCCTGCAATAAATTTATATTTTCGTGTTGACTAAAAGCATAAGATGCAATATACTAGAAGAAAATTTTAAGAAAGGAATATATATAAATGACACATAATTTTATTTACAATAAAAGATTTTTTCAAAAAGTTTTTACAATAGCAATTCCAATAGCAATTTAAAATTTAATAATTTCATCCATAAATTTAGCCGATGTGTTTATGATAGGTAAATTAGGTGAAAAAGAGAGAGCAGCATTAGGACTATCAAATCAAATAATGTTTTTATTAGTACTCTTATTATTTGGAATAAATAGCGGTGGAGCTATATTTATGTCGCAATTCAATGGAAAAAAAGATACAAAAAATATGAAAAAGGTATTAGGAATAGTACTAATAAATAGTTTTTTAGCAGGAGTTATATTTTTTCTTATGGTAATTTTAATACCAGATTTTTTATTAAAAATATACACAAAAGATAAAATAGTTGTAGATATAGGTATGAGATATTTGAAAATAGTTTCATTTTCTTATATTTTTACAGCGATAAGTTTTGTTTACTCAGTACAACTACGTACTATAAATAAAACAAAACTAACAGTTTATTCTAGTTCTTTAGCATTAGTAATTAATATTACATTAAATTACTTGCTTATTTTTGGTAAATTTGGATTTCCAAAACTAGGAATAGAAGGAGCAGCAATAGCAACAACAATAGCTAGAAGTTTGGAATGTATTTTTATTGTTTTTTTAGTTTATAATAATAAATATATATTTGCAGCAAAGTTTAAAGAAATAATAGGATTTGATATATTTTTTGTAAAAAAATATTTTTTTACAACGTTACCAGTTCTTTTAAATGAAATGATTTGGTCATTTGGAATAGCAGCATATAATATATGCTAGAATGAGTACTCAAGCAATAGCGGCTATAAATATAGTAGGTAGTATTGAAAGATTATTGTTTGTATCATTGATTGGAGTAGCAAGTGCAGCTAGTGTTATGGTAGCTGAAAAAATAGGAGAGAAAAATGAAAAAGAAGCATTTGAATATGCAATAAATTTTATAAAATTAATTTTTATAATTGGGGTTATTATGTCGATAATATTGTATGGAATGACATTTTTTATTTTAGATTTGTATAATATTTCAGAGAATGTATATAAATATTCAAAATATATAATGTTTATTTTATGTTTTTCTTTACCAAGTAAATATAGTAGGAAATTTAAGAGCAGGAGGAGATACAAAGTTTGCTTTATATATTGATACAGGTGCACTTTGGTTAATAGGAGTACCTTTGTCTTTTATAGCAGCATTTTATTTTAAATTACCAATATATTTAGTTTATTTTGTTACATTTTTTGAAGAAATAACAAAAGCAATTTTTGGAATAAAAAGAGTTTTTTCAAAAAAATGGATAACTAATTTAGTAAAAGATATAAGTTAATTTATTTTAATAAGGAGAAAAAATGTTTAAATATCATAATACATATCAAGATTTTTTTAATGAAAATAAAGAATTATTAGAAAAAATAATAAAGGAGATAAATAAAGATAATTATACACCTCAAAAGGAAAATATATTTAAGGCATTAGAAACAGATTTATATAAAAATAAGATTGTTATACTTGGAATGGATCCATATCCTCAAAAAAATGTGGCTACCGGACTAGCTTTTGAAGTATTGCTTGATTCTTGGCAAGATAAAAAAATAAATACATCATTAAAAAATATATTAAAGTTAATATATAAATCATATTACGGAGAAATATTATCAATTAATGAATTAAGAAAAAAAATAGAGAGTAAGGAGTTTAATATAGAAAAACCTAAAAAAATGTTTAAAAATTGGCAAAAACAAGGAGTTTTATTGTTAAATACAGCTTTTACAACAAAATTAGATAAACCAGGAGCACATATAAAGGTTTGGAAAGAGTTTTCAATTAATTTAATAGAATATATTTCTAAAAATAATCCTAGATTAATATGGTTTTTATGGGGTGAAAAAGCTAAAAAATATGAAAAATATATAATTAATAATAAAAATATATATTATTCAAATCATCCAGTAATTTGTGGACAATTAATTAATCCAAAAGATTTTTTAAATTCTAACTGTTTTTTAGAAACAAAAGATATTATTAAATGGATATAAAATATTTTAAGAAAATTTTAAAATTTATAGTATAAAAAAATATTAGAAACAAAATTTAAATTTTTATTAAGGAGTGATGTATAAATGAAAAAAGTTACTGTTACATTATTTTTTATGACTTTAATAAGTTTAGTATCTTTTTCTGCAACAGATCAAGAAGAATTTGTGAAAGTAGCACAAAATCTTATGCCGTCAATAGTAAATATAAGAACTAAAACAACAGTAAAACAAACTGTAGTTGATCCATTTGAACAATTTTTCTTTGGAGAATCAGCTCCAAAACAAATAGAAAGAGAAGGAAGTTCTTTAGGATCTGGTTTTGTAATTACTAAAGATGGAGAAATAGTTACAAATAATCATGTAATTGAAGGTGCTTCAGAAATATTTGTAAAATTTAATAATAAAAAAGAATATGAGGCTGAAATAGTAGGGAAAGACCCAGAAACAGATATAGCGTTATTAAAAATTATTAATACAAAAGATAAATTTAAACCAGTAAAATTTGCTGACTCAGATTTTTTAAAAGTAGGACAATGGGCAATAGCTATTGGTAATCCATACGGATTAAATAATACAATGACATTAGGAATTATTAGTGCAATTGGTAGAAGTGGCTATGGAATAGAAAGAATAGAAGATTTTATTCAAACAGATGCTTCTATTAATCCAGGAAATAGTGGAGGGCCTTTAATTGATATTTATGGAAATGTTATAGGAGTAAATACAGCGATAATTTCTAAAACTGGTGGAAATACGGGGATAGGATTTGCTATTCCTTCAAATATAGTTAAAAAAGTAGTTGAAAGTATACAAAAATATGGAGAAGTAAGACGACCATTTATGGGAGTTAGATTCCAACCAGATTTTACATCTAAAATGGCTGAAAGTATGGGATTAAAAGATGGAAAAGGAGCTTTAATAGCAGAAATAGTAGATGAATCACCAGCAGCTAAAGCAGGACTTATGAGAGGGGATGTTATTACAGCTATTAATGGAAGAGTAGTAGAAACTTATGCAAATGCAATAGCAATTATATCATCTTTTCAACCTGGAGAAGAGATATCAGTTACAGTATATAGAAAAGGAAAAGAAAGAAATATTACTTTAAAATTAGGATCTCGAAGTGATGAAAGTTTAAATCCGAGTGAAGCAATATTAGGAATGCAGCTTCGAACATTAAATGAAGCTCTTAGAAATAAATATAAATATTCGGATACTAAAGAAGGAGTTGTAGTATTAAATGTAGATCCAGCATCACAAGCAGCTAGAATAGGTATAAAAGAGGGATATTTAATCGTAGAAATAAATAATACTATTGTAAAATCATTAAAAGATTTAAAACAAGTATATAATTCAATTGACGAAGGAGAAAATGTACTTTTATATATAGAAAATAAAGATTTTGGAAGATATGTTTTATTAAAAAAATAAATTAAATAGCAAATAAAAAAACTTCCTTATACTTGATATGCTTTTGTTTAATGACAAAGGCGTATTCATATATATAAGGAAGTTTTATTTTTTAATTAGTTATATTTAATCAGTAAAAAAATCAAAAATATTTTCAAGCATAGATGTTTCTGCTTTAAAAAATTCTGTATATTTACATTTAGTACATGTAACAGTGGTAAACTTTTTATTTTGGACATCAAAAATTTTTGATAAGCCACCACCTGTCATAGCAACAGTATCAGTTTCATAGCTGATATTACCACATTTTGGACATTTATAATTTGACATATATATTCCCTCCTGAATAATCGTTCTATGACAATTGTACTATATATCTATTTTTTTTCAAGTATTTTATTAATAGCTTTTCCTATTTCAGAAGTTTTAGCAATTCCACCTAAATCTGGAGTAAGAGTTTTTCCGTCAATTAATAATTCTTCTATTGCATCAAGAATCTTTTTTCCCCAATCTTCATATCCAAAAAAATCCATCATTTGACTAACAGACCATATAGAAGCAAGAGGATTTGATATTTCTTTGCCAGCGATATCTGGTGCTGAACCATGAATTGGCTCAAACATAGAAGGAAATTTTTTTTCAGGATTAAGATTTGCTCCAGCAGCAAGCCCCATTCCCCCAGCGATTGCAGCACCTAAGTCAGTTAAAATATCACCAAAAAGATTTGACGTAACAACAACTTCAAATCTTTTTGGATCTTTTACCATAAACATAGCAGCAGCATCGACAAGATATGAATAAGTTTTAACATCAGGATATTCTTTTCCTACTTCCTTAAATACCTCGTCCCAAAATACCATAGAATAATTTAAGGCATTAGCTTTACTAATACTTGTAAGAGTTTTTCCTTCTTTTCTAGCAATTTCATAAGCATATCTTATAACTCTTTCTGTTCCTTTTCTAGAAAATACTCCTGTTTGTAATACTACTTCATTTGGTTTATCTTTAAATAACCAATCACCAGCTCCAGCATATTCACCTTCACTATTTTCTCTAATAAATAACATATCAATATCTTCTCTTTTGACATCTTTTAAAGGACAAGGAGCACCTTTTAATAATTTAACAGGTCTTATATTGATATATTGATCAAAACCTTTTCTTATTTTTAATAATAAATCCCATAGTGATATATGGTCGGGTACTCCAGGGAAACCAACAGCTCCAAGATAGATAGCATCAAAATTTTTTAATATTTCCATCCCGTTATCATCCATCATTTTACCAGTTTTTAAATAATATTCACACCCCCAAGGAAAAGTTTTAAATTCAAAAGATATAGAAGATTCTAATTCCTCTATTTTTTTAAGCACTTTAATTCCTTCATTAATTACTTCTGTTCCTATTCCGTCCCCAGGAATAACAGCTATTTTAAATCTCTTCATAGTTTTACCTCCGAAAATTGTATTGAGTAAATTATACAATAAAAAAGTAAAAATTGAAAGTTAATTTTTAATCAAAAAATTTTAATGAAATTTTAATAAAATATATTTATAGTAAAATTTAGAAAGAAAAATAAAAGGTGATAAGCAGGATGAGGTTATTATGCAAAAACCTAAATAACTTCATAGATAAGTATAAAAAATAATATTAAAAAAAATAAAATTTAAATATTGAGAGGAGATAGATTATGAATAATTATAGTGAAAAAATACAAGAAATTTTAAAAGAGATGAACAAAATAGTAATTGGACAAGATGAGATTATAAAAAAGATTTTAATTGGAATTTTTATAGATGGCCACATTTTATTAGAAGGGCTTCCAGGTCTTGCAAAATCTCTTACTGTAAATAGTTTAGCTAAGATATTTAATGTGGGATTTAGTAGAATACAATTTACTCCTGACTTATTACCTAGTGATATTATAGGGATGGAAATTTATGAGGAAGAAACGAAAGAGTTTAAAGTAAAAAAAGGACCGATATTTTCAAATTTTATTTTAGCGGACGAGATAAATAGAGCACCAGCAAAAGTTCAATCAGCGCTTTTAGAAGCAATGCAAGAAAGACAAATAACAATAGGAGATACAACATTTAGGTTAGATAATCCATTTATAGTGCTTGCTACACAAAATCCTATTGAACAAAATGGAACTTATCCACTTCCAGAAGCTCAACAAGATAGATTTTTGTTTAAATTAAAAATAGATTATCCTAAAAAAGAAGTAGAAAGAGAATTGATAGAAAGAATTTCAAAAGGAAATATCCCTGAAAAAGTAGAGGTTAATATTTTAATTACGCAAAATGATATAGAAACTATAAAAAAAGAGATAGAAAAAGTTTTTATTAGTGATGTGTTAAAAGATTATATAATTGATATTATATTTAAGACTAGAGAAAAAAATAATTATATTGAATGTGGAGCATCTCCTAGAGCAACAATTAATATTTTAAAAGCAGCTAAAGCAAATGCATATATAAGTGGGAGAGATTATGTATCATTAGAAGATATTAGAGAAGTAGCATATGATATATTGAGACATAGAATTATTTTAAGTTATGAAGCTGAAGTAGATAATATAACAGTAGAAAATGTAGTAGCTGATATATTAAATAGTGTAGAGATAAAATAGGAGATGATATGGCTAGTAAAGAAATTTTAAAAAAAATAAAAAAAATAGATATTAATTCTAAAATATTAAGTGAGCATCTTTTAGTAGGAAAATATCATTCAAAATTTAAAGGAAAAGGATTAGAATTTTCTAATATTAGAAAATATACTCCTGGAGATGATGTTAGAAATATTGATTGGAAAATAAGTAAAAAATTACAGAAAACATATATAAAAGAATTTATAGAAGAGAGAGAACTTTCAATATATTTTTTAATAGATATTTCAAACTCGAATATTTTGCAGAATAGAAGAGAGTATATAGCAGAAATAGCAGGAACAATAGCTAATTCTGCTATAGAAAATGGAGATAAAATAGGAGCATATTTATTTACAAATAAAATAGAAAAAATACTAAAAGTAAATAATACTAAAAAGCATCTTTTAGCAATTATAGATGCTATTCTTACTTTTCAAAGTGAAAATAAAGATACAAATATAAAGAAATCTATTGAAGAGTTTTTAAGTTTAAAATTAAAAAAAGGGATAGTATTTTTAATTTCAGATTTTTATGATGAAAATTATGAAAAAGAAATAAAATTTTTACTCAAAAAACATGAGCTTATTTTAATTAGAATATTTAATAAATCATTTGAAGCACTTGATAAAAATATAGTTTATAGATTTATTGATAGTGAAACAAATCAAGAAATTTTATATAAAAAAAACAGTGAAAATCTTAATATGAAATTAAATTTTAATAATTATATAGAATTTGAAGTTGGAGAAAATTACATACCAAAATTAATAAAATTATTTAATTATAGAGGTAGAAAATGAAAAAATTTTTTTTAAAATTGATTATTATTTTCATAATAATATTTAATACAATATTTGCAAATAACTATCATATTGGAGATATTATTAGATTAGAAATAAAAAATAGTAATATCAAAGAAGTAAAAAATGTTTTTAAAGATTTTGATATAGAAAAGATAGAGGAAAAAAACAATAAAATATATATTGAATTTCGGAGTTTTGAAACTGGAGAAAAAGATATTATTTTAGGTGATAAAAAGTTAATACTAAATATTGATAGTACAATAAAAAAAGATGAAACGAAACTTTATAATTTCAATAATAATAAAAATCTGAAATTACAAAAAATATATAAACATTTTGAGTATTATATATTTTATTTGATTTTTATATTAAATATAGGGTTATTAATAAAAATATTTATTAAACAAAAAAATAAAGAAAATGAAATAGATATAAATGAAATTATTGAAAAAGAAAATGATTTTAGAAAAATAAATTATGAATTTAAAAAATATATAGATAAAAAATATAATACTAGATTTTTAAATGGTATTTATAATAATAATTTTAATAAAGAAATAGAGAATTATTTAAAAAATATAGATGATTTAATTTTTCAAGGTAAAACAATAAATATAGAAGAATATAAAAATAAAGTATTGAAATATATTAATATTATTAAGGAGAAAAAAAATGTTTAAACATTTTTACTTGTTGTTTGGATTATTACCATTTTTAATTATATATTTTTATAAGAAAGAAAAAGCAATAAAATTTCCAAGTATAAAAATATTAAAAACAAATCTAAATACTAAAAAATATAAAATAGGTGATTATTTGATATTATTATCTTTGGTATTTTTCTTTATTGCATTTGCTAGACCAATAGAAAGAAAAATAGATAAAATAGAGAAAAAAGGTATTGATATAGCACTTTTACTTGATATATCTCAAAGTATGTTACAAAAAGATATAAAACCAAATAGATTAGAAAAAGCAAAAGAAGTTTTAGAAAACTTTGTAGATAGTAGAAAAAACGATAGATTTGCTCTTTCTGTATTTGCAGCTACGGCTTATACGAGAATACCACTCACATTTGACTATGATATTATAAAAAACTCTATAAAAGAGATAAGTGTAGATGATATTTCTAATAATAAAGCTACAGCAATAGGTGTTGGATTAGTTAATGCTATTAATAGACTTAAAAAAAGTAAAAATAAAAGTAAAGTAATAATATTGATAACAGATGGTGAAAATAATTTTGGAGATATTTCACCAGAAGCAGCACTTAATATTGCTAAAAAATTAGGAATGAAAATATATACAATAGGAGTAGGTGGAGAATATCTTAAGATTAATAGTATCTTTGGGACACAAATAGTAAAGAATAATGAAATAGATGAAAAATTACTTTTAAAAATAGCAAAAGAGACAAATGGTAAATTTTATAGAGTAAAAGATGAAAAAGAATTTGAAGATATATTTAAAACTATTAATAAATTGGAAAAAACTAAAATAGAATCTAATCAATTTATTCAATACAAGGAAAGATATTTTATATTTGATTTAATAGGTTATATATTATTAATTTTAGGAATAATATTTAAGTATTTTATTTATATAATTATTCCATAAGGAGAGAGAAATGGATTTTGTTAATAAAAAGTTAATTTATTTAATAATTTTAAATATTTTAATAATTATTATATATTATATCGGAAGCAGGAAAAAAATTAATGCTAAAAAAAAGTTAAATTTAAATACAGATATATTTTTAGAAATATTTAAAGGTATTTTATATTTAATAATTTTAAATTTAATAGTTGTTTCTTTAATGCAACCAAGAAAATTTAAAAAAGAAGTAACAATAAAGTCAAAATCAAATAATATATTTTTTTTAATAGATATTTCAAAATCTATGTTATCTAGAGATATATTTCCAAATAGATTAGAAGTAGAAAAAAGTATAATAAAAAAAATAATAGAAAATTTATCAGGAGAAAAAATAGCATTTATACCTTTTTCCAGTGGAGCCTATATACAGATGCCACTTACAAATGATTATGATATGGCAAAAATGTTTTTAGACATTATAGATAGTGACCTTATATCAAGTGGTGGAACGGATATAAAAGATGCTCTAAATTTGATAAAAAATAAAATTACAAATAAAAATGATATTATAATTATATTAAGTGATGGCGGAGATGAAAAAATAGATATAAAAAAAGATTATAATATTTTTTCAATTGGAATTGGTAGTGAAAAAGGTGGTACAATACCAAATATTATAAATGGAGAAGAAAGTGGTTTTATAAAAGATAAAAATGGAAATATTGTTATAAGTAAATTAAATAAAGAAAATTTAAAAAAAATATCAAAACAATATTTTGAATATTATGATATACAAAATATTATTTCTAAAATAAAAAATATGAAAAAACAGGATAGAGAAGATAAAATAAGATATTATAAAGAATATTACCAATATTTTTTAGGAAGTGCATTATTATTATTACTTATAATTTATATCATAGAATATAGGAGAAAAGTATGAAAAAATTACTTTTAATTGGGATATTAATATTAAATTTATTTTTATTTATTAAAATATTTAACGAAAATTTATTTTATTTAGAAAAAGATTATAAATTAATAAAAAATAATAAAAAATTAATAAAAGAAAAAGAATATAATAAGATTTTAAAAAAATATGAAAATATAAAAACAGATTATTATAAAAATAAAGTAGAATATAATAAAAACATAATAAATTTTTTAAATAAAGATTATGAAGAAATAATAAAACAAAATATAAAAAATAATGTTTTATTATTTAATCAAGGATTGAGTTATAAAATATTAGGTGATAAACAAAAAAATATAAATAAAAAGTTAGAATATTATAAAAAAGCATTAAATATATTTAAAATATTAATAAAAAAATATGAAAAAATAAATAAAAGTAATATTAATATAGTAAAAAATTATGAGATAATATCTAATTTAATAAAAAATATAGAAGAAGAAAATCAAAAAAGTCAAACAAACAATCAAGAAAATCAAGATAAAAGAGAGAATCAATCAAATAATAAAAAACAAAGTGATTCTTTAAAAAATCAAAAAAGTCAAACAAATAATCAAGAAAATCAAGATAAAAGAGAGAATCAATCAAATAATAAAAAACAAAGTGATTCTTTAAAAAATCAAAAAAGTCAAACAAATAATCAAGAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGAAAATCAAGATAAAAAAGAGAATCAATCAAATAATAAAAAACAAAGTGATTCTTTAAAAAAATCAAAAAATCAAACAAATAATCAAATTAATCAAGAAATATTAAAATATCTAGAAAATTTAGATAAATCTCAAAAAAATGATTTAAAAAACAACTTTAATATATTAAATCAAAATCAAGAAAACCAAGAAAATCAATGGTAAAGAGGTGTGAAATGCTAAAAAAGTTAATATTAATATTTTTTTTAATACAATATATAAGTTTTGCAGAAATAATATTAGATGTTAGTGATACAACCGTGTCATTAAATCAAACTTTTAATTTAAGTGTAATATTTAAAAATGAAAAACAAAAGAAATTTAAAATAAATGGAATAGAAAATTTTAAAATTTTAACTACTTCAACACAAAGTAATACATCTATAATAAATACTAAAGTTACAAAAGAGATAGTTTATAATTATAAACTTTTACCTATAAAAGAAGGTGAATTTAAACTTTTTATAAAAAATTTAAAAAGTAATGAAATATTTATAAAAGTAACAACTACTAGTACAAGTAATATAAATCAAAAAAAAGATATATTTTTTAAAACAAATGATTTAAAGAAAACATATTATTATGGCGAAAAAATAGTTTTTGAAAATCATTTGATTTCTAAGAAAAATATTAATGGATTAAATATTGTATCTCAGGATGATTTTACTAATTTTTCTAAAAAGGATATGACTCCTAAAAATTATGATGGTAAATATATTAGAATAGAAGGGGAAAAAGCTATAGATTTAACAATACAAAAATATATATTAACTCCAATTCAAAGTGGAAAATTTGAAATAAATCCTACAGTATTAGAAGTAACAACTACATCTTTTGATAGTTTTTTTGATAAAAATGAATATATTTCTTCTGAAAAAAAAAGTATAAACATTTTACCTTTGCCAGAAAAAAATAAACCACAAAATTTTTCTGGAATAGTAGGAGATTTTAAAGTAGATTATAAATATGAGAAGCAAAATAATAATATTGTATTAAAATTAAAAATAAGAGGAGAAGGAAATCTTGATTATTTAGAAAATTTAAATATAAATTCAAATGATTTTAATATATTTCAATCAGTAAAAAATAGTAATGAAATAGTAATGAATAATAAAGTTTTTGTAGAAAAAGAGTTTGAAATAATATTTATTCCAAATAAGAATGGTAAAGTAAAAATTTCAGAGATAAAAATACCTTATTTTAATATAAATAAAAAAGACTATGAAAATTTAATTATTAATAAACAAATATTTAATATATCAGGTGTTAAAGAAGAAAAAAAACAAGAAATTATAAAAAATAAAGAGAATAAAGAAAATAAAGAAAATAAAATAACAGAGGATATACAAAAAGAAAACACTAATAATATAGTTTATAAAGAAGTTGAAATAAAACAAATTAATAAACAAGATGACTTTAAATTATATTTTTATATTTTATTAATAGTAAACATTTTTTATCTATTAATAAAAATTGTTGTTATAATTTCAAATAAAAAAAATAGAAAAAATAAAATAAAATTAAAAAATTTAAAAAACTCTAAAAATATAAAAGAATTTTATAATAATTATATAGCGATTATAAAAAATAAATATAATATTAATTTAAAAAATACAAGAAAAAGTGAATTAAAAAAAATTAATCAAGAAATATTAGAAATTTTTGAAATATTAGAAGAAAAATTAGTTAAAAATAAAGATCTTAATAAGACAGAAAAAATAAATCTTATAAAAGAAATAAAAAAAATTTGCAAATAATTAAAATTCACTTATAATAGTATTAAGAATAAGTGAAGAGGTGTTTTAATGAAAAAAGTATTATTACTAATATTACTAATATTTTCAATAAATATATATTCTAATGAAGATAAAAAAATAGGTTTATCTCTTGCAGGAGGTGGAGGAAAAGGTTTTTTTCATGTAGGAGTATTAAAAGTTTTAGAAGAAGAAAAAGTTCCTATTGATTATATTGCGGGGAATAGTATAGGGTCTATTATAGGTTCTTTATATGCTATAGGATATACAGCAAATGATTTAGAAAAAATAACTACAATGATAGATTGGGTAACAATTTTTGATGACACCCCTTCGCGTAGAGAAAAACCTATGGATGAAAAAATATTTTCTGATAAATATGCTTTTGCTTTACCATATGAAAAAAATAAAGTGAGAACTCCACAGGGAGTTTTTTATGGTGAAAAAATATATTTAACATTAAAAGATCTTATGTGGAATGCAAGATATGTAAAAGATTTTGATGAATATCCAATACCATTTAGAGCTATAGCTACTGATTTGATATCAGGGAATCCCGTTGTATTTTCTAAAGGAGATTTAGCTAAAACAGTACATGCGAGTATGGCAATTCCTTCAATATTTGTTCCCGTAAGAATAAATGGTAAACTTTATTGTGATGGATTGGTTTCTAGAAATTTTCCTGTGAGTGATGTAAAAAAAATGGGAGCAGATTATGTAATAGGTGTAAATATTTCCGAACAAGAAGAAGAAATTGAAAATTTATCAGTATTAGGAATATTAAATCATATTGTTTCATATAGAGGATTTGATTCAACAAAACAAGAGAGAAAGTTAGCAGACTTACTTATAGAGACAAAAGAATTAAAAAACTATTCTCCAACAGATTATTCTAAAGCAAAAGAACTTATTAAACTTGGAGAAAGAATAGCTAGAGAACATATAGAGGAAATAAAAAAATTATCAAATCCAGAAAAATTTGAAAGATTACAAAAAAGAAAAAAAGAATTTTTAAAACAAGTAGAAAAAAATTATAGAGAATTAAATTTTATTTCTAGAGTAGAAATAAAAGGATTAAAAAAGATACAACCAGAACTTATTTATACAATACTTTTTAAAAAAGTTCCATTTTATATTACAAAAGAAGAGATGTTTGAAAAAATAAAAAAAATATATGCTACTCAACAATTTGATAAAGTATATTTTGAGTTTGAAGGAGAAAAATTAATTATTGAAGTAGAAGAAAGGGCAGCAAATTATTTAAGAGTTGGATTTGCTATTAATAGTTATACAGGTACAAAATTATTTTTAAGTACAGATATAAATAATTTTAATTTAAAGGGGTATAAAACAGTTATAGAAAGTGAAATTTCAGATACTCCTATGGTAAGTTTAGCACATTCATTTTTTTATGGGATAAGAAACAAATATGGAATGAGAGCAAAATTTAAATATAAAGCTAATAAATTTGTTTATAAAAATGAAAGATATAGAACAGGATTATATAATTTTGATAATTTTATTGGAACAATAAGTACACCTTATTTAGATGGTGGTATAGGTTTAGGAGTGGATTTTTTAAAAACAGAGTATAGTAATAAAAATTCTGAATTTGATTCTTCATATTTTTATTATATTTTTAGATATGATGACTTAGATAAAGATAATTATCCCGAAAAAGGACAACAATTAGTTTTAAAAAATAGATTAAATATTGATATATTTAATTTTGAAAAAAATACAAAACCTAATAAATTTGAATTTAAATACAAAAATTATATACCGATTTTTAAAGAAAAGTTAACTTTAATAAATGAATATTTTTATGATAATTTAAAAATGGAAACTAATAATATTGGAGATATCCACTATTATAGTAGAGTAGGAAGTATAAAAGATAAAGAAAATTTAGAATTTTATGGATTAAGAAAAGATGCAGTAATAACAGATAGCATAAATATCTATAGGATTGGATTACAAAAAAAATTAAATAATTTAACTTACTTAATAGGGAAAATTAATTTTGGAAATTATAAAGATGAAAATTCACAAAATAAATTTATTAGGGGTTATGGACTTACTTTAGGATATAAAAGTATAATAGGACCTTTAAACGTGAGTATTACTAACAATGCACTAGTATCTGGAAGTTTAATTCAATTTAATTTCAGATTTGAAATATAATTAAAAAGATGGCTATTTTATTTAAGCCATCTTTTTAATTATAATATAAAATTTTATATTTATTTTTTAATTTTTTTAAGGCTATTATTTGAATTTGTCGTATTCTTTCTCTTGTTAAATTTAGCATATTTCCTATTTCTTCTAAAGTATGAATTTTTTCATTAAATAATCCATATCTATAAATAATAACAACTTTTTCTTTTTCATTTAATTTGTTAAGTTGCTGCCATAATTCATAATATTCATATTGTGTGAGTAAGTTTTCTTCGATATAAGTTTCATCAGCGACCATACTATGTAGATCAACATTGTCTTGAAATGAATCTTCTAAAGAAACAAAAGATTGATTTGTTAAATGTAGATATTTTTCAACATCTTTAACTTTCATTTCTAGCTCATGGGCTATTAAGTTTAAAGGAGGAAGTTCTTCATTTTCTGACTTGTATTTTTGAATAAACTTAGATATTTTAGAGATGTTATCATGTACATATGCTGGATAACGCATGGCACCTTTTGTAGTTGAAAGTGCTCTTAGAATAGATTGCTTTATCCACCAAGTTGCATATGTAGAAAATCTTCTACCCAAATCAGGATTAAATTTTTCAACAGCTTTAATAAGGCCTATATTTCCTTCTTGAATAAGGTCTGGCAATGATAAACCACAACCAAAATATTTTTTAGCAACACTAACAACTAATCGTAAATTTGAATTTATAAGTTTTTCTCTAGCTTCATCTGAACCAGCCAGAGCTTTTTTTGAAAGCTGATATTCTTCTTCTTTTGTTAATAACGGATAATAGCTAATATCTTTTAAATATTCTGTTATATACATTACACCCTCCCTAACTTAAATATAAAACTTTGGTATTCATAATCCCATATTTATTATATGCTATAAATAAAAAAATCCTTTTTTATTTATAGAAATTTTTTATTTTTTATGTTAAACTTTAATACAGTAGGAGGAGTAATTATGATAATTTTAGGTATAGATCCAGGTACGGCAATAGTCGGATTTGGGATTATAGAGTATAAAAATAAAACATTTACTGTTTTAGATTATGGATGTATATATACAGAAAAAAATTTAGAAATGCCGAGAAGATTAAGTATAATTTATGAAGAACTTGATAAATTAATAAAAAAATATAATCCAGAGTATATAGCTATTGAAGATATCTTTTATTTTAAAAATAATAAAACAGTTATTTCAGTAAGTCAAGCTAGGGGGGTAATACTTCTTTGTGCTGAAAAAAATAATTTAAAAATATCTGCTTATACACCTCTTCAAGTAAAAATGGGGATAACAGGTTATGGAAGAAGTGAAAAAAAACAAATTCAAAAAATGGTACAAAAAATTTTAAAATTAAAAGAAATACCAAAACCAGATGATGCAGCAGATGCATTAGCTATAGCAGTTACACATATAAATGAATTAAATTCAAGATTATCATTGCATATTGCAAAAATAAATAAAAAAAAATTAAAGGATATACCTGATAAAATAACAGCAAATGAATTTAAAAATCTTTTTGCAGGAGAAAAAAAATGAAAAAAATCCCTTTAAGATTAAGGTTATTTATAATAAGTACAATCTCAATTTTTTTATTTATATTATTAAATGGAATTACAATATCTTCTTATTTAGAAAAAGTATTTAATAAATTTCAAGCAAACTTAAGAACAGAAGCAACAAATAATCTAAATAAAAAACTATTATCACAATCGAAGGTATTGCAAATTGAACTTAATAACAGAAAAGAAAAAGGAATATTATTGTTAAGCACTCTTTCTAATAATTTACAACTTTTAGAAAATACTTATAAAAATATAGGTGATTTAAAAACAAAAGAATATATAAATAATTTAATAAAAAAAGAAAATATAACATTAAAGTTATATGAAGAAATTGATATTATTTATGATATAGATAAAGAAAATTTGGAATCTTATAATAACTTAAAAAAATTAAAGAACAAAGAAATCCCATATTATATTAATTATTTTAAAGAAAAAGATTTTTTAGGTATAAAAATTTATAAAAGTATTTTTTATAATGAAAAATTTTTAGGGTTTTTAGTATACAAAGCTAATTTTATAAGTTATTTTGCAAAAGAATTATCTAATATAATTCAACTTGAAATAACTTTTTATAAAGATAAAAAAATATATTCTACTAGTTTATCTCCTTTTGTATTTTATGAAAAAAAATGGAATGTAATTGAAGAAGATTCTTTAAAAACAAATACTTTAATAATTCCTGTAAAAAATTATGAATTTGATAATAAAATATATAAATCAGCTTTTTATCCTATCAAAAATAATAATTCTAATACTATTGGAATGATTGCTATTAGTTTGAATTATAGTGAATTTGAAAATTTATTTAATAAGATTAATGATGATAAAGGGGTATTAATATTAAATTTTAAAAAAACAATATTAAAATTTACTATGTTTTTTTTATTGATATCACTTTTAGTAGTTTATATATTTATAACAAGAGTTTCAAAACCAATTAAAGAAATATTAGAAACTATACAAATAGTAAATGAAGGAAACTTAAACAGAAAAGCAAAAGTATATAATGATGAACAATTTGGAGAAATTGCTAAGAATTTAAATCAATTAATAGATAATTTGAAAAGTGTAGAAAAAATTAAAAAAGAATTTTTAACAAGAAATTTAAATGAACTAAAAACGCCGATAAGTGGAATAATAGGGATATCAGATTCCTTATTAAATAATGACTTAGGAAATTTAAATACTATTCAAAAAGAAAATATAAAAATTATTAATGAAAATGCTGAAAAATTATCAAATATAATTAATAAAATAATGGATTTTTCTATATATAATAAAAAAGAAAAAATATTAGAATTAAAAACAATAAATATAAAAAAAATAATAGATGAAAATATAATTAATATTTCTAATTATTATAAAAAAAATAATTTAGATATAAAAAACTATATTTCTGAAGATAAATCACATATTATGGGAGATTATAATAGTATTTATCAAATATTTAGTAATTTAATAGAAAATGCTTATAAATATACAGAGACAGGTTCAATAATAATAGATGCCAAAGATTTTGCAGATATGGTAGAGATAAGTATAATTGATACAGGAAAAGGTATAAATAAAGAGAAATTAAATAGAATATATGGAAGTTTTGAAAATGATATAGATTATGAAGGAATTGGATTAGGTATAGTAAATAAATTAGTTAATTTACATGGAGGAAAATTAGCAATTGATTCGAGAGAAGGAGAAGGTACAACAGTAAGTGTTACATTGAGAAAAAGTTATGAAAAATTTGCTAATAAAAATAATAGTATAAATAAACTAAAAGAGTTAATAGCAGCTAATAATTTAACAAAAGATAATAAACTTTCCTCAAAAATACTGATATTTGACAATGATTTTTTAAATATACAAGTAATAATGAATTATTTAATAGGAACAAATTATTATCTAAATGTAGTAGAAACAAAAGAAGAACTTTTTAGAGAAATAAGCATAAGAGAATATGAATTAGTTTTAATGGATTCTTCTGTACTTGGATTTGAAGGATATGATATTTTAAAAAAAATTAGAAGAAGATTTTCTATTTTTAAACTTCCAATAATGATTATTTTTCCACAAAATAGTGCAATAGGGATATCAAGATATTTTGAAAGTGGATTAAATGAATATATAGAAAAACCAATATATAAAGAAGCGTTTATTAGGAAAATTGATTCGATGCTAAAACTAAAAAACTCACTTGAGGAAATACTAAATGTAAATCAAAAATATAGAAAAGAAAAAAAAGAAAGATTAGTAGCAGAAAATTTGAAAAATATACATACTGAACTTACATCTACTTTGAATATAAAAGAGATATTTAGTATTTTATTTAAAAAAATAAAATACTTATTTGATTATGAAAGTGGAATGGTTTTATTAAAAGATAGTGATAGATATAGAGTAGTATTTCAAGATAAAGCATTAAAATCATCAGAAAAAAATGTTAGATTATTTAAAAGTAGATATTTAGATCCAATTACTAATAAAAAAAGAATAATAATACTTAGTGAATATAAATGTAAAAAATATTTTGGAGAAAAAGTAAAATCAGCAATAGTTATACCGACAGTATATGGAAATAATCATAATTGTGTAATAATTTTAAAAAGTAGTAATAAAAAACATTTTATGAAATTGGAAAAAGATAAAGTAGATGCGTTATTTTATCAAACAAATATAGCTCTTAAAAATGCAGCACTTTATCAAGAAGTTGAAGAAAAAAATAAGACTTTAAAAGATTTGATTGAAAAAATAAAAACAATTGAAAAATTGATTTCTGTTGTGTATAATGAAAAGGATAAAAATACAGCAATATATTATAATTTACTAATTATTATTAATCAATTAGGGCTAAATTATAAAGAAGGATATTTTTTTGAGTATAAAAAAGAGTTAAATTTATTAGAATGTAAAAGTTACTATTATAATGTAAATGTAGTATCTGAGAAAACAGAATCTAGTATAATAGAGCATGAATTATGGTCAAAAAATTTAAAAATTCCATTAACGATTAATAATATTTTAACAAAAGCATTTAATAAAAATAAAGATATTTACATGAAAAAAATAGATGAAAATAATAATATGCTTATAGAAAAATTTGAAAATGTTACAATTTTACCTATAAATTATGAAAATATTCGTTATGGGGTATTAGTATTAGAAGGAAATGGAATAAAAACAACTATAAATGAAGAGGAAAAAGAGATACTAAAAATATTTAGTTTGAATTTAGGAATTTATTTACATACCAGATATTTAGAAGAAAATAATCTTAAATATGAACAAATAAGAACAATGGGGAAATTTGCACAATCAATTGTACATGAACTTCGAACTCCACTTGTTGGAATAAAAGGATTTGTTTCTATTGTAAAATCTAAATTTGAAAAAATAAAATTAAATGATAAAATAAATATGTATTTAGAAGGAATAGAAAAAGAAACTGAAAGAATACTAGATGTAGTAAATCAAGTAGTAAATTTAGTAGATTATGATAATAAAAAATATGTTTTTAAAGAAGAAAATATTAAAAATGTATTTGAAGAAGTTGTAGATAATTTTAAAAGTGAAATAAAAGAAAATGAATTATCGCTAGATATATCTTTAGAAGAACAATATTATTCTATTGATAAAACAGAATTTAAAAAAGCAATAATTCATATATTAAAAAATTCTATTGAAAACGTTGATTTTGGAAAAACAAAAAATATATTAAAAATAAAAATGGAATCAATGGATAAATTTGATAGAATTATAATAGAAGATAATGGTGTAGGAATAAAAAAAGAAATATTAGAAAATATTTTTAAACCACTTGTATCTACAAAACTTCAAGGAACAGGATTAGGATTAACATTAGCAAAATCAATAATAGAAAAACATGGGTTTGAACTTTTTATAGTATCAAAATATTTACAATATACAAAAGTAATAATCCAGATTCCTAAAATTTTAGAAAGGTGAGAAAGATGAATATAGTTTTATTAGAACCAGAAATACCATATAATACAGGAAATATAGGAAGAACATGTGTTCTTACAAATACAAATTTGCATTTGATTAAACCTTTTGGTTTTTCTTTAGACGAGAAACAAATTAAAAGAGCAGGTCTTGATTATTGGAAAGATGTTAAGCTATATATACATGATAGTTTAGAAGAATTAATAAAAGCAAACAAAAATTCAAATTTTTATTTTGCTACAACTAAAACAAAACAAAAATATAGTGAGGTAAAATATAATAAAAATGATTTTATAGTATTTGGACCTGAATCAAGAGGGATTCCAGAAGATATATTGAATAAATATAAAGAAAACAATATTACTATTCCAATGACTCCTATAGGACGTTCATTAAATTTATCAAATTCTGCAGCAATTATTTTATACGAAGCACTTAGACAAATTGATTTTGATTTTTCTTAAATATAGGAGATTACTGTGAAGAAGAAAAAATTATTTTTAATATTAATATTAGTAATAACAGCTATAAGTATTAAATTGTTTTATAAAATTAAATATTATGAAGAAATATACTTTTATTCAAAAAAATATAATATAGAAGATAAATTATTATTGGCTATAATAAAAGTTGAAAGTAATTTTAATAAAGAAGCAATTTCTTATAAAGGAGCAGTAGGCCTTATGCAAATAATGCCTTCTACTGCTCGTTGGATAACTAAAAAATATGATTTTAATAGAGAGTATGATTTATTATTTCCTATTGATAATATTGAAATAGGAACTATATATTTAAATTATTTGACAAAAAAATTTAATGGGGACTTAAAAAATATATTAATTGCATATAATGCAGGCTCACAAAGAGTGTATAATGATAAATGGAAAGATATAAAAGAAACAAAATTATATATTTATAAAGTTAAAATTGCTTACTTTTTTTATAAATATATTGTTTGACTTTATTTAAGATTATGATATAATAAATTATTGGAGGTATATTTGTGAATAGAATAGCAACCTTATCTATTTTTATTGAAAACAAAGATAGTATAAATAAAGTAAATCATATTCTATCAGAATATTCAGAAATTATTATTTCAAGAATGGGGATTCCTTATAGAGAAAAGAGAATATCTGTAATAGTATTAATAATTGATGGTAGTAATGAAAATATTGGTGCTCTTTCTGGTAAAATAGGCAATTTAAATGGAGTATCAGTAAAAACAGCAATGAAAAAATAGTTTTAAATTATATTATTAAGCATAAGTATTAATTTTTTTAATTTAAATGGCGAATAAAATTTTATTAATAAAAGTTCCTGATTACAAGGAGTAATCTAAGTAAAAGGGAAGGTATATTTGAAAAAAATATTTATATTTTTTGTTTACCTTCCTCTTTTTTTAAGTGGAAGCTTTTTTATTTTATGGAGGGAAATATGAATAAAGAATTATTAGGTACAACATGGCAAGAGGAAGTAAAGGCAGAAAGTTTTGTAAATGAAGAATTATTAGAAACATTATTATTAGAAACAAAAAATCCTAGTGAAGAAGAGTTCAATGCAGTAATGGAAAGAGCAAAACATCAAGAAAGATTAACTCTTAAAGAAGTAGCAATTTTACTAAATACTGAAGATAAAGATAAAATTCAAGAAATATTTCATTTAGCAAAATCGATAAAAGAAAGAGTGTATGGAAATAGAGTGGTGTTATTTGCACCTTTATATTTAGGAAATAAATGTACAAATTTATGTACATATTGTGGATTTAAAGCAACAAACCAAGATACATTAAGAAAAACACTTTCTTTAGAAGAAGAAAGAAAAGAAATAGAAGCTTTAATTGATGAAGGACATAAAAGACTTATACTAGTGTATGGAACACATCCTGATTATAAAGCGGATTATATTGCAGAAACAGTAAAATTAGCGTACTCAATAAAAAATGGTAATGGTGAGATAAGAAGAGTAAATATAAATGCAGCACCACAAACGATAGAGGATTATAAACTTATAAAAGATGCAGGAATAGGAACATATCAAATATTTCAAGAAACTTATCATCAAGAAACATATAAAAAAGTTCATATAGCAGGAGAAAAATCTAATTTTAAATGGCGATTATTTGGATTGAGTAGAGCAATGGAGGCAGGACTTGATGATGTAGGAATAGGAGCTTTATTTGGTTTATATAATTGGAAATTTGAAGTATTAGGACTTATGCAACATGTAGAACATTTAGAAAAAGAATATAATGTAGGACCACATACAATATCTTTTCCTAGATTAAAAGAAGCAAATGGATTATTAAAAAATGAAAAATATTTAGTTAATGATGATGAATTAAAAAGAATAATAGCAATATTAAGACTTGCAGTACCATATACAGGACTTATCCTAACTGCAAGAGAAGAACCAGAATTAAGAAGAGAATGTATGGAACTTGGAGTATCACAAATTGATGCAGGAACTCAAATAGAACTACAAGGATATTCAAAACACAAAAGGGAGCAAGATTTAAAAAAAGAACAATTTAAAATAGGTGATAGTAGAAGTCTTGATGAAGTAATGAGAGAACTTATGCAAGGAGGATTTACACCATCATTTTGTACAGCTTGTTATAGATTAGGGAGAACAGGTGAACATTTTATGGAGTTTTCAAAACCTGGATTTATTCATAATTTTTGTACTCCAAACGCTGTCCTTACATTAGCTGAATATTTAGAAGATTATGCAAGTGAAGAAACTAAAAAAATTGGATATGAATTGATAGAAAAAGAAATTGATAAATCAAATGTAAAAGAAGACATAAAAGTTACATTAAAAGAAAAATTAGAAAAAGTAAAAATTGGTCAAAGAGATTTATACTATTAGGAGCTTAAGTATGAATTATAGAATAGAAAAAGATAGTTTAGGACAAGTAAAAATAGAAAAAAATAAATATTATGGAATAAATACTAAAAGAGCTTTGGAAAATTTTGAACATAAAGGTAAAAAATTAAACTTAGAAATTATTAAATCTATGGCCATTGTAAAAATGGCTGCTGCTATTGCAAATAAAAAAATAAATAAATTAGATAAAAAAATGGCTGATTTTATAATAGAATCTTGTGAGGAAATATATAGTGGGAAATATAATACTGAATTTCCATTGTATGCTATACAAGGTGGTGCAGGAACTTCGATTAATATGAATATAAATGAAGTGATTGCAAATATTATATTAGAAAAAATGGGCTATGAAAAAGGAAGATATGATATAGTTAATCCTATTGAACATATAAATTTGTCTCAATCAACAAATGATGTTTTTCCTACTGCAGTGAAAATAAGTGTAATAAGAATTCTTAGGGAATTAATAAACGAAGTAATGAAATTACAAGAAATTTTACAAGAAAAAGAAACTGAATTTTCAAATGTATTTAAAATAGGAAGAACACAATTTCAAGATGCTGTACCAATGAGTGTAGGATCAGAATTTTCAGCTTATGCAGAAGCTGTCTCTAGAGATAGATGGAGATTATATAAAATAGAAGAAAGAATAAGAAGAATAAATATTGGTGGAACAGCAATAGGAACAGGAGTTGGAGCTAGTTTAAAATATAGATATTATGTAAGTGAGGAACTTAAAAGACTTACAGGATATGGATTAGCTAGAGCAGAAAATCTAATAGATGCAACACAAAATATGGATGTATTTGTAGAAGTATCTAGTTTATTAAAAACACTTGCGGTAAATTTAAATAAAATGGCAAAAGATTTAAGAATATTGTCTAGTGGACCAAATGCTGGATTAAATGAAATAAATCTCCCAAAATTACAAATAGGTTCTAGTATAATGCCAGGGAAAATAAACCCCGTAGGTCCTGAATTTATCCAACAAATATATTTTAAAATTATAGGGAATGATCTTACATTAACTATGGCTTGCGCAGATGGTGAATTAGAATTAAATGCATTTACACCAATAATTGCAGAATCTATATTAGAATCAATAGAGCTTTTAAGAGATGGGATAAAAGTATTTGCTGAAAAAGTTGTAAAAGGAATAACTGTAAATAAAGAAACATGTAGAAAATATGTAGAAAGTAGTTTAACAAAAGCAACAGAGCTTATTGATAAATTTGGATACGAGTTTTTATCTGAGATATTGAAAGAAAGCAATAAAACAGGAAAACATTATTTAGATATTTTAAAAGAAAAAAAATTAATTTAATAAAACCACCTTTTGGCCAAGCCAAAAGGTGGTTTTATTATTGAACACATTTTTTAATTGCATTAGCTACATTTTCAACAACTTTTTTATTAAAAGCGTCTGGAATAATATAATTATCTGCTAATTCTTCATCTGGTATAACATTAGCTATAGCATATGCTGCAGCTATTTTCATTTCCTCAGTAATGGTTTTAGCTCTAGCATCTAAAGCACCTCTAAATATTCCTGGAAAAGCTAATACATTATTTATTTGATTAGGATAATCGGATCTACCTGTACCAATTATTTTAGCTCCTGCTTTTTTTGCAAGTTCTGGCATTATTTCAGGAGTAGGATTGGCCATTGCAAAAATAACTGGATCAGTATTCATAGATTTTATCATGTCTTTAGTTACTATATTAGGAGCAGATACTCCAATAAATACATCAGCATTTTTTAAAGCAGTGGCTAAAGATCCTTTTATTAAATTATTATTAGTAATTGATGCTATTTCATTATGAAGAGGATTTTCATAATGAATATTTTTATTTAAAATTCCATTTATATCACAAGCTATTATATTTTTAGGATTTAACTGTTTTATCATTTTTATAATAGCACTTCCAGCAGCACCTATGCCATTTACTACTATAGTAGCTTTTGTAATATCTTTTTTAAGATATCTATAAGCATTTATTAGTGCAGCAGTTACAACTATAGCAGTACCGTGTTGATCATCGTGAAATACTGGTATATCAAGCTCTTCTTTTAATCGTCTTTCTATTTCTACGCATCTGGGAGCTGAAATATCTTCTAAATTTATTCCACCAAAATTTGGAGCAATAAGTTTTACAGTTTTAACTATTTCATCTACATCATTTGTATTTAAACATAAAGGAACAGCATTTACACCAGCAAATTCTTTAAATAAAATAGCTTTACCTTCCATTACAGGTAGACCAGCATAAGGACCAATATCTCCAAGTCCAAGAACAGCACTGCCATCACTAACTACAGCAACAAGATTTCCTTTAGAAGTATACTTATAAATGTTTTCTTTATTTTTTACTATTTCTCTACAAGGTTCTGCTACTCCTGGAGAATATGCTAAAGTTAAATCATTTTTATTTTTGACATTAATTTTTGATATTACTTCAATTTTTCCTTTATTTTTTTCATGCAATTCTAACGCTTTTTTGTATATATCCATTTTTTCCCCCGATTATTTTAATTTTTTTATTATAAACAAGTAGTTTCATATAGATCATTACCATAAGTATCATTTACTACAAAAACAGGAAAATCTTCTACATATAATTTTCTTATAGCTTCTGTTCCAAGGTCTTCATATGCAATAAGTTCAGCACTTTTTACACATTTTGAAAGCAAAGCAGCAGTCCCACCAACGGCTGCAAAATAAATAGCTTTATTTTTTTTAATAGCTTCTTTAACTTTTTTATTTCGAGGCCCTTTTCCAATCATTGCTTTTAATCCATGTTCAAGTAAAATTGGAGTATAATCATCCATTCTATAACTTGTTGTTGGACCACATGGACCTATAATATCTCCTGGTTTTGCTGGAGCTGGACCAACATAATAAATTATTTGATTTTTTAAATTAAATGGTAATTCTTTCCCATTTTTAAGTAATTTAACTAATCTTTTATGAGCTAAATCTCTTGCAGTATATATATATCCTGAAATATATACTTTTTCCCCACATTTTAAGCTTTCCAAACTTTTTGGATTAATAGGTGTTGTAATTTTCATTATTCCCCCTTTGTAAAATTATATATTAAAAATATTTATTAGTTTTTTTAATACCCCATTATTATCATTTTTATCTATTACTTCGAGATGTGGCAAACTTTCCTTTAATTTATAGTGTGCATTACCCATAATAAATCCTAAACCAGATTCATTTAAAAGTTCATAATCATTAAAACCATCACCAAAAGCTATTGTTTCATGCTTATCAATATTAAAATTTTTAAGTATAGAAAATACAGCATGAGCTTTTGAAGTATTAGCATTAATAATTTCTAAAGAGTATTCTGTAGAAAACATTGTCTTTATTTTATTGCTTATAGATTGTATATCTTTTTCTAATTTCAATAATTTTTCATGATCACCAATATATACTAGTTTTGTAATGTTTTTATCTCTAAAATTATTAAAATTAGATATTTTGTATTTATATCCTGTTTTTTCTTGGTATTCAACTATTTCTTTTATAAAAATATCTTTTTCTACAAACCAATCTTCGTTGTAATATAAATTAGGAATAATATCATTGTCAATTTTTAAATCTAAAATTTCATTAACAATATTTTTGTCTATTTCATACTCTTTAATAAGTTTATCTTGATAGTAAATTCTACTACCATTATTTGTAACTAAAGGAGTATCTAAAGATAATTCTTTTTTTACAGGAAGAGCATCATATAAACATCTACCTGTAGCAATTATTACTTTTAAACCAGAATTTATTAATTTCTGTATATATAAATTTGTTTCTTTATCAATTTTTCCATTACTTTTAAGTAAAGTTCCGTCTAAATCAAATGCGATAGCTTTTATATGTTTCATTTGTCATCACCTATTTTTTTTATTATATTATAACATAAAATCAAATAATCATAAACAAAAAAAGTACACCTAAATTTTAGGTGTACTGAAATTAACCTATATATTTTTCAATACCAGACAGTCCAAAGAATTGTTCAAATTCGTCGTTATCATTAACAATTACAAGCGAAGGAACGCTTCTTACACCATATTTAACGGCTAAGTCCATATTTTCATGAGCATCAATGTGTATTATATCTTTATGTGTTTTTAATTTTTCTTTTGCAGTTGGACAATTTGGACAAGTATTAGTTGTAAATAAATATTTTTTAGTGATATTGTTAATAGCTTTATTTTTTTGATTTTCTATTTGAGTATATTTAATTTCTTTTATTTTTAATCTAGATTTTTCAATAATATATTCTTTTCTATTTTTATATTCAGAAGATTTTCCATCATTCCAATGTTTTAAAGGTCTATAATATCCAGTGATTCTACTATAAACTTCAGTTTCTTCATTACAGTCTGGACAAGTATATACTTCGCCTTTAATATATCCATGATTTTTACAAATAGAATATGTTGGTGATAGAGTATAATAAGGTAATCTATAGTTTTCAGCTATTTTTTTAACTAAATTTGCTGTTGTTTTCCAGTCACTTATTCGTTCACCAAGAAATGTATGAAAAACAGTTCCACCGGTAAATTTTGTTTGTAATCTATCTTGAATATCTAAAGCATCAAAGATATCTTCTGTAAAATCTACAGGTAAGTGACATGAATTTGTATAAAATGGTTTATCACTTTCTGGAGCTGCTGTAAAAATATTAGGATATCTTTCTTTATCCATTTTAGCAAGTCTATATGTAGTACTTTCTGCTGGAGTTGCTTCTAAATTGTATAAATTTCCTGTTTCTTCTTGATAATCAGCTATTTTATTTCTCATAAATTCAAGAACTTCTTCGGAAAATTCTATAGCATTAGGTTGAGTAAGGTTTTCTTTTATCCAATTAGCATTTAAACACATTTCATTCATACCAATTAGCCCAATTGTAGAAAAATGGGTATCAAAATTTCCTAAATATCTTTTTGCATATGGGAATAACCCCTCATCAAGTAATTTCGTAACGACAGTTCTTTTTATTTCTAATGAACGTTTGGCTATATCTAATAAATGGCTTAATTTTTGATAAAATTCTTTTTTTGTTTCAGATAAATAGGCAAGTCTTGGAAGATTTAAAGTAACAACACCTATAGAACCAGTTTTTTCACCACTTCCAAATAAACCACCAGTTTTTTTTCTAAGTTCTCTCTTATCAAGTTGTAATCTGCAACACATACTTCTTACATCACCAGGATCTAAATCACTATTTATAAAGTTTTGAAAATAAGGAGTACCATATTTTGCAGTCATTTCAAATAAAAGTTTTGCATTTTCACTATCCCATAAAAAGTCATCAGTTATATTATAAGTAGGGATTGGATATTGGAACCCTCTTCCATTTGCGTCACCTTCAAGCATAATTTCAATAAAGGCTTTATTTATCATATCCATTTCTTTTTGTAGTTCTCCATATTTAAAGTCTACTTTTTTTCCGCCAATAATAGCATATTCATCAGCTAAATCTTTTGGAGGTGTCCAATCTAGTGTAATATTGCTAAATGGAGATTGAGTTCCCCATCTACTAGGAGTATTTACTCCATATACAAATGATTGAATACATTGCTTTGTTTCTTTATAAGTCATATTATCTTGTCTTACAAAGGCAGCCAAATAAGTATCAAAACTACTAAAGGCCTGTGCACCTGCAAATTCATTTTGTAAAATTCCTAAAAAATTTACCATTTGATTGCACAAAGTAGATAAATGCTTTGCAGGAGAAGAAGTAATTTTTCCATTTACTCCCCCAAGTCCTTCTTCGATAAGTTGTCTAAGAGACCAACCAGCACAATAACCAGAAAGCATAGATAAATCATGTATATGAAAATCCCCATTTTTATGTGCTTTTGCAATTTCATCATCATATATTTCTGATAACCAGTAGTTAGCTGTAACTGCACCAGAATTATGTAAAATCAATCCACCAATTGAATAAGTTACAGTTGAATTTTCTTTTACTCTCCAATCTTCAACTTTTAAATAAGAATTTATCACATTTTTATAATCAAGAACTGTATTGGACATATTTCTTAATTTTTCTCTTTGTTTTCTATAAAGAATATATGCTTTTGCAACTTCTGTATATCCTGTTTCACTTAAAACTTTTTCTACAGAATTTTGAATATCTTCAATATTAATTTTTCCATGACTAATTTTTTCTTGGAAATCAGCTGTAGTTTTTAGTACTAAAGTATCTAGAATATCATTAGTATAATAATAATTTACAGATTCAAATGCTTTTTTAACAGCATTTTTAATTCTAGACATATCAAAATTACTTTCACTACCGTCTCTTTTAATTACAATCATAATTCTACCCCTTTATTTAATTTGATATATAAAATTATATCTTAAATAATATAAAAAGTCAAATAAAAAACACTATATATAGGTGTACTTTTTATGTACACAACTATATATAGTGTTTAAAATAGTTTTAATAATAAAAGTATCAGATATGTAACACTTCCTCCAAGAGCTGCACCAAAAAAAACTTCTGAAAAATTATGAATTCCATTTTTTATACGTGATTGTGCAACTAGTACAGCAATAAAAAATCCAAGAGCTACAATAACTATATTATTAGAAATAAAAAGTATAGCTGCCCATGCTGAAAATGCAAGTGCACTATGTCCACTTGGTTTACCTCCTTCTAAAGGAGAACCACTTTTATAATAAGACTTTAAAGCAATTACTAAAATAGATACAATAACAAAAATAACTGCAAGTGTATGAGCATAAGAGCTTTTTAAAAACTTAAAGATTTGCATAGAGCTTTTTCTTAAGTGACCAATAAAAATTAAATATCCAATAAATGTTGCTAAAACAGCAGACACAAATACAGCTCCAGAAGCTACATCTTTTATAAATTTAACCTGTGGATGATATTTAGGTTCTATAATATCAGCAAAACCTTCAATAGCAGTATTAATAAGTTCTGTTATCCATACTATACCTATTGTAATACCTAAAATAGCTAAACTTATAATATCTAACTTTAAAAAAAGAGATATTATAACAACAAAAATAGTAACTATTACATGAATTTTCATATGCCTTTCTATTATAATAGCATTTATTATACCTTCGATAGCATAATTAAATGAGTCTAAAATACTATGTTTTCTATTGTTATGATTTATTTTTTTATGTTCGAACATATCCATTCCTTTCAAGTATTTCTTCTTCTTTTGCCCGCATAATCTTTTTATCTTCTTCACTTATGTGGTCATAACCTAATAAGTGAAGAAGACCGTGTGTAAGGACATAATAAAATTCTCTTTCAAAAGAATGTCCATATTCTTTTGCTTGAGATTTAACACGTTCTAAAGAGATTATTATATCACCTAATGTTTCAATAGGTCCTTCTAAAAAATCTTCAGAATCTCTATAAGCAAAAGAGATAACATCAGTTTCAATATCTTTATTTCTATAATCTCTATTGATTATTTGTATATTTTCATTTCCTGTAAGTAATAGAGAAAGGTATATATCTCTATTTGAATTATATTCATCTTCAAGTAAAGTGACTATAAAATCTTTTATAGCTGTTAAATCTATTTTATCTTCATATCCTTCAATTCCTTTAGTTATATCTACAATGATTGCCATTTTTCTCCTTTCTATTTTTGACCTGGGTATTTTATTCTGCTATGATAAACGCCTTGGAATGTTTTTACAAAAGAATTAATAATAAGCTCAATTTCTTTGAGTGTAAGATCAGCATCAGAAAGTTGTGCATCCTCCATTTTATTTCCTATTATTCTTCTTACCATTTTTTCAACTTCAAGGGGATTTTTATCATCCATAGATCTTACAGCTGCCTCTATTGAGTCAGCAAGCATTATAATAGCAGATTCTTTAGTTTTGGGTTTTGGTCCATCATATCTAAAATCACTTTCATTTATATCGGGATTATTTTTTTTAACTTTATTATAAAAATAAGCAAGTAAAGTAGTTCCTTGATGTTCGGCCATGATATCTCTTATTTCTTTCGGTATTTTATATTTTTTTCCCATTTCTTGTCCATCTTTTGTATGTGCTTTAATAATCATTGTACTTAAAGTGGGAGATAAATTATCATGAGGATTTACGCCACTATGTTGATTTTCGACATAAAAATTTGGTCTTTTCATTTTACCGATATCATGATAATAACAAGCAACTCTTGTAAAAGTAGAATCAGCTCCTATACATTCTGCAGCTTGTTCAGATAATGTAGCAACAAGCATAGAATGATTAAATGTACCAGGTGCTTCAAGAGCCATTTTCCTAAGCAAAGGATGAGAAAGGTCTCCAAGCTCAACTAATTTTAGTTTTGTAAGAATATTAAATGTTTCTTCAAAATAAGGTAATAGAGCTATTGTAAGCATTCCTGAAAATATTCCAGATCCAAAAAGCTCTGAATTCATCAAGATAATATTAACTATATTTTTTTTACTAATGAGTAATACAGCAGTACCAACAAGTATTTTTATTAAAGAAATATATAAACCTACAGAAACCATATCAGTTCTATTTTTTATAGATTTTATTAAACCACTAGTAAAAATAAGTGAAAAAAGTAAGATAATAAATAATTGATAATTATAACCAAAAATTGGGAGCAAGTAAAGTAATAAAAATCCATTTATGATTAGTGAATAATTAATATTTACTAAAAGACCTAAAATTAAAGTTATTGCTTCAAAAGGTAATAGCCAAAATAAGTTTTTAGCTATAAATCTCGAAGTAATAAAATAAATTATGGTAATAATAGCTGTAGCTAAAAAAATATTATTATTTAAAATTTTATCTTTTATATTTCTTTCAAGTGCAAAATAAAATATTATTGATAAAATAATTAAATATATAAATGTACCAAAAAATATTTTAAAATTATCACGCATGTTAAATAATCCTAGTTGATTTAACATTTTTAATTTTTCCTTAGTGATGACTTCATTTTTTTTTAATATAATATCTCCAGCATTAATTGTTATATTAACGTCTTTTATATTTAATAATTCATTTTTTAGTTTCTCTTCAGTTTTTTCATAACTAAATATATAATTAGATTTTAAAAATGAAACTGCAATTTTTTTTGGTAATTCTGAATTAGAGTTTAAACTATTTTTGATTTTAATTAAATCTTTTTCTTTTATTCCTTGATTAAAATAATTATTTAATTCTAATAAGATTTGAGAATGAAGCTTATCATAATCTTTTATATTTAAAAGTTTTTCTATATCAGTTTTTGAAAGCAAAGGAAGTACTGCATTTATATAATCAATTTTTAATTTTGAATTTTCATACTTCATTGCATTAATAAAAGTGCTTAAATCCTCAAATACTTTTTGCTCAACAACTCTATTTCTTTCGTAAATGCCTTCACTATTTTTTATAAGATTATCTATAATTTCTTTTTTCTTTTCTTCATCGCTATATTTAAATGTAAAAGGAGCAATAATAGGTTTTTGTAGTGTATCTCCTATTTTATAAGGGTTTTTTCTAAAGATTTGTATATAATTACTAATAGAAAAAAAGAATAAAAACAATATAAAAAACATTATTCTATTAATAAATATTTTATCATCTGGAAGTTTTTTCTTTTCTTTTTTGGTAGAAATTTTTTCAATTTTAAAAATAAATTTTCTACCAAAAAAATCAAAATTAATCATATATCCTCCATTATTAAAAATAAATTTATGAAAAAATCCGATACACTTTTAGAGTATCGGATTTCACTTTACAATTATACTATATATTTTTTTTAATTACAAGTTTTTTAGCTCTTTTACTTTTTCAATAATTTTTTCAATATCACCATTATTTTCTTCAATAATTTTAACTATTGCAGAACCAACAATTATTCCATCAGCAATTTTTTCAAATTTTTCGACATCACTTCTTTTTGAGATTCCAAAACCAATAGCTAAAGGTAAATCAGTATATTTTTTTACTTTATTTAAATAGTTTTCAATATTGATTTCAAAATTATCTCTAACACCTGTAACTCCCATAGAAGATACACAATATACAAATCCCTGACTATCCTTAACGATATCTTTGATTCTATTATTTGAATTTGGAGCAACTAAAGGTATTAAATCTATAGATTTTGGAAGTGGTAAAATTTCATTTCTTTCCTCAAGAGGAAGATCCGGAATAATTAATCCATCTATTCCAACTTCTTCACAATTTTTTATAAACTTATTTTTTCCATAACTAAATATAATATTGTAATAAACTAAAAAAACTAAAGGGATATCAAGAGATTTTCTAATAGTTTTTACCATATTAAAAATATCATCTACTTTTATTCCATTGTCAAGAGCTCTTTTAGCAGCTCTTTGAATAACAGGGCCATCAGCTGGTGGATCAGAAAAAGGAATTCCAATTTCAATAATATCAACGCCTGCTTCTGCTTGAGCATATATTAATTTTTCTGTTTGCTTTATATTTGGATCACCAGCAGTTAAATATGTAATAAGAGCTGTTTTGTGTTCTTTTTTTAATTTATCAAAACATGTTTTAATTCTACTCATATTTCCCCCTATATATCTTTTTTCATAAATTTTGCAATAGTATGTATATCTTTATCTCCTCTACCAGAAACATTAACAATAATAACTTTATCTTTTTGCATATTAGGAGCAATCTTCATAAGATAAGCAATAGCATGAGAACTTTCAAGTGCAGGAATTATACCTTCTTCTTCACATAAAAGTTTAAATCCTTCTAGAGCTTCATTATCAGTTACTGAGACATACTGAGCTCTTCTTGTTTCGTATAAATAAGCATGTTCAGGACCTGTACCTGGATAATCAAGGCCAGCAGAAATAGAATGAGCTTCATGTATCTGTCCATCAGTATCTTGAAGAATATATGTTTTCATTCCATGAAGGACTCCAATTCTTCCTTGAAATGCAGCAGCATGTTTTCCAGTTTCGATTCCTTTACCAGCAGCTTCTACTCCTATAAGCTTTACATTTGTATCTTTTATAAATGGAGCAAAAATTCCCATAGCATTACTCCCACCACCAACACAAGCAATTATTGTATCAGGAAGTCTATTTTCTACTTCTAATATTTGTTTTTTTGTTTCTTCCCCAATAATTTTTTGAAATTCTCTAACTATTGTAGGATAAGGATGTGGACCAACAACAGAGCCAAGGACATAAAAGGTATCTTCTACGGTTCTAACCCATTCTCTAAGAGCTTCATTTGTAGCATCTTTTAGAGTGGCAGTACCACTAGTGACTGGGATAACTTTTGCACCAAGAAGTTCCATTTTAAAAACATTTAATTTTTGTCTTTCAATATCTTCTGCTCCCATATATACTCTACATTCCATTCCAAAAAGGGCAGCGCCGGTAGCAGTAGCAACCCCATGTTGTCCAGCGCCAGTTTCAGCTATAACTTTTGTTTTTCCCATTTTTTTTGCAAGTAATATTTGACCAATAACATTATTTATTTTATGGGCACCTGTATGATTAAGGTCTTCTCTTTTTAAATATATTTTAGCACCACCAAGTTTTTTAGTAAGTTTTTCAGCAAAATAAAGTGGATTTGGTCTTCCAACATATTGTTTCATATAATACATATATTCATTTTTAAATTCTTCTGTAAAACAATGTTTTTTAAATGCTTTTTCTAATTCAATGAGTGGATTCATTAATGTTTCAGATACATACTGACCACCAAATTCTCCAAATTTTTTTCTAAGCTCCATAAAATCCTCCCTTAGTTTATAATTAATTTTTTATGAATTATATATTTCTAATTAAATTAATGATATTTTTTATTTTTTCTTCATCTTTATAACTATTTATTTCAACCCCAGAACTAATATCAATAATACTAGGATTTACAATCTTTATAGCTTCTTTAACATTATTAATATTTATTCCGCCAGCAAGAGCTATTTTATAATTTTCGCTTAAATTTTTAGCATATTTCCAATTAAAGGTTTTTCCGGTACCACCTTTACCATTATCTAATAAAATTATCTCTACATATTTTTTATATATTTCCATTTGTTTTTTAATATTTTTATTTTTTACAGATAAAGCTTTCCATACGGTTTTTTTAATATTTTTTATATATTCAATATCTTCATTTCCATGAAGCTGGATAATATCTAAATTACAAATATTACTAATTTCATTTACTGTATCAAAAGTTTCATTTACAAAAACACCAACTTTTTTTATATTAGGATTTAAATTATTTAAAAATGGTGCAATAATATTTGGTTTGATATATCTTTTGCTTTTAGGATAAAAAATAATACCTATATAATCAGGATTATATTTATTTATAATATCTATATCTTCTTTTCTTCTTATTCCGCAAATTTTTATTTTCATAAATTACTCCTCAAAGGCTTTTTTAAATGATTTAGCTAAATGATTTATGTTACTACTTTTCATAAAACTTTCTCCAACTAATATTCCATCAATATTACCTTTTTTTAAATGTTTAATATCATTTTTGTCAAAAATACCGCTTTCACTTATTAATATTTTATTTTTTTCAATATATTGTGAAAGTTCAAGAGTAGTATTAAGTGATACAGAAAAATCTTTTAAATTTCTATTATTGATCCCAATAATATCTACATCTATATTAAGCGCTCTATTTAATTCCTTTAAATTATGAATTTCTACAAGACAATCAAGCTCTAATTCTTTTGCTAATGAATAAAAGTTTTTAATTTCATCATCACTAAGAATAGACACAATAAGTAGTATAGCTGAAGCACCAAGATATTTTGCTTCATAAATCTGTATAGGATCAATAATAAAATCTTTTCTAAGAAGAGGGATATCAACATTATTAGATATATCTTTTAAATATTCAGCTTTCCCCATAAAAAAATTTTCTTCTGTAAGAATAGACATAGCATCAACAATATTATTATATTCTTTAGCTATTTCAATCGGATTGAAACTTTCTCTAATAATTCCTTTTGAAGGTGAAGCTTTTTTGACTTCTCCAATAATAGATAAACCTTCTTTTTTCATTGCATTATAAAAATTTGGCTTCTTTATAGAAAAATCAATATTTTTTTCAAAATTAGATATGGTAAAATCAAAGTCGTATATAGAATTTTCTTTTAATTCTTTTAGTCGTTGTTTTTTTCTATTTACTATTTTTGCAAGTATAGTTTCCATAATCCTCCCTTTTACTAAGCTATAAATATATATTATATAAAGAATAAGAGCATCAAGAATATTTAAAGCTAGTATTTTATACAAATAATAATTATAAAAATCATTTTAAACTATGAGCTTTATAATTGTTTTCTGTAGAATTCTTTTTTTATGATTTCTTTTATTTTTTAAATTTATTAGTAAACTCTATAAATTGATTTAATTTTTCAAATGCTTTTCCAGATTCTATAATATCTTTTGCTAAATAAACCCCTTCTCTTATATTTTCAGCTTTTTTACCTACATAGAGAGCAGCACCAGCATTAAGAAGTAATATATCATATTTAGCACCTTTTAATTTATTTTGAAGAAGTTCTTTTATAATATTTGCATTTTCTTCGACAGTTCCACCTTTTATTTCGCAACTGTCATATAAAGGCATTCCAAAATCTTTTGGTGAAATATAATAAGTTTGAATTTCACCGTTATTTAATTCTGTTATTTTTGTATTATTACAAGAACTTATTTCATCTAATTTATCCATACCATAAACAACTAAAGCTCTTTCTAAACCCAAATTTTTTAGAGCAGAAGCTATGATTTCTGTAAGTGATTCATCAAATACCCCTAAAACTTGACCTTTTGCAAATGCTGGATTAGTAAGCGGTCCAAGAACGTTAAAAATAGTTCTTTCTTTTAATTCTTTTCTTACTGGTACAGCATACTTCATAGCTTTATGAAAATTTGGAGCAAACATAAATCCAAGGCTTGTATTTTTTACACACTCTTTTACTTCTTCTGGAGTTAAATTAATATTTACACCAAGTTTTTCTAATACGTCAGCACTTCCACTTTTACTGGAAACAGAACGATTTCCGTGTTTTACTACTTTTATTCCAGCTGCAGCAGCAACAAACGCTACAGTAGTAGATATATTATAAGTATTAGCTCCATCACCTCCAGTGCCACAAGTATCTATAGTATATTCATTTGAAATATTAACTTTTTCAGCTTTTTCTCTCATTACATATGCTCCACCAGTTATTTCATCAGCTGTTTCACCTTTCATTCTAAGTGCTGTTAAAAATGCAGAAATTAATACTTCTGATACTTGTCCTTCCATAATCTCTGTCATGACTTGTTTCATTTCTTCTTGACTTAAATCTTGCTTTTGAAATAATTTTTTTATTGCTTTTCTTATCATATATAATCCCCCTTTTTGTTTTAATATATTATACTACGCGAATTTTTTAATTAATTAAAAAATTATAAAATTATTAATAATAAAATATTAAATTATAAGTTTACAAAATTTTCTATCATTTTTAATCCTTCAGGTGTATAAATTGATTCTGGATGAAATTGCAATCCAATTAATTTATATTTTTTATGTCTAATTCCCATTATTTCACCATCATCAGTTTTTGCAGTTATTTCAAAATCATTACTTAAAGTACCATCTATAATAGCAAGAGAATGATATCTAGCTACTTGAGTAGGATTAGTAATTTTTTTAAAAACACCTTTTCCATCATGTTTTATCATAGAAGATTTACCATGATAAATAGCTTTTGCATAACTAATGGTAGCGCCAAAGGCTTCTCCGATTGATTGATGGCCAAGGCATATTCCAAGGATTGGAATTTCTTGATGCAATTTTTGAATAAGTTCTACACATATCCCTGCTTCTTTTGGTGTTTTAGGACCAGGTGAAAGTACAATTTTTTCAGGATTGAGAGCTTTAATTTCTTCTACACTCATTTCATCATTTCTAATAACTTTTATATTTTTTTCAAATGTTCCCAAATATTGATATAAATTATAAGTAAAAGAATCATAGTTATCTATTAAAATTATCATTTTTTCTCCTTTCATTTTATGAAATTTTCTAATATAGTCTGCATAATTTTATTATTAATTTCAATGTTTTCTAATTGATTTAAAATTTGATTTTTAGATTGAATGTAATTTTTATTTTCAGTTAATTCATCATTAGAATTATCAATTATAGATATAATATTTTCTTTTTTCATTTCTAAATGAAATTGTAATGCAATTATGTTATTAAAAATAAATCCTTGATTGTCACAAGCTTCACTTTCAAATATTTTTTCTGCTTTATCAGGTATTAAAAACTTATCACCATGCCAATGCATAGTTTTAAATTCAGTTGGCACATTGTATAAAAATTTATGATTAGATACTTTTTTTACATTAAACCATCCTATCTCTTTTTCTTTATTTTTAACAACTTTTGAGCCAAGTAAATCTGCTATTAATTGAGCACCTAAGCAAATTCCAATAATTTTTTTATTAGCATTAATGACTTGCTTTATAAATGTTTTTTCTTCTTTTAAGAATGGATATTGTTTTTCTTCATAAATATTCATAGGACCACCAAGAATAACTAAGATATCAATATCATTAATATTTGGTAGTTTATAGTTTTCATACATTTTAATATATTTAAATGTATAATTATTTTTTATAGCCCAATTTTCTATTATGCCTGGATCTTCAAAAGATACATGTTTTATACAGAATATATTCATTGACATCTCCTTTTTTTATAATTTAGCTTTTTATAGCTGTTAATAGAGCTTTTACTTTATTTTTTGTTTCTTCATATTCCATTTCCGGATTTGAATCAGATGTTATACCTGCTCCAGCTTGCATATATACTTTATTATCTTTTATTATCATAGTTCTTATTGCGATACAAGTATCCATATCACCATTATATGAAAAATATCCGGCAGCACCTCCATATATTCCTCTTTTTTCCTTTTCAAGCTCTTCAATTATTTCCATAGCTCTTATTTTAGGAGCTCCTGATAATGTACCTGCAGGTAAAAATGATGATAATATAGAAAAAGCATCTTTGTCTTTTCTTTTTTCTCCTTCAACTAATGAAACTATATGCATTACATGAGAATAATAATGAATTTTCATAAATTCAGTTACTTTAACACTACCAATTTTTGATATTCGCCCCATATCGTTCCTAGCTAAATCGACTAACATAATGTGTTCTGCTTTTTCTTTTTCATCATTTAATAAATCTTTTGCAAGTAACAAATCTTCTTTTTCATCTTTTCCTCTTTTTTTAGTACCCGCAATAGGACAATTAAATACTTCATCTCCTCGAAGCTCTACAAGCATTTCAGGAGAACTACCAGCTACTTGATAATTACCAAAATTAAAATAAAATAAATATGGAGAAGGATTTAAACTTCTTAGTTTTCTATATAAATTGAATGGATGTTCATTTGTTTCTAGTGTCCATCGTTGAGAAAGAACTACTTGAAAAATATCTCCTTCAAATATATATTTTTTAGCTTTTTGAACCATTTCTATAAATTCCTCTTTTGTTGTATTACTTATAGCCTCATTTTCAATTTTGATTTTATTAATATTATAAAAATTAATCGGTAAAGTTGTAGTTTTGATAATGTTCTCAATTTCTTCGATTCGTTTATATGCTAATTCTTCATTGTTTTTATCTTCAAGAACAATAATAGAAATATCTTGATGATAATGATCATACATAATAAATTCTGTTAAAAACATCATATTTGATTCAGGAAGGTTTAAATTATCTGGGTTTATTTTTGGAAGTTTTTCATATTGTTTTATTATATCGTATCCAATTACACCTACAGCACCACCACAAAAAGGAAGACTAGAATCTTCAATAATTTTGATATTCTCAATTTCTTCTTTTATTGTATCAAGAACTCGTCCATTTTTTTTTAAAATTTCTCCATTTTTTTTAATTTTTATACTTGATTCATTTGATTCAACAATAATAAAAGGATTTTTACCAATAAAAGAATATCTTCCTTTTATAGAGTCTCTACTTTCAAGTAATATTCCAATATCATTATTTATATATTTTTTATATAAAGTAATGGGTGTTTCTATATCCCCAGATATTTTTTTTTTAAATACTTTTAACTCTTTCATAATTTTCCCCCTTAGTTATAAATTTTAAATTATTGATTTTATTATTTTAAATTGATATTTTTATAGTTCTCTTAGTTTTTTATTATTGATATATAATAAAAAAAGACCGTTCTAAGAACAGTCTTTATGTATAAATTATTTATCTATAAAAATTATATCTTAAAATTACTAAAAGATATAATCTAATAGATAGTATCGTTCTTAGATATGATACTACAGATTATATATTTAGTTGATTCAAGATATTCGTTTTTCCACCAGCTTTTAAATATAGTAACCATATCTAAAACACTCCTTTTTTATTATTTGTATTAATGTTATCATACTAAAAAACATAAATCAAGTTTTTTTTGAAATTTTAAAATTATTTTTCTAAAATTTTATTAAGAATATCAATTTGTTGTTTTATAGCAAAAATTTCGTTTTTTTCTAATGAAAAATTATTTAACAAGTTAGTAGGAATATTTTTTGCTTTATTTTTTAAATTTCTTCCTTTTGTAGTAAGAGAGATTATTAGATTTCGTTCATCAAATTTATTTCGATTTCTTTTTATGTATTCTTTTTTTTCAAGCTTTTTTAAAAGAGGGGTAAGAGTTCCAGAATCAAGAGAAAGAATTTTTCCTATTTCATTTACATTTATTCCATCTTTTTCCCATAATACAAGCATAGTAATATATTGAGTATAAGTAAGATCAAGTTTATTTAAAAGGGGTTTGTAAATTGTATTTATATTTTTCATCAATTTATATACACTAAAACAAAATTGATTTTCAATTTTTAAAATATCATTCATTTTTATTACCAACCTTTTTAAAATTTCTATTTAAATTATAACAAAAATAAAGTTAAAAATAAAGTTAAAAAATACATTATAATTAAAATAAATCTCAATAAATAAAAAAATTCTTTATGAATAAAAAAACAAAAAATAATATATATTTTTAAAAAAAATATGCTATACTAAATTGATTAAACTAAATAAAGGGGAGGATAATTTATGAAAAAACAACTTTTAATAAGAGCAATAGAAAATAAAGATGTGTGTGCAGTAGAAAGTGATGCATTAATTACAGCAGTTGATTCTAAAGGTATTTGGTGTGGACAAGTGGATATGGCTATTCGAAAAAATGTAGGTGATTATTATCATCAAGCATTATTAGGACATATTAGACAAAAAACAGGAACTTCTTTATTTGATGATGGGCAAGTAGTTTTAGTTGAAAAAGATGAAGGAATGAAAACAGCATTTAATAATATTATTTTTGTGATTGATGATTTAAGAAAACCTTTATCAGAAATTATATATAGTGGACTAGTAAAAGCTAATGAAGAAGAATATAAAATAGTATCCATGTCATCAATTAGAGCAGGAGAATCTTTTGGTAAAAAAGAAAAAACTTATGAAGAAATGGCAAAAGAAGTATTTAAAGGAATTAGAAAATTTTTAAATGAAACAGAAGAAGTAAAAATAGATAGATTGTTTATTTTAACATATGATAATGAAAAATATAAAAACCTTTTAATACAAGAATTTAATACAGATGAAGATTTAGTAGCAATATACTAAAATTTTTGTTTAATATTTATAAATTTTTATTGACAAAACATTAAAATTAATATATACTAATTTAGTCAAAAAAGCAAGTTATCAAGAGAAGTGGAGGGACCGGCCCAATGAAACTTCAGCAACCTACTGTAACCTTATTTAGTGTGGTGCTAATTCCGAGAGATGATAGAGAGTAGAGTAACCTCTTTCATTTCTGAAAGAGGTTTTTTATTATCTAAATATTTAGAAAAGGAGAAAAAAATGATAGAAAAAGGAAGAGTATTTTTCACTTCTGAGTCTGTTACTGAAGGTCATCCAGACAAAATGGCAGACCAAATCTCAGATGCTATACTTGATGCAATTTTAAAAGAAGACCCAAAAGCTAGAGTGGCTTGTGAAACTATGCTTACAACAGGACTTGTTGTAATAGCAGGTGAAATAACGACTGCAACTTATGTTGATTTTCAAAAAATTGTAAGAAATACAGTAAAAGAAATAGGATATACAAGAGCAAAATATGGATTTGATTTTGAAACTTGTGCAGTGATAAATTCTATTCATGAACAATCAGCAGATATAGCTATGGGAGTAGATGAATCTTTAGAAATAAAAGAAAACAAATCAAAAAAAGAGGATGAAAGAGAATTACTTGGTGCAGGAGACCAAGGAATTATGTTTGGTTTTGCTACTAATGAGACAGAAGAATTGATGCCAATGCCTATTATACTAGCACATAAATTAGCTAGAAAATTATCAGAAGTAAGAAAAAACAATACATTAGATTATTTAAGACCAGATGGAAAAACTCAAGTAACAGTAGAATATGTAGATGGAAAACCAGTTAGGATAGATGCAATAGTAATATCAACTCAACATGATTCTGATATTACACATGATAAAATAGAACATGATATGAAAAAATATGTTATAAATTCAATAATTCCAGAAGAATTATTAGATGAAAATACAAAATATTATATAAATCCAACTGGAAGATTTGTTATTGGAGGCCCTCACGGTGATGCTGGTCTTACAGGAAGAAAAATCATAGTTGATACTTATGGTGGAATGGGAAGACATGGTGGAGGAGCATTTTCTGGAAAAGACCCTACGAAAGTAGATAGAAGTGCCGCTTATGCTGCAAGATGGGTTGCTAAAAATATAGTTGCTGCAGGACTTGCTGATAAATGTGAAATACAGTTATCTTATGCAATAGGAGTAGCTAGTCCTACTTCAATAGCAGTAAATACTTTTGAAACAGGAAAAGTAGCAGATGATACTATAGTAAAAGCGGTAAAAAAAGTATTTGATTTAAGACCAGGGGCAATAATTCAAGATTTAGACTTAAGAAGACCTTTATATAGACAAGTAGCAGCTTATGGACATTTTGGTAGAATAGACTTAGATTTACCATGGGAAAAAACTAATAAAGTAGAAGAACTAAAAAAAATAGTAGAAGAATTAAAATAATTAATAAAAAGAGTGTATTTATATTTTATAAATACACTCTTTTATATTGTTTAAATTTTAGTTATTTAATTTTTAAAAAATCTGCGATAGTATCTTTCATTTTATTAGGATTAATTACAGTTTTATGTAAAATTTCTTTTTTATTAAGTTCGAAAACAGCTTTTGGGATTTCTAAATTTGTAATTTTAGAAAGTTCTTCAATTAATTCAAAATCAGATTTATTATCAAGATTTTTATCAATGATAGATTCTAATACTGCTCTAGTAAATTTAAAAGGGCTAGCAGTAGAAGCTATAAGAGTTTTAGTATCAGTATCATTTGTTTCTTCTAAATAATTTTCATATACTTTATATGCAACAGCAGTATGTGTGTCTATAACATATGAATATTTTTCATATACATTTTTAATTGTAGATTTTGTAGATTTATCATCAGCAAATCCACCATAAAATTTATTTAATTTTTCTTTTAAATTATTTGGTAATTCGTATTTACCATTGGTTTTTAAAGAATTCATTAATTCAATAATAAGTTTATCATTTTTATCTGTTAATGATTCAATAAATCTTTCAAGATTACTTGAGATTAGAATATCCATTGAAGGCGATATTGTAGTGTTAAATTCTCTATTTATATCATATATTCCAGTATTTAAAAAATCAGTAAGAACGTTATTTATATTACTTGCACATATAAATTTATTTACTGGTAGTCCCATTTTAAAAGCGTAATATGAAGCTAATATATTACCAAAATTTCCAGTAGGAACTACTACATTTATTTTATCTCCAGTTTTTATTTTATTATTTTTTATTAAATTAAAATATCCGTAAAAATAGTAAATGATTTGGGGAACTAACCTACCTATATTTATTGAATTAGCGCTAGAAAAAACATACCCGTTTTCATTTAAAATTTTATTAAATTCAGTGTCATTAAAAATATCTTTTACACCACTTTGAGCATCATCAAAATTTCCATTGATAGCTACAACAAATGTATTATCTCCAGTTTGAGTAACCATTTGAGCTTTTTGTACTTCGCTTACACCATCAGTAGGGAAAAATACAATTATTTTAATCCCTTCATTATTTGCAAAACCTTCTAAAGCAGCTTTTCCTGTATCACCACTTGTTGCAGTTAGGATAACTATATCTTTTTTTTCATTATTTTTTTCTTTTGAGAGCTTCATAAATTTAGGCAAAATAGAAAGAGCCATATCTTTAAATGCTAAGGTAGGTCCTCTATATAATTCTAAAAAAGAAACATTTTCAATATCTTTTATACTAACTATATCTTCTGTTTCAAATTTTTCATTATATGCTTCATTTATACACCATTTTATCTCTTCTTCATCAAAATCATTTAAAAATTTTGAAAGTATATCAAAAGCTAATGATTTATAATCAACTTCTAGATATTTTTTATTAAAAATATCTATTTTTTCAAAATTTTCAGGTACAAAAAGTCCTCCATTTGTTGACAAGCCTTTTAATACTCCTTCAGAAAAAGATACTTTTTCATTTACATTTCTAGTACTATAATACATTTTCATATATATTCCCCCAAACTTTGTCTAAAAATTTTATACAATGGTTATAAATTTTAAATACTTTTTTAGATATTTTATCATAAAGTTTAAAATATTCAAATACTTTTTTCGAATTATTTATTGATATTAATCAATAATATAGCAAAATTATTAAAATTATCAGAATAATATGGAGTTTTAAAATTAAGGATAAAAATGATTAAATGCTTTCATAAAATTAAAATAAGTAATAAAAATAATGTTATGCTACTATTTAGATTCCTTGAAATACTAAGTAAATTATGCTATAATAGTCCAAAAGTATTTTTTGTAGGAGAAAAGATGAGTATACTTGATAATTTAAATGAAAATCAAAGAAAAGCAGCAGAAATAATAGAAGGACCATTATTGATTTTAGCTGGTGCAGGAAGCGGAAAAACTAGGACATTGACATATAGAATAGCTCATATGATAAAAGAAAAAAATATTGAACCCTATTTTATATTAGCGGTAACATTTACAAATAAAGCAGCAAAAGAGATGAAAGAAAGAGTTGAGTCATTAGTAGGTATTGAAGGAGAAAAAGTAATGATATCAACATTTCATTCTTTTGGAGTAAGACTTCTTAGAATGTATGCAAAATATATAGGATATGATTCGAATTTTGGTATATATGATAGTGATGATCAATTATCCATAGTTAAAAGAATACTAAAAGAAATAGGTCGAGAGATAAATTTGACACCAAATAAAATTGTTTCAATAATAAGTAAAGCAAAAGAAGATGGAATAACTCCAGAAGAATTTGAAGAAAAGAGAGTATTTTTTCATGATTACAAAACCATTGCAGAAGTTTACAAAAGATATCAAAAAGAGCTTCTTAAAAATAATAGTATGGACTTTTCAGATCTTTTAATTTATACAAATAAACTTTTAGATATAGAGGAAGTTAAAGAAAAATTACAAAATAGATATAAATATATTATGGTAGACGAATATCAAGACACAAATGATATTCAATATCAGATTGTAACTAAAATTGCTTTAAAATATAGAAATTTATGTGTTGTAGGAGATGAAGATCAAAGTATATATGGATTTAGAGGAGCAAATATTGATAATATTTTAAATTTTGAAAAAGATTATAAAGATGCAAAAGTAATAAAATTAGAAAGGAATTATCGATCTACAGAAATAATATTAGAAGCTGCAAATTCAGTAATAAAAAATAATACTACTTCAAAAGGTAAAAAACTTTGGACAGATAAAAAAAGTAAGGATTTAATAACTGTATATGAAGCTAAAAATGGTATTGATGAAGCGTATTTTGTGGCACATAATATTATAAAAAACGTAGATAATGGTAGAAATTATAGAGAGTTTACTATTTTATATAGAACAAATGCACAATCCCGTATATTTGAAGAAGTTTTTTTAAAACATAATTTACCATATAAAATATTTGGTGGAATGCAATTTTATCAAAGAAAAGAGATAAAAGATATATTAGCATATTTAAATGTTATAAATAATCCAAATGATGATGTTAGTTTACTTAGAATAATAAATGTGCCAAATAGAAAAATAGGTGCAAGAACAATTGAAAAAATAAGAGATATTCAATATAAAAAAGGAATTAGTTTATTTGAAACTTTAAAATATATAGAAGAAGCTACAAGTGTGAGAAGTAATACGAAAAATTCTATAATTGAGTTATATAATTTCTTTAAAACACTTATAGAAGAAAAAGAATTTTTATCAGTTACAGAAATATTTGATGAAGTAATAGAAAAAACTAGATATTTAGACAGCTTGGAAGAAGAAGTTAGAGTAGAAAATGTACTCGAGTTAAAAAATTCTATAATAGAACAAGAAACTAGAGAAAATAATATACAACTTAGTGAATATTTAGAAAATATATCTCTAGTAAGTACAACTGATAATTTGGAAGAAAATCAAGATTATATAAAGCTTATGACTATTCATAATTCTAAAGGGCTCGAATTTCCAGTAGTTTATTTAGTTGGAATGGAAGAAGATATTTTTCCTGGTAAAAAGGTTGAATTTGATGATAAAGAACTTGAAGAGGAAAGACGACTTTGTTATGTTGCAATAACTAGAGCGGAAGAAAAACTTGTAATAACATATGCAAATGAAAGAAATATTTATGGAAGAATAGATAGCTTTAGAGATAAATCAAGATTTTTAGATGAAATACCAATGAACTTGTTAAAATATATAAATAGAAAAGAAGAAAAAACTATTATTAAAAAGGAAAAATCTAAAAAAATAGAAAATTTTAATCCATTTTCATTAAAAAACAAAGGGTTATTTAATGTTGGTGATAAAATATATCATAATAAATTTGGAAATGGAATAATTAAAAATATTGAAGAAAATAAAAGATTGATAATTAAATTTAAATACGAAGAAAAAAAAATAGCCATTGCCGTAGCTGAAAAAGTACTAAAAAAAATATAGTGTTATTTTAGGAAGGAATTTTTATGAAAAGAAAAACGATATCTAAAAATCTGAAATATAAGGGAATAGGGTTGCATAAAGGAGAAGATATCATTTTAAGACTTAAACCAGCTCCGGTTAATACTGGAATAGTTTTTTATAGAAAAGACTTAAAAGATGGGGAAAATAAAATAGTTTTAGATATAGATAATGTATTTGATTTAACTAGAGGAACAAATTTAATTAATGAATATAAAGCATCTGTTTATACAATAGAACATTTTTTATCATCACTTTATGTATTTGGGATAACAGATATTATTGTTGAAATAGACGGTAATGAATTACCTATTATAGATGGAAGTTCTAAAAAATTTATAGAATTAATAAAAGAAAATATAAAAGAATATAAAGAAGAGGTTGAAGAATTGATTATAAAAAAACCTATATATGTTACACATGGTGATAAACATGTAGTAGGACTTCCTTATGATGGATATAAAATTACTTATTCTGTCAATTATAATCACTCGTACTTAAAATCTCAATTACTTGAAATAGAAGTAAATGTAGATAACTATGTAAATGAAATTTCAGGAGCTAGAACTTTTTGTTTTGATTATGAAATAGAATATTTAAAGGCAAACAATTTAGCACTTGGTGGAAGCTTGGATAATGCAATTGTAATAAAAAAAGATGGAATATTAAATCCAGGAGGGCTTCGATATCAAGATGAATTTGTTAGACATAAAATTTTAGATCTAATAGGAGATTTAAAAGTATTAAATAGACCTATAAAAGGTCATATTATAGCAGTAAAAGCAGGACATGCAATAAATATTGATTTTGCAAGAGAGTTAGTTAAAAATTTTTTATAAAAATATTAAGAAAATTTGATATGGAGGAATGTTAATATGAAATTAGATGTTATGGAAATAATGAAAAGAATACCACACAGATACCCATTTTTATTAGTTGATAGAATTGAAGAATTAGAGCCAAATAAAAGAGTAGTTGCATATAAAAATGTAACTATAAATGAGGATTTTTTTAATGGACACTTTCCAGGTCATCCAATAATGCCAGGAGTATTAATAATAGAAGGTATGGCACAAGCTTTAGGTGTTTGTACAATGCCTGAAGGAGAAGAAAAAGTACCATATTTTATGGCAATAAATAATGTTAAATTTAGAAAACCTGTAAGACCAGGAGATAAATTAATTTATGATGTAGTAGTAGATAAATTAAAAGGTAAAATATTAAAAGCTACAGGAAAAGCTCTAGTAGATGGAGAAATAGTAGCTCAAGCAGAACTTATGTTCTCGATTATGGACAAATAAATTAGGAGGAGTATTATGATTCATGAAACTGCTATTATAGAAAAAGGAGCAGTAATTGGAGAAGATGTTGAAATAGGAGCTTATTGTTTTATTGGCAAAGATGTTAAAATAGGAAATGGTACTATTCTTAAATCACATGTAGTAGTAGAAGGTAAAACAACAATAGGTGAAAATAATATTATTTATCCTTATGCTTCTATTGGGCAGGATCCGCAAGATTTAAAATACAATGGAGAAGATACAGAACTTATTATTGGAGATAATAACAAGATAAGAGAATTTTGTACTATTAATAAAGGAACAACTGCTTCAAATAAAACAGTAATAGGGAATAATAATTTACTTATGGCATATGTACATGTTGCACATGATGTAGTAATAGGTGATAATTGTATATTTGCAAATTGTGCAACACTTGCAGGACATGTAGAAGTAGAAAATTTTGCAGTTGTTGGAGGACTTACAGGAGTGCATCAATTTTGTAAAATAGGTGAATCTGCGATGATAGGGGGAGCCACTAGAATAGTGCAAGATGTAGCGCCATTTGTTACTGTTGAAGGTAATGATGCAAAAACTAGAGGATTAAACTTATTAGGACTTAAAAGAAGAGGGTTTTCCAGAGAAGATATAAGAAATATAAAAACTGCATATAAAAAAATATTTATGTCAAAAATTAAATTAGAAAATGCATTAAATGAATTAGAGATAGAATTTAAAGATGATAAAAACATTATACATATGATAAAAACGATAAGAAGCTTTGATAGGGGGCTGACGAGATAGATGCAAAAGATAGGATTAATAGCTGGGAAGGGAGAACTACCTAATTATTTTATAAAACAAGCTGAAAAAAAAGGAATAGAAGTGTTTCCAATTGGATTTTTTGATGAAATAAATGATGAAATAAAAAAGCATAAAAATTTTATAAAAGTAAATATAGGAGAACTTGGGAAAATAATTTCTTATTTAATCATAAATAAAATATCAAAATTAATGATGATTGGTAAGGTAGAAAAAAATACTATATTTCAAAATATAAAATTTGATGAAACTTTTTCGGATTTACTTTCAAATCTTCCAGATCAAAAAGACGAAACACTTTTAATGGGAATAATAGGAATTCTTCAAAAAAGTGGAATAGATATATTGCCACAAAATTATATGTTAGACGATTTAATTACTGAAGAAAAAGTATATACGAATATAGACGTAGATTTAAGTGATATAGAAACTGTAAAAGTTGGAATAGAAGGCGCGAAAGCCTTAACCTCTATTGATGTGGGACAAACTGTTGTTGTAAAAGATAAATCTGTAGTAACTCTAGAAGGAATAGAAGGAACAGATGAAACAATAAAAAGAGCTTATAAATATGCTGGTGAAGGATGTATTATTGTAAAATTGGCAAGGCCTAATCAAGATTTAAGAGCAGATACGCCTGTAATAGGATTGGATACAGTAAAACAAGCTGTCGAAATAAAAGCAAAAGGAATAGTAATAGAAGCTAATAAAATGCTATTTTTTGAACAAGAGGAATCTATAGCTTTAGCAAATAAAAATAAATTATTTATTAAAGCTATAAAAAGATAGGAGGAAGGGTGAAATATTTTGTATCTACTGGTGAGTTATCTGGAGATGTTCACTTATCATATTTATTAAATGAAATAAAAAATGAAGATAAAAATGCTGAGTTTTATGGAATGGCAGGTGATAACTCAAAAAAAGTAGGTGTGAATTTACTTCAACATATAGATGATATTGCTGTTATGGGTTTTAAAGAAGCAGCAATGAAATATAATTATTTAAAGAAAAAGTTAGACTTTTTTATAAATTTTATTTTAAAAAATAATATTAAAAAAGTTATTTTAGTAGATTATGGAGGATTTAATATAAAATTTTTAGAAAAATTAAAACAAGTAGATAGTAGAATAAAAGTTTATTATTATATTCCACCTAAAGTATGGATATGGGGAGAAAAAAGAGTAGAAAAACTTAAATTAGCTGATAAACTTCTTGTTATTTTTCCATGGGAATTAGAATTTTATAAAAATAAGAATATTGATGTAAAATATTATGGAAATCCTTTCATTGAAAAATATAAAAAAATAGAAAAAAAAGGGGAAAAAATTTTAATATTACCAGGAAGTAGAAAGCAAGAAATAACTAAAATATTACCTACTTTATTAAAAGTAGTAGATAAATTAAAAAATGAAAAATTTATTTTGAAATTAGCTAATAAAAAAAGTTTATCATATATAAAAAAAGATTTATCAAAATATCATAATTTAGAAGTAAGCTATGATGAACTTAATAATTGTATAAAAAAATCAAAATATGCTATAGCAACTTCAGGAACCGTAGTTTTAGAATTAGCATTATTGGGATTACCTGGTATAGTTGTTTATAAAACTTCAATTATTAATGAAATAATAGTACGATTATTTATTAAACTAAAATATGTTTCATTACCAAATCTTACTTTAAATGAAGAAGTATATCCAGAATTATTACAAAATAACTTTAATTTAGATAAAATAATAGAAAAAATAGAATATATAGAGAAGAATAAAAAAGAAATAAATAAAAAAATAAATGAAATAAGAAATAAATTAGGGGGCAAAAATATAGTGAAAAAATATGCCCAATATATAATTAATAATTAATAAGAGAGGAGTCTTTTTGTGAAAAGAGATGATGGAAGAACACTTAATCAATTAAGAAAAATAAAAGTTACACCTAATTTTATAAAACATGCTGAAGGTTCTGTTCTTATAGAATGTGGAGAAACAAAAGTAATATGTAATGCTACAGTAAATGAAAATGTACCACCTTTTTTAAGAGGGAAAGGTACTGGATGGATTACAGCTGAATATTCAATGTTACCAAGAGCTACAGAAGACAGAAATATGAGAGAATCAGTTAAGGGAAAATTATCGGGAAGAACTATGGAAATACAAAGATTAATAGGAAGATCTCTTAGAGCGTGTATTGATTTAGAACAATTAGGAGAAAGAACAGTTATTTTGGATTGTGATGTAATACAAGCTGATGGTGGGACAAGAACTACTTCTATTACAGGAGCTTATATAGCATTAGAAATAGCTATAAAAAAATTGTTAAAAGAAAAGAAAATAAAAGAAAACCCTTTAAAATCACAAATAGCAGCTATAAGTGTAGGAATAAATAAAGGACAAGTAATGTTAGATCTTAAATATACAGAAGATAGTACTGCTGAAGTTGATATGAATGTAATTATGAATGATAAAGGTGAATTAATAGAAATTCAAGGAACAGGCGAAGAGGCCACGTTTACTAGAGAAGAACTTAATCAAATGCTTAATGTAGCAGAAGAAGGATTAAAACAAATATTTGAATTACAAAAAAAATATGTAGAAGAGGCATTTTAATGAAAAAAATATTTTTAGCTACTAAAAATAAAAAAAAAATTGAGGAAATAAAAACGATATTATCAAATTATAATATAGAAATAATATCAATAAATGATGGATATGATATACCTGAAGTTAAAGAAGATGGACTTACATTTATGTATAATTCTCAAAAGAAAGCATTGGAAATAGCTAAATATTTAAATATAATAACTATTGCTGACGACTCTGGTCTTTGTGTGGAAGCATTAAATGGAGAACCAGGAGTATATTCTGCTAGATATGCAGGCGAAGATACAGATGATAAAAAAAATAATGAAAAATTAATTAAAAATCTAAAAAAAATAGATAATAGAAACGCAAAATTTGTATGTGTAGTAAGTATAGCAAAACCAGACGGAACAGTTAAATCATATACTGGAGAAGTTATAGGAGAGATAATTGATATACCAAGAGGAACAAATGGTTTTGGATATGACCCACATTTTTATTATGAACCTTTTGACAAAACATTTGCAGAATTAACAAAAGAAGAGAAATCAAAAATAAGCCATAGAGGAAATGCATTAAAATTATTGAAAAAAGATTTAGTTGATTTTATAAAATAAGACTCAAAAGTTTCTTTTGAGTCTTTCTCTTTTATTGTAAAATAGTAAAAAATAGTATATAATTTATAAGATAAAAATAAAATATGAGTACTTTAAAAGACTAGTTAAGAAGATATTATTTAATTAATAAAAATATTAAAAAACTTAAGAAGACAATAAGTATAATAATTAATAAGAAATATAAACTAGGAGGAATAATATGCTAAAAGATAAGTTCACACCAAAAAAAATTGTAGAAGAGCTAGATAAATATATAATCTCTCAAGATGAAGCAAAAAAAAATGTAGCAATATCTCTTAGAAATAGATATAGAAGAAAGCAGATAGTGGATAAAAAATTGCAAATAGAAATAACACCAAAAAATATAATTCTTATAGGGCCTACAGGAGTTGGTAAAACTGAGATAGCAAGAAGACTTGCAAAAGTAACGGATTCTCCATTTATAAAAGTAGAAGCAACAAAATTTACTGAAGTGGGTTATGTAGGAAAAGATGTAGAGGCAATAATTAAAGATCTTGTAAATTTAACTTATCAAAATATGAAAAAAAGAAAAATAGAAGAACTAAGAGAAGAGTATCTTCCTATTATTTACAATAAAATAGCAAAAAAATTAAAACCTTATGAGCTATTAGATGAAGAAAAAGCTAAAATTATTGAAGAGATAAAAAAAGGTAAGTATGATGAAGAAAAGATTGAAATAGAAAGAAAACCAAAATTTGATATACCTGTAATTGAAATAAATGCTAGTTCACCTGACGAAGGCTTAAAAAATTTATTTGATTCAATATCACCTTTTGGGAAAAAAGATAATAAAAAGAATATAAAAGTTAAAAATGCAATAGATTATTTATTAAAAGAATTAATTGATGAAAGTATAGATACAGAAGAATTTATTCCAGAAGTATTAAAGAAAGTAGAAGAGGATGGAATAGTTTTTATAGATGAAATAGATAAAATAGCAGAAAGAGAATCATATAGTAGAGGGGAAGTTTCAAGACAAGGAGTTCAAAGAGATATATTACCTATTATAGAGGGTACCACAGTTATTACAAAATTTGGACCAGTGAAAACAGATCATATATTATTTATAGCGGCTGGAGCTTTTTCACAATCAAGTCCTAGTGACCTTATGCCTGAATTACAAGGAAGATTTCCAGTAAAAGTAGAATTAAAAAGTTTAACTAAAAAAGATTTTATTGAAATACTTACTAAAGTAGATAATAATTTATTAAAACAATATATAGAATTGTTAAAAGTAGATGGAGTAGAGCTTGAATTTACTAAAACAGCAATAGAAGTAATAGCAGAAATATCAATTGATTTAAATACTAAAGTAGAAAATATAGGAGCGAGAAGATTACATACTGTATTAGAAAGTGTATTAAAAGAGATAATGTTTGAAGCACCTTTTGAAAAAGAGAAAAAAATAAAATTGAATAGAAAAGATATAGAAAAAGTTTTTGATATAAAATCAGATAAAGAAAATCTAAATAATTATATTTTATGATGGAGAGATTATGTACTTAAAAAGCTTAGAAATTAATGGATTTAAATCATTTTCAGAAAAAATAGAAATAGAATTTATAAAAGGTATAACTTCGATAGTAGGACCTAATGGTAGCGGGAAATCTAATATATTAGATGCAATATTATGGGTATTGGGAGAACAATCCTATAAATCAATACGTGCAAAAGAAAGTCGAGACGTTATATTTCACAGCGCTAATAAAAGTAAAAACTTTGCAGAAGTAGTATTAGAGATTGACAATACGGATAGGCAATTAAAAATAGATGAAAATATAATTAAAGTAAGCAGAAAGCTTTTTAAAGATGGTAAAAATGAATATAGAATCAATGGAAATAAAGTTAGATTAAAAGATATTTCAGAATTATTTTTAGATACAGGAGTTGGAAAATCAGCTTATTCAGTAATAGGGCAAGGAAAAGTAGAAAGAATAATATCTTCATCTACAAAAGAGATAAGAGATATTATAGAAGAAGCTGCAGGAGTAAAAAAAATAAAGCTTCGAAAAGAGGAAGCTGAAAAAAAACTTGAAAAAGTAAAAAATGAAATAGAAAAAATAGGTTATGTAGAAACAGAACTTTTTAAAAATTATAAAACACTTGAATTACAATCACAAAAAGCTACGAAATATTTAGATATAAAAAATGAATTAGATAAATATAAAAAATTTATATATACAAATGAAAAGAAAGAACTCGAAAATCAATATAAAGAATATACAATTGAGTTAAAAGAGATAGAGAAAAGTATCAATAGAAATGATAAACTTTTTAAAAAAGAAGAAAAAGATTTAGAAAATATAAATAATTATCGACAAGAGATAAATAATATTATTGAAAAAAATAATAATGAAAATAAAAATTTAAGAAAATATATTGGAGATATAAAAAATCAAATAACTCTTTTTAGTGAAAGAAAAAGTAATTATAATAAAGAAATTGAAGAAAATGAAATAGTAGAAAAAAAATTAATAGAAAAAATTAGAAAATTGGAAGAAGAAAGAATTGAATTAAAAGAATCTATTGCTATAATTGAAAAAGAAATAATAAAAAAATTAGAGGTAAACAAAGAATATGAAGAAGAATTAAATAATAAAAGAACATTTTTAAAAAATAAGGAGTTAAATTTAAATTTTTTAAAAGAAAAAAGTATGAATCTTGAATTAGAAAAAATAAAATATCAAAATGATATAGAAACAAGTGATAAAAAAGTCAAATCAATTGAAAATAGAATAAATGAATTAAGAAAAGAATATGAAAAAAATAATAATGAATTATCAATTATAAATAAAGAAAAAGAGGAATTAGAAGAAAAAATAGAAAATTTAAAAAAGCTATTTGAAGAGTGTATAGAAAATAAAAATAAAGAAAAAGAAGAATTAGAAGAAAAGATAAAAGAAAAAGAAATTTTATTAAAAGAAAAAAATGAGATTATCTTTTTAAATAATAATTATATATCTAAATATGAAAATTTAAAAAAATTAGAAAAAAATAACGAGGGATTTATAAAAGGAGTAAAAGAACTAACAAATCAAAAAATATTTGGAGTATATGGTCCGCTAATATCCCTTATAGAAGTAGAGGAGAAATATCAAAAAGCAATAGAGGCAGCATTAGGGGGTAGTTTTCAAGATGTAGTTGTAAAAAATAGTGAAGTAGCAAAACAATGTGTTAAATTTTTAAAAAAAAATAAAATAGGAAGAGCTTCTTTTTTACCATTAGATATATTAAAATTTAAAGAACATAATTTTAATGAAAATATAGAAGGGGTTATTGGAATTGCAAGTAAATTAGTAAAATATGATAAAGAAATAGAAAATGCAGTGAAATATACACTTTCTAGAATATTAGTTGTAGACAATCTCGATAATAGTTTAAAAATATTAAAATCTAAAAATTTTAAATTTAACATAGTAACTTTAGATGGTGAATATTTGTCATCAAGTGGAAGAATAAGCGGTGGAATGAGTCTAAAATCTAATAGTTCACTTATATTTGAAAGAAGAAGAGAAATAAAAAAATTAGAAAAAATAATAGAGAAAAATAAATTGCTTATAGAAAGCAAAGAAAAAAAATTAGAAAATAAACTTAATAAAATAAGTATATCAACAGAAAAAATTAAAGAGTATGATATAAAAAAAGAAAATATAAAAGAAGAAGCAGAAAGAATTAAATTAGAAAAAAATGAATATGAAGTAGAAAAAATTAAACTTGAAAAAAGTATATCTATCTTAAAATATGAAATAGATGATTTAAAAGAAAATTTAAAAGAATTTACAAATTTAAAAGAAATTTCTAATAAAAAAATAAAAATAGTAGAAAAAAATTTGGTAGATATAAATAATAATATAGAAAATTTAAAAGAAGAAATAAAAAAAATAAGTGATGAAATAGAAAAATATGAAATAGAAAATTCAGATAAACAAATAGAAATATATAGTAAAAAAGAAAGGGTACGACAAGATAAGAATGTATTAGAGAAACTAGAATTAGAGATTAAAGAAAATCAACTTGAATTAGAAGAAAAAAGAAATAAAATAAAAAATTTGAAATTAAATTATGAGGATTTAAAAACTAGATTAGTTAATTTACACAGAAAACTAGAAGAAAATGCTGCAAATTTAGTAGTAGATGAAGAAAAATTAGAAAAATATAGAAAGGAGCTTTTAAATTTAGAAAAAAAAGAAAAAGAACTTATAATTTCTATAAAAAATTATGAAAAAGAGTTATTTAAATTAGAAAATTCTAAAATAAATTTAATAGATAGAAAAAATAAAATAGAAAGTTATATATTAAATGTAAAAGAAAAATTAAAAGAAATAAAAAATGTAGAATATATAGAATATAAAAAAGATGTAAAATCTATAAAAAAAGAGATATATAAATTAGAAATTGAATTGAAATCTATGGGGAATGTAAATCTTTTAGCAATAAAAGAATACGAAGAGGTAAAAAAAAGGTATGATTTTTTATTAGAGCAAAAAAATGATCTTTTAGGAAGTAAAGAAAAATTAAAAAACATTATAAAAGAGATTGAAAATAATATTGTAAATAATTTTTTAAATGCATATAAGTCTATTAATAAAAATTTTGGATATATGTGTAAAGAGATTCTTAATAATTCTATTGGGAAATTAGAATTAACAGATAAAGAAAATTTATTAGAAAGTGGAGTTGAACTTATTGTTAAATTTGCTAATAAAAAATCGCAAACATTAACTTTGTTATCAGGTGGAGAGAAATCAATGGTTGCAGTTGCTTTAATAATGGCTATATTTATGTATAAGCCAAGTCCGTTTACATTTTTTGATGAAATTGAAGCAGCTCTTGATGATACAAATACAAAAAGACTATTAAATAAATTAAAAGATTTTACAGATAAATCACAATTTATATTAATTACACATAATAAGCAAACAATGAAAGAATCAGATGTTTTATATGGTGTCACAATGGATAAAAAAATAGGTGAATCAAAAATATTAAGTGTATCTATGTAAAAAAGAGAGGGAACATGTATAATTTAGAAATTTTATTAAATCAGATAGATGGTATGGGATATAAAGGATATAAAGATATAAAAGGTAGTTATGATTTTAAAGAATATATTTTAAATATAATAAATGTACAAGGAGATCCTTTTGCATCTCCTTCATTTTTTGAAATAGAAATAGATATTAAAAATTTAAAATTACCAATGGAAGTATTTAAAGAAGATATTAAAATAGCCACAGAAGATTTTTTATTAAGAGAAATTTCAAAAAATATAAAAAGAATAAATACCAATCAAATAGGTAGTGGAAAAAGTGGGCATATTTATATTTTAAAACCAAGTAATAAGATTTTAAAAAGAAGTGCAATAGAAATAATTAAGAAAAAATTAAGTATAAAATTTTATGTAGGATTACCTGCTAAAGGAAGAAGAATTTTAGGCAGAGAAGCAATAAAAATAATATTTGAAAAATTGCCTGGAATATATAAAATTATTAAAAATGTAAATATTGAAAAATTAAAAAATCATATAAATTTATATAGAAATATTCAAAAAATAAGGGAATACTTAAAAAAAAATAATTATATTCTTTTTATTGCAAATGATTCTATACTTCCTAGAGAAAGTAGTATTTCAGAAAAACCTATGAAAAATGCGATAAAATTTCAATCACCTAAAGAACTAGAGATAGAAATACCTTTAGATAAAAATAAAATTATAAAAGGAATGGGGATCAAAGAAGGGATTACAGTTATAACTGGTGGTGGTTTTCATGGGAAAACAACACTTTTAGAAGCTATTGAAATGGGAATTTATAATCATATATATGGTGATGGAAGAGAATATGTAATAACAAGAGAAGATGCGATAAAAATAAAAGCTGAAAATGGGAGATTTATAAATAATACTAATATAAGTAGTTTTATACAAAATCTTCCAAATAAAAAAGATACAGAAAAATTTTTTACTGAAAATGCAAGTGGTTCAACATCACAAGCAGCAAATATAATAGAAGCATTAGAAATAGGGAGTAGATTTTTTTTAATAGATGAAGATACTACAGCAACTAATTTTATGATAAGAGATGATTTTATAAAAAAAATTATTGCAGACAATAAAGAGCCTATTAGACCTTTTATAGAAAACATTAAGGCATTAAAAGAGCAAAATGATACTTCAGTTATAATGATTGTAGGAAGCTTGTCAGAGTATTTTAAAATAGCAGATACAGTATTAATGCTTGATGAATATAGAGTAAAAAATATAACAAATAAAGTAAAAAAAATATTAGTGGATGATGTAATGCATAAAAACAATAAAATAATTGTTACTGATAGAAAATTAAATATTGAATATTGTAGAAATATTGTATTTAATAATAAATTTAAGATAAAAAATAAAGGTTTTGATGAATTGAATTTTGGAAATTATAATATTGATTTTAGAAATATTGAACAAATAGTTGAAGAAGGTCAAATAATTTTTATTGGCGAACTTATAAAAAGAATATTTAAAAGAAAAAATCAAACAGAATCATTATATAATATTTTAAATAGCTTAGAAAATAGACTTGAAAATGAAAATATTAGTGAAATACTAAATGCTAAAAGTGGAAAATATTGTGGTATAAGAAAATATGAAATAGCTATGGCTATAAATAGACTAAGAGAGCAAATTATAAAATAATCTTTAAAATAAAGATTATATGTGTTAAAATAATAAATATTTAAAAGAAAAATAGAAAGAGGAAAAAATGAAATTGCTATCATATTTATTTTTACTAATAACAACAATAAGAAATTTTTTATATGATAAAAACATATTAAAATCAAAAAAAATAGATGATTTATATATTGTATGTATAGGAAATGTTACTGTTGGAGGAACAGGGAAAACACCAACAGTACAATATTTAACAAATAAATTTATAGAACAAAATAAAAAAGTAGCTGTTGTATTGAGAGGATATAAAGGAAAAAGAGATATAGACCCTTTAATTGTAAGTGATGGAGAAAAAATATTTGTAACTGAAAAAGAAAGTGGGGATGAAGCATATTTACATGCAAAAAATTTATCTGTTCCTGTAGTTGTAGGAAAAGATAGGTATAAAGCTTGTAAATTAGCTAAAGATATTTTTGATGTTGATACAATTATATTAGATGACGGATTTCAGCATAGAAAATTATTTAGAGATAAAGATTTATTAGTTATAGATGCAAGTAACCCTTTTGGAAATGGGTATTTATTGCCTTATGGAAATTTAAGAGAAAGTTTAAAAAATATTGATAGGGCAGATGAAATTATTATAACAAAATCAGAACAAGTATCAAAAGAAAAATTAGATAAAATAATAAATGAATTAAAAAAATATAAAAAAAAAATAACAATTTCAGCATATAAAAATCTTTATTTTTATAATAAAAATAAAGATAAGGAAGAATTAAATATAATAAAAAATAAAAAAATATTTGTATTTTCAGGGTTAGGAAATCCTGAGCCTTTTTATAATAGTTTAAAAAAATTAAATCCAATAGATATTAAAATAAAAACTTTTCCAGATCATTATTCTCTAACAAAAGAAGAATATGATGATATATTAAAAGTAGCAAAAGATTTTGATTATATAATAACAACAGAGAAAGATTTTATCAAGTTAGATTTAGATAAAACTCCTGATAATTTATTAGTGCTAAAAATAGATTTTACAATTTTGGAGGATAATTTATGTGTATAGAAAATAAAGATTTTTTAGATATTTTAAGAGAAAAAGATTATAATAATTTTGAAAAAGAATATAATAAAGGGATGTTAAATTTTTTAATTAAAATAGCGCCATTTACTAATAAAAGAACATATTTTAAAATATATAATAATGGAAATATAATAAAATATGGATTTAATAAAATATATCTTTATTTAGCTTTTTTAAATGAAATATCTACAGAAAAATTAATTGATTTTTTAGATAAAAAAAATAGAATTAAATTTAAAAAAATAGATAGATTAAGTGGAATATCTACAAAAAAATTAAGTCAGAATATATTTAAGATTTTTTATAATAGAGATTTTAATATTGCAATAAAATATTGTAAAGAATTGTATTTAAAAGATAAAAATTTATTTATAGAATTGATAACAAAATATGTATTAATGAACGATATTTATTCAGAAAAATCTTTATTTTTTATATCTTTTATAGAATTAACAAAATATATAGAAAATAAAAATGATATTGATTATATTTTATATCCATTTATTTATTATTTAGTAAATAGAGAATCAGATTTTTATGAATATGAAAATTCTAAAGAAGAAAAAATTGATATAGAAACTAAAATTTTTGAAAATTATGATAAATTATTATGTTTAGAAGGATTAAATATACTAGCATATTATATTCTCTTAAAAAAATCAAATATAGAAAATAAAGATAGATATTATTTTATAATATTAAATAAAATAGACACTTTAAAAGTAAAAAATAAATTATCAAAAGAAGAAGAAAAAATTATAGGTAAATTTTTAAATATTATAAAAGGGTGATTGCGTTGAAATGTTTAAATTGTAATACAGAAATTACAGATATAAAGTGTAACAATTGTGGAACAGATTTAAAAGACTATTTTTATAAGTTGGCTGATGATGCGCAAGTAAATAGACGTTATAAAGAAGCTATGAAATATATGCTATTTTTACAAGAAAAAATAGATGATGAAGAAGAATTAAATGAAATAGAAAAAAAAATAGCTAGACTTGAATTTGCAATGACAGATTTAACGGGAAAAGAATTAGATAAAAAAAGATTTAATATAGAAAAGATAATAAAATTATTAGCAGGAATTTCTTTATTATTATTATTATTAGCTTTAGGAATGCGAACTTATATAAATAATGGGAATGTTAATACATTAAATACAACAGTGTTATTAAATATAATAGAAGATAATCCTAAAAACAGAAGTGAAAATATAAAAAAAATAGAAAAAATATTAACCTATATAGAAAATAATAATTTTAAATATAATCTTAATATTAACGGAATATTATTAAAATATATATCGCAAAACAGAAAAGATATAATAGAAAAAATAAATAAATTAATAAAAAAAGACAAAGTAGAAATAGTAGCAAGTAGTTATTCTGGTGGGATTTTAGCTGCTTTTACTGATGAAATAATAGATTTACAGATAAAAAAAGATATAGAATTAAAAGAAAAGTTATTTAATAATAAACCAAAAGTTTTTTATTTAAATGGAGGAATATGGGATAGTAAAATAAGTAATAAATTAAAAGAAAATGGTATAAAACTTATAATATTAGAAGATAAAATTATAAAAAATAGTAGTAATAAATATAATGAATATGTTGTTAGACAATTAAATGATATGTATTTATTAAGTGATGATAAAGATTTTATTGTTAAATTAGAAGAATATTTATTTTATAAAAAAGATGATATTTTTAATGAAATTAAAAATTATATAAATAAAATAGCTAAATTAAATAGTAATGAAAATTTTGTTTTAAATTACTCTTCAAAATTTATTTTAGATGAAATTGATGAAGAAGATGTAGAAAAAATGTTGAAATATTTAGAAAATATAGATAATATAATTTCATTAAATTATAATGAAATTTATAATAAAAAAGATCTAGTTGTGGAAAAATTAAAAAATGTTCAAAATGGAACATCAATTTTTACAGATGTATTAGTAGAGAGATTGGGAAATTATAATAATTGGTTTGAATATAAAGATAATTCACCAGATTTTAAAAAAATATCAAAATATTTTGAACTTCAATATAATAATTTATTAAAAATAAAAAATATAAATGAAAAATTTTATAATATATATTTAAATTATTTTTTAAAAGCTCAATTTAAATATGGATTTCCAAATAATTTTAGTACGGAATATATTAAAAATTTAAATGATATTTATATTCTAAGCACTTTATTATTAAATAATACTAAAGAGATAAAGAAAGATAATAAAGAATATATATTTAATGAAAAAACACTTTATATTTTAGAAAATAAAAAAATATTGTTTTATTATAATTTGGATACAGGAAATTTAATAGATAACTTAGAGAGTAAAAAAGCTATCAATATAGCTTTAAAATAGGAGGGAATAATGATAAATTATTTAAATTCAAAACTTATTTTATTTGAAGATAACAAAACAGATAAAAAACAAATTTTAAAAAAAATAGTCGATATAATGTATGAAAATAGTGATAAAATAAAAAATAAAGATAAATTTTTAGAAAATATATTTAAAAGAGAAGAAGCTGGGACTACAGGAATTGGAAGACAAATTGTAGTTCCACATGCTAGATGTGAAGAGTTAGAAGGTATAGTTATGAGTGTAACATTATTAAAAACTCCTATTGACTTTAACACACCTGATGGAGAACCAGCAAAAATAATAATAATGGTAGGAGCACCAACAACTAAAAATACAGAATATTTAAAATTATTATCAAGAATATCTAGAGTATTTAGAGATAAAAATATAAGAGAAGATATTATTACTTCTGAATCAAAAGAGGAAATATTAGAAATAATAGCATCAATAGAGTTATAGAATGGTGGTACTTAAATTATGAAAATTGGAATATATGGAGGAAGTTTTAATCCTATACATTTTGGACATATTTTTTTGGCTGAATATATAAGGGAAGAATTAAAATTTGATAAAATATTATTTATACCTGTAGGAATTCCTTCGCATAGAGAAAATAATTTAATAGATTATAAGCATAGAGTAAATATGATAAAATTGAGTATACAAGATAATAAATATTTTGAATTGTGTGAAATAGAAAAAAATAAAATTTCGTTTACTTATGATACTTATAAAGAGTTGAAAAAAAAATATCCTAAAGATGAACTGTATGAAATAATAGGAGAAGATTCTGCTGCATATCTTTATAAATGGAAAGATTATGAAGAGATGATAAAGCATGTAAAATTTATAGTAGCAAAAAGATCAAATAGTAGTTATAAATCAAGTGAGAAAAATATAATAATTTTAAATAGTCCTATTATTGAAATAAGTGCATCAGATATTAGAAATCGTATTAAAATAAGAAAAAGTATTAAATATTATTTACATCAAGATGTGAAAGAATATATAGAGAAAAACAAATTATATTATTAAGGGGGAAAAATGCTACTAAAATTTAATGATACTACATTAATCGAAACAATAAGGCCAAGAGAAGGAAAAGGCAAAATAAAAGGATATAGATATTTAGAGAATATTGAATTAGAAAATAATTTAAAAGGATTTTATGTAAATGAACTTGAAGTAGGATCAGAAGTAGGTTATCATCAGCATATAGAAGATGAAGAAATTTATTATGTTTTAGAAGGAAAAGGAATTATAAATGATAATGGAGAAGAAAAAGAAATATCAGTAGGAGACCTTATTTATACAAAAGATGGTGAAAGACATAGTATAAAAAATACAGGAGATACTAGTCTTAAATTTATAGCTTTTATTATAAAAAAATAGAGGATGTTATGAAGAATTTAATAATTTTTTTTAAAGGATTTGCAAGTATTCAAGAAATGTATACAGGGTTTATACCTCAAGGATATGATTATGTATTTTATGATGAATTAGAGTCAAAAAATATAAAAAATATAGTAAAGAACTATAAAACTATAATATTTTTAGGGTGGTCTTTAGGCAGTTTATTAGCTATTAAAAGTATTAATGAGATCAAGCCAAATAAGTTGGTGTTAATATCACCGACATTTAATTTCACTGAAAATTTTTCTAAACAAATTTTAGAAAAAATGCAAAAGAATATATTGAAAAACAAAGAATTAACATTAAAACAATTTTTTAAAAATTGTTTTTTTTATAAAGAAAATTATAAAAAATTTATTGAAAAATATTTTAATAATATAAAAAAAATTGAAGAAAAAAAGCTTATAAAAGAATTGGAATATTTGAAAAATATAAAAATAAAAGAAGAAAAATTTAATATTGAGTCATTAATAATATATTCAAATAAAGATAAAATAATTTTTAAAGAATCATCTATAAAAGTATTTAATAATTTTTTTAATTCAAAAAAAATAGAAATAGATAATTGTGGACATATTATTTTTTTTGAAAAAGATATTTATGAAATAGTAAGGAGTTTTATAATTGATAAATAAAAAATATGTACAAAATAATTTTTCAAAAAGTGTAAATAGTTATGATTCTTATGCAAAGATACAAAAAATAATGGCACAAGACTTATATAATTTTTTACCAAATATAAAAAATCCTAAAATATTAGAAATAGGATGTGGAACAGGAATATTTACTGAATATCTTTTTAAAAAATATGAAAATATGACTTTAGATGTAGTTGATATATCAAACGATATGATAGATATAGTAAAATTAAAATATAAAGACAAAATAAATAGTTATATTGTTTGTGATGCTGAAGAATATCTTTTTAAAAATCAAAAATATGATTTAATTGTATCAAATGCAGTATTTCAGTGGTTTAATAATTTAGAAAAAACTTTAGACTATTATAAAACAATATTAAATAATAATGGTAAAATAATTTTTGCTACTTTTATAGATAAAACTTATTATGAATTAAGAAATGCATTTTATGAATATAATAAAGACTTTATATTTTCTCAAAAATTTATTAAATTAGAGTATTTTAAAAAAAGAAAAGATATTGAAATATTAAAAAATGAACACTACATTGAAAGATATAATAATTTATTAGAGTTTTTAAAAAGTATAAAAAAAATAGGTGCTAATAGTGCGTTACAATCAAGAAAACTATTAACTAAAAATATATTGAGAAATGTAGAAAAAAAATATATTGAATTGTATAAAGAAATAAAAGTTACAAATGATATAATATATGCTAAAATAGAATTATTATAAAAAACAAAAAAATTATTTATAATGAATAATTTATCTTTATTTTTAATTGACAAAATACAATAATAATATTAGAATATACCTCATGATTAAAAGAGGTGATAAAAATGAGCAAAAAAATAAATTTAACGACTGGAAATATCTATTTAGCTTTATTAAAATTAGCATTACCAATAATGGGGACTTCATTTTTACAAATGGCATATAATTTAACGGATATGATATGGCTTGGGAGATTAAGTAGTAATGCAGTAGCGGCAGTGGGAACAGCTGGTTTTTTTATGTGGTTTGGATTCTCCGTAACTCTTATTAGTAAAACAGGAGTAGAAGTTTTAGTAGGTCAATATGTTGGGGCAAATAATTATAAAAAAGCTAAAGAAGCAAGTGAAAATGGAGTGATGTTAAATAGCATTTTGATATTTATATATTCAATTGCGATCCTTATATTTAGGCATAATATTCTTAGCTTTTTTAATTTAACTGGAAATACATTAAAGGTAGCAAAAGATTATCTTTTTATTGTTGGAATGTTTTTTGTACCAGGATATTTAATCCAAATATTTTCTAGTATAATAACAGGATATGGAGATAGTCATACACCATTTATTTATAATACTGTAGGACTTATTTTAAATATAGTATTAGATCCTTTATTTATATTTGGATTTAAATTTAATGCAATAGGAACAGCAGTTGCAACGATTTTATCTCAGGCTGTAGTTTTTATTTTATTTGTGGTTAAGATAAAAAATTATCCATTTGAGAATTTTAAGTTTTTTAATAAAATAGACATAAAAATAATAAAAAAAATAATAAAAATTGGGATACCAGTTGCATTTCAAAATATGTTTTTTGCAACAATATCTATGAATATAGCTAAAATTATTTCTAATTGGGGGGAAGTGGCCATTGCAATACAAAAAATAGGAGCACAAATAGAATCTCTTTCTTGGATGACAGCAGGGGGAATAGCAACGGCTCTTGGAACTTTTACGGCTCAAAATTATGGAAATAAAAATAAAGAGAGAATAATAAAAGGGTATTATAGTGCATTAAGTATAACAGTGATAATAGGTTTAATTGCTACTTTATTATTTTATATCTTTAGAAGTGAAATATTTAAATTTTTTGTTCCAAATGATAAAAAAGTAATATTACTTGGTTCGGATTATTTAAAAATATTAGCAATTTCACAAGTTTTTATGTGTCTTGAAATAACAACAATGGGATTATTTAATGGTGTATCTAAAACTATACCACCTGCAATAATAAGTATTGTATTCACGGGACTTCGTATACCAATAGCTATATACTTTGCATATAATTTAAATTTAGGACTTAATGGGGTCTGGTGGAGTATTTCAATATCTAGTATTATAAAAGGTATAGTAGCAATAATATGGTTTTATGTTGACTTTATTATAAAGAAAAAAATATTTGTAATAGAGGGGTAATCCCTCTTTTTTTATTGAAAAAAATTTTTTTTTATATTATACTATATGAAATATAGGAGGTTATATGAAAATAAAAAGTACAATAAAAAATATTTTTTACCATACAATTATTTTTATAATCATAGTATTATTTTTCTTTATTTTATTTTCTTATATATCATTTAAAAAGATAGAAAATGAGAGATTAGATAAAAGAATGAGTAATTTTTCAAATAATTTATCAGAAAAATTAGAAATGATAAACAAAATTTATTTTTTATTAGAAGAAAAAAGTGATATTTTGCTTAAAACAAAATTAGAAAAAATAAACAAAAATTATGAAATTTATGGAAAAATAGAATTAGAAAAATTTAAAGAAGATTTTATAGATTTATATGTAATTGACAATAATTATAAAGTTATAAAATCTACTAATAAATCTAATATTGGATTAGATTTTAATAAATATAAATATTTTAGAAAAAATTTAGAAAAAATATTAAATAATCAAAAATATGTATCAGATAGAATAAATCAATCATTAAAAGGTAAAAAAATATTGAAATATGCATATTTACCTTCAAATGACAAAAAATATATTTTTGAAGCTAGTATAGATATGGATTATTACAATAAAATTTTAGATAAAAATTCTATATATAAACTTACTAATTATAATAAAGAGTTATTTCCAGAGATAAAAGAAATAAATCTTTATAATAAATTTGGGGTAAACTATATAACAAAAGAATCAATAAAAAAAGATAAAATTAAATATGAAAATATAAAAAAAACTTTTGAAATAGGTAAATTATATAGATATGAAATAAAAAATAATAATTTTAGAGAAGTATATATTTATATTCCATATATTATTAAGGGAAAGTTAGGGACATCGTTAAATATAATATTAGAACTAAAATATGATAATGAATTAATTAATAAAAAATCTATATTATTACTTTTAAAAAATATTTTTATAGCAATGTTATTTATATTTATTTTATTATTTATAAATTATAAATATAAAAAATCTATATTATATCCTATGGAAAAATTATTAGAAGCTATTGAACAAATAAAAATAGGAGATTTAAATACAAAAATAGATATAAAAAATAACAATAATGAAATCAAAGTAATTGCAGATGCAATAAATGAAATGGTATATAAATTAAAAACAGTAATAAATGAAAAAGAAATCTCTAATTCACTAATAGAAGCTACTCTTGAAAAAAGTGAAAAAGGGTATTTAGAAACTGTAAAAGCATTAGCTACAGCAATAGATGCAAAAGATAGTTATACTGGTGGACATTGTGAAAGAGTAATGGAATATTCTTTAATGATAGCAGATAAATTAAAAATTCCAGATAAATTTAAAAAAGATCTTAAATTTGCAGCAATATTACATGATATAGGAAAAATAGGAATTAAAGATAATGTTTTAAATAAACCTGGTAGATTTACAGATGATGAATATAATGAAATAAAAAAACATCCACAAATAGGATATGATATATTAAAAGATATAGAATTTTTAAAAAATTCTGCAACTATTCTTTTATATCATCATGAAAAACTAGATGGGACAGGATATCCTAAAGGTATAAGTTCAAAAGAGATACCTTTACTTTCAAAAATATTAATGATAGCAGATTCTTTTGATGCTATGACTTCAAAAAGAGTTTATAGAAAGAAAAACATGTTGCCAGAAGAAGCTTTTGAAGAGATGAAGAGGTGTAAAAATCAATTTGAACAGAAATTAGTAGAAGTTTTTATAGAGGCCTATATTGAAAAATATTCAAATAAATAAAAAAGAGTGGAATTTTCCACTCTTTTTTATATTAAACAGTTGTTTTTTTAATATCCCATATTTCATCAGCATATTGTTGAATAGTTCTATCAGATGAGAATTTTCCACTATTAGCAATATTTAACCAAGCTTTTTTAGCCCATCCTAATTCATCTCTAAATGCTTTATCTACTCTTAATTGAGCTTCTCTATATGAAGCAAAGTCTTTTAATACATAGTATTGATCAGGTCTATTACCATCAGCACCATACATTAATGAGTTATAAATTTCAGTAAAAATACTTCTATCATCAGAGAAAGTACCATCTAATAATTGTTCCATTACTTTTTTTAGACCAGGAACACTATTATATTCATTCCAAGGATTATATTCACCAGTTGAATTTAAGGCTACAACTTCTTCAGCAGTTAAACCAAAAATGAAGTTATTTTCTATTCCAGCTTCTTCAACAATTTCAACATTTGCTCCATCCATAGTTCCAATTGTAGGAGCTCCATTTATCATAAATTTCATATTTCCAGTTCCTGATGCTTCTTTTCCAGCAGTAGAAATTTGTTCAGATAAATTTGCAGCTGGGAATAATTTTTCAGCAACAGATACTCTATAATTTGGTACAAATACTACTCTAATTTTTCCTTTAATATCAGGATCGTTATTTATCTTTATAGCCACTGCATTTATTAATTTAATAATTTGTTTAGCTCTTTTATACCCTGATGCAGCTTTAGCACCAAATATAAATGTTCTAGGAACAATATCTAAATCAGGATTAGCTTTTAAATTATTATATAGATCAATTACATGTAATATATTTAACAATTGTCTTTTATATTCATGTAATCTTTTTATTTGTACATCAAACAATGAGTCAGGGTTTATATAAATTCCTAAAGTATCTAAAATATATTTTGCCAATTGTTCTTTTTTAGTATGTTTAATTTTTATAAATTCCTTAAGAATTTTTTCATCATCGGCATATTTTTCTAATTTTTTAAGTTCTGATAAATCAGTAATCCATTTATCACCAATTAATTTTGTAATTAATTCAGATAATTCAGGGTTAGATTTTAATAACCATCTTCTTTGAGTTACTCCATTTGTTTTATTTTGGAATTTTTCAGGATATAATTCATACCATTCTTTTAATTCTTGATTTTTTAAGATTTCTGTATGAAGAGCAGCAACTCCATTTACAGCATGTGAACCAACTATAGCTAACCATGCCATTTTGATCATTCCATCTCCAATAATTGCCATTTTTTGATGTTTTTGCCAATCAGTAGGATATTTTTCTCTTAATTCTAATAAAAATCTTCTATTTATTTCATCTACTATTTGATATATTCTAGGTAGTAATTTTTTAAATAAATCAATTGGCCATTTTTCAAGTGCTTCAGCTAATATTGTATGATTTGTATAAGAAAATACTTTAGTACAAATTGGCCAAGCTACTTCCCATTCAAGTTTTTCCCAATCTAACAATAGTCTCATTAGTTCTGGGATTGCAACAACTGGATGTGTATCATTTAGTTGGATAGCTACATATTCAGGTAATTTAGAAAAATCATTTCCGTGTTTAGCCTTGAATTTTTTCATAATGTCTTGTAAAGAAGCAGAAACAAAGAAATATTGTTGTCTTAATCTTAATTCTTTTCCAGATGGACCAGAATCATTAGGATATAAAACTCTTGAAATATCCTCAGCTTGAGTTTGTTTTTTAACAGCTGTATTATAATGTTGATCATTAAAAGCTTGAAGATCAAATCCATCTTCTGATTCTGCTTGCCATAATCTTAAAGTGTTTACATTTTTTACTCCATAACCAATAATTGGCATATCATATGGAACAGCAGTAACAACTTCTGCACTTTCTCTTCTAAAATGTTCTCTGCCATCAGCATCTTTTACTACAATAACTTCACCACCAAATTTTACTTTTACAGCTTCAGATCTTCTTTCTACTTCCCAAGGATCTTCATAATCAAGCCATCTATCAGGATATTCTACTTGAAATCCATTTTCTATTTTTTGTTTAAACATACCATATTTATATCTTATTCCATAACCATGACCTGGTAATTCTAAAGTAGCTAGTGAATCAAGGAAACAAGCTGCTAATCTTCCAAGACCACCATTTCCAAGACCGGCATCTTCTTCTTGATCTTCAATTTCATTTATATTAATATTTAAATCTTCTAAAGTTTCTTTAACTTCATCTAAAATAGTTAAATTAACTAAGTTATTAGAAAAAGCTCTTCCCATTAAAAATTCAGCTGATAAATAATAAGCTTGTTTAACATTTTTTGAATCATAAGTTTCTTTTGTTTCTCGCCAGTTTTCCATTACTAATTCCATAGCTGCTTTAGATACAGCATCAAAAAGTTCTCTTTTAGTAGCATCTTTTAATGTTGTACCAGCTAGTTTTAAATGTTTTAAAATCGAATTTTTAAAATCGTCTTTTTTAATTGACATAATTGCCATCTCTCCTTTTTTTATAAATTATATTAAATTATATCTAATATTGTAACTTGCATATTAATTTTAATTCTAAAAACTTAAAAAATCAAATTTTTTTATCATTTTTTTTTAATTAATTGAAAAATGTGCTAAATATAAGAAACTGTCAAAAATAACACACTTTTAAATATGGTTGTAGTATAACAACAACGACAAAGTTTGTCAATATTTTTTTTGAATCGGAGTTTTACTCCGAAAATGTGAATAAAAAATGTCAGTGTTATAAATTTTAAAAAATAACACTGACATTTTTTTAAAAAAGAATTAAAAAAAGAATTTTTCTTATTAAATTTGTGATAAAATAAACAGCTATTGGAGCTATATCAAGACGCATATTTCCAATAGGAATTATAATACGTAAAGGAGCTAATATAGGCTCTGTTAAAAAATGAATAGTATCAGTAAGTTCATTTCTTGTATAAGGCATTATCCAAGAAAGAACAATTCTAATTAAAACCAATAATTCAACAGCTCTTAAAATAAAATCAACTAATTGATAAATAAATACCATTATTCACCTCACTATAAAAAATATTTTTTAGATTTTACAATGTATTCAAGTCCAGAATAAACTGTAAAAAATACAGGTATATACATTATATACTCAGAAATATTAGAATTTCCTAATAAAACAATTATTAAAATAGCAATCATTTGAGTAGTAGTTTTAATTTTTCCACTCATACCAGCTGCTATTACCGCACCTTTAGAAGCGGCAAGATTTCTTATACCATTAATTAAAAAATCTCTGGTTAATATAACTATTACCATCCAAGATGGAATATACTTTAATTCAACAAAAATAATTAATGCAGAAAATACTAAAATTTTATCAGCTAAAGGGTCCATTAATTTCCCAAAATCAGTAATTAAATTGTATTTTCGAGCTATATAACCATCTAAAAAATCAGTTATACTTGCTATAGTAAAAATTATAAATGCAGTATATTCATTATTTGGAATTTTCAAATAATAAATAAATGGTATGATTAATATAATTCTAAAAATTGTTAAAAAATTTGCTATATTCATAAACTCACCTACTATTCCGAGATAATTGGACCTAACAAATCGTAATTAAAATTTTGTTCGATTTTAACTTTAACTATTTTACCAGGATTTGCAGTTCCATCAGTAGTTAAAACTTTTCCATCTATTTCTAATGCTTGACCTTTTGTCCTACCTTCTAGCATAAATTCTGATTCTTCTGAGATACCATCTATCATAACTTCAATTTCTTTTCCAATTAAAGCCCTATTTTTAATTTCAGCAATTTCATTTTGGAGATTTACAAGCTCCACTCTTCTTTTTTCTTTTATTGTTTCTTCAATTTGATTTTCCATATCATATGCTTTTGTGTCTTCTTCTCTAGAATATGAAAAAACACCTACATAATCAAATTTAAACTCTTGAATAAACTCTTTTAATTCTATAAATTCTTTTTCTGTTTCACCAGGAAATCCCACAATAACAGTAGTTCTAATTGTAGCATCTGGAATTTCTTTTCTTATTTTTGATAAAATTGATTTTATTTGTTTAGAATTTTTTGCTCTTCCCATTTTTTGTAATTGTAAATCTGAAATATGTTGAATAGGAACATCAAAATAGTTACATATTTTTGGTTCATTTTTTATTACTTCTATTAATTCATCAGTTATAGAATTTGGAAACATATAGTATAATCTAATCCATTCTATTCCTTCTACTTTTACAAGTTCTTTTAATAAATCAGGGAGAGCTTTTTTATTGTATAAATCAAGTCCATATTCTGTAGTTTCTTGAGCTAAAATATTTAATTCTTTTACTCCGGATTTTGCTAATGCAGTAGCTTCATTGACAATATCTTCAATAGTTCTACTTCTCAATCTTCCACGAAGAGATGGAATTATACAATAAGTACATTTTCTATCACAACCTTCAGCAATTTTTAAATATGCTGTATGAGGGAAAGTAGTTAAAATTCTTTCTGTTTGAGCATTTGCTAAAAAATCAAGACTTTCATTTTTAATAACTCTATTATCTTTTAAAACTTCATCAATTACTTCTTCTATTTTATCAATATCACCAGTTCCTATAATAGCGTCAGCTTCTGGCATTTCTAGTAAAAGTTCTTCGGCATATCTTTGTGCAAGACAACCAGCTACAATAAGTTTTTTTAGTTTTGCTGTTTTTTTATATTCGCCAACTTCAATTATTGTTTGAATTGATTCTTCTTTTGCATCTCCAATAAAACCACAAGTATTGATAATCGCAATTTCTGCTTCTTCGATATTATTTGTAAGTTCTAAACCTTTTCTAGCTACAAGTATTCCTATAAGATTTTCACTATCAACTAAATTTTTACTACAACCTAAACTAATAATTCCTAATTTCATTTATAACACCTTTCTAAAATAACTATAAAGATATAAATAGCACAGAAATCTGTGCTATTTTTTTAATAATGCTTTTCTACTTACATTTATTTTTCCTTTTTCAGTACTTATAACTTTTACTTCTATTTCATCGCCAACTTTTAATACGTCCTCAACTTTTTCAGTTCTTTCATTAGCTATTTCTGATATATGAAGTAACCCTTCTTTTCCAGGTAAAAGTTCTATAAAAGCACCAAATTTCATTAATTTTGTTACTTTACCAATATATATTTCATCTACTTTTATTTCTTTTACTAAATTATTAATAAGTTTAATTGTTTTTTCTAACATATCCCCATCATTTGTAAAAATAGAAACTCTTCCATTATCTTCAATATCTATTTTTGCACCAGTTTCATCAATAATAGCTTTAATATTTTTTCCAGCTGGTCCTATTAATAAAGATATTTTTTCTGGATTAATATTTAAAGTATGAATTCTAGGAGCATATTTTGATATTTCATTAGGTTCTGAAATAGTATTTTCCATTTTTTCAAGTATAAATAATCTAGCATCTAAAGCTTGTTTTAAAGCAATTTCCATAATTTCTTTTGTAATACCTTCTATTTTTATATCCATTTGAAGAGCTGTGATACCTTTTTTTGTACCAGCAACTTTAAAATCCATATCTCCTAAATGATCTTCTAATCCCATAATATCAGTAAGAACTATATAATCATCATCTTCTTTAATAAGTCCCATAGCAATACCGGCTACATGAGATTTTATAGGTACACCAGCAGACATTAATGCCAAAGAACCGGCACAAATACTTGCTTGAGATGATGAACCATTTGATTCTGTTATATCAGAGACTACTCTTATTGTATAAGGAAAATCATTTTCTGAAGGGATAACATATTTTAATGCTCTTTCAGCTAAAGAACCGTGTCCTAATTCTCTTCTTCCAAGAGCTCTCATAAATCCAGTTTCACCAACAGAATATGGTGGGAAATTATAGTGTAAAAAGAATTTTTTATATGATTCTCCTTCTATTGAGTCAACTAGTTGTTCATCTTCTTTTGTACCTAATGTAGCTGTAGCAAGAGATTGAGTTTCTCCTCTTGTAAATAATGCAGATCCATGAGTTCTAGGTAATACTCCTATTTCCATAGCTAAAGGTCTAATATCAGTTGTATTTCTACCATCAGCTCTATATTTATCATATAAAATGGCATCTCTAACTAATTTTTTCATTAAATCATGATAATAATTTTTTAAATCTTTTTCTAATTCTGCTGGAAACTCTTCGGCTTCATTATTTTGTAAATACTCTTCTTTATATTCTTCGACTAATTTTTCTTCTAATGCATCAATAGCATCATATCTCTCTTGTTTACCTTCAGTTTTTATAGCTTTTTTAAGTTCTTCAGTACCATTTTTATCAACAAAATCTTTAATAGATTTATCGATTTCTTTTATATCAAAAGTAATCTTTTCTTTTCCAGCTAATTTTTGGAATTCTTCTTGGAATTCACAAATAATTTTAATATTTTCATGACCAAACATGATAGCTTCTAACATATCTTTTTCGGATACTTCATTAGCACCAGCTTCTACCATTGTTACAGCTTCTTTTGTACCAGCAACTGATAAATGAATATCACTAGTAGCAAGCTCCTCTGGAGTAGGATTTAACACTAATTCGCCATCTATTTTACCAACAACTACACCACTAACTGGTCCTGAAAATGGAATATCTGATATAGTTAAAGCAGCAGACGCAGCTATAATTCCTAGATAATCTGGTGTATTTTTTTCATCATATGATAAAGTTGTTACAACTATGTGAATATCATAAAAGAAATTTTCAGGGAAAAGTGGTCTAATAGGTCTATCAATAAGACGTGAAATTAAAGTAGCATCAACAGAAGGTTTGCCTTCTCTCTTTACAAATCCCCCAGGGACTTTACCTGCAGCATAAAATTTTTCAATATAATCAACAGTTAATGGGAAAAAAGTAGCACCTTCTCTAGGTTCTTTACTTCTTGTAGCTGTAGCTAAAAGAACAGTTTCTCCATATTCTAATAATACAGAACCATGAGCTTGTCTAGCTATTTTACCAGTTTTAATAGTAAGTTTTCTACCCGCCAAGTCCATTTCTAATATTTTTTCATCAAACATAAATACCTCCTAAATTTTTTTAAGAGATAAAGTTGTAAATAATAAGAAAAAAACAAATTAATAAATAATTAATTTATCCCTTACTACTTACTCCACTTTATCTCTTTATATAAATAAAATATATAATATTATATCATTAAATAAATTAAAAATCAATAAATTGAAAAAATATTTGAAACAGAAATTTATATATGTTAATATTAATTAAGTAAAATTATTTTGGGGGTGCTAAAATGAGTCATTATAGATTAGTAACAAGAAGTGATATGGATGGTTTAGTGTGTGCAGTATTATTAAAAGAATTGGACATGATAGATGATATTAAATTTGTTCATCCAAAAGATATGCAAGATGGTATAATAGAAATAACAGAAAATGATATTATAACTAATTTGCCATATGCTGAAAAAGCACATTTAGTATTTGATCATCATTTAAGTGAAACAATAAGAAATAAGGGGAAAAAGCCAAATCATATAATTGATCCCGATGCTCCATCAGCATCAAGAGTAGTATATGATTATTTTGGTGGTAAAAAAGTATTTAAAAATATATCAGAAGATATGATGATAGCTGTAGATAAAGCAGATGCAGCAAGATTTAATAAAGAGGATGTATTAAATCCAAAAGGTTGGGAACTTTTAAGTTTTCTAATGGATGCTAGAACAGGACTTGGAAGATTTAGAGACTTTACAATTTCAAATTATAATTTAATGATGAATTTAATAGATTATTGTAAAGATCATTCAATAGAAGAAATATTAGAACTTCCAGATGTAAAAGAAAGAGTAGATTTATATTTTAAATATGAAAATGATTTTAAAGAACAACTTAAAAAATGCTCAACTTTATATAATAATGTTTTAGTTGTAGATTTAAGAGAAGAAGAAATTATTTATCCTGGAAATAGATTTATGAAATATGCTTTATTTCCAGAAGCAAATATTTCAATTCAAGTAATTTGGGGATTAAGAAAACAAAATACAGTATTTGCAGTGGGGAAATCTATATTTAATAGAACATCTGAAAAAAATATAGGTGAACTTATGTTAAAACGTGATGGCGGGGGTCATAAAGCGGCTGGAACTTGTCAAGTTAATAATGAAATTGCTGAAGAAGAATTAAAGAAATTAATTGAAGAATTAAAAGATTAATATTAAAAGTCTATCGAATGAATCTTCGATAGACTTTTTTAATTAAAACATGTCTTCAGGTCTTTTAGGTTCAATAAATGCTTCTCTAATAACATATTCTACTGACTCTGGAATAGTTAATTCAATAATTAATGGACCTCTTTTTACAGTTAACCAACCAAGACCTTTTATAACTAATTCTTCTTTATCTTCAATTTCAATAATTTCACTTTTAAATTTATTATTATAATAATCTGTTTTGCAATCATTACATGGTGGTGTTAACATATTACCACTATGTTTTTCAATAATTGAATCAATTTTATCTTTATTAGTTTCATGAAATATTACATTTTTTGATAAATAAACTGAAAAAATAGGTTTTACATCAAATTCTTTTAATATTCTAAAATATGCAAGACCACCTAAAAATAAAACTCTATCTTTTCCAAACTTAAAAGTTTTTCTTGAAATTTCATTAGACGGAACTATATCTAAATTACATTTTTCGCATACTAAATCAGATAATCTTCCTTTTGGAATTATTCCTGGAGTATCAAAAAAAACAAATTTTTCTTTTGTATGTTTTACAGTTTTTAAAGTAGTACCAGGATATTTAGAAATGGTAGCTCTATTATCATTAAAAAGTTTGTTTATTAGACTTGATTTTCCTACATTTGTAGCTCCTATAATAGCTATTTTTGCTCCATTAGGAAAAAAATGTTTAAATTTTCTAAAGATTCCATTTACACCATAATTTTTATGAGTGCTCAAAACAGCGATATCTAAAGCTTCAAGGCCTTCTTTAAATAGTCTCATTTTTATCCAATCAGATACTTCAGAAGCATGTTTATTTCCAGGAATTAAATCTATTTTATTTACGGCAATAATAAATTTTTTATTTTTAAGTAGCGATAAAATTTCTTTATCAAAAGAGCTTTCAAACTCAATTATATCTAAAATTAATAAAATAGCATCCATATCTTTTATTACATTAATAACTTCATTTTTATAAAACTCTTTATCCAAATTAACAGGAATATAAGAGCCATAATTTTTAATTTTGAAACATCTTTGGCATAATGGCTGAGATTGTTCAATAGCAACTTTTTCAGGGACATATCCTATTTCTTTTGGATAATCGTATTGAAGCCAAGCTCCACAACCAGTACATTTTTTATTCAAATTAAATCCTCCTAATCTAATGTTTCTACTGAAATATTTTGATTTGTATATATACAAATTTCGCCAGCTATATTTAATGATTTTTTTACAATATCTTTTGCACTCATATCTGTATGGTAATATAATGCTTTAGCAGCAGCATAAGCATATGAACCACCAGAACCAATAGCAGCAATATCATCATCTGGCTCTATTACTTCACCTTTACCAGAAACTAAAAGTAAATTATTTTTATCAGCAACAATAAGCATAGCTTCTAGATTAATACTTTTTTTTCGCCACTCTTTAGTAAGTTCAACTGCAGCTTTTTTTAAAATACCTCCATGTTCATCAAGTTTATTTTCAAATTTTTCAAATAATTTAAAAGCATCGGCAACTGAACCCGCAAATCCAGTTATTATTTCGTTATTATATATTTTTCTTATTTTTTTAGCACTGTTTTTCATAACAGTATTTCCAAAAGTAACTTGACCATCACCAGCGATAGCTACTTGATTATCTTTTTTTACAGCAATAATTGTAGTTGCTTTAATATCCATTTAGTACCTCCTAAATTAAATATTTTTATTATAATATGTTTTATCATCAATTTTGATACTATTATTTAAGTAATTAAGATATACTTTAGTACTTTCTAAACTACTATGTCCCATTATTTCTTGTAAATAATGTATATTCATACCATTTTGTAGCATATATACAGCAAATGAATGTCTAAAAGTATGTGGACTTATTTCTTTATTAATATTTGAGTTTATTCTTATTTTTTCAACAATTCTTCTAAGTGATCTATCAGTTAGTTTATTGTTACTATTATTTGTAATTAATATCTTGGGATTAAAATTTTCTTTGAATTTTTGCTTTTGAGCTTCTAAATATTTTAAATAATATTCTTTTGCAGTTCGACTAAAAAAAGTAATTCTATCTTTTTTATTTTTAGATACTATATATAATTCTCTTTCTTCGATATTAATATTATTATGAGATAGTTCTAGCAATTCACTTGGTCGTATTCCACTTGAATATAATAATTCAATAATAAATCTATTTCTGATATTATTTATTTTATTTTCTTCGATACTTTCTCTTAATTTGATAAAATCATTTTTAGTTAATATATCAGGAAGTTTTGTATGAAGTTCTTGATTTTCTAAAAATAGTGTAGGATTTTTAATAACTATATTTTTATCTTTTAAATATTTAAAAAAAGTTTTAATAGCAGATAATTTTCTATTTCTTGAACGTTTAGTAATATTTTTATTTTTTAAATGCTTAAAGAAAGCTTTAATATCAATTTCTTCAACTTTATCAATAGATTTTTTTTCGATATTAGAAATAAAATCACTAAACTGTAAAAGATCTGCTTTATATGATTTAATGGTATTTTCAGTTTTATTTTCTGAAATATCTTGATAATACAAAAAATTGTCAATAATTTGATTTAATTCCATAGATACACCTACTCATAATTTTTTTTGTTAATAGTTTTTAGATACTCCATAGTTCTATTAGCAATAGTCATATACCGTTCCCTTTTATCTCTTATTTTTTTTCCGTCAAGAGATCTAATAATACCCATATTTGGTCCCATTGGTTGAAAATTTTTATTTTCAGTAGTTATATAGTCTATAATTGCTCCAATAGAAGAGAGATTATTTAGTTCAAAATATGGTTTATTATTTAATTGATTAGCAATATTAATAGCACTAATAAGTCCAGTAGCAATAGCTAAAACATATCCTTCACTACCAGTTATTTGCCCAGCAAAAAAAATATTTTTATTGTTTTTTAAATTAAGACTTTTGTTTAATAATTTTGGGGAATTAATAAAAGTATTTCTATGCATCACTCCATATCTAATAAATTCAGCATTTTCAAGACCTGGAATCATCTGGAATACTCTTTTTTGTTCGCCCCACTTTAAATTAGTTTGAAATCCTACAAGATTGTATAATTTTCCTTCTTTATCATCCTGTCTAAGTTGTACAACAGCATGATCTCTAGTACTGGTTCTAGGATTTGTAAGTCCTTTTGGTTTTAATGGACCAAATAAAAGAGTTTTTTCTCCTCGAGAAGCAATTTTTTCTACAGGCATACATGCTTCAAATAATTTTTCTTCTTCAAACTTTTTTAAAGGAATTCTTTCTGCGTTTATTAATTCAGTATAAAACTTTTTATATTCTTCTTCTGTCATAGGGCAATTAATATATTCACCATCACCTTTATCATATCTTGATTGAAAATAGACTTTATTAAGATTAATAGATTCTTTAGTAATAATAGGTGCAACAGCATCATAAAAATACAAATATTCATCACCAGTAAATTTTTTTATATCTTTTGCTAGTGCATCACTTGTTAGAGGTCCAGATGCTATAAGAACTGTTTTATCATTAGGAATTTCAGTGACTTCTTTATTAATTATTTCAATATTTTTGTTTTTTTTAAGCTCTTGTGTAACAAGTTTTGAAAAAAGATCTCTATCCACAGCTAAAGCTTGCCCAGCAGGAACTTTTGTTTTATCTGCAATTTTAATTAACAATGAGTCAAAAAATCTAAGTTCCTCTTTCATAAGACCAGCAGCACTATTTATTAGATTTGAGCCTAAAGAATTACTACATACAAGCTCAGCAAATGTTTCTAAATTATGAACTTCAGTATATTTTTTAGGTTTCATATCATACAATTTAACTTTTATTCCTCGTTTTGCAAGTTGATAAGCAGCCTCACTACCAGCAAGACCAGCTCCAATAATAATTACTTCTTTCATTTTTTTCCTTTCTACATAACATATAGAGCCTCAATTTGAGGCTCTATTATTTTTTAGGTATTTTTTTTATATTTTTACATTCAGGATAACCAGTACAAGCTAAAAATTTTCCAAAACGACCTCTTTTAATTTCAAAAGAACTTCCACATTTTTCACATTTTCCAGCTTCTTTAATAATTTGTTCTTCTTCTCGTTTTATATTTTCAAATATTTCTTTTAAATAAACAATATTATTTTCTTCTTTTATTAGTTCTTGTGCAAGCATTTTTCTTATTTCACTAGGTAAACTTATTCTTATATTGTCTTCTTTATAGTTTTCACTCTCTAGATAACTGCCAAAACGACCATATTTTAAAAGTAGATTTTTACCATTCTCTGTATACATATCAGTTTTTTTACCGTTTTTTTCAGTTAATTTTTTTGCAATTGCTTCTTTTACAAAAATTTTACCATTTTCAATATCCTCTTTTGGAATTTCGATACCTTTCAAACTAATTTTTTCTTCGCATTCTTCATTTTCACATAAAAGATATTTTCCAAATCTACCCGTTTTAAGAATCATAATACCATTACACTTCGTACACATAACATCAGATTCTATTCTACGATTTTCTATTTTTTTTACTTCTTTTTCAAAGTTTTCTAAATATCCTTTTAAGTCATTATAAAAATCATTTAATAAATTAATCCAATTAATATCTCCTGATTCTATTTTATCAAGATTTTCTTCCATATTTGCAGTAAATTTTATATTCATAATATTAGGAAAATATTTTTCTAACTCGTTTTTTACAGTAAATCCTAGATTAGTAGGTATAAATTTTTTACCTTCAACAATTACATATTCTCTTTTTTTTAAAGTTTCGATTATAGAAGCATATGTAGAAGGTCTTCCAATTCCCTCTGATTCTAATTTTTTTACCAATGAAGACTCAGTTAAACGAGCAGGAGGTTTTGTTACACCATCTATGATATTTAATTTTGTTAAAATAAATTTATCATTTTCTGTTATATTTGGAAGTGAGCTGTTTTTTATCTCGTCTTCGTCTTTAAAAATTTTATAATAACCATCAAAAATAATTTTAGTAGCTACACCTCTAAAAGTATACTCACCATCACTTGCTAATATTTCCATATTTTTATATTTCATAGGCGCTAATTGAGAAATTAAAAATCTTTCCCAAATAAGTCTATAAAGTTTAAATTGATCAGTATTAAGTTTATTTCCAAGATAATCAGGAGTAAGATTAACATCAGTAGGTCTTATACCTTCGTGAGCATCTTGAATTTTTGTTTTACTTTTTTTAGTTTTTTGATTATTTATATATTCTTTTCCAAATTCATTAATAATATATTCTTTTGCAGCTTCTTTTGCCTCATCAGAAATTCTTGTAGAATCTGTTCTCATATATGTTATTAGACCTTTATGAGAACCATCTATTTCTAAACCTTCATATAAAGATTGTGCTATTCTCATTGTTTTTGAAGCAGAAAAACCTAAATATGAAGATGCTAATTGTTGTAAAGTACTAGTTTTTAATGGTTGAGGTGGATTTTTAACTCTATCAGATTTTTTTACTGAAATAACAGTAAAATCTTTTTTTATTTCAGATTTTAGAGTATCAATTATTTTTTTATCTTTTATTTTACTAACTTTTTTTTCACCAATTTTATTTAAAGTAAAATCAAATTCATCATTAAATAAACCTTTTACTTCCCAATAATTTTCAGGGATAAAGTTTTTTATCGCCTCTTCTAAATCACAAATAAGTTTAAGTGCTACGGATTGAACTCTTCCAGCACTTGTATTTGACTCAATAAGTTTCCATAATAACGGACTAATTTTATAACCAACTAGTCTATCTAATATTCTTCTAGCTTGTTGAGCATTAACCTTATTTGTATCAATTTTTCTTGGATTTTTAATAGCTTCTTTAATAGCTGTTTTTGTGATTTCATTAAATTCAATTCGAATATTATCATCTAAGTTTAATTTTAGTAAATTTGCTACATGCCATGCAATAGCTTCTCCTTCTCTATCCATATCGGATGCTAGAAAAACTTTATCAGCTTTTTTAGCAAAAGTTTTTAATTTTTTTACTAATTCAGCTTTCCCACGAATAGTTTTATATGAAGGAGTAAAATTATTTTCGATATCAACACCAATTTTACTTTTAGGAAGGTCTCTTATATGTCCATATGAAGCCATAACATCATAATTTCTTCCTAAGATTTTTTTTATTGTTTCAGCTTTGGCAGGAGACTCAACAATAACTAATTTTTTTGACACAGTAAACCTCCCTGTTAATTTATAGTAATATTTTCAGATATTCCTTTTAAAGATAATAAATTTTTAAGGTCCTCAAGCTCAAAAAAATAATAACTAAAATTTATTTCATCTAAAATATTTTCAAATTCTTCTTCTGATATAATCATCTTATTTTTTAAATTAAGTAGATAATCACGAGCACTATCTGAGAGATTTTCAAGTTCAAATGGACTCAACATTCTAAATACTGCTCTATTTTTCTCTTTATTAATAGTTTTAAATATTTCATCTAAGATATCATTGATTTCATGCAACGAATAACCTTTTTTTATTAATTTTTCAACAATTAATTTTTCGAGTTTTTCTATATCTTGGTCAAAAGGATTAAGCATTGTATTAATGACTTCACTTAAAACTTCTAAAAATTTTTCCTCTTTTTTCATGTTAAACCTTTCTATTAAATATGATGTTATAAAAAACACTAGTTTCTAAATTATAATAAAAACTTAATAAAAAATCAAGTCCGATTTTATAAAAAAGAAAATTAATCATTCTCCTTGTAATAGCAAACACGATTTCTACCACTATTTTTTGCTATATATAAAGCAATATCTGCTGATTTTATAACATCGTCTATATTATTATGTTTTTTTATATCATTTTTTGCGACGCCCATACTAACTGTAAATTTTATATTATTGTAATTTAAATTTTCAATAATTTCTCTAATTCTATTTGCTATATTTATCGCTGTTTCCAGAGAAGTATTTTCTAAATATATCAAAAATTCTTCACCACCATACCTGCAAATAATATCATTATTTCTAAAATGTGTTTTAAATTCTTTTGAAATTTTTTTAAGAATTTCGTCACCCGCTTGGTGGCCATAAGTATCATTAATTTTTTTGAAATAATCAATATCAGCTAAAATAATAGAATAATTTTCAGATGACCTTTTTTCAGTATAATTGAAGAAAAATCGTCTATTATATAAATTTGTTAAGCTGTCAATATTTGATAAATCATTAACTTTTTTATAATGTAATACGTTTTTTATATATGGATTTATCATATTGATAAAATTTTTAAGTAAATTAATAGTATCTATATCAAAACAACTTGGATTATGCTTTATAAAAAAAATAGGTGATTTTTTATAAGGCTCTAATTGAAGAATTAAATAATCTAAATAGCAGTTTAAATTATTAAGATTATTTAAAAATTCTATTTTAACTTGTTGTTCTACGGAAGTAAGTTTATCGACTCGTTTTAAAATAGAAAAATTTTTGTTATTTAATTTTATATCATATATATTATTTTCATCTATATAAAAAATAATTGATTTAAATGGAATTATTGTGTAAAGAAAAGATGAAAAATTTAATAAAAGGTCATTTAGTTTCAAACTAAAATTTAGTAATTTATTTAATTCTAAAACTCTATTTAAATGAGCAATTTCAACATCTTTTTCTATCTTTTCTTTTAATATTTTTTTATAAATCTTTTTTAAGTGTTCTTTTGATTTATTTTTCATATTTATGTCTCCTACTCTATTCTTTGATACTTTCCACCAGAAATACTTTTTACAAGATTTTTCAATTCTAATTGAGTTATTTGAACAAGAATCTCTCTAAAATCTAAACTTGTATCTAATATAAGTTCATCTAAAGTTTTAGGTACAAGTAGTGAAGTATATACAATAAGTTCTTTTTTACTTAAATTCCAATCAAAATCTAGTCTTTTTAAATTCCAATCAAATTCTTCTATAATATCATCTACTTTAGTAACGAGCTTTGCTATGTTTTTTTTGATTAATTGATTACATCCTTCAAAAGAGGGATAATTAAAAAAACCAGGAACAGCAAAAACTTCTCTATTTTCTTCATATGCAATTTTGGCTGTAATTAAAGAACCGCCTTTTTTATAACTTTCACAAACTAAAATACCTCTAGATAAACCAGCGATGATTCTATTTCTTTCAGGAAAATTCCATCTAAAAGGTTCGGTTCCTAAAGGATATTCGCTAATTATAGTTCCTTGTTCTTCCATTTTTTCCCAGAGATATCTATTTTCTTCTGGATAAATTTTGTCAAGACCATTTGCAACAACTCCGATAGTACTTCCATTATATTTTAATGCTCTAGAATGTGCAACAGCATCCACTCCGCTAGCTAAACCACTTATAATAGTAACACCTGCATTAACTAAATCTTTTGTAAATTTTTCAACAGCCATTTTTCCATAATCGCTCATTTTTCGAGTTCCTACAATACCAATACTTTTTTCAGGAAAATCAATTTTTCCTTTTACATGTAAAAAGGGTGGAGGAGAGGATATATTTTTTAGTAATAATGGATAATTTTGATCAGAAATAGAAATAAGTTTAATTTTTAGCTTTTCTAATTTTTCTAATTCTTTTGAAATATCAATTTTACTGCTATTATAAATTTTCTCTAGAGTAAAATTTGTAATATTTAGTGTTTTTAAAATAGAAATGTCGTCTTGAGCAAAAAGCTCATCTAAAGAATTATAATTTTCTATAATTTTCATTATAGTTTTTGAGTCAATCCCATTAATTAATAATTTGTATAAATCTAACATTAGTATCCCCCTAATTTTTTATAGATTTGAATAAACTTCAATTAAAAGATTTTCAATTTCTTTTGACAAAGGAAAATCTTTTTTTGCTAATTCAAGAGTAGTTTTCGCAGCACTATAACGATTTCTTGCGATCTCTATTTCTGCAATTGCAATATATGCTTCTTTGCTTTTGTTATATTCTAAATATTTATTAAAATTTTTTACTGCTTCAGCAAATTGACCACTTAATTTATAACTAACCCCTATTCCAAAATAACTTTCTTTTATTTCAGGATAATTATTAATTAAATATTTATATTCTTCTATAGATTTATCATAATAACCTAAAAATCTATACATAAGAGCTCTACCAAAAACATTTTTATAATAATTACTTTTATCAGTTAAAAATATCTCTAATGCAGAATTATATTTATTATCTTTAATATAGTTATTTCCTATTTCATAAATAAGTTTAGCGTCATTATAATTGACTAATGATAAGTATTCTTTTGAAATAGTGTAATATTCATCCTTATAGTTATTATCGGTAGAAATTAATTTAGAAAGGACATTTAAATACGCTTTATAAGTTTTTTCTGTTTTATTATTTTCAAATAATTTTTTTGCAATTTCAAAAGCATCAGATACTCTATTAATATCTAAAAATAAATTTATCTTTTTTATAATAAATTTCGTATCATTTGGAAAATCTTCTAAATGTGAATCAAGAAGAAATAATGCACCGTAGTAATCATTTAGTTTTATTAATTTATCAATCTCTGCAAATTCATTTGTAGTAATAGCAGAATTTGTGGAGAAATTTTCAGTAAAACTAAGTGTCGTAAATAATAAAAATATTAAAAATAATAAAAATATTAAAATTCTATTCATTGTCACTCCTTTTTATGTCTAATATTTTAGCTTTAAATTCACCATCAGATACTCTTATTTTAATTATATCATTTTTTTTAAAATTTTGCATAGTTTTTACAACATTTTCATCTTTGTAAACAATAGAGTATCCTTTTTCTAATATAGATAGAGGATTAACTTTCTTTAAGACATCAATTTTGTTTAATAAAGTTTTTTTGTCAAATTTAAATTTATTATCTATAAGAACATTTAAATTGTTATATTTATTGGATAAAACCTCTTTTTTTATTTGGATTAATTTATTAATATTATTTAAAGTATAATTATTTTTAGAGCTAATTAATTTTTCTTTTTTAGAATTAATTTTATTATCTATAATTTTATTTAATATATTATATTTATTATTTAAAATTTCATAAAAATATTTTTTTTCGGGAAGGATTATTTCGATAGCTTGAGTAGGAGTAGAAGCTCTTTTATCTGCAATTAAATCTGTAAGTAATAAATCAGATTCATGTCCAACAGCAGAAATAGTGACTTTTTTACAATAATAAAAAGCTTTAACTGTGATTTCTTGATTAAAAGCCCATAAATCTTCTATACTTCCACCACCTCTACCAGCTATAATAACATCAATAAAATCAAGATTAGAAAGAGTATCAATGCCTTTTGCAATCTCTACATCTGCACCGGTTCCCTGAACTTTAGCAGGATATAAATAAATATTAGCATTTTTAAATCTTTTTTTTGTAGTATTAATAATATCATGTATAGCGGCACCATGTTCAGAAGTAACGACTCCTATATTAAGAGGTAAAAAAGGTAATGATTTTTTTCTTTCGGTGTCAAACCAACCTTTTTCACGGTATTTTTTTTTTAATCTTTCAAGTTTTTCAAAAAGCGATCCTAATTTATCTTGTTTTTCAATAAAACTAACTAAAATTTGAATTTGTCCAGTTTTTTCATAAAAATTTACACGACCAAATAATTTTATCAAATCTCCATTTTTTAAATCATTAGATATTTTTTTATAACGATAATTAAATGCAGTACAATTTATTGAAGAGTTTTCATCTTTAAGTGTAAAATATAAATGACCACTTTTGTAATATTTAATATTTGAAATTTCACCTTTAATAAAAAGATCATAGAAATTTATTTCATTATCAATAAAATCTTTAATTTTTAAATTAATTTCATTTACACTATATATTTTTTCAGACATAGTAATCACGCTACAATTCCAATAATAATTTTTTTAAATTTAACATTATATCTCTTTTTTCAATTGCTTTTTCAAAGTCAAGTTCTTTTGATAAAATTTTTATCTCTTTTTCAAGTTTTGCTATTTCTTTCTCTATATCTTTTTTAGATTTAAAGACCTGTTTTATTTTTATAGTTTCTTTTAAATCAAGTCCATAGTCAAAATTGAGAACTTCTTCAGAAATAGTTCTAATTACAGATTTTGGATTAATATTATATTTTTTATTATATGCTATTTGTTTTTTCTTACGTCTTTCTACTTCTTTTATTGCGTCATTCATAGATTTTGTCATAATATCTGCATAAAGTATAACTTTACCATTTATATTTCTAGCAGCTCTTCCCATTGTCTGTATAAGAGAACGTTTACTACGTAAAAAACCTTCTTTGTCTGCCTCTAATATAGCTACAAGAGAAACTTCAGGAATATCTAAACCTTCTCTAAGAAGATTTATACCAATTAATACATCAAAACTACCTTTTCGAAGTTCTCTAATGATTTCGATTCTTTCAAGAGTGTCTATATCAGAATGCATATATTTCACTTTTATTCCATATTCTAAATAATATTCAGTAAGTTGTTCAGCCATTTTTTTTGTAAGAGTAGTAATAAGAATTCTTTCTTTTTTTTCTTCTCTTATACGGATTTCTTCCATAAGGTCGTCAATTTGGTTTTGAGTTTTTCTTATTTCTATTTCAGGTTCTATTAATCCAGTTGGTCTAACAAGTTGTTCTACAACACAACTACTTGCTCCAAGTTCATAATCTCCAGGAGTAGCAGAAACATATATTAATTGATTAGCTTTTTTTAAAAATTCTTCAAATTTTAAAGGTCTATTATCAAGAGCTGAAGGAAGTCTAAATCCATTTTCAACTAATGTAGTTTTTCTACTTTTATCACCATTATACATTCCTCTAATTTGTGGAATTCCAATATGAGATTCATCTACAAATATAAGAAAATCTTTTGGAAAATAATCTAAAAGAGTAAAAGGTGTCTCACCAGGTTTTTTATTTGTAAGATATCGGCTATAATTTTCTATTCCTTTACAATATCCAATTTCTTTTAACATTTCCAAATCATAGTTTGTTCTTTGTTTTATTCGTTGAGCTTCTAAAAGCATATTTTTTGATTCAAAAAATTTTACTTGTTCTTTTAAATCTTTTTCAATAGAAGAAATAATATTATTAAAATTACTTTCTTCTGCAAGATAATGTGTAGCAGGAAGCAAAGAAAATCTTTCGATATTTTTTCTTGTCGTTTGACCAGTAAGAGTATTAATTTCTGAAATTTCTTCTAAGTCATCTCCAAAAAATTCAAGTCTATATCCAGTATCCATATAACTAGGAAATATATCAATAATATCACCTTTAACTCTAAATTTTCCTCTTTCAAAATCATAATCATTTCTTTCATAACGTAATTTTATTAATTTTGATATAATTTGATTACGTGAAGCTCCGACTTTTCGATCAAGAGAAAGCGTCATTTTTTTGTAAGTATCTGGAGAACCTAAACCATAAATAGCAGAGACAGATGCAACGATAATTACATCTTTTCTAGTCATAAGAGCAGCTGTAGCGGCGTGGCGTAACTTATCGATTTCTTCATTTATGGAACTATCTTTTTCAATATATGTATCAGTAGTTGGGACATATGCTTCAGGCTGATAATAGTCATAGTATGATACAAAATATTCAACAGCATTATAAGGGAAAAATTTTTTATATTCAGAATAAAGTTGTGCTGCTAAAGTTTTATTTGGTGCGATAATTAGAGTAGGTTTACTTGTTTCATTTATTACATTTGCTATCGTAAAAGTTTTACCAGAACCAGTAACACCAAGTAAAACTTGATGTTTATGTCCAAATTCTATATTTTCTTTTAATTTTTTTATTGCTTCAGGTTGATCACCAGATTTTTTAAAATTAGACACTAATTTAAACATATTTATCACCTATTTTTTTAAATTTAAAAAATGCCGAATTATTTCGGCATTTTAATTGTAACATGTTTAATTGAATTCTAAAATTATTTTTTTAAATATTTTTTCATTTTTTATAAATAAATTTGACAAAATAGGATCAAATTGAGAGCCACTATATTTTTTTATTTCCTTAAGAGCAATTTCATGAGAAAGAGCTTTCCTATAAGGTCTAGCAGTAGTCATAGCATCATAACAATCTGCAATTGCAATAATTCTAGCTTCAAGAGGAGTATGATATCCTTTTAATCCTTCAGGATATCCTTTACCATCCCATCTTTCATGATGATATTTAATTATTTCAGCAATTTTATCCATTCCTTCTATATCTTTAATTATTTCAAAACCAAATTCGGGATGTTTTTTAATTTCTTCATATTCTTCATTTGATAATTTACCTGGTTTTAAAAGAACAGAATCTCTAATACCGATTTTTCCAACATCATGTAAAAAAGCAGCCATTTCAATAGTTTCTACATGATTTTTAGGTAAATTAAGTATTAGTGCTATTTCTTTTGAAAGTTTTGCTACTCGAGAAGTATGTCCTTTTGTATATTTATCTTTAGCTTCAATTGCTTTTATTAAGGCTTTAACAATATTATAGTAATGATTTTTACTATTTTCTAATAAAAAATAATTTTTACAAACAACAGCAAATTGACTTAAAATAATATTTAATAATTCCAATTCTTTCGGCGAAAGAATTTTTTGACGAAATAATAGCACTTTACCAATTATATCATTTTTATTTATAATAGGCAAAAGTAAAGCTTTCTCTTTTTCAAAATTAATTGGCGTATAATAATTTTCTTCATTAAATTTATTTAAAAAATTTAATTTATAATGATTAGATAAAATCGCTTCATTTTTACTATTAAATACTTTTTTTCTATAATAATACTTTTCTTTTATTATAAAAAGAGTATCTACATTAAAACTATTTTTAATAAATTTTTCTAATTGTAGTATGATGTTTTCTATATCAAGATTTAATCTAAGAATTTTCGTAAATTCGTAAAGAAGCTTATAATCATTATTTTCATTATTTTTTAAATAGTTTTTAATTAAGTCAAGATTGAAATCATTATAAAAATCATGAGTTATTATTGATTTTGCGCCATTTTTTAAATACCAGTTAGCATCTTCAAACTCTTTATTATTATAAAGAGCTAAAAAAGGTATATTGTATTTATTTAAAATAGAAACAACTTTTTTAGAATTATTCCCAATTTTAATAATACTAAAAACAAAATCTTTAAAAGTATTAAGTTTTTCTAATAATTCTTCAATAGTTTTAACAAATGCAAGTTCAAAATTTAAAGGGGAGTTGATTGATAAATTTTCGTCACTAAAAATAAGAATTTTCAAAGCATTGCCTCCTAGTAATAATAAGTTTTGACCTCAGTACTGTATTCTCCCTTTTTATCAAATATGTATAGAGGTTCAAGTACTTTAAAATCCCCTTTTTTTCCCTTTATAGATTTCAAAATAAACAAATCAGAATTTTTATTATTTTGTTTTGTGTATACAAACCTTATTTCTTTTGGATATAATTTGTAATTTTCTAACTTAGTAATAACTTCATAAAACCTGTTAGTTCGATATATTAAGTAAAAACTACCATTTAATGTAAGATGTTCTCTAACAGATTGAAGTAAATTATCTAAAGTCAATTTTATCTCATGACGTGAAATAGCTTTTATTATATTACTACTAATATTACTAGTTTCACATTTCATATATGGTGGATTAGTAATAATTATATCATATTTTTTATTTTTTTTAAATTCTTTTATATCTATATTATAAATATTAATTAAATTTTCTAATGAATTATATTCTATACTTCTTTTAGCCATATTAGCTATTTCATCTTGAATTTCAATTGCATCAATGTATTCAATATTTTTGTTATTTGAAATAAGAAGAGGTATAATAGCTGTTCCAGTACCAATATCTAATATTTTAGAGGGTTTATCTATTTTTATATTATTGGCTAATAAAACAGCATCAACACCAAATCTAAATCCTTTTTTCTTTTGAATAATTTTTTTATTTACTTTTTGTAAAGTATCAAGTGTTTCATCATTTTCTATAAAAGACATATTATTCCTCTTCTAATTTTTTTAATAAATCTTTATCAATTTTTTCATCTGATTCATAATGGTTGTTTTTTAATGAGTTAGCTTCTTCTAAATCAAATCTAATTTCACGCAAAGAAAATTTATTTATTCCTTTTTCAGGAATTTCAATATACATATAGTCATTTAAAGGGTTAACAGTAGTCACCTTACCAGAACCTAGAGGCGTTTCAACAATTTGATTAACAGCAGGATATTTTTTTAATTCATCTACATATTGTGAATATTCATATTTTATACAACATAATAATCTCCCACATGCCCCTGATATTTTAGATGGATTTATAACTAATCCTTGTTCTCTTGCCATTTTAATAGATACAGAGTCAAATTTATTAATAAATTTTCTACAGCAAAGTTCAACACCACAAAGACCAACACTACCAAGGATTCTAGCTTCATCTCTTACACCAATTTGACGAAGTTCTATTCTTAATTTAAATATAGCTGCTAAATCCTTGACTAATTTTCTAAAATCAATTCTTCCTTCAGCAGTAAAATAAAAAATCAATTTACTTTTGTCATAAGTATATTCTGAAGTGACTAACTTCATTGGTAATTCATGTTCAAAAATTTTCTTTTTACATATATCAAAAGCGGAATCAGCTTCTTTACGAAGTTCTAAAAAATAATCATATTCTTCTTTTGAAGCTTTTTTTATAACAGGTTTTAAAGGTAAAACAAGCTCTTTTTCATCCTTTATAGAAGCTTCTGCATAAACAGTACCTAATTCTTGACCTCTTGCAGTATCGACTATAACATGATCCCCTTTTTTATAAGTTGTTTTATCTTCTTTTTTTATTTCGAAAAAATATCTTTTTTTAGTAACATTAAAAATTACTCCAAGTACATTGTATTCCAAAAAAAATTCCTCCTAACTAAATAATGTTATTTTCTTTAAAGCTATAATAACAATTTTTACCAATAATAATGTGATCTAATAAAATTATTTCTAATTTATATAATAAATCTTTAAGAAAAAGTGTTAAATCAATATCTGATTTTGAAGGTGAGACATCACCAGAAGGGTGATTATGAACAAAAATAACAGATTTTGCTTCATGAAAAAGGATTTTTTTTACTAATTCTCGAGGATAAATAATACTTTTATCAAGAGTACCTTCAAATAAAATCTCATCAGAAATAAACTGATTTTTAGTATCTAAATAAATAATTTTAAAATTTTCTTTTTCAAGATAAGAAAGTTCTAAATATAAAAAATCTAAAATATCCTTTAAAGAAGTAAATTTTATTTTAGAATACATTTTATCCTTTAAAGAAAGTTTTACTAAAGAATTTAATAATTTTATTAAAATAAAACTATTTTCTTTAAAACCTTTTATTTGAAAAAGTTCTTCTTTTGATGCATTTAAAATTGAATTTAAATTATCAAATTTTTTTAAAAGTTCTTTTGCAATAGGTTTAGTATCTTTTCTAGGAATTGAAAATGTTAAAAGTAATTCAATGATTTCATAATCTAAAAAAGAATCTATATCATTATTTAAAAATTTTAATTTTAATCTTTGTCTATGTCCTTCATTGCCCACTTTAATCACCTATTTATAATTATAACTAGATTTATTTTTTTTGTCAATTAAATAAAAAATAGAAAAGAATAAAATTTTTTAAAAAAATAAAAAAGCTAAAGCATTTAGCTTTAGCTTAATATATTAATTCCAATCAGGTTCTACGTGACCGTAATCACCATCATCTCTCTTATAAACTATATTTAATTCATCAGTTTCATGATTTAAGAATAAATAAAAAGATGTTTCAAGAGCTTCCATTTGTAATATAGCTTCTTCAACACTCATTGGTTTAGTTGTAGAAACTTTTGTAGAGATTATTTTTTTTAATTCTCCGTTTATATTTATTTTTTCTTCTTCTTCAGTAAAAATTCGATTTGCTTTTTTTAAAGTAAATTTCTCGCTATGTTTGTGTTTATTATCTCTTAATTTTTCTTTATATTTAGTTATTTGATTTTCTAAAATATCAATAACCTCATCTATTGAAGCATAGAGATTTTTGTCAGCTGCTTCAGCTTTTAACTTTGTACCATTTGCAAATATTAAAACATCTGCAATATGTTTTTCCCCTTCTGATTTAGTGTTTTCCACTGATAATGTGATATCTACTTCGATAATATTATCAAAGTATTTTTTTAGTTTTCCAACTTTTTTTTCTGCATAGTCTCTAATTGCTTCTGTGATTTCAAGGTGTTTTCCACTTATGATAATTCTCATAAGTCCCACTTCCTTTCTTTGTGTAGTATTTTTTAGTTTATTATTATGTAAATATATCATTTAATTGAGATATAAAATAATGTTATACTTATATATACTTATGATTTGAAAAAATCCTTTTTTATTTTTCATTTTTTTTTAAAAATTTTTTCATTTTTATTTTCACTAAATCATTTTCTTGGTAATATTCAACTTCATCCATCAAGGTATGAATTAAAAAGATTCCTCTTCCAGACTCTGAAAGTGTATTTATATTTAAAGAATCATTTAAATGTTTCCCTTTATTTAAAATATTTTCATCAATTATTTCCCCTTCGAAAGATATATCTAGTAGAATAGAATTATTTTCTAAAAAAACATTAATATTAATGCCAGGTTTTTCTATAAGTTTTTTTTGACCATGTTTTATAACATTTGTTAAAGCTTCTCCTAAAGCTAATTCAATATAAGAATGAAATTCTTCAAAAAAATCGTATTTTTTTGAGATTTTTTTAATTTCTTCTCTACAATATTTTATGTCTTTGTATTCAGAATTTATAAAAAATGATTTTAAAAGCATAAATCCTCCTTTACTTTAAAACTAAAGCTCCTTTTTTTAAATGATACCTTTTTTGAGAAACATTTGCAAGCTCTGAACTATGAGTTACAACAATAATTGTTTGATTAAATTCAGTATTAATTTTTTTAAATAAAGAGTTAATATGCTCACTTGTTTCTTCATCAAGATTTCCAGTAGGTTCATCAGCAAGAAGTACTTTTGGATTATTAATAAGAGCTCTTGCTACAGCAACTCGTTGTTTTTCACCACCAGAAAGCATAGAGGGTTTATGATTTAATCTATCTTTTAATTCTAATATTTCTAATAATTCGCTAGCTCTTTTTTTTATGCTGTTAATATTTTTTAAATTTTTATTTTGGACAAAACAAGGCAAAGTAACATTTTCAAGAGCAGTAAATTCAGGTAAAAGATAGTGAAATTGGAAAACAAAACCAAGATATTTATTACGTGTAATATTTTTTTCTTGCTCATTAAGCTCATTGATATTTATACCATCATAGTATAAAGCGCCGCTATTAACTGCATCTAAAAGGCCTAAAATATTTAAAAGTGTTGTTTTTCCAGAACCGGATTTTCCTAAAATACTTATAAATTCACCAGATTTTATTTCTAAATTTAGATTATTAAGTATATGAAGTTTATTTTTATTTTCAAAATAATATTTATGTATATTTTCAAGTTTAAGAATGTGATTATTCATATTTTAAAGCCTCCACAGGGTTTAAATTACCAGCCTTTAAAGCAGGGAAAAAACTAGAAAGAATAATAATTATAAAAGCTGATATAACAATAATTGATATCTCAAAAAAACTTATGTCAACTGGAATACTAGTTAGATAATAAATAGCTGTTAATTTTTCAAATAAAAAATTTTCTATTAAATATAATATAAAAGCTGAAAAAATTAATCCTAAAAATATTCCTATTCCACCTAAAAATATTCCTTCTAATAAAAAAGTATTAATAATAGTTTTTTTAGAATATCCTATAGAACGTAATATACCAATATCTTTTGTTTTTTCTCTAACCATCATATTTAAAATAACACCTATTACAAATCCTGCAACTATAATTATTAATGATACAAGTACAATCATTACAGTTTTTTCTAAAGATATAGATTTTAGTAAAGTACTATTTAATTCACCCCAAGTACGTGAACGGTAATTAATTTTATTTTTTATAATATCATTTATTTTATAAGCATCATAAGGATTTTTTAAACGAACATCTATATTTTTTACAACTTCTCCACTATCTGAAATTATTTGAGCTGTTTTTAAAGGAATAATTACCAAAGTAGTATCATGTTCTAAATATCCAGTCTGAAAAACACCAACAATAGTAAGATAGATTTTTTTATTCTCGGCAGAAATAAGTTGAACTTTATCTCCAACTTTAGCACCTAATTGGTCAAAAAGTTCTTTTCCTAATAAAATAGAAGTTAATTTAGAAAAATTAATATTGCCTGCTACAATTTTTTCTTTGAAATTCATATCATTAATTAATTTATCTTCTGATATCCCTTCTACTTTTATACCAAGCATTGCATTTATGAAATTATTTTGATATTTCAATATTCCTTGAGTTGAAAATTGTGGTACAATACCAGAAATTCCATTTATATTTGATAAATTTTCTTCAATTTTTTTATAATCTTCAATATTATATCCACCATTATCAATAAGAATATGTGGCGAAATAGATAAAATTCCGTTTATCATATTTTTATCTAATCCGTTACCAATTGCAATAGATACAATAAGAACAATTATACCAATAGCTATGCCTAAGATTGCTAAAAAACTTTGTTTTTTTCTTTCAAGAAGATGTTTTTTAGCTATAAAAAATTCTATTGTCATGAATCCTCCTAAATTTTAATAAAATTATGAAAAAAATAATGTTTTATTATATTATATACTTTATTGTATCATAAATAAAGATATTCTTAAAAATTATTTATAAAAAATGTCCTGTAAAAAACAGGACATTAAAATTATTTTCTTCTCATATGAGGAAAGAATATGACATCTCTTATTGAAGGAGAATTAGTAAGTAACATTACTAATCTGTCTATTCCAATTCCTAAACCACCTGTAGGCGGCATTCCATATTCTAGTGCTTCAACAAAATCAAAATCAATTTCAGAATTTGCTTCATCATTACCAAGCTCAGCTTCTTTTAATTGTGCTTCAAATCTTTGTTTTTGATCAATAGCGTCGTTTAATTCGGAAAATGCGTTAGCATATTCTCTTGCATCAATAAATAATTCAAATCTATCTGTAAATCTAGGATCTTTTTCATTTCTTTTTGCAAGAGGTGATATTTCTACAGGATGTCCATATATAAATGTAGGTTGTATAATATGTTCTTCACATTTTTGTTCAAAAAATTCATTTATAATATGCCCTACTGTATACATATGATCAGCTATTTCAACATCATTATCTTTTGCTAGTTGTTTAGCTTCTTCTAAAGTCATCTCTTTCCAAAAATCAACATCTGTTATTTCTTTTATTATATCTACCATATGAACTCTTTTAAAATTTTCTAAAATAATATCTTTATTATTATAATTAATATTTGTAGTTCCTAATACTTCTTTTGCAACTGTAGTGATTATTTCTTCTGTTATATCCATCATATCATGAAAATCAGCATATGCTTGATATAACTCTATCATTGTAAATTCAGGATTATGTCTAGTAGAAATTCCTTCATTTCTAAAGTTTCTATTTAATTCAAAAACTCTTTCAAATCCACCAACAATTAATCTTTTTAGATATAATTCTGGAGCGATTCTTAAATATAATTCCATATCCAAAGCATTATGATGAGTAATAAAAGGTCTAGCTGAAGCTCCACCAACAATTGGATGCATCATAGGAGTTTCTACTTCTAAAAAGCCTTTTGATTTTAACAAACTTCTAATAGAATTAATAATTTGAGTTCTCTTAATAAAAGTATCTTTTACTTCTTTATTCATTATAAGATCTAAATATCTTTGTCTGTATCTAGTTTCAATATCTGTTAAACCATGAAATTTTTCAGGTAATGGTCTCATGTTTTTAGAAAGCAATTTAAATTCTTTAATTTTTAGTGTTAGTTCACCAGTTTTAGTTTTAAATAAAAATCCATAAACACCTATGAAATCTCCGATACCCATTTTTTTAATAATCTCATAATTTTCTTCACCAACAATATCTTTTCTTATATATATTTGTATTTTTCCAGTATAATCTTCTATATGTGCAAAAACATTTTTTCCCATTCTTCTAAAAGACATTATTCTTCCTGCAGTTTGATAAAAAACTTCTTCATTTTCATCATTTTTTAAAATTTCACCAATCAAATCTTTTTTATTATATTTTTCTCCATATGGATTTACTCCCATTTTTTTTAATTCATTGATTTTTTCGATTTTATCATTAATAATTTGATCAATGTGTTTTTCAGTATTTTGACTCATATTTTTCTCCTTCTATATTAATAATTATATTTTTTGTAATCTAATTTTATATATATTTGATTTTGTAGCCCAGATTGTTTTAGGGTATTTATTTATTATATCATTAAAAATCTTTAAACTATTTTCTTTGTCATTTAATTTGTAATAAATAAGACCGATATTATAATAAATATCAATATCTTTTAAAGAAATCAATTTTTTTAAATATTTATTATAAGTACTCAGTGCTTCAGTATATTTATATTTTAAATTATAAATAGAAATTAAATCAATAGCTGCCTGTTTTTTAAGCTTGTCATCATTTGATTGGCTAAGGACTCTTTTTAAATATATTTCAGCAAGTTCAAAACGTTCTTTTAAAATATTTTCTTTTGCATATTGGTAATACTCGCTATATCTAGTTTTATTTTTTTTGTCGTCTTCAATTAATTTTAATTTGTTTTTTTCATCTTCAGATAATAATTTAAATAAACTTGAATAATCTTTATTAGCTAAAAGCAAATTTTTGGCAGCTAAATAATTATTAAATTTAGAGTAAAAAAAAGCAGCTTTTTCATAATTTTTATTTTTTTCATAATAATTGGCTAAAATATTAGCTATATTTATATCAAAATTTTCAAAAAAATATTTTTCAAGATTTTCTAAACCTAAATTATGGTATTTTACATCATTAAAATATGTAATAAAAAGTTCTTTTTTATATCGATTATCATATTTCACTAATTTTTTTAAAACTTGTATTTTTAATTCAGTTTTATTAAAAAAATCATAAAATAGATAATTTATTTTTAACAAATCTACATATTCATTTTCTAGACCAATAAAATTAGAATTCAATTTATTTAAATAATTCAAACCTGTTTTAAAATCATTATCAATTTTACTTAATTCAATAGCTTTTTTGTAACTAAAATTAATATATTTAGAATTAGGAAAATTTAATTCAAGTAAATTTATACCATATTTTAATAATTTTAAATTTTTAGAATTGAAACTCTCAGTTATTATATCATAAATTTGTTTTTCGTCAAATTGATTAATGCTTTTTATTTCAAAGAAATTTATTTCTTTTTCACCATTATTATGTTCAAAAGTTACCTCAAAATTACCAATTGTATCTGGGATAAAAGTAGCACTATATCCACTATCAATCAATTTACCTTTTGAATATGTTGGTTTTCCGGAAATATACCATTTTCCTTTTGTTTGAGAAATAAGAGTAATAGGAGTATTAACAAAATTTACTCCAGATATTTCTATTTTTGAATAAGAAATTGATGAAAATAAAAGCATAATAAATAGTAATTGCCTTTTCATAAAACTCCTTTCTAAAATTAAGAGAGCAAATTAAATTTGCTCTCTTATAATTCTTTTATGTGAATTGTAATATTATTTACTAATTCTGAATCATCATATATAGAATACACTAATTTTATATCTTTTTCAAGTGTTTCAATTTTTTTTGTTGAAATTTTAAATATTTTATTTATATATGAGCTCGAATAACTAAATTGAGTATGTTTATTAAGCTCTAAAATAAGTTTACTATTTATTTTACCCTTTCTAAATATTTTTATACTATCATTTTTTAAAAATATTTTATTTACACCAAATTCATCATTATAAGTATATTTTATAATACCATTATTAATAGTTTTAGTACCATTGAAAATATTTTCTGTTTTTTCGTTAAAACTATCAAATGTAGAAATTTTTAATTTTATATTCATTATTAAAATTCCTCTTCATAAAATTCATCATAGTCATCAAAATCATCTTCGATATAAAGTTCGTTATTATCAATTAAATCTTCATCTTCTAAAGATTCGTAATCATCATCCCAAAACTCTATTTCAGCAGCAGTACCATAATATTCAGATTCCCACTCTTCTAATAGTTCATCAGATTCTTCTTCATCATCGATCAAAACAATGATTTCTTCAAGGTCATCATAATAAAAAATATATTTTTTTTCTTCAAATATATTTTGTGCAACTAAATATTCTTTGCCATGCATTATCATATCACCAATTACTTCAAACTCTATATCATCATCATCAATTTCATAAATAAATCTCTCTCCGATAGAATACATTTTTAACACCTCACTTATGATATTTAATATTATTAGTTATAGAAAACCATCTATATAATTGCTCTAAAAAAAGTAAACGCATTAATTGATGCGGGAATGTCATTTTGGAAAAACTAAGTCTATAATTTGAAATAGACCTAATACTGTCATTAACACCATATGAACCGCCAATGATGAAATTGATTCTACTTACTCCATTAACAGTAAGTCCTTCAATTTTTTTTGACATTTTTTCCGATGAAATATGCTCTCCAGAAACATCTAATAAAACTGTGTAACCTTTTAGTTTTTCTAGAATTTTTTGTATATCAACACATTCTTTTTTTATAGAGTCATCTCGATTATTATCATTGCCTCTTTCTTTTAATTCTATAATTTTAAATTTACAAAAGGGTTTTAATCTTTTTGTAAATTCATCAATTCCATTATTTATATATTTTTCTTTTATTTTGCCAACACAAATCAAATTTACTTCTATCATTATATAACACCTACTTTATTTTTTAGAAACAGACGAATTATAACATCTTAGGAAGATATAAGTCAATACTATTTTCGACCAAATTTTTTATCTAATTCCAAAAATGGAATTTTTAAAATAATAGGTCTACCATGCGGGCAAGTAAATTTTCCGTATAAATATAATTTATTAAGAAGTATTGAAATTTCTTCGATTTCTAATTTTTCTCCTGCTTTTATGGCGTTTTTACATGACATGGATATAATAATATTTTCTCTGATATCTGTTTCTTTTTTGGACATCATCTCCTTTATAATATTAAAAAAAGTTTCTTTAACACTTTTTCTAAAATTAAATGTAGGAACTGTTCTAATAATAATTTCATTTTCACCAAAATCTTCTATTTCAAATCCAAAATCATTAAAAATATCTAAATTTTGTATAACTTTTTCTTTTTCGATTTCACTAACTTCTATACTGATTGGAGTAAGAAGATTTTGTTTTGATATTTTTTTATTATAATATTTTTCTTTTAATTCTTCATAGAGAATTCTTTCATGAACGATATGTTGGTCATATATTTCTAGAGTTTCATTTCTTTCAACTAAAATATACATATTATTTAATTGTCCAAGTATTTTGATATTTTTTAATCTATTTATTTTATACTCCATAATATTATCATTAACAACTTTTTTTTGTGAAATTTTATTAAAATTTTGAAAGTTATTATTACTTTGTATATTAATATTTTCTACAAAACTATTTTTTTCCTCTTTTATTTTATAAATAGAATCAATTTTTTTAATCTCTTGATAATTTTGTTTATTTAATTCAAAATTATTAAATATTTGAGTAGGAGTAGTAGTAATTTTTTCATTATTAAAATATTTGGTAGGTTTAATATTATTATTTTCAATATTTAAAGAGGGCATAGAATCGCTTTCATTTTCCCATAAAGTTTTCTTTAATTCTGATTTAATATCGTTATAAACAGTATTGTCATTAGAAAATTTAATTATTTTTTTAGAAGGATGAACATTTACGTCAATTTCTTTAGGGTTAATATCAAAATATATTATAGCAAAAGGATATTTTCCTTTCATAAGTTTTGTATAATAAGCATCAATTATAGCAGTTTCAATAATTTTTGATTTTACATATCTTTTATTTATATAAGTAAAAATATAATCTTTTGTACTACGCAAAATATCCATAGTTCCGTAGTAACCATATTTAAACTTTTTTAAATTTTTAAGTATATTAAATGAAAAAAGTTCAGTAATACAATTTTCAAAGCCTTTTCCACTTGTTTTTAAAACGATCTTATTATCCAAAGAAAGTTGAAAAGAAACATTGTAATTAGCAAGAGCTTGTGTTAATACGACATGTTTAATTTTATTGTATTCGGTATTTTTTGTACGTAAAAATTTTAATCTAGCGGGAGTATTAAAAAATAATTCTTTTATTTCTATTTCAGTTCCTTGATTTTTTACAACTTCTTTATCTTTTATAATTTTACCAGCATTAACGTATATTTGATGTCCAGTAATGCTATCAATATTTTTAGAAGCAATAGACATTTTAGAAACAGAAGCAATAGAAGCAAGTGCCTCACCTCTAAATCCATAACTTTTTAAATTATAAATATCTTCTTTTGAAATAATTTTACTTGTAGCATGCCGTTCAATAGATAAAAAAAGATCAGTTTTTGACATACCATTACCATTATCTATTATTTTTACATTTCTTCCTTTGTTTGTAACATTTATTTTAATTGAAGATGAGTTTGCATCCAAGCTATTTTCAATAAGTTCTTTTATCATACTTGCGGGGTTTTCGACTACTTCACCAGCAGCTATTATATTTGAAATAGATTCATCAAGTATTTTTATTTTATTCATTTTAAAACCTCTTTCTTAAATATTAATAAATATATTATAATAGTATATTATACAATTTTTTTAGAATAAATACTACAATAAAAAGGAAAATTAATAGGAATAGAGTAGATAATATTAGTGAGTAAATATTTCTTAAAAATTAATTTTAAATGAATTTTAAGAATGATAGAATAATATTCTAGTGTAATAGCTTAGAATAGTTGACTTTTATATTTTAATACATTATAATTTCAATGTTGATAAAATAACCAATGGAGGCGATTAAATATGAAAAAAATTTATTTGGTATTAGCAGCAATTGTTTTACTTGTTTTTACAGCTTGTAGCAATAACCAAACAAAAGGGAATAATGTAATGCAAAAAGTAGACAATAGTGGTATGGAAGAAATGGTTAATTATCCAGCTTGGGTATTAGATCCATCAATAGAAGATGGAATAGGAGCAGTTGGGAGTGCTAAAATAGGAGCAGCAGGCGTATCATTTGCAAGACAAGAAGCTTTAGCGCAAGCAAGAGATGAATTAGCTAGACAAATAGAAGTAAAAGTAAATAATATGTTTAAATCTTATACTAATGCTATAGGATTGGCTGGTGAAGATGGTGTAGAAAAAATAGCTACAAATGTATCAAAACAAGTAGCAAGTCAAACTCTTAGAGGAACAAAACAAAAAGAATTATGGATATCACCAGATAAAGAATTATTTGTACAAGTAGTATTACCTAATGAAATATTAGTAGATGAAGCTAAAAATGCGTTTAAAAATGAAACTCCTATAGGAAATAGTGATAGAGCTTTATGGCAAGAATTTAAATCAGAAAAAGCTCAAAAACAATTAGATTATGAAATTGAAAAAATGGTAAATAATCAATAAATAATACAATGGGGTGACTAAAATTAAATAAAATTTTATGTCACCTTTTTTTGTAAATGAGAGGATGTTGATAAACATGAAAAAAATAATTATATTATTACTATTTGTATTAACTATTATAGGTTGTACCAATAGTAATATAAATAATTTTGGTCAAGAAAAAAAAATAGTAAAAATAAAAAAAGTTTATCCAGAATGGTTTTATAATCCTAGAATGAATAAATATAGTTATGCAGGAGTAGGAATAGCAAAAGAAAGTGCATATGGTGTATATAGACAAAGACAATTAGCTATAGAAAGAGGAATAGATGAAATAGCTAGACAAATTGGTACGAAAGTAAATACAATAACACAGAGAATAGAAACAAAAAACAATTCTAAATTTAGTATATATAGCATTCAAACTGTAGATGGTAATATTGTACAAGCTATTTTACAAGAAATATGGATAGATAAAAGAACAAAAGAGATGTATGCATGGCTTGTAGTAAAATAAAAATAGGAGTGTGAGATTTTATGAAAAAAAGACACTTTTTTAATCTTTTTTTATTAGTTCTTTTTTCTACTTCAAATGTGTATAGTGAAGAAAATTTTGATACATATAAAAAAACACAAGTTGGAGAATATAAAGAATATAAAGAAGATATTTTAAAAGAGTATGAAACTTATAAAAAAGTTTTTGATGAAGAATTAAAAAAATATAAAGAAAATATTTTAAAAAAATGGGAAGATGTTAAGATTAGTGATAAAAAAAATTGGGTATTATATTCAAATGATTATAATATAAGAAAAAGTGCAGATTTTGAAAATAATGAAATAGAAGTTGACATTATTGTAGATGAAAAAACTAAAGATGATGAAATAAAAAAAATATTTATTAAAGAATTTGCTTCTTTTATATTAGAAGATACAGAAACAGCATATAGTAAAGATAAATTATTTCAATCTATTGATAAAAAAATGAAAGAATTAAATTCTAAATATGTTATTTCAAATATAGAAAAAATACCCGTGTTATCAGATATTTTTTTGAATAAAGATTCGAGCAAAGAAGTGAGATATACACAAAATGATGTAAAAGAATTGGTGAATATAAGTAAGGAAAATGTTGAAAAAGGAAAAATCAAAGAAAAAAAATCAAAATTAAAAGGTAAAAAAATAGTGTCTTTAAATATCAAAATGCCAAGTGATGCATTATTAAAAAAAGCAAAAGCATTTAAAAATTATGTGTTTAGTTATTCAAATAGAGAAGGAATAGATCCAGCACTTGTATATGCTATTATTCATACTGAAAGCAGCTTTAATCCAATGGCGAAATCATATGTACCAGCTTATGGACTTATGCAAATTGTACCTAGAAGAGCAGGAATAGATGCGAGTAAAAAAGTATATGGATACGAAAAAATATTATCACCGTCAGAATTGTATAATTCTAGAAAAAATATAGAACTAGGGACAGCATATATAAATATTCTTTATTATAGATATTTAAAAAATGTAGAAAATAGAGAAAGTAGATATTATTTAACAGTAGCGTCATATAATACAGGTGCAGGAAATGTGGCAAAAGCATTTGTAGGCACTACAAATTTAAATAAAGCAATAAATAAAATAAATAAAATGTCTTCAAAAGAAGTGTATAATACTTTACTTAGAAAATTACCATATGATGAGACAAAAAATTATTTACAAAAAGTTACTAAAAGAACAAATGAATATGAAAAAGCTATAAATAGAGGAGAATTATAATGAAAGACTTTAATAAAGTAATATTATTTTTCATAATAAATATAACTATTTTTGCAAATATTACAGGATATGGAAATAAAATTACATTAGAAGAAGCTAAAAAAGAAGCTCTTGTTAACTTAGCGAATCAAATTTCAGTAAAAGTAGATAGTGAGTTTTATAAAGAAGTGAATGTAGATGAAAAAAATAATTATAGTGAAAAAAAATCAAATAAAATAAAATTAACCACAATAAAAGAATTTTTGGGAGTAGAATTTATAATAAATAAATTAAAATCAGGATATGAAGTATATGCAGTATTAGATAAAGAAGATATACCTTTATATCTTAATGAAATAGACAAACTAAATGAAAAAATAAGTTATAAATTAAATATTAAAGAAGAAAATTTGTTAAAAGAAAAAGAAAAATATAAAGAAGTGATTAGTTTGCTTGAAAAAATAGAAGATTATAGATACATCTTAAATGGACTTGGATATAGTAAAAATATAAAAATGATAGTTTCTGTAACTAAGATAGAAAATAATCTTGAAGAAATAGAAAAAAAACTAAATGAAAAAAAATATTTATATATAGATATAAGGAAAAGTTTTAAAAATATTTTATATAATGATTATTTAATAAAAGATTTAAATAGAAAACTGGAATATTTTGCAAACAATAATAATATAATGATAACTACAAATAAAACAAAAGGAAATATTATAGTAAAAATAAATATAGATAATAATATTACAGAAAAAACAAAACCATTTTATTATAATAACAAAAAAATATCAAATGGAATCTATAAAAATAGTCTAACTGTAACAATTGAAATATATGATAAAAGAATAGGTAGTATAATCGGAGAAAAAAATATAAATACAACTTCAAAAAGTGTAATCAGTAAAGATAGTGTAATAAAAAATAATATAAAAAAAATATCAGCTGAAATTAATAAAGAAATAAAAAAAGCTTTACAAACTAATAAAATAGTAATATAATTCTTCTGATAAAGTTAAAGCAGAAAGGGAAATTCTAAATGAAAGAAATAATTGAAATTAAAAGAGACTATGATGTATATAATATTTGTTCACTTTGTTATAACTTAGGAAAAACTCATAAAATTTATACATTAGAAATAGGTAATGAAAATAAAGGAGAAAAAAAGACTAAAAAAATAAAGATATGTAATAGTTGCTTAAAAAAATTAAAATTAGAAATTGATAAAGAATTTTAAAAAAGGTTGTTTTAGGAGTTCTTAAGGTAATATAATATTAATGTAAGAGTCTCTATAAAAATAGGAGGCGAGTATATTGATGTTTTGGGATGTTTTAGGAATTTCTATATTTATAAGTTTTTTAATTGTATTTGTACATGATTTATTACGGACATTTAATACATAAAAAGAGACGTAAAAGTCTCTTTTTTTTATAAAAAACTTTATTTATATTAAAAAATAAGGTATACTTTGTAAGTAATTTTAATTAATTTGGAGGCGGTTAATGTCAGTAACTTATATTGTAGATACTAATGTGATTATAAAAAATCCATATTTTACTGGTGATTTTAAAGAGTGTAAAATCATTCTTCCAATAAATGTACTAGAAGAACTTGATAAAATAAAATCAAGAGAAGGAAATAGTGGATTTAGAGCAAGACAATTTTTTAGATATTTTAAATCTCTAGAACAAAAAGGAAATCTTTTAGAGGGCATAAAAATAGAAAATAATGTTATACTTCAGACTATTCTATACGAAGGAGATATGACAAAATTACCTTCTAGTTTTGATAAAGATTATGTAGATAACAAATTGCTTGCAATTATGCTTGATGAAAGATATAAAAATTGTATACTATTAACTAATGATATTAGTATGAGAGTAAAAGCATCTTCATTAGGTATTAAAAGCGAAGTCTTAGATTTATCAGATAAACATAAATTAGATGATTTGTATAATGGAGTAATAGAAAAAAAAGTAGATATAGATATTGTAAAAAAATTTTATCAAAATGGTGGAATTACTCTAAATGAGCTTGAAATTAAAGAAATGTATCCAAATCAATTTTTTTACGGATATACTGATTATGACTATAATAAAATAATAGGGTATTATGATAGTAATAAAAATTTAATAAGAAAATTGCATTATGAAAACTATTCGCCATATGGAATAAGTGCAAAAGATATTAGACAAAAATTTGCTTTTGAAGCATTGCTTAATCCTAAAATCAATTTTATAACAATTACATCAAAACAAGGTTGTGGAAAGACATTTTTAGCAGTTGCAGCGGCTATGCATCATGTAATTGAATCTGGACAATATGAAAAAATTGTAATAGGGAAAAATACTTCTCCTATTGATAAATGGAGTTATCAAGGATTTACTACTGGAGATACTGAAGAAAAATTGTTAACGCATTTTGGAAATTATATAACTACTTTTGAAAATATACAGGCTGCTAGAAATAAAAAAAATAAAAATGGAATTGATATACTAAATGCATTAAAAAATCAAAATAAATTAGAGGTGTTGGATATATCATCGGTACTTGGAAGCAGTTTTTTAAATAAAATAGTTATTATAGATGAAGCACAATCATTTGATATACATGCTATGAGATCAATAATTACTAGAATAGGAGAGAATTCAAAACTTATTCTTATAGGAGATATAGCACAACAAACAATTTCTAGGCTTGATCCAGATAAATCAGGTCTTTATGCAGCAGTTGAGTGGTTAAAAGAATTGCCAGAAACAGCACATATTACATTGAATAAAGTGCATAGAAGTGAGTTTGTAGAGAAAGCAAGTAAAATATTTGATGAAAATATATTTGGATAGAGTAAAGAAAGATCTTTACTCTTTTTTAATTTATTTAAAATAATATTAATAATTTATAAGTAAAAGCTATTAAAATGATTATAAAAATGATATAATTACATATATAAATTAGAGGTGAAGATAAATTGGAAAGAAAATATATTTATGAAAAAGTAAAAAAAAATATAGAAATTTTAAATAAAGGGCTAGTAGAAAGAGAAGAAATAATATCATTAGCTATACTTGCTATATTATCAAAAGAAAATATTCTTTTGATAGGACCACCAGGAACTGCTAAAAGTGAAATATCACGGCGAGTATCATCTGTAATAGAGAAGAAAAAATATTTTGAATATTTATTAACAAAATTTACAACTCCTGAAGAAATATTTGGACCAATATCAATTAAAAACCTTGAAAATGATATATTTAAAAGAGTAATAAATGGATATATGCCAGATTCGCATATAACATTTTTAGATGAAATATTTAAAGCTAATTCATCTATATTAAATGCATTACTTACTTTATTAAATGAAAAAATATACCATAATGGAAATAATATAGAAAAATCTAACCTTATTTCAATAATAGCGTCATCAAATGAAATCCCTTTAAATGAAGAAGAATTACAAGCTTTGTATGATAGATTTATTTTAAAATTAACAGTTGAATATGTAAATGATTTAAAAGAACTAGTATTTATAGATGAAGATGATTATAATGAGAAAAACATAAAAAAATTTACTTTAAAAGAGATAGAAGAGATAAATAATTTATCGAAAAATGAAAAAATATCAGATGAAATAGTAGAAAAAATCATTAAAATAAAACAAGAAATAGAAAAAGAATATGAGAATAGTAATGAGGTTATAAATGAAAAAATATCAGATAGAAAATTTGTAAAAACAATAAAACTTTTAAAATTAGTTAGTTTTTTAAATAATAAAGATGAAATAACCATAGATGATTTAATTGTTTTAAAAAATATATTTTGGAGTGATCCTAAAAATATAAATAGAGTAAAAACTATAATTATTAATAATATTTGTTTAACAGGAAAAAATTATGATAAAAAAATAAATATGATATATAATTCTTGGGAAGAAAATTTTGAAGAAATTTTTAAAATTCAAGAAAAAGATAGTAATGGAAACTTATTATATTTAGATATTAATGGAGAAAAAACTACAGAAGTAAAAGGGAAAATTCATTTAAAAGATGAATTTGGAGATTTTTTATTTTTTAAAGGACATAGAGAATATATAAAAATAGCAAAGCAGTTATCATCATGGGATCATGATTATGAAGATACTGGGATTATTACAATAGATGGTAGAAAAATATGGAAATATGAATTTTCAAATATTCAAATAATAAAAACAAATAAAAATAATGTTGAAGGTTATGAAAAATTATTTGAGATCGGGAAATTAAAACCTTTGTTATTAAGTGGCTATAATGAATTCATTAAAAAAAATTTAAAATTATCAGAGGATAAAAAGGAAAAACTAGAAACAATAACTATTAATATAAAAAAAGAGTATAAAATAGTTTTTGAAAAGTATAATGAAATAAGTAAAATATATAATGAAATAAAGAAATACATATATAATAATTTATTTATTGTAGAAAAAGATAAAGATTATGTTATAAAGAAAATAGAAAATAATAAAAAAAATATAGAATTGATAGTAGAAAAATACAATAAATTATTAGAAAAAATAAATATGGTGAAAAAATGAAAAATATAGAGAATTTAACAAAAATAGAAAAAATAAAAGAGATGTTTAATAATGAAATTGCAGATGATAACGAATTTAATAATGTAATCTGGATAAATTATATTGAGGATAGAGAAATCAGAGAGAAAGTGGCACTCAATCAGTTTATAAAATTATACTTAGGTGAAAAAAAAGATTTTATAGAAGTGGATTCAATATTAAATAGAGGTATAATTATATTAGACAAATTTTTTGACTATACAAAAAATAATTTAGAATTTACAAAAAAACTCATAAAAGATTTTTTTTTTAAAATAAAAGAAGATATAATAAAAAATAATATAAATTTTAATATAGAAGAATTTATTAATAAAATTGACAAAACAAGATATAATTATAAGAAAAAACAATTTGATAAAATGAAAAATTTATATTTAAATAATGAATTGACTATAGAAGAAATAGAAAAATATAAATTACAAGCTCTAAAAGATATAAAAAATATAAAAGATAGTAGCAAAATAAAGAATTTGTATGAAAAAATAAAAGATAGTAAAAATAAATGGAGTGAAATATTAAAAAAATATGAAGAGTTTTATGAAGATTATTATAAAAAAATAGAAAAATTAAAAGAAGTATGGGGAAATAATAGTATAACAGCTTCATTAGGATGGGATTTAAGTAACTCAGATTTTTCTATGGAAAATATAAATAACTTAATTAAAATAGAAAAATTTATAAGAATAGAAGATAATAAAGAAATAAATAAATTATTAAAAAAATTAGGAAAAAGTAAAGTAGATACAAATAAAATTAAATCTAATAGAATAAGAAAAAGGATTAATTTTAGAAGTAATAATGAAATATTAGGAATAACTAGAAGTAGCGATATAACAAGAGTTCTTTCTTCGGAATATACATTATTAAATAATAAATTATTAAAATATTATTTTTATCAAAAATATATAGAAAGTGAATTATTATCATATCGATTAGCTGATAATAAAAATGAAGATAATAAGAATAATAAAAGAAATGAAGGGCCTTTTATTATTTGCTTAGATACATCTAGTAGTATGGAAGGATTGCCAGAAATTTTATCAAAATCAATAACAATAGATATTATAAAACAAGCTAAAAAACAAAAAAGAGATATTTATTTAATAATGTTTGGAAGTATTGATGAAGTAATAGAATTAAAAATAGATTACACAAAAGAAAATAGTATCAGATTATTAAAATTTCTACAAAAAAAATATTATGGTGGAACAGATTTTGTAACACCAATAAAAAAATCATTTGAATTAATTGATAATAAAAAAATAGAAAATGCAGATATACTTATGATAAGTGATGGACTTGTAAAAATTCCTAATGATTTTATAAAAAAAATAAATGAAACAAAACAAAAAAGAGATATAAAAATTTATTCATTAATTATAAATACTGAAAAAATAAAAGATAAATTTAGTGATGAAGTATATTATTATAAATATAAAAATAGTGAGAAAAAAGTTGATAGAAAGGTAACAAGAAGAGAAATATCATTTTATGCAGATGATTTATCATTATTTATTGATTAAAAAAACTAGATATTAATATATCAAATTAGAATTTTCTTGACTAAATATATTTTATATGATTTAATACATTCGCTTAAAAGCAAAAAAGATAAAAAATAATGGATAAGTAAAATTTTTATTGTTAATTTTAATTGTTTTTATTTTTTAAAGACAAGTTTAGAGTGACTTTAATAAGATTTAAGAAAAAAATCAACTAAATAATTCTTGACTAAAAAAGTTAAATATAGTAATATGAATTATTAATATATATCTCCAGGGGTGCTGTAAAAGGCTGAGAATATACCCTCAAACCTGATATAGATAATGCTATCGCAGGGAGTGAGTGTAAAAAAACACTTCTTCATAGCAAGAAGTGTTTTTTGTTTAAAGAAATATAATTATTTTAAAGAAAGGTTATTATGAAAAAAGCTATTATAGTATTAAATAATAAATTTGATATAAATATAAATTTTGATAATTATGATGTGTATTGTGCTGATGGAGGAGCAAATTATTTATATGAAATAAAAAAAATCCCTAAATTAATAGTAGGAGATATGGATTCTATAAAAAAAGAAATATTAAAATATTATATAGAAAAAAATGTAAAAATAGAAAAATATCCAAAAGATAAAGATATAACTGATGGAGAATTAATAATAAAAAAAATATATAATAAATATGAAGAAATAATAGTTTTAGGTGCTATTGGTGGGAAAAATTCACATTTTCTAACAAATCTTTATTTGTTAGAAAAATATCCTAAAATAAAATATTTTAATAATAACGAAGAAGTTTTTATTATAGAGAAAAACTGTATTTTAAAAAATTATCAAAATAAAGAGATATCTTTTATACCAATTGATAAGATGATAAAACTTACTCTTAAAGGGTTTAAATATAATTTAAATAATAAAGATGTTGAAAGAGGGAGCTCTCTTTTAGTGAGTAATATAGGAATTTTAAACGAATTAGAAATAAAATTTGAAAAAGGTAAAATGATATGTATAATTAATGATTTTATATAAAATATATAAGACTAAGGAGGAGATTAAATGAAGAAAATATTATTAATATTTTTATTGTTATCTAATTTTATATTTGGAGAAACGTTAACTGTATATATACCAGATGCAATGAAATGGATGGAAAAAGAGATAAAAGATAGTTTTGAATCACAATATGGAGTAGAATTAAAGTTTGTAAAATTTGAAGGTGCAGCTAAAATAGTATCAAGGTTAAAACTAGAAAAAATAAATCCAAAAGCGGATATAGTAGTAGGACTTAGTAGTTCTACATTAGCACTAGCTAAAAAAGAGGAAATATTAAAGCAATACAAGCCAGTAAATAGTAATAAAATAAAAGATATAGGACTTGTAATAGACAAAGATTATTTTGCAACTACATTTGATTATGGAGGACTTGCGATAATATATGCACCAGATAGATTAAAACAAGTACCTACTAGTTTTAATGATATAATAAAATTAGATAAATCTTTGATTGTAGAAGACCCAAGAACATCTACAACAGGACAAGATTTTTTATTATGGACAATAGCAATATATAAAGATAATTGGAAAGAGTTTTGGGAAAAATTAAAACCAGCTATTCTTACGATAACACCAGGATGGAGTGAAGCGTTTAATAAATTTGAGGCTAAAGAAGCGCCTATGATGGTAAGTTATGCTACTGATGGAGCTTATTCAACATATTATTATGGTGGGACATCTTATAAAGCACTTATACCAAATGAGGGTGGATATGTACAGATAGAAGGAGCAGCTATAATAAATAAAAAAGATATAAAAGACAGTGCATATAAATTTATAGAATTTTTATTATCAGATGAATTTCAAGAAAAAATACCTTTAAATCAATGGATGTTTCCTGTAACTAATGTAAAATTACCTGCAGCATTTGATTATGCTGAAGAGATAAAAAATCCTGTAACTGTATCTGGAGAAGATATTTCTAATAATCTTGAAAAATGGTTAAAAGAATGGGAAGAATTAATGAAAAAATAGGATATTTAACCTCTTGTATTACAAGAGGTTTTTTATTTATAAAATTATAGTATATATTTAAAAACAAAGTAAAAATAATAAAATTAAAATAATAAAATTTGTGATATAATATAAAAAAATTATTTGTAAAATAAAAAAAGAATTGGATGTGAATTAATGAAAAAAAGGTTTAATAAATTGAATCTAATATACCTCTTACTATGGATTATACCTTTTTATATATTTGGTAGAGATTTTTTTAAATTTAAAAGAATAGATAATAGTACAGTTAATGTGATATTATTTACAGTATATCAAGCATTTATTTCATCAGGATTTGCATTTTTAATAGCAATATTTCCATCTTATTATGTAGCATCACATAATAATAATATATCAAAATTAATAAAAACAACCCTTTTTATACCTTTTTTATTTCCAGTAGTATCAGCAATTACAGCATTCTCTATTATTGGAAATTTTATGATTTTAAAAAAAATAGGATTTTTATATAGTTTAAAAGCTATAATTGTCGCAAATGTATTTTATAATACACCAATATTTATAAAATATATCTCAATAGCAATTCAAAGAATACCGAAGAATTTAGAAGAAACATTGGAAATAGAGGGAATAAAAGGTATAAAAAAATTTTTATATATTGATTTACCATTAATTTTGCCCTCTGTTTTTAGAGCTTTCTTTTTAGTTTTTACTTATTGTTTTACTTCACTTGGAATAGTTTTAGGACTTGGTGGAATAAAATACAGTATTTTAGAGGTAGAAATAGCTACAATAATGATGTCTAGTTTGGATTTTTCAAAAGCTTTTTTACTTGGAATCATTCAATTTATAATATTATCTTTTATAAATGTAATAAATAATATTATTCCACATTATGAATTGGAAAAAAGCGAGATAAAAAAATATAAAATAAATATATTAGGTAAAATTATAGTAATATTATTTATAATTTTAGAATATATTGTATTAATAATTTCTTTTTTATTTTCAGTATATAATTTTTATGATAATAAATTTACATTAAGAGGAATAAAAAATCTTTTTAGTAAAGAATTTAATATTGATTATAAAATAATTGATGCTTTTAAAAATACAACACTAATAGCGATAATAACAGCAATTATAGTAATAATTTTCACTTATGTATTTATAAAAAATGAAAATAAATATAGTAATTTTATACTTATGGGAACATTTGGTATATCAAATGCATTTATAGCAATAGCTCTTATCTATCTTAATATTTTATATAATATTCCATATATAATATTATTAATAATAGGATTTTTCTATATTACAGTACCACTTGCATATTCATTTTTACATCATCCTATTAAAACTATAAAGAATGAGATAATAGAAGCAAGTAAAATAGATGGAGCTAATACTTTTGATTTGTTTTTTAAAATAGAGTTTCCTATATTAAAAAACAGTTTTATATCAGTATTTATACAGATATTTGCTATAATTTTTGGAGAATTTTCACTTGTATATACTATGCAAATAAGTGATTACTTTCCTGTAATATCAGTAGTGAACTATTCTTTAGCTAGTGATAAAAAAATATTTGAAAGTATGGCATTAAGTAGTATAGTTTTATTGATTATATTTACATTATTTTATCTTTCTGAAAAATTGAGTGATGAAGAAAAAAGATAAGAACTATTAATATATCTATAATAAAATAATGTATTGTTTATAATAAAAAATAAAAATGAATAAAAAGTAGGAGGTAAAAGATGTATCCTTTAGTTTTTAAAAAAGTACTTATTAAAAAAATTTGGGGTGGAAGGGCCTTTGAAAAAGAATTGAACTTTAGGTTAGAAGATAATGATAAATATGGAGAAAGTTGGGAAGTAAGTAGCCATCCTAATGGAATGTCAGTGGTAGAGAATGGGGAGTTCAAAGGGAAAACTTTACAAGAATTATTAAGTGAATATAAAGGAAAATTAGTTGGAGAGAGAATTTATAAAAAATATGGAGATAAATTTCCTTTATTGATAAAATATCTTGATATTAATGATAGACTTTCTGTACAAGTTCATCCAGATGATGAGTATGCATTAAAAAATGAGAATGAATATGGGAAAAGTGAAAGTTGGTATGTATTAAAAGCGAGTAGTGACGCTAAATTAATACTTGGAATAAAAGAAGGGATAACAAAAGATATATTTAAAAAGAAAGTAGAAAAAAATGATTTTAATGATTTATTTAATATAGTAAGAGTAAAGGAAGGCGATTTAATAAATATAAATCCAGGAACAGTTCATGCATCATTAGAAGGTTCTATACTTATTTGTGAACCACAACAAAATTCTGATTCAACATATAGAATATATGACTTTGATAGAATAGTAGATGGTAAAAAAAGAGAGCTTCATATAGATAAAGCACTTGATGTAATAAAATTTGATGAAAAAGCAAAAATAATTAATGAAAATAGTGTGGAAAGTATAAAAAAAGAGAATTTCATAAAGAAAGAGTTAACAAAGGATAAATACTATGATCTTGAAATATTAGAGATAAAAAAAGAATACAATGAAAAAGCAGAAGATTTATTTAAAGTGTATATGATATTAGAAGGTGAAGGGGAAATAGAGTATGATAATAATAAATATAATATAAAAAAAGGTAAAAGTTATCTAATACCTGCAAATTTAGAAATTAATATAAATGGTAAAGTGAAAATATTGAGAATTATACCTAAATAATATATTTTTTAAATAAAAGGAGCGAATGCTCTTTTTTTTATTTGAAACATAAGATAATTAAATTTATTTATCTATTAAAATTAAATAAATATACTAAATATATATAAAAATTTATTTTTATATATTTAATTAATTCGTATAATTGTGTTAAGATATCATATATAATTAAAAGTAAATTAATTGTATGTAAAAAAAGGAGGGGGTTATAATGTTAGGATTAGCTGAAAAAGAAACATTACTTAATATTGAAGAAAAAATAGAATTATCAAGTTATTTTCAACCGATAATTTCATTAAAAGAAAATAAAATTATTGGATATGAATTATTACTTCGTGGAATTATTAATAAAGAAGTAATATCACCAGAAAATATATATAATGTTTTTGAATCAAATAATGAACTTATTGACTTTGATTTTAAAGTAGTAAAACATCATATAAAGGAGATATCAAAAATTTATAATGAAAATTATTTATATTCAGTTAATATTAGTTTTCCAAATAAAAAATTATCTACTATAGATGAAACTATGTTAAAAATAAATATAAATGAAATAGTAGAAAAAATAAAAAAATACAGAATGGACACTAAAAATATTATTATAGAGATAAGTGAAAATGAGGTAGTTTCTACAGGAGTACAAATAGCATTTGTAAATCAATTAAAAGAAAAAGGGTTTTTAGTAGCACTTGATGATGTTGGTAAAAATAATAGTAATTTTTCTAAATTGGTAGATTTAAAACCAGATATTTTAAAAATAGATAAAAGTCTAATAAAAGATATAGAAAAAAGTGGATATAAAAGTTCTATAGTAAAAAATATAATATCAATAGCAGAAGAAACAGGAAGTATTGTAATAACAGAAGGAGTAGAAAAAATAGAAGAGCTTGAAAAAATTACTTGGCTTGGTTGTGATCTTGTACAAGGATATTTTTATAGTAAAGCAATGGAAATAAAAAAAATAGATATCTATAACATCATTAATAAGATAGAGTGGGGGAAAAATAAAGTTATTCAATATATTGATATGAGAATGAAACAAATAATAGATAATGAAATAATATGTAATGATATTATACTACAAGCAGAAAGAACTTTTGTTTTGTTTGGTAATGAATTTGCTGCATTTTCCTATAATTTATTTAGAAAATTTTCTAAAATAGAAGCTGTATATTTATTAAATGAAAAAGGGATACAAATAAGTGATACATTTTTGAATAAAGAGATAAAGATAAAGAAAAATAAAATATTTCATCCAGCTAGAATAGGAGATAATCATAACTTAAAAGAGTATTATTATAATTTGAAATATAAAGAAATGTATGTATCTGATGTATATATCTCAAAAGCTACTGGAAATAGATGTATAACAATATCTAAAAAAATTATAAATAATATATTATGTGTAGATATAAAAATATAAAGGAGGTTTTACTCCTTTATATTTTTTTTGATGATTTTAATATTAAATAAATTTATATAATGTAAATTAATATCTCGTAATTGTATTTTGCAACAAATAATTGTATTTTATCATTTAGAAAAAGTAAAAATTTTAAAAATATAGTATTATTATATTAGAAAAGAATATATATGGAAATTTAAAGAAAAGAGGGGGAATATGAAAATAAAATTAATATGTGATGAAAATAAAAAAGAAAATTATATAAAAAAAATTATTGAAAAGGGTTTTGAAATAGTTGAAAATAGCAAAATTTTATTAGTTGAAAAAGGTTATGAAAATAAAATAAAAAATGATATATATATTGTATTTAATGAAAATAATTTTGAAAAAATATTTGAACTTATAAAAATAATACAAAATCAGAAAATAATAAGAAATGAAAAATTTATAACTGTAAAAAATGCAGAAAATTTTGAATTAATTAAATATGAAAAAATACAATATTTTGTTGCTGATAGAAACAAAATTTTTTGTGTAGTTGAAAATAATAAAAAATTTTATGAAGTAAAAGAAAAACTTTATTACCTAGAAAAAACATTAGATTCTAAAATGTTTATACGTGTTAGTAAATCTCATATTGTAAATGTTTTAAATATAAAAGAGATAGTACCTTGGTTTAATAGTAAATTAATTATAAAATTTAAAGGAACAAACAAAACTGTAGAGGTAACTCGTAGTTATTTAAAAGATTTTAAAAAATTTTTAGGAATATAGGAGGCTAAAATGAATATAAAAAATTATATAATAAATAATTTAGTATCAGCATTTATTGGGATTTGTATAGGTGGTTTTTATCTTTTAGTTTTATTAAGTAAATATATAGTTTTAAAATATTTATTAATATCACTGGGATTAAGTAGTTTAATAGGAATATTTATTGGAAATGTAGCAATGATTATTTTTTGGTTATTTAAAAAAAATATATTAAAAAAATTATGGATCGCTTATTTAATAGAGAGTATAGTTGTGATGTTATTAACAGCAATCTTTAGTTATTTAATGGGAGTAAGAGGAATAATTTATATTTTAATAATGAGTTTTATAGCAATGATATTTGCAAATACTTTTTCGTATATTCATTATAGATATTTTGCTAAATTAAACAAAAAATTAAAAGAATATCAAGAAAAAATTAGTTAAAAGGACTTTAAATTAAAAGTCCTTTTTTAAATAGAAAATTTATGACTTTTTATTTCTTCACATTTTTTCCATAACTATATTATAATATTATTATCTTTAAATATTTTAAAGGATTTTTAATAAAAAAAAGTATATTATATTCATGTAAAAATATTAAGGAGGTAGGTTATGAAAAAGCAATTAGGAATTATGTCAAGAAAAATTTTACAGGGATTATTTTTAATTTATATTTTATTTGTAAGTTTAGGACATGCATTTAACTGGAAAATAGGAGAAAATTTACATGGAATATGCCCATTTGGAGCAATAGAAACTTTTTATACTTGGATAACAACGAATAATTTTATACATCATACAGGAGTAGGAAATTATTTTATATTATTAGGGCTAGTATTTACATTAATAATTTCAGGAGCATTTTTTTGTGGTTGGATATGTCCATTTGGTACAGTGCAAGAATTTTTAGGAAAATTAGGTAAAAAAATCTTTAAGAAAAAATATAATAATATTATACCTAAAAAGTTAGATTCAATATTAAGATATTTTAAATATTTATTTTTAATATTTATATTAGTGCAAACAGCTAGAAATTTTAAACTTGTATTTGAAAATATAGATCCGTATTATACTTTTTTTAATATTTGGAGTGATGAAATAGCTATTTCAGGATATATTGTATTAACTATTACTTTATTATTGTCATTAATTGTAGAAAGACCTTATTGTAAATATATGTGTCCATTAGGAGCAATAAATGGAATATTTAATTTTAAAAGTATTATTCAGATAAAAAGAGATAATAATAATTGTATTAATTGTGGTGCTTGTGATAAAGTATGTCCTGTTGGAATTAATGTATCAATAGCTAAAGAGATTTCAGATCCAAGATGTATAAGATGTGCAGAATGTGTAGCAATATGTCCAGTTAATAAAACAAAAGATACACTTAACTTTAAAATAAGCTTATTAAAAAATAAAAAATTAAATATTAGTAAATTAATGTTAATTTCATTAATAATATTTTTAACACCTATTTTTATAGGTAGTATAACAGGCGGATTTAAAGAAGATACAAGTGATAGAAAATATGAAACTGCAAATGATATAAAAGGTTCTTATACAATTAATGAGATCTCTGAACATTATAATATCACAGCAGAGGGACTTATTCATACATTTAATATTGAAGATAATAGAGATCAAAAATTAAATGATTTATTAGAAAAAAGTGGATTTTCTATAGAAACATTAAGGGTTTATATGGAGAATATTGATAAACCATTAAAAGATGTATTAGAAGATTATCCTGAAAAATATGAGGCCAATAAAACATTAAGAGAATTAGCAAAAGAAAATGAAGCAGGTGTTATTGCAAAATTATTTAATTCATCTGAAGAAGACACTACAGTTGAAATAAAAAGAAAAACAATGTTAGTAGAAATAAAAAATATAATAAAAGATTATAATGATTTTCTAAACACATTTAATATAAATAAAGATGAACCATTAAATACAACGTTAAAAGATATTATTGATAAATATAGTATAGAAATGGAAGATATTAAAACTTATGTAGAAGATAATAAAAAATAAAAAATAGGATTTCATTTTGAAATCCTATTTTTTATCTTAAATATTTAAATATTTATTGACAAATATAAAGTTATAGAATATAATTTAAAGTGCATATGCACATTTTATTTTAGTGAGATATAATAACTTTTAAATAAACTTTAAAATGGGTAGTTGCAAGAAAGATTATTAAAAAATTTTAATTATTATAAAGAATGGAATTTTATATTAATTAAATAAGTTTAATTGTATCTTTTAATTAAAAAATATTTAAAAATTAGATAATGTTTAAATAAATATATAAATTTAAAGTAATAAAATTAATAATAGATGGTTAAAAGAGTTGAAAATTTAGAAATTTTAAGGAGGAGAAAATGCACGGAATATCAGATGAAATGCAAAAGCAATTAGAAGAAAATATGAGCAAAATAAAGCATAAAATAGTAGTAATGAGTGGAAAAGGGGGAGTAGGAAAGTCTACAGTTTCTACTAATATAGCTTTTGGACTTGCTATGGCAGGTAAAAAAGTAGGATTATTAGATGCTGATTTACATGGACCAAATATTCCTTTAATGCTAGGAATAGAAGGAACTAAATTAGGAGATTTGTCAAAACCATTTCAAGTAAACAAGAATCTTTTTGTTGTTTCTTTGAGTTTCTATATGAGAACTTCTGACGATCCGATTATTTGGAGAGGACCAGCTAAAATAGGAGCTATTAAACAAATGTTAGGTGAAGTAATATGGGGAGAATTGGATTATTTAGTTGTTGATCTTCCACCTGGTACAGGAGATGAACCGCTTACTATTGCTCAAGAATTAGGTAAAATAGATGGAAGTGTAATAGTAACAACACCTCAAGATGTAGCAATACTTGATTCGAGAAAATCAGTAAAATTTTCTACATTAGTAAATATGCCAATATTAGGAATAGTAGAAAATATGAGTGGATTTGTTTGTCCTCATTGTAATAAAAGAATAGATATATTTAAACAGGGTGGAGGAGAAAAAGCAGCTAAAGAACTAGGAGTGGAATTATTAACAAAAATACCAATGACTCCTGGAATAGTACATGCTGGAGATGATGGTAAGCCATTTATATTTAATAATAAAGGTCCAGAAGTAGAAATTATGAAAGAATTAGTAAATAAACTTATAAATAAAGTAGAAATTAATAAAGAAATAGAAAATAAAGAGAAAGAGAGTGATAAAAAAATGGGAAATATATTGAAAGTTGCCTTTCCAACTAACGATAAAACAAATGTGGAAGAACATTTTGGACATTGTAAAGAGTTTGTAATATTTGAAATAGAAGATGCAAAAATAATAAATAAAAGTTTTGTGACACCACCTCCACATGAACCAGGTGTAATTCCTAGATTTTTAGGAGAACAAGGTGCAAACGTTATAATCACTGGTGGAATGGGTCAAAAAGCAATAGATATTTTTAAATCTCAAAATATTGATGTAATATTAGGAGCTAGAGGAAGTATAGAAGAAAATTTAAAAACATATCTTGAAGGTGAGTTATATTCAACTGCATCAGCGTGTAATCATGAACATGATGAAGATCATAGTTGTAACCATTAATAATTATAATAAAGCGGAATAAATTCCGCTTTATTTTTCACAGATGTATTAAGAGAATCAAACTATTTATATATAGATATATTGTTAAAAATAATATTTTTAATAAAACATTAGAAATTTCTAATGTTTTATTTGACAAAATTCTAAAAAACATTATAATGTGCATATACACAAAACGAAGAAAAAATCAGGAGGTAAAAAATGAAGAAGATGTGGGGAACTATTGAATTTTTAAAAAAGAATTTGGCATGGTCTATATTAAGCTTTATGATAATGGGAATTTTAGCCGGAGCACTTTTTAATGTTAAAGGATTAAAAGTTTTTATAATGCCACTTACATTTTTAATGGTTTATCCAATGATGGTTACATTAAAAATAAATGAATTATTTGAAAAAGGTGGAGAAAAGGCTAATGTATTAGCATTAATAATTAATTTTTTAATAATACCATTTATAGCTTTAGGAATTGGGAAAATATTTTTTAGAGATTCACCATTATTAATTGTTGGTTTATTATTAGCAGCATTACTTCCTACTAGTGGGATGACAATATCATGGACAGGATTTGCAAATGGAAATATGCACACAGCTATAAAAATGACAGTAATTGGGCTTATTGTAGGTTCGATAGCGACACCTATTTATATAAAATTATTAGTAGGGCAAACTATGAACATTCCTTTGATCAGTGTTACTAAACAAATAATTTTAATAGTATTTTTGCCTATGCTTTTTGGTTATATTACTCAAAAATTATTAATAAAAAAATTTGGTGAAAAAAAATTTAATAAAGATATAAAACAAAAATTTCCTGTTTTATCAACAATTGGAGTTTTGGGAATAGTTTTTGTAGCAATGGCATTGAAATCAAAAACAATAATAAGTAATCCATCAATTTTAATAAAAGGATTAATCCCAATATTCATTTTATATGTTATAAATTATACTATAAGCACTTTTATTGGAAAAATGTTTTTAGATAGAGATAATGCAATAGCATTAATATATGGAACAGTTATGAGAAATTTATCAATAGCATTAGCAATAGCAATGTCAGTATTTGGTAAAAATGGTTCAGAAATAGCTTTAATAATAGCATTGTCATATGTTGTACAAGTAAAATCAGCAGTATGGTATATAAAAGTCGTTAATATTATTTTTAGTGAAGAAAAAACTTTAAAAAGAGCATAATTGTTTTTTATTTAAAATATGAGAAATATAACTATATATAAAAAAATAAAATAAATAGGAGGAATAAATATGAAAATAGCAGTATCAGCAAAAGAAGTTGGATTAAATGGGAAAATAGACGATAGATTTGGAAGAGCAGAATATTATGTAATATTTGACACAGAAACAAAAGAAGTTAAAACTGTAGAGAATAGTGCAAAAAATGAAAGTGCTGGAGCTGGTGGGAAAGCTGTAAAAGTATTAGGCGATGAAAATGTAAATATAATATTAGCACCAGAAGTAGGACCTAAAGCAATAACAGCATTAAAAGCTTTTGAAATAGAAGCTTATCTTTATGCTGGAATGGGATTAAATACAGTAGAAGACGCTATTAATGCTTTTAATGAAGGGAAATTAATAAAAGCAAATAACGCAACTGTTGAAGAGCATAGTGGATTAAGAAAAGCTTAAAATATTTTAATAAAAGAGTGGATTTTTTCCACTCTTCATTATTAATTAAAAATTATAAAAATTAAAAGTTTTTTTTATAGTTAAAAGTTTTGAAATTCACAAGAATTAAAAATAATAAAAAATTAAAAATAAATAAGAGAAGCGAGGGAAAAATATGAAAATAGCTGTTTTAAGTGGGAAAGGTGGAACAGGAAAAACGACAGTGTCTAATAATTTAGCAATAAATATAAAAAATACAATACTTATAGATACTGATGTCGAGGAACCAAATTCACATATATTTTTAAAACCTGATATTGAAAAAATAGATTCTGTATTTATAGGGTATCCAGAAGTAGATATGAATAAATGTAATTTATGCGGTAAATGTGGAGAATTTTGTAGATTTAATGCAATTATTCCAGCTAAAAATAGTGTTGTTGTATTTAATGAAAGTTGTCATGATTGTGGTGGATGTGCAATGGTATGCCCAACTAATGCAATTACTTATAAACAAAGAGAAATTGGGAAAATATATAGCGGAAAGACAAAATATGATATAGATATGAAATACGGTGAGATAAATATTGGAGAAATGTCTGGTGTAAGAATTATTGAAGAAGTAAAAGAAAAAATAAAAAATGAAGAAATAGTAATAATAGATTCACCGCCAGGAACAGCTTGTTCTACAGTAGCTGCTGTTGAAGGAGTAGATTATGCTATTTTAGTATCTGAACCTACGCCTTTTGGAGTTAGTGATATGAAAATGGTGGTTGAAATGCTAAGAGAAATGAATATACCTTTTGGATTAGTTATAAATAAAGCAAAATTAGGTGATGATGAGATATATGAATATGCTAATAATGAAAATATTGAAATATTAGCAGAAATTCCATTTAATAAAGAAATAGCAAAATTATATGCAAATGGAGAATTATTTAGTATTCATTTAAAAGAATATAAAGAAATTTTTGAAAATATATATAGTCAAATTTTATCAAAATTATAAAAGAAAGGTTGATAATCATGAATGAGATAAATGAAATAGTTGTTATATCGGGAAAAGGTGGAACAGGGAAAACAACATTAACAGCATCAATTATTCCATATTTAGATGATGTTATAATAGCAGATTGTGATGTTGATGCACCGGATCTTAATATTTTATTTGAGTTAGAAATAACAAAATCAGAAGATTTTATTGGTACTCAAAAGGCAGTAATTGATTATGAAAAATGTATAAAATGTGGTAAATGTTATAGAAGCTGTAATTTTGGAGCAATTACAAAAGAGATAGAGGTAAATATTCCGAAATGTGAAGGATGTGGAGTATGTGAATTTGTTTGTCCTGTAAATGCAATAGAAATGAAAGATGCAGTTGTTGGGAAATTATTTGTATCAAATAGTAATTATGGACAAATAGTTCATGCAAGATTAAAACCAGGTGAGGAAACATCAGGGAGATTAGTTGCAGAAGTTAGAAAAAGAGCAAAAAAAATAGGAGAAGAAAATAATATAAAAAATATGATAGTAGATGGGTCTCCTGGAGTTGCATGTAATGTTATTTCTTCTATTACAGGAGCTAAAAAAGTTATAATTGTAGTAGAATCAACTTTTTCTGGATTACATGATTTAAAAAGAGTATATGAATTAACACAAAAATTTAGATTGTCTATAATTGTAGTTATTAATAAATATGATTTATCAGAAGAATTAACACAAGAAATTGAAAAATATTGTAAGGAAAATAAAATTGAAGTAGGATTAAAAATACCTTTTAATAAAAATATGGTAAAAGCAATAGTTAATAAAAAAATACCTTCATTAGAAGAAAAAGAATTTTTTGAACAAATAAGATTTGATAGATTTATAGATAAAATAAGAGTCTAATATAAATATAATTAAGATAAAATAAAAAAACATTTCAAACATTTTTTGGGGGATTAAAAATGGAAATAACAGTTTTAATAGAAAATTTAGTATATAATCAAGGTCTTTTTGGAGAACATGGATTATCACTTCATATATTAGATAAAGAAACGAGCATATTATTTGATACAGGACAAACAGAAAATTTTTTATTAAATGCTAAAACATTAGGAATAGATATTAATAAGGTTAAATATACTATTTTAAGTCATGGACATTATGATCATACTGGGGGATTAAAATCATTATTAGAAAAAAATAATAAAATTGAATTGATGGTTAAAAAAGATATTTTTCAAAAAAAATATTCGAATTCTACAGGAAATATAAGAGAAATTGGATTAGATAATAAAATTTCTAAATATAATAATATTAAGTATTTAGATAAAAATATAGTTAGTTTAACAGAAAATATTTTTATTATTACAAAAATTAATAACTATAATGATTTTGAAAATGATGAAAAAAAATTATTTGTTAAAGAAAATAATAAATATGTAGTGGATAAGTTTATAGATGAAGTTTTTTTAGTATTAAAAAATAATGATGATACTTTAACAATAATAACAGGATGTGCACATAATGGAATAATAAATATTTTAAAAACAACAAAAGAGTATTTTCTAAATAACAAAATTAAACAAGTAATAGGAGGATTTCATTTAAAAGGAAAATCCAAAGAAAGAATAGATAAAACTATAAATGAACTTATAAAATTAGAAATTCAAGAAATTTATATAAATCATTGTAGTGGAATAGAATTTTTTAGTGAATTAAAAAATAAAAATTCAAATATTAAAGTTATATATGCTTATACTGGAAGTAAAATTATTTCATAAATTAAAATAAAAGAAGATATATTTTTATTTCTTCACATTTTTTTCATAACTATATTATAATATTATTATATAACGATATAAAAGGAGTGAAAAAAATGAAGAAAATAAAAGAATTATATTTAAAATGGAATTGGTTGTTAATGATATTGTTTTTATTATTAGCAATAATTAATCCTTTATTTGGATTAGCAGCATTATTTTGTATGGTACCTGCAATATATGTAAGTATTAAAGAGAAAAAAAAGACATTTTGTGGTTTTTATTGCCCAAGAGGAAATTTTTTAACAAAATTATTACAAAAAATTTCATTGAATAAAAAAGCACCAAAATTTTTTCAAAGCAGTAAATTTAAATCTTTATTTTTTGCATTAATGTTTGCTTTCTTTATATATTCATTAAATAAAACGGAAGGTGATTTATTTAAAATCGGATTTGTATTTTTTAGATTTATATTAACAAGTACAATAATAGGAAGTATATTAGGAATATTTTTTAAACCAAGAACTTGGTGTCAAATATGTCCTTTTGGATATATGACAGAATTATCAGCACAACCTAAAAAAATAAAAAATTTAATAATAATTCCTAAATATATTGTAATAGGTATAATATTATTTTTAGCTGTTGTAGGAGCTAATACATTGATAGAAAAAGAAAATAATAGTTATACAAAAAATAATATAGTATATTATAAAAATAATAATACAAAGTTTTATAAAAAAAATTTTAAAAGAAACAGACAAAATTTAATACAAAATAATAAAATTATATTTGAAAAAAATATTAAAAATTAGGAGATGAGTAAAATGAAAAAAATAATTACTATGGTGTTGGGATTAATGATTTTTTTAGGGTCAGTAATAATGGCTAAAGGGAATACAAATATTGTTACAGATACTCAAAATATAATTTAACTAATAAACAAAAAGAAGCTTTAATTTATATGTATCAAGAAGAACAATTAGCAAGAGATGTATATATAAAACTTGGAGAATATTGGAATGCTAGAGTTTTTCAAAATATATCTAAAGCAGAACAACAACATATGGATGCAGTAAAAAGTTTATTAGATAAATATGATATAAAAGTAGAGGTAAATGAACAAGGAGTATTTCAAGATAAAGAATTTCAAGATTTATACGATGAGTTAATAAAAAAAGGAATGAAAAATATAACGGAAGCATATAAAGTTGGTAGGGATATAGAAATATTAGATATTAAAGATTTAGATAAAAGATTACAAGATGCAACTTTGGATATGAAATTAGTATTTGAAAATCTAAAAAAAGGAAGCGAACAACATTTAAGAGCTTTTAATAGACAATTGTAATTAATTAAAATGGAGATTATATCTAAATAATCTCCATTTTAAAATTTTTAATAAAAATTTTGTAGATATTTTTATTAATGATATAATTATAAAATAATAAAAATATTTATGAAAAAGTTGATTAAAATAGTAAATTATTATATAATCTGTATATATTATTTAGAAAGGAGATAAAATGCCAAGATTAAAGAAAAAAAGATGTTGTAGGCTACTTCCTAATGAAAAGGGTTTTAAATTAATGGGAGTAAAAGGTCAGGGTCTGGAAAAAGTAGAGTTGTCTCCAGATGAATTTGAGGTAATTAGACTTTGTGATTATGAAGGTAAAAATCAAATAGAAGCAGCTGAGATTATGCAAATCTCAAGAGGAACTATTCAAAGAATAATGAAATCAGCTAGATATAAAATAGTTGATGCTTTTTTAAATGATAAAATAATAATTATAAAAAATACTGAGGAGGGAAAAAAATAATGCATGGAATTACTGATGAATTACAAAAACAATTAGAAGAAAATATGAAAAAAATTAAGCATAAAATAATAGTAATGAGTGGTAAAGGTGGAGTAGGAAAATCAACAATTACTACAAATATAGCTGTAGGTTTATCTATGCTTGGGAAAAAAGTAGGAATATTAGATGCAGATTTACATGGACCTAATATTCCTCTTATGTTTGGATTAGAAGGGAAAAAATTACCTGATATAAGTAAACCTTATCAAGTAACAGAAAACTTATTTATTACGTCTCTTAGCTTTTTTATGAGAACTTCTGATGATCCTATTATTTGGAGAGGGCCAGCTAAAATAGGAGCTATTAAACAAATGTTAGGTGAAGTAATATGGGGAGAATTGGATTATTTAGTTGTTGATCTTCCACCTGGTACAGGAGATGAACCGCTTACTATTGCTCAAGAACTTGGAAAAGTAGATGGAAGTGTAATAGTAACAACACCTCAAGATGTAGCAATACTTGATTCGAGAAAATCAGTAAAATTTTCTACATTAGTAAATATGCCAATATTAGGAATAGTAGAAAATATGAGTGGATTTATTTGTCCTCATTGTAATGAAAGAATAGATATATTTAAACAGGGTGGAGGAGAAAAAGCAGCTAAAGAACTAGGAGTAGAAATATTGGCAAAAATACCAATGACACCAGAAGTTGTACATGCTGGTGATGATGGGAAACCTTATATTTTCAATCAGCAAGGGCCTACTGTAGAGATAATGAAAAAAATGATAGATAAAATAATATCAAAAGTAGAAGAATAATAAACCATATATAAATTTAGTGTAAAAAATATTAAAATATTGAAAAAAGGGGAGAATATGGAAAAAGCAAAAGATTTTAAACTTTTAAATCAAAATGGTGAAACTAGAAAATTATCAGATTATAAAGGGAAATGGATAGTACTTTATTTTTATCCTAGAGATAACACTCCAGGGTGTACTCTTGAGGCAAAAGATTTCACTTCATTAAAAAGTGAATTTGAAAAAGAAGAAGCTATAATAATAGGAATAAGTAAAGATTCTGTAAAAAAACATAAAAATTTTGTAGAAAAACATGATTTGAAAATTGAATTGTTAAGTGATGAAGATCTTAAAGTATTAAAAGACTATGGGGTATGGCAATTGAAAAAAATATATGGAAAAGAAAGTTATGGAATAGTGCGTTCTACATTTTTAATTAATCCAGAATTTGAAATAGTTTTTAAATGGGAAAAAGTTAAAACAAAAGGGCATGCAGAAACAGTATTAGAAAAATTAAAAGAATTAAAAAGATAGGAGAATATTTTATTCTCCTATCTTTATTTCTTTTTCCAATGAAATAAAGAAGTAAACTCTTTAAAAGTTTTAAATTTTTTAGAGAAAATAAATATAATTAAAATATAAATTAATCCAAGGACTACAATAATGCTCCAAGCATTGATAGATATAAATGCGTATAGATATATCCATAACGACCAAAAAACTCTATCAAAAATATTATAATCTGGAGAGTGTAATTTAACTAATTCATAATTAATACCTTTTTCACTTACATGAACTTTTAAATAATGATAAAAATAATGAGCTTTATCAGTTCCTGCAAGTTCTGCGCCTGCTCCACCAGTAATAATATATGGAGTGTTTCCCCATTTACCTTCATAATAAGCATGAATATGTGATGCAAAAATCATAGTAATATTATAGTTGTCAAATAATTTATTTAAATATTTAGCTTGAGTAACATTTTTTAGTGAATGACCTGGTTGGATTTTGCTTCTTGGATCAAATAATGGGACATGCATAACAATAAATTTATATTTATAATTTTTAGATTTTTCAAGTTCTTTATGTAGCCATTTCATTTGCCATTTATCTATATAATTTTCATTTGCATCATCTAAAAAGATGAAGTATGAATTTTTAGTATGAAAAGAATAATAAAATTTATCAAAAATTTTATAGTATCGACCTCTTCCATTATCTGCAATTTCGTGATTTCCAATGCTATAAAGCATAGGTTTTTTTAATTTTGAAATTTGTTTTAGAAAAAAAGTATATTTTGCTTCACTACCATCAAAGACAATATCACCACCATTTATTACAAATTTAGAATTATCGTTATTTATTAATTTTATAATTTTATTAAATGTAGTAATAGAATTTTTATTATCTCCAAGAATATCAAAAGTGAAATTTGACATGTTAGTATCTATTTTAGCTACATTGTCAAAGGTGATATTGTCTTTTAAATTAAAAAAATAATAATGTGTATAAATTTTAATAGTAATGGCAATAATTGACATGCAAATTATAGATATTGTTAAATATTTTTTCCATTTCATAATTTATTTCTCCTTATTTTTAATTTTATATAGTTTATGTATAAAATATAAATTTAATTTAGAAAAGTTATTATTATAATGTGAAATTTTTAAAGTTAAAATATTTATAATAAAACTATATTTTCTATTATATCATAAAAATAATAATTTTTAAATTTTTATAAATTTCAAAAAAAGTTAAAATTTCATCTGGATATTTGTAGAAATTATTGCTAAAATATAAATAATATATTAAGTTTAATTAAGTTCAAAAAATATTTTTTTAGAAAATATTAAAAAATTTAAAAATAGAATGATATTTAATATAATCAGTATTTATTTTTTAATTAATTATTTTTAATGTTTTATGTGATGGTTATAGAGTATAAAAATAGATTATATAAAATATTTTAATGTAAAATTTAATTAAAAATATATCAATTCAAAAAAGAAATTCGAATCATACTTTCTATCATTTACTGAAGGATGTCGTTTAGAAATGATGCAGATGCCAATTTTGAATAGTAGAAATATTGCCTTAACACATTTTACAGTATCTATAGGTAATAAATCAAAAGTAATATCACTAATAGAAGAATTACGAAAAGGCGTATAGTGAACCAAGAACAACAGGTGATGGATATTTTAAAAATATTGTAAGTAATCCTGACGGTAATCAAATTGAAATAACCATTTAATAAAATAGAATAAAATTAATGTTTGAGATAGCATATAAAAAGATGTTTTCAATATATTGAATAACAATGATTTAAGAATATTTGGAAATTAGTAAGTGGATTTAAAATTTTTTAAGAGTATAAAAACAGAATTTTTTAAATTAAATAACTATAAATTGTATTTCTATAATAACTACTAATGCATGAATGTATTTTTACAAGAAAGGAGCATGATAGTGAATACGGAAATAATAGAAAATATAATATTAGAACAATATCCGGGAGTTTTAGAAACATTATTACGTGATCATACAACTCAAAAAAATATATTTTGGGCGACCAATGACTATGAACATTTAGGCGAAGGATACAAATATAATAATCAAATTTTAATAGAGTTAATTACTGGTAATAATGGCAAGATTGTAATGCCTAGAGTGAAAAAAGATAAAATTTTACAACAAAATCGTTCGAAAAAAATGGCTGAAGTATTTACTCCTTCTTGGGTTTGTAATGCACAAAATAATTTAATTGATAATGCTTGGTTTGGAAGAGAAAATATTTTTAATACTGAAATCAAAGAAAATAATGGTAATTCAACTTGGAAAGTAAATCAAGAAAAAATAACATTTCCTAAACATAAAACATGGCAAGATTATATAAAAGATACTCGACTTGAGATTACATGTGGGGAAGCTCCTTATATTACGAGTCGTTATGACACTACAACAGGTGAATTTATTCCTATAAAAAATAGAATAGGACTTCTTGATAGAAAGTTAAGAATTATCAATGAAAATGTAAATACAAGTGGTGAATGGCTTAAAGCGGCACAAATAGCTTATAAAAATATTTATGCTTTTGAATGGCATGGTGATAATCTATTGCTTGCAAGAATATCTATGCTTATTACTTTTATTGAAAATTATCAGTATAAATTTGGGAAAAAACCAGTATTAAAATCTATTAATTATATTGCATATATTATATCATGGAATGTTTGGCAAATGGATGGAATAAAAGGAGTTATTCCGAATAGTTGTGGTTATAAAATAGAAACAAGAGTAAATCTTTTTGGCGAAATAAAAATAAAAAAAACAAAATGTGTTGGTTGTCAGAAGAATGATATTTTTCGACACAATGGAATATATTGTCTTATTAAAGATTGGACTAGTGGGAAAAAAATAAGATTTATTGATTTAATGAAAGGATATATAAAATGAAATTTACGTCATCATTTAAATTGAAACTGATATATGTATTTCGTATTAATGACGAAGCACATATGGGATGCTTAAAAGTTGGTGAAACAAGTTTAGATAATAAAAATATTTTGGGGCTTGAGCCAAATAGTAAAGTTCTTAACAAAGCTGCAAAGAAACGTATAAATCAATATACTCAAACTGCTGGTATTTCCTACGACTTAGTTTATACAGAGGTGGCGGTCTATGTAGATAAAGGTATTATTAAGGCTTTTTCCGATTCGGAAGTTCATAATGTATTGTTGCGTTCAGGTATAAAAAGAAAAATATTTGACAAAGAAAATAAAGCAAATGAATGGTTTATAACAGATCTTGAAACTGTAAAAAAGGCAATTAAAGCAGTAAAAGAGGGAAAAGAAGGCTTAAATGCCAACGAAATTACGCATGAACAAAATCCTATAATATTTAGACCGGAACAAAAAGAAGCAATTGAAAAAACAAAAAAACAATTCAAAAAAAGCAATGAAATGCTTTGGTTTGCAAAAATGCGTTTTGGGAAAACACTCTCAGCATTACAAGTGGTAAAAGAACTTAATTTTACACGAACTCTCATTTTAACGCATAGACCGGTTGTAGACAAAGGTTGGTTTGAAGATTTTGGCAAAATCTTTTACGATTCTCCTAATTTTCAATATGGCTCTAAAAACAAAGGTAACCAATTTGAAACATTGGAAAGACAATGTAAAAAAGAAAACAGTAAATATATCTATTTTGCATCAATGCAAGATTTAAGAGGTTCTGAATTAGTTGGAGGAAATTTTAATAAAAATGATGAAATATTTTCTACTCCCTGGGATTTTATTATTATAGATGAAGCACATGAGGGTACTCAAACCGAACTTGGTAAAAATGTTCTCAACGAATTAAAAAAAGAAAAAACTAAAATTTTGCATCTATCGGGAACGCCATTTAATCTGCTTGATAATTACAAAGAAGATGAAATCTATACTTGGGATTATGTAATGGAACAAAAGGCGAAAGCGGATTGGGATAAAGTTCATTTTGGCGATCCAAACCCTTATGCTTCGCTCCCAAGACTCAATATTTTTACTTATGATTTGGGAAAACTACTAAATGATTTTATTGATGAAGATGTAGCTTTTAATTTCCGTGAATTTTTTCGTGTAGATGATATCGGAGAATTTATTCATAAAAATGATGTTTTATCTTTTTTGAATTTAATTTGTAAAGAAGATAAAGATAGTAATTACCCTTATTCAACAGAAGAATATCGTGATAATTTTCGTCATTCCCTTTGGATGGTACCCGGTGTAAAAGAAGCAAAAGCTTTAAGTAAAATGCTTAAAGAACATCTTGTTTTCAGTCAATTTGAAATTGTAAATGTAGCAGGTGACGGTGAAGAAGAAGAACCAAACGAAGAAGCACTTAAAAAAGTTGAGCAGGCCATAACAGATAAAGCTCACGAAACATATACGATTACTTTATCTTGCGGACGCTTAACAACAGGAGTATCTGTAAAAGCCTGGACGGCTGTGTTTATGCTTTCCGGATCGTATAATACTTCGGCTTCTTCCTACATGCAAACCATTTTCCGTGTACAAACCTCGGCAACAATAAATGGAAAAGTTAAAGAAGAATGTTTTGTTTTTGATTTTGCCCCGGATCGTACTTTAAAAGTAATTGCAAAGACAGCAAAAGTATCGGCAAAGGCTGGTAAAACAAAAGATTTGGACAGACTTATTATGGGAGAATTTCTTAATTTTTGTCCTATCATTTCTGTCCATGGCTCACAAATGAAAAGTTACGATGTTAATGGAATGCTTGAACAACTTAAGAAAGTTTATATCGAACGGGTTGTTCGTAATGGATTTGAAGACGGCTACCTTTACAATAATGACCAATTAATGAAATTAGGCGAACTCGATTTGGAAGAGTTCAATAGTTTGAAAAAAATTATTGGTAAGACAAAGGCAATACCCAAAAGTGGTGATATTGATATAAACCAGCAAGGGTTTACTGATGAAGAATATGAAGAGATTGAAAAAGCAAAGAAAAAAAAGAAAAAAAAGAAAAAAGAACTTACTGAAGAGGAAAAAAGATTATTAGAAGAAAGAAAAAAAAGAAAGAAAAACAGAGATACCGCTATTTCAATTTTAAGAGGTATATCCATCAGAATGCCTTTACTTATTTATGGGGCAGATGTTTCCGATGAAGAAAAAAAACTAAATATTGATAATTTTACGGAGTTGGTTGATGATCAATCTTGGCAAGAGTTTATGCCCAAAGGTGTGACAAAAGAGGTTTTTGAAAAATTTAAAAAATATTATGAACCTGATATCTTTCGTGCTGCCGGCAAGCGTATTCGTGCTATGGCACGAGCTGCCGATAATCTTACAATCGAATATAGAATAGAACGAATTACAGCTATTTTTAACACATTCAGAAATCCCGATAAGGAAACGGTTCTTACTCCGTGGCGAGTTGTCAATATGCACCTTGGAGATTGTTTGGGTGGCTATGTATTTTTAGATGAAAGTCGCGAAAGAACCATAGAGCATCCCCGATTTGTATCGCATGGCGATGTTACTGATAATGTTTTCTCACCCGATGCTCATATTTTGGAAATCAATTCTAAAAGCGGACTTTATCCCTTATATATGGCGTATGGTATTTTTAGAAATTCAATAAAACAAAAGTTTCCTGGAAAGGGACCTAACGAATTGTCTATTGATGAACAACAGAAAGTGTGGGATAAAGTTGTTAAAGAAAATATTTTTGTTATCTGCAAAACACCAATGGCTAAAAGTATTACAAAACGCACCTTAATCGGTTTCAGAGATGCAAAAGTCAATACACGCTATTTTGAAGATTTGGTTTATCAAATAACTCACAGAAATGAAGACTTCATCAAAAAAATAAAAAAAGGTAAAACTTATTGGAAAACAAAGGAGAATGACGATATGAAATTTAACGCAATTGTAGGCAATCCGCCTTATCAGGATATGGGCGGGGCTGGAGGTAATAATGATGCTCCAATTTTTCAACATTTTTGTAGTATAGCAAGCAAAATATCTAATCAGTATGTTTCATTAATTATACCAGCACGATGGTTTGCGGCTGGTCGCGAAAATTTATTGGGCGATTTTAGAAAAGAAATGCTGAATAGTGAACGAATAGAAAAACTTGTTACTTATAGTGATAGTAGCAATCTGTTTTCTAAGGTTGAAATAAAAGGTGGTATCTGCTATTATCTTGAAAATAAAAGATACAAAGGCAAATGCAACTATATATTGCATAGAGACCAAACAATACAACAAGCCGAAATTCAATTAAATGTTTTTGATATTCTTATTAGAGAACCACAACTATCGAAGATTGTGGAAAAAGTTGATAAACAAAGGAGTGCCAGCAATATACCAAGCGTTGCTACAATAATTTCGTCAGATACTCCCTTTGGGATACCTTCAAATCCAAAAACAAGTAAAAAAACGCCATTTAAAGTCTATTCAAAGTCTGAACCCGACCATGATGTTTTACTATATCATATTGAAAATGGAATGAGAAAAGTTGAATATGTTAATTATAATGATATAAAAAAGAACAAAAAAGATGTAGATAAGTTTAAAATTTTTGTCACGGGTTCTGGAGGTTCCGGTGCAGATCCTAAAGTAATGGGAGATCCTGAATTTGCTCCAAAGCATTCAGTATGTTCACAGTCATATTTATATGCCTGCTTTGATTCGGAAACCGAAGCAAAAAATATGATAAAATATATTAAAACCAGATTTTTTAGAGTGCTAGTTTCAGCAATGAAAATTACTCAATCAGCACCTAGCCGTGTCTATCGCTTTGTCCCTCTTCAAGATTTCACCTCCAAATCAGACATAGATTGGAGCAAACCTATTGCTGATATTGACCGCCAGCTTTACAAAAAATATAAATTAACGGATAAAGAAATTGCATTTATTGAGAGTATGATACGACCAATGTAACTATGAATATTAAAACAACGCATAAAGCCATACATAAAATTAAAATAAGAAAAAAGAGTTGATAATAAATTTTAAAAATTAGTTAAATCCATTTCTTTTGATATCCTCTTTCTAAGTAAAGAAAGGATAAAAATTTCCTTTTAAAAAAAATGTATTAAGAGGAGTTAGAACTATACCTTAGAAAAAAGAAAATAATTTAAAATGTTTGAATAAAACAATAAAAACTATATAAAAAATAACCGATTTAGTTTTTGATTTAAATTTTAGACCAGTGTATGAGCGTGAAATTAAAAAAGTATAAATGAAATAATCAATCTTAATAAAGTTATATTAAAATTAAAAGAAATAATTAGATTTTCAAAGCTATTTAAGATAGGAGGCAAAAATGGAAAAATTATTGAAATTTATAAAAGAAAAATATCCTGAAAATACTATTGATATATCAGAAAGTATTGAGTTATTAATCGATACAATTGATAATTTACGAAAAGAAATCAAAAATATTCAAGAAAAAATTGAAGAAGTAATGGAAAAATTATCTATTGATGAAGAAAAAATAGAAGAAGTAAAGGAAGAAAACAAAAAAGATATTCCAAATTATTCTGATTATAAAGTAGATAACAATATAGAGCATAATCTTTATGAAGATTTTACATATAAAAAACCATTTGGTTTTAAATTAAATGAAAATCGTGTTATTAAAGTTAGTTCATGGAAAGAACTTTTAGTAAAAACTTGTGAAATTTTAATATCTATTAATGAAAATAAATTTATATCTTTTGAAAGTAATGATGCAATGAAAGGTAAAAAGAGAAAGGTTTTTTCAAGTGATCCTAATGAACTTAGGGTTCCTAGAAAAATTGGAGATAAAATTTATATAGAAACTAATCAAAGTGCTAATTTTATACGAGATTTAATAAAAAAACTTCTTAAAGAATATAATTTTAAAACTATTGAGTATAAAGTATATCTTAAAGCAGATTATACAAATTTAAATAAATAAAAAAATTAAAATAATATAAAAGTTAAAAAAATTAAAATATATGTATAAATAAGCTGGATAAAATTATCCAGCTTATTTATACATAAACTTTATCATCTGAATGAATATCAATTTCTAATATTGCACCACAGCCAGTGCAATGAATAAAATATTTATTATTTTTAGTAATAATTTCTACTTCATCACCTTTCCAAAATACTTTATGACAATAAGGACACTCTATATCTTCACCTAATGTTTTTTTCATAAAAACCTCCAAATATTAATAATAATTTCTAAAAATTAATACAAAAAATATTAATCTAACGTTTTTTTAATCTACTTCAAATCCTCTAGAAGCATCTAATATTTTAAACCATTGTTTTCTTGTGAGTTTTATATTTGTGGAATTTATAGCAGATTGTATCCTTTCAAGATTACCACTACCACATATAGGCATAATATTTGCAGGATGATTTATAAGCCAAGCATATGCAATTTCATCAATTCCGTTAGCACCAATTTCATTTTTTATTTCATTAAGTGTATTTCTAAGTCTAACATATTTTTCTTCATTTGAAGTAAATAATTTACCACCAGCAAGAGGTGACCAAGCCATAAGCTTTACTCTATTTTTCATTGCATTATCAATGGAAAAATTTTTAAAATTATCATAACATGCAACTGAAATTTCTAATTGATTTACAACTAAAGGGAATTCTAAATATGATTTTAGCATTTCAAATTGTTCGGGTAAAAAATTTGATACACCAAAATTTTTAACTTTTCCACTATTTTTTAATTCTGTAAATGCTTTATTTATTTCTTCGGGATTCATATACATATCAGGTCTATGAATAAGTAAAAGGTCAATATAGTCAGTATTTAAACCTTTTAAAGATTTTTCTACTGTATACATTATATGTTCATAACTAGTATCATAATAATGACCATCATTTTTAGGCATGTTAGGATGAATAAATTTAATTCCACATTTAGTAACAATTTCTATTTTCTCTCTAATTTCAGGCTTAGTTTTTAAGACTTCTCCAAAAAGCTCTTCTGCTATTCCGCCACCATAAATATCAGCATGATCAAATGTTGTAATTCCATTTTCTATACATTTTTCTATAAATTCTACTCTTTCATCTAAAGATTTATTCCAATATTCAGCTCTCCACCATCCATGTATAATTCTTGAAAATGATAAATCGTTAGTTATTTTTATTCTTTCCATGAAAACCTCCTAAATTTTTTAGTTTTATAAAAAAATATAAAATTTTTATAAAAATCTCTGTACAAAGTATACTTATTAAAGTATACTTTAAGTCAAGGAATAAAATCAAATATTATAAATTTTATTTTGAAAGGAAGAAAAGTGAAAAAGTATAGTATAAAAGAAATAAGTGAAATGTTTGATATAAAAGCTTCTACTCTTAGATATTATGAAGAAATAGGAATACTTGAAAATGTAGAAAGAATAAGTGGAAAAAGAGTATATAAACAGGAAAATATTGATAGATTACACGCTATATTTTGTTTCAAAAGAGCAGGAATGACTATGGATAAACTTCAAAAATTTTTTGAATATGAAAAAAAAGAAAAATTACATATTGATGATATGTTAAATTTATTAATTTTACAAGAAAAAGAAGTAAAAGAAAAATTAGAACAATTAGCAAAAGATTATGAACACGTAAAGAAAAAAGTAAGATTTTATTCTAGTATAAAAGAAGCGATAGAAACTAATAAAGAAATACCAACTTGGGAAGAATTTATAAAAAAATATAATAAAAAATGATTATAAGAAATGTTTTATTTATAGAGGATTTAAAAATAAATAGAGTATAATATAAAAAAGGGGGATACTGAAATGAATTTGGATCATTTTTTATTAATTATATCATTTATTTTAAATTTATTGGCTATTCTTACTATTATTTTTTATGAACGAAGAAAACCAATAAATGCACTTGCATGGGTATTTATACTTAGTTTTACATCGTATATAGGTTTTATTTTTTATTTATTTTTTGGAATGAGTTTTAGAAAAAAAAGAATTGTTAAACAAAAATTTAGAACAAAATCATTTAAGAAATTAACAATGATAGAAGAATTATCTGATAAGCTCGAAATTTCAGAAGAAACATTAGAATTTATTACTTTTTTAGAGGCAAATAGTTATTCATCTTTTTATTTAAATAATAATTTAGAGATATATACAGAAGGTAAAAAATTTTTTTCAGAACTCATAGATAAAATAAAAAATGCAAAAGAGTATATTCATATGGAATATTATATATTTAGAGATGATAATATTTCAAAATGTATTTTAAAAGAATTAGAAGAAAAAGTAAAACAAGGAGTGGAAGTAATACTTATATTAGATGGGTTTGGTAGTAGAAAAATAAAACCAAAATTTTTTAAAAAATTAAAAGAATATGGTGGACATGTATATATGTTTTTCCCTTTATTTATACCTTTTTTAAGTCTTCGGGCAAATTATAGAAATCACAGAAAAATATGTATTATCGATGGCGAATATGCTTATATGGGAGGATTTAATGTAGGTGATGAATATCTAGAAAATTGGAGAGATACCCATATTAGAATAGAAGGTGATGCTATATATGATATACAACTTGAGTTTTTATTAGATTATGAATTTGTATCAAACAAAAAAATAAATAGAGAAAAATATTTTAAAATAAAAAAAGAGTATTTAGATTTACCTATGCAAATAGTAGGAAGTGGACCAAATTATTCTTTGCCAATTATAAAAAGTTCATTATTAAAAATGATATATACAGCTAAAAAATCAGTACTTATTCAAACACCGTATTTTATACCAGATGATGCACTATTAGATATATTAAAAATACATTTAATGAGTGGGAAAGAAGTATCCATAATGATACCAAATAAACCTGATCATATTTTTGTATATTGGGCAACATATTCTTATATAGGAGAATTATTAGAATATGGGGCTAAATGTTATATATACCAAAAAGGGTTTTTACATTCTAAAGTTATAATAATAGATGATGATATTGCTACAATAGGTTCTACAAATGTAGATATGAGGAGTTTTTATTTGAATTTTGAAATTAATGCATTTATATATGATTTTAAAAAAATTCATGAATTAAAAACTATCTATTATAAAGATATAAAAAATAGCAAAAAACTTACTTTAGAAGATTATAATAAAAGAAGTAAAATAATAAAAATGAAAGAATCCGTATCAAGGCTACTTTCTCCAGTGCTATAAAAAGGAGATGATTAAAATGTTAGAATATTCAAGTATTAGTTATGACTTGTTATCTTATGCTAAGCAAGATGTTATGTTAAAAAACAGTTATATTGATTTTCATATGCATACTACAGCTTCAGATGGATTTTTATCAAAAAAATTTCTTGTAAATTTTTTAAGAAATAAACCACATTTGATATCAGTTACAGACCATAATGAAATACGAAAAAGTATAAAAATAGTAGAGAGCACAAATATTAATATCATACCAGGAATAGAGCTTGGGGCAAATGATGGAACTGAATTGTTAGTATATTTTAAGCATGAAGATGAGTTAGAAGAGTTTTATAGAAAATATGTAGAACCAAATAAAAGTGTATTTAGAATGGTAAAAACTAAAAAAGATATTTTTTATTATCTTGATAATTTAGTGGTATATGATGTATTTATATCTATACCTCATATTAATGGATATGCCCATAAAAATTATTTAAATAAAAAATATATAAAAGAGTTAATAATGCAAGTAGATGCAATAGAGACATTTAATAAACCAATGGGAAAAAAGAAAAATTTAGTAGCTAAAAAAGTGAGAAAAGAGTTTAATAAGTATGCAACTTTTGGAAGTGATGCACATTTACCACAAGAAATTAATGATTTTTATAATTTTCAATTACATGAATTAGAAAAATTAAATAAATTAAATGAAAATATATTAAAAATGTATACCTTGAGTTATATTTTAACAAAGCATACAAAATATTTCTTTTCAAAATAAAAATTTGGATTAAAAAGCAGATATAAAGGGAAAGATAAACCTTATATCTGCTTTTTAAATTATTTTATTATTAAACTTCTTCCATTATTTTTAGCAATATATAGTTTTTTATCAATACATTCATAAATTTGATTAACTGTAGGAATTAAAAATTCGTTTATATCACACATTCCAGCAGAAAATGATAGTTTTATTATTTCATTATTATAAATAAAATCTTTTTGGAGGATAAAATCAAGAATTCTATTTAAAATTTCATACATTTCATTATTACCTACATGTAATAAAATTAAAATAAATTCTTCACCGCCATATCTTCCAAAAATATCATATGGACGAATATGAGATTTTATTATTTTTGTAAATTCTTGAAGTATAAAATCACCAGCTAAATGGCCATAATTATCATTTATATTTTTAAAAAAATCAATATCTAATATTGCAACAGAAAATATATTATTTTCTCTTTTATTTTCTAAAATCAAATTTTTTAATTGTTCATCTAAATAACGGCGATTGTATATATTTGTTAAGGGATCCCGTATTGAATTTTCTTTTATAATGGCTTCAAATTTTTTCTTTTGTGTAATATCAGTATGAGTACCAAACATTTTTAAAGGTTTATTATCAAAAGACCATTCTATAACTTTTCCTTTAGCAGATATCCATACCCAATGCCCTTTCTTATGTTTCATTCGAAATTCAGATTCATAATAACTAATTTTTTTTTCAAAATGTTTTTGTAAAATATTTTCAGTTTCTTCTTTATCATCGGGGTGAATAAATTTTTCCCAAGTTTTTATAGTAGTAGGTTCTAATTCTTTGAGTGTATATCCAATCATATTTGCCCAATATTCATTAAATATAGTTTGATTAGTTACAAGATCCCATTCCCATGTTCCAAGTTCGGTTCCTTCTATTATATTTATTAGTTGTTTTCTTTGAGTATCCAGTTTTTTATTTAAAATAACTTGCTCTGAAATATCTAGCATAACTAGTAATAATAGATTTTTATCTTTATCATCGATTAAGTCCCCAGAAATAATTAAGTAAACAGTTTTTCCAGATTTTGTAGTAACTTCAACGTTAAGATCACTTATATTATGAATCCGTTTTAAACTAGTTATCATTTTATTTTTATCAATACTATTATTAAATAAATCTAATTCAGTAATGTTTTTATTTAAAATCTCTTTTCTATTAAGTTCTAATTTAGATAAAAAAGCATTATTTGCATCTAAAATAGTTAAATTACTATAATCAATTATCATCATCATAATTATTTTATTATTAAATAATTTTTTAAAATTTTCAAAGGCCTTTTGTTTTTGTATTTTTTTTGAAATAAAAATAATAACTTCTGAGTTATTCCATATTCCATATAGAATAGAAGTAGCTAATTCAATAAAATTTCCTTTTTTATCAAGAATTAGTAAAGAGTATAAAGAATCTGCATTAGCTTTTTTGTTATGAATATTATCTATTAAAAAACTTGTATCTTTTTTTGAATAAATATCAGTAATATTTTTATTTTTTAATTCTTCAAAAGTATATCCTAATTTATCGAGAGTTATTTTATTACAAAAAATAATTTTTCCGTTAGTATCAGTAATTATTAGTAAATCATCAATATTTTCTAAAAATTTGTTTTGTTCCAATTGAATCACCTACTATAATAAAATTTTTGTTCTATATAATATATTACTAGTTATTTAAAAAAATCCTTTTTTTATAGTTTTTATTTGCAATTTTTTATATTATATTTTATAATATTGCAGAAAGACTATAATTAGGAGGATATTATAATTGGATACAAAATTTAAAAGAAATTTTTCTATTATTGCTCATATAGACCATGGAAAATCTACATTAGCTGATAGATTGTTACAAATTACAAATACTGTATCAGAGAGAGAAATGAAAGAGCAGCTTTTAGATTCTATGGATTTGGAAAGAGAAAAAGGAATTACAATAAAAGCACAAGCAGTAACATTATTTTATGATGCAAAAGATGGAAATAGATATGAATTAAATCTAATAGATACTCCAGGTCACGTAGATTTCATTTACGAAGTTTCTAGATCACTTGCAGCTTGTGAAGGAGCTTTGTTAGTAGTAGATGCTGCACAAGGAGTAGAGGCTCAAACACTTGCAAATGTGTATTTAGCACTTGAGAATGATCTTGAGATACTACCTGTTATAAATAAAATCGATCTACCGGCAGCGGATCCTGAAAAAGTAAAAGAAGAAATTGAAACAGTAATAGGACTTGATACAGATGAAGCGGTACTTACTAGTGCAAAAAGCGGAATAGGAATAGAAGAATTATTAGAAGAGATAGTTAAAAAGGTACCTAGTCCTAGTGGAAAACCAGAGTCACCATTAAAAGTATTAATATTTGATTCTCATTTTGATGATTTCAGAGGCGTTATTACCTATGTAAGAATAGTAGAAGGGACTCTAAAAAAAGGTGATAAATTAAGAATTTGGTCAACTGGAAAAGACATAGAAGTACTAGAGTGTGGGATATTTTCACCAATTATGAAACCACAAAATGAACTTACAGCAGGTAGTGTAGGATATATTATATCAGGAATAAAATCTATACAAGATACAAGAATTGGAGATACAATATTTAATCCTAAAAATCCTATAGAAGAACCATTAGAGGGATATAGACCTGCGCAATCTATGGTATTTGCTGGAATATATCCAATATCAACCGAAGATTATGAAGATTTAAGAGAAGCATTAGAAAAATTACAATTAAATGATGCATCACTTAGTTTTACTCCAGAAACATCAACTGCATTAGGTTTTGGATTTAGATGTGGATTTTTAGGACTTTTACATATGGAAATAATAGTAGAAAGACTTCGTAGAGAATATAATATAGATCTTATTTCTACTACTCCATCAGTTGAATATAGAATACATATGGAAAATGGAGAGATTAAGATAATAGATAATCCAGCAGAATTTCCTATAGTAGGGAAAAAAGCTGTAGAAGAACCTTATATAAAAGGTACAGTAATTACTCCAAAAGATTATGTTGGGAATGTAATGGAACTTTGTCAAGAAAAACGAGGAATATATGTAGATATGCAATACCTTGATGAGACAAGAACAATGATTACTTATGAACTTCCGTTAGCAGAAATAGTACTAGATTTTTATGATAAATTAAAATCAAAAACAAAAGGTTATGCTTCATTTGAATATGAAATGATAGGATATAAAGAATCAAAACTTGTAAAAGTAGATATTCTTGTTAGTGGAGAGCCAGTAGATGCATTTTCTTTTATATGTCATAGTGATAATGCATATTATAGAGGTAGAGCTATTACTGAAAAATTAAAAGATGTAATTCCTAGACAAATGTTTGAGATACCTATTCAAGCAGCTCTTGGAAGTAAAATTATAGCTAGAGAAACAATAAGAGCTTATAGGAAAAATGTACTTGCTAAATGTTATGGTGGAGATATTAGTAGAAAGAAAAAATTATTAGAAAAACAAAAGCAAGGTAAAAAACGTATGAAACAAATTGGAAATGTAGAAATACCACAAGAAGCCTTTATATCAGTATTAAAATTAGATAAATAAAAAACGCACCCTTATTTAGTGTTAGACAATTTTTTTGCCTGCTAAATGGGGTGCCTTTTCTTTTTTATTTATTAAATAAGTTTATTTGTTTACTTGCAGTAGTCAAAATATTCATTACATTAATAGAATGTTCGAGATAATTATAACATTTATTATAATCTTTAGTAATAAAAATATTGTAAAATGCAATAAATTCATAAACCATTCTATTTTCATATTCGTTATAGTTATAAGAAATTAGATTATTATCAATTAATCCTTTTATTGATTTACATTCATTTGGTGGACCATCAATTTTTAAATACCCTTTTTCTCCTTGAATAGTAATAAAACTAGGACTAGAGGAATCTTTAGCACCAATAGATATTGCAATAAAATTGTCATAAATTATAGTAAGAACTCCAGAAGTATCAATACCATTAAAACCTAAATTAGCATTATATTGTACTGAATTTGGCATTCCAAATAAATTGTTTATAATATGAATATTATAAACATTTATATCATAAAGAGCTCCGCCGTTTAATTCTGGATTGAATGCAGGAAGAACAATTTTATTTAAATAACTATCATATCTACTAGAATATTGAGAGTAATTGCATTGAATTATTTTAATTGGCCCTATTTTGTCAATGTTTTTTTTTAGATAAATAAAATTTGGAGAGTATAATGTAGTTATTGCTTCAAATAAAAATAACTTTTTAGATTTTGCTAAAATAGTTAAATTTTTTAATTCATCATCATTATTTGTGAATGGCTTTTCACAAATAACATTTTTATTGTTTTCTAAAGCTTTTTTAGTGTATTCATAATGCAAATTATTAATGATTCCAATATAAATAAAATTAATATTAGAATCATTTAACATTTCGTCATAATTAGTGTATATATTTTTTATATTAAATTTTTTTGAAAGTTCAAAGTCTTTATAATAACTTTTTTCTCGTACGCAAATAGCAGTACACATAATGTTTTTAATATTACTTATAGCTTCTAAGCATGTATTAACAATCTTTCCACTACCGACAATCCCGATATTCAAAATAAAACCTCCTTATAGTATACTTATAGCTTCTATTATAGTATAATTTATAATTAAATAAAAAACTATTAAATTTAATAGTTTTTTATGATAAAATATATAAATGCAGAATCTTTTAGTTAATTCTAAAAAGAGTGGTAGCAAAACATTAAAAAAAATTATAATAAAAGGTGATTTAATTGAAAAAATTATTTATGTATATATTTAGTTTAATGATTTTTATTAGTTGTGGGAAATATCAAAATGGAGAATATTATGTAATTCAAAAAAAAGATTATAAAGGCTGGAAAACATTTTTAAAAATAGAAGTAAAAAATAATAAAATATTTAATGTAGAATTTAATAAAATAAATAAAGAAAATAAATTAGTAACAGAGAATGAAGAATACAATAAAAAAATGAAAGAAAAATCAGGAATAGACACAATAGAGTATACTAAAATTTTAGAAGAAAATTTTTTAAAATCTAATGGAAATATAAATCAAATAGACATTATAGCAGGAGCAACACACTCAGTTGTAGAATTTAAAAAAATGAGCAAATTTTTATTAAAAAAAATAAAATCAGGAAAAATAGGTAAATATGAAATAGATTAAAATAAGACATCTGGATATAAATATTTTTAGATGATTTGCAAAAATTAATTAATTATAATATAATTTTAAATATCAAAAAATAGGAGGTTTATTATGAAAAAAATTGCATTAGGAGCAGACCACGGAGGATATGAATTAAAAAATATTGTTAGAGAATATTTAAAAAATAATGGATATGAAGTAATAGATTTTGGGACAAATTCAAGTGATAGTGTAGATTATCCAGAATTTGCGCATAAAGTAGGGGAAGCAGTAGTAAATAAAGAAGCAGATTTTGGAATTGTGGTATGTGGAACAGGAATAGGGATTTCAATAGCAGCTAATAAAATAAAAGGAGTAAGAGCAGCATTATGTCATAATGTATGGACAGCGAAATTAACGAGACAACATAATGATGCAAATGTACTAGCAATGGGAGGAAGAGTAATAGGTCCAGGAATTGCGTTAGATATGGTAGAAGCATTTTTAAATACAGAATTTGAAGGTGGAAGACATACAAATAGAGTAAATAAAATAGAAGAGTGTTAATTAGATACTTTTAATAATTAGCTCTTTTATAATTAAATTATAAAAGAGCTATAAAAATAATAAAATAGAAAAAAATAAATATACAGGGAGGGAAAGATGGCATCTATATTTACAAAAATAATAAATAGAGAAATACCAGCAGATATAGTATATGAAACAGAAGATATAATAGCTTTTAATGATATAAATCCACAAGCAAAATACCATATATTAGTAGTACCTAAAAAAGAGATTTCAACAATAAATGATATACAAAAAGAGGATACAGATTTAATAGGTAAAATATATCTAGCAATAAAAGAGATAACAAAAGAATTAGGAATCGATAAAACAGGATATAGAGTGATAACAAATTGTAATGAAGATGGTGGGCAAGAAGTATTTCATATTCATTTTCATATATTAGGTGGAGAAAAAATAGGACCGATGCGATCAAAGTAATATTTTAAAGAAAGGTGAAAATGAAAATAATAAGTAGTAAAGAAAATAAAATATATAAATTAATAAAAAAGATAAAGAAAAAAAAATATAGAGAAAAAGAAAAATTGTTTATTGCAGAAGGTAAAAAATTTTTAGATTTTGAGTATAAACCTAAATATTATATTTTAAATGAAAATAATATAGGGCTATACAGTAAATTATTAGAAAAAGAAGAAACTTATATTTTTTCAGAGGATTTATTTTATGATATAACAACGCAAATTAATTCTCAAGGAATAATATTAATATATGAATATATTCCAAGTTGTATAGAAAAAATAAAAAATAATATAGTTATCTTAGATAAGATACAAGACCCAGGAAATTTAGGTACAATAATACGACTAGTAGATGCAGTTGGATTAAAAGATATAATATTAACAAAAGGTAGTGTAGATATTTATAATGATAAAACAATAAGAAGTAGTATGGGTTCAATATTTAATTTAAATATATCGTATTTAGAGACAGATAAATTAATAAAAATATTAAAACAAAAGGAATATAATATAATATCGACTGCTTTAACTAATGAAACAATAGAATATACAAAAATGGAATTAAAAGAAAAAAATGCATTTGTTTTTGGAAATGAAGGAAATGGAATTTCAAAAGAGATATTAGATATAAGTACTGCAAAGATAAAAATCCCTATATATGGAAGTGCAGAATCATTGAATGTAGGAGTTGCAACAGGAATAATATTGTATAAATATATAGAAAAAGTAAACTCATAAATAGAGTTTACTTTTTTTTAAAATACTTGACTTAAAGTGTACTTTAAGTTGTATAATACATCAAGTAAAAAAAGAGTTAGGATAAAATGTGGAGGGAAAAATGTCAAAAAATAAGAAGCTAAATTTTATGAGTCTAGCAGTACCTATATTTATTGAAATGCTTTTGTGGACTACATTTAATAATGTAGATACAATAATGCTTTCTAGGTATTCAGATGTAGCAGTAGCAGCGGTAGGTAGTACCGGACAATTAGTATTTTTTATAATGTTATTTTTACAAATAATAGCAACAGGTACAGGAATATTAATCTCACAAAATCTTGGGAAAAGAGACTATGAAAAAGCAGAAAATAGTGCTAAAATTGCACTTTATTTTAATTTTTTAGTAGGAATTTTATTGAGTATATTAGTATTTAAATATCATTTTCAAATGGTAAAATTTTTAGGTCTTGAAGATAAAGCTCTTTTAATGGGAAGTAGATTTTATAAAATAATAGGAACATTTACTTTTATTCAAGCAATAGGACTTATTAATACAACAATACTTAGAAGTTATAGGTTCCCAAAATATTCTATGTACATAAATATTTTTTCGAATATATTAAATATTATTGGGAATGCAATTTTTATATTTGGATTATTTGGTATGCCTGTACTTGGAGAAGTAGGAGTGGCTATATCCACTGTATTTAGCCAATTTATAGGTATAATAATATCATTTATTATAATTAAGAAAAAATTAAATATACATTTACTTTCAAATATAAAAATAAAAGAAAATCTATATTTATTAAAAGAAATAGGAAAAATAGGGATTCCATCAGTGGCTGAAAATTTATTATATAATACCTCTCAAATAATGATAATAAAAATGGTAGCAACATATGGAACAGATGCACTTACAGCGAGAGCATATATATTTACTTTGCTTAGATTTGTATTTATAATAAGTATATCGTCAGGGAGTGCAGCTCAAATTATTACCGGATTTTTAGCTGGTGCAAATAGACATAGAGTAGCTAAAAAAGCAGTAATTAAAATATATCTTCAAACAGTTTTATTAATAATAATAGTAGCTACGACACTTATAATATTTAGAGAAAATTTAATTAGAATATTTACAACAAATGAAGCAGTTATATTACTTGCAAAAGATGCATTTTTAACAATATTATTTTTAGAAACAGGACGAACTCTTAATATAATATTTATTAGTTCTATGAAAGGAGCGGGAGATGTTATTTTTCCTGTTATTATGGGGGTAATATTTATGTGGATTGTTGGAGTAGGTGGCGGATATTTATTAGTTATAAAATTTGGATTCGGACTTTTTGGAGCTTTTATAGCTACAGGGCTTGATGAATGGAGTAGAGGAATAATAATGTTTATTAGATGGATTCGTGGTGATTGGATAAAAATAATTAAAAAGTAACTCTTAAATTATAATGAATAGAAATAGAAATTTTTTTAATTTTAAAGTTAGAGATAAATATAAAAAAATTATAGGAATAACATTAAACGAAATAGATATAGCATAAAATAATTCTTGACAAATGTGTTTGATAAGAGTAAACTTATTTTGTAAAAATAAAATAAAATAAAACTGCTAGGGGAGCTTATGAAAATTTTTATTTTCAATAGCTGAGAGGAGAAATCCGACTCTTAGAACCTGATCTGGTTAATACCAGCGTAGGGAAGCGGTAAATATATATATTATAAAATAGTAAAATATTACTATGTTTAAAAATAATAATTTATTACCGTATAACTATGTTGGTTATACGGTTTTTTTTATTTATTTTAATTAGATTTAATTTTTAATAGATTAAATATAATTAATAACATAATTAAAAGGAGGGATAAACTTGAAAATAAAATTAAATGGAAAAGAATATGAAACTAGTAAAAATATAACAATTTTAGATTTAATTAAAGAAAAAAATATTTCAAAAGATCAAGTAGTAATTTTAAAAAATGGAGATATTGTATTTAAAGAAGATTTAGAAATGAATTTAATAGAAAATGATGAATTAGAAATTTTAAGATTTGTATCAGGAGGATAAAAAATGGATAAATTAATTTTAGGAGAAAAAGAATTTAATAGCAGATTATTTACAGGAACTGGAAAATTTTCAGATAAATCACTTATTAAACCAATGCTTGAAATGAGTAAATCAGAAATGATAACATTAGCACTTAGAAGAGTAGATTTTGATATGCCACAAGAAAACATATTAAATTATATTCCTAAAAATGTAACATTGTTACCAAATACTTCGGGGGCAAAGACAGCGGAAGAAGCAGTTAAAATAGCAAGAATTGCAAGAACTGTTGGATGTGGAAATTTTATAAAAATTGAAATTATAAATGATATGAAATATTTATTTCCAGATAATGAAGAAACAATAAAAGCAACAAAAATATTAGCAAAAGAAGGGTTTATAGTATTACCATATATGATGCCAGATCTAATAGCGGCTAAAAGACTAGAAGATGCGGGAGCTGCTGCGATTATGCCTCTTGGTTCACCAATTGGCTCAAATAAAGGATTACAAACAAAATATATGATTGAAATACTTATAGAAAATTGTAAATTACCAATAATAATAGATGCTGGAATAGGTAGACCATCTCATGCAGCAAAAGCAATGGAGATGGGAGCTGCTGCAGTACTTGTAAATAGTGCTATTGCATGTAGTGAAAATCCAATTAAAATGGGAAAAGCGTTTTCACTTGCAGTACAAGCAGGAAGAGAAGCTTATTTAGCAAAACTTGCAGAAGAAAAAAAATACGCAGAAGCTTCTTCACCATTAACTGGTTTTTTATTTGAAGAATAAAATTATAAAATTAATTAAATAAAAAAGGGGGAAAAATGTCATTTTATGATGTAATAAAAAAATATGAAGATTTTAATATAAAAGAATATTTAGAAAATGTTTCGTATGAAGATGTAGAAAAAACTATAAATAAAGAAAATTTAAATGAATTTGATTTTTTAAATCTTATTTCAAATACATCTTTAGAATATATAGAAATTATAGCTAGAAAATCTCAAAAACTTACAAAGAGATATTTTGGGAATACTATTTCATTATACGCCCCTTTATATATTTCAAATTATTGTACAAATAAATGTACATATTGTGGATTTAATAAAGAAAATAAAATAAAGAGAAAACATTTAAGTTATGAAGAAATAGAAAAAGAAGCAAAAGAATTAGCAAAAACAGGAATAAAACATGTATTATTTCTTACAGGCGAAGCAAAAGAACTAGTAAGTTTTGAGTATATAAAAAATACATTAATAATATTAAAAAAATATTTTAAATCGATTTCTATAGAAATATACCCTCTAAAAGAGAATGAGTATAGAAAACTTAAAAATTTAGGACTTGATGGAGTAACTATATATCAAGAAACATATGATCTCGAAACATATAAAAAAGTACATTTAGAAGGACAAAAAAAAGATTATTTTTATAGATTAGACACTCCGGAAAGAGTAGCTAGAGCGGGAGTTAGACAAATAGGAATTGGTGCACTATATGGACTTAGTGATATTTATAAAGATGCATTTTTTAGTGCACTTCATGCAAAATATTTAATGGATAAATATATAGATTGCGAAATAAGTATTTCTTTACCAAGAATGAAATATTCTGAAAGTAAATTTAAACCCTATCAAAAATTAGATAATAAAAAATTTATTCAAATAATGTTAGCTTTTAGATTGTATTTAAAGTATATAGGAATTAACATATCTACACGAGAAAGTGCAGAATTCAGAAATAATTTAATTGGACTTGGAGCAACTAAATATTCTGCAGGATCAAAAACTGATGTAGGTGGATATACCAAAGAGAACAAATCAACACCACAATTTGAAACAGATGATAAAAGAGATGTAAATGAAATTTGTAATGCTATAAAAAATAGAGGGTATCAACCAGTATTTAAAGATTGGGAGTTGATAATATGAAAATAGGAATTGCTGGAGCGGGAGGACTTGGTTCAAATGTTGCAATGAATTTAGTTCGTACAGGAGTATTAAATTTAAAAATAATAGATTTTGATAGAATAGAAGAATCAAATCTTAATAGACAATTTTATTTTTATGATCAAATAGGAATAACAAAAGTAGAAGCATTAAAAGAAAATTTGATTAGAATAAATAATAATCTAAGAATTGAAATAATAAATGAAAAAATAGAAAAAACAAATATTAAAAAATTATTTGAAGATTGTGATATTGTAATAGAAGCTTTTGATAAAGATATATATAAAAAACTATTTTTTAATACTTTTTATAATAAGAAAAAATTATTAGTTTCTGCCTCTGGAGTAGCTGGAAATACAATAGATAATTTAGAGATAAAAAAGATTGGAAATAGTTTTATTGTAGGTGATTTTCAAAAAGGAATAGATAAACATAAAACATATTCAACAAAAGTATCTATGGTAGCTGCAATGATGGCAAATATTGTTTTATTAGAAGGTGGTTTTTGTAATGAAGATTAACGATCTAGGAAAATATAGAATATTGGACGCTAACGTTAATAGAGTAGCAGAAGGTATCAGAGTAATAGAAGATATAGCTAGATTTGACTTAGAAGATAAAAAATTGACAGATAAATTAAGAAATATTCGGCATATTTTAAGAAAAAATTTTCAAAATCTTGATAAAAAATTTATTTTAGCAAGAGATAGCGCACATGATATAGGGAAAGAAATAAGTAATTTAAATGACAATGACAAAAAATTAGATGAAATTCAAATTATTTTAGCAAATTTTAAAAGAGTAACAGAAGGATTGCGAGTAATAGAAGAAATTACAAAATTAATTGATTATAAAAAATCAAAAATTATAGAAAATATTAGATATGAATCATATTATTTAGAAAAAGAGTTTAATTTAAAAATTTTTAAAAATACCAAAAAAAAAATACCAAAAGGAATTTATGGAATAACTGCTGAAAATTTTTCTAATGGAAGATCAAATATTGAATGTGTAAAAGAAATGATAAAAGCGGGCATAAAAATAATTCAATATCGTGAAAAAAATAAAACAATAAATGAAAAATCAAGAGAAGCATATGAAATAGCAAAGATTTGTAAGGAAAATAATGTAATTTTTATTGTAAATGATCATATAGAGATAGCAATGTTAGTAGACGCTGATGGAGTACATTTAGGTCAAGAAGATTTAGATATAAAATCAGCTAGAAAAATTTTAGGTGAAAATAAAATAATAGGAATTTCTACTCATGCAATAGAAGAAGCTCAGAAAGCTAAAAAAGATGGGGCTGATTATATAGGAGTAGGGCCTATTTTTCCAACAACTACAAAAGATAGAAAAGCTGTAGGATTAGAATATTTAAAATATATAGTAAATAATATAGATATTCCTTTTGTAGCAATAGGAGGGATAAAAGAGCATAATATTGATAAAATATTAAATATAGGAGCTTATTCTATATCGCTTGTAAGTGAAATAGTAGGAGCAGATAATATTATAAAAAAAGTAAAAATAATAAATGAAAAAATAGAAAAATATAATAATTTTAATAAATGAAAAAATTAGGATTATAAATTATTGAAAAAATTTTGTCTTTTAAAAAGGGAGGAATAAAATGAATTATACTACTCAAATGGATGCAGCAAAAAAAGGGATTTTTACTAAACAAATGGAAGAGGTAGTAAAAAATGAAGCAATATCAAAAGAAAAACTTATACAAAAGATAGCAGAAGGGAAAATAGTAATACCAGCTAATAAAAATCATAAAAATCTTATAGGAATAGGAGTAGGAGAAGGCCTTAAAACAAAAGTTAATGTAAATATTGGAGTATCAGAAGATGAATATAGTGAAATAAAAGAACTTAAAAAAGTAGAAAAAGCACTTGAATATAAAGCAGATGCAATAATGGATCTTAGTATATTTGGAGATACTAAAAAATTTAGAAAAAAATTAATAGAAACTTCACCAATAATGATAGGGACTGTACCTATGTACGATGCAGTTGCAAAATATGGGAAAAATATAAAAGATATGACAGTAGATGATTTATTTGAGGTGGTAGAAGAACATTGTCAGGATGGAGTGGATTTTATTACAGTTCATGCTGGGTTTAATAGGATATCAGCAGAAAGGCTTGATAATAATAAAAGACTTACTCATGTAGTTAGTAGAGGAGGTTCTATACTATATCAATGGATGAAACTTAATAATAAAGAAAATCCATTTTATGAATATTATGATAGACTTTTAGAAATATGTAAAAAATATGATGTTACTTTGAGTCTAGGAGATGGACTTAGACCAGGAAGTATAAAAGATTCAACAGATCCATCTCAAATACAAGAATTATTATTTTTGGGCGAACTTACCAAAAGAGCATGGGAGGAAAATGTACAAGTAATGATAGAAGGACCAGGACATATACCATTACACGAGATTGTTACAAATATGCAGATAGAGAAAAAATTATGTCATGGAGCACCATTTTATGTACTTGGACCAGTAGTAACAGATATAGCACCAGGTTATGACCATATTACAGCAGCAATAGGTGGAGCGATAGCGGCATCAAATGGAGCAGATTTTTTATGTTATGTAACTCCAGCAGAACATTTAAGACTTCCAGATATAGATGATATGAAAGAAGGACTTATAGCTACAAGAATAGCAGCACATGCAGCAGATATAGCAAAAGGAATAAAAGGTGCAAAAGATTGGGATAATGCAATGAGTAAAGCTAGAGGAGAGTTAAATTGGGCAAAAATGTTTGATTTAGCTATTGATAAAGAAAAAGCTATTGAATATAGAAAATCATCTATGCCTGAAAATGATGAAGTATGTACAATGTGTGGTGATATGTGCCCAATTAAAAGAATTAAAGAGGTTGAATAAATATGGAAGAGGAGTATTTAATGTATTATAAAAAAGGTGTTGAATTTAGCAAAAATACCAATTTTAAAGCAGATTATATAGTGCCAATAGATAAAAAAGATAAATTTTTTGCTTTAGGATATAGTCATAATACAAAAATACCGTTTAGAGATATTATTTTAGAGAAAGAAAATCAAATATTAAAATACAGTTTTGTAAAAAGTATAATAAAAAATAAATCCATAATTTTAGTCACGATTAAAGTTATAGACGAACATCTAAAATTATTAAATAAAATGAAAAAATACACTCAAAATATAGTTTTAATATCATTGTACTAAATTCGAATATATAATCGCATTACTATATAAAAAAAGATATCAAATTTGTTAAAAAAATATTTTTATTAAAACATATTGACAATTTTGCTCTTTATTGATACTATAAAGATGATTTTAAAATAATATTAAGAACGAAAAGCGAACATAAATTTATAGAAGAAAGTATTTAGAGAATATTTCTTTAACTTTCTTCTATAAAAAAATAAAAACACTCATATAATTCTGTAATATGGTCAGAAGTCTCTACAGGTTACCGTAAATAACCTACTATGAGTGAAATATATTAAGCTATTTTTGTATTATTATGTTTATAAAAGTGCTTAAGAGTGTATTTCACTTATAGAAATATATTCTTAAGCATTTTTTAATTTATAAAATATTTTTAGGAGGAATCAATGAACTGCAGACTTTTTGTAGAAAAGAAAAAAGAGTTTGGTGTAGAAGCTAATAATTTGCTAAATGATTTTGTTGAAAATTTGCAAATAAGGAGTATTGATAATGTAAGGGTATTAAATATATATGATATATTTAATATTGATGAGACTACATTAGATAGAGCTAAGTATACAATTTTTTCAGAACCTGCTGTGGACAATATTGTAAATGTTGAATTAGATAAATTAACTAATTTTTTTGCAACTGAATTTTTGCCAGGGCAATTTGACCAAAGGGCTGATTCTGCGGTTCAATGTATAAAATTAATTAGTGATATTGAAGATGTAGAAGTAAGAAGTGGAAAACTTTTAATATTAGAAGGAAATATTACAAAAGAAGAATTAGAAAAAATAAAATCATATTATATAAATCCTGTCGAAACAAGAGAAAAAGATTTATTCTCGCCTTTAAATATCGAATCACAACCTATTCCAGAAGAAGTATGCACTTTTACAAATTTTATAAATTTCACAGAACGAGAATTAGAACAATTTAGAATAAATAATGGATTTGCTATGTCATTTGAAGATATTAAATTCATACAAGAGTATTTTAAAAATGAAGAAAAAAGAGATCCAACAGAAACAGAGATAAAAGTGCTAGATACATATTGGTCTGATCATTGCAGACATACTACTTTTGAAACAGAAATTTTAAATGTAAAAATAGAAGATGAAGTAATAAAAAAAGCATTTGAAAATTATTTAAATGATAGAGAATATGTACATAATAATAAAAAAACTATGTGTTTAATGGATTTAGCCACTCTTGGTATGAAAAAAATGAGAAAATTAGGTTTGTTAGATGACTTAGAAGTATCAGATGAAATAAATGCATGTAGTATAGAGATAAAGGTAGATGTAAATGGTAAAAAAGAGGATTGGTTATTAATGTTTAAAAATGAAACTCATAATCATCCGACAGAAATAGAACCATTTGGTGGTGCGTCTACATGTATAGGTGGAGCTATAAGAGATCCTTTATCAGGAAGAGCATATGTATATCAAGCAATGAGAATAAGTGGAGCTGCAGATATTACAGAAAAAATTGAAGATACTTTGAAAGGAAAACTTCCACAAAGAGTAATAACAAAAGAAGCAGCTCATGGATATAGTTCATATGGAAATCAAATAGGACTTGCTACTACTTTTGTAAAAGAGATATATGATGAAGGATATAAAGCAAAAAGAATGGAAGTAGGAGCTGTAGTAGGAGCAGTAAAAAAAGAGTATGTAAGAAGAGAAAAACCAAATCCTGGAGATATAGTAATTTTACTTGGAGGTAAAACAGGTAGAGATGGATGTGGAGGAGCTACTGGTTCATCAAAAGAACATAATATTGATTCAATAGTTGAATGCAGTGCAGAAGTACAAAAGGGAAATGCTCCAGAAGAGAGAAAAATTCAAAGATTATTTAGAAATCCAGAAGTAACAAAACTTATTAAAAAAAGCAATGATTTTGGAGCTGGAGGAGTATCAGTAGCAATTGGAGAATTAGCAGATGGACTTGAGATAGATTTAGACAAAGTACCTGTAAAATATTCCGGTTTAAATGGAACAGAGCTGGCAATATCTGAATCACAAGAAAGAATGTCTGTTGTAATAGAAAAAGAAAATTTAGATAAATTTATAAAACTAGCTAATAATGAAAATATAGAAGCAGTTAAAGTAGCAGAGATTACCGATACAAATAGACTTGTAATGAAATGGAAAAATATTACAATAGTAGATATTTCAAGAGAGTTTTTAAATACTAACGGAGCAAGAGCTAAAACAGAAGTTATAGTAGAAAAAGTAGATTATAATAATAGTCCATTTAATATTAATAAAGGGAAGGAACTAAAAGAGAGATTAGTAGAAACTTTAAAAGAATTAAATATAGCGGGGCAAAAAGGACTTGTTGAAATGTTTGATGCAACAATAGGAGCAACAACTGTACTTATGCCATTTGGTGGTAAATACCAATTAAGTGAAACAGAAGGAAGTGTACAAAAAATACCTGTAATAGAAGGAGATACAAATACTGTAAGTGTAATGACATTTGGATATAATCCTAAAATTGCAAAATGGTCACCATATCATGGGGCAGCATATGCTGTAATAGAATCAATAGCAAAAGTAGTAGCTCTTGGAGCGGATTATAAAAATATTAGATTTTCTTTTCAAGAATATTTTGAAAGACTTGGGAAAGATGCAAAAAAATGGGGTAAACCATTTAGTGCTTTACTTGGAGCATTAGATATGCAAAATGCATTTAATTTACCTGCAATAGGTGGAAAAGATAGTATGAGTGGAACTTTTAATGATTTAAATGTGCCACCAACACTTATATCTTTTGCAGTAACAACAACTGATGCAAGTAATATTATTTCTACAGAATTTAAAAAAGCAGATAATTATATATATTTAGTAAAACATAATAAAAATGATGATTTTACTCCAAATGTAGAGGAATTAAAAGAAAATTTTGATTTTATATATAAAAATATAATAAGTAAAAAAATTGTTTCAGCATTTTCTATTAAACATGGAGGAATAGCAGAAGCAATATGTAAAATGAGTTTTGGAAATAAATTGGGAGTGGAAATTAATACAAATATAGATCTATTTGAAATGGATTATGGAAGTATTGTAATTGAAGCTACAGAAAATTTAAATTATAAAAATTTAATTAAATTAGGTAAAATAGTAAATAATAATAAAATAAATATAAATGGAATAGAATTTGATATAGATGAATTAATAAATATATGGCAAGGTAAAATAGAAAAAGTATTTCCTATTTATACTGATAAAAAATCAGAAAAAATAGAAAAAATAGATTATTCTAAAGAAATTTTTATAAAAAAATCATCTAAAGATATTAAACCAAAAGTTTTTATACCTATTTTTCCAGGAACTAACTGTGAATATGATTCTATGAAAGCTTTTGTAAAAGCGGGCGCTGATGTAGAAACTATGGTGTTTAGGAATAGAACACATAATGATATAATTGAATCAATAAATGAAATGAAAAAAAACATAGAAAATTCACAAATAATTATGTTTGCAGGAGGATTTTCTGCAGGAGATGAACCAGATGGTTCAGGTAAATTTATTGCAAATATTTTATTAAATAATGAAATAAAAAGCAGTATAAATAAATTTTTAGAAAAAGATAGCTTAATATTAGGAATATGCAATGGATTTCAAGCACTAGTAAAAAGTGGATTATTACCATATGGAGAAATAGGAAAAATAGATTCAAAAAGTCCAACTCTTACTACAAATAATATAAATAGACATGTATCACAAATGGTTTATACAAGAATAGCATCAACTAAATCACCATGGTTAACAAGTTTTTCTATTGGTGATATTCATAGGATAGTTGTATCACATGGAGAGGGTAAATTTGTAGCATCTAAAGAAATACTAGATGAACTAGTAAAAAATGGTCAAATAATTACACAATATGTAGATTTAGAAGGAAATCCTACAATGAATGGAATATATAACCCAAATGGATCATATATGGCAATTGAAGGGATAATAAGTAAAGATGGAAAAATATTTGGGAAAATGGGACATTCTGAAAGAATGGGAGAAAATTTATATAAAAATATAGATGGTAATAAAGTACAGAATATTTTTGAAAATGGAGTGAAATATTTTAAATAAAGTGAGGATAAAAATGGGAAAAGTAGGAATAATAATGGGAAGTGATTCTGATTTACCAGTAATGAAAGCTGCTGCAGAAATATTGGAAGAATTTAATATTGAATATGAATTAACAGTAGTTTCTGCACATAGAACGGTAGATAGAATGTATGAATATGCAAAAACTGCAGAAGAAAAAGGAATTGATGTAATTATAGCAGGTGCTGGAGGGGCAGCACATTTACCAGGAATGGTTGCAGCAATTACTAATTTACCTGTAATAGGAGTACCTGTAAAGAGCTCTAAATTAAATGGGTTAGATTCTTTACTTTCTATAGTTCAAATGCCAGGCGGAGTACCTGTAGCTACTGTTGCAATAAATGGAGCTAAAAATGCAGGTATATTATCAGCAAAAATAATAGGAATAAAAGATGAAAATATAAGAAAGAAAATAAAATTATATAGTGAAAACATGAAAAAAGAAGTTGAGGAAAAAGCAAAAAGATTAGAAAATATTGGTTTTAAAGAATATTTAAAATAGGGGGAAAAACCTTGAAGACGATTGGTATTATTGGTGGCGGACAATTAGGGAAAATGACAATTTTAGAGGCAAGAAAGATGAGCATCCCAACAATAGTATTAACTACAGAACATCCTTCACCAGCTAGTGAAATTTCAAATGATTATATAGTAGGAGATTTATATGATGATGAAAAAATTTTAGAATTAGCTAACAAATGTGATGTAGTTACATATGAAATAGAACATATCAATGTTAAAATATTAAAAGAAATAGAAAATCAAGGTAAAAAAGTTTATCCAAGTTCTAATGTAATAGAAATTATTCAAGATAAGTCAAAGCAAAAAAAATTATTAAATAATTATAATATTCCTACATCTTATTGGGAATATGTAGATAAAAATAATTTAAAAATACAAATAGAAAAATTTGGTTTTCCAGTTGTACAAAAAAGTTGTACAGGCGGATATGATGGAAAAGGAGTTTTTATACTAAAATCAAAAGATGATATAAAAAATATAATAAAAGAAGAAAGTTATTTTGAAAAATATATTAAATGTAAGAAAGAATTAGCAATTATGATAGCAAGAAATACTAATGGAGAGATAAAAACTTATCCAGTAGTAGAGATGGCCTTTGATGAAAAAACAAATATATGTGATACAGTAATAGTTCCTGCACAAATCTCAAAAGAGATTGGAGAAAAAGCAAAAAAAATTGCTATTGAATGTATAAAAGCACTAGATGGTATTGGAATATTCGGAATTGAATTTTTTCTAACTGAAGATGATGAAATTTTAGTAAATGAAATAGCTCCAAGACCTCATAATTCAGGACATTATACAATTGAAGCATGTACAACATCTCAGTATGAACAATTTTTAAGAGCTATTTTAAATTATCCTTTAGGAGATACTACACTTTTATCTAATGCATGTATGATAAATATATTAGGAGAAGATGGATATCATGGTAAAACTAAAATTAAAAATGAAGAAGAAGTTTTTAAATTACCTAAAACATATTTGCATATTTATGGTAAAAGAGAAACAAGGCCTTTTAGAAAAATGGGACATATAACAGTATTAAATAAAGATATTAATAAAGCAATATCAAATGCTAAAGCAGCAAGAGAAAAATTAAAAATTATTAGTGATTCACTTGGTTAAAATAATTTGGGAGGAATAATGGAGATTATAAAAAAAGAAATGTTATATGAAGGTAAAGCTAAACAAATATTTGCTACAAATGATGAAAATTTAGTAATAATACATTATAAAGATGATGCTACTGCATTTAATGGAGTAAAAAAATCTCAAATAAATAATAAAGGAATTTTAAATAATAAAATAACAGCAATATTATTTGAACAACTTGAAAAACAAGGGGTAAAAACACATTTTAAAGAAAAATTAAATGATAGAGAACAATTATGTGAAAAATTAACTATTTTTCCTCTTGAAGTAATAACAAGAAATATAATAGCTGGAAGTATGGCAAAAAGAGTAGGGATAAAAGAAGGAACAAAACCTAAAAATATAATATTTGAAATATGTTATAAAAACGATGAATATGGAGATCCTTTGATAAATGATCATCATGCAATAGCATTAGGACTTGCAACCTATGATGAATTAAAAGAGATATATACAATTACAGCTAAAATAAATAGGTTATTAAAAGATATGTTTGATAAAGAAGGAATAACATTAGTTGATTTTAAAATTGAATTTGGTAAAAATAATAGAGGTGAAATTTTATTAGCAGACGAAATAACACCAGATACTTGTAGATTATGGGATAAAGAAACAGGAGAAAAATTAGATAAAGATAGATTTAGAAGAAATCTTGGAAATGTAGAAGAAGCTTATATTGAAATTTTAAAAAGATTAGGTGAGTAATATGTATAATTTAACAGATGATAAATTACAAGAAGAATGTGGAATTTTTGGGATTTATTCAAAAGAAAAGAGATCAGATATAGCATCATTGATGTATTATGGTCTTTATGCCTTACAACACAGAGGACAAGAGAGTGCAGGAATTACAGTATTTGATGGTTCCGAAATAAAAGTACATAAGGGAATGGGAAGAGTGGCAGAAGTATTTACTACGCCAAAGCTTAATGAGATGACAGGAAATCTTGCTATTGGACATGTAAGATATTCTACTTGTGGAGATTCTTCTTTAATAAATGCCCAACCATTAGAAGCTCATTGTAAATTAGGATATATTTCAGTTGCTCATAATGGAACTTTAGTAAATTCTAAAATTATAAGAGAGTTATTTGAAGATACGGGGACAATATTTCAAACAACAATAGATTCAGAAATAATATTAAAATTAATATCAAGAAAAGCAAGTAAAGGAATAGATGAAGCGATTCTTGATACGGTAGGAGCTATACAAGGTTCATACGCACTTATTATTGCAAAAGAAAAAAAATTAATAGGGATAAGAGATCCATATGGAATAAGACCTCTTTGTTTAGGACAACTTGAAGATGGGAGTTATGTTCTTAGTTCTGAAAGTTGTGGACTTGATGCAATAGGAGCAAAACTTATAAGAGATATTAATCCAGGAGAAGTACTTATAATAGATGAAGATGGACTACATTCATATCAATATGCAGAAAAAAGTTATAAATCACCTTGTGCATTTGAATATATATATTTTGCTAGACCTGATAGTGAAATGGATGGAATATCAGTATATGAAGCTAGATATCAAGCTGGTAGAAAATTATATGAACAACATAAAATAGATGCAGATATAGTTATTGGTGTACCTGACTCTGGGATTCCTTCAGCTATTGGATTTGCAGAAGCATCAGGTATACCTTATGGAATAGGATTAATAAAAAATAAATATATAGCCCGGACTTTTATAGCACCTACTCAAGAATTAAGAGAAAAAGCTATATCAGTAAAATTAAATGTACTTAAAGCAAATATTGAAAATAAAAGAGTAGTAATAGTAGATGATTCTTTAGTAAGAGGTACGACAAGTAAAAGACTTGTAAAACTTCTCCGTGATGCAGGGGCAAAAGAAGTTCATTTTAGATCAGCTTCTCCAGCAGTAAAATTTCCTTGTTATTTTGGAATTGATACTGCCCATAGAGATGAATTGATTGCTTCTAAAAAAAGTGTAGCAGAAATATGTAAAGAAATAGGAGCAGATTCATTAGAATATTTAGAAATAAATAATTTATTAGATAGTTTAGAAAGTAAAAATTATTGTTTAGGTTGTTTTAATGGAGTATATCCAATATATGCACCAATGGAAAATAATAAATAATTATGGAGGATAATATGATAACATATAAGGATGCAGGTGTAGATAAAGAAGAAGGATACAAGGCAGTTGAAAAAATAAAAGATGCTGTAAAAAAAACACATAATGAAAATGTTTTAAGTGGATTAGGAAGTTTTGGAGCATTTTATGCACTTAGTGATTATAAAAATCCTGTATTAGTTTCTGGAACTGATGGTGTAGGAACAAAATTAGAAATAGCATTTACTACAAAAAAATATGATACAATAGGACAAGATTGTTTTGCTATGTGTGCAAATGATATATTATGTCATGGAGCTAAACCTTTATTTTTTTTAGATTATTTAGCTTGTGGTAAACTTGATTCTGAAGTATCAAAAATAATAGTTGGAGGAGTAGCAGAAGCATGTTATAAAGCAGAATGTGCGTTAGTAGGTGGAGAGACTGCGGAAATGCCAGGATTTTATAAAGAAGGTGATTATGATATAGCGGGATTTTGTGTAGGAGCTGTTGAAAGAGATGAAGTAATAACAGGAGAAGAAATATCAGAAGGGGATACAATAATTGCTGTAAAATCATCGGGAGTACATAGTAATGGATTTTCGTTAGTTAGAAAAATAGTTACAAACTACTATGAAAATTTTAATGGAAAAGAGATATACAAAGAATTGTTAAAACCTACAAAAATATATGTAAAACCTGTATTAGAAGTATTGAAAAAAGTAAAAGTAACTGGTCTTGCACATATAACAGGTGGAGGACTTGTAGAAAATATACCTAGAATTATTCCTGATGGACTTTGTGCTGATATAGAAAAGTCAAATATTCAAATACTTGAAATATTTAAATATCTTCAATCAAAAGGTGTACCAGAAAATGAAATGTGGGGAACATTTAATATGGGGGTAGGCTTTGTAATAATAGCAAAAGATAAATATAAATCTGAAATAATAGAAATATTAAAACAAAATAAAGAAGAAGCATATGTAATAGGGAAAATAATTAAAGGGGAAGAAAAAATATGCTTAAGATAGTTGTACTAATATCAGGTAGTGGTAGTAATCTTCAATCAATAATAGATGCAATTGAAGAAAAAAAACTTAATGCAAAAATAGAATGTGTGATTTCAGATAGAGAAGCATACGGAATTGAAAGAGCTAAAAAACATAATATAAAAACATATTTATTTAATAGAAAAGAATTAAAAAAAAATCTTTTTAATGAAATAGAAAAAGTTATTTCAAATGATATAGATTTAATTATATTAGCTGGATTTTTATCAATTGTATCATCTGAATTTATAAAAAAATGGGAAAATAAAATAATAAATATTCACCCATCACTTTTACCAAAATTTGGAGGAAAAGGTATGTATGGAATGAATGTACATAGAGCAGTAGTTGAAAATAAAGAAATTGAATCAGGATGTACAGTGCATTTTGTAACAAATGAAATTGATGGTGGAGAAATAATAGCCCAAAAAAAAGTACCAGTATATGAAAAAGATACAGCAGAAGATGTACAAAAAAGGGTATTAGAAAAAGAACACGAGTTATTAGTGGAAGCAATAAAAATACTTGAAAAAGATAAAAAAAAACGATAATATATAGATAAATAAAATCTTGTATGACCGGCGGATAATGTGGGAAAAACTCACAGGGATTACAAGAGGATATATAAGAGCCGACCGCCTGGGCAAATTCTAGTAGAGAATTTCTGCTGTTTTTGTCTAGGCGGTTTTTATTTATAAAAAAGTAATTATAATAAAATCAAAATATATTTTTATGAGTGTAAAATAAGTTTATTAATTTTTAATATTAAAATATAAATTTAGGAGGGATACAATGAGAGCTTTAATTAGTGTATCAGACAAGACTGGTATAGTCGAATTTGCTAAGGAACTTGCAAATTTAGGAATTGAAATAATTTCAACTGGAGGAACATCTAAAAAGCTAGAAGAAGCAGGAATAAACGTAATAGGGATATCAGAAATAACTGGATTTCCTGAATGTCTTGATGGTAGAGTAAAAACTCTTCATCCAAATATTCATGCTGGACTTTTAGCAATAAGAGATAATAAAGATCATATGAATCAAATTAAAGAATTAAACATAACTCCTATTGATATTGTTGTGGTAAATTTATATCCATTCAAAGAGACTATATTAAAAGAAGGAGTAACCAGAGAAGAAGCAATAGAAAATATAGATATTGGAGGGCCAACGATGCTTCGTTCTGCTGCTAAAAATTTTCAAGATGTATCAGTAATTGTTGATCCAAAAGATTATGCAATAATAATAGGGGAATTAAAAGAAAATAAAAAAATATCTAAAAAAACAAATTTTTATTTAGCTAAAAAAGTATTTGAACATACAGCTCATTATGATTCATTGATAGCTGATTATTTAAGAAAAGAATATGAAAAAGAAGAAAATAAAAAAGAGTTTCCAGAAACAATTACTTTAACTTTTGAAAAAGTTCAAGATATGAGATATGGAGAAAATCCTCATCAAGCAGCAGCATTTTATAAAGAAGTAGTAAGAGATAAAGGTTTTTTAACAGATGCAATTCAATTACATGGAAAAGCATTATCATATAATAACATTAATGATACAAATGGAGCACTTGAACTATTAAAAGAATTTGATAAACCTACAATTGTAGCTTGTAAACATGCTAATCCATGTGGTGTAGGAAGTGCTGATGATATTTATGAAGCATATATGAAAGCATATAATGCAGACCCAGTATCAATATTTGGTGGAATAGTTGTATCGAACAGAGAGATAGATGAAAGAGTAGCTACAGAAATTAATAAGATATTTATAGAAATAGTTGTAGCTCCTTCATTTACAGAAAAAGCACTTGAAATATTAAAAGCTAAGAAAAATATAAGATTATTAATTCTTGATAATATTACAAATAAATATAGCACTGATGCATATGATCTAAAAAAAGTAGGAGGAGGCTTATTAATACAAGAAGTAGATAATTTATTATTACAAGATGAATTAGAAGTAGTAACAGATAGAAAACCTACAGAAAAAGAAATTGCTGATATGATGTTTGCATGGAAAGTAGTAAAATATGCAAAATCAAATGGTATAGCAATAGCAAAAGATGAAACTTCACTTGGAGTAGGACCAGGACAAGTAAATAGAATATGGGCATGTAAACAAGCAATAGAACACGCAGGAGAACATTTGGGAGTAGATATATTAAAAGGAGCAGCACTTGCTTCAGATGCATTTTTTCCATTTTCTGATTCAGTAGAAGAAGCAGCTAAAGCGGGAATTACAGCTATTATTCAACCAGGAGGCTCTATAAGAGATAAAGATTCAATAGAAGCTTGTAATAAATATGGAATAGCTATGGTATTTACTAAAATGAGACATTTTAGACATTAATATAAAAAAAGTTTAATCAAAAAATTTAATGCTAATTTTATGAAAATATTATAAGTTCGAAATTAGTTTCAAAAAATAAAGATTAGGAGGAGAAATGAAACTATTAGTTATTGGTAGTGGTGGAAGAGAACATGCAATTGTATGGAAAATGTCGCAAAATCCAAAAGTAACTAAAATTTATGCCTGTCCAGGAAATGCAGGAACTCAAAGTATTAGTATTTGTGAGAATATAGAGCTTATAAATATAGATGATATAATTGAATTTGCTAAAAAAGAAAATATTGAATTAACAATACTTGGTAGTGAAGAATTATTAGTTGCTGGAATAGTAGATAAATTTAAAGAAAATGGACTTGTTGCTTTTGGACCACATAAAGCAGCAGCTATACTAGAAGGAAGTAAAGCATTTGCAAAAGAATTTATGTTGAAATATGGAATAAAAACAGCAGCTTATAAAAAATTTGATAATTATAAAGCAGCTAAAAAATATTTAGAAGAAATAGAATATCCAACAGTAATAAAAGCTAGTGGACTCGCAGCAGGAAAAGGTGTAATAATCTGTGAAACTAAAGAGAATGCAGAAACAGCAGTAAAAGAGATAATGCTTGATAAAAAATTTGGTGATTCAGGAAATGAAATAGTAATTGAAGAATTCTTAACAGGAGTAGAAGCATCAATATTATCAATATATGATGGAAAAACTATACTTCCATTTATATCAGCAAAAGATCATAAAAAAATTGGGGAAAATGAAACAGGATTAAATACTGGTGGAATGGGAGTGATTGCACCAAATCCATATGTTACTAATGAAGTTTTAGATAAATTTAATAAAGATATTTTAGAACCAACTTTAAAAGGATTAAAAGAAGAAAACTTAAAATTTTGTGGATTTATATTCTTTGGATTAATGATAAATGAAAAAGGAGTATATTTACTTGAGTATAATATGAGGATGGGGGATCCTGAAACTCAAGCAATATTACCTTTAATGAAATCAGATTTTGTGGATATAATAATAGCTGCTCAAAATCAAAAACTTAATGAGATAGAAGTAGAATGGGAAGAGAAAAATAGCTGTTGTGTAGTGGCTGTATCAGGTGGTTATCCAGAAGCTTATGAAAAAGGATATGAAATAAAAAATATTGAAAATATTGATAATCTGTTATTTTTAGCGGGGGCAAAAAATAATGATAATAAAATAGTAACTAACGGGGGAAGAGTATTAAATATAGTTGCTATTGGAGACGCACTTGATATTGCAAGAAAAAAAGCATATAATGATATAGAAAAAGTTGATTTTAAAAAGAAATATTTTAGAAGAGATATCGGAATCGTAAAATAGAAGTTTTAGAATATAAAAAAAGTATAAAAAGTGGAAAATTTATAGTTAAAAAAGTATGAATACAGGAGGTAAAAGATTGAAAACTGATGTACAAATCTCTCAAAAAGCAAAATTAGAACCAATTTATAAAATTGCAGAAAAAATGGGTTTAACAGAAAATGATATAGAAATTTATGGGAAATATAAAGCAAAAATAAACTTAGATATATTAAAAAAAGAAGTAAAAAAAGATACAAAATTAATACTTACTACAGCAATAACACCAACACCTGCTGGAGAAGGAAAATCAACTACATCAATTGGGCTAGGAATGGCATTAAATAAAATAGGTAAAAAAACAGTAATCGCATTAAGAGAACCATCACTTGGACCATGTTTTGGGATGAAAGGTGGAGCTACAGGTGGTGGATATGCGCAAGTTGTACCAATGGAGGATATAAACCTTCATTTTACAGGTGATATACATGCTATAACAGCAGCGAATAATTTATTATGTTCTATGATAGATAATCATATAAAATGGGGAAATGAGCTTAAAATTGATGTAAATAATATTCTTTTTAAAAGAGCAGTTGATTTAAATGATAGAGCTTTAAGAGAGATTGTCATCGCTCTAGGAGGTAAAGCAAATGGAATTCCTAGAGAAGATTCATTTTTGATAACTGTAGCATCAGAAGTAATGGCTATACTTTGTTTAGCAGAAAATATATTTGATTTAAAAGAAAAATTGGGGGAAATAGTTTTTGCGTATGATATAGAAGGAAATCCGTTAAAAGCTAAACAATTAAAAGCAAATGGAGCAATGGCAGCATTATTAAAAGAAGCAATAAAACCAAATTTAGTTCAAACTATTGAAAATACACCAGCTATAATTCATGGGGGGCCTTTTGCAAATATAGCGCATGGATGTAATTCGGTAGTTGCAACTAAAGCAGCTATGCAACTTGGAGATTATGTAGTTACAGAAGCTGGTTTTGCTGCAGATTTAGGAGCAGAAAAATTTTTAAATATAAAATGTAGAAAAGCTGATTTAAAGCCAAATTGTATAGTGATTGTAGCTACAGTTAGAGCTTTAAAAATGCACGGGGGAATAAAAAAAGAAGATTTGAATATAAGAAATCTTGAAGCACTTGTTAAAGGAATGGAAAATCTGGAGAAACATATAGAAAATATGCAAAAATTTAATATACCTATTGTTGTAGCAATAAATGAGTTTCCTACAGATACAAAAGAAGAGCTTGATTTAGTAGAAAAAATTTGTAATGATCTTGGAGTAGAAGTAGCACTTTCTCAAGTATGGGCAAAAGGAGGAGAAGGAGGAATAGAATTAGCTAATAAAGTAGTAAATTTAATAGAAAATAAACCTTCTAATTTTAAACCATTATATGACTTAGATATAACTATTCAAGAAAAAATAGAAAAAATTTGTACTGAAATTTATGGTGCAGATGGTGTAAATTATAGTAAAAAAGCATTAAATAAAATAAAAAAATTTGAAGAACTAGGATATGGTAAATTGCCAGTATGTATGGCAAAAACTCAAAACTCAATATCAGATAAACCAGAATTAAAAGGTAGACCAAAAGGATTTAAAGTGGATATAGCTGATTTAAATATATCAGCAGGAGCTGGATTTATAGTTGTATTAACGGGGGAAATTTTAACTATGCCAGGACTACCTAAAAAACCTGCTGCTGAAAATATTGATATTGATGAAAATGGAAATATAATAGGATTATTTTAAAAAAGAGCCTTTAGGCTCTTTTTTTATATTTTCAAATATATTATAAATTGATGATAAAAGTTCAAGCATGAAATTAAATCCTAATATCATTAAGGATGATGTACCGCTCTCTAAAATAGTATAATAGAATAATATTTTTGTTGTTATTTTTTATTTTAGACTATCTATTATTTTATATTTAAAATTGTTATACGATTCATAATTTAATTCAATTATTTCAATATTCGCTTGTTCCATTATTTTTAAACCTTCTTGATCTCTATCATATTTTTTTAAAAATACAACTCGTTTTATACCAGAAGCTATTATCATTTTAGTACAATGTCTGCAAGGAGAATATTTAACATATATAGTAGCATCTTTTATAGCGATTCCTTGCCTAGCTGCCCAACTAATAGCATTTTGCTCTGCGTGAAGTTCATGAATATCACTCCAAATATGATGTTCTTTTGAAAAATTTTTTTTTGATTTGTCTTCATTTTTAAAAATATCATCACAATTATCAAGACCTTTTGGAGTACCATTATATCCAATAGATAATATTCTACCTTCTTTTACTATCATTGCAGCAACTTGTAATCTTTGACAATGTGATTGTTTTGCTAAAATTTCAGTTTGTAACATAAACATTAAATCATCATTAAATTTTCCCATATTATTTATGTATAAAACATACTCCCTTCTATAGATTTTTTATATTATAAAATATATTTGTATTTTATTCAAATAAAAATTAAGCGACAAATAAATTGTCGCTTAAAAATATTTTTAACAAATTATTTTAATTCTATTAATAATTCTCCACTTTTTACTTGTTTACCTTCTTTTATTAATATTCTATCTACTACACCAGCTGATTTAGCTGTAATATTTGTTTCCATTTTCATAGCTTCTATTACAATAAGACTTTGATTTTCTTCTACAGTATCTCCCTCTTTTACAAGTATTTTTGTAATAGTTCCAGGAATACTGGCACCAATTTCAAATGGATTATTAGGGTCAGCTATTTCAACACCTTCTATTTTTTCAAGAGTTTGTATTTCTGTGATATCTTTTATTTTAATATCTCTTCTATTACCATTTACTTCAAAAGAAACTGTCCTAAACCCTTCATTATCTATTTTTGAAATAGAAACTAATTTTATAGATAAAGTTTTACCTTCTTTAATTTTTATTTCTGTAATTTCTCCTTCGCTTAATCCATGGAAATATACATCGCTTCCTATAACAGAGAAATCACCATTTTCTTTTATATATTTTAAATATGCATCAAATACGTCAGGATATAGTGCATAACTAATAATATCTTCTTCTGTTGGCTCTATATTATGTGTTTCTTTTAGATGCTCTTTTATTTTTTCAAAATTTTCTGGTTCTAATAATTCACCAGGTCTACAAGTTATCGGTTTTTCTCCTTTTAATACTATTTTTTGTAAATCTTCAGGAAATCCAAATTCTGGTTGTCCCATCATTCCTTTAAAATAAGCAACAACAGAATCTGGAAAAGCTAAATCTTTTCCTTTTTCTAAGATATTGTTAGGAGTTAATCCATTTTGTACCATGAATATAGCTAAATCTCCGACCATTTTTGATGAAGGAGTCACTTTTACTATATCACCAAGCATATCATTTACATATTTAAACATTTCTTTAACTTCGTCAAATCTATCTCCAAGTCCAAAACTCTCTACTTGTGGTTTTAAATTAGAATATTGTCCACCAGGAATTTCATATCTATATATTTCTGTAGTACCTGATTTTAAATCAGATTCAAATTTTTCGTATACAGGTCTTACTGCTGACCAATAATCTGATATTTTTTGAATATTTTTTAAATTTACTCCAGTATCTCTATCTGTATTTTCAAGAGCAGCGACAACAGAATCAAGTGATGGTTGACTTGTAAGTCCAGACATAGCACTAAATGCAGTATCTACTATATCTACTCCAGCTTCTGTAGCCATAAGAATAGTAGCCACCCCGTTACCGGTAGTATCATGTGTATGTAAATGGATAGGGAGAGATATATTTTCTTTTAATGCTTTAACTAATTTGTATGCTGCATAAGGTTTAAGTAAAGCAGACATATCTTTTATTCCTAAAATATGTGCACCAGCATCTTCGATTTCTTTTGCTTTTTTTATATAATATTCTAAAGTGTATTTATTTTTCTTTGGATTTAAAATATCTCCAGTATAACAAATACAGGCTTCAGCTATTTTCCCTTGATTTTTAACTTCATCAATAGCAACTTCCATACCTTTTATCCAGTTTAAAGAATCAAATATTCTAAATACATCTACTCCGTTTTCAGCAGCTTTTCTAATAAATTCTCTAATCACATTATCAGGATAATTTTTATATCCAACAGCATTTGAGCCTCTTATAAGCATTTGAAGCATTATATTAGGAACTCTTTTTCTTATTTCTCTAAGTCTTTTCCAAGGATTTTCTTTTAAAAATCTATATGAAACATCAAATGTTGCACCACCCCAAGCTTCTAAAGAAAATAAATCTTTTGCAAGCATAGCGGTAGGAGTAGCTATCTTTAACATATCAATGGTTCTTACTCTTGTTGCAATGAGTGATTGATGAGCATCTCTAAGAGTAGTATCAGTTAAAAGTAATTTTTTTTGAGCTTTAATCCAGTTAACTACTCCTTCTGGACCTCTTTCATCAAGAATTTGTTTAGTACCTTTGATATTTGGCGAAAGCTTGATATCTGGAATAATAGGAACATCAAAATCTTTTTTTATTCCATGAGTTTCATTTACAACTTTTTCGCCTATAAATTTTAACATATGGTATTCATAATCTTTTTTTTCTTTAAATTCAAATAATTCGGGATGATTTCCAATGAAATTAGTATTACAAGTACCATTTTTAAATTCAGTATGGTTTAATACATTTATTAAAAAATCAATATTAGTTTTTACCCCAACAATTTTTATTTCTTTTAAAGCACGAAGTGATTTTTTTACAACATCCTCAAAAGTTCGTCCATGAGTAATCACTTTTACTAATAAGCTATCGTAATACGGACTTATTTCTGCTCCAGCATAACCATTTCCACCGTCAAGTCTTACTCCAAATCCAGAGCCAGTTCTATATACTTCAATTTTACCTGTATCAGGTGCGAAGTTATTTTTGGGATCTTCCGTAGTTACTCTACATTGTATAGAGTATCCTATTGGAACTATGTCTTCTTGAGATTTTATACCAATTTCGCTAGAATCAAGTCTATGACCTTCAGCAATTAAAATTTGAGATTGAACTATATCAATTCCTGTAGTCATTTCAGTAATAGTATGTTCTACTTGTACTCTTGGGTTCATTTCAATAAAATAATGGTCACCATTTTGATCTACTAAAAATTCCATAGTTCCAGCATTTTGATATTTAACTACTCTAGCAATTTTTAATGCATCATTACATATTGCATCTCTTTTTTCTTTACTTAAAGTAAGAGCAGGAGTAAATTCAACTACTTTCTGATGTCTTCTTTGTACAGAACAATCTCTTTCATATAGGTGCACAATATTCCCGTATTTATCCCCTAATATCTGTACTTCTATATGTTTTGGATTTTCCAAAAATTTCTCTATAAAAATATCATCTATTCCAAAAGCTTTTTTAGCTTCACTTTTAGCACTTTTAAATGCATATACAAATTCCTCTTCAGAACGAGCAATTCTCATTCCTCTACCACCACCACCAGCAGCAGCTTTTATCATTACAGGGAATTTTATAGTTTTAGCATATTCTAATCCTTCTTCTATACTTTTTACTGGTTTTTCTATACCAGGTATAGTAGGAACTTCAGCTTTATGAGCAACAAGTTTAGATTGGATTTTATCTCCTAAATTTTCCATCATTTCAGCTGTTGGACCTATAAATTCAATACCTTCTTCTGCACAACGTCTTGCAAATTCTGAATTTTCTGATAAAAATCCATATCCAGGATGGATAGCATCAACAGCTTTATGTTTAGCTAATTTTATTATTCCCTCAATATCTAAATAAGCTTCAATAGGCCCTTTATCTTTACCTATTAAATAAGCTTCGTCAGCTTTAGACCTAAAAAGTGCATTTTTATCTTCTTCTGTATAGATAGCAACACTTCGTATCCCTAATTCTTTACATGCTCTAATAACTCTAATAGCAATTTCCCCTCTATTTGCTATAAGAATTTTTTTAAATTTCCTCGCCATATTTTACCACCTTTCTTCATACTGTATCCCTGACAATTATATTAATGTTTATTATAAATATAGTATATAAAAAACAATTAAAAATTTCAAGATATAAATATCTGTCCATTTTTTTTTACTAATTATACCATTTTTTTGGAAAAGTGTCTAGTATAAATTTTACTTGATAAAAAAGTAGCAATAGGTACAACAATAACAATTCCAATACTTCCAGCAAGTCCTCTAAGCAATTCTATTAAAATAAACTCAGTATTTAAGACTCTAATTAATGGAAATTTACTATTTTGAGCTACTATTAATAATATTGTAAAAATAGAACTTCCTACATAAGCTAAAATAAGAGTATTAACCATAGTTCCAATAACATCTTTTCCTATATTCATTCCTGAGTTTATTAATTCTTTTTCATTCATTTCTGGATTTTGTTCTTTTAATTCCCAAAGTGCAGATGAAATTGATACTCCAATATCCATTACAGCTCCAAGAGCTCCTATTATTATTCCAGCTGAAACTATTTCTTTTAAATTTACTTGCCCTAATATATACATATAGCTATAACTTTCTGTATTGCTATATCCTGTTATATTTAAATATTTTACAAATATTAAAGAAATTATACCAGAAAAAATTACTCCTAATAAAGTAGAAATAATAGCTACAATTTTTTTAATACTATTATCATTATTTAAATAAATAGTAATTACAGTAGATAAAGTACTAAAAATAACAGCTAGAACAATAGGTGAATAGCCTTTTAATATTCCAGGAATTAATAATTTATATACAAATAATAATGAAATAATAAGAGCAATTATGGCCTTAATACCACTTTTTTTAGCTATTAAAACAACTAAAGTTAAAAATATACTTATTAAAATAATAATAGCTACATTATTATTAAAGCTAAAAATATAGTATTCCTGATTTTCATCTTCAGTATATTTATAAAGAACTATTTTAGATCCTTTTTTTATATTCAAATTATAAATTTTATTTTTATAAATAGGATATTTTAAAGTTATAATTTGATTTTTATAATTTTTATCAAGAATTTTAATTTTGAGGTTTAAATAATATTCGACATTTTCATCTTCTTGAGTTGCTTTTTCTTTTGATAAAATATTAATAATTTTTGCTGATAAATATTCTTCTTTGATATCATTTGCAAATGATAAAGTACTTATAAAAATTAACATTAATAATAAAATTTTTTTCATTAATCTACTCCTTTTTTATAATTGAAATAGTTACTATAAAACTATTTTTATAAATCTCTGTACTGAGATTTTTCTTAATTGTTATTGTATATTTTTTTATTTAAAAAAAGCTAAGAAAAATCTTAGCTTTTATCTTTTATATTTAAACTCTCCATCAAGTGATGATAAAACATCATATTTTTCAGGTCTTCTATCTCTAAATATTCCCCAAGAACTTCTTTTTAATTCTATTTCATCTAAATCAAATTCATGTACTAATATAGCTTCATTTGTTCTATCAGCTTCATGTAACATTTCACCTTCAGGCCCTGCAATAAATGATGAACCATAAAAAGTAATTTGAGAATCATCTATAACTTCTGTACCTATTCTATTTGATGCAATTACAGGAGTAATATTTGATGCAGCATGACCTCTCATGCACATTTGCCAATGATTTTTAGAGTCAATAGTATTATCTTGAGGTTCGCTACCAATAGCTGTAGGATAGAATATAAGTTCTGCACCGAGAAGTGCTAGAGCTCTAGCTGTTTCTGGAAACCATTGATCCCAACAAATTCCGATACCTATTTTAGCATATTTTGTATTAAATACTTTAAATCCAGTATCACCTGGATTAAAATAAAATTTTTCTTCATATCCTGGGCCATCTGGTATATGAGTCTTTCTATAAACTCCTAAAATTTCTCCATTAGCATCAATTACAGCTATAGAATTGTATTTTGCTCTGTTTTTTCTTTCATAAAAACTAATAGGTAAAACAACATTCAATTCTTTAGCTATTTTTTGAAAATGTTTTATAGCCTTGTTTTTTTCTAATTCTACAGCATATTTAAAGAAATCAGGTTTTTCTTTTTGACAAAAATATACAGTTTCAAAAAGTTCTTGTAACAAAATTATTTGAGCACCTTGATTATGAGCTTTTCTCACAAGTTTTTCAGCAGTTTTTATATTTTCATCAATATCCCAGCTACAAGCCATTTGGGTAGCGGCTACTTTTACTTTTCTCATTATTTTATCACTCCTTTTGGCATTTGTTGTGTTATACAGTGTACATTTCCTCCACCTTTAATAATAGGCATTCCATCAACCATAACAACTTTTCTATCGGGATATATTTTTTCCAATATTTCTTTAGCCTTTAAATCATATTTTTTTGCATCTCCACCAAATGTTGGCAAAATTATCCCTCCATTTACAGGATAATAATTTAAATAACTTAAAGTTAATCTTTCACCATTTATGTATCTAGCAGGTGGTTGTTCTATTTCTATGATTTCTAACTTTCGCCCTTTTGCATCAATAAAATTTCTTAAAATTTCTAAATTTTCTTGAGTAATTTCATAATTTGGATCATTTTTATCATAACATACTTGAAGAACAACAACACCAGGTTTTGCAAAACAAGCAACATTATCTACATGTCCATCGGTTTCATCACCAAATAATCCTCTTTTTAACCAAATAAATTTTTCAACGGATAAATATTTATTTAAATAATCTTCAATATTTTCTTTTTTTAAATGTGGATTTCTATTTTTATTTAATAAACATTCTTCAGTAGTAAGTAAAGTTCCTTCACCATCAACGTGAATAGAACCACCTTCAAGAACAAATGGAGCGTCATATGATTTTACACCATAGTATTCTAAGAGTTTTTTAGCTACTTGATTATCTTTATCATAAGGAAGATACTTTTCCCCCCAAGAATTAAATTTCCAATTTATTCCTCTAAGTTCACCATTATTATTTTTTATAAAAGTAGGTCCATTATCCCTTATCCATGAATCATCATGTTCGATAACTAATATTTCTATTTCATTGTCACACATTTTTTCAGCTTCTTCTTTGTCTGCTTTATTAACAATCATTACAACTGGTTCAAACTTTGAAATTGCTTTAGCAATATTTGCATATCCTTGTTTTGCTTCTAATATACCATCAAACCATATTTCTTCTCTACAAGGCCATTCCATAAATGTTTTTTCTCTTTTTTCCCATTCAGCAGGCATAAAAAAACCTTCTTCTTTTGGATACATTTCTCCTCCTTATATACCTAAATTTCTAAATTCTTAGCGGTTAATTATACCTTATAATATGTTTATTTTCAAGATTTTTTTGACTATAGATTATGTAAATGTTTTTTTGAAGATAAGAAAAATTATAATATATTATTTTAATTTTTTTTGTAAAATTTTGTAAAATAGAGAATTTTAATAATGAAATCAAAATTAATTAAATTTTTTTTATTTTTTGACGATAATTAATAATAAATTATAACTTTGTTAAAGGTGGTCCTATGAAAAGAAAAATAATTATAATATCGATTTTTATATTGATTTTTTCAAATATTTATAGTTATAACTTTAAATTAAATACAGGAATTAATCTAAAAGGAAATTTTAAATTAGACGGTAGTAAATATACAACTTCAAATTCTAGTTTTGGAATAGCAAATTATCTTATTGATTTAGGAAATAATTCTTTTATGGATACGGAAGTTGGAATGGGATTTTTAATATATAATAATAAAGAGTTTGTTGATTATGCAAATGCTGGAATAAATCTTAAATATTATAATGATTTTGATAAGATAAAAGCTTTTTATTATACAGGAGCGGGATATGCATATCCATATTTGATTACATATTATGATGGACAAACAATCGAAGAGATATCTACAGGATTTTATTGGAAAGTTGGGTTTGGGGCAGATTATGAAAAATTGACTTTTGATATAGCTTACAAGATGATGGCTTTAAAAATAAAATCAAATATAATTGATATAGATACAAGTGAGCTTGTAGAAACAACATATAATGTTATATTAAAAAATCTCACTTTATCAATTGGATATTATTTATTTTAAAAAAATACTATAATAAAAAAAGATACTTAAAAAGTATCTTTTTTTAATCTCTTAATTTAATTTAAGTTAATTAAATTAGTGTTGACTTTTTGGAATATATATGGTAATAATGTATTGTAAATTTAAGTTAGTTAAATCAAATTATATAAAAAAAAGATGGTATAGTTATTGCAATATATGAGGAATAAAGAGAAAAAAATATTGGTATATACAAATACTGTTGTTAATTTAATAAAATTAAAATATGGAGGTAAAAAATGAATAGAAAATTAAAATTAGTTGTTATTGGTGGAGGTAGTAGTTATACTCCTGAGCTTATTGAAGGAATTATAAAAAAAAGAAAAGAACTTCCAATTACAGAATTGATATTAGTTGATGTAATAGACGGTGAGGAAAAATTAAAAATAAATTATGATTTAGTAAAAAGAATGTTTAAAAAAGAAAATATTGATATTGATTTTACTTATTCATTAGATAGAAAAGAAGCTTTAAAAGGTGCAGATTTTGTATTAACACAATTTAGAGTAGGAGGTTTTAAATCAAGAATATTAGATGAAGAGATTCCATTAAAATATGGTTTCATAGGTCAAGAAACTACAGGTGCTGGTGGATTTGCAAAAGCACTTAGAACCATTCCTGTAATTATTGATATTTGCAAAGATATGGAAGAAGTAGCAAAAAATGCATGGCTTATAAATTTTACAAATCCAGCTGGAATTATAACAGAAGCTATAAATAAATATACTAATGTTAAAGCAATAGGAGTATGTAATGTACCTATTAATATGAGATATGATGTTGCAAATCAATTAGGTATATCATTAGAAAAAATAAGAGTCCAATTTGTTGGATTGAATCATCTAAGCTTTATTTCTAAAGTAATTGTAGATGGTAAAAATATAATTGAAAAAATTTTATTTGCAAATAAAAATAATGAAAATATAGTTAAAAATATAGAAAAAATAGATGATATAGATATAATAAATCAAAAGATAGGATTAATTTCATCTCCGTATTTACAATATTTTTATTTTCCACAAAAAATGATAAATAAAGAATTAGAAAATATTAATTCTGGAAAAGGAACAAGAGGAACTCAAGTAGCAGCAATTGAAAAAAAATTATTTGAAAAATATAAAGATCCAAATCTTAATGTAAAACCAAAGGAATTAGAAGAGCGTGGTGGTGCTAGATATTCTGAAATTGCAATAAATGTAATAGATAGTATTTATAATAACAAGAATAAAGAATTTGTAGTAAATACGATAAATAATGGAACTTTTGTAGAATTACCTAATAATGTGTCAATAGAAACAAATTGCATAATAAATAATGAAGGAGCTAGACCTATAAATTCTGGAAAATTACCTAAATCAGTAGCACCTTTGATTAAACAAGTAAAAGCCTATGAAGAATATACAATAGAAGCAGCAGTAGAGGGAAATAAAAGAAAAGCATATTTAGCGCTTTTTAATAATCCATTAGTAAATAATAAAGAAAAAATAGAAGAATTATTAAATGAAATTATTATTAAAAATAAGAAATATTTACCAAATTTTTTAGACTAATTTTATAAAAAAACAGGAGGTAAACAAGTGTATATTGCAGGAATTGACGGTGGTGGAACTAAAACACATTGTATAATTGGAGATGAAAAAGGAAATATTATTTCATTTGGAAATGGTGGTCCTGCTAATTATCATAGTGTCGGGATAGAAAGAAGCAAAAATTCATTAAAAGATGCTATTAATGAAGCTTTATTAAATAGTAATCTTAGTTTTGATAATATAGATTTATTTGTTTTTGGTCTATCAGGAGCAGATCAAGAAGATGATTTTATTGTAATAAATAAATTTATAAAAGAAATAATAGGAGATAAAAAATATAAACTTTATCATGACTCGTGGATAGGGCTTCGTAGTGGTAGTAAAGATTATACAGGAATAGCAGCAATTTGTGGTACAGGAACAGGATTTTCTGGTAGACGTAAAGATGGAAAAGAAGTAGTTCTTAGAAATCTTGATTATAAACTTGGAAATAAAGGTGGTGGAGATGAGTTAGCTATTGAAGCATTACATTTTGCATTTAGATCAGAAGAAGGTACATTTTGTAAAACAGAGTTAGAAAATGTAATTCCTAAACTTTTTTCAGTAAAAACAATGGAAGATGTATCTAAGATTATCAAAAATAATAATGTACCAGAAGAAATATTAAAACAAATTCCTATTGAAATTTTTAGATTGGCAAATGAAGGAGATACTATAGCACAAGAATTATTAATTGAACTTGGTGAAACTTTAGGTAGATTTTCTGTATCGGTAATTAAAAAATTAGAAATGGAAAATGATGAAATAAATGTAATTCTGATAGGTAGTATTTATAAAGGAAATTCACCTTTACTTTTAGATGCAATGAAACAAACAATACATAAAGTAGCTAAAAATGTTAATTTGATTTTACCTGATAAACCACCAGTATATGGTGCATATTATTTAGGAATAGATTTGTTATCAAAATCTGGAGGTGATATTAAATGACATGATACTTTTAGCATTAGATATATTTAATATATTAAAGTTTTTCAAAAATTTTTAAAAATTTAGTTATGAAATCAACAAAATGATTTTAATGAAAAAAATGAAAAAAGGAGGAGTTAAATTGAAAATTAAAACAAAATTTTTATTGGTTATTTCTATTTTGGTATTATTTAGTATGACATCTTTTGCAGGTCTTTTTTTTAAAAAAGAAGAAACAAAAGAGCAAAAAAAAGATGATAAAGTAGTAATTAAATTATGGGTAACTCCAGATGCAGAGCATGAAGAAGATTTACAAGCTATTTTAGATAAATTTGAAAAAAAATCTAGAATAAAAGTAGAGAAAACAGTTCTTGGATGGGATATTGTATGGGATAAATTGACTACAGCAGCAACAAGTGGAATAGGACCTGATGTAGTGGAAATAGGTGGAACCTGGGTATCTAGTATAGCTGCTATGGGTGTATTAGAAGATTTATCAAAATATTATGATGCTAATGAGGTAAAAAGTCATTTTTTAGAGCCAACTCTTAAATATAGTAAAGTAAAAGGTGTAGAAGGAGATTTAATTAGTTTACCGTGGATAACTGATGGATATTTATTTTATTATAGAAAAGATTTATATGAAAAAGCTGGGTTAGATCCAAATGAAGTATTTAAAGATTGGGATTCTTTTAAAGAAGCTATGAGAAGATTAGATAATATGGACTTTACAAATGAAAAAGGGGAAAAAATAGCAGCATTTGCACATGGTGGTAAAAATGACTGGAATATTATACATATGATGGGTGGATTTATATGGCAAGCAGGAGGAAACTACATAAATGAAGAAGGAACAAAAGCTTTAATTGCAGAAGATAATGCTATAAATGGAATAAAATATTTTACTAGTTTTGCACAAGAAGGAATAGTTCCAAAAGAATATTTAGAAAAAGATCCATCTGAAATAGAAGCGTTATATGGAGCAGGGAATATAGCAACAATATTGACAGGACCTTGGTTTGCTTCATATCTAGAAAAAACTTTAGCAGGAAAATATGACAGTGAAGCTGATGATGTAAATGCACTAAATCTTGAAAAAAATTCTTATAAAAATACAGATGTTGCTCAACCATTAGCAGGGCCTGCAGGAAGATATACTTTTTCTGGAACAAATAATTTAGCTGTATTTAATTTTTCAAAACATAAAAAAGAAGCAGCAGAATTAGTAAAATATTTAACAACAGATAAAGAAGCACAAATAGATTATTGTAATGCAACAGGGTTATTTACAGTATCAAAAAATGTTGCAAATAGTCCTTATGTAACAGAAAATCATTTTAGAAGTGCTGTAAAATATGCATTTGATCATGGCTATATAAAAGTATATCCAGCTGTACCTGCATGGGGTCCAATTGAAACTGTATTAACTAAAAATTTAGGAATAATATGGGATTTAGTGTCTGGAGTAGAAGGTGAATATACAGAAGAAAAATTAATTGAAAAAATAAAAGAAACAAATACTGAAATGGAAAGAATTATTAGTCAAACAGGGAATAGATAATTTATATAAGTTTTAGAAAGCTTGCCAAAATTGGATTGATTATACTCCCTTTCCAAAGAAACTTTATATAATTTATATCCTAATATTTTGGCAAGACTTCTTTTATAAAATGGAAGGAGCAACAAATGAAAAAAACAATAAAAAAATATAGCTTTGCATATCTTTTAATACTCCCATCAATTATTTCTTTATTTATTGTCCAAGTCATTCCATCATTGCAAGGATTATATATATCATTAATAAAATTAAATCAATTTACATTTAAGGATTTTTTAAAAGCTCCTTTTGTAGGATTACAAAATTATTTTTTTATATTATTTGATCCAAATAGTATGGTGCGTGTTGGATTATTAGGAGCAATAAGAAATAGTGCAATTTTTACAATTTGCGTAATATCAGGAACACTTGTAATGGGATTAGGGTTAGCGATTTTACTTAATCAAAATTTTAAAGGAAAGGGATTAGCTAGAACTTTACTTCTTCTTCCTTGGATAATACCTACATATATTGTTGGGTTATTAGCATCTTTTATGTATAGTTATGATGGAATAATAAATAGAGTTTTAGTTAATATATTACATATTTTACCTGAGCCATTATCATGGAAAGTTGGACCATTGACATTAGTCAGCATTATTTTAATAACAATATGGAGATTTTTTCCTATGACAATGCTTATGTATCTTGCAGCACTTCAAGGAATATCAAAAGATTATTATGAAGCAGCAGAAATAGATGGAGCAAATGATTTACAAAAATTTTGGTATATAACATTGCCATTTTTAAAACCTGTAACGGCAATGATGATTCTTTATGGATTAATTCAACACATTTATTCATTTAATATAGCAGCAATGATGTTTGGGCTTGGTTCTGGATATCCAGGGAAATGGGGAGATCTTATTATGACAAATCTAATGAGGAATTCATTTAGTTTATGGCAATACGGTCCTGGTGGAGCTGCATCAATTGTATTAATGTTATTAGTATTGTTACTTGTTATGGTTTGGTTAAAAATATTTAAAGATTCAATTACAATAGAATAAAGGTGGGAATATGGATTATAAAACTAAAAGAAAAATAAAAAGAATAGCTTCACAAGTACTGTTGTGGATAGCTGTAATAATAGTAATTTTTCCTATTGTATATCTAGTTGCTATATCAGGTTCTACAAGTAATAGTATACGTACAGGAACAGAATTTCAGCATATATCGATTCATAGATATATAAAAAATTTCATAGAAATGCAAAAAAATGCTAATTTTTTTAATTATTTTAAAAATAGTTTAATAGTAATAACAATAACGACGTTTATTGCATTGACACTTTCTATATTTGCAGGATATGCATTAGCAAAATTTAAATTTCCAGGTTCAAATCTATTTGGGATAACTATGCTTAGTACGCAGCTTATTCCTCCAACATTAATTCTTATACCAATGTATTTAATATTCATTACTATTCAAAGAACAATAGGATTACAATTGATTGATACATATTACGGGCTTATAATTCCATATGTTGCAATTTTTACACCTATGAGTATATGGGTTATGAGAGGATTTTTTGCAAATTTACCTAGCGAGCTAGAAGAAGCAGCAAGAATAGATGGATGTAGTAGATTTCAAGCATTTAGACTTATTATGTTGCCTCTTGCAACACCAGGAATTATAGCGACAGGTATATTTATATTTCTTACTGCGTGGGATGAATTGATGTTAGCTAGTGTTCTAACAACATCTGCAAAAGTTCAAACAATACCTATTGGTATAAGATTATTTATAGGAAGAATTCAAAATAGATTTGATTTGACAATGATGGCTGCTTTAGTAATAACTATTCCAGTTGCTATAATATTCTTTGCACTTCAAAAATATTTTGTACAAGGAATGACAGCTGGAGCTGTAAAAGGATAGAAAAGGAGCTTGTATGGACCATGTAATAAAAAAAAATATAAAAAAAAGTAATAAATTTAAAAGAAAATTAATTGTAAAATTATTTATATTATTATTAAGTTTTTTTATTCCAATATCATTTATTACATTAAGAATTGTTTCAAATAATATAGAAAAAAGTATATATAACTCTAATGATAATAATATTCAAAATATTAATACTTTATTAAATACCACTATTGAAAATGTATCTACAATTGCTACTTTAGTAGCAAATAATCCTATAATATCTTCGTTTCAAACATTAGATATGGGAAAATTAACATTAAAATATACAGAAAAATTTCCATATATTTCCAATATAGTAGTATTTAAGTATTCACTTAATAAATTAAAAGAAGTAAGTAGAGTAAATGGTTCAGTTAAAGCAGATTTTTCAGAAAAAACAATAGATGCAATGTATGATAAGAAAAAAAATAAAATTTTTATTTTGATTTCAAAAGATACAAATAAACCTTTATTATTATTAACAACACCTATTTATAAAATGAATTTTTTGGGAATGATTGGAAATGAATTAGGTGGAGTATTAGTTTTTGTACTGGATATAAAAAAAATACAAGAGACTTTATTCTTAAAAAATAAAAATAAAGAGTTTGTAGTCAATGAAAATGGAGAAATTCTATTTTCAAATAGTGAAATACCTATTCTAACTAATTATTCACATAAAGAGTCAGTTAAAAAAGTTTTATTAAAAAAGCAAGGACATATTAGCTATAAATTTAATAAAGAAAAAGTTTTGGCATCATATAGTTATATAAAAAATCTAAATTGGGGAATAATTATAGAGCAAAATTATAACACAGCATTTAAAGAATTAAATAGCTTAAAATTCTTTTTTATAACATTTATTTTTATAATATTTATTGTAGGTGGTATATTTGCTACATTTTTAGCGAATGAAATAACGACACCTATTGAAATACTAAATAAGAATTTTGAAAAAATAAAAAATGGAGATTTAAATATCCATTTTGAAAAAAAACATATAAAAAGAAAAGATGAATTTGGAGAATTATTAAATTCTTTTTTATTAACTATTAAATCAATAAAAAATATTTTAAATAGTATAAGCATGAGTTCAAATACTTTTCAAGAGAGTTCTAGTAAGCTAAATATTGTTACAAGTAAAAATAATGAATCCATAAATGAAATAGAAAAAATAGTTTCTAATTTAATAATAAGTTCTAAAGAAAATGAATCATTGACATCTGAAGGAAAAAATATTTTAGAAAATATATTAAAAAATTCAAAATCTATTTCTAAAAGTTCTGAAGAGATAGAAAAATTAGTAAATGATGCAATTTATATATCAAAAGAAAGTAGCGAAAATATGGAAAATAATGTAGAATTAACATTAAAAACCTATAATTCATTTGATAATATAAATAATAAAATTAATCAATTAAATAATTTTTCAAATAATATAACAGGAATAATAGAATCAATAAAAAGTGTAGCAGAACAAACAAACTTATTAGCACTTAATGCTGCAATAGAAGCAGCAAGAGCAGGAGAAGCAGGTAAGGGGTTTGCAGTAGTAGCAGAAGAAATACGAAAATTAGCTACTAATTCAAATGATTCAGCAGAAGAGATAACAAAGCTTATTTTAATGATACAAGATATGATAAAAGATATTAAAGAAATTTTTGAAAATAATTATAATGAATTTAATTATTTAAAAGAAAATAGCTTAAATACAAAAGAAAAAATAAATACTATTTCAAATAATTCTATTTTTGTTATAAAATCTTTACAAAAAATGCTTGAGTTATCACAAAAACAATTTATATATATATCAGAAATTTCAAATAATTTTAACAATTTAAGTAAATCTACAAATGAAACTTTTACTTATTCTAATATTATAGAAAGTAATATAAAAACTCAAAAAGAAAATAATGTAGAGCTTGATAAAACAAGTAATTTAATGACCTCTCTTTCTAAAAGTTTGAAAAAAACATTAAGTAATTTTAAGAATTTTTAGTTATTTAGTATTTGACTACTTTAAAAAATAACTATAAAATATATGTATACTTTCTAAAAACAATAAAATTTTAGAGTGGAAATTATTTGAAATTAGGGGGCAAAATGCAAACTGTAGGTAATCAAGCATATGCAAAACAAAGAAATAAAAAATTGATAGTAGATATTTTAAGAAAAGAGGGACCTTTATCAAGAGCTGATATAAAAAAATTTATTAATTTGAGTTCACCATCTATTTCTACAAATGTTGAAAGATTGTTAAATGATAATATACTTAAAACATTTGGTAGAGCAAGCTCCATGGGTGGAAGGAAAACAATTTTTTATAATGTAAATTATAATTATGGATATATTATAGGAATAGACCTTTCTTTAGATTATATTTATGTAGGAATTTCAGATTTGAAAGGAACAATTTTAGATAAAAAACGTATTGAAATAACATCTAAAAAATATAAAACAAATTTTAATAATATGATAAATGTTTTATATTCTTTATTAGATGAAAATGATATTTCTAGTGAAAAAATATTATATATATGTGTATCATCTCCTGGAGTATTAAAAGAAAATGGAGAATTAAAATATGTAGATTCTGAAGATTGGTTTTATGAAAGTTCTATATTTAAAGATTTAGAAAAAACTTTTAATAAAAAAATATTTGTAGAGAATGATGTTAATTTAGCTGTTTTTGCTGAATTTAAAAGAGGAGTAGGAAATTCTTTTTCATATTTAAGTTATATAAAAATTGATAAAGGACTTGGAGCAGGAATAATATTTAATGGAGAGATTTTAAAAGGAAAAAAAGGAGAAGCAGGAGAAGTAGGATTTTCTTTACTTAGAAATAAAAACGGAGATATAATTAGTTTAGAAAAAGAATTACATTTAGAAAGAATTTATAAGGAGATATCAGAAGATATTAATGATGGTCAAAAAACAATAATAAGTGAATTAGTAAATGGTCATTTAGAAAATATAGATATTGATATAATTGCAAAAGCTATTACATTAAATGATGAATATATTAAAATAAAAATAAAATATTTTGCTGAAGAATTAGGGATATTTATATCAAATATTATGTCAATATTAAGTTTAGAATCAATAATTATAGGAGGTTCTATAAAAAAAATAGGAAAATATTTTTTAGATGAAGTACGGCAATTTGTAAGTGAAAATTTACCATTTGAAGTAACTATTCTTTATTCAAATTTTGATGATGAAACAGGATTAATAGGAGCTTTTGAAATGGGAATCGATTATTTTTTTAATAATTTGTTTAAAGAATAAATTTAAGAAAGGAGTTTTATTTGAAAAAAAAATTATTTTTGATATTATTATTTTTAAATGTATTAGGATGTAATAATTTAAAGATTAATAATCACAAAGATTTAGAAATAATAAAGCCAAATTTAAAGTCACAAAATGAATTAAATAAAGATATAATTGATTTTTATAAAAAATGGGAAAAATTATATATAAAAAAAGTACAAAATACAAAACAAAAACAACTTTATTTAGACTATGGTATAGAAGCTAGAAAAAATAAAGAGGCATTGTCAGAATGGTTCATTCCTTTTAATGCAGTAACTACCTCAGAATCTCATGGATATGCCATGGTAGTGGTAGCTTCTATGGCAAATATCGATAAAGAAAATTCATTAAAATACAAAGAAAAATTTAATTCTTTATATAGATTTTTTAGAGCACATCCTAGTAAATACAGTAAAAATTTAATGAGTTGGCAAGAAGTTGGAATAGGATTAAAAAAAGAAAATGGTATAGTTATAGGGGAAATAGAAAAAATATTAAATACACCAAGTGGTGCTGATTCAGCAATTGATGGTGATATGGATATTGCTTATTCGTTATTAATAGCGGATAAAATATGGGGAAGTAATGGAGAAATTAATTATAAATTAGAAGCAATAAAAGTAATAAATGCTATAATGGAAAATGAAATAAATAAAAAATCATATACTCTTTTACTAGGTGATTGGGTAAGAAATGGTGCTAGTGGAAATAGAAAGTATTTATGGATAACACGTTCTTCAGATTTTATGTTAGATCATATTAGAGCTTTTTCAGTAATAGATAAAAAATATTCTAATGAATGGAAAAAAGTATTAGAGAGTACTGAGGAAATAATAAATTATAATGTGAAAAAATTTAGTGATAACACAGGTCTTGTAGCAGATTTTTTAGAGAGAGATAATAATAAGTTTATCCCTGCTATTGGGAATGTATTAGAAGGTAAAAATGATGGTGATTATAATTGGAATGCTTGTAGAAATCCTTGGAGATTTTCTGTAGATGCTATTTATAATGGCTCAACTAAAATAAATTCATCTATAATTACATTAAATAAATGGATTAGAAAAAAAACAAAAAACAATCCAGAAAATATAAGGCCTGGATATTATATAAGAAACGGAAAAACAGGTGAAATTATTGGAGATAGAGAGAGCTGGGGAGAAGATATGTCATTTACGGCACCATTTTTAGTAAGTGCATGTATAGGAAAAGAAAATCAAAATTGGTTAAATAAATTGTGGGAACATGTAGTGGATACGCCATTAGATGAAGCAGAATATTTTGGAAATGCCTTAAAAATGCAAGCTTTAATTATAGCATCAGGTAATTGGATTAGTATAAAATAAAAACTGTCTAGAAACTTCTAGACAGTTTTTATTTTTTTATTAATCACCAAAACTTATTCCAGTAGCTTTTGCAGATTTTATTGCTATATTATCAACAGGAACTATTTGTACCTTTTCTGCTACTTCTTCAAGAGGAATAGATACAACATTAAGACCTTTTGCTGCTACCATCTTATTATATTTTCCTTTTGCTAAAAGTTCAGCGCCCTTTACACCAAATTGAGTTGATATAACTCTATCGTATCCAGTAGGAGTTCCTCCTCTTTGAAGATAACCAAGAACAGAGACTCTTGACTCAAAATCTGAAATAGCATTAAGTTCTTTTGAAACCCTATATCCAGCACTTAAACCTGATTTTTTTCTTTTTTTCTTTAATTCTTTTTTAGTTAAATTTGCTTCATCAATTGATACAGCACCTTCTGCTACTGCTATTACACAGAACGGATTTTTAGAAGACATTCTTTTTTCTACATGTTTTTTTATTTTTTTTATATCATATGGTATTTCAGGAATAATAATGACATCAGCACCTCCTGCAAGTCCAGCATATAGAGCAAGCCATCCAGCAGAATTTCCCATAATTTCAGCTATTAAAACTCTTTTATGAGAGCTAGCAGTAGTATGGAGTCTATCAAGTGCATCTGTACAAAATTCTAATGCAGAATGGAATCCAAATGAAATATCATTGCCATAAATATCATTATCAATTGTTTTTGGGAGTCCGATTACATTACAACCTTCTTTACTTAGCCAATATCCTCTTTTTTGAGTTCCATTACCACCAAGAACAACAAGGCAGTCTAATTCCCATTTTTTATATGTTTCAACCATTTTTTTAACTTTTTCTGGATCTTTAAAAGGTCTTTCTCTTGACGATCCCAAAATACTTCCACCTTTGTGGAGAATACCAGAAAAATCAGTTTCAGTCATAAGTTTCGCATTGTTATTTACCAAGCCTCTATATCCTTCGTAAAATCCAACTATTTCCATATTATATTTACCCATTGCTGTTTTAGCAAGTCCTCTCATAGCTGCATTTAATCCTGGGCAATCACCACCAGCAGTTAATACTCCAAATCTTTTTGTAACAGATTCCATTCTATCCCTCCTTAAAAATAATTGCTATATAATTTATACAATAAAAAACCTAAAATCCTTTTAATTTTTTAAAGGAATTTTTTATTATATTAGTATAGTAATTATGGAATTATTTTTAAATTAAGGAGGTTTATATGCTAACAAAATTTTTTCAAAAACAACTTATGATGAGGAAAGTACTTTATTCTTTAATACCTATTTTTATTTATTCTATTTATTTACATGGACTCAAATTTCTAATATCAACGATTTTCATTTTTTTATTTGGTTCTATTACTGAATATTTTTTTACAAAAATACAAAATAAAAAAATATCAGAAGCAGTACTTGTAAGTTGTGCTTTATACGCATTATCGATACCACCATATGCACCTATTTGGATAAGCAGTATAGGAATAATTTTTGGTATTACTTTTGCTAAAATGGTATTTGGGGGATTTGGTAGAAATATATTTAATCCAGCAATTGCTGCAAGATTATTTGTATATATATCATTTCCAGTAGCATTTAATTCTTATACACTAGATACAGCAGTAGGAGCAACTCCACTTAGTATATTTAGAAATGGATATACATTTTCTAAAATCAGATTGTTTTTAGGAAATTATTTAGGTACTTTTGGAGAAACATCAACTTTACTTATTATTTTAGCAGCAATTTATTTGATTTACACTAAAACTGCCAATTGGAAGCTTATGTTTTCCACTTTACTTTCTTTTTCTATTTTAAACTCAATATTTTATTTTACAAATATTATAAATATAGATCCATTATCATCTATATTTGCAGGAAGTTTTTTATTTGTAATAGTATTTATGGTAACAGATCCTGTTACTGCACCTAAGCAAAAATTGTCTATATGGCTTTATGGGACATTAATAGGTTTGTCAATATCTCTTATAAGAACTTTTTCACTATTTCCAGAAGGAACAAGTTTTGCAATACTTTTAGGAAATAGTTTTGCACCTTTATTTGATGAATTTAGTAAAAAAATAAAAGAAAGAAAGGAGGCAAAAGCATGAAAAAAGATAATATAGTTTATACAGTGATATTTTCAGTAGTTATTACTTTTATCTTTGTATTTCTTTTGTCTCTAACATATCAAGCTACAAAAGGAAAAGTAGCAAAAAATGAAAAACTTTTTGAAATAAAAGCATTTTTAAATTCGGCAGGTTATGACTTAAACACTATAAATAATTATGAAGAGTTTTTTAATGAAAATTTTAAAGAAGAAAAAACTAATATATGGTCAACAAATAAAAACGGGGAAAAAATAATAATTTATAAATTTTCTGGTAATGGATTATGGGGAACAATTTATGGAGTTATAGCATTTAATAAAAATTTAGATAAAATAATAGGGCTAGAGATAACTTCTCATAGTGAAACTCCTGGGCTTGGAGGAAGAATTGAAGAAGAGTGGTTTAAAAATCAGTTTAAAAATCAGCAGATTAACGATAAATTTAAAATTGTAATGGGTGATGGAAAAGGTGATTTTGAACCAAATGATAATAGTGTAGATGGAATAACAGGAGCAACTCGTACTACTGAGTCACTTCAAAAAATTATTGTAGATGCATATGAATTTGTAAAATCAAATCGTTAGGAGGGAACTATGAGCATACTTAAAGAAAACTTATGGGAAAACAATCCTGTTTTTGTACAAATATTAGGGATTTGTAGTACACTAGCTGTTACAAATAATCTTACAAATACATTTATAATGACAGTAGCTCTTATATTTGTTACAGCATTTTCTAGTTTAACAGTATCTCTATTAAAAGAGTATATACCAAAAAAAGTAAGAATGATAATTCAAACTTTAATTATAGCATTTTATGTAATATTTGTAGATATATTGCTTCGTGCATATTTGCCAAATATAAGTAAAGCACTTGGGCCTTATGTTGGATTAATTATTACAAATTGTATTATCATGGGAAGAGCAGAAGCTTTTGCACAATCAAATCCACCGATTTTATCATTTTGGGATGGATTTACCTCAGGATTAGGTTATATGTGGGTACTTATGATAATAGCATTTTTTAGAGAGTTTTTAGGCTTTGGAACACTGTTTGGTATAAGTGTGGCACCTAGTGGATTTACAACATGGACAATTATGATAATGGCTCCGAGTGCTTTCTTTTTATTAGGTACACTTATTTGGATTAGTAAAACTATTATGCTTAAAAAGGAGGTTAAATAATGAGTCCAGATATTAGTCCGATAGTATTATTTTTTGCTTCAATATTTACAAGCAATATTTTATTAGCCAATTTTTTAGGAATGTGTTCATTTATATCTATATCAAAAGATATGAATTCATCAAATGGTCTTGGAATGGCGGTAACTGCTGTTCTTACTATTACGGCAGCTATTAACTGGGTAGTTATTAATTATATACTTATTCCTTTTGATCTTTTGTATTTACGATATATTGTATTTATTGTAGTTATTGCAGCAACTGTGCAAATATTAGAAATGTTAATTGATAGATTATCACCGAGTCTTTATATGGCTCTTGGGATATTTTTACCGTTAATTACGGTAAATTGTGCAATATTAGGAGTATCACTTTTTATAGAAATAAGAAAATATACTTTTATTCAAACTCTTTTTTACGCTTTTGGAGCTGGACTTGGATGGTGGCTTGCTATAATGCTTCTTTCTGCAATACAAAAGAAAATAGCTAATGCACCAGTCCCAGCAGGATTAAAAGGGCCTGGAATAACATTAATTACAATAGGGTTTATGGCAATGGCATTTATTGGTTTTTCTGGAATGCTTATTGTACAATAACATAAAAGGAGGTAAATTATGGAGTTTATTATAGCACCTCTAATTATATCAATTCTTACTGGAATATTAGCAGCTATTATTTCGATTACAGATAAAATTGTAAATAATTATGGTGAAATTACTATTTCTATAAATAATGGTAAAAAGGAAATAAAAATAGATGGAGGAGAAAATCTTTTAACAACATTATCTTCTAAAGAAATTTATCTACCTTCTGCATGTGGTGGAAGAGGAAGTTGTGGAGCCTGTAAATGTAAAGTAACAAGTGATGTAGGAGAATATTTACCAACAGAGATACCGTATCTTACAAAAGAAGAAATGAAAGAAAATATAAGATTAGGATGTCAAATAAAATTAAAAAAAGATATTTCAATAGAAATTCCGGATAGTTTATTTAATGTAAAAAAATATGAAGCTGTTGTTGAAAAAATAGTAGATGTAACACATGATATAAAAGAAGTACTATTTAATTTAGGAAATGAAGAAATAAACTTTACTGCAGGAATGTATATGCAACTATGTATACCGCCATATGATAAAATAAAAAATGAAACTCAAAGAGCATATTCGATATCATCAAAACCAAGTGATAAACATCATATTGAACTACTAATAAGACTTGTTCCTGGAGGAATTGCGACAACATGGGTACATACATACTTAAAAGAGGGAGATAAAGTGAAGTTAATAGGCCCATTTGGAGAATTTGAAGCAACACCTACAAATAGTACAATGATATGTGTAGCAGGTGGATCTGGTATGGCGCCATTTAAATCTATGCTTTATCATATGTATGAAAATAACATTAATGATAGAGAGATATGGTACTTTTTTGGAGCTAGAACTAAAAAAGACTTATTTTATTTAGAGGAATTAGCAGAATTACAAGAAAAATGGCCAAATTTTCATTTTGTACCGGCATTATCTGAACCAGAAGGTGAAGAATGGAAAGGCGAATCAGGTCTTATTACAGATGTTTTAGATAGATATTTAAAAACAATAATTAATTCAGGATATAAAGAGGGATATCTATGTGGAAGTCCAGGAATGATAAATGCTTGTAATAATGTAATGACTGCAAATGGAATAAAACTTGAAAATATTTATTATGATAAATTTGCTTAAGGAGGTAAAATAGATGAAACTTTCTCCAAAATATGAAAAAGCAATGGCAAATATGCAAGTAGGAATAATATCAGCACAAGGTTTTTTAGGTGATGAAGAAATAAATTTAGTTGATATTATTAATAGAGATGAAAATGAATTTAATAAATTAGGATTAAAGTTTGATGAGGTAGCAAAAAAACTAAAATATTTATTAGAAAAAGGTCAAAAAGGGTTAGGAGAACCTATTACAGTTGATGAAAGATGGTTAGTACAAGTATATGAAGCAAAAGGGAAAATGCCATGTCCATTTGAAGATTACATGGCTCAAAAAAGCGTAGTAACTTTAACAGATAAAAATACAAATCATAAATTAATGTATACAGATTTATCAATACATTTAATTGAAAAGCATCATTTTTTAGAAGGAAAAGGAAGTACTTTTAGACTTGAACCTAAGATATTAAAAAAAATATTATATTAAAAAAAGAGCCGTACGGCTCTTTTTTTTATTTACATGATGTAATTAAAACACCTTTTTTAGCAAGATTTTTTTTATTTTTTTCCTGCTGTTTTTTTAAATATTTTTCTTTTAATTTTTTTAAAGTTTCAGTTTCTTCTCTTAAAACACCCATTGATTAAGCCCCCTTGTAATTTTTATTTTGAAATCATTATGCCCTCTAATATATCGTTTTCAGATACTAAAATAACCCTTTTATTAAAATATTTCAATAATATTTTTAATATTAAAGTACCTGCTACTATAACTTCTGCTCTTTTAGGATGTAGTCCAACAATTTTTTTTCTTTCATCTATTGATTTTGACATAAATAATTCTAAATTATTTTCAATATCTTTTATATTTAATAAATAATTGTGTATTTCTTTTGTATCATATTCTTTTAATCCCTTTAAAACTGATACTTGAGTAGTTACTGTACCAGCTACTCCAACTAACTCATATTCATCAAAATTAAAATATTTTAATTTGGTTTGATCTAACATATTATAAACAAAATTTTTCATTTTTGCAATATTTTCTTTATATTTATCATTTTTAAAAAATTTCTCTTTTATACGTACAGAACCAAAGTTAAAACTTTTTATAAAAGAAATATTGTCTTTAGTTCCAATTATTATTTCAGTACTTCCACCACCTATATCAATAGCAATAAATTTTTTATTATCTTTAATTTCAGATAAAATACCGTTAAAACAGTAAATTCCCTCTTGTTCGCCTGAAATACATTTAATGTTTAAGCCAACTTCATTTTTTACTCTTGAGATAAATATATTTTTATTACTAGAATCTCTTGTAGCAGATGTTGCACAGGATTTAACATCACTTATTTTGTATTTATCAATTATATATTTATAATTTTTTAAAACTTCAATAGTTCTTTCTATGGCACTATCTTTTAAAAAGCCATTTTTATCAACATCTTCACCAAGTCTTGTTATTTCCATAAGTTTTAAATACTTTTTATTAATATATCCATTATAAAGTTCAGCAATAAATAATCGAACACTATTAGTGCCTATGTCGATTATAGCACGAAGTTTTGTATCAGTTATTTTATCATATAATTCTTTTAATTTTTCTATTTCTAAATCAATAAATTTTACTGTACCAAGTTTTGGACATATAACAAGTCTTAGTTTTTCACTTTTATTTTTTTTATCTTTTTTAAAAATCTTTATCATTGTTTCAAAATCATATTTTGGTACTAAATATGACATGTTTAATTTTTGAAATAATTCTATTTGTTTATCAACAACTTCTTTTTCTACAAGGCCTAATTCATATCCAAGTTTATTAACAAAATTCATACCAAGAATTACTGCTTCACCGTGTGTATAAACTTTATAATTAGTTATTTTTTCAATAACATGTCCATAACTATGCCCATAATTAAGTGCAGCTCTTATTCCATTTTCTTTCTCATCTTTTGATACAACCGCTGCTTTTGTTTGACAGCTATGAAATATCATTTTAATAAAAGTATCTTTATCAAAATTATTTATTTTTTCATAATTTTTAAAGATGAAATCATAAAATTCTTTATTAAAAGTAGCAGCCATTTTAATTATCTCTCCAAGGCCACTTTTTATTTCTCTTGTTTCTAATGTTTTTAATACACTAATATCTACTAAAACTAATTTTGGTTGGTAAAAACTTCCAATTATATTTTTCGCTTTGTAATTTACAGCAACTTTACCACCAATACTAGCGTCTACCTGTGAAAGAAGTGTTGTGGGTACTTGTATAAAATCAATTCCTCTCATAAAAGTAGCTGCTACATAACCGGATAAGTCACATACAACTCCTCCTCCTAGTGATATAATAAGACTTTTTCTATTAAAATTATTTTCGAGCATAAAATCATATATTGGAAGTACAGTATCTAATTTTTTATACTCTTCTCCATCTTCTATTGTGAATGTAAATATATTATCTTTTTTTTTAAAAGAATTTAAAAATTTTTCTAAATATAAAGGTCCAACAGTAGTATTAGTGATAATAAGTATTTTTTTGTAATCATTTATATAATTATTTATCTCATTAAAAATATTCTCTCCCATTAAAATATCATAGCTTTTTTCTTTTAAATCCACCCTTAGTTTTTCCATATATCCTCCTACATCTCTTCTATATAGATTTTTTTTATAATATCAGTAATTTCATCAAGATCTTCATTTTTATTATATACTTCAAAATCACAACTATTTTTATAGATATCTTTTCTATCATTTAGCAATTTTTTTATTTTTTCGTATGTATCTTTACAAATTAGTAAAGGTCTTTTATTTGGTCTTCGCATAACTCTTTTATAGATATTATCTATACTAGTTGAGATAAGACAAATATTAGCATGTTTTCTTAATGAAAGTAAATTATTTTTATTTAAAATAGTACCTCCTCCAGTAGCAATTATAGTATTACTCATTGTTTCACATTCTTTTATTATTTCTTCTTCAAGATTTCTAAAATAGTGTTCTCCTTTTTCTTTAAAAATTTCATTGACTTTCATATTTTCTCTTTTCATTATTTCATAGTCTAAGTCAAAAAAATTCATATCAATTTTCTTTGCTAAAACTTTACCTATTGTGGTTTTTCCTACCCCCATAAAACCAATTAAAGCTAAATTCGTTTTCATAGACTTTACCTCGTTATTTTATTTTACATTTAGTATATCATTTATTAGTTATATTTTTCAAGTAAAAGGGTAAATTAGATTAATAAAATTATACTAATTTTATTAAAAGTAAATTACTTATATCTGCCAACTGAAGATATACGGAATGAGTAAAATAGATATAGGTTTTCTAAAAGAGTAGTTAAAGTTAAGAGTTCTTTTAATTTTTGACAAGCGAGTGATAGTAAATATTTTAATTTTTTTAATTATATTTTTTTTAATTATCATTTGATTAAAGGTAAAAATTTAAAAAATTAGAATACAGCGAGGTTTAAAAGTATTATAACAATTAGAGTAAAATTAAAATTGACTTATTTAAGAGAGATATGATGATAGAATATTTATTAGAGGAGCATAAAAAAATCCAGGAATTTAATCCAGGATTTTAATCTTACTTTATATATTTTCTCTTTTCTTAGGAACTATTATATACTTGATATAAAGGTTATTTCTACTTAATTTGTTAAAGTATTTTTTGATTTTTATTATATTCTATTAAAAAAAATTAATCTTTTTTATTAATATTATCAAAACGCTTTTTCTTTATCTATTATAATTATTTCTAGCTATTAGTTTTGGGTTACTACTGGGATATTAGTTTTTTTAATATAAACTATCACCTTAAAATAATTTTTATTTATTTATTTCATTTTCATATTTACCATGAGATAAAAATAATAGATCCATTACAAGTATTTTTTTTGCAAATTTTTTTATATATTGACGAAATTTAATATTGTTTTTAGTTTTTTCATTGTTAATAATAATTCGTGTAGAGAAAACCAAAAGTTTAAGTAACTTATCTTCAAGTATTTTTTGTCCTAATTTACTTTTGATATAAAAATATATGATTAATGTAACAATTAATATGATAATTATATTCATAATTATCACCTCCTTGTAATAAAACTTATTAATGGTAAAAGATATTTTATATTATTATTATCGTCAATTATTCTCCTTCTATTAATCCAAAATCAAAATAATTATTATCAGATTCATCAGATTCATCCCATACAAAACTTACTTGAGATAAATTCATATCTAAAAATTCAATTGAAAATTCGGTAGGACCTTCATTTGCACCAACTAAATTATATAATTTACTTAGTAATTTTGTTTTAAATTCATTGTTCTCTTCTAGAAAATTATTAAAAAATTCATTTGAGAGATAAACAGCAACTTTTTTATCATTATTATTTATATGCAAATGAACTTTACCAATATCTCTATTTTCATTATTCACTTCAAGTAATATAGTATATATTTCAGAATCAGATGTTCTATATCGTCTTAAAAATTCAATAGTGTATTTCATTTTATCACATCCTTTATCACTAGCTATATTATAATTTACTTGAAATTTTTAATTATCCTTTTATTATTTATAGAAAAAATATACAAAGCAGCCCTCTTCACGATATAGGGAAAGTAGGAATTCCTGATAAGATTTTATTAAAGCCGGGAAAACTTACAAAAGAAGAATTTAAAATAATGAAAACACATACAATTATTGGTGCTAATATATTGAAAAGTTTTAAAGAAAACATAAAAAAACATGATATAGATATTTTTGATTATGCAATAGAGATAGTTAATTTCCATCATGAAAAATGGGATGGAACGGGATATCCAAAAGGGTTAAAAGCTAATGAAATTCCTTTAGTTGCAAGAATAGTTTCTATAGCAGATGTTTTTGATGCACTTACTAATAAAAGAGTTTATAAAAAAGCTTTTTCATTTGAAGAAAGTATTAAAATGATTAAAGAAATGAAAGGAATAAATTTTGATCCTTTAATAGTAGATGTTTTTATAGAATCATTAGCAGAAATAAGAGACGTTTATGAAAAATTAAAAGAAGTTTAAAATATTTTATAAATTATTATTTTTTTTTAAAAAATTATTGACAAAATATAATATTTATGATATATAATTATTAGCAGCTAGATACATAGAGTGCTAATAAAATTTTAAATTTAAAGGAGGGATTTTTATGAGAAACTTAATTACAACAAAAAAATGGAATCCATTTTTAAGAGAAAAAGACTATTTTGATAGTATTTTTGACTCGTTTGATTCTTTTTTTGGATCGCCTTCTTTATTTAGTGATAATTTTCAAAAATTTAGTACTGACATATCTGAAACAGATAATGCATATATTATTTCTGCTGATTTACCTGGGGTAAAAAAAGAAGATGTAAAGTTAGAACTTCATGAAGGGTATTTAAAAATTTCTGCTGAAAGAAAAGAAGAAAAAGAGGAAAAAAACAAAAAATTCTTTAGAAAAGAAAGAATATATGGAAGCTTTGTAAGAAATATTCCATTACCTAATTATCTAAATATTACAAAAGAAGAAATAGAAGCAAAATTTGAGAATGGTGTATTAAATGTTACTATTCCAAAAAAATTAGATGAAAATAATCAAAAACAATATCAAACAATTGAAATTAAATGAATTTAAAATGAATTTAACTAGTAGAAAAGACCTTATTTCATTTAGGAAATAAGGCCTTTTCTATTTATAAAAATATTTAAAATTTATCTGGATAAGCTTCTAATGAATGAATTGCTAAATCTGCTCCTTCAATTTCTTTTTCTTCTTCTAGTCTAAATCCAAATAATTTATCTATTACTAAATATACTATAGAACCACCAAATAAAGCTATTATTATTGCTAACGAACTTCCTATTAACTGTGCAAAGAAACTTACATTTCCAAGCCCACCAAATAATGTAGAGCCAAATATTCCAGCTGCAATACCGCCCCAACTACCAACAACACCATGTAGCACTACTACACCTAGCACATCATCTATCTTTAATACTTCTGTTTCAAAATGAAATCCATAAACAAATATTGCTGCAGCTATTCCACCTACTACAAAAGCACCAATAGGATGATATATTGCAGAGCCAGCACATACTGCTACAAGTCCTGCTAATGCTCCATTATGTATAAATATTGCATCTCTTTTTGATAGTAATAGCGATACTAAAATACCACCGACCATAGAAGCTAAAGAATTTATTGCTACAAGACCAGATATATCTTTTAATTCCACTGCGCTCATTACATTAAATCCAAACCATCCAACAGATAAAATCCAACTTCCTAATGCTAAAAATGGCACATTACTAATAGGTATAGGATTATTACTATTATATCTATTTTTTCTAGGCCCTAATATAAGTATAGCTGGAAGAGCTAACCATCCTCCAAAAGAATGTACAACTACAGACCCTGCATAATCTACAAACTCAAAACCAGTGATGTTTTTTATTAATCCTTGTACAAAAGTTGAATTTATCCCCCATATTATTGATTCAAAAAAAGGATATAATATTCCGGCAAATATAGCTCCGGCAAATACTTGTGGCCAAAATTTTGCTCTTTCTGCAATTCCCCCAGATATTATTGCGGGTATACACGCAGCAAAGGTTAAGAAAAAGAAAAATCGTATTAAATCAAACCCCATGTTATCTCCTATAAGTTTACTAGCAGGTTTTAAAAAACTAATTCCTCTTGCCATTGGAAAGCCTATTAAAAAATAAACAACAGTTGATACAGCCCAATCAGAAATAATTTTTACTAATGCATTAATTTGATTTTTTGTTCTAACAGAACCTACTTCTAAAAAAGCAAATCCTGCATGCATAGCAAATATCATTATTGCACCAAGTAATAAAAATAATACATTTGAACTTTTAATTAAAACTTCTAAATTCATAGTAATCCTCCCTTTTTAATATTAAATATATATATATTAATTAAAAAATTTATTTTATAAATGTTTTTATTAATATAATATATATATAAATAATGATTGTTTTATTAATAATGATTATATACTATTATTCAGAAAAAACAAATAAAAAAAATAAATGATTTTTAATATTAATATATATAAATGATATTTTATATATTTTATTTATAAAATGTATATATGTTATAAATAAAAGATCTTGAATAGTTATATAACTATCCAAGGTCTTTTATTTGTTTTATAAAAAGGAATAAAAATATTATAATGCATTTTTAAAAATATTTTTTATTTCTTCATGTGTTGCTTGTTTAGGATTAGTTAATCCACAAGCATCTTTTAATGCATTTGTAGCTAAAATATCAAAATCTTCTTCTTTTGCTCCTAATTCTTTTATTCCGCTAGGTATATTTATATCTCTTGATAATTTTTTTATTGCTTCGATTGCAGCTTTAGCTCCTTCTTCTGAAGTCATTTTAGATACATCTAGTCCCATAAATGAAGCTATATCTTTTAATCTATCAGCAGCCACTTGAGAATTATATTCTTGTACATGAGGAAGAAGTATTGCATTACATACTCCGTGAGGTAAATCATAAAATCCTCCAAGTTGATGAGCCATTGCATGTACATATCCAAGAGATGCGTTATTAAAAGCCATTCCTGCTAAAAATTCTGCATATGCCATCATGTCTCTAGCTTCCTCATCTTTACCATTCTCTACTGCTTTTCTTAAATATTTACTAATAAGTTCTATAGCTTTTTGTGCACATGCATCAGTTACAGGAGTAGCAATAGTTGACACATATGCTTCTACAGCGTGAGTTAATGCATCCATACCAGTAGCTGCAGTAAGAGAACTAGGCATATCTAACATTAATAAAGGATCATTTACAGCCAATATAGGCGTTGTATTTTTATCCACAATAGCCATTTTTACATGTCTTTCTTCATCAGTAATTATACAAAATCTAGTCATTTCAGATGCAGTTCCTGCAGTAGTATTTACAGCAACTAATGGAAGTTGAGGTTTTTTAGATACATCTACTCCTTCATAATCTTTTATTTCGCCACCATTACTTGCTACTAATGCAATTCCTTTTGCACAATCATGAGGAGAACCTCCTCCAAATGATATAACGAAATCACAATTATTATTTTTTAATAACGTTAATCCATCTGCTACATTTTTTGTTGTTGGATTAGGTTGAGTTCCATCAAAAATAACATATTCTATATTATTATCATATAATACTTTTGTTAATTTTTTTACAAGTCCAATATCATTTAATACTTTGTCAGTTACAATTAATGCTTTTTTAAATCCTAATGCTTTAATATCTTTTCCAGCATCTTCTAAACAGTTTGGTCCCATTAAATTCACTGAAGGCATAAAAAATTTTAATCCAGCCATTTTTAAATCATCTCCTTTAATAATTTTGATAAATAATTAACATATTTATATTATAGATTATTATGATAATTTTTTCTAATCATTATTTCAAAAAAAATAGTCTATTTTTAAAATTGTTTTATAAATAAAATAATTAATAATAAATATAAATAAGAAAATTATTCTTTTTAAACTATCTCATATTAGCTTAAGTTATAATTTCACTTTTTAAAATTGAAATAAAGTTAGCAATATGGTATTATAAAATTAGACGAAAATAAAAAATGGTGGTGTAAAATGTTAAATAATTTTAATAAAATTGCAGAGAATTATGATAATGTTGAATCAAAATATTTAAAAATTTTATATTATGATTTATCAAAAGGATATAAGGATACATATAAGTCCTATAATAATTATAGATTATGTACTATACTATCTGGAAAGAAAAAAGTTTCTGTAAATAATAATACTTCATTCACATATAATTCTTCAGAATTTTTATTACTTCCGCCAAATTCTAGTGTTAATATGGAAATAAATACAGACACTAAAGCAGTCGTATATGAATTTAATTCTCATTTAATTGAAAAAATTTCAAATAAAGTTGAAAAAAAATTTGCAGATATTGAAAATATAACAAAATTAAATCTTTCCAATAATTTATCTTATTCAATTAATAATCTAAAAATAAATATAATGAGAAATGAAAAAGAAGCAAAATTTTTTATGGACTTATATGCACAAGAACTTGTTTTTCAATTACTTAATGAGATTCCAAAAGAAAAAAATATTCAAAATAAATATAATCCTGCTAAAATCGCAAAAGAGATTATTGAAAAAGATGGTAACGAAAATTTATCTATTTATGAAATAGCAAAAATTTTAAATATGAGTCAGTCAAATCTTGATTACTATTTTAAAATGGAATATGGGATAACGCCTAAAAAATATCAAAACAAAATAAAAATTAAAAAATCAGTTAATTTACTTTTAAAATATTCTGTTACTGAAACTGCAATGATATTAGGATTTGATAATATATCTCATTTTATTAGACTTTTTAAACAATATTATAATACTACACCAAAGCAGTATATAAAAAGGTTTGGAAAATAATAGATAAAAAGTAAAAAGACCGTTATTATACGGTCTTTTTAATCAAAAATATATCTATTTTTGCCTAATTTTTTAGCTTTATATAATAGTTTATCTGCTCTAATAAAAATTGAATTTATTTTATCCTCGGGAAGTAATTTTGTTATACCACAACTAATTGTTACTTTTTCATTATCATTTCTTATAAGTGAAAGTACTCTATTAAATAATAAATCCACTTTTCTATGAAGTTTTACATATGGTAAATTTGTTATGATTGCAAACTCATCTCCACCCCATCTTGCTACAAAAGAATAATTACCTAAATAAGTATTAATTGTATTTGAAATTGTTTTAATTATTCTATCTCCTTCATCATGTCCACATTTATCATTTATCAATTTAAAATCATCAATATCAATTAATATTAACCATATATCATCATATAAATGTTCTTTAGATTTTAATAATGACAATAATCGATCATCAAATGCTCTTCTGTTATAGACATTTGTTAATGAATCATACATTGCAAAAGTAGTTAATTGTTCATTTGATTTTTTTAATAAAATTTGATTTTTTTTATAAATATTATAAAAAAGATTTAATAGAAAGCAATTAAAAATAAGAACCAAAAAAATCTGAAAAATAGTATCATAACTTTTTAAATTTTTATGATATATACGAAAAATATTTGAATGAAATAAATGTATATTTATAATGATACTTGTAGCTATAAATATACAACTTATTAAGCAACACTTTGCTTTTTTTTCAAATAAATATGTTATTAAAAATAAAAGCATATAAATATATGAAATAGATATAGCTAAGTTTCCTCCTGAATCAATAAATCCAATTGGTATAAATAAAAGAATAATTACTACAAAATAGAGAAAATACATTAAAAAACTATCATAAATTAACACTATTAAAGAACTAAATATAATTATTAGCCATTTCAAATTTATTATTAATTCTAATTTGAAAATTAAATTAATAATAATTGATAAAATAGATAAAAAAATAGATCCAAAAATAAATAATCTAGAAAATTTCCCTTTTAATTCTTTTTCACTACACATATTATTAACCCCTCAATAAATTCAACATAAATTTATTATAACTATATTTTTTATTTAAGTCAATAATTAAAAAAATTGTATATTAATTCTATTTTTTATATAATCTAGAAAAAAATAATTATTTTAAATTTAAAGGAGGAAATTTATGAATAAAAATATTAATTTAATTTTATTTTTTATAATTTTTTTACAAAGTTATTCTCTAGAGATGATATCTCCGCCGAAGCTAAATTGGGGAGATACAATTATGATAATTGCTCCTGGAACAAACGCATCTATTGATAAATTAGAAAAAATAGAAAAAAATTTAAAAACTTTAGGTTTTAAAGTGAAATTTGGAAAAAGTTGTTTTATAAATTATGGATATCTAGCTGGAAATGATAAACTTCGATTAAAAGATTTACATTCAGCTTTTCTTGATGATGAAGTTAAAGCCATAATTGCTCTTCGTGGTGGATATGGTAGTATTAGATTATTAGATATGATTGATTATGATATGATAAGAAGGCATCCTAAAATATTTGTAGGATATAGCGATATAACAATATTACATATTGCATTAAATCAAAAAGCAGGGCTTATTACGTATCATGGACCTATGGCAGCATCTGATTTTTACTATGGGCTTGATAAATTTACACATAATAGTTTTTTTAATACAATTTTAAAAGGAAGAAAAAAAGTTAAAATAAAAAATCCAGAAGGAGAAGAAATGAAAACCCTTGTTTCTGGACAAACTGTTGGACAAGTTGTTGGAGGAAATTTAACTATGATTGTTGCTACATTAGGTACTCCATATGAAATCAATACAAAAGATAAAATATTTTTTATAGAAGAATCAGGTTCAAAACTTTATAAGATAGATAGAATGTTAAATCAATTAAAATTAGCAGGTAAATTTAAAGATGCAAAAGGAGTTATTTTTGGTGATTTCAAAGAAACGCATGAAGAAGATACTCTTTTTAAGCTAAAAGAGGTATTAAAAATAGCAATAAATGGAAAAAAGCCTATTATTTATAACGTAAAAATAGGCCATTCTAAACCTAAAATAACTTTTCCTTTAGGTGCTAAAATTTATTTAGATAGTGAAAAGAAAATAATTAAAATTATTGATGATATTTAATCAATAATCATTTAAAGACCAATTGTAATTAAGATATTTTATATTGCTATTTTCAGGAAGATTTAGATACTCGTTAATATTTCCAAAATCTTCCTGAAACCATTTAAAAATTTTTGAAATATATATTTTATTCTTTTTCTTTACAAATCCTTTTGTTTTATTTTTTAAAAAATCATTTTTAGACTTTTCGAGTTGTGCATCAAGTTTTTCAGCATAATATGGTTTATAATTTAAAGTAGGACAAGAAAGAGAAGCACATACAATTGCAAAATGAATTTTAGGATCATCCATTTTTCTCAAGATGTTATTTTCTATTTCATCCAAAGAATAACTTTTATTTTTAATATTAATAACTTTTCTGTCCCAAACTGATTTAAAAAGTGTAGTTTTGTCTTTTATGCTTTTTATTGGGTAATTATCTGTAATTATTTTTATTGCTGAGATATTATATACATTTATCCAAAATGCTTTTTTTTCATTATTGCTTTTTAATGTTGATACATCAAAAGTTTCTATTAAATTTATTAACTTTTTATAATCACTATCTGTTTTTAAATTTTTATAATCTACTAAACGTGTTTTCACATTATCTTTAATACCTACTTTAGTGTGATTTTTCAAAATTTTTAAATAAAGATTATTAACCTCTATAATGTTTGCGTTAGCAATTATCGAAAAAATTAATAATAAAAAGAATATTGTTTTTTTCATAAAAACCTCCTATATTTTTTTAACTAATATAATATTAAAAAAATATGGAATAATCCTTTTTTTTATATTATTTTTTTTAATATTCTTCCACTAAAAGAATTTATTTTTATTTCTTTTTTATTTTGTAAATCCAATAGTTCATTATTATTCAAAACATCTATATATCTCCCTTTTGGTATTTTTTCTTCATTAATTGTTACATTATTTTTAGATGAATTAAGTATTATTATTGTTTTTTCATTATTATACTCTCTTTCAAAAGCAAATTGTTCAGACTTTACAAAAATTTCTTTATAGCTCCCATATTTTATACTATTTAAATTTTTTCTTATTTGTGATAGTTTTGAAATATAATTTATCAAATCAGTTTCATAATTAGAATTCATATAATTAATATCTAATTTTGGTCTTAAACTTATATCATTTCTGCTCCCTTTTTTACCTTCGATTTTCCATTCACTACCATAATATAAAGAAGGAATTCCTGGTATTGAAAAAAGTAATAAATGTAAATTAAATAAATCTTCTTTATTTTTTATTATAGTAGATATTCTTTCTACATCATGATTATCTATAAAACTAAATAAAGACATATTTTCATAAATTCCACCTTTTGCAAATTGTCTTTTTAATGAATGTGCTATTTCAAAATAATTTTTATCATTATGAGAAGAATATAATCCTTTATAACATTCATAATTTGTTACAGAATCTAATCTAGCATCATTTATCCATTTACTATAATCACCATGAACTACTTCTCCCATTAACCAAAAATTTTTTTTCATATTTTTTACTAATTCTGATAGTTCTTTCATAAAGGTAAAATCAAGTACATCAGCTGCATCCAATCTTATTCCATCTATATTAAATTCATTAATCCAATATTTTACAGCATCAAACAAGTGTTCTTTTACTTCTTGATTTTTTAAATTTAATTTTACTAAATTATAATGTCCATCCCATGTATTATATGTAAAGGGATCATTATAAGGACTTTTTTTACTAAAATCTACTCCATTAAACCAATTTATATATTTTGATTTTTTTTTGTGATGTTGTAAATCTTTAAATGCAAAATGATTTCTTCCTACATGATTGAATACACCATCAACAATAACAGAAATTTTATTTGCATGTAATTCATTAACAACTTTTTTAAAACTATCATTTGTTCCTAATCTTCTATCAATTTTAAAATAATCAACTGTATCATATCCATGTTCTACTGATTCAAATATAGGACCTAAATACAATGCATTTATACCAAGATATTTCATATGTGGTATCCATTCTATTATTTTTTCTAATCTTTCTACGGGTTTAGAATAAAAATCATTATTTTCAGGAGCACCTGAAAATCCTAGTGGGTAAATGTGATAAAATATTTTTTCATTGTATAAATTCATAATTCCTCCTTTTATACATACCGTTAGGTATATAATTTATTTATAATAAAAAGGGTTTTTATACCCTTTTTTGACTAACTAAAAATTCCATGCATAAATTGTTTGCACAATATCTGTGCATTAATAATGTTAAGTTCTTGTTTGTTTTTTGTATGAAAATAATATGTAATAGCAGAATTAATTATCCCCAAAAAACTATAAGAAAACATTTTACTTTTACCTTTCATATTTCCGTGCTGTTTTTCTGCTTCTAAAAATATATTTTCAAGAATTAAATATTCTTTTTTTAAATATTCTGCAGTTAAATTATAAGCTTGGCTGTTTTCAGGTGCAAAAGTCAGATTTAATATAATTCTATAAAAATTTGAATTTTGTTTTGCAAAATCAAAATATTTAAAAATAATATTTTCAAGTGTTAAAACAATATCACCATTATAGTTTATTTTTTTTAATTCATTTAAAAATGGTAAAAATTTTTCTGTGAGTATAGCGTCTAATAATCCTTCTTTACTTTTAAAGTAATAATATAATGTAGGTTTTTGTACTCCTACTGATTCAACAATTTTTTGTACTCCTACATTATCATAACCTTTACTTGCAAATAAATTTAATGCTGATTCAATTAATTCTTCTTTTTTAGACATTTTTTCTCCTAAATCTTAATAAGTACTATTTACATATATATTATACCTATCGGTATATAAAAAGTCAAGAAAATTTTAATATTTGACTTCTTATGAGTTTAAAAGTAAAATACATTTAAGAAAATATATTCAAAGAAGGGGATAAAATGGGATTTTATGATATTAAAGATAATGTTATTGAGTATGAAAAAATGATGAAAGAGTATAATAATGATTTTATTATTTCTAAATTTAAAAAGTTTATAAATAAAAATACTAACATACTTGAAATTGGAAGTGGTGTAGGGAAAGATTTTGAAAAACTAAAAAAAGAATATAAAATAGTAGCATCAGATAATTCAAAATTATTTGTTGAGTTATTAGTAAATAAATATCCTACTGATTTAGTTTTAAAGTTGGATGCAAGTGATTTACAAACAGATAAAAAATTTGATGTTGTTTATTCAAATAAAGTACTACAACATTTAAAATACGAGGATCTAAAAAATTCGTTTAAAAGACAACATGAAATTTTAAATGAAAATGGAATAATTTTTCATACATTTTGGCTAGGAAAAGGTAGTGAAGAATATAATGGTTTACTTTTTAATTATTATAATCTGATTAACTTAAAAGATTTTTATTTAAATTATTTTGAGTTAATTGAATACAATGAATATTCTGAAGAGGTAGATGGAAATAATATTTCTAAAAATGATTCGTTTTATATAGTATTAAAAAAAATAAAATTTTAATAATTTTTTTATATTATTACTATATTATATAAATAATATAATTAAAATCAAAAGAGGTGGTAAAATGAATTATTTAAATATGAAATGCCCTAATTGTAATAAAAAAATTAAGTTAGATAAAAAATATATTAATAATAAGTTAAATTGTATATATTGTGGAAAGGAGATTATTTTGAAAGAAATAAAAGAAATCACTACTGAAACATATTTAGATGAAGTTATTAGAGTTGATAAAGCGGTTATTTTAAATATTTATAATAAAAATTGTGATAACTGTAAAAAATTAGAAGAAACTTTAAAAGAAGTAAATAATGAATATAAAGATTTAAAAATTGTAAAATTAAATGCAAAAGAAAACATGAAATTAGTTTCTGGGTTTATGATACGTGCTGTTCCTACTATGATACTTTTTTTAAATGGAGTTCAAGTTGATATGCGAATAGGTGCTATAGATAAAAATGCTCTTCAAAGATGGTTATCTATGTATAATTTGTTACCAAGTAATTATTAAAAACTATTTAGCCACTTTTAGTGGCTATTTTTTATATATAATTGTTAAATAAAAATACTATAAATATAGTTAAGAATACTATAATTAAATTATTTTGTTTTTTTAATATCATTATACTTGCTATAATTAAAGCAATAATAATAGATAATACATTTTTTCCACTGGAAAAAACATCTGGAATGAGAAGAGCAGCCAAAGCTGTATAGGGGACATATCCTAAAAAAGATTCTATATATTTATTATTTTTTATATTTGGTATTAGCATAGGTACTGCTCTTAGTAAAATATTTATAATAGCCCCTGTTATAATAATAATTAAAAATTTAATATTCATTAATAACTTCCTCCATTTTATAGTTGTTTTCTTCTATTGGGATAATAATTGCTGCTATAATAGCTGACAATATAATAGACAAAATTATTCTAAAATATCCTATCATTTCATTGATAAAAGGTGTATATTTAAAAAAAATACTAAATGATATAGATATAATTGCTGCTATTAAATATTTTGAATTTGATGTTATTTTTGGAATTAATAATGTTAAATACATTATATAAATAGAAATTCCTGCAGCTTCTATTATTTGTATAGGTATAAAATCCGCTAAAATTATTCCTACTATTGTACCTAAAACCCAAGCAAAATAAGAATAAAGTTGAGCTCCTAATAAAAAAGATTTTGATAATTTATCTTGAGTAGTTGCTAAGACAAATATTTCATCAGTAATACCAAAACTAAATAATAATTTTTCTATAAATTTAAATTTTGACATTTTTTGAGAAATACAAAAGCTCATCAAAAAATATCTACTATTTATGATAAAAGTTGTTATTGCAATGTTAAATATACTAAAATTCTTTACTAGCATATTTGCTGATATAAATTGTGTGGCCCCTGTAAAATTTGTCATTGACATTAATATTGCAAGAATTCCATTTAAATTAAAAGATTTTATAATTAATCCAAATGTTATTGAAATAGAAAAATATGATAAAAAAATTGGTGTTGCAGCCTTAACTCCTTTTAAAAATTCTTTGTTTTGCAATCCAATCACCTTCTTTGTATGCTTTTTATAATACATTATATCTGAAATTATTGTTTTGTCAAGTTAAATAAATTTCAAGGAAATTTATGAGAAAGTTAAATAAATTTCAAGGAAATTTATGAGAAAGTTAAATAAAAAAAAGACTGCTAATGATATAAGCAGTCTTTCGGTAAATCATAATAAAAGTTATAACGTAGTTATACTAATTACATCATAACCGGCATCATCTATTGCAGCTTTTATAGATTCATCATTTATATCGCCTTCTATAACGGCTTTACCTATTTCTACCTCAAAATTATTTATTCCTTTTAATTCTCCTAATGCTTCTTTTACATGCATTACACAATGTCCACAACTCATTCCTTCAATTTTTACTTCTTTTTTCATGTTTTACTCATCTCCTTTTTTTATTTTTCTTTTTTATTATGAAATTTTATTAATTATCTTTTATGGGATGGCTTAAATCTCTTTAATCTTAATGCATTTGTTACTACTGATACAGAACTAAACGCCATTGCAGCTCCTGCTATCATAGGATTTAGTTTAGGACCACCAAAGGCGTATAATAATCCAGCAGCTACCGGAATTCCTAATGTATTATAACCAAAAGCCCAAAATAAATTTTGTTTTATATTTTTTATTGTAGCTTTACTAAGCTCTATTGCTGTTACTACGTCTTCAAGGTCACTTTTCATAAGTACTACATCTGCAGATTCCATAGCTACATCAGTACCGCTACCTATTGCCATTCCTACATCTGCTTGTGCTAAAGCTGGGGCATCATTTATTCCATCACCAACCATAGCTACTTTATCACCTGTTTTTTGAAGTTTTTTTACTTCATTTGCTTTATCTTGTGGTAATACTTCAGCTAATACTATATCTATTCCTACTTGTTTTGCTATTGCTTCAGCTGTTTTTTTATTATCGCCTGTTATCATAGCTACTTTTATGCCTAAATTATGTAATTTTCTTATAGCATCTTTACTAGAGGGTTTAACTGTATCAGCTACCGCTATTATTCCTTCAAGTTTTCCATTAATAGCTATATACATAGGAGTTTTTCCCTCTGTAGCTAATTTATTAGATTCTTTTTCAAAAATTATTTCTATATCTTTTTCAATCATTAATTTTTTATTTCCTAAATAGATATCTTTATTTTCTATAATTACTTCTATACCATAACCAGGTATAGCTATAAATTTATCAACTTTTTTTAGTGAAATATTTTTTTCTTCTGCTTTTTTTACTATTGCTTCTCCTAAAGGATGCTCTGATCCTTTTTCAGCTGATGCAGCGATAGATAATATTTCTTCTTTGGAATAAGTATCTGTAACAATTATATCTGTTACTACTGGTTTTCCTTCTGTTATTGTTCCTGTTTTATCAAATATTATTGTATCTAATTTATGTGTTAGCTCTAACGCTCCCCCATTTTTAAATAACACTCCATTTTCCGCACCTTTTCCAGTTCCTACCATTATAGCTGTTGGAGTAGCTAACCCTAATGCACAAGGACATGCTATTACAAGTACGGCTATAAATATAGTTAATGAAAATACTGGTGTTGCTCCACTAAAATACCATATTAATCCTGATACTATAGCTATAGTAATAACAATGGGTACAAAATATCCTGATATGATATCTGCCATTTTAGCTATTGGCGCCTTAGAACCTTGTGCATCTTCAACAAGTCTTATTATTTGTGATAATACAGTATCTTTTCCTACTTTTGTAGCTTTAAATTTAATAGTTCCATTTTTATTAAAAGAAGCTCCTACTACTTTATTACCTTTATTTTTTTCTACCGGTATGCTTTCTCCAGTTAACATAGATTCATCAACAGATGTATGTCCTTCTACCACTATACCATCTACAGGTATTTTTTCTCCTGGTTTTACTATTATTATATCTCCAACTTCTACTTCATCTATAGGTATTTCAATTTCTTCATTATCTTTTATTACAAGAGCAGTTTTAGGTTGTAATCCCATTAATTTCTTTATTGCATCAGATGTTTTTCCCTTTGTTACAGTTTCTAGATATTTTCCAAGAAGTATAAATGCAACAATTACTCCAGCACTTTCAAAATATAAATTATTTGTAAATTCTAATTTACCGTTCATTATTTCAAAAGTTCCATAAAAACCATAAAGTATCGCTGCTGATGTACCTAAAGCAACAAGTGTATCCATATTTGGTTCTCTTTTTATTAAATTTCTAAACCCGTTAATATAAAATTTATTACCAGCTATGACTATTGGTATTGTTAGTAGGATTTGTATAAATGCAAAATTTATAGGATTTATTTCTGGATTAATTATTTTTAGTAATGGAAGCCCTATCATATGTCCCATTGCTATATACAATAATGGAATTGCAAATACTGTAGCAGTTAAAAATTTATACCATAATATTTTTATTTCTTTTTCTTTTCTTAGTTTATCCGCATCTATTTCATCAGTTTTATCTATTTCAAGTGGTGTATAACCCGCTTTTTTTATTGCTGATTTTATATCAGATAATCTTGTCATATCACTATTATAATTAATTATAGCTTTTTCTGTAGCAAAATTTACAGTTACGTTATCTACTCCTCCTAATTTTCCTACTCTTTTCTCAATTGCATTAGCACATGCAGTACAAGTCATTCCTTCAATAGGAATTATTACATTTCTTGTTTTTTTCTCTTCTTCAAGATTATAACCACCCTTTTTTACAGCATTTATTATATCTTCTTGTTTTACTTTAGTTTCATCAAAAACTATATTTAATTTTTCTATAGCAAAATTTACATTAGCGCTCTCTATGCCTTCTATTTTTTTCAAGCGTTTTTCTATATTATTAGCACATGCAGTACAAGTCATTCCAATAACATTGTATTCTTTTTTTTCGCTCATTTTTTTACCTCCAAAGTTTTAATTATATCCAAATTATAAATTTTAGTTTACTTTTAAAAGTAAACTATTTTAATGTTTAGATTTATTATTTTTTTCATTATTTTCTGCCAATGTATTTATAAGTTTATTAAATGATTTCTTTATTTTTTTTAATATTTCCAACATTCTTATCACTCCTTTAAGTTTTTAATATACCCCCTATATGTATTATATGATATTTTAATTTTATAATCAAGTTTATTTTAAATATTTATTAAAAAAATTAAAATTTCTTGACAATACTATATAATATTTTATATACTTAAGTGTAAATTAAATAAAAAAACTTCGGGGCAGGGTGAAACTCCCGACCGGCGGTGATAGTCCGCGAGCTATATTTATATAGCAGGAACTGGTGAAATTCCAGTACCGACAGTAAAGTCTGGATGAGAGAAGTAAAGTATAGTTATAGTATTTAGTAATAAATATTATTTTTTAAGTAACTATATATTTTAATATATTTTGCCCTGATTTTAATCAGGGCTTTTTTATTTATTAAATGAAAAAATTAGGAGGAGAAAAATATGAGAATATTTGAAGGGGATTTTAACGGAGAAAATATCAAAATAGGAATTATTTGTGCGAGATTTAATGAGTTTATTACTTCAAAGTTATTAAATGGAGCAGAAGATGCTCTTTATAGACATGGAATAACTAAAGAAAATATTGATATAGCATGGGTACCAGGTGCTTTTGAAATACCATTAATTGCTAAAAAAATATCAAAAACAGGTAAATATGATGCAATTATTACACTTGGAGCTGTAATTAGAGGTGCAACTCCACATTTTGAATATGTATGTGCTGAAGTATCAAAAGGAGTAGCTCAAGTAGGATTAGAAAGTGAAATTCCTGTAATATTTGGTGTACTTACTACAAACACAATAGAAGAAGCAATAGAAAGAGCAGGAACGAAAGCAGGAAATAAAGGATTTGAAGCTGGAATGAGTGCAATAGAAATGGTGAATTTAATAAAAAATTTAAATTTTTAAGAAAAAACTCTATATTTTATTAATAAAAAGGAGTTGTGATTATGCAAGAAAATAAAATTCATGAAAAATATATGAAATTAGCTTTAGAACTTGCTAAAAAAGGAGAGGGAGCCGTTAATCCCAATCCTTTAGTAGGAGCCCTTGTTGTAAAAAATAACCAAATTATAGGGAAAGGTTATCATAAATATTTTGGTGGACCTCATGCTGAAGTATATGCATTAAATGAAGCTGGGGATAATGCGAAAGGAGCAGATATATATGTAACATTAGAGCCTTGTAGTCATTATGGAAAAACACCACCATGTGTAAAAAAAATAATAGAACATAATATTAAAAGATGTTTTATTGCAATAAAAGATCCCAATCCACTTGTGAGTGGAAGAGGAATAAAATTATTACAAAAAAGTGGAATAGAAGTAAAAATAGGGATATTAGAAAATGAGGGAAAAGAGATAAATAGAGTATTTTTTAAATATATTAAAGAAAAATTACCGTATATACACATAAAAATAGCTACTACATTAGATGGAAAAATTGCAACAAAAACGGGAGATTCAAAATGGATAACAAATGAAAAATCTAGAAAATATGTACATTATTTAAGAAATAAATATATGGGGATTTTAGTAGGGATAAATACTGTTAAAAAAGATAATCCAAATCTAAATGTAAGAAATGATAGTCTTAAAAATCATAGAGATCCTTTTAGAATTATTCTTGATCCAAGTTTAAAAATAGATAAAAAATTAAATATTATAAAAAATAATAATGATGAAAAAACAATTTTAATTACTCAAATTAAAAATAAAAAAGAAAAACAAGATTTTATAGAGGAATTATCAAATAAATATAAAATTAAATTTATATTTTTAAATGAAGAAAAATTTAAATTTAAAGATATTTTTAAAGAAATATATAATTTTGGAATAGATTCGATACTTGTAGAGGGCGGAGGGTTTGTTCTATCAAATTTATTTAAGGAAAAAGAATTAATAGATGAAGGGAGTATATTTATTGCACCTAAAATTTTAGGGGATAAAGATGCATTATCATTTATAACGGGATTTGAGATATCTAAAATAAAAAATTCTATTCAATTAGAAAATGTATCATTTAAAAATTTTGACAATGATATCTGTTTAGAATTTAAAAGAGGTGAGTAATATTTTTACGGGTCTTATAGAAGAAAAAGGAAAGGTAATTACTTTAACAAAATCAATTAATGGATACAAAATAAAAATTAGAGCAAAGAAAATAATGGAAAACATAAAAAAAGGAGATAGTATAGCGGTAAATGGAGTATGTTTAACAGTTAAAAAATTTTCATTAAATGAATTTGAAGCAGATGTGATGAATGAAACATTAAAAAGAAGTAATTTAAAAAGATTAAAGATAAATGATGAGATAAATTTAGAAAAATCTTTAACTCTTAATAGTTATTTAGGTGGTCATTTAGTAACTGGAGATGTTGATTGTGAAGGGAAAATCATAAAAATAATAAAAGATGGATTTGCAATAAAATATGAAATTGAATTAGAGAAAAGATACCTTAAATATATAGTAGAAAAAGGAAGAATAACAGTAGATGGAGCAAGTCTTACAGTAATTGATAATACAAATAGAAGTTTTACAGTATCAATAATTCCTCATACTCAAGATAATATTATTTTATCAAATAAAAAGATAGGAGACTATGTAAATATTGAAACAGATTTAATAGCTAAACATATAGAAAATTTAATTAAAAATGAAGAAAAAAGCATAGAAAAGTTATTAAAAAAATTTTAAGAATAAAAAGGAGGAATAATGAGTGAATATAAAAAAACTTTAATTAATAAAATAGAAACAGCATTGGAAGATTTAAGAAATGGTAAAATGATAATTGTATCAGATAATGAAGATAGAGAAAATGAAGGGGATATAGTATTAGCAGCAGAAAAAGTCACACATGAAAATATAAATTTTATTTTAAAAGAGGCTAGAGGCCTTATATGCGTGCCAATGACAGAAGAGAGAGCTTTAAAGTTAGGATTAGATATTATGGTGAAAAATAATACTGATGAACATGGAACAAATTTTACGATATCAGTAGATTCAAAAAGAACAACAACAGGAATATCAGTAGAAGAAAGAAAGAGAACAATAAAAGATTTATCGAAAGAAGAATTAACGAAAGAAGATTTCAAAAAACCAGGGCATATATTTCCGTTAATAGCTAAAAAAAATGGTCTATTAGAAAGAAAAGGACATACAGAAGCAGCAGTAGATCTTTTGAAGCTATCCGGCTTAACCCCAGTAGGAGTTATTTGTGAAATCTTAAAAGCGGACGGAACAATGGCAAGAAGAGAAGATTTAATAAAATTTTCGAAAAAACATAATCTAACCTATATAACAATAGAAGAAATATTAGAATATATAAAACTAAAAAATGATTTAGTTGAAGAAGTAGTAAGCACAAAACTCCCAACAAAATACGGTGATTTTAATATTACAGCATTTAGTAATAAAATAGATGAAAAAGAACATATTATTATACACAAAGGAGAAATATATAATCAAGAAAATATTTTGATGAGAATTCATTCGGAATGTTTCACAGGAGATATATTAGGTTCATTAAAATGTGATTGTGGATCGCAGCTTGAAAAAGCAATGAAAAAAATAAATGAAGAGGGTAGAGGTATAATATTTTATTTACGTCAAGAAGGAAGAAATATAGGATTGTATAATAAATTAAAAGCGTATAAGCTCCAAGAAGAAGGGTATGATACAGTAGAAGCTAATAGAAAACTTGGATTTTTATCTGATGAAAGGGATTATTTTTATGTAATCCAAGTATTAAAAAAATTAAATATTTCTTCTGTAAAATTAATGACAAATAATCCATCTAAAATAAATTTTTTAGAAAGATATGGTATAAAAGTAACTAGAAAAAATATAGAAATAGAATGTAATGAGATAAATTATAGTTATTTAAAAGTAAAAAAAGAAAAAATGAATCATATATTAGAAAAAATATAATAATTTTTAAAGACCTATTTTTAAGTGAATAAAAAAGGTCTTTTTTTTTAATCATAGATAAAGTATACTATTATTAATAAAAAAATAAAAATTTAGGAGGAATTTATGGAATTTTTAAATCTTTTATATAAAAGAAGAAGTATTAGAAAATATAAAGAAGAAGAGATTAAGCAAGAAGAGTTAAATAAAATTATAGAAGCAGCATTGTTATCACCAAGTTCGAGAAATAAAAAATCCTGGAATTTTATGGTAATAAGAAACAAAGAAATAATAGAGAAATTAGCATTATCAAAAGAAAGAGGATCGGAATTAATAAAAGAATCAAATGTTATAATCGTTGTACTAGGAGATAGTTCAATAAGTGATGTATGGATAGAAGATTGTAGTATTGCATCTATAATAATACAATTAGAGGCAGAAAATTTAGGGATCGGATCTTGTTGGATCCAAGTAAGAAATAGATATCATAATAAAGAAAAAAATATTACTTCAGAAGAATATATAAAAGGGATATTAAAAATAAAAGAAGAAGAAGTTAGAGTGGAGTCAGTAATAGCATTAGGATATAAGAATGAATATAAAAAAGAATATAAAAAAGAAGATTTAAATTACGAAAAAGTAAAATTTTTATAGATATATAGGGAAATATATTATTTCAAACAAAAAGAAAAGGAAAAAACAAATGAAAAAAATATTAATAATAATATCAATATATGTTTTTATAAATATAAATATTTACTCAAAAATTTGGAATCCATATATTGGAGCATTTAATGGTCATTATGATCTAAGTGTAGGAATGCATGTATGGAGTGATAAATTAGATTTTAGAAATTTACAATTAAGAACTACTTTTGATATTTTACCAGGATTTAGATTTAATTCATTAATTCGTACAAATAAAGAGTTTAATGAGATAGAAACTTTTGAACCTGTCTTTGATGAAATATATTTAGAAAGATATTTTTTTAATAAATTTAATGAAAATAGATTAGCATTTAGTCTAAAAATAGGGAATATAAGATATTTAAGATTTCCTGAACCAGACATAATATCACAGTTTGATCAAGTGCCAGGAACTGAAGATTTAAGATATGAAAGTGCAAAAACAGGATATAAAGGAATATTATTAACGATAGAATATAATACAAAATATAACATAGGAATACATAGTACATACTTAGATAATTTCAATATAAAAAAAGAAGATAATTTTATTGAAAAATATATATATCTAAAAAAATATTTTAAATATATAAATTTTGAAAGTAGATATGGATATATGCAACTTAGACATCCAGTAGGAAAAATAATAAGAGGCCCGTCACCATATCAATTAGGAGCTAGTGGAAAAGGATATAATGTGTATTTAGGTAGTGAATATAAAGGATATAGAGCAGGAATATTTTATGAAAATCTTTATGATAAAAAATATAAAGTAAACGATATACGTACTGGAATATTAGTTCAATTTGCAGATTCTAAAGTAACCCAAGCATTAGGAAGTGTAAGGTTTGATTATACAAGAAATCCAGAAGGATTCGGAATAACAATTCCAATATTACATGGAAATATAGGTAATATACAAAAAGATATACCAAAAAATAGTAAATTAGTAGGAGAAATATATGCATATAGAACAATAACATATTGGCAAAATGGACAAGGAAGAAATTTTTATGAACATAGAATCAATTATTGGGGTGATGTAGAATCAAAAGATTTAATAGTAGTAATGGAAGAAAAACCATGGTATTTAAAAATAGAATCATTAGTAAGTCCACATACAGAAATAAAAACAAAGGAAGATATAGTAGATTGGGAAAGAGATAGACAAGGACCAGCAGAATTAAGACAAGAAGTAATATATAAATTTTATAAAAAATAACATAAAAAACATAAAATTTATTTTGAATATTAATAACAAATAAAAAATGGAGGAAAATATGGCAGAAGTAATAAACAATAGTAAAAAACGTATAAATCAATTAGTAGAATTTTCAATAGAAATAATGGAAGAAAAAGAGAAAGGGAAAAAAATTTATGAAAAATATAAAGAATTAATAGAAAATATAACACCGTATGAAGTATTGAATTTAGGAGATCAATTATTAGAAAGAGGTTTAGAAATAAAATATATAAAAGAAAATATAGAAAAAATTATGAATATATTTCATACTTCATTAAAAAATTATGAATATGAATATCCAAGTAAAAAAAATCCTGTTTTTTATTATTTTCAAGAAAACATAAAATTAGAAGAAAAATTAAAAAAAATTAAAGAGGAATCAATAATAAAACAAGATATAAAAAAATTAAATAAATACTTAAAAGAAATAAAAGATATAGAAAAACATTATATAAGACAAGAAAATATATTGTATCCATATTTAGAAAATATTTGGAGTTATACAAATCCATTGAAAATATTATGGTCGTTACATGATGATGTAAAAAAAGATATAAAAGAGTTAATTGAAATAACAGAAAAAGAAAAAAAATTTACAAAAGATTTAAATATGAGAATTGGAAACTTTTTTTTCTTAATATATGGAGTAATTTTTAAAGAAAATTTATTAATATTTCCAGAGGCATTAAGAACGATCCCAAATAAAAAATGGAATGAAATTTTAAAAGCAGAGTTAGAAATGGAATTTGCATTTATAGAAAAGCCAAATATAGAAATAGAAAATTTAGATATATCTGAAAACAATGGATTAAAAGAAATGACTTTTAAAGTAGAAACAGGGGAGTTATCATTTAATCAAATAGAATTAATTTTTAATAATTTGGCAATAGATATAACATTTATAGATAAAAATGATGAAGTGAAATATTTTTCAAATCCAAAAGATAGGTTTTTTCCACGTTCACCTGCAATAATAGGAAGAAAAGTTCAAAATTGCCATCCACCTGAAAGTGTACATGTAGTAGAAAAAATATTAGCTGCATTTAAATCAGGTGAAAAAAATGAAGCTGATTTTTGGATAAATATGAGAGGAAAAACAATTTTAATACGATATTACGCATTGAGAGATAAAGAAAATAATTATATAGGGACCATAGAAGTAAGCCAAGATATAACAGAAATTAAAAATATAAAAGGCGATAAAAGATTATTGGACTGGGAATAAAATTTATCTAAAAGAAAAGAGTAAAAAGAAGAAATGAGAAATAGGAGAAAAAATGAAATATAGAAAAGAGATATTAAATAATATTATATATATTAATATAATTTATATATTTTTTACAGCATATACATTTACAAGTACAATAAAAAAAGATTTTATAAAAGGTGTAGATATATCAATGTTAAAACAATTAGAAGATAATGGGGCTAAATTTTATGACGAAAAAGGGATAGAAAAAGATTGTATTGAAATATTAAAAGAGCATGGAGTTAATTGGATTAGAATTAGGACATGGGTAAATCCAGTTGATAAAACTGGAAATTTATTAGGGGGTGGAAATAATAATAAAGAAACAACAATAAAATTAGCAAAAAAAATAAAATCAAAACAATTAAAATATTTGTTAGATTTTCATTATAGTGATTTTTGGTCGGATCCTGGCAAGCAATATAAGCCAAAAGAATGGGAAAATTTAAAAGGAAAAAAATTGGAAAAAAAAGTATATGAGTACACAAAAGACATGATATTATCCTTAAAAGCTCAAAATGCATTACCTGATATGGTTCAAATAGGAAATGAAGTAAATGGAGGAATGCTTTGGCCAGATGGAAAAACTTGGAAACAAGGAAAAGAAAAAATAGGAGGATATAATGGTTTTGTAAAATTATTAAAAGCAGGGATAAAAGCTGTAAAAGATATTGATAAAAAAATAAAAATAATGATACATTTATCAGATGGTGGAAATAACAAATTGTATAGAACTGTATTTGATGAATTAATAAAAAGAAAAGTAGAATTTGATATTATTGGAATATCATTTTATCCGTATTGGCATGGAACATTTAATGAATTGACGGAAAATTTAAGTGATATTTCAAAACGATATAAAAAAGATGTAATAGTAGTAGAAACAGCATATGCATATACATTAGAAAATGGAGATAGTTTACCAAATATATTTGGTAAAACAGAAGAAAGAAAAGTAGGATACATAGCCTCAGTAGAAGGTCAAAAGCAAGTGATAAAAAAATTAATGGATATAATATATAATGTACCAAATAACAGAGGAAAGGGTTTTTTTTATTGGGGAGCAGAATGGATTCCGATAAAAAATAGTGGATGGAAGATAGGAGAAGGAAATGCATGGGAAAATCAAGCAATGTTTGATTTTAATGGAAAAGCATTAGAAACATTAAATATATTTAAAGAAAATCCATAAACTAAAAAAAAGTTATGCTATAGATAATATAACATAACTAAAAAAAAAAAACAATTTTTAAATTTATTCAACAGTAACAGATTTAGCTAAGTT
>sequence03
AACTTAGCTAAATCTGTTACTGTTGAATAAATTTAAAAATTGTTTTTTTTTTTTAGTTATGTTATATTATCTATAGCATAACTTTTTTTTAGTTTTCTAGGAGGTTACTCATGATAAAATCTTTAAATACAATATCAAAACTATTAAATTTAGATATTGATATATTAAAAAAATCTTTAATTGATAAAAATCTTAAGAATGAAAGCTTTATCGAGATAGATATGAGAGATTTTTTTACTGATAAACTTTATTTTTTACCTAGTGAAAATTTGTATATTTATTTTTTTGAAAACTCTTCTAATAGAAATAGATCTACTTTTATTTTAGAATTCTTTAAATCAATGTTAAATATTAATAAAAAATATTCAAAAATTAATATAAAATTCTTTTTATTACAAAATAATGAAGTGTTGGAAATTAAAGATATTTTCAATCGTCTCCCTTATTCTTTAGATCGTTATTCACCTGACTTTGAGTACATTTTAAAAGATTTTGAATATTCTACGGATGAAAATTTAAAAAAAGAAATTAAATTAAAAATGTTTTCTCAAATGATTAAATTTATTTCAAATGATCCTGAATTGATTCAGATTACAAAACTCTTATTAAACAATTAATTATTTCAAAGAAAAATTTTAATGGAAAATTTAATATTTTTAAAATTTAATATTACAAAACGTCTTTCTATTAATTTAGATCTAGAATATTTACAAAACATAGTGTTCTCTGTGCTTAATCTTAGATGAGACTGAAAGTAAAACTTTATTAGTCAATCAATATATACTTAAGTTTAAATTCATGCAGGTGTTTATATAGAAATTCGAGAAAAAACAGAATATCACAAAGAAAATTTATTTTTTATTTATAAACATCCTGATTCTTTATTTATTTCACCTGAATATTACTGAAAATTCATTTTTTTATATTTTAAAATTAAATGATAATAATATCGAATCTTCTGAATTAGAACTAGATTCCGACGAAAAATTAATAACTCACTTGTTTAACTTTGAAAAATTACTTATCCCTACTAAAGAGTTAAAGTAAAGTATTACCAAGTCTTTTCTATTATTTACATCTAAGATCCACTCCCTAAATTTTTGCTTCTATACACACTATTTTTTTGAAATTTTCTTTCTTTTATTCTTTTTTCCGTAATTCTTTTATTATTCTCTTACTTTCTAATATTTTTCTTGAAAAAATAAAAAAAATTCATTATACTTAAAAGAAATACTATTTAAAAAGGAGAAAATTATGATACAAGATAGTTATAAAAAAGCTATAGCCTATGTTGGGAAAAAATATGTTAATGATAAAGTTTCTTGTATTGATGCAAATTATTTAACATATCTTTCGACTATTACAATGGAAATATTTGTAGCATTCAATAAAGAACCTAATTTTAATTTAGAAATCGCTATTCAAACTGCCTTACTTCATGATATTTTAGATAATACCAAAACAAATTTTAATGATTTAAAAGAACAATTTGGAACACACATTGCTACTACAGTTTTAGCTATTACAAAAGATAAGACAATAATTAATAAAGAAGATTCTATAAAAAATAATCTTAAAAGAATTAATGCTACTTTTAAAGAAGCTACTGTTGTTAAATTAGCTGAATTAATTACAAAATTAGATACTAAAAATTGTGACATTCAAAAATTTAACGAAATAATTAATGAAAGTAAATATTTTTTAGAAAATTTGAAAAATAAAAATTATTTTTTAGAAAATAGACTAAAAGAATTAATTGAAAAAAATAAAGAATTTTAAATAGAGCTTTTATAAGCTTTATTTTTTATTATAATATTTTAAATTGTATAACTAAGTATTTTATGTTAAAATAAGAGGAAAACAATATAAAAGGAGTGGCAAAAATTGAATAAATTTAATTTATTAAATGCAACATATGATGAACTAGAAAAATTTTTATTAGAACTAGGATTTAAAAAATTCAATGCAAAACAAATATATTCATGGTTGCATAATAAACTAGTTAGAAAAATTGATGAAATGACAAATATCTCATTAAAAAACAGAGAACTTTTAACCGAAAAATCTTATATTCCTCTATTTAATGTATTAAAACAACAAATTTCAAAGATTGATGAAACGGAAAAATACTTATTTGAATTAGAAGATAAAAATACTATAGAAACTGTACTTTTAAAACATAAAGATAGATATACTATTTGTATTTCTACCCAAGTTGGATGTCCTGTTAAATGTGATTTTTGTGCTACTGGAATGGATGGTTTTGTAAGAAATCTTGAAGTGCACGAAATACTAAATCAAGTATATACTTTAAATAGACGAATAGAAAAACGTGGATTTAAAATTAACAATATTGTATTTATGGGAATGGGTGAACCTTTTTTAAATATTGATAATCTTATAAAATCTATTAAAATTTTAACTGATAAAAATGGTCTTGATTTTTCTATTAGAAAAATTACTGTTTCTACTTCAGGAATAGTTCCAGGTATAGAAAGATTAATGGAGGAAAAACTTCAAATAGAATTAGCTATATCTCTTCATTCAGTATTTAATGAGAAAAGAGATATGATCATTCCTATTAATAAAAGATATCCATTAGAAGATTTAATCGTTGTTTTAAAAGAATATCAACGTATGACTAAAAGACGAATTAGCTTTGAATACATAATGATTAAAAATTTTAATGTTGGTCGTAATGATATGGAATTTTTAGCAGATTTAATGCATGAATTCGATCATATTCTTAATTTAATTCCCTATAATAGTATCGAAGGAAAAGATTGGGAAAGACCTCATGAAAATAAAATGAAAAGTTTTTATGAATACTTAAAAAATGATCGTAAAGTAAATGTAACATTTAGACAAGAAAAAGGTGCTGATATTAATGGTGCTTGTGGACAATTAAGACAAAAAAATAGGTGATTACATGAAAAAAGTTAATAAATTAACTATAATTTTATCATTTTTAATAATATCAATCTCTACTATAACTGGAGCTGGATTTTTTTTAATTTATAAGGCTTATAGTGATTTACCTGATATCTCAAAACTTATTGAGGAATATGACCCTATAATTCCAACAATAATTTATGATATAAATGGAGAAATAATAGATAAATTCTATAAAGAAAATAGAGAAATTGCAAAAATTAACGAGATCCCTCTTGAAGTTCAAAATGCATTTTTAGCTATTGAAGATAAGAATTTTAGAACCCATTATGGATTTGAACCTCTTAGAATAATTAAATCAATCATCATGGCTCCTAAATATATTTTAGCTCATAGAAATATCCCTGGTGGTAGTACTATTACTCAACAACTTGTAAAAAATGCATTTCTTACAAATGAACGTAGAATAATGAGAAAAATAAAAGAAGCTCTTATAGCAATTGAAATAGAAAAACATTATACAAAAGATGAGATATTAGAAAAATATTTAAATGAAATATACTTTGGTGAAGGAGCATACGGTATAAAAACAAGTGCTCACATATTTTTAGGAAAAGAATTATATGAACTTAATCTTGCCGAAGCTGCACTTCTTGCTGGTATACCAAATAGACCTGCAAAATATTCTCCTATAAGACATCTTGATAATGCTATCAAAAGAAAAAACCTTATTTTAAATCAAATGCTAAAATTTGGATTTATTACAAAAAAACAATATACTAATGCAAAAAAAGTTAAATTTATACTTGAAGACAAGGCTACTGAAGAAGATAAAGAAAATCCTTATGTATCTATTATATTAAAGAATAAAAAATCTCGTCGTGGAGTAATAGCCCCGGATTTTGTTGATTTTGTCGATAATAAAATCTTTGAAATGTTTGAAGCAAAAGATATATATGAAGGTGGAATGAAAATATATACTACTCTTGATCTTCGTATGCAAAAAATAGCTGAAGATGTTTTTTCGAATTCTAATATCTTTAAAAAAAATCCTGATTTAGATGGAGCTCTTATTACTATAGATTCTAATACCGGATATGTAAAAGCTGTGATTGGTGGAAAGAATTATAAAAGTAAAAATTTTAATAGAGCATTTCAAGCTTTAAGACAACCAGGTTCATCATTTAAACCATTTTTATACTATACTGCATTAAAACATAATTATCAGATGAATTTAGTTGTTGAAGATAGTCCTTTAGAATTTGGAGATTGGAAACCAGAAAATTATTCTGGTACTTTTGAAGGTAATATCACTATTTTGGAAGCTATGGAACGTTCTAGAAATATTCCTGCTATAAATTTATTGCAAAAAGTAGGAATTAAAAATTTAATTACCGAAGCTAGAAGATTTGGAATTAGTTCTAAAATCCCTTATAATTTAACTATTGCTCTTGGAAGTTTAAGTTTATCTCCTTTTGAGTTGGCAAAAGCATATATACCATTTTCAAATGGTGGATATAAAGTAAAACCAATTTTTATTACAAAAATTACTAATAGATATGGTAAAATATTATTTGAAAATAATATTAAAAAAGAAAAAATAGTTGATAATACAGAAATTGCTATGCTTGTTCATATGATGAAAGATGTAGTTAAAAATGGTTCTGGAAGAGGTGCTCGTGTAAAATATTTAAATCCAAAAACAAATAAAATTGAATATATTGATCAAGCAGGTAAAACAGGTACTACTAATGGTTTTAGAAGTGCATGGTTTAGCGGATATACACCTGATTTTGTTACTACTCTATATCTTGGAAGAGATAATAATACTCCAATGGGTAGAGGAATGACTGGTGGTGGAGCTGCTGCTCCTATTTGGGGAAAATATGTTCAAAGGTTAATAGATGAAGGGATTTATACTCCTACAAAATTTGAATTTTTAGAAAACTTAGTGAAAGAAAAAGAATTAAAATATATAGATATTGATTCTAGAAATGGTTTGCTGAGTGATGGTAGTAGCTATCGAATAAGAACTGCTTTATTTAAAAAGGGGTATGAACCAGTTGAATACTCAAACAAATATAAAAATGGTTTAGATGAATTTTTCCCTAAATCATTAGATAACAATTTTAATTCTAAAAATCCAAATAACAATTCAGAACTTAATAATGAAAAAAACTCCAATGATGAATCAATAGATACTGTAATAAATAATTTAAATATTTTTAATTAAGTTAAAAAAATAAATACTTCTCTTATAATAAACAGTTAAAATAATAAAATTGTTTACTATATGAAGAAGTATTTTTTTATAGTAAATTACTCTTATATATAATAAAAAATGACATCAATTATAATTAAATAATTGATGTCATTGTGATGTCATTTTCACTTTTTTTATTTATGAGATATCTGTTCACATTTATAAAAAACTTAATTTATTTAAATTCATACCTTGATATTACTGGATTGTGATCAGAATATTGACCCATATAATCTGTATTTATAGGTAATATTTCTATTTCAGGGGAATGATTTTTTAAATTTTTTGATATTAGTATATGATCTATCGCTTGAGCATTTCCTTGAAAATTATATGAATATCTTTTATTAAAAGGTAAAGTTTCTATTAAATTTGTAAGTATATTTCCCTTTAATACTTTTATTGGATTTGCTGCATAAAATTCATTAAAATCTCCTAATACTACTATATTTTTATTTTCATCTTTTGACAATACTTCTTGGACAAATCTATGTATAATCTTAGCTAATTTGATTCTTTTAGCTTCACTACTTAATACTACAGGTTGTTTTGCGCCCCATAAAGGATCATCGCCACCTTTAGAATTTAAATGATTTCCAAAAACTAAAATTTTATTATTTTTAAAATAAAATTCCATTGCAAGACTTCTACGAGTTCCTTTAAATATTGGTTCTTGAGGATAAATTCGACCAGGGTTTAATAATAAATCTCCATTTTTATCTAATCCTGCATGATCTAATGAACCTGCATTTCCTCTTTTATTAAATTCTACTCTAGTATCTCTATAAATAGCTGCTACTCTAATATTACCTCCAGGTTCTCCTCCTTCTAAGTATGCTAACGGATTAATATTTATATATTTATAATCTGTAGCTCCTCCTTTAGATTCTATATTATTAATTAAATTAGTCAAAGTTTGGTCTGCGTCAACTACAGGTGAACCATCTTCACCATAATTATCAGGCCCATTATTATCTTGAATTTCAGTAAATACTATTATATCTGGTGATTTCATATTTTGAGCTATAATCTCTGCTATATATGGTATTTTTTCATGAGTTGCATACATATTTTCTACATTAAATGTTGCTATTGTTAAGTGATTAGCATCGCCTACTAAAGTTGCTTTCGGTCTATCAGATAAAGGAGTATATGATGTTCTTGGATTTTTAGCTGTTATATAATCATTAAATAACAAATCATACTCTCCGTCACCAAACGTATTTACATTAAATGCTAATATTCCTGTTATATCTTCTAATTCATCACCTACATTAAATATTCCATTTTTAAAACTACTTGCATCTCCTGGTTTTACACCATCTTTATTATAATAAACATGATTTACTAGTCTTAATATCTCTGGATTATAATCATTTTTCTCTACATCAATTATTAATCCATTAGATGGGGTAACTTGATAATCATTTGATGTATTATTTGCTCTAACATATAAATTGAAATATCCTTTACTTTCTAATGCATCATTTTTACCACCTTTAGCTCCTGTTACAATAGGTTTTTTCACTTTAACTAACATTCCTTCTAAACTTTCCCAAAATCCTATTCCATCATTTAAATTTAATTTTAAACTTTGATTTACATTACCTTTATAAGTAGAAATATGTCTATTTGGTATAATTCTATCACTTCCTTCACCTAATTCAACTGGTGACGGTAATGCAACATCTTTTTCTCTTAAAATAATTTTATTTACTGAAGTTAATGATGTTCTTGTAAGTCCTGTTCCTGTATTTGTTTCTTCTACTTTTCCTTCTACTTCAACAAGATTTCCTACTTTTATAATTAAAGAATATTTATTATATGTTGTTTTATCTAATTTAACATATATAGCATCAGATGTATAATTATTATTATCACCATATTTATCTTGCATATAAAAACCATAATTATTATTATAACTGTCTGCTGTATATGCTGTAATTATTCCACGTGTTTTTAAATTAATTCCTATTAAATCCGACTTATATTTTTCTCCTTGAATAGAATATATAGGGATTATTTTATTTTTATCAGAAGTTGTTGAGTCAATAACCTTTACTTTAGAATTAATTTTATTTAAAAAATTATATTTATTGCTTTTTTTTAAATAATTTATAACTAACTCACTTGCTTTTTTTTCTGTTTTTTGTACTTTTAAATAATTAAACTTATTTCCATAATAATATCCTGGAAAACTTGATTTATAATCATATTCATAATATATAAATGCTACTTTATATTGTTTATCTAAATCAAATGTTCTTCCATTTCTACTTATATTATAATTTTGTACTTCTCCACCTTTTATTGTGATATCATATTCTATACCATTAGTATGTATGTCTATTGCATTATTTTTTAAAGTTCTTTCTTTTATAAAATCTTTTATTTTAGATCCACTCATATATGATATGCAAATTAAATCTTTATTAGTTGTTGTATCATAAAGAGATTTTATATCATTAGATGTTTTATTTATTAATCTTTCATTTATATCTGTTTTAGTCAAGTCTAAATTCAAATTTAATGAAATATTTTTTAAATTTGATTCTGGATAAAAAACTATATCTACTCCTAATTCATTTTTTATAGCTTCTGTTATAAGATTAGCTGCTGGAGTAGACGTATACTCACTATTATTATTATTTAAGTTCAATTCTAATTTATCATTTGAAAGAGGAGATAAATCTTTATTACACGAAATTAAAAATAATAATAATGAAAGCATTAAAAAAAATTTATTAAAAATTTTCAATTTTAATACCTCCTTTAAGGTATGCTCTTTGATTTTAGTCGGAGAGTGTTCTCCGACTTTTTATTAATTTTTTAATTGAATTTTATTTCAAATTAATATTAAAATCACTTAATCTATATGTTGTAGTTTCATTATTAGTAGCATTTCCATTATATTTAAATGCAATAACTATTTTTTTACCTAAATAATTATCTAAATCAATTGTAGTATCAACTGTCTCGCTATTTGTTGGTAATTGAATGCTACTTGTAATATCTGTCCAATTAGCTTTTGATATATCACCATTAAAATCTTCAGATATAAGTACACTTAATCCGGAATGTTTATAATAAGCAGCTTGAATTTTTAATGTTACATATGATTTAACTGTTACATCAAATATTGGTGATATTAAATATGATTCATTTTCAGCATCACTTGAGTTATATGCACTTATAGATGTATTTTTATATTTTGCGTTACCTTCCCATGCTCTTGTTCCTTTCGTAATTATACTGTACCATCCTCTACAAGTAAAATTATCATCTCCTAATGATTCTGTATAATTACTATTTAGTGTTATAGTAATTGGTTTTTTAATAAATTTAAAATTTTTAATGGCATAAGTTGTAGTTTCACTATTATTAGCATTTCCATTATATTTAAACGCAATAACTATTTTTTTACCTAAATAATTATCTAAATCAATTGTAGTATCAACTGTTTCTCTAGTTGATGGTAATTGAATGCTATTTGTAATATCTGTCCAATTAGCTTTTGATACATATCCATTAAAATCTTCAGATATAAGCACACTTAATCCAGAATGTTTATAGTAATCAGCTTGAATATTTAATGTTACATATGATTTAGCTGTTACATTTAATACTGGCGATATTAAGTATGTTTCATTTTCAGCATCACTTGATTTATATGCACTTATAGATGGTGCCGTATATTTAGAATTATAACTCCAATTAATATTTCCTTTTGTTATTTCTGTTAACCAACCTGTTTGAGTGAAATCATCACTTCCTAAAGTATCACTAAATCCTGTATTTACTTCTGTAAGTGTAATTATAGGAGGTTCTATCTCTTTTTTAGCATTAGATGTATATGTTATTATAGTATTAAGTTTTGTATACTCAGTAGAACTTGAATTAAATTTTGATTGTGCTAGAGTTTGTTTATTTGCTATCTCATTTAATAAGTCTACTTCAACTTTTTTATTTATAATTATTTGTCTATAATATTTTGATATATCTTTTAAATATGTTAAAACTTCTCTTTTATCAGTTTCATTTAAATTTGAAGCTAAATTTCCATTTTCAATATCTGAAATAAGAGATTCATTTTCATTATAAGCATTATCTATTAGATTTAATTCTATACTATCAACGTTTTTATCTATTGGAGTTACTGTTAAATCTTTATTACAACTAATTATTAACAATAATATTGATATTATAAAAATAATATTTAGACTACGTTTCATAATACCTCCTTCCTAATAATTTAAAATTAAAGTTTCTTTACTACCTTCCCAATTATTTAATTTCGCATTATTTAAATCTAAATAATTTGAATATACCGGATTAGCAAAAATAAAATATTTTTTCCCTATTTTCTGTTTTATTAAATTTTCTTCTTTTATTAAAACTTTTAAATTATTAATGTCTTTCGATGTATAAAAATCTAAATTTGATGAAATAAATATAGATTTTTCATCCCCTAAATTCATCTTTTCTTTTGAAATGATTTTATAATTATTTAACATATATCTTTTTAAGTTTTTATTTAATAATAAAGAAAATTCTTTATCTAAATTTGTTACAAAAACTACATTTATATCTTTTTTAGATAATTTAGTTAACAACTCATCTATTCCAATATTTAGTTCCATATCTCCAGATTTAAGCCATCTTTTATAATTTTTATAATTATTTTCTTTTCCAGTTGTCATTAACCACGCTATATATGGGGTATTATCAAATACTCCATCTTCAAGTTCAATGTATACTTTATTTATATTATTATCAACTTTATTTAATATATTATTTATTATTTGATAATTTAAAGCTATTTTTTCTCCAGATTTTTGAGCCCAAAGTAATGCTAATTTATCTTTTTTATCAAATTTATTTTTTGAATTTTTAGTTTCTATTGATTTATTATCTAAACTACTACATGAAATAATAAACATAGATAAAATAATTAATAAAATATTTTTTTTCATAATATCCTCCTATTCTCCATCCCATATATTTAAACTATATTCTCTAAGTTTAGACTTTTCATAATTTGATGTACTTTCACCAGTTATTTTTACATAAAATTCATTTGAAATTCCTTTACTTTCAAAATCACCATAACTAGGATTTGGTATAACTATCCAATTATTTCCAAACATATTTTTATTTTTTATTACTAAAGAATTTCTAGTTTCATTAGATACATTGTAAAAAATATTAGAAAAATCACTTAATTGATCTCCAATCAACATTACTATATTATATCCAAGTTTTTCTATATACTCTCTTCTAGATGTTTTATCTGAACTAGTCGTTTTTAAAAAAATATGATTTTTATCTACTTGAGAAAATCCAAGTTTTTTCATATTTAACATTGTATCTTTTAATTCTTTTTCACTTCTATTTGAAATATAGATTATATCCATTCCAAGTTTTTTTACATATTTTGAAAATTCTACAGCCCCTGGTATAGCCTTTGCTTCTTTTGCAGCTACCCATTCACTCCAAGTATCGCTAGAAAATCCATTTCCACTATAAATTCTCCATGCTGCATATGGTGTATTATCTAACATCGTTTCATCAAGATCTACTATAACTGCCATTTTACCTTTATTTTCTTTTTTTATTTTATTTAAATTATCTTTTGCTATATTAAAAGCTTGATTGCACAGTAATTTATATTCTGATGAATTTTGCATCCAACTAACAGCTTTATAAGATTCCATTTCTAAGTCTCTTTCTGTGAAATCTTTTGAAAAAGATATAGAAAAAACAATTAAATTAATAATTATTAATTTATAAATTGATTTATACATTTTTTCTCCTCCTAAATTAAAAATTAACATTTATCTTAATACCGTATGATGATAGTTTATCAGTTAAATCATTCACTCTTTCATCTTCTTTTGCAGTCAAATCATCTTGCGTAGAAAAAACATTATTTTTAGCTTTTTTATATTCATAATATGGTTCAATAGATACATTCTTATATGTATATTTATTTCCGACTGTTATTACTTGTAATCCCCCATGAGAATCTGAAGTATTAAAATAATTACTTGAATTAGATAAAGTTCTTAATATATGTGCTGAATTTTCACCATCATATATTAAATTTTCTCCATAATATGCATATTTTAAATATGGTGTATTATTTTTCATTTCATAACTTAATTTTGTCATAAATCCATAATCTTTTTTATCTACCCAACTTTGTTTGTATAATGGTTCGTATGGTACTTTTTGTGCAAAACTACCATCAGAAATATAATATGGCGATTTTCCATTTTCATTATATAATCCTTCTACATAAAAAATAAAATTATTAAAATATTTTTCCATTTCTATTGAAATAGCTGATTTTAATATTGAATGCGATTTTTCACTGTCATTATGTGAAATATAAGAAATTTTAAATTTACTTATTTCATTATCATAATTAAAAGATGCTAAATATCCTACATCAATTCTTTTTTGCCAAATTGTAGGCATTGTTGAATTTTCTACATCAAAATCAACTGGTGAATCATATTGAATAGCTCCAATACCAAAAGTTATATCTTTTACTTCATCTAATTTATAATTAAAAGTTATTCCTGGTAATGATTTTGTTGTAATTTCTGGTAAATTAGTTGTTCCATTTATTACTGTATATCTTTCATTAAAATAATTTACACTAGTTACATCTAATGATTCTATTTCATTTCCAATGTTATTCTTAAAATTAAATGGATAAAAAGTTAATGTAGATTTATTATTTATTTTATGTGAAATATAAGTGCTATTTGAATTTGTGTCTACATAAAATTGCATTCCATTTTCAGTATTTAATTTTGATTCAATAGATACAGATGATTTTTTATCTATATCCTTTTGAAAAATCATAGATAATGAGCTATCATACTCACTTTTATTATTTTTAATATCACTTGAAAATTTTAATTCTAAATCATTAAACTCAATTTTTAAATCAATACCTCCATCTTTTTCATAATAATTGTCACTCGTTAAGAATCTGTTATTATAACTTAAATTAGTTGTAGCATAAGTTTGAGACAAACTATAATTTGATACTGCTAACAATGCCATTAAAAAATAGTATTTTTTCATAATTTTTTGAGAAACTTATATTATTAAATATTAATAATATATTTAGCTCCTCTTTCCTCCTTTCATTTAATAAAATAACCGGTTACACAAAAATATTATATTCTTTTAAAAAACATAATATTCTATATATAACCATATTACCCCTATTATGCACAAATGTACAAATAAATATAAGACACATGTCATATATTAAAGTTTAAAAGTTTTTTAAAAACACGACTTATGTCCTATTATAATTTGCTTTTCAATAATATTATATCATTGTAAAATATTATTATTATATATTTCTAGTAAAAAACATGTAAATAAAGGGGGAAAAATGAGAGAAATAAATAGTAAATTAAATATAATAGGATATGTAAACGATTTTAAAATAAGAGATCTATTTGAAAATTTTGATCTATCCAAATTTTCATTATTTGAATTTAAAAAAAATGAAAGGATTATTGAAAGTAATGAAATAATTAAATATTTTTATTTTCTTGTAGAGGGAAAAATTGATATTATTTATAATACTGTCACTGATAGAGAATTAATCATTGATAAATTAGAACCTTTATCTATTATTGGAGACGTCGAACTTAGAAAATCATATATATCAAAATTTGATGTTATTGCCAGAGAAGATTGTTTTTTATTAGGAATTAATTATAACATAGCTAAAAAATACTTTGAAATTGATTGTAAATTTAATAAATTTATATATGAATCTACTTGTAAAAAATTAGAAAAAAGTGTTGACATTTTTATGCTAGCTAGTTGCTATGATTTAAATAGAAGATTTGCTACTTACTTAATTGATAATTCCAACAATGATGGAGAAGTTAAATATAAATCTATTAGTAACTTAGCAGACCAACTTTTAGCTAGTAGTAGACAACTTACTAGAGTTTTACACTCATTAGAAACATCTAATATAATTGAAAAAAATAATAAAACAATAAAAATTTTAAATATCGAAAAATTATCAGAACTCAGTATAGATTAAAATTTCCTATTAAAACAAAATTTATTTATGATAACTACTAAAAAAAATAAATATAAAAGTATTAAAAAATTATTATATATCGAAAATATTTTTTCCTCTCTATATCTATAATAATAACTAACTACATAGTTTAAAACTAGTAGTTAGTTATAAATCATAAGCAGATTCATTTAAATCTGCTTATAGTTATATTTATTTTACTTTTTTATAAGCCCATTTTATCCATTCACATAAGATTTCTAAATCATCTTTTTCAATAGTTGCTCCACACCAAATTCTTATACCTTTTGGAGAATCTCTATATGAAGCAATATCATACGCTATATTATTTTCTAATAATAATTGTAACAATTTATCTATTTTTTCAGATTCTAAATCTAATTTTAAGCAAACACTTGTATTTGAACGAATTTCTTTTGATATAGGTAAAAAACTAATAAAATCATTTTCTTCGACAAACTTTTCTATAACTGATAAATTTTCTTCACTTTTTTTAATTGCTGAATATATTCCCCCAATAGATTCAATCCAATTTAATGCAACTAAATAATCTTCATTACAGAGCATTGAAGGAGTATTTATTGTAGAACCTTTAAAAATTCCTTCAATTAATTTTCCATTTTTTTTAAGTCTAAATATTTTGGGAAGTGCCCTATCTGGTGTATAATTTTCAATTCTTTTAACGGCTCTAGGTGATAATATCAACATTCCGTGTGCTCCTTCTCCACCAAGTACTTTTTGCCAAGAAAATGTTATAATATCAAGTTTTTCCCAAGGGATTTCCATAGCAAATACTGCTGAAGTTGCATCACAAATAGTTAATCCTTTTCTATTTTTATCTATCCAATCTGCATTAGGAACTTTTACACCACTTGTTGTACCATTCCATGTAAACACAATATCATTATCGCAATCTACATTTGATAAATCAGGTAAGTGTCCATAATCAGCAAAATGATAAGTTACATTCGATAATTTTAATTCAGCTTTAATATCATTTGCCCACTCTCGTCCAAATGCATCAAAGGCAATCACTTCCACACCTCTTTCACCTAAAACATTCCAAAGAGCCATTTCTATTGCTCCTGTATCTGAAGCAGGAACTATTCCCACACGATAATCATCTGGAATTTGAAGAATTTTTTTTGTTTTTTCAATACTTTCCTGTAATTTTGCTTTCCCAATTTTGCTTCTGTGTGAACGTCCAAGCGGTGCATTAGATAATAGATTTAATCTATACCCTTTAAACTTTGAACAGGGTCCAGAAGAAAAATGTGTATTATTTGGTTTTAATTTTGGTTTCATAATATCCCCCTTGTATAAATTTTTAATACTTTTGTATAATTATTTTATAATGATATACAAAAAATATCAAGTTATTTATAAAAAATAAAGGAAAATATAAATAATATAAGTATATTAAAAATAAGAGGAAAATAATTTAATTAAGAAATTGTTTATTAAAATAGTTTTTGAGGGAATAAGGGAAAAGGAGAGTGGGAATAATGTTAAAGAAAAATTTTTGGCTCATTCTTGCTGTAATAATACTTATTAGTTTTTTATCTAATACTTAAAAAATAAAGAGTTATAATATATTGATATTATAACTCTTTATTTTTATTATTAAAATTTACTCTACCTATTCTTTAAAAAAATATGATATACTTATATAAAATATAATGTATATTTTGGAGGGGAAATGAAAAAAAAATTAAAAATAATATTTTTAATAATAAATATATTTTTATTTCAAGGCTGTAAAGTAATTTCGAAAAATATTCAATGGCAAAATATAGAAACTATTCGCAAAAATAAACAAGAACTTGAAACAGGAGATATATTAATTTTAAGTAAAAAAATAGGAACATATACATGGCTTGGACATTCAGCGATATATCTAAAAGAATATGATGTAGTAGCTGAATATCCTCAAATATTTCACGGATTTTACTATGTAAAACTTAATGACTGGCTTAATGCTGTTTCTGATAGAAAAATAAAAATACTACGATATAAAGAAATTAATAAGAAATTTAAAAATAAAATATTTGAAGTAATAGAAAATAATAAAAATAAAAGATATAAAGTAGTCTTAAATAAAAAAAATAATAACGGATTTTATTGTTCTCAATGGGTATGGTATATTTTTTATAAAACAGGTATTGAATTTAATAAAAATATTGACTTGGATTCTGATGGCGGTCCTATTGTATATCCTTATGATTTTTTATATTCAAACAAATTGTATAAAGTTCATATAGGAAAATAATATATCTAATAAAAATTATTTAATTTAGAAAGGAGTATTATTATGGAATTAAAAAATTTTAAAACTATGGATATTAATATTTTATTTAGTATTATTAATATGAAATTACGAGATGAATTTGATAGCTTAGAAGAACTTGTAAAATATTATGATATTGACCAAAAAGAACTTGAAGATAAATTAAATGAAGCTGGATACCATTACGAAAGTAATCATAATCATTTTACTAAAGTTTAAAAATAAAAAATAAAGAGCTGTTTAAATTACAGCTCTTTATTTTTTAATGATAAATACAATAAATATGCAAAATATGATTTTAAATCCGTTTTATTGGCAAAAAAATCATTATCTAATTTATGCCAAGAAGTAATTAAATCCTCTGATTCATCTAAAGATAAAGGTTTTGGAGTTATATTTTCTTTATTCAATTTAAAAATATAAAAATATAATGATTCTGTAGTATAGCCAGGTGATACCAACAAAGGAGTATTACTTTTATATAAAAGTTCCAAACTTTCTTTCTCATATCCTGTTTCTTCTAATATTTCTCTGTAAACAGCAGTATCTGCCTCTTCTCCTGGATCTATAAGTCCCGCTGGAATTTCATAAATATTATTATTTGCACCAGGTCTAAATTGATTAACTAATAATGTTTTAGACTCATTGTTATTTAATAATAAAGCACAAACAGCTTTATGTTTTTCAATATATTCAAGCGGATGATTTGTTGTAGGATGATTCATTAATTTAAATTTTAAAAATTTAAATGGAAATTTATTCTCCAAGTTAATTCCCCCTTTAGATTAGTTATAAATTTTTTAAATATTTAATTATTTCATTTTTTAAATATACGGTATTATTTGGTGCCATAATATCTCCTGCTAACACATGTTTTCCATAATCTTTTACTGGTATTATTAATAATTTTTTATTTTTAGACCCTAACTCATTATACTTTTTATCGATAATATCAGTATTTACTACATCGTCATTATTAGAATGAATAATAAAAAAAGGTTGCTTAAGTTTATTAAAATTAAAATTTCTTACTTCTTTGACTAAATCGCTCATTTCAATTAATACTTTACTTGGATATCTTGTTGTCCAATATCTATTTTCTTCATCACTATGTCCCTGCCAACTTTGTTCTTTAATAAAAAAATTTACTATTAAATATCTAATTATTGGAATTTCTAATAAAATAGAATTTTTATCTTTTATTTTATAATTTGGTGAGATTAAAATATACACAATATTGTCTAAATCTTTATTTTTTTTTATACTTTCCATAGCATACCAAGTGACTAAAGTTCCCCCTGTAGAAGTACTAATAACAATTACTTTTTCTCCGATTTCTTTACCTATTTCAATGGCTTCAGTAGTATCATTTTTCCAATCTTCTTTTTTTGCTTCTCCCAGATATTTCCCTGGCCTACCATGTCCTGTATATCTAGTATAAAAAAGATTTGCTTTAAGATCTTTCGCTATTTCATTTGCTAAAGGATAAACTTCTTGTCGAGTAGCTGAAAAACCATGTAGATATACAATAGAATATTTTGTTTTTTTATTATGCTCTTTATACCAAAAAATCTTTTTTTCTGTATTTTTTATAATATCATCATAAATACTTTCTTTTTCTTTTAAATATATATCTAGATCTTTTGGAAATGTACTTGCTAATATCGTGAGTGATATTATAAAATATAGAATAACTTTGTACATACCCTAATCCTCCATAATTTTATTAATTAATATCTTTTACACTTTCTCTTTCTTTAAGTTCATATGAAATTACAATTTTTTTGTTCATTGTGTTTTTATTTTCTATTTTTTCAATAATTAATTTTGCCGCACTTTCACCAGAAAATTTATAATTATATTTAATTGATGTAAGTGAAGGAATATAATAAGATGAAGTTTCCATATCATCAATACCAACAATAGAAAAATCCTCTGGAACTTTATAACCAGCTTCATAGATAGCTCTCATTGCACCAAATGCAAGTGAATCAAGTGCCGCAAATACTGCAGTAGGTTTTTCTTCAAGAGCTAATATTTTTTTCATTGCAGTATATCCTGATTTCACATCAAATTTTCCTATAACTTGATATCTATTTTTTACAGATAAATTATTTTCTAGAAGAGCATCAATATACCCATCTCTTCTTAAATTTTGTACAGACATGTTTCCTGATACACCAATATACGCTATTTTTTTATGCCCTTTACTTATAAGATATTCAACTACCTCTTTTGCTGAAAAATAATCATCATAAGTAACATAAGAAGTACGAATTTTAGATGCTTCTCTCCCTAATACCACAACTGGTTTCTTCATATTATTTAAAGTTTTTATATGATTTTCAGTAATTGAAAAAGGAAAAAATATTATTCCAGAAATATTTTCTTTTTGAAAAATATCTAAATATTTTAATTCTTCTTCTTCTTTTTCTTTTGTATTAGCTAATACAATATTATATCCATATTTTTTCAATTCTTGAGTTATTCCTTCGATAATTCTTGAAAAAATATCTGCACCTATTCTAGGTAAAATTACACCAATTAATTTTTCACTACTCATTTTCTCTCAATATCTCCTTTTTTAATTGATTTTAAGGTTACTTTAGTATATTATATAATATATAAAGTATATATTAATAAATTTTAATTTTCAATAAAAATTTTTAAGGAGGTCTAATAAAATGAGAGAGATAAATCCAAAAGATATAACATTATTTAAAAGAAGTTTTACTTTAGCAACAATTATAATGTTAGTTGCTTTATTTTTTAATTTTATTTTAAAATGGATAATTCCTACATTAGTTTTATCAATTATAATATTTTTAATATTAAAATACATAACTAAATTAAATATATAAAATATGAGCAATAAAAAAGGAGAATAAATATATGAGCATAAATAAAACAGATATACAGTATAATTGGAATGTAAATGATATATATTCAAATTGGGAAGAATGGCAAAAAGATTTTGATAAAATAGTTACTCTAATGGATGAAATATCTCAATTAAAAGGAAGTATAAAAGATGCTACAAGTTTAATTAAAATTCTTGATTTAAATGAAAAATTAAGTATTTTATCATATAAAATATATAGATATCCACAACTTCAAAGAGATATTAATTCAAAAGATGATTTTTTAAATAAAAAATTTCAAGAAGTCGGTATATTATTTTCAAAATTTTCTGTAGCAACTTCATGGTTAACTCCTGAAATGTTGACTATTCCTCAAGATACAATGAAAAAATGGATAGAAGAAAATCCAGAAAAATTAGAAAAACATAGATTTTCATTAATGAACATGTATAGATTGCAAAAACATGTATTAGACGAAGAAAAAGAAAAATTATTGTCTTACTATTCTCAATTTAGAAACACACCTCAAGATATTTATACTGCTTTATCTGTAACAGATATAGAGTTTCCAATTATAAAATTATCAGATAATAGCGAAATAAAACTTACACGTGGCAAATATAACAAAATATTAAATACTAATAGAAATAGAGAAGATAGAAAAAAATCTTATGAAAATTTTAATAAAATATTTTTAAAAAATAAAAATACATACGCCGCAATTTATAAATCAATTTTACTTCGTGGAGTTGCTAGCGCTAAGTCTAGGAATTATAATTCGACATTAGAAGGAGCCTTAGAAGGAAATAATATACCTGTAGCCGTATATGAAACATTAATTAATAGTGTAAAAGAAAACACAAAACCACTAAAAAAATATAGAGAATTAAGAAAAAAAGCTTTGAAAATTGATGATTATAGACCATGGGACAGTTATATTTCTTTAGTAGATTATGATAATAAATATGATTATGAAAAAGCTAAAGAATTAGTTTTAAAATCACTTTATTCTATGGATAGTGAATATATTAAAAAGGCAAAAAAAGCTTTAAATAATAGATGGATAGATGTATATGAAAAAGAGGGAAAAAGAAGCGGGGCTTATTCTGCAGGAACTTATGGTGTACATCCTTATATGTTATTAAATTATAATGGAACTTTAGATTCAGTATTTACTTTAGCACATGAATTAGGACATACAATGCATACACTTTTGTCCGATGAAAATCAACCATTTGCAACACATAACTATACTATTTTTGTCGCAGAAGTAGCTTCTACATATAATGAAAAATTATTATTAGAATATATGCTTAAAACTTCAGATGATCCAAAGGAGAAAATAGCTTTATTAGAACAAGCGATTAATAATATTGTTGGAACTTTTTTTACACAAGTAATGTTTGCTGATTTCGAATATCAAGCACATAAATTAGCAGAAAATAATACTCCAATAACAGCTGAAATCTTAGATAATATTGTAGAAAACCTTTTAAATAATTATTATGGTGAAGATAGATATAAAGATGAATATTCAAATATTTTTTGGACAAGAATACCTCATTTTTATAATTCACCATATTATGTATATCAATACGCTACTTGTTTTGCTTCGTCATCAAAAATATATAATAACATAAAATCCAATCCTAAAAATTTAGATACATATATTGAATTATTAAAATCTGGAGGAAATGATTTTCCAATTGAACAATTAAAAAAATCAGGAGTAGATTTAACTAAAAAAGAAACAATATTAAAAGTTATAAATGAATTAGATGAATTAGTAGATGAATTAGAAAAAGTGCTAAAAGAAAATAATATGATTTAATAAAAGCAGACTTAAATAGTCTGCTTTTATTTTATTTATATAGATACTCTTTTTGTATTTTATAATTTTTATAGCCACCTGATAGATTGTATACATTTTTAAATCCATGATTAATTAATAAGTTTTGTGCTGCATTTCCTGTAACTCCTTTATTACAATGTACCACAATATTATCGTCTTTATTAAATTCATTTAATTTTGATTCTAAATCTGCAAGTGGTGTATGATAAGCTCCTTCAATATGGCCTTTATCAAAATCTTTTTTACTTCTTACATCTATTACTTTATATTTATCTCTATTCTCGATTAATACATTTGGAGTAATTATTTTTCTTCCTCTATTTATTGCATTGTCTAAAATCATTCCGGTATATAATACTGGATCTTTTGTTGTTGCAAATGGTGGCGCATAAGCTAAATCCAAATTAAAAAAATCACCCACACTAACTCTATAAGTTATAAGAGTTGCAAATACATCCAATCTTTTATCTACTCCTGCTTCTCCTATAATTTGCACTCCTAATAATTTTTGTGTTTTTTTATCTGCTATAGCTTTTATTATTATTTCTTTACTTTCTTTTAAATACTTACTTTTATCTTCTTTGATATTGTGAATAATTTCAATATCATATCCTAATTTTCTAGCTTCTCTTTCAGTAATTCCTGTATACCCTATTGCTAAATCAAAAATTTTAAATATTCCTGTACCTAATATTCCTTTAAATTCTCTTTTTATTCCTGTAATATTTTCTCCCGCTATTCTTCCCATTTTGTTCGCTGTAGACCCTAATGGTCTATAAATATAATCACCTGTAAGTCTAAATTTATGTTCACAACAATCTCCCACAGCATAAACATTTTTTAGATTAGTTTCAGTATAATCATTTACTAATATCCCATTGTGTTTTCCTAATTCTATTCCTATTCTTTTAGCAAGTTCTACATTCGGAATTATCCCAGTAGCAAATATTACCATATCGAATTCTAAATTTTTATTATTTTTAGTAATTGCTTTTTTATCACTTAAAAATTCTTTTATACTATCATTTAGTATATAATTAATATTTTTACTATCTAAATATTTTTCTATATAAATTGATACATCCTTATCTAAGTAAGGCATTAAATGATTTTTAATTTCTATAATAGTCGTCTTTATATTTTTTTTAGCTAAATTATCTAAAAGTTCTAATCCAATAAATCCACTTCCTATAATCAGTGCTTTTTTTACATTATTATCTTCGATATATTTTTTTATTTTATCAGCATCATTTACATTTTTTAAATAAAATTGTTTAACCTTTTCAATCCCTTTAATATTTAAAATCTTAGTTTTTGAACCTGTCGAAAAGACTAATTTATCAAATTTGTCTATAATAATTTTATTTGTATTTAAATTTTTCACTGTAACTTCTTTATTATTATAATCAATTTCAATTACTTCGTGTTCTACAAATATATCAATATTAAATCTTTTTTTAAACCATTTTTTATCTCTAGGAGTTATATTTTCTCTTGAAATATAGTTTTCACCAATATAATATGGTAATCCACAACTTGAATATGATATATCTTTATCTTTTTCATATATAACAATTTCATTCTCTATATTATTTCTTCTTGCTTTTGCAGCAACTGATGTTCCTGCAGCTACAGACCCTATAATAATTATTCTCATAAATCCTCCTTTATATTATACTATATAAACATAATTTTTTATCTATAATTTTAACTATCTAATTCATATTCTTCTAAAAGCTCTTCTTCTAATATTATTTAAATACATAAAATTACCCATACAGTTAAATATTTTTCAAAAAATCCTATTTCATTATTTTTTCCATTCATAATATTCTTCTATCAATTTTAAATTTTTAACATTTTTTTTTATTTTTTAAGTATATTTTTAAATTTCTAACATCTTTTTTAAAAATTTCATCATTTAAATTTTTTAAAATTTCACCTATAAAAGTATATTTTTCAAGTTTTTTTCGATTGATATTATAATATACCCATTGAGCCTTTTTTTCTGAATTAATTAAATTTAATATTTTGAGTTTATTAAGATGTCTTGAGGTATTTGATTGACTTAATTTTAAGACTTCTTCAATATCACATACACATAACAAATCTGAGTTATACAAGAGATTTAATATTCTAAGTCTATTTTCATCTCCTAATACTTTCATTATTTCTATTATTTTCATTTTTCACCTCTTTAACATTATATTCCTATATAATCATTTAAGAATATAATCTATATTACTATTTTTGTCAAGAAAATAATAATATTACTGTCTTTTTTATAGCATTAACCCTTATTTAATATAATAAAAATATAATGCATTAAAATTTTTATTAATAAATTAAAAAAATATATTGATTTTTTTTTAAATATAAATTATAATATTATTGTTTATAACTAAAAATAAACGCGCGTTCAAAAAAATAATTACATATTTATTTTATTTTTTTATCTATTTATAAACGCGCGTTCTTGAGAAAGGAGATTTTATGAAATTCGGTTATTTTGATGATTTAAACAAAGAGTATGTTATTACTACGCCAAAAACTCCATATCCATGGATAAATTACCTTGGTACTGAGGATTATTTTGGAATTATATCTAATACAGCTGGTGGTTACAGTTTTTATAAAGATGCAAAACTTCGTAGAATATTAAGATATCGATACAATAATATTCCTATTGATAACGGTGGAAGATATTTTTATATTAATGAAAAAGGAAATGTATGGTCACCTACTTATATGCCTATTAAAAAAGAGCTTGATAAATATGAATGTAGGCATGGAATGGGATATACTAAAATTACAGGTGAACTTAATCAATTAGAATCTAATATAACTTATTTTGTCCCTTTAAAAGAAAGTTGTGAGATTTACAAAGTAACATTAAAAAATAATTCTACACAAAAAAAATCTTTTTCAATATTTTCATATCTAGAATTTTGTTTATGGGATGCTCAAGATGATATGACAAATTTTCAAAGAAATTTAAATACTGGAGAAGTTGAAATAGAAGATTCTGTTATCTATCATAAAACAGAATATAGAGAAAGAAGAAATCACTACGCTTTCTATAGTGTAAATTCTAAAATTGATGGATTTGACAGTGACCGTGATAGTTTTTTAGGTCTTTACAATGGATTAAATGAAGCGTCAGTTCCTTTGCAAGGTAAAGCTAATAATTCTATTGCTAGCGGTTGGCATCCTATTGCTTCTCATCAATTAAATGTTGAACTAGATTCAAAAGAAGAAAAAACATTTATATTTATACTCGGTTATGTAGAAAATAATAAAGATGATAAATGGGAATCATTAAATGTTATTAACAAAACTAAAGCAAAACTACTAATTAACAAATATTCTACTAAGGAATATGTTGATAACGCTTTAAAAGATCTTAAAAATTATTGGAATAATTTACTTGGAATATACAACTTAGAACACGATGATGAAAAATTAACTAGAATGGTTAATATATGGAATGCTTACCAGTGTATGGTTACTTTTAATTTATCAAGATCCGCATCGTATTTTGAATCTGGAATTGGTAGAGGTATGGGATTTAGAGATTCTAATCAAGATATCTTAGGCTTTGTACATCAAATACCTAATAGAGCACGTGAAAGATTAATTGATCTTGCAAATACACAATTTAGAGATGGCAGTACTTATCATCAATATCAACCTTTAAATAAAAAAGGAAACGCTGAAATCGGCGGAAATTTTAAAGATGATCCATTATGGTTAATATTAAGTGTAACAGCTTATATTAAAGAAACTGGTGATTTTGAATTTTTAAATGAAGAAACTATTTTCGGATCTGATCCTAATGAAAAAGGAACTATGTTTGAACATTTAACTGCTTCTTTTAATCATGTTTTAAATAATTTAGGACCTCATAAGCTTCCATTAATTGGTAGAGCTGACTGGAACGATTGCCTAAATTTAAATTGTTTTTCAGAAGAGCCTGGAGAATCATTTCAAACATTTGGTAGTGGTGAAGGGAAAATTGCAGAATCATTATTTATTGCTGGACAATTTGTATTATCTGGAAAAGAATATATAGAACTTTGTAAAGAAATAGGTAATTTCAAAGAAGCAGAAAGAGCACAAAAACATATTGATGATATGATTAATGCTGTCAAAGAATATGGTTGGGATGGTGAATGGTATCTTAGAGCTTATGATGCTTTTGGTAACAAAATAGGAAGTAACGAAAATGAAGAAGGTAAAATTTTTATTGAATCTCAAGGCTTCTGTGGAATGGCAGGAATAGGTAAAGATGAGGGATTAGTTAAAAAATCTCTTGATTCGGTAAAAAAATATTTAGACACATATTATGGTATAGTTTTAAATCAACCTGCATTTACTAAATATGATAAAAATCTTGGTGAGATAACTTCATATCCACCTGGCTATAAAGAAAACGCAGGAATTTTCTGCCATAATAATCCGTGGATAGCTTGTGCTGAAACTGTTATTGGTAGAGGTGAAAGAGCCTTTGAAATTTGGCGAAAAATCTCTCCAGCCTATTTAGAAGATATTAGCGAAATTCATAAAACAGAACCTTATGTGTATGCTCAAATGATTACTGGAAAAGATGCAGTCCATCATGGACAAGCTAAAAATTCATGGTTAACAGGTACAGCTTCTTGGAATTTTATTACTATAACTCAATATATTTTAGGTATCAAACCTCACTATAAAGGATTAATGATTGATCCTTGCATTCCTAAGTCATGGAAAAAATATAAAATAACTCGTATATTTAGAGACATAAAATATAATATAGAAATTCTAAATCCAAATGGTGTAGAAAAAGGAGTTAAAGAAGTTTATATTAATAACAAACAAATTAGTGATAATATAATTCCTGTTTATGATGATAGATCAGAAATAAATGTTAAAGTTATAATGGGATAATATATATAATCTTTTATTTTGTTAAATAAAAAGTGCCAAAAAAGAAAAAATTATTTTGAAATACCCAACGACAAGAATTTCAACTTATTACTTCTTTTTTTGGCACCCATTTAATAAATAAATTATAAGGAGAATTTATGGAAATTAAATACTATGAGATTAATTATAAAAATTTTGGAAATTGTCTGAAAATAAATAATGATTTTATTGAATTAATTGTTTCTCTTGATTTTGGTCCAAGAATTTTAAGTTATAAATTACTAAATTTTGATAATATTTTTTATGAAGATATTGATAGAGAATTAACCTTTAGCTTTGATAATTTTTCTAAATTTAATCTAAATAAAAATGAAAAATGGACTTTATATGGTGGACATCGTTTATGGATAGCACCTGAATCTAGTCCTCACACATATTATCCAGATAATATAAAAATCTCTTATGAGGTCAAAGATAATATTTTTTCTTTTATTGAACCCATTGAAAACTATTTAAATATCCAAAAAATAATTGAAATCGAAATTATAGATTCTAAAGTCAATTTAAATCATAAAATATATAACTATAATGCATTTGAAATAAAATTAACTCCTTGGACAATATCAGCAATGAAAGGTGGCGGAATGTCATTAGTTCCTTTACCTAAAAAAAATACTACTCCTCTTGAAAATACTCTAATCAAATTTTGGCCATATAATGATTTTAATGATGAACGTTTTAAGTTTGTAAATGATTTTGCTATTTTAGAACAAAATCATAAAATTAATAGCGCATTTAAATATTCTATAAATAATGAATCTGGTCAAGCTTTTTATTTTATTGATAATTTTGTATTTCTAAAACAATGTAACCCTAGCAAAGATAATTTAATTACTAATTATGAGTCTTATACTAATAAAGATTTTTTAGAAATGGAATTTATAGGTAAAACAGAGTATATTCCATCTGATTCATATATATTATTTAAAGAAACATGGAACTTATTTACAATAAAAAATTTTTTAAAACAAAATTTTGTAGATATAAAAAAATTTAAAGAAGCTTTAAAATTTGGTTTTGAACATATGCTTTAATTTATTTTAAATTTATATAAAAGGTGGGAAAATGAAAAAATTTACATTAATTATTTTAAATTTATTTATTTTTATTAGTTATACTAGCTTATTTGCACAAAATAATTTTATTATTGTTAAAAAAGAAACTTTTGATGAAAAAATAATTTCTTCAAAAAATCTTATTAAAAATTATGATTTTGAACAAAATATTGATTCTGATGGAAACTCAACTTTAAGTGAAAATCAATGGAGTCTTACTAGTAATGCAGGAAATACTGGTGGAAAAGCTAATATTGAGATCAATAATAAAATTGCTCATATAAATATCAGTGATGGTGGTAAAGAAGTTTATTCTGTACAACTTATTCAAACCCCTATTTTATTAAAACAATCATATGTTTATAGTATAGAATTTAATGCTAAAGCTGATAAATCTACTTCAATTTTTATTAAAATGGGTAGTAGAGAAAATAGGAATTGGGCTGATTATACAAATGGAAATGGTCATGGTATTCCTATTGAATTAACTACAAATTTTAAAAGATATATAATTCAATTTACTATGGAAAAACCTAGTGATAATCAAGCTAGACTTGAATTTCAACTAGGAAAAGAAGGAAATAGAAATATATATCTTAGTGATATAACTTTAAATATAATCGGGAGAAAAAATATGAAAATAAAAAATATTCCTCAAAAATTAGTAGAAATCCCTGCAAAAAAAATTCATATAAATCAAATAGGCTATTTACCATATGATAAAAAATTAGTTATTATTAATTCTAAAGAAATTATAAACAAATTTAATCTTGTTAATTCAGATAATGCTGAAATAGTTTATAGCAATAAGCTCAAAGAAAAAGGATTTGATAATGCTACCGGTGATTACATTTTTTATGGTGATTTTTCTGATTATACAAATTCAGGAAATTATTATATTAATATCCCTAACTTTGATAATTCTTTTTCTTTTAAAATAGATGAAAACATATATCTTGATTTAAAGTTTGCACTAGAAAAAATGTTATATTTTCAAAGAGCTAGTATTACTTTAGATGAAAAATATGCTAATAAATGGGCAAGGAAAAAAAGTTATACTGAAAAAGCAAAACTTTTAAATAAAAATATTTATCTTGATGTTTCTGGTGGTTGGTTTGATGCTGGTGATTATGGTAGATATGTAGTCCCAGCGTCAACTACTATCGGACATTTATTATTAGCATATAAATTTTTCCCTGAGAAATTTACTGATAATACTAATATTCCAGAAAGTAATAATGGAATTCCAGATATTTTAGACGAATGTAAATATGCTTTAGAATGGTTATTAAAAATGCAATCTGAAAATGGTGGCGTATACCATAAAGTTACTACTTCTAATTTTGTGAGTATGATTATGCCTGATAAAAATAATAAAGAATTAATTTTATCTCCTATTTCAGCAACAGCTACTGCAAATTTTGTGGCAGTTACTGCAATGGCTTCTCGAATATATAATTTTGATAAAAAATTTTCAAATAAATTATTACAAGCATCATTAAAATCTTGGAAATGGTTAGAAAATAATCCTAATGTCCCTGGATTTAAAAATCCTTCTTCAATTTCAACTGGTGAATATGGTGATAATAATGATTTAGACGAGAGATTTTGGGCCGCTGTAGAATTATATTCAACTACAAAACAAGAAAAATATCATATATATATCAAAAATATTATTCAAGATATCCATAATTTAAGTTCTTTTGGATGGGAAGATGTAGGAGGATTTGCTTCTACAACTTATTTAATGCTTGATCCAAAATATCAGTCTAATACAATAAAAAACATTATCTCTGATAAATTTATAAATAAAACAAATACCTTAATTAATATTTCTAAAAATGAAGGTTATAAAATCACATTAAATAAAAACGAATACGCTTGGGGTAGTAATATGAAAGTTATGACTGATGCAATGCTTTTAATTATTACAAACACTTTAATTAAAAATAATTCTAAGTATATAGAAACTGCAAAATTTAATTTAGACTATCTCTTAGGACTAAATAGTTTAGATAAATCTTTTATAACTGGTTTTGGAAGTAGACCTGTAATAAACCCCCATCATAGACCTTCTATTGCTGATGAAATTCCTGAACCTATTCCAGGAATGGTTTCTGGTGGTCCAAATAGTCGATTTCAAGACGATACTATAAAAAATAATTTATCAAAAGATACTCCTTTTGCAAAATGTTATGTTGATTTAGAAGGAAGTTATTCTACTAATGAAATTACTACTTATTGGAATTCTCCTGCAATATTTGTTGTAAATTATTTTATAAAATAAAAAATCTTGGGAATATTCCCAAGATTTTTTATTCAATATATTTTAAGTCTGCTACTTTTGAAAATTCATTATAAATAGATTTTAAAAGTGCTAATCTATTATTTTTAATATTTTCATCCTTCTCCATAACCATTACATTATTAAAAAACTCATTTATTATTCCTTTTGAATTTAAAATTATATCAAAATAATTATTATAATCAGTGCTTTCTAAATTTTCTTTCACATCTATTTTTATTTTTTCAGTATAATTATATAATTCTTTTTCTTTTTCTTCGATTAATAATTCTTCTTTAACCTCTGTATTTTGATAATTCTTAGCAATATTTTCTATTCTTTTTACTAAATTAATTATATCATCAAAATTATCATTTTTTGAAATAGTTACTAATGCTTTTAACTTAGATTCAATTTCAATTATATTTTTAAAATCAACTTCAACTATTGCATTTACAAAATCTTTTGAATATTTTAAATCTGTAAATACATTTATTATTCTTTGTTTTATAAATTCTTTTACTTTTATAAGCACTTCTTCTCTAGTTGATTTTAATATATTTTTCTTTTCATATATATCTAATGATTTATTAACTAAATCTAATAAATTAATATTTAATTTAGAATTTAATATTACATTTATTATTCCCAATGTAGCTCTTCTAAGTGCATAAGGATCTTTTGACCCTGTAGGTATTAGTCCTACTCCAAAACATCCTACTAAAGTATCTATTTTATCTACTATACCAGTCAATGCACCTTCTAATGTTGTAGGTAATTTATCCCCTTGATATCTCGGATAATAATGTTCTTCTATTCCTAAAGCTACTTCTTTATCTTCACCAGCTTTTTCTGCGTAAACTTTTCCCATAAATCCTTGAAGTTTTGTATATTCTTTTTCTCCTATCATATTAGATACTAAATCAGCTTTTGATAAATGAACTGTTCTTAGTATATTTTCTTCAATTTCTTTTATATCTAACTTTTCTAGTAAATATTTAGCAAGTTCTTTATTTCTTTCTACTTTTTCATAAATAGTACCTAAATCTTTTTGATAAACAACATTTTTTAAATCTTCTACAAAAGAATCTAGAGTTCTTTTTAAATCTTCATTAAAGAAAAATCTAGCATCAGAAAGTCTTGCTCCTATTACTTTTTCATTTCCTTTTTTTACATTTTCAGAATCTTCTATACCATTTCTTATTACAACAAATTTAGGAAGTAATTTCCCATTTTCATCTAAAATAGGAAAATATCTTTGATGTACTTGCATTGTAATTATTAAAACTTCTTGTGGTACTTCTAAAAATTCACTATTGAATCTACCTACTATTGGATATGGATATTCTACTAGATTTGTTACTTCATCTAATAGTTCTTCATCTAATAATACTTTTTCTCCTATTTTTGTACATTTTGATTTTATTGATTCTACTATTTTATTTTTTCTTTCTTCAATATCAATTATCACATTATTTTCTTTTATTTTTTTAAAATAATCTTCTATTGATTCTACTTTAAATTCACTTCCAAAAAATCTATGTCCAAATGACTTTAATTCTGTTTTTATTCCTTCTATTTCAAAATTTATAAGTTCATCATTCATCATTGCTAATATCCATCTAATAGGTCTTGCAAATCTTAATTTTTTTGTTCCCCATTTCATAGATTTTTTAAAATTAATATTTAAAATACATTCTTTTAATATATTTGGAATTAATTCTTTAGTCTCTACTCCAGCAATATGTTTTTTTACTCCTATGTATTCACCTTTCTCTGTATCAATTATTTCAAGATCTTTTACATCTATTCCTTGAGATTTTACAAATCCAAGACAAGCTTTTGTAGGCTCTCCTGCATCATCAAATGCTACTTTTTTAGAAGGCCCTATATTAGTTTCTGTAAAATCATCTTGTTTTAACGATACTTCATTTATATTTAATATAAGTCTTCTTGGTGTACCATACGTTTTTAAATTACTATACTTTATTCTTTTATCTTTGAATTCTTTTTTTATATAATTTTCTATATTTTTTAATGTATCCTTTAGAAATCTTGCTGGAATTTCTTCCATTCCTATCTCTAATAATATTTCCACTTAATATACCTCCAAACCTATTTTTTTAATAATGGGTATCCTAACTCTTCTCTATTTTTTACAAATATTTCAGCACATTTTTTGGCTAAATCTCTTACTCTTAAAATATATGATTGTCTTTCTGTTACCGATATTGCTCCTCTAGAATCAAGTACATTAAATATATGAGAACATTTTAATACATAATCATATGCTGGATATACAAGTCCATGTTCTAATGCTCTTAAAGCTTCTTTTTCATACATATCATACCATTTAAAATGTGATTCTAAATCTGCTATTTCAAAACTATATTTTGAAAATTCATATTCACTTTGAAATCTCATATCACCATATTTAACACCTTCTGTCCAATCAAGATCATATACATTATCTTTTCCTTGAATATATAATGCTAATCTTTCTAATCCATATGTTATTTCTACAGGTATAATATCTAATTCTAATCCACCTACTTGTTGGAAATATGTAAATTGAGTGATTTCCATACCATCAAGCCATACTTCCCAACCAAGCCCCCATGCTCCAAGAGTTGGCGATTCCCAGTCATCTTCAACAAATCTTATATCGTGATTTTTTATATCTATTCCAAGTGCTTCTAAACTTTTTAAATATAACTCTTGTATATTATCTGGTGAAGGTTTCATTATTAGTTGAAATTGATGATGTTGATATACTCTATTTGGATTCTCTCCATATCTTCCATCTTTTGGCCTTCTAGAAGGTTCTACATAAGCTATATTCCAAGGCTCAGGTCCTAAACTCATTAAAAATGTATTTGGATTAAATGTTCCTGCACCTGTTTCTATATCATAAGGATTACTTATTGCACATCCTTGTGAATTCCAGTACTTTTGTAATGCTAATATCATTTCTTGAAAAGTCATTTACTTTCCTCCTGTCTTTTCTTTTTTTCCTCTAAAATATATTCTATTACCATTAATATCACTCCGATATTTATATATACATCAGCAAAATTAAAAATATATTCCCATATACCCCTAAAATCTATAAAATCAACAACATATTGTCTCATTAATCTATCTAATATATTTCCTAATGCACCACTAAAAATAAATAAATATGAATATAATGATAATTTTGATAATTTTTCTCTATTTTTAAAAATATAATAAAAAATAAAAATAGCAGCAAACAGACTAATAATAGTCACTATATTTAATCTTCCTTGAAACATTCCAAAAGCTATTCCTCTATTTTGTACATATGTAATATGAAAAAAGTCTTTTATTATTGGTATAGATTGAGAAACATCTAAATTTTTAGCTACTATATATTTTGATATTTGATCAACAATTAATAAAATTAGTACTAAAACTATTGAGTACATATTTTAACTCCTTAATTATAATTTAGGATTGGCAGAGTAATACATACTCTGCCATTATTACTTATTTTGTTAATACTTCTGTACATCTTGGACAAATATTTGGATGTTCTTTATGTGTTCCTAATTCTGTAGAGAATTTCCAACATCTTTCACATTTTTCACCATCAGCATGTTTTATATTTATAAATAATCCTTCTATTTCTGAATTTTCATTTTTATCTATAATATCTTCTAATGTAACTTTTGATACTATAAATATTTCTTCTAACATTGGATATACTTTTTCTAAGAACTCTTTATATTCAGGACTATTACTAAATAACATAACATGTGCATTTAATGAATGTCCTATTACTTTATCTTGTCTTGCTTTTTCTAATTCTTTATTTACTTCTTGTCTTAATTTTATTATTTTATCCCATTTTTCTTCTAATTCATTATTAATATAATTTTCATTTAATTCAAACCAACTAGATAAAATTACAGATTCTGTATCTTTTACATTTTCAGGAATATTTCTCCAAATTTCTTCAGCAGTAAATGAAAGAACTGGTGATATCATTTTTACAAGTGCCATTAATATTTCATACATTACAGTTTGAGCTGCTTTTCTAGATATTGAATCTATTTTCTCAGTATATAATCTATCTTTTATTATATCTAAGTAAAATGCTGACATATCTATTCCTGCAAAATAATGAATTTCGTGAAATAAATTATAAAATTCAAATTTATCATAATTTTCAGTAACATTTTTCTTAAGAACTTCTAATTTGTGAAGCGCCCATTTATCTATTTCTAATAAATCATCATAGTTAACTCTATCTTTTACTGGATCAAAATCAGCAATGTTTCCTAATATGTATCTAGCTGTATTTCTTATTCTTCTATACGATTCTGTTATTTGTTTTAAAATATTTTTAGATATTTTTACATCTTCTCTGTAATCAACTGATGCACACCAAAGTCTAAGTATATCCGCACCATATTCTTTTATTACTTCTTCAGGTAAAATTACGTTTCCTAATGATTTAGACATTTTTTTACCTTGTCCATCATTTACAAATCCATGAGTAAGAAGTTTTTTATATGGAGCATCTTTTGTACTTCCTATTGAAGTAAGAAGTGATGTTTGGAACCAACCTCTATGTTGGTCACTTCCTTCCAAGTATAAATCTGCTGGTCTTGATAACCCTTCTCTAGTTTCAAGTACTCCTCTATGAGATACTCCAGAATCAAACCATACATCCATTATATTTGTTTCTTTTCTTAAATCTACATCTTTTAAATTATATTTTTTTATTAACTCTTCTCCAATTAATTCCTTTGCACTATATTTTACCCATGCTTCACTACCTTGTTTCTTTACAAGTTCTATCACTCTATCTACTATTTCTTCTATAAATATTTCTTCTCCAGTTTGATTATTATAAAACATTGGTATAGGTACTCCCCATACTCTTTGTCTAGAGATACACCAGTCAGGTCTATTTTCTATCATAGATGTTATTCTATTTCTTCCCCAACCTGGTACAAATTCTACATTTTCTAATGCTTTTAAAGCATTTTCTCTAATATCAGATCCTTCTACTTTTACAAACCATTGTTCAGTAGCTCTAAATATTACTGGTTTTTTACTTCTCCAGTCATGAGGATATGAATGTTTTATTTCATTTGTATGTAATAAATGTTCACTTTCAGTTAGCATCTCTATAATTACTTTATTAGCTTTTTTATAAAATAATCCTGCTAATTTTTCACCAGCTTCAGCTGTTAAATGTCCATTATTATCAACAGGACAAATAACTTCTATTCCATATCTAGTACCAACAACATAGTCATCTTGTCCGTGTCCAGGTGCAGTATGTACACAACCAGTTCCCGCCTCTAATGTTACATGATCACCTAATATTATCATACCAGTTCTATCTAAAAATGGATGTGTATACGTCAATTTTTCTAACTCTATTCCTTTAAATGTTTTTATTAACTCTACATTTTCTAATTTCATTTCAGAAAATGCTCTATCCGCAAGTCCTGTAGCTAATATAATATTTCCCTTTTCAGTTTTATACACTCCATAATCAAATTCTGCATTCAAGCATATAGCCATATTTGCAGGTAATGTCCATGGCGTAGTTGTCCATATTACTACTGCCGCTTCTTCTACTCCTATTTTATCTAAGAAATCTTTATTCACTTGCATTTTTACATATACAGTTGGAGATACAACATCTTTATATTCTATCTCTGCTTCTGCCAAAGCTGTTTGAGTAGTTGGTGACCAATATATTGGTTTTAATCCTTTAAAAATATATCCATTTTTATATAATTCCTTAAACACTTCAAGTTGTTTTGCTTCATATTCAGGATTTAATGTAAGATATGGATTTTCCCATTCTCCAAGTATTCCAAGTCTTACAAAGCTTTCTTTTTGAGTTTTAACCCATTTTTTAGCATACTTTGTACATTCTCTTCTTATTTGAAGCGGTGACATATCTTTAGCTTTTTCCCCTAGCTCTTCTGTTACTTTTAATTCAATTGGAAGCCCATGAGTATCCCATCCAGGAATATAAGGAGCATAATATCCTCTTGCTCTTTTATATTTTAAAATTATATCTTTTAATACTTTATTTAACGCATGACCTATATGTATATTTCCATTTGCATATGGTGGTCCATCATGAAGTATAAAAGTTTTATCTTTTTCTTCTAACGATTTATCATAAATTTTATTTTCATTCCAATATTTTATATATTCTGGTTCTTTATTTGGTAAATTTGCTTTCATTTTAAATTTTGTTTTAGGCAAATTTAACGTACTACCATAATCAAAAATTTCTTTTTCTTGCATCTATTTCTCCTCCTCATATATATTAAAAATTATTTTTATATCTGTTCCTTCTTTATATAATGATTTTATTTTTATATCTGCATTATGTTCATCAAGTATTTTTTTAGCTATAGTTAAACCTAATCCAGATGAACTTTTATTTATACTTACAAATGGTTCGAAAATAGATTTTATATCTTCTTTTTTTATTCCTATTCCATTATCTATTATTCTTATCTCTACCATCTTTGCTATATTTCTAGTAATAATGTTTATTCTTCCATCATTGTCTCCTATAGCTTCTATACTATTTCTAAAAATATTAAAAAATACTTTTTCTAATTTATATCTATTTGCAAATATAAACCCTTTATGATTTATTAATTTTGAAATAAATATATTTTTATTTTTTACAATATGATTTAATTGTTCTAATACGTTATTTATGACTAGATTAATATCTATTTTTTCTTTTAAATAAAGTTTATCTTCAGAATAATCATATAGTATTGAACTTATTGTAGCTATTTGAGTAATTCTTTCTTCTAATTTATTTAAATCTTCTTCATTTATTTTTTCTTTATCTCTAAAATGCTTAATTAAAATATCGCTACTTTCTTTTAATGGTTCTTGTATCTCTAATAAAATTTTTCTACTTAACCTATCTATAGTTAATTTTTTTTCTTGTTGAATTTTATTTTTTTCTAAATCCTTATTATCTAAAAAAATAGATAAATTTATTTTTAATAAATTTATTAATTCATAATCATCTTTTTCAATTATTCTATTTGTACTACTATTATCTAATAAAATACATCCATAAACTTTTTCATTGTTTCTAATAGGTAAAATAATAAAATTATTGATCCCTAATCCTATTAATAATTCATTTCCAAAATTAAAATTAAAACCTCTCTCATTATAATAAATTATTTTATTACTTTCAATAGATTCTTTTAATATTGTATCTTCTTCATATTTTATAGATATCAATTTTATTATTTTGTCTAAAGATTCTGTTTGTAGTTTTAAACCACTTGAATATTTATAAAGTTCATTTGACTCATCTATTATCTTAATATTCGTTGACGAAAGTTTTCCAATCAATGAATCTTTTTCCTCACTATATTCAAAATATATTCCTCTAGCAAAATTAAGTCCTATTTCAGAAGTTGCAGCAGATAAAATATAATATATAGCTTTATCAATATCCACTTCTAATCTAATATTAATTAGTAGTTTTTCTAAAATATTTAATTTCATTAAATGCTCTTTTAATTTTTCATTTTGAATTTCTAAATCTTTTTGATTTAGTTTAATTGTTTTTATCATTTTTTTTAATGAAACTATTAAAGATCTTATTTCACCAATTCCTTTAACTTTAAATTTAACATCAAGATTTCCGTTAGAAATTTCATCACTTATTTCTGATAATTGTATAAGTGGTGTAAAAAGTTTGTAATATAAATAACCAAATATTGTAGAAGCAAGTAATAATACTATCACTAATGTTAAAAATGCTACCAAGTAATAACTCCACTTTAGTTTTATTATATCCATTCTAGTAAGAGCTATTCCTACTAATAAAGGCGTTGAATTCCCTAATTCTAAATTACATATTGCTAAATTATAATATTTTTCTGCTATTTTTTTTTTCCTTAAAATACAAGTGTTTTTAATCAACTCTTTTTGATCTATATCATCTATAATATCAAATTTTTCTTTACCTAATTCACCTATTAAATATTTTGTACCATTTATTAGAAATAATTTAAGATCTTCAACTAATCCACTGTATTTTTTTAAATAACTTATAAATTCGCTATCTAATATTGTTGTAACAACTAAATATCTATCTATATCATATTTATATATCACTCTTAATAACTTATCGTTTAATGTTTCTTCAATAAAATAACCTGAAATATTTATTTTTTCTAACTCTTTTTTTATTTTTTTTGAAAATTCTAAGCTATATTTTACACTACTATTTCCTAATGATTCTGCAATAATTTCACCATTTTTTTTAACAAAACTAATTGCATCATTAAAATAATAATCAGATTCATTTTTCTCTATTAACTCTTTATGAAAATCCTTTATTAATGCATCAGTATATGTCCTAAGCAATTGTTTATTAGTAAAATACTGATAATATTGTGCTGCTGGAGTATTCAAAAAAATAGCCATAGTTTTATCTATTTTTTCAACTCTTTCTTTTAATTCATTTGAGATAACTATTTTATATAAACTATTCTTTCTTTCATTAACAAGCATATTATATGATATTTTTATATTACTTGCACTTATTTTCAATGCTTCTGGAACTTGATTATTAATATCATTAAAAATATAAAAACCAAGCACAAAAAGCATTATAATCGTAGTAAGAAAAATAGCAATATCGTTATAATATATAGCTTTTAACAAAAGAGAATCTGATTTTATTTTCATTTATTAAATCCCTTTCTTTGATAGAGAAACCCTTTTTCTAGCCATATCTACACTTTTAATCTTTACTTTTATAATATCTCCTACTGAAAGCATGCTATTAATATCCTCTATTCTATTATCAAATTCGGATATATGTAAAAGAGCATCATTTTTAAGACCTATATCAATAAATGCCCCAAAATTAACAACATTTCTAACAGTTCCTTCTAATATCATTCCCTCTTTTAAATCTTCTATTTTTAAAATATCTGATTTTAATATTGGTTTTGGTATTGACTCTCTAGGATCTCTTCTCTCTTTTAATAAAGCATTGTATATATCAAGCGTTGTTTCTTTCCCATATTCTTTCTCAAGTATAAATTTATCAATATCTAATTTTTCTAGTTTTTCAATTATTTCATTTCTATTTTTTATCAAATCAGATTTTTCAAATCCTATTTCTTTTAATATTTCTTCTGCTATATGATATGATTCAGGGTGAATTATTGTATTGTCAAGCGGATTATCTCCATCATCAATAACCACAAATCCTGCTGCCAATGTATAAGCTTTATTTCCAAGTCCTTTTACTTTTATCAATTCTTTTCTATTTTTAAATTTTCCATTTTCTTCTCTATAGGCAACTATATTTTTAGCTACATTTTTATTTATTCCCGATATATAAGAAAGTAATGCCCAAGATGCTGTATTTAAATTCGCTCCAACATTATTTACAACAGATTCTATTACTTCTTTTAGAGATTCATCTAATTTTTTTTGATTAAGATCATGTTGATACATTCCTACACCTATAGATTTAGGTTCAATCTTTACAAGTTCTGCAAGTGGATCTTGTATTCTTCTAGCTATTGATATTGCTCCTCTTGCCGTTACATCAAGATCTGGAAATTCTTCAATTGCAAGCTTTGAAGCTGAATAAACTGAAGCTCCTGCTTCATTTACAATTAAATAGTATACATCTTTTTTTACTTCTTTTAAAGTATTAGCAACAAATTCTTCTGTTTCCCTTGAGGCTGTACCATTTCCTATAGCTATAATATCAATATCGTATTTATCTATTAATTTTTTTATTTTTTCTTTTGCTTTTTCTATATTATCTCCTGGCATAGCTACATATATAACATCATTTGTTTTATATAGCCCATACTTATCTATTACAACTACTTTACAACCAGTTCTATATCCTGGATCAAGTCCTAATACATTTTTTTCTTTAAGTGGTGGTTGTAATAATAAATTTTTAAGATTTTCTTTAAATACCTTTATTGAATCTATTTCAGCTTTTTCAGTCAAAATGTTTCTTACTTCTCTTTCAATAGAAGGAAAAACAAGCCTACTTAAACTATCTTCTATTATTTGTCTGCTTAATTCTTCAATATTTTTATTCAAATTATTTAATATTTTTATTATAATAAATTCTTTTGTTTTATCATTTATATTTATAGATACTTTTAGTATTTTCTCTTTTTCACCTCTATTTAGAGCTAATACTCTATGAGAAGCAATATTATTTACATACTCACTATGTTCATAGTAATCTTGATATACATTTTTTTCATCAATTTTTTTATTTTTTTCTATTAATTTAGATTCAATAATTCCAAATTTTAACATTCTTTCTCTTATATCTTCTCTAACCGCTATATTTTCTGAAATATTTTGTGCTAAAATAAGTTTTGCATTTTCTATCGCTTCTTCTATATTATTAACATTTTCATTTATATATTTTTCAGCTTCAATTTTTATTTCATCTATATTTTTTGCTTTTAAAATGAATTCTGCAAATGGCTCTAATCCATACTCTTTTGCTATATCCGCTTTTGTTTTTCTTTTCTTCTTATATGGAAGATAAAGATCCTCGACTTGTTGCAGTTTTTCAGCTTTTAAAATATTTGTTTTTAATTCTTCCGTTAATTTACCTTGTTCTTCAATTAACTTTATCACATCTTTTTTTCTTGCTTCTAAATTTCTTAAATAATTAATTCTTTCTGAAATATCTCTAATTTCTTCTTCATTTAAATTACTAGTTACTTCTTTTCTATATCTAGCAATGAATGGTACAGTAGATCCTTCATCTAGTAATTTTACAGTATTTTCGACTTGATGTTTTTTTAAGTTTAATTCTTCTGAAACTATTTTTATTAAATCTAGCATATTTCATCTCCTAAAAATTTAATATCGCAATTATTATAGCATATACAATTTTTTTTGTCTAACTTTAGTAGGTGTATAATAGATTATTTTCTCTTAATTCATCTAATATTTTATTAAAATTTTCTATACTATCTATTTCAATAGTATGTAAATGAATCCCATTAGTCAATTTTGATAATGGTTCTACATTTTTATTAGATATTTTTTTTATAAAATTATTTAATTCTTCATTATTTGAAATATGTAAATTCCCTGTTATTTCTCCATATATTTCATGTTCTACAATAACATCTATAATGATTGCATTATATTTTAAAATAATTTCTAATTCTTTTTTCATTTCTTCTATAGTTATATGTTTTGTTATTAATTTTTTTATAAGTTTATTATTATCTTTTTTTAGCATATATCCTTTTGGACTTGCTATAAGTTCTATTCCTTTTGCTCTAAGTATAGCCATATCCTGGACTATTACTTGTCTACTCACTCCAAATCTTGTTGCAAACTCAGAACCTTTTATAGCTGTTTTGCTTTCTGTTAATAATCTTATTATTTCTTTTCTTCTTATTTTCCCTTCTACCATTTTCCCTCCTCCTATCTAACCAATATATTAATTTTTTTATATTCTATTATTAATAAAGAAACTTCCTTGTGTATCAAGGAAGTTTCTCTAAAAAAATTATAAAGTAAGATTACTTACCCTCATTTTTTTCTAGTTTTTCAACTAATTCTAATAAATATGACTTTAATTCTTTTTTTATTTCTGGATGTTTTAATCCAATTTCTATATTAGCTTTTAAAATACCTAATTTATTTCCTGTATCATATCTATTTCCTATAAAATTATAACTTAGTACTTTATCTCCATATTGGATTGACTTAAGTATAGCATCTGTTAATTGTATTTCTCCGCCTTTTCCTGTCTCCGTTTTTTCTAAATAATCAAAAATTGAGGGTTCTAATATATATCTTCCTAAACATGCTAAATTCGAAGGTGCTTCATCTTTAGATGGTTTTTCAATGAAATCTTCAATTTTATATGTTCTATCATCAAATTTTGCACTTGGTTTCACTATACCATACGATGATACTTGCTCCATAGGTACTTCTTGTACTCCTATGATGTTTCCTCCATGATATCTTTCTCTTATTTCTAACATTTGTTTAATAACCGGAGTATCTCCGTACACAATATCATCACCAAGTACTACTGCAAATGGTTCGTCACCTATATGCTTTTTTGCTGTCAATATCGCATGACCAAGCCCCAATGGTTCTTTTTGTCTAATATAATAAATATTTGCCATTTCGGATATTTCTCTTACTTGTTTAAGTAATTCATATTTACCTTTTTTTTCTAATTGATATTCTAATTCTACAGAATAATCAAAATGGTCTTCTAATGCTCTTTTATTTCTACCTGTAACTATTGTAATGTCTGTAATTCCAGATTGTACTAACTCTTCTACAATATATTGTATAGCAGGTTTATCTACTATTGGTAACATCTCTTTTGGTTGTGATTTTGTTGCCGGTAAAACTCTAGTTCCTAGACCTGCCGCTGGAATTACTGCTTTTCTTACTTTTCTCATCTATATCCCCCTTCGACATCTTATCTTATTACTGTACCATTTTTTATAGCATTATCTACTTCTATTAATTTCACTCTTTTTTTCTCATCAGTTGTAAGTAACATACCTTGTGATAACTCACCTTTTAATTTTACTGGTTTTAAATTAATTACTGCTAAAACTTTTTTACCTACTAGTTCTTCTTTATTCGGATAATATTTAGCTATTCCTGATATAATTTGTCTTTTTTCATTTCCTGTATCAACTATAAATTTTAATAATCTATCTGCTTTTTTTACATTTTCTACTTTTAATATTTCTACTACTGATATATTTACTTTTGAAAATTCATCTATTGATATAGAATTTTTTATTTCAAGATTTTCATTAATTTCATCTTCTAATTTTTTCTCTTCTTCTACATATTCTAATCTAGGAAAAATTGGTTTTGCTTCTCCTAATATATGATTATATTGTACATTCCCCCAATCACTAATATCTGCAATTTTAGCTTTTTTAATGTCTCCATCAAATCCTAATTGGTTCCATATTTTTTGAGCGCTTTCAGGTATAAACGGATACACAAGTACTGCTATTTTATACAAAGACTCTACTAAATTATATAATACAACTTTTAATCTAGGATGTTTTTCTTTATTTTTTGCAAGAGCCCAAGGCATAGTTTCATCTATATATTTATTCATTCTTGAAATAAATTTCCATATAGATTCAAGTGCAAAAGAAAATTGTAATTTTGTCATATGTTTATCCACTTCAACTAAAGTTTTGTACCATAATTCTTTTATTTCATCATCATATACTTCTGTTCCTTCACCTTGTAATACCTTTGAATCAAAATATTTTTTTGACATCCCAAGCGTTCTATTCAATAAATTTCCAAGATCATTAGCAAGATCAGCATTTACTCTATTTACCATAGCTTTATCTGAATAATCACCATCATTACCAAAATGTACTTCTTTTAATAAGAAATATCTAAATGCATCAACTCCATATTTTTCTATTTCTTTTACTGGATCAACAACATTTCCTTTTGATTTAGACATTTTTTCACCATTTACTGTCCACCATCCGTGTGCAACTACTTTGTCTGGAAGTTTTTCTCCAGCAGATAGTAACATACACGGCCAAATAATCGCATGGAATCTTAATATATCTTTTCCTATAATATGTACAACTTCTCCGTTATTCCAAAATTTATCATACATTTCAGGATTGTTTTCATATCCTACTGCTGTTAAATAATTTGTAAGTGCATCAAACCATACATAAACTACATGATTTTCATCTATTTCTAATGGTATTCCCCATTTAAAAGTATTTCTTGATATTGACAAATCTTGTAATCCCTGTTTTATAAATGAAATAACTTCATTTCTTCTAGTTTCTGGTAAAATAAATTCCTTATTTTCCTCTATATGTTCTAATAATTTATCTTGATATTTAGACATTTTAAAGAAATAACTTTCTTCTTTAACTATTCTAAGTTCTTTACCACAATCTGGACAATGATTTTCATTTATAACTTGATTTTCTGGAACAAATGTTTCACATGAAACACAATATTTCCCTTCATATTCACCTTTATAAATATCTCCTTTATCATATACCTTCTTCAATATTTTTTTTACTGCTTTCATGTGTCTTGCTTCAGTTGTTCTTATAAAATCATTATTTGAAATATTTAATTTTTCCCATAATTTTTGAAATCTTGGGGCCATTTTATCAACCCACTCTTTTGGAGTAAATCCCATTTCTTTTGCTTTTTCTTCTACTTTTTGACCATGTTCATCAGAACCAGTTAAAAAATATACATCTTTATTTTTAATTTTATTATATCTTGCAATTACATCACTTGCTATTGTTGTATATGCACTTCCTACATGAGGATCTCCATTTACATAATATATCGGTGTTGTTACATAAAAATTTTTTTTATCCAAATTTATATCTCCTTTCAAGTATTAAAATCTTTTTTATTTATAAACCTTTTCTATTATAGATATTTTTTATAATTATTATTTGAAATACTACTAAATATACTCCACTTCTACAAAATTCAACAAATCTTTTTTCTTATTTTTTATTATATTAATTGCAGTTGTTACTGCTTTATTTAAGCTACTTTCATCGGCTATATTTTTCCCTGCTATATCAAATGCAGTCCCATGGTCAACAGAAGTTCTTACAAATGGAAGTCCTATTGTTATATTCACAGCACTACCAAAACTCTCTAATTTTACTGGTATTAATCCTTGATCATGATACATAACAACACTTATCACATATTCACCTTTTAACATTTTTACAAACAAAGTATCTGGTACAATAGGACCTTCTACATTTATCCCCTCTTCTTGCATCTCTTTAACTGCTGGTACAATTTCTTTTATTTCCTCATCTCCAAATAATCCATTTTCTCCATTGTGAGGATTAAGTCCAGCTACTGCTATTTTACCATTTAATCCTAACTCTTTTTTAGCAAATTCTGCTAATTTTATTTTATTTATAATATTATCTTTTTTAACTTTTTTTATGGCATCATTTAATGATAAATGAGTACTATTTAATAAAACTATTACTTTCTCACCCTTTAATATCATTGCGAAATCTTTTGTTTTAGTTTTTTCTGCAAAATAAGTCGTGTGCCCACTATATTTATATCCCGCTAAATTTATACTATTTTTACTAATTGGAGCTGTAACTATTCCATCAATAATTTTATAATCACATATTTTTATAGCTTGATTAAGATATTTTATAGAATATTCTCCACCTAATTTATTATCTTTTCCAATATTTTCCTTATTAAATTCAAAATCTATATTCAATAATGGTAAAACTCCATTTTTATTATTTAATTTTTCAATAGAGTAAATATCTTCAATTAATTCTATTTCTAGATCAATACAATATTTTTTTAAATAATACTCTACTACATTTTTACTTCCAATTAAAAAACAAAAAAAATTTTTTTCTTCTACTTTGTAAAGATTATCAAAAAATTTAATACAAATTTCTGGCCCTATTCCAAACGGATCCCCCATTGTTATTGCTAATCTACTTTTCATTTAGTATCCTTTCTGCTTCTTTATTAGCTTCATGTATCTTTTGATTAATAACCTCTATATATTCCTCAATATTAACATCTTTTTCTATTTTTATAGGTTTTCCTATATAAGTAACCGATTTTGAAAATGGTAAAGGAAATTGAAATTTATCCCATGCTTTTTTAAATACTATTTTTTTACTAAAAGCTCCTCCAATAGGTAGTATTTCAACACCTGTTTTTTGTGCCATAAATACTATTCCTGGTTTTATTTGATATATTGGTCCTCTTGGTCCATCTACTGCAAATCCCAAAGAATATCCTCTTTTCAAGTGTTTTATCATGCTCATAAGGCTTCTAATATTTTTATCATTAGAAGAACCTCTTATTACATCATATCCAAATTTTTTAAGTATCACACTAAGCAGTTCTCCATCCCTTGAAGGACTTACTAATGTAGTAACTTTATCTAAATAAGATAAAGACATCGAAGGAAAAATTATTTTTTCATGCCAAAATCCATAAATATAATTTTTTTCTTTTATCTCTTTATGTTTTACTACTTTATTTCTCATTGTTAGCGTAATAAATTTTATTAAATAATAAAGTAAATAACCATATTTTCTATATTTTTTTTCTTTTTTTATATTTTTTTTCTTTTTAGTTTCCATTTAAAACCACCTTAAATTATATAAATCACACAAATTATATCATATGCAAAATAAAAATTCAATTATATAAAAAAAGAGAACTTATTGTTCTCTTAAATAAGACCAGGTATTTCAATTCCACCAGTTATTTTAGACATTTCTTTTTCTGCTAATTCTTCTGCTTGTCTCATAGCTTCTTTTACAGCTGATACTATTAAATCTTCTAGCATTTCTTTATCTTCTACAGCTTCTTTTACTATTTCTTCAGATAAATTTATGCTTACTAATTCTTTTTGTCCATTTACTTTAGCTACAACTGCTCCACCACCAACTGATGCTTCTACTTCTTTTTCTTTTAACTCTTCTTGAACTTTAAGCATTTGTTGTTGCATTTCTTGAGCTTGTTTTAAAATATTTTTGCTCGAATTTTTAGTTTTTATTTTTCTTACCAATTTTAGTCCCTCCTTAAATATTAACTAAAGCAAGTTTAAATATATCACACTTTATCTATTTTTTCAACTATTTTAGCTATTTTTTTAAGTCTATTACAAATGTAAGTCCGTGAAATTCATTTTTATATACTTCAATTGTCCCGTTATGTTCTTCAATTATTTTTTTACAAATAACTAATCCAAGTCCTGTCCCCTTATTTTTAGTAGTATAATATGGTTTAAATAATTCTGATAAAGATATAAAACTATTTTTATCATAATTAGTAATAAAATGCAACTCTATACTATTTTCTTTTTCTTTAAATTTTATAAAAAATATCTTTTCTTCAAGTCCTTCTATTGCAGATAATCCATTATCAATTAAGTTTAAAAAAACTTGTTTAATTTTGTCTTCATTTACCATTACATATATTTCTTTTTCAATTGGATTATTATTTTTATCTACTAATTTAACTATATGTTCAATATTTTTATAATGAATTAAATTTTTTATTATATCTACTATATTTTTTCTAGATAAGGTAAGTGGCTCTCGTTTTGTATAATCCAAAATATCACTAACCATTTTTTCCATTCGTTTTGTTTCATCAAATATTACTTTTATATTTTCTTTTATATCTAAAATATCTTCTGATTCTTGTATTAATTCTGTGAAGCCTGATATTAAATTTAATGAATTTCTTACTTCATGAGCAATATATTTTGCTAATTGTTCTTTATCTTGTTCTAATTTTTGTTTTTCTACTTCTTCAGTTAATTTTTCTAGACTAACATCTTTTATTAAAAGCACTGCACCTATCATCTCTTCCATATCAAAAATTTTTTTCTTACTTAATTCTAATACTTTGGAATTATATCTAATAACTTTTTTTTCAAAATCATTTTTATAAGCTATAAAAAGATAAATAGTATTTTCTAATTCTTCATCACTAATATCTTTATTTATAATATTTCTTACAGCATCATTGATATAAGAAATATTATACTCTTCATCAAAAAATACTATTCCTATATCTAGTTTCTTTATTAAAGGTAAAATTAATTCTTTATTCATTTTTTTCCTCCAAAATTTTCTTTAATTTTTTATTCTCACTTAAAAGCTTATTATTAGATATTTTTAAAGAATTTATTCTATTTTCTAAATTAAGTATTCTATTATCTTTTTCTCTATTATTTTCTTGTAATTTTTGTATTTTATTTTTTTGTTCTTCAAAATTTTTATTTTGAATTTTATATTTTTTAGCTAATTCATTTTTTCTTTTTTTTATAATTTTATACTTTTCATAAGTTATTTTTTTATCTAAATATAAAATCCCTTTTATAGTTTCAGTTAATAGTTTCTTTAACCTTTCTAACATTTATATCACCTACTTAATTATGTTTTTATTTTAATAAAAGTATACCATATAAAAAATATTTTTAAAATAAAGGATTTTTCTATTTTATTCGTATAAAATTATAGAATCTTATTATAAATTAGGAGGTTATTTATGGCAAGTTTAACAAATATTTTAAATGTAAAAAAAGAAAAAAGTGATATCCCAAAAGAAATATCAAAATTATTAACTTCTTTAGAGAAAAAGAAAAAAGAATTTGCTAATTATGAAAAAAATTATTTAGAAAAAGTTATTCAATTAAATGATTTGAAATCTAAACTTGCATCTTTAGAAGATAATATTGTAAAAGAAAAAGAAAAATTTTTATCTAAAGATAGTATTGATAATTTTTCTCTTACTGAAAAAATTGCCCATCTTCAAAAAGATTACTCAAAATTGAAAGAATCTATACAGCAAGAAAATAAATCTATTACTGAGATTAAAGTAAAAATGGAAAAACATTTAAATGAGTTAGAAAAAAATATCTCTTTCCTCGAAAAAGAAAAAGAAAATTATAATTTTTCTAACATAAAAAAAGATTTTAAAATAGATAACTCATTTAATGAAAATAATGAAAAACAAATCTTAGAAAAAGCACCCGCTACTAACGCTAAAAAAATAGAATATTTTATCGAATTAGAAAAAGATTATTTTATAAAAAAAATTCATTCTGAATTTGAAATTATAACACTTTACACTCCTCTTTTACCACTTATTGAAAAAACTAATGAAATTAGAAATGAAATTTTAGAAAAAAGAGAAATTTTAATAGATTTAGACGAAGAAGGTTTTTTAAATAATAATAATTTATTAAATGAAATTTTAGAAAAAAAAGAAATTTATACAGAAAATATTACTAATATAACTAATACAAATAAAACTATTCAATCTATTTTTAATGCTTTAACTGAATATGAACACTTTATTAAATTTATAAGAACTCAATTAAATTTGATTACTGAATAGATCGAATACTATTTTTTCTATATATGCCTTTTGATTTCGTATTGTCCTATTTCATCGATATAAACATCAAAAAAAATCATTGCATTATTTTGACATTTATGATATTATTTAAAAAAATAAAAATTGGAGGTAAAAGATGTATATAATATTTAATCACCATCATCATAGATAAATTGGGATTATATTTGTGAATGTCACAGGTATAAGCCCGTTTTGTGCTGTATCTGTGATGAACATCTTTTACTTATGAGGATCATCTAGATATAGCTTCTAGATGATTTTTTTATTTATTAAAAAATCATCTAGAGAAAATCCATTAAATATAATTAAAATATATAATTTTTTTATTACTTATTATATATAGCAAAAAAATATTAAGGTAATATAAAGATTTTAAATTTGAATAAAATATAAAAAGGAGAGGATTGAATATGAAAAAAATTTTATTAGTAGTATTAGTTTTATTTTTAGGAATTTCAACTTTAGGCTTTTCAAAAGATAAAGTTATAACAAAAGGAAAGTTTGTTGTTGGACTTGACGATACTTTTGCACCTATGGGATTTAAAGATGAAAAAGGTAATATTGTAGGATTTGATATTGATTTAGCAAAAGAAGCTGCGAAACGAATGAATTTAAATGTAGAATTTAAACCTACTGAATGGAGCGGAATAATTTTTGCATTAAAAGGTGGTAATATCGATGTGATTTGGAATGGTTTAACTATTACAGCTAATAGAAAAAAACAAATTAACTTTACAAAACCATATCTTGCAAATAGACAATCTATTGTTATTTTAAATAAAAATAATATTAAATCAAAACAAGATTTAAAAAATAAAATTATTGGACTTCAACTTGGAAGTAGTGCTGACACTGCTGTAATGTCTGATTCTATTTACAAAAATTTGAAAAACATAAAAAAATACGATTCAAATATTGAAGCATTACTTGATCTTGAAGCTGGTAGAATTGATGCGGTTGTTGTAGATGAAATTGTTGCTAGATATTATATTGCTAAAAAAGAAAAAAGAGAAAATAAAAAAATCTATAAAGTTTTAAATGATGATTTTGGACGAGAAGAATATGGAGTAGGAGTACGAAAAGGCGATAAAGAATTTTTGGATTTACTTAATAAAGCTCTTGATGAAATGAAAAAAGATGGTACAACAGCAAAAATATCTAAAAAATGGTTTGGTGAAGATATTGTTTTAAAATAATTTATATTACTTTTTATTATAGAAGGGATTTTTATGAATACTATTGACATGACACTATATATATTAAAAGGACTTAATATAAGTGTAAAGCTATATATTGCTACATTTATATTTACAGTTCCTATATCTTTAATATTAGCTGTACTTTATACAACTAAATACAAGTTTATAAAAAAATTAATTACTTTATATACATGGGTATTTAGAGGAACGCCACTTCTTTTACAACTTTTTTTTATGTATTATGGTTTACCTATTATTAATATAATACTCACTCCTTTTACAGCATCAGTAGTAACCTTTGTTGTTAATTATACAGCATATTTAACTGAAATATTTAGAAGTGGTATTGAAAGTATAGATAAAGGACAATATGAAGCTTCTCATGTATTAGGCTTTACATATTATCAAACTATGAAAGAAATAATAATTCCTCAAGCGGTAAGAAGAGTTCTTCCTGCACTTTCAAATGAAGCTATTACTCTTGTAAAAGATACAGCTTTAATCTCTGCTATTGGTATGGCTGAAATATTACGTAATTCAAAAGAAATAGTTAGTAGAGAATTTACAATTATACCATTTGTAATAGCTACAATTATATATCTTTGTATTAGCTCTCTTATAGTTTATATCTTTAAATATTTTGAAAACAGAAATAAGGTGAATTAAATGGATATCATACAATTAGAAAATATAACAAAATATTATGGTGATTTTAAGGTTCTTGATAATATCTCATTAAATATAAAAAAAGGAGAAATAATATCTATAATTGGCCCTAGTGGAAGTGGAAAATCAACTCTTCTTCGTTCACTTATTCAATTAGAAAAAATTAATTCTGGTAAATTAATCGTTGAAAATACAATTATTTTTGATAACAATAAAAAAATTGATAAAAAACTAAAAAAAGATATATTATTAAAAATGGGAATGATTTTTCAAAATTTTAATCTTTTTCCTCATAAAACAGTTTTAGAAAACGTATGCGAACCTTTAATTTTAGTTAATAAAACTGATAAAAAAGAGGCTAGAAAAACAGCTATAGATTTACTAAAAAAAGTACAAATGGATGGAAAAGAAAATAATTATCCTGATGAAATAAGTGGTGGACAAAAACAACGCGTTGCTATAGCTAGAGCACTCGCATTAAATCCAGACATTATTTTATTTGATGAACCAACAAGTGCGTTAGATCCAGAGCTTGTAAACGAAGTATTAAATGTAATTAAAAATCTTGCTGATGGAAACATTACAATGCTTATTGTTAGCCATCAAATGAATTTTGTAAAAGAAATTTCTGATAGAATAATTTTTATGGATAAAGGAAAAGTCTTAACTATTGATACTCCTAAAAATATTTTTTCTTCTGAAAATAAAAGAATAAATGATTTTTTTAGTATAATAAAAAAATAAATTAAGAGCGATAATTAACATCGCTCTTTTTATAATAATGCTCTAAGATCTCTTGTTCCGTAAATTATCTCTTTTGTTTTTAATAAATTTACTATATGTTTCTTTTCTAAAATCGGAATTTTTTTAGTATAAATATTATCCTCATCAAAACCTTTTCTTATCAATTCATCTTCTGTTAATATAACAATATTTTTTTCATTTATACTATCTTTTATAAAAAAATATCTATTATCTATATTATCTATATCGCTATAACTGATTACTAAAGAATTTTTTATAAAATCTTTTGGATTAATATTATCATAAATATAAAAATCATACCCTTTTATATATTCATTTGAAATATCTAGATAATTTTTCAAAAATTTACTTTTTTTATCTTTTGTAATAAGTAATATTTTTTTTTCTTTTACAGTTTTTAAATAAATTGCAAGCGTTAAATAAATTGTATCTATTCCTCTACCATACTTTGTAACTGCTAATACAGTTTTTTTATCTTTAAAAATAGCTCCTAATACTTTTTTTTGAAAAGAATTATATTCAAAATCACTAATTAAAAATTTTTTTATATCATTAAAAATATTTGCTTCTTTTATTGAAAATGAATTAAAATTATAATCTCTATCTATTTCTATAAAAATATTATAATTTGCCTCTTTTTCTTCTATTTTTTTAATTTTTATTATATAATTAAAATTAAAATTTTTTTTTAAATAAATTAAATTATTAAAAATATCCTTATTTAAAAAACCTACAATTTTAAATCCATTTTTAATTTTTGCAAATTCCTCATCAAATTCAATAGCTAAGTTATCATTAATATCTAATTTTTCTTTTGTATAAAACACTGACTTTAAAGGAAAATTAAGATTGTATTTATCTATATAATTTTTTATTTTATTATCTTTTCCATCACTTTCTTTTATATCTTCTACATATAATTTTATATAATATTTATCTTTATACATTTCTTGTTTTAGTTTTACAGCGATATTATAAAATTTATTTAACTCTAAATTATCTTTCATATGTCCATTATTAAACCAAACTAAATTCCTTATATATATACTCTCTTTTATTATATCAAACATTAAATGTGTCTTTTCTTTTCCTATTAATCTAACGTTTGTTACTCTAATGTTTCTTATTGAAAAAATAGGATTTGGATTACTAAAACCAAAAGGTTTTAATAATTTTAATTTTTCAAAAAATTCAAAAGATATTTTATCAATAATAAGTTCTCTATCAATTTTTAAAGGTTTTATATAATCATCTTTTCCTAAAATTTTTTTACAATATTCATCTAACTTGTTTTCAAATTCTGTAATTTTATCTATTTCTATTGAAAATCCAGCTGCTCCAGCATGACCTCCATATTTTAAAAATACCTCTTTCATACTATTTAAAGCATCCATTATATTAAAGTTTTCTATACTCCTACAAGAAGCGACAGCTATTTTTTCAGTTTCTTTTACTTCCATAATTATAGTTGGTTTATAATATTTATCTACTATTTTTGATGCTACAATCCCAATTATTCCATGATGATAGTCTCTAGAATATGATACAATAGCTCCTCTTTTATCAAGTCCTCTTGATATAATATCTTTTTCAACTTTTTCAAGTATAGTATTTTGTATATCTTTTCTTTCATTATTTTGTTCAATTAACTCTTTTGATAAATATTCAGCTTCTGTTTCAGAATTAGTTATAATTAATCTAACTGCTTTTTTTGCATCTTCTAATCTTCCAGCAGCGTTAAATACTGGCGCAATAATAAATCCTATATCATATGTATCTAACTCTTTATTTTTATACTCACCATAAATATTTTTTAATAATTTTTTCAAACCAATATTTTTTGTGTCTCTTAATTTTTTTAAACCATGTTTTACAAAAATTCTATTTTCTTCTACAAGTGGTACTATATCAGCCACAGTTCCTATTGCAACTATATCTATAAATTTAAATATTTCATTTTTTATACCTAATTTTATATAGAGTCCATATAAAAGCATAAAAACTGTTCCTACTCCTGCCAAATATTTAAATTCAAACTCATTTTCATCTCTCTTAGGATTAATTACAGCTTTAGCATTTGGTAATTTATTATTTATCTCGTGATGATCTGTTATAATTATATCTAATTCAATTGAATTTGCAAAATCTACTTCATCAATAGATGATATACCGCAATCTACCGTAATTACTAAATCTCCACCTTCTTTTTTTATATATTCAAGAGCTTCCTTATTTAAACCATATCCTTCATCTCTAAGTGGTATATAATAAAACACATTATCATATATTTCTTTTAAAGATAAATAAGATAAAGATGTAGAAGTAATTCCATCAACATCATAATCCCCGTATATCCAAATGTTTTTTTTGTTTTTTATTGCATTAAATATTAATTCCACTCCTTTATCAACATCTTTTAATGAAAATGGAGTAGATATGTTTTCTAAATTAGAGTTAATAAATTTAGTTATTTTTTTTTCATCATCTATCCCTCTATTTAATAATAAATCTATAATTTCATTATCTAAATCAATATTTTCAAATGTTTTAAAATGTTTTTTATTCTCTATCCATTTTGTAGTTAACATATTTTTCCTTTCTAAAATACTACCTATATAATTAGTTTATATTATTAAAATTCATTACTTTTTATACTAACATGATAAAAAACTTTATTCAAGTTAATTTATTGATAAAATTAAATATAAATGATAAAATAGTATAGAATAATAATTTAAAAATACAAAGATTTAATTAAAGGTGAGTTAAATGGAAAATTCCAAATTTTTATCAACTATTTTGCCTGAAGAATACTACTATAAAAAACGTTTAAAAAGAAAAGAAAATAAATTTATTACATATGACGGTGAATATTTAAATAATTTAAAACATGGTTTTGGTAAAGAATATATAAAAGGTGAACAACTAGGATATGAGGGATTTTGGTCTAATAATCTTTTTCATGGAAATGGTAAAATGTATCGTGGTGACGGAACTATAGAGTATGACGGTGAATGGCGTAATTGCTATGGTCATGGAAATGGTAGAATATATAATAAAAATGGTAAAATTCAATACGAAGGTGAATGGATTAATAACTTACCTCATGGATTTGGTAAAAAATTTGATGAAAATGGTAATATTATTTATGAAGGTCAATATAGTAATGGTTTAAAAAATGGTAAAGGTAAAGAATATATAAATGGTAAACTTATTTATGATGGTGAATGGATTAATGGTTTTAAACATGGACAAGGTAAAGAATTTGATGAAAATGGTAATATTATCTATGAAGGTATTTGGATTAATAACCAAAAAACTCCTGAAAAAAATATATTAATTGAAAAACTTGATCCTTTAGAAGAATTAAATTCATTAATTGGATTAGATAGTGTAAAAGAAGATGTTAATAAACTCATTAACTTTATAAAAGTACAAAATTTGAGAAAAGAAAAAGGAATGATAATTCCAAATTTATCTCTTCATTTAGTTTTTACTGGTAATCCTGGAACTGGAAAAACAACTGTTGCTAGACTTATTGCTAAAATATATAAAAATCTAGGAATTTTATCAAATGGTCATTTAGTAGAGGTGGATAGAAGTGATTTAGTTGGAGAATATGTGGGGCAAACAGCTCCAAAAGTAAAGAAAAAAATTAAAGAAGCCCTTGGGGGAGTACTTTTTATTGATGAAGCATATAGTTTATATTCAGAATCTGGAATGGATTATGGACATGAAGCTATAAATACATTACTTAAAGAGATGGAAGATAATAGAAAGAATTTAATTGTTATTGTTGCAGGATATAAAAATGAAATGAAACGTTTTATAAAATCTAATCCAGGATTAGAATCAAGATTTAATAAATTTATTCATTTTCACAATTATTCTTCAAAAGATTTATATAAAATTTTATCTTATTTTTGTAATAAAAATTACTATTCTCTAGATGAAACTACTTATGATTATCTAATAAAACAATTTAAGCATTTTAAAGAAAAAGATAAAAATTTTGCAAATGCTAGATTTGTTAGAAATTTATTTGAAAAAATGCTTATAACTCATTCTACTAGAATTGTTAATTTAGAAAATATTGATGATTATTTAGATAAATTTGAGTTGATTGATATACAAGAAGCTTTTGCAATCTAATATATATTTATGATATACTTTATTCAAATTCAAAATATTTTACGAGGTGATAGAAAGTGATAGGAATAATCGGTGCTATGCACGAAGAGATAATTGAATTAAAAGAAATTATTAATAACCTTAGTGAAGAAACAATTTCAAATATAACTTTTTTCAAAGGTACTATAAATAATAAAAAAATTATTTTAGTGGAAAGTGGTATTGGAAAGGTAAATTCGGCAGTATGTGCTACTTTATTAATTAATCATTTTAAAGTAAAAAAAATAATATTTACCGGTGTTGCTGGTGGAGTAGATAATGATATAGAAATTGGAGATATTGTTATTTCTACAAAATTAATCGAACATGACTTTGATGTAACTGCTTTTGGCTTAAAACCTGGTGTTATTCCAAGAATGAAAACTTCTGAATTTACAGCTGATGAAAATTTAAGAAAAATAGCTAAAGAAGCCGCTTTAGATATTTTTAAAGAAAAACAAGTAAGAGAAGGAATTATTGTAAGTGGTGATCAATTTATTAGTTCTATTAAAAAAATAGAGTGGCTAAAAGAAACATTTAATGCATCATGTGCTGAAATGGAAGGTGCTTCAATTGCTCATGTGTGTTATATGTTTAATATTCCATTTGTCATTCTTAGAGCTATTTCTGATAAAGCTGATCACAATGCAAAAGTTGATTTTCCCACTTTTGTAAAAAAAGCAGCAAAACATTCTAAAGAGATAGTATTAAAAATGCTTGAAAAATTATAGGTGAAAATAAATGGTGAATAACATTTTAAATGAATTATACTCATATACAAAATTTGGTATAAAACTTGGATTAGATAATATAAAACAAATACTAAAAAAATGTGAAAATCCTCAAGATTCTTATAAAATAATACATATAGCTGGTACTAATGGAAAAGGTTCTACAGCTTCAATTATTGAACATTCTTTAATTGAAGCTGGTTTTTCTGTAGGTAAGTATACTTCGCCACATATAATTAATTTTAATGAAAGAATTGTAGTAGATAAAAATGAAATAACTGATGAAGATATCACTAAATATTATTTGAAAATAAAAAAAATTATTTTAGAAAATGATATTAAAGCTACTTTTTTTGAAGTAACTACTGCTATGGCATTTTTATATTTTAAAGATATGAATATCGATTATTTGGTTGCTGAAGTGGGGCTTGGTGGGAAATATGATGCTACTAATGTAGTTAATCCAATTCTTTCTATAATAACTAACATTTCTTATGATCATATTAATATTTTAGGAAACACATTAGAAGAAATAGCAGAAGAAAAATGTGGAATTATTAAAAACTCTCCCGTTGTCATTTTAGATAAACAAAAAGTTTTGCTTGATTGTGTAAAATCAAGAACAAATAACTATATTATTGCTAATAAAAAATTTAATTATACAACTACTCTTGACAAAGAAAAATTTTTTACTAATATTTCTATAAACAAGAAAAAATTTAATTTATCACTTTATGGAATTTTTCAAGGTGATAATTTTATATTAGCCTATTCTGCTTTAAAATATTTAAATATAGATGATATTTTTATTCAAAATGCTGTAAAAAATATATATTGGCCTGGAAGATTTGAAGTATTTTCTAAAACACCTTTAATTATTTTAGATGGTGCTCATAATGAAGATTCTGCTTTAGCATTAAAAAATAATTGTCTTGAAATACTTAAAAAAGATGATATTGTTTTAATTACTTCAATATTAGAAGATAAAGATAGTGATACTGTATTAAAAACATTTAGTGAATTTACCAATATTGTTATTTTTACTAGCCTCAAGTATTATTATAGAGGCTTAAGTGCTAAAGACCTATATAATAAAGGTAAAAAACATTTTAAATTTTCTAATTATAAAGAAGATATTCAAGAAGCTTTTAACTTAGCAAAAAAATTTAATAAAAAAGCTATTGTGATAGCAGGTTCGTTTTATTTGATTTCAGAATTCAAAAAAAATATTTAATGGAGATTATATTATGAAAAAAAATATTAGATATATTATTATTAGTATAACTTTTTTTTTGCTAATATATGTTTATATTTCTAAAAAAAATCAACTTCTTTTAGAAGTAAAAGAAAAAAATTTAGAATTAATAAAAAATAAAATAATTATACGGAAAAAAAATTTCTTTTTAGACAATAAATATTACTCGAATATAAAAAATACTACTTTTAATTCTAAAAAAAATTATACGGAAAAAAAACTAAAAAAATCTTATTATTTACAGATTGGAACTTATTCTATTGAAGAAAATGCTATTGAAATGCAAAAAAAATTAAGTAATATATCTAATTTTATTATTATAAAATCACCTTTAAATAATAATTATAATATAGTTATTTCAAGTAATTTTAAAACAAGAGAAGACGCTGAGCTTTTAGAAAAAAAAGTTATAAAAGCTTTCCCAGAAATTAAACCATTAATAAAAATGAGGTATTAAAATGGAAAAAGTTGTTAGTTTAGAAAATATTATTGAGACATTTAATTTAGAAGTCATTAATTATAATGAAAATTTATCAAAAGAAATTGTATTATCTGCTGTACATAAGCCCGGTGCAGAATTAACAGGATTTATCTTTGAAAATTCTACAGAAGTTGATAATTCTATTCATGTATTTGGAGTAGAAGAAATTAACTATATAAATAGACTTTCTCACAAAGAATTAGAAACACGTTTACCAAATTATTTTTCTCATTCATTTCCTTGTATTGTTATTACTGGAGATTTAAAAATAAATTCATTTTTTTATGAACTTTCTAAAAAATATAATAAAGCTATTTTACGTACAAATACAAGTTATGAACTTTTTGTAAAAGATTTAAGAAAATTTTTACAAAAAGAATTAGCTCCTGAAATTGTTGTAAATAAATTTATTTTTTTAGAAATATTTGGAATGGGAATTTTATTTGCTGGTGATAGAAATGCAATAGTAGGGACTTGTATAGAATTGTTAGAAAAAAATCATCGTTTTATCACTGATGGTCTTTTAAATATAAAAAAAATTTCTGAAAATGAAATTATTGGTGAAAATGCTTATAGTAATAAAAGATTGAATAGAAATTATTTTTTAAATATTAGTGAAGTAGAAAAAATTAATATTGTTGAATTTTTTGGTATAGGCTCTACAAGAAATTCAAAAAAAATTGACCTAATTGTAAAATTAGAAAAATGGTCAGATTCTGTGTTTTATGACAGACTCGGTATTGATTCTACTACTCAATATATATTAGGTATTGAAATAGAAAAACTTATTATCCCAGTACGTAAAGGAAGAAATTTAGCTATAATTATAGAGACTGCTGCGATGAATATGCGAATGAAAAAAAATGGCCAAAACCCCGCAAAATACTTCTTAGAAGAAACACAAAAACTAATAAAAAAAAATAGAAAAAAAAGAATTGGAGATAATGATATGGGATTTTTTAAAGCTTTATCAATTGAAGAATTTCAACAAAAATTTAATTTTGATATTATACTTGGAGAAAATAAATTAAATAACAGATTTATAACTTCTACAAATATTTATAAACCTTCATTAGAATTTTCTGGTTTTTATGAATTAATGGAAGAAAATGGTGAGGATAAGTTACAGATAATTACTGATTCTGAATTTAAATATTTAGAAATGCTTGATGAAAATATTAGAATTGATATTTTAGATAAATATATGTCTTATGATTTTCCCGCAGTTATTTTACTCGGAATAGAAGATGTTCCTAAATATTTCCTTGATATAGCAAATAAATACAATCAGATTGTTCTTTATTCATCTAAACAATATTCTGAATTATATATAGATTTACTAGAATATTTAGAAGTTTATTTTGCTCCTTCAATTACATTACATGGCGTTATGGTTGAAGTATATGGATTTGGAGTTCTATTAAAAGGTAAGAGTGGAATAGGAAAGAGTGAAACTGCTCTTGAACTTATCCATAGAGGTCATAGATTAATAGCTGATGATATGGTTAAGCTTACAAAATATCCTGACGGTAGAGTAGTTGGAAGAGCAGATAAAGTACCTTATTTTATGGAAATTAGGGGCCTTGGGATAATTGATATAAAAACTTTATATGGCCTTGGAGCTGTTAGAAGATCTAAAAAATTAGATATTATTATAGAATTAAAAGAATTAAAAGAAGATGAGTATTTAACAAAAGCTGATTATACAGAATCTACTATTTCAATTATGGATACACCTTTTCAAAAAGTTGATTTATATATTTCTTCTGGAAGAAATGCTGCTTCAATGGTTGAAATAGCTACTATGAAACTTCGTGCTAAAAAACTTGGTTATGATTCAAAGAAAGAATATCATTTAAAAAATAAAATACTTCGTGAAATTGAAGAAGTTGAAATGGAAAAAAATCAAGAAATCATGAATAAAAGGTTTAAAAATAAAGAGGAGGAATAAATTGAAAAACAAACTTAAGGATATACTTGTTGATTATTTTTTTATAAATTTTGGTTTAGTAATCTCAGCAATAGGAATTGGATTATTTTTAGTTCCTGGCAAGATTGTTTCTGGTGGTGTATCTGGTATCGCTACAATTTTATATTATACATTTAATTTACCTGTTGGTTTAGTAATGTTAGCATTAAATATTCCCTTGTTTTTAATAGGATTAAAAATTTTTGGTAAAACATATGGAGTAAAAACTTTTTTTGGAACTGTATTTTTATCTGTCTATATTGATTTATTAAGATTTATTATTCCTAATGCTAATAATATTATTGATTTTGATAAAGCAAGTAATGCACTTATTGCACCTATATTTGGTGGAGTTATTACTGGAATTGGTGTAGGTTTAATAATGAAGTTTGGTGGAAGTACTGGAGGAACTGATATTGTTGCTCAGATAATAAATAAATATTTCAAAATACCTCTTGGTTATTCATTTATTTTTATAGATGGTTTGATTTTATTAGCTGGTAGTTCTGTATTTGGTATAGAAAAAGGACTTTATGCTATAATTTCACTTTATGCCGGTGCTGTTGCAATAAACAAAATATTTGAAGGGGTTAGTTATTCAAAAATGATATATATTATAAGTGATTATCATGAAGATATAAAAAATCTTATATTACATGATTTTGATAGAGGTGGCACTGGATTATATGGAAATGGACTTTATACAAATAAAGATAAAAAAATCATAATGACAGTTTTAAAAAATAATGAAATACATGAATTAAAAAATTATGTAAAACAAATTGATCCAAATGCTTTTGTGATTATATCAGAAGTTTATGAAGTACTTGGTGAAGGTTTTACCCCTTTTTAGAATGGAGTGTTTATGGATAAAATTTCAATAAAAAATATAGTTGTTTACGGGTATCATGGTGCTATAAAAGAAGAAAATGTTTTAGGACAAAAATTTATAATTAATATTGATATGTATACCTCATTAAAAAAAGCTGGAATAAATGATAATTTAGAAGAGACTATCCATTATGGCTACGTATATAATGATATTGTAAACATCGCTACAAAAAAGAATTATAAACTAATTGAAGCACTTGGTGAAAATATATGTAAAATACTTTTTAAAAAATATAATATGAATAAAATCATTATTGAAATAAAAAAACCAAATGCACCAATTCCTGGAATATTTGATTATGTATCTATTACATTAGAAAGAGAGAAGAAAGATTATGAATAATGTAGTGTATTTAAGCTTAGGGTCAAATCTTGATAATCCTATTTATAACCTTATTCAAGCTTTTGAATATATTTCTAAATTAAAAAATACAAAAATATTAAAAATTTCTGACTTTTATAAAACAGAACCTTATGGTAATATAACTCAAGACAATTTTATTAATTGCTGTATAAAAATAGAAACTTCATTACTCCCTTTTGAACTTTTAAAAGAAATAAATAAAATAGAAGAAGAAAAAATGGGACGTAAAAGAGAAATTAAATGGGGGCCTCGAAATATCGATATTGATATAATTTTTTATGAAAATTTAAAAATTGAGACTAATAAACTCACTATCCCTCATAAAGAATACAAAAAAAGAAATTTTGTATTATATCCTTTACTTGACATTATAGATAATAAAAATAAAATAATACCTTTTATAAAACAAGCTAAAGGAAATATAGAAAAATATAATTATCCAAAAAAAATACTAATTAGTTCTTGTTTAATGGGAAATAGATGTAAATATAATGGTGGTCATAATTATAGATACCTTTATTCTCGTCTATTAAAATTTGATTTTCTTCAAGTCTGCCCTGAAACTTTTGGAGAATTAAAAATACCTAGACCACCCGCAGAAATACAAAATAATAATAAAGTGATTGATAAAACAGGAAAAGATGTAACAACTAATTTCATTAATGGTGCTAGAAAAACATTAGATATAGCTAATAAAAATAATTGTGAAATAGCAATTTTAAAATCTAAAAGTCCATCATGTGGATATAGAGAAATATATGATGGGAGTTTTAGTGGAAAATTAATCAAAGGAAATGGAATTACAACAATTTTTTTACTTAAAGAAAATTTTAAGATTATTTCATCATAATATAAGGAGGAAACATTTTGAAAGAGATAATTGCTCAAATAAATTCTGCAAACCGAATAATGATAACTGGTCATATAAATCCAGATGGAGATTGTGTAGGTGCTGGTTTAGCTCTAACTTTAGCAATAAATAAATTAAATAAAGATAACGAAAAAATAATTAGATTTATATTACAAGATAAAGCACCTGATACTACAAATTTTTTAACTCATTCTATTCTTATTGAAAAAGCTAAATATATAAATACAAAATATAAATTTGACACAGTTATTGCTGTAGATTGTGCTTCTATTGATAGACTTGGTAATGAAATTAAGCAATTTATTACTGCAAATACTACATTAATAAATATTGATCATCATATAAGTAATACAAATTACGGAGATTTAAATTATGTTGATCCTAAAAGTTCTTCAACTTCTGAAATAATATATAATTTTATAAAAAAATTAAATATAGAAATTGATCTTGATATTGCTGAATCTATTTATATGGGAATTGTAAATGATACAGGTAATTTAGCATATAATAATGTAAGCTATGATACTTTAATGGTAGTCGCTGAGCTTAAAAAACTTGGTCTTGATAATGAAAAAGTAGTTAGAGAATTTTTTAATAAAAAAAGTTATGCTCGAATAAAACTTCTTGGTGAAGCTTTAAATAATTTTGAATTTTTTGAAGAAAAAAAACTTAGTTTTTATTATTTATCTCAAAAAACATTAAAAAAATATAATGGAAAAAAAGAAGATACAGAAGGAATTGTTGAAGCACTTCGAGATTATGATAAAGCTGAAGTTTCTTTATTTTTAAGAGAAACAGAAAATGGTGATATAAAAGGAAGTTTTCGTTCTAATGAAAAAGATGTAAATAGAATAGCCAAAATATTTAATGGTGGCGGTCATCAAAAAGCAGCAGGATTTAATACTGATTTATCAAAAGAAGAAATATTAAAAATAGTTTTAAATGAATTATAAGGGATTTTAATTTAGTTATTTAGGAGGAATTCATATGAAAAAAATTATATTAACATTAATGTTATTGCTAACTATTATTTCTTGTAGTAATAGTCCTACAATAAAAAAAGAAGATAATTTAACTACATTACGTGAATACAAAACTGAAAAAGAAGCTATAGTACCTAAAACTAAAATAGCTATTTCTACTTTTAGCTCTGCTATTCCATTAGCTAAAAAAAGAAATGTAGGTGAATTATTAAGTGATATTTTGTCTACTGAACTTACTCAAACTAATAGGTTTATAGTTTTAGAAAGAGATTCTGTAGATAAAATAATGCAAGAAATTAATTTTTCTGAAGGACTTGGACAAGGTAAAATAGCCAGTGAACAAAATTTATTAGATGCTGACTATATTGTAACTGGTGCTGTTACTAAATATGCTGTAAACATATCTGGAAAAAAAGGCTTAGTTTCAAATAAAAAATCCCAATCAATAGAAGTAGCATTTGATTTAAGACTTATTGACGTAAGAACCGGTGAAGTGGTATTAGCTGATGTAGGTGAAGGCTCTGGTAGTACTAATTCTAAAACTACTCTTGGAATGGGACAAACAAATAGCTATAATTCAAGTATAGAAAATGATGCTTTAAGAGCTGCTGTAGTTGATGTATTAGACTCTTTTGTTAAAACAGTAGATAAGAGACCTTGGAGTGCAAGAGTAGCAAAAGCTAATCCAAGAGAAATATATATAAATGCTGGAATAAAAAGTAACTTACCAATTGGGGCTAAACTTGAAGTATATGAACAAGGAGAAGCAATTGAACTTGATGGAAAACTTCTTGGCTATGAAGAAAAATATGTAGGAACAGCAACTGTCTCAGATTATTTAGGTGATGATGCTTCAAAATGTACTTATAATGGAAAACTCTTTCACATTCCTGCCATTGTAAGATTAAAAAAATAAATTACTTAATTGGAGAATTTTATGATTAAAAATTCTAGTTTAAAAACTTTTTATATACTTTTAATTATTATAAATTTTATATCTTGCGAACCAAAAAAAACTTTTATTATGCAGGTAGATGGTGGTCCTCCACCTGCTAGACTTGCTATTTTACCAGCTAATAATTTTTCTAATGATGTTCTTGGTGGATATGTTCAAAGAAACCTTCTCTATAAAAGTTTAAAGCAAAATCCTAAAGGATATTTAATTCAAAATATAAAAACTACAAATGAAAGACTTATAAATGCTGGAATAACAGATGGCGCATTATTAAGTGCATTTCATCCTTTAGAACTTTGCGAAATACTTGATGTTGATGGTTTGTTATATATTGATATTTATGATATGGGAATAAAATCATTGCCTTTTTACAATTCTAGATATATTTATTTAAATGTTCGTCTTTATAATTTTGAAAAATTTATTTGGCAAAAAGTAATAAATATTAATAATAGACATATTGATATCGAAGGAGCTTTAGATAGTATCGATAATATATCACAAGGAAAAGTTAAAGAAGCTTTTAAAAAAGCTGGTGATTCTGTAACAACTCAAGTAATTGTAAAGCTCGGTATTGCAACATTATTTGAACATGAATTAAAACCTGAAATGAAAATGGTTGTAAATAAAATCATTTCTGTTATTCCTAGAGGCAGAAGTAGTAATAATAAATATTGGAAAAAAGTAGACTCTAAACTTAAAGAACTTCATTTAAAAGCTAAAAATAATGAAGAATTAGTTCCCAAAGAAGAAAAAAATAAAATCAGAAAACAATACGAAATAATGATACAAGAACAAGGGATTAATATAATAAAAACAAAAAATGATATAGATATAATAAATAATAAATAGTTTTATTATCTTCGTTATATTTTTTACGTGAAAGACAAAATAAAAGTTTACTTATAATGTCCATTATGCTATAATAATTTCTGTATTTTTTATATTTTATTTTAAATTGGGAGGAATAATGGAAAGAATAATTAAAGACACAACTGCAAATCCAGCACCTTTAGGGTTATTAGGTTTTGGATTAACTACTGTATTACTTAATTTACACAATGCAGGTTTTTTTGAATTGAATGTGATGATTATGGCAATGGGTATTTTTTATGGTGGAATAGCACAACTTATAGCAGGTATACTAGAAAGTAAAAAAGGAAATACTTTTGGAGCTATTGCTTTTATTTCTTATGGAGCATTTTGGTTAACTTTAGTTGCTATATGGACTCTTCCTTTATTAGGATTACCTAAAGCATCTCCAACTGCTATGGGATGGTATTTATTAATGTGGGGAATTATGACTTTTGGTATGTTTATAGCTACTCTTAATGCTGCAAAAATTAGTCAATTTGTATTTTTAAGTTTAACAATATTATTTGTTTTACTTGCTATATCTGATTTTACAGGAAGTCATACTTTACATACTATTGCTGGTTACGAAGGAATATTAACTGGTGCATTAGCTATCTATGATGCATTTGGACAAATTATTAATGAATCACTAAAAAAAGATATTATTCCACTTGGAAAAAAATAATGATTTTTAAACTGCTAATTTTAGCAGTTTTTTTATTTGATTTATATTATTAAAATATGCTATTATGTAGATATAATTTTATTAAAGGGGTTTTTATTAATGAAAAAATTTATTTTGATTTTAATCATGTTTATTTACTTTGATTTTTCTTATTCTTTGAGTAGCTATAAAAATGATTTTATTTTATTTACTAAAATTTTAGAAACTAATTATCCTTTATTAGAAAATAATATATCTAAAAATGAATATTTAAAATTAAAGAATAATATTTTAAATAATTTTCAAAATGATTATTTTTATTTATATAAATCGCTAAATATAATTAGACATAATTTAAAAGACCATAATATAAAAATTAATCACCCAACTTTTATTGAAAATAAGTTATTAAATAATAATTACTTAAATTTAAATATAAAAAATATAAATGGAAAAATAATTAATAAAACAATAAATTCAAATTTACCTTTTAATGGAGAAATCACTAAAATTAATAATATTGATATTGATACAATACTTAAAAATTTATCAATTTATGAATCTAGTTCATATTCAAAAATTTTTCCTTATAGCTCTTTAGAAATCAATCATAATTTTTCCTTATTTTTTAAATATTTTTATGGTGATTTTAATAGCTATAATATAACTTATAAATTGAATGGTATCGAAAGAAATATAACTTTAAATCCAAAAAAAATAAATATTATAGAATATGAAAACAGTATTTCTTACGAAGAAATTTCAAATGATATAGCTTATATAAAATTTTATGATTATGATATTAATAATTTTAATAAATATTTTGAAAAATTTAAATATAAAAAAAATTTAATTATTGATATTCGTAATAATTTTGACAATACTAATATAACTAATATATTATCTTATTTTATAAAAGATACAAAATATTTTTACACGGATTATTTTTTAAAAACTAAAAAACTTTACAAAGAACATATAATAAATAATTATACTTTTAATGATATTTATTATAAAAAAAATAATGATTTTTATAATTTAAAAAATTTATTTTTTAATAATTCAAATAAGCATTATATTCAGCAAAATAACAATAAAATAAATAGAAATTATGAAAAATATAATGGTAAAATTTATATATTAGAAAATACTCTTAGTGAAAATTCTTCAATAGATTTTTCTATTTTTTTAAAAAAATATTGTAATGCTGTTATAATAGGAGAAGATAGCAAGAAAAATCTTAAACTAAAATCTATAAATAGTAATATTATTTATTTATTACCTAAAAGTAAAATTATTATTTCTATTCCTTATAAATATGTTGAAAGAATTAATAATTATTATTTATTAATTCCTGATAATATTATTTATGATGATAATACAGAAACTGAATTCATTGACAATAAACTGAATTTTGTTTTAAATGATATTTTATTAAATAATAGTTCTAATTAAAAATCCCCTAATTAAAGGGGGTTTTTATATTATCAAATAATAAATATTTAAAATTATTATTAAAAATACCGTTATACTCATTATTTTTATTGTATAATATTTTTTAGTTATAAATGATATAAGTAAACCAAAAACAAATAAAAATAATGACAATAGATATATCTTATAGTTTTTTACTTTTTTATTAAATTCTATATTACTATTTTTATTAAAAATAGTTTTTTTAGAGCTAAGATCTATTATTTCAATATCAAAATTAATTTTTTCATCTTTTTTAAGATAAAAATAATTTTTAATAGTGTATTCATTAATTTTTATATTTATTACATATTTTGTCTTTTTTAATATTCCTACTACTCTTTTATCTTCATAAAAATCATTATTTTCTTTTTTTAGTATTTCATCTACTTCTTCATAATTTTCACTTAAAATATTTATATCTTTATTTTTTAAAACTAACTTTTCTTTTAATTTTGTTATTATTTTTTCTGAAATCTTATTTTTATTTTTAGAAAAAAATCCAACATCTAATTCTTTTCCTTTATTTTTTTCTTCTAATAATTTTTTTATTATTACATCACTATTTTTTTCTAATTCTGTATTCAACAAATTATCGAATGAAGCAAATGATAATAAATAGATTATAAAAAAAAGAATAATTTTTTTCATACGAGCCCCTTAATATTTTGAAAGTAAATTTTTTATAACTTCTAATATAGCTTGTTCTTCAGTTGTATAATCAGTATATATTGACCTAGTTAATGGTATATTAACCTCTTTTTTTGTATTATTTTTAAAATCAAAATATGTATATCTTACAGAAAACAATGCTTTATAACCATACCTTCCCTTTTCTGTTATTATTTTTAAATTTTCTACTTTTATTATATTCCACGTTTTATATTTATATATCGAATAATCATTTATTCTATCGTCTGATTCATATGCAGAAGGAGATTTGTTATATTTATATGATAATTCATCAATAAAAATATCTAAATTTTTCGTATTAGATATTGATTTAGGAAATACAATCGCTAAGTTATCTTCTAATATCTCTTTTTCTATTTCACTTTTTAATAATTTTTTATTTAAAATATTATCATCAAAATATTTTTTATAATTATCAAAATATACAATATAATTACTTTCATAATATCCATCTTTTGTAAAAGATTTTATATAATTTCTAATTTCATTTTTTTTAATTAAAACCTCTTCTTTTTCTATTATGTCTTGAATCTTTTTTTCTATTTCTTCAGCTTGTTTTATCTGTCTTGTTTTTAAATATAAATCTTTTAATCTAATCAAATCAAATTTATTTGGATTTGTTAAAAGTTCTAATTTATTTATCTGTTTTTTATATTCAAGTTGTTCTTTCTCATATTCTTCTTTTTCTTTTAGCTTAATTTGATTTACAAGTGCTATTTTTTCATCAATTTTCTTTTCTTGTTCATCATTTTCTATCTCTGCATATATTGCTTTAGCATTTTTATAATTTATAATTGCTTTTAAATAATTTTTTTCTTTTAAACTAATGTCTCCTTTATTTTCATATTCCAAAGCTTTTTTTTCTTTTTCAGTTAAAGCTTTTTTACTTTCTTGTATTAATTTTGTTCTTTCTTCAACTTTTTGTACAGCACTAACTTTATTTACTTCTAATAAAATTGTATATTTATACCCTAAAACCTCTTCTCCTTTATATTTAACATTATGTACTTCTAATACTGTATCAATTATATTACCAAAATTTTCTTTTGTTAATCCACTCACAGATAATGAATTTTTTATATTTTCTTCACCATTTTTTTTCGCACTTTCTAATGCTTTTTCTTGTGTAAGGTATATTCCACCTATTCCTAAAAATAAATCAGAATTTATTTTGAATTTTTTATAACTTTCTCTAAATGCTGAAAAATTATCATACCAATAGCTATTTTCACTTTTTTTAACCTCTTTTATGCCTAAATCAATTATATCTAAATTCTCAGTTGTTTTTACTTTCTCATCAATTTTTGTTTTAAATGATTTTTGAGTATTACTACATGATATTGTTAAAATTAAAAAAGTGATAAATAATAATATTTTTTTCATTCATCTACTCCTTTCTAGTATTTATTTTTTTTTAGTTTGTCCTAAAATTCTAATTCTTTATTAATTTTAGTAGTTTAAATTTTTTTATTATATATATTTTTATTTAATAAAAATTATTAAGCAGTTATTCTCTTTAAATTATACTTTATTTATCCAATGATTACAAGTAATATAGTAATTTTTATTGATATATTTCATATAGTATGATATCATTTAATAAAAAAATATGAGGTGATAATCTTTGGTACATAAATTTGAAATTATTATTATTAAGTTATTATATAAACTATTAATGCTTTTTCCTGAAAATTCTAGATATAATTTTGGTGGATTTTTAGGAAAGCTTGCATATAAATATATTAATAGTAGAAGAGAAATAACTTATAAAAACTTGAAAATTGCTTTTCCTGAAAAATCTGAAGAAGAACTTGAAAAAATAGCTAAAAAATCTTTTGAAATTATAGGAAAAACTTTTCTAGCTGGATTTTGGACTCCTAATATAATAGAAACTGATAAAGTTAAAATAAAAAACAAAAAACTTTTAGACGATATATATAATAAAAATAAAGGAGTTATCTTAGTTGGACTACATATGGGAAATATTGAGGCTAATTTAAAATTAGCAAAATATTATAAAACATATGATGTAATAAGACGGCAAAAAAACCCCTATTTAGATGATTTCATAAATAATAATAGAAGAAAAACTGGAATTAATTTAATATACAAAGGTAAAACAACAATAAGAGAATTAATTAAAGCAATCAAAAATAAGAATTTAATATCTCTTTTTTCTGATCATTATGATAGTGGAGGAATAGAATTAGATTTTTTTGGTAAACCTACTCGTATGTCAACAGGTGCTATTACTATTGCTCTAAAATATAATGCTCCTATTGTGTTATTTTTTAATACTTTAAATGAAGATAATACATCTACTATTCATATAAAAAAAGAATTTATTTTATTTAAAACTGGTAATTTAGAAAAAGATATAATATTAAATATGAAAAGAATAATAAAAGAATATGAAAATATTATTAGAGAATATCCTGAACAATGGATGTGGCTACATAAAAGATGGAGGTAAGTTATGAAATTTTTAGGTGTTATACCTGCTAGATACGGTTCTACTCGGTTTGAAGGGAAACCTTTAGCTGATATTCATGGTCATCCTATGATCGAATGGGTATATAAAAAAGCTAAATTATCTAATTTAGATGAAGTAATTGTAGCAACAGATGATTCTAGAATATACAATACTGTAACTAAATTTGGTGGTAAAGTAGAAATGACATCAACTAAACATAATACTGGTACTGATAGAATAGCTGAAATAGCTGAAAAATATAGTGATTATAACGTAATAATTAATATACAAGGTGATGAACCTATAATTGAAAAAGAGATGATTAACTCTTTAATAAATGCTTTTAAAAATGAAAATGAATTAAAAATGGCTACTTTAAAACATAAAATTATAGATTTTAAAAATGTTAAAAATGAAAATTTTGTAAAAGTTATTTGTGATAAAAATGATTATGCTATCTATTTTTCAAGAAGTATAATTCCTTTTCCAAGACATCTTGACATAGATAACTATTATAAACATATTGGTATCTATGCATATAACAGGGAATTTTTACTCCGTTATGCTAAAATGGAACAAACTCCCCTTGAAAAATCAGAATCACTAGAACAACTCAGAGCACTAGAAAATGGTTATAAAATAAAAGTTTTAGAAACTACATGTGAAATACATGGTGTTGATACAAGAGAAGATCTCGAAAAAGTAAAACAAATAATAATTGATAGAGATATAAAAATAAATAAATAAAAATAAAACCTAGAAATTTTAAAAATTTCTAGGTTTTATTTTAATCTAATTATATATAATATCCCAAGTAAAAGTACAGTTATTACACTAACAGATACATTTAAATAAAAACTAAGAAATATACCTATAACTAATACAATCATATTTATAAATATAGATTTTATAATTAACTTTTTTAAGCTATTATTATCATTTTGTACTATTGCTGGTGGAATAGTAAGTAATGCTATAACCATTAATATACCTATTATTCTTACAAGCATAAGAACTGTAATAGCTATAAATATCATCATAAGAAGTTGTATTTTTTCTGTATCTATTCCTCTAGTTTTTGCAAATTCTTCATCAAACATTACTAATAAAATTTGATGATAAAAAAAGTATAAAAATATTAATATAAGTATATTTAATCCTAAAATTAAAAAAATATCTGATTTATTTATAAGTAAAATATTCCCAAATAAATAATTCATTGGATCTACATATCCAGGTGTAATTGATATAAATAATACACCTACAGACATTCCTACTGACCAAATTATACCAATTATCGTATCTTTTCGTTCTTTACCTTTTGTAATAGCATAATTTATAATATATGCCGATAAAATAGCAAATACAAGAGCTCCTATTGTAGGATTTATATATTTTATATTAAGCGCTATCTCTAAATAAAGTGCTATTCCTATTCCACCAAGAATAGCATGGCTTATAGCACCCGCTACATAACTCATATTTTTAACTACTACAATACTTCCTGATATTCCAAGACTTATACTTACGATAATAGCTATAATAAAAGCATAACGTAAAAAAGGAATATCTGGACTCATAAGTATATCAATAAAGTTCATTTTCTCCTCCTGTTTCTTTTATATTTACATCATGTCGAACTAATGCTACATCATTATCATATGATGACTTTATAATATTATCAATATTTACATCAAGAGGATGCTCTTTAAAATGTTTATTTATACAAAAAACTCTATCAGTTATATTTGATACAAAAGATGTATCATGAGTAATAAGAATTATTGTCATTTTCTCTTTTAATTTTTTTAAAAGTGAATTTAAATTTTTTCCAATTTCAACATCAATATTTGATGTTGGTTCATCTAAAAGAAGTATTTTTGCTTCTGTTGCTAATGCTCTAGCTATTAAAACACGTTGTTTTTGACCACCAGATAAACTATTAAAAGATTTGTTTTTTATTTTCTCAAGTCCAACCTCTCTTAATGCTTCTATAGTTTTTTCTTTATCTTCTTTTTTTATAAGTCCAAAATTTTTTACTCTTCCTAATAAAACTGTTTCAAATACAGAAATTGGAAATTTATTATCTAAATCAGAATGTTGAGATACATATCCAATATTTGAAGTAGATAAGAAAATATCTCCAAAATCCGGAATAAGTAGTCCTGAAATTAATTTTATAAGAGTTGTTTTTCCCCCACCGTTAGGCCCTACTATTGTTACCATTTCATTTTCGTATATTTTAAAATTTAAATTTTGCAATACCCTTTCTTTTTCATATGAAAAACTAACATTTCTAAACTCTACTACAATATTTTTCATTTTAAACTCTCCTCTATTTTTAGAGTTATATTTTTTATATTATTTATATAATCATATTCTAAAGGATTGATAACTTCCATTTTTCCATTTATAGCATTTGCGATTATTTTAGCACTTTTTAGTGAAAATTCTGGTTGAGTAAATATTGTATTTATTTTATATTTCTTAGTTTGGTTTATTATATTAAAAAGCTCTCTTGAAGTTGGTTCTTTTCCTTCTACTTCAATGGAATTTTGAATTAAGCCATATTCATCTGTAAAATATCCAAAAGAAGGATGATATACTAATATTACTTTACCATTATATTTATCTAATTTTGATTTCACAAAATTATTTAATTCATCTAATTCATTTAAAAATTTTATATAGTTTTTAGTATAATATTCTTTGTTATTAGTATCATATTGTATTAAAGTATTATATATATGTTTTACTTCCTGTTTTACTAATATAGGTGACATCCATATATGAGGATCTTCTATACCTCGATGATGTTCACCAGCTTCTGATTTGAATTTTCTTTTCTTTATATCTTTAGATATATCTACTATTATTAAATCTTTAATAGTTTTAATTAATTTATTTTTAAATTTCTCTTCAAATTCTAAGCCAATTGTAAAATAAATCTTACTTTGACTTAATGCTATAATATCCTTTGTTGTTGGTTTAAATGTTTCTGGACTCATTCCTTTTTTTACAAGAGAATCAACTATAACTTTATCACCACCTATTTTTTCAACAAAATATTTTTGTGGTAAAATACTTGTATAAATTTTTAATTTATCTGTACTTGAAAATACTAAAGTTGAAATAAGTATAAAATTTAATATTATTAAAATTTTTTTTATCATATAATCCACCCCTTTTTTATTATAATATTTCAAACCATTTTATAGAGATTATAAAATTTTGATTCTCAAAATAATTTTATATTGTTTTTTAATTACTGTCAATAGTTTATTTAATAATAAATTTTTTATATTTATTATAATCTTTTTTATTTAAAAAAGTTGTTATTAATATCCCATTTTCATTATATTCCTTTGAAATTACTCTACTATTTTCAAGTATATATGATATTATGCTACCTTTAATAAATGGAATTTGCATATCAACTTTTTTCTCATCTTCAAATAAATTAATTTCTATTTTTTTAATTAGCTCTTCTAATCCATCTCCTCTTAATGCAGATATTTCAATTGAATTTTCCATTGGAATAACAATTTTTTTTAATTCATCTTGAGATAATTTATCAATTTTATTATAAACTGTTATATAAGTTTTATCTTCTGCATTTAACTCTTTTATTACATCTTTCGTGACTTTTAATTGATGTTTATAATCTTTACGCGATATATCTAGTACATATATTAAAAGATCTGCTTCTGTTATCTCTTCAAGCGTTGATTTAAAAGCTTCTACTAAAAAATGAGGTAATTTACTCACAAAACCAACTGTATCAATTAATAAAAATTCTAAATTCCCTTCTAATTTTATTAGTTTATGAAATGGATCAAGAGTCGCAAATAACATATCTTTTGCAAATGATTCGGTTCTTTCAATATGATTATTATCTAACTTCATAAAATAATTTAAAAGAGTAGATTTTCCAGAATTCGTATATCCTACAAGTGCTACAGTAGGAATAGAATTCCTTTTCCTTTTTGCTCTTTGTATTTCTCTATGTTTTTTTACTTCTTTCAATTGTTTTTCAAGATCACTTATTTTTTTTGAAATATACCTTCTATCTAATTCTAATTTTGATTCTCCAAGACCTCTGGTTCCTATCCCAGCACCTGTTCTTGAAAGCATTTTTCCCCATCCAATAAGTCTTGGTAGCTGATACTTTAATTTGGCTAATTCTATTTGTAGTTTACCTTCTTTTGATTTTGCTCTATCAGCAAAAATATTTAATATAAGTCCTGTTCTATCTAAAATATCAGTTTTTACTATTTTTTCAAGGTTTCTTATTTGAATTCCAGATAATTCTTCATCAAAAATAACAATATCTATATCATATCTATCTACTAAAAGATTTATTTCTTGTATTTTTCCTGTTCCTAAATATGTTGCACTTTCTATTTTTGATTTTGATTGTTTTATAATTTGTACTACTTCATAACCTATAGCATTGGCTAATTCTTTTAATTCATTTAATGAATCATCAATAGAAATATTATTTTTTTCTTTAAATAGTTCTACTCCTACTATTAATGCCTTTTTTGGATTTAATTCCTCAGAAATATTATATATTTTAATCACTCCATTTTTATTTTGTTTATACTATGTTATATTGTATATTTTTAATACTCTATTTGTCAATAAATAAAAAAATTTTTAAATTATGATCTTTCTTTATCATAATTTTAAAATTTTTTATGGTAATTGTAATATTTCTTTTATTTTATAATATGCTAGTTTTGGATTAAATTCTTCATCAAAAATAAGGCCAGGATTTTTGTTATCATACTCTCTTACAATCCATGAATACTTATCACTTAATCCCCAAGTTGTAAATGCTGTTACTTTATCATATTTTTTTACTAATATCATTAATTTTTTATAAATTGTTGCTTGCTTTTCTAATTTCTCTTCTGTTAATTCTCCCTCAGTTTCTATATCTACTTCAGTAAAATTTATTTCTAATCCTAATTCTAAAAATCGTTTAATATTTTTCTCAACACTTTCCATATCTAAAGAATTATTTAATTTTAAATGAAATTGAAATCCTATTCCATCTAAAGGAACATTTTTAGATAATAGATTATTTACTAATTCATATAAAAAATCTGATTTTGGATTTATTTCCTCTATCATATTATCATTTATAAAAAGTTTTGCATTTGGATCTTCCTTATGAGTCCATTTTAAAGCTTTTTCAATATAATCTTCACCAATATTTTTATACCAAAAAGTTTCTTTATATCTATTATATTCCAATGCTTCATTTATAACATCCCAAGCATATACTTTTCCTTTATAATGTTTTACAACTGTTTTTATATGATATGCAAGGATATTTTCAAAATTAACAGATGTATCATTTTCAAGTTTTAATAACCACTCAGGATTTTCAATATGCCATATTAAAGTATGACCTCTTACTTTCATATTATTTTTTAACGCAAAATCTACTATTTTATCTGCCCTATCAAAATCAAATTCATATCTTTTAGAATGAATAAATCCCCATTTCATACTATTTTCTGGAGTAATATAATTAAATTCTCTTTTTAATGTCTCTGCAAATTTTATATCTTCAAGTTGAATACTTTCTATAGCTGTTCCTATTAAAATATTAGAATTCTTAGCATATTTTCTTAATGATTTATCTTCAGTATTATCTATTATTTTATTGCAATTACTAAAAACTAAAAGAATTATAAAACAAAAAAATTTTTTAAACATATAATCTCCTATAAAAATTTTAATTTTATTAAGTCGATTATACATCATTTTTTATATCATGTCTATTTTTTGTTTTTTTTTACCATTTCAAAACAATTAATACAATTTTTTATTTTGAAATTTTAAAAAAATAAAAATCTTAAACTTACATTGTTTTTTTATAACTTTTCTTTTTAGTATTGACAAATTATTTGATATCTCTTATTATATTTATAAACACGCGTTTAACGGAGGTTGCTATGAAAAGTGAAGATATTGCTAAATTAGCTGGGGTCTCTAGAAGTACTGTTTCTCGTGTAATCAATAATTATCCTAACATTCCCGAGAAAACAAAACAAAAAGTACAAGCTGTTATTGATAAATATGGCTATACCCCAAATTCTATTGCTAGAACTTTAGCAGGTAAAAAAAATAATATAATTGGTCTTTTTATTTTTGATAAATTTTATAATAAGAATATTGATCCAAATAATCCGATGTATTCTATTCATGATTCTCCTTATTTATCAGAACTTATAAGCTATGTTACTGATGCTGCCGAAAATAATGATTTCAATATTCTTATATCCGTTATAAATAGCCAGTCTAAAAAAAATAAATTTGACAAATTAATAAAATCAGATATTATTAGCGGTGCTATAATTGTTGGTGGAGAAACTGATAAAGAAATACTTGGTAAAATAATTAGTTCTAAAATAAAAACTGTATTTATAGATGAATATTTAGATGGTGAATATGATAATATTATTCATATTTATTCTGAAAATTATGAAGGAGCTTATACTGCTACACAAGAATTAATAAAAGCTGGTCATAAAAAAATTGCTCACATTACAGGAAATTTAAAAAAATTTGATGCTAGAGAAAGATTACGTGCTTTTAAAGATTGTTTAATCGATAATGGAATTAAATTAAATAAAAATTATATTATTGAAGGTGATTTTTCTCTAAAATCAGGTTATAATGCAGCTAAAGAACTTTACGAAAAAAATAAAAATAATATGCCAACAGCTATTTTTATTGCTAATGATTTAATGGCTGTAAAAGCTATTGAATATTTTAAAGAAAAAAATTTTAATATTCCACAAGATATTTCCATTATAGGTTTTGATAATCATTCTTTTGCTGAAATATTACTTGGTGGTTTGTCTACTATTTCAAGACCAATAGGTGAACTAGCTATAAAAGCCGTTAATTCTTTAATAACCTTTATCTATTTAGATGATAAATCAAAAATTAAACAAGAAAAAATAAAATCAAATTATATCAATAGAAAAACAATAAAGCCCCCAAAATAAGGGGCTTTTAAAATAAGATTTTTTATAAATTTTTACGTATATTTTTTGTTGCTACTACCATATTTCTTAAACTTTCTATTGTTTCTTTATTACCTCGAGTTTTAAGACCACAATCTGGATTAATCCATAATTTTTCTATTTCTATTTTCTTAGTTAATTCATTTATAACAGTTTCAAACTCTTCTACGCTTGGTATTCTTGGTGAATGTATATCATAAACACCAGGCCCTACTTCTTTATCATAATTATTTTCATTCAATATATCTATCATGGAAAGATCTGATTTAGCTGCTTCAATTGTAATAACATCTGCATCTAATTCTTTTATCTCATTAATTATATCTTTAAATTCACTATAACACATATGTGTATGTATTTGAGTATCTGCTTTTACTTTACTATTTGTGAGCCGAAAAGCTTTTATTGCAATATCTAAATATTCTTTCCAATTTTCTTTTCTTAATGGTAATTTTTCTCTAAGTGCAGCTTCATCTATTTGTATCACTTTAATACCAGATTTTTCAAGATCAAGAACTTCATCTTGAAGCGCCAAAGCAATTTGATAAGCGATATCTCTAATTGATAAATCTTCTCTTACAAATGACCAATTTATAATCGTTATCGGACCTGTAAGCATCCCTTTTACATACTTATTTGTTAATTCTTGAGCATATTTTATATATTCCACTGTAAAACTATCTTTTCTAGATATATCTCCAAATATTACTGGTGGTTTTACACATCTAGTACCGTATGATTGTACCCAACCATTTTTAGTTATTAAAAAACCTTCAAAATTTTCACCAAAATATTCTACCATATCAGTTCTTTCAAATTCACCATGTACTAACACATCAATTTCTAAGTTTTCTTGTAATTTTATTACTTCTTCTATTTTAGAATAAATAAATTCATTATATTTATTTTTTGTTATCTCATTTTTTCTGTATTTGTTTCTTATTTTTCTAACTTCCAACGTTTGTGGAAAAGAACCAATTGTTGTTGTTGGTAGTTTTGGTAAATTTAAATATTTTTTTTGTAATTTTATTCTTTCATCAAATTTTTCTTTTCTATAAAAATCCTCTTCTTTTAAATTTTTAACTTTTTCTTTTACTTCATTATTTAAAAATTCTGTTAAATTTTGTTTTGATTTTATTTTTTTTTGATTTTCATTGTATTTATTATGATTTTCAAAATCTTCAAATTCTAATATATTTTTTAGCTCTCTAAGTTCTATTAATTTTTCTACAGCAAATGATAAAAGAATTTTATATTTTTCATCTAAACTAGTTTCATTTTTTATTGTAAATGGTAAATGAAGTAAAGAACAAGAAGACGATAAAACTAAATTTTCTATTCCTAATCTATCTATAATTTCTATACTTTTTTTATAATCATTTATAAAAATATTTTTCCCATTTACAATCCCTGCAAATATCTCTTTATTATTTATTCCATATTTTTCTATAAGCTCAAAATTATATTCTCCATCAATTAGATCAAGACCAATCGCATCAAAATCTAATTTAATGATATTTTCATAAATATCTCTAATATCACCAAAATATGTTTGAAGTAATATTTTTTTCTCTTTTACATTCAATATTTCCTTATATATATTTTCAAAATTAATAATATCTTTATTATTTAAGTCTGTTACTAAAATTGGTTCTTCAATCTGAATATAACTAATATCAAGTTTATTTAAATTTTGAATAAGTTCTATATAAATTTCTTTGATATCATTAATATAATCTTCCAAATCTCCCTCTTTTATATTAGATAATTTTAAAAAAGTATAAGGACCAATTATAGAAATTTTAGGAGTAATTTCTAAATCTTTTGCTTCTTTATATTCACTTAATATTTTTTTTAGATTTAAATTAAAGCTAATATTTTTATCTAATTCTGGTACTAAATAGTGATAATTTGTATTAAACCATTTTTTCATCGCAAGTGCTTTTACATCTTTATCATTTTTTTGATATCCTTTAGCCATTGCAAAATAAGTATCTAATTCATCTAATTCTAATTCGTTATATCTTTTGGGTATCGCACCTAAAAGACATATCGTATCTAAAAAATTATCATATAATGAAAAATCATTAATAGTTATATAATCTATACTATTTTCTTTTAAAATATTTAGATGTTTTTTTCTGATATTACTACTTTCTTTTAATAATTCGTTTTTTGTTATTTCTTTTTTTAAAAAATTTTCTACTATTTTTTTTAATTCTCTATTTTCTCCAATTCTAGGAAATCCTATCACTGATGTTTTATACATAATTTTCCTCCTATTAATTTTTATTTCATTGAAATTACAACTTTAAATCTTAGTGTTATTAATAGGAACCGTCATAAAATAACCTCATTATATCACCTTCCCTCCGAAGAATTTTAAAATAGGTAAGTCTCCTGACTTAGCTTCATCCTACTCCCTTGTCTTCCCAGAATCTCTTCCAGTGACTTTTTTAAGGTTTCGTCCACAATACAGTAGCGGGGGCTGTGCTGGATTCTCACCAACTTCCTTGTTATGCACAAGTACACCTATTTTTATATATAATTTTTAATAAAAAAACTCTTTCGAGTATGAAAGAGTTTTACTAAATAAACTACCTCTCATCTTCGAATTTTTTGATTTAAACTTTTAATCAATAATTCCCGGAATTAGCACCACACCTTAAATGGTAGGTTGCTGAAGCATCTAAGGGCCGTTCCCTCCGCTTCTCTTGATAAGAATTTATTAAATTTTAAAATTATATTATAAAAATAATACAACTTTTTGTGAAATTAGTCAAGATTTTTTTCATCAACTAACAAATCATACATTTGACTCCCTTTTACAGCTAATCTATCTGCTATCTCATTATATCTATCTCCGTTATGTCCTTTTACATGAAAAAATTCTATTTTTTTAAAACCTTTTTTTAAATTATATAATTTCATCCATAAATCATAATTTTTTTTAATTTTTCCTTTTTTTATCCAATCATGTATCCATATGTTTATTCCGTTTACCACATAACTACTATCTGAATATACTTTTATTGGAATATCTTTTCTTTTTAATTGTTTTAATGCTTCTATTACCGCCATTAATTCCATTCTATTATTTGTAGTATTTTTATATCCACCAAATATTTCTTTTATTTTACCTTTATACATCAATACAGCACCATAACCACCAGTATTTTCTTTTTCTTGATTATTTGCACATGCTCCATCTGTATATATTATAATTTCTTCCAAAATAAATCTCCTTTTTTAATATTTTCTTAATATCAACAGTTTATAATATAATATTATACTAGTTTATAATATAATATTATACTTGATTTATACTATTTTATCAAATATAATAATTAAAAGACTTTAGTATATTAATATAATAACCTATAGCTTAAGGAGACATCTTATATGAAAAAAAATTTTTCCATCTTAAAAATATCATTTTAAACAATTTAAAAATAAATGACAAAAATATAAATAATCTATTTATTAGTTCAATGTTTATTTTTTCTTATGACAAAAACACTCAAAAAGTTTTAAATGAAAAAAATAAAATCAATTTCAATTGGTAATATCAAATACAAAAATATAGAAATTAATTCTGAAAAAAATAATATTATAAAAAAAATTATATTCCTTATAGTTGAATCAATTATTCTTTTTGGAGGTATTTTTACTTATTACTTTTATTTTTCACCATTTAAAGAAACATTTATTAATTTAAATATTCATCCCTATATAATAATTATTGCATTAATTGCTATTCGATATGGAAATTATCTAACATTAATCTCAAGTACTATTGCAAGTGGATTTTTTATTTTTAGTTATTATTTATTAGACAAAGATATTATTATTTTCTTTAATGATTTTTCTCATTATAAATTTTTGTTAATGTTTTATATTACAGGTATTTTTATTGGTAAAGTAAAAGATGATCATACAGACAAAATAAATACTTTAACAAAAAAAATTGAAATTTTAGAAGAGAATTATGATAAATTACGTGATACATTTGATAAAAACGAATTTATAAAAAAAGAATTGAAAAAACAAATTATAACATCAGAAGAAAGTATTTTTTCTCTTTATGAAATAGCTAATTCAATGGAAAAACTCGATTCAGAAGAAGTTTTCACAGAGATAATAGGTGTTATTATAAAATTTCTAAAAGCTAAAACTGTCTCATATTATACATTAAATAATTATAAAAATTTTCTTAGATTAAAAATACGTTACGGTAATAATTTTACTTTGCCTTCATCTATTGATATCAAACATGAAAAATTTTCTTATTTAAAAAACATTATAGAGAATAGATCTTATTATAAAATTTCTAATAACAATAATGATACTCCTATTATGAGTGCGCCAATTATAGCAGGAAATGAAATTCTAGGAATAATAAATATAGAAGAATTGGATTTTGAATATACAACGGAATATACTTTTAATCTATTTAAAATAATAATTGATTGGACAAATAATGCTTTAGAAAAAGCAGAAAACTATAAACTTGCATCAGAAGGAAAGGTAAAAATAGAAAAATATTATAAAAACACTAAAATTTATAAAAAAGAATATTTTAATAAAAGAGTATTATTAGAAGAAGAAAGAAAAATTAAATATAATTTAAATTATATTATTTTAGAATGTAAAAATAATTTAAATTTTTCTATACTTGAAATTGAAGAAAAATTTAGAAAAGTAATACGAGATGTGGATATTTTAGGATATGATGAAGATAAAAAAATAATTTCTATTTTATTACCTGCAACTAATATAAAATATTTGGATATAATAAAAGAAAGAATAGAATCAAAATTAGATTCTGAATTGGTGGTATATCATGCAAAATAAAAATAAAGTCTTAATATTAATTATTACTATTTTTATTACTGGTTTTTCTATTCAATTATTTCGTATAATAAATACAAATAGTTTGTTTAAGGTAAAACAGCCTAAAACTCAAAATAATTTTTCTTATTCTTCTAGTAAATCTAAATTGAAAAACTATGATAAAATATATATTTTATTTAATAAAAATAATACTGATATTAATAGTGTTTATTATAATTTAATAACAGTATTAAAACAAGCAAAAATTGAGTATATCAACATAGAAATAAATGATCCACTCCCAAAAATTAAGAAAAATGATCTATTATTAATAACAACAGAAAAAATTAACATCTCTAAAAAAAATCTTAGAAATTTAACTAATATTGGAGTAAATATTGGGTTTTTAATTAGAACCAGCAAAAAAAATATACAAGAATTTATTGGTATAAAACCAAAAATTTATAAATATAATATAAAAAATGGAATAAAATTCAAAAAAAATATATTTCCAAAATTAAGTGATATCTCTTTGAATTCGGATGTTATTTTACATTCACTTTTAAATATAACAAAAAATGATTTTAATTCAAATATTGATATAATAGCAGAGACTGCAGAAAATAATCCTATTATTTGGATAAATAAATATAATAAAAGTAAAATTTTATTTGTTAATTCTAGCCTTTTTCAAGACAAATTAAACCGTGGATTAATGCTTCAATTGATTACCTCTATAAATAATAATTTTTTACCCTTTATATTTAATGCAAAACTTATACATATTGATGATTTCCCAGCTCCAATAAAACAAGGAAAAGATGACATAATTTTTAAAGAATATGGGATAGATAATAGTGTATTTTTTAAAAATATTTGATTATCTGATGTATTTAATTTATTTAAAAAATATAACTTTAAACCTACAGCATTTATTATAGGACAATATAATTTAGATGTAAATAATTTCCCTGATTTTTATGAAAGTGATATAAATGATATAAATTATTTAGGAAGAAAACTTTTAGAATTTAATAGTGAACTTGGTATACATGGTTACAATCACAATTCATTAGCTACAGATACTGAAATGAACTTTAAAGATTATGGATACAATCCGTGGCCTTCACAAGAAAAAATGGAAGAATCACTTAGAAAACTTAAAGACTTAATTTATTCAATATACGGTAAAATACCTATTTATTCATATGTTCCCCCTTCAAATATTATAGGAATTAAAGGACAAAAAGCAATCAAAAATGTATTTCCAGAAATAAAGGTATATGCTGGACTTTACATTGCTTCACAAGAAAAAGGTGTTCTTTTACAAGAATTTGGACCAAATAAAATAGTTAATGGTGTCTATAATCTACCTAGAATAAGCTCTGGATATATTTATGATAATTCTCAATTATGGAATATATACAATGTAATTGCTCAATTTGGATATTTTAATCATTTTATTCATCCCGATGATTTATTATCTAAAGAACGTTCTAAAAATATGACTTGGAGAGAATTGTATAAAAATTTCTCTTTACTTTTAAATGATGTTCATAAATCATTTTCTTTTTTAAGACCTATGACTACAATAGAATTTTATAATAGTTATAAGTCTAATAAACAATTAAAGGTTTATTCAAAACAAGAAAACAATAAAATTTTTCTAAATTATAAAATGGCCGTATTTCCTGTACATCATTATTTTAAAAATTATAAAAAAATAAAATCAATTACTGGTGGAAACTATAAATTATTATTTTCAAATGATGAATACTATCTTTATTTAATAACATCTACTTCTAATGATGTTGTAATCGAATTAGAAAATTAGGTGATTATATGTTATATACTATTTTACTTGCTATATTTTTTTTATTAGATATAAAATTTACTATTGATGCATTTTATTTTTTTTATTATGATATACAAATTTATCTATTAATACATCTACTTTTATATTTTATCTATATTTTAGTTTCTAATTTATTAAATGAAGATACTACTTTTTTTAACTATTTTGCATTGTGTATACCAATATTTGGTTTTTTTATGACTATTTTAAATAAACTTTTTACTAAATACCCTATACAAAATGATATAATTGATGATTATGAAAAATATTTGAAATATATAAATAACAGAAATCAACTTGAAAAAGTAAATGTTTTTGAAGAGATAAATATAATGAGTCTAGTTAACTCTCTTAATGTAAAAAATGAAGATGATAGAAAACAAGAATTTATAAAATTTATAACTGATAATACTGATATAAAAGTTTCTATACTAAAAAAATCTATTAATTCAGATGATAAAGAGATAGCACATTATGCCAGTACTATCCTTAGTTTTTTATCTGAAAATTTTGAAAATTTAATAGAAAATGCTCGAAAAAAATATCACATTGACAATAAAATTGAAGTTATTAATGATATTATAGATTATTATAATAAATATTTAGAATCAGAAATTATAGAAAAAGAAGTAATCCAAAACTATTATTACGAGTATTTAAAATTTTTAGATCTTGTATTAGCCGATGAAAGAATTAAAAAGAAAGAACATATTTTATTTAACAAAGCAAGAATACTATTTAAATTGAATAGATGTAAAGAAGCTTATCGACTAATAAATAAATTATTGGAAAAAAATGAAACTATTGAATATTATATGTTAAAATTACAGATATTATTTAACAGTAAAAAATGGCGAAAAATTAAAAAAATAGCACACTATATATTTAATACTCCAAAATTAAAAGATAATATTCCCGAAGAATATAAAGAAATCATAAAATTTTGGATAACATGGAAATAGATTAGGACGTGATACAAGATGAAAACAATTTGTTTATTAGCAGAATCCTATCCATATATTGCGGGTGGTGTATCTTCATGGATAAATCAATTAATCTCAGAATTACCAGAATTTAATTTTAAAATTATATCTATTATGCCTTCTGATAAAGAATTTACTGAATATAAATATAAAATTCCTAAAAATATAATTTCTATTGATACATTTTATTTACAAGATTTTAAAAAATTTTCTGCTACACCAAAAGAAAAAAAAATAAAATTATCAAAACAAGAATTAATTACATTAAAAAAATTTATACGATTTGACCCTTCTATTAATTGGAAAACTTTTTCTAACTTAATTAGAAATATTGAAAAAAATAGGAACCAGTGTAGATTTTTTAAAAAGTAAAATCTTTTGGAATTTAATTATTGAATATTATAAAGATAAATTTCCAGAAGAAGGATTTAATGAGTTTTATTGGACAATATCATCAATGTTTTTATTTTTTATAACTGTTATGCAACATAATCTCCCAAAAGCTGATATTTATCACGCGGTGTCTACTGGTTATCCTGGATTATTAGGGCTAATTGCTTCTCAAAGTTATAATAAAAAATTTATATTAACTGAACATGGAATTTATGCAAGAGAGAGAGAAGAAGACATTATAAAAGCTGATTGGATTCGAAAAAAATATAAAAAATTATGGATAGATTTATTTTATTTTATTTAAATTGGTGCATATAAAAATGCCGACGTAACTATTTCATTATTTAATGCCAATAAAAAAATACAATTAAAATATGGTAGTAAAAAAGAAAGTACTATAGTTATTCCAAATGGAGTTGATTTAAAAAGATATAATATTGAAAAAATTAAACATAAAAAATTTAATATTGGTGCTGTCGTTAGAGTTGTCCCTATAAAAGATATAAAAACATTAATTAGAAGTTTTAAAATTGTAATAAACAAATTAAAAACTACTGATATAAAATTATATATTATGGGGCCTTACGAAGAAAACTTGGAATATTATAAAGAATGTGTAGATTTAGTTAAATTTTTAGATCTAGAAAATTTAGTTATATTTACAGGAATAATTAACGTAAGTGAATATTTAAAAAAAATAGATTTACTTGTACTTAGTTCTATTTCAGAAGCACAACCACTTGTAATTTTAGAAGGACTTGCTTCTGAAATTCCTTTTGTTTCTACAGATGTTGGTGCTTGTAAAGAATTATTGTATGGAAATGAACAGGACAAATTAGGAAAGGCAGGAATAATTGTCCCGCCATTTTCTCCAAAAGAAATGAGTGAAGCTATTATAAAATTATATAAAAACAGAGAGTTACTCTATAAAATGGGTAAGATTGGTCGAAAAAGAATTGAAAAATATTATACAAAAGAATCTTTTATTAAACAATATAGAGATTTATACATGAAAATAGGTAATTAATATGGCAGGGATTGGTTTTGAATTAAAAAAAATGTTTGGAAAAGATGATACATTAACTAAAAGAGTAAAAGCCTATACTTATTCTACATTTGTATCAGCTGGACCCTGGATAATAACTATATTAGTTTTAAATATATTTTCAATTATTTCAAATTCTTTTTTTAGTGAATTAGTTGAAAAGAGTTTATTTATGGGAAGTATAGTCTATAGCTTTATATTTTCTCAAATAATTACAACACCTTGGCAAATGTTAATTACTAGATACATATCAGATGAACTTTACATAAAACGTTATAGCAACATAAAAGCTTCATTTATTGGATTAACTAAAATTGTAATTATTTTATCATTTTTAACAGGTTATTTATATTATCTTAATAAAGATATTCCTTATTATTACAAATATATATCTATTTCATTACTTGTAATTACTTCACTTACATGGATAATTATGGTATTTTTAAGTAGTATAAAAAATTATAAATCTATATCAAATTCATTTATATTAGGTGGTACAATAGCTATAATATTGGAAATAATATTTTTAAAATATCCAATTAATTTTGTTATATTTAAAAGCTCTACAAATATGCTTTTTGCTTATACCATAGGCATGTTTTTTACATATATGGGACTTGTTTATAGTTTTTTCAATACCTTTTCAGAAAAATCAGGAAAACAATTTGATTTTATTAGATATTTATCAAAATTTCCTTCAATATTTTTTATAGGACTTTTTTATATACTTGGATTATGGATAGATGACATTTTAATTTGGTTTAGTTTTTTAGGAATTAACATAAAAAATATTTTTAGATTTTCACCGCTTTATGATACTGCTATATTTTGGGCTTATTTTATTACTATTCCATCTTATGTACTTTTTGTAATAAAAATGGAAGTAAGTTTTTATGATAAATATAAAAAATATTTTTCGTTAATTTCACATAATGGTAATTTAGACGATATTGAGTCTGCAAGAAAAGATATGAAAACTACATTATATAAAGAATTAATACATCTCTTTGAAATACAAACTATTATTACTATTACTGCTATTGTTCTAGTAAATAAAGTTGTTGCCATTTTTAATTTACCTTTATTATTAGTACAAATATTTAAAATTTCAGCACTTGGTTCTTTATGTAATGTATTTATTTTAATAATTATTTTAATAATGCTATATTTTGAATATCGAAAACAAGCATTATTTATTGCTTTTTTATTTTTATTTTTTAATACTTTTTTTACTTTAATTTTTATACCATTTGGTAGTAATTTTTTTGGTGCTGGATACTTTATTGCTACATTTACTACTTTAATAATTGCCCTGATTTTATTAGTTTATTCTCTAAAAGAAATAAATTATTATACTTTTTTTAGACAACCAATATTTTCAGTCATTAAGAAAAACAATTTCAATTTCAATGGAATAAACAATATCATTTTAAAATTTAAAACTTTTTTTTCAAATAGAAAAGTATCGTTAATAACACTAATTCTTTTAGGATTTTTAATATCTTATTCTGCAATAGTATATTATGATCCTGATAATGCTGAAAAAAGAAAACAAGATTTGATTACTAAATTAAATATATTTTTAGAAAAAAATAAACCTTCAGTTATTTTAGGGCGTGAAAGAAAAAATCTTACAAATATTAACAGTGGTGTTCTTATAATTAATAATAAAAACAGTAATAAAAATAATAAAAACAAAACAATTATTCAAAAAAATCCAATTATTTTTAATACATATAATTTATCTACAAAACCATCTCAAAATTTACCTAATGAATTATCTATTGACTTTAAAAATAATAACCTTTTTTCAAAAATAAATAATGATATAGATTCAAATGAAATTTTTAATAACACAAAAAAAGATGTTAAAACATTAAAAAGTAAGATACAAGAGGATATAAATCAAAAAAATAATTTAATTATTAATAGCAAACTAAGCGAAGAATCACTTCAAAACAATAAAAAAACTAATAATAATATTAAAAACTCCCAAAATATTCAAAAAGATAAGAAAATAGAAAATAATATTATCGTTGATTCAATAAAGAAAAAAGAAAAAAATATATCTATTGTAAATAAACTTTACGGATATAATACTTTTCAAAAAAATTTATACTATGATGAAGGTTTAAATAATATATTTAACTATAACAAAAATAATTTAAAATTTTTATCAAATACTTTTTTAGGTTTAAATAGTAATTCTAATTACTTGTATAATAGATTTTATCTAGAATACATTAAAAATAATAATATTTTTGGTTATAAAAATAGCTTTTCTATTGGGAATATAGGAGAATCAAACAAATTATCAGTACTAAAAGAATATGATGATATATTTTTAGTAGATAGCTTAATTTATAGAGATTTATATTCGGTCAAAAATAATGATTATGGAAATATTAATACAGAATTTATAAATTCACTGTATTTTATTAATAAAAATTTTAAAATTGCTACTTACTATTCAAAAGAAAATTTATATTATTTTAAAAATTTTACTCTGAAATATAAATTTAATAATAATTTTGGCGTTTTTTATATTCCAAGAAATCTAATAAATTATTTTTATAAAAATGTATTCCGTGACATAGATAATAATTCAAAATTTGATGATGGAAATAAAGATGAAATAATATTTGCTAAAGAAATACATAATAAAAAATATAATTTAGGAATTTATAACTATAAATTCCTTCATTTTATCGCTTACAAAAACACAATAGCATCTTTAAAAGATTATATTTTTTATATTGAAAATGATTTTTTAAATAAAAGTTTAACAACTTATTATAGTGAAAATTATAAAAATTACATTTATTTAAATTATAACTACGATTCAAACAAATATTTTATTAATAATAAACAATTTTATAATAATAATGTTTATTCTTTAATTGAAATCTCTAATAATAACTATAACTTCATTTATAATCTTGGAAAAGAATTTGTTATTAATAATAATGTTGACATTAATTTAGGAATCGGAAATACTCCTTTTTATTCTGTATGGGATAGTTGGAGAATCAATGAAGATAATAAATTTTATTTTTATTTAAATTTTAAAAAGGAGTTTTAAGGTGATAATACTACTATTAATAAGCTTAATATTTATAAGTTGTTCTGGAAATGATATAAAACAAAATAATGATAATAATAGCTGGCTTGTACAATATCAAAATATTAATATTGATGATATAATTAAGAGTAACTATAAAACAGTAATAATTGACTATTCAAAAGATGGTAGTGATATGCATAGTTTTACAAAATCAGAGATAGATAAACTCAAAAATCATAATATAAAAGTAATCTCATATTTGAGTATTGGAGAAGCCGAAGACTATAGATTTTATTGGAAAAATTCTTGGAATACAAAATATCCTATTTGGATAAAATATGAAAATCCAGATTGGAAAGGTAATTATAAAGTAGAATATTGGAATAAAGAATGGGAAAATATTATCTATATTTATCTTGATAAAATTTTAAAAATTGGTTTTGATGGTGTCTATCTTGATGTTATTGATGCTTATAAATACTTAGATTCTAATATTAATTATAATGCTGAAAAAATGATAGAATTTATTGAAAAAATTTCCATATATACAAAATCTAAAAATCCTAACTTTTTAATTATTCCACAAAATTCTGAAGATTTATTAAAATATGATAAAGAAAATAAATTTTTAAATAGCATTGATGGTGTTGGTGTAGAAAGCTTATGGTTTTATAAAAATAAACCTCAAGATAAAAAAAATACTGATTATCGATTAAAATTTTTAAGACAATTACAATCTAAAGGAAAATTTATTTATGTAATAGAATATATAAATAAAAATATTTATACTGCAAAACAACTTGCTATTAAAAATAATTTTTATTATTATATAGCAAAACCTGACTCAGATCTTGATGAAATAAATTAAAAAAAATAAGAATAACGTCACAACTTTAAAATAAAAAATTGTGGCATCTATTCTTATTTTTTATATTCTACAATTTTATTTTTTCCCTCTTCTTTTGCTTTATAAAGGGCTTCATCAGATTTTTTTATTAATCTTTCTATATTATCATCCTTTTCAAGAAAAGCTACTCCTATACTAAGTGTTATTTTTAATATTTCTTCATCTGCTGTAATATATGTTGACATAATTTTTTGACGAATCTTTTCTAATTTATCCATTATATATTCTTTTTTCTTATCAAAAAATATGGCTACAAATTCATCTCCTCCATATCTTGATAAAATATCTTCATTTTTTAAAAATTCTTTAATTATATTAGTTACTATAATTAAAGCTTTGTCTCCTATATCATGACCAAACGTATCATTAACTGATTTAAAATTATCTATATCTATAGTGCAACAAGCAATAAAAGTATTTTCTTTTTGATATTCTACTATTCTTTTAGCAGTTTCTTCTAAAAAACCTTTTCTATTAAATGTTTTTGTTAAATAATCTGTTAATGCTTCATTTTTAATTTTTTTATTACTTAATATATATTGCAAAATTAATATCAAGTAAATAAATACAATCAAAATAGTTGTTGTTATAAAAATAGCCCCTATTTCTTTTATTTTGATTTCACTACTTTGCATAACTTCATCTAATGACATAGCTTGAATAATATCTAATTTATCTATATTTGTTTTTTGCTTAATAAAAATAAAATTATTTCCATCTATAAAATATTCTAAATAATCTTTTTTATTCAATTCGTTTATTATATTTTTATTAAAATTAATATTTTTTTTGCTTTTTAATATTATTTCATTATTATATAGTAAAAAATTAAATCCATGAATACCAATCACATAATTTTTTAAATCATTTTCAAAACTATCTATCAATATATCTGCTCCAATATATCCAATTATTTGATCATTTTTTCTTATAGCTTTAACTGCTGTCATTCCAATTTTTTTTGTAGTGTACTCTTTATATGGAGTGGTAAAAACAGCTTTATTACTAGTTTGTGCAAAACTATACCACGGACGTTTTTTCACATCATAATTTTTATCACTTATAGTTCCATTACTATCAATATAAAAATTTGCGCTATCATTTGCCAACCACACAAGATAAACTTCATCATCTATTTTTTCTAATTCTAATAATGTTTTTAAAATACTATTATATTCAGTTCTTAAAATATCTCTTCTTTCTTTAGTTTCTTTTAAATAATTTATTAATTCATTATTTTTAGAAATTATTTCTACTGCATAAAGTGTTTTTTCAAGTTTATGCGATATTTCTTTATCCTGTCTTTTCGTTATTTCTAAAAAATTAATCACATTTTTATTTTTTATCTCTTTATATACTTTTTCTCTTACAATAACATATGAAGCAGTTATTATTATTATGACTAATAAAAAACTAATAATATTTATTTGTAACTCCTTTTTTTTATTCATATTTATCTCCCTAATTATATTGCTAATCTTATTTTTTTACTATATAATTATAATACATGGTTTTATAGGAGGTGTCAATTTGAATATAAAAAAAAATTTCATTGAAGATATATCTTGTAGTATTTTTTATAAAAATACTACAAAAAAAATACCTTTAGTCGTTGTTTTACATGGATATAACGGAAGTAAAAACAATTTAGAAAAAAGATTAAATATTGGAAAAAAATTTGCAAATAATGGATATTATACCGTGCTTTATGATGCACCAAATCATGGTGAACGAAATAAATACAATATAGACAATAATCATGATATGTTCTTTTATCTTTTGAAAAAAAATGTTGTTGATTTGGAAAAAGTAATTAATTATTTTAAAAAGTTAGAAAATATAGATGAAAATAAAATATTTCTTACAGGAATCTCTTTTGGTGCTATGACAATTTTTAAATATATTTCTAAATATACTGTTTTTGCTAGTGCTCCAATAGTAGGTTGCAGTAATATTGATGAATTCATATTACATTATAATAAAAATAATATAATAAAAAAAATTGATAAAATTACTACTGAAATAATCGAAAATTTTAATCCTTTTGATAATATAATAAAAAACTATAATAACCATTTAATAATGATAAATGGTAAATATGATAAAATAATGCCTTATCACTCTAATGAAAAACTTTATAAAACACTTAAAAAAAAGTATAATCATAATAATAATAACTCTTTATTAGAGTTTTATTTATTAGATTATGGTCATTTTCAAAACGAAGAAATGTTTGATATTGTAATCAAAAAGTTTAATCAAATATTAAAAATAAAAAATCAATAAAAAAATATTAGGAGGTAATAAATGAAAACAGCTTTAATTACAGGTGCAAGTAGTGGTATTGGTAAAGAATTAGCATATATTCATGCGAAAAATGGTGGTAATTTAGTTCTTGTGGCTAGAAGTAAAGATAAATTAGAAAATATAAAAAAAGATATTGAATCAAAATATAAAGTTAAAGTAGATATAATAATAAAAGATTTAAGTATCCAAAGTTCACCTTTTGAAATATATAATGAAGTAAAAGAAAAAAAAATTGATATTGAATATTTAATTAATAATGCTGGATTTGGCGGTATTGGATATTTTCATAAAAGGGATTTATCTAAAGATTTATCTATGATAAATGTAAATATAGTTGCACTTACTGCTCTTACACATTTATTTTTACAAGATTTCACTAAAAAAAATAGTGGTAAAATACTAAATGTTTCTTCTACTGCTAGTCTTTTACCTGGACCTTTACAAGCTGTATATTATGCAACAAAATCTTTTGTTACTTCATTTAGTAATGCACTTTCTCAAGAATTAAAAAATACAAATATTACAGTAACAAATCTAATGCCAGGCGCTACTAATACAGGGTTTGGAAAAGTTTCTGGCATGGATAAAACAATTTTATTTAACAAAACTGCTTCTGCTAAAAAAGTAGCGCTTGACGGATATAACGGTATGCTTCGTGGTAAATTAGATATAGTTTCTGGTATTACATTTTCTCAAAAAATCATGTTTTTACTTCTTCCATTTACTCCAAAAAAATTAAAACTTCTTTCTGTATTTAAAATGCAACAAGAAATAAATTAATTTAATAAAAAAATTTTGTTATTTTATAATAATATATAGTATAATAAAAAAGAAAGTCTTTTTTAATAGAAAGGAGTATTTTAATTGTATACAATATTACATATTGATTCTAGTTATTTTTTTAGAAAAATTTTTAAAGATAAATTTGAAAGCGAGGGTATAAATTATATTGGTGTCTCATCTCTTTCAGAAGCAAGAAATGAACTTATGTATGATCCTAAAATAAATATTATATTAACAGCAGTAGAATTCGAAGACGAAAATATAGAAGAATTTATATATGAATTAAGTGATAGTAAATATAAAAATATACCTATTTTTGTTATAACTGGAAATACTTCTACACAAAAAAGAATAGAGATTTTTAATTTAGGTATTGTTGATTATATATTAAAAAATACTCCTATTGATGAAATTGTAGAAAATATTTTAGCTTTTACTCGTGAATCAGAACTTTTACAAGAACTTCGAAAAGCAAAAATTGCTGTTTTAGATGATAGTAAATTTGAAATAATGAGACTAGAAGATATATTTAAAGCAAATAATATTAAAAATATAGATTTTTATACTGAGATTGAAGATTTAGAAAATTCTAATAAACAATACGATATTTATCTTATTGATATGGTATTAAAAAATCGTTCTGGTGAAGATATGATACTTAAAATAAGAGAAAATAATAAGTATTGCCCAATAATAGCAGTATCTTCTATAGCAAATGCTAAAACTATATCACATGTATTATTAACTGGTGCAAATGATTATATTGTAAAACCTTACGTTCAAGAGGTTTTACTTGCTAGAATGGAAATAGCTCTTCGTAATTATCTTGTTATAAAGGAGTTCCTTAAATAAATGAAGTTTATTTTAGATAACATAAAATCTATATTAAAAGATCAAAATTATTTAGAATATGATAAAATATATTCTAAAATGATAGAAGCTTGTAAAAACAATAAAATAATTGAAATAATTGATAAAAAAGGAAACATTGTGACTATCCTTCATAATAAAGAAGAAATGGAATACTACCATAAGAAACTTATTCAAGTTCACGGTATTTATGGTTATTTCTAATTTTTTAACATAGGATTTCATCCTATGTTTTTATTTCTTTTTTATTTCCTATTTTAAATGGAAAAATTCATAATAAAAAAAATCGTGATAAAAATTCTAAAAAAATAATTGTATAATATATTATAAAAGTTTATAATATAACCATAAAAGAAAGGTGATAAAATGAGTGATAAAATCATAATTAAAGGTGCTAGAGAACATAACTTAAAAAATATAAATATAGAAATTCCTAAAAATCAATTTGTTGTAATTACTGGAGTGAGTGGTAGTGGTAAATCAAGTTTAGCTTTTGATACCATTTATTCTGAGGGACAAAGAAGATACGTAGAAAGTCTATCCGCTTATGCTCGCCAATTTATTGGACAAATGCAAAAACCAGATATAGATAGTATCGAAGGACTTTCCCCTGCTATTTCTATAGAACAAAAAACTACTAATAAAAATCCTCGTTCTACCGTAGGAACAATTACTGAAATATATGACTATATGAGACTTTTATGGGCACATATAGGAGAACCTCATTGTCCTATATGTGGAAAAGGGGTTAAAGGTCAAAGTGTTCAAGAAATAGTTGATACAATTATTGAAACTAATAATGAAAAAGATAAAATGATAATACTAGCTCCTATTATAAAAGATAAAAAAGGAACTCATAAAAATTTATTTTTAAATTTATTAAAAAAAGGTTATGTTCGTGCAAGAGTAAATAATGAAATACTTTATCTTGAAGATAGTATTGAACTTGACAAAAATAAAAAACACAATATAGAAGTAGTTATTGATAGAATTATATTAAAAAAAGATGATAAAGAATTCTTACAAAGATTGACAAATGCTATTGAAACAGCTGTTGAATTAGCCGAAGGTAACGTTATTGCAAATATTAATGGCACTGATATTTTCTTTAGTGAAAACTTTACTTGTCCTGATCACAATATAAGTTTTCCTGAAATTAATCCTAGATTATTTTCTTTTAATGCTCCTTATGGTGCTTGTCCTGAGTGTAATGGTCTTGGGAAAAAATTAGAGGTAAATGAAGATTATCTTATAATTGACGAAAATCTTTCTTTAAATGAAGGAGCAGTTTATATTCCTGGTGCAAATAGTAAAAAAGGTTATGTATGGAATGTTTTTTATTCAATGACATTGGCTTTTAATATTGACTTAAATAAACCATTTAAAGATTTAACTAAAAGAGAAAAAGATATTATTTTTTATGGAACTAAAGAAAAAAAATTTAAAGTAAATTATGTTGGGGAAAATTTTTCTTATAACGGCATGAAATCTTTTGAAGGAATAGTAAAGAATATAGAAAGAAGATATTATGAAACTACTTCTGAAGCTATAAAAGAGGAAATTGAAAATAAGTATATGATAGAAAGAGTATGTAAAAAATGTAATGGAAAAAGATTAAAAGATGAAGTTCTATCTATACACATAAATAATAAAAATATTATGGACGTTTCTTTTATAAGTATAAGAGAATCCTTAAAGTTTTTTAAAGAGATTAAATTAACTCAAAAACAAAAACAAATAGCAAAAGAAATTTTAAAAGAAATAAAAGAAAGATTAAACTTTTTAGTAAATGTTGGATTAGACTATTTAATGCTTGCTCGAGAAACAAAAACTCTTTCCGGTGGTGAATCACAACGTATTAGATTAGCAACACAAATAGGTTCGGGACTTACTGGCGTTATTTATGTACTTGATGAACCTAGCATAGGATTACATCAAAGAGATAATGATAAACTATTAGGTACATTAAATAGACTTAAAAAATTAGGAAATACTCTTATTGTAGTAGAACACGATGAAGATACTATGCTTCAAGCTGATTATATTATAGATATGGGGCCTCATGCTGGTAAATATGGCGGAAATATCGTAGCTAAAGGTACTCCCGAAGAAATAATGAATAATGAAAGCTCAAAAACAGGGAAATATCTAAAAGGTGAAAACATTATAAAAGTTCCAGAAAAAAGAAGGGAACCTCTTGGATATATAGAATTAAAAGGCGCTAAAGGAAATAATTTAAAAAATATTAATGTTAAAATTCCTTTAGGAGTAATGACCCTTGTTACTGGAGTAAGTGGTAGTGGTAAATCTTCTTTAATTAATCAAACATTATATCCTATTTTATTTAATAAATTAAATAAAGGTAAACTTTATCCTCTAGAGTATAAAGAAATAATAGGAATAGAACATTTAAATAAAATAATTGATATTGACCAAAGTCCTATAGGAAGAACTCCTCGTTCAAATACTGCTACATATACTAAAATTTTTGATGAAATCCGTGATATATTTGCCCAAACAAAAGACTCTCAGTTTCGGGGATATAAAAAAGGAAGATTTTCTTTTAATGTAAAAGGTGGGCGATGTGAAGCGTGTCAAGGGGCTGGAATTATTAAAATAGAAATGAATTTCTTACCAGATGTATATGTAACTTGTGACGTATGTAAAGGAAAAAGATATAATAGAGAAACACTTGAAGTATATTATAAAGGAAAAAATATTGATGAAGTATTAAATATGAGCGTTGATGAAGCATATAATTTTTTTAAAAACATTCCAAAGTTAGAAAGAAAACTAAAAGTTTTAAAAGATGTAGGACTTGGATACATTAAACTTGGACAACCTGCTACTACTCTTTCTGGTGGTGAAGCACAAAGGGTAAAGTTAGCCACTGAACTTTCAAAAAAATCTAGAGGCAAAACAATTTATATATTAGATGAGCCCACTACTGGATTACATTTTGATGATATAAAAAAATTATTAGAAGTATTAAATAAACTTGTAGAAAAAGGAAATACCGTAGTTATCATAGAACATAATTTAGATGTTATAAAAATTGCCGATTATATAATTGATATAGGTCCTGAAGGTGGAAATCAAGGTGGAGAGATTATTGCAATAGGAACACCTGAAAAAATTATAAAATCTAAAAAAAGTTACACTGCTAAGTATTTAAAAAAATATCTCTCTAAATAAACGTAAGGAGTAGGTGCACTATGAAAAAAATATATATTTTTATGTCGATATTTTTTCTAATAACTACTATTAGCTTTGGAAAAAGTAGATATCAATTTTTTAAAAGTAAAGTTATGCCAAAAAGCGTAGCTGTAAGTAATTCGGGTGAAATTTTTATTGTTGATTCTATAGCTGATCAAATAATGAAATACAGTAAAAAAGGAAGATATATTAAGTCTTATTACTATGATGATCTAAAAACTATATCCGATATATTCTATTATAAAGGAAAATTATACATTCTTTCACTTAAAGAACAAATTTATGTTATTGATACAAATGGTAATTTATTAGAAAAACATCAATATAATAAAGGAAAATTACTTGGTGAATTTAATAAACCTACTTCTATTTATGTAGATGATGAATATATTACTATTGCTGATAGTGGTAATAATAGAATTCAACTTCTTACTACTGATTTTAAAATTGTACGTGATTTTGGATATAAAGGTTTATTTTATACTGCATTTTCTGATATTAGTAGTGTTTCTAGAATTAATGATTATTTTTTAGTAGCTGATAAAGATACTGGCGAAATAAAAGTTTTTGATAAATCTGGACTATATGAAAGAAATATACAAGATGAAAAAGGAAATGATGTAAGAGCATTTATAGCTCCTAATGATATTTTTGTATATAAAAATTATATTTATATTGTTGATTCAGGTTCATCTAAAATATCAGTTTATAATAAAGATTTTAAACTTTTATATAAATTTGGATCTAAAGGAACTGGTAAAACAGAATTTGGATCAATAAAAAGTATTTGGGTAAATGATAAATATTTCTATATAGCTGATACAACTAATAGTGTAGTAAAAGTTTTTAATACCAAAGATTTAAAATATAGATTTTCATTAGGAGTAAATAAAGTTTTAATGTACATTATTTTAATGTTAGCTTTTATTGCCCCAGTAGCATTAGGAATTGAGATACTTATATTAAAAAAACATAGAAAAGGTGATATTATTGATTAATACTGATAACCGTGCAATAGGAATTTTTGATTCTGGATTTGGAGGCCTTACTGTATTAAAAGAAATCGAAAAAAAATTATCAAATGAAAATATAATCTATTTTGGTGATACTGCTAGACTTCCTTATGGTTCAAAATCTAAAGAAACAATTATAAAATATAGTAAAGAAATATATAATTTTTTAAAAAAGAAAAATGTAAAATTAATAGTTATAGCTTGTAATACTGCTTCGTCTTTTGCTCTTGATACTCTTCAATCAATCAGTGATATTCCTGTAATTGGAGTTATAAAAGCTGGTAGTCGATGTGCTAGTAGAGAATCAAAAGGAAATATATTGGTTATTGGAACTAAAGGAACTATAAAAAGTGAAGTATATAAAAAAGAAATTCATAGTATTAGTAATAATATAAATGTTTATCAACAATCTTGTCCTTTATTTGTACCTCTTGTAGAAGAAGGAATGCTTGATGATAAAATTACTATTTTATCAATAAAAAAATACTTAGATAATTATATTGATAAAATCGATTCGATTTTACTTGGGTGTACTCATTATCCATTATTAAAGGAAAGTATACAAAATACTTATAATAAAAATATAAATATAATAAATCCTGCCGAAGAAGTTGCAGAAGAAGTTTTTAATATTTTAAAACAAAATAATCAATTAGCAAATAATGTAAATAGAACTTTAGAATTTTATGTAAGTGATGATAGAGATAAATTTATAGAGTATGGTAGTCTTTTTCTTGGATATAAGATAAAAAATGTAAAAGAAATAGATATAGAAGAATATAAAGCCTAAGCAAATTGCTTAGGCTTTTATTGATACAGCTTGCATTGGACATGAAGTTACACATATACCACATCCAGTGCACTTTTCTTCATCTACTCTATATCCTTTTGGTATTAAAAATCCAAAAATACTTCTTTTTTTCTGTTGTTCTCCTTTTTTTAAAGGAATTATCGCCCCTACTGGACATACTCTTTTCACTGGACAAAATGGCGATTTGTCACATTGATTTTGGTCTATTACAGCTACTTTTTTTGATTTTTTAAATTTTTTAGATTTTATTTTTTTCATTTTCTCCTCCAAAATATAATTATATTATAATATTATGATTTTATAATTTATTATAGTATAATTATTTTCTTTTGTCAAAACAATAAAATAAATTTTATATTTATTTCATTATATATATTTATAGAGATTATTCTTTCTATATTTCTCTTTTAAATTTTTAATGATATAAGGCTCTTTTCAAAAATTATTTTATTCAAATTCTCCAAAATTCATATCTACAACTTTCATTCCATCAATTGCAGCACTTATAATTCCACCAGCATATCCTGCTCCTTCACCAATAGGAAAAAGATTCTCTATATTAATTGATTTTCCTGTTTTATCTCTTGTAATTCTTATAGGTGCTGATGTCCTAGTTTCTGGTGCAATTAGATTAGCATTTTTTGTAAAAAGTGGCATTTTTTTCTGCCAATATTTCAATGCATTTATCATATTTCTATTGATAACTTCTGGAAAAAAATTATTTAAATTATATGAATATAAGTTCATTTTATAACTTGATTCTATTTCTTGTTTGGTTTTATTATTTTTTAAGAAATCATTTACACTTTGATATAAAGCTCCATAAGTAGATATTATTTCATATGTTTGTTTTTCAAGTTTTTCTTGAAGCTTCATACCGTCAAATAATTTATTTCCATAATCATTTTCTCGAATTGCTACAACAATAGCGGAATTAGAAAATTTTCCATCTCTTTGACTATAACTCATTCCATTAACAAGTGATGTATTTTTTTCAGAAGCAGCATTAACTATTTCACCACCTGGACACATACAAAATGAAAATACACCTCTCTTTTCATTTTGGTTATTATAAGTAAAATTATACGTTGCACTTCCCAATATTTCACTATTATAAAATTTTCCATGTTGCATTCTATCAATATCATATCTAGGACTTTCAATTCTCGCTCCTACTGCAAAATCTTTATTTTCTAAAAACACATTATTTTTATTTAACATATAATATGTATCTCTAGAACTATGCCCTATTGCTAAAAATAAATAATCAATATCTATTAATTCATTTTTATTTATTTCTATTTGTGATATTTTTTTATTTTTTATTTTTATGTCTGTTAAAATAGAATTAAAATAAAATTCTCCACCCATAGATTCTATTTTTTTTCTTAAATTAGTAACTACTACTTTTAATACATCTGTACCTATATGTGGCTTATAATCAAATAAAATCTCTTTTTGAGCACCACATTCTACTAACGTTTTAAATATTTCATCTTTATATATACTCTTTACTCTTGTTGTTAATTTACCATCGGAATACGTTCCTGCTCCACCTTCTCCAAATTGTATATTCGAATTCGAATTAAGCTCATTTTCTTTTATAAATAACTCTATATCTCTATCTCTTTCATCTATTTTTTTCCCTCTTTCAAAAATAATAGGTTTATAGCCTAATTTACAAAGTCTATATGCAGCAAATAAACCTGCAGGCCCTGTTCCTATTATCGCTATTATTCCTTCTATATTTTTTGATTTTATTTTTTTTAATTTCTTTTCTTTTACTTCTTCAAATTTTGTATTTATCTTTTTATTTAGTTCAATTTCTACATTATATAATAAAAAAATACTATTTTTATTTCTACTATCAATCGAACGTTTTTTATATTCTATTTTATTTATACAATTTTTATTTATTCCATTTTTTTTTAAATACTCATATATTCCTTTTTTTTGATTTATATTTACAGGAATTTTAATATTTTCTACTTTTATTTTCATTAAATTTCTCCTTCAAAAAATTTATCTATTTTTTCTTGAATTTCATCACTATACGATTTTATTTGTTTTCTTACTAATTTTTCTATATATTTTACCTTTTCATCATCATTAGGATAATAAATTGGTGTTTCTTTTAATGGTGTCGCATAGAGTTCCAAATTTTTTCCTTTTCTTTTTCCATTATAATAAAACCATTTATAAAATGTAGATGAGTTTAAGTATCCAAGTATATAAAAAAGATTAATACTACTCTCTTTTTTTGTTAAATAATATATATCTGCACTTCCATAAAAATCTTTTTTAGTATAAGCAAACATATTTAATTTACATCTTTGACGTGAAACAATTTTTTCTTTTTTAAATATTTCTTCATCTCTAGCCCATTGCAATTCATACCAGTTTATTTTTTTAGTTTTTACTTCTCTACGCTCAATTAATTTATCGTAAAAAGGTCTTAAATATTCTTCTAATTCATTATTTATCTTAATTTTATTATCTAAATAAAGTATCCAATATTTATTTCTTTCATCAATATTATATATATTTATATCTGGACTTTTATAAAAAGGTCTTAAATATTTTTTAAATTTTTCATTAAATTCTTTAAAAATAAATGCTTTATCATAACCACTAATAATTCCTTGATTAATATATAAAATATCATCTAAAAAATAAGTTTTTTTATTAAAAATAGTATTTAATTTTAACAATTCCTTTTCTTTTGCAATTACTATTTTATTTCTATAATTAAATAAATATTTATTATTTAATTTAAACTCTTGATTATTTGATATTATTTTTATATTTTTTTCAATATTATTTTTTGTTATAGAAAATATTATATTATGTTGACCAATAGCATCTTTAAATACAGATTTATTAATATTATTTATATAATAAAAACTGCAATTTTCTTTTATACAAGTCCTTAATTTTTTAGCATAATCAGCTTGTAACCAATAATTAGTAGTAATATACGTTAAAATTCCATTCTTTTCTAATATTTCTATTCCTTTTTCTATGAAAAAATAAAGATAATCCATTCTTCCTTCATAGTATTTTTTACCAAATTCAGTTTTTTTTATTTTATCAAATATTTCTTTATTATTTTTCTCGCCTAAATATGGTGGATTTCCTATAACAATATGATATTTTTTATCAAAATTTTTTAAAAGAGAATCAGTTTGATAAAGTTTTATTTTTTTATTTACTAATTTATATTTATCAAGTATTTTTTTTATTCTACATCTTAATACAGATAATGCTTCTTTATCTATATCATAACCTTCTATCCAAGTACTTATGTAATCATAATATCCAAAATATCTTTTATGCAATTTTATTAAAAATTCTATTAAATCAATTAATAAATTACCTGAACCACATGATAAATCAACAATTTTTAAGTTTTTTAAAGCTTTTTTTCTATCTTGAAACCCAAATTTTTTATAATTAGAAAAAAAATATCTTAGTGATATGGCACTCATATCTCTAGATATTTTTTGAGGTGTATATACTTTATAATTACTATTAGTATTTAAATACATTTTTTCCCTTTCTTTTTATTGGATAACTCCAAATTATTAGATATATTGTCACAAATGAAAATAATTTTATAAAAATATTATTAAAATACAATGATACAATAAATGCTATTGTTGCAATCAAGCTAACTATTAAAATAAATCTAACTATTTTAAATAAATTTAATTTAAAATACCTTTTATTAAAAATAAAATATAATAACAAAAAATTAATCATTGCAGATATTGATGTAGAAAGTGCAAGTCCTATATGTTTTAGTTGTTTTATCAATAAATAATTTAATATTATATTTATAAAAATGGAAATTATAGAAAATATTACAGGTGTTTTTGTATTTTTCATACTGTAAAATGCTCTACTTAGTAAATGTATTGCAGAGTAAAAATATAAACCTAATACATAATAAAAAAGCGATTCACTCGTTAACTTAATAGCTTCATTAGTATATTTTCCATATCCTAATATTAAAAATATTATATTTTTTGAATATAATGTAAGAATAAAAATACTAGGTATAATAAAAAATGCAAGTATTTTTAATCCCTGTTCAATGTATGACTTTGCTTCATTAAGATCTTTTTTTTCGATAGATTTTGATAAATGGGGATAAATAATTGTAGATAATGATATTGCAAATACACCTAGTGGTAAATTATATATTCTAGTAGCATTTTCTAATGCTGAGACTGAACCACTTTTTAAATATGAAGCAAAATATACATCAAATACGGAGTTTATTTGCCTTGCAAATATTCCCGCTAACATCGGAATAATTAAAACAAATATTTTTTTTAAATACTCATCTTTAAAATCTATTTTAAAACTGTATATTTTTACTATTTTAAAAAAACTTGGTAATGTAATAACTAACTGTAGTATACCACCTACTGTTACACCTGTTGCAAGCGCGTATACTCCTAAATTTTTACTATATCTAATAGCAAATATAATAATAGATATATTAAATAAAAGAGATGTAGATGCCGGAATAATAAATTTTTTAAAATTATTAAGTATGGCACATATCATTCCACTAAGACCAATAAATAATATATAACTAGACATTATTTTAAGTAAAATTGATGCTAATTTTTTTGTTTTTTCATCATATCCATTTGCTATGAAACTAATTATATTTTTTGAAAAAAATAAATTTAATGCTGTGATAAGTATTAAAAATATAAATAATAAATTTAATACCGAAAAAATAAGATTTTTAGCTTCTTTTTCTCCAAATTTAACCTCTTTTTCATTATATAAAGGTATAAATACCGTTCCTAAAGCCCCTTCACCTAAAAGTTGTCTAAATAAATTTGCTATTTTAAAAGCAGAAAAATATGCATCTGTTGTATAATTCGCTCCAAAAATTGTAGCTATAATTATAGTTCTAATTAACCCAAGTATTCTACTAAGCATTGTAATTATCATTACAATAATTCCAGTTCTAAACATTAATTCTCCTTTTTTACTATATATTTATCTTCTTTTATATCTATTTTACCATATCTATATAATTCTAATATTGCTAAAAACAAGTATACTCTATGCATTTTATCATTTGCACTTTGAAACAAATTAATATAATTTATTTTTTGATTATTTTCAATATTTTTTATTAATTTTTCTATTTCATCTTCTAAACTATAAATATTTTCTACTACTATTTTTAATTCTTCTTTTTGTGAAGTTTCAACAACTGTTTTATATGCAATAAAAAGCTTTTCCAATGTTAAATCACTCAAATCCACTTCATTATTCTCAACATTTATTTCTTTTAATCCAGCTCGAGTAAATGAAATATTATATTCGTTTTCTTTTTCTTTTAAAAGTTGACTCAATTCCACATATTGTTGATATTCTAAAAGTTTTATACTTAATTCTTCTTTTCTTTTTTTATGTAAAGAATAATTTAATACTGAAAGTGCTTTTATCTCTAATAAATCTGCAGCCATCGCTAAAAAATCTGCTTTTAAAGGTATATTATCTATTTCTAGTTTTTCTATTATTTCTAAATAAGTTTCAATTAATTCTAATATATTTATTTCCGTAATATTAAGCTTTTTTTTATTTATTAAATGAAGAAGAAGGTCTAAAGGACCTTCAAAATTTTCTATTTTAACATTTATATCATTATTCATTTTCTTTCACCTTAAGATGATTTTCCCATATTATTATATCATTTTTTATAGCTTCTATTAATTCTTCCATTGTGTCAAATTTTTTTTCTTCTCGTAGATATTTTTTTACTTTTACCATTATTTCCTTCCCATATATTTCTTTATCGAAATTCAAAATATGTACTTCTATATGATATTCATTTTCTATATTTTCGTTTACAGTAGGATTATGTCCTATATTTAATAATCCATCATAAATATTATTATCTCCTTCTACAATAACTTCTACTCCGTATATACCATTTGGTGGATATATTTTATTATATGTTTTTATATTTGCCGTAGGAAATCCTATTTTTCTACCTATTTTTTTCCCGTGAATTACTTCTCCCATTATTAAAAATGGATACCCTAAATATTTTTCAGCTAATTCCATTTCACCTTTTTCTATCAATTCTCTAATCAAAGTGCTACTAATAATTGTATTGTCAATAGTTACTGGCTTTATAATAGTAGTTTTTATATTAAAATCTTTCGCCATTTGTATAAGATCTTCTGCTTTTCCTGCTCTTTTTGCTCCAAATGTATAATTAAATCCCGCAAAAAGATGTTTTGCTTTTAGTTTTGTATAAATTATTTCACTTACAAATTCATAAGGTGTAAGCTTTTTAAACTCTTCTGTAAAATGGGCTATTACAAGTACATCTACCCCTATTTTTTTCAATAAATGTATTTTTTCTTTTTCATTGTTTATAAGTATTCTTCTATTTTCATTATGAAATACTTTTTTAGGATGTTCACTAAAAGTCATTACAACTGCTGTTCCATTATTTTTTTTTGCACATTCTACAGATGATTTTATTAATTTTTTGTGACCTTTATGTATTCCATCAAAAGTACCAAGTGCTAAACACACATTTTTATAATCTTTTTTATAGTTTTCTAATCCTATAATTATTTCCATTTAGTTCTCCTCAATAAGTTCATTATATAGCTCTTCTAATCTACGAAATCTATTTCTAATTCCTGATTTTGATATTCCTACTTTATTTGCAATCTCAGTTAAACTTGCTTCTGGATTATTTAATCTCACTATTGCAGCTTCTTTTAATACTGATGATAAGTTATCTAGTCCATAATTTTCAGAAATATAATTTATAATATTAATTTGTTTTTGAGCCGTATCAAGAGTTTTCATTTCATTAGCTACTTCCCAATTCATTTCTCGAATAGTTTTATTTTTAATATCTTTTACCATTGTTATTTCTTCATATTCAAAAAATGATTTCACAGCACCTATCATTACTAAAATATCCATTATATCTTCAGAATTTCTTAAATAAACTAAATGTTTATTTTTCTTTTGTGTAAGAAACACTCTTCTTCCCGTATTTCTAAGTACTTTATATAAAAGTTTAGCTCCTTCTTCTAAATCAATAAAAAAATCAAGAGCATACTCTTTGTTTGGTTCTTTTATATATCCTGTAGCTAAAAAAGCTCCTCTAGTAAAACCAATCACAGCTTTATCTGCAAGCCTTCTAACCAATTTATCTTCTAATTTATTTAAATTTTCAATAAACTCATTATATCCTTTTTGATACGGTATCTCTATAATATATACTTTATGTTCGCCAAAAGATTTTGTTATAGAATATTTTATATGAATCCTTAAACTTGAAAATTCTTTTAAAAATTTATATATTCTGTTAGCTAAATTTAAATTTTCAATTTTCAATAAAATTTTATTATTTAAAATAGCATTTTTACATTTTAAAATTGCTAATAATTCATAATGTTTTTCTTTTTCTATCTCTATTTCTTTTAAAAATACTTCTTCTTTTACTATATTTGTATAAGACATTTTTATCTCCTTAACGTCTTTTTATTTTGCTTCACTCCAATTTTTTGCATATGCAAAATTTACTTTTAATTTTACATTTTGTAATCTTATTTTATTTTCCATTATTTCTTTAATTTTTGGTATCATTTCTTCAAGTTTTTCATCTTTTATTTCAAAAATAAGTTCATCATGTACTTGGAGTAACATATACACATCTTTATTGTCAACTATTTTATCAAATAACTCAATCATTACCATTTTTAGAATATCTGCAGCACTGCCTTGTATAACTGTATTTACCGCCATTCTCTCAGCTTGATTTTTTATATTTTTATTTTTATTATCAATTCCTATTATCTTTCTTTTTCTATCAAACAAGGTTTTTACATATCCATTTTCTTTTGCAAATTTTATTATTTCATTTTGTAAGTCTTTTACTTTTTTATATTTATCAAAATATTTATCAATATATTCTTTTGCATCTTTTACTGTAATATTTAATTCTTGAGCTAATCCAAAAGGTGTTTTACCATATATTATACTAAAATTTACAATTTTAGCAATATTTCTTTTTATCGAATCTACTTCCTCTAAAGTTTCCAAGTCAAATATTTTCATAGCAGTTATAGCATGTAAATCCAAATCATTTTCATAAGCATTTATAAGTTCAGTATCTTTACTTATTTCAGCTAAAACTCTTAATTCTATTTGTGAATAATCAAATGATACAAGAGAAAAACCATCTTTTGCTATAAATGCTCGTCTTATTTTTCTTCCCTCTTCTGTTTTTGAAGGAATATTTTGTAAATTTGGATCTGTTGATGAAAGTCTTCCAGTTGCTGTACCATTTTGATTAAAACTTGTATGTAATTTTGAATTATTGTCAACTAATTTTGGCAATGCTTCTACATAAGTATTTAATAATTTTGTGAGCTTTCTATACTCTAATATATATTTTGCTATTTTTTCTCCACTTCTAACTAATTTTTCTAAAACATCTACATTTGTAGAATAACCTGTTTTTGTTTTTTTTATAGGATTTATATTTAATTTTATAAAAAGAATTTCAGCAAGTTGTTTTGGTGAATTTATATTAAATTCTTCTCCTGCTATTTTATATATTTCTTTTTTTAATTGTTCTATTTTTTCTTTTAATTCAATAGAATATTTACTCAAATAACCTCTATCTAAAGTAATTCCTTCTAACTCCATATTACTAAGTACTGGAACTAATGGCTGTTCTATTTCTATTAAAAGTTTTTCAAGATTTTCTTTTTTTAATTTATTTAAAACTATTTTATAAATTTCTTTTAATGCTAATATTCTTTTAGATAAAAAATCTGCTAATTTTTCTTTTTCAAGTTGTGAAATAGCTGTTTTTCCAAAAATATCTTTTTGAGATTCAAATGCCTCTCCTATTTCATTAAATATAAGTGTATCTAAATCATCTTTTAAATTAGCATATAATAAATAATGTGCCAACATTATATCAAATCCTATTTTAATATTAAATCGTTCATTTAATATATCTTTAAATTTATAGGTAACAAACTTTTTATTTAAATTAAATATTTTTTGAATCTCACTTTTTTCTATATTTTGAGCACCAATATAATTATGTTTATATGAAATATAGTAAATATTATCATCAATTAAAAATAAAAATGCTACTCCATTGAATAAAAATATAACTTCTTCTTCTAACTTTTTTAATTTTTCAATCAAGTTATTTATTTCATTACTATTATTTATAAAAACAACCTTTTTTTCTTTGTTATTTAATTTTTTATTATTAAATTCTTTATTATCATTATTAAAAAGTGATAAATTTCCGCTTTCATCTATTTTATCTAAATCATATTTTTTTATAAATGACTTAAAATCAAGATTTTGACATAATTTTTTAAAAGTTTTTTTATTAATATCTTTATACTTTATTTCATTTAAATCTATTTTTATATCTAAATTTATTTTTATAGTTGCCAATTCTTTACTTAAAAATGCTAATTCTTTATCTTCAATAAAATTTTGAACAAGAGATTTACCAATCCCTTTAAATTCTGTTAATTTATCAATATTTTCATAGACACCTTCTAAACTTCCAAAAGCATTTAATAAGGGAATAGCTTTTTTTTCTCCTACTTTTCTTATTCCAGGTATTCCATCACTTGTATCACCTATCATTCCAAATAAATCAGGAATAAGATTAGCTTTTACTCCTAAATACTCTATTACATCATCATCATTTTTTATATATTTAAATCTATTTTTACCTTCACCTTTTCCAAGTAATACAATATTAATATTTTCATCAACAAGTTGTGCTATATCTTTATCTCCTGTAATAATATATACTTCTATTCCTTGTTTTGATAAATTTTTAGAAATAGTTCCCATAACGTCATCAGCTTCGTGACCAGCCACTTTAAATTTTTTTATATTAAAACTATCCATAAGTTCTTCTATTAGTGGTAATTGTACTACTAAATCATCTGGCATAGGTTTTCTATTTGCTTTATAATTTTCATATTTTTCAGTTCTTTTTAATGTTTTTCTTTTTACATCAAATGTAGCTACTATATAATTAGGTTTTATCTCATCTATAACACTTGATATAATATTTGCTGTACCATAAACTGCTCCTGTTGGCTCACCTTCTTTATTTCTCATATTTAATAGCGAAAAATATGACCTATACATTATTGCACTTGTATCTAAAATAACTGCTTTTTGCATAATATTCCTCCAAATAATTCTTATTACATTTTTTATATTATAACATAATTACTTTTTTAATATAATATTTATTTAAGAATTTTTTAATATTTTATGTAGTATTATATAATAGGAACATCTTTAAAATAACTAATGTAAGTAAGCATATTTACTTAATTTTTTTAGTTTTTTTTTTAAAAAAACTTGTTTTTTTAAAAAAAATTGTTTAAAATATATCATATTTTATTAATTAATGATAGAGGTTAAAAATGGAAATCAAACATCAAATTCAATTAAATCTAAATGAAATGAAAATGTTTAAACATATAATTGATGAAAAAAATGAATATACCAAAAAATTATATAGAGCCTCTTTTATTATAACTGGCACTATTCCTTTTATTTTTTTAATCCAAAAATTTATTACAAAAGAACATATTTCTATACCTTTTATTTTATCTGTTTTATTTTTTTTTAGTCTTCTTATTTTTTCATTTTATACAAAAAATATAGAAAAATTAAAAACAGTGATAATTATTGCGTCATTATTTTTCTTAATTATTTCATTATTATTACCAGATACATATAATTCTTGGCTTATTATTATTTTTGGAGCTATTCCGCTTGCATTTTACACTCAAGGTGTAAAAAGAGCTCTCGATTATTTAATTGTATTTTCACTTTTATTTTTAACGATAATTTTTCTTTATCAATTAAATTTTATAAAAAATATATCTTTTACTTTTAATCCAATGGAAAGTATTGTAATATTTTTTTCTTTTATCATTAATTTAATTCTTATTTATATTTCTGAAAAATATCACGAAAAATATTTCGATCGAGTTATTGAAAAAATTGTATATGACGATATTACAAATTTCCCAAAACAAGATGTCCTTTTTAATAACTTAGATAAAACTAAAAATTATATTTTAACAATTATTAGAATTGAGAATTTTTCAAATTTGATTAGTATTTTTGGATATGAGTTTTCAGAAAATATTCTTTATTATTTAGCAAAAAAGATAAATCGTATTGAAAAAGAATACAATTTTTTACCTTTTAGACTTATTAATAATGAATTTGCTCTTTTATTTGAAATAGAAAAAAACAATCCAAAAGAAAAAATATATAAAGATATTGAATTAATACAAAAAAAATTATCTCGTAATAGATTAAAATGGGGAAAATTACCTATTAATTTATTTTTAAGATTTGGTATAACTATTATAGAAAATGGTAACGGTGAAAAAGCTCTTTCAAACGCTGATATTTCTTTAAAAAAACATAAAGATAAAGAAATTACAATGTATCATCAGTCAGATGATAATAAAGAAAATTTTTTAAATAATATAATTAAAATAAATTTATTAATTAATATCGAAGAAAGATTAAAAGTAGTATATCAACCTATTTATAACAGTAACAAAGAAATCGAGTGGTATGAATGTTTATTAAGAATAAGAAATGATCGTTATGAATATGAATCTATATTCAATTATTTAAAACTAGCTAGAGCTCTTGGAATTTATGAAAAAATATCTCGTTTTGTTATAAATAATGCTGTTGAACAAGCAAAAAATACAAATAAAATGTTATCTATTAACATATCTATCAATGATATTGCTAATGATAGTTTTTTATTTTATCTAAAAGAAAAGTCATTTGAGTTAGGTGAAAACATTAATAAAATAATTTTAGAAATTCTTGAAGAAGATGAAGCTTTAGATATGAAAAAATCTATAAATAATATTGAAATAGCTAAAAAGATTGGCTATAAAATAGCTATCGATGATTTTGGTGCTGGTTATTCTAATATTGTTAAATTTATAGAAATGCCTACAGATATTTTAAAAATTGATGGACATGTTATTAAAGAAATTTTAAATGACAAGTCAATTGAGCTTATTGTAGATACTGTTGTTATCATGGCTAAACATAAAAAATTAAAAGTAGTTGCTGAATTTGTAGAAAATAAAGAAATTTTTGATAAACTAAAAGATATGAATTTAGATTATTATCAAGGTTATTATTTATCAAAACCAATTGACAAAATAGATAAATAAACAAAAAAAAGAGGTATTAACCTCTTTTTTTATTTATTTATTTTTTGTACAATTAAACTTGCAATTTTTAAATATTTAATTAAATATATATTTTTATTGACAAACATTATATATTATGTTAAAAATTGATTAGCCAGCTAACTAAAATAGGAGGTGAATATTTTGAATGAAGAAATTTATAATAAAAATATTGAAGAACTTTTTCATGTAGTTTCAAAAATGCATTTTAAAACCGTAATTCAAGAATTGGAAAAAATAGGTCTATATAAAGGTCAACCACCAGTTCTTTTTATGCTATACAAAAAGAATGGATTACCTCAAAATAAAATTGCTGAAAAAATACACGTTTCAAAAGCTACTCTTAGTAAAATGCTACAACGAATGGAAAAAAATGAATTTATAAAAAGAATAAAGGATAAAAATGATAAACGAATTACTCGGGTTTATATTACTGAAAAAAGTATAAAATTAAAACCTTTAATTGATGAAAAATTTAAAAATATTAATAATATATCTTTTAAAAATTTTTCTGTTGAAGAAAAAAAATTAATGAAATCATTATTATTAAAAATATACTTTAATTTAAAAAATATTTAAAATCTAAATAATAAAATTATGGATAAAAATAAAATTTTATAATCAAATAAAAATTAAGGAGAATTATGGATAAAATAAAAAAATTAATTGAATATACTAAAAAATATCGATTATTTACTCTATTAGCACCTTTATTTATGATGGTTGAAGTTATTGCTGATCTATTTTTACCATTTATTTCTAAAAATATAATAAATATTGGAATAGTAAATAATGATACAGCTTATATCTTTAAAATGGGATTACTTATGTTAATAACTACTTTAATTGGTGCTTTTGGTGGTATAATGTGTTCTGTATTTGCTGCAAAAGCTGCTATTTCTACATCAACTGATTTACGTGAAAAACTTTTTTCTAAAATTATAAAATTAGATTTTTTTAATTTAGAAAAATTAAAAACAGGAAATCTTATTACTCTACTTACCGATGATATTTCTAAAATTCAAGGTCTTATATTAGCCGGTACTAGGATAGTTGTGAGAGCTCCCTTATTATTTATAGGTGGTCTTATTATGGCTATCATTACAAGTAAAAAACTTTCATTAGTTTTAATATTTATCATTCCGATTATGATTTTTTTAATGTATTTAATTTTAAAAAAGAGTTTCCCTTTGTTTTATAAAATACAAAATAAACTTGATATAGTAAATAAAATCTCTCAAGAAAATCTATTTGGAATAAAAACTGTAAAATCTTTTTCGAGAGAAGAATATGAAGAAAATAGATTTTCTACAGCTAATAGAAATTTTATGAACAATATAATTACTTCTTCAAAAATTATTTCACTTCAAAGACCTTTAATCATGATGTTTTTAAATTTTGGTGTATTATTAATAATATATTTTGGTGGAAAAGGAGTTATATCAAAAAGTGAAAATTTAGGTACAATTATAGCTTATATAAATTATTTAGAAATAATTATTTTCTCTATTGTTATGACTTCTATGATTCTCATAAATTTATCTAGAAGTATTGTTTCAGTGGATAGAATTGAAAAAATTTTACAATTAAACGAGGAAAAATATTTATCAACAAATAATAATAATATATCTGGTGATATTACTTTTAAAAATATATATTTTGCTTTCGAAGACAATAAATATATTTTAGAAAATATATCTTTTAAAATAAAAGAAAATGAAACTATCGGTATAATAGGTGTTACAGGTTCTGGAAAATCTACTTTAGTTTCTCTTATTCCAAAATTTTTACTTCCTCAAAAGGGAAATATTTATATTGGTAACAAGAACATAAATGAGTACTCTTTAGATATATTACGAAAAAATATAGGATTTGTATTTCAAGATAATATTATTTTCTCTGGAAGTATAAAAGAAAATATAACTTTTGGAAATAAAAATCTTTCTATAGAAGATATTAAAAAATATGCAAAAATGTCAAAAGCAGATGAATTTATTGAGAACTTAGAAAAAAAATATGATAGTATTATTGGACAAAGAGGAGTTAATTTATCTGGTGGACAAAAACAAAGATTATCCATTGCCAGAACTCTTGCTAATAAACCTAAAATAATTATTTTTGATGATTCTACAAGTGCTCTTGATGCAGAAACAGAAAAATATATTATGACTCAAATAAATGAAAATATTAAGAATTGTACTAAAATAATTATATCTCAAAAAATTAGTAGTGTAATGAATGCTGATAAAATAATTGTACTAGATAATGGAAAAATTGAAAATATTGGAAAACATAATGACTTATTATTAAATAGTAAACTCTATAATGAAATTTTTAATCTACAAATTGGCGGTGATATAGATGTCAAATAAAAAAGAAAATAAAATAAATATTGGTGGAATGAGAAGGCGTGGATTTCATGGAAATTTTCAAAAAGAAAAAGCTAAAAATCCATTTCCAACTATGATTAGATTATGGCACTATATTAAAAAACAAAATTTTAAAATGTTTTTAGTATTTATTTTTATTATATTAGAAGCTACTTTTTCAACGCTTGCCCCAGATTATTTAAGAATAATTTTTGATAAATTTAATACTATTAACAAAATAAAAATAATTATGCCTTCTATTTATATGTTACTTATGATATATTTCTTAAAAAATATATCAATGTGGCTTAATTCATATTTCGTAATAGATGTTGCTCAAAAAACTATTGCAAATTTAAGAGAAGATTTATTTAAAAAAATTCAAATATTAAAAATAGAATTTATTGATAAAAATGAAAACGGAGATTTTATAAGTAGACTTATAAATGATATTGAAAATATCAGTAATACTCTTAATGAAACTATAACACAATTAATATTAAGTGTTATTTTAGTTATTGGTTCGCTATTTTTTATGTTTAAACTAAATATTATTCTTACTTTAACTGTGATATTTACTGTACCTATTACTATGTTACTTACTTCATTTGTAGCAAAATTTACAGGAAAATATTTTAAAAGCACACAAAAAAAACTTGGTGAATTAAATGGCTTTATTGAAGAACAAATTACGGGTATAAAAATAGTAAAAGCTTTTGCACAAGAAACGCCTATTATTAATAAATTTTCTCAAAAAAATCTGCCCTTAAAAAATGATATAATTAAAGCTCAAATTTTTTCTGGAATAATGGGCCCTATTATGAATTTTATCAGTAACTTAATATTTTTAGTAATTATTTTAGTCGGCAGTTATCTCATTACTATTGACAAAGCTACTATAGGTATTATTGTTGCTTTTCTTAGTTATTCACGTAATTTTAATAGACCACTTATTCAATTAGCTCAATTATATAATAATTTTCAAAGTGCAATAGCTGGAGCTGAACGTGTATTTGAAATAATTGATGAAGAAAGTGAATTTGATAATGACGGAAAAATTATTGTTGATAAACTTGAAGGAAATGTAGAATTTCAAAATGTTTATTTTTCTTATGAAAAAGAAAAACAAGTTCTTAAAAATATTAACTTTAATGTAAAAAAAGGAGAAACAATAGCTATTGTTGGTCCTACTGGTGCTGGTAAAACTACAATAATCAATCTATTAACAAAATTTTATAATATCAATAAAGGAAAAATTTTAATTGATGGAATTGATATTAACGATATGAATAAAAAATCTTTAAGAAAACGATTAGGTATAGTCCTTCAAGATACCTATATTTTTTCGGATACTGTACTTGAAAATATAAAATTTGGAAATTTAGAAGCAACGTTTAAAGAAATTCAAAAAGCCGCTAGTTTATCAAATGCAGATAAGTTTATTAAAAAATTACCAAATGAATACAATGAGATACTTAGTGAAGAAGGTGGAAATTTAAGTAAAGGTGAAAAACAATTAATCTCTATTACTCGTGCTATTTTAGCAAATCATGATATTTTAATACTTGATGAAGCTACAAGCAATGTTGATACAATTACAGAAAAACATATACAAGAAGGAATGCTTAACCTAATGAAAGGTAAAACAAGTTTTATAATTGCACATAGATTAAGCACTATAAAAGAAGCTGATAAAATAATAGTTATTGATAATGGAGAAATAGTTGAAATAGGAACTCATAATGATTTGCTTACTAGAAAAGGATTTTATTATAATTTATATACCACTCAAACAAATTTTAATTTAAAATAATTTTTTAAAAATTACTAAAAAAATTATATAGATATACACATTATAAAAATATATATAATGCGTATATCTTATATTTTTTATTTGTTTTCATTTTTTATTTTTTCATATATTAGTTTATCTTTTATTTTCATTTCTGAAACAATCATTGCAGTTACAATAAAACTGCCACCTATAATACCCTTTATTGTAAATACTTCACCTCCTAAAGTCCAAGAAAATATAGCAGCAAAAACTGGTTCTAAAGAAAAAATTACTCCTACTCTAAAATCATCTATAAATTTTTGTGCTTTTAATTGAATAATAAAAGCAGATGCAGTAGGAAATATTGCTAAAAAAATAATACTTTTCAATGCATTAATATTTATATTAAAAACTTCATTATAATAAACTTTTGATAAAAATAAACTAAATAATCCTACTACTAAAAACTGTTGAAAATTCATTAAATAAGGACTTATATTATTTTTCATGAATTTTCCTGAATATAAAAGATGTAAACAATAAGCTATTGCTGCAATTAATGTGTATAAATCACCAATATTTATAGATTTCATTCCACCTGTTAATATCCATAACCCAATTGTAGCTAATACTGCTGATATTATTTTAAATTTTGTAGGAATTTCTTTAAAAATTATATATCCAAAAATAGGAATAAATAATACAAAAAGACCTGTTATAAATCCAGAATTTGAAGCTGTCGTATATTTTAAGCCTACTGTTTGAAACATATATAAGGAACCAAGTAAAACACCTAAAGTTATTCCATATTTAAAATTTTTAAAAATATTTTCTTTTTTTATAATTAAAAAAATCAAAAAAATTAAAGATGCCAATAAAAATCTATAACTAACTAATAATAATGGATTTATAAATGCAAGGCTATCTTTTACTACATAAAAAGTACTTCCCCAAATAGCAGCTGCATAAACTAAACCAATTTCTGATAAAATTTGCTTTCTTTTCATTTTTCACCCCAAATCTTTATATTTTAAACATATACTCAAATTATGATATTAAAATTATTGAATTATGTCAAGACTTATAATAATTCTTGACATAATAAAAAAAATGTTGTACGTTGTATCGTGTAAACAACTTAAATAAATTCATGAAGTGAATTTATGAGAAACTTAAATAAATTCATGAAAATAAAAATTTGAATATATAAAAATAATATCTTAAAATTAAAATAAGAATAATATTAGAGAGGTGAAAAATGAAATTAGGTCATAGTTATGAAGAAGACTGTTCAAAATTTGTAGTTTGGGCAAATAGACACAATGTAATGAAAATAATTTTCCCAGAATTGGATAGAGAACATGACATGGAAAAATTAAAAGGAAGTTATTTTGAATATAAATGTTCAAAATTACCAGAAGGCACAAAATATTATTTTCAAACTGCTGATGGAAATCTTTATCCTGATCCAGCTTCAAAATCTCAACCAAAAGGGGTACATAAATACTCAGAAATTATAAATGTAAAAAATAAAGATAAACCAAAACAATTTAAAGGAATTGATTTAAGAGATGCTATTATTTATGAAATACATATTGGAACTTTTACTAAAGAAGGTACATTTGATGCAGCAATTAAAAAGATTTCTTATTTAAAAAAACTTGGAATAAATGTTGTTGAGATAATGCCAGTTTTTAGCTTCCCTGGAGATAGAAACTGGGGATATGATGGAGTATATCCTTATGCTGTAGATGAAAGTTATGGTGGAGTAAAAGAATTTATAAGATTTATTAATGAATGTAATAAAAATAATATTGCCGTAATTTTAGATGTTGTTTACAATCATTTTGGGCCTGAAGGAAATTATTTAGGTATTTATAGTCAATATTTTACTAAAAGATATTCAACACCATGGGGAAGTGCTATTAGCTTTGACGGTAGAAATAGTGAACATGTAAAAAAATACTTTTTAGATAATGTAAAATTTTGGTTAGAAGATGTAAAAATTGACGGATTTAGATTAGATGCGATTTTATCTATTTATGATTTTAGTGAATCTCATTTTTTAGATGATTTATATGATCTGGTAAAAGATACTGAAATAAAAGAAAAAAGAATTATAAATGTTATTTCTGAAAATCCTTATCATACAATAAAATCAAATTATAAAATAAAACTCGATGGACATTGGGAAGAAGATTTTCATCACAGTATCCATTCATATTTTACAGGTGAAACACATACTTATCTCAGAGAATATGGTAGTTTTAACAAAATTAAGGACATGTTTGAAAATGGTTATTGTACAGAATTTTGGCGAAATAAATATTTTAGTGAACCATATAGATTAATTATATCAATCCAAACTCACGATCAAATAGGTAATAGACCTTTTGGTGATAGACTTAGTAATTTAATTACTTATGAACAATATAAATTAGCAGCTTTCTCAATGTTTGCTTTGCCTTATACTCCTATGTTATTTATGGGCGAAGAATACTTTGAAACAAATCCATTTTTATTTTTCACCTCATTTAGTGATAAAAAGGTAATTAAAGGTGTTCGAGCAGGAAGAAAAAAAGAATTTGAGTTTTTAGATGAAGACATACCCGATTCTCAAGATATTAATACTTTTTATAGTTCAAAATTAGATTTTGAAAAATTAACAAATAAAAAACATTCTGAAACATTTAACTTTTATAAAACTATGATACAATTAAAAAAAGAAAAAATATTAGGATATAATAATAGAAGCAAAGTTGAGGTTTATGCAGATGAAGAAACTAAAATTATTTATATAAAAAATTGTTATAAAAATAGTTTTGCATTAATGAATTTTTCTGATAAAGAAACAAATTATACTCTATTTAAAGATATGAAAGTTATTTTTTCAGGAAACAACTACTCTTTAATTGGAAAAATTGAAAATAATATCAAATTACAACCTTATGGATTCGTACTGTATGAATATTAATTATATATAAAATATATAATATCTATATGAATAATAAAATTGACAAATCATCTTTAGACTGTTAAAATAAATTAAATTATAAATTCGAGGTAAAAATTATGAAGATAAATATAACAATAAAATTACATCATCATAGACATTAGTAAAGGTTTGTAACTTTGTGATACCACATAGATACAAGCCGATTTGTAGTACAAATAAATTGTGTCTATGGTGGAAAATTATGAAATTTAAAATTTTGCCATCCTAGATATTTAGGATGGTTTTTTTTATAAGGGGGAATATATGAAAGAATTTAAAAATTTTGATTTAGAGGAAACTTTAATAATAAAATTTAGAAAACTTTTTGAAAGTTATGGTTATGAAAAAATTAAGGTAAATACTTTTGAAACTTATGATACTTATTTTAAAAATAAAGATATTATAAATAATGAAAAAGTATTAAAAATTATACATCCAAATGGTAGTTTGTATGCATTACGTGCTGATATGACTATGATAATAGCTAAAAAATTTGCTAATGATTTTCAAACTAAAGATATTAATATATCTGAAAAAGTTTATTATTATGACAACATTTTTAGAAATGAATTCGGAATAAATGGTGGTTTAAAAGAAAAAAGACAAGTTGGTATAGAAAATCTTGGAACTAATGGTATTTTCAATGATGTTGAAACTATAATTTTAGCATTAAATAGTTTAGAAACTATATCTGATAATTATATTTTAGAGATTTCAAATGTAGAACTTTTAAAAAGTATTTTTAAAAATATTAATATTACAGAAGATGATAAAAATATAGTTCTTAAATTTATTTTTACAAAAAATCGTGATGAATTATTAAAATTTCTTGATAATTTAAAAATTGAAACTAATTATAAAAATATAATAGATGATATTACAACTTGCTATGGTAGTATTAATGATATTTTAATAAAATTATCAAAATATAATGAATTAAAAGATTCTCTAAATTATTTTAATAATTTAAAACTTTATATTGGTGAGAGACAATTAAAAAAAATAAAAATCAATTTTTCTATATCAAATAGTTTAGAATATTATACTGGCCTTATTTTACAAGGGTTTGTAGAAGATATAAATAATCCAATAATAATTGGTGGTAGATATGATAATTTAAGTAAACGATTTGGAAAAGCTTTTCCTGCAATTGGATTTGCTATTGACTTAGATAGTTTAATAAAAAAATTAGATATCAAACATCATTTAGCTGATTATCTTATTTTCTATACAGAAGAATCTGTAAAATTTCTACAAGATATAGATAATCTAAGAAAACAAGGAAAAACAGTAAAAATATCTCCATATAAAAAACTTACTAATAAAACAATTGAAGAATTGCATAAAAAATATAAAAATATATGTAAATATGTAGGAGGTGAACTAAAATCATGTATTTAAATATAGCACTTCCAAAAGGAAGACTTGGAGAAAAATCCTATGAAATTTTGAAAAAATTGGGATATTCATCAAAAGATTACGAAAATAAAGATAGAAAATTAGTATTTATAAATGTAGATAAAAAAATAAAATATTTTTTAGTGAAAGCAAGTGACGTTCCTGTATACGTAGAAAGAGGCGCTGCCGATATAGGAGTAGTTGGAAAAGATGTATTAATGGAAAGTAAAGCAAATGTCTATGAAATTCTTGATTTAGGTTTTGGTAAATGTAGATTTGCTGTTGCTGCTCCTATAGATTTTATTGATAATTATGAAAAAAAACTTGTAGTTGCTACAAAATATATAAATGTTGCTAGAGAATATTTTGAAAAAAAAGAAAGAGAAATTGATTTAATAAAACTAAATGGTTCTGTAGAGTTAGGCCCACTTGTAAATTTATCTGATGTTATTGTAGATATTGTAGAAACTGGAAGTACTTTAAAAGCAAATAATTTAGAAGAAAGAGAAAAAATTTGTGATATTAGTGCTCGACTTATTGTTAATAGAAATAGTTATAGATTTAAAAATAATATTATAAATAAATTAATTAAAGAAATCAAGGGGGAGATAAAAAATGATTAAAATAGTTTCTTATAAAGATAATAAATTTATTTTAGATGAAATTTTAAATAATACTACACAATTTGAATATGATGAAGTAAATAAAGCTGTAATTGAAATATTAAAAAATATAAAAGAAAATGGAGATAAAGCTGTATTAGAATATAACGAAAAATTTGATGGAGTAAAACTTAATTCTCTTCAAGTAACTAAACAAGAAATAGATGAAGCATATTTTGATAATATATCTCTTGAATTAAGAAACTCTCTTGAACTTGCCCATAAAAAAATAAAAGAATTTCATGAAAAACAAAAAAGAAATTCTTTTATAGATACAAATACGCCAAATAAAATAGTCGGACAATTAATTAATCCAATAGAAAAAGTAGGAATCTATGTACCTGGTGGTACTGCTAGTTATCCTTCTACAGTACTTATGAATGCAGTACCTGCTAAAATTGCTGGTTGTAAAGAAATTATTATGGTTACTCCTCCTGGAAAAAACGGAAAAGTTCCTGCAAATATTTTAGCTGCTGCTAAAATTGCTGGCATTGATAAAATATTTAAAGTTGGTGGTGCACAAGCTATTGGAGCTCTTAGTTTTGGTACTGAGACTATTCCGAATGTATATAAAATTGTAGGACCTGGAAATATTTATGTAGCTATGGCTAAAAAAATGGTTTATGGTCAAATTGATATTGATATGATTGCTGGTCCTAGTGAAGTGTTAATTATTGCTGACAAAACTGCTAATTATAGATATTTAGCTGCTGATTTATTATCACAAGCAGAACATGATAAGTTTGCTACTAGTATTTTAGTAACCACTTCAGAAGAATTAGCTAAAAAAGTACAAAAGGAAATAGAAATACAATTAAATCAACTTCCTCGAAAAGAAATAGCTGAAACATCTATTAATAATCAAGGTAGAATCATAATTGTAAATGATATAAAAGATGCTTGTTATATTGCAAACAAAATAGCTCCAGAACATCTAGAACTTGCTGTAAAAAATCCATTTGAAATATTAGGATATATTAAAAATGCAGGAGCTATCTTTATGGGTGAATATTCACCTGAACCACTCGGTGATTATATGGCTGGACCAAATCATACCCTACCAACTAGTGGTACTGCAAAATTTTCTTCGCCACTTGGAGTAGATGATTTTATAAAAAAATCTTCTATCATATATTATGATAAAAATGCTTTAAAAGAATTAAAAAACGATATAATCAATATTGCTACAAGTGAAGGTCTTGATGCTCATGCTAATTCTATAAAAATAAGATTTGAAGATAAATAAAGTTAGAATATTAAATAAAAATAATTAAAAAGGTGATAATATGAAATTTTGGTCAAATAAAGCAAAATCAATATCTCCCTATACTTATGGGGAACAACCAAAAGATAAAAAATATATAAAACTAAATACAAATGAAAATCCATATCCTCCGTCACCAAAAGCTATAAAAATCATTAAAAATCTTGATGAAAACATTTATAAATTATACTCAGATCCTACATGTAATGAACTAAAAGAAGCAATAAGTAAAGTTTATAATGTAGAAAAGAAACAAATTTTTATAGGAAATGGTTCTGATGAAGTTATAGCTTTTAGTTATCAATCATTTTTTAATAAAGGTGATAAAATAGTTTATCCAGATATAACATATAGTTTTTATCCTGTATATTCAAAATTATATGAAATAGAAGAAATTATAAATCCATTAAATGACGACTTTACTATGAATCTAAAAGGTTTTAATAAAAAATCAAAAGGAATTATTATTACAAACCCAAATGCACCTACTGGAATTGCACTTACTTTAGATCAAATAGAATCTATCATAAAAGATAATTTAGATAAATTAATTATAGTTGATGAAGCTTATGTTGATTTTGGTGCTGAAAGTGCTGTAAAATTAATTAATAAATATGAAAATTTACTTGTAATTCAAACTTTTTCAAAATCAAGAAGTTTTGCAAGCCTTAGAATTGGATTTGCAATTGGAAATAAAGAATTAATTCAAGCATTACATATTATTAAAGATTCTTATAATCCTTATACAGTTGATACAATAGGAATAAAGGCTGGTGCTGCTGCAATGCTTGATGTAGAATATTTTAATAAAACTAGAAATACAATTATAGCTACAAGAGATAGAATAAAAAAAGAGCTTGATAAATTAGGATTTAAGAGTACTAATTCAAAATCGAATTTTTTATTTATAAAACATAACTCTTTTAAAGGTGAATATATTTTTAAAAAACTAAAAGAAAATGGTATACTTGTAAGATATTTTAATAAACCTAAAATCAATAATTATTTAAGAGTAAGTATTGGAACAGATGAGGAAATGGATGAAATGATAAGAATATTAAAAGAAAAAATATTAAAGTAGGTGATATTTATGAGAAAAGCAGAAATTAATCGTATTACAAAAGAAACAAAAATTAATATTTCATTAAATATTGATGGTACAGGAAAAAATAATATAAATAGCGGTGTCGGTTTCTTAGATCATATGTTAATATTATTTGCAAAACATGGATTATTTGATTTAAATATAAAATGTGATGGCGACTTATATATTGATGCACACCATACTGTAGAAGATATCGGAATTGCTCTTGGAGCTGCTTTTAAAAAAGCTTTAGGTAATAAAAAAGGAATTAAAAGATATGGAGATATTTATCTTCCTATGGACGAAACTCTTTGTTTAGTAGCTGTAGACTTGGGTGGTAGAAATTATTTACATTTTGAAGCTAAATTTCCTTCTCCATTTCTTGGAACAATGTCAAGTGAGCTTATTAAAGAATTTTTCTTTGGATTTTCAAGAGAATGTGGTATAAATTTACATATAAAACTCATACACGGAGAAAACTCACATCACATCTCAGAAGCTATGTTTAAAGGTTTTGCTAAAGTAATGGATTTTGCTACATCAATTGATACTAGAATTATAAACGAAATTCCATCTACTAAGGGGGTAATTTAATGATTGCAATAATTGATTATAGTGTTGGAAATCTACATTCTATAAAGAGTGCCCTTGATTTCTTAGGAGTTGAAAATATTATAACTAATAATGAAGAAGATATTCGAAAAGCTAAAGCACTTATACTTCCTGGTGTTGGCGCTTTTAGAGATGCAATAAATTCATTAAAAGCAACTGGACTTATTCCTGTTATAAAAGAAGAAGTTAAAAAAGGAAAATATTTACTTGGAATATGTCTTGGAATGCAACTTTTATATGAAAAAAGTTACGAATTTGGAGAATATGAAGGACTTGGATTTTTAAAAGGTGATATTTGTTCAATTAAAGAGGATTTAATAAATAAAGATTTAAAAGTTCCTCATATGGGATGGAATAATCTTATTTTCAAACAAAAAGATAATCTTATTACAAAATATATAAAAGAAGAGGACTATGTATATTTTGTACATTCGTATTATGTAAAGTCAGATTTTTCTGAAGTAGTGGGATATACTAAATATAATATAAATATTCCAGCTATTGTAAACAATAAAAATATTTTTGGAATGCAATTTCATCCAGAAAAAAGTGGTACTGTAGGTTTAAATTTATTAAAAGCCTACGCAAATATTGTATTAAAATAAAAAAAAAGAGGTGTATAATGACTAAAAAAACTATTATTTTTGATTTAGTTTTTTTAGGGGTTTCTATTTTACTAGTAATATATGGTTATTTTTTCAGGGATATTCAATATAAAAATTATATTGATTTAGGTATTTTTTTTATTTTATTAATTTCAATTTTAAAAAATTTTGTAATAATCCCATTAAATTATTACTATAGTTTTTTTCAATATCTTTATATTTATTAATTTATTTTGCTCCAAAAATTTTTGTATAATTTAAAAAGGAAAATAAAGTGAGGTGAGAGTATTGTTAACCAAAAGAATTATTCCGTGTTTTGATGTAAGAGATGGAAGAGTAGTTAAAGGAAAAAAATTTCAAGACATAAAAGACGTAGAAGATCCTGTTGTTTTAGCAAAAAAATACAATGCACTTGGTGCTGATGAACTTGTATTTTATGATATTACTGCTTCTTTTGAAGAAAGGAAATTGTTTACTAATATTTTAGAAAAAGTAGCAAGTGAAGTATTTATACCTCTAACTGTTGGTGGTGGTATAAATTCACTTGAAGATTTTTCTCGAGTACTTAATGTTGGTGCTGATAAAGTAAGTGTAAATTCTGGAGCTATTAAAAATCCTAATTTAATTAAAAAAGCTGCAGAAAAGTTTGGAAGTCAATGTGTAGTACTTTCTATGGATATAAAAAAAGTAGAAAATCAATGGAGAGTATTTTCAAAAGGTGGTAGAGAAGATACTGGTATTGACGCTATTGAATGGGCAATCACTGGAGAACAATTAGGGGCAGGAGAACTTGTAATCAATAGTATGGATACTGATGGAGTTAAAGCTGGATTTGATTTAGACCTTTTAAGAGCTATATCAGAAAAAGTAGAAATTCCAATTATCGCTTCTGGGGGTGCTGGAACAATGAAGCATTTTAAAGAAGTTTTTGATATTCCCGGAGTAGATGCAGGACTTGCTGCCTCTGTATTTCATTATGGTGAAATTGAAATACCAAATTTAAAAAAATATTTAAAAGAACAAGGTGTTAATATAAGAATGACTAAATAAACAATCCATTTTATAGATGAATTTAATATAGAAAATCAAAATGATTTTTATACTTAAATTAATATAAAATTTTTAATTTAATTGTTTTAAAAATAATAAAGTTTCAATATGGAGGATATAATCATGATGAATAAAATAAAATTCGATGAAAAAGGGTTAATCCCTGCAATAATACAGGATATAAATACTAAAGATATACTTATGATGGCATATATGAATAAAGATAGTTTATTAAAAACTCTAGAAACTAAGCAAACATGGTTTTATAGTCGTTCTAGACAGGAATTATGGAATAAAGGAGCCACTTCTGGAAATGTACAAAATGTTAAAAAAATAAGTTATGATTGTGATGGTGACACTCTCTTAATTGAAGTAGAACAAACTGGAGTAGCCTGCCATACTGGTAAATATTCATGTTTTTTTAATGAACTATATAAAACTGATGATTATAAAATAAACTTTTCTCTAGATATTTTATACAATGTTATAGAAGATAGAAAAAACAATCCTAAAGAAGGTTCTTACACAAATTATTTATTTGATAAGGGGCTTGATAAAATATTAAAAAAAGTAGGAGAAGAAAACGCAGAAGTAATTATTGCATCAAAAAATGAAGATATTTCAGAATTAAAATATGAAATAGCTGATTTAGTTTATCATACTTTAGTTCTTATGATAGAAAAAGGTATTAAAATACAAGATATTAAAGAAGAATTATCTAAAAGAGTAAAATAAGATGTCAAATCATTTTTGTAATTGTGTAGATACAGAATGTAAGTTTAATCCTAAAAATGGATTTATAAATAATTGTGATTTATGTATACAAAAAAACCTTAAATATCGAGAAATCCCTGCTTGTTTTTTCAAACTCATCAAAAAAGAATTAACTGATATAAATGATTTTTCTATTGAAAATTTTGCTAAATTAGTAATGTCAAAGAAAAAAGATAAAAAACAGGATTAATATAAATTAATCCTGTTTTTTATCTTTATAAATAGATTGATTTAAAATTAAAATTTTTCTTAATAGAAAAGATTTTTATATTTTTAATTGTATTTAAATATGATATAATTATATCAAAATTACTAGGAGCTTATATATGAATGAAACAGAATTATACAAACCCATTGAAAAATATTTTATTGAAAAAGGATATATTGTTAAAGGTGAGGTTAAAAACTGTGACCTCGTAGCTTTAAAAGAAGAAGAATTAATTGTAATTGAAATGAAACTTTCTATTAATCTTACTTTAATTTTACAAGCAATAGAAAGACAAAAAGTTGCTGATTATGTATATGTAGCTACTCCTAAACTTCCTAAAAATTTACAAACTAGAAGAAAAATATTAACACTTCTAAAACGTCTAAATATTGGTTTATTTATTATAAAAAATAATAAATTAGAAGAAATAATATCACCTTTTGAAGAGTATAATTTCTATAACAATAAATCTAAAAGAAATAAAATAAAAAAAGAAATTTTGACTAGAAAAAATAATCTAAATATCGGTGGGACTAATAAAACTAAAATTATTACTGCATATAGAGAACAAGCTCTTTTTATAGCTTATGTTCTATTAAAATATGGTAATCTTTCACCAAAAAAAATAAAAAAAATTACTAAAATAGAAAAAAGTGGCCAAATACTTTATACAAATTTTTATAACTTTTATACTCATATTAACCGTGGAGTATATGGATTAAGTAATAATGGAAAAAAATATTTAGAAAAATTTATACTAGAATATTCCGAATTAAAAAAGATTTTTGAAAATATGATAAAAGAAAATGGGGGATTAAAATGAAAATTTATGATTATCATACACATAGTAATTTTTCAGAAGATTGTAATATTGATATGGAAGACATGATAAAAGGAGCTATCACAAAAAATATTACAGAACTTTGTTTTACAGAACATCATGATATTGATTATCCAGAAGAAAATTTTAATTTTTTACTTAATGACGAAAAATATTTTATTAAATTTAATGAACTAAAAGAAAAGTACAACAATAAAATTTCATTAAAATTAGGTTTAGAAATTGGTTTACAAAGTCATATAATTGATGAATGTAAAATGTTTACACATAATAAAGATTATGATTTTATAATTGCTTCACAACATTGTGTAGAAAATGTAGATCTTTATACAAAAAAGTTTTTTAAAGGTAAAACTGTCGATGAAATTTATACAAAATATTTTGAAGAAATGTATTATAATATTACTCATTACAACAATTTTAATGTAATAGGGCATATGGATTTACTTCGTCGTTATTCAAAAGAAGTTGCTGATTATGATATAACTCATTCAGAAGAGATTATTAAAATGATTCTGAATCATTTAATAAAAAATAATAAGGGAATTGAAGTTAATGCTGGCGGATTGTTTTATCCTTTAAAATCTATTAATCCAAGCATTGAAATCCTTAAAATTTATAAAGAACTTGGTGGCGAAATTATTACTTATGGTTCTGATGCACATTTCCCTGATAGGTTAGGTGCTCATTATTTTGAAGTAATGAGAATATTAAATGAACTTGAATTTAAATATATTACAAAATTTAATAAACAAAAACCTGAATTTATAAAAATAGAAATATAGGAGGACTTATGTATATTGCTGATCATCACGTTCATACAAATTGGTCTCATGACGGTAAATTTACTATGCAAGAAATTTTAGAAGCAGCTATTAATAAAAAGATCAATAAAATAGTATTTACTGATCATTTTGAGCTCTTAAAAGATATTGAAAAAATAAATTATAATCAATATGTTATTGAATACAATAAACTAAAATCAAAATATTCTGATAAAATTGAAATGGGTCTTGGTATTGAAATGGGCCTTTTAATAGATAAATTAGATAAATTTGATAAAATTGTTAAAACTCATAAATTTGATTATGTACTTGCTTCTACTCATAGAGTGAACTATATAAGTGCTCTATGGGAAGAATATTGGGATGAAATAACACAACTTGAAGGATATGAAAGATATTTTTTATATATGCTTGAAAGTATTAAAAATTTTGATAATTTTGATTGCTATGGACATTTAGATTACATTATTAGATATGGTGATTTTGATAAAAAAGGTTTTAAATATAAGGACCTCCAAGATGTTTTAGATGAAATATTAAAACTACTTATTTCAAAAGGAAAAGGCATAGAAATAAATACTTCTTTTAGAAATAAAGGTTTTAAAGAATTCCATCCAAATTCTGAAATTATAAAAAGATATATAGAATTTGGTGGTGAAATAATTACTTTTGGTACTGATTCTCATTCACCTACAACTTTAGGAAATTATGCAAAAGATGTATATGAATTATTAAATAATTTTGGTGTAAATTATATTTGTAACTTTAAAAATAGGAAACCTGAATTTATAAAAACAAAATAAAAAGTTCCTGTATAATACAGGAACTTTTTATTTTGTTTAACTATATTTAGTATCTATTTTTTTGTTTTGGTTCAAATAATACTTTTAGGGTTTATTTTTTTCAAAAACAGTGTATTATACATAGTAATAAATATACTTTGTTATTATTAAATATTAATTTACTCAATACAAAGTTTTAAAATCATTAAAATTTGGGGAGGTTTTATTATGTCTAGTAAAAATTATGGTTATATGCATTTAGTTGGAGGTAATATAAAAGTAAAAGATAGTGATTTAAGAAATCAATTTTCTGAAATTTTAAAAAAAAAAATTACACGGTATATGTTTTAGTCCTTATGTAAAAAATCAAAAACCTGGAGATAAAATTACTGAAGAACAGATAAAAGAAAGACTTGAAATTATTAAACCTTATACAGAATGGATAAGAATTTTTTCTTGTACTGAAGGTAATGAATTAATCCCCAAAATTGCCAAAGAAATGGGACTAAAAACTTTAGTAGGAGCATGGATTGGAAAAGAAAAAGAAAAAAATCATATTGAAATAGAAAATGCTATAAAAATAGCTAAAGAAGGATATGTAGATATTTTAGCAATAGGTAATGAAGTAATGCTTAGAGAAGATATTTCAAAAGAAGAATTAATAGAATACATAAATAAAGCTAAAAGTGAAGTTCCTAATATTGAAGTAGGATATGTTGATGCTTATTATGAATTTGAAGAAAAACCAGAAATAGCTGACGCATGTTATCTTATTTTAGCAAACTGTTATCCTTTTTGGGAAGGATGTGCTAGAGAATATGCTCTTCCATATATGAAAGATATGTATGCGCGAGCCAAAAAAGCTGCTAAAAATAAAAAAGTTATAATTACTGAAACGGGGTGGCCAAATATTGGTTCAAGTACTTGGGGGGCTATACCATCAAGAGAAAATGCAATGAAATATTTTATTGATACCTATACTTGGGCAAAAAATGATAATATAGAAATATTTTATTTTTGAAGCTTTTGATGAAGATTGGAAAGGTTCAAATAATCCATTAGAACCTGAAAAACATTGGGGTTTATTTACAATTGATAGAAAACCTAAAAAAGTAATACAAGACTTATATTAAAATATATATCGTACAATTAATAGATTAAAATTAAATAAAAATATTTTTTTTAAGTAATATTTAATTTAAAAATGTGAAAATATAGTGTATTATTATAATAGTTAGAAATTAAATGGAGGTAATTTAATGAAAAAAATATTTTTATTTTTATTCATCTTAATGTTTTCTTTATCTTTTTCTGAGGATACTTTTCATATCTATAAAATTCAAAATAAAGCTCCTTGGTGGTTAAATAATTATATTATTACTGGTGTAAATTCTGCTATTGGTTCTGCTGCTAAATCACCTAATAAAACAATTGATCAAATTAGAAAAGAAGCAATAACTAGCGCTAGAGTAGAACTAGCTGCTAATAAAAAAGTCATGATTAAATCACAATTAAATACTGAAAGAACTAATAACGGCACTAAGACTAAAATCACTACTCAAGAAAATATAAAAGAAGAATTATCACCAACTTTAGTTGATAGTTATGAAGATAATGATTTTTATTATGTATGGTTAGTTGAATTAAATAATAATACTGAACAAGAAAAATTAAATAATTTTATTAAAAATAATAATCTTAATGAAAAAAAATATAAAGAAAACATCTTAAAATATAAAGATGAAATAGTTATTGTAGACAAAAAATTAAATACTGTTACTTTAAATTATGGAAAAAATAGAAATATAAAACCTCATCAAATATATAATGTATATCAACTTTCTAATAAATTAAAAAATGCTGTAACAAATGAAACTGAAGATTTTGCTAAAGAAAAAATTGGCGAAATTGAAATAACAGAAGTATTTAATACTACAAGTAATGCAAAAATTATCAATCTTACTAAATTATTATCAATAAAAAAAGGTAATATAGCTATCTATAGTGGATTTGATAAAGAGTTATACAATTATAAAAAGAAATTAAAAAAAGAAAGAAAATTATCAAAGTATCCACTAGATACAACTTATTTTTCTACTGGTAACGAAATAGAAAGATCTACTTCTTTAAAACCTCATAATTATTTTCTAAAAATTAAAACTAATTTTAAGGGGAATAATAATATTTCATTACAATACGGAATATTTGATTTTACAGAATTATCTCTAAAGCAATATTTTGCAAATAATAATTATACAGAATTTGGTATCAAATTAGGTATACCTGTAGAAACACCATATTATTCTTATGCAAAATATATTTTTGGAGCAAAATATACTTTTAAAAGTCAAGGATTACAAAATACTTTAGATGCTTTAGTTGATTATTACATTTCAGATATCACTCTATTAAACATAGACTATAGATTTTATTTAGAGAAAAATAATAATAAACAATATGAAGAATTATATACTACTTTAGCATTTTTATTAAATGAAAAAGCTAATTTAGGAATAGAAGGTAACATTGACAATAATTTTGATATAAATTCTGCTTCTCTTGCTACAAAATTAAATATAAATGTATCTAATGGAAGTAATTTAGAATTTGGTATCAAGTGGGATAATCAAAGAACTTATATGTTATCTTATGAAAATAAAGGTATATTTTAATTAAAAATAAAACCACTCAATAAATATTTTGAGTGGTTTTATTTTATTTTTCTATTAAATTTACTCCTTTTACAAGTAATGTTGTTGGTAATGTTTCTGTTAATTCATATATCCTATTTATATAATCTTCTTCTAAACCAAATATAGGATTGGCAAGTCCCATTATTACTAAATCAGCATTTTTTGAATTTTCATGTATAATATCTTTTACTTTTTTCCCATTAATATGTATCATTTCTACTTTTGCTTTCATTCCTAAATATTCTAACATATGTTCTAATTTTTCTTTTTTACTTTCTTGTGTTTCTTTATTTGTTATTATACTTTTCAAAGTAATATTTACATTTTTCCATTCATCATTAAGAGAAAATATATGTGCTATAGTTAACATAAGTCTTCCGTTATTTTCTAGCCCTCCCCACCATATATCTATCTGTTTTTTATTTCCAAATTCTCTTTCTTCATCATATTTTAATAAAATTATATTTCTATCAATATTTATCATATCAATTAAAAAACCTACATAATCTTTATAATGTTCTTTATGTTCTGTAACTCCTAATAAAACAGTATTAGACTTTATACTCCCAAGACCATTTGCTTGTACTGCATAAGTGCTAGCTTCTCTCATAGATTTTGCTATTATTACCTCTGGAAATGCCAATATATTGTTTTCTTGAATATACTTTTTCATATTTTCCATAACTATTTTTTTTGTTTTTATTTTGTTTTCTATTTCACCAATTATATAAGTAAGTAATATAATAATTCCTTTACCTTTTGAAAGTACATCTGCAAGATAAACAAGTCTTTGTCTTTGATTTGGAGTTCCTGAAAATACTAAAATATTTGGTTTCCAATTTTTTTCTTTTATATTAATCTCTACATCAGTATCAAATCTTATTTTTAATAGTGAAAATCTTGCAATTGCTGCCCATATTCCTGTTCTTAGATCGCCCCATGTTGTTTTAAAATTTTTATTACTTAAATAGAAATAAATAATTAATATAATAACTATAGAAACTATTGTTGCTGTTTTATTAATTAAAAACATTACCATATAAGAACCTAATGCTCCTATTAAAGATATATACCATGGCGTTTTAAAAGTAGGTCTAAAACTTGGATTTCCTACTATAACTTCAAGTCCAGATACTAGATTTACAGCACCATATGTATTCAAAAAAAACATAGTTATTACAGGTGCTACTATATCAAGTTTTCCCATTAATATAAAAAATAATGCTATAAAAAATGTTATAACTGTTGCTATTTTAGGCTCGTCATTCTTTCCACTACCTTTACCAAGTATATTTGGAAGTACTCCATCTCTTGCTAATGCTTGCATTGTCCGTGGTGCTGCGATTATACTTCCTAAAGCTGATGATAATGTTGCTGCCCATATTCCTAATATTACTATAATTGGAAATTTCGTTATTCCATTTCTTACTAAAATTAGTTTATCCATTGATGCATCTACACTTATATTTTTACTAAACCAAAATGTCTGAAATAAATATATTACAAAAGTAATTCCTATTGCCCAAAATGTTCCTTTTGGTATATCCTTTTTAGGATTTTTTAAATCTCCCGACATACTCACGCCTGCTAATATCCCTGTTACTGCTGGAAAAAATATTGCAAAAGTCTGAAAATAATTTTTACTTTCACTAAAATTACCCACTAATACAATATCATTATTATAATTACCAGAAATAATAATATTTATAAGTGCTAAAATTAAAATCCCAAAAATAAAATATTGTGCTTTAATTGCTAAATCTGCTCCTATTATTGATATTGCTCCTATCAATATAGTTATTATTAATGATAATATTAAAGTATTTAAATCTGTATTTATAAATCCTAGTGATATTTTCATACTTTTTTCAAAAAATGATGGAAATATTTGCTTTATAGATTCAATAAATCCTATTACATATAAAGAAACTGATATAGCTTGTGAGAGGTATAATGGTATTCCTATACTTCCACCTATTTCTAGTCCTAAACTTCTAGAAATCATATAATATGCTCCGCCACCTTTTACTTTCATATTTGTAGAGATAGAAGCCATAGATAGTGCTGTTGCTACTGTAATAATATGAGCTAGTACAATTATTGATATTGCCCCTAACAATCCTGCATTTCCTACTACCCATCCAAGTCTTAAAAAGTATATAACTCCTATTATAGTAAGAAACGTAGGTAAAAATACTCCATTAAATGAATTAAATCTCTTTTCCATAATCTCCTCCAGCATTAAAAAATTTTTTATGTATAATTATATTCGATATTTTTTTTATTTTCCTTGTTATTAGTTTATCTTTTTATTCTATTTGAAAAAAATATAAAAATATTATATAATTGATTTATATTATATATAATACTATGGAGGAAAAATGCGAAAAATATACTTTTTACTAGGACTTGGGTTTGGTTTTATTTTGGGAGGAATAATTTTTCATTATTCAAAGCCTAAAAAAATCAATATTCCTATACAATCTCATATAAAATCTGAAAATAATAAAAATATTATTAATGAGATTGAAAATATTTCTAATATTCCTATATCTACTACCTCAAGTGCTTTAACTACTGAAGATTCTATAAAATCTAATTTAGATACTCCTTTTGAATTTGATATACCTGATAATTTTTATCAAATTCAAATTATATCTTCAAATAGTATTGATATCCCGAAAAAAGTTCAAAAAAATTTAGCTACTATTATTGATACTCAAATTTATAAAATTGGTAATTTTTATAGACTTTTTTCAAAAAAACAATATTCTATAAAATTAGCTAGTGATTTAGCAAAAGAGATAAAATCAAATTATAAATATAATCCTGTTATTTGGAAAAATAACTATAAAGTTATCTTTTTAAAATCAAAAGATAAAAATGAAGTTTATAATATTAATAATAAAATAAATACTATTATTGATACTCAAATTATTCAACATAATAAAAATTTTTTATTAGTTTCAAAGTATCTAATTGCTGAAAATTTAGCAAAAGATTTACAAAAAGATATAAAAAAAAGATATAATTTAGATATAATATTAAAAAAATTAGGAGACTAATCGAAAATGCACCCCATTTACTAGGCAAGAAAAAGAAAAAACTGTCTATTACTAAATGGAGGTGCGTTTTTTATAGCATTGAAAACAAAAAATAAAACAATTCTGATAAAGAGCTTGTAATAAAAATAATTTTCGAAAAGTCAAAACATAAATTATCTTATAAAGAATTGTAAACTAAATATAATGTTAAACCTAATAATATAACAAATTGTGTTTATAAATATAAAAATTTTGATTGTAACAATAAAGGAGATTATATGAGATTAGATAAATATTTAACTGAATGTGGAATAGGTACAAGAAGTGAAGTGAAAAATATTATAAAATCTGGAAAAATTAAAGTAAATGATATTATTATAAAAAATAATAATATTAAAATTAATGAAAATAAAGATATTATTTCCTATAATAATAATATTCTAAAATATAAAGCATTTAGATATTATGTATTAAATAAACCTAATGGAGTCATTAGTGCTACTGAAGATAATATACACAGAACTGTTTTAGACATTTTACCTAACTTTGTAATTAAAAAAAATCTTTTCCCTGTTGGTAGACTTGATATTGATACCGAAGGATTATTATTACTTACTAACGACGGGAAATTTGCTCATTCTCTTCTTTCACCAAAAAAACATATTGAAAAAACCTATGAAGTACATTTAAAAAATGAAATTTCTAAGGATGATATCTATAAGCTAGAAAATGGTGTTATAATTCTTAATAATTATTTAACTAAACCTTCTAAAGTAAATAAATTAAAAAGTAATAAAATTCTTTTAACTATTATAGAAGGAAAATTTCATCAAGTAAAAGAGATGCTAAAAGCAATAAATAATGAGGTCGTTTATTTAAAAAGAATAAAATTTGCTAATCTTTCTCTAGATAAATTAAATATTACAACTGGTGAAGTCATCGAAATAAATAAAGAGGATATTATATGAATTATTTAGGGCATTCTATTATAACTACACATATTCCTGAAAAAGATTTTGGAAATATATTTGGAGATTTTTTTAAAGGAAATCCCTCTTATCTAGACTTACCAAAAAATATAATTAATGGAATTATCTTACATAGACAGTTAGATAGCTTTGTTGATAATAATAATATATACCTGAAAAACACTATTTTTTTTAAAGAATATAAATTATATAAAAAGATACTTTTAGATATATATTTTGATCATTTTTTAGCAAAAAATTACCAAAAACTTTTTAATGATTCTCTAAAAGAATCTTCAAAATATATTTTTAATTTAGCAATAACTAATAAACAATTTTTATCCGAAGAAAATATATCAAAACTTAATTGGTTAATAAAAAATAATTCTCTTTATTATTATAAAGATATTGATTTCATCAAATATACTCTCAATGGTATATCTTATAGATTTAAAAACATTGATTTATCAACTAGTATCGAAATCTATAAGAAGAATAATAAAATAATTGATAATAATTTCTTTGAGTTCTTTAATTTATTAACAAAAAAAAGAGAATATTTACTCTAATTCTCTTTTTTTTGTTAATATAATTGTTGTTTTTGTTCCTTTTCCAAGCTCACTTTCTATAAAAATATTCCCATTATGCATATCTACTATTGATTTTGCAATAGAGAGTCCTAACCCTGTTCCACCTGTTTTTTTTGCTCTTGATTCGTCTACTCTATAAAATCTATTAAATAAATTCGGAATATCTTCTTTTGGAATCCCTATTCCTGTATCTTCTATAACTATTGCTATTCTATTTTCGGATTCTAAGTAAGTATATATTTTAATTTCTCCTCCAGCTTCTGTATATTTTATACTATTTTCTAATATTATACGTATTAATTGTAAGATTAATTTTTTATCTGCATAAATAAAATACTCTATTTCATTTTTAATTATAAAGTTATGCTTATTTTTATCTATTAATTTTGTATCTTTTGATATTTTATCAATAAGTTCTTTTACATTTATTTTATCTAGATTTAATTGAATTTTTTTATTATCTTCTCTTGCAATAAATAAAAGTCTTTCTATAAGATTCGTCATATTCATTACTTCATCTTTTATTGTAACAATTGACTCATCTAATATTTCTTTGTTATCTTTACCCCAACTATCTAATATATCTATATAACCATTTATTACTGATAATGGTGTTCGAAGCTCATGTGATGCGTCTGAAATAAATTTACTTTGATTTTTAAAAGAAATTTCTAACCTTTCTATCATTGTATTTATTACATTTATAAGCTCTGTTATCTCGTCATCATTTTCAGGTAATGTTATTCTTTTATCTAAATTTTTTACTGTTATATCTTTTGATGTATTAGTTATATTTTTAATAGGTGTTAATATGCTTTTAGTTAATATTTTTCCTAAAAATATTGATGTTATAAGCGAGATTATTGATGTAATAAAAAGTATCATTCTCAATACTGTATAAAAATTATTCAACTCTGTTATATCTTTTATAAGTTGTAAATTTATTTTTAAATCTCCTTTTTCATATTTTGAATTAAGATACAAAAAGGTTGTTCCATCTTCTAATCTATAAACATTTATGCTATTTAAATTCTTTTCTAAAGGTATTTTTATTGTCATATTTTTATATGTCCAATAATAATCATTCTTCTGATATTTTATATTGCTATAGATATATTTATCTTCTCTGTTTAAACTAAGCAATAAATTTTTTAAATTTATTACACTTCCACCAAAAGTATTATATTGTTGAAGCTGTGCAAATACATAATTACGTTGATTTATTAACTCATTTTTCATCATTCCGAGTATTATTACATTTGTTAAACTTGAAACTATTATGTTTATAAAAAGCAATATAACTAAGAAAAACATTGTATAAATAAATGTTATCCTATAAGATATCTTTAATGAATATACTTTATCGCTTATTTTATTAAAAATATTTTTCATTTAATCTACCTCTTTTATTATATATCCTACCCCTCTTACTGTTTGTATAAGTTTTTTATCAAATGGTTTATCTACTTTATCTCTTAAATATTTTATATACACATCTAAAATATTATCACTTCCGTAATAATCATATCCCCATATTTTATTAAGAATTTTTTCTCTTGTAAGTACTATTCCTTTATTTTCCATTAGCAAGTATAATAAATCGTATTCTGTTCTTGATAAATCTAATTTTTTACCACCTCTAAAAACTTCAAAAGTATCTTTATTTAATATAAGATCATTTACTTTTACTATTTCTTTATTTTTTTCTTTTCTTACTTTTCTTAAATTAGCTCTAATTCTAGCTGATAATTCTTTAAATTCAAATGGTTTTGTTAAATAATCGTCAGCCCCCATATCAAGTCCTTTTACTTTATCATCTATTTCATCTTTTGCAGTTACCATTATTATAGGTACATCACTTATTTCTCTTGTTCTTTGGCAAACTTCTATTCCACTCATTTTAGGTATCATTAAATCTAATAATATCAAATCATAGTTATTATTTTCTATTTTTTTTATAGCTTCTATTCCATCAAAAGCTATATCTGTATTATACCCTTCATGTTTTAACTGTAACTCTATTATTCTAGAAATTTTTATATCATCTTCAACTATTAAAATTTTTTCTTTCTTTTCCATTTAAACCCCTTTCTTTTTTTACTTTACTATTAATTATATTAGTATTTTTCTATTAAAATATTATTAGTTTTTTATATTATATCATTTTTTTTTAAAAAAATTCAATTTATACTTATTTTTAAATGACAAAAGATAGTATTATAATGTATAATTATTATATAGGATTCCGTTAAAATTTAATTGAGGTGATTTCAATGGGAAAACTTCATAATAGAAAAAAACATATAACAATAAGAGAAATTGAACTCTTTATAGAAGAAAAACTTTCAAAACCAGAATTAGAAAATTTAAAAAACAAATATAAATCTGAATTAATTTTAAATAAGAGTATTTTATTAGATCAAAAGAAACATTTGCCTGATAACGTTTTTGAAATGGAGCTTTCTGAATATAATAAACATATTACCAAACAAAAAGAACTTCTTAAAATATTAAAAACTATCTTTCCAGAAGATGATGAATTAAAAAATATTAATATTGATATAGAATAATCTCATTTTATATGATAATATTAATAAATATATAATTTAAAGGTGATAATTAAAATGAGACTTTTTTTAAAATCTATACTTATTTTTATGCTATTTTCAATTACTATTTTTGCAAATAAAAAAATCCTAGTTATTCAATCTTATCATAAGGGATTTTATTGGAGTGATAGTATTTCAGAAGGATTTGATTCTGTTTTTAAAGATTCTCCTAATGTAGAAATTTTTTATGAATATCTTGATTTAAAACGTAACTATAGTGATAATTATAAAAAATTAATATATGAACTCATAAAAGAAAAAACTAAAAATTATACTTTTGATTCTATTTTATTAGTTGATAATTATGCTTTAGATTTTTATTTAAATAAAGGTATTTCAATCTTTAAAGATACTCCTGTTGTTTTTGTTGGTATAAATAATTTCAATAAAAATTTATTAAATACATACAAAAATATGACTGGTATTATTGAAAAAGTTAATTATCTTGAAAATATTGAACTTATGCTTACACTTCATCCAAACACAAAAAAAATTGTTATTATTGCAGACAATACTCTAACTGGTAATCAGTTAAAAAATGAAGTAAAACAATATTTTAGTCGCTTTAAAAATATTGAATTTGAAATTTTTGATAATTTTACTATTAGTGAATTAAAATTAAAACTAAATAATAGTGATAAAAACACTCTCTATTATTTGTTTCCTACAAATCAAACAAAAGATCTATCTTTTGTATCATATAATTATATGAAAGAACTTATTAATAGTTATTCTTCTGTTCCAGTATATACATCTTGGGATTTTTATTTTAATAATGCAGTAGTTGGAGGAGTCATTATAGACGGTAAATTACATGGTAAAGTAGCTGCTGAAATAACATATAAAATTTTAAATGGATATCAAGCTAAAAATATTAATATTATTGAAAATTTAAAACCTATTTATAAATTTGATTATTTATTATTAAAAAAATATAATATTAATATAAATCTTTTACCTAAAGACAGTATTATTATTAATCAACCTAAAAATTATTTTATTAAGAATATAAAAATATTACTTTTTTATATTATTTTTACTCTTATAATTTTTTTTATTATCGCTTTAAAATATTATTACAATTCTATTGCTAATAAAAAAATTAAAGAAATAAATCAAAAACTAGAAAAAGAAGTAGAAAACAAAATTAAAGAATTAAATTTAGCTAATAAAAAAATCAAAGAACAACAAGAAAAACTTATTAAAGAAGCATATGAAAAAGGTGTAGTAAAAGTCAAATCTGGATTAATGCATAATTTAGGAAATATTATAAATCCAATATATTTATCAATTCAAAATGAAATTGCTAATAAAGAAAGTGATAACAATCGAGATATTAAATTTTTAAATAATATTGTTTATAATGAATTAAAAAATATAAAAAATCCAAATAACAATCTATTAAAAATAATTAATATTTTCCCCGATTTTTTATCTGCATTAAAACTAAAAAAAGAGGAAGAAATAAAAAAATTAAAATTTTTAGAAAAAGAATTGGATCATATAAAAAGAGTAATAAAATTACAAGAAAATTATCTAGGAATACTTGGTACTGAAAATTATATTGATATAAATAAAATAATAAACGATATTTTATCTAATCTAAAATTAAATAACTCTACACAAATTATTTTGGATTTAAATAATATCCCTAAAATATTAGGTGATGAATCACAAATAAAACAAACTATACTAAACATTATTCTTCTTAGAATAAAAAATTATTTTAAATTAAATATTTCTACAAAAGAAGAAGAAAATTTTGTTATAATAAAATTAACTGATAATAATATTGAAATACCTCAAGATGTAATAAAAAATCTAGATAATTTAAATTATATATCTGATTTAAAAAATAAAAATTATTTTAAATTATATAATATATTACAAATAACAAAAAAATACAATGGATATTTTATAATAAATTCTTCAACACTAAAAACAGAATTCATCATAAAATTAAAAAAATAGGTGAGAATATGTTTATATTAGCTCATAGAGGAGCATCAAATGATTATTTAGAAAATTCCATATCTAGTTTTAAAAACTTAGAAAGTTATTTAATTGATGGTGTCGAATTTGATGTCCAATTAACAAAAGATAATAAACTTATTATCTTTCATGACTATAACTTAAAACGTTTGACAAATTCAACTAATTATATTTTTAATTTAGATTATGATGAATTAAAGAAAATCCCTTTAATCAATAAAGAATATATTCCTACTTTAGATATCGTCATGAATCTTTTACCAAAAAATATAATTATAAATATTGAATTAAAGTTACCCTCTTTTTTAAATAAACATAAATTATTCGCAAAGATAATTATAGATTTTTTAAAAAAAATAAAAAATAAAGATAATATAGTGATTTCTTCTTTTAATCATAATCTTTTAAATGAAATTTTTTTATTAGATAATACTATAAATTTATCTCCTATTTTTGCTAATGAAATGGATAATTTTAATAAATATATTGATTTTAATTTTGTTCCCTACTCTATTAATTTATCAAAAGAGTATGTTTCAAAAGAAATAGTTGAATTTCTTCATTTTAATAATAATAAAATATGGGTTTATTCTACAAATACTATTTATGAAGAAAAATTTTTAGAAAATCTAAATATTGATGCAATTTTTTCTAATATAATAAAAAAATCCGACTAAAAAGTCGGAATTAATTTCTTATTTTTAATTTTGTTTTTTCATTGTGTTTATTTAAACTACGATATTTATGTATTGCTGTATTAGAAAATCTAAAAATAATATTTTTTATATCTGAATTATTAAATATTTCATTTACTTTTGGATTGCTTAATAATTTATCACTTATTTTATATTCAGTATCGTCGTTAGGTAAGAGTTTAATATCTTCATATTCTACCTTTATTTCTTCTTCAAATATTTCATTAAGCATTAATGAAATAATTTGAGAGAATATCTTTAATACTTCTACGGGTTCTTCTGCATTATTAAGTTTGTTTCTAAATTGATGTTGATAGTTTTTTTCATATTGAATAAATGAATATTGACTTGACATAGGCATACCCTCCTTATATTATATGGTAAAATACCTTTTATTAATTATACATTTAATTTTTTTTGATTTCAAATTTTATTTACGAGGTGAGCATAATGAATTCTAAAATCAAATTTTCTTTTTTACAATTTTTTATAAACTTTTTAATTGTTTTTATTATTCTTTTTTCTTTATCTGGATTATTTTTTTGGCAAATTATAGATACTCAATTTAATTTATATAAAAAAAATATTATTTTAGAACAAAAAAAAGATATATATTTTATTGAAAATTTAATAAAAAATAAAATTATACAAATTAAAAATGATATTAACTACATATCACAACTATCTAATAAATCAAGTATAATAAAATTTATAACTCTAAATAAATATTATACATTAAAAAATAATTCAAAAAAAAATTTTATTATATTTTCAAAAGAAGATATAACTATATATTTTGATTTAGAAACTTTTTTTAAAGAATTATCTGTATATTTTGAAAAAAGTCAGAGTCAAATTTATTTTTTAAATAAAGATGGAAATTTTATTAATAATAATATTTATAATTTTAAAACACAATTTAAAGAAGAATGGGAAAAAATTAATTCTTATGAAAAATCACAATTTGAGACACAAAATGGAATTATTAGTAGTAAAAAAATTGATAATTCAAATATATTCTCTAATAATAATTTTAATATAATATATTTAGTTTCAAGATATAGTTCAAATTATCTAACTAATACACTAAATAATTTAATATTTAATAAAACAACTATATATAGATACACTTTAATTTTTATTTTACTTTTATCTCTTTTGATTTCATATTATATATCAAAATCAAATAAATTATCTTATGAACTTAAGAAAAATACTGTATATGATGCTTTAACAGGAGTATACAATAGACAAGGTGGAATAGATATTTTTGAATTAAATCGTAAACTTTTAAAAAGAAGTAAAGATTATATGACTTTATTTTTTATAGATATAAAGAATTTAAAAAAAATAAATGACGATTATGGTCATAGTGAAGGGGATTTAGTGTTAGCAACAACAGGTCAAATTTTATTAGAGTCTATTAGAGATTCTGACATAGCTTTTAGAATGGGTGGTGACGAATTTGTTATTGCATTATCACGATGTAGAGAACCTCAAGCAAAAATTGTCTATAAAAGAATAAAATCTAAATTAGAAAATTTTAATACAAAAAATAAAAAAGATTATATTTTAGAGTACAATATGAGCAGTATAGAACTTTCACCTTATAGTCTTGATGAATTTGATGATCTTATAAAAAATGCAACTTCAATTAGTAATAAATAAAAAGTTCTCCTAAAATTAGGGGAACTTTTTATTTGTTTACATAACTATATTTTAAATTATTAAAATACATATTTGTTTCGTTTATTATAATTTTTCGTAAACCTAATATTGCTATTAAATTTGGAATAGCCATTAATCCATTAACAATATCTGCTAATATCCAAATCAAATCTAATTTCAAATATGGACCTATTGCTATCAAAATTATAAATATATATTTATATCCTTTTATACCTTTTACACCAAATAAATACTCTGTACATCTTTCACCATAATAATTCCACCCTATTATAGTTGTAAATGCAAAAAATATTAATCCTAGTAAAACTACTATTTCTCCAAAATTATTTAAACCAATAGAAAATGCGTATCTTGTTAATTCTGCACCTTTAAGTTTACTAGTCCACGCACCAGTAAGAACCAGTATAAGCCCTGTCATAGAACAAATAATAATTGTATCAAAAAATGTTCCTGTCATAGATATAAGACCCTGTCTAACTGCCGAATTTGTTTTAGCTGCAGCTGCAGCTATTGGCGCAGATCCAAGCCCTGATTCATTTGAAAATACTCCTCTTGCAACTCCACTTCTTAATGCTAATATAAGTGTAGAACCGGCAAATCCTCCAAATGCTGCCGTTTTAGTAAAAGCACTTTTAAATATAAGCCCTATCGCTCCAGGTACTTTATCAAAATTCATTATTATTACTATCAAAGAACCTAATACATATAATATTGCCATCACAGGTACTACTATTTCTGCTACTTTTGATATACTTTTTATTCCACCAAGAGTTACCAATGCTACTAAAATTGTTAGTATTATTCCTACAACTGTTGGAGATACTTTAAATAATATTGTAGAAGCAGTTGTAATTGCATTTACTTGTGCAAAAGTTCCTATCCCAAAAAATGCTACTGCTATTCCAAATATAGCAAACATTTTTGCCAATACTTTATTATTTAATCCATTTTGAATATAATACATTGGACCGCCAGACATCTGTCCATTTTCATCAATTTTTCTATATTTTACTGCAAGAAGTCCTTCAGCATATTTTGTAGCCATTCCAAAAAATGCGGCTAGCCACATCCAAAACATAGCTCCTGGACCACCTAATTTTATTGCAGTTGCTACACCAACTATATTTCCTGTTCCAACAGTTGCTGATAATGCAGTACAAAGAGCTGCAAAACTAGATACATCTCCCTCTTCTTTATCATTATTTTTCATAAAAATATACTTTAATGCTAATGGTAATTTTAGTATTTGTAGCAAATTTAATTTTACAGTTAAATATATCCCTGTTCCCATAAGTAAAATAAGTAATGGTGGACCCCAAATTATTGAATCAATTTTGTTAAGTAATTCTAACATTTTTCCCTCCTAAATATGTTTATTAGAATAAACGATTATAAATAAAAAAAGGCTAAATATAATTATTTAGCCTCTAAAATTTAACAACTATAAAAATATTATAAATACTATAATTGCCAAATCCTCTGTCCTTTTACCTGAGAGTGTTACTCCTTCGGTGTCCTTTTGGATCTCTCCAGAGGCTCGTCCAATATAGGTCCTTTTACCTGAAAGATTTACTTCTTCGGTGACTTAAAAGTTCTCTCCCTATACCTTCAACCGTATTCTATTATACGGACAATTATACTAATTTTTTATTACTGTGTCAAGATATTTTTTGTCGTATCATATCCATTACATTTAAATCGTTTTCTAGTGTTATTTTTACAGTCATGTTAGGATGTGCTTTATTAATTTCTTCTCCAGTTTTCATGTTTATCATTTTAGGTAATATTATTTTTTCTATTTCACTAGATGGTTTTACTACTTCTAATTCTTCCCCAACTTCCAATCTATTTCTTATTCCCAATATATATTCATTATTATCTAATTTTTCTAAAACTTTTGCTACCAATTTATGTGTTTGACTATATGAATTTCTATCGTTATAATTTTGAGCACTTTCATCTGGCGTTCCAAAATAAAATCCATGCGTATATAATCTATGACTTATTGTCTGTAATTCTTCTAACCATTTTGGATTATATTGATAATTTCCACTATAATAGCTATCTAATGCTTCTCTATATATTTTTACAGCATTTGCTACATAATATATCCCTTTCATTCTTCCTTCAATTTTTAAACTATCTACTCCAATATCAAGTATTTTATCAATAAATTCTATTGTACATAAATCTTTTGAATTAAATATATGTGTTCCTGTCTCATCTTCATATATTGGATAATATTCTCCTGGTCGCTTTTCTTCAACCAAATTGTAGTTCCATCTGCACGCCTGTGCACAATCGCCACCATTAGCATCTCTTCCTGTCATATAGTTACTTAATAGACATCTCCCTGATATTGATATACACATTGCTCCATGTACAAAGGCTTCTATTTCAATATCTGGCACTCTATCTCTTATTTCTTTTAACTCTTCTAGTGAAACTTCTCTAGCAAGCACTACTCTACTTGCACCAAGTTCTTTCCACATTTTTACTGATCGCCAATTTGTATTACTTGCTTGAGTACTCACACTTATTTTTAAATTACTATTTTCTTTTACAAGTTGAAATACTCCAAGGTCAGCTACTATAACTCCATCTACTCCTACTTCATCTAAAAATTTAATATATGGAACCATCATATCTACTTGTTGATTATGAGCTATTATATTTAATGTTACATATATTTTTTTCCCTATATTATGTGCATATTCAACTGCCTCTTTTATCTCCTCATTTGAAAAATTATTACTTCCAGATCTTAGATTAAATAATTTTCCACCTAAAAAACATGCATCTGCTCCGTAATGAAATGCCATTTTTAATTTTTCCATATTTCCAGCAGGTGCTAATAATTCCGCTTTTTTCATTTTTTTACCCTTTCTAAATTTTAAAGTTATTTAATTTGTGCTGTATAATCTGCAAATTTTGTTATTTCATTAAAGTATTTTAAAGTTATTGTTCCAACAGGTCCATTTCTTTGTTTTCCTATAATTATTTCTGCTAAACCTTTATCTTCACTATCTTCATTATAATATTCATCTCTATACAGAAATACTACCATATCTGCATCTTGCTCTATTGCTCCAGAATCTCTCAAATCTGATAACATTGGTCTTCTATCCGCTCTTTGCTCAGGAGCTCTCGATAACTGTGATAAAGCTATTACAGGTACATCTAGCTCTCTCGCTATACCTTTTAATGATCTTGAGATATCAGAGATTTCCTGTTGTCTACTTTCTGTTCTACCAGATCCTTTTATCAATTGTAAATAATCTATAAGTATCATATCTAATTTACCTGCAGCTTTAAGTCTTCTAGCCATAGCACGTATCTCAAGTACAGTAACATTAGGTACATCAGCTATTTGTATATCTGTATTAGCTAATTTCCCAGTAGCTAATGCTATATGTCCCCATTCATCTTCTGAAATAAATCCATTTCTTATTTTATTTAATGGAATTTTTGATTCAATTGCTAATAATCTTTGAAATATTTGAGAATTTGACATCTCAAGTGAAAATATTAAAACTGATTTATTTTCATTTAAAGCTGCATTTAAAGCCAAATTAAGTACAAAAGCTGTTTTTCCCATACTTGGCCTTGCTGCTATTATTACTAAATCCGAAGGATGAAATCCAGAAGTCATTTGATCAAATTCTTTAAAATTAGACGATATACCTGTAGTTGCACCACTATTTTTTACTACTTTTTCTAGTCTTTCAAATTCTTCATTTACCAAGCTACTTATACTCACTACTTCTTTATTTTCTTTAGATTCAGAGATTTTAAAAATAAGACCTTCTGCTTTATCTAAAATACTATCTACTTCTTCATATCCTGTTTGTGCTAATTCTACTACTTTATTACCTACATTTATAAGTTCTCTTAATATTGATTTTTCTTTTACAATTTTAGCATAACTTAAAATATTAGCCGCTGTAGGCACCTCATCCAATATTTCATAAATAATATTTTCTCCACCTATTTCATCAAATCTATCCATTTTTTTAAGTGAATTTATTAAAACAACCGGATCTATTACTTCACCATGAGAGTAAATATTTAACATTGCTTCATATATGTACTTATGTGATAATTTATAAAAATCATTAGGTCTTAATATGTCTATAATATCTGATAACGCATCTTGTTTTAGTAAAATACCTCCTAAAACAGATTTTTCTGCCTCTTCACTGTAAGGTACACGATTTAAACTTTCTACTTCCATTTCTCCTCCATTTATTTTTTCTTAGAATATATAAGGAGATATCATTTCAAAATTTAAATTATTACTAATTAATATTTTGAAATTTTTATCTCCCTTTTAATTAACTCAATTCTTTTATTACATCATCAATTGTTTTAACTAATTTTATTTCTATATCTTCTATATGTTCTGGTACATCATTTTTATTTTCATAAGGAACTAATACTTTTTTCATTCCAAATTGTTTTGCACCATAAATTTTTTCAACTATTCCACCTACTGGTTTTATATCACCTATCAAAGATATCTCTCCAGTTATAGCAACATCTTGTCTCATTGGTAAATTTTTTAATACTGATATAATTAGAGTAGTTATAGCTGCGCCCGCTGAAGGCCCATCTACTTTTCCACCTCCTATTATATTTATATGAATATCATATTTTTCAGTATCTAACTTTGTATAATTTTTAGCTACTGTTAATGCATTAAAAATAGAATCTTTTGTCATAGAACCAGCTGTTTCATTAAATCTAACTCGTCCTTTTCCTTCTTTATTTTCAAAAATAGCTGCTTCAAATTCTATTAAACTTCCTAAATATCTATACACTCCTAAACCAAAAACTCGTCCTATTTCTTTTTTGTCTTTTCCTTTGTTACGAGAAAATCTATTTAGTCTATTTATTTTTATTATTTTTTCTACATCATTCATTTTTATTATAAATTTATCACTTTTTTTATTTTTATAATTTTTATATAATAAAGAACTATACACATCAGCTAAAATATTTACAGCCTTTCTTCCTTCAATAGTATAATTTGATATTAAATCTAAAGCATCCTCTTCAATTTCTACATTTAATTTTTCGCATGCATTTTGAACTATTTTTTTTATATGTATACTATTTAATGGCTCAAAATATATCTCCGCTACTCTTGAACGGAGTGCTATATTTATATCTTTTGGTTCACTTGTTGTTGCTCCTATTAAAATAAAATCTGCTGGTGCTCCTTTTTCAAATAAACGTTTTATATATTTTGGTATTTTAGGATTTTCAGGGTCATAATATGCTGATTCAAAATTTACTCTTTTATCTTCTAATACTTTTAATAATTTACTTTGATATTTTATATCAATTTCACCTATTTCATCTATAAATAAAACTCCGCCATGAGCTTTTGTTACAAGACCTATTTTAGGTTCTGGAATTCCATCACTAGCAAAATCTTTTTGTGCGCCTTGATAAATAGGATCATGTACAGAACCTATTAAAGGATTGCTTACATCTCTTGGATCCCATCTTAATGTTGTTCCATCCACTTCTACAAATGGTGCATCTTTTTCAAAATTAGTATAATCTAATTTTTTTATTTCTTCTAATATCAATCTTGCTGCTGTAGTTTTTCCTACTCCTGGTGGACCGTATAATATAACATGTTGTGGATATGGCGTAGCTAATTTTGTTAAAAGAGCTTGTATAGCTTTTTCTTGACCAACAATCTCACTAAGTTTTTGTGGTCTAAGTGTCTCCATTACCGTTTTTAGTTTTTTCTTACTTTCTAATTCTTCTATCTCTTTTAACTTGTTTTTACTAAATTCTGATTCTGGCCCTATCTCTTCAGAAATTATTTTTTTCTTCATTTCTCTTAAATATTCTTTATGTTTTTCTTCCATTAGTTTATTTACTTTTAAAGTAATTTCTTTTTCTATACTTTTTAATGAAATAATCTCTGCAGCTCTTTCTTCTAATACTTCAAGAGCTTTATCTAATTCTTTTTCAGTAACAATTATGTCTGTATGTGTATTATTATTTGCTGTAATTACAAGTAAAGCATACGCTCTCTCTTTTACATCTAATGATTTTAATTCTTCTAAAACACCTTTAGTTTTAGCTATTTCCACCATATTTTTTGCACCATATACATTTGCTAACAATCCATATAATACATCTATTTTTTTTTCACTTTTTTTTGCTTTTGAAGCATCTTTAAAAAAAGTTATATCTTTAATACCTCTTATTTTATCTAATAATTTATCCATTTTCTACCTACTTTTCTATTTTCCTTTTACGACTACTTTTACATTAGCTTTTACATCATTATGTAATTTTACCTCTGCAATATGTGTCCCTATATTTTTAAAATGTGCATCTATTTTTTTCTTATCTATATCTAAATTAAAGTTTTCTTTTATTAATATAGCTATTTCTTTTGAAGTAATTGCTCCAAAACTTTTACCATTATTTCCAACTTTTATAGTTGTTTCCAATGGCTTTGATTCTAATAACTCTTTATTTTTTTTTGCTTTTTCTTTTTCTTTTTCTTCTTTTTTAGCTTCTCTTTCTTTTCTAGATTCTAATCTTTTTAATTCTTCTGGAGTAGCTAATATTGCTTTTTTTTGTGCAAATAAAAAATTTTTAGCATATCCTTCAGATACAGAAATCACCTCACCTTTTTTACCTTGTCCTTTTATATTTTCTTTTAAAATCACTTTAATCTTTGACATAATTATGCTCCTTTCTTTTGCTAAACTTTCTTTTTATTAAAAATATTTAAATCAAAACTTTCAAATGCTCCAAATAAAAAATATATAAATGGAGAAATCAAAAATATCATTATAACAATACTTAACGACATAAATCTATTTTTAATTTTTAATATACTATAAGCTTTATATACCCCATATATCATATATGTAAATTGAATTATCTGTAATAAATTATTTAAAATATAATTATAGCCTATATATTTTAAATAAATAATACTTATTATAAAAAATATTAAATAATAATATTTAAATTTTATATTAGAAAAATATTTTTTGTTAATTAAAAAATATAGTATTAATACATTTAAAAACATATATATAAATATTATATATAACGAATTACTTTTAAAAAATTTAAAATAATTTATAACTTCTTGTTGATTTAATTTAAAATAATTTATATATACTTCTTGTAATAATTTTAAATTTTTATCAAAAAAATCTTTTTGAATCAAATAAAAAATTAAAAAATTAAAACTACTTAATACTGATGACAAAAATATTTTTTCAAAATTGTTTATTTTATTAATAAAGAAATATACAATCTGTATTATAACATAATTTACTACAAAAATCACTACAATTATTTTATCTTCTTTTGCAGTAAATGATAATAGCAATATTAATATATATGTATATATATTAAATTTTATATAACTATTTTTAAATTTTTTCTTTTGATTAATCATAAAAAATGGAAATACAAAAGAAAATAAAGGAGCAAAAAGTCCCAAATAGAAATATACAACTCCTAGTATTAATGTAAGTATCATTTTTAGCCTCTTTTCCTTCTAAATAATTTTGTCGATTTCTAATATTGATAAATATAAAAGTTCCATACTTTTATTAATCGAATTTATTATTCCAAATTCATCATCTCTACCTAATTTATCCCCTTTTATAACTCCAATAGATACAGCATCTATACCATTTTGTAGAACCGGTATAATCTCAATATGTGATGATGTACTATAGCTAGGTATATCTAAAAATTTAGCTGTATTGGTAACAATATTTCCTATTTTTTTCTCTATATTAGGTTCGTTTATTTTAAATTCTAATTTATTTTTTAATTCTATTTCTACTCTTTCATCTTTAGAAATTTCTTTTAATGCTTTTATAAAATTTTTTTCTGTTTCATCTAATATATCAATATTAAATCCTCTTATTTCATATTTCACTAATCCTGTATCAGCTAACATATCAAAACTACTTTTAGATTCAATATGTGACAAATTAAAGATTATATCTTCTGAAGTTAATTTATTAATTTCTCCTATTATTTTATATATTGCATTTATAGGATTTCCTACTCCTATATCTTTCCAGACATGTCCACCTTTTCCCTTTATATGAATTTCGCCTCTTTTTATATTTACACACTTTGTATTTATTTCTCCTAAAGATAAACCTTCAAGATTTATAAATGCTTTTATTTGAGGTTTATATTTTTGAAGAAAATAATTTAATCCAATATTTCCTTTTTTAGAGTCAGTTGTCGCTATAAAATATACTGTATTTTCCAATTTCTCTAGTTTTAATCTTCTTGCAAGACTTGCTAAAATAAAATGAGGTACAGAAGCCTCTATTACTCCTTTTCCTACAATTTTTTTAAAAGTAAAAAGAGGTTCTTCGTCTACTATTCCATTATCTAAATTACTATTTATTACTATAATATCATCTTTTTTCTTACCTATTATTTTACCTATTACATTTCCTTTTTCATCAATAATTATATCTTTTAGCCCATATGCATATAACAGTTGCTGTACATATTGTGCCTTTAATATTTGATATGAATCACCATTCGATTTTTTTATCAAAGCTTCACAATGCGTAAGTAATTCATCTTCATTAATTATAATTTTTTTCATTTTTTACTCCTGATCATCTATTTTACAAGTATTTATACCAAACAATTGATATAATCCACACCATCCTAAAATTCCTGTAACTAATGATATTATTCCTAAAATTAAAGATATCCAAAATAAAATTCCACTAGATATAAATGATATTAATAAAAAAATTACTCCTATTACTATTCTTATTATTCTATCTAATTTACCTTCGTTTTTTTTCATTCTTTCCCCTCCCTTTAGTTATGATTACTAATAATTGTAAAACTCTAATTTCTTTTATTTATTAAAAAAATTTTATTTTTAAAAGTTTCTAAAACTTAATATGAGAACTTCTTATTCAGTTATTTTTTACAATCGCATTTATATATTACAAAATTTTTATAAATTTTACAACCTTATTCAATATCCTTAATATATTTTGTTACCATATTTTTACCATTTCTTTTTGACTTATACAAAGCTGAGTCTACATTACTAACAAATTTATACATATCTATATTCATGCTTTTGTTATATTCACCAACTCCCATACTTATAGTTATTTTGAGTTTTGCACCTTCATATTCTATAATTACATCTTCTACTCCTTTTCGAATTATTTCTGCTATTTCATAAGCTTCTTCTAATTCAGTGTCTGGAAAAAGTACAACAAATTCTTCTCCACCATATCTTGCTGCAATATCTTGTTTTCTTATATATGCTTTTATTGTTTGAGCTAATGTTTTTAATGCTTTATCTCCTGCTACATGTCCATATGTATCATTAAATCTTTTAAAATTATCTACATCTATCAATAAAAGACTTGTTTTTACATGCTTATACATTTCTAATTTTAATTGTCTTTCAAAAAAGATATGATTATATAAATTAGTAAGTCCATCTGTTATAGCAGAATGATACAATTTCGAATTATTTAATGCTGTTGTTATTTGTAATTTTAAGGTGTTATAAAAATCCGTATCTATCTTTTCTTCACTTTCAATTATAGCAGCACCTACAATAAGTTGTTTATTTACAAAAGGTATTAAATATGTATTTTCATTTAATTCTATAATTTTTTCTAATCCTTCTATAATTTCACTATTTTTTAATTCTTTATAATTTTTTATATTTGCACTTGAAAGTATTCTATATTTCAAATTTTCATTAATATAAAAAGTTTTATTATCATTTAAAAATACATAACCATTACTTGAATGTAATTTAAATTCTGATTTATCTTCATCAAAATTAAATATAATAAATTTTTTTGCTTTATAAATTTCGAAAAATATATCTATAACATAATTTATTAATTCATTTAAATCAAGAGTATTATTAAGTAATGTTGAAGCATAATTTAAAACTGTTAAATTAAAATTTGTTTTACTTAATTCTTTATTTTTTTCTTCCATTTGATATGTATATGATGAATTTTCAAGTATTATAGATATTTGTCCTGATACTGTAGTTAAAAACTCTGTATCTACATCTGTATAATCACCTAATGATTTTTCGCCTATAATTATTATAAAATACTCTATTTCTTCGCCTTTTATTAATTTAAAAGAAATAATATATCCTTTATAAAAACTTTCTGTTATCTCTGATAAAAATCCTCTTTGTTTTGCTATATTTATTGATATTACTCTTTGTTTTACTAGTTCTTCTAAAAATTTTTCATTATAATTTAATTTAACATTATTATTTTCTATGTTTATCCCTTTTTTATTTAATATTTCTAGTTTTTTATCTGTTATACTAAATGCAAAAGCTTTTTGAACCAAATTCACTTCAAAAAACATATCACAAATCACATATTTTAATGTATTTAAATCTTTTTCTAAAGCTATAGTTTGAGTAAGTTGATTTAATGCCATTATCTTAAAACTTCTCTCAGAATATTTGTTTTTTAGTTCTTGCAATTCTTCTTCTAGTTTTTTATATTTTTCCTGAATATCATTTTCCACCATGCCCTTATGCTCCCTATTATATTATTTTCATAAATTTTTCTGCTATATTTTTTATATCTTCGTCTTTTAATTTTTCTACTAATAACGCACCATAAAAACTCTTAGCTACATCTTTTGCTGTTTTTGATAATCTTTCATCTATATTATTTACATATTTAATAACTATATCTATTAAGTTATACAATTTCATGTCTTTTACAACCAATAAAACTATTTTTTTTAACATCCACCATTCATCATCAGTTTCTAATATTTTCATAAATAATTTTTCTACACTATTTTTATCATATTTTACAGCATTTACTATTAGTTTTGCTCTTATTTCTCTATCAACTTTTTTATCTATAACAAAATCTTTAAATAATTTAAATGGTATTTGAAATTCTTCTACCATTTTTATAGCTCTTTCCATAATAGGTTTTTCATATCTTCTTTTATTAAGTATTTCTATTAATATTTTTTCTACTCTTTCATCTTTATAATTTAATAAAATATCAATTGTTTCAAATTTTATGTTTTCAATTACATTATTTTCTTTTAAAACATCTTCTAATATTTCATTATAGCCTAATTTAGCTAAAGACTCAATTGCTACTTTCCTTATATCCTGTTTATTACTAGTTATATATTTTTTTATATAAGGAATAGCTTTTTCATTTTTTAGGTTTCCCAATTCAACAATTAAAGTTCTAATTATTCTTTCATCACTTTCTTCTGATAATAGCAATACAAATTGTTTAAATATATTTAAATTTTTAGATTTTCCTAATAACATAATAACAAGTTTTTTTATTAACCACCATTCATTTTCAGTAAAAAGCATTGTTTTTAATTTTTCTAATATCTCTTCTTCTTCTATATTTGTAAATGAAGTCAATGCCTTTGCTCTAATGTCTCTATCACTATTATCTAATAATCTTAATAAAAATTTGTTTTTTTCATTATTTTCTACATTTTCAAGTGATTCTATTAATTTTATTTTATCTTCTTTTTCTTCTAATTTGTCAAATAACTCTTCATATAATTCTCCTGTTCCTTTTATATGAAGGTCTGCTATACTTGAAATTAATATTTTAATAATATTCTTATCTGTAACTTCAGATATTAATTTTTTTAATACTACTAAAGCTTTTTCTGCTGGAATTAGTCCTAGAATATTTAAAAGTTCTATTTCACTCATATTTTCTATATAATCTAAGAAAACCTTAGAATCTTGAATATATAATCTTATTAAATTTTTTATCTCTTTTTCTTTTGAATTATAATATTTTAAAAGTAATTTTATCGCTTCTTCTGTATGAATAATATTTAATGTATCTATTATTTCTAATTTTATATTTATATTTTCATTATCAATAAAATCTTTAAAATATTTCACATATTCTTCTGCTTTTAATTTTTTTATTCCATAAATCAATAATTCTAATATATCTTCATCTTGTATTTTGGATAATGGCAAAAAATTATCTAAAAAACTAGCATCTCCTATTTCTATAAGTGCGTGTATTGCTGATTCTCTTACTGAAAAACTCTCATTTTCATTTTTAGCTATTTTAATTAAACTATCTTTAGCTACTATACTCTTCATTTTCCCTAATTCTGTTATTGCTTTTACTTTTTCATCTTTTGAAACATTTTTACCTAATTTTTCTACATACATAAATTCATAATACTTAGACATAATAATCCCCCTTTGGCTATTTTATTTCACCATCAAAAAACTCTATTAATTTTTCTACAAAATCATCTTTTGTTTTTTCTTTAATATTATTATTCCCTAATAATACGTATTTCACTTTAATTTTTATCTTTAATACTTCTTCTATAGCATTTTCTAATATTGAAGAATACTCATCTCTTATCATCATATCTCTATGATATGCTGATTCTTTAGGAAATGAAATATATATAATATTTTCAGAATACTTATATAATTTAGCAGTAAATAACATTGCTTTTAATGAAATTTTATTTGAATATGCTACATTTAGTATTTCTTTCCATTTTTCATTTATCATTTCAAAAGTAATATTATTATTTATTACTAGTTCTTTTGATATTTCTTTAGTATTCATTTGTAAATTTTTATTTATTGTTGTTTCTTTCATTTCTCTAATTATTTTTATATCAGTTTTATTCTCTGACAATATTTTATAAAATATAATATATCCTAATAACCTTTTATCTTCTTCATTTTTAAATTTATTTAATACATCAAATATTATTTCTATTATTTTTATATATTCACTTATTTCAAATTCTTTATTATCGGACACTAACATGTCTTTTATATAATATGCTAAATCTTTAAAAAATCCTTCTAAATCATATCCTTTATTCCATAATTCATCTAAAAATACTGTCCCTTCTTTAATATTTTTAGATTTTATAATTGTAATAAATTTTTCTATTTTTTCTTTTGGAATAATCCCTAGTATTCTTTCAACTGATTCTAATACTATATTTTCTTCTATGCTACTTGATATAACTTTTTCTAATATAGAGATAGCATCTCTCATACTTCCACTAGATTTTTTATATATTAATTTCAAGCTTTCTATATCTATCTCTTTTTTTTCATTTGCCGCTATCTCTAATAATTTTTCTGATGCTTCACTAAATGATAATGAGGAAAAATCATATCTTTGACATCTAGATATAATTGTATCAAGTATTTTTTCTGGTTCTGTTGTTGCTAGTATAAATATTACATGACTTGGTGGCTCTTCTAATGTTTTTAAAAGTGCATTAAATGCTTCTTTTGTAAGCATATGAACTTCATCTATAATATATATTTTCTTTCTTCCTTTTACTGGTTGATAATTTATTTTTTCTTTTAATGCTCTTATCTCTTCTATCCCTCTATTTGAAGCTGCATCTATCTCTATTAAATCAATAAAATTATTATTATTTATATCTATACAATTCTCACACTCATTACATGGTGTATCTGTTATACCATTTCTTAAACAACTTACTCCTTTTGCTATAAGCCTAGCAGTTGTAGTTTTCCCTACTCCTCTTGGACCAGTAAAAAGATAAGCATGTGCTAACGAATCTCTTTTTAATGAATTTCTTATAGTCTTTATAATATCCTTTTCTCCTGCCACTTCATCAAAATTTGTAGGTCTATATTTTCTGTATAACGTCACATGCTTCATTAAAAAATCCTCCTAAAAATTAAAATCTACTTTTATTTTTACTTTCCCATCTACTAATATTCCATTATCACTTTCTATTGAAATTTTCCAATCTCTAGCTACTTTTTCCACTGCTCTATCTATTTCCGACTCTCCACTTTTTCTTTCTATTCCTTCATAAATAGTTTTTGCTCCTTTTACTGTAAATATAACTGTAACATTTCCATTTAATCCTTTTAATTCAGCTTTTCTAGGATATTTAGGCAATTCATTTCCTTCATACCATATAGCCCTTCCATTTCCTTCTAATACTTGTGAAGTTATATTTTTAGGCATAGCTATCTCTTCTTCTGTCCCATCTAATTCTAAAATATTTTCTGTATCAATAACCCTATCATTTATATCAAATTTAGTTCCTATATTTTTTGTATTTGTATTTATATAATCTACTTCTTTTGCTTTTACATCAAGTTTCAAATCTTCAATCATTTTTACTTTTTCTTGAGTAGATTCTTTTTCTAATACAACAATATCTCTATTTATAGTATCATCTACACTCGTTGTTGGTATTTCTACGTTTATTTTTCTTGTTGTTAAAGCTCCATCTACATTGGTACTTAAAATCTTTATATCATCTATATTTCTTTTACTTTTTCTTTTTACAGATATTACTGGTATTTTTTTTAAGTTCTCCTTACTATTTTCCTTTTTTTTTGGACTTTTTTCAAGTTTTTTTTCTATTTTTGTTATTTTAGGTGGAGCTATTTTCTTTTTTTCTATTATTTTCTTAGGTACAGTACTTTTTTTCTTTGTATCATCTTTTATTGAAATAATCCCAGCTTTTATTGTTTTTATTTCTTGATCTTTTTCTATTTCTTTTTCCCTAAAACCTGGTAAAAAAATTATTCCTAATAAATGAATTACCATAGAAAAAACAAGTACGATATAAAATAAGTTATTATTTGTTTTTTCATAATACATTTTTATCACCTACTTACTATTTTCAGTAGCTATATCTAGTGACAATGCACCTGCATCTTTTGCTTTAGTCATTATATCTACAATAAAACCATGTGACAAAGATTTATCAGCTTTAATTATAATATTTTTATTTTCACTATTAGCTAATTTTTTAGCTAATATTTCTTTAAGATCATCTGTTTTTTTTATATTTACTGTATTTCTTTTTCCATTTTTTTCATTTATTAAAAGTTGTACATTTTCATTTTTATCAGCTAATATTATTATCTCTTTTATTTTAGAAAGTTCTTTTACTGTTGATTTTGGTAATTCTATTTTTATTCCTGTATTTACTTCTATAAAAGTTGTTCCCACCATAAAAAATATTAATAATAAGAAAACAACGTCTATTAATGGAGTTAAATCTATTGTAAGCATTTTTCTATCTCTATCTCTTATTTTTCTTATTTTCATAAATTCACTCCTACTTTCTTAAGATATTTATTACTTCTACTGATACTTTTTCCATTTCATTTATTTTTTGTTCTATTTTTCTATTAAAAAAATTATAAAATATAACAGCTGGTATAGCAACTGTCAATCCTGCAGCTGTCGTTATCAAGGCCTGTGATATACCGTCTGCAAGTACTGCTGGATTCCCTGTCCCAACTTTAGCTATTTCTCTAAATGCTATTATCATTCCTGATACTGTACCCAATAATCCTACAAGTGGCGTTACTGTAGCTGTTACTCCTAATAACCACATATTTTTTTCTAGACTAGGTATTCTATGTAAGGCTATTTCTCTTGCCTTTTCTTCTAGATTTTCTATATTTATTTCATGAGCATACTCTACTTCTTCTAATATTCCTTTTAATACAATGATACTTGAATTATTATATAAAGTACATAACTCTTGAGCTCTTTCTATATCTCTTTTCTCTATATATACCTTTAATTCCTCTTTTATTATATCTGTATTCCCTCTTTCATGTACAAAAAAATATATAAATCTTTCTATTATTACAGCAAATCCTAATATTGATAATGCTGCTATTAAATACATTAATGGTCCACCCGACTTAAATATCTCTAACATTTTTCTCCTTTCTATCCTCTCTTTATTTAATTATAAAAAAAATTATTATTTAAGTTAGTTTGATCTTCAAAAATAATAACTTTTTGTCAATATTTTTTAGTATTGCATCTCAAAATTCAACATAAGTTTTCTTCCGTTTATAGTATACCCTTTCATTTCTTCACTCTTATTATTAAATAAATTATTTATATTAAAACTAATTTTCATCTCTGGTGATAATTTATAATTATATTTAAAGTTTACTAAATTATATGATTTTATTAAATATCTACTTGTGTCCTTAGCATCGGTTGTATAAAACTTACCATAATTTACAAGTGATAACTCATACATATTTTTCCCCATTTCATAACTACCATTTAATTTTATAGTTGATTTTGGTGAATAAGCTATTTTTTCAAGAGTCGATAAATCAAGTATAAATTCTCCTTTATAATTATCCTTTGTATATGTAGCTTTTGAAAGTAGTTCTATCCAATTAATATTTGAACTATAATTATATATCTCTATCGCATTTTCTGTTGCTGATATCGATTTTTCTTGATATACTATTTTATTTTTTGCATTATTTATTTTTAATTTTCCTTCTAAATAAAGAGAATCTTTTATATAATTAATTCCCGTTCCTATGTTAAAGTTTTTTTCTGTTAAAAGTTCTGTTTGATTATTACTTGCATCTACTATTTCTATAATATCATCTGCTATTTTAAAATTATTTACTAAATTTCTATAATTACTATTTTTATTTATATTATTAATAAATGCTGAAACACTAATATTATTTTTTAATGGTTTTGTCCCTTCAAATCCAAAATTCAAGCCTGTTTCACTTTTTTCATGTTGCCTATTTGCTATTTCAAGCCCTGCAGTTGCTTTAAAATCTATATCTTTATATTTATCATATTTAAATCTATCATTTACATCAACATACAACACACCTGTTCCCGACTCATCAAATCTATCTATATAGTATCCTCCTTCAGTTAATAAAATATGATTAAATTGATTACTATTAATAACAGCTTCGTATTCTCCATATAATTTTATAAAATAGTTACTAAAATTTCTTAAAACTTCTGTCGAAGTAGATTCACTTATATACATATTCGTCCCTAAAAATATAGACTCTTTTGCCTCATTTTTTAATTCATATTTTAAATCAAAATCAGTATTACTATATTTTTTATCAGTTCCTGTCCCTACATTTTTAATTCCTTCAAAATCTTGATTTAATAACTCATGAGATATTTTCACATTATATTTATCCATATCCATATCTATACTAAAATAATCAGTACTCTTATCACTATGAGTTCTATATTCTCCAGCAACTTCTCTCTTTAAGTTTATTATATAATTTATATTTTCATATTTACTTGTATAATTAATTCCATAATTAAATGCATCTAATTTTTTATAACCTCCTATTCCCATATAAAAAATATTACTATCTTTTTTAGTATTTGATAAATTTTTTACATTTTCAATTATATCATCAATATTTATTTCGTTTAAATCATCATTTACATTTAATGCCGTTTCTTTTGTTTCAGCTGTTAAATTTTCAATATCTACTTTTGTATCTATATTTAAATTTTTCAATTCTATATCTTTTATATCTATATCCTTTATACCATCTTTTAAATCTCTACCAACATTATAAACTTTTTTTAATTCTCCTTTTACCTCGGTTGATATATCATACTCATTATCTTTTGTTTCATTTGCAAATATAATACTACTTATCAATAAATATAATAATATTTTTTTATTCAAAATTCTTTCCTCCTTAATTAAAATATTCTTTATATTTAGAAGCATTTTCTTTGTTTAATTTTTTAAGCTCTATATAGTAGTTCTTTGCTACATTTAATTTTTTATTATTAATATAATAAACCATCAATTTTTCTACAACATATGGATAATCACTTCCATGTTTATATTTGTCATAATATTCTTTAAAGCTTAAAAGTGCTTTATTAAATTTACCATCTAACTCATAAAGTTCACCTAATTTAATCAATACTATATCTTGCAAGTTACTTTCTGTATAAATTAATTTTATTTTTAAAAATGCTGATATTGCCTTTAAATAATTATTTTCTAATTCATAAGATTCTCCTATTTTAAATAAGGCTTTATCTTTGTATTCACTTATTTCAAATGACAATACTTTTTCATAATATTCTCTTGCTTTTTCATAGTCATTATCATTAAAATAATAGTTTCCTATATAATAATTTGCAATATCTCCGTATTTTTTATCTTTTGTTATTTTTAAATATTCTTCAAATGCTTTTTTAGGTTGTTTTGCTTTATCATAAATAAATCCTTTATATAAAGTTTTGTAATTTTTATCTTTTAATAAATTATTCCATTTTAATGCATTTTGTATATCATTTTCAGCATAGTACAATTCCATTATTTTTTTAGCTGTTGTTTCTTTTTTTATTAAATCTGTTGTTTTTGAATATATCTCTTTATATTCTTTTATTGCAAGTTTATTTTCATTTTGTTTTAAATATATATTTGCTTTAATATAAGAAATATCATTTAAATATTCACTTTTTTTATAATTATCCTCAAACTCTTTTATTTTATTTAATGCTACATCAAAATTATTATTTATATATTCTATATTTATTAACCAATATTTAGAATTTTCTATATTTTTTTCATTTTTTGAATTCTTTATAACTTTTTCATAATATATTTTAGCATTTTTATAATTTTTTTCATTATAATATGTCTCTGCTATCATATAAGTAGCTAAGTCTTTATAATCATTATTTTTTTCTAATTCTTTATATATATTTCTAGCATTTTCATATTGATTCAATCTAAAATACGCAAGTGCTTTATTTTGCATAATAGTATTATAATCAAGTTTATATTGATTTTTTTCATATTCTTGTGCATACTTTATAACTTTTTCAAATTGCTTTGTTAATAAATATACTTCAACTAATTTTACATTTGCTCTTTCTTTTTCTTTTACAGAAGTTTCTTCCGATTTTATTAAAGATAAAAAAGCTTTTTCAGCTTCTTTAAAATTACTTAAACCTAAATTTGCTATTCCTCTTAAATATATATTCTCATCATCTATTTCTTCTTTATCTAAATAAATTAATAATTCTTTGTATTTTCCTCGTTTTAATAATACTGTGATTAAATTTTCTAAAATTACGCTATCATCTTGAATTTTTAAAAATTCTTTATAAACTTTTTCTCCTTTTTCTAATTCATTATTTTTTATATATATATTCCCTATTGTCAAGTATATTTCTTTTCTATACTTTCTATCATTAGAAAAATTTGAATTGTATTCATTATATAAATTTTCAAGTTCATCTAAATTTTCTAAACTAGAATTTATTAATACTAATTTATATAAATCTTCTAAATTTTTACTTTTTGTATAAATTTTATTATAATATTTTTTTGCTAAATTAAATTCTTTCAATACATAAGCAGATTCAGCTAAAAATATATCTAAATAATTTTCATACTTTACATTTCCATTACTGTCATATCCTTCTAATAATGTTAGTACTTCTTTATATTTTTTATCATTATATAATAGATATGCTGTATAGTATAAATATTCATAATGATATTTTGTATCTTTTAATTTTTTTAAACTTTCAATAGTTTCATTTTTTTTATTCTCATTAAGCAATACTAATGAATATTTTAATCTTATATCTTCATTTTCATTTTTTTCTAATACAAATCTATAGTATTTTTCTGCTTCAGCATATTCTTTTATATCATATTTATAATCAGCTAACAGTATATTAGCTAGCATTTCATATTTTGTACCTTTTAATTTTAATGCATAGTTTTCAAACTCTTTATAATCTTTTAACTCACGGTATATAAGCATTAAATCTCTAAGCGTCTCATTATAATAAACACTATTTTTATATTCATTTTCTATTTTCACATAATAATCAATAGCAGACATAACATCTTCTAATTCTTTATAAGATACTCCTAGCATGTAATAAGCTCTAGCTATATTATCTTTATCATTTTTTTCTAAACTAATGTACTCTTCTAAATAAACTGTTGCTTTTATATACTCTCCTTTATTATATGAAATTACTCCTAAGTTTAATAACCCCTGTTTTTTATTTTCTCCTTGTAATGATATCAATGATTTAAAATAAATTTCTGCTTCGTCTACTTTACCCTTTTTATATAAATATTGTGCTAAATTATATGTACTTATTTCTCTATATTTACTGTCTCTAGATATTTTTTTTAGTACTACTTTCGCATCTTCTTCTCTATCTTCATTAATATATATAACACTTAAATAATAATATGCTTTATCAGAAAATTCAGAATTTAAAATTTTTTTATAATTTTTTTCTGCATTTTCATAATCTTTTGTAATATAATAAGTGTTTCCTAGCATATATACTGCAGTTGAATAATATTTTGAATTTGGATATTTTAAAATAAAATTTTCTAATTCCATTAATGTTATTTCGTATTCTTTATTTTGATATAACTTTTGTATATATTTCATATCATCTAAATCAGATGATAAACTTTGAATATATAAAGAACTAAATAAAATTAATAATAATAATTTTTTCTTCATATAGCTATTACTCCTTTTCACTTATAGTTTTTATTACAGTTTCAATTTCTTCAACATTTACATTAGTATTTATGCAAGGCCCATTTTCTCTTGTATTAAATATTCCATAAACAAGAAGTGGAATTGAATCATAAATACCTGATATTAAATCTCTTTCACAAGCTACAGCTATTACTAATTTTGGTCTATGCTTTTTTAAGAATATTCTCGCTAAAGTTCCACCTGTAGCTACTTTTACACTAATACCATATTTTTTCTTTAATTTAATGATTTTATCTATTACACACTTTCCACACTCTTTACAATTTTCTATATCACTAGTTATTTTAAATGTACACTCATATGCTTGCAAACAATGTGGCAATAATAATGCTATTTCATTGCTTTTTATTTTTTTATTCTTAATTATTTTCATTACCCTTTTATTATTAAATTGAATAAATTTTTCTGATATATTAGAATTTGTATAATCCTCTTTTCTAATTTTTATGAAAATTAATATAATTATATAATATAAAGAATACAGTATTTTAATTAGAATAATATTAATTTTTTTCATTTTTATCACCCACTTTATTTTTTACACTAGTTTTATTCTACCATAATTAAACTCAATATTCTAGAGTTTAAAAAGAGAATTTTTTATTTTTAAAAAATATTATAAAGAATATTTATATAGTTGTGAAAAATAAGTTCAAATTACTAAATTATTAAATTATTTAATAGAAAAACTTATAAATTAAGTTTAAAAGAAATATTAAAAAACTATACAAAACAAAAATATGGCCGTGAAAAAAATTTCACGGCCATATTTTTAAAAAAAGAAAAATTTAATTCCAAATTTTAAATTTAAAGTTTTTAACGAAAGATAAGTTAACGCTGCTGCTGTCGTTATATCATATTTAGATTCTGAATAACTCGCTTCTAACATTATATCATAATATTCTATCCCCATTCCTATTTCATAAAAACTTACTCCTTTTAGAGTTACACTTCCTCCAGTTACACTATTTGTTACTAAAACCGGCCTTCCAACTGTTCCATAAAAATAAGGAATTATATTCAAATCCTCACCCTGGTCATTATACCCATATACATTTAATTTAAATGTACCATATGGACTAACATCTAATATTTTTAAGTCTTCTCCTAACGAGGACACTGTATTAGATATTCTAAATAAACTTGTTTTAGCACCTAATAAAAATTCTGTTGGCCCTCCTGTAGGAATAGAAAGTTCTGTATCAAATGCTAACTTTGATAAACTATCCGCTTTTTGAATAGCTGATGTTCCTGCAGTATCTACTGCAACATTTTGCATTATCGGATATCCCGCTTTAATGTTTATGTTTATTTTTGCAAAACTTATGCTTCCAATTAATAAAAAAAGTATTAATATTTTTTTCATTATTTTCACCTACTTTCTTAATATTCCTATATATTTATCGTCATTTTTTCTTTTTTTTTAATATCTATATAAAAAAAGCAGACTTGTAGCCTGCTTATAAAATTATTTTTTTAATTTAAAATAAACTCCTGCCAAAGGAGGAATATTTATTCTTATTGAATCATTTCTTCCGTGTATAGGAATTGGTTCTGAATAAACTCCACCTAAATTTCCAACATTTGATCCATAAAATATTTCTGAATCACTATTTAATATTTCTTCGTAATATCCTGATTCAGGAACTCCTATTCTATAATCATTTTGAACTGCTGGCGTAAAATTAAACGCACATATAATTTTTTCTCCGTCTTTAGATTTTCTAACAAATGAAATTATACAATTATCTGAGTCATTAAAATCTATCCATTCAAATCCTTCATAACTAAAATCTATTTCCCATAATGCTTTGTTTTCTTTATATACTTTATTTAATGTTTTTACAAATTCTAATAATTTTTTATGAGGTTCATATTGTAATAAATGCCAGTCTATACTTTGATTACAGTTCCATTCATTCCATTGACCAAATTCACTTCCCATAAAGAAAAGCTTTTTCCCTGGATGTGCATATGCATAAGAATAAAATAATCTCATATTTGCAAATTTTTGCCAATCATCACCAGGCATTTTATTAATTAAGCTTCCTTTTCCATGTACTACCTCATCATGAGATATAACTAATTTAAAGTTTTCAGAAAATGCATATATTAATGAAAAAGTTAAATCTCCTTGATGATATTTTCTATATATAGGATCTTTAGATATATATTCAAGCGAATCATTCATCCATCCCATATTCCACTTTAATGAAAATCCAAGTCCACCTAAATATGTAGGCTTTGTTACTGCTGGAAATGAAGTAGATTCTTCTGCTATTGTAAGTATCCCTGGATGATACTGATGTGTTATTGAATTAAAGTATTTCAAAAATTCAATTGCCTCTAAATTTTCTCTTCCACCAAATTGATTTGGTATCCATTCTCCATCTTTTCTAGAATAATCTAGATATAACATAGAAGCAACAGCATCTACCCTTAATCCATCTATATGATATTTATCCATCCAAAATAAAGCATTTGAAATCAAAAAGTTTTTAACTTCATTTCTTCCATAATTAAATATATATGTGCCCCAATCCATATGTTCACCTTGTTTAGGATCTTCATGTTCATATAATGCCGAACCATCAAATCTCCCTAATCCATGAGCATCTTTAGGAAAATGTCCTGGAACCCAGTCCATAATAACTCCTATTCCATTTTGATGCATAAGATCTACAAAATACATAAATTCATGTGGTTCTCCAAATCTACTAGTAACCGCATAATATCCTGTTACTTGATATCCCCATGATTCATCTAATGGATGTTCTGCTACTGGCATTACTTCTATATGTGTATAATTATTCTCTTTAACATATTCCATTATTTGATGTGCCAAGTCTTTATAATCTAAGAATTCATTTTCATTTTTTCTTTTCCAAGAGCCTAAATGCAATTCATATACTGATACTGGTCTTTCTAACCAATTAATTTTTGGCCTCTCATTCATCCATTTTTCATCTTTCCATTCGTGTTTATTTTCAATATCATAAACAATAGAAGCTGTTGATGGTCTTTTTTCTCCTTTAAACGCATATGGATCTGATTTTAAATTAATTGCTCCTGATTTTGTTTTCACTTCAAATTTATATATATCATTTTCACATACTTCAGGAATAAATATTTCCCATACTCCTGTGGCACCAAGAATTCTCATTGTATGAACTCTTCCATCCCAATTATTAAAATTCCCTACTACACTTACTCTTTGTGCTTCAGGTGCCCATACAGCAAATTGAGTTCCTTTCACTCCTTCATGAGTAATTACATGTGCTCCTAATTTTTCATATATTTTATGGTGATTTCCTTCATTAAATAAATATAAATCATAATCAGTAAGAACTGGTAAAAAAGAATAAGGATCTCTTGTTCTAAATGTATTTCCACTAAAATACTCATATTCTATCTCATATTTAAAAACTTTTTTTGAATCAAATACTTCTTCAAATAATCCTCTTTCATCTATTTTAGTAAGATATCTATCTTCTATATCAGAATAAAATCTCACTTTTTTTGCTTCTGGATTAAATACTCTTACAACAACTTGCTCTTCATTTAATTTATGCATTCCTAAAAATAAAAATGGATCTGCAAGTGATGCATTTACTATCCTTTCTATCTCTTCTTGTAATAATATTATATTTGTTTTACTTGACTGCATTTTCCTTCCCCCTTCATGTCGCCTTTAATCTCTTAATGCTAAAGGCATTGCTATATATATACTTTTTGGATTACTCACACTTTTTATTGTTACTGCACTTTTAGAATCGTATAATTTTATTTCTGTTTTTTCGTTTTTATCTAAAAATTGAAGATAATCTAATAAAAATTTTACATTAAGAGATATCAATAAATCTTCTCCTACTTTATTTATATCTACTTCATCAATAATTTTTGCTATATCTGATACTCCTTTTACAATCAATTTATTATCTTTAAATTTAAATATAGCACTATTTTTATTTTCATTATTATTTTTTACAAATACACTTACTCTTTTTAAAAGTGCTATAAATTTTTCTGTATCTACTAACACTTCTTTATTAGAATTAATATTTCTCAATATATTCCCATAATCTGGAAATGCTAAATCAACAAGCCGAGTTTGAAACACTTCTTTTTCAAACTTAAACGCTATTTGATTTTCATTTATTAAAATTTTAACAAAATCATCTGCTACTGATTTTAAAGTCTTAATAAGAGCTTCAACACTTAAAAGGGGTATACTTATTTTATATGATTCACCATATGCTTCGTCCAAATCATCTTCTAAATAAAGTAATCTATATGTATCTGAAGACACAAATTTTATTTTTCCTTCTTCAAATTCTAATCTAACACAATTAATTGCTGGATTTTCATTTGATGTCGCTGCAGCAATTTTAGATTTTTCAAACATTTCTTCTAATAACATCTTCGATACTTCGTACTCTTTTCCTTCTTTAAATTCTTTTAATTTTGGATATTCTGTTACATCAAAAAGAGAAAATTCTGATGATGAATCTTCTGTCTCAATAATTAATATATTATTTTCAACATATAAATTTATTTCTTCATCATTTATTTCTCTTAAATATTCATCTATTAAACTAGGTGAAAAAACTATTGCACCTTCTTCAAATATTTTACCAAACATAAAAGCACTAATTGTCATTTCCAAATTAGTTCCTTTTAAATATATTTTATTATTTATTGCTTCTAAATAAACTCCCGATAAAACCGGTCTTATTTTATTTTCGCTTACTGCTTTTTCTACTATTTTTAGTGCTTTTATAAATTTATTTCTATTTACAGTAATATTTAGCATTATTTCCTCCTAAAAATTAAAAACTATTTATAGCATTATCTAAATCATTATAGATTTCAAAAAATTTAGTAAGTCTTGTTAATTCAAATATTTTAGCTACACTAGGAGGTAAATTTAAAAGTTTTAATTGTCCTTCTTCTGTTTTTATTCTTTTTAATAAAGCAACTAATACTCCTAACCCTGAACTATCCATATATGTTACATTTTCTAAGTCAATTATTAGTTTATGACTACCATTATCTACTAAATTGTTAAGTTCTAATTTTAAATCAATAGAAGTATATACATCTATTTCACCTTGAATATCAATTTTTTTTATACTTTCATTTATATCTGTAGTTGTTATATTCATTAATTACCTCCTATTTTATACTTTAAAATTTATTTCAAATATATTTTTAATTTATCACTATACTTATCTCTTAGCTTTTGAAGCGTTTTCTTTTCTATTTGTCTTACTCTTTCTCTAGTAATATTAAATTTTCGCCCTACTTCCTCTAAAGTATGCATTTCATTACCTTCAAGTCCATATCTTAATATTATTATTTCTCTTTCTCTTGGCTTTAAAAATGATAATATTTTGTTTATTTCTTCTCTAGCAATTTGATTAATAATCTTTTCTTCTAGTGTTTCTTCATCATCATCACTTATAGTATCTTCTAAATAAATGTCTTCACCTATTACAGAATTTAAAGACATCATCTCTTGAAATTCTAGCATAACTTTTTCCACTTTTTCAATGCTTAATTCAGTTCCTTTTGAAATTTCTTGAATAGTAGGATAAGAACTATTTTTAGTGATATAATTCATTATAAATTTATTTACTTTATTTAATAAATCATGTTTATATGATGGAATTCTTATTTCTCTTCCTTTACTTATTATAGCTTTTGATATAGCTTGTTTTATCCACCATACAGCATAAGTGGAAAATCTATAGCCTCTATCAGGATCAAATCTTTCTATTGCATGAATAAGTCCAAAATTTCCTTCACTTATCAAATCTATAAAACTAAGTCCTTTTTTAGTATATGATTTTGCTATATTTACTACAAGTCTTAAATTGGATAATATAAGTTTTTGTTTTGCTTCTTTATCATTTTGCTGTGCTTTTTTTAAAAGTTCAAATTCCTCTTCTTTTGTAAGAATATCATATTTTCTTATATCTTTTAAATATAATGAAACTAAGTCTTTTTCTCTCTCCACTAGCTTTCACCACTTTTTCATTTGATTTCTAATAAAATTCTTCTTTTAAATCTCTCTCCATTAAAACTTTTGCTATTTTTAAAATGTTTTCATTTTCATATATTATTCTATATAGAGACTCTATTATTGGCATATCAATATTCTTATCTTTAGATATTTCATGTACAGCTTTTATAGTAGGTACTCCTTCTGCTACCATATTCATACCATTCAATATATCATCTATTTTTTTACCTTTCCCCAGTTCTTCTCCTACATATCTATTTCTACTGTGCTGACTTGTACAAGTAACTATTAGGTCCCCCATTCCCGCAAGACCTGAAAAAGTTTTCTCAAAAGCATTAAAATTTTTACTAAATCTTGATATTTCTGCAAGACCTCTAGTAATTACTGCTGCTTTTGTGTTATCTCCATAACCGAGACCATCTACTATTCCTGCAGCTATTGCTATACAATTTTTTAAAGCTCCTCCTAATTCAACTCCTGTTATATCTGTACTATAATACACTCTAAAATAATTATTACTAAATAATTCCTGTACTTTTTGTGCTTTTTCTTCTTCTCCAGCTGCTACAATTGTAGTAGGTAATTTTTTTACAACTTCCTCTGCATGAGTAGGCCCTGATAAAGCTACTATATTTTTATGATACTTTCCTAAAATTTCCTCTTTTATTACTTCAGAAAGTCTAAGTTTTGTAGAAACTTCTATTCCTTTTCCAGTATTTATAATAATAATATCCTCTGTCAATTGTGATGAAACAAGCTGAATAGCGTTTCTTAAATTTTGTGATGGTATAGAAAATAATAAATATTCTGCTCCATCTAATATATTTTCGATTTTATTTGTTATTGTTATATTATCTGGTAAATCAATACCGCCTAAATAATAGTTGTTTCTTCTAGTTTTTTGCATCTCTTTAGCTCTTTCTTCAAAAAATTCCCACAAAACAACTTCGTTTCCATTTTCTGCTAGTAAAAGAGCTAATGCTGTTCCCCAACTTCCTGCTCCCATTACAACTATCTTACTCATTTTCATCTCCTTAAAAATTAAATTTATTTTCATTATGATTAATTAATCTTTTTATATTAGCTTTATGTTTGTATATAACATACGCTCCTAATAATAAACTTAAAACTGATATTAATCTTTTATCACTAATCACTTTGTTTACAGGTAATAATAAAACTAATGTTGGTAATATTATCGCACTAATTATAGAGCCTAATGATATATATCTCGACAAATATACTATAATTATAAATATAATAATTGATATTAATGATTGGATTGGTGCTAAAAATATAAACATTCCAAAACTTGTAGCAACTCCTTTACCACCTTTAAATTTTGCAAATATAGAAAAAGTATGCCCGATAACACTTATAAAGCCTATTAATACTAAATAGTTATCTTTTATTCCAAAAGTAGATGCAAAAATTAATGGTAACATTCCTTTAAACATATCCATTAAAAATACTATAATACCGTATTTTCTTCCTAATACTCTATATGCATTTGTTGCACCGATATTTTTACTACCGTGCTCTCTAACATCAATATTTTGTATTTTACCTACAATTAATGCTGATGGTATGCTTCCTATTATATAAGACACAATTAAGAAAATAAAAAACTTCACGTTAACCTCCAAAATTAATAATTTTTTTCTTGTTCAATTATAACATGTAATTTTACATTTTAACAATATTTTTTTTTAAATATATAGAAAATATAAGCTTTTAAGAGAATTTATAAAAAAAATAAAAAGAGATAATAATCTCTTTTTATTTTTTAATTCTTTTTATACTATTCTTTTATTTTTTAATCTAACTACACATGAAGTATTTATTTTATATATAGATTTTCTAAAGCTAATTTCTCTATTCTAGTTAATATTTATTATTTCTTTTTAATCAATGCCACACACTCCACATGGCTCGAGAGGACTTATATAATGTCAACTCAACCCACTTTCGTTTAGGTAACATATTATAATAACTTCGACCGCTTTTCACTCTTATATTTACCATATTATGTAATTATTGTTGAAACTACCTAAGGCATATCGTTGATAGCCAAAAGGTTGTGGCGATAGGCTTGATGTCCTAATTAAAATTTATGTATTTAATTTAAAAATGTTATATAAGCCTATTTAATAAATTATTGGTATAAAATATATTTCTTATTTTATCCACATCATTTTTTCTTAAATTACCTGTATGTGCACCACTTTTTCTTAATTTATTGACACTATATAAATCTCCTAAGTACTGATTATAAGGACTAATTCTATTGTTTCTGATTGTATAAAGTACACCACCTAATGTTTTTGCATCACTAGGAACTCTAGACCCTAAAAGCACTCTTAATTGTTTTTCTACAACTTTACAGTATTCTACAACAATGGGTGCAAAATCAATAATGCTAAATTTATGGATTTCATACAGTGTTTCAGCAGTGATTAAAAATTCTTTTGCGACATTATTTAAATGCGCGAATGTTGAATTAACAAAGGTCTCTGCATTTCTATAAACAATGCTTTCTTTATTAATTATCTTAGACATCTCATTTAATATGTTTTCCATTTCTTTTTCATACTCTGTCCAGTCATCATCTTCATTGAGATTTAATTGCTCCGAATTATTTTGAAGTTGCATCAGTTTAAATGCCCAATTTCTAATAAAATTTTTTTGAGCACTAATGCACTTCTCTATTTCTGTAAGTTTCATTTTAATTTCTTTATGTTTTTCTAAGGTTACCTCGATTTCTGGCAATGTTTGATCCCATATCTCCCAATCACTCTTTTGGGGAAGTTTTTCTTTTGCAATTTCTAAATAAGCTTTTGCATTCTCATAATCTCTTAGTAAATTAAAAGATGATATTAAACCTTTTAATATTTCATATAATATCAGATCTAAACTATTGTTGGATGCAATGGAATACATTTTATATTTGTTAGTATCGTTAAACTTATAAACATTTTCCCCAGCATTTATATGTCCTAGACACAACTGATACATTTCAACTGCATCTTTGTATTTTTTCATTCTTTTATAAATATCGGCAACCACCAATAATGTAGTATCATCTTCTATTAAAAAAAGTGCCTTGTTTCCCCAACCTAGTGCTTCTTCAAAACGACCCTGACGTTTCAATAACTCTGCATAATTAGAAAAGTTTTGATTGCATGGATTTATTTTAATTAGATCCAATATTAATTTTTCTGCTTTTTCAAAATGCTTGTTCTCCATTAATGCAACAAAATAATTACCTCTTATCTGAGTTTTTTGTTTATCATCATTTGAAAGTTCTATCGCTTTGAGAAAGTAAGATATCGCATCTTCTTTTCTTTTAATTTCTGAATTTAGACATATCCAACCCAGGCTATTATATGTTGATGAATTAGGCCACTCTTCAATGCATCTTTTTCCCAATTCGTACGCTCTTATTGTATCATTTCCAATGCCAAGATAATACATAATCGCTACTCCGCACAGACCTGCATTCATGCCAAATTTATTGAACAACGTGTCCGTAATTTTATCTAATCCTTCTTTTATTGTTTGAGAGTAATTATCTCTATTTGCATACTCAATTGCATTCTGATATTCTTCAATAATTTGTATACTCATCGGACTAAAAATATTTGTGTCCTTATATTTACTTAAATATAAACAGGCATCTTGGTATTCTTTTAATTCCAAACATATACCATACATGTTTTTTAAGGCAGCTTGATTAGTGTCTTTTAATTCAAGTGCCTTATTACAGTATATTTTTGCATCTTTCAAGTCAGATAAATTATGATTTAAACAATAAAGTACTCGTTTTGCCAAAGCCATGTTCACATATGTACCGGTTATACAAGCATGTCTTGAATTTTTTGATACAATTCGCTTCCCGATCTCTAATATTGTATGACAATTTTTCTCATTTTTAAGTCCTCTTGTTAACTCCAATTGCTTGAGATATAATTCTTCTACATTTTGTTCAGATAATTTATTAATACAACATTTTTTATATTTTTTCCCACTGCCACAAGGACATGGGTCATTTCTCCCAATTTTCATCGTTCACCTTCATTCTACAGCTTTGTTTTTGGCAACTTTATATTAGTGTTACTACCAAGAATACTTGCCCCTATACCAATAACCGTAAAAACAGCCACTGCGCCTAATGAAATCATTTTCCAGTTAAATTCCTTGTTTTCTGTATCTTTACTTTCAGCCATTTTTGCAATTTCCATCATTTTCTCGATGTAATATTTTTTCTCATCAAAAGGTACATGATCTTTCGCCAGACAACTTTTCAAAGCATCCATCACTTCATTGTATATGTCATAGCACTGCTTACTACTCGCTGAATTTTCATCCAAAGTTTTTTCCATGACCCCTTTATAATCTTTCAATACCTCCAGAGTCATTTTTGCAAATTCCGGAAATTGCTCTAATGCTTTCTTAGCAACTTCTGGTTCCATATTCTGCAACATAGATGCAAAGGTCATCACTTTATCTTTTGTAATATGTCGAAAATCGGGAATATCCAATCGCTGCAGTACTTCTCGTTCTGTTAATTGATTAATCATCATTTTATCCTCCTATCCCAATAAAGCACGAATTCTTTCCGTAAGAATTGTCTTTCTCTTTTCATAGAACTCATCAAAATTCTCAAGTTCAAGTGAAATACCTTGTGGAATGAAAGACTGCTTGCAGAACTCTGCTTTTTGTTCATCATTCATATCATTGTAAAAATCAACAAGTCTCATATCGTTCTTGCTGCCATTGCTTCTTCCTTCCAAAAGATGCAGATTAGCCAGTCTATTACGGTTGCCTCTCCATCTTCGCCACTCTTCCATAGAAACGGATATCGGCTTACTACCGTCAAACCTATCGAAGGGATGTAGATGGTCTTGCTCATACTTGAAATTTTTATTTATCCAGTCTAAACTGAGATAATACAAGGCCTCCCCTGCAACTCTACTACCTTTTTCAGTATTAAGAATATCTTCAATTTTACCATCAGTGACTCTGAGATCATTCATCTGATTAAGCATATCAACAGTAATTTCATAGTCATTTTCGTTGATTCTACTCTTCATCTGCTGTAGTTTTCCTGTTGTACCAGATTGGAAATATGTAAAAAGAATTGCTCTAATCAAGTAAGCACGGATTCCATCAAGGTTATTTCCATAATCGGGGTTATAATAAATAAAGTAGAGTATAGGCAATAGGACGTTCCAGCTACTTGAAAAACGCCTAACTTCAATCTTCATTCCTTTTAGCACGGTTTCCAAATTCTTTAATGCCCTTTTAAATTCACTCCAATTGTTCTTAAGTTCCTCAGCTATTTGTTTGCTAATATTGGACTTTACAACATCACCATAAAGCATAAGAGCAGAACGGATAATAAAATCCGAGCCAAATCCGGCATAAGAATCTACGAGAAGTCTTCCAAATTCAGTTTTTGCACTTGGCCAGTATGCCTCAAGAATAGACATTGTTATTTCAGATTTTTTAAGAGCTTTTCCACCGCTATTGAATCTTACAAACATTTCCAAAGCATCATCCTGTTTCATATCATGTATTTCCGTAAACCGAATCAGCTTATCCACAAATATTTTATTGTACAGCTTATTCAAAATACCTCTTGCATACTCTTTACTATCTGACGGAACATTAGCAATGGCATCTTCGATAGCTTTATCCCTAGTTGTTTCATCTTGAAATCTAGAATCTAAGATACATTTAATTTCAAATTGAGTTGGACTTAGCTTTCCAACTTTTTCACTGAATTTAATGTCATATTTCTTGCTATTGTACTCTTCTTCATCAACCGTCAATTTATTCTTATTAAGTTCAATCAACAATTTTGTAACAATGCCACCTCCATTTTTTCTTCTTGCGTGCTTTTGGCGAATAAAAGCTTGACCTAATAAAGAAAGAAACAGTGAAGTTAATCTCTGCTGTCCATCAAGAACTGCTGTATTCGTAATCTTTACATCAATATTACTTAATTCATAATTCACGCTATCTGCTTGTTTTCTGCTGTCAAAAGTAACCTCAGACAAAAAATTGCAGAAATATGTGTCCCAAGTTACGTTGTTATCATCCACATGCCAAAATAAGAATGTTGCTATTGGATAATCCAAGAGAATTGAATCCCATAGTTTTTCTATCTGCTCCATATTCCAGACATACTGCCTTTGGAATGCAGGCATAACATATTTTCCATTTTTAATATTTTGTATAGCCTCATAGATACTTATGCTGTCATCAATTAACTCGCTCATTGTGATACCCACACATTATTCTTTAATATTTTCCACTTTTCCACATGACATTGTTCTTTCAGTACATGTAGTTTCAAAATTGTACATCAAGGCATAGATCCCTTCGTTCTTGAAAAACAATCTACCTTGAATTTTCACAACACTTAGTACGCACTTTGATACAATGTACTTGTCTTACTGTTATCTGATTTTTTTAAATTACAATCCTTACATGATAATTGGATGTTACAAACATCATTTAATCCGCCTTCATTCAATGACACAATATGGTCAAAATGTTTTTCATTATCTTCTAACAATGAATATAACCCTGTTAAATCCTTTTTGCAGAACACACAGCATCCTTTGTCCCTAAATAGAACTGCACGTTTTACCCATTCTGGTATATACACTCTTTTTCTTGGATTGTCTTCAAATGCAACCGCTTGTTGCTCATTAAATCTTAGTAAAAAATCTCTATTTTGAAACAAAATGTACTCCACTTCAGTGGCAATATCATAAAGAACATCATAAAATAAGCCATCCTCAAATTTATCAAGATATGATATGTATTCATTATATGTTTCTAAAAAATCCTCATAATCAATTGTAAAATCATTGTTTATCGAAACATTTATTCCTTTATATTTCAAAATAGCCTGGTTAATCCAATTAATAGGATTAAAATCTGCGACTTCTCCTGAATTTGATATGGAATTTGCCTGCTCGTAAAAAACTCTATCAATAAGCCATGAGCAATACTCTCTTAATACTGATACTTTAGGAAAGTCCTCTGGTTCTATTTCAAACTGTCGTTCTGTAAATTCAGCATTTGTTCTAGCATAGTTAAACTCTCCCATACTTTCATTTGCAAGATGGCAAAAATAATACACATTAAAGAACTTCATATCAATAGTCATTTCTATTCCTCCAAATTATAAAAACTTGATTTATATTTCATGAGCGTTTCTTCAACTTCACTCCAAATCCATACGTTATTGCCATCATCCTCAAACACCTTTCCATGACTTTTAGGACCATCAATTTTCATCTGGGAATAATTATTCTTGAAAGTTGGAACATATAATTCTGGATGTTCTTTATCACTGCACAATTGCTCCATCATTGTAATAGTGGCTTGTCCTGCAATATTAACTGCTTCAAAATATGCTCTGATAATTTTATGATTATACTGAGTAGGTTTTAATGCCCAAACAGGTATACGCTGAATAGCCTTTCCATAATAATCATTACTTTCATTTGCAATTTTCTTTGTTGCTACTTTCGGATTATAATCTTGAGATGCCTTTTCAAACGTCTTGGCAATATACCATCTCATGGAAGTTTCTATCGCATCATTTTCCTTATCTTTTGTTAGATTCACCGCAAGACAAAACTTTTCATATACATCTTCATCTATGGAAATATTAATATTTCTATTCATTGGTTATACCTCCGTACACTAATTTACTGTTTCTAGTATAATGCAGAAATTAGTATTAGTCAATACTAATAGACTAATTTGTATTTACTAATTACAAAAATCAGAAAAACACCTTGCCAAATTATAACTATCCAACAAGGTGTTTTATCTCTTATTTGCTATTAACATCTACATCTCCACATCAAGCTCCATTCCTGATTTGAACTCAACTGTAAGTTTTTCATCATAGACCGTAATCTTTTCTATCAATTTACGTACTATATGCTCATCGTATTCCTTACCAATACTTTTCTGATTTTTAAGAAATTTTGTCATTTCAGTCATTCTTTGTTTTTGACTTGCGAATCCAGCATTTTTAACCATAGCTGTTTCCTTCTCATCTCGAAGTCTGTAAATTTCATTTGCAAGAATAGAATAATCCTGATTGTTATTTGCTTGCTTAAGCAGTTCCTTTTGCAACTGTTCCAATTTTTGATTTATCAGTTCTATTTCACTGCTATCAATTTGATTCATAACCACTGAAATATTTCGATTCAAAATATCCATAAATTGTGTTTTTGATTCAAACACTTTATTGACTGCCTGCACCACTGCACTTTTCAAATCTTCTTCTCGTATAGTTCGTGCCAAACAATCCGCTGCTGTTTTGTCAAGTCTGCTAGCACATCGCCAAACAATGGATTTACAGCCATGGTTATTCCAATGGACTCTTCTAAATATATCGCCACAGCGTCCACAAATTACTATAGTGGAAAGAGCATATTTACTACTATAAACCCTCTTTTTTCCACTTTTCCCACTGTGGATATTTTTTCTACGTTCCATTTCTTCTTGAACCTGCAGATATAAATCACGTGGTATGATAGGTTCATGGTTGTTTTCCACATAATACTGAGGAACAATACCATCATTTTTTACTCGTTTTTTAGTAAGAAAGTCCACTGTATAGGTTTTTTGCAAAAGAGCATCTCCGATATATTTTTCATTTTGTAATATCTTTTTGATAGTTTCGGATCGCCATTTTTCTTTCCCTGCAGATGTCAAAATATTGTCTGCCATTAAACCCCTTGCTATTTCAATTAAGCTTGCCCCTTCTAAATACTCACGATAAATCCTTTTTACAACCTCAGCACCTTTCGGCTCTATAATTAAATGGCCTTCCTCATCTTTAGTATATCCGAGAAATCTATTGTGGTTAACTTGGACAATGCCTTGTTGATACCGATATTGCAACCCAAGCTTTACGTTCTGACTCAATGACTGGCTCTCCTGTTGGGCAAGGGATGCCATAATTGTAAGTAGTACCTCTCCCTTAGCATCCATTGTGTTTATAGACTCTTTTTCAAAAAATACAGGGATATTCTTATCTTTAAGTTGACGGATATATCTCAAACAATCAAGAGTATTTCGTGCAAATCGACTGATAGATTTAGTCACTATCATATCAATGTTTCCCGCCATACACTCATCAATCATGCGATTAAACTCTTCACGCTTTTTAGTATTAGTACCACTTATTCCATCATCGGCATAAATTCCTGCAAGTTTCCATTCTGGATTCTTATTAATCAGTTCTGTATAATGCTCTATCTGTGCCTCGTAACTAGTAGCCTGCTCATCACTTTCCGTAGAAACACGACAGTAAGCAGCTACTCTCAATTTGGGTATCTGTACTTCTGATGCGGTGTTTCCAACTCTTGCTTTAGCAGGAATAACTGTTATGTTTCTTACTGCCATTTCAACTCATCTCACTTTCTATTAGGCTATAAGCAAATTCAGCCTGTTTATAGGGGTCTTGAAATTTAATCTCTAACGGTTTCATCCAAAACTTTGGCGGGGCAGGAGGTACATCCAGTGCAGGTGGCTCATTTGCAGTTTCCTCTTTAACTCTCCCCAATGCCACTGCTCTTCTATGGCGCTCTTTCTGAACAGTTTCAAATGTATCTCTTTCAATAATAGAAGGATAATACTTTGTCCCAGTATACTTTTTATTTTCAAGTATTCTTGATACTGTTCCATGCCATGTATTGATACCTGCTTTGGCAGCTGCATTTTGCAAACTATCACCAGACAAATAATTTTCATACAGTTGTCTAACCTGCTTAGCACAAACTTCATCAATTACGGCCTTACCATCTTTAATTATATAACCATAAGGTATGTGTGCTGCCACTTAATTCACCATCCTTTCTCTCAGAGTAATTCCACATTTCATGCAAAAACCGATTTCATTTCTAGAATACACAACGATATTCTCTACAAATCGTTCAAAGAGGGTATCTTCAAATTCTCTAATCTCTGGCTTTTTAACAATATAATGAATAAGGGTATCCAATTCTAAACGCTGTTTTTGATTTCCTGTGGCTGAATTTTCAAGCCTTTTTTTCTCTTGTGCCAGCATTTCTGCCTCTGCCGCTATGTCCGACAACTCTTTAGTAAAAAAGGTCGCATCCAAAAATCCTTTTCCCACAAGTTCTGTTATAACACGCTTACGGTCTGTATTTTTTACTATGCGTTCATCTAAATTGGCAAGTGCTGTAATTCTTTCTTCACCGTTCATTGTTTTTAACGCAGCCTGCAAAGGTTTCAGCACTACCTTATACCCATATATCAGCTTATTCATCATGAGCACAAAAGCTTTATGAATTTCATCATCTCTGATATATTTCATTGTACATTTATCTTTATGTTCAATATGAGTTTGACAAGTCCAAGCAATGTAGGACCCCTTAGCTGTATAATGCGTTCTCCTTTTAAAATGGCTCCCACAGTTTCCACATATGATTTTTCCAGACAAAACATATCTGTTTAAATATTTTGAACTGCCTTTTTTTACGCTTTTCTCACTACCACGTTGTCTAATAACCGCCTGAACCCTATCAAAGTCCTTGTGGTTTATAATAGCCTCATGATGGTTGGTTACAAGATACTGTTCCTGTTGACCAGAATTTATATGACGATTAAATTGACTGTCTGTATATGTCTTTTGAAAAAGAGCATCTCCAGTGTATTTTTCATTGGATAATATTCCTCTAACAGATGTTCCAGTCCATTTTCCACCTTTTTTTGTTGGTGTATTACTTTCATTTAATTCTCTGGCAATGGTATAGCAACCTTTACCAGCTAGAGCCTCTCTAAAAATGCCCCTTACTATTTCTGCTTTTTCTGGGATAACTTCCATTTTTCCATCAATATTAGCATAGCCATACGGAGGGTAAGAAATTTTAAATGTACCTTTCTTAAAACGTGATTGTACACTCCACTTGCTATTTTGTGAGATGGATGTGGATTCATCTTGTGCCATACTGCTTAAAATAGAAAGAATTAATTCGCTTTCCATCGATTGCGTATTTAGGTTTTCCTTCTCGAAATATAAGAATATCCCAAGACCTATCAGTTTTCGAACCATTTCCAAGCAATCCAATGTATTCCTTGCAAACCTGCTGATTGATTTGGTAATAATAAAATCAATTTGTTTTAATTCACAAGCAGTAAGCATTGCCTTTAATCCTTTACGCTTTTCTTTCTTGGTACCTGTAATACCCTCATCATAATATAACCCAACAAACTCCCAATCTGGATGAGCCTTTATATATTTCTCATAATGTTCCTTTTGAGCATTTAGGCTCTCAAGTTGTTCTTCACTTGTTGTTGATACTCGACAATAAGCTGCAACTCGTAATTTTCTCTGAACAAGGGAAGAAACAGATGCTGGTTCAATTTTTGTTACTTTCTTCACAGTTTTCACCTCCTTTTCAGTGTCACATATTACCTCTTAAACCTTTATATATCAACGATTACAAGGCATTATCTCGACTAAACTTGGGGAGAAATACTTGCGATTCAATTCAGTTATTTTGTTTAATTCATCCTCAGTAATAAGGCCTTTTTCAAACATCCTTTTTGTTATTTGATCTGCTCTAATATAGTCATATTCCCGTTGTAACTGTTCATTTGATTTTTTCTTTACTTTACTTGATAATCTATAGTTACCATCTATCTTTGTTACGTTCATATAAAAACACCTCCTACCTGGTAGCCGTGGTAAGAGGTGAAATCTGACGTTTTTATAAAATTACATTAATCTTTTTGATAGAAATCACAAGTGTAGCCATCAGCTCGAAGGAGCAAGCCTTTTGCCCAGTGAGGGACTCTACCCATCTGTTCACATACAACAAGGGATAGGTTTGAATCAGCCTCTATGATAATTTCATCATGTACATGAGCAACAATTGAACAATCCCTAAGTGTTTGCATCGCATAAACTAAAATATCACGGGAAGAACCCTGAACGATGTTTTCCACAAATTTTGGACCATAGCTTTCTAAACGCTCCCATTTTTTTGTTCCACCAACACCTTCATAGGTAACTGATTCACCACCAAACCTATTCTCTCCAATACGTGGTTTGACATAGGCAAGTTTTCTTCCAGAAGGTAGTACTATAAATAACATTCCACTTTGATAAAAGAACTTTATCCCATGAGTTTCTTTCGGCTGCCTCTCCTTAATGCACTTCTTAACGGCATTATCAACATCCCACCAGAGCCTTACAATATTTGGATTGGTTTGTCTCCATGCATCAACAAGTGGCCTAAGTTCTTCTTCATCAAGTCCCATTTCTAATGCACCCATGGATTTTAATGCACCAACTGATCCACCATAGCCAAGTGCCAATTCTGCAATTTTACCTTTCTGCCTTAGATGCCCATTAACACCATGCTTTTGGACAGGAACTTTGAACATCTGACTTGCTGATGCACAATAGATATCACCACCACTTGCAAAAACATCTGCTCGCCACTGTTCTCCTGCAAACCATGCTATCACACGAGCCTCAATTGCAGAAAAGTCAGCTACTATAAACCGTGTCCCTTCTTTTGGTACAAAAGCTGTGCGGATAAGCTGTGATAAAGTATCTGGGATGTCTTCATATAACATATCAATGGCATTGTAGTTGCCACTTTTTACAAGCGCACGAGCCTCGCTAAGGTCTGACATATGATTCTGTGGTAAATTCTGCAACTGCACAAGCCTTCCAGCAAAGCGCCCCGTCCTGTTTGCACCATAAAATTGGAACATACCTCTGACACGATTATCCCTACACATTGCATTTTCCATTGCTGTATATTTCTTTACAGATGATTTGGCAAGTTGCTGTCTAAGTTTAAGTACTTTTACTAAACGTTCTGGAGCATCCTCTATAAGTTTTGCTACTGCTTTTTTACCAAGAGTATCTGTTTTAAGTCCATTTTCCAAAAGCCACTGTTTCATCTGTTGGACAGAATTTGGATTTTCAAGTTTGGTTAGTTCCTGCATAACTGTCATAAGCTTGTCATGAGAAATCTTATCCGCTGCAATTGCCTGTTTTACAAACACCTTATCTACTTTAATACCACGATCATTTATCTCCTGGTCAAGGTGATATTCATCCCATACACTATCTGGCACAGGGAATTTAGAAAGCCTCTGTTGAATTTGCATTTCAGTTTCTACATCTCTTTTGTTATATGTTTTAAAACGCTTCCATTTTTCTATATCATGCTTTGGAAGATTACGAGTACGTCCGCCATTTCTCTTAGTAGGATTACATGGAACACAAAAATATCGAATTAGGTCTTTGCCTTCAGTAAGTTTCTGCTTTTCAAGTCCAAGAACAGCTCCTACACCTACCAACGATAAAGGAAGTCCCATATAGGCGGACCACACCATTGAACATTTCCATGATGCAGGATTTAAATATCTCTTAGGTTCTGTTGAAAGGGGATTTAAACTTATTCCTAAATCAGATAAAAACCTTGAAATACAAATTCGCTCAAACTGAGCATTGAATGCCCATTTAGTAACAGCATCATCAGTTAAAGCATTAAGTACTTCAGCAGGAATTGTTTCTCCATTAGCAATATCTATTACATTTACCTTGCCACCATCGATTGAATATCCAAACAGTAGTATTTCAAAATCACTTGCCTCCGCATAACGATAAACACCGCTTTTGGCAAGATTCACTGAAGAATATGTTTCAATATCTATTTCTAAATTCTTCATTACGCACCTCTCTTCCTAAAAAAAAAATAAGGTGGCAAAGGGTATTCCTCCACCACCTGTAAGTAAGTATTCTTATTAAGCAAGAAAGTCATCATCCTCAAGAGTTGTGAAATCATCTGCTGCAGAAGTTTTTCCTCCGAGAGGTTCTCCGTCCTTAATTTTCTGGATATTACCAAGTCCACAGGCAACACCCTTATTGCCATTAGAATTGAAGGCATAAAAATTTAGAGATACTCTAGAATAACACCCACTATACACTTCAGAACGATCCAAGATAGGCTTTACGGCTTTGTCTACAATTTGAGGTGCTGTCATGCTATTAGCATTGATAAAATAGTGCCCCTTGTAAGCTTCATCATCACGCTCAACATCTCCATTACGGAGCGGAAGTTTTATAGCAGCCTTATTTGGTTTCTTACCACCAAACTTAGCAATACCTTCTTCGATTGCTGCATCAACAGCTGCATTGACTGCATTAATCGTTTCCTTATCATCCTTTGGAATAAGAACAGATACACTATATTTTTCAGCACCACCGTTAATAGATACTGGCTCCCATCCATGAAAATAAGAAAGTCTTGTGTTTATACCTGTGATAACCTTTGTCCTATTAATATTATTAGCCATTTTACATTTCCTCCTTGTATTTGTTAAATTCGTTTATGGCATTTGTTACGTTATAAGTCTTACGCTTATCTGAGTTTGGAACAAGTGTAGGCTTTCCTGGTGGCTTGTAAATAAGGTCACCAAGAATTTTCTCAAATTTGGTTTTACCCATTAATTTCTGCATCTGTGTCAATGGAATAAGTGACTTTCGATAAATGTCCTTATATCCATTTGCCATTGCCTTTTCTGCTACAGCATCTTCATCCTTATACTTACGAACCGAACGTCCTTCCACAACTTTAAAGCCGTACCACTCTTTCCCATGGTTAACTGCTGCATCTAAAGCATACGCTGTAATTTTATTTGCCCATTTTGTAAGGTCAGGAAGAATAGCAAGAATTTCTTCTATCTCTGCATCTGTAAGCAATGGTGGAAGTTTAAACTCTGATTGTGCTAATTTTAACTTTTCTTCGGCTCTAGCCCTGCAACGAACAGCTGCCCTACAAAAAGTACACCACTCGCCAGGTACATATTCACCTTCTCCGTTATAGACCATAATAGCTTTTGGTTTTAGTTCATTTTCTGCCCAAGTTTTTAGCTCATCAACAGCAATAGTCCAAGTGCTGACATTCTCACGTCTTGGCTGGAAGATGGTCATTGCCACTTCCTTTATATCATAAAGGCTATCATAGATTTCAAGCGCACCCAAAGCATATAATTTCATCTGAGGATTGTCTTCTGCATCAACAAGAACCCCCATACCGTATTTAAAATCAATTATATGCAATTTATCATCAGCAATTATGATACAGTCTCCTGTGCCAAATCCATCTGGTACATAGCATGAGAAATCAAGATGCTGTTCAATAAGAACAATAGGGTCTTTGCATACTTGCTTTGCCATTTCATACTGTTCCATAACAAAATCCACATACGTATCAGTGTATTTTTCCATGTCATTATCGTCATATTCTGAAACAGGGCGCTTACTCTTCATATGGAGTGCTTTCTTTAATTTATGCTCACACAATTCATGAGCTGCCGTTCCTTCCTTTGCGGCCTCAGAACTTTTATTTTCAAATTCTAGTTCAAGCCTTGCTGACGGTAGACAATTTAGCCACCTGTGTGAAGCGGATGCAGATAGAACTGCGTGATTATTCATTGCCTAATTCCTCCGCTGATTTTAAGATTTTAGCATAGTGCTTTGGATCAACTTCACTTAAACGGTTGACACCATACTTTTGAATAATTGCTCTTACTTCTGATGTAAACCCAATCTGGCTCTTTTGGGCAAGCACACCACGTACTTCTTCAAGTGTTAATTTTGTTTCTTTCGTTGGCTTTGTTTCTGTGGTTAATTTAGTAGATTCTGCAGATTCATCAGTACCCATTGCATCACAAACTGCTTGTATGCTATCTGCAAGTGAACGCATATCACCAACCACATCAAGCAGTAACTTGATTTTGCTCATCATCGGTTCCTCCTTTCTTAGTTTCACAAATGGCAAGTTCCTCGATGCTATCTCCTGGAACAAGAATAGTTACTCGTTGTTTATTTCCAAAGAGAAAACAAAGTATCTTTTCCCTAATGCTGACATTACGGCAAGTAACAATTCCGCCTGTTTGTGGTTCTTTTGAAACACTTATCTTCAAATTGTGTTTCATAACTTTCACCTCTTTCTGAGAGCGTTTAATTTGTTGCCCTCTACTTAGTAGCCTTAAGAGAAAGAGAAATCTGACGTTTTTAGAAAAAAGATAAAAAAATAATGCCCTCAGAAGTTTTAAACCTCCAAGGGCATACGTTTTAGTTAGGGATTTTCAATATTTGACCGCTGTAAATAGTATTAGATGTAAGATTGTTAAGCGCCTTAATTTCTGTATAGCGTATACCGCTGCCCAGCAGTTTATGTGCAATGGTCCACAGTGAATCTCCTTTAACAACTGTATATTCTCTGTAGGTTATGTTTTTAGAAATTGGATAAATGCGTACACCACTATCAGAAAAGACCTGATATCCAGGATTTTTATCTGCCTGTGCCTTGGCATTAACAAGTACTCGGTATGCTCCAAGCTGTGACTTCTTATCTTCCCAAGTTTTACGAACACGATAATAACCTGTGGACAACTTTTCGGGATAACTGCCTTTAGTATCCCCGATTGAAACAGATAAATTTTTATTTTCCATTTTCTCCTTAACAGCAGCACGAAAAGTGTCCATTGTATAGCCAATATTAAGTTGATTCCATAAATGTTCTGGATCTGCATGATTTGATGCAACTCCACGTTTATGTCCTTCCGAGTGGGAAATAATCACACCATCTGCAAGGGGGTCTAGATTAAACTTCTCACACAAATATGCAAAAAGCTCTACAGCAGCATTATATGTTCTCGTTGCTACCTCTTTTGCCATAGCCATATCAGAGCAAATGAATGTAGCGCCACCAGTATATTTAATACAGTCTGGCTCACACATTTCAATACCAATATGAGTGTTATTTGCCGCTGCACCAGAGTGCCAACCTCTATGATTCCACGGCAAAGTCTGATAAATCGTACCATCATTTCCATCAATAAAGCCATGCACACAGGCTCTATTATAGCTTTCACTATTCCAATTTTTAATAAATACAGCTGCACTCGGCTGAGGACAACCAACTGAATGCAGCATCAAACCTTTAATGGTTATCGTTTTCCCTGCAACATAACATGGATTTTTTGTCAAAATATTTTTAACTAACTTCATTCATTTTCACCGCCTTTGTTATGTAACTGCTCTAAAACTTCTTTCAATTTCTCGGGAATTGGAAGCCCAATATGTGCAGCATTTTCTAATAGAGAGATACCTTCATTGGACAAATAGAAAAAAATGACGGCAGTTCTTACAGCATTTCCTTCTCCAAGCACATAATTGTCCAATATATTCCCAATACCCACCAAAGTGAAAATAAGCACTTTAAGGCAAATTCCTTTGAAACCCACTTCACTTGATAGTTTCTTATCTACAATGGCACACATAACACCTGTAAGATAGTCAATGACCACAAAAGCAATCAGTGCATATAGAAACCCATCTACACCTCCCAAGAACCAACCAAGAAATCCGCCGACCGCCGTAAATACGGCTTGAATAACACTCCAAATCTGTTTCATAAACTCATATCCTCCTTTAAAATCTGTATTAAAAAAGCACCTGCTTTTGCAGATGCCTGTAACACCATTATGTTTGTTTTGGCAACCATTCCCACAACCTCATATCTTCTTGACCGAGTGACCATATACACATTCCTCGTAACTTCCATCGGTATGCCGCCTCGTTTGCCCAATATACAAGACTATCTACATCTTGGTAGTAAAGAATGGAAAAACCATCAGCATCACCCAAGAAAATTCTTGATATCCAAATATTGATATCCCTCGGCACAATCCTTGCTGTGTAATCATTACCACAAGCAACAGAAGTCATTATGTCTGAATGAAAGAAATCATAATCAAGAGAAATATCCTCAGTTCTAGTTGATGGCTCTTCTATATCCGATGTGAGAGTAAATACCTTAAATTTATTATCCCATATGCAGTGACTACGAGATATTCTGCCATAGCTTTTAAAGCTACCATCTGGCATATAAACATCAAACTGTTCATATGGTTCATAAGTCCATGCATCACCTAATCTTAAAAGCTGACAATTAACGTTACTATCTGAACGAATACCAGCATAACCGCTGCCACTGCTAACTGTAGCTGTAAAACGCAAAGTATGAGATGCAGACGAATACACCCTCACTGTATTCCCACGTTTACGCATTTCAAGTGTATACACATTTGGATTAGAACGAAGATCTTCATCAGTAGTTTTGGAAAAGCTAGTAAAATAACTTCCTTTAAGTGTAGCACCTTCATACAATTCAATTGCTTGTGTACCATAGTTAAAGCAACAAAATAAGTTCCCAAGAAAAATGCCAGCCTTACCACTGAAATTTTCTGGAAATATTATCTGTGCTCGTAAATGTATATCAGAAAAACTGTTATAGTTCCAAGCAAGCTCGCCGTATCCTTCTAATTGTGAGTACGGCCTTGTTTCAATACTACTCCCATCCTGCCAGACACTCCATTGTCCAGATAGAGTTGTCCAATAGCTCTCAGGTAACGGAGTATCATCTCTAAAATCCTCATACCAAACAAGCGCTGAATCTGGCTTTCTTCGCAACATTTCAAGCGTCAGTTTAAAACCTGTGGCAGGGCCTACCATATCACCATTTACATCTTTAAATTGTCTGGGTGCAAGTCTATATGTAGCCTCTCCAACTGTAGGTTCTTCACTAAATGAAGAACAAACTTTAAAGCCATAAAACTGCACACCATTTACTCCAACAGAAATGGTAATTGTATGAGTCCCCACTGATAGAGAAACACCGCTTGCAAGAGTTGTCCAAAAGGTAGTCCTCCAATATGGCCACCATAGTCGGCTCTCAGAAAAATGCACAATATCACCATCAAGAGATACATAAATGCTGTTTTTATCCCAAAAAGGATAGCAAAGCTGTATTGCTATATCATAAGTACCAGATTGTGATACCGAAAAATTATATGTAGCCTCACCTTCATCACCAAGGGTAGTCATCGTCTCAGATACAGAAACAACACCTAAATAGCTGTCTGGCATAGCATCGTGGTCAATATAAATTGTTCCAAATTCTGTATGCTGTTGTTTACTATATGCTGTTAGATAATGCCTTCCGTTATATGTTTCCTGCATTTGAGGATATTCATAACTTATAGCGTCCCTTCCTTCCATATAATCATAAACATGAGGTAATGCCCATGGCACTTTATTATTATCATCCCAATAAGCTACTATAGGAATAAAAGGTTGTGGAGGTGCATCATCTGTAAAATTATATATTCCAGTCATCCAGTATTTTGCCGCATAGTAAGTATTAGAAGTTCCTCGATAAGTCCTACCGAGATTTTCGGGTGTATCATGAATTCGCCAATTCCATCCATATGCAGGCATTCCAAAAAATATTTTCTCTGGGTTTATAACAGTAACCGCATAATCATATATACCCTCAAGCCAACTGCGGGGAGAAACAGGCCCAGGAGCAGATCCAGCCCATGCCATTCCATAACTCATAATAGAAACCGTATCACAATAATTGTTTAAATCAGCATAAACGCACCAGTTTTCACCACCAACTGAACCGTTGACGCTTGTCATTCCAGGAAGGCAGATATTCATGAGTTTCGTTGAATCATATGCTTTTACTGTATTGTATATATTACAAAACATTGCTGTTGATGCTGCGTGTGTGGAATAATCATCACCCTTTTCAAGGTCGATATCAATACCACTACACCACGGATACTTCTCCATGATTCGGACGATTTCAGAAAGAAACATATCCTGTGCACCATTTGTATTATCTCGCAGTGCCTTGAAGATACTGTTGGTACCATCATTTGATATAGTAAGTAACCATTTGATATGAGGATATTGATTAATATAGGTAAGCATACTGCTGATACTTACTCCAATTTCATATATTTCACCAGTGGCTCTGACCTTAAATGAAAAAAGTCCAACAGTGTCAATGCGGTCACCGTAACTTTGAAGTGCTTGATACATTCTAGTATTGCCCATAAATGTCCACACCATGATTCTTTTACCTTTTAGTTTGTCTATCAAAATGGCTCACCTCCATCCTGCATTTCTTGCATATAAAATAGCACTCTCGCTGTTTTACCTTGTTCAAGGGTTACCTTATGTTTTGAATCCCAAGCAGCACTATATTGATAAAAGCCATCTTTTGGTTCACTGACATCATTTTTTGTACACCCACTTGTAGACGCCAGAAGTGCCAAGTCAGCATCCTTTGCAATTGAATTTGGGAAAGATACCTTCTGACCGCTAACACCTTGACACAACTTAACTGAACCTTCTTTCATATCAGACTTTGGATAAATATGAATATCAAGACCAGCTGATGTTTCTCCAACATTAAATAAAATGATTGTTTCCTCAGACCTCACCACACCGTTAAACCAAACAGGTGATTTGATATCGCCGTCTTCACGGAATTTTAAAAGTCTGCTCTCTGTATGTGGAGTATAACCGTTAAGTACTGGTCCTTCTTGAAGCTGAAGATCAGTAAACCATATTGTTCCAGTGCAATTGTTTATGGTAGGTTTAATAATTACACTAACAACTCTTTTATTTTGCTTTTTGTTAATCACTTCTGCTAATCGAATAAAAGAAGTTTTAGCCATCTAACGTCCACCTTATTTCACACGGATGACCTACCCATCCAGTAGCAACAGATCCTGCTTGTAAAAACAAATCAGTAATATAAAATGTGCCTGTGCAATTAGTTATACAGACACAAATGGTAATGGACTTAACTTTTGAATAGTAACTTTGAGGAGTTATCTTTTCTGTTGTTCTTGAAAAATATGCCACAAGTCCACCCCCTAATACAAATCAATAAATCGTGTTTCCGTAGTTCCATCTTCATATTTAATAACCACTTCAAAACCTACCTGTGAATCATCACTTAACTTTTCTAAATCTTCAGAGGCAATCTGAGCAGATAACGTGTAGCTTGACCGATTCGCAGGATAAACTGTCTGTGACATACTTTTCGTCATACCTGCCACTCCTGTTGCTTTAAAAGATCCTGTGCCACTTACACCATTATCACTATCAGCCTCAAAACCTGAGTTTACCCAATATGCCATACCATCATCTGCACGAGAATTTCGAAGTAGATTAAAAGGCACCATTTCACGGATATCATTATTGGTAACCATGCTCGTACCCTCTAAAGAATCGGCTAGATTATCCCATTGACTTGCAGAACTACCAAGATTCTTAAGCGTAGTAGAAAGTTCAAGTACTGTATTCCACGGCTCTTGCAAATTATATTCTCTGCGAACAACACGAGTTGTAACAGAAAGTCCTAAGTCTTTATCTTCAACATGAACATAATCCCCAAGTGACCAAGACTCATGTTCATATCCTGTAAGAACAGATAAGTCCATGGCATTAAGAACATAGGAAATAGATGGTTTACAGTACTCAGCAAGTCGCATTTCGGCATACTCTTTCATTTGATAAGGATTGGTAAATGAGGAACAATCCAACGTAGTAATACGAATATCAGATGAATAGGTATAATTCTCAATATAAGGTTTGCCATTATTTATATCAGCAAAAGTTAGACCATCCGCACCAATAGCATAGAGCCTTGTTACAAGACTTCTCGTATCTACCACACGTTTAATGCTTTTCATATTTTTCTTATATGCAAACAAGGCACCACTATCCTTACCATTTATACTCAGAAGATGTACCAGCCTGTTTGGACAGTCAAAAACAAGGTCACCGCCGTGAAAATCTGCTATGCTGCGAAGAATTGAAAGAGCATTTTTTTCTGTACTGGTCCAAGTTCTCTTTGTCTTAACATTAACTGTACCAACATTCCACTCTGTGCCTTCAAGTGCATATGCCATGGCAACCTCTGCTGTTTCTGCATCAAATTTGTATTCCTCTTTTCTAACTGAAAAAGTGAGATCATAAAACTCTGCTTCTGCATACACCTCTGTTGCAAGATTACCTTCACTATCCTTTATATCCGTAATAGTACGAACTTTATAAATATCATCGACAATTTGTATTTTCTTTTCGCTGTCAATATATTTTCTCTTTGTGTCACGATATGGAATGTTAAAAGAAAGTGTATCTTCACCATTAATTTCGCTTGTAACCACAATATTGTATGCATTTTCAAGAACAGCTTCCCATGCTCCGTTACTATCAAGGACCACCGGTCTTGCATAGCCAATTTTTTCATAAGGTGACTTTGGAATATCATATAACCTAATCTCCGAAAGCTTTGGAGTCTTGCTTGTATCCGTAGTACTAAGCATTACTCTAAACCGAATATAAGCTTTATTTGGTGATTTTAGTTTCCCATCCGTTGGAACTGCAACCCAATCACTCCAGTTAATAAGGTCATCACTTGTAGAAGTTTCAATTGTACCGACAGCTGTTGTGCCCGAGATATATTCACTTGTAACAGATACCTTACCTATGCCAGATAAATTACAAACAGCAGGTGCCGTATAAAGTGTACCTTCTGCTTTATATACACCATTTGTACTACGTAACATAACTGTCCCTGGTTCCGTAATAGCATCAATATTCCCACTTGTATCACCACCATTTGCACAAAGGGATGCATTAAAATAATTTACAAGGTCATCTGTTGTTAGATTAGAATCCATATCTAGAAACCAATCATCAAAGCTACCTGCATACCAGTAAGCATCAGCGTGCATACCCATAACAATGTCAGCCACGCAAGAGGGATTAAGCGTCCCTGTGAAAGTATTTTCATCTGATACCCAGCTTTCACCACTGTCACGGTCACCTAGAACAATCCAAGCTTTTTTATTATTTGGCTCTATTACCATTGCAATAAAATATACACCTCCGTTTACAAGCGTAATGGTTGATGTGAGTGATTTATCCAATATAAGTGAACCAGATGAATTATAAAGCATAATTCTCGGCCTTCCACTATAAAGGGAAAGATAAAAAATAGGCTGTCCAGGACCATATCGAGTATTAAATATTGGACAATATGTGTTTCCAACAGAATAAGTTGTCGGTTTTATCCAACCACCAACAATAATGCGTTCACCTATATCAGCAAAAAAGCTACCATCATTTTCTACTTTGAGATATGTCTTTTCTGTAGATGGATTACTGATGTTAATCCTTACATATCCTCCTTTTTGACCATTAAGCAAACTTGCAGTCGTCCCTAAATAATTCACAATCTTCATCTTACGGTTTAACCCAGAAGAATCAATAACACAATAATCATCATCAACAGATGTATCATTGAATCTCCATAGTCCGGATTTTGCATAATCAACTGGGAATTCACCTGTGAAATCCGTCTGCTTATTTAAAATTGTTTTTAAAGACATTCCATCACCTCCATCTACTCTTTGCATAAATATTCAACTTGGTAAAAGTAGCATTACTTGTTTCTATTGTTATAGTATTTGCGCCAACATCAAGGTATGGAAAATTTAATTCTTCCAAATATGGCAAAGCATTTCTCATAACTATACCATTCTCATCCTCCACATAAGCAGTCATTTTATCGGCATCAATTACAAGTGTTTCATTGTCTGACAAAACCGCATTTACAATCTTTAATTCTTTACTACTAGTTGTAATTGTTATATAGTTGTTTACAGATGGGGTAACTATTCCTTGGATACAGTAGATTGGATTGGATTTGATGTTGCCTTTGGTCCTTATAACCGTATGAGCCCCTTCCTCCGTAATATTGTAGGTTTCATCTATTACTGCATAAGCAAATGGATCTGGACAAAAAAACTTTAAATTAAAACTTCCAGCTGAACGAATGAGCCTCTCACAATCAACCTTATCGTTTAACCTTGCCATAAAATATCTATCCGGTACTGTATCAAAAATAAGTTGTTTTAATCCCTGCATAGGGTCAAGCCATGTAGAAATTTCATCAATGGTTTTAACTAACGCAGAGAATGTATGCTTGGGAAAGATATTACAAGCTACTGTAATTTCACGGAAATCAAAGTCTGCACCAAAATCTGTTACACCATATTTTCCTGGAACAGTTGTCGTGAAATTTCGCATACCCCCACAGACTTGCCATGAAGTAAGTCTGGCTTTAAGTCCCATGCTATTTGAAGAAATATCATTATAAGAAAAACCCATAAGCTCACCCCCTAAGCAGTTGTAAACCGACCTTGAGCACGTGAGCCGGTTTGAATCAAATTATATAATTCTTGTGATACTTTTCGTATATCTTCATCACTCCGAACAACCATCTGCTGAACCGTAACAAGAGAGCCTCCAAAGCCATTAGAAGAAGGTGCTATATTTGAAATAACATCTCCACCCGATGTATTCACAGAAAAGTTGGATGGAAGTGCCGTATTCATATCATCAGCAAGACCAGTCATAACATCGTTAATGTCATTACTCATAACCTCAGCTGCTTTCACAGCATTATCACCATTATTATCTATGGAATTAGTAAGACCTTTAACAAGCATTTCTCCTACCCATCCCATTTGCTTTGACGGAGAATGAATACCAAAGAAGTCACAGATTCCATCCCAAATACCACTAATCCATCCACTGACCTTATCCCATAGCCATGATGAAAGCTGCTGAATTCCTTGCCACAGACCCTTTACAATGTTTCCACCGATTTCTACAATCTTTCCCATACTATTTGTAAAGGCAGAAACAATTCCTGCAATTATTTGTGGAACTGCTTTTACAATCTCAACAATAATGGTAGGTAGATTCTGAATCAATGCAACGAAAAGCTGAACGCCCGCCATAATAATCTTATCGATATTGCCCACAAGAGCGTTTACAATACTTGAAATAATCTGAGGTATTGCACTCACAATTGTAGTGATGATAGTTGGCAAGTTTTGTATAAGAGCGACAAGCAAATCAATGCCTGCTTGAATCAGCTGGGGAATAGCACCCAGTATTGCGGTAAGAATACCATCTATTACCTGTGGAATTGCCTCTACAATTACTGTAATAATTTCCGGTAAAGCAGACACAAGGGAAGTCAAAAGCTGAATACCTGCATCAATAACCTGGGGTACTGCATTAATAACAAACTCCACAATTGCCGTAATGATTGTAGGAAGTGCTGCAATTAATTGAGGTATTGCATCAAGAAGTCCCTGTGCCAAACCTAGTATCAATTGAAGTGCAACATCAAGTAGCATAGGAAGATTTTCAAGTAATCCTTGGACGATTGTAACAATTGCATTTACTGCTGCAGGGATTAGTTGTGGTAATGACTCACCAATGCCTTGAACCAAAGTTGCTATCATCTGAACCGCTGCATCTATCAGTAGCGGTAGATTTTCAATTATTGTATCTACAATTGTAATAACAGCATCTACCGCCGCGGGAATAAGATTAGGCAGTAAATTTAAGAGGGTATTTAACACTTGAGAAAACAAATCTGTAACTGTCTGTATTAACATTGGCAACAAATCTGATACCGACTCTAATAGTGCACCTGTTGCCATAGGAAGTGCAGCCACAATATTTGCAATAATTGGAGTTATATTTGTTACCACATTTTTAAATGCATCCACAACATTCTGGCATAACAATTCCATATCTGCATCCGCATTACCGAAACCTACAACTAAGTTACTGATTGAAGATTGCAGTGAATTAATAGAACCGGAAATTGTATGCTCTGCCTCTGCTGCAGTAGTTCCTGCTATTCCCATATTTTCCTGTATTACATGAATTGCAGAAACAACATCTGCATACGATGTTATATCATAGTGAATACCCGATATAGCCTCTGCATCAGCAAGCAATCTTTCCATCTCGGTCTTGGTACCTCCATATCCGAGTTTCAAATTATCGAGCATCGTATAGTTCTGCTTTGCAAAGCCCTGATATGCATTTTGAATGGCAGACATATCCGTACCCATTTTATTAGCATTATCAGACATATCCGTTATAGCCATATCAGCATATTCCACTGCTTTTTCTGGTCACCACCAAGACTAGAAATCAAACTTGCAGAAAAACTTGTAACATTTTCTATATATTCATTTGCAGACAGACCTGCCGTTTTATATGCATTAGCTGCATATTCTTGTAGTTTACCCGATGATTCTTGGAATAAAGTATCGACACCACCGACAAGTTGTTCATAATCAGAATAAGCTGATATAACCTCTTTACCTAGTTTGACAGCTGCAGCACCGGCAGCTACAACCACTGCACCCATTGCGACACCTACTGATTTGAGCGCAGTACCTAACCCCTTAAACTTATTTTCAGACTTTTGGGCAGAGTCACCTGCATCTTCAATTTCATCCCCCATATCATCTGCACTATCTGTAACATCATCCATTTCACGGTTCATATTATTAAGAGATTCTTCGGCATCATCATAGTTGGCATTTGCTTCTACAAGTGCAGAATTATTCTGGTCAAGTTCATGTTCCATATTGTTTAGAGTAGCTAATGCATTATTTAACTGTATCTGCCAATTTTGCGTTCTACGGTCATTCTCTCCAAAGGAAGTGGCAGCATTATTTAAAGCACCACGCAGAGTTTCAATCTTACTCTTTTGAGCATCAATTTCTTTATTCAAGACTTGGTTCCTAGCTGTAAGAGCCTGTACAGAATTATCATTTTTATCAAATTGTGATGCTACTAGTTTCATTTCAGATCCAAGAACCCTAAAGGTTCGATTGATTTCAGTAAGAGCCTTCTTGAATTCTTTTTCGCCCTCAGACCTATTTTCAAGCCAAAATTATCTGCCATGCTTTCCACCTCCTTTATCAAATTCCATCTGGTATGATGTCATCAATAAACATTTCCCGTTTAGGACGAGATAAACCGTTATACTGCTTATGGCACTCCCATAAATCAAGAAATAAACCAAACGGCATCAGCCAAAATTCATCTTGTGTAAGATGCAATTGACTAATGCCGTAATATAAAAGCCTCGTAAATAATTCTTCATCACTTACGGGGCCACCATGTTTTTTGATTCTGGTTCACTTTCTATATTTCGTTTTGCGCCCTTATAAAGAGCATTCATAATGGCCTCTTTGTATTCAGCCAAATCAATAGGACTAGTCAGAATTTCTACCTTATCTTCCGTAAGCAAATCCTTTGGCTGTTCCTTGTGCTTAAGGTTATAAACGAGAATGCTTTGATTTGCAAGTAACGTAATAAGCCATACGATTTCTGAAAGAGCCATTTCAACATTTTTTGATTTCATTAACTTATCACCAAGGTTTTCAAGACCACCATAGCGACCTGCTATTTCTTTTGTTGCCTTTGTGGTAAGAAGAAGTTTATGTTCTTCATCACCAATCATAATATTTGCTGTACGTTCATTATTCATTTATCGTTCCTCCCTACTCTACAAAATTAGGTTCATAAACCTGAGTGTACCAATCACTAATAACAGATGCTGGAACATCAGCATCTCCTTCAGTAACTTCAGCTTTCCATGGATGCTTGCCACTTGCATCTGCTTTATTTCTGCGAAGTACAGTCCCCTCAATGGTAGGTGTAGAAAATGTAATGCTATCACCTTTGGTAGCAAGATTTGTAGCTGGAACACCGAACTTAACACGATAAAGCCAGTAATACTTATACTTACCATTAGATTTCTTAGCACGAAATCCAATCGCAACTGGGTTACCACCGTCCTCACTTGCAGAAATAACAACATTATTGTTATCAACAGATACCCCCGTAAGTGCTGCAGCCGTTGCTGTTCCAATATCATCCACACCCAGAGAAAGCGTACCATTTTTAAATTCCTTTACAACTTCAGATGCTCCATCATCTGCATAAAGAGTAGCCTCAGCAAGTTCAACAGATAATTCAGCAGAAATCGCCTTTGCAAGCTGTACGGGGGTGTCATAGGTTTCCTCTTCTGTAACTGCATCTTCAGTAATCGGAGCATAATAAAGTTTATCAAGACCAATTGTAGCCATTTAGTTTTCCTCCATTTCATAAAATTTAGCTACATCCACATTATAGTGATGATAGCCTGTTTCGGTTTCGTAACCGACATATCCTCGTGCGGTAATTGTAAAATCAGCAGAGAGTAATGCTCGCACGATAGCATTTTTCGCTGTTGTATAACTTCCTTTAGAGAACAAAGAAATCCGAGCCTCTTGAACATCAATGCTAGGTTCATTATCTGCATGAAGCTCAAAAGTGTCATACATAGGCACAACTACGATGTAACTAGATGGAGCATTATTAGAAAATACCCCTGTTTCAATAGGGATTAATAAAGGCTCTAATGTTTTTTTCAAATCAGATAGAACACTCATAGTTTTCGAACCTCCTCTTCAAATGTGCTCTGCATAACAGATATGCACTCTGCTTTTGAGGAATTTTTTGCCGGTTTCAAAAAAGGCTTTGCAGGCTGACCATGCTTACCATACTCAATAATATTGGCGAGTTTAGCATTGCTTTCTCCTTCAGATCTTGGTTCTGCAAAACCAATTTTTACATTGTGATTGCCGTTTCTGTCCATTTTGACTGCAGTTACACCGAGAGCATTTGTAAGCTCTCCTGTGGAACGAGATTCATACTTTGTATTCTTACCAACCACAGATGACAGATTACTTTTTACTTTAGAAAGGATAACGTCACCACCCGCCTCAAGTACCTTTTCTGCAATATCATCACTCTTGTCCCCAAGTCTAGACATTTTAAGTAGAAAATCTTCTGGCATCTTTATATCAACCTTTGCCAACCGTACTCACCACCTTTTTAGCTAAAACCTCTATATACATTCCACGTCCTTTAACATTTTCTACAGAAATAATATCAAAACGTTCACCATCACACTCAATGAAATGCTCAGTTGTAACAGTAACTCCTGGAATAATGCGGAATCTAAAAAGGTCTGTAGCCTCCGAAAAAGCAGCAAGGTTTGCCCAACGCACACTCCCATGCCTGCCTTCTCTATAAACACGAACATAAGCAAGTGATGTTTCTGCAGTAGTTGCAAACCCTTCGGCATCTTTTGTTTTTGTTATTGCTTTAATATCAGCAAAACTGTTCATCTTACCAAAACTCATCTCACACCTTCCAATCACGGTCAAGCCGCAAAAGAAGATTGACCGTATTCCAAACTTGCTGACTTGCAGAAACATTGTCTGCAAAAAATCCACCTGTAGAACCATCTCTTGATTCATAAAAATGGCTTACAAGCATAATTATTGCTTGTTCTGTAGTAGCAGGCATAACATTAGTTGTATAATAACCTTCTTCAATATGCTGATAACTTTCCGCATAAGAAACGGCGGCAGTGATATAACTGTTAAGTAGCACATCATCTGCCGTATGGTCGATTATGAGATTTTGCTTTACTTTATCAAGTAATCCTGTAGTTGCCATCACCACCTCCTCCTTTGTTATTCCGTTGCAATAAAACCAGCAGCTTTAAGTTTTGTAAGAAGTGCATTAAAGTCTGTAACAAGACTTGATATATCCTCTGCTGTACTGTCTGCCTGCATTTCAGCTTTTGGAAGACCAGAAATTGCAGCACCCTCCTTAATTTCTAGAGTGCCACTGATTTCAAGAGTTCCACCAATAACGGTTTTTTCGCCGCCCTGTTCGGTATAGTTTTTAGCATTATAACTCATAGGTCATTCCTCCTTAAGATTTCTGAGCAAGAACTTTAATAGCTTCTGAAAGAATAAGTTTCCCATCTACACGTTGAGATGCAAGGAACCCAACCTGTCCCGTTGCAGCATACAGTTCATTAAGTCTCTTAAAAGATCTACCTTGACGGTCTGCAATCCAATAATAACCAAAGTCACCAAATGCAATAGTCTTTGCTCCTGCTGCAATAGTAGGCATATAAGCAGAAGTTTTAACCGGTCTTCCCAGTAAAGTATCAGGAGCTCCTGTAGTAAGGGAAGGCTGCCATAAATACTGACCACTGCCATCTTTAAGCTTTCTAATAGCCTTTATAGTTGCATCATTAAGAATCCATATGGCATTCTTACGATAAGGTGCATTAAGGCTATAAAATAGATCAATTACCTCATCAGACGTAATAGCATTTTCTCCTTTTGTTGTGATACCTGTTTGGGCACCACCTGTTGTAGCAAGAATACCTAAAGGTTTTCCAGAACCATCACCAGTAAAGAATGCCTCCTCTTCTTTAGTTCCAATACGGCGAGCAAATTCCTTAGTAATATAGCTCTCAAGATCAAATACACTATCGTTTAAAAGTTCTTCGGACACCTTAATCATTGTGCCAAGCTTATAAGCGCCAATAGACACCTGACCAAAGGAATCATCACTCTCAGTGAAAGCACCTTCTTCATCAATCCAAGATGCACTACCTTTAGTTGCAACAACAGGAATCTTGCGGTCACCACTAGAAGTCTGGATAATCTTTGCAAGCTGACGAAAAATATTCTCTTCTTGGAGAGCCTCAACCAGTGTATGCTCAAACTCATCAGGAACAAGGTAGCCGCCCTCCGAATCAGTCCCAACCTGCAGAGCATTTATAGCAGAAGGGATAGGAGCCTTGGAACGCATTACATTCCAGAAACTCTTCGTGTATTCATTGGAGCCACGGCCGGTTTTGTTATCATCTTTGACATTCATAGGTTTTTCAGTAAGGGGTATATTCACAGGCTTATTAAGTTCTGCCTCAATGGCATCTTTTCGCTCCATACGTTTGATTTCATTAGTGAGATCATCAAGGTCTTTTTCCATATTGGTATAAGTAGCATCATCTTCGCTACTTAAAACACCCTTTTCATTTCTGTGGGTATCAAGGAAACCTTCCATTGTATTCCACATCTTTGCACGTTTTTCACGCATTTCTGTAATAGTCATAGGTAATTCCTCCATTTATAAATATTTTTTAATAGCAAAAAGACGCTCTTTAAGTTCTTCAACAGAGCGTCCTTCGGGTTTAGCAGTTTTCACTGCAGTTACGTGTGTAGTCTTTTCCGCAATTTTGTTAAGCAGATTGGTTGCAACTGCTTTTCTAGAAAATGCATATGCAGAAACGGCAATATCGGTTAATTTTTCATCTTTAAGCACATCATCTGCAAAGCCATATTCTATTGCCTTGTTTGCATTCATCCAAGTTTCCGAATCCATAAGATGCGAAAGTTTAGTGCGCGATTGACCAGTCTTGATTTCATAAGCATTGATAATACTTTCCTTAACTTCACCGAGCATATCCATAGCTTTTTGCATATCTTCGTGGTCACCAACTGCAATAGTTGCAGGATTATGAATCATCATAAGTGCAGTAGGAGACATTAGAACATTTGTACCTGCCATAGCAATAACGGATGCAGCACTAGCAGCAATACCGTCAATCTTCACAGTTATATCCCCCTTATAATCCATAAGCATAGAATAAATTTGGCTTGCTGTCGCATAACCGTTCATACGGCTTGCATAGTCACCTCTAAGCAGTCCCTCTACATTGAATTTAAAGAAGTATTTCTTTTTTTCTTCTGGAGTAAAAAGAATACGTGACAACGATTGCTCCCAACGGACTACCCAAGGGTCAAGTGTGTATTTTACAAATTCTAGTGATTGTTGCTCAATATTAGAAAAACTCGACTTCTCCAAATCACCAACCATATGTGGTGGTACTCGGAAAATTCGAGCAATCTCATTTATCTGAAATTTTCTTGTTTCAAGAAACTGTGCCTGTTCGGGTGAAATTGATATCGGTGTATATTTCATTCCTTCTTCAAGCACAGCTATTTTGTTGGAATTAGCACTGCCTCCAAACTGTGTCTGCCAAGCCTCACGAACTTTGCTAGGGTCTTTAATTGTTCCTGGATGTTCAAGCACACCACTTGGTGCTGCCCCATTAGCAAAAAATTTAGCTCCATATTCTTCCGTGGCGATTGCAAGACCAATAGCATTTTTTGCCATTGCAATTGGCGAGTATCCAACAAGACCATCAAACCCAAGTCCAGGAATATGCAGAACATCAGAAGTACTAAGTTTGACTGTGACCCCTTTCATAGTTTGAGCTTCATCCGATGATCTGGTATATAGATAATACAGCTGACCGTTTTCATCTCTATCCACTGTCATCTTGTTTGGCATAAGCGGATAAAGTGCAACAATTTGACCCTTACCATTACGAATTATCTGTGCATAAGCATTACCCCATAAAAGCAAATGAGTCATAAGCGTTTCTCTAAACACAAATGAACTCATTTCAGGGTTAGGCTCTTCATGGAACAGATGATATAACGGATGGTCAAGTGCTTTTTCTTTGCCACCATCATCAGTATAGCGATAAAGGTGTAAAGGCAAACCCGCAACCGCCTCTGCTAAAATACGAACACAAGAATAAACCGCTGTCATCTGCATGGCAGAGCGTTCTGTCACAACTTTCCCAGAATTTGAACCTCCTAAAAAGAAGGCATAGCTTGAACCAACAGTTCTGTTAGTAGGCTTATCTCTTGACCTAAAAAGGCCGCTAAATATGCTCATGTAAAATCACACTCCTTTCAAATAAACAAAATCCCTCGCTCGTCATATACCGAAGCACTCGTACCATTACCACAGCGGATTGCTCTGTCAAGGGCCATAACCGTTGCCACAGCACCATCAATTTTCTCTGTTGATTTTTCTTTATCCGGTTTTATATTACCTGCCGGGTCGGTACGGATGTAGATATTATCCATCATCCACCTTAAAACAGGATGCCCACCATGCGCCATTTTCTCTTCCAATACTAGTTTCATTAATTCTTTTGTTGGAGGGCTCATATCTTTAAATCCCTGTCCAAATGGAACAACGGTAAACCCCATTCCCTCAAGGTTTTGTACCATCTGAACAGCACCCCAACGGTCAAATGCGATTTCTCTTATGTTAAATTTCATGCCAAGTTCCTCTATGAATTTCTCTATAAACCCATAATGAACAACATTACCCTCGGTTGTTTTAAGAAAGTCTTGTTTTTCCCATACATCGTAAGGAACGTGGTCACGTCTTACTCTTAAATCAAGGTTCTCCTCGGGTATCCAAAAATAAGGTAAAATATGATACTTGTCATCTTCATCTATTGGTGGGAATACTAGCACAAATGCCGTGATATCTATTGTAGAAGAAAGGTCAAGACCACCATAGCAGACTCTGCCTTTTAAATCTTCCTCTGATACAGCAAAGGCACATTTATCCCACTTATCCATTGGCATCCAACGGATTGCTTGTTTTACCCATTGATTAAGCCTTAATTGTCTGAAAGAGTTTTCTTCAGCAGGGTTTTGCTTTGCAGATTCACAAGCAGCCTTTACCTTATCAATGCCAACTGTAATTCCAAGAGAGGGGTTTGCTTTCTTCCATACTTTTGGGTCAGTCCAATCATCCGACTCATCTGCACCGTAAATAACTGGGTAAAATCTAGTGTCAATCTTTCTGCCTTCCAAGATGTCTTTTGCTTTTTGATGTGTTTCATAGCAAATAGATTTTGTATCCGTTCCAGCTGTAGTGATAAGAAAATACAATGGCTGCATTCTGGCATCACCAGAGCCTTTTGTCATTACATCAAAAAGTTTTCTATTGGGCTGCGTATGCAACTCATCAAATACAACCCCATGAATATTAAATCCGTGCTTGCTGTAGGCCTCAGCGGACAGCACTTGATAAAAACTATTAGTAGGCAAATATATGATTCTTTTCTGCGATGCGAGGATTTTCACTCGCTTATTCAGTGCTGGACACATACGCACCATATCGGCTGCTACATCAAAAACAATGGTAGCTTGCCCACGGTCAGCGGCACACCCATAAACTTCAGCACGTTCCTCACCATCGCCGCAGCAAAGTAATAATGCCACAGCTGCAGCAAGTTCTGATTTACCCATTTTTTTTGGTATCTCTATATATGCCGTATTAAACTGCCTGTAGCCATTTGGCTTTAAAATGCCAAAAATATCACGAATTATTCTCTCCTGCCAATCAATTAGTTCAAACGGCTTTCCTGCCCATATGCCTTTGGTATGACACAAACATTCTATAAAACCGACCGCATAATCTGCAGCATCCTTATCATAGTATGAATCCTTTGCTTTAAATCGAGTCGGTTTGTATTCCTTCAGCTTTTTGATATGCGGTCACCTCCTTTTTGTAAACATAAAAATACAGCCTTATTTCAGCTGTATTATGAGAGAAAGAGCCTTATAGCTCAATCCCTATCCATTTATATTTTATTTTGCAAATTAGTAATTCTCACTGTGGAGAAGTACTTCGAGTGCACGCTGTGTTTCTTTATCAACCGGCTTTATATCCCAACCTCTATCATAGTTGCATACAATTTCACCGTTACGCTTTAAAGTGAAGTTTGCTGACCCTACCTCCATCAATACCGAACTTACTGCTTTCATCATAAACTTTCATCCAATAGTGGAAAATACTATTATAAACTTTCAAACTTCCTTCTTTCCACATAACTTAATCCTCTTGACCGTTGATTATGAATTTCACATACTTTTCCTTTTCATCTTCAATGAAATTCACCAGTTCATAAAAATCCATTTCATAGGCAATTCTTTGTACCGCATGGATATCAAACATATTGGTAAGGCCTGTATCACGAACTGCAAGAATCTGTTCTTTAATTTTCTTATTCATTGTCAATCCTCCTACACCTATCTTCGCCATAGGCTACCGAAAGGCCACAACCATTGTCCCATTTCACCATGATTGAACCAATATCATCAACACCAATAACTGTTCCTTTTGTTCCTATTGGTGGTGCTTGTATGTCATCCATCTGTAGAAGTTCAACTCGACATCCTGCTGTATATTGCTTACGAAGGCTTTTTAGTTCCTCTTTAGAAATTACTCGCATGATTTCACCTCCTCATCCTTTTTGCCATTTTTAAATGCAGTTGACCCTGTTAATCTGTGAAGAAGAATCTTGCGTTCTTCCTTATACTCACTTCCAATAAAACCAAGCCTTAAAAGGAAACAACGGAATGCATACTTCTCGTTATCGATATCTTTTTTCTTTACAGTTACCCTTTTTTGTTTCTTTGCTAAATTGCAAAGAGCCGTTATAAAATGCATATAGGCCTTTACTTCATCTGGAGTAGGCTCTTCAGGAAACCAAGGAAAATCCAATCTATCATTAAGGATGTTAATTGGAAGTTCATTTACTCCGATTGCTTTTTTAATAAGATTGCCTTTTGCCTCAACTAGGGTGCGTAAGTTCTTAAGTGAACCATCGTCAAACCCTTCCAGTGGCATTTGAATTGCAATACCCTGTGGTTCTTCAGCTATATTCTCACATTCATAGCCTTCATCATAGAGATGTTCAAGCAAACGCTCTACTATTTCGCTGTCAGTTTTGTCTTCAAAGGCAAGGTTACCATCTTTATCAATGGTAAAATTATCTACCCTGTAAGCAAATGTCGGAGCACCTAAATATTTCACATCGCACTCCAGCCATCTTGCAATAGCGTGAACTAGTTTTTTTCGTTCCTTGCCAGAAACATTATACTTAATAATCATAGTGTGAAACCTCCTTGTTTTTTGGTATGTACATATATCACTCTAAAGTATAGAAATAGCAAGAGATTTCAACACTTTTTTAATGTAGAAAACAGATAACTTATTTGCTATCAAATTGTGTAAACCACACAATTCCCGATAACACAAAACATACACATGGAAGAGCCACACCATTGCCCCACATCTTATACTCTGCAGAATCTGAATGCGGTTTCTGTAACCATTTTCTAATTTGGTTATCCGTCTTTGGTTTTGTATTCTTACCGATTGCTTTTGCATGAACTTTGAAGATTTCCTTCCACAGAATAATTTCATCCTGAGTTGGATTTTTTGTTTCAAGGTTACTGCACCACCATTTTGGAAATCCCTGTAAACTTGCACATTCGATTGGTGTCAGCCTTCGGACAATATAATCAAGTCCATCAACATCATTAATAAGTGGAGGATCTTTATAATCTGTAGCTACCAAAGTGTTTGCCAGTTCTTCTTTTGCAGAAGTGAAAAACGATGCCTTACTTGCACTGTAAGTAGGATGAGCAACAGCACCTGGTCCTTTTGCAACCATAGTCGGTTCAACCTCTTCATCTACTGCAAAACTATACTTTGCATTTTCCCCTTGATTAAATGCGGCACGATCAATCCCATAAGCAACTGCATGATGATCTGCTGTATTAAGGGTAAATGAAACCTCCTCACCGATGCCATCACCTTGTGGTCCATTCTTGTCCTTTCTGCCAATCATAGATCCTTGCAGTGCATAGCTTTCCACCACAGCCATACCACCTTGATTACAGGATGGGTTACTACCATTAGCATCAATAGTTCTTGATGTATCTGCCTCATAAATCCCACTGTTTGGATTATCTGATTTCATAGAATTACTGTCCTTGGAACAAATACCGTATACCTTTGGCACAAACAAAGTTTGATCATTATTACAACCAAGGGTGGCTGAAATATCATCTTGTATCAATGCACCTTTCCCGCCACCCTCACAACCACATCGGATTTTCAGTGTCTTAGGTGTTTCTACTACAAAAGGTTGATTATTACCACCAGTACCAAAAGTTGAAAGGATGGTCTGTGATACATCAAGCGGCCCCTTATATCGGGAATCCTGTGAATGATTTTCAAATACAAGTGGGGGATGATGGCTTTCTGCACGAAGGGTACAGGTCACATCTTTCGTTAGATCCATTCTTTTTCCACCTTGGTCATTTAAGCAGACAGTGCTTGTTTTTTTAATGCCCTTGATAGCATCGGAGGTAGTTCTTTGCCACGAGCGGAAGCTCTCCGCAGAATACCCAGACAAGCCTTCTGACTTAAATAATATTTCTCCGGCACCCCTACCTGCAAAATCTGCGACAAGGAAGATACGTTTTCTTCGTTGGGGAACTCCCCAGTATTGAGCATCAAGCACCCTCCATGCAACAGAGAATCTACTACAAGTTCCCTCATCTGCCATGATTTCTCCTGCAGCTGACCATTTCTTAGGTTTAGGCACTGTAATACCGGCATCTTTGATTTTACAGATTTCTTCGAGGACTGCCCTAAAGTCTTCTCCTTTGTTTGAGGAGAATGCTCCAGGTACATTTTCCCATACGATATATCTTGGATATTTGCCATTGGTTGCACACCTCATTTCTTTTATAATTCTTATTGCCTCATAAAAAAGGCTTGAGCGATTACCATTTAAGCCTTTTCGCTTACCTGCAACGGACATATCTTGGCAGGGTGAGCCAAATGTAATAATATCCACTGGTTCTATTTTGGCACCATCTAGTTTTGAAACATCACCGTAATGTTTTATAAAGGGTAGCCTTTTTGTTGTTACTCTAATAGGAAACGGCTCAATTTCCGATGCCCACACAGGGGTTATACCAGATATCAAGCCGCCTAATGGAAAGCCACCCGAACCGTCAAAAAGACTACCAAGAGTAAGTCCACTCATTGACTGAGGTTTATTTTGTTTCATCGCTTACCTCCACTTCTTTGTAGGAGTAGGTAAGACCGTCTCTTTGCACTTTTACATTATCGAAAGAACCGACCTGTTCAATATATCTTTTTACAATAACATCGCAGTATTTTTCATCAAGTTCTACAGTATAGCAGATACGGTTAGCCTGCTCACAGGCAATTAGTGTACTTCCTGAACCTCCAAATGGGTCTAGTACAATACAGTTACTCATACTGGAATTCATAATCGGATAAGCAAGCAGAGGAATAGGTTTCATGGTAGGATGATCAGCACTTTTCCTTGGTTTATCAAATTCCCAGATAGTGGATTCTTTTCTCCCCGTGTACCACTGATGTTTTCCTTTTTTCTTCCATCCAAACAGTACTGGTTCATGCTGCCATTGATAAGGAGAACGTCCAAGCACTAAGCTTTGCTTTTTCCAAATACAAGTACCAGATAAATAAAATCCGGCATTAGCAAATGCTTTGCGGAAATTTAGCCCCTCTGTATCTGCATGAAACACATAAATGCTTGCATCTTCTGCCATGACCTTTTCCATATTAGTAAAAGCATCAAAAAGGAATTGATAAAATGTATCCTTTTCCATGTTGTCATTTTTAATCTTACCTGCACTACCTTCGTAATTTACATTGTACGGAGGGTCTGTTATAACCAAATTTGCTTTTTTCTTACCCATAAGCAAATCATAAGTTTTTGCTTTGGTAGAATCACCGCAAACTAAACGGTGCTTTCCTAAAAACCACACATCTCCTGTTTTTGACATAGTTGGTTTCTTAAGCTCTTCATCGACATCAAAGTCATCATCATGGATACCATCTTTTAGCGTATCTTTAAAAAGGTCATCCAATTCTTCGGGTTCAAACCCAGTAAGCGATACATCAAAATCTGTACCCTGCAAATCAGAAATTAATATGGCAAGTTTATCTTTATCCCAATCACCGCTTATTTTATTAAGAGCTATGTTAAGAGCCTTTTCTTTTTCATCTGACATTTCAATAACAACACACTCAACCTCTGTAATTCCCATATCAATGAGCACCTTTAATCTTTGATGTCCACCAACAACACGTCCTGTAGCCTTATTCCAGATAACAGGCTCAACATAACCAAATTGTTCAATGGAACGTTTCAGCTTTTCATATTCAGCATCCCCTGGTTTTAAATCCTTACGAGGATTATAATCAGCGGGAAGTAAATCTACTGTATTCTTTTTTTCAATATTCATTACCCACACCGCCTTTCTAATAGCTTGAATAAACCTTTTCTTGCCCCTTCAATATCTCCCGCAAATGCCTGACCCTTAATGGTACGAAACTGCTGATAGGTCAGATTGCTTTTATTGTTTTTCAGCGTTTTCATAAATTGTATTAATCCTTTTTTCATATCATTTTCCTTTCCTCGCAGTAAGTAATCGCTCCATCAAATCGTCTTGTGGACTATTTCCTCCAAACTCAACGCTACAGTTTTCTTTCACTATCTGATAAATCTGATACCAACACTGATTTACCTGTTTCATGTAGGTCTGACTCATTGATACATATGGAGATGCTATAGCATTTCCAGTTGTTGGATGTTTAGCAAGAAATCCATATTCAGAGATACATTCCTCACATTGAATCCAACGAGAAACGCTCATGGCATATTGCTCGATAAGCTGGTTGTTTACTAACATTTCACAGCCACGTTCTTTAAGCCATTGATATGTATCTCTATACACTCCTTCAGCACATAGGTCTTTACCATTTTTTTGAGCTGCCTTTAGATAATCTTTTACAGGCGGTATATCTGCTCCTTCAATATCAATAGGCTCCGGAAGTACCCTTGTGCCTTTTAATCTTCCGTCAGCAATTTTGTCTGTTAATGCTTTGCTTTTTCTACCTGAACCAACTCGCTGACCACCTCTTGCAGTACCGTCCTTTGCCACCTCTATACACCCCACTTCCTTTGATAGGGTTAATACCCCCTTTGATTTCTGATTTTTGTACGCAAGACCCCAGGCCGTTGCCCGGCATAAAAGGTGTAGAGATTTAGATACCCCTTGGGTCACTTACGAATCTGCCTATCACCAAGTTCAAAATGAATCTTATTGTGACAAGATTTACAAAGAGACATTAAATTACTTTTATCATGTGTACCACCTTGAGAGATAGGAACAATATGATGTACTTCTTTTGCGGGAGTTAGTTTGCCGTCTTTTTGACACATTTCACACAAAGGATGTTGTGAAATATATCTGTCACGAATTCTTTTCCAGGCTCTTCCATACTTTTTATTAACATCTTTAGAACGCTCATACTTATCGTAGCGTCTTCGCTCTTGTGTCCTATGAATTTCACAGTACTGTCCCTCCGTTAGGTTTGGGCATCCTGGATAGCTACATGGATGTTTTGGTTTTCTTGGCACATGTTCACCTCCCTTTTCTGGCATAGAAAAAGCCCTGCAGGAATTTCTCCCACAAGGCTTATATCAATTCTTTTTTGCTGATTATACTATATCGTAAATGTAAGGTGCTTATCTCTGCTCAAAACTGCTTATTTCGATGCAACTTTTAAATTGTTATTGGTTTTTCTGGTAACACTACATGGTTTAATGCATTCCCATGCCATCTTCTAACTGTACTCTTATCAGCATTTAGTTCATCACCAATCTGTTCCCAAGTGAGGTTATGGATATAACGATAACGAAGAACCATCTGCTCATCCGTGTTTGACACTTTTTCTATAACTTCACGGACTTGTTCTTTAAGATTCACAAGGCGATCAACCTCAGCATTGATTTTATTTTCTAAATCCATAATCCGCTCAAGGCATCTCACAAATGGAGCATTAGTATTACGAGAATGACTAACCTTCTCATCCCAGTTTGGAGAAGAAACACTTGTTGCCATCGCTCTTAAACGTTCTATTTCTTCAATGTCTGAATTTATCCTTTGATCAAGTCTGTAAGCCTGATGTAAATATTCTTTAGCTTTCATTCCCCAAACACCTCCATTCTTAGTTTTGTTATCAAAAAATCCCCATCAATAGAAGTAAGTTCTCTATAACAATCAGAGTGGAAAAATCTCTCTACTTCAGCTATAGTACCTTTTGCAGGCTCATAACGAGGACAATTTTTAATTTTTTTTAGTGCATCCCTATAATCTTTAACAGCTTGCAATATAATGGCATTTGCAAGTTGTTCATACGGTTCAATCATCACACCACCTCCAACTTTGCTTTTACAGCTTTTATTAGAGAGGCTTGGGAGTTTTCTTTTCTGATAAGTGCTTTCATTACATCTTCATCAATTGTGCCTTTTGTAATTATATGGTGGATGACAACCATATCTTTTTGCCCTTGCCTGTAAAGCCTTGCATTTGTTTGGCTGTAGAGTTCTAAAGACCAGGTAAGACCAAACCATATAAGCGTTGAACCTCCTTTTTGAAGGTTTAGACCATGTCCTGCAGATGCAGGATGAATTACAGCAATAGGAATTTTACCTTCATTCCAATCCTTAATATCTTTTGATGTTTTTATCTGTCTTACATTAAACCTTTTGTTTATTCGTTCAAAGTCATGCTTATACCAATAGGCGATAAGTACAGGCTTACCATTAGCACCTTCAATTAAATCTTCAAGAATATCAAGTTTACGGTTATGAATATGATGTGTTCTATTTTCTTCATCATAGACAGCACCATTTGCCATCTGGAGGAGTTTCCCTGAAAGAACCGCAGCATTAGCTGCATCAATTTCATCATCTCCAAGTTTTGCCACCATATCATCTCTAAAATCCGAATATATCGACCATTCCTTATCATCAAGAAAAGCAAAGACTTTGTTTATCACACATTCTGGCATTTTCAGATAATCACAGGATTTCATGGAGATAGTAATATCTGATATCTGCTTATAAATCTTCTCTTCAGCACCTGGAAGTGGTTTATATGAAAAAATCATTTGAGCATTTCGTTTGTCTGGGCAAAAGAAGGTATTACGGTAGTGGGTGATATACCTTCCAAGTCTTTGACCCAAATCAAGGATCCGAAACTCTGCCCATAAATCCATAAGTCCATTACTTGAAGGAGTACCTGTTAGACCAACAATCCTTTTTGCTTTGGGTCTAACTTTCAAAAGACTTTTGAAACGCTTGGCACCATAGGATTTAAATGATGACAGCTCATCAATAACAACCATATCAAAATCAAAAGGAATACCACTCTTATTTACAAGCCAATCTACATTTTCACGATTAATGATATAAACCGTTGCTCTTTTCATAAGAGCATTTATTCTATTTTTTTCACTACCCACTGCCACAGAATAGGAAAGTCCTTTTAAATGATCCCATTTCTCTATTTCCTCAGGCCATGTATCTCTCGCCACACGAAGAGGCGCAATCACTAAAACTTTTCTAACAAGGAAGCTGTCCATGCAAAGTTCAAATATAGCAGTTAAAGTAATTATACTTTTACCAAGACCCATTTCTAGAAATACCGCAGATACGGGGTGCTTTAAAATAAAGTCTGTTGCATAATTTTGATATTTATGTGGATTGTATTTCATTGAGTATCCCTCCAATCTGCTCAATTCTATCAATGCAGTAAACCGAAAAGCCAAGTGATTCCAACTTATCTTTTTGTCTTACTTGTAAAGCCCTCATTTTTTTACCAGGGGTCTTTAATTCAACAAAAGCAATTTTCCCCATAGGTAAAAGCACAATTCTGTCTGGCACACCATCTAAACCAGGACTTACAAATTTGGGTGCCATTCCTCCCATCTTCTTCACTGCTGCTACAAGCTTTCTTTCTATATATTTTTCTTGCATAAAATCCTCCATTTCCGGCATAAGGAACAACAGGCACAACTTTGGACGATTTTCCTATACGCGCGCATACATACATATGCACACGCTATTTACCTTTTATTTTTAATTAATTATTAAGTAGGTAAATTCTTGTTCCTGTTATTCCTCAAAAGCCAAAGTATCGATATTTCCTATGTTTTTAAGAAAACAACATCGGAAACAACCTAAGAACAAGTGAACTACCGTTACTCGCTTCGAGAGTAACAACGCTGCTTACCGTAAATTGGGAACATCATTGTTCCGTTCTTGTTCCCTTTATACTTGTTCCACTCGGAGAGCTTACGCATAATAGCAGCAATAGCATATGAATCAGCAGGCTTTAATGCGGATGCCTCTTTTCCAAAACATTCACACCATATTTCCATATTACAGACAAAAGTTCGTTTAACCGACCCTTCATGGTTATCTCCACCAAATTCACTACCGTTTAAAAAATTACGACGTTCGAATAAAGACATATTGTCCCAATCCTTAGGAAGTAAAATATCAAGGTAACTGCGAACCAATCCTTCACGCTCATCTGATTCCATTGCATCTGCCTGTTCAAGTGTTGCAATATTAGCCTCTTGACCTTCAAGATAGAGTTTTTCTCCTTTTGCATACATAAGCAAAGTTTCTGCCCATATCTGCTCCACATCATATACAGACATTTGCCAGGATTTCTTTTTTGATCCACCTTGTATCGGTACAGGCCAAAATCTACGGTTACCTGTTATATCTCGCAAGAACCCACTTTCAGCATTGGTTGAGCCTACAATAATACACTGTCTGGGATGACTTTCCACATTAATCCCATACGATGCACGATACTTATCATCCACACGGGTAATAAAGGATTTTACCGTTTCTACATCGGTTTTTCGCATACCATTAAGTTCTCCTAGTTCCAAAATCCAATATCCCTGCAGTTTTTCAGCACCAGATTTATCTTTCATATCCGTAAGCGTTAAGCTATCAGAAAACCAATCCCCAGCAAGCTTTGCAAAGAATGTGGACTTACCAATTCCTTGTGGACCGTTAAGTATCAGTACACTGTCAAACTTTGTACCTGGATGATAAATACGGGTTACCGCCGCGACCATCATCTTTCTTGTAACTGCTCTTGTATAGGAATTATCAGTTGCTCCAAAATAATCGACAAGCAAAGTTTCAACTCTTTTCACACTATCCCATTCTGGTAGGTTGTCAAGATATTCTTTTATAGGGTGATAGGCACGTTCTGCTGCTACAGCCAGTATTGCATCCTTTGTTTTTGTAGGTGAATAAATTCCATATTTATTAGAAAGATACACTTTCAATGCTGCATTATCAGAATCGCTCCAACCATCCTTCATTTGTACCCAAGGTAGTCCGTTTTTTGCATCAATACCATCACGGTGTTTATTAAAAGCAATGGACTGTAGTTCCGAATCATTTCGAAGAATAAGAACAATATTATCAAGGGTTTCCTTGATTTTTCCTTGCTTATCCAGTTCAAGTGCTGTCTGCCAATCACTTTGGGTAAACTCAACCACAGTTTGTTCAATACGCTCTTTTGCAAACTGAGCTTTTACTTCTTCATCTTTAATGGCAAACTCACACATAGCTATATATGACGGAAGTTTGCTGGGAGATGTTGTTTGTACTACTCTATCATCAAGATTGCCAAATTTATGAATACGGACCATGTCAAAGGCATTGAGTAGCCTACCACTTGCAGGATCTGTCGCATGATGAGAATATGCGAACTTATCATCATAGATAATGACACCAGCACTTGAATCAGCAGGTATATAATCATATCTGCCTGAAATAGCAGAAGGCTCATATACCTCTTTAAGAAATTTATCAATTGCTGCTCTCACGGAATAAGTACGGCAAAAAGTACCGACAACCCCCTCTTTAGAAAGCGGATCAGCCTGTTCTTTTAATGAGCGATTTATTACTTCAGATTGCCTGCTTGATACTGGCCAAGTCGTTGTATCACGCCAATCATCGTATTTATCTAAAAATATATCTGGATCAAGCAATGCCCCATCTTTTTCCTTATATACAAACTCACCGTTCCTAGAAGTGGACGGCCAATACATCAACCTTTCCGGTTCGTAGGTTGTATCGTCAAAAAGATCTATACCGATTTCTTTTGCAACCATTCGACTAACTGCTACATACTCCTCTTCACTAACATCTCTTAAAAAAGGAATAATAAGACGTAATCTTGGACTTTTCGGTGTGTGTTTATGTGTTGAATAAATACAACATTGATATGGAAATAAGGTGCAAATTTCTCCCCATATATTAGGTGTTCCATAATCCATATCAAGTGTAAGCATAGATCGTGATAATACATTGCCTTTCTTTCTTCTTCCATTTTTTAAATGACCACCAACAAAGCCACCAACATCCTTAATGGAATCCTGTCCACCCTTTTTCATCTTTCGATATTCTTCTTGAGTTTCGGTAGTACGTTGTGTTGTTTTGACCCGATTACAGAAATCTTCCCAAGTAACATCACTGTTTTTCCATTTCTTATCCAATCGGCTGTTACCATATGCTATTTTCATAGAGTATCTACCTCCGCAAACTTGCTGTTAAAATACCTGACCTTTTGTTTTCGACTTTTTGCTTTATTAATTTCGATGCTCATACCGTTAGATATTACATCTCCAAGTACCCATACCTCTTGGCATTTACCCATAAGGATAATATCCATGAAAATGGCAAGGTCACGTTCTTTCGCATCAGCATCATTCATAAATTGTGGAAACATGAGATGAGGTGCTAGAGGAATATTTCCATTCTCTAATGCAAAACGGCAAAATTCCTGAGTTCGTTTGATGTTGCATTTGGTATTGCCACTAAAAGGGGAGCAAATGTACACCAATGGACGGAAAGCAGGTTTTAACGCTGCTTTCTCTTCCTTTACAATATTGGTTATTGCTTCATATGGAGTAGGGTCATGATATCTTTCAGCATTAAATTTATTTATGTTCATCATAACCACCTCCGTCTCTAATTTTTTTACTACATTCATTACAATATATTGCAGTACCAAATAAATCACTTTCACCATCACCTAAGATTTCTCCAATATCAACCATTACTTCAGCACCACACATTGGGCAGTGACAAAAAACATTCTCATCAGTTATTTCAATGGATATCTCCATAGAATCATTCAATCTTTCCTTCACATAAAACATAGTAAAACCCCTCCTTAATTTTTGTTTTCTTCCATCTTCAACTTGTACCATTCCAAATAACGCTTACGCTGCCCGTAATCTGGAATAGCTACTAATAAGCCAACATCTACTTTTTGTAATGTATCTAGCATTGTAATCTGCTCATCAGATAGATAGGGGCGAATGCTTTTTCCTTTTTCAATGCCATTTGCTAGTCTAAACTGCTTTGCAGTCATTCCGATAACGATGCGATTTAACATATTACATTCATTACTGAAGTGATATGGCTTAGGATTTTCATGAAGTAGCTTTATGTTTGAGGTCAACAATGGAAATTCTTGTCTTGCAGATACAAGGGTTTTAATGAAACTCTCCATCTCGTTGAACCTGCGAATGTAAAGTTCTTTGAACTTCATTGCTTTTTGCCCTGTGTATCCCATCACCAACATTGTAAAGCCGTCTCGTGTCATAAAATAACAGGGTAGCTTTCTGCCTGTACTGTCCTTATAAAAATCAGATTTAAAATTAGAATGAATAAAATCTTCACTCAGCCCAGATTTGGGCTCAGTAATTCTTGCAATATCCCGCAGAACATGTTTGTGTTGTTTTTCAAAGAACTCTGCCACATATAAACTGTCTACTCTTGCAGTATCCTTTCTGTCGGCAAACACTCCGTATTGATCTTTAGGTATTAATTCTCTCATCAGAATTACCTCCTTAAATTTTATTTGGAGGATTGACCTCCTACCTAGTAGCCTTGGGAGAAGGTCAAATCTGACATTTTTCAAAAATTTCTTTTAATTTTTTCTCTGCGCGTTTTAGTTTTTTTGTAATGTTATTTTCATTTACACCTAAGCTCTTGGCATATTCTCTTATAGGAGTTCCATCGATTCTTACTGCAATAAAGATGTCTGCCCATTCCTGTTTTTTACCAAGAGCAGAACGTATTTTTTGACATACATCCTCATATTCATATTGGTGATTACGTTCAATTTCTTGTGTATCGTCTGCAATGGTATCCATTACGTCAGTTTCATCCTCAGATTCATCATCCTTGCGGTAGGGAGTCTTTGGATTGCCAAGATGTCTATGATATCTACGCCAGTGGTTGTATTCTTTACTGTTCATGAGGTCAAACATTTCCTGTACAGTCTCACAACGCTTTACTTCTGCCTTCTTTTCTGGCTTTGCCTCTGCAAGACGTTGCTCATAGTCAATATCTAGCATGACACTGTAATCATTATCTGGAATTTCAATTGTGGTGTAGAACTTGTGACCGTTTTTGATGTTGTCTTCATATAAAACTCGAATCTTCATTAAGTATTCCTTTCCGTCCTGTCATTGGGCGGCGGAATACAAAAAGAGCCTGTGGCTAAGATGACCACAGACTCCACTTGTCCAAAATTGGGCGCAGGAAACCACGGTGGGTGCATCTTCATTCCAAACACAGTCTTTATCACTGTGTTCTGAACTCTTATGCATCCCGCCGTCCTAATGCGCATCTCGGACATTGAGATATTATTTTATATAGAGTGAGTCTCTATATTTACATTGTAATGAGAAATTGAACCCTCCTGTTGGACTTGTTGCGTCCTATACTGTGACAGTTGCAATAGATTGAGAAAAAAATAAAAAAGCCATACACAAACTCATAATTGAGTTCATGTATGGCTCATATATTATGTAAAAGTGGACGAGGTACGTCCACTTTATATTTTAATTTTATACTGCAATATTATGGTCATGTAAAAAGTCAAATATTGATTCCATAGATTGCTTTGATAGGTGAGTCAATGCAAAATCATACCATATATGTTCTTGTTTACAAAAGTTTAAAGTGCAAGGCGATTTATCAATAATATGCTTACTGATGTTGGGTGGTAAATGTAATCCTAGACAAATTAATACCAACGTATTTATAGAAGGATCACGTTTACCATTCGCAATTCTGCTAATTGTCTGGTCATCAACCATAATTTTCTTTTCTAACTCCTTATACGTAATTCCACGCCATTTTAACACAACTTTCAATGATTCACAAAAATCATTTGGCAAAGACTTATATACTCTCATTTCATCCATAACAACATCTTCTACTAATTTGATTTGTTTATCATGGTCAGCATATGCATAACCATCACCATATACGATATTAAAACTTACTGTTGAATCCTTATCCTTATTGAGAAAACATACACTATGATAATCCTTTTTAGTTCCAGACTTGACTGTCATGTCAAAAACAAGACAGCATTCTTCCATATGATTACGAGCGTAATCAGTTAATATAGTAAATTCATTATCATCTTGGGTTAAATATTTAGGATGATTAAATACGAAATGTGCATCAACATATTGATAACTACCATCCCCAACAAGTCTAGATAATTTTTGATTTGTTATGCTCTGTATAGCTGCCTCTTCTGCACTAATAGAAAAAGTCTGATGTTCTTTTAATATGCCCTTTTTAAAACGATGTGTAGCAACATATCTTCCATCAATATATGTAAATGTGCCTATTGCTTCCTCAAATCCAGCATCTACCATTCGAATTTTTGCTGCAGTACGAGATACACAGAAAAAGGTTGATAATGCATCTATAACAGGTTCAATAACATCAATAATATCAAACTTCCCAGTTGATTCTCGAAATTGTTTAATAAATTTCCATGCCTGAGTTTTGAACATACCCATTGGCATTTGGATTCTCGGAGCAAGTGCATTTGCCTGCCATTCCATCCATTCTGTCGCGTCTCTACTATTGCCAGCAACACCACCAATAGCTTGGCACTTAATTCTACTAGCTTCACTATTGTACAAACGCTCAAGTTCAAAAGCCTTTCGATGTTTATCCCAATGAACACACTCATGGATGATGGTATTATTAACTTTACCTAGGTTATACAAAAAATAAGTTTCAGGGTCAACAAATATGGTTTTTTCATTTACATCTACTGACACTAATTCATCTGAGTCTTTATCATAAAACTCAGATGTACTATTATGAAAAAATATTTGGCCAAAAACAGAGCAATCCTTTGTGATATTCCTTACTTCAATATTCAAGCCCATTCCCTTAGCAAGTTCCATTGGATCAACTGGCATGGGTTGTAACAATGCTTTAGGATAATAATCCTTTAAAAACTGTGTTGCTATCTCTTCTAGCTGATTTTTATAAATAATTGGCACAAGAGCATCTGACATAGGTTTGGGTTGTTTATTTTTGTTGGTATACTCAGCTACACTTAAAATTGCAAAGTCATTTAAATTACACTCCAGATTTCCAGAACATTTCAGCGTAAACCACTGACTACAATATTCCGATTCATCATAATGATAATCTGCCTCACGAACTTCCAGTTCAACCCCAACAACGACATCAAATTCTATTTCCATATCTGGTAAATCACTAACAGATACAAACTTTACTTCTATATCTGATAATTCTATACCACCTATCTTTCTAACTCTATATAGCTGTAAATCCAAATTATTATAATTATCCGTGGCATAACTCTGTATAGCAGCATACATTTCATTTTCGAACCTATCTGCCACATAATCCCTAAAAGAACGATTACCCGCCATTACAACAACCCCCTCCAACAGGCAATATAATAAAATATATTTTTCTGACTTTTAACTTTCTTACATTTTTTACATATCCCTTTGGATAATATTGTAACACTCAAAAATAGATGTTTCAATCGTTTTAACTAAATATTCTTGTTATCACAACAATTTTCATGCAATATACATTGTTTTTTACACTTCCAAATGATATAATTTTAAAAGCGACAAATTATTTAGTCGTTATTATTCAAAGTTTTATATTTTATTGAGAGGTGGAAATAGATGCCTATAAGTTACAAAAAATTATGGAAATTACTTATTGACAAAGATATGAAAAAAAAAGACTTACAGATTGCTGCTGGAATAAGCTCTTCTTCCATCACGAAAATGGCAAAAAATCAGAATGTAAACACTGAAACGTTAACTAAAGTTTGCAAAGCACTTGACTGTGATATTTCTGATATAGTTGAGATTGTAAATGACAAACCTCCTAACTAATCTTATCTAAGTTTTTTATTTTACTTAATAGCATATTACTTTCAACTAATTATATATCTTTCACAATGATGTAAAGTTTAAAAAGTTGTTACACTATTTAAATTATTGAAAGTAAGTTTGCAAACTGATTATATTTTATAAAGATTGTCAATTCCAATTAGCACAAGATGATACTGTAAATATATTGCTTAAATCATACAAGCCATCAGATTGTAATCAAAAAAAATATATTATAACAATGATAAAAATCAGGAGGTAAAACCGATACAATGACACCAATAATGAGTTTTTGGCCAAGCATTTATGAAAAGATTTTAAACCAAATTAAATTAATTGAATACCGTAGGACTTTTCCAAAAGACTGCAAATTCGCTTATATGTATGTTAGTAAACCGGTAAAAGCAGTTTGTGGAATTTTATATTTTGGTGAAAAACATACGCTTTCAGATTGGAAAGAAAAATATTCTAATAGTTTTGAGATTTCTACTAGAATTGATGAGTATCTCAAGAATTACAGATATGGCATGGAAATTAAGGGTTTTCAAAAGGTTTATCCCATAACTTTAGATGACTTGCGAAAAAATGTCCCTGGATTTGTTGCCCCTCAATCATATTTACTACTAGAAAATAATAAAAATCTTGCAGAATACTTAGAAAGAAATCTTGTTCTTGTTGGTGAAAAAATTGAAAATGACTTTTCAAATGCCTATCCAGAGCATGTTTGTAAGAGGTATTAAATAATGTTAAAAGTATTTGAAGCGTTTGCTGGATATGGAAGTCAACGTCTAGCCCTAAAAAATGCAAACATACCTCATGAGATTGTTGGTATATCAGAAATCGATGGTGATGTAATTCGTTCATATGCTGCAATCCATGAAAATTTATTGGAAGAAAGAAAAAAGGAATTATTGATTTCAGATGAGCAAATGCTTAATTTTCTAGAAAAAATCAATGTTCCACTCGATTATAAGACTTTTAAAAACAAAGCAAAGAATTTAAAGGGTCAAAAGTTAAAAGACATGTATCTTGCTAATAAACTTAGTAAAAATTTTGGGGATATTCGTACAATTAACCCCGATAAATTACCGGACTTTGATTTTTTTACATACTCATTTCCTTGCCAAGATATTTCTATTGCTGGTTATCAAAATGGATTAGATGCAGACTCAGGGACTCGCTCTTCACTTCTTTGGGAATGCTGCAAAATTATTGAAAAAAAGAGGCCGAAATATTTAATGATGGAAAACGTAAAAAACCTAATCGGTAAAAATCACATAAAAAACTTTGAAGAATTCTTACTCTATTTAAAAAGATTAGGATATAAAAACTATTGGGATGTATTAAACGCTCGTGATTATGGAATTCCTCAAAATAGAGAAAGAGTATTTTGTATCAGTATTCTTGATAGCCATGAAGAATTCACGTTTCCACCAATCAGAGAACTATCTATTTTTATGAACGATCTATTAGAAGATGATGTCCCCATTAATTTTTATTTAAAAAATAATCAAGTAAGTGATGAACCTATTAGTCAAGATTATATTTATTGCCTAGATTCAAATTATTGGAAAGGTACATTTTTAAAAGATTTTCGTACTAAAAAAAGACGACAATTAGTATCAGGACCCGTTCGGGATGATGGAAAATATCCAGCAAGGCGACTAACCCCTAGAGAAACTTGGCGATTTATGGGAGTTAATGATGCCGATTTTGATAAGGCTAGTAAATTAGTAAGTAACACAAGTCTATACAGACAAGCTGGAAATAGCATTGTAGTTCCAGTCTTAGAAGCAATATATAAAAAATTATTTTTACATAAGGAGTGAAAAAATATGACTAACAAAGAACGAATCATTCAATTATTTTATGCTAATGTAAAAGGAAGACGCCCAGACACAACAGGCTCAAACATTCATCATGATGGTAGAGAAGGTCATTGGTTAGAACGCCAATTCGGAATAAGTGCCAACGCATCAAACGAAGCTGATTTATTTGGATATGAATTAAAAAATGAAACCACAAGTAAGACTACTTTTGGTGATTGGTCTGCAAACAGATATATTTTTAAAACTGGTGAATATGTGCATTGTTTTGATGGCAACACTGCCTCTGATCGCCAAGATAGTTTTTGTAGGATATTTGGTAAACCAAACCCACTTAAAGGTGGTAGATACTCTTGGTCTGGGAGCCCATGCCCAACTATTCATGGTTATAATAATTTTGGACAGGTACTTATAATAGATAATAATAAAGACATTATTGCCATATATTCTTATAGCCAAGATAAGCGTATAAACAAATCACAAGTCGTTCCCGTTGAATTACGACAAGACAATTTAGAAATAGCTAGATGGTTTGGAGAATATTCGCCAACTTCTAAACGAACCGACAAATGTCTTCAGGCCAAATTGGAAGATAAATTTAATCATGAGGGTTGGTTTACTTGTAAAAAAGGTCTAGATGGAACATATCAAAAAATTTGTTTCGGAGAGCCTATAACCTATGATAATTGGTTGAACTTAGTCAAAAAAGGTATTGTGTTTTTTGATAGCGGAATGTACCAAGGAAATAAAAGACCATATTCACAATGGAGAGCTAATAATTCATTTTGGGATAGTTTAATTATAGAATGTTATGAATAACAAGGAGGTATATCATGTTTAAGCTAACTAATGAAATTAAAATAGTCATTAACCATATACCTTTACCATGGATTCCAAAAATTGAATTATATTATCCTGATTTGCCACAATTCCCCATTATTTATATCAATACATATGTTAATAAACAGCGAATTCTTGCTTGCCCAGTTGCTGTAAGTTACCAAATAGAAGAGAATTCTTGCAATGCCATATTCACTGTTTTAACTAATGTAGAATCAAATGAACTCACTAATGAAAAAATTAAATTAGAGCTATCTGAGCGTATTGGATATTCAGAAAAAATATCAAAATCAGATGTTATTGAATGTTGCAATGGGAACGAACAATATATAGCTTTATTCACAGATCTTTGGGAGTACATTCAATTTTCATATGGGGAATTTGTTCCCTATGGTAAGTTCTACGAGGAGATTTTTTCAATTATTCGCTTTGTCGCTGCATGGCAACCTAAAACCGGAAGACAAAGTGAAATGCGTATGCTATATAATTTCATGAGTGCTTTTGGTGAAAAAGTTGTAATGCCAAAAAAATGGAGTCATCTAGAGTTTTATGCTATTCCTAACTTATACGATGTATCAAATAGTTGTTTTCTTCAATTTCCAAAATTTTCAACACTTAAGTCTGCAATGAACAAATTATTTGATGAATATTTTATTAAAAATATTAATATTAATGGCATAGAATTTAAAGTGATGGAGCATGCGTGGAAGCAAAACAAAGATAGCTTTATATCAAATGTAACCGATCCTATGTTTTCTAGAGGGATATTATCTGAAGAAGAAAAACTTTATGCTGAAACGTTAGTTGATGCTTTTAATCGTCATGCATGGAGAGCAGCATATTTCATAAGTGCTTTTATGAATATTAAAAATAACTACAGTATGTGGACAAAAAAATTTTTTATGGATTTTTATAAGAATGGAAATAAATTAAAAGGATATTCTGAAAAAGTAATTGCTTGTTTTTTACAACAAGGATTTCTTAATCCTGAAGTAATACCAATTGATACTTGGGTAAAAACTTTCTATGAATTTCCATTAGGGATTAATACTAACACCCAGTTTTTCAATGAATTTTCAAACCTAGGAAAATTAGAACGAATTATTTGGCTTTCCAGTCAATCAAACAAGACCAATATGAAAACTTTCTTTGATATTCTTTGGTGTCAGCGGTATGGAACAATTGGAAATGGAGAACTAAGAGGTATTAATCCTATTGCTTGTTACAGTTGCCAACTTAAAAATAGCTGTGTTGGTGTAGCAAAAAAAAGATTTACTAATGTTAAGCTATTAAACAACTCTTCAAATTCTGAAGAAAATTTATCTGCAATTTTTGAATATAACCCTGAAATAACTTATATTTGTATTTTATATAACGGTGTTCCAAAGAAATGCTATGTTAGAAAAAAAGGCATAGCAACTCTGATAGACGAATTTAGCGGATATATATTAACAGCGCAAAACAAACTATCTGATGATTTATTACATAAAGGTACTATAACTTTTGAAGAATTTATTTTTTCCAAAAATAAAAACCATGAATAAAAAAAAGCATCACCCGCATTGGATACAACCATCTGCGAGTGATGTTTTTCTTATAAAATCCTATATTGACCTAAATAATCAAGCATGCTTTTAGCAACTGCATCAATAACGTTAATACATACTGAATTACCAAACTGCTTATAAGCTTGAGAATTTGAAACAGCAATAATAAATTCTTCAGGAAAGCCTTGTAATCTAGCACATTCTCGTGGGGTTAACATTCTAGGATTCTTCCCATTTTGCTCAATTAATGCTTCGCTTCCATCCTTATAATATCTTGCACTAATGGTGCTCGTATACTTGCTGTTTGAATTAAACAAACAAAAACCAAATCCATTTCCTTTCTTTTTATGTGCTTTCTTTCTTTCTAAGTGACCTTGATACAATTTGTCTGATATTGTAAATCTATCAGGTACTTCCTTTTCTAAAATCATTCCTACATTAACACTGTCATCCACGTAACCCTTTGGATATTTAAACTTCACAAAATCAGCCGGTAGGTAATCTTTATTGAATCCAACAATAATAATACGTTCTCTATTTTGAGGTACCCCAAAGTGGTAAGCGTTCAATACTTCCGGTTCAGGTACGTAATAATTTAGTTCATTGAGAATCGAAAGAATTACTTTCAAAGTTCTTCCTTTATCATGGCCACGTAATTGTTTCACATTTTCAAGCATAAATGCTTTTGGTCGTTTTTCCCTTAAAATTTTAGCAATATTAAAGAATAATGTACCACGCGCATCTTCAAATCCTTTTTTTAACCCCGCTTGAGAAAATGGTTGGCACGGAAATCCTGCCAACAAAATATCATGATCTGGAATATCTTTTTCGTCAATTTGCGTAATATCTCCTGCGGGCATTTCACCATAATTTATCCTATAAGTTTTTTGAGCAAATTTATCCCATTCTGATGAAAATACTGTTCGACCGCCATGGCGCTGAAAACCTAGTCTAATACCACCAATTCCGGCAAACAAATCTATCTGAGTAAATCTACTATTTTCTATGCTTGGTGCAACAAAAGGAGGCTCTGTGGGAAAGGCTAATATTTTCTTATAAACCTCATCTGGAACTTCCTTCTTGTCAGTTTCCCAAAACTTTAATTCTTTTTCTTCTTCTTTGCTTAAACCAAGAGCATCTGAAAATTCCTTACGAGTAACATCTATTTTTTTTCTAATATTTGTTATAATTTGACCTTTTGTCAATTCAATACTCACGCTAGTGTTAGTCATTATTTTATTTCTTCTCCTTCTCCTTTTTTACAATCATCTATGTATAACAATTCTGCTACCTCACAATCAAAGAGCGAACATAATTTTTCAATGGTTTTATAATTAATCCTAGTAGCCTTATCATTATACAGATTAGAAACTGTCGTTCTAGAAAGTTTAGTTCTCTCGTGTACTTCTTGTATTGAAAATCTATGTTCTCCCATCAAAGTTGATAACCTGCAATGAAGTTTCATAATCTCCTCCTTGATAACCAAAATCATATTCATTTTAACATTAATGTTGGTTAAATTCAAGGATATATCATGATAATTAATTATCCCCAAAAAGACTATAATCAAAATTTTTACATGGTAAAAGTCAGTAAATAAATAACATCTGAAATTTATAACTCGAAAAAGCTATTTATTTATCAGCATTTTTACTCTTAATCATTCAATCAATACAAGCAGTATATCAAAGTTAATTATATTTTGATTTAAATACATCTATCCTGTCTTCTCAACCTACCCAAAAGCAATCCTGTCCACTCAACTATGCCACTTTTTCACAGTGGATATATTCCCACAAAGCACTCATTTAACAAGGGGTTATGCCATTCTGCAAATCAGCAAAATACACAGAACCCTTTATTTCCTACACTTTCAAGCTTTCTATTTCTACACCCTTGACATCAATACCACCGTCTCCACATGGCTTGTTTGCGGAAACATATCTACAATAGATAGATTCATTAGTTTATATCCATTTTCTACTAATATTCCTATATCTCTTGCAAGTGTAGAAGGATTGCAAGAGATATATACTAATTCATTTATATTTTTATCTATTACTTCTTGCAAAGAATTTTTGTCTATTCCTTTTCTTGGTGGATCAAAAATTATAGAGTCTATTTTTTCATCACTATTTAATAATTTTGTTAACCCATTTTCTACAGTATCATTTATAAAAGTAATATTTGATATATTATTTTCTTTTGCTGTTTTTTCAGCATCTTTTGAAGATGATTCAGCTAATTCTATAGAAAATATTTTTTTTGCTTGTTTAGATAATATCATTCCTATTGTTCCAGTTCCAGAATATGCATCTACAATATTTTTATTATTTATATTATTAAAATATGAAATTGCTAATTCATATAATTTTTTTGTTTGTTCTATATTTATTTGAAAAAAAGATGTAGGCGATATATTAAAATTTATATCAAATAAATTTTCTTTTATTGTTTCTTCTCCATATAACAAAATATTTTTATTTCCAAGTGCAAAATTTGTTTTATTATTATTAATTGAAATATATATAGAAATTACATTTTTATATTTATTATAAGTATCTTTTAGTATTTTTTTTAACTCTTTTATAATGTTTCCTTTTATAATTACTACAAGCATTATTTCACCATTAGAATTTACTCTTGCCATTAAATTTCTTAACATACCTTTATGTTTTCTTTCATCATAAATAGTTAGTTTTTTTTCAGAAAATCTATTTTTTAAATACGTAAAAATTTTATTAATTTCTTTTGGTTGTAGGTAATTATCTTTTACTTCAAATATTTCATGTGATCTCCTTTTATAAAATCCAGATATTACTTTTCCATTTCTATATCCAATTTGTTCTATCACCTTATTTCTATAATTAAATATTGTGTTAGCTAAAAGTACTTTGTCAAATTGAATATTATCAATTTTCGCAATTCTAGAAAACACCTCTTTTACCATTTCTTTTTTATATTCAATTTGTTTTTCATAGTTTATCATTGCAAAATCACAACCATGATAATCTTCAAAACTTATTTTTTCACTACTTACTCTATCTATTGAAGGCTTTATTACTTTTTTTATAAGTCCTCTTGCATAAGTTTTTTTATTTGAAATTATCTCCACTTTCAATTTATCTCCTGGAACAGACATTGGCACAAAAATTGCAATATCATTATAATATCCTAGTCCTTCTCCGCCAAAAACTATTTTATCAATACTTACCTCTATCAAATCTCCTATTTTCAGCATTATTTCTCCTTATTTATTTTTACATATATTATTTCATCTGATATTTCCATATCAAGCATTTTTTTAGCTTTTATTTCTATTTGTTTTAAATCAATTTTTTTATCTAATTCTAAATTTATTTTATTTATTTCAAAATTTAACTCATCTATTTTTTTATTTAGTTTTTTATTTTCTGACATAAGCTGCATTTTATATATAATTGTCAATGTATATCCTATTCCAAATAAAAAAAAGAAAATAAATAAAATATATATTATATTATTCAATGTTTTATTTTTTTTCTCTTCCATTTAAATCCTCTCGCAAACTCTAAGTTTTGAAGAATGTGCTCTTCTATTAGTTTTCATTTCTTCTTTTGAAGGTGCAATTGGCTTTCTTGTAATTAATTTTATACTTGCTTTATGATTACATACACATATAGGTATTTCCGGTGGACATATGCATTCTTTACTTAATTTTCTAAACTTTTCTTTTACTATTCTATCTTCTAATGAATGAAAAGTAATTATAGCTAATCTTCCGCCTGGTTTTAATAAAGAAATTGCTTTATCAATAGTTTGCTCTAATACTTCTAATTCTTTATTTACTTCTATTCTTATAGCTTGAAAAACTTTTTTAGCAGGATGTTTTTTTGTTTTTTCTTTTATTATCTTTTTTATTATTCCTACCAATTCATCGGTTGTCTCAATAGGTTTAATTGTTCTTGCTCTTACTATTTCTGCAGCTATTCTTCTCGCTCTTCTTTCTTCGCCATATTTATAAATTATTCTAGATAATTCTTCTTCTGGATATTCATTTACTACTTCATAAGCAGATAATTCTTGACTTTGATCCATTCGCATATCAAGTTTTGCATTGTATTTATAAGAAAAACCTCTAGTCGCATCATCTAATTGCTTTGATGATACTCCTATATCCATAAGAATTCCATCCACTTTATCATACCCTGCCATATATACTACAGTATCTATATTTTTAAAATTATCTTGAAATATTTGATATCTACCATTAAATATTTCAAGTCTTTCTTTTGCAAATTTTATAGCATTTATGTCTTGATCTATTGATATTAATTTACCTTTTTCTTCTAAATTTAAAAGAATTCCTTCTGAATGACCACCTCCTCCAAGAGTACAATCAACATATACTCCATTTTTATTAGTAATCAAATTTTGAATTGTTTCATCATAAAGTACTGGTATATGATATTTATCTTCTAAATCCATTCTTCTTTTTATTTCAGACATTCTTTACCGCCTTTTTATTTATTTAAATTCATATTATTTTACATTATTTTTTAAAAAAAAGCAACCAAGCTAGCATTTATAATATAAAAATGGTCGAAAATTATTTTTCGACCAGTATTTCTCCACTTTCACTTACTTTACCGTAAAAAATTTTATTACTTCTCAGATTTTTTACTTCTATTGTTTGACCTTCTATTCCATCTTCCATTGCAATTGCTACATCTTCTATTTTAATTCCATTATAATTAACTTTTATTTTAACTCTTTCACCTTTTTTAATGAGTTTTTTTATTTCAAAATCACTATTACTTAAAATATGATTTTTATAAAAATCATTTTTATAAATCATTGTTTTTATTTTATCTATATCTATTATGTTATTATATGATTTATAATACACATATTTTTCTCTTTTTTCTACTTTATCCAATGTAAAAAGCTCTCCTTTTTTTACATTTTCTTTTAATCTATACTCTATTAATTTTGCTTTTACATCTAAAATAAAATATATTTTTTGTTGAACTTCATTATCAGCTACTATATTTAAAGCAACTCTGTATTTTCCGAGTTTTTTATCTTTAAGTCTAGTACTTTCTAATTCATATTCTTTTTTTCCTTTAGTGATTTTTATTTTATTTCCACCATTAATTATTACTTCTATATAATAATTTTCATTATTATATATTTCTTCTACTTTCTCTAAAATTATTTTTTTTAATTTTATTTTTTCTATATATTCAAAATTTCTTTTTATAATTATTTTATTAGGTATTACAAGTTTTTCATTCGTAATAGATCTTAATTTTAAACTTATATAATCACCATTTATTTCTTTTATACTTCCTGGTTCATTTAATTCTGTTATTAATACTTTCTTGGATTTATTATATTGATCAGTATCAGTAGTTAAAATTATATCGCTTAAATATACATTTTTTCTATTAACTACAACATTTTTTAGTATATTCAATGCAAAAATATTTGTTGTAATAAATAAAAATGATAGCATAACTATCATTTTTATAGAAAATTTATTTATCTTCATTTAATTATCCTCTTTTTAAATTATTAGCCATTTGAAGCATACTATCTGCTGTTTGTATTGATTTTGTATTTACTTCATAAGCTCTTTGAGCTGATATCATATCTATCATCTCATTTACTACTTTTACATTTGATGTTTCTAAATTTCCTTGTAAAAGAGTTCCTAAAGCTCCTTCACCAGGATTTCCAATTATTGCATCTCCTGAAGCAGGTGTTGCTGCATATAAATTTTTACCTAAATTTTGTAATCCAGCTGGATTTACAAAATTCGCTAATGTAATTGTCCCTATCTCTTGTTGTTGCCCATTTATATCAACAGTTACAACTCCATCTTGTCCTATAGATAAGTTAGTGTATTCTGCAGGCACTACAATTGAAGGATCTAATAAAAATCCTTCAGCATTAACTAATTGTCCATTTGCATCTCTTGAAAAAGAACCATCTCTTGTATATGCTACACTTCCATCTGGTCTTAACACTTGAAAAAAACCTCTTCCTTCTATAGCAATATCAAGTTCATTTCCAGTGTTTTTAAAATTTCCTTGAGTAAACAGTTTTTTAGTTCCCACAGCTCTAACTCCATTACCAACTTGAAGTCCTGTAGGCAAACTACTTCCATCACCAGTTGTTGCTCCCGGTGTTTGTTTTGTTGAATACATCAAATCTTCAAAATCTACTCTACTTTTTTTATATCCTGATGTATCTACATTTGATAAGTTATTTGATATAACGTCCATATTTAGTTGTTGTGCGTTCATACCTGTAGCGGCTGAATATAATGCTGTCATCATAATTAAATCACTCCCCAGTAATTTTTATTTCTCCCTATTTCCTTTTAAATTATCGACTATACTTTACCGCTACTTTACATTTTTTTTATTTTTTTTGAAATAATTCTTTTATTCCACCTAAACTACTCATTACACTAGTAGCTTCATATGGCATAAACACTGTTTTATCATTTGAATTTTCACTAATATTTCTAAATGCTTCAATATATTTTAAAGCTACAAGATATTCAACTGATTTTTGTTCATCTTTTACAGTTTCTTTTATTTTTTCAAGTGCTTTTTTCTCTGCTTCTATTACTTTTAGTCTAGCTTCTGCTTGACCTTCTGCTTCTAATATTTTACTTCTTTTATAACCTTCTGCCTTTGCTATAGCAGCATCTCTATAACCTTCTGCTTCTAATATTTGTGATCTTTTTGCGCCTTCTGCTTCTAGTATTGATGCTCTTTTATCTCTTTCTGCTTTCATTTGTTTTTCCATTGCTACCCTTATTTCAGTAGGTGGTATAATATCTTGAAGTTCTACTCTATTTACTTTTACCCCCCATTTATCCGTAGCTTCATCCAAAATTAATCTAAGTTTAGTATTTATCTCATCTCTTGAAACTAAAGTTTGGTCTAATGATAGCCCACCTATTACATTTCTCAAAGTAGTTTGAGTAAGTTTTTCTATTGCTTCTGGTAAATTTGCTATCTCATAAACTGCTTTCATTGGATCTGTTATTTGAAAATATAATAGTGCATTTATTTCTATTGTTACATTATCACTCGTTATAACTCTTTGTTTAGGAAAATCATATACACTTTCTCTTAAATCAATTCTTTTTACTCCTTTTGTATAAATAAGTATTTGATCTCCTCTTTGTTCTACAAAACGCCACGTAATTATTCTAGGAGTATCTATAATAGGTATAATAAAATTAAGACCACTCTCTAAGGTTTTATTATATTTACCTAATCTTTCTACTACTATTACTTCAGCTTGTTTTACAATTATTATTCCACTTGATACAAATATAAATAAAAAAATAATTAATATAATTGACAAAAAAAACATTTACCTTTTCCTCCTTAATTATTTTGGATATATTTAAAGTTTACTGTACTAATCTCTTGTTTGTCAAATTTATTTTACTCTTGACATTTAAAATTATTTATGATAAAAAATATTAGCACTCTATTTTTAAGAGTGCTAATAAAAAAAATAAGGAGGTTTATAGATGAGTACAAAAGAGACATTAAGTTTTCAAACTGAAACTAAAAGATTATTAGACTTAATGATTCATTCTATTTACACACATAAAGAAATTTTTTTAAGAGAGCTTATTTCGAATGCTAGTGATGCTATTGATAAGTTAAAATTTAAGTCATTAACTGAAACTGATTTAATTCCTTCAGATTATAAATTTAAAATAGAAATTATTCCAAATAAAGAAAATAATACTATTACAATTAAAGATTCTGGTATAGGAATGACTAGAGATGAAGTTATAAATAATATTGGTACTATTGCAAAATCTGGTTCAAAAGCTTTTGTTGAAGAGCTTAATAAAGCTACTGAGACAAATGATATTGACATCATTGGGCAATTTGGAGTTGGATTTTATTCAGCATTTATGGTAGCTGACAAAGTAACTTTAATTACTAAATCTCCATATTCTGATATTGCTATAAAATGGGAATCTACTGGTGATGGTTCATTCACATTAGAAGAAGTAGAAAAAGATAGTATTGGTACTGAAATTATTTTACATTTAAGAACAGATAATGAAGAAAAAGAAGAGAAATATTCTATTTATCTAGAAGAATGGAAAATAAAAGAGCTTGTAAAAAAATATTCTGATTATGTACGATATCCAATTCAAATGGATGTTACAAAAGAAGTTCCTAAAAAAGATGCTGAAGGTAATCCAATAGAAAATGAATATGAAAAAATAACAGAAACTGAAACACTTAATTCTATGCTTCCACTTTGGAGAAAAAATAAAACTGATATAAAAGAAGAAGAATATAATGAATTTTATAAAAATAATTTTCATGATTGGAGTGATCCTCTAGCTACTATTCATTATAAAGTAGAAGGAAATATAGAATATACTGCTCTTATTTATATCCCTAGTAAAGCTCCACTTGATTTTTATTCAAAAGAATACGAAAAAGGTTTAAAACTTTATACTAAAAATGTATTTATAATGGAGAAATGTAAAGAATTAGTTCCAGATCATTTTAGATTTTTAAAAGGATTAATTGACTCTAGTGATTTTTCATTGAACATTTCTAGAGAAATTCTTCAACAAAATAGACAATTAAATGTAATTGCAAAAAATATCGAAAAGAAAGTTGTAGCTGAACTTAAAAAACTATTAAAAAATAATAAAGATAAATACATTGAATTCTTTAAAGAATTTGGAAGAGATATCAAATTTGGTATTTACAATAGTTTTGGTGCAAATAAAGACACTTTAAAAGATTTATTAATTTTTGAATCGAGTAATTCTGATAAACCAACAACATTAAAAGAATATGTAGAAAGAATGAAAGAAGAACAAAAACATATTTACTTTGTATCTGGAGAAAGCAGAAGTCAACTTGAAAAACTTCCACAAATGGAAGCCATAAAAGATAAAGGTTATGAAGTATTGTTTTTTACTGATAAAATTGATGAATTTGCTATTCAAATGCTTATGGAATACGAAGGGAAAAGTTTTAAATCTATAAATCAAGGCGATTTAGAACTAGATGAAAATAATGACGATAAAAAATTATTAGAAGAAAAAGAAAAAGAAAATAAAGAACTTTTAGAAAAAATACAAAAAGAACTTGAAGGAAAAGTATCAAAAGTAAAATTAACAAATAGATTAAAATCAAGTCCTGTATGCCTTGTAAGTGGTGAAGGTGTCTCATTTGAAATGGAAAAAGTGATGAATGAGATGCCTAATGCTAATCCTATGGGCGATGTTAAAGCTGAAAGAATTCTTGAAATAAATCCAAATCACGAATTATTTGTTGCTTTAGATAAACTTTATAAATCAAATAATGAAGAAATAAAAGATATTGCATATTTATTATATTCTCAAGCGTTATTAATAGAAGGATTTAAATTAGATGACCCTGTAGAATTTTCTAATAAAATGGCAAATTTAATAATTAAAACTAGCGGATTATTAAACTAAAATATTTAATACACTTCAAATTTTTAATTTGAAGTGTATTTTTTTATTAATTTTCTAATTTTTTTGATATAATATATTTATATAATACTTTAAATAAATAGGAGGTTTTTATGAAAATATTATCACGAATCAAATCTTTTTTTACCCAAACTCTTATTGGAGGAATAACTGTTTTATTACCAATTGGAGTTTTAATCTTTATTTTTAAATTCATTTTTGATTTTATATTAGGTTTTATTTCGCCAATTTCAAATATTTTTAAATTAAGTTTTGAAATAAATAATTCCTTAGCTAATTTAATTGCTTTTTCTATTATTATCGCTCTTTGTTTTATTACTGGATTTTTTATAGCCACTAGACTTGGAAACTTTATTTTCTATCATATAGAAAATAAAATATTAAAAAAATTACCCGGCTATAAAATAGTAACTGAAACAATTAATCAATTTAAAGGTAATTTCAAAGATTCTTTTTCAACTGTGGCTTTAGCTGAAGTATACGGTAATTCACTTTCAACAGCTTTTGTTATTGAAAAGACTGATGATTATTATACTTTGTTTGTTCCAACTGCACCAAACCCTACATCTGGTAATATTTTTCATGTTCATAAATCAAAAGTTACAATTGTTGATGTAAAAGTAGATGAAGCAATGAGATCAATTTTAGCTGTTGGTTCTGGTTCTAAAAAACTTATTGAAAATTATAAAAATAAAAAAATAGAAAATAATTGATAGGAGAATTTATGAAATACAAATTGATAATTTCAGACTTAGATGGTACTTTATTTAATGATTATAAATTTATATCAAAACAAAATCTAAAATCTATAAAAAAATTAAAACAAAACAATATTTATTTTACAATAGCAACAGGAAGAAATCATACAAATGCATATAGAGCTGCAATGAAAACTAATATAAATATCCCTATAATAACAAATGATGGAGCTCTTATTATCGATATTTCAAGTAATAAAATATTGTTTAAAAAAACATTACTTCCCGAAATCTCTAAAGAAATTATTAATATTTTAAAAAAACATAATCTTGTATTTTTTACTCATTTATTTAATAATACTGTATATAATAAATCCATAAATTTTCCTATATCATTTTATAAAAATATTTTAAATATTAATTTTTTTAAAAGTATTTATGAAATTTCTAAAGAAAGAAAAAATTTTATTGAGCTAAATACTGAAACTATTTTAAAATTAATACAAAATAATGATGTATTTAAATTTAGTATCTTTGACAAAACTAAAACTCAAGATGAATTTTTAATAGCTAAAAATGAAATACAATCTTTATTTTCTGACTATATAACTATAACTATGATGAATAAATATGGTTTTGAAATAATCCCAAAAGGTATTTCAAAAGCTACAGGAATAGATTTTTTATGTGACTATTTAAATATTTCTTTAGATAATGTTATAGGCATTGGTGATAATCATAATGATCTTGAAATGATAAAACATGTAGGTCTTGGAGTTGCTATGGGTAATGCAAAAGATTATGTAAAACATAAAGCTGATATAATTACAGATAGTAATAATAATCATGGTGTTTCCAAAATTATAGAAAAAATTTTATAAGATATATTCAGTATATTTTAATAATAAAAAACAGACTTTCAATATAAAAAGTCTGTTTTTTATTATTTTCTCTATATTATTCCTTTTTCTTTTAGCGCTTCTTCTGCTACTTTTTTTTCTGGATAACCTAATACGTCTACTTGATAATTATATTTTTGAAAATCTTCATTTGTAAAGTTTCTATTAAATTCTTTAAGAACTTTTACAATTTCTGGATGAGAGTTTGCAAATTCTGTTTTCATTCTAGGTACTGCATCATACGGTGGAAAAAAATGTTTATCATCTTCTAATACTTTCAAATTATACTTTTTTAACATCCCATCTGTAGCATATGCTACAGCTACATCAATTTTACCTTGTTCTACCGCTATATATTTCAAGCCAGTATCTATTGCTACCTCTTCTTTAAAAGTAAAACCATATGTTTTCTTAATTCCCGGCATTCCATCTGGTCTACTAAAGAAATCAGACAATGCTCCAACTTTTAATTTTTCAGCAACTCCGACAAAATCCGAATATTTATTTAAATTATATTTTTGTGCAAGTTCTTCTTTAACTGCAAAAGCATATGTATTATTAAATCCCATAGGATTTAACCATGTTATCCCTTGTTTTGCAAATTCTGTTACACAATATTCATATATTTTTTCTGGATCTTTTAATCCTGTTCCTTTTAATAAATATTGATAACCTGTACCTGTGTATTCAAAACTTAGATCAATTTGACCAGTTTTTAATGCTTGATTTACTAACATTGTTCCACCAAATTCTCTTACATCTGTTTTATAATTTGTATTTTTTTCAATAGCAATACTTAACATTTGTCCTAGTATTCTTTGTTCTGTAAAATTTTTATGCCCTATTTTTATTATTTCCTTTTTCTTTCCAAATAAACCTGCATAACTAGTAGCAAAAATTATTGTTCCTAATATCATCCATAATATTAAATTTTTTTTCATTAAATCTCTCCTTTTATTTTAATTAATTTTGAATTCCTCTTGGTATTAATGCTTTTTCAATTTTCCCAAATATAAAATCTACAACTATAGCCAAAAGTGCTGAGGGTAAAGCTCCCATTAAGATCATATTATTATTATTCATTGAAAGACCTTTAAAAATAAATTCTCCTAATCCACCTGCTCCAATTAAAGCTGCTATTGTAGCTGTCCCTATATTTATAACAGTTGATACTCTAATTCCGCCCATTATAACAGGCAAAGCTAAAGGTATCTCTATCATTGTTAATATTTGGTTTGATGTCAATCCCATCCCTATTCCTGCATCTATTGCAGCAGGATCTACATTTGTAATACCTATATATGTATTTTTTATAATTGGCAATAACGCATATAAAAATAAAACAAAAACCGCAGGTAGCACACCTATTCCTAAAAACGGAATAATCAATCCAAATAATGCTAAACTTGGTAAAGTTTGGAAAACATTAGCAATATTTATTACTAAATTAGCAATATTTCTCTTTCTTGTAATCATAATTCCTATAGGCACTCCAACAACTATAGCTAAAGTTACAGCCATTCCTGTTATTTCTATATGTTTAATAAGTGCTGCTATAAGGTCATCAAATCTATAATATATAAATTCATAAATATTAAGCTTTTCCATTTACTTCCTCCTTGTTTTGGCTTATAATCTCTTCTTCTATTATACAATCAGGTGAAATTTTAGACATAATATTTAATATACTATTTGGTGTTATTATTCCAACTATTTCATTTTTACTATTTGTTACAGGAATACTTCTAAAATTCCTTGTTGACATATAATTTAATACTTGAACCATATTTGTTTTTTCATCTACAGTAACAAAATCTTTTCTCATATAATCTTTTATTACTTTAGTATTGTAATTTAAAGTTTTTTTATTAAATTCTATTCTCTTTAAAAGTTTTGGTGTAATTAACCCAAGCCCTTTTTGTGGTTTGTCTTTTATTTTATCAACAACAATTAGCATTGTTGCCTCGCTTTCTTTCAATTTTTCTACTGCTCTTGCCATTTTACCTTCTGCATTTATTTTATAAACTTTCTTTCTCATAATATCTTTTGCTAATACTAATTCTGGTTGTCTCCAAAGTCTTTCTTTTCCTATAAAAAATTCTACAAAATCATTTATTGGATTTTTTAATATTTCTTCTGGTGTATCATATTGTACAATTTCACCATTATTCATTACTGCAATTCTATCCGCAATTTTTATAGCTTCATCCATATCGTGAGTTACAAAAATAATAGTTTTATGAAGTTCATCTTGTATTCTTATTATTTCATCTTGAAGTTTTTCTCTAGTTATAGGATCTAATGCACTAAATGGTTCATCCATCAATATAATATCTGGATCTGCTGCTAATGCTCTTGCAATACCTATTCTTTGCTGTTGTCCTCCACTAAGTTCATTAGGATATCTATCATAATATTCTTCAGGATCTAATTCTACTAGCTCTAATAATTCTTTTGCTCTTTCTACCCTTTTTTCTTTTTTCCATTTTTTTATTTTAGGTAAAAGTTCTATATTTTCACCTATAGTCATATGAGGTAGCAAACCAACTTTTTGTATTACATACCCTATATTTCTTCTTAATTGTATTTTATTCATTTTTAATATATTTTTTCCGTCTATTAATATTTCGCCTTTTGTGGGTTTAATTAGTAGGTTTATCATTCTCATTGTAGTTGTTTTTCCACATCCACTTTCGCCTATAAGTACTACTAATTCTCCTTTATTTATTTTAAAATTTAGTTTGTTTATAACATTTTTTTTACCATCAAATGTTTTTGAAACTTTTTTAAACTCTATCATTTATTCCTCCTCATTTTTATTAATACATTATTTTAAATTTTCATTATTTATTTTATTCACTATAACAGTTATAAATTATTTTTATTTTCTTTGTAAAAGTTAATTTTTCTAATAAAGTTTTTATTTATATGTTCAACACATTAATAAAACGTATTACTTTTTTAATAGTTTATCAGCAACTATATTTAAAATATTTCATTTTTTCATTTTTAGATTATACAAATCATTGTATCAAATATACAATAATATTTCAAGTGTAAATTTATTTTTTGAAAAAAGTAATATTTTTTCAAAAAATAAATTTAGTTGTATTTTATAAAAAAATATGATATCTTTATATTAAATTAATTTTTTTGGAGGCAAAAATGAATAAAGGAGGAGCTCGAGAAGGTTCTGGAAGAAAACCTTTAAAAGACAAACTAAAAATCTTTAACTTTAGACTCTCTATTGATGATATTAAAATCATTGATAAACTGGGAGTAGGTAAAAATTCAAGTGACAAATTAAGATATATTTTAAAAAAATATAAAAGTGATAAAATAAACATAAAAACACGTAGAGCAGCATATAAGATAGAAAAATCAAATAATTTTAATTTATTAAATAAAAATTTTAATACTTTTATAGAAGAATGGAAAAATATAAATAAAATAAAATTTTTATTAAATTCAAATCTAAAAAATATTATTAAAAAGAAAAGAATATTAAAAATGAAAGTATTTATAGAAAATAACGAACATTTCAATCTTTTACAAACTTTAAATTGGAATATTAATTTAATTGATTTTGATTTTAAAAAAATAGAAATTTATAAAATATTTTTTCAAAAAAATGATATCACTCTTGAAATGTTTTTTTCTGAAAAAGAAGAAGATTTAAAACATAATTTAAACTCCCTAAGCGAAAAAGAAGAAGAATTATTTTCTTTTCTTTTTGAAGATTTAGAGCAGTTTATTGCTACCTTTAAGCTCGAAATAGAATCTGAAATTCTTTTTGATAAAACATATTCAAATGGTGATATTTATAAATATCTTGAATATGAAAACATTACTATTATTGAATTAGAATATATAAAAGAATTAGATATAGCCATTCTCACTACTTTAAAACCTATAGAAAACGTCTGAAAAAAATAGACTTTATTAATAAAGTCTATTTTTTTTATTCTAATAATAATTTTTCTATATATTATATCATTATATTTTTACCTCTTTTAAAAAAATGTTCTATTTTTATTTAAACAATTAATTATAAAACAAAATATTTGTATTTATGTGCTGATTTAAAAAACAAATTCTATTTTTTTACATTTTTTTATTGACATTTTTTATTTTTTATAGTATACTTTTATCGTTGAGTAAGTCACTATTAAAAATGACTTATCCCACTAAATTAGAGTTTAGACTCTAATTTATCCCTTTAATGACCTCTTAAAATCCCTAAAAAAATTAAGAAGAGTTGCCTTTCCCTGGGCAGCTCTTCTTAATTTTTTTGTATAAAATAAAGGTATTTTAAATATTTTTTTGTATAAAATAAATAGAAAATATCTATTTAGGAGGTTTTTTATGAGTTTATTTTATTTCTTTTTAATTATCTTTCTTATATTACTTTCTTTAGAGATTATTACCCCCGGTACTTTTATATTTTTTTCCTTTAGTATCGCAGCTTTAATCACTTCTTTTTTTACATTTTCTATAAAAAACACTAATATCCTTATGTTTATTTTTAGTATTTTTTCTATTATTACTATTTTTTTATCTAAAAAATACCTTAATAATTTTATTAAAACTAATGATACTAAAACAAATATCGATAATTATATAGGACAACAAGTGAAAGTCCTTAAAAAACTTGATAATAATAATTATAGAATTAAAATTTATTCTGAAGAATGGAATGCTATATCAAATTCTGATTTAAAAAAAGATGATATTGCTATAATTATTAAAAAAGAAGGAAATCATTTGATTATTAAGGAGGCGCATAACAATGAATAAGAAATACGAAATAGAAAAAGGAGCTCCCTTATATGGTGCTACTGTTTTTTCTACTGGGGTAAATTTTGCTGTTTTTTCTAGAAATGCTACAAAAGTTACTTTAGACATTTTTGAAAATTTTTATGATAAAACACCTTGTCATTCTTTTGAATTTGATCCTAATATCAACAAAACAGGAGATGTTTGGCATATATTTATAAAAGGTTTAAAATCTGGAAAATACTATACTTATAGAGTAGATGGACCATATGATATCGATAATGGACATAGATTTAATCCTCATAAATCTTTAATCGATCCATATGCAAAAGCTCTTTCAGGTAAATTTAATTTTGATGATGAAGCTATGTATTCTTATTTTAAAACTGAACACAATACTATTTCAGAAGTTGATGCCTCTCAATTAATAAAAGGTGTTATTATTGATGATAGAAGTTATGATTGGGAAGGTGACAAGCATCCGCGTACAGAATTTAAAGATACTATAATTTATGAAATGCATGTAAGCTTATTTACTATGAATAAAAATTCTAATGTAAAAAATCGAGGAACTTATAGAGGAATTATTGAAAAAGTTGATCATTTAAAAGAGCTTGGAATTACCGCTATTGAACTTTTACCCATTTTTGAATTTAACCAAGATGAACTTATTAGAACTAATCCTGTAACAGGTGAACTTCTTAAAAATGTTTGGGGATACAATCCTATAGGTTTTTTTGCTCCTACTGGTAATTATCTTTCAGGAGATCAAACTTATGGAATGCGAATAGGACAGCAAGTTTTTGAATTTAAAGATTTTATAAAAGAAATGCATAAAAATGGAATAGAAGTTATTCTTGATGTTGTATACAATCATACAGGTGAAGGAAATGAAATGGGGCCGACTATTTCTTTTAAAGGCTTTGATAATTCTATTTATTATTTATTAGAAAAAAATAAAAGATATTACGCTAATTATTCCGGTACTGGAAATACTTTTAATTGTAGCCATACAGTAGTAAAAGAATTAATAATAGATAGTCTTAGATATTGGGCTACAGAAATGCATGTAGATGGATTTAGATTTGACCTTGCAGCTATACTTGGTAGAGATAGTAACGGTAAATGGATTGGTGATATGTCTCTTTTAAAAGATATTGCTGATGACCCTATATTATCTGGTACAAAGCTTATTGCTGAAGGCTGGGATGCTGCTGGTGGGTATTTTGTTGGTGAATTTCCTGTCGGTTGGGCTGAATGGAATGGAAAATTTAGAGATTGTGTAAGAAAATTTATTAAAGGAGACCCTGGCCAAGTTTCTGAGTTAGCTACTCGTATAGTTGGAAGTCCAGATTTATTTTATAAATATGGTAGACGTCCTTATCATAGTATAAATTTTATTACTGCTCATGACGGATTTACTATGTGGGATTTAGTATCATACAATGAAAAACATAACTTCCCAAACGGTGAAAATAATATGGATGGTGCTAATGATAATTATTCTTGGAATCATGGTATTGAAGGAGAAACTAGAGATATAAAAATTATAAATTTAAGAAAAAGACAATTAAAAAATTTTATGGTTATACTAATGCTTTCTCAAGGTGTCCCTATGATACTTATGGGAGATGAATTTGCAAAAACTCAAAGAGGAAATAATAATGCTTATTGTCAAGATAACGAAACTAACTGGCTTGATTGGTCTAGAAAAGATTCTTTTAGAGATATCTTTAGATTCTTTAAAAAAATGGTAAACTTTAGAAAAAATCATCATTCTTTAAAAAGAGCTCATTTCTTTAAATCAGAGGATATTAGCGGAAATGGTGTGGCAGATATTACTTGGCATGGTACAAAATTAAATAAACCCGATTGGAGTCAAGATTCAAGAACTTTAGCTTTTATGATAAGTGGAGAAGATTTTAGTGATGACAGTCCTAATGATAATGATATTTATGTAGCCCTTAACTCATACTGGGAACCATTATGGTTTGAACTTCCAAAGCTTGAAGGTAAAAAATGGTATCGAGTTGTTGATACCTATAGAAATTATGGTGATGATTTTCTAGAAGAATATGAAGAAATCAAAGATGAGAAATATCTTGTAATGGATAGGAGTTCTATTATTCTTATTTCTAAAAAATTTAAAAAAGAAAAATAAATATTTTAATAAATTTAAAAGGCTGTGAAATATCACAGCCTTATTTATATTCTAAATTATGTGCTAAATTTTTCCTAGCTTCATCAAATGTTATGTTTTTTCTTTTTGCATAGTCTGCCACTTGCTCTTTATCTATTCTGTTAATATTAAAATATTTTGAATTTTTATTTGCAAAATAAAGCCCACACACACTAGCTGTAGGAAACATTGCATAATTTTCTGTTAATAAAATATCTATTTTATTTGTTATATCCAATAGATCAAATAATACTTTCTTTTCAGAATGGTCTGGAATAGATGGATATCCAATAGCTGGTCTAATTCCTTGATATTTTACTTGCAGTTCTTCACTAACTGTTAAATTTTCTGAGTTTGCATATCCCCAGATATCTTTTCTTATCTTTTCATGTAAAAGTTCTGCAAATGCTTCGGCTAATCTATCTCCTAGTATAGTATACATTATAGCTAAATATTCATTACCTTCAGCTCTATACTTTTCTGCTAATTCTTTTACTCCGTGTCCAGCTGTTAATGCAAAAAATCCTATATAATCTATTTTATTACTGTTTTTAGGAGCTATATAATCTACTAAAGATAAATTATTTTCTAAATCTTTTTCTTGCTGCCTTAACATATTAAATCTAGCTAAAACTTTTTCTTTTGATTCATTATTATAAACTTCTATATATTCATCTACACTATTTGCAGGCAAAATACCATAAGCAGCATTCGCTTTAAATAATTTGTTAGATATTATATCTTTTAATGCAATTTGTGCATCATCATATAATTTTTTAGCTTCTTCTTTATATTTTTCATCTTGCATTATTTTTGGATATGGTATTTTCATTTGCCAAGCAAAAAAGAAAAAAGTCCAATCTATATATTTACTAATTTCTTCTAACGGATATTCATAAATATAATTTATTCCCATAACCTTTGGCTTATAAATTTCTTCTGTTTCCCAATCTAACTTCAATCTTTTCTTTTTTGCTTCTTTAAAAGATAATAATGTATTATTATCTCTATTTAAAAATTTATCTCTGATAATTTTATATTCTTTATTAATTTCATTTATAAAATCTTTTCTTTTTTCCTTATTACAAAGTTTTTTTGCCACAGGAACAGTTCTAGATGCATCTAATACATGAACTACACCTTTTGAATAATACGGTGCTATTTTTACTGCTGTATGTTTTTTAGAAGTTGTTGCTCCACCTATCATTACAGGAATATCCATATTTTCTTTTTCCATTAAAGTAACAATATTTGTCATTTCTTCTAATGAAGGAGTAATAAGACCACTTAATCCTATTATGTCTACATTTAATTCTTTAGCTTTTTTAATTATTTCTTCTGCTGAAACCATTACTCCAAGGTCAATAACTTCAAAATTATTACAAGCTAAAACAACACCTACTATATTTTTACCTATATCATGTACATCTCCTTTTACAGTAGCCATAAGAACTTTCCCTTCATTTTGAGAATCGCCCTCTTTTTTTTCAGCTTCTATATATGGCATTAAATACTCAACTGCTTTTTTCATTACGCGAGCACTTTTTACTACTTGTGGTAAAAACATTTTCCCACTACCAAATAAATCCCCTACAATATTCATTCCTGCCATTAATGGTTTTTCAATTATCTCTAAAGCACTATTATATGAATTTCTTGCTTCTTCTACATCTTCATTTATATATTCAACTATTCCTTTTACAAGTGCATGAGATAGTCTTTCTTCAATTGTTCCTTTTCTCCATTCTAATCTTTTACTATTATCTTTATTATTACTTTGCCCTTTTACTTTTTCAGCATAATCAATAAGTCTTTCTGTTGCATCTTCACGTTTATTTAATATTACATCTTCTACATACTCTAAAAGCTCTTTTGGTATATCATCATACACTTGAAGCATATTAGGATTTACTATTCCCATATCCATTCCATTTTTTATTGCATAATATAAAAAAACAGAATGCATAGCTTCTCTTATAATATTATTTCCTCTAAATGAAAAAGATATATTACTTACTCCTCCACTTACTTTTGCATATGGCAAATTTTCTTTTATCCATTTTACCGCATTTATAAAATCAACAGCATAATTATTATGCTCTTCTATTCCTGTAGCTACTGCTAATATATTTGGATCAAAAATTATATCTGCTGGATTAAATTTAACTTTTTCAACAAGAATATCATATGATCTTTTACAAATTTCTATTTTTCTTTCATATGAATCAGCTTGTCCTTGTTCATCAAAAGCCATTACTACAACAGCAGCACCATATTTTTTTATAAGTTTAGCTTGTCTAATAAATTCTTCTTCTCCTACTTTTAAACTTATTGAGTTTACTATAGATTTTCCTTGCAAACATTTTAGCCCTGCTTCAATCACTTCCCACTTTGAAGAATCTATCATAATTGGTACTTTAGCTATTTCTGGTTCACTCATTACAAGATTAAGAAATTTAACCATTTCTTCTTTTGCATTAAGCATTCCATCATCCATATTTATATCAATAATTTGTGCTCCACCCTCTACTTGATCTCTTGCTACTGACAAAGCCTCTTCATATTTTTTTTCATTTATAAGTCTTAAAAATTTTCTTGAACCTGCTACATTTGTTCTTTCTCCTACATTTATGAAATTCATTTCTTCATTTATCTTTAATAATTCTAACCCACTTATTTTAGTTTCTATTTTTATTATTGGAATTTCTCTAGGTTTATAATTTTTAGCAATTTCATATATTTTTTCTATATGCTTTGGTGTTGTTCCACAACAACCTCCTACTATATTTACATTTCTATTTTCAAATAAAGGTTTTAAAAAATTTGATGTTTCTTCTGGAAGTTCATCATATTCTCCAAATTGATTTGGAAGTCCCGCATTTGGATATACGCTAATATATAAATCTTCTGTTTTAGAAAGTTTTTCTATAAATGGAAGTAAATCTTTTGCTCCAAATGAACAATTTAATCCAACACTAACAACATTATCATTTTTTATAGATGTAACAAACGCTTCAAGTGTTTGTCCCGATAATGTTCTTCCACTTTTATCAGTTAATGTCCCAGATATCATAATAGGAAATCGAATATTTTTTTCTTCCATATATGTATTTGCCGCAAATACAGCTGCTTTTGCATTTAAAGTATCAAAAATTGTTTCAATAAGAATTACATCTATGCCACCAGCTACTAGTCCATCTATTTGTTCTTTATATATTTCTACTAAGTAATCAAAATCCACATCTCTATATCCCGGATCTTCTACTTTTGGAGATAATGAAGCTGTTTTATTTGTAGGCCCTAAAGCTCCTGCTACAAATCTTGGTTTATCTGGTATTGAATATTTTTTTGCTATTTTTTTTGCTATCTCAGCACCTTTTTTATTTAATTCAAATACATGATTTTCAAGTCCATAATCTGCTTGTGATATTCTATTTGCATTAAATGTATTTGTTTCTATAATATCCGCTCCTGCTTTTAAAAACTCTTCGTGTATTTCTGATATTATTTCTGGTTTTGTTATATTTAACAAATCATTATTTCCTTTTTGATTAAAAGAAGAATTTTTAAATTCTTTCCCTCTATAGTCTTCTTCTGAAAGTTTATAATTTTGAATAGATGTTCCCATTGCACCATCTAAAATAATTATTTTCTTTTTTAATTCTTCGTATATACTCATATCCCACCTCAAAAAAAATTGTACTACTAATGTAGTTTTATTAACAAGAATATTATCATATTCTTATACATATGTCAAAAGAATAATATTTATCACTATAATAAATAAAAAAAACTGCCAAGCATAATAAAACTTATTATTATGTTTGACAGATTTATATTAATTATATATTTTCGGGTAATATTTTATTTAAAACTACTCCAAAGAGTGCTGCTATTGCAAGTCCTGAAATACTCACTGTTTTCCATATTATAATATTGTTTATTCCTATTCCAAATACAAATATTACTGCTGCTATTATTAAATTTCTACTATGTGCAAAATCGAGTTTAGCATCTACTAGAGTTCTTACTCCTACACTTGCTATCATTCCAAATAATATTACTGATACTCCTCCCATTACAGGCACAGGTATAGTTTGTAATATTGCTCCAAATTTGCCTATAAAACTAAGTGCTATTGCATAAACTGCTGCTATTCTAAGTATTGCTGGATCGTATACTTTTGTTACTGCAAGTACTCCTGTATTTTCACCATAAGTTGTATTTGCTGGACCACCTAATAATCCTGCTACCATTGTTGCTATCCCATCGCCAAGCATTGTTCTATGAACTCCAGGTTCTTTAAAAAAATCTTTACCTACAACTGCACCATTTGTTGTAATGTCTCCTATATGTTCTATAAATACTACTAACGCTATTGGTGCTATTGCCAAAATTCCACTAAGAGTAAATTTTGGTAATGTCAATAAGTCTTTTGTAGCTTCTGCTGAAAATCCTATCCATTTAGCATTTACTACTGCTGAAAAATCTACAAGCCCTAAAAACATTGCTACAATATATCCAACTGTTACTGATATTAATATTGGTACTAATCTAAAAAATGATTTTTCCATTACAGATATTATTATCATTGTAATTATAACTATTAATGCTATTATTAAGCTTTTCAAATCAAATTTTCCATTTGAATATCCTGCCATATTTATTGCTATTGGACTAAGTCTAAGCCCAATAACCATAATAATTGGTCCTGTTACTATTGCTGGGAAAAACGATTTTACTCTTTCTACTCCAAATCTTGATATTATTAATGACATAAGAACATATACTAATCCTGCTGATATTACACCACCCTTTACTACTGATAATCCATCTTCTTTTAAAACTAAACTAATTGCTCCAATAAATGCAAAACTTGATCCTAAAAATACTGGTACTATTTTTTTAGTACATAAATGAAATAATAAAGTTCCTAATCCTGCAGTAAGAAGTGCTATTGCAGGATTTAATCCTGTAAGGAATGGTACTAAAACCGTTGCTCCAAACATTGCTAATACATGTTGTGCTCCTAATAAATACTTTGCTTTGTTCATAATTTCCTCCTATTTCATTTTAATCTATTAAAATTTTTTATATATAAAAAAAAGGTCAAATGTCTAAAGACACTTAACCTTAATAAATAAGTTATATATTAAAATATTAAAAACAAAAATTAAAGATAATAATGTTATAAATGAGAAATTATGCTTATTTTTCTTGAATTTTTTTAAAAAAAACATCTCTTTTTTCATTATAATCTTCTCCTTTTAAAAATTCAAAATATTATATCATATATTATATTTTTGTCAAGTTAATTTTTATAAAAACATTATAAAAATATAATATTTATTATTATTTAGTTACTATATATTCTTTTATATTTATAATAATTATTAAGTACTTTTTCTACATAACCTCTTGTCTCTGTATATGGAATTTTTTCTATAATTAAATCACCATTTTTTTCTTTTAACCAATTGAGTACATTTCCAATTCCTGCATTATAAGAAGCTGCTATCTGTGAAATATTACCATTTACTCTATCACTTATCCATTTTAAATATTGTGTTCCTATTTTTATGTTTGTATCTGGTTCTAATAATTTTTCTATAGTTATGTTGTTATCGAACATCTTTGCAGTCGGTAAAATTATTTGCATAAGACCATAGGCACTAGCTCTTGATACTAAAGATTTTCCAAATAAACTTTCTTGTTTTATTATACTATAAATCAATTCTTCTTCAATTCCATATTTTTTAGAATATTTTGATACTATTTTTTGATAATATTTTGGATATAACATTTTTTTTAATTCTTTATAATTATAAAATTTTCTATAATTAAGTAAAGAATTTCTAATTGCTTCATTATATGAAGTGTTTTTTTCAAATACTTTTGATATTAAATACTTTTTATATAAATCATCTTCTGGTGAAAAGTCATAATATTTTAATTCTATCTTTAAATACAAGGGGTTATTTAATTCTAATATTTTTTCTATTCTTGTATTAAATCTCTTATATTTCTCATTATATTTTTGTATTGGAAAATCTTTTGCCTTCTCTTTATAATTTTTTATTTCAATAGCTTTTTCATAATAATATGTATTTTGATTGAAAAATATAATATAATCAAGATATCCTTGTTTTTCCATACTATATAATTTATATCTATAAAACGCCGACAATTCTGAATAAGGATTATTTTTTATATAATTAACTAATAATTTTTTTAATTCCTTATATTTTTTTTGAGAAAAGTATATATTATATAACAATTGATATGCTTCTTTTTTATTACTTTGTAATAAATATTTTTCTGCATTATCATAATCTTTTTTAAAATAATACATTCTTCCTATTAAATGTATACTTTCTTTTTTAAAGTAACCTTCTTTTACGTTTTTGAAATAAGTAATTGCATTATCTAAATCACCTTTTCGTCTATATCCACTAGCCAAATAATAATAAATATACGAATCTATTTTCTTATTATTTTTATCTTTTAGATATAATTTTGAAATTTCAATTAATTCATTATAGTGTTTTGAATAATATAACATTTTTAATACGCTTATATTGGCCCACATATCTGATTTATTTTCAAGATATTTTCTATATAAAATTGATGCTTTATAATATTCACCTTTACTTTTAAAATATTTTGCTAATTTTAATCTGTCTTCTATTTTTAAGTTATCATAATTTTCATCTATATTATATTTTGTATTAAAAACATATCTATAATATTTATCTAATTTTATTAATTCTTTTAATGCAGTTTTTTCGTATTTGATAATATCAATATCAAAATAATCTATATATAACTTTAAAAAATATTCTTTTGCTTTTTCATAATTATTCATTTTTAAATAAGAGTAGGCTATATAATAATTTTTTTCATATTCGAAATATGATTTTTTATTTTTTTTAAAATATCCATTATTATAATCAGCTTCTAAAGGAATATACTTTGTTTGTTTTAAAAATTTAATTGCTGTTTCATAATTTCCCGTATAATAATAACTTAGGCCTATATAATAATACAAATATGTTGATTTAATTAAATTTGATTTTTTATATTCTATATTAATTTTTTTAAATTTTTCTATTGCCTTTTTATAATTTTTATTATTAAAATCCTTCATCCCATTATCAAATAACATATAGTCATTTATATCTACTGCAAATACAACTAGATTGGTTATTATAAATATAAATAAAATTATTTTTTTCATTATACCACCTCTTTTAAATTATAACATTAAATATATATAATTATAAATATATTTATAATTATATTGCAAAAAAATATTTTTAAGGTATAATATATTATCAAATAACATAGGAGGTATAATATGTTTTTTAAAATAATTGGTTTATTAGCTGCAGTTTTAACTACTTTTTCATTTTTACCGCAAGCTATAAAAACTATTAAAACTCAAAATACTGAAGGACTCTCTTTAGGTATGTATTCTATTTTTACAACTGGAGTTCTTTTTTGGATAATTTATGGTTTTTATTTAAAAGATATTGCTATTATTTCAGCTAATATAATTACATTTATTTTTGCAATATCTATTCTTATAGTTTTAATAAAAAATAATTTTAAAAAATAAAATATTCTTGACATATTTTTTTTATCATAGTATTATTGTTGTATATATTATACTACAATAAAAAGGAGAGAGAGATGAGTATAAATAAATTTGCAGTCTATCATAAAGCAAAATCAAATTTTGCTTATTTAACAACTGATAATAAAGTTCATATAAAAATTAAATGTGCAAAAAATGATGCTGATAACGTATATTTAATTTTTGGTGATAAATACGAATGGCATAAAAAACAAAAAATAAAAATGAAAAAAATTTCTACTGATAACGAATTTGATTATTATGGAATAAAAGTTTTTATTGATAGTAAAAGACTTTCATATTATTTTGAAATAGAAAAACATCACAAAATTTATTCTTATACAAATTTTGGTTTTTTTGATAATATAAAACAAGATGAAGCTTACCTTTTTGTTTTTCATTTTCCATATTTACATTTCGAAGAAAAAAACAATACTCCTACTTGGGTAAAAAATGCTATATTTTATCAAATTTTTCCTGAAAGATTTGAAATAGGTAATCCAGAATATAAAGACTATGTAAATGCAAAATGGGAAGAAAAACCAAAATACAATAGTTTTCATGGTGGTGATTTAAGAGGGATCATTAATAGACTTGATTATTTAAAAGAATTAGGAATTACTGCTCTTTATTTTACTCCTATTTTTAAAGCACCTTCAAATCATAAGTATGATACCATTGATTATATGGAGATAGATCCACATTTTGGTACAAAAAAAGATTTTAAAGAATTAATAAAAAAAGCCCATTCATTTGGAATTAAAATAATTCTTGATGCAGTATTTAACCATACTGGAGATAAATTTTTTGCCTTTCAAGATATATTAAAAAATCAAGAAAATTCAAAATATAAAGATTGGTATTACATTAAAAAATTTCCAATTGATTTGGAATATTTAGAAAAGAAAAGAAAAGAAAAAGGTTGGAAAGATTGGTATATCGACGAAAAAACTGGCAAAAATATTTTACCTTATGAAACCTTTGCCCATACTCAACACATGCCAAAATTAAATTTATTCAACAAAGATGCTAAAGAATATATTTTAAATGCTGTTAAATATTGGACTAAAGAGTTTAATATTGATGGTTGGAGACTCGATGTAGCAGATGAAGTTCCTCAATCATTTTGGAAAGAATTTAGAAAAGTAGTAAGAGATATAAATAAAGATGCTTATATTGTTGGTGAAATATGGAGTAATTCTGAAAATTGGCTAAATGGTGACCAGTTTGATGCTGTAATGAATTATGGTGTTACATATCTTTGTACTCAATATTTTGCAGAAAATAGAATAAATAGTATTGAATTTCTTGAAGGTATCAATAGTTTATTAATGAAATATCAAGAACAAACTAATTTTTCAATGTTAAATCTCTTAGATTCTCATGATACAGCTAGATTTTTAAATAAATGTAATTTTAATGAAGAAAAACATTTATTAGCACTTACTTTTATAATGACATATATTGGAGCGCCTATGATATATTACGGTACTGAAATTGGCATGGATGGAGAACACGATCCTGATTGTAGAAAAGGTATGATTTGGAATAAAAATAAATGGAATATGAAATATTATAATTATATAAAAAGATTAATTAGAATAAGAAAAGAAAATATCGAATTACAAGAAGGAGAATTTATTCCTCATTTTAATAAAAAATTACTTTCTTTTGAAAGGATTTATAAAAACAATAAAATTTTAGTTATTATAAATAACAGTAAAAAAGAAATACGATATAAATTAGAAAATAACTATACTCAAGAATTAATAACAAATAAAATAATAAAAAAAGAAATTATACTACAACCTTATCAAGCTGCAATTTTAAAATAATAATATTTAAATAAAAACCTTCTAAAATTATTAAATTAATTAGATTTTAGAAGGTTTTTTAGTTAAATTTCACTTGATATCTCCTGTAATGCTAGTTCTAATTGGTTTATACTACTTGAATGCATTCTTTTTAAACAAATATCATTTTTTTTACAGACTGCACAACATTTTTTAGATATTTTATGACTTACTGTCCCTGTAAACATCACTACAGCATCAACATTTTTAATCTTTTTATTAAAATTAGGTACATTTTCATTAAAAATTTTACATTTAAACCCATATTTTTTTGAAATATTTTTATATTCTCTTTCTATTCCTTTTATTCCACCTGCTATCACTATGCACATAAATTACACCTCACATTTATTTTGAATTTCAAAATTTTTATATTCAAAGTATAATACATTGTTTTAATTTTGTCAATATTCTTATTTAAAATTTGATTTTTGATTTCTTTTGAGGTAAATTAATAATATAGAAGTTTATTTTGTTAATAAAAAAGTATAACATTTAATTTTTATATATTATAAATTATTATTTTTTTCACAAAACAACATAAGGAGGTTTATTTTATGAAAATAATAACAAACGATATCAAAAAGGTATTAGATGAAATTCACAAATTAGAAAATGCTCTTGAAAAAGCTTATGCTGAAGAAAATCATATTCTAGTAAAAGAGTATACTAAAAAATTAGAAACATTAAATGAAGAATACGCTTCTCTTAGAAAAAACCGACATGACAAGATAAATGCATAATTTTTAAAGAGACTTAAATGTCTCTTTATTTTTATTTCAAAAAAATTCTTGACTTTTATAGTATATTATAGTATAAATTTAATATAACATATTTTTCTTATGCTATAAATAAGAAATTAAGGGGGGAGAATTTTGCAACTACCTACTAAAACAAAAACAGGGCTTAAAGCTTTAATATATATTGCTATGCAAAACGAAAAATATAGATGTAGTATTAAAGAGATCTCTGAAGAACTAAATATATCTAATAGATATCTCGAACAGATTTTTAGATATTTTAAAAAATCAAATATTTTAGAAGGAAGTAAAGGACCTAATGGTGGATATAAATTACTTAAAAAAGCAAATAAAATATCATTATATGAAATAATTTCTTTATTACAACCAGAATTAGTTAAAAAAGATATCTTTGAAAATAAAGATAAATATGAAACATCTATTAATATTACTTTATCAAAACCACTTGACGATTTAATTATCAGATTTTTAAAAAAGATATCCTTACAAGATTTGATAGATAATTTTAATTTAGAAGAAAACTATATGTATTATATTTAAGGAGGAAAAAATGATTTATAACAACATTTTAGAATTAATAGGAAAAACACCAATTGTAAAATTAAATAGTATTAATACTTTTGGAACAGAAATTTTAGTAAAATTAGAGTCTTTTAATCCAGGCGGAAGTGTAAAAGATAGAATTGCTAAAAATATGATTGAATCAGCTGAAAAACAAGGATTAATTAATAAAAACACCATGATAATAGAACCTACTAGTGGAAACACTGGAGTAGGACTTGCTATGACTGCTGCTGCAAAAGGATATAAACTTATTCTTACAATGCCTGATACAATGAGTATTGAAAGAAGAAATCTTTTAAAAGCTTATGGTGCTGAACTTGTTCTTACTGATGGAAAGCTTGGAATGAAAGGCGCTATTGACAAAGCTATTGAATTAAATGAAACTTATGAAAATTCAATAATTTTACAACAATTTGAAAATCCTGCAAATCCTGATGTACATAGAAAAACTACTGCTATTGAAATATTAGAAAACACTGAAAAAAATATTGATATTTTTGTAGCTGGTGTTGGTACTGGTGGGACTGTAACTGGTACTGGTGAAATATTAAAAAAAGAAATTCCAACTATAAAGGTTATTGCTGTAGAACCTGAAAATTCTGCTGTACTTTCTGGAAATGGCCCAGGACCACATAAAATTCAAGGTATTGGAGCTGGATTTATACCTAAAGTGTTAAATACAGATGTATTTGACGAAGTCATTCAAGTATCAAATGAAGAATCTTTTAAACACGCTAGATTATTAGCTCAAAAAGAAGGGATTTTAGCTGGAATTTCAAGTGGAGCTGCACTTGCTGCTGCTTTAAAATTAGCTCAAAAAGAAGAAAACAAAGGAAAAAAAATATTAGTAATATTACCTGACACTGGTGAAAGATATCTTTCAACTGGAATATTTGAATAAATGACAAAATAGAAAACAAGTCTCTATCTATTTGACAGAGACTTGTTTTTTTATATATAAATTTATCCCTTTAATTACTCTTTACTATACTCTACTTCTTTATTTCTTATAAATAAAAAATTTCCAAGTGCTAAAATTGCTACTATTATTCCTATCGGATATGCAATTTTTTCAGATATTTTAAATCCTTCTTTTGCTATTAAAATATATGTGATGATTACAGAAGTCATAAAAGTTGCTGGTATTGCTGCTATCAAATAATTTTTACCATTATTTTTTAAATAAACCGCTCCTGCCCATAATGCTATTGTTGCAAGAGTTTGATTTGACCATGCAAAATATCTCCATAGTATCGTAAAATCTACAAAACATAGTACAAGTCCAATTGAAAATAAAGGGATTGCTATTAAAAATCTATTTTTTACTGGCCCTTGTTTAAATTTTGTTGCATCCGCTATTGCAAGTCTTGCACTTCTAAAAGCTGTGTCACCAGAAGTTATTGGTGCCGCAACTACTCCAAGTAACGCCAATGCTCCTCCTATTTTCCCAAGTAGTGAATTTGATATTGTATTTACTACTACTGCTGCACTTCCTGCTGCAGCTAAATTTTTTGTACTTCCAAAGAATGCCATTGCCGCTGCTGCCCAGATTAATGCTACTATACCTTCAGCTACCATTGCTCCATAAAATACTTTTCTTCCCTCTCTTTCACTTGTAATACATCTAGCCATCATTGGTGATTGTGTAGCATGAAATCCTGATATTGCTCCACATGCTATTGTTACAAATAAATATGGAAATGGATTTAATGTTTTTGGATGTAAATTTTGTAATGTTAATTCTGGGATATGATAGCCTTTAAATATTATTCCGCCTGCTATTCCTATTCCCATTATAATTAACGAAGCTCCAAATATAGGATAAATTTTAGCTATTAATTTATCTATAGGAAGTACTGTAGCTATTAAATAATATATTATAATTATACCTACCCACCAAAATTTTCCTATTCCACTAAGATTTGCTAAAATTGCTGCAGGACCATTTATAAAAACTACTCCAACTAAAACTAATAATACCACTGAAAATACTCTCATAATTTGTTTTGCGTTATTTCCTAAATAAATACCTACTACTTCTCCAATTGTAGCGCCATCATGTTTTAATGATAACATTCCTGACATATAGTCATGAACTGCTCCTGCAAATATTGTTCCAAATACTATCCACAAAAATGCTATTGGTCCCCAAAGAGCACCTGCTATTGCTCCAAATATAGGCCCTAGTCCAGCAATATTTAAAAATTGTATTAAAAAAGCTCTTTTCCAATCAATTTCTACATAATCTACACCATCATTCATTCGTTTTGCTGGTGTATCTGCATCTGTTACTCCAAATACTTTTTCAACATATTTTCCATAAAAAATATATCCTAATATTAAAATAATTAATGAAATAAAAAATGTAAACATAAAAAAACCTCCTAAAAGAATTTGTAGTTGTTGCAATACAATAATACTTCTAAAAGGTTTTATTTTAAATATTTCCAACATAAAAAGTCATTTTTAAAACACAAATTGCATAATAATTACACTAAATCATATTCATAATAATTCTAAACTCTTTTATATTATTTCTGCTTACTAATACTTCTTCATCAAAATCTTTTATTTTTAATTTATATGTGTTATTAAACCAAGGAATTATTTCTTCTATTTTTTCTAAATTTACAATATATGATCTATGTGTTCTAAAAAATTTCTTTAAAGGAAGTTTTTCTTCAAAATCACTTATTTTTGATTTTGCAATATATATATTATGTTTAGTATAAATCTTACTTTCTCTCTCACATGCTTCTATAAAAAGAATTTCATCATAATCTAAAACATACATTTTTTCTTTAAACCATCCAACTACTCCATCTATTCCTCTATTTTTTTTCTCTTTTTTTTCATCTATTTCTTCATTATTAGTTAATTTCATTAAACATTTTATAATTGTTTCTTCAGAGTATGGTTTTAAAATATAATCATATGCTTTTACTCTAAATGCATCTATTGCATATTCTGCATAAGCAGTAATAAATACTATTTTTATATCATCATATAATCCTTTAATTATTTCTGCCAAACTCATTCCATCTATTCCAGGCATATTAATATCTAAAAATACTATATCTATTCTATAATCTTTTAAAAATTTTATTACTTCAAGCGGATTTTCAAATTCATCTAATATTTCAATATTACTAAATTCATTAATAAAATACTTCAACTCTTCTCTTGACGGAAATTCATCATCTACAATTATACAGTTCATTTTTCCCCCTTTATCTATATTTCAAATTTTATTTGTGTACCTTGAGTTAATCTATTTATTTCTATTTCATTATCATATATTAATTTTAATCTATGATATACATTATTTAATCCTATTTTACTTGATTCAATATTATTATTATGTATTTTTTCAATGATTTCTTTTTTTATTCCTACTCCATTATCAGTTACTTCTATATATATTTTATCTTTTTTATCTTTTATATATACCCAAACAGTATCTCCGATTCCAGATTCTATTATTCCATGTTTTATAGCATTTTCAACAAGTGGTTGTATTGTAAATGCAGGTATTTCTTTATTTAAAATACTTTCATCTATTTCATAAATTATATTTAATCTATTTCCAAATCTTGCTTTTTCTATATTTACATACGATTTTACATGCTCTATTTCCTTAGAAATTTTTACAAATTTTTCTCCCGCTTCTATATTATATCTAAAATATGTAGATAAATTTATTATTATCTCCCTTGCTTTTTCTGGATTTATTCTTACAAATGACGCTATTGTATTTAATGCATTAAATAAAAAATGCGGATTTATTTGAGCTTGTAATGCCTTTATTTCTGCTGTTTTAGCAGTTTTTTTTACATTTTCTAATTTACTAATTTCCATTTGTGTTGAAATCAGATTTGAAAGTCCCTCTACTAAATATTTTTGCTTTTCTGTCATTTGCTTTTCTGATGAAAAATATATTTTTATTGTTCCTATTATTTGATTTTCACTTTTCAATGGTGATATTATTGCTGATTTTATACTTTTTAAATGTTTTTCATTATAAATAAAATTTATCATATCTTCTTTTCTATCACAAATTAATGTTTTCCCAGTATATAGTACATCCTTAGTAGCTTTGCTTAATATTTTTTGATGCGTTATTGTAAATTCATCTTTTTTTGAAAAATATGATAAAATATTTTCTTTATCAGTAATTACAACTAAATCAGCATTTAAGGAATTTAAGACAGTAGCACATACTTTTCTAAGTGAACTATTATTTAATTCTCTAAAATATGGTAATGTTTTATTAGCAATTTCAAGAGCTAATTTAGCTTGTTCTCCTGCTACTCTGTCTTTTTCTTTTTTTATACTTTCTGTAATAAGAATAATTACAGATACTCCTACTGCATTTGCAAAAACCATAGGCACATATATATTTCGTACTATATCAAAAGCTTTTTCAAATGGTTTTGACAAGATTAAAATAAATGCCATACTTATATTTTCTACTAAAAATCCTCCTATAAATCCATATATATATCTATTTTGTAAATTAGATTTTTTATAAAAATATCCTCCTATAAATCCTCCTATTATTGTTGCTATCCCACATGGAATAGATGTTATCCCACCTATGTCAATTAATATTCTATGCAATCCTGCCATTATTCCAGCTAACATTCCTACAAGAGGTCCTCCTAAAAGTCCTGCTACTACTACTCCTATATTTCTAGTATTTGCTATAGCACCTTTATAATCTACACCTACATAAGTCCCTATTATTGCCATTGTCCCAAATATTAATGATAAAAATAATTTATCATACAATGAGAAATTATCTTTTTGCATAATTTTTTGAAAAATTTTAAGCTTTGATAAAAAAAATGCTATTGCTATTACATATCCCAAATTATTTAACAAATGACTAAATAATATTAACATAATACCTCCTACATATAAAATAAAAATGCTCCATTTCTTTTTTTATCTTTATCTTTTCTAAACGAAAAATAATTATCATCATAAGTACATTTTTCACTAATAATCATATCTTTTATTCCTAAATTTTTCAATAGATTATAATTAAATTTTTTATTATCAAAATATATTTTATTATTTTTTTCTAAAAAGACATTTTTAAGTGTGTTTTTATCAAATTTCATTATAAACTGTTCTCTAAAATCTTTTTGTACTTCATAATTTAATGCACTTATTCCAGGACCAATAGCTATTAATAAATTGTCTTTTCTACTGTTAAATTTCTTTTCTAATAAATAAACAGAAGATTTTACTATTTCTTGATAACTTCCTTTCCAACCACTATGCAAAAGAGAAATTATATTATTTTTCTTATCTAAAATATATATTGGTAAACAATCTGCATGTAATGTAAATAATACAACATTCTCTAAATTTGTAATAAATCCATCAATATTTTCATAATAATTTTCTTTAGTATCCGTTATTATTTTTATATTTTTTGAATGTGTTTGTTTTGCATAAATAATTTCTTTTTTTATCCCTTGTTTTTTTAAAAAAAAACTTCTATTTTTTATATTTTCAAATGACATATCACCATCATTTTTATCTGAAAATATAGCTTTCACTCCGTAATCTTGAAATTTTTTAAATTCAATCATAATATTAGCTTCTCCTCATTAATTTTAAAAATTTTTTTAACCATTTTATTAAAATTCAAAAAAATTAATTAATTTTTTAAAAATACTTTTTTTTATATCTGCTCTATTAGTATTTTGTTTTTTAGATAAATCATTAATATCTTTATTAAATTTAGTATTTTCTTCTCCTCTTTTTAATAAATATTCACTAAGTATATCCAAAATAGCTTTATCATTTTCTATTATTTTTCTAAATGTCATTTTATCAAGAACTAACAATTCTAAATCTGTTGTAGCTACTACTGTCGCATTTCTTTTGTTACCTGTAAGCAAAGACATCTCACCAAAAAAATCGCCTTTTTTCAAATTTGCTATTTTTCTATTATTAATAAATATATCTACTATTCCTGATTGAATAATAAAAAATGAATCCCCTTCTTCACCTTCTTTAACAATTATTTCTCCTTTTCCATATCTTAAAACTCTTATTTTTTTGCTTAATTCATTTTTACTTTTTTCTGATAAACTTTTTAAAAATTCTATTTTATTAATTAAAACTTTTCTATTTTCGAACTCCTGTTTATTTTCTTCTTTAACATCTTTAATTATTTCTATATTTTCTCTTACTGGAAAAGGTATTTTAATCCCATTTCTTAAAAAACTATACCAAATTTCTCTATAAATATCTGTTTTTATACTCCATCTATTCAAATAATCATCTACTACCCATATTCTTAATATATAATCAATTGAAAAATCTCCGTATTGTCTTATCAAAACTTCTGGTAATGGATCTTTTAATACTTTTTTATTATTTTTAGCTATTTCCAGTAAAACTTTTATTACTTTATTAGGTGGATCATTATATGAAGTTCCTATTTCTATATCTATTCTATATTTTGATTTTCTATAATAATTAATAAATTTATCTTTTAATAAAATACTATTTGGAATACTTACTACTCCACCACCAAACTTTGTAATTTTTGTAGACCTCCAATCAGTATCATTAACCTTTCCTTCAATATTATCTACTACAACACTGTCTCCTCTTTTAAAATTTTTTTCAGAAGTCAAAACTATTCCCGCTATAAAATTGGTTAATGTATCTTGAAGAGCAAGACCTATTACTGCTGAAAGAATTGCTGACGTTGTTAAAAATGGTGTTAAATTAATATTATAATATTTTTTTAATGCAAAGAAAAAACTTACTATAAAAATAACTATTAAAATTACACTTCTTAATAATTTAGGTATTTCAAAATGTATAATTTTATAAGAAGTTTCATCTAAAAATATACCTAAAATTTTTATTACTAAAAATGTAACTGTTATAAAATATAATCCTATTGTTTTATTATTGAAATCAAACAAATACTCAAACCCTTCTCTTAATATTACTAAAATTAAAATAAAAAACAAATATGTATTTAATTTTTTAAAATTTTTTATTATTCTTTTTGATAAAAACATAAGAAAAATAAAAAAAAGAATTATTATTAATAAAATATCTCCTTTAATTCCCATAATTACCACCTAATTTATTAATTTTTTTTTAATTTTGCCGATATTATAAATATATAATTATAATATACTCTTATTGTAACTGATAATTTAATATACTTCAATATTTATTTTAGGAGGTTTTTATGCTAATAAATACTGAGTTTAATTATAAAGAAATAAAAAAATTCTTTATAGAAAATATCGATAAAAATATCCATTTTGAAAATTTAAATTTTTTAAATAATGATTTAAATAGTCGTTTTATTTTTGATTCTAATACTTCTACTATTGATGATATTAGTTTCATTGAAATAAATAATTATAAAATAATTAATTTATATTTTAAAATAATTGATTCTTCTAATTCTTATTTACAATTCATATTTGAAAACGACATTTTTAACAATTGCTATTTATTCACAACCATAAATACTATATATCCTTCTGAAAAAAAAGAGTGGATCTATTGGCTTGGAAATGAACATATTACTGGTATCATAAATGATGATATTTTTATACTTGAAGACACTCCCTTAGAAAAAACTGTTACTACACTTTATAAAATAGTTAAAAAAATATTCCCAAATTTTAATAATTTCACAAATGTAAATTTTAATAATTCTGATTCTAATGTTTCTACAAATTTACTTCATTTAATCTCTTCTGAATTAGGTATTAGTATCAAAGAAGTATTTTCAAAATTTAATACAGCTATTTCTTCTATAGATTGGATTATTGATTTACTTTTAAACGAATCCGAAGCTGAATTTTATATAATACTATCAGAAGGTGACTTAGAATCTGAATATAAAAAATTATCCTATTTTGAAAAATTAAAATATATTGAAAAATCAAAAAACAAAGAGAATTCAAATATAAAAAAAGAGAGTATGATTTTTTACAGAGATGTTGAAAACGAATTTTATTCAAAAGAATATATAAAATTAACTATTAATCATGAGAAATTTTCTCCAAATATAAGCATTGATATAGGTATTCCACTTTCTACATCTGATATAAAACTTTTATAACTACCAAATAATTTGGTAGTTATATTTTTATTGTTGACAAACCGACTGTTCTGTATTATAAATATATTGAGGTGATTTTATGAAAGTAACAACACGTCAGTTAATTATAACTACATTTTATAAATTAATAGCCAAAAAAGGCTATGATAAAGCTAGCTTAAATGACTTGGTAAAAGAAACTGGCTTATCAAAAGGTGCTATTTATCATTATTTTAATACCAAAGATGATATATTTATTGCTACAATTGAGTTTTTATTCGAATCAATGATGCGCTTTGATTTTTTAGATATTGATAACATTACAAAAAAAAATTATAAATTAATACTAAAAAATATTGGTAATAATATTTTAAATTTTGGACAAGTTGACCCTTATTATTCAAGATTTCAATTTGAATTTATAAATCAAGCATTTAGAATAGCAATAGTAAAAGATTATTTAATAAAATTTCTTCAAAAGTATCTAGAATTTTTCAATTCTTTTTTTGATCACCTTTATAAAAAAAATATTATTTCAAAGAAAAAAGATCATGAAATAATTAAACAATTATTTTTTATGATGCTTGATTCTATGGTCTTATATAAAACATTAGATATACCTTTTAATTTTGAAAAAAATTGGGAAAAATTTATAGATTTAATTTTAAATGAGGAGGATTAAAATGCTTGAAAAGTTAGGGAAATTTGTCATAAAAAAATATCGTTTAGTTTTATTATTTAGTTTCATTATCACAGTTATTTCAATATTTTTTATTACAAAATTAAAAATGAATATGCAATTTATGGATTTACTTCCTAAAAATGACAATTCAGTTATTATTTATAAAAAAGCTCTTAAAAATTTTAATAGTTTAGATTCTATAATTGTCGGAATTAAAGGGAACAATAAAAATGATATTGAAAAATTTTTAAATGATGTCCCTAAAACATTGGAACAATGGAATGAAATAAAAAGTATAAATTATGCTCAAAATGATGAATTCCTTTTAAAAAATGGACTTATTACACTCAAAGAAAAAGATTTAAAAGATTTAGTGCCTCTTCTTTCTTCTAATTCTATAGCTGAATTCATAAAAAGTTCTAATGATAATTTTGAAAAAACATACATAAATTCATCTGATTCAGAAAAAATTAATAAAAATAGTAACAAAATAATTTTTTTGCTTAATTTTTTAAAAGACTTTTTAACAAAAGCAAATAACGGAACCTTAAATAATAAAGATACAAAAAGATTTTTTAGAGGAAATAAATATTTCATTTCTCCTGATAACACTTTAGGTATATTTATAATTAAATCTGCTATAAGTATAGATGATATTATTGAAGTTACAAATTTTATCAACAAATTAGAAGCTTATCTAAATAAAGAAGGAAAAAAATATAATGTTTCTACTTCGCTTACTGGTTCTCAAGTAATTTCAAGAGATGAAATGATAGTTAGTACAAAAGATATGAACCTTACTTCTACTTTATCAATAATCCTTATGCTTTTATTATTTATTATTTCATTTAAACTAATACGTTATTCTTTTCTCGCTATTATCCCTTTAATAATGGGAATTATATGGTCAATGGGAATAACTTATTTGATATTTGGTTCATTAAATATGTTAACTGCTATGATGGGTGCTATTTTAATTGGACTTGGAATTGATTATTCAATACATATTATATCTGTTTTTTTAGATGAAAAAAAATCAAAGGAAAACTTAGAAACAAACTTACTTAATGTATATAAAAAAGTAATAAGAGGTATTATTACTGGTTCTATTACTACTAGTATAGGTTTTATAATGTTTAGTTTTAGCAAGTTTCCTGGGTTCAAAGAATTTGGTATTGTCCTAGGAATAGGTATTATTTGTACTCTATTAGCTGCTATTTTTACACTTCCCGCATTACTTATGGTATTTGGTAAAAAAAAATTAAAAGTCAAAACTAATAAACCTATTTATATCTTGGAAAAATTGGAAATTCCAGTAATTAAATATAAATATATTACTTTAATCATTTTAATAATAATAATTTCCATTTTATCTATTAAATCTACAAATTTTAAATTTGAAAAAGATATGATGAAAATAGAAGCTAAAGGATTGAAAAGTATAGCATTAAATAAAGAAATTATAAAAAAATTTGATTTTACTTCTGATAACTCCATTATAATTAATAAAAATTTAAAAGAAGCTCAATCTAATTATGAAAAACTTGATAAACTAGCTAGCGTCGGTGAAATTTCTTCTATTGCACAATATCTGCCTTCTATTGAAAAACAAAATAAAAGATTAGCTATTATAAAAAATATCAAAAAAAGCTCTTTAATAAAAGTTGACAATAATATTTATGAAGATAAGCTTATTGAAGAGCTTTATAGGTTAGAAAATAATATTATTGAACTTTCTGACCTTAGCTATGTAAGTGGAGACATAAAAATAACTAATAAATGTGATGAGTTTATTAACTCAAATATAATATCAAATATTATTGATAATCTAGACTCTAAAAATATTCAAAAATCTCAAATAAACTTTTTTAAATCACTTAAAACCCTTATATTAAATCATAACGAAAATATAATTACATTAAACGATATTCCAAATAGTATAAAAAATGAATTTGTTGGTAAAAATAATGAATTTATAACTACAATTTATCCTAAACACGACTTATGGAATGAAGATTTTCAAAAAAAATTTTTAACTGAAATAGATAATGTTAATAAAAATAATAGTGGTACCGCTAAAATATTTATTAAAGTTGTTGAAGCCGAAAAAACTGAAGGAAAAAAAGTTCTTATTTATACTGTTATTGCTATATTTATAGTTTTATTATTTGATTTAAAAAGTTTTAAATATGCAATATTTGCACTTCTTCCTATGCTTATAACTATACTTGCTATATTAGGAATAATGGGATGGACTGGTTTTAAATTTGATGTTGTAAATATCATTGGTATTCCATTAATTATTGGTATAGGTGTTGATGATGGTGTTCATTTAATTCACCGATATTTGCAGGAAAAAGATTTATTAATTACATTTAGAAGTACTGGAAAAGCTATTACACTAACTACTCTTACCACTGTATTTGCCTTTGGTACTCTAATGTTTGCAAAATATCGTGGCTTTATTGGTTTTGGGTTTTTACTCAGTTTAGGAGTAACTCTTGCATATTTATTTACTTTATTTTTACTAGTTTCATTAATTGCTATCTTCGATAAAATAACATTTAAATAGGAGGCTTTAAAATGAAAAAATTTATTTTTATGTTTCTAATAATATTTTCAATAACTACCTTTTCTAAAACAACTATAAATGAAATATTAAAAAATATTAAAAAAAACAATAATTATAATAGTAGTTTTCAAATATCTACTATGAAAATAGAAAAAAATGGAAAAATAACATCTAGTATGATTTTTGAGTCATATTCAAAAAAAATAAATAATAATACTTTCCAATTAATGAAATTTACTTCTCCAAGTAGATTAACGGGTACATCTATACTTTCCAAAAATGGAAATACATGGTATTATAATAAAAGAACAAATAGAGTAAGACTTTTATCTAAAAGTGCGAAAAATGGAAACCTTATGGGCTCTAGTTTTTCATATGATGATATGGATTTTGATTATGAAAAAGATTTTAACTCTATTTTATTAAAAGAAGATAAAAAGTATTATTATTTAAAATTAGTTCCAATAGATAAAAATAAAAAGTATAGTTATATTATTTCCAAAGTAAATAAATTTAATTTCACCGAAGAATTGATAGAATATTATGATAAAAATAATTTTTTATACAAAAAATTAGAAATAAATGATTATACTAAAAAAGGTAATTATTTAATTCCTAAAACTATGAAAATGACTGATATTATAAATAATAAATCTACATATATTATTTCTGATATCTCTACAATAAAATTAAATATAAATATTAAAAATACTTTATTCTCAGAAAAAAACTTAAAAAAATAAGGAGCGTTAAAAATGAAGAAAAAAATAATTTTATTATCAGTATTTATGTTAATTTTTTTTAATGGTTTTGCTACTACTTCTCTTAAAACAAAATTAACAATAAATAATTCAAAAATTAAAAATTTAGAAAGCACCTCAAATAGTAAAGCTAAGTTTTTTCTTTATAACGATGATTTTGAAAACAGTTTAATTGATATTGAATATTCATTGTATACAGAAAATAATTCAAAAAATAATAAAAATTCTCTTGATTTAGCAAGAATAAAATTAGTTCAAAACAATATAGAAATTATTTTTGGAAAAACTAGATTAGGTTGGGGACAAGGTTTTAATTTTAATCCTATTGATATTTTCAATGAAACTCCTGCAGGATCTGCATTTGATTCTAATTATGAAAAAGAAGCTAGAAATAGTATAACTTTTACTAGTTACTTACAAAATGATGATAGCTTAGAGTTTGTTTACGCTGGGAATTATAATAATAATTCTATTTCTAAAGATATCGAATATGGAATAAGATATAAACAATTTATATTTAATACTGATTTTGAATTTATATATGCAAAAAGAGGTAAAGAACTAAAACCTTATGAAACATTAATTCCTAGTGATATATATGGTGCTTCTATTAAAACAACTATTCCTTATATTAATTATGGGTATTGGATAGAAGGAAACTATAGTGCAGCTGATAATATTTATACTTTTATTACAGGTATCGATAATTATTTTTGGGAAAATTATTATTTCAATATTGAATATTATCAAAATGGGTATGGAAAATCAGATAAAAATTTTTATGACAACAATGATTTAAACAAAATAAATTATAATATACCAATCGGAACAGATTATTTGATTCCATCATTCAAATACGAAATGAATGAATTATTTTCTACTACATTTTTTTCATTTATAAATATAAATGACCGTAGTTTTACTATTGGAAATAGCAGTGATTATTATTATAATGATTTAATTAGTTTTAATCTTACTGAATTTTTCTTTAATGGAGAAAAAAATAGTGAATATTATTTAACAAAATCTACTTATGGAGATTATGGAATTTCTTTTACAATAACAGCAGACTTTTAAAATTATTAATTAAAACTGTTAATGTATTTGACATTTTTTAATTAATAAAGTAAAATATATCAAAATTTAATATCACGGTTGAAGATATAGGGAGAGAACCATAATTTTGGTCACCGAAGAAGTAATACTTTCAGGTAAAAGAACCTATATTGGACGAACCTCTGGAGAGATCCAAAAGGACACCGAAGGAGTAACGCTCTCAGGTAAAAGGACAGAGGATATTTTTAAATTAGTTATTTTTAAAAATATCTTTTCTTTTTATTTGGCAGTTTTTTAACTGCTTTTTTTTATAGGCAAATAACTTTAATATATTTTAGGAGGAATCACTATGCAAGGAAAAATAGTTATAACTGTAATTGGCGATGATAAAGTAGGAATAGTTTCTGAAGTATCATTAAAACTTAAAGAATTAAAGTGTAATATTATCGATATTTCTCAAACAATTTTTGAAAACGAAATTTTTGCTATGATTATGTTAGTTGAAATAAAAGATTCTACTTTTGATTTTAATAAAATAAAAGAAAAATTAAAATTATTAGAAGAAAAAATAGGTGTAAAAGTTTATGTTCAACATGAAGATATTTTTAAAGCTATGCATAAAATTTAATAAATTTATTTAGGAGGCAAAAATGCACATTTTAGCAAATTCAAATGAAATATTAGAAACAATTAAAATGGTTGATATGCAAAATCTCGATATAAGAACTGTTACATTAGGTATTAGTTTACTTGATTGCATAAATAGTGACCATAAAAAAACTTGCGAAAATATATATAATAAAATATTAAAATATGGAAAAAATTTAGTAAATATAGCTGATGCCGTCTCAAATAAATACGGCGTTCCTATTGTAAATAAAAGAGTTTCTGTTACTCCAATTTCAATAATTGCTGGTGCTACTGATGCTGAGGATTATACTGTCTTTGCAGAAACTTTAGATAAAGCTGCAAAAGATATTGGAGTAGATTTTATTGGTGGATTTTCTGCTCTTGTAGAAAAAGGATTTACAGAAAGCGACTTAAAATTAATAAATTCTATTCCTAATGCTCTGACTGTTACCGAAAGAGTTTGTTCCTCTGTAAATGTAGGATCTACAAAAGCTGGAATAAATCTTGATGCTGTTAAAATGCTTGGTAAAACAGTAAAAGATTTAGCTTATAATACAAAAGAAAAAGATGGATTGGGTGCTGCAAAATTTGTTGTATTTACAAATGCTGTAAGTGATAACCCCTTTATGGCTGGTGCTTTTCACGGAGTTGGTGAAGGTGAAGTTGTATTAAATTTAGGAATTAGTGGACCTGGCGTTGTAAGAGCAGCTCTTAATAAAATAGATAAAAAAGCTGATATTAGCGTAATTACTGAAGAAATAAAAAAAATAAGTTTTAAAATAACAAGAATGGGAGAATTAGTAGGAAAAGAAGTTGCTAAAAATCTTGGTGTTGAATTTGGAATAATTGATCTATCACTTGCTCCTACTCCTGCAATTGGGGATAGTGTAGGTAATATTCTAGAAGAATTTGGATTAGAGTCTGTAGGTGCTTATGGAACTACTTTAGCTCTTGCTATTTTGAATGACGCAGTGAAAAAAGGTGGTGCTATGGCTGCTACTAGAGTTGGGGGATTAACTGGTGCTTTTATCCCTGTAAGTGAAGATCAAGGAATGATTGCTGCTGCTAGTAAAGGTTATCTTACTTTAGAAAAACTTGAAGCTATGACTTGTGTTTGTTCTGTTGGTTTAGATATGATAGCAATACCTGGTGATACTCCTGATTATGTTATATCTGGCCTTATAGCTGATGAAATGGCGATAGGAATGGTAAATAACAAAACAACTGCTGTTAGAGTTATCCCTGTTCCTGGAAAAAATGTTGGTGATAGAGTAGTCTTTGGGGGGCTTTTAGGTGAAGCTGATATTATGCCTATAAATTCTCTAAATTGTTCTACTTTAATTAATAGAGGTGGTAAAGTATCTCCTCCTATACAAGCAATGAAAAATTAATTTTTTTATATTGAGTGTATTAACTTTCGTATACACTCAATATTTTTTATTGGAACATTGTATAATTAATTGCACAAATAAATAAAAAAAAAGACACATCTAATAAGAATCTATGCTAAAATGTTGAATCACTAAAAACAATATTT
>sequence04
AAATATTGTTTTTAGTGATTCAACATTTTAGCATAGATTCTTATTAGATGTGTCTTTTTTTTTATTTATTTGTGCAATTAATTATACAATGTTCCTTTTAGTTATTAATTATAGTTAATAAAAAAAAGGACAAAATGTCCTTTTTTTAAATTTTATTTAGTTTCTGATAAAACTCTAAATAATTCTGTTTCTGTTGATAATATCATTCTATTATTATTTTTTTCTCCAAATATTTTTTCATATGCTTCAAGAGTTCTTACAAATCTATAAAATTCTTTATCTTTATTATAAGCTTCTGCATATATTTGCAATGCTTTTGAATCTCCTTCTCCTTTAATATTTTGAGATGTTTTATATGCTTCTGCTAAAATAATTGTTTTTTCTTTATCTGCATTTGATTTTACTTGTAATGAAATTTCTTGCCCTTCTGCTCTATATTTTTTTGCTTGTTCATTTCTTTCAGCTTCCATTCTTCTATAAATATTTTCTTCATTTTGTTTAGGAAGTTCTGCTCTTTTCATACGAGCATCTATAAGCTCTATTCCAAATTCAGCTAATTTTACAGAACTATCTTTTGTTATTATTTCCATTATATTTTCTCTTTCAGTAGAAATAATTTCAATCAATGTATATTTTCCTATTACTTGTCTAAGCTCCGAATACACTATATCATCTATTCTAGTTTGTGCCCCAACATAACTATTAACAGTTTGTAAAAATTTTAATGGATCTTTTATTTTCCATTTCGCATAACTGTCTACTACTAAATTTTTCTTATCTTTCGTTATTATTTCTTTTGGCTCTGAATCATATTCTAATATTCTTTTATCAAATTTTACAACTTGGTCTATTATTGGCATTTTAAATTTTAATCCAGAAGTTTCAATAGGTTTACCAACTGGTTTCCCTAACCTAATTAATATTGCTTGTTCCATTTCATTTACTTGAAACATACTAGAAAATACAACTACAATAGCAATTATAATTACTCCTAAAAATATTCTACTTTTCATTTGTAATGCCTCCTTTGTCAATAATATTAAGTAGACCACTATCAAGATTTTTATCAATAATAGTTTTATCTACATTTGGCATTACTTTTTCTAATGTTTCTAAATATAGTCTAGTTTTTGTTACTTCTTTACCTAATTGATATTTTTCATAAAGTTGTAAAAATCTAGCTACATCTCCTTCTGCTTCTTTAATTCTTTTTTCTTTATATGCTAAAGCTTCATTTATTAGTTTTTCAGCTTCTCCTCTTGCTTTTGGTAAAATATCATTTCTATACCCATTTGCTTCATTTATATATCTTACTTTATCTTCTCTTGCACTAGCTACATCTTTAAATGCATTTAATACTTCTTTAGGAGGTTGAACATCTTGTAATTGTATATTTACAATACTTATCCCACTATCATAAACATCTAATAATTTTTGTAATTTTTTTTGTGTTTGAGATTGTATCTCACCTTTTCCTATAGTTAAAATATTTTCTAATGTCGAGTTTCCCACTACAGTTCTAAGTGATGCTTGTGCTGCATCATATACAAGCTTTCTTTGATTTTTTACATTAAAAAGAAATTTTTTAACATTATTTATTTTGTATTGTACTGTAAAATCTATTTCTACAATATTTTCATCTCCTGTTAACATAAGAGATTCTGTCCTTTTATCTTGATATTTTGCTGGTGGTCCTGGATCAATAGTTCTAAAGCCTATTTCTTCTCTATATACTTTTGTTGTTTTAACTTTGATTACTTTCCCAATAGGAGCTGGAAAATACCAATTTAATCCTGGATTACTTTCTTTTGTGTATTTACCAAAAGTAAGTACAACTGCTTTTTCATCTGGTCCTACTGTATATATTCCTGTTAACAAATAAAGCGCTAATACAATTACTATGCTTAAAAAGCCCAATTTTTTTACAAAATTAATAAATTTTTTAAAATTAGGGTTATTAAAATCTGCCATTTTTTTCCTCCTTATTTTTTTTCAAGCTCTATTGTAAATCTTAACCTCCTTATTCCATTTTTTATAATTTTAGCTTTAAATTTACTTATATTATCTATCTCTGCTAACTCTTCTTCTGATGCACTTAAAATATTATTTAATCCATCAAAATGAGATACTAAAATTTTTATATCTTTAGTTGTAAGTCTTATTATTTTCCCTAATATTCTAAATCCTTTTGGGACTACTTTTGTATCTAAACTAGCATAACTTCTTTTATATCCGAGTATATAAGAGATATTTTTTAAGTCCAATAGTTCTTCTTCTGTTAACTCTTCTAATTTTTCAAAAATGTCTTCGTTTTCTGTTTCTTCTTCTATTTTATAATAATCTCTTATTAAATCCTGTATTTCTATATTAATCTCATTCATTATTTCATCAAGTTGAAGTGATAACAAAGTTCCTTCTGTTCCTAATTCTATAATATTTAATTTTAACGCTTTTGATATTCTAACCATAAGCTCAAATTTTTGTATAATCATACATACTTCATATAATGTAACTAAATCATCAAATTCCATCATTGTAAGATTTGTAAGTGATTTTACTAAAACTTCTTTATATCTTTCTAACGTTTTCATTGCTTGTGAGGCTTCAGTCATTATAACACTTATATCTCGTAAAAGATACTTTATATTATTTTTATATATTGATATTCTTTTTCTTTTTTGAGAAATTGATATAACTAATTCTCCTGTTTGTTTAGCTACTCTTTCAGCAGTTCTATGTCTTGTTCCACTTTCTGTTGTTTCTATTTTAGGATTTGGTTGAAGTTGAACATTTGCATATAATATTTTATTTATGTCTTTACTAAGAATTATTGCACCATCCATTTTAGCCAATTCATAAATCCTTTGAGGATTATAATCACAATCAATAAAAAATCCTCCATCTATTATTTCTAATATTCCTTTATCATCACCTATTACTAAAAGTCCTCCTGTCCCTGCATCAAGAATATTATTTAAACCTTTTCTTATTTCTGTTCCTGGTGCTACAAAAGAAAGGATATCTTTTATTTCTTTATTTTTATACATGTTTACCTCATCCTTTCTAATAAATCATTTAAATTTTTTAAGTATATTATTTTTAAATTAATATTTTTATTTTCCAAATCTTTTCTATTACTCTCTGGAACATATACTCCTTTAAATCCAAGTTTATAAAGTTCAATAAGTCTTTTTTCTATAAAAGCTACTTTTCTTATTTCACCTCTAAGACCTAGTTCACCTATAGCTGCTATTTTTTGACTAATTTCTATATCTTTAAAGGCTGAAAAAATAGACATAACTACTGCCAAATCCGCTGAAGTATCTTTTATACTTATTCCTCCAGGTATATTTATAAAAATATCTTTATTTGCTAGATTCAGAGATAATTTTTTTTCTATTACTGCTGATAATATCTGTACTCTATTTTTATCAAAACCTTGTACAATTCTTCTTGGTATTCCAAATTCTGAATTAATTAGTAAACTTTGTACTTCTAATAAAAATATTTTACTTCCTTCTAATATTGGCACCACTATACTTCCTATATTTTTTTCGTCTCGTTCACTCAAAAAAAATTCTGAAGGATTTTTTATTTCACTTATGCCATCTTCTTCCATGTTAAATATCCCTATTTCATTAGTAGAACCAAAACGATTTTTTATTCCTCTTAGAATTCTATAATAATTTCCTTCTTCACCTTCAAAGTTAAGAACTGCATCAACCATATGCTCTAATAATTTTGGCCCTGCTACTTTTCCATCTTTGGTTACATGTCCTACTATAAAAAAAGATATTTCCATTTTTTTTGCTATTTCAACTATTTTCAAAGTACACTCTCTTATTTGAGTAATTGTTCCTGGAATTGAATCTATAGTATTACTATAAATAGTTTGAATAGAATCTATTATCACTACATTTGGTTTTTCCTTTTTTATAAATTCTAATATAGACTCTATTTCTGTCTCATTTAATAAGTATAAATTATTTTCATTAACATGAAGTCTATTTGCTCTAAATTTAATTTGATTTACTGATTCTTCTCCTGATAAATATAATATTTTTCCATATTTACAATACTCTTTTGAGCTTTGTAAAAGTAATGTAGATTTTCCTATTCCAGGACTTCCAGTAAGTAAAACTACTTCCCCTTTTACCAATCCACCACCAAGAACTCTATCAAATTCTTTTAGTGTAGTTGTATATCTATAATTAGACATAGTTTCTATTTCATCTAATTTAACAGCACTTATATTTTTTGTCTTATTATTACTTTTACTGAATGAAAGTTCATTTTCCTCTTTAAAAGTATTCCAATTTTCACAATTTGGACATTTACCTAACCATTTAGAACTTTCATATCCACATTCTTCACATATATATCTTATTTTATTTTTTGCCATTTTTTCCCCTATTATCTTTTTTCATTAGCTTTTTTTATTACATCATCTATTATAACTTTTGGTAAAAATTCTGTTAATTCTCCTTTATTTAATGCTATGTCTTTTACTATACTTGCACTTAAATATAGGTTTTCTCTAGAAGCTGGTAAAAAAATAGTTTCTATACTATTTTTAGAAAGTACAGAATTTGTAAGAGCTAATTGAAGTTCATATTCATAATCCGATACTGCTCTAAGACCTCTAACTAATATATTACATTGTTTTCTATTCATAAAATCTACTAATAATCCTTCAAAACTATCTATTTTAATATTTTCTATTTTTTCATTTTCTAGACTTTTTTTTATCATGTTTTCTCTTTGTTCTAAAGAAAACCAGTATTTTTTATTAGAATTATTAAGAACCCCTACTATTACTTCATCAAAGATTTTACTACTTCTTTTTATTATATCAAGATGTCCTTTTGTTATTGGATCAAAGCTTCCAGCATATATTGCTTTTTTTTTCTCCATAAATCCTCTTTTCTATTTTTCATATATTAATTCATAATCATTAAAATTTTGTTTATTTAATTTTTCTAACTCAAAACTTTTATTTTTACTCTTTAAATATGTATTAATAAATTCTTTATATGTTGAATTTAATATTTCATACACTCTTTCACTTGCTAAAATTTTTATTTTATTAATATCATCTTCTTTTGCATCTTGTTTTACCTGCTCTATTATTTCATGGACTATAGCTTCTACAGATCTCACATAACCATTTCCTTTACATAAATAGCATTCTTCTAAAAAATAATTAGAAAGAGGTTTTCCTTCTCTTTTTCTAGTCATCTCAATAAGTCCTAAATCTGTAAAATGTATTATATTATTTTTTACTCTATCTTTTGACAAATTCTTTTCAAGTTCTAATAGTACTTTTTCTTTATCTTCTTCAATTCTCATATCAATAAAATCTATTATTATTATTCCACTTAAATTCCTAAGTCTAAGTTGTCTAGGAATCTCTCTTGCCGCTTCTAAATTTGTTTGAAGTACTGTCTCTTCTAAATTATGCAATCCTACATTCTTTCCAGTATTTACATCTATACTAATGAGCGCCTCTGTTTTTTCTATCACTAAATATCCGCCACAATCTAACCATACTTCTTTTTTTAATGCTTTTTCTACTTCTGACTTTATTTTATAATAGTCTAAAATCTCTTGTTCTTCTGTAAAAAGTTTTATTTTAGTTGACATTTCTCTTTCAGAAAATGCGTTAATATAATCTATTATTTCCCAATATTTTTTTTCGTCATCAATAATAAGTTCATTTATTTCATGAGAAAATATATCTCTTACTACTCTATTTACTAAATCATTATCACTGTATAATATTTCTCCAATTTTAGCTCTACTTATATTATATTCTATTTCTTGCCATTTTTTTACTAAATACTCTATTTCTCTTTCAAAATATATATCTTCTTTCCCTTCTGCTTCTGTTCTAATTATAAGTCCTACATTTTCTGGCTTTATTCTTTCTATCAAATCATAAAGTCTTTTTCTTTCAGTCTCATCCTTAATTTTTTTAGAAATTCCTATATAATTGTTATTTGGCATAAGTACTAAATATTTACCTGGTATTGTATAATGTGTTGTAACTCTAGCTCCTTTATTTCCTCGAGGCTCTTTTAAAATCTGTACTACAACTTCATCATCTTTTTTTAATATATCTTCTATAGGTCTATCACTATTTTCTACTCCATCTAAATATCTTTCTTCAAATTCTCTAAGATCATTAACATACAAAAATGCATTTTTTTCAAGTCCTATATTAATAAAAGCTGACTCCATACCTGGTAATACATTTTCTACTTTTCCTTTATAGATATTACCTACTATTCTAGTTAAATCATCTCTTTCTACTAGAAATTCAATTAATTTATTATCTTCTATAAGAGCTGCATTTGATTCAAATTCTTTTACTGATACAATAATTTGCTTCATCTTCCATCATCCCATGTTTTAATAATATTTTTTAAGATTTCTTCTCTTTTATAGATAGTATTATTTATTTTGTACTCAAAAATATTTATATCTTTATTTTGTATTATTTTTAAAATATTAAAATATTTAATTTTATTTACTTTATTTATCCCTACAACTCTAGACATATTTCTAGGATTTGTTTCAATTATATTTATTTTATTTTTTGATAAAATTTTATCAAAAAATAAAGAAATAATTTTACCTTCTACTAATTCTTTAAAAGCTGGATGAAATGGCCCTGCTATAATTACCCCATCCTCTCTTAAATCATCCGAAGGTTGTAATCCTACTCGAATAATTTTTATATTATTAAGCTCAAAATAAGCTATAGCTAAAGCTGAGATTTTTATAGCTTCATTTAATGAAAGAGGAGTAAATTCTCCTCTTTTATATAATATTTCTAATTTAGTTTTATTAATCACTAACGTCGGATAAATTCTAACTATATCTGGTTTTATTTTAACTACTTTTTTTATTGTTTCTAAATCACTATTAAAGTTACTTCCATTTAATCCTGGCATTATCTGTATTCCTAAAATAATGTTATATTTTTTAATAAGTTCTGATGCATAATATACTATTTCTTCTTTATATCCTCTTTCAGATAATGATAAAACTTCATTGTCAAGTGATTGTACTCCAAGTTCAATTGTCGTAACATTATATTTTTTTAATAATGATAATATCTTATCATCTATACAGTCAGGTCTAGTTGATAATCTTATCCCATTTACTACACCCAAATCTATATACGATTTTACTATTTTTAGAAATTCTTCTTGTATATTTAGTGGTAACGCTGTAAAAGTCCCCCCAAAAAAAGCTACTTCTTTATTTGAATTTTCTGGTAAAGTTTCTAAATATTCGTCAATAATTTTTTTAACTTCATTAGGCGTAATATTAGTTATAACTCCTGTTATTTTATTCTGATTACAAAAAGTACATGTATTTGGGCATCCATAATGTGCTATAAATATTGGTATATTATAATGCTTCATTTATATTTACTCCCATTTTTTTACATGCATTTTTTGCTGCATGTTGTTCAGCTGTTTTTTTGTTTTTACCTTTTCCTACACCTATAAATATCTCTTCTGAAATTTTCACTCCTATTTCAAAGCTTTTCTTATGATCTGGTCCTATTTCTTTTATTACTTCGTATATTGGGATAACCTTATAAACTCTTTGTGCATACTCTTGTAATATTGTTTTATAATCAATTAATTCTTCATTTTCATTTATATGAAGTATTCTGTATTCAAGATATTTTAAAGCAAATTCTTTTGCACTATTAAAATCAGAATCTAAATAAATCGCACCTAAAAGAGCTTCAAAAGCATCACCTAATATAGATTCTCTTTCTCTTCCCCCAGTTAATTCCTCTCCTTTACTTAATAGTAAAAAATCTCCTAATCCAATTTCTAAAGAAATCTCTGCTAATACTGGTTCGCTTACTATCATTGATTTTAATTTTGCTAATTCGCCTTCATTTGAATCAGAAAAATTTAAATATAAATACTCCGTAACGATAAGATCTAGAACTGCATCACCTAGCAGTTCTAGTCTTTCATTATTTGTGTTTTTATAATCCCAATTTTCATTACCATAAGATCTATGTATTAAAGCTTTTTTTAGAAGTGTCTGACTTTTAAAATAATATCCTAAACGTTTTTCTAATTCATTTAGGTTTTTATTTTCATACATAAATAACACTCCTTTAATCTGTATATTTTTTAAATGCAATTACTGCATTATGCCCACCAAATCCTAATGAACTTGATAACCCTACATTTATTTTTCTTTTTCTTGCTTGATTTGGTACATAATCTAAGTCACATTCTTCATCTGGATTATCATAATTTACTGTAGGAGGTAATACTTCTTCATCAATAGCTAAAGCTAATATTGCTCCTTCTATTCCGCCAGCTCCTCCTAATGCATGTCCAGTCGCACCTTTTGTTGAACTAACTGCTAAATCAAATGCATGCTCTCCAAATACACTTTTTATAGCTGCCGTTTCATTTTTATCATTTGCTGGTGTTGACGTCCCATGTGCGTTTATATAATCAACATCTGTTAATTCTACTCCCGCTTCTTCTAAAGCTAGTTTAAATGCTCTTGCTGCTCCTTCACCACCAGCTGCTGGAGCCGTTATATGATATGCATCAGAAGTTGCTCCATATCCTATTACTTCAGCATAAATTTTAGCTCCTCTTTTTTTAGCAGATTCTAAACTTTCTAAAAATAAAACCCCTGCTCCTTCTCCCATAACAAATCCATCTCTATCTTTTGTAAATGGTCTTGAAGCTTTTTCAGGTTCATCATTTCTTGTAGAAAGTGCTTTTAATGCAGCAAAACCTGCTACTCCAAATGGCGTTATACAAGCTTCCGTTCCTCCAGCTAACATTGCATCTGCTTCTCCATATTTTATCATTCTATATGCATCACCTATTGAATGTGTTCCAGCTGCACAAGCAGTAACTATTGTTTTTGAAGGTCCTTTTGCTCCTAAATAGATAGAAATATTTCCTGCACCCATATTTTCTATAAGAGCTGGTATTGTAAATGGTGACATTCTTTTAGGTCCTTTTTCTAACATAACACTATGTTGTGCCTCTAATATTTCAAGTCCACCTATACCAGAACTAACTAAAACTCCTACTTTATATGCATTTTCATCTGTTATTTTATACCCAGAGTCCTCTAACGCCATTTTAGACGCTGCTATTCCAAATTGTGTAAATCTAGCTAATTTTTTTAATTCTTTTTTAGGCATACCATATTCTTCAGGATTGAAATCTATTACTTCCCCTGCTATTTTTACTGGAAAGCCTTCTGTGTCAAACCCTTGAATATGTCTAACTCCTATTTTCCCTTCTTTTATAGCATTCCAAGATTTTTCTACTCCTGTTCCTAATGCTGTAATTAATCCTACTCCTGTAATTACTACCCTATTCATTATCTATTTCACCTCTTTAATATTTCTTTATAATATTAATAAAGGGGTATTAGCTTAATACCCCTTGATCACAAACATTTATATCTTTTGATTATTGATTTTTTTCTACGTAATCAATAACATCTTTTACAGTTTTAATTTTTTCTGCATCTTCATCAGGAATTTCAATTCCAAATTCTTCTTCGAAAGCCATGATTAATTCAACAGTATCTAAAGAATCTGCTCCTAAATCATCAACAAATGATGCTTCTAAAGTCACTTGTGACTCATCTACTCCTAATTGATCAACTATTACAGCTTTTACTCTTTTTAACATTCTATTACCTCCTAATTTTTTCTTCATATATGATAATAACAAATTTTCTTTATTTTTTCAAGAAATTTTGTTAAAAAAACAACATAAAATAAACTTTATAATGCATAATTAAATATAAAAGTTTATACCATTACCATTCCACCATCTACTGTTATTGTTTTTCCAGTAATATATGATGATAAATTTGATGCTAAGAATAATGCTGCATTAGCAACATCTTCTACAGATCCCATTTTATTCATAGGAATTTTCCCCATAATTGCTTCTTTTACATCATCTTTTAGTAAATCTGTCATATCACTTTTAATATATCCCGGAGCAATAGCATTTACTCTTACTCCTCTTTTTGCTGCTTCATATGCTATTGATTTTGTAAATCCTATAAGTCCTGCTTTTGACGCAGCATAATTTGCTTGTCCAAGATTACCTACTAATCCTATAACTGAAGCCATATTTATTATACTTCCGCTTCTTTGTTTCATCATAATTTTATAAGCAGCTTGTGCACAATTAAAGGCTCCTGTTAAATTTATATTTATTACTCTCTCAAAATCTTCTTTACTCATTCTCATAAATAAACCATCTTTTGTTATTCCTGCATTATTAACAAAAATATCTACGCTACCAAAGGTATCTTTTGTTTTATTTACTAAATCTATTGCATCTTCCATTAAAGTAACATTAGTTTTTACAAAAATAGTCTCTACGCCATATTTTTCTTTTATTTCATTTGCAGTTGCAATTCCCATATCTTCTAAAATATCACTTATTACTATATTTGCCCCTGCTTCTGCTAATTTTTCAGCTATAGCTCTTCCTATCCCTCTAGCCGAACCAGTAATAACTGCTGTTTTTCCTTTTAAATCAATAGTAATCATAACATCCTCCTAAACTTAAAAATCTAAATCATTAACTTTTTCTATATTTATTACTTTTAAATTTCTATCTATTTTTCTTAATAAACCTTTTAAAACTTTTCCTGGTCCAATTTCATAAAATGTATCTACTCCTAATTCTTTTAATTTATCTATAGTTTCAACCCATCTTACTGGTCCAAAAGTTTGTCTATATAATTCATCTATTAAATTATTTTTTGCTACTATTTCAACTGAAGTATTTGCAATTAAACTTGCTACTCCTTCTTGAATTTCAAAATTATTTAGATATTCTTTTAATTGTTCTCCAGCTTCTTTCATAAGCGATGAATGAAATGGTCCTGATACAGCTAATACAAGAGCTCTCTTTGCTCCTGCTTCTTTTAACTTCTCACAAGCTTCATTTATAGCCTCTACTTCTCCAGCTATAACCGTTTGATTAGGCTCATTAAAGTTAACTGCTTCTACAACTCCAGATATATCTTTTAATATTTCTTGAATTTTTTCTTTTTCTAAACCAATTATAGCAGCCATTGTTCCATTTACTTTTTGAGCAACTTTATTCATTATCTCTCCACGTTTTGCAGTAAGTTTTATTGTATCTTGTAATGATAAAAAGTTTGCTGCTCCAAGTGCTGAATATTCTCCTAATGAATGTCCTGCTACATAATCAGCTTTTATTCCTTTTTCTTCTAATAACTTTGTAAGTACTAAACTCATAGCAACTATTGCTGGTTGCGTATATTTTGTTTCTTTTAATTTTTCTTCTGGTCCATTAAACATTATCTCTTTTAAATCTATATCTAAGCTATCAAATATTTCATTAAAATATTTTTTAGCAAGCTCATTATTTTCATATAAATCTTTACCCATCCCAACATATTGAGCACCTTGCCCTGGGTATAAAAATGCTATTTTTGACATCTTTCCTCCTTATAAATAACAGGTGTAATTTATTTTATCATAAGAGATTATAAGTGTCAACTAGATTATTTAGCCCACTTAATAACACAAGAAGCATATGTAAGTCCTGCTCCAAATCCTACTAATAATATATTATCACCTTTTTTTAATTTTTTATTCTCATATATTTCTGAAAGTGCTATTCCTATTGATGCTGCTGAAGTGTTTCCAAATCTATCCATGTTCATATAAAATTTGTCTATAGATTCATTAAGTTTTTTAGCTGCTGAATCTATTATTCTAAAATTGGCTTGATGTGGTATATATAATTTTACATCATCTATTGTTAATTCAGCTTTTTCTAGCGTTTTTAATGTTGTTTTTGGTAATACATTTACTGCAAATTTAAATACCTCTTTACCTTTCATTTTTAAATAATGCATTCTATTATTTACAGTTTCTACTGTTGCTGGATTTCTAGATCCGCCTCCTGGTTGATCTAGAGTATGTCCTCCACTTCCATCTGCTCCAAGATCAAATGATAAAACACCATATCCTTCTTCTACTTCACTTAAAACAACTGCTCCTGCTCCATCACCAAAAAGTACACAAGTATTTCTATCTGTCCAATCCATTATTTTAGATAAAGCTTCTGCTCCAATAACAAGAACATTTTTATAGGCTCCTGTTGATATAAAATTTGCACCTGTAACTATCCCATATACTAATCCACTACAAGCAGCTTCTAAATCAAACACTGCTGCATTTTTTGCTCCTAATTTATCTTGAATAATAGCTGCCGTCGCTGGAAAAGGATAATCTGGTGTAATAGTTGCTACTATAATTAAATCTATATCTTCAGGTTTTAAATTAGCATCTTTCAAAGCTTTTTTAGCGGCCTCATAGCCTAAATCACTTGTAGCTTCATTTTCTTCTGCTATATGTCTTTCTTTTATTCCAGTTCTAGATGTTATCCATTCATCACTCGTTTCAACTATTTTTTCTAAATCAAAATTAGTCATTATTTTTTCTGGAACATAAGCACCTACTCCTACTATTCCTACACTTTTTAATTGTTTCATTTAAGTCCTCCTACTCGCTCCTTTTTATCAATACTTTCTTTTATATTTTCTATAAAATTACTTTCAGCAAATTTTTTTGCAACATTAAGAGCATTCTTTATAGCTTTTCCGTTTGAATTACCATGAGCTTTTATGGAAATACCATTCAATCCTAAAAATAATGCTCCTCCATATTCAGATGAATCCAAACTATTTTTTACTGTTTTAAATACAGGTTTTAAAATTAGCGCAGCTAATTTATATAAAAAATTTGTTTCTATTTCTTCTTTTAATATATCAAATATAGTTTTTGCAACTCCTTCAGCTGTTTTTAGTACTATGTTTCCTGTAAATCCATCTGCAACTACTACATCTGCTTTTCCTTCTGTTAGCATTTCTCTTGATTCTATATTCCCAATAAAATTAATGTTTGAATTAGATTTTATCAATTCATATGATTGTTTTACTAATTCATTTCCTTTTCCTTCTTCTTCTCCAATATTCAAAAGAGCTACTTTAGGATTTTTTATTTCTAACAAAATTTTAGCATATTCCATTCCCATTATACAAAACTGCTCTAAATATTCAGGTTTACAATCTGCATTAGCACCTACATCCATCATTACCATTTTCCCATTTTTTTTAGGAAAAATAGTTGTTATAGCTGGTCTTAATACACCTTTTATTCTTTTTAATGTAAGCTGGCTAGCTGTCATAAGTGCTCCTGTATTTCCAGCAGATACTACTGCATTAGCTTTTCCATCTTTTACAAGTTGGACAGCTATATTCATAGAAGCTTTTTTCTTTTTTCTTACCGCCAGTGCTGGTGGCATAGATTCTTTCATTAATATTTCTTCATCTGTATGTATAATTTCTATTTTTTCTTTATCGTAACTATATTTTCTTAATTCTTCATTAATTTTTTCTTCATTTCCTACAAGGATTATTTTAATATCACTATTTTCTTTTATAGCTTCTACTGCACCTTGTACTGTTGAGCTAGGAGCAAAATCGCCTCCCATAGCATCTAAAGCTATTTTTATCACTTAAAACACCTCCTTAATTTATACAAAAAAAGCAAGATTTAATCTTGCTTTTAAAAAAATTATTCAGCTTGTGCTATTACTTGTTTCCCATTGTAGCTTCCACATTCTAAACAAACTCTATGAGGTCTTTTTGGTGCTCCACAATGATCACATGTTGATAAGCTAGAAGCTTTAATTGCATGATGAGATCTTCTCATATTTTTTTTAGCTTTAGAAGTTTTTTTCTTAGGTACTGCCATTTATCTCATTCCTCCTATATACTTATTTATTTTTTTTATTTGTTATATCTATAAGTTGTTGCCATCTAGGATCTACTCCATCATCTAAATAATTGTCAAAATTTTCAACCCCTTGGCAATTATTACTACATATTGGATAACTTGGTAATTCTAATATTATATGTTCCCTTATTAAATTAGCTAAGTCTATTTCATCATCCTTTAGCTCTTCAAAAATTTCTCCACTATTCTCGTATTCATCCTCTAATTCATTTATAATTTTTTTTATTTTTGCCTTATCAATAAAATGTCCTTCTAATTCACCTTCTAAATAGTAATGAAATTTATTTAAACATTTTCCACACTCTAGTTTAACTTCTGTGTTAAAATTTCCTTTTATAAAAACCTCATCATCAATTAATGTTAAGTTTACATTAAAATCTATTGGTTTTGAAATTTTAAATTCTTCAGAATCCAATATTGGTAAACTATCATTAATTACCACATGGCTTTTGTTTTCTTCTTTTAATTTTTTCAAATCAATTTTCATGTGCTATCACCATTTTTTTAATTATTTAAAAAAATAATTAATACTTTTTTTAAGATAAAATAACATTTTATCCTTTTAGAAATACCTTAATTATTATATGAAATTTCATAAATTTTGTCAAGTAATTTTTCTTAACAAATTATTCTAAAAAACAATAATTTAATATATCATATCTGTATATAGATTTCAATAGTCTAATAAATAAATATTTTTAATCTTTAAATTAAATTTAAATCTACATTTTTTAGTAATAAAAATTAAAATATATTTTATCTCTAAAATATAAACAATAAAAAATCTTGACTTTTTTTGTAAAAAATATATAATTTTAATAAATTATAAGATATAATTCGACTTGTTTACATAAAAAAATCTAGAGAAACTTAAATTAATAATTCTTATAAATGGAATTTTAAAAATTGCATTAAACTATAATAATTGTATTAATTACTATAAAATATCTTATCACACAGTAAAATAAAAAAAATTTTTCTAAATCAACTTAGACTACTATGTCTGAATATATTATACACTAGGAGGTTTACTATGAATATTATTTTAAAAAGAAAAAAATTTTTCTTATGGCGAGACAATCTTAATTTAACCCACTCTCTTTTGTTAACCTTTGTTTTTACAATTCTTACAGGAATCTCTGCACAAATAAAAATACCACTTATTTTTACACCTGTACCAATTACTCTTCAAACTTTTATTGTATTAATAGCTGGTGTAATTTTAAAGAAAAATTATGCTGTATTTTCTCAAGTTTTATACATAATTTTAGGTATTTTTGGTGTTAAATGGTTTTCTGGTGGAAAAAGTGGTTTAAGTGTATTAGCAGGTCCCACTGGAGGATATCTAATTGGTTTTGTATTTGCAGTATATTTTATCGGGCATATTAGAAAAAAATATGATAATAATACAAATATTTTAATAAATCTTATTCTAATGTTTACTGCGGATATTTTTATTGTATTTGGATTAGGATTATTACAATTTGCTATATGGTTTAAATTATCTAATGGAAACTTTTTACCTTTTTCAACTCTTTTAAATATGGGATTTACTCCTTTTATAATTGGTGAATTTTTTAAAATATTTTTAGCTGTATTAATCACTACAAATTTTAATAATAAATAAAAAAGAACCAATTTCAATTATGAAATTGGTTCTTTTTTATTTATTTTATAAATCCTTTTTTTTGAGCATAATTAAACAATCCACCTGCTTCTATTATATTTGCTACATCTCCTAAAGAATTTAATTTATACTCTTTATTTTTTGTAATATTTTTTATTATAGCATTTTCTAAATCTATTTCTGCTTCATCACCAGTATCAAAAAAACTATCTATTTTTTCTTTTGACTCAAATGGAACTAAAAATCCTCCATCTACAGAGTTTCTATAAAAAATTCTAGCATAATCTTTTGCTACTACTGCTTTGATTCCTGCTTTTTGTAATGCAAGTGGTGCATGTTCTCTAGATGAACCACATCCAAAGTTGTTTCCTACTACCATTATTTGATATTCTGAAATATAAGCGTCTCCTTTTATAAAAGGCTGTTTTTCTGCAATATCTAAAGGTAATCCTGACATTGCATATTTACCATAAAGCTTTGATTCTTCAGGATCATCTGTTTTATAAACCAAGTGCATAGCTGGTATTATTTGATCTGTATCTATATTATCTCCTAAAACATATACTTTTCCTTTTATTATTTTTTCCATTCTTAGTCACTCCATTTCTAATTTTTATTTTTTAATTATTTCAAAAATTTTCTTGGATCTGTTATATATCCAGTAACTGCAGAAGCTGCAGCTGTATATGGAGATGCTAAATAAATTTGTGATTTTAACGATCCCATTCTTCCAGGGAAGTTTCTATTTGTCGTAGAAATTACTACTTCATCTGCATGCGTTCTTCCAAATGTATCTTCAGGTCCTCCAAGACAAGCAGCACAAGATGGTTTACCTACCTTACACCCTGCTTTTTTAAATATTTCTATTAAGTTTTCTCCACCTATAGTTATTTGTTCTAATTTTTTTCTAACTGTTGTAGTAGCCGGTACTATAAATGTATCTATCGCTACTTTTCTTCCTTTTAATATTTTTGCTGCAGCAAAAAAATCCTCTACTTTTCCACCTGTACAAGAACCTATATAAGCTCTGTCAAGTTTTACATCCTCACAATTTTTTGCTAAATCTACATTTCCAGGAGAATACGGCTTTGCTACAACTGGTTCTAATTTTGCAGAATCATATATATATTCTTTTGCATATACTGCATCTGTATCAGAATAAAATAAATCATAGGCTTTATCTGTTCTTGCATTTACATATTCTATGGTTTTATCGTCTGGTTCAATTATTCCACATTTTCCACCTGCTTCTATTGCCATATTACATATAGTCATTCTTTCTTCTACACTTATTCCTCTTATTCCACTACCATCGTATTGCATACATTTATATGTAGCTCCTGAGAATCCTACTTCTCCTATTGAAATTAAAGCGATATCTTTCCCCATTATATATGGCGGAAGTGCTCCTTCAAAAGTAAATCTAATTGTTTCTGGGACTTTTACCCATAATTTACCTGTTCCCATTATATATGCAGCATCTGTATTTCCTATCCCAGAGGCAAATTGTCCAAAGGCTCCAGCTGTACATGTATGAGAATCTGTTCCAAATAAAACTTCCCCAGGTCTAGTATGTCCTTCTTCAGCTAAAGCTACATGACATACCCCTTTATACTTATCTGTAAATGGTTCATAATAATATGTAAGTTCTTGTTCATTTGCAAATTCTTTTACATACTCTAAATTTCTCATCGCATGTTTGTCTTTTGTAAAAATATAATGATCTGGAATAAGCACTACTTTATCTTTATCCCATACTTTTGCATCTTTTCCAAATTTTTCTTTAAATATAGCCATTGTCCCTGGTCCTGTAACATCATGAGTAAGCAAAGTATCTACTTCTATCCATATATTTTCACCAGGAGTTACTTTCTTTTTACCAGCATGTTTTGCAAGGATTTTTTCAACTATTGTCATTCCCATAAAAACTCCTCCTAAATTGTATTATTTAATTCATACATAATTATATATAAAAACCTTAGTTTTGTCAATACTCTCTTTTATATATTTTATTTCTTTTTTTTGCTTTAATTGTCTTTTTTATATTACGACTATTTTAGTTTAACTTATATTTTTCATATTTTTCAAGTTTTTTAAAATACAGTAATTATATTTTACTTTTTTAATAATGAAAATAACAACAAATAAAAAACAGGCTAAAATAAAATCAACTCATTTTAGCCTGTTTTTTTATTAATAAGCTTTTAATTTATCAAAAACTTCTTTTACTGAAACAATCTCATTTACTTTATATACATCTTTCCCAGAAAAATATAATCCATCTTCAAGATTTCCTGCATGAGCATTTAATAATTTTTCTTTTACACAAAACTCATGGTTACAATGTTTTAAACAATTATCACAATTTCTTGGTTTTTCTATCTCACCATTAAATAATCTTTCCACAAATCTTGTTTTTATTGCATTTGCTGGAAGTCCTGCTGGACTATCTATTCTTACTACATCGCCTTCTTTTGCATTTACATATATCTGTTTAAATTTTTCTGATACATTACATTCGTATGTAGCTACAAATCTTGTTCCCATTTGGATACCGTCTACTCCTAAATCAAACATTCTTTTAGCATCTTCTGGCGTTACTACTCCTCCTGCTCCAATTACTGGTATTTTTACAGCTTCTTTTATCTCTTTTACTATATCCCATGAATCATCATCAGTTCCAAGATGCCCTCCTGCATTACCACCTTCAACAACTATTGCACTAGCTCCTAATCTTTGAGATAGTTTTGCTAATTTTACAGATGATACAATAGGTACCACTGGAACATTATACTCTTTTCCCCATTGAAATACATCTCTTGAAAAACCTGCACCACATACAACTAAATCTATTCCTTCTTTCATTGCTGTAATAACAACATCTTTAAACTCTGTCACAGCAAACATTACATTTATTCCTATTATTCCATTAGTCATTTCTCTTGCTTTTCTTATTTCAGACTTTACTTCATCTAATGGAAGTGCTGACCCAGCTATTAAACCTATTCCACCTTCATTTGCTACTGCTGCTGCCAAATTTGATAGCGAAGCTTTTACTGCCATTCCACCTTGTACAATTGGTATTTTTACATCTAAATCTGCTATTTTTAATTTTGGAAATCTCATCTTAACGCCCCCTATATATTTTTATTTTTAATTTCAACTTGTTATAGTAAAAAATTTTATAATATTCAAATAAATAAAAATAATAAAAAAACTGTGTAAAAAACTATTTCTAGCTATCTACACAGTTTTTTTATTATAATTTTAAATAAACTTCTATTATTTCAATATTATTACTTCTATTAAATATATCATTACTTACTTTTTTATTAAATTTTAATTCTTTAAATTCTTGTATATCTCCACATTTATATTTAACTACTAAACTAGGGTTTTCTGAAATAACATATTTTATTTTTGTATTTGCAAAAGAAAATTCTAAATACTCATTATTTATAAATTCTTCTTTTTTTAACATTATTGGATTAAATATTATTTCTTTATTTTTTACATAGATTCCTAATTCTAAGAATCTACTTAAAATATCTTCTTTTACTTGACCAGTCATTCCTGGTTGTTGTACTCCACTTTGTTTTGGTGTATGAGAATATGGATCTGTTGTAAAGGCCCCATAATCTTTTGGATTTTTATGAATTCCTAACCCTTCTTTTATTTTATAATAATAATTTATAAGTTTTTCTAATTTTGATTTTTCTACATTATTCTTATCAAATATATATATATTTTCAGCTACTGCAAGAACTAATTTTGATACCATATGCCAATAAATACTTCCAAGTCCTTCATATTTATAGAATGTTCCTGATCTTCCTGTAAATAATCTATGTTGAAATACTTCTTCATAGATATCTAAAAGTTTTGATTTTTCTTCTTTTATTAACGAATTATATTTTTCATTAAGTGATAAGAACTCTAGCTTTTCTAATAAAACATTTTTATTTCTAAAAGAACTATCAAAATGATAATTTCCCTCTATATCTTTTTTAATAAAAGTTTCATTATTTTCTTTTAAAAGTTCTTGTACAATTTTTAAACTTTCTACTTTTTCTTTAGGCAAAATATTTTTCTCTAAGAAATTTGGAAGTCTTTTATCTGGATAAAGCATAAAACTCTCTTGATCTTTTCTGTATAATTCACTACTATACATTTTTTCAATTAATTGGATAACTTCATCAATATCAAGCTTAAAACTACTTAATGCAGCAACTTGTCCTTCAAGCATATCATATAAAAATTCTACTTTCATTTCTTTATCATTATAATTTGTTATATTATATGCACTATATAGACCATTTTCTTTTTTATTATGAACTATTGATTTATCTACAAATTTTAATAAAATATCAAATAAGTCTAATAATTTTTCTTTACTATATTCTATTTTTTCAGTTTCTTCTAACTTATAAACTATTTCTCTATATTTTTCACCAGCTAATCCTAACTCATCTGTTATTATTAATCTTTTTTTATCATCAAAATCATTATTTAAATACTCTTTATTTTTTACAAATATAGAATAAATACTATCAGTTAACTGAGCTAATTCTTTTGATAATTTATAACTATTTTCATTACTATTTTTATATAATTCTTTTATAAATTTTAAAAATCTACTTATATAACATAATGTAACAACAGATACTCCATACCCTACAAGTGCATTATTAGCATCATTCCATTCAGGTCTTTGAGTATTCATCCATATTCCTGCATCTAAAATAAAATTGTATATTTTAGCATGTAAAGATACTAATAATTTTTCTGTAAAATTAACCAATCTTGGAGTTTTACCATTTAATACAAATTTTGCATCGTAACCAATTTCTTTTTCTATTTTCTCTATTAAATTATTTAGTTTAGTATCAAAATCTATTGTATTTTGAGGATCTTTCTTTATGTCTTCATATTTTTTTATTCTATATGGTACATTTGCAAATGTAAAAATATTTTTATTTAAAAACTCTTTTAATTTTTCTGGATAATATTCATTTGCTAATTCGAGAAGTTTTAACAAATAAATTATTTGATGATCTCCCCAATATCCAATAAATGACCAAGGATCTTCTGGATCATGTAATTCCCAATCAATACCATTTTTAGTTATTCTATATGGATTGTATCCATCAATAGTAGAAGCATTTAAAAATTTTGTAATCATCGAAAAAATAAATCCTGGATATGATATAGCTAATGATTCCCAATTTTGAAAAATATCTCTCCAATTCCCTTGATAATAAAATTGATATTCACCTTTTTCATTTTTTATATCGATATTAAAAATATTCCAAGGTCTACTTGGATCTCCATGTCTTCTTGAAAAAATAAGTGGCAAATATTCTAATGTTATTCTTATTAAATGTGGATTATTTAATTTTTCAACATGATTTATCAATTCAAAATAATTAATTTCATATTCTATTTCATTAAAACTATTTTCAAATTCATTATAAATTTCTTTATTACAGCTATTTAAATATTTCAAATAATCTTTTTTATCTATTAAATAATCCTTATAAAATATTCCGCCTCTCATAATATTGAACATTACATTTGAAAGATGTCTTTTATCGTTTAATTTATCATTTGTAAATTGAATTCCATCAGATAATGCTATAAATCTTTTTAATTCTTCATATCCTATTTTTATATCATTTTCAAGTTTCTCAATTATATTATCTTTTTTTATATTTTTTATTAATTTTACTAATTTTGAATAATCATAATTTAAGTCAAAAGTTATAATCCATTCTTTTTCATTTTCTAATTCAAATTGTAAGTTAACTAAATATGATCCTTTTTCTCCTTTTACTTCTTTTTCCTCTTTAACTAATTTACCTTCTCTAAAATCATTTAATTGCTTACTACTTAATAGTATTTTTTTATTTTTTATTTCATTAAATATTCCCCATACAACATTTGCTGAAAGTGCTTCACTTGGTTCTGCTCTATCTACAGGTACCGAACTAAGTCGATATATACCTAAATTTACATCTTTTATTAATTCTACTTTTTTATATCCATCTATAAGAGTACTTTTAGTATCTTGTACTAATTTTTCTACTCCATATGGAAGTATATTTTGTAATCCATCAATTATATCTATTTTTATTTTTTCACTATTTTTATTAATAATTTTACTTTTTTTTATAAAACCATATTTTTCACTATTCTCATAAGAATATTGAAATGTAATATTTAAATCATTATTTATCTCTTCAAATATTATTTTATTTCCTAAATCATTTTTATATATATTTCTTTGAATATCATAAATTAAATTTAAAGAAAATGGCTCCCATAAATATTTTTTATTTTTTATTTCAACTATCATTATTGTTTTATTTCCTGTTATTTCATATGTATCATGAATTTTATCATCTGTATAATAAGGAAATATAGTATTATCAGGATTTTTTCTACCTGCTGTAAGTCCTCCTGTACTTGAAATAAACATAAAATGATCACTATTACTTGTGATAGTCATAAAAAATGGATTCATTTTATCAACATTATTTATTTTATAATATTCTTTATTATTTATTTTTACTATTTCTGGTAAAATTTTTTTTTCTGAATGTTTTATTTTATTTTCTCCTAAAAATATTTCCATTTTCTTTCCTCCAAAAGATTATTTATTTTTCACAATTCTAAATTAAGTATACGAAATTATGAAAATTTTATTTATTTTTCTTATTTATATTCTAACCTCTTATTATTTATTATATTTTTTTAAAGTATAGTAAATTAATATATTTAAAAAAATTAATCCCAATCCTATCCCAAATACAATAAATAAAAATATATTAAATACAAATATAACATATATTAAGTACAATACACCTAAAAACGGAACTATTATCCAAATATTTAAATTTAAAAATTTAAATGCAAAACTAAAAATGTTTTTTATTTTCATTTCATAATTCGCTTTGATATAGGCTATAATAAAAAAATACATTAAAAAATATATTTCTAATATTCCATAAATAAAAGACAACTTTTTCCCTATTTCAAGAATTATAAAAAGCAGAAAAAATATAAGAGTTAAAACTACTGATTCTCTTATATTTTCTCTAAATAATTTTTTATAATTTTTAAAAATTTCAATTTTTCCATTATCAATCCATTTTCGTGTAATATATGCCACACTTGTTAATGAAGAAAAAAGAGTAACAATCCCAAGTGAGCTCAATATAAAAAATATACTTAATTTCATTATTTTATATATTATATCTAAAAAGTTATAAAATTTACTTTCTATTGTTACTCTCATATTATTTCTCCTTTATTTTTCTAATATTATAGTTTGAATAGAATGTGGTTTTATCATTCCTTTAACTTTTTCTTCATCTAATTCTATTTCATAAGTTTTTTCTTCATTTTTTTCATTCATTATGACAACTATATACTTAGCTTCTCCAGCCCAAGTTGTCACCCATAAATCATTAGAAGATAATTTATGTTCTAATCTTTTGTATCCTCTCTTTATATATTTACTAAAATGTCCAATATAAAAATAAGAAGAATTATAATATATTTTATTTTCTTTAGTATCTGCAATTATTGGAGCATCGCAAAAATTATTTACATGATTTGGACCACCAAATTCATTAAGTACTATATTCCAATCACACCAAGCAATTGTATAATGATTAAGATCATTTATAATATGTTTTCCATATTTTTCTCCAGTCCACCATTCACCTACAAGTGATGTTTTCCCCGTATTATAATGTGGATTGCATCCTTCTGTAAAAAGTAAATTCTTTCCATATGTTTTATGCGTATAATCAAGTACACTGTCATCCATATTTGTACTATTATCACCATTTTGACCATACCAATGGAATCCAACTCCCCAAACCCATCTTGCTGCTTCTTTATCAGATAATATAGTATCAACTCTTTCTTTCATTATATCTTTATTATGATCCCATACTATTATTTTTATATTTTCTAATCCTTCTTTTTTTAAAGTAGGCCCTAATATTTTTACAAAATCTCTTTCTTCATCACTTTCATAAATACAATTATCCCAAGGTGTTTCAGCCATAGGTTCATTTTGAATAGTTAATCCCCATATGTCTACTCCTTCTTTTTTATATTCTTTTATATATTTAGCAAAATATTTTGCCCATACTTCTCTATATTCTAATTTTAATTTCCCACCATTATTCATTCTACCATTTGTTTTCATCCAAGCAGGAGGAGACCATGGAGAAGCAAATAATTTTATCTCTGGATTTAAAGAAAACGCCTTTTTAATAAGAGGTATCAAAGATTTTTTATCTCTTTCAATTGAAAAAGTTTTTAATTCTATATCATCTGGTGTTTCACAATAAGCATAATTTTCTAAAGAAAAATCACAACTATTTATATGTGTACGACAAAAAGAATAACCTATTCCCTCTTCTTTATCAAAATAAGCTTTTAATATTTCCTCTTGCTTATCTTTACTAAGTTTATCTATAGTTGTAGAGGCAGCTTCTGTAAAAGCTCCCCCTATTCCAAGCATTGTTTGATATTTTTTTTCAGAATTAATTTTTATTTTTATTTCTCCTGAATCTATTCTTTGAAATTCTTTTTCTGTTAATCTATCATTAGTATTTTTAGCTGTTTCAATTAATCTTATCTTCATAATCATCTCCTATTCAAAGTGACAAATTACTTTATCCACTCTTTTCTCTCTAAGCTTATAAGCAACTTCTCCAGAAATCATATTTCCGGAAACTTCTATTTTTTCTCCCTCAATAAATAACTCTATCTTACTTATTTTTACTCCATTTTCTCCATAAGTAGATTTTTTAGATGGATTTATATATTTTATATTAATTTTTGAAAATAACTTAAATTCAATTTCTCCATTTTCATTAAAAAATTCTGTATTTATTTTTGGATTAAATGTAAATGTTAAATCATTATTTCTATACTCAAATAATTTATCACCTATAAAAATGTACTTCCACATACTTAAAAATTCTGCTGTAGATCCACTAAGTCTTGCACTAAATCCTTGTCCGTGTAGATTTTCATTTCCATTTGCACTACTTACTATAAATGATGAATTTTCAAGTACACTTCTTCCGTATGTTTTATAATCTAAAAATGGTGGTAACATAGTTTTTATATCTTTATAAAATTCATCTACTAAATTAGCTTTTAATATCTCTAATAAGTATTTGAATTCCATATGCATAAATATAGATTCATTTTCTAGCCATCCTGGCGTGAATGCTCTAAGTCTTCCTATACTATATGGTTCATTTTCTATGCTTTCTGATGTTTTATACATTTTTAATTTTTTATCATATATATTTGATTCTTTTACAAATTTATATAACTGTTTTTGCTCTTCATTATCTATTATTTTAAATGCTCTTGCTACTCCCTCTAAAAAATGTGGTAATGCTCTTACATCAAATTTTTTAGGAGTTATTATTCCATCTTTTTCTTCGTATTCTGTTAAAGTATATGTGAAATATGTAGGATAAATTCCTTTCCCATACTCTTTTGCTAATTTTATTCCTTTTTCCATTTTATTTAACATTTTTTCTATAGTTTTTATTAAAAACTCTTTTTCTACTATTTCTTTTGCTCCATCAATATAAAAAAATACTTTTTCTCTATAAGCCTCTTTTAAAGTTGCTACTTTATCCCAATACTCAAATTGATTATTATTTTCAAAATAATTATCTAATTCATTAGAAATTCCTATAATAAAGTCTTTTAATTCAACTAATATTTCAAATTGATTATTATTTGTAGATTTTAAATTTTCTAATAAAAATTCTAATATTCTTTTTAATTCAAAAGTTTCACTCATTCCAGAACCAATTATTCCAGGAAGTCCATTTAATGCATCATTCCATCCTGGTTTATTAGCTTCCATTTCAAGCCCCATTCCTAATGGATCAAGTGTTGCAAATTTATTTATTCCTAAAAGAAGAAGTTTTTCAAACATATTTGTTGAATATATTTCTCTAGTTTTGTCAACTAAATAATTATGACCTCTTTCTTTTAAAATTTCTTCTTTTTTATGATTTTCAAGTACTGCTCCTATTTGCATTACATTCCCTTTGTAAATTTTGTATTTATCCTTTCTTGCTTGTACAAACGCAGGACTATCAAATACTCTATATTTATTTTTATTAAATAAAATCTCTTCTATTTTTTCTGGATATATTTCTTTATATGAATCAATTAAATCCATTAAATATGTAAAATGATCAATCCAGTATCCTTCTCCAAATTCTGCTTGCTCAAACTGTTCACAGTCGTACATTAGTTTATTTATAAACTCTGTTTCATTTACTTTTAAATTAATTTTATTATTATTAATAAATGTTAAAACTTCTCCAGGAGTAAAATAATTATTTAATAAATATTCTCTTAATTCATCCATTTTATTTTCAACTAATTCAAATATCTTTGAATTAGAATCTAATCTAAATACAGTTCCTTTTACAACTAACGGATTATTTCCATCAGCTTGAATAAAATTAATAAACATATTTAAATTGAAATCTTCTATTTCTGGATTAAATAATATATCATTTCTTCTGTTTTGTAATACGTCTCTAAAATTTCCATTACCTTGAGAATATTTATTTGCTTGTAATGAGAAAAAATTATAATCTCTTTCTAAATCTCCATGTTTTCTAGAAAATATATGATATACATTTTTACCATTTTTACTATCAAATACTAATGGATAACCTCCTCTTAAAATATTATCCATATAATTTTGCTCACAATATTTATTAAACAATTCATTTGAGGTTTTAGTATAAATATTGTCAACTACTTCTTCAATTACTTCATCAGCTTCTTTTAATTTTCTTTCAACAAACTCATTTGTTTTCAAGATATTAATTTTTGCATTTATATCATCTCTATCTTCAGCAAAGCCAAACATACTATTTATTATCATTTTTTCATTTGATTTTACTATTTTTTCAATACAAGAAAATGCACTTGGAAGGGTATTTTCACAATATTGTTTTTTTAATAAAATCTCTTTTAATTTCTCATTTTTAAAATTATACGGAACTTGTAAACTCGTGTTCATTTCAAATAAAATATTTTTATCATATATAACATCTAAAAGATTATCTTCATTTGTTGCAAAATAAAAGTATCCACTTTTTATCTCTTCAACTACTTCTATATCTCCAATTTCTGTTCTTACACCATAAAATGGAACTTTTTTATCTGTATTTGATATTTGCATCCAAGCTCTAGCTGTAAATCCCATCTCCTTAAATAATGTGCTTGAAACACCATATGGCAATACTTCTGGTAATCCATCTACTATTTCTATATTTTTATCTTTATCAGATAAATTTTCTATTTCTACTCTTCTTATTAATCCAGGAAATTCTTCATTTGAAATAGTAAAATAAACCACTTTTACTTTTAATTCTAATTCTTTATTTATTTCTACTATTTCTAATTTATTTTTGTATATATACATATCTCTACTAATGTTATCGCTATGAGTTGTTTCTGAAAATGCTTCATAATATTCATTTTCAATTTTTAAAAATGTTCTAAACCCTTTTAAAGGTGTCGATGTATAACTTTGATCAGCTGGTTTAAATTCCATTATAGAATTGTCTTTATTTGTAATCCCAAAACTAGCAATTCCCTGACCTCTGTTTACATAAAATACCCACATCGGTATACCTTCTTTACCTGCAATCCCTGGTAAAAAACTAGAAAAACATTTTTGTTTATCATAGTTGTTAATTAAAAAATCAGTCTTTTTCATCATCATCTCCTATCTCTCCTTCTTCTTTATATCTTAATCTATATTCTATTGGTGTGATTTTTTCTATTTTTTTAAATATTTTTGAAAAATGTTTTGGATTCTTATATCCTACTTCTTCTGCTATTTCATATATCTTATAATCTACTCTTTTTAAATATTCTTTTGCTTTTTCTATTCTTATTTTGTTTAAATAATCTAAAAAATTCATTTCAAGATGTTTTTTAAAAATTGTTGAAAAATATGAATAATTTAATGAGACATAATTTGATACAACTGCCATATTTATATCTTTATTATAATTTTGTTTTATATATTCTAATGCTTTTTCTATATATACTTCTTCTATATTTTTACTATTCTCTTTTATAGAGCATATTTTTTTGAATGATTCCAAAATTTTATTAATATATTCTTTCATATTTTTACTTTTAATTTTTAAAAAATTTTCATTTAAAATATCTTTTTCTATTTTATCCTGATTTTTCAGAAAAATTCTTAAATAAAATAAGTTATGCAATTTTTCAAAACTTTCAATATCTCCATTGTTTATAAATTTATCATTAAATAGACTATTTATTTCTTTCTCTATTTCTTTAATTTTACCATATTTTAAATAATTATATATAGTATCTATTTTTTCATTATCTATTTCAATTTTTTTTCTATTTTTTATATTTTCATAAGTTATATTCTCTTTTTCAAAAAATATTTTATATTTTTTTAATTTTTCTATTTCATTAAAACTATCTTTTATACTTTCTTTTTTACTTCGGCATAAAAAATTGTACTCTATATCAGAAAAATCTATTTCTTTTTCAGATAAAATAATATATTGATTTTCATTTATATTTACAACTATATCTGATAAGCTATTTATATTATAAGTAGTTTCAATATAATAACAAGTTAAATTTTTTATATTTTTCTTTAATTTAATTAACAATTTTTCTATTTTATTATATTTCTTTCTTTCTAAAAAGATTAAAAAATCTTTTATAAAATCCTTTTTTTTATTTTGATTTTCTTTTTCTATTTCATTAAATATTTCATAAATATTATCTCTAAGCTCTTTTTCATCAATAGGTTTTAGTAAATAATTTTTCACTCCATATTGTATACTTTGTCTTGCGTATTCAAACTCATTAAATCCACTTAATATAATAGTTTTTATCTTTTTATCAAGTTTATTTACCTCTTTAAGTAGTTCCATCCCATTCATTGTAGGCATATTAATATCTGTTATGATAATTTCAAATTCTTCTTTCTCTATTATTTCTAATGCTTCTTTTCCATTTTTCGCTAACTTAATATCTAAATCAATAAAATTATTTTCTAATATTGTAGCAATTCCTAATCTAATAAATTTTTCATCATCTACAACTAAAATTTTTTTCATTCATATCACATCTCTTTTATTTTTATTAATATCCTAGTAAATTTATCTTTTTCACTTTTTATTTTAAATATGACCTCCGACTTAAAATATAAGTTTAATCTTTCTTTTATATTTTCAAGACCTATACCACTCCCTTTTGTTGTCTCTCTTATCCCTATACCATTATCTAAAATATCAAATATTAAATTTTTATTTTCTCTTGATATTTTTATTTGAATAATTCCTTTTTTATTTGACGGTATAATTCCATGTAAAATAGAATTTTCTACAAGAGGTTGTAGTATCATCTTAGGAATTTCTTGTTCTTTTAATTCTTCTCCTATAAAATATCTAAATTCTATATATTCATCAGTTCTTATAGAAAAAAGTTCTATATATCGTTTAATATAATCTATCTCTTCATATATTTTTACTTCTGTTTTATTTATATTCATACTATAACGAAGTATTCTACCAAGGTTAGTAATTGCTTTAGATACTTTGTAATCTTTATTTATATAAGCTATCATTTTTATACTTTCAAGAGTATTTTGTAAAAAATGACTATTAATCTGAGATTGTAATGCTTTTATTTCAAACTCTCTAGATTTTCTTTCTCTCATTATATTATCCTCAATTAATTTTTTTATTCTCTTTGTCATAGAGTTTATTTGCATTGTTAAAACATAAAAATCATCAACTTTATTATTTAATGGAATTTCGACATCTAAATTTCCATTTTTTATCTCTTTTATTCCTTCTATTATATATTCTAATTGTTCAAATATTCTAATTGATACAAAATAAGATATATAATATATAATAATAAGACTAATTATTGCTATAAACATAAGATAAATTCCATATGTTATCATATCTTTATTTATATTGTTTTTCTCTATATAGTTTATAAAATACATATCTAAAAAAGGTATGTATTTATAATAAATAATAGATCTATTATCTTCTATTAAAGAAATTTTTTTCTTATTCATGAACTCGTGTTTATAAAACTTTTCAAAATTAAATATACCATTTTTTAAATCTATTGTATAGTCATTTTTTACAAAATAATATTCCCCATTATCTTTACCTATTATTTTGTCCAAATCTATTTTAAGTTCTAAATATACACTTTTAGGATAAAAATATATTTTTTTTATTGAATAAATGTAATTTTTATTATTTTCTCTAATTATCGTAGTATTATCTTTTAACAAACTTTTATCTGGTAAATGATTTTTTATAATTGGTTGTATCTCTAACAAGTTTTTATTATCAACATATATTTTAAATTCTGATATTTCTTTCGAAATAGATAGTATTTTTTCATAATTATTAATTGTTTTTTTTATTTCTAAATACTCTAATGGTTTTTTTTCTTTTTCAGAAGTTAAAAATTCTAATAATTCAAAATCACCTCTAAGTATTGTTTTTATTCTCTCTAATTTAAAAAAATTTTCATTTAAATTATTAGCTATCTGTTCAGTTCTATAAAATCTGTCTTTTTTTATTTTTATCTCTTGCGTTTCATTTAATGTATAAAAAATATATATAGCAATAATTATTACAGGAATAAAAATTATTGCTATATATGCAAAAGATAGTTTCTTAAATATTTCGCTTTTAATTTTTTTCATAAAAAAGCACCTCTTCTTAGTCTTTTATATTATTATACCTCAATTTACTAAGAAGAGGTACTAAAAATTTTATTTTTTAGATTTTTTTATTATTTTAATCCTAATTTAGCTTTATTTTCTTGCATTTTTTTACTTCTATATGCTTCTAATTTTTCAAATCCAACTTTATTTCTATAATCAATAAAATCTTGTAGTATATCATCAAATTCTTTTTCTGATTCTGCAGTTATTAATTTACCAATAACTGTAGATCTTTTTAATGCAATTTTATCAGCAATTATTCCTTCTGGAGTATTTTTCTTAGGTTCTATCATTTCCATTTGGAATCTAGGATATACTTTTCCATATGTCCATTCAATTGGTTGTTTACTAGGTCCTGCAGGTGGTAATCCCCATTTTTCTTGTTGCATAGCAACATCCATAAACATCCAATGCATATCATCAGCACCATGAATTTGATCAAATGCTTTTCTGTTTTCTTCTCTTAATTTTTTTACTTCTGGTAATAATTGAGGTTTACCGTCAATCATATCCCAAGTTTTCCCTTGTTTTCCTAAATAAACTGTTCTTTGTCCTTCTTCACTTATCATATATGTAAAAAATCTAATCGCTTTTGCTGGATCTTTACAGTTTTTAGATATTAATGTAACTGTCCATCCACTTATTCCTGGTCCAGCTAATTGATGTTCATCACCTTTAGAATTTTTAGGCCCATCTACAGCTATGTATACTGAATTTGGATCTTCTTTATATCTTACTGTTAAAGGTCTTAACGCATCTATATGAGGATATAGCATTGAAAAATATCTTCCTTGAGACATTTTTTCTTCGATTTGTGATCTTTTATCAACAAATACATCTGTAGCAATAAGTCCTTCTTCATAAGCTTGTCTAAATGTTTTTAACCATTTTATATAGTCAGGATCTGTATATCTATCATATACTTTTCCATCTTTTTCTAATGGTACTGCTAAGAAATTTTGTAAATAATCACCTAAACTATTTTCAACTCCTTCTTGAAATCCAATAGGAATAATAGGTTGTCCATTTACTGTAGGAAATTTTTCTTTTACCGCTCTTAAAGCTTTTAAAAATCCTTCAGGTGTAGTCATATCAGGACTTCCTATAGCTTCATACATATCTTTTCTTACTAAGAAAGTTTGATTCGAACTAATTTTTGTAGCTGTTTTATAATCTTCTAATGTATAAGATGCATTTGGATATCCATAAGTATGTCCATCTTCTTGTTTAAACCAATTTAATTTATCTTTGCTAGCTATTTTAAAGAAATACGGATCATATTTTTCTGCTAATTCATCAAGTGAATATACTTGACCACCTTTTATCATTAAATCAATAATAGAATCTCTTGCATCTAAAGTAATCAGATCTGGTAAAGTACCAGAAGCTATCATTGTATTTAATTTTTCTGTACCATTTCCAGCTGGTACTATATAATTTACAGACACTCCAGTTTTTTCTGTAATTTCTTTTGTTACATAATCTTCTCCCCATTTTCCTCCAAACCAAGAATAGTTAATATACCAATCAAATGTTACTTTAGAATCATCTTGTTGCCATCCTGGTTTATTAGGATTAACTTTCACTTTCTCTTCTTTTACATCTTTTTTCTTATTAAAGAAAAGCCCTGCATTTACATTTACTACCATAATTGAGAACATAAGTGCTAATGTTAAAAATAATTTTCTCTTTTTCATTTTTACCTCCTGTTTTTTATTTTTTATAGAAAATTTAATAATTTATTCTTTTACAGCTCCTAATAACATTCCTTTAACAAAATATTTTTGTAAGAATGGATATACTGTTACTATTGGGAATGTTGTTAGAACCATTGTTGCTAATTTTATAGATTCCGATGTAGTTTTTGCAACATTTGTAAGTGTTGCTGGCATTGCATCCATCATTTGATTTGATGAACTTTGTGCTATTACTTTATATAAAAATGTTTGTATTGGTTGTAAGTCTGGATTATTAATATAAATTACCCCTGTAAAAAAATCATTCCAATGAAATACTCCATTAAATAAAGCTATTGTAGCAATTACCGGCATAGATAACGGTAAGACTATCTTTATAAATATCTGAAAATCATTTGCGCCATCTATATACGCTGATTCTTCCAAACTTTGCGGCAATTCTCTAAAAAATGATTGAAATATAATCAAATCAAAGAAACTAAATAATGTTGGAATAATATATACTAAAAAATTGTCTAAAAGACCTATTTTTTTTATTAATAAGAAAGTAGGAATTAACCCACCATTAAAAAACATTGTAATTATTCCAATTGTTAAATAAATTTTTCTTCCTGCTAATTCTCTTTTAGAAAGTCCATAAGCAACCATAGCTGTAAAAAAAACGTGTGTAATAACCCCTATAACAGTTCTTGAAATAGTTATTCCAAATGCTTTAAATATACCTGGTGTTTTAATTACTGTAATATAACTTTCTATACTAAATTTTCTTGGCCACCAATATATTCCTCCAAGCATAGTATCACTAGCATCGTTAAATGATAAAACAAGTGTGTACCATACTGGATAAATTATTATAAAACAAAATAATACCATTATTACTGTATTTATTATATCAAATGTTTTTTCACCTTTTGATCTCATACTCATATTCTTCCTCCTTATCTAAAATAGCGCTTTACCATTTATTTTTTTACTTGTATAATTTGCAGATACTAGTAATATAAATGCTATTACAGACTTAAATAATCCAACTGCTGTTGCATATGAAAATCTAAGTGATTGAAGCCCCATTTTATACACAAAAGTATCAATAACTTCACTTGCTGATAAGTTTAATGGATTTTGTAATACTAACATTTGTTCAAAGTTTGTATTTAAGATTCCACTTACTGCAAGAATAAATAATATTGTTATTGTTCCTTTTATAGAAGGAAGTGTAATATGCCAAATTTGAGCCATTTTCCCGGCACCATCAATTTTTGCAGCCTCATAAAGTGTTGGGTTTATCCCCGCTATTGCTGCTAAATAAATAATTGCATTCCATCCTAATTCTTTCCAAATATCTGATATAATTGATATTCCCCAAAAATATTTTGGATGTGCTAAAAAAACTATCGGTTCTTGAATAATACCTACTCCCATTAATACTTTATTCATAAGTCCTGTTTGAGATAACCAATTTATCATTATCCCACCAAGCACAACCCATGAAAAAAAGTGTGGAAGATATGATATTGTTTGTACATATTTTTTTAGTTTACTATTATATAATTCATTAAGCATAATAGCAAACGCTATTGGTAATGGAAACCCAATAATTAATTTTAACACGCTAATTCCCAACGTGTTTTTCATAACAAGAAAAAAATTATCATCCATAAAAAATTCTTTAAAATTTTCTAATCCTACCCATGGTGCACTATTAAAAGTATCAATTATAGTATAATTTTTAAATGCTATAATGATTCCATACATTGGAATATAATTAAATATAATCATCCAAATAATTCCAGGTATAACCATTAAATGTAAATACTTCTGTCTTTTAATTAATTTCCAAGTTTTTTTTAATTTCTCATTAAAATTTTCTTTTCTCTTTAATGACCCTGGTTGTTCCAAACCTCTCACCTCTTTTTCTTTTTTTGTTCTATTTAATTATTAACTATACAATAATAGTACTATTTATTCATAAAAATAAAAAGATAAGTATTTTGAGATTTGGTATCTATTTTTTGGATTTATATTTTTTTATAAATTTATTCATATGTTATTACTTTTATATAATCTATTTCCATTATTTGCGGAAAAGTAGTATTAATATCAGGAGATTCTGGCCAATTTCCACCAACTGCTACATTTAATATTATAAAAAAATCATCATCAAATACCCAATTTGAAATATTACTTCGCTTTTCCTCGTGGTACATTTCATTATCTACATACCATTTTATTGAAGTAATATCCCACTCCACTTTAAATATATGAAAATCATCTGAAAAGTCTCCACTAGATAAAGTATAATTAGAGCTTTTTCCATTAGCTCCAGAATATCCTGGTCCATGAATAGTACCATATATTTTAGAAGGATTATCACCTAAAAGTTCCATTATATCTATTTCACCACAATCTGGCCATCCTTTTGTAGATATATTTTCTCCAAGCATCCATATAGCAGGCCAAATTCCTTTACCTTTTGGTAATTTAGCTTTTACCTCTACAGTCCCATATGTAAAACTAAATTTCCCTTGTGTTTTTAATCTACTTGATGTATATTGATATCCATTTTTATTTTCTTTTTTAGCAGTTATTATTAATTTACCATCTCTTAATTCACTGTTTTCTTTAGTATAATATTCTAATTCAGCATTCCCCCATCCATTGTTCCCATTTCCTACTTCAAATGTCCAGATATTTTCATCTATTTTATCCCCATTAAAGTTTTCTTCCCACACTACTTCTTTTTTATCACTATTATCAATTATTTTTATCCCACCATTTGTTTTATTAAATCCCCTATTACACCCAATAAATAAGATTAAGATTATAAAAACTAAATATTTTTTCATTAAGAACTCCTTATTATAATTTTAACAATAGCCTGCTAAAATATTTTAACAGGCTATTTTAGAGGAGATGTTTAAAACTGTTACTACTTCTATATAAAAGTATTCCCTTTATACATTTTCTTACTACTTTATTTTTTTAATAAACTAATATTAGAAATTCTTACTGTTGTTGCTGCATCTGAGCCTGTGCCTGATACATTTCCTAATTCAAACACTAATTGACAATTACTTGCATCTGCTGCAGTCTCTGTAGATGTAAATGCTATTGTTTTTGTTTCTTTTGTTGTTATTACACTTATTTTTTCAGAATGTTGTTCGTTCCACCATGGATCACTTGATAAACCTTCTCCTACTTTTACATTTATATCCCTTGCTTCATCTGCTTCTATATCAAATGTTATTGTATAATTAGTACTATTTTCTAATGCAGATGGTAATGTGAAGTATACTTTTGTTGAATAACTATTACTTCCTATTGCATTTATTTTTGCTATTAATTCATCTCCATTTCCTGTTGCTGTTACACTTCCACCATCACCCTCATATTTTCCTATTATGTATGCATCACTTTCCCCTAAAAAATCTGCTGTTACTTTTGTTGTATCTACTACATTTGCTGCTGTAACAGTAATTTCTTTTGTTGCTACATTTCCATCTATTGCTAAAGTTATTATAGTAGTTCCTTCTTTTATTCCTGTAACTACCCCTTTGTCTGATACTGTTGCTATAGATGTATCTAAACTTTTCCACACTACTCTATCATATTCAACTCCTATAGGTTCTATAACTGCTGAAAGTTGAATAGTTTCTCCTATGTTTAAGCTAGAATCACCACTTATTGATACACCTTCAACTTTTGTTGTTTCAGGTTTTAAACAAGCTGTAAACATAGATAATACTAGTATTAATAATAATGCTCTTACTTTTTTCACTAAAAACCCTCCTTATTTAATTATATTTTTTATTTAATTATTAAAATGCTACTGTAATACTAGCTTTTAATTCATGTGTTATATAGCCCGAATAATCATCAGCTACGTCCCACATCCAATTTTCCCAGTCACTTCCAGAGTGCGACCAACTTTCTAATCCATCATACCAAACATGGCTAACTTCTTTTTTATATACTGAATTTTCTAATTCTGTTTTACTAGCTTCTCTGTTTAATTTATAATTATCATATTTATACATTAAATCAAATGTTACATCATTTACTACATATTTAATTCCTGTTTTTATCAAATATTGTCTTCCATAAGCATCTTTTATAACATCATTGTTTTCAGTAGCATATCCAAAATTATAACTTCCATATAAAGTAGTTTTATCATTCATTTTATAATCTGAAGAAGTTCCTACTTTTATTCTTTGTTCATTTGAAAAGTTTTGTGAAATTGTATTATCGTCACCAGTATAGTAATTTACATCTACATTTATATTAGTATTTAATTTTGCGCCTTGAACTAATGCATATCTAGCATTTACATTATAATCATTATAAAGAATATCTGTTTCTTCTACCCCACCATTAGATACATCTTTTCCACTATTTGTTTTCACAAGTCTTCGATAGCTCCCAGCTACTCCCCATTTATCTTCATTTATTTCTACTTTTCCTAATAATTGTGTTTCGTTAGTATCTTCATTATCATTTAAAGCTGATCTAGTTTTATCATAATTTGTGTAATCAACTGTTGTTTTTACTATTAAATCAAATGGTAATGTATAAACAATTTTTCCATTATATCCTTTTTCATATCCTGTTCCATCTTCATATGCAAAACTAGCATTCCCAAGCCATGAATCATGTCTCTGAGAATTTCCAAGTACCGCAGTATAATCTTCTCCTACATTTTTATATCCAACAGATACTTCTAAATCATCAAACGGAGTAACAACTACTGTGGCATCTACTATTGTATTATCTTTTTTAGCATCTACTCCACTTAAATCATAGCTATCTGTAATCCAAGGAATAACTTGTCCTGTAGTATTCATTACAGATGTTACATCCTTTCCATAGTTTGCTATTATATATTCTCCTTTTATACTTACTAAATCAATTGGTGCAAATTCACCATTTACTGCCAATCTTAAAGTATCTAAATCTTTACCAAAATTACTTCCTGATATTTCACTAGACTTATCATGTACATTTACCGCTAATACTCCTATATTTCCTAATCCAAAATCTTTTTTAACATCAAATCCATATACCAATTTTGTTGACTTAAGATCATTTTGTGTTAAATTTGAAGCTGTATTTGTTGTTACATCTTTACCATCTATACTTGAAGGTGCTTCACTTGCTTGAAACATAAATGTTTTTGTAGTAAATCCATACACGTCATCATTTTCTAATAATACTCCTTCACCATAAGGTAATGGTTCTCCCCAATTATCTTCTAATTGCATAGCTAATACTCTTTTATTAAAATCAAAATTAAAATTATTTGTTAATGTAAATTTCCCTATATCAGTATTTGTTGTCAATGTTATATCTTTAATTATTAGTGGAGAATTATCTCTTACTGTAGCAAATTCTTGTCCATAAGTTATTCCTGAACCATTTGCTTGACCTATTAATTCATCAATTATAGTTTCAAATCCTAAGTTTATATTTGTATTTTCATTTAATTTAACATTACTATTTAAATTTAAAATAGCCTGAAATTTATCTCTATTATCATTCCAGTTATCATTTGTTGATTGTTTCCAGTCTCCAGTACCAAAAATATTCCCATTACCATTCATCGAGTACCATTTATTTCCGTTTATTTCTCTAAATTCATCAAAGAAAAACTGTAGTGACCCACTCATATCAATTTGTGCTGCTGCTGCAGTTATTGAAAATAATGCTAAAGCTAAAGCTACATGTTTTTTCATAATTCCTCCTTATTTTGTTTTATTTTTAGTTAATAATTATATTTTTAAAAAAATTATTTTATATAAAAAATTATTTTTTCATTTTACTCTTTTACAACTTCAAATTTAATATTATCTAGTTTTACTGTATGTGGTCTATTTTTAGTTTTTCCTACTTTCCCTAATAAAAACTTTAATCCTACTTCTTCTGATTTATCCGCTACAAATTCTATAGTATAAGTTTTTGGTTTTTTCTCTGCTTTTACTAGTGCTTGTCCTTTTCTTTGATATGTAGAGTTTTCAATGCTTACTCTTATCTCTCTTGCTCTACTACTTGAAATATCAAAACTTACTCTATATTTTATTCCTTTTATTATATTTACATTTTGTGATAAAATATTACTCCATTCTTCAGCTCCTATATCTTTTACTTTTATTTGAGCAGTACCGCTTCTTATTACAAATGTAGATTCTCCACCAAATCCATAATCTTTACCAAAGAATAATGTCCAATTTTTCTTTGTAGAACCTTTTGAAAAATTATCATCAATTAATATAGTTTGAATTTTTGAATAATCCACTTGTTCTGTCATTTTAATATTGTCTAATGTTAACTCATCTTTAGAGCCTAAAAATTCAAATATTAAGCTTGTTCTCAAGTCTGTTATATTTTTATTAGTAAAATTAATTTTATACTCTTTTTCTTCACTCGAAAGTTTTATTTTTTGTTCAAAATATTTTTTGTTTCCATTTTTATCTTGTAAAATTATTCTTATACTATTTCCTTTTTCTGATTTTGCCTTAAATTTAAGGTTATATATTGCATCTTGTTTTAATTGAATATTTTCTTGAATTAATTTTGGATTATCACCATTATTTATTATATTTAATACTCTTTCTATAACTTTTGCTTCACTATTAGTTGATTTAAAATCCCAAAATAACATTCTTTTTTGATCACCTTGATCAAATGTACCATTATAAACTAAATTTCCATTTACTAAAGGTGCTTTACTCATTGATAACAACTCTTTTACTGGATCTTCTATCATTTCAAGCTTTATATTCCCAAGCCATACTCCTAATTTTGAAAGACCTAAATGAAATTCTACTTTTCCATTTGGATCACTATCTTGTATCATCTGAAACATTGTAGTGTATCTATTTATATCTTTTGTTAAATTAAAAGTATTAGTATGGTAAGCTGCCCATCCTCTATTTTCACCGCCACCAATTTTTATACCTATTTCTCTATTATTTTCAGCTTTTGCATCAAAACTTAATTTATAGTATCTACCTTTCATTATTGGAGCTTCTTGAATTACTTGTATTGAGTACGATTGATTTCCTTGATTATCAATATTCGCTTTTAAAAATTTCTCTCCATTTATAGTTTCATACGTATAACTTCCCGCTCCTCCAAAATGAGTAAGTAATTGCCAATTTTCTCCATTATTAGCAAAATCTCCATTATATATAAAGTTTCCATTTATTGGTTGTTTTATATCTGCTGGTAATTTTTCTAAATCAATTTTAGGTTTTGATATATTTTCATTGTATCCACCTTCTAATTCATATACTCTAATATAATCTACTTCTAAAGTTTCAGGAAATTTTGTGCTCCCGTCTGGATCTCCATCAAACCATCCACCAACTGCTAAATTCATAATTAAATAAAAAGGTTGGTCAAATGGCGCAGGATATGTATAATCCACTGCTTCATTTTTATTTTTTGAATACCAGTTATTTTGTACTTGATATAATTCCCCATCTACGTACCATCTAATTTCTCCAGGTAACCACTCTACTATATAATCATGAAACTCTGTTGCATCACCATTTTTAAAATGGTACTCTTTTCCAGTATGTACATTTGCTGGCCAAGTTCCACCGTAATGAAGTGTCCCTGCTATTTTACTAGTGTCACTTCCCCAGCCTTCTATCATATCTATTTCTCCAGAAGCTGCCCAACCTCCATAAACATCATCTTGAGGTAACATCCATATTGCTGGCCAAAGTCCTTTTCCTTTTGGTAATTTAGCTCTAAATTCTACTTTCCCATATTTTTGAGCAAATTTTCCCTTTGTTACTATTTTTCCTGATGTATAACTAAATTTTTGTTTCCCGCCTGCTGCTTCGCCTTCAAAAGATTCTTTTTTTGCAGTGATTATTAATTTACCATCAGCTACTTTTATATTATCTTGTCTATCTGTATAATATTCTTTTTCATTGTTCCCCCAACCAGCAACCCATGTACCATTAGCCCAAAATCCATTACCAATAATATAATCCCATTTTGAACTATCTAATTTATTTCCGCTAAATTCATCTTTCCAAGTTAAATTCCATTTTTCATTTGCATTTGCAAATAATTGCATTGATAATAATAACAAAAACACTAGCCAAGTGCTTTTTCTTCTCATTTCTTCACTCTCCTTTGTTTTGTTTTGATACTTTTTTTTTACTTACAATACAATTAAACCACTTTATAATACAAAAAATAAGATAGATATTTTTGGATTTGGTTTCCATTTTTTTGATTCCAAAAAATAAAACCTAAAAAAATAAATCAAAGCAAAAAATAAAAATAGATTTTGACTTTTTTTTATTTTTTTTGTACTATGAAGTTATTAATAAAAAATGGTGATAATTATGACAAACGAAGAGTTAAAAAAAATTTTTTTAGAAAATAATAATAAAATATTAAACAATTTAGATAAGAATAATGATAATTATAGACAGGCTATACATAAATTATGTTCTATTGCTATGTGTTTTGATGATGATATTGTTATTGATTTATCTATTGAAATTGCTGAAAACAAAGAAAATAAAAAGTTAGTTAAAGAAAAGTTGGATAATTTAAATAATTATATTCAAATTAATTATAAAAATTATTAAAAGGAGTAACCAATGAATATTTTAATTGTTGATGATTGTATTGAATTAGCAAACAAAATAAAAGAAACTTTTGATAAATCTTATACAGTTTATATTGAACATACTCCTAATAAAGTATTAGACATTGTTAGTTCAAATGAAATAGATCTTATTATAATGGATATAGATTTAGGTCATTCAAAAAATGGTTTTGATTTAATTAGAGAAATACGAAATGATGCTGATAATTATGGTATTCCTTATATTTTTGCATTAACAGCTAAAAAACAAGATTTTTATGAAGAAATGGGATATAATTTAGGTGTTGATGATTATTTAAAAAAACCTTTTCGTTTAAAAATATTAAATGAAAAAGTTAAAATTTTAGCAAAACGAATAAAAAAATCTACTTCAAATTTACAGTATGGTAATTTAATATTAAAATCTGATACTAACGAAATATTGATTGAAGATAATAACTTTTTTTTAAATGATCCGTACTTTTCACTTTTAGAATTTTTAATATTAAACAAAAATATAAATCTGTCTAGAAAAAAAATTTTTGAAAATATATGGCCTGAAGAAATAGTTGATAATTATAGAAGAGTTGATGTTACAATAAAAAGATTAAAAGATAAAGTCCCATATATAAAAGATAAGATAGAGACTATTTATGGTTTTGGATATAAACTTATAAAAATTTAGCCAAAAAATACATATGCTCCTGAAGATTTCTATCTTCAGGAGCACTATATATTAATAGACTAACCCCTTTGTCCATCTTAATTATATCTTTAACTTATTACTAACTTGTTACACAGTTTGTTTTAATTGTTTTTTTATTTTTTTCAAAAAATACATATGCTTTTAAAAATTTTTATCTTCAGAAGCATATGTATTAATAGACTAACCCCTTTGTCCATCTTAGATATATCTTTAACTTATTACACATTTTATTTCAATTGTTTTTTTTATATTATTATTACTCTTGAAATAAAATTACATATGTTATATAATATTTTAAAATATTTTATAAAGGAGAGGATTCGCCTTGGGAATTTTTTCAAGTAAAAAAAAATATGCAACTGTAAAAAGTGAAACTGATGGAAAAACTATAAAACCGCTTTCTACAAATAATTTATGGGTAAAATGTGATTCATGTGGTGAAATTTTATATAGAAAAGATATCGAAAATAATTATAAAAAATGTCCAAAATGTGATTTTTATTTTAATATGAGTGCAACAGAAAGGATTTCTTTATTAATTGATAAAAATACTTTTAAAGAATATGACGCTAATATAATATCAGAAAACCCTCTTAATTTTCCTGGTTATGAAGAAAAAAAAGAAAGAGCTAAAAACAAAAGCTCCCTTAATGATGCTGTTATTTCTGGCGTTGGAAAATTAAATAATATTGATGTAAGTATCGCTGCTATGGATTTTAATTTTATGGGCGGTAGTATGGGGAGTGTTGTAGGAGAAAAAATTACTCGTGCTATTGAAAGAGGAATCGAATTAAAAATACCTGTTATTATAGTCGCTACCTCTGGAGGCGCTAGAATGCAAGAGGGAATTTTTTCACTTATGCAAATGGCTAAAACTTCGGCAGCACTTGAAAAACTAAGAGAAAATAAACTTCCATTTATATCAATACCCGTAAATCCTACTACTGGTGGTGTTACTGCTTCATTTGCTATGCTTGGTGATATTATAATCTCTGAACCAAAAGCTTTAATTGGATTTGCAGGTCCACGTGTTATAGAACAAACTATAAAACAAAAATTACCAGAAGGATTTCAGACTAGTGAATTTTTATTAGAACATGGGATGATTGATATAATAGCTAAACGTGAAGAATTAAAAGATACAATTTATAAAGTATTAAATATCCTTATTTAGTACTTTATAAAAAAAATTGATAAAGCCTCGTACTAAAATATAACATAAATAAAAACTTAATAAAAGTTTGATTAATATAAAATTATCGGAGGATAAAAATGGATTTTGAAAAAGATATTAAAGATTTAGAATTAAAAATAGAAGAACTTAAAAAATTTTCCGAAGAAAAAGGAATAGATTTAAAAGAACAAATTGATAAATTAGAAGAACTTAAAGCTGATAAAATGAAATCTCTATATGAAGAAATAACTCCATGGCAAAAAACTCAAATTGCAAGACATCAAAATAGACCCTATACTTTAGATTATATTGATTTAATTATAGAAGATTTTGTTGAATTACATGGTGATAGATTATTTAAAGATGATAAATCTATTATTGGAGGATTAGGAAAAATCGGTAATGAGAAAGTTGTTATAATCGGTCATGAAAAAGGTAGAACTTTAGATGATAAAATCTTTAGAAATTTCGGTTCCCCAAATCCTGAAGGATATAGAAAAGCTCTTAGACTTATGAAATTAGCCGAAAGATTTAATTTACCTGTTATTAGTTTTATTGATACTGCTGGTGCATATCCAGGACTTGAAGCAGAAGAAAGAGGCCAAGGAGAAGCAATAGCTAGAAATCTTATGGAAATGGCTGGACTTAGTATTCCTACAATTTCTATAGTTATAGGAGAAGGTGGAAGTGGTGGAGCTTTAGGTATAGGTGTTACCGATAAAATTTTTATGTTAGAAAATAGTTATTATTCTGTTATTTCTCCTGAAGGATGTGCTTCTATACTATTTAGAGATGCCTCAAAAGCATGTGATGCTGCTGAATATTTAAAATTAGATGCAAAACATTTACTAGAATTTGGTATAATTGATGATATAATTTCTGAACCTCTTGGGGGAGCTCATAGAAATCCTGAATATACTGCAAATAATATAAAAGAAAAAATTCTTTCTACTTTAGAAGAATTAAAATCTTTTGAAATATCACTTTTAAAAGAAATTAGATATAAAAAATTAAAAAATATTGGTAAATATAATCTAATATAACTCTCTAAGGTTGCGTTTTACGCAACTTTTTTGTTAAGTATAATTTTATTTTTTTTTGATTTGTAAATCTATCCTTAAATAGCACACTTTTGTTAGTTATGTTTAAAAAAAACATTGTAAAATGTTGTTTTTTGGTATATAATGAAACGGAATATGTATATTTTAAATTAAAAGTCTATCAATATTTATAGTCTTGAGAAAGGAGAATGGTTTAATTGAAAAATATAGCTATATTAACTAGTGGTGGAGATGCCCCTGGTATGAATACTGCTATTAGAGCAGTTGCTAAATATGCAATGTCAAAAGGAATTACAGTATATGGCATTAAAAGAGGATATGCTGGAATGTTAAATGATGAAATTTTTGAACTTACTCCAAAAGATTTAGGTGGAATTATTGACCGTGGAGGAACTTTTCTTTTAACTGCTAGATTGCCTGAATTTAAAAATCCAGAAGTAAGAGCTGAAGCTGTAAAAAATCTTAAAAAAAGAGAAATTGAAGGATTAGTAGTTATTGGTGGAGATGGTTCTTTCCATGGAGCTGATTTATTATACAAAGAACATGGAATAAAAGTAATTGGTATTCCTGGTACTATCGATAATGATATTGCAGGTACTGATTATACAATAGGGTTTGATACTACTTTAAATATAATTTTAGATGCTATATCAAAAATTAGAGATACTGCTACTTCTCATGAAAGAACTTATTTAATTGAAGTAATGGGAAGAAATGCAGGAGATTTAGCTCTTTATTCATGTCTTGCTGGTGGTGGAGATGGATTATTAATACCTGAAAAAGAATTTTCTATTGATGACTTAGCTATGCAAATAAATAAAAGAAGAGAACAAGGTAAACTACATGACGTTATTTTAGTAGCTGAAGGTGTAGGTTCTGCTTTTGAAATAGCTGAAAAATTAAAAGGAAAAGTAAAAAGTGAAATGAGAGTAACTGTTCTTGGTCATATCCAAAGAGGTGGAACTCCTAGTGGATTAGATAGAATTATTGCTACAAAAATGGGCGCTCATTCAGTAGAATTATTAGAAGAAGGTAAAAGTGGTTTAATGATAGGAATTGAATCAAATAAATTAGTTACTTATCCTATATCTCATGCATGGGAATCTAAAAAAGAAATTGATATAAAAGACTATGAGTTAGCTTTAACTTTAGGTCATTAATTTTATAAAAGAAACAAATAGATTGAATTAATTAGGGAGGTTTTGTTAATGAAAAAAACAAAAATGGTTTGTACTATTGGACCAAAATCAGAATCAAAAGAAATGTTAACTAAATTAGTTAATGCAGGAATGAACGTAATGAGATTAAATTTCTCACATGGTGATTACGAAGAGCATGGTGCTAGAATTACTACAATTAGAGAAATAATGAAAGAAACTGGTAAATACGTTGCTGTATTACTAGATACTAAAGGTCCAGAAATCAGAACTATTAAATTAGAAAATAGTGAAGATGTTATATTAGAAGCTGGTCAAGAATTTACAATAACTACTGATAAAACTGTAGTAGGAAACAAAAATATAGTTGCTGTTACTTATGCTGATTTTGCAAAAGATTTAAAAGCTGGAGATACTATATTATTAGATGATGGTTTAATAGGATTAACTGTAAAAGAAACTACTGATACAGAAGTAAAATGTGTTGTAAATAATACTGGAGAATTAGGAGAAAATAAAGGAGTTAACTTACCAGGTGTATCAGTTAATTTACCAGCTCTTGCTGAAAAAGATAAAGCTGATTTAAAATTTGGTTGTGAACAAGGTGTAGATTTTGTTGCAGCTTCATTTATCAGAAAAGCTTCTGACGTAAAAGAAGTAAGAGAAATATTAGATGCAAATGGTGGAAAAAATATAAAAATAATTTCTAAAATAGAAAATCAAGAAGGATTAGATAACTTTGATGAAATCCTAGAATTATCAGATGGAATTATGGTAGCTAGAGGAGATTTAGGAGTAGAAATTCCTGTAGAAGAAGTTCCTTTTGCTCAAAAAATGATGATAGAAAAATGTAATGAAGCTGGTAAAATAGTAATTACAGCTACTCAAATGTTAGATTCTATGATAAGAAATCCTAGACCTACAAGAGCAGAAGCTGGAGACGTTGCCAATGCTATATTAGATGGTACAGATGCTGTAATGCTTTCTGGAGAATCTGCAAAAGGTAAATACCCTGAATTAGCTGTACAAACTATGGCTAAAATCTGTGAAAGAACTGATAAAGAATTAGAGAAATTTGGACCTTTATACTACGAAGCTGATACTACATTAACTGAAGCTGTTGCTAAAGGTGCTGTAGAAGTTGCTGAAAATCTAGGCGCTAAAGCTATATTTGCTTTAACTGAAACAGGAAATACAGCTAGAAACTTAAGAAAATCATTCCCAACTGCAATGATCTTTGCAATAACTACAAACGAACAAACAGCTAGACAATTAATGCTAACTAGAGGAGTTTATCCATTTGTTGTAGACTCAATTTCATCAGCTGAAGATTTCTATAAAAAAGGATTAGAAGTAGCTAAAAAATGTGATTTATTAGCAAATGGTGATATTATCGTATTTACTTCTGGTGCTAATACTCAAGAAGGAACCACAAATAGTATTAAAATAGAAACTTTAGAAAAATAATTAATAATTTTTATATATTTTAACTAAAAAGGTGGAAATTCCACCTTTTTTTTATTCAAATTTAAAGAAAAATGTATTATAATATAATATATCAAAATATTTATAATATATAATTTTAATTTTAACATTTTGAAGTTTTTTATCATCATTTAACATATAAATGGAGACCTCTATGAAAAAAATATTTTTTATTTTTTTATTAATATATAATATAATTTTTAGTTATGGAAATATTCAAGATTTTGAAAAACTTAATTTTAAATCTGGTTTAATTTCTAATAATGTAAATTCTATAACTAGTGATTCAAATTCTATTATTTGGTTTGCAACTGATAATGGTTTATCTAGCTATGATGGCTATAACTTTAAAAATTTTCAAGTGAATATTTTCGAAAAAAATTCAATTCCTATTAATGATATCACTAGTATTGTAAATTATAATGAATTTATGATTATGCTCCATAAAAAAACTCTTGTATTTTACAATATAGTTAAAAATATTTTTTTTTCTATCCCTCTTAGTCCTAAACAAAGAGAAGAATTTAATTCAAAAAAAATACTAATAAAAAATAATAATATTTATGTTGCAACTAATAAGGGGTTAAAAATATTACTTGATTTTACAAAAAATAATTTTGTTTTTTCAAAATTTAATGATTTATCTATTAATGATTTTATTTTTTATAATGATGAAACTTTATTATTAGCTACCAATAAAGGATTATATAATTTTAATACTTCTAACTATTCATTAAAGAAAATTAAAAATTTTAGTAATATTGAAAATATTTATTCTATAAAAAATAATATTGTTTTTTATACTAATAATAAGCTATATTATACTGACATTAATGGTAATATAAAAAATAAAATATACTTAGAAGATACTTTTAATAAAATATATATTGATTCTAATAATGTTACTTGGCTTGCTGGTAATAAAAAACTCTATTATGTAAAAAATAATCATCTTTATTTCTTTTCAAATAAAATAATTAAAGATATTTATGAAACCCAAAATAATATTCTTTGGTTTTCTGTTAAAAATGAAGGGATTTATTATAAAAATATTTCAAATGATAATTTTGATATTAATCAAAATTATCAAAATGTTAATAAAGTTTATTTAAAACAAAATAATCTTTTTATAGCTACTAATAATGGCTTATTTATAAACGATGAAGAAATAATATTTGATAAAATTATTGATTTTAAAGTTACTCATAATAAAATTATTGCATATAATAAAAATAAAATATATTTTATTGATCCAAATACTTTTTTAGTTACTCAAACAGAAATATTAAATGAAGAAATATTCTCTTTAGAAATTTATAAAAATACTCTTTTTTTATCTACTGAAAATAATTTATACCAAATAAATTTAATTACTAACGAATTTAAACCTTTAGATAAATATTTTCCTATTGATTCTATATTTACAGGAAAAAGAGTCTATTTAAACTTAAATATATCAAATCATTCTTTATTTATGATAGTTAAAAATGTCGGATTTGTTGAGTATGATATTTTAAAAAATAAATTTAAAATACACAATAAGTTAAAAGTTGGTAATAAAACTTATTTTATTAAAGATATTACTTCATATAATATAAAAAATAATTGTATATACTTCACTTCATTAAGTGCAGGTTTATTAAAATTAAATTTAAGTGATGATAAGTTATTTTTGATTTCTAAAAAAATTATTGGTGAAAAAATAAATGATATTTTATTTCTTAATAATAATATATGGCTTATTAATAATACAAATTTATTAAAATATAGTCTCTTTAATGATGAGCTTTTTACTTTTACATCTGAAGATGGATTATTAAATACTAGGTATAATCATTTATTTTATTATAAAAATACTTTATTCTTGTCTGGGGAAAATGGCTATATAAAATTTAATCCTATCAATATAATAATCAAAAATAATAAATCAAAAATAATTTTTAGAGAATTAAATTTATTAAATAGTAATCAAACTATTGACATAACTTATACTAAAGATATTACTATAACTAAAGCTAATAATAATTTTGAAATTTGTTTTGCTTTACTTGAGTATAAACAAAACAAAAATTATAATTATATGATAAAGTTAGAAGGTTATGATAAATCATGGAAATCTTTAGGTAATTATAATAAAGTAAAATATACTAACCTTCCTGCTGGTAAATATAAATTAAATATTACTTATATTGATAATAATGGTATTTTATCTAAAAATAGTTCATTTATTAATTTAACTATAAAATATCCATTTTATTATAATAAATACTTTATTTTATTTATAATTTTACTTACAATATTTATAATAATATATTTTATTAATTATTTTATTAAAATTAGAGAATTAAAAATTGAAAACAAATTATCTAATTTATCATTACTTCTCAGTACTTCCCTTGATTTAGATACTGTTATACACGATTTTTTAAAAAAATTATGTGAAACATTTAAGATGAATGAAAGTACTTTAATGTTAAATCTTGATGATAAATGTACTAAATTTGTATATAAATATTCTATTGATAAACTTTATAACACTTTATCTGATGAAAAAGTTATTCTTGATATTTTTGATAAAAATTTATCTCTTGAGAAATTAACAAATGGAGATAAAATATTTTATAAATCTTATATAGAATATAAAGGACTTCATATAGATTTTTTTATACCTGATAAATTTCGTGGTGCTTTAATTGTTCCATATAAAAATAAAAATGGGCAAAAAATATTAAAAAAACTTGAAAAAATACTAAAGCAAGCAATTATTAGTATAAACAATGCTACTTTATATAGAAATATATCTAAATTTGCAAACTATGATACTTTAACTAATATTTATAATAGAAGATATTTTATTGATATATTGTCTCATATATTAGAACAAACTAAACGTTATTCTCATAAACTAGCAATTGTTTTAATTGATATAGATTATTTTAAAAAAATAAACGATACTTATGGTCACGATATTGGTGATAAAGTTTTAGTAGAATTTTCAAAAGAAATACAAAATAATATAAGGAAATCTGACATATTTGCTAGATATGGCGGAGAAGAATTTATTTTAGCTCTTCCCGAAACAAATTTTAAAGAAGCTTTTAACTTAGCAGAGCGTCTAAAAAATAAAATCGAACAATTAAAAATAGAAGTTAATTCTACTACTAAAATATCATTTACTGCTAGTTTTGGGTTAGCAATGTATGTTAATGAAGAAAAGTTAGATGATATAATTAAAAAAGCTGATGTTGCATTATACAAAGCTAAAAATAGTGGACGAAATAATGTAAAATCATACAATGAAATATGTAATTTATTTTGACGAGGTGAACAATGATACATTCTTTAGAAAACTTAATAGACCAGTTTAATAAACTTCCTGGGATAGGTAAAAAAACTGCTACTCGACTTGCTTTTGCAATACTTGATATGGAGATAAAAGAAGTTGAAATTTTTTCAAATTCACTTATTTTAGCTAAAAAAAATATAAAAAAATGTAGTACTTGCGGTAATTTTAGTGAAGATGATATATGTGATATTTGTCAAAATCAAAAAAGAGATCATAGTATTATATGTGTCGTAGAAGATAGTAAAGATATTATTGCTATGGAAAGAGCTAAAAATTATAATGGCGTATATCATGTATTACATGGTAAAATTTCTCCTCTAAATGGTATAAATATTGATAATTTAAATATAAAAAAATTGATTGAAAGAGTTGCTAAAAATGACATTAAAGAAGTTATTTTAGCACTAAATCCAGACCTTGAAGGTGAAACTACTGCTATGTATATAAATAAATTACTTAAAAATTTTGATATAACCATATCTAAAATAGCTAGTGGTATTCCTATGGGAGGAAATATTGAATATTCCGATATTGCTACACTTTCAAAAGCTTTAGAAGGACGAATCAAAATTTAAATAAAAAGGGTGATAAAATTGAAAATAATGACAACTATTGAAAAAGTTATTTATTTAAGAAAAAAATATAAAATTAGCCAAGAAGAATTAGTACGTGGTAAAGTTGCTAGAAGTTATTTAGCTATGGTTGAAACTGGTACAAAACCTTTAGGTAAAAATTTATTAAATATTATAGTTGAAAATTTTAATCTAATTTTTGAAGAAAGAGGTATTGATAAAAGAATTACAAAAGAAGAATTATTAAAAACAAAAGAAGAACAAATTACTGAATTTTGTAATAAGTATTTAGAATTACTAAATAACGATTTAACTGAAAAAGAGTTTGAAAACTACAGAAAAGATATTGAAGAGGTATTTTTTAATGAATATTCACCTCGAAATAAAACTAGGATGTTTAAAAAAATAGCAGAAATTTTTTATAATAATTTTGAATATAATTTAGCTAAAAATTATTATTTAAGAACTATAAATGACACTATTCAAACTAAAGATTATGATAGTCTTTCAGAAATCCTTAGTAATTTAACTAGAATTTATAATATTATTGAAGAATATTCTGAATTTTTAGATTTGCAAGTTTTACTTACTAATCATATAAATTATTTAAATTTTGATGAAAAACTAAAAGTTTTATTTAATTTCATTTTATTGTATATGAAAACAGAAAACTATGAAAAAGCTTTAGAGTTTATCTTAACACTAAAAAAAGATATATATGCTCCTGAAGATGAATTTGAATTAGAAATTTTAAGAGCTGAATGTTTAATAAATCTTAATAAAAAGAAAGAGGCTAATTCTATTTATAGAGGTTTATTAATTAAATTTAGTAATACAAACCAAAAACTTATATGTAATAGTAAATTAGCTCTTCTTGCCATTGATTCTGGTGATAATATCAAATTAAAATATTATCTAAGAAAGGCTAAAATTTTATTAAAAACAATAGAAGAAGAAAACACTTTGACTGATCCTCATGTATTAGATTCTATTATGAATTTTGCAGAAATTTATAGAGTTGTTAATAGTGCAAAAGACGCAATAAGTCACTATGAATTTGTATTAAAACTATGTAACGAATCATTAAGTAATGAATCTATTGCTATAAAAGCTAAAGTTATTAAATCTTTACTTTCATTATATGGTGGACAAGATTTTAAAAAGGTTAAAGAGTTAGAAAAAATTTATTTTGACTCTCTAATCCATTATGCAAACCACGCTGTATTAAATGCTGATTTTATAGATTTTTATTATAGAAATAATCATTTTTACGAAGTGGAAAGATTTTTAAAAATCTTTAAATAAAAAAATCCAAATAGATATTTTCTATTTGGATTTTTTTATTTCTAACAATATAACTTCTGGCGAATTCATATTTCTATATTTCATAAACCCATTTCCTATTCCACTTGAAATTATAAACTCTTTTTCTCTTTCTTTAAAATAACCATATATTTTTTTATAAATAATTTTATATAATATATTTATTGGGAATATTTGTCCTGCATGTGTATGCCCAGCTAAATATAAATCTATATTATAATTTAGTATTTCTTTTCTTGTTAGTGGACTATGCTCTATACAAATATTATATTTATCTTTTTTTAAATAAAATTCTTTTAATTGTTTTCTCCCAAGATGTCTTTCTTTTCTTCCTAAAATACTTAATTCATCATATTCAAAACTATCATCTGCTAATATCTCTACATCTATTAACTTACAAAATTCTATATATTTTTCTAATTCATCATAAACATCATGATTTCCTATTACTGTATATACTTTTTTAGATATCTCTTTAATTGTTTCTTTTAATAAAAAAATTATATTTTTATCAATAAGTTTATAATCATAATCTAATATATCGCCTCCAATTAAAATAAAATCAAAATCTATTTCTTTTATTTTTTTTATAATTCTTTTTATTTTATTTTTATTTGTTAGCTCACTTAAATGTAAATCGGAAAAAAATAGTATTTTATATTCTTTTTTTATTTTTTTACTAAATACTCTATATTTTTTTAATTTAATTATTTTATTATTAATGTACGAAAATAAACTATAAATTATAAAAAATATTAAATAATACTTTAAATTCATCTTAAATATAATAACTATTGGTAGTGTCCATACAAAATAAATAAATATAAATGTATAATGTCCTGCTATAGTAAGTAATATTTTTCTTAATTCTCTATTATGAGTTTTATCTATTATATTTCCTATTATAAAAAATGGCGATAATATCAGAAATATTTCCTTAAATTTAATATTTAGATAATTTAATTCAAAATAAATAAAAAATACAAGTATATAATACAAAGTAAATTCTACCATTTTTCTAATAATCCAAGTTTTTCTTATATTTTTATTATCCAATTTTATTTTCTCCTAAAAAATCTTTAATTATTTTCTCTTTTATTTCTTTTGGATATATTAAATAACTTGGAATATACTTTTTATCAATCATCGTTACAATATATTTACCTTTAAAATAGTTATTAAATTCTTTTGCATTACCACTTCCATACTCTCCATCAATATACTCACATAAATAATATTTTTCCTTAGTTTCACCAAATTTATATTTATACATCTTCTTAATTACTCTTACATCTATACCTAATTCTTCTTTTACTTCTCTTATTACTGCTTGTTTTCCTTTTTCTTTTTTCTTTATTCCACCACCAGGAAATACATAATATTCATTTTCATTTTTTATTCTTTTTATAAGGCATAATTTATCATCTATAAATATTATAGCTCTTGCTGTTTTTCTTTTCATTTTTCACCTCTTTAAAAATTATAAAATTAATTCTAAATATTTATTATTAGGTATTTTATTATTTAGTTTCCATCTAATATACATAGGTTTATTACCATTACTATTATAGTACTCTGCTTTTCCTAAATAAACAAATTTTTTTATTATTCCATTAATCTTTTCATATTTTCTAATAAATATATGTACATTGTATCCTAATTTTTTATGGTTTACAAAAATATTTCCGATTTTTGAGTCATGTGATGTTTTATTTTGACTTATCCATTGTATAATATCTTGATTTTGAAAATAATTATCATATTTTAAATGTACAGGAATGTCTTGTGATTTATTTATAGTAATAAATAAACAAATTTCTTTATTACTTATAGCATAACCTGCTCTCCAACTTCCTCTAGGTACATTTGATAAAAATAGATACTGTAACTCTAATCTACTATATTCTTTATATAATATAAGATCTTTATTATCAAAATATTTTTGATAATATACAACTAAAAATTCTAAAAATTTTATGAAATAATCTCTAATATTATTATCTATTATATACACATTTTTTAATCTATAAAAATTATGAAATGGCTCTATAATATCATCCTCTAAAAGCTCTTCAATCGCTCTTTCTATATATTCTATTTTATTTTTTTTAAATTGTTTTGAGATATCATTTTCTAATTTTTTTATACTCAATTCTTTTTTATTTAGTAATTCTTTTACTATATATACTACTTGTGGATACTTTATAGGCACTCTTTTTTCAAAATAATTAAACAAATAAAACAATTCTTTATTATTTAATATTTTTCTTTCGACTTCAGATATATCACCTATTATTTTTTTAAATTTTAAATAACTTTTATATTTTGTAATAATATCTTCTAATTTTAATTGCTGATAAAATAAAAAATCTATAAATTCTATTTCTCTTAATTCATCAGTATTTTTAATAATATTTTTCATTTCAAAATAAAGTGTTTTTATAATTTCATCTTTTATTTTTAATTTTTCTATTTTTTCTAAAATATTTTGCCTTGCAATTTTATCTAATTCAATATAAAAATTTTCTGTATAATCAAGATAATTTCTTTTCAAATCTTTTATTATATTTGTATCATTTCCAACTAAATTTTTTTCTATTGCATAAGGTAATATATAATTTTTTCTATAATTTCCAATAAAATCTAAAATAGTAACAAAATGTTTATCTTTCGACTTCCTTAAACCTCTTCCTAATTGTTGTATAAAAATAGTCATAGATTCTGTTGGACGCAAAAATAAAAGTGTATTTATTTCTGGTATATCAATCCCTTCATTAAATATATCTACACAAAATATTATCTCTATTTCACCATTTTTCAATTTTTTTATTATATTTTTTCTTTCTTTTATACTATTATCTGCTATTAAATATTCTGTTTTATATCCTTTTTTATTAAACTCTATACTCATATATTTTACATGTTCTTTATTTACACAAAATCCTAATGCTTTTAATTTATCACCATCAAAAGAATATAATTTTAATTTTTCAACAATAAAATCTACTCTTTTATTTATATTTAAATGTTTTACTAAATCTATTTCATCATACATATTATTTTTATTTTTTATTTTTTCATAATTTATACTATTATCTGTTATTCCAAAATAATGAAAAGGTACAAGTAATTCTTTTTCAAGTGCCTCTTTTAATCTTATCTCTCCAACAAGATTATAATCACATATTTCTAATACATCTTTCCCATCCATTCTTTCTGGAGTTGCTGTGAGACCTAACAAAAATTTTGGTTTAAAATATTTAATTATTTTTTTATATGAATTACTACTCGCATGATGAAATTCATCTATTATTATATAATCAAATTCTTCTTTTTTATATTTTTTTAAATTTATTTCTTTTGATAGTGTTTGTACTGTAGCAAATAAATATTCATTCTCAAACTCTTTATAATTCATTGTTAATTTTCCATAATTTTTATTTTTTATTATTTTTTTAAAACTATCTATCCCGTTATCTAAAAGCTCTTCTCTATGTGCCAAAAAAAGTAGTTTTTTAGGATTAAAATTCTTTACATCAAATGCAGATAAATAAGTTTTTCCTGTTCCTGTAGCTGCTATAACTACTGCTTTTTTATTCCCTTTTTTTCTTGTTTCTTTTAAATTTTTTAAAATATTTGTTTGCATAATATTTGGTTTTATTTTATTTTCTTCTATTTTTTCTTTTATACTAAAACTATTTATTTTATACTTATTTTTATAAAATTCTTCATATTTTTTTATTATGTTATTATTTAACAAATACACTTTATCACTATTCCATATTCTATAAAATTCTTCTATTGCATCATTATAAATATCTAAATATGGTGCATCATAAAGCTTTACATTCCATTCATTTGAAGTAAAAAAAGCTATTTGAGATATATTTGCTGATCCTATTATTACACTATTCATATTTTTCTTTCTATTAAAAATATATGCTTTTGTATGAAAACTTTCTAAATTTGCATCATAAAGTTTTACTTCTATATTTTTAAATTCTAATAATTTTTTTAATGCCTTTGGTTCAGTAATATTTAAATATGTTGATGTAATAATTTTACCTTTTATCCCTAATACCTCTAATTCTTTTAATTCACTAATTAATAATTGAAGTCCAGACATTTTTATAAAACTAACTATAAAATAAAATTCATTACATGTTTTTAATTGATTTTTTAATTCTTTTAATAAATTATTATTTTTTGTTTTTTTATTTATAATAAGAGAATTATTTTTTATTTCAAAATCATTCGTCACATCAATATTTGTATTATTGTCCGTATACATAATTTTGTTTAATGGGAATTCAATTTTTTCATTTAAATATTTACTATATTTTTTTATCACTTCTTCATAACTATTATTTTCATTTTCTAGATATATCTTTCCTATTATGTCCTCTAATATTTTTTCTTTGTACTCTTCTATCTTATAATATTTCTTATTTTTTATATTTTTATAATCTTTATCTCTAATTTTTAATTCTTCATAAATATTTTTCATAAAATCACCATTTTTTTATTTTTGTATATATACACATATTATTATTTTTTATTTTAGGAAATCCCATATAAAAAAAGAGGAATTTATTTATATTCCTCTATAAAATTATAAATTTTCTTTAATAAAATCTAATAATTCTTGTTTTCCAGTATTGTTTAATGATGAATAAAATAATACATCATTATTATCAAATACTAATTTCTTTTTTATTTCTTTTAATTGTTTAAATTTTTCATTATTAGACAATTTATCAACTTTTGTAAATATTATTTTATAATCTACTTCATTATGTTCTAGCCATCTAAGCATTTCTAAGTCTTCTCCTGAAGGAACTCTTCTTATATCTAATAAAACAAATACTAATTTTTTTCTATCTGATTGTAAATAATCACCTATAATTTTTCCCCAATTATCTTTTACAGCTTTTGGTACTTTTGCAAATCCATATCCAGGTAAATCTACAAAATAAAATTTTTTATTAATTAAAAAATAATTTATTAACTGTGTTCTTCCCGGTGTTTTGCTTGTTTTAGCTAATTTTTTTCTATTTGTTACACTATTTATTAATGATGACTTTCCTACATTTGATTTCCCTACAAATGCAAACTCTGTATATTCTAACTGTTCTGGATAGCCATTTTTTTCTACAGCCGATATAACAAAGTCAGCGTGCTTAATCTCCATTTTTACTCTCCTATTTTTCTATTTTTTATTCTTCTGTATAATTTTCCATAATTTCTACAATTTCACCAATATACATTATATGATAATCATTTTCATAAAATTCTTCTATTTTTTTGTCTATAAATGATTCTGGAGTTAAATGTTGTCTATATATTTTTTTACAATATATTACCATATTTGCTTGTTCAAAATACACTTTTCCATCTTCTATTGCTGGTATAAGAGATGTTTCTTTTATTTTATCTAATTCTCTTCCACTTACTTTTCCTAAGTAATCCAACTCTTTTTTATACTCTTTATCAAAAAATGACAATGTGAAATATTCGCTCGCATCTATAAACTCTCTTGTATATCTTTGAGGTCTAACAAATATATAAACCACTTCTTTATTCCATAAAACTCCCATACCGCCCCATGATGCAGTCATAGTATTAATTTTATCTTCTTTTTGTGCACTAATTAACATCCAATCTTTTCCAATTTTTTCAAATACATTAAATTTTTTCATTTCATCCCCCTTTTAACCTAAATAGGGCGACTACTGCCACCCTTATTTATTGTCAAAAATTATTTTTTCTACTTCATCATAATGTTTTACAAAATGAATTGTTATATCTTTTTTTATTTCTTTAGGTAATTCTTCTGTATCTGGCTCATTATCAATAGGAAGTATTACATCTGTTACTCCTATTCTATGAGCTCCTATGATTTTTTCTTTTATTCCACCCACTGGTAATATATCACCTGTAATAGTTACTTCTCCTGTCATAGCTACATCTTGTCTTACAGGTCTATTTGATAGTGCTGAAATAATTGCAGTAGTTATAGTAATACCTGCTGATGGTCCATCTTTGGGTACTGCACCTTCTGGAAAATGTAAATGTAAATCATATTTTTCATAAAATTTTTCTTCTATTTTATAATCTTGTCGTTTTGCTCTTACATATGAATATGCTACTTGAGCAGACTCTTTCATTACGTCTCCAAGTTTACCCGTTAAAGTTAATTTACCTTTACCTTCCATTTTTATAGCTTGTACTTCAAGTGCTGTTCCACCTACAGCAGTCCATGCAAGTCCATTTACTATCCCTATTCTAGATTCTTTTGATTTTTGTTTATCTGGTCTAAATTTAGCTTTATCTAAATATTTTTCTATATTATTTACACTAATAATTAGACTTTTCTTATCTTTATCTATTACTTCTTTTGCTACTCTTCTAAATACTTTATTTATCTCTCTTTTTAGATTTCTAACTCCCGCCTCTTTTGTATATTCATTTATAATTTTTTTAAGAGCTTCATCAGAAATTTTAACATTTATATCTTTTAATCCATTTTCCTCTTTTGAAGCTGGGATTAAATATTTTTTAGCAATATGTTTTTTTTCAAATTCTGTATATGAACTAAGATTAATAATCTCCATTCTATCCCTAAGAGGCATAGGAATTCTTCCTAAATCATTTGCTGTTGCTATAAAAAATACTTCTGATAAATCAAATGGCGTATCTACATAATGATCTTCAAAATGAATATTTTGAGCTGGATCTAGTACTTCTAACATTGCAGAAGCTGGATCTCCTCTAAAATCTGTAGCCATTTTATCTATTTCATCTAAAAGCATTAATGGATTTTTACTCCCCGCTTCTTTTATTCCTTTTATTATTCTACCAGGCATTGCTCCTATATATGTTCTTCTATGTCCTCTAATTTCAGCTTCATCTCTTACTCCACCAAGTGATATTCTTACAAATTCTCTATTTAACGCTCTTGCAATTGAGTTTGCTAATGAAGTTTTTCCTACTCCTGGAGGCCCTACAAGACAAAGAATAGAACCTTTCATATTTGGATTTAATTTTTTAACTGCTAAAAATTCTAATATTCTTTCTTTTACAGTCTTCAATCCATAATGATCTTCTTCTAATATTTTAAAAGCTTTTTGTATATCTAATATCTCTTTTGTTTTTTTATTCCACGGCAAATCTAAAAGAGTTTCTATATAGCTTCTTATCACCGAAGCTTCAGAGGAAAATGATGGCATTTTAGCAAATCTATCTAATTCTTTATTTAATTTTTCTTTTACTATTTTAGGTAATTTTGCATTTTTTACTTTTTTCCTAAATTCACTTACTTCATCACTTTCATTTGCAGTTTCCCCAAGTTCTTCTTTAAGAGCACTTATTTTTTCTTTTAAATAATAATTTCTTTGTACTTCATTCATTTTTTCTTTTACTTTATTATCAATTTGTTTTTCAATTCCTACTATTTGAACTTCTTGATTAATTCTTTCAAGTAAAGTATATGCTCTTTCTTCTATATTAACTACTTCTAATAAAGTTTGTTTTTTGTCATTTGAAATTTGTAAATTAGATGTTATTAAATCTAATATTTTATCAAGATTTTTTAATCCTTGTAAATTTATTATTAAATCTGGTAATATTTTACCTGTAAGTTTAGCATATTTTTCAAAATTTTCAATTACTTTTCTTTTTAATGCTTCTTGCTCTTCTTCACTTATTTTTTCTGAATACAATTCCTCATATTCTGCAAAATAAGCCCCCTCTTCAATTACTACATTATTTATTTTAACTCTATTTTTTGCTTCAACTAATACTTTTATATTTCCATTTGGCATTTTTAATGTTTGTAATACATTTACAAGAACTCCTATATCATATATATCATTAGGTAATTTTGGATTTTCTTTTTTTGCATCTTTTTGCATACAAAGTATTAAAGTGTTATCATCAATAAGCGCTTTTTCAAGTGTTGCTACACTTTTATCTCTTCCTACAAAAACAGGTGTTATTATTCCAGGGAAAACTATCAAATCTCTTGTTGGTATAAATGCTGCTTTCTTCATTTTATCACTTCCCTTTCTCTTTAAATCATAGAATTAATTATTGTATTCTATAATAACTTTACTTCTATCATCAATTGCATCTTTTGTAATTATTACTTTTTTTATATTCTCATTAGAAGGTACATCATACATTAAATCTAACATTACATGCTCCATTATAGAACGAAGTCCTCTAGCACCAATTTTTCTTTCTATTGCTCTTTTAGCAATATTTTTTAATGCTTCTTCTTCAAATTCTAACTCTACATCTTCAAGTTCAAAAAACTTTCTGTATTGTTTTACTAATGAATTTTTAGGTTCTGTTAATATTTTAATTAAAGCTTCTTCATTTAAACTTTCTAATGTAGTTATTATAGGTAATCTTCCTATTAATTCTGGTATTAATCCATGCCTTACTAAATCTTCCGGAAGAACTTGTTCTATTATCTTACCTTCATTTTCTTCTTTAATTTTTTTAATTTCAGAACCAAATCCCATTGATTTTTTTTCTGTTCTTTCTTTTATTTTTTTATCAAGACCTTCAAAAGCTCCACCAACTATAAATAAAATATTTTTAGTATCTATTTCTATAAGCTCTTGATGAGGATGCTTTCTTCCACCTTGAGGTGGTACACTAGCTTTAGTTCCTTCTATTATCTTTAATAACGCTTGTTGAACTCCTTCGCCTGACACATCTCGCGTAATTGATACATTTTCAGATTTTCTAGCAATTTTATCTATTTCATCAATATATATTATTCCTCTTTCTGCTGCTTTTACATCCATTTCCGCTGCATGTAACAATCTTACTAATACATTTTCTACATCATCTCCTACATACCCTGCTTCTGTAAGAGTTGTAGCATCTGCAATAGCAAATGGCACATTAAGAGTTCTTGCTAATGTTTCTGCAAGAAGTGTTTTTCCTGAACCTGTCGGCCCTATTAATAATACATTTGATTTTTGTAATTCTACATCATCATCATGTTTTTTCGTATCTTTATGTAATATTCTTTTATAATGATTATATACAGATACTGCTAATGTTTTTTTAGCTTCATTTTGTCCTATTACATACTCATCTAGTTTTTGTTTTATTTCAATTGGTTTTAATAAATTCACATTATTAAATGATGATAACTCTTTTGTTTCATCACTTTCTAACTCCATTGCTAATAGTTCTTCACAAGCTTCTACACACTCATCACATATATACGCTTCTACTCCTGATATTAGTTTATATACTTCACTCTCTTTTTTCCCACAGAATGAACAATGCGGTTGCTTTTTATCTAGCATTACTTTTCACCTCTGTCATTATAAAACACTTTATCTATTAATCCATAGTCTTTAGCCTCATCTGCGCTCATAAAATTATCTCTTTCAGTATCTTTATATACTTCTTTTATTTTTTTACCTGTATGTTTTGAGATAATATTTGATGTTATTTCTTTCATTCTAAGTATCTCTTTTGCTTGTATCTCTATATCTGTAGCTTGTCCTCTAGCCCCACCTAGTGGTTGATGTATCATTATTCTAGAATTTTCTAATGCATATCTTTTTCCTTTTGTTCCAGCTGTAAGAAGTAATGCACCCATACTTGCAGCTTGCCCTATACAAACAGTTGATACATCTGGTTTTATATATTGCATTGTATCATATATAGCAAGTCCTGCTGTTATAACTCCACCAGGGCTATTTATATACATTGTTATATCTTTTTCTGGATCTTCTGCTTCTAAAAATAAAAGTTGTGCTACTATAGAATTTGCTACAGTATCATCTATTTCTGTTCCTATAAATACTATTCTATCTTTTAATAATCTAGAATATATATCATAAGCTCTTTCGCCTCTTCCTGTGTTCTCTATTACCATAGGATTATACATAGTAATACCTCCTAGTTGTGTTTAATTAGAATTTAAGGACAGAAAATTTTCTGCCCTTTATAGTTTATTTAAATTATTTTACATTTTCTACTAATAAATCAATAGTTTTTTGTATTTGTAAATCTATTTTTAAATTTTCTTTAAAATTTTCTAATGTTTTAGCTTTTGTTAATTCTTCTATTAATTTTTCAGTTTCCATATTGTACATAGCAGCTATTTCATCTATTTTTGTACTTAATTCTTCTTCATTTACTTCTACATTTTCTATTTCAGCAATTTTTCCAAGAACTAAATCACTTTTAACTTTATTTTCAGATAAAGGTTTTAACTGACTTAATAACCCATCTTTTGTTAATCCTGACATTTGCATATACATTTCTAATGTAGCACCTTGCATTTTTAATTGATTTTCAAAATCTCTTATTCTCGCTTCTGTTTCTTTAGCTACCATAGAAGATGGTACTGCTACTGTAGCATTATTAACCGCTGCGTCTACTACTTTATTTCTAAATTCATTTTCTACTCTTGTTTTTTCTCTATTTTCTATTTCTTCTCTTTTTTTAACTTTTAAATCTTCTACTGAATCGTATCCTTTTGCTTTTGCAAATTCATCATTTAATTCAGGTTTTATATTTTTTTTAATAGAATTTAATTTTACTTTAAATGTAACAGGTTTCCCTGCTAATTCAGGTTTAAAATAGCTTTCAGGGAATGTTACATTTATTTCTCCTTCTTGCCCTTTTTTATATCCTACTAATTGTTCTTCAAAGTTATCTATAAATGTTTTTGAACCTAATGATAATGGATAATTTTCTCCTTTTCCACCTTCAAAAGCAACACCATCTAAAAACCCTTCAAAATCAATGTTAACTGTATCTCCAATTTGTGCTGTATAATCATCTTCTGCATCTTCTAATTTTGAATCAGCTTCTACCATAGATTCAATCTCTTTTTCTACAACTTCATCAGTAACATTCACATCTTCTTTTGTTACTTCTAATCCTTTGTATTCTCCTAATTCAACTTCTGGAAATACTTCTACAGTAAACACTCCATGAAATTTATCTTCTTCTAATTTTACTTCTACAGTTTTTAAATAATCTACTGGTTTTAAATTATTTTCAACAATTATATTTTCATAATTAGCTTTTAATAATTCATCTGTTAATTCTTCTTTAATATTTGCTTCAAAGTTTTTTTCAATTAATGAAAGTGGAGTTTTACCTTTTCTAAACCCTGGCATTTCTACCTTTGATTGTATATTTTTAAGTATCTCTTCTCTTTTTTTAGATACTTCTTCACCTTCTAAATTTAATGTTATTTCTACTACAGAATTTTCTAATTTTTTGATTTCTACTGACATTGTTTCCTCCTTAAAGTTATTTGAAAATATTATAAAATTCATCTTTTATTTTAAAATCTTTTATTTTTATTTGTAAAATTTCTTCGCCTTTATAAAAAACTTTTTCAGGATAATAGACTATATCAAATTTTTGTATTATACAGTTTTGTTCATCTATTTTATGCCCTAAATTAAATCCTACTGCAGAATATAATTTTTTATTTTTTTTAATAAATGTTTTAAAATGTCTATTATCTACCCCAAATTTTTTAGTATTTATAAATACTACATCTTTATCTAAAAAAAGTGGCTCTGGGTTACCAAGTCCATAAGGCGATAACTCTTGTAAATCTCTTAATATTTCATCATTTATATCTTCTAATTTTAATTCACTATCTATATTTATTTGTTTTTTTTGTTTTTTATCACCATTTTTTAAAATATACTCTCCTACTAACTCTTTTATTTCTTCTAAGTCATTAATATTTGCTACAAATCCCGCAGCTAAATCATGACCACCAAATCTATTAAATTTATGAGAAATTTGAGATAGTACATTGAATATATTTATCCCTGATATACTCCTACAAGAAGCTTTTCCTACGCCATTTCGTGTACTTACAATAAATACTGGTACATTATATTTTATCGAAAGCCTAGATGAAACAACGCCTATGACTCCAGGGTGCCATTTTTCTGATATTTCAAATATATATTTTATATTTTTTATATTATTATATTTTTTATCAATTTCATTAAATATTACTTTTTCAAGAGCTCTTCTTTTTTTGTTTAATTTTTTCATTTCTTCTATTATATCATATATATTAAACTCATCTTCTTCTAAAAAAAACTCTACTCCAATTCTTGAATTTCCCACTCTACCTAATGCATTTAAAAGCGGTGATATAAAAAAACTAATATCTGTTGTCGTTATCTCTTTTTTATTAAATCTTAAATATTTTAATAAATATACAAGACCCTTTATATTAGTATTTCTTATTTTTTTTAATCCATTTTTTATTATTACTCTATTTTCATCTATCATAGGAACTACATCTGCTACTGTTCCTATCATAATAATATCTATATATTCATAAATTTCATTTAAATCTTCATCTAATGCCGTATATACAGCTTCAGCTAATTTTAATGCTACTCCAGCTCCAGAAAGAAATTTGAATTTATAATTTTTACTTAATTTGGGATTAATAGTCACTATAGTTTTATCATCTTCTTCTACTAATTTATGATGATCTGTTATTACTATATCTATTCCTAAAGATTTTGCATATCTTATCTCTTCTAAAGAATTAATTCCAGTATCTACTGTTATTATTAATTTTCCTTCTCTTGTAGCTATTTCATTTATTGCTTTTTTGTTTAAACCATATCCTTCTTCCATTCTATTAGGAATATAGTAATTTACTTCAATCCCAATGTTTCTAAAGACAATTACTAAAAAAGCTGCAGCAGTAATTCCATCTACATCATAATCTCCATAAATAAATATTTTAGATTTCTCTTTTTTTAATTTTATTATTTTTTCAACAACTTCATCCATTTTTTCAAATTCCATAGGATTGTGAAGTTTACTAAAATTTATATTTAGAAAATCATCTACTTTTAATTTTTTATCCATTCCCCTATTTAATAATAGAGTTGTTAAAAATAAATTTTTATTAAATTCAGTAGCCTTTTTTAGTAATGTTTCATTATCCACCTTACTATATTCCCATTTCATAACAGCACCTCTACTATTTCAAATCATTAATTAATTTTGATATTCTTACACCATATGAAATAGTATCATCTATGTGTACTCTTATCTCTGGAGTATATCTTAAGTTTATTTCTTCTCCAACTCTTTTTCTCATAAAACTTCTTACTTCATTTAATCCTTGAAGTACTTTATCTTTGTCTACTTCCTCATCTTTATATGGTAATACACTAAAATAAACATCAGCATATCTCATATCATTACTTATATCTACTTTAGTTACTGATATCATTCCCTCTTTTACTTTAGGATTTTTTATCTCTAAAAAAAGTAGATTTGAAATGACTTTCATTATTTCTTTTTCGATAATAGCTTTTCTTTTTTTATTCATAGTCATTCACTCTTCTTTCTAATTCAAACATTATCTCAATGTTCTTTTTACCTCTTCTAATTCGTATGCTTCTACTACATCTCCTTCTTTAATATCATTAAAGTTTTCAATATGTAATCCGCATTCTTGTCCCGCTACAACTTCATTTGCATCATTTTGATATCTTTTTAATGAAGCTAATTTTCCATCATATATAACTATATTATTTCTAAGAATTCTTACATTTGATGTTTTTCTTACTTTTCCATCTTCAACTAAGCATCCCGCTATATTTCCTACTTTAGATATTTTAAATACTTTTTTAATTTCTATTCTTCCTAAATAAACTTCTTTAAATTCAGGTTCTAACATTCCTGTAAGTGCTTTTTCTATTTCTTCTGTTATATGATATATAACATTATGAGTTCTTATTTCTACTCCTGCTTTTTCAGCTGCTTTTATAGCCTTTGTTGTAGGTCTTACATGAAATCCTATAATTATAGCATCTGATGCCTCAGCTAACATTATATCTCCTTCTGTTATAGCCCCTGCTGCTGCTTGAATAATATTTACCGCAACTTCATCATTTGATAATTTATTTAACGAATCTTTTAATGCTTCTACAGATCCTCCAGAATCAGCTCTTAAAATTAATTTTAATTCTTTTAATTTTTCAGCTTCTAATTGTTTAGAAAAACTTTCTAAGCTAACATGTTTTGTTCTATTTTGTTCTTTTAATTTTTTTTGTTTAATTACTTCTTCTACTATTTTTTTAGCCTGTTTTTCATTTTTTATAGCATAAAGTACATCTCCTGCATTTGGAACTGTATCAAATCCTAATATTTCTACTGGTTGAGAAGCATATACTTTATTAACTCTTTCTCCTTTATCATTTATAAGAGCTCTTACTTTTCCAAATGTTTCATCACATACAAACACTTCTCCAACTTTTAGATTTCCTTCTTTTATTAAAACATCTGCAACAGGTCCTAGTTTTGGATCAAGTCTTGATTCTAGTACTATTCCTTTTGCTCTTTTTTTGAAATCTGCTTTTAATTCTAATATTTCAGCTGTTAAAAGAATTGTTTCAAGTAACATATCTATATTTTTATTAAATTTTGCTGATATTTCAACAAATTCAGTATCTCCACCCCATTCAGGTGCTATAAGACCATACTCCATTAATTCTGTTCTTACTCTTGTAGGATCTGCTCCTGGTTTATCTATTTTATTTATTGCTACTATAATTGGTACTTCTGCTGCTTTTGCATGTGAAATAGCTTCTATTGTTTGCGGTTTTACACCATCATCTGCTGCTACTATTAATATGGCTATATCTGTTACTTCTGCCCCTCTAGCTCTCATTTCTGTAAAAGCTTCATGTCCTGGAGTATCAATAAATGTAATTTTTTTCCCATGTCTTTCTACTTGATAAGCTCCTATTTTTTGAGTTATTCCTCCAGCTTCTCCACCTGCTACATTTGTTTTTCTTATTGTATCTAAAAGTGAAGTTTTCCCGTGATCAACATGCCCCATTATTGTTATAATTGGTGCTCTTTCTTCTAGATTTTCTTCTTTATCTTTTTCTTCTAACGAAAATTTTTCACCAAAACTTTCCTCTACTACTTCTTCTTTTTCTATTAATGCATCATATTCTAGTGCTAATTCTTCAGCTTGTTCATACGATAATACACTATTTATTGTAAACATTTTCCCTTTTAAGAATAATTTTTTTATTAAATCTGTTGGATTTAATTTTAATTGTTCTGCAAACTCTTTTAAAGTAATTTCATCTCCTATTATTTTTATTACTTTAATATCATTTTCTTCTTTGGTACCTTGACTTTTTTTATCTTCTTTTGGTTTAGAAATTGTTTTTTCTTCTTTTTTAAGTACTGTTTCTTCTAATTTCTTTGCTTCTTTTTGTTTTTCAGATTTTTTAGATGTTTCTAATTCATCAGTTATTATTTCTAGAGCATCTTCATTTATTTTTGAAAGATGTGATTTTACCTCTATTCCTAAATTATTTAAAAGTTCTAGTATTTCTTTATTTGTCTTATTATATTTCTTTGCTAATTCGTGTACTCTCAAACACAACACCTCCTAAAGTGTTTTCAATCCATTAGCTACTTTTTTATCTATTATTCCAATTACATTGATACTTTCTTTACCAAAGAATCTTCCTAATTTTTCTTTTGTAGCTACTTCTATATATTTAATTTTTTTATCCATACATAATTTCATCAATTTTTCTCTGTTTTTTTGATTAATATCATTTGCTAATATAAGCATTTTCAATTTTTCTTGATTTTTCAAAGTCATTTCCATTCCAAAACATAAAGAATTACTATTTTTTAATACATTTAATATTTTTATATATTTATCTTCTATATTATTTTTTTCTAATTCTTTTGCCATCTTGTACATTTCTTCAGTAGATATAGTTATTTTTTTATGTTTTGACAATTTTATTAAGCATTCTTTTGCTTTGCATATATAAAAACCTCTGCTTTGTTTATTTTTATTTTTATCAAAAATAAACTTGCCCTCAACTTTTATCAATCTAAAAAAATTTTCTTTATCTTTTTTTTCTCTACATATAACACAAGTTCTTTGTGGTACATGTTTATTCATTTGCCTCTCCTAATGTTTTTATATCTATTCTCATTCCTGTAAGTTTTGCTGCTAACCTTGCATTTTGACCATTTTTCCCTATTGCTAAAGAAAGCTGTGACGGATCAACTAATACTCTTGCTGTTACTTCATCCTCCAATAATTCTACTGAATAAACTCTTGCTGGACTAAGTGCAGCTGAAACAAATTTCTTTTTATCTTCTTTATATTCTACTATATCTATTTTTTCACCATTTAATTCATCAACTATTTCTTTTATTCTAAGCCCTTTTTGACCTATACAAGCTCCTATTGTATCAATAGTTTCATCACTAGAGTGTACTGCTACTTTAGCTCTACTTCCAGCTTCCCTAGCAACGCTTTTTATTTCAATAACTCCTTCTTCTATTTCTGGTATTTCTATTTTAAATAGCTCTATTAATAGTCCTTCGTGTTTCCTTGAAATTACTATCTTTGGAAACTTTCCTGTTTCTTGTACTTCTACAACATATACCTTAATTCTATCTCCCACTCTATATATATCTGATTGTGATTGTTCTACCATAGGAAGAACAGCTTCTATTTTATCAAATTCTATATAAATATTATTTCTATCATCTATTCTTCTTATTATTCCATTTATTATTTTATGTTCTTTCTCTTTAAATTTTTCAAAAATATTTTTTCTTTCTGCTTCTCTTACTTTTTGAATAACAATTTGTTTACCATTTTGAATAGCATTTCTTCTAAAATCTTCACAATTTATTTCTACTTTAATTTCATCATAAAGTTCAACTTTTCTATCTATTTTTTTAGCTTCTTTTATCTCTATTTCATGAGCTTCATCATAAACTGTTTCAACTACTTCTTTGGTAGAATATACTTTAATATCTCCTGTCTTTCTATCAATAACAACCTCTACATTATCGTCTTCACTATATTGTTTTTTATAAGCTGCTAATAAGGCTTGCTCTATTGTTTCTAATAAACTTTCTTTTGTTATTCCTTTTTCTTTCTCAAGTTCATCTAAAGCTTGCAAAAATATTTTTTGCTCTTTGTTCTTCATTTTATTTCCTCCCTAAATAGTATTGAATTAAAATTCAAATACTAAATTTGCTTTTTTCACTTCATTAAATGGTATTTCTATCTTTTTTTCATCAATATTAAAAATTAATATTTCTCCATTTACATTTTCTAAAACACCTGTAAGATTTCTTTTATCCTCAATCTTATGCTTTAATAAAACTTTTACTTTTTCACCAACAAATCTTTCAAAGTCTTTTAATTTTTTTAATGGTCTTTCAATTCCAGGTGAAGACACTTCCAAATAAAATTTTTCATTTATTATACTATCAATGTCATCTTCAATAAGTCCGCTTACTTTGGCACAATCTTCTAAAGTAATATTTTCTTCATAATTTGATTTTTCAATATAAATCCTCACATACCAATATGCTCCATCTTGTAAATACTCTATATTTACTAACTCAATATCTAAATCTTTTAAATATGGTTCCACAATCTTTTCAATTTTTTCTTCGATTTGTTTTCCCAACATTTTCACCTCTTTTTACTTTTACTAAATAAAAGAGTGAGCAGTCGCTCACTCTTTTATAAGTTCATATTTTTCTATCCTATTTTAACACATTAAACTAAAAAAATCAAGTATTTATAAAAATATATATTTTACTAAATTTATAATATAATTAAAAAAATCATTTTATTGATAAAGATTTTTACTTAATAAACCGATATTATTTATAAATGAAAGTGTTTTTATCGGAGGATATTATGAAAAAAATAATAACTATAACTTTATTAATAATATTATCTACTTTCTCTTATTCCTTAGTAATCGAGAGTAAAGCTGGAATTGCACCATGGAATAGTTATAATTTAGATGGTACTAACTATACAGGAACTTTTAGTGTTCGTTTAGAAGGAACTATGTGGTTTGAAATACAAGATAAAACAGAACTTGGATTTGGTGCTGCTTTTAGACCTCTTGGGGTAGTAAATAGAGATCTTTCTCAAAGTAGTAATGGTACAATGGATTTAATGACTTCTTATCCTATATTTATTTCTGCTAAATATACATTTCCAAAAGAAATTGCTGGTATTACTCTTAGTGGAAGAACTAATTTAGGATTTAGTATAAATGATGTTGGTTCATATCCATATCTTTATAAAACAACTATTGGAATATATTCTGGGTTTGGATTAAGTGGCGAAAAAGATAATTTAAGTATGGAAATACTTTATGAACTTACTCAATCTAATGCTTATTTCGTAACAGAAAATACTAATTTCCCAGATGATAATATACATATTACCAATTATTTGATTTCTTTAAATGTAGGCTATAAATTAGAATTTTAATATTTTGCTCAAAAGAATATCTTTTGAGCTTTTTATTTTAAATTTTTAATAAAAATTATGATAAAAAATATGGAAATTTGGAGGGAAAATGAATAAAATAAAAGAAAAATTTAATTTTATTAAAAAATTTCTTGATTCTTTCTTGTATAATTATAATAAAGATAATACCACTTTGTTAGCTAGTTCTATTAGCTTTTATTCTATATTTTCTATTGTACCAATAATAGCACTTATTTTTAGTATAGCCAAAGCTATAGGGTTTGAAGAAATTATAAAAAAAGAGATTATAAATGCTCTTCCAATATATAAAGATGCTATAGAATACTTACTTCAATTTGCTATTAAATTATTAAATAATACTAAAAGTAGCATTATTGCTACGTTTGGTATTATTACTCTTTTGTGGTCAATTATAAATATATTTTCAGAAATTGAAAAATCTTTTAATAAAATTTGGAATATAAAAAATAATAGAAGCATCTATAGAAAAATAACTGATTATATTACTCTTATAATAATGTTTCCTATTACCATTATTTTATCAAATGCAGTTTTTACTCTTTTCCAAACAAACATACCGAGTTTTTTTTATAATTCATCAATATTTAATTTTTTGTTAATTAACACTCTTAAATTGATACCTTATTTTTTTACTGTATTAACTTTTATCTTTTTATATTATATTATCCCTAATACACAAATAAATATAAAATACGCTACTATTTCAGCTATTATTACTGGCTTTTCCTTTCAATTACTCCAATATATTTTTTTGAAATTCCAAATAGGAATTATCACATACAATAAAATATATGGAAGTTTTGCTATTATTCCTATTTTTTTAATATGGCAAAGAATTATGTGGATAATAATTTTATCTGGAATGCATATAATTTATATTCTTCAATATGATTTAAATAAAAAAGAATTTAATATAAGTATCATAGAATTTAAATATTATTCAATACTTATTTTAAAAGAATATTATAATAATTTTTTAAATAATACAGAAACAAAAATAACTGATATTTCTACTAAATATAATTTACCAATTAATCTTATATTATATTTTGCTAATAATCTAGAAAATATCGGCTATTTAATCAAAATAAATAATACAAAATATATTTTAAATAAAAATTTAGAAAACATTACTGTACAAGAGATTTTAAAAAATATTGAAATTTCTAACTATAAAAATATTATTTCAAAAGATATTTTATTAGAAGAATATAATAAACTAATCAATAATAAAAATGAATTATTTAAAAACATATAAAAAGGAGTGCTATTAGCACTCCTTTTTATATTAAATTATTTTTTTTCTGTTGTAAAATCTAATGAAGCTAATCTTTGATATTGTCTCCATTTTCTTGCAGCTTCTTCTTTATTTCTAGCAAATAATTCTTTTGCTCTTTCAGGATTTGAAGCCATTAATGTAGCATATCTTACTTCTCCCATTAAGAATTCATCATATTTATCCCATACTGGTTCTTTTGAATCTATTTGTAAAGGATTTTTTCCTTCTTTTTCTAATAATGGATTATATCTGAATAATGGCCAATATCCACATTCTGTAGCTAATTTTTCCTCAGTTTGAGATTTACCCATACCTTTTCTTATTCCATGGTTAATACATGGAGAATAAGCTATTATTAAACTTGGTCCTGGATAAGCTTCAGCTTCTCTTATAGCTTTTAAATATTGAGCTTGGTTCGCTCCCATAGATACTTGAGCTACATAGATATATCCGTAAGACATAGCTATAGCTGCTAGATCTTTTTTCTGTACTGGCATTCCTGATGCAGCAAATTTAGCAACTGCACCTGTAGGAGATGCTTTTGATGCTTGTCCACCGGTATTTGAGTAAACTTCTGTATCCATTACTAAAATATTAATATCGTCTCCAGAAGCTAATACATGATCAAGTCCACCATAACCAATATCATAAGCCCATCCATCTCCACCAAAGATCCATTGTGATTTTTTAACAATATGATCTTTTAATGATAAGATTTCCTCTGCTCCTTCAAAATCTGCTCCTTCTAATAATGGAAGTAATTTATTTTGTATTTCTTTTGTTTTTTCACCGTTATTTCTATTAGAAATCCATTCTTTATAAAGATCAGCTACTTCTGCTGGTACTTTATCCATTGTAGTTTCCATTACAACTTCTATTCTATTTCTTAATGTTTCACTTGCTACATGCATTCCATATCCAAATTCAGCATTGTCTTCAAATAATGAAGATGCCCAAGCTGGTCCTTCTCCATTAGCATTTTTACAATATGGAGTAGCTGGTGCAGAACCACCATAAATTGAAGAACATCCTGTAGCATTTGCTACCATCATTCTATCTCCAAATAATTGAGTTATTAATTTAATATAAGGAGTTTCACCACATCCAGCACATGCTCCATGGAATTCAAATAATGGTTGTGCAAATTGTGACCCTTTAACTGTTGTTTTAGGCATTTTATCATCTTTATAAGTAACTTCATTAAATAAGTAATCAGCATTTACTTGTTCTCCTGCTTCTACTTCGCCACCGATAGGTCTCATTTCTAATGCTTTACCTTTTGGTGCTGGACATACATTAGCACAAGATCCACATCCAGTACAATCTAATGGTGAAATTTGGATTTTATATTCTAATCCTTCTAATCCTTTTCCAATTGGTTTTATTGTATTTTCTTTTACACCCTCTGGTGCATTTGCTAATTCTTTTTCATCTATTAAGAATGGTCTAATTACTGCATGAGGACATACATAAGAACATTGATTACATTGTATACAGTTTTCTTTTACCCAATGAGGTACATTAACTGCAACTCCTCTTTTTTCATATGCAGTAGTTCCATTTTCAAATGTTCCATCTTCGTATCCATTAAATGCAGATACTGGTAAACTATCACCTTTTATAGCATTTATTGGATCAGCTATTTTAGATACAAATTCTGGTTTTGGTCTACATGCTGTATCTGTTCCACATGAAGCTTCTTCAATAGATAAATCTTCCCAAGATGAATCAACAGTTACTTCTACTACTTCGCCAGCTCCTCTATCAATAGCTTCATAGTTCATTTTTACTATATCTTCACCTTTTTTAGCATATGATTTTTTAGCATATTCTTTCATATATTCTTGTGCTTCAGCAAAAGGTATTACTTCTGATAACTTAAAGAAAGCTGCTTGCATTATTGTATTAGTTCTATGTCCTAATCCTATTTCTTCAGCAAGTTTAGTTGCATTGATTATATAGAATTTAGCTTCTTTTTCAGCTAATATTTTTTTAACAGAATTTGGTAAATAATTTACAACTTCATCTTTATCCCAAATACAGTTTAATAAGAAAGTTCCACCTTTTCTTAGTCCACTTAACATATCATATTTTCCTAAGTATGCAGGCACTGAACATGCTACAAAATGAGGATTTGATACTAAATAAGTAGATCTTATTGGATCTTTACCAAATCTTAAATGTGATCTAGTAACTCCACCTGATTTTTTAGAATCATATGCAAAATATCCTTGAGCATATAAATCTGTTTTATCTCCTATTATTTTAATAGAGTTTTTATTAGCTCCAACTGTACCATCTGAACCTAATCCATAGAATAAACATTCTTTTACATCTTCTGGTACAACAGATATTTCATCTTTAATTTCTAACGAAGTATTAGTAACATCATCTACAATACCTATTGTAAATCCATTTTTAGGATTTTCTAATTTTAAATTATCATATACAGCTATAATTTGTGCTGGTGTAGTATCTTTTGAAGATAGTCCATATCTTCCACCTACGATTAATGGAGCATTTTCTTTTTCATAGAATAAGTTTCTTACATCTAAATATAATGGTTCACCCATTGCTCCTGGTTCTTTTGTTCTGTCTAATACAGCTATTCTTTTTACTGTACTAGGTAATACATTCATAAAATATTCTGCTGAGAATGGTCTATATAAATGTACATTTAATAATCCTACTTTTTCACCTTTAGATACTAAGTAGTCAATTGTTTCTTTTATAGTTTGAGTCACAGAACCCATAGCTACAATTATATCTGTAGCATCTTCTGCTCCATAATATGTAAATGGTTTATAATCTCTTCCTGTTACTTTTGAAATTTCAACCATATATTCAGCAACTATTGCTGGTACTGCATCATAAAATTTATTTTGAGCTTCTCTTGTTTGGAAGTAAATGTCATCATTTTGAGCTGTTCCTCTAGTTACTGGATGCTCAGGATTTAATGCTGAATTTCTAAATCTTTTTACAGCTTCTCTATCTAATAGTTTATCAAATACTTCATAATCCATCACTTCAACTTTTTGAATTTCATGTGATGTTCTAAATCCATCAAAGAAATGCATAAAAGGTACTCTTGATTTTATAGCAGCCAAATGAGCTACTCCTGCAAGGTCCATTACTTCTTGTACAGATCCACTTGCTAGCATAGCAAATCCTGTTTGTCTAGCTGAGTAAATATCTGAATGATCTCCAAAAATAGATAATGCTTGTGCAGATAATGATCTAGCTGATACATGAATAACTCCTGGTAATAATTCTCCAGCTATTTTATACATGTTAGGTATTTTTAATAATAATCCTTGTGACGCTGTATAAGTTGTTGTTAATGCTCCAGCTTGTAATGATCCGTGAACAGTTCCTGCTGCTCCTCCTTCTGATTGCATTTCTACTACTTTTACAGGTACTCCAAATAAGTTTTTCTTACCTTGTGACGCCCATAAATCAGTATATTCAGCCATTGGTGAAGATGGTGTAATTGGATAAATTCCCGCTACTTCTGTAAATGCATAAGACGCATATGCAGCAGCTTGGTTACCATCCATAGTTTGCATTTTTTTTGCCATTTACTATTCCCTCCTAATAATTTTATTAAACTGACATCATTATTTTATGTTAATTATGATTAAACGCATACACTATAGTTATACAGCATTTATTAACTTTTGTCAAACAAAATCATATGTTTTGTTAATTTTTTATTTATATATTTTTTATAACTTCAATGCTAATTTTTATATTTTATATTAATATGTGATTATTTTACTAATGAATATGTATCTTTTGCGATTACTAATTCTTCATTTGTAGGTATTTTAAACACTTTTACTTTTGACCCTTCTTTTGTTAATTCTTGAATTCCATCTTTTCTAGTAGAGTTTTCTTCACTATTAAAATCTATACCTAAATATGTTAATCCTTTACATACATCTTCTCTTACCTTACTTGCATTTTCACCTATTCCTGCAGTAAAGCATATTGCATCTACTCCATTAAGTGCTGCCGCATATGAACCTATATATGATTTTATTCTATGAACAAACATTTCATAAGCTGTTTTCGCTCTTTCATTTCCTTCTTCTATCGCTTTTGATAAATCTCTAAAATCTGAGCTAGATCCAAATACTCCTAATATCCCAGACTTTTTGTTCATTCTTGTATCCATTTCTTTTGCTGTAAGTCCTCTTTTTTCCATCACATAAAGAACTGCTGCTGGATCAATATCCCCACATCTAGTTCCCATCATAAGTCCTTGTAAAGGTGTAAGTCCCATTGATGTTTCTATACATTTTCCTGCTTTTACAGCTGATATAGATGCACCATTTCCTAGATGACATACTATTACTTTTGCTTCTGGATTATTTAATACTTTTGCAGCTTCTTGTGATACAAAATAATGAGATGTACCATGGAATCCATATTTTCTTACTTTTAAATCTTCATAGTCCTCATAAGGTAATGCATACATATACGCTTCTCTTGTCATTGTTTGATGAAATGCAGTATCAAATACAGCTACATTTTTCTTATCTGGCATAAGTTCCATACATACTTCTATTCCTAATGCATTTGCTGGATTATGAAGTGGTGCTAAACTTGATAAATTTTGTATTTCTTTTAATATTTCTTTAGTTACTATTACTGATTTATCGAATTTTTCTCCTCCATGTACTACTCTATGTCCTATCGCATCTATTTCTTCAATTGATTTTATTACCCCATTTTCACCTTGTAATGTTTTCAAGACTAAATCTATTGCTTCTTTATGTGTAGGCATATCATGAAGTATTTCCTCTTTTTTCCCATTCGCCTTATACTTCATTTGAGACTTTTCTAACCCTATTCTTTCACATATACCTTCTGCTATCGCTTCTTCTTTTAGCATGTCAACTACTTGATATTTAAGAGATGAACTCCCGCTATTTAATACTAATACTTTCATAAAAAAATCCTCTCCTTTTATTATTCTGCTTGAGCTGATGTAATCGCAACTATATCAACTATATCCTGTACACTACATCCTCTAGAAAGATCATTTACTGGTTTTGCTAATCCTTGTAATAATGGGCCATATGCATCTGCATTTGCAAGTCTTTGTACTAATTTATATCCTATATTTCCAGCTGAAAGATCAGGAAATACTAATACATTTGCTTTTCCTGCTACTTTTGAATCAGGCGCTTTTTTAGATGCTATTGCTGGTACAATTGCTGCATCTGCTTGTAATTCTTCCTCAAATTCAAAATTTACAGCTCTATTTTTAAGTATTTCTCCTGCTTCAATTACTTTATCTACATCTTCATGTTTTGCACTTCCTTTTGTCGAAAAAGATAGTAATGCAACTTTTGGTTCCATTCCTACTATTGATCTTGCTGAAGCTGCTGCTGAAGTAGCTATATCTGCTAATTGTTCTGGTGTTGGATTTGGTACAACTCCACAATCAGAAAAAATAAGTACTCCGTCTTTTCCATAAAGTTTTGCTGGCTCGCTTTCTTTTGGTAATACCATAACAAAACATGATGATACTGTTCTTAATCCTGGTTTTGTCCCTATTACTTGAATTGCTGCTCTAAGAACATCTGCAGTTGGAGAATCAGAACCTGCTACCATTCCATCTGCATCTCCCATTCTTACCATCATTGCACCAAAAAATCTAGGATCATTTTCCAGTACTTGCCTAGCTATTTGTTCTGTCATTCCCTTTTTTTCTCTAAGTTTTACAAATTCTGCTATATATTTATCTAACTTTGAATAATTTTTAGGATTTACTATTTCTGCTCCCTCTATATTTATATTTAATTCAGAAGCTTTTGATTTAATAGTTGTCTCTTCTCCTATTAAGATTAATTTTGCTAATTTTTCCTCCAAAACTTTTGCTGCTGCTTTTACTACTCTTTCATCATTAGTTTCAGGTAAAACTATAGTTTTTAATTCAGCTTTAGCCTTACTTCTAATTTGTTCAATAATTCCCATTATTTACCTCCTCAATTTAAAACTTGTTAAGTAAATTTTAACACATTTTATATATATTTTCAAAGTCTTTTGTTATTTTTTTAGCTTTTTTTATATAATATATATTATATAAACCAATAACATACAAAACATATTATTTTTATATTAGTTTATGCATACTTTACTATATTTGTTAAAATTTATTCAAAAATTGCATTTATATATTCGTCTACATTAAATTTTCTTAAATCTTCTATTCCTTCTCCTACCCCAATAAATTTAATTGGTTTTTTGATTTCTTCTGATACTGAAAATATAATTCCTCCTTTTGCTGTCCCATCTAATTTTGTTACTACAAATCCAGTAAGATCTGTAACTTCATTAAATACTTTTGCTTGAGTTAGTCCATTTTGTCCCGTTGTTCCATCTATAACTAGCAAACTTTCATAAAAAACCCCTTCTCCAAGATGTTTTTTTATAATTTTATTTATTTTTTCAAGTTCTACCATTAAATTATTTTTATTATGAAGCCTTCCTGCAGTATCTATTATTGCTATGTCTGCTTCTCTATTTTCTGCTGCTTTTAACGTATCAAATACTACTGCTCCTGGATCTGCCCCTTGTGAGTGTTTTATTATTTCTGCATTTGCTCTCTTTGCCCACTCTTCTAATTGTTCTATTGCTGCTGCTCTAAATGTATCTCCTGCTCCAATTACTACTTTTTTTCCTTCTTTTACAAATTTTGAAGCTAATTTACCAATTGTAGTTGTTTTCCCTACTCCATTTACTCCTACTACTAATATAACATTTAAACCTTTTCTATCTAATTTTAATTCTGTATCTTCTCTTATTAAAAACTCTTTCATTACTTCTTTTAATATATCATATACCTTTTCTGGCTCTTTTATTTTTAATTCTTTTACTTTTTCTTCTAATTTTTTTACTATTTTAAGTGTCATATCCATTCCTATATCTGATTGAATAAGAAGATCTTCTAATTCTTCATACATTTCTTCATCTATTATACTTCTTCCACTAAATAATGTTTTAATTTTTCCAAATAAACCATCTTTAGATACACTTCTAAATAATTTTTCTTTTAATGAGCCAAATATTCCTTTTTTTTTCGCTCTTTCTTCTAATTCATTCTCTTTTTTTTCTACTAATTCTTTTTCTGCCATTATTTTTGTTTCTGTTTCTCTTATCTCTTTTTCTTTTTCTAATTTTTCAAATACTTCATTTGCTTTTTCTTCTTCTAATTTTTTATCTAACTCTTGAACTTTTTCTTTTAAATCTTCAAATTCAGTTTTTTCTTCTTCTAATTTTTTTATTGTTTCTTCTACTTTTTCATGTACTTCCTCAAATTCTTTAATTTTTTCTAATTCTTCTTTAATTTCTTTATCTATTTCTTTTTCTTTTTTAAAAATTTTTTTTATTTTTTTAAACATAAATACCACTCCTTTTTATTTTTTACATACCAAAAAATAATACCATATTTTATAGCGTATTTCAAGAAAACTAAATATATTAAGATAAAAAAATTAGTCGTTATTTTTAACGACTAATTAATGTTTTTAATTATTTTATTTTTTTATAATGTTAAGTTCTAATGAAAATAATATAAATATACTAAATGCTAAAACTCCCAATATAAAATATATAAAATCTAAAGTAGAAATCATACTAACAAAATTAATTATTTTTTCATATATTTTATTACTAATTCCTATTGTATTAAAATTATTTTCAGCATATAGATTTACATTTTTAGAATACATTATCATTAATATAAATATAAAAAGTTCCCATTTTATTTTTTTCATTTTACTCACCTCAATAATAGATATTATACACTATTATTTATCGGAAACTTTTCATAAATTCATAAGCTTTTTTATAAAATTTTTCACTCCCAAATCCACCTGGTTTTGTAATTATATTATATTCTTTATATTTTAAATAAGCTATTCCTGGTTCTATCTCTTTTATTACTTCTAAATAATCTATACTCATTTTTTTTAATATATTAATACTTATTTCTCCACCGCTTATTATTAAATTTTTTATATTATTCTCTTCAATTATTTTCTTTGATATATCTGTAAAAATATCCGTTATTTCAACTACTTTATAATTTTCTTTTGCTTTATTATAATCTCTTATATTTTTTATACTCCTAATCAAAATATCATTTTTATATTTTTTCTTTTCTATATCTATATTTTTTTTAGTAAAATCAACATCTATAACTTCTATATTATTATTTGATTCTAATACTTTAATTTGTTCAATATTTTTAGCATTACAAGAGCCTGATATTATTGCTATTTGTGGTCTTTTATACCCCCAATATTTCATTAAATATTCCATAATTCCTGATGATCCTACTATATATTTATCTAATTTTAATTCAATAATTGTTTTAGCTATTATGTCCAAATCATTATTATTTTCTGTGTCAAAAATAATAATTTGTGATTTTATACTTTTAATTTTTTCTTTTAATTTTTCTTGTCTATTACTTCTGATATCATTTATTTTTATAATTTCTCCTTCAAAATATTCTAATAAATCATTAGTTTTAATAGGAAAATAGGGATCATTTTTAAATTCTGTTAAATGAAGTGGTATATCTTTAATATAATGTTTTCCATTTATAATTTTTCTATTAGTATTTGGAAATCCTACTATAACTAATATTTTTTCTTGTTTATTTATATTTTCTTGAATAGCTTTTAATTCTTCTTTTATATTTCCTCTCAAAGTAGAATCGATTTTTTTAAAAAATTTCTCGCTATTTTTTAGTTCCATAAAGCTTTTTTTTACTCTTTCATATGCCTTTTTTTTATCAATATTTCTACTTTCAGTAGATATTATTTCTACATCACTTTTTATACTAATTTTAGAATCATATGTTTTAGTTATTACTTTCAATCCATATTTTTTCAATTGAATCCCTATATCATTAGCACCTGTAAAATCATCTGCAATTACTGATACTTTCAATTTTGTCCTCCTAAATAGTAAAATTATTTTATTTAATCAAAATAAATCCTAAATTCCATAGCAATAATTTTTTTTTATAAATACTCTTTTATACTACTTATTAAATCTATCTTTTTTATTATCGACAAAATAAAAAAATCCCTAATAAAATAGAGATTTTTATTTATTATCTATATATTTTCTAAAATAAAAATATACTTCTGTTCCATTATTTATTTCGCTTATTATATTTATATTTTCATTATATGTTGAAAGAATTTTATCTACTACTGTAAGTCCTAATCCTAATCCTCTATATTTTCTAGTATTTCCTTCTTCTAGTTGTCTAAAACTTTTAAGTATCTCTTTAACTTTATCTTTTGCCATTCCCATTCCATTATCTTTTAAAATTATTTTATATTTTTCTCCTTCTTCACTTATAATTATATCTATTATTAGTCTATCTTTTTTAGAAAATTTTAAAGAGTTTGATATAAGATTTACAAATATTTGTTTTATTGCTTCTTGATCTCCATAAATAATAGGGTTTTCTGTCTTATAATTTTTTCTTACTATTACTCTATCTTCTTCTATTACATTTTCTAGTCGCATTAATACTTCTTCTATTACATCAATTAAATAAAGTTTCGTATTTAAAAGTTCATACTTACCACTTTCAATTCGACTATAACTTATAATATTTTCTATTATTTCTTGTAATCTTTCTATATTATTCAAAGATGTTTTTAAAGCTTTTCTTTGTTTTATTGTTAATTTACCTATTTTCCCTGCAAGCAAAAGTTCAGTATATCCTTTTATTGGTACAAGAGGTATTTTTAATTCATGGCTTACATTTGCCATAAATACATTTTTAGTTTTTTCTGATTTTTGAAGTTCCTTTGTTGCTTCTTCTAATTTTTGATTTTCTTTAATAAGTTTTAAATATAATTTTCTATTTTCAAGTGCTAATAAAATTGTTTTTACATATGTAATAAGAGATTTTTTTGTTTCTTGTTCTAATTTTTTTCCATCATCTACTAATAAAATACCGTATAAATCTTTTGATTCACTTTTTTCACTAAATAATGGTACAACATAAGGTTCTTTAAATTCTTTATAATAAGATAAATCAATAATATCACTAGCTAAAACTATATCTCTTTTTTTTATATAATCAATATAATCCCAAATTTCTAAAATATCTGGTGGATTGCCTATTCCAAAGCTTTTAGTTAAAACTATATCTTTACTTTCTTCTTTTACTATATAAATAGCTACTTTTCTAAGAATAAGTCCTTCCCTAATTCCTTTTATTACAATTTCATAAAAATTATCATCTATAATATATTTTGAAACATTTACAATTAAATAATATATATTTGTTATCTCTGATATTCTATTATTTAATAATTTATTTATTCTATCAATATTTTCATTTTTTTCCTGCATTTTCTTTTGAGTTTCTTTCATCTCTTTATTCATTAATTCTAATCTTTGAGAATAATGTTTATTATTATTATTTGCTTCTTCTAATTCATTTATTTTATCTCTTAAAGTTATTGTCATTGCTTCAAAATCTCTGGCAAGTATACCTATTTCATCTCCAGATAGTTTTAATTTCCCCAAGTTAATATCAAGATTCCCCTCTTTTAATGAATTTATTTTATTAGTAAGTTCCTTTATTGAATCTACTACAAGATTTAGCATTGTTGTAGAAATTAAAAATATAAGAGAAAATACTAAAAACATAGCAATAAAAAGATAACTTGTTATTTTTTGTATATCACTAAATAATTTAGTTACGTCAAAAAGAAATAACCACTTTAAACTATCTATATTTTCAATATCTATTAATTTATAAAAATATATTTTTTCTCCAATTTCTAAATAATTATCCTTTCTAAATTGAAGTATACTATCCTTTTTTAAGGTCCCTTTTATTACTTTATTTTTGTCAAATAAAATCACTTCTGTTACAAAAATATTTTTATATCTATAAATCTCTTTTTCTGATATCTTGTATCTATATACAATAGTTCCCATATATTTATTCATATCTATAGATACAATAGAATATATGTATAAGTCATTTCCTAATTTTTTATATCTTATTCCTTCTTCATTAAAATCTATTTTTTCATTTTTTTTAAATCCTTTAGTAAATATTAAATCTTGTTTACTACTATATATAGCTATATCAAAATTTTTATAATTACTTGTGAGAGTATTATAATAATTATAAAGATTATTATACTCTTCTTTTCTTATATTATATCCAATATCTGCTTTATTTAATAATCTAATAAGGTCAATATTTTTAGACATCATTTCAGTTTCACGTCTAAAATTTTCTTTGAATTCATATAATTCATATTGTATATAATTAATTTTTTCTTCTATTTTACTTTTATTTTCTTGTTCTAAATTTCTATAAATAACTTCACTTGAAATTAAATAAGCAAAAATTAACGATAAAATACTTGTAAAAATAATAATTATCGAAAATTTACTTTTTATACTCACCTTCATACAAGGTTCCTCCTTGATAATAAATAGAAAAAATGATAAACTAATTTATCAAATAAATTATACCATAATTTTTTTTGAAAGTACAATACGGAGGTTTTTTTAATGAAAAAAAATATTTTTATCCTCTTTTTTATAATAAATATTTTTTTATTTGCAAAAGAATATAATATTTATGTTTTTAATGAAAACTATTCACCTATTTCTGCTGCAAGTATTATTATTGATAATACTTATTATTCAACTGATTTTAATGGTTATTTAAAAGTAGAAATCCCTAATAATGAATTTTTTGTTTCTATTTCAAAAAATGGATATATTAATAAAAAAATATTTGTTTCAAATAACACTAATAATATAAATATAATGCTTATTAAAAAAAATATGAATTCAAAAAAATTATTTGTTGGTTTAAAATATGATAATAACAATAATTATTATTTTTTAGATAGTATGAATTTAAATAATTTTTCATTTAATAGCATCATAAATTTTTATAATGATAATAAATTAATTTATAGCTTTGATTATCATAACTCGCCTATTAGTATTGATATATTACCAAATATATATGACGTGAAAATTATCAATTCTTACAATTCTATTATTTATAAAAATATTATTATAAATGAAAATACTAAACCTTTTTTGTTGTTTTCAATGAAAAAGAATACTCTTTTAGTTAAAGGTATTGTAAAATCAAATAACTATTATATTGGTGGTGCTAAAATAACATTTACTGATATTAATAACAATAATTTTGAAACATTTTCAAATATAACAGGTAATTTTTATATAGAACTTCCTAAAAATGATTATACAATCTCAATTGAAAAAATTGGTTATAAAAGTAATAATATAAAATTATCAGTAAAAAATAATATCCAAAATTTAGAATTATCATTAAAAGAATTAGGTGGTTATATTTCTGGCTATATAATTGACGAAAAAAATAACCCCATTAATAATGCTCTTATAAATATAAATAACAGTATTAACTCTTTTTCTATTTATTCTAACGATAAAGGTTTTTTCAAAGTAAAAGTTCCTTCAGGAATAAATATATTAAAAATAACAAAAAATGGTTATTTAACTAATGGTATTATTAAAAATATTAAAAATTATTCTTCTATCGAAAACCTTTATATAAAATTAGAGAAAAAAGTAAGTAATTTAAAGGGAAGAGTTATTGCAAATTCTGAATATGCAAGTAATGTAAATATATTTTTATATAAAGATAATAAACATATCGCTACCACTACTACAAATAAAAATGGATTTTATATCTTTGAAAATTTACCACTTTTCGAATCATATAAAATCATTATAAAAAACTCTTTAAATAAAGATATTTTTACATCTAAAGATATCTTTTTAACTGATGAAAGCGATAAAGAATTTAATATTTTTTATAATTATAATTATAAAAAATTAATTCTAGAATTCCCTGAAAAATTTTATAAACCTGTATATATTAATAATAAAAAATATCTACCTGATAGTAATAGCTTGATTTATCTAGATATTGATCCAAATATCAATTCTCTTGAAATCTCTATTCCAGAATACAATTATAAAAACATTTTAAGTTTAACTAATGAAAATAAAATATATTTAAAAATTAAATTATAAAATCTTTCCAAAATTTTGGAAAGATTTTATAATTTATAACAAATAATTTCTTTTTAATATTTGAAAATATTTTTCAGCTTTTTCTATATTCCCTTTATTTTTATAATATAAATATAAGTAATACATTTCAACATCTGTTTTTTCGTTTTTTTTCTCAATTTCATTTTTATAATAATCATCAAAAACTAAATTATTTTTATTAAAATAAAAATATTTTAATTCATTTGGAATTATCCACTCTTTTTGATATTCATATTTTTCTAATGCTATATCTAAATACTCTTGCCAGCCATTTTTTAATAAAAAATCTAATTGTTTGAAATTCAACTTTTCTTTATACATTAATAATTTTACATATTCACCTTTATCAAAATAATATTGTATTAAATCTTTTTCAAAGGTTTTGTCTATATCATAAGCATATTTAATAGCATATTCAATATAATATTTTTTATTATATAAAAGTTTTAATTTAGCCATCAATTCATCTATTCTATTTGAGTTTTCTAAAATCTCTATATACTTTTGAATAAATTCTTCATTTTCAAATCCTTTAAATATTTTTTCTGCTAAAAGTAATTCAGCCTCATAACTTTTTTCTGATTTTATTAAAATATCTATTTTCATTAAAAAAAGCTCTTTATCAAAAGTTTTATTTATATATTCATCTATTATTTGTATTTTTTCATCATCATTTAATACATAATTTAATTTATATTTAATCATCTCTTTTTTATATTTACCTTTAAATTCATTATTATTTTCATAAAAAGATATAAGATTTATAATCTCTTTATCAGATATACCATTTTGAAGTCTATCTTTAAAAAATTTATAAAACATATCTTCATTTTTAAATGATAAATTATACATTATCTTAAAATCTTTATTTAAAAAATAAAGTTTATAAAGATTATCTATATCACTTTCTCTTATATATCTCTTTTCTAATTTTTTAAATTCTTTATTAAAATCTTCTGATTTTTTGTATTTTAAATAATATAATTTTTCTAAATCATTTCTAAATCCTGTTAATTTAGCTAATTTTTCTTCATATAAAAAATATTCATAATATCCTTCTTTATTCTCTAAAGATTTTATTTTTGCATAAGCTAATTCACTTAATTCTTTTGGTGTTGCAATTTTTATTAATATAGCTTTTAAATATTCATCATTTTCAAAATCCTTATTTTTTATAATTTCAACCAATTTATGTTTTTCCTCTGTATTCCATTCATTGTTAAGAAAAAATTCATAGTACTTTTGTGAATCATAGGAATATAATTCTAATTTTTGAAATTTATTTAAACTGTATTTAGTCATATCAATAGCTAAATTATTATTTTGAATCAAATCAACAATATACATGTATAGTTCCAAAATCTCTTTTTGTTCAGCTTTTTTTTCAATATACTTATCTAAATATTTTATTTCTTTATTATAATCTCCTAACTCATGATATATTTTAGAAATTTTTAGATATTCATTAGGATATATTTTTTCATATTCCCTTAAAAAATTTAGTGCAGCTTCTTTTTCGCCTATATCTGCATAAACTTTTGCTATTTCATAATAAGATTCAGTATTATTATCTTCTAATAAATCTGATAAATATTTTGATATTTTTTTAGGAAAATATACTTTTTTACCTAAAAAAGAAGTTATTTCATATTTTGAGACTGATGCAAATATATTTATTGAAATTAATAAATATAATATTATTTTCTTCATTTTATCATCACCTAATCTTTTTCTATATTTAAACTAGCTATACCATTTAGATTTAAATCTGCAAATATATCATTTTGATATTTCAACTTATAATATCCAGCAGCAGCTATCATCGCTGCATTATCTGTACAAAGTTTTAAACTTGGATAAAACACATTTATATTTTCTTTTTTAGCTCTATTTGTTAATTCACTTCTAAGCTCTGAATTTGCAGCTACACCTCCTGCTATAATAATTTGATTTACTTTTTTTTCTTTTGCAGCAACTATTACTTTTTTACATAATATATCAACTACTTTTTTTTGAAATGAAGTAGCTAAATCTTCTTTTGAAAACTCTTCTTTTTTCATATTCATTTTATTTACATAATTTATAACAGATGTTTTTATACCTGAAAAACTAAAATCATATCCTTCTACTTTTGGCTCTGGTATTGAAATAACATTTTTCCCTAATTTTGCCATTTTATCAATAATAGGCCCTCCTGGATATCCAAGATTTAAAACTCTAGCTACTTTATCATAACTCTCTCCTACTGCATCATCAAGAGTTGAACCAATATTATAAAATTTATGATTTTCATCAATATATACAATATTTGTATGACCACCTGAAACAACTAAAGATATAAAAGGAGCTCTTATATCATATTCTAAAAAACTAGCATATATATGTCCTTTTATATGATGTACTGGTATAATTGGAATATTATGAGAATAGGAAAGTCCTTTTGCAAAAGAAATTCCTACAAGTAACGCTCCTATAAGTCCTGGTGCATATGTTACTGCTATATAGTCTATATCTTTTATTTTTATTTTCGCTTTTTCTAATGCTTCGTCTAAAATATAAGAAATATTTTTTATATGATGCCTTGAAGCTATTTCTGGTACTACACCACCATATTCTTTATGAATATCAATTTGAGACGAAATTATATTTGATAAAATTTCCTTTCCATCTTTTAGTACTGATATCGATGTTTCATCACATGATGTTTCTATTCCTAAAATATACATTTTTTCTCCTTTTTTTAATTTTAAAAACTTATTTTCAAATTCATTTCTTAAGATTTTTTGATTTTTTAACAATTTCATCAACTAAAATTTTTTAACAATTTCGTCAACTAAGTTTCCTTTTAACATTTTTTCTTTATTTACTAATTTTATTCTTGCTAATTCTTTATTATTATATCTAATCACATAAGTTCCTAATTCTTTATTTTTTTCTATTGGTGCATAAATATTTTCTGGTAAATAAACTGTTTTTTCTAATTTCCATTCTTTTTTTATTAATGCCGAATAATCTTTTTCTGCATACAAGTTTATAGTATTTTTTTTCCCACCAATTACTTTTGCTTGAATAATAAAATCATCTTTTTTTACTAAAGTTTTTATTTCATAATTATTATATACATAGTTTATCTCTTTTTCTATTTCTTCATCTCTATTTTTTTCATTTGGCGCACCTAAAAGTACAATAATAATATCAAAATTTTTTCTATCTACAATAACACTCATATTATACCCTGCACTATCATGATGGCCGGTTTTTAATCCAATTACTCCTAAATTTTTTTTTAAAAAATTATTTCTTGTTTTAATTGTATATCTATTATTTTTAATTTTAGCAGTTTTTAATTTTACAATATCCATTATTTCTTTATAATTCTTGAATATTTCAAGTGAAAGTTTTGATATATCATAAGCTGTTGATATATCCATACCTTTTCCTGTCATATCACTCGGTAATCCTGTAGGTGTATAATACTTTGTATCTTTTAATCCTAATTCTTTTGCTTTTTCATTCATTTTCTCAACAAATTTATCTACATCCTTATAAGTGTATTCTGCTAATGCATATGCCGCATTATTAGCTGAATGAATAAGCGTTGCTTTCAATAAATCTTTTACTGTTACTATTTCTCCTATATTAAGCGATATTCTACTTCCACCTATTTTGGCTGCATCTAAAGATATTTTTATTTTATCATCCATTTTTATATTTCCTGCTCTTATTTCATCAATTACAATAACAGATGTCATAATCTTTGCAATAGAAGCTGTTGGGTGTTTTAAATAAATATTTTTACTATCAATAATATTTCCATTTGTATCCATTGTTAATTTAGATACATAATCTGCATTTGCTATAAAATTTAATATCAAAAAAATATAAAAAATTATTTTTTTCAATTTATTACCTCCAAATTATATTTTCAAAACTTATTATAATATATTTTCTTTATTATTACAAATTTTAGTTTTTTCAATTTTTTGATAATAAGCTTTAAAAAAAATAGTGAGCTCAACTCTCACTATTTTCATTTAGCATTTCTATCGGAATCACTTCTATTTCAAGTTCTTTCATATCTACTCTTATTATCACTACTCTTAGTTTATCCCCAATTTTATATGTAATATTATTATCAGTATCTATCATTGTTAAACTCTCTTCATTATATTCATGATATGATTTTGATTGAATAACATTATAAAAACAATCTATATACTCTTCTGTTTCCATAAATATACCATTTTTATTCATTCCTGTAATTATCGCATTATATTCATTTCCTATTTTATCTTTCATATATTCAACTACTTTTATTCTAATACTTTCTTCTTCTATACTCATTGCTGTTCTTTCAGTTTTAGATATATGTTTCCCCACTTCATCAAGAGTATCCTCTAAGTATTTTATTCTTTTTTTAGAAGGGTATTTTGAAAGTGTATCATTTAATATCCTATGTACAACTAAATCTGCATATCTTCTAATTGGTGAAGTAAAATGTGTATAAAATGTTGAAGCAAGTCCAAAATGTCCTGTATTTTCTTTTGTATATCTTGCTTGTTTTAAAGACATAAGTATAAGCTTATGAATTATCATATTTATACCTTTTTCTTTTGAATCATCTATTATTTTTTGAAATTTCCCTGGATGTAATTCATCTAAATTATGCAAATTGTATCCAAATTTTGAAAGAGATTCATTAAGTTTCATAAGTCTTTCTTCATCTGGTTTGTCATGAGTACGATATATTGAAGGTATTTCTAACCAAAATATTTTTTCAGCGACTGTTTCATTTGCAGCAATCATAAAATCTTCTATTACTTTTTCTGCTTCTCCTCTTTCTCTAGTTTTTATATAATCTACTTTTTTATTTTCATCTAATACTACTTTAATTTCAGGTAAATCAAAGTCAATAGAGCCTCTTGATTTTTTTACTTGTCTAAGTACCTTTGATAATTCCAACATTAAAAACAACATATCTTTTATATTTGAATATTTACTGCTTAAATCTTTATTTCCTTTATATATTTCATTTACATCACTATATGTCATTCTTTCCACACTACGTATTACTGATTTATATACTTTATGGTCTATCACTTTACCTTTTTTGTCTATTATCATATCACAAGTAAAAGTAAATTTATCTTCATACGGATTTAAAGAGCATAGTCCATTTGAAATCTCTTTTGGAAACATAGGTATTACTCTATCTACTAAATATATAGAATTTCCCCTTTTATATGCTTCTTCATCTAATGCTGAACCTTCTTTTACATAATAACTAACATCAGCTATACTTACTATAAGTCGATAATTTTCTCCTTTTTTTTCTACATATACAGCATCATCAAGGTCTTTTGCATCAGCACCATCTATTGTAATAATATTATAATCTCTTAAATCTACTCTATTTTCATCTTTTTCATAATTAATAGAAATTAATTTATTAATTTCTTGTTTTACTTCTAAAGGAAATTTTTCTTCTATTCCTTCTCTTTTTAAAAGAGCCTCTATCATTACCTCACTATCAAATGGATCACCTAATATTTCTACTATTTTTCCTTCTGGTTTTTTTTCATTATCTCCCCAAAAAGTAATTTTAACTAATACTAATTCTCCATCTTTTGCATTTTTCATTTTATTTTTTGGGATAAATATATCTTTACCAAAATTTTGAAATGGTACAACAAATCCAAAATTAGGTTTCCTTTGAAGAATTCCTATTATTTTATCATTTTCTCTTTTTAATACTTTTTCTACTTCACCTTCTTTATTTTTTCCCTTTTTATTTTCTTTTGTTATTTTTACAAGTACTGTGTCCCCTGAAAAAGCACCATTAAATTTTGACTTTGGAATAAAAACACTAAACTCTTCACCATCAACAAAAGCAAATCTATTTTTTACCACATCTAAAGTTCCTTTTATATATCCACCATTTTCAGGTATATTATACTTTCCACTTTTTAATCTTATTATTTCTCCATTTTCAATCCATTTATTTATAATACTTATATTTTTTTTCTTTTTCTTAGAAGACCATCCTACTATACTAAAAAGTTCATTTGTTGTAATTGATTTCTTTTTAATTTTTAAATATTCTCTTAGTATTTCTAATTCTCTATCTATCATTTTTACTCCTATCTTCCGTATATTTTATTTAAATAATAATTTCTCATTTCAAGTGTACTTGGATGAATTATTACATTTTTATCTATTAAAAATTTTATTTTTAAATCAGCTTCTTTTAATATTGCTAAATTTATATCTTCAAAGGCTAATTTCCTTAATTTTTTTACACCTTCATAGTTTCTTGTTTCTTCAATTGCATCAGCTATATATATTATTTTTTCATAAATACTCATAGCTTTTCTACCAATAGTATGGTATTTTATTGCATTTAATATATCTTTATCATTTATTTTAAAAAAATTTCTAGAAAATACAGCTCCTGCATATCCATGTAATAATTCTCCTAATAAATATTCTTGTTCTATTTCTTCTTTATCTAAAAAATTCAACATCTCATTTAATGTAAAATGTTTTGACACATCATGTAAAAGAGCTGCAGTTTCTATCTTATCTACGTTTACATTATAATGAATCGCTAATTTTTTTGCCATATTTGTAACAGAAAGTATATGTTTATATCTTTTTTCTGTCGAAAATTCTTTTATTTTTTCTTTAATAAAATTATTTTTTTCTTTATAATCTATCATAATGTCACCTCATTCAAAAAATATTAACAGACCGAAATTCTTAATATTAAGTTTAGCTTCGGTCCGTTTTTTATTATTCTAATTCTCCTACTAAATCATATAAATGCATTTTATCTAATATTTCTAGATTTTCTAATGCTTCTGCATAAGTTACTGCTTGTTCATTATATGTTCTTGTTGTAATAAATATACCATTTGTAGCTTTATGTATTTCAAATTGTTCAACAAATAATTGTAAATCTCTTACTGTTATATCTCTATCAATATTCATTATTTGTACTAAAAATTTATCTTTAGGGTTATATTGATCTACTGCCATTGCCATTATTTTATCTTTACTTTCTTCTATTTCATAAGCTAATTTTAAACCTAATTTTTCTATTATACTTTTGAATAAATCTAATAAATCATCTGTCTCTAATATTCCATAATCTATTCCATCTATCATTTTTTCATATTCTTCTGGATTTAATATTTTTATTATATTTTGAATTCTACTTTCTATATCTTTATATCTTGGATTATGTTCTTTTACTAATTTAAAATACTCTAACGCTTCTTCATATTTATCTTTTTTCTCGTAAATCATAGCTAAATCATATAAAAGTGAAGGTTTTTCAGCCATAAAAATATCTTCAAGTTCAAGCATTTTCTTTATTATAGTTTCTTGTCTTTCAATATTATTTTCTTCAATATAATATTTTAATAAAACTGTATAATATAACTCTTCTCTTCCTTCTATTTCTTTTAATTGTTCCATTAATTTAGCTGCTTCTTCTAATTCATCTTCTTCATAATGAATTTTTGCCAGTTCATATTTCGCTTCATCATTAAATGGATCTAATTCGATGATTTTTTTTAATTGAAATCTAGCCTTAAACTTATTTTTAGTTTTAATATGTAGTTTTGCTAACTCTAACCTTGTGAGAATATGTGATCTATCTAGCATCAAAGCTTCGTTAAATGCCCTAATAGCTTTAGCTTCTTTTCCCATAATACTATATATTTTACCTAAATAACAAAATAATAAAGGGTTTTTATTATTAACTTTTAGACCATTTATTACATATTCGATTGCTTTATTATAATCTTTTTTATCTAAATACATTTTAGTTATCATTGCATAAGCATCCCCTTTTTCTTCTGGAGTTGCCTTTTGATTTAATGATACACTTATATATTCTTTTAAACTTTCTACTGTATTACCTTGTTCATAATATATTTTTGCAAGAAGTAACCTAGCTTTTACATCATTTGGTCTAGTCGACTTATAATTTTTTAAATTCTCTATTGCTTTTTCTACATCGCCTGCTTTATAAAAATTTTCAGCATCGCCTATTATTACCTGTCTACCATAAAAAATTGTTAAGTACACAAAAAATATTACAACTGATATAAATAAAATTCCTATTATAAAAAGCATTTTTTTCTCCTTTTTTTAAATAGTTAAATCTTTTTCAAAATAATTTGTTATATTATAAAATCTCAGCTTTTCTTTCTCTTCATTTTCTATTAAGAACTTAACTTTTTCAATACCTTCAATACTTGTAAAAGTATTTACCAATGAATATATAATCAAAAGTTCTTGTTTTTCATTTTTTATATTTTCTACTATTTTTTTATTAAAATTTAGATATAAAATTTCTTTTTCAATAAAAATATTTTTTAAAACAATATTTTTATCTAGAAAAGTTTGTGGTAAATTTTGTGTGCTATCAACTATTTCTCTATAAATAATTCGTATTTTTTTAGTTATATTCTGTGTTTTTTCAATTTTTGTTCTTATAGGAATTAATTTACTAAAAGTTATATCTGGAATATATATATCTACACTTTCATATTCTATTTTTTTTATTTTATCCTCTTTTGAATATATTTTTTTTGTTTTAGTAAAATCATAGTCTAAAACATATTTTTTATGAAAATATATTGAAATTAACAACAATATTCCTATTAATATATTTAATACAACATACTTTTTCAATTTTTCTCCTCACTATTTTTTAAAATATTCTTTTACTATTTTTGCGATACTCTGTGCCATTTTTTTTTGATTTTCCCTTCTAAACATTTTACTCGCTTCACTATTATTTGTTATAAACCCTAGTTCTATAAGTATCGAAGGAGCATTAGTTCCTCTAAGAACTGCTAAATTAGCACCATGACTTCCTCTTTTGATCATATTTAATTGTTTTGGATAATAATCAATAAGTTGATTTGCTAAAAAAGCAGATCTTTCCTGATTTTGTCTATACAATATATCATTTACTATTAAATCCGTTGCTGTAATATTTCCACCAAATTTTTCTTCTACACTATTTTCAAATTGTGCGAGTTGTTTTGCATATTCAGATTGATTTTTTGAATAATAAAATACTTCAAATCCTCTTGCTGTTTTTGAAGGGCTTGCATTAGCATGTATACTAATCAATAAATTAGCATTATGTCTATTTGCAATAGCACTTCTTTCATTTAGACTAATAAATTTATCAGTTGATCTTGTCATAATAATTTTAAAATCATTTTTTAAAATATCTTTTAAATATTTTGATACACTAAGCACTAAATCTTTTTCTTTATATTTTCCATTTATAGCTCCCGGATCTCGTCCACCATGACCTGGATCTATTACAATTATCGGTTTATCACTATCTTTTTGCAAGTTAAAAACAATTCTTGTTGGATTATGCCAGGTAGTTACTTTATATTTCACATCTTCTTTTAATGTTATAAAAAAAGCTGTTGATTCATTTAAATCTATTGCTTCTATTTTTTCTATATAATCATCGTTTTTTTCTATTTTTCTATCTATATTTTCTATTATTTTACTATTTTCAACTTCTAAAAAAATAAGTCTTGTTACTTCATCATAATTTACATTATATTTAGGAGTAACTTCTCCTTTAATATCTAGCACTATTTGTTTAGGTGAATTATTAAATCTTATGTTTTGTATATCAATTCCAAATATAGATAAAAAACATAGAAAATAAAGTATACCAATTTTTAGTTTGCTCATCAATTTACCCCTTTATCTAAAAAGCGACAATAAAAATATTGTCGCTTAATTATTTACTTTTATATACATTTGCTATTACAGATTTTTTAAAACTTATTTTTACCCCTTTATCTACTCTAAGTTCAATAAATTCATCTGTAATCGCTACTATTTCTCCTTTTATTCCTCCTGTAGTTATTACAACATCTCCTGTTTTAAGACTAGACAGCATTTCTCTATGTTGTTTTTCTCTTTTTTTATTTGGTCTTATTAATAAAAAATAAAAAATTCCTCCCCATACAACAAGTATTATAACTAAGTTTATTATACCTGCTGATGTATTTGGTGTTGCATCTGCTGCATAAGATATAAATTGATCTAACATAATTTCCTCCTAATTAATGTATTTTTTCTTATAAAAAAGTATATCACAGTAACTTTTTTTTTTCAAATATAATTTGTTTTTAGATAGTAAAAAATAAGTAGAATTTTTTACTAAACTCTACTTATTTTTTGTTAATTATTCAAACATTGATTTAAATTTATCTACTGCATCTTTGAATTTTTTCCCTAATTTATGCTGTTTACTATCTTTTTTAAATGTTTCATCTAATTTTTCTATTAGTTCTTTTTGTTCTCTTGTAAGATTTGTTGGTACTTCTACCAATATTTTTACAAGTTGATCTCCTCTGCCAAATCCTCTAGAATTATTTATACCTTTTCCTTTTAATTTAAATACTTTTCCATTTTGAGTACCTGCTGGTATTTTTATTTTTACCGTTCCTTCTAGTGTAGGTACCTCTATTTCTCCTCCAAGTGAAGCTGTTGCAAAACTAATAGGTACTTCACATATTACATTATCATCTATTCTTTCAAATATATCATGTGGTTTTACAGATATATAAATATAAAGATCTCCATTAGGACCACCTGTTGTACTAGCATCTCCCATTCCATTAAGTCTTAATCTTTGATTTTCTTCTATTCCTGCTGGTATTTTTACTTTTTTAGTTACTTTTTCTCTTTCTACTCCTGTTCCATTACATGTTGGACATTTTTCTTCTGGAATTTCACCTTTACCATGACACATATCACACTCTGCTACATTTTCAAAAATACCAAACATTGTTTGTTGTCTTTCTCTTATTTTTCCTGTTCCATTACATTTAGTACATGTTTTTATTTTTGTTCCTGGTTTTGCTCCTGTTCCATTACATGTATGACATGTTCCTGTTCTTCTATAAGTTATCTCTTTTTCTACTCCAAATGCTACTTCTTCTAATGTTAATTCTAAATTATATCTAAGATCATTTCCAGGTCTAACTCTAGATCTGCTAGAGCCTCCTCCAAATCCTCCTCCAAAAAATGAACTAAATATATCTCCTAAATCTTCAAATCCTCCAAAATCTGAAAATCCTCCAAATCCAGAACCTGCTCCACCCATTCCATCAAATGCAGCATGTCCAAATTGGTCATATTTTGCTCTTTTCTCTTTATCTGAAAGTATTTGATACGCATCATTTATTTCTTTAAAGTTTTTTTCTGCTTCTTTTTTTTCTTTTTCATTAGCATTGGTAAACTTATCAGGATGATATTTCATAGCAAGTTTTCTATATGCTTTTTTTATTTCGGCATCACTAGCAGTTTTGGAAACTCCCAATACTTCATAATAATCTTTTTTTGCCATTTTTCATCTCCTCCAAAATTATACTATCTCAAAAATTAACTTTCTTTTAAATTTTGCTGATTTGTCTAATTTTTCAATTCCTATTTTTTCTTTTAATTCTCCGTTAAAATCAACAAAATCATTTATTCCACACCATGGTTCTATACATATAAACTCTGCATTTACTACATTCCATAATGCTAAATATGGAAATTCATCAAATATTACTTTTACTTTTCGATTATCTTTTTTATTTTTTAGAGTTATTTCTTTTGACTTAAGATTTTCAAATACAAATGCATCATTTTTAAATGTATCTTTTTTTAATTCAAGTATTTTAGTTTTTCCTAAATCTATTTTTTCTTTTTTTAATAAAACACCGTCTATTATAAATGATTTAATCTCTTCTTCTTTTTCAAATTCTAAATAATAATCTTCATATTTTATCTCTTCATTTACAAAAAGTGAAAATGCTGGATGTGCGCCTATAGAAAAATACATTTCTTTATCATCAATATTTTCTATTAAATATTCTGTTTTTATTCTATTTTTTTCTAATGTATATGTAATATAAAAATTAAATTTAAAAGGATATTGTTTTAATGTCTCTTCTGAATAAGAAAAAAGATATTTTATTTTTGTATCATTTTTTTCTATTATTTTAAAGTCATTATCTCTAGCAAATCCGTGTTTTAATTGTGAATATTCTTTCCCTTCCACAATAAATTTTCCATTTTTTTGCCCGCCAATAAAAGGAAATAATACTGGTGCTGTTTTCCCCCAATAATTACTATCACCTTTCCAAATATAATTTTGATTATTTTTTTTATTAATTATTTTTTTTATTTCAGCACCTTTATTTGCTATTTCTAGTTTTAAAAAACTATTTTCTATACTATTCATCAATTTATCCCCTTTATACTTTTTTACAAATAGTTATATCTGTTAATTGATACCCCATTTTTTGGTATACTTTTAATAGTTCTATTGAATTTCCAAATAAGTGTACTGTTATTCTGTTTGCACCTAAATTTTTAGCATTCTCTTCTATTTTTTTCATTATTTCATCTTCATAATCCATATCTTTATATTTTTCAAAAACCTCTACATTATAAATAAACATTTCTCTATCTGGAACTGCATTCCAGGTATAACCTATTTTTTCATTATTTTTATAAATGTTATAAAAATAATGTTTTTTAGTTTCTAAACCATTTTTTAAAAGTGTATTAAAAGTTTCTTTTGCAAGTTCTAAAGCTTCTTCTTCTGCCCATACTCCTATATTTACTTTGGATTTAGAATAATCTGCTATCATTTTTCCTTTTATGATTTGAAAGTCTTCTTCTGACATTAATTTTAATTCTATCATAAAGTTACACCCCTTTTTTATAAATTTAAAGCAAAAAACAACTAAATAATTGATTAAAATTTTAATTGAAATATAATAAAGTTTTTATTTAAACTCACTATCAAAGATAATTTTAATCAATCTATTTTAATTATTTATACTTTAAAATAAGGGATAGAGTTCGCTCTATCCCCTCTTTAATTAATCAACTATTTCAGCATCTTGTACATCGTCATCAGATTTTTTATCTTCTTCAGGTTGTGCTTGTTGTCCAGCTTGATCTGCTTGAGCTGTTTTATATATTTCCTCTGCTAATTTATGAGATACTTGAGTTAATTCTTCAGTTGCTTTTTTAATAGCATCTAAATCATCTTTATCTTTTACTTCTTTTAATTTATTCACTGCAGCTTCAATATTTGCTCTTTCTTCAGCAGATACTTTATCACCATATTCTTTTAATGATTTTTCAGTAGCAAACACTAATTGATCTGCTGTATTTCTAGCTTCAGCTATTTCTTTGAATTTTTTATCTTCAGCTTCATGAAGTTCTGCATCTTTTTTCATTTTTTCTATTTCTTCTTCACTTAAGTTTGATGAGCCAGAAATAGTTACTTTATTTTCTTTTCCTGTTCCTAAATCTTTTGCAGTAACATGTACTATACCATTTGCATCTATATCAAATGTTACTTCAATTTGAGGTACTCCTCTTGGAGCAGCTGGTATTCCTTCTAAATTAAATTCTCCTAATAAATGGTTATCTACAGCTTTAGCTCTTTCTCCTTGATATACTTTTATTGTAACTGCTGGTTGATTGTCTACTGCTGTTGAGAACACTTGAGATTTTTTAACAGGTATTGTTGTATTTCTTTCTATCATTTTAGTGAATACCCCACCTAAAGTTTCAATTCCAAGTGATAATGGAGTAACATCAAGAAGTAATACATCTTTTACATCTCCCATTAAAACTCCACCTTGAATAGCAGCTCCAGAAGCTACCACTTCATCAGGGTTTATACTTTTATTAGCTTTTTTCCCAAAATATCCTTCTACCCACTCTTGAACTGCTGGTATTCTTGTAGATCCACCAACTAATAATATTTCATCTATATCAGATACTGAAAGTCCAGCATCTTCTAATGCTCTTTTTGTAGGTCCTTGTGTTTTTTCTACTAATCCTTTAGTTAATTCATTAAATAATGCTCTAGTTAATTTTTTTTCTAAATGTTTAGGTCCTGTTGCGTCCATTGTAATAAATGGTAAAGAAATTGTTGTTTCCATCATTGATGAAAGATCTTTTTTTGCTTTTTCTGCAGCATCTTTTAATCTTTGTGTAGCCATTTTATCTTGAGCTAAATCTAATCCAGTTTCAGCTTTAAATTCTTTTACTAACCAATCAATTATTGCTTGGTCAAAATCATCTCCACCTAAATGATTATCTCCAGATGTTGATATAACTTCAACTACACCATCACCTATTTCTAGTATTGATACGTCAAATGTACCTCCTCCAAGGTCAAATACAAGTACTTTTTCTTCTTTTTTCTTATCTAATCCATAAGCAAGTGCTGCTGCTGTTGGTTCATTTATAATTCTTTTTACTTCTAATCCTGCTATTGCGCCAGCATCTTTTGTAGCTTGTCTTTGAGCATCTGTAAAATAAGCTGGTACTGTTATTACAGCTTCTTTTATTTCTTCTCCTAAATAACTTTCAGCATCTTTTTTTAATTTTCTAAGAATCATAGCCGAAATTTCTTGTGGTGTATAATCTTTGTTATGAACATTTACTTTATAATCTGTTCCCATATGTCTTTTAATAGATATTATTGTTGAATCAGGATTTGTTATAGCTTGTCTTTTTGCTATTTCCCCTACTATTATTTCACCATTATCTTTTATATTAACTACTGATGGAGTTGTTCTTGCTCCTTCAGCATTTGGGATTACAGTAAAGTTTGAACCTTCCATTACAGAAACACATGAGTTAGTTGTTCCTAAATCTATACCAATAATTTTTGCCATTTTGACATTCCTCCTTTATTTAATTAAATTCAATATTTCTTTTTTTATACTTTTTACTTTAAATTCATCATATTTTTTTATTAATTCTATTACATGTTTTGATTCTAAATGTCTCTCGTAATCTTCTTTTGTTTCCCATTCCTCTAATAGTATAAGTTCATCTGGTAATTCATGATTTATAAACACTCTATAATTTTCACACCCTATTTCATTTAATGTGAGAGGCTTATTTTTTAATAATTCCTCTTTAAAACTTTTTATTGATTCTTTTTCTAAATTAAATCTTTCTAAAACTACTATTTTTTGAGACATTCTAATCACATCCTTATACTATTTTTATTATCTTATTTTTTACATACTTTAACCATTGAAGGTCTAATTACTTTTCCATGCATAGTATAACCTTTTTGAAGCTCCATTACGATGTAATCATTTTCTACATCTTCTATGTTTTCTACCATTACAGCTTGGTGTTTGTATGGATCAAATTTTTCTCCAACAGCTTTTATTTCTTCTACTCCCTCTGATTTTAATGTGTTTTTTATTTGATTAAGAGTCATATCAACCCCTTTTACTAATGAATCAAAATCTTTTGATTCAAGAGAAGCAGAAATAGCTCTTTCTAAATTATCTACCCCTTCTAAAAATTTTGCTATAATTTTTTCTGCAGCATACTTTTTTAATTCTTCAAATTCATTTTCTTTTCTTCTAGCAAAATTTTGAAATTCTGCATTTTTTCTAGCATATGCATTTTTCAATTCTTCTATTTCTTTATTTGCATTTTCTAATTGTTTTTCTAAGTCATTTGTTTCTTCTTTTGGTTCTTCTATTGTTTCCTCTTCTGTTTTAGCTTGATTTTCTTTTTCTAATTCTTCTTGTTTTAATTCTTCCATTTCTTCTTTAAATATCTCCTTATTTTTTATTTCATCCTTTTTTTTCATATCTAACCTTCTCCTTTTAAGTCTTGGATTACTCTATTTACTTCTTCAGATATATATTCTACTAAACTAACTGTTTTAGAATATTCCATTCGTTTTGGTCCTATTACTCCTATTACTCCTTTAGAACCCCTTAAATTATAAGTTGAAAAAACAAAACTAAACTCTGATAAAGGTTCTATATTAAGGTCTTCTCCTAGCAAAATATATACTTTACCTTCTTCATAATTTCCTTTTTTTACAATTTCTTCAAAAGTATTTCTTAAATGTTGCTTTTTATTAAAAACATCTACCATATTTAGTACATCATTATTGTTGTTTAATGTTTTTAGTATATTAGACTCTCCTTTAATAAAGAATCCATCATTTTCATCTTCTTTTTCTTCAAAGTTTTCAAATATTTTATTATCTAGCATTTTTTTTAATTTTTCATAAAATTGACTTAATGTTATTTCTGAATTTTTCAATTCTTTTTTTAATTCTTGTTTTATATATTCTGTTTCTTCATCAGTTATCATTGAATCTAAATGTATTTTTTTTGTTTTAACACTACAATCATCTAATATAACTATTGTCATTATAGTATAATCTGTTATCTGCATTATCTCTATTTTTTTTACGAGTTCTTTTTCTATTTTAGGTTCTATTACTATCGCTGCATATGAACTCATTTTAGAAAGTAATTTTGAAGTTTTTTCAAAAATTGTATCTAGTTCTAACATTCTTTTCTCATAAGCAAGTTCTATTTTTTCTTTTTCTAATTTTGATAATTTTCTTATTTTTAATAGTTCCTGCAAATAAAATTTATATCCTAAATCAGTAGGAACTCTTCCAGAAGATGTATGAGTTTTTTTTATATACCCAAGTTCTTCAAGATCTGCCATTACATTTCTTATTGTAGCTGACGAAAAACCAAAATCATATTTTTTTACTAATGTACGCGACCCTATAGTATCTCCAAATGTAAGATAATATTCTATTATTGCCCCTAAAACTAATCGCTCTCTTTCATTTAAACTCATATCTCTCACCTCTTGTTAGCACTCGTTATGATAGAGTGCTAATCTTTGATAATAATATACATCTTTTTTATTTATTTGTCAATACTTTTTCAAAAAAAATTAGCACTCTTTTTTTCGAGTGCTAATTTATATCAAAATAATCTATCATATCTTTGATTTTATTAGATTTTTTATTTAACTCATCTGAGATATTTTGAATATTTTGAGTTATATTAAAATTATTTTTTGATATTTCTGATAACTCTTCTGTTTTTTCTTTTAACATTTCATTTGAAGTTGAGATTGACTTTATTCCTACTTCGATTTTATTAAAACTTTCTACTTGTTCATTTATTTTTTTTGTAATATTGTTTATTTTGGTACTTATATCTTCTATCTCATATTTTACATTTATAAATGTATTTTTAGTTTTATCTACAATATTAATATTATTTTCTGTTCTTTCTTTTTCAATTTCCATATCTTTTTCTATAATTTTCATATTTTTTTGTATATCAATTAAAAGTTCTTCTACTTCTTTTACAAAATCTCCTGTTTCTAATGATAATTTTTTTACTTCTTCTGCTACTACTCCAAATCCTTTTCCAGCATCTCCTGCTCTTGCTGCTTCTATTGCTGCATTAAGAGCTAATAAATTTGTTTTATTTGAAATATCAGTTATTTTACTCATAACTTCTATTATTTTATTTATTTCTTCAGATAAATTATTTATGGAATATGATGATTCATCTATTTTTTCTTTTACTTCTTGTGTTGAAATAGCTATGTTTTCCATATTAATATAACTATCACTTGCTAATTTTTCTATATCTATACTTTGATTTTTTATTGTTTTTATATTTTCTATAACAAAATCATTTATTTTGGCGTTTTTTTCTACTGTTATATTTAATTCTTCCGTGGCATCAGATACCTCAAAAAAACTTTCTGTTATATTTTCTATCGTTTCATTTATTAATTCTGTCTCTTTATTTAATTCTGTTGAATTATTCTTCAAATAAATTGATTTTTTTTCTAAATCAACTGTATCTATTTTTAACATCTCTATTATTTCATTTAATTTATCAATCATTTTATTTATTTCATTTCCCAAGTCCTCCATTTCATCTTTAGAAGTTATATTTACTTTTTCTAAAAGATTACCATTTGCAATTTTTTTTATTATATTAAATATTATTTCCAATTTTTTTATAATTATTCTATTTATAATTATTATTAATAGTATCGAAACAACTAAAGTAACTAATATGTAAAATATTAAAGTACTTAGTATTTCTTTTTTTAATTTATCATTAACATCTTTTATATTTATTTTATATTTTTTATAACCAATAATTTCATTTTTATAATTTTTTAAAGAATAATAAGCATAAAAATTATCATTTTCTTTTTTAAAATATTTATTTTCTTTTTGAATTTCATCAAAAATATCTTCTTTTTCTTTTACTTCAGATTCAAAGTTTGATATTGCAATTTTATTTTTATTGTTTTTTCTATAAATAATAGATACTTGATACTCTCCTTTTAAAATATCTTTATTTAATTTTTGAATAAATTTATTTACTCCACCAATATCAAATGTTGTTTGAACAATAACTATTCCTAAAAAATTTGCCATATAAATAACAGGAGTCGTTGTGTAAATTGTAAGACCTCTATCTCCTATTATAAGCCCACTATTACTCTTTTTATTTTTTATACTATTATTTATAATCTCATTATTTATTTGTGTTTTTCTTGGGGGGATATAGGAAAATAATAAATTTTTATTTTTATCAATAATAATAAAATTTCTAAGTCCTATATTATTTTTATAATGATAATAGCTACTTTGCGTAATTGCTTTTATTTCTTGTTTATCTCTATTATTCAAAGCTTTTCCAAAAGCTAAATTCTTATTAATACTTTCTAAAAATAATGAAGTATTTTCTATTTTTGAATTAATATAATTATCTAATGAAATATTTTTTAAATTAGCCAAAGTTATTAGAGTTAATCTATTAGATTTTTCTAATCTTTTAATATCATTAATACAGAGGTAAGTAAACATTATTACCATACTTAATAAAATTAAAGTTACTGTTTTAAATTTGACACTTATTTTCCTAATCTTAAATTTTTTTATTTTTTTCTTTGTTTTTTCTAGATTTTTATTCAAAATATATTCTCCTTTCAAAAATACGATTTCTGAAATATTATACAGCATCTGTACTAATTTTGATAATAAATTATATAAATACATTGTATATATTTTTTAAATAATCTCTCTAATTTAATATATTTGACGTTTTTAATAAGTTGCATCGAAAATAATAATATATAATTCAATATTGCTGTTTACAACATTCTTTATCTATGCTATAATACGACAATAATAAAAATTAGAGATAGAGGCTGCAAAATTTATTAGTAGTTATATGGAGACTAGCAATCTATGAAATATAACAAAAGGAAATTTTGCCGAAATGCAAGATATGCTAAAATCTTGACATTGGGGTTATAGAGAATATCTATAGCACTGTCACAATTATTTGTGATGAGCTATCCGGGTAAAATATTAATTTTTATATTAATGCCGGATATATTTTATATCCGGTTTTTTATTTTATTTATTAGGAGGCTTATATGATGTTTAAAAAAAGAGTTAACTTAATTACTCTAATGTTTTTAGTGATTTCTGTATTTTCATTTGCTGGTGGCAATGAAAATGCTACAAAATTTGGATTATTAACGCTACTTCCACCAATTGTTGCTATTGTATTAGCATTTATGACAAAAAATGTTGTTTTATCATTATTTATTGGTATTTACTCTGGTACATTTTTATTAAATATTCAAGGTAAAGGATTCTTCTTTTCTTTTATTCATGGGTTTCTAGATATAATCAAAAATGTATTAAGTTCATTATCTGATTCTTGGAATGCTGGAATAGTATTACAAGTATTAACTATTGGTGGACTTGTAGCTCTTGTTTCTAAAATGGGAGGAGCTAAAGCCATCGCTGAATCCTTAGCTAGAAAAGCTAAATCCCCAGTATCTGCACAAATTATTACTTGGTTACTTGGAATATTTATTTTCTTTGATGACTATGCTAACGCTTTAATTGTTGGCCCAATCATGCGACCTATTACTGATAAAATGAAAATTTCTAGAGAAAAATTAGCCTTTGTTATAGATGCAACTGCTGCTCCTATAGCTGGAATAGCTATTATCTCTACATGGATTGGATATGAAATTTCATTGATAAAAGATGGATTTTCACTTATTGGAATTGAAAATATAAATGCTTATGCTTATTTTGTTCAAACTATCCCTTATAGATTTTATAATATCTTAATGCTTGCATTTATACCTATGTCCGCTATTATGATGAGAGAATTCGGACCTATGTTAAAAGCTGAAAATAGAGCTAGAACAACTGGAAAGGTATTAGCACATAATGCAAAACCTATGATATCTGCTGAATCTACGGCACTTGAACCTGATGAAAGCGTAAAGTTAAATATATGGAATGCTATCATACCTATTGGTACTCTTATTATTTCTGCATTTATTGGATTTTATTTTAATGGGTTATCTACTCTTGAAGGAGATCTATTAAGTCAAGTTCAATCAAATCCACTTTCGATGTTTGCAATAAGAGAAACTTTTGGAGCTTCTGATGCATCTATAGTTTTATTCGAAGCTGCTTTATTTGCATCTATTGTAGCTATAATAATGGGTATTTCACAAAAAATATTTAATATAAATGATGCTATTGATACATGGGTTCATGGAATGAAATCACTTGTAATAACTGGGGTAATCTTATTACTTGCGTGGTCATTAAGTTCTGTTATAAAAGAACTTGGAACAAGTGTTTATCTAGTAAATTTAGCATCTAATAGTATTCCTAAATTTTTACTTCCAGCTATTATATTTATACTTGGTTCTGGTATAGCTTTTGCTACTGGTACTTCTTATGGAACAATGGGTATCCTTATGCCTCTTGCTATACCTTTAGCAAATGCTATTGGACAGAATGCTGGTTTAACTGGAGAAGCTGTTATTAGCTATATAATAGTTACTATTGGAGCTGTTCTTACTGGTGCTGTTTTTGGCGATCATTGTTCACCAATTTCAGACACTACTATACTTTCATCTATGGGTTCAGCTTGTGATCATATTGACCATACTAAAACTCAATTAATATACGCATTATCTGTAGGCGCTTTAGCTGTTGTATTTGGTTACATTCCTGCTGGAATGGGATTACCAATATATCTTGTACTTCCTATAGCTATACTATCAGTATATTTATTATTACTAATCTTTGGAAAAAAAATAGATATAGAAAACATATAAAAAATAGCTCTAGTAGAAAATGCACCCCATTTAATAAGCAGAAAAAACTGTCTAATACTAAATGGTGGTGCATTTTTTATACATTAAAAAAAACTTCAGACAATGCTCCGATTAAAAACTTCTACAGCTTACTAAAGTAAGAAACTCTTTATAATTGTAATATCACATTTTTAAAAAAGTATATAGATTTACTTGTAAAGTGATTGAATTTTTATAATAATAAAATTAGATTAATAACATTAAAAAAACACAGCTTTTTTATGCTGTGTTCACTTTTTTGTGCGCATTAATAATAATACCTCTTTTTTTATTTAAAACTCTAAAAATTCTTTTTCATATTCTATTACTTCATCAATTATTTCTTTAACACGCTTTGTCTTTAAAGGTTTTAAAATATAATGTCTTGCACCTTTATCTATTGCTTGAAGTACTAAATTTTTCTCACTTATAGCACTTACCATAATTACTTTAGCATTTTCATCATATTCTATTATTTTTTCAAGTGCTTCTAATCCATCAACTTCTGGCATTGTAATATCTAAAGTTACAAAATCCGGTTTTAACTTCCTATATTTCTCTGCTGCTTCTTTCCCGTTTACTGCTTCACCTACTACTTTGTGCCCAATTTCTTCTAAAATAACCTTAAGTCTATCCCTCATTCCATCAAAGTCATCAACTATTAAAAAAGTATACATCAATTCCCCACCACCTTTAATTAATTTTATCTTTTTTATATTTTCGATAAATATTCCTTTTTTCCTACAAAAAAAATGGAAAAAAATAAAATTTATAGAAAATTTTAAGTATTTATTATATAATATATTATATAACAAAATAAAGGAGAGTGCTAGAAAAAATGGAAAAAAAAATTATTTTAAATGGGATTTTTTATATTATTCTTACATCAATTTTTATTTATTTATGGATAAAAGAAAAACAAATTGCTGCTACTATCAAATCATATAGAGATTCTTTTTCAAATTTTTTAATAAATTCTTTTAATATAAGAAACTCAAAATACCAAACAAGTCTAAGAAAAACTGTTGATTTTATTGAAACTATTACCAGTGCTATTATTTTAGTACTTATTATTCAAAGATTTTATTTAGGAAATTTTTTAGTGCCTACTGGTTCTATGATTCCTACTATTATACCAAAAGATAGACTTTTTGGAAATATGGTAATTTATAAATTTACTAAACCAAAAAGAGAAGATATTATTGTCTTTAAGGAACCTATTGATAATAAAGTACTCTATACTAAAAGACTTATGGGACTTCCTGGTGAAACTGTTCAAATTAAAGATGATTATCTATTTATAAATAATAAAAAAATTTCAACAAGAAATTATTCTAATTTAGCTGATTTACAACCTAATGTTGAATGGATAATACCTAAAAAAGGTGATACTTTAGAAATTTATGCTGATTTTAATATAAAAAATGTATTAATTGAAAAAAATATAGATATAGAAAAATTTCAACAAGTTATTTACGACCATCCTGGTAGAATAACTACATTTTTTAAAGGTATTCATTTTAAAATAAATGGTAAAGAGACCGGTCCAGTACCTGATTATATTCATGATAAAAATACTATTTCAAAATTAATAAATGGTAAAACTCTAAAATTCACAATAAACGAAGATTATTATCTAGCACTTGGCGACAATACAAATAATAGTATGGATTCAAGGGTTTGGGGATTTTTGGCAGAACATAGAATTAAAGGAAAACCATTCCTAAGATTTTGGCCATTAAATAGAATAGGATTATTAAAATAATATGAATATAAAAATTAATAAACTTAAATCTAATGATATCACTCAACTTTTAGATATTGAAACAGTTTCATTTATTACACCATGGGATAAAAAACTCTATAATTCTATGTTAAAAAATAATAGATACCATTTATATGGCGCATTTTTAGATATTAATTTAATCGGGTATATTGTGCTTTACGATAGTATAGATATAATAGAAGTAATTAAAATAGCTACATCAAAAAATTATAGAAAAACTGGTGTTGCTTCACATTTATTACAGTTTTCTATTGATAAATATAATTTAGATTTTATGCTAGAAGTTAGAACTAGCAATATAAATGCTATAAATTTATATAAAAAATTTAATTTTAAAGATATTTCTATAAGAAAAAATTATTATAAAGATACAAACGAAGACGCTGTTATCATGAAAAGAGAGGCAAAATGAAAGAAAAACTTATAGATACTTATAATTTTGAAAATAAAGAATTTTTAATTAGTTTTCTAAATAATAATCTACATTTAAGTTATTCTTATTTAAAAGAAATTTTAGAATTTTTTTATGAACTAACTACTATAAAACAAATTAATTTAATTGACTTTTTAGAAAACATTTCATTTAGTTCAAAAAATAAAAAAGAAAATACAAAATATTTTATTGAATATATTAGAGAATATAGAAATCCAACTATATATAATTCTTTAAAAACATTAAAAAAAACTTTAAATAATATTGAAAAAAGACAGATAAAAACTATTTATCCTCAATATCTAGAGGGCGATTATCTAAAACTTGAAATAACTTTTACTAATGAAAAAGATATTGAAAAAACAATAAAAATTTTATCTGAAAATATTAATAATTTAAAATCTGCTTTAAATATAATAAAAAAGGGTGGTTAATTCTATGAAAAAATGGAGCTATTTATACTTATTACTCCTCCTATTATTTATAATGAGTTTAGGAATTGTTATTGATTTATCTGCTTATAGATATGATCTTACTGTTATCTTTTTATTACTTTATTTTTTAATATCTATAAATATATCTATAATTTCATATAAAATAGCTACCTTACTCAAACGCTTTTACTTTTTTTATTTTGTTTTTTCATTTGCAGTTACATCATTAATTTCTTTTTTATTTTTAAAAAAAATAATTGCTTATAATATACTAGATATATATTTCTTTTATACATTAAATTTCATTGAAATAGTTATTTATTTTTTTGGTATATATTTACTCAAAAATAATAAAAAATTTGATAAAAATCTAATTTTAAAATCGTTTTTATTAGTCTCAAACTCATATTTTTTATATTCCGGAATAAAATATAATTATATTAACTTTGTAATATTTGGTATATATATTCAATTGTATTTTGTCTATAAATTAACAAATATTTTTGATGAAATGACTTTTTTCAAACCATCAATTATATTTAAAATTTTTTCAACCTTTTTATTAATAATTTATGGATTTTATCCAATCATTCCTATATATTTAATTTCAAAATTTTTATATTTACTGTCATTATTAATAATTTGGAATAATTTTTTAAATATTTTTAATAAAAATAATATTAAAATTTTTAAAAATAAAGAACTCTTAATCAGAAAGCTTTTTAATATAAATAATAATCCTGTATTTCTTATAAAAGATAATAAAATAAAAAAAGCAAACAAATCTGCACTTCAATTATTTAAAATAAATAACCGAAGTGATTTAACTAAATATGAATTATCAGAACTAATTACTATAATTGACGATAGTAGTGCTATTGTTCATTTAAATGATAATACCACTAAAAAAGTAGATATCTTTCAAATTGATATAAATGAAAGTGAATTTTTATTGAAATTAGAAGAACAAGAAACAGAAAAACTAATTAAACACGAAATAAGTCATATCGTTGGTGATATATTTTATATATATGAAGAAGGTTATGGATATAGATTTGTTTCTGAAAATGTTTACAACCTTTTAGGATATACTCCTAAAAATTTTTATGAAGATGAGTTTTTTTCCAATAAAGTCTCTATAGATAAAAAGTTTTTAAATTTACTAGAAGATAAACCAAATAAAGCTACTTTTATATCTGCATATAAAACTAAAAATGGTGATATAATTTATTTAAAAGAAAACATCAAGAAAATAACATTAAATAATAATACTTTTTATTATGGAACTGGTTGTGATATTACTGAATTACAAATTGAAATAGAAAATCTACGTAAAGAAATAGGACATTTGAATAGTTTAAACTCAAAAAAAGATATGTCTATGTCTATAGTATCTCATGAAATACGTACACCTATTACTGCAATAATTGGGTTCTTAGAAAATATTATTATCAACAATAAAAATATTGATAAACATATAACTAATATGATTAATAAAGTTTATAGCAACTCAATGCGTTTAAAAGAGTTAGTTAATAACTTACTTGATTTAAACAAATTAAATGCTGGAAAGTTAGAAGTAACCAAAGAAAAAAATAATCTAAAAGAATTAATAAATGAAATTATATTAAATAACGAAACACTGCTTGAAATAAAACGTATTAATTGTGAAAATAACGTTATTGATGATATATATGTATATGCTGATTCATCTATGCTTTATCAAATTATTAATAATATTATTAGTAATTCTATTAAATACAATCATGAAAATGGTAATATTATTATAGATGTTAATGAAATAGGTAATGATATCATTATAAAAATAAAAGACAGTGGTATTGGTATACCTATAGATAATAAGGAAATGGTATTTAAAGAATATGAAAGAGTCAAAGGGACTAAACAAAAAGGTACAGGTCTTGGTCTTCCTTTAGTAAAAAAATTAGTAGAATTAAATGATGGAAAAATATGGTTTGAATCAGAACTTGATAAAGGTACAGTTTTTTATATTCTTTTTAAAAAATATGATAATATATAGTTTTTAACACTTTTATATAAATTAATTTAAATTAGGAGGGACTATGAACAACAATATTTATTCTAATCCATTAGCTGAAAGGTATAGCTCTGAAGAAATGTTATACAATTTCTCACCAAACAAAAAATTTTCATCTTGGCGAAAACTTTGGATAGCACTTGCTGAATGTGAAAAAGAACTTGGATTAGATATAAGTGATGAACAAATTGAAGAAATGAAAAAATATGTAGATGATATCAATTATGAAGTAGCTCGGGCTAGAGAAAAAGAGGTTAGACATGATGTTATGGCTCATGTTTTTGCTTTTGGGGAACAAGCAAAAAGTGCAAAACCTATAATTCATCTAGGTGCTACAAGTGCATTTGTTGGTGATAATACTGATCTTATTCAAATAAGAGATGGGCTTGAAATTATTAAAAAGAAACTTATTAATGTAATTAATTCTTTAAAAACATTTGCACTTGAATATAAAGATATGCCTACACTAGGATTTACTCATTTTCAACCAGCTCAACTTACAACAGTAGGAAAAAGAGCAACTTCATGGCTTCAAAGTTTATTATTAGATTTCGAAGAATTAGAATTTAGACAAAAAACTTTAAGATTTAGAGGTGTAAAAGGTACTACTGGTACTCAAGCTAGTTATGCAGAGCTTTTCAATCATGATTTTAATAAAGTTAAAAAGCTTGATGAAATGGTATCAGAAAAACTTGGTTTCGATAAAAGATTTTTAGTAACTGGTCAGACTTATGATAGAAAAATTGATAGTGAAATACTAGCTCTTCTTTCTAATATTGCACAATCAGCACATAAATTTACGAATGACCTTAGATTATTACAAAATTTAAAAGAAATAGAAGAACCATTTGAAAAAAATCAAATAGGTTCATCAGCAATGGCATATAAAAGAAACCCAATGAGAAGTGAAAGAATCTCTGCTTTATCTAAATTTGTAATATCTCTTACAACAAGTCCTGCTATGGTGGCAGCTACTCAATGGTTTGAGAGAACTCTTGATGATTCTGCTAATAAAAGACTTGCTATACCTCAAGCATTTTTAGCAATAGATGCTATATTAATAATATGGCAAAATGTATTAAATGGACTTGTAGTATATCCTAAAATCATCGAAAAAAGAATACAAGAAGAACTTCCATTTATGGCAACAGAATATATTATAATGGAAGGTGTAAAAAATGGTGGAGATAGACAAGAGTTACATGAAAGAATAAGAGTTCATTCTATGGAAGCCGGAAAACAAGTTAAAATTTATGGTGCTAAAAATGATTTAATAGAAAGAATTTTAGAAGATGAATATTTTAATATCGATAAAGAAAGACTTGTGGAAATTCTTGACCCTAAAAATTTTATTGGATTTTCTAGTGAGCAAGTAATTGATTTTATTGAAACTGAAATAAATCCAATTATTGAAAAATATAAAGATTATTTAGGAATAGACGCTGAATTAAAAGTATAATTTCAAAGCCACAATTTTCTGTGGCTTTTTAAACTTTAATCAATACGCGTACTTTTCATTTTCTTTTTTATCATTAAAAAAATTCGAGAAATGAAAGGGACAACATTATGTTAGATAAAGAAAAAAAAAATACTGCACATATGATAACTTTAGTATTATTAGCATTATATTTGACATTAATAGAATCAATTATACCAAAGCCATTTCCTTGGATGAAAATAGGACTTGCTAATCTTGCAACACTTATTGCATTTGATAAATTTGGTATAAAAATGGGTATAGAAGTATTCTATTTAAGAGTATTTACAGCTAGTTTTATACTTGGAACTTTTTTATCACCTGGGTTTATTATTAGTATTACTTCTGGTACATTTAGTTTAATTTCTATGGTAATATTATTTAAATATAAAAAATATTTTTCAATTATTGCTATTAGTTCAATTGCTGGTATTATTCATAATATAGGACAACTTATAAGCAGTTATTTTATATATTTTAGAGATATTGAGATTTTATATAAATATGTTTTATATTTTATTATTATTTTTTTATTTATGGGATTTATTTCTGGGATTATTACTGGATTTATAGCATATAAAGTATTATACAAAAAAAACAGGAGGTTTTTACATTGAAAAGAAAATATTTTGGAACTGATGGTATTAGAGGTGAAGCAAATAAGGAACTTACAGTTGACATAGCTTTAAGACTCGGGTATGCTCTCGGGTATCATTTAAAAAATAAAAATCCAAATAAAAAGAAAATAAAATTAGTAATGGGAACTGATACAAGAGTTTCAGGTTATATGTTACGTTCTGCATTATTTGCAGGTCTTACAGCTATGGGCATAAATACCGAATTTATAGGAGTTTTACCTACTCCAGGTGTAGCTTATCTTATAAAGAAAAAAGAAGCTGATGGTGGTATTATGATTTCTGCTTCTCATAACCCTGCAAAAGATAATGGAATAAAAATATTTGGTCCAACTGGTTTTAAATTACCAGATGAAGAAGAATTAGAAATAGAAGCATTAATGGATAATATTGAAGAAGTAACTAAACATATAGTTGCTGGTGATAAAGTAGGAAAATTTAAATATTCTGAAGATGATTTCTATTTATATAGAGATTTTTTAGTTAGTACTGTAAAGGATGATTTCTCAGGTCTTAAAATAATTTTAGATGTTGCTAATGGTGCTGCCTATAGAATAGCTCAATCTGTATTTTCTAGATTAAATGCTGAATTAGTAGTAATAAATAATATCCCAAATGGAACTAATATAAATGTAAAATGCGGTTCTACTGATCCGTCAATTTTGCAAAAAGTGGTACTTGGATACCAAGCTGACATAGGATTAGCTTATGATGGAGATGCTGATAGACTTATTGCTGTAGATGAAAAAGGACAAGTTATTGATGGTGATAAAATAATAGCTATTTTAGCTAAAGAGATGAAGCGAAAAGGGGAATTAAATAATAATAAAGTAGTCACTACTGTGATGAGTAATATGGGATTTGAAAAATATCTTGAAGAAAATGGTATTTCTTTAATTAGAGCAAATGTAGGTGATAGATATGTGCTCGAAAAAATGAAAGCTCAAGGACTAAACTTAGGTGGTGAACAATCCGGACATATTATTATGCTTGATTATAACACTACTGGTGATGGTGTTCTTACATCTTTACAACTTGTACAAGCTATAAAAAATTCTGGTAAAAATTTATCTGAATTAGTAGATAGTATAACTGATTGGCCTCAAGAACTAATAAATGTAACTGTTGAAAAAAGTAAAAAATTAAGTTGGGATAAAAATTCTATAATTACAGAATTTATAAAAGAAAAAGAACGATTACTTAATAGTAATGGGAGAATTCTTGTAAGAGCTTCTGGTACTGAACCAAAAATTAGAGTTATGGTAGAAGGAAAAGATGCTGAATTAGTTAAAACAATAGCTAATGAAATTGTTGCTTTATTAAAAAAAGAACTTTCATAATAAAAACTCAGTGAACATCACTGAGTTTTTATATTTTACATATATTTTTATCCCTGTCTATATTTTTTGCTTTATATAGTTTTTTATGCTAATATCATTAATTCATCAACTTTTAATTTTTCTGATAAATTAATTCTTATACTAGTTATAATAGATAATACTTTATTATTTAATTTAATAATTATTATATTTTTTTTACCACTGAAGATTTCAATTTCATAGCACCCATTCCATCTATTTTACAACTAATATCATGGCCATCTGCTGCATCAACAATAAGTCTAATGTTTTTTGCTTTTGTTCCTATTTTTATTACTGACGAACTTCCATTAACTTTTAAGTCTTTTATTACAGCTACTGTATCTCCGTCTTTAAGTATATTTCCATTTGAATCTTTTATTGTATTTTCCTCTTCTACTTTTTCTTCTTCTGGTATCCATTCATATGAACACATTGGACATACTAACATCATTCCATCTTCATATGTATATTCAGAATTACATTTTGGACAATTTGGTAAATTATTTTCCATATCTATACTCCTTTAAAAAATTATTTGATTTTTTAAAATAAAAACAATATATTATATCATGATAATAGTAAAATTTAAAGTCTTATTTTTTTACTAACTTATAAACTTTATCCTAATTTTAAAACTATTTTTTTTTATATTTTAAAAAGATTTTACAAATTTTATTATTCTTATTAATAAATCTTTATAGAAAAAAATAATGAGAATTAATTATATAGCTCTTATCTATAATAATATTATTTACAATGCATTTTTTCATCAGCTTCATACCAAGGAACTATATATCCTTTTCCTTTGCTACAAAATACTGATGATGATGTATACTCAAGATCACTATCTTTATTATAAGAAATTTTTTTTATTATTTCTTTTTGATTTATACATTTATCATAACCATAAAATCTTAAATCTATACTTGCTTTTCCTCCTGTTATATTTATAAGTTCTTTTGAATAGCCCATAAAACTTGATACCGGTGCTTTTCCATTAATTATAACTTTCTTATTTGATATTTCAGGTACTTCAAAACTTCCATTTAATTTTTGTATATCAGTAATTATTTTCCCTATAAAATCAATGTCTGTTTTTATTTTAAATTCATAAAATGGCTCCAATAAAATATTATCTGCTTTTTCAAGTCCTTGTCTCAAAGCTCTATAAGTAGCTTCTCTAAAATCTCCACCTTCTGTATGTTTTTCATGACTTCTGCCTTTAATTAAAGTTATTTTAATATCAGTAATAGGACTTGCTGTAAGTATTCCTCTATGTTCTCTTTCAAATATATGTTGTTTTACTAAATTTTGATATCCTATTGGAAAATTATCACTAATACATAAATTTTTAAATTGTATTCCGCTTCCTCTGGGCAAGGGTTCTAATCTGAGATGTACTTCTGCATAATGACGAAGAGGTTCAAAATGTCCTTTTCCTACTACAGTATTATTTATAGTTTCTTTATACAAAATTCCTGGTTTTTCAAAACTTATATCAATATTAAATCTATCTTTTATAATATCTTTTAATACTTCTAATTGTATTATTCCCATTACACTTAAATTTAACTCTTTTAAATTTTCATTCCAATTAATCTCTAAAGTAGTATCTTCTTCTGCTAATATTTTAAATATTTTTATTATTTCATAACTATCATTATTATTAAATATAACTTTTGATTTTAAAGTTGGTTTTATATTATATTCTTTTTTATGCTCTATTCCTATACCCATTCCTATAAAACTATTAGCAATCCCCACTATTCCTACTATTTCTCCAGCTTTTGCTTCTTTAGCATTCGTATAATTTTTTCCATTATATATTCTTATTTCATCTATTTTTTCAATAATTTTTTTATTGAAATTATTTTTATCAAAAATTTCTATTTCCTGTTTTAACTTTATTTTTCCTGAATAAATCTTAATAAAACTTACTCTATTTCCATTTTTATCATACCTTATTTTAAATACTCTTGCTTTTAAATCTTCATTTTCAATATATTTTGTTGTAGTTAAAATATCTATACTCTCTAAAAATTCTTTTATTCCTTTATTTAATAAAGCTGATCCCATAAAAACTGGAAATAATAACATATCTTTCATTAAAATTTGTATGTGTTTTATCCATAAATTTTTATTATAACCATTTTCTAAATAATAATCTAATAATTCATAATCTATATCTGCAATATTTTCTGCTGTTTCTAAATCTAATTCTTTATTTATACTCTTTTTTATTAATACAATATCTTTTGTTAAATTTTCTTTTATTTCATTTAAAATATTTGATATATTTATTCCATTTCTGTCAATTTTATTAATAAAAAAAAATATTGGTATATTATGCTCATAAAGTAATTTCCATACTGTTTCTGTATGTCCTTGTATTCCTTCTAAAGCACTTATTACTATAATTGCATAATCTAAAATTTCAATATTTCTCTCCATTTCCTGTGAAAAATCTATATGTCCCGGAGTATCAATCAAAAAATATTTATTATTATTATACTCGAAATATGCTTGTTCTGAAAAAATAGTAATTCCTCTTTCTTTTTCTATTTTATGAGTATCTAAATAAGTGTTTTTACTTTCTATTCTTCCTCTACTTTTTATTATATTTGTGTGATAAAGTATTGTCTCTGCTAAAGTAGTTTTACCCGCATCTACATGAGCAAATATCCCTATTACTTTATTCAATTTATTTCCTCCTAATTTTATTATAACTTATTATAAAATTTAAAGCTTAATTTATATTATTATAATTTTATTTTTATTATATCATATAAATATATTCTTCTCTATGATATAATATTTGAGATCATTATGAAAATAGTTATTCTTATAGTAGTAAAAAAATATAAAAATTATTGAGTAAATAATTAAACTTATTCTGAGGTGATAAAAAATGTTTATAATATTCTCTCCTAGTAAAGGAATGAATTTTAATAATAAAACTATATATGATGAAAAAAACAAATATATTTTTCAAAAAAAATACGAAGAAATATATAACAAGCTAAAAGAATATAAAAAAGTAGATATTGCAAATATTATGAAAATTAAAAATCAAATACTTGAAAATGTATACAATAGTCTTCATAAAAATACTACAAATAATTATTTCCCCGCAATACTTGCATATAATGGAATAGCCTATAAAAATCTTGATATAAAGTCATATGATGATACTATGATCTATTATCTAAATCAGCATTTACTTATATTATCAGCCCTATATGGAATAAATAAACCTTATGATTTAATATCATATTACAGGCTAGACATGACTATGAAAATATTTGAAAATATGAGCCTTTATAAATTTTGGAAAGATGATATAAATAAATATATCGAAATAAATTCTACTGATGATATTATCATTAATCTTGCTTCAAAAGAGTTTTCAAAACTAATTAATAGAAAAAAATATAAGGTTATTGATATTGAATTTAAAGAATTATCAAATGGTAAATTAAAATCAATAGCTACAAATTCTAAAAAAATGCGTGGTACTATGCTAGATTTCATGATAAAAAATAAAATAAAGAATCATGTTTTATTGAAAGAATTTAATATAAATGGATACAGTTTTTCTTATGAAAATTCAAAAGAAAATGTTTATATTTTTATTAAAAATTAAAATTTATAATTATTTTTTATAATAAAAAAGAGATTGATTAGTAATCAATCTCTTTTATCTATATAGTAAACTATTTATTATTTTTGGTGGAAGTGACGGGAATCGAACCCGTGTCCAAGAATAGAGACGCTATAAGCTTCTACAAGCTTAGTCTACATTTAAATTTAATATGTTAACTTCCTGTAGACAAGGATATTAACATACGAGCTTATAAAATTGTCCTAAATATAACTAAGCGAATTATATTTAGTAAGCCGAAATCATTTGATACTCTATAATCTCGTATCGGCATAGAGAAAATAGAGCAAGCTGCGTAAATTAGGCAGCTAAAGCGTAATTTTCGTTTCCATGTAAAAACATGTGTTGATTTTTCACAGGAATCACCCTGACTTGCTACTTATAGTTCCCGTATTCCTGTCGAAACCTTGACACTCCCATAGGTATTATTATATCTAAGGATATAATATATAATTTTATTTTAATATCTATTTATAGATTTCATTGCTTTATCCATTTCTCTTTTTTGAGTTCTTTTAGCTTCTGTTTCACGTTTATCATAATTTTTCTTACCACGTGCTAAAGCTATTTCTATTTTTACTAAGCCTTTTTTTATATATACTGTAAGTGGCACTATTGTATAACCTTTTTGAGATACTTTTTCATATAATTTTCTTATCTCTTTTCTATGTAAAAGAAGTTTTCTTACTCTTAATTGATCTGGAGTATATATACTACTTTGTTCATATGGAGTAACATTCATTCCCATTATAAATACTTCATCTTTTATTATACGTATAAATGCTTCTTTTATACTTGCCTTACCTAATTTTATAGATTTTACTTCACTACCTTTTAATTCAATTCCAGCTTCATATTTTTCTTCTATAAAATAGTCATAATAAGCTTTTTTATTCTTTGCTACGACCATAGATACCACTCCCTTATACTCATTTAATTATTATATCTATTATTTCAAAAAAAATCAAGTTTTTTTTAATATAATTGATATATTAATTTTTTAATGTATAATGTTAATAAAGTTTAAATAATGTTAAAGGTTTTTTCTAAAATTTATAGTATAATATATTAGAAATAGACTTAATATATTTTTGTCAGCTACATAGGTGGGGAGGATCAATGGAATTAAAACAATATGAAGAAAAAATAATATTAGAATATTTTAATAATGATGATAATCATCAATATATACATGCTATTGAAGTTATGAATATGGCACTTGACATTAATAAATTAATTAATTTAGGTCTTAATAAATCTAATATTATTATTGCATCTATAACTCATGATGCTTTTAAATATAAAGGAAATAAAGAACATCCAAATTATGCATATAAATTTATTTTGGATAATGCAGCGCTTATAAAAAAAGAATACAAAATAAAAGACACAGACATCAATATGATTGCAATGGCTTGCTTACAACATCATTCTTATTATATTCAAAACTTTAATTCTCCTTTAGCTGAACTCATTAATTTAGCTAATAGAATTGTTAATAAACATTTTGATTCTGTATTAATGAAGCTTTATAACATTGCTTCTAAAGAAAAATGTTTAATCTTTTATGAAGCAATATTTGATGTATATAGAGAAGCTGATTTTTTATTTTTTCAATCTCAAGATTTATATCCAGAAATATTTAAAGCATACAATTCAACTCCTAAGAAATTTATCATTGAATTTTTAATAAATTATTTCAAAACCAATCTTCTTTGATTTTTTATTGTAGAAATAAAGAAACTATGATATAATTTCTTCTTGCAAGGGATAGCTATCAATTAAGATAGATGTGCCTTACCATAAATTGAAAGGAGAATATATCTATGAAAGCATTAGCTTTATTTTCAGGTGGATTAGATAGTTCACTTGCTATAAAACTTATTAGCGAACAAGGTATTGAAGTAATTGCATTAAATTTTGTTTCTCATTTTTTTGGTGGAAAAAATGAGAGAGCCGAAAGGATGGCAAAACAACTTGGAGTTAAACTAGAATATATTGATTTTAAAGCTTTACATACTGATATTGTTAGAGAGGCTCCACATGGAAGAGGAAAAAATATGAATCCATGTATCGACTGTCATTCTTTAATGTTCAAATATGCTGCTGAAGTATTACTTGAAAAATTTGATGCTAGTTTTATTATAAGTGGTGAAGTTCTTGGGCAAAGACCTATGTCTCAAAATAAAAGCGCTTTAAATCAAGTAAAAAAATTATCTGGTTATAAAGATCTTATCGTTAGACCTCTTTGTGCAAAACTTCTTGAACCAAGTTTACCTGAAAGAGAAGGTTGGATTGATAGAGAAAAACTTCTTGACATTAACGGGAGAAGTAGACAAATTCAAATGGAATTAGCTGAAAAATTTGGTATTACAGAATATCCTAGCCCTGGTGGTGGATGTATGCTTACTGAGCCAAATTATTCTAAAAGATTAAAAATATTAGAAAATGATGGATGTTTATATGAAGAATATTCTTATCTATTTTATTTACTTAGATATGGTCGGTTCTTTAGGCTTGACGAAAAAAAATATTTGTTTGTAGGTAGAGAAAATGATGATAATTTAAAAATATCTGAATATAAAGATAAAGGTTCTCTTCATATTGTTAGTGCTGGTATTCCTGGTCCTGCAATTCTTGGAATTGGAAATTTTACAATAGAAGAAATTGAATTTGCAAAACAAATATTCTCTAGATATTCTAAAAATAAAGGAAAAGAAAAAATAAATGTATTAGTAAATGATAATGTTGAAACTGTTTCTGCTCTTAACTTAAAAGAAATAGAAAATAAAATAAAAAAATATATAATACTTGGAAATTAATTAAAGGTAGACTATATTAGTCTACCTCTTTTATTGACTTTGTATATAATTTTCATAAAATTTTAATGCTTTTGGAGTAACAACTCTTATTTTTTTCACTTTCTCATTTGGCTTGTATGTTTCCGTATTGCAATTTCCATTTTTTTGACAATTATCACAAGTTGTATCAAAATAATGATTATTCAATTCTAAAAAACCTTCTTTTTCTAATTCATCTAATAAATATTCTAATCTATCTTCAGATATTTTTAATTCTGCCATTAAACCATCCATAGTAAACACTTCTTGACTTAATATTAATTTTAATAATGTATATTTCACTATATCACTCCTTTCTCAAAAATATAGAAATAATGTCTTATTAAAGTATAACATATTTTTTGATTAATATAAATAATAAATATAAAGTATTGATTTTATATATTAATACTTTGTTTTATTTATTTTTTTTTGATTAATAAAATAGATTCTAAGTAATTTAGACTTTTTCTTTATAAAATTAGTAAAAATACTTTTTAAAATATTGATTTTATGATAAAATACCTTGAATTCTATTATTTATATGGAGGATAAAAAATGAAAAATAATTTTTCTTCATTGAAAAAAACATGTTCTATTGTAGATTTTACAGACAATAAAGAAATAAAATCTTTAGAAGAAATTGAACAAAGTATAAAGACCACATATCGTAAAAAAATATGGTCAAAATTTATAAAAGCTGTTAAAGAATTTAATTTAGTTGAAGACGGTGATAAAATAGCTATTGGAATTTCTGGTGGTAAAGATAGTCTTTTGTTAGCTAAACTTTTTCAAGAACTAAAAAAAGATAAAAGTAAAAATTTTGAAGTAAAGTTTATAACAATGAATCCTGGGTTTGAAGCTATGGATTTAGAACAACTTAGAAAAAATCTAAACTATTTAAATATTCCTTGCGAGATATTTGAAGCAAATGTATGGGAAGCTGCTTTTAATAAAGATCCTGATAATCCTTGTTTTCTTTGTGCTAAAATGAGACGAGGAGTATTATATAAAAAAGTAGAAGAACTAGGATGTAATAAAATGGCATTAGGACATCATTTTGATGATGTTATAGAAACTACTCTTATAAATATGTTTTATGCTGGTACTGTTAAAACTATGCTTCCAAAAGTAAAATCTACTAGTGATAAACTAACTTTAATAAGACCTTTATTTTATGTAAAAGAGCAAGATATTATAAATTATACAAAATTTAATAGTATAAATCCAATGAGTTGCGGATGTCCTATTGAAGCTGAAAAAACACCTTCTAAAAGAAAAAAAATTAAATTATTACTTAAAGATCTAGCTGAAAAAGATCCAGATATTAAACAAAGAATATTTAATTCCACTAGAAATATTAACCTTGATTATATTCTTGGATATGAAAAAAAAGGTAAAAAATATCTTAACATATAGGTGAATTTAATGAATATTATATATATTAATGATTTCTATGAACTAAATGATAAAACAGTTAATGAATATAATTTTAAAATAGATAATAATACGCTTATAATCAAAAATAAAAATTTATTTAAGTTAACATTTGATTTAACAAAAAATTCTAGAATAAAAATATTACAAAATATAAGAAAAACTTGCAATATAAATATTTGGTTTAATAAATTAACTTCACGAGAAGCTTTAGAATACATAGAAAGTAATGGCTTTAATAAAACATTGCTTAATATGTCTGGAAAAGCTATGCATAAATATAATATGATAGAAGATGGTGACAGAATAGCTATTGGAGTATCCGGTGGTAAAGATAGCCTTACATTAATAAATATTTTATATAGAGTAAAACAGATATCTAATATTAATTTTGATATAATCCCTATTCATATTCACCCAAATACTGATACTTCAAATACCCTACATATAAAAAAATATATCGAAAGCTTAAGATTAAAATTAAAAATAATCGAAACTGATTTAGAAAAATTTTTATTTGAAGAGGGTAATATAAAAAATCCTTGCTTTCTATGCGGAAGAATACGAAGAGGTATTCTATATACATACTTAAAAGAAAATAATATAAATAAATTAGCTCTTGGTCATCATAAAGATGATATTATCGAAACATATCTTATGAATATTTTTTATCAAGGAAATACTCATTCTATGAGACCAAGCTATTTTGCAAAAGAATATGAAATTCAAGTAATTAGACCTTTAGCATTTGTAGAAGAATCTACAACTATAAAATATAGTAAAAAAATAAATCTTCCTATATTAAAATCCTCTTGTCCATATGAAACAAGTGATAATTCTAGAAGGCTTAAAATAAAAAATCTAATAAAAGAATTATCAATAGATAATCCGGATATTAGAAGCTCTATATTAAATGCTTTAAAATCTGATAAAAAAATATAAATATTATTAATAAAAATTTAAAATAAAAAAGCAGGCTAATGCCCGCTTTTTTATTTTAAATTTTCAGCTATTTTTACTTTTGTAAGAGATGCTTCAAGTGCTCTTTGTGTTACTGCAATATCTCTATCTTCTTTTAGTTTAACTAATTTTGCTTTTGCAATTTCAACTTCTTTTTTAGCTTGTTCAATATCGATATCTTTTGCATCCATAGCATCATCTGCTAATATAACTACATTATTATCTTTAATTTCTAAAAATCCACCCGCAACAAAAAATTTTAATTCCTCACTGGTAGATTTTATTTTCATCTCTCCAATAGCTAATTCTGCTACAAAAGGAGCGTGATTAGGTAAAATCCCCATATCTCCTTCTATTGTTCTTAATATAACTCTTTCTACTTCTTTTTCTAATACTATTTTTAAAGGTGTTATTATTTTAAAATTGAAAGTAGCCATTTTTATTCAGCTCCTTCCATCAATTCCCTCGCTTTTGCAACAGCTTCATCTATAGTTCCTACATATAGAAAAGCTTGTTCAGGTAAATCATCATATTTACCTTCTAATATTTCTTTAAACCCTCTAATAGTTTCTTTTATAGAAACATATTTACCTTGCATTCCTGTAAATTGTTCTGCAACTGAAAATGGTTGTGAGAAAAATCTTTCTATTTTTCTTGCTCTATTTACAGTAATTTTATCTTCATCTGATAGTTCATCCATACCTAAGATAGCTATAATATCTTGAAGTTCTTTATATCTTTGAAGTACTCTTTGTACTTCTCTAGCTACATTATAATGCTCATGACCAACTATATCAGCATCCAATGCTCTAGATGATGAATCTAACGGATCAACAGCTGGATAAATTCCTAATGAAGCAATTTTTCTTGATAAAACTGTTGTTGCATCTAAATGCGAAAATGTAGTAGCTGGTGCTGGATCAGTAAGATCATCTGCTGGTACATATACAGCTTGTACTGATGTTATTGAACCTGATTTTGTAGAAGTGATTCTTTCTTGTAAATTACCCATTTCTGTCGCTAAGTTTGGTTGATATCCAACAGCAGATGGCATTCTTCCAAGAAGAGCCGAAACTTCCGATCCTGCTTGAGTAAATCTAAATATATTATCTATAAATAGAAGTACATCTTGTCCTTCTTTATCTCTAAAATGCTCAGCAACTGTAAGTCCAGTAAGAGCAACTCTTAATCTTGCTCCAGGTGGCTCATTCATTTGTCCATAAACAAGTGCAGTTTTGTTTATAACTCCTGATTCAGTCATTTCATCAAAAAGATCTCTTCCTTCTCTTGTTCTTTCTCCAACACCTGAGAATACAGAAAGTCCTCCATGTCCTTTTGCTATATTATTAATAAGCTCCATTATAAGAACTGTTTTACCAACTCCAGCTCCTCCAAATAGTCCAATTTTTCCACCTTTTACATATGGAGCTAATAAGTCTATTACTTTTATTCCTGTTTCAAATACTTCTATTTCTGTTCCTTGTTCTTCAAAACTAGGTGCATCTCTATGAATAGATGCTTTTTCTTCTGCATTTACTTCTCCAGCCTCATCTACTGGCTCACCTAATACATTTAATATTCTTCCAAGTACAGCTTTTCCAACAGGCACTGTTATCGGTGCACCTGTATCTATAATTTCTATTCCTCTTTGAAGTCCGTCAGTTGAATCCATTGCTACAGCTCTTACAGTATTATTACCTAAATGTTGTTGCACTTCCATCACTAGCTTTGTACCATCTTCTTTTATGATTTCTAGTGCGTTATATATTTCAGGTAATTTATCTTCAAACTTAGCATCAACCACAGGACCTATGATCTGAGTAACAAGTCCTTTATTCAAAGTTGTCTGCCTCCTTTTTCATTTTTTTACAATGCTATATAGCGCTTGCTCCACTAACGATTTCAGATATTTCTTGAGTAATTGCAGCCTGTCTTTCTCTATTATATTGTAAAGTAAGATCTGCTATCATCTCTTCTGCGTTATCTGTAGCATTTTGCATTGCTTGTCTTCTTGCTGCATGTTCACTTGCAGTATTTTCTAGTATAGCTTGATATATTTCTATATTCAATGTTTTAGGAATAAGTGTATCTAATATTCCTTCTTCTGAAGGCTCAAAGATATAAGGTACTTTTGATTCACTCTCTTTTCTTTCAATAGGCAACATTTTTTTTGTTGTTACTTCCCATCTTACAGCAGAGTAAAATTTACTATATACCATATATACTTCATCAAATATATCTTCATTATAAAATTCTATAATGTTTTCGGCTATTTCTTTAGCTTTATCAAACATTAATTCTGGTATAAGTTGAATATATTCAGCCTTTAAATCTAATTCTCTTTTTCTAGCATAATCTCTTATTTTTTTACCTACTGCTATTACTGAAATAGATTTATCTGGATTATCTTGTCTTATTTTTTCAAGTGCTTTTATTGCCGTAGAATTAAAACTTCCACAAAGCCCTCTATCAGAAGTCATTACAATTACAGCAATTTTTTTAATATTTTCTTTTCCATCAAATAACGGATGTTTAAGATGTTTTGTAGAAGATACTACATTTGATAAAATTCTAGTTACTCCTTCAGAATAAGGTCTAGAATTTTCTACCATTATAGAAAATCTTCTAAATTTTGTCGATGACACTATATTCATCGCATTTGTTATTTGGTGAGTGCTTTGTACACTTTTAATACGAGTTTTTATTTCTTTCGTTTTAGCCATATTCACTCACCCCTTAACTAAAATTTACCTTAAATTCTTTTACCGCACCTGTTATTTTTTCTTCTAATTCATCATCAAGTTTTTTCTTTTCTAATATCTCTGCTAATATTTCAGTATTTTTTCTTAAATGATCAAGTACTTCTTTTTCAAATCTTCTTACGTCTTCTATAGCTATATCATCAAGAAGTCCATTAGTTACCATATAAAAAGAAACAACTTGTTCCTCTACTGGATACGGAGAATATTGAGGTTGTTTTAATATTTCCATTATTCTATGTCCTCTTTCAAGTTGAGCTTTTGTAGCTTTATCAAGATCAGAACCAAATTGAGCAAATGCAAGTAATTCGGTATATTGAGCTAATTCTAATTTTACTTTAGCTGCAACTTGTTTCATAGCTTTTATTTGAGCTGATCCTCCAACCCTTGATACTGAGATACCTGCATTTATTGCTGGTCTAAATCCAGAGTTAAAAAGTTCTGATTCTAAGAATATTTGTCCATCAGTAATTGATATTACATTTGTAGGAATATACGCTGATACATCTCCAGCTTGAGTTTCAATTATTGGTAATGCAGTAATTGAACCTGCTCCTAATTTATCAGATAATTTTGCTGCTCTTTCTAATAATCTTGAATGTAAATAGAATACATCTCCAGGATATGCTTCCCTTCCAGGTGGACGTTTTAATAATAAAGACATCTCTCTGTATGCAACTGCATGTTTTGTAAGATCATCATATATTATAAGTACATGTTCACCTTTTTCCATAAAATACTCTCCCATAGCTACTCCTGAATATGGTGCTATATATTGAAGAGCTGCTGGTTCTGATGCTGTTGCTGCTACAACTATAGTATAATCCATAGCTCCAGCTGCTTCTAATCTATTTACTACTTGTGCTACAGTTGATCTTTTTTGTCCTATAGCTACATATATACATTTAACGCCTGTATTCTTTTGGTTAATAATAGTATCAATAGCAACTGCTGTTTTTCCTGTTTGTCTATCTCCTATTATTAATTCCCTTTGTCCTCTACCAATTGGGACCATTCCATCTATTGATTTAATACCTGTTTGTAATGGTTCATGTACAGGTTTTCTTGAAATTATTCCCGATGCTTTTCTTTCTATTGGAAATGTAGATGATGCTTCAATTGTACCTTTTCCATCTATTGGTTCTCCTAATGAATTTACTACTCTTCCTAATAACTCTTCTCCTACTGGTACTGATGCTATCTCTCCTGTAGTTTTTACTTCATCGCCCTCTTTTACAAGTCTTGTTTCTCCAAGGATAACTGCCCCTACATTATTTTCTTCTAGGTTTAAAACCATTCCTTTTACTCCACTTGCAAATTCCAAAAGCTCTCCAGCTTTTGCTTTACTTAGGCCGTAAATTCTAGCGATATTATCCCCAACTTCAAGAACTGAACCTGAAGTTTTTACATCAAGAGATTTTTTATAATTTTGTATTTCTGTTTTTATTATACTACTTATTTCTTCTGGCCTAATTTTCAAATTTTGCACCTCCTACCTATAATTTTTTGCATTTAGATACCATTTCTAAATGCTTCTAGTTGACTCTTAATAGATGCATCTATAATGTCGTCTCCAAGTTTTACTATCATTCCACCTAAAATAGTTGGATCAATTTTAGATGTTAATCTAACTGTTTTATTTGTTTTAGCTTCTAGTTTTTTTCTTAAATCTTCTAATTGATTTTCTAAAGGTTTTACAGCAAAGATAGCCTCTGCTTCTAATATAGAATTTTTTTCATAGTAAATTTTTAAATATTCACTTACTATTGCTCTTATATCAGCTATTCTATCTTTGTCTATTAAATAGTTTAAAATTATCAAAGTATTTTCATTAAAATCTTTTAAAATTTTCCCCATAAAATTTTTTTTGTCTTCTCTATTAACTAATGGATGTGTTATAAATGTTTTAAATTCTGTATCTTTTTCAAATAACTCCATTACTAAACTAAGTTCTTTATGAGTATCTTCTACTCTATTATTTTCTTGTGCAAGCTCATAAATAGCAGTTGCATATCTTCTTCCTACTACAGCATCTACCATTATTCTTCGCCTACCTTATTAATTGCTTCATCAATTAAATCAGCTTGAGTTTTATCAGCAATTAATTTTTCTGCTAGATCAGTGGCTATATCCCTAACATATTTTTCTATTTCTTTTCTAGCTTGTTCTCTCATTTTTATTACTTCAGCTTCACCTGATTTTATCATTTTATCTCTTTGAGCATATGTTTCTTTTAATATACTATCTTTTCTATCTTCTGCTTTTCTTTCAACAGATAAAAGTAAATCATTTGCTTCTTTTCTAGCACTTTTTAATGTTTCTTCTGCATCTTTTTTGGCTTTTTCAGATTTAGCTAAATTATTTTTAGCTTCTTCTAATTCTTTTTTTATTAACTCTTGTCTTTTATCTAAGAATTTTCCCATTGGTTTGAAAAAATATCTTTTAAAAATATATATTATTATTAAGAAGTTAATCATTTGCCAAAAAAGGGTACTATCTATAGAAACTACAGGCATATTTTCTACCATGTAATTACCTCCCCTCCTTTTAATATATGTCTAAATTTCTTATTATCCTAATTTTGATAAGAAAGGGTTTGCATATAATAAAATTAAGGCAATAACTAATGAATAGATCCCTGTTGATTCTGATATTGCTTGTCCCATTACCATTGTAGAAATTATATCTCCTCTTGCTTCTGGTTGTCTTGCTACTGATTCTACTGCTTTACCAGCTGCATAACCTTCCCCTATTCCAGGCCCAAGTCCTGCTATCATAGCTAATCCTGCTCCTAATGCTGATGCTGCTAATATTATAGTTTTTGCTGTTAACATATCCATAACTACATACCTCCTGAATTTTTATTTTTAAAATTTTATTCTGGTTGTGCATCTCCTAATGCACCTTGAATATAAACCATTGTAAGCATTGTAAACACATAACTTTGTATAGCTCCACTAAATAAATCAAAATATAAATGAAGTGGTGCTGGCACTACTGCTGGCGCCGCTTTATAAAGTAAGCCTAATATAACTGATCCTGCAAACATATTTCCGAAAAGTCTCATTGATATATTTACTGGTTTTGCTCCTTCTCCTACTATATTTAATGGTAACATTAATGGAAAAGGTTCTAATAGTCCTTTAAAATATCCTACTGGCCCACTTGTTGCAAATGCCGCACTTAAAAATGCCATTGTCGTAATTAATGCAAGTCCTACTGTTGTATTAAGATCTGCTGTTGGTGCTCTAAATAAGTAATGCAATGACCAACCTACGTCTGTTCTACTTAGCCAAGGAACTGGAAAAAATGTAATTGTATTTGATATAAATAAAAATGTTAATAACGAAGAAATATATACCAAATATTTATCTTTCCATTTTCCAAGTATTTGTCCAACTACACTATCATAAAAATGATATAGCGTTTCAAAAAATGCCTGCTTTTTACTAGGATTTTCTAAAGATAAATCTTTTGTTCCCCACCTAAAAAGTAACACTAAAAACGCCATTATTATCCATGTAGTAATAACTGTAGTTGTAACAGGAAGTATTGCACTACCATCAGCAAGTTTGTAAGCTAATGGAAAATTATGTGGTACTGGAATTCCAAATACAATACCTGGTCCTTCAACTAATGGTGGTTTTACTAGTCCAAATAGTTTCAATATTTTTCACCCTCCTTTCCATCATCAAATTTAGATTTAAACTTTTTTAAAAAATCTATAAGTAAATTTTTTAAAAGTATATTGAATTTTACATTTAATAATCCTAAACTTGCCGCTATAAAATATGAGAAATCTATTTTTAACATTAAAATCAAAAAAATAAGATATAAAACATATCTTTTGAAATAACCTAATATCGCATTTTTATAGCTACCATTTTTTGTTATCATGATATATTTCACATCTCTATAAATTAAATAAAATGTAAAAATCGAAAATACGGAACCTAAGAAAAATCCTATATATACTATTTTACTTTGAATAATAATACCATAAATTAAAATAATTAACGCTGTTATAAAAGAATTTTTTATTATTATTTTTATATCTTTATCCATAATTCTCCTAGTATTTTTATTATTTCTAACTTAGTATAGCACCATAATATTTTTCTTGTCAACTTTAATTAATGTAATTAATTGTGACACTTAACCTAAAAAGTTAAATTTCTAAATAATTATGCCTGTAATTAGTTCAAAAGTTATTCCGATAACGTACATTTTTATTTTTTTAATATCATTTTATATGCATTATAGAATGCTGCTATTACTCCTAAAATTATCAAAAAAAACATTAAAAAAATATTTTCTCCAATAAATTTTGTCAAAAGTTTATATAAAAAGAAAAATCCTATTATTGTAATAGCTATTGTAAGCCCAAGTTGAGTTAATAAACTAAAATAATATGCTATGTTTTGCCAATTTTTACTATTCATAAACATCACCATATTATATATACTTAAATTTTTAAAATTTCTTTTTTTTTGTCTTTTATTTTTTTAAAAAATAAAAAATTCTATCACCTGCAGTATTATTATTATTTATTTTTTTTATTATTTCAAAACCTTCATTTTTACATATATTATCTATTACTTTTTCTGAAAATATTTTTTTTGCATATTCTTCATCTATTCTTTCATAAATATTATCTTTTTTATGTACAAAAAAACTTGTAAAAATATAGTCTAAATCTTCTTCATTATTATATTCGTGTTGCCAAATAATAGTCATCTCTTCTCTATCATCAACAAAATAATCTTCTGGAAACATTTCATTCATAAGTTTTCTTGTAGCTGTATCAAAAATAAAAATTCCATCTTTACTTAAATGATTATATACATTTTTTATTGTCCCTCTTAACTCTTCTTCGTTAAGCAGATGATTAATTGTATCAAATATCATTATTGCTGCATCGAATTCTTCTTCTAATTTAAAATTTTTCATATCTTCTTGAATAAATTTTATATTATCATCTTTTTCTTTAGCTTTATCTAACATTCCTTTAGAAAGGTCTATTCCCACTACTGAAAATCCCAACCTTTTTAACCTTATTGATAATTCTCCTGTACCGCATCCTATATCTAATATTTTTTTTACATTATCAGAAAAATTATTTAGTATAAGTAATAACCATTCATCATATTCTAAGTATTCCATCATTTCATCATATATTTTACTAAAATTTTCATACATTTTTTTCTCCTTTAAATTTTGTTTTTTATTAATTATATCATTATAATTTTTTTATTTCTATGAATTTTAATACTTCTTTAATAAAAAAATAATAATATTTATATATCAATAAAAAGCATTAATTTTAGTTCAAAAAAATATTTAAAATTTAATATGTTTGTGCTATAATGAAAATTAAGATAAGGAAAGTTAAATTTCTTAAGGATTTAGAGGGGAGGAAGTTAATTATATTTTAATATAATTAGCACAAACTATGCTTAGAACTAGAATATTTAAAGAAATTTGTCAAAATGTTGATTTAGAAGAAAAAAAAGCTAATTTAAAAGAAAAATTAAAAAATGATCCTAATAATCTTGAATTATTAGAAAAATTAGCTGCTGTCTATTATTATCAACAAGAAGACTTTAAGGCTGTTGAAATATATAAAAAACTTGTTACTCTAGACCCAGAAAATGCTGAATATTTAGCTTTTTTAGGTTATTTATGTTATGAACTTAATGAACTTGATTTAGCTATAGATTATTTAAATGAGTCTCTTGATATTGATTCATCTGCTCCATTTGTATTTTTCATTTTAGGAAATACTTATTCTAGAGCTGGAATGATAAAACAAGCTGTTGATGCTTATGATTTTGCTATATTTTTAGATCTTGATATTTATACTGCTCATATGGATTTTGCTAAAAAATATGAAGATATGGGAAGAAAACATAATGCATTAAAAGAATATTTAGCAGCTTATGATATTGATTCTAGAGATGTTAAATTAAAAAATAAAATAAAAAATTTAAAAGAGGAATTAAATATTGTTTAATTTATCTCTTATAAATTATAGGAGAGGATTATATGTTGTTAGGTCTATTAATTTTTATTGGATTAATCCTACTGTTTGGTATGCAAAAAACTTTTTATATAACATTTTCATTAATTTTTGTTTATCTATTTTTTATGTTATTCGGAGCACTTTTTAGTTTTTTCTTACCAGTTATTGTTATTATTTTTCTTTGGAAACTTTTTATTCCAAAATCAAAGTCAAACACATATTATTACAAATTTTCCGATGAAGATTTTAATAGATATTATAACTATAAATCACATAACAATAACTATAATGGCTTTTATCAAAATAATTATAATAAAGATAAATTTTATGATATTTTAGGAATAGACAAAACTGCTTCTCAAGATGAAATTAAAAAAGCATATAGAAATTTAGCTAGACAATATCATCCAGATAAATATGCTAATGCTAGTGAAGAAGAAAAAAAAGTTGCTGAAACTAAATTTAAAGAAATAAATGAAGCTTATGAAAATTTAACAAAATAAAGTTTTTAAAATAAAAAAATAACGCTAATATTAGCGTTATTTTTTTATTATTAATAATTCTTTCGAAGTCTTATTAAGAACTTCTCCATGGTCTTTTTTTACAACTACATCATCTTCTATTCTTACTCCGCCAAAACCTTCTATATAAATTCCTGGTTCTATAGTAATAACCATTCCTTCTTTTAATATAATATCAGATTTTGAATTTACATAAGGGTATTCATGTATCTCTACACCTATTCCATGTCCAAGACCATGTCCAAATTTATTTCCGTATCCTTTTTCTGTAATGTAATCTCTAGCTATTTTATCAAGCTCACTAACTTTTATTCCTGCCTTTACAGCTTTTATTGCTTTTAATTGCGCCTCTAATACGATATTATATATCTCTTTATGTTTATCACTAATATTTTCTCCAAAATAAATTGTTCTTGTCATATCAGATACATAGCCATTATAATATGCTCCAAAATCAAATTTTATAAATCCTTCTTTTTTTATTTTTTTATCACTTGCCACACCATGTGGCATTGCTGATCTATAGTTACTAGCTACTATTGTTTCAAATGATATTGATTCTGCTCCTAGCTTTTTCATTTCATATTCTAGCTCTGTAGCTAAATATTTTTCTGTTACTCCTTCTTTTATTAAAGGTAATACTTTTGCAAAAGCTTTATCTGCTATTTCTACTGCTTTTTTTATTGTTTCTATTTCATCATCTCTTTTTATCATTCTAGCTAATTGTAGACTATTACCCAGCATTTCAAAATCCACTTCTTCTAATTTATTTTTATATTCATTAAAAATTGCTAAGCTCATTGAATTATCTTCTATTCCTAGTTTTTTTACTTTGGCATTTTTTATATATTCTACTACTTTATCACTTGCTTTTCTTTCGATTACTACTATTTCATATCCATTTTTTTCTACTTCTATTTTAGCTTGTTCTACATATCTAAAATCTGTAAAAAAGAATTTTTTTTCTTTTACAGCAAGTGCTATCCCTGTTGTTCCTGTAAATCCTGTAAAATATCTTAAACTATATTTATCAGATATTAAAATTGCATCTATGTTTTTTTCATTTAATATTTTATTTAACATATTCTCTCCTTTTTTTATTCTTATTTTCTCTCTATTATTTTTAACGTTATTTTTTTATAAATAAACATAAAATCTTAATCTAATGGATTTATATTAGGAGTTTCTGGTAATGATTTTATCATTTCTACTAATAAATTAATTTCTTCTTGTATATCTTTTAATGATGCTAATTCTACTGGCGAATGCATATATCTAATAGGTAATGACACAAGTGCTATAGGTACTCCTTTTCCTGTTAATCTTATTCTATCTGCATCTGTTCCTGTTGCTCTTGGAGTTAATTCATATTGTAAATTTATATTAAATTTATTTGCTGTTTCTTCTAAAAAATTATTTATTTTAAAATTGATTGGTGCACCTTTCGCAAGTACAGGTCCCTTATCTATTTTTATATCACCATATTTATTTGGATCAGAATCCGGATAATCTGTAGCAAATGTTACATCACAAGCTATTGCCATATCTGGATTTATTTGACTAGCAGCAAAATATGCTCCTCCCATATTTGTCTCCTCATTTACTGTACTTACTCCATACACTGCTACATTTATTTTTTCTTTTGATAATCTTTTTAATACTTCTGCTACAATAAAAGAACCTGTTTTATTATCAAGTGCTTTACTTGTTATTCTATTATTTCTAAGTAAAAGTGGTTGTGTATCATAAACTGCTAAATCACCTATTTGAACATATTTGTTTGCTTCTTGTTTATCTTCAAACCCACAATCAAGATAAATATCTTCTATTTCTAATTTTTCTTTCACTCCGCCATGATGTTCTGCATTTACACCTACTACTCCAACTATTTTTTCTCCCATATAACCATTTATTATTATTCTCATTCCTATTGCAGCTTTTACATTAATTCCACCAAGTTTCGTAAAATATATATATCCATTCTCATCTATTTTTCTTACCATAAAAGCTATCTCATCTGCATGCCCTGCTAATAATATTTTAAATTTTGCTTTTTCATTTACTATTCCATATGCATTTCCTATATTATCATATCTTACTTTTACAAATTTTTTTACATAATTTAACCATTTTTTTTGTAATTCAACTTCATAACCTGATGGTGATTCGGTTTTTAATATTTCTAATAAAAATTCTTTGTTCATATTACACCTCTTTATATAAATTTTATTTCTCCTCCACCTATAACATAATTATTATCATAAATAACTATATGCTGTCCTTTTGAATTTTGTGCATTTTTTTCATCATATTTTATAAAAACTCTACTTCCTTTTTTATATAATTCTCCTTTTACTCCATCACTTGAAAATCTTGGTTTAAAAACAAGTTTTTTACCTAATAATTCATCTATATTCACACAAAATTTATAATTTATTATTTCAATTTCTTTTAATAATAAATCTTTAAATTCTCCTAACAATATTTCATTTTTTTCAGAAATAATATCTATTATAAAATATGCATGTGGTAATTTTAAATTTAATCCTCGTCTTTGTCCTATAGTATAAAATTGATATCCCTTGTGTTTTCCTAAAACATTTCCTTCCTTATCAACAAAATTTCCTTCATTTACATCTGTTAAATTTTCTTTTAAAAATTTTATATATCCATCTTTTGCAAAACATATTCCTTGACTATCTGGCTTTTGATATATTTTAATTTGATTTTTTTTTGCTATTTCTCTTACTCTATCTTTTGTATAATCACTAAGTGGAAATAACATAATTTTTAAAATATCTTCATTTATTCTATATAACATATATGTTTGATCTTTTTTATCATTTTTACTTTTTTTTAATAAATATCTATTATATTCTTTTACATATTCTACATTTGAATAATGACCAGTAGCTATATGTTCTGCTCCTAGTTTTTTAGCTATTTCATAAAGTTTTTGTATTTTTATTTTCTCATCACATATTACACATGGCGAAGGAGTTATACCTCTATTATAGCCATCAATAAAATATTCTATTACCTCTTTTTTAAATTCATCTTTTACATCATATACAAAATGAGGTATCCCTAAATTATAACAAACTGTCTTTGCATCATATATATCATCTAAAGAACAACATGTTCCTTCTTCATTTGAATCTAAATGTTTTAATGTAACTCCTATTACTTCATACCCTTGTTGTTTTAATAGTAATGCTGCTACAGAACTATCTATACCACCACTCATTCCTACTACTACTTTCTTCAATTCTCCTCCTAATTTTTAACTTAAATATTAATAGTATACATTATTTAATTTTTACTTTTTCATTGTTTTATTTTAATTAATAGTCTTTATTTTGATAAGACGTTTTATGAAATTATATCACATTTATATAGTTTTATCTATTTATATCTTTCTCCAGAATTGTAATATATCTTTCCAATTATTTATTATAATATTTACTAATTTTTATTCAAATATTTTTTATTACTAAAATTTTTAGTATCCATATATTTTATAAAAGATTTAAGTATATTAAACTTTATTACATAATATTAATTATACCTTATATCTTAATGATACTAATAAAAAAAATAAGCTAAATCTTTATAATTTAGCTTATTTTAATAATTTTATTTTAAAGGTAGTTCCTTCTCCTTCTTGACTTCTTATATCTATAATTCCAGAATAAAGTTCTGTTATCTCTTTAACAATTGATAATCCTAATCCTGTTCCTGCTTTGTTTGTTGTTCTTGCTTTATCTATTCTATAAAATCTATCAAATATATTTTTAATCTCACCTTTTGGTATACCAATCCCATTATCACTTACATATATATTTATATAATTTTGTTCTTCTTCTACTCTAGCCCTTATTATTGGATTCTCTTTATCATTATATATAATTGCATTTTCAATAAGATTTTTTAATAAAACTTTTATTTTCTCTCTATCTATATTTAATATTGGTTCTTTTCCACGAAGTTTAAGCTCGTATTTAAAATCTACATTTTTCTTTTCTATTATATTTCCTAAAATTTCTAATATATCTTTAAATAAATTATCTATATTAGTAGGATATTTATTTAATACATTACTTGCTTCTATTTTTTGAATATTTAAAAAATCTTGTATAATATTTTCTAACTTTTCTATGTTATTTTCTGCAATATTTAAAAAATTATTTTTTATGATTTCATCATTTTCATCTCGAAGTGCTATAAGATAACCTTTTATATTTGTAAGTGGTGTTTTAAGCTCATGACTTATATTAGAAATAAACCTTTTTTCTATTTCTTTTATTTCTTTGCTTTGAGTTATATCTCTTGCAGATAAAATGTAAAGTTTTTCATTTTTTAAATATCTTCCTTTTATAAAATAATATTTTTTATAATCTGTCAAAAATATTTCTTTGCTTAATCTTTTTTTATTCTTATAGAGTTGATTTAATACTTCAATTATATCTAAATTTTCTATTTTTTCATAATACTTTAATGTATTTAAATTATTAAAAAAACTGTATTTAAACTCTCTATTATAGGCCAATATATTTTTCTCTTCATCAAACATTATAACTCCTATATCAATAAGAGATATAAGCTTATCTAATTTCACTTTTTCTTTTTTTAGTTCTTCAATATTTTTTAAATTTTTTTTCTGCCATTCTTTTATTACTTTCCAAAATTCATTAAGCTCTATATCTTCTTTTAAATACATTGATTTAGGAATATCGCCACTTTCAATTACTTCTCTTATCTCTTTTATTTTATTAATATAATATTTTTTTAATATATAATTATATACAAATATTAAAAATATATTTAATAATAAATATAAAAATACTTTTTGAAAAATTTGTTTTTGTAATGGAACAAAAATAATATTATATGGTACTGCTGCTCGTATTATTATTTCATTAGAATATAATATCGAATAGTAAATTAATGTTTTATTAAGTGTTTTACTTTTTCTTATACTAAATCCTTGTTCATTGTTTATCGCTTCTTGTACTTCTTGTCTATATTTATGAGATTCTTTGGTATTTGAATCTGTATCAAATAATACTTCTCCATTTGTTTTTATTATTGTTACTCTATTTTTAGTAAAAATCCTTATATTTTCTAAATCTTTTACTCCATTTATATCAAAATATTTTGATATACTCCATGCTGTATTCTCTAAATCTTTTTTTACAATATTAATAGTCTCTTTTTTAAAACTACTGTAATCTTTGTATAAAAAAAGTCCTTGAAAAATAAATAGTAAAATAAATATTATTAATTCTCTTCGTCTAATCGGTATCCTACTCCTTTTATAGTTTTTATATTATGAGATATAGATTTTAATTTATCTCTAATTTTACCCACATATACATCTACTGATCTATCTCCAGAGTAATAATTTGAGCTCCATACTTTATTAAGTATTTTTTCTCTAGTTAATACAATTCCTTTATTTTTTATTAAAAATAAAAGCAAGTCATATTCTTTTTTAGATAATATTATTTCTTTTCCATGTTCTGTTACTTGATATTTATTTTTATCTATTACTATATCACCATATTTTATTATAGAATCGGATATTTTCTTTCCTCTATTTAATAATTTTTTTATTCTAAGTAAAAGTTCTCTTGGATCAAATGGTTTTTTCATGTAATCATCTGCACCAATGTCTAATCCTTTTAAAACATCTTCTATCTCTGTTTTTGCTGTAAGCATTATTATATAAGGATTACCATATTTTTCAGGCATTTTCCTAATCATCTCAGTTAAATTTATTCCATCTAAATTTGGAAGCATTAAATCTAATACTATCAAATCAGGATTAAAAGTTTTTACGAGTTTTAGTCCATCTAATCCATTATCAGCTTCTTCTATTTCATAATTTTCTTTTCTTAAAAAATATGTTATTAGTGTTCTAATCTCACCATCATCTTCTATTACTAAAATTTTCATAGTTTATTCTCCCATAGTTTGATGTTTTAATACATCACCTTTTCTTATATATACATAATTTTCTGATAAATTTTGTATAATATCTGCTATTCTTTCAAATTTTTGTGCTACTACAATAACTTTACTAGCTTTAGATACAAAATTTATATCTTTTTTTACTAATTCTTCTACTGTTTTTATACAATCATCTCTAAGATCATCTATTTCATCATCTAATCCAAATACAAAATATGTATTTTCTATTTTCTTTTCTATAAATGCTAATTCAAAAGTCTTAAAAATTTTTAAAACTTTTGCAGACATATTTTCTAAAATTTCTAAAACTGTTTTATTTAACATATTTTCATCTCTTACACTTCTTTTTATAAGCTTTAATATTCCAGTATTAAGATCACTTATTCTTTCAAGATCTGTAACAATTTGAAGTACTCCAACTAAATATCTAAGATTCCCTGCTGCTGGTTGAAATCTAGCTATTGTTTCTACAATTAATTCATCTAATACAAGCTCTAAATCATCACAATCTTCTTCTAAAAGTTTTGATTCCCCATATAAAGATTTATCAAATTCACCTTTTTTTAATATAATATCTATTATCTCTAGTCCTCTAATTGATTTTTTTATCATTTCGACTGTTTTTTCATTTATTATATTAAGTGTTTGCTCTAAATTTCTCATAGTTTTTATTCTCCTTATCCTCTTATATTTTATCTCTTACTTAATAAAATATCAATTAAAATTATTTTTATTTTATACACTAAATTTTTATATAGTTTTATAACCTTACTCTATAAAATTATATATATAATTTTATATTTTTTTATCCAAATTTTCCAGTAATATAATCTTCTGTTTTTTTATTTTTAGGATTAGTGAATATTATTTCTGTTTTATCAAATTCTTCTACTTCACCTTGGTAGAAAAATCCAGTATACTCTGATATTCTTGCTGCTTGTTGCATATTATGTGTTACTATAATAATAGTATAATCTTTTTCTAACTCTCTCACAAGTTCTTCTATTTTTGATGTTGAGATAGGATCAAGTGCACTAGTTGGTTCATCCATAAGTAAAATTTCTGGTTTTACAGCAATCGCTCTAGCTATACAAAGTCTTTGTTGTTGTCCTCCTGATAAACCGAGTGCTGATTTATGTAATTTATCTTTTACTTCGTCCCATAGTGCTACTGCTTTTAAACTTGATTCTACTATTTCCATTAATTTATTTTTATTTTTTTCTCCATGTAATCTCGGTCCATATACTATATTTTCATATATTGATTTTGGAAATGGGTTTGGTCTTTGAAATACCATTCCTACTTTTTTTCTAAGGTCTACAATATCATAATCTTTATTAAATATGTTTTCTCCATCTAATAAAATTTCTCCTTCATATTTTACTCCTTCTATCAAATCATTCATTCTATTTATAGAACGAAGAAAAGTAGATTTCCCACAACCAGAAGGTCCTATAAGAGCTGTCACTTTATTTTTTTCTATATTCATATTTATATTTTTTAATGCTTGAAAACTTCCATAATAAAAACTAAAATTTTTAACCTCTAACCTTAAATTATTTTTCATTCTTCAATCCTTTCATACTAATTTTAGATAAACTATTTTTTGATTTTTATATATCTTGTTGATATTTATTTCTTAAATATATTGCTAATCCATTTGCACTAAGAAGTAATATCATAAGTACTATAATTCCTGCTGCTGCGATGTACTGAAAATCTTCTTGAGGTCTCGAAGTCCAGTTATATATTTGAATAGGCATTACTGTGAATATATCAAATATATTTTTTGGAAAAAATGGTACATAAGCAGCTGCTCCTACAACTATTAATGGTGCAGCTTCTCCTGCTGCTCTTGAAAGTGCTAATATACTTCCTGTAAGCATTCCTGGCATTGCATAAGGTAATACCACACATTTTATCATTTGCCATTTTGTCATGCCAAGTGCATAAGCTCCCTCTTTTGCTGAATTTGGTACAGCTTTTATCGCTTCTTGAGCTGATACTATAACTACTGGTAAAATAAGTAATGCCAATGTAAAAGCTCCCGATAATATACTTCTTCCAAATCCTAACATTTGAACAAATACTGATAATCCTAACATTCCATATACTATCGATGGAACACCCGCTAGGTTTGCTATATTAAGCTCTAATATTTTAAAAAACTTTGTTGTTTTATTTGCATATTCTTCTAAATAAAGTGCTGTTCCTACTCCAAGTGGAAAGGCTATAAGTGCTGTTAAAGTTATTATCCAACTAGTTCCTACAATTGCTGAAGCAAGACCTGCTTTTTTAGGAAATCTTGAAGGAAAATGTGTTAAGAAATTTAAATTTATCCAACCAAGTCCTTTTCTAAGTATATCAAACATAAGTACCACTAATATTACTACTCCAAACATAGTACATAAAAAAACTATATTCTTAAATATATTATCAATTAATTTTCTTCTTTTTACTCTATTTAGCATCTTTAATATTCCTCCCTATATCTATTTATAACTACTTTTGCAATTATATTCATTATAAATGTCATAATAAATAATAAAGCACCAACAGCAAATAAAGTTCTATATTCTATAGAACCATGAGGAATATCTCCTAAACTTACATTTACCATAAATCCTGTCATAGTTTGAATTGTTTTTAATGGATTAAAATTTAAACTAGGATTTGCTCCTGCTGCAATGGCAACTATCATCGTTTCACCAATAGCTCTTGAAATAGCTAATATAAATGATGATACTATCCCAGATAATGCTGCCGGTATTACTACTTTGGTAGATACTTCAAATGTTGTAGAACCAAGTCCATATGCACCTTCTCTCATTGCATTTGGAACTGCTCTCATTGCATCTTCACTAAGTGATGCTACCATTGGTATAGTCATTATTCCTACCGCTATTCCTGCACTAAGTGCATTAAAAATCTCTAAATTAGGAATAATTCGTCTAAATAATGGTGTAATAAATGTAAGTGCAAAAAATCCATAAACTATTGATGGAATTCCTGCTAAAATTTCTAATATAGGTTTTAATATTTTTCTTAGCTTATCGGAAGAATATTCACTTAAATATATAGCACTTCCCAATCCTATTGGAATTGATATAATTCCAGATATAATTGCTATCAATAATGAACCTACTAATAATGGTAACACTCCAAATTTTTGTGGTTTTATAACTGGACTCCATAATGTTCCTGTTAAAAATTCTTTTATTGATACTTCTTTAAAAAATACAAATGATTCTCCAAATAAAGTAAAAACTATTAAAATTGTTGTAATTATAGATATTAATGAAAATATAACTAACATATATCTAATTAATTTATCCATAAAATATGCTCTTTTTTTTACTGTATCTTTACTCAAAATAATTTCCTCCTTAAACTTCATCTATAAAAATTATACTCAGGGAATTTCTACAAAAAATACAAAAAATGGGGTTTCCCTAAAATATATATGTATTTTAGGGAAAAATTATAGCTTTATTTTAATCCTAATTTAGATAATTGCTCATCATATTTTTCTTGTGGCAATGTCACATATCCTGTTTCAGGAACTATATCCATAGCATTTTCTAAATAAAATTTTACAAAAGCTTTTACTTGTGGTTTTTCTGATAATGCTTTTTTATTTATATATATAAATAAAGGTCTTGAAAGCGGCGAGTATTCTTTTGACATTATAGTCTCATGATTTGGTTCTACTGCACCTTTTCCACTATCAATAGGGACTACTTTCATTTTATCTTTATTTTCATAGTAATAAGCAAATCCGAAAAATCCTAAAGAATTTTTTTCTCCAACTATTCCTTGTACTAATACATTATCATCTTCACTTGGTGTATAATCACTTCTAATATTTCCACTTTCACCATTTATTTCTTCTGTAAAATAATCAAATGTTCCTGAATCAGGTCCTGGACCATATAATTTAATTTCTTCTTTTGGCCATCCTTCTCTTACATCTGACCAATACTTTACATTACTTCCTGATTTCCAAATTTTTTTTAATTCTTCTACTGTTAAATAATCAACAAAATTATTATCTTTATTTACTAACACTGATAATCCATCATATGCTACTGCTATTTCTTCATATTCTATTCCATTTTCTTTTGCTATTTTTACTTCTTTATTTTTTATTGGTCTAGATGCATCACTAATATCAGTAGTTCCTACTGTAAATTTTTTAAATCCACCTCCAGAACCAGATACTCCAACAGATATTCTTACATCTCTATTTTCTGCTCTAAATTCTTCGGCCATTGCTTCTGTTATTGGATAAACAGTTGATGATCCATCTATTACTATTTCCCCTGATAATCTGTTTTTATCTTGTTTTTTGCTAAAAAATAATCCTGCATAAGCACTTGTTGAAAGTACTACTACTGCCATTACTAAAGCTAATATTTTTTTCATAAAATTCCCTCCTGAGTTTTTTTAATAAATTTATTTTTTAACTTAAGATTTCAATTTCTTTAATTTTTTAATTCCCTCTCAAGCTACAATAGTATTGTATAGTAAAGATGTAAATCAGTTATAAAGTTAATGTAAAATATTTGTAAAAAATAAAAATTATAATAAAAAATCCGCCGAAATTTATCGACGGATTTTACTTCCTATTTCTATAAATAGGATTAATTAGGTAGGTATCTGTTTATTTTTAGGGTTGTTAATAAATTTTAAATATTTTGTACTACACTTTTAAATTTTTCTATATCAAGATTTTCTTCTTCAAGTTCTTTAAAATATTTTACTGTTTTTACTTTTAATTCAGCTGTTGCATCTTCATCACATACAATTATAGCTGTTTTATGAGTTTGAAGTGCTGTAATTGTCCACATATGATTTACACTTCCTTCTACTCCTTGTTGAAGTGCCAATGCTTTATTATATCCACTTACTAATATAAGTACTTCTTTTGAATCAAGTATAGTTCCTACTCCTACTGTAAGAGCTGTTTTTGGTACTTTATCTATATCATTATCAAAAAATCTTGAGTTTGCTATTTGAGTATCTTTATTTAAAGTTTTTATTCTTGTTCTTGAAGATAATGATGAACCAGGTTCATTAAATGCTATATGGCCATCAGAACCAACTCCACCTATGAATAGGTCTATTCCTCCCAATTTTTTCATTTTTTCTTCATATTCTTCACACTCTTTTATTAAATCAGGGGCATTTCCATTTAAAATATGAATATTTTCTTTTGGTATATCTATATGATTAAAAAAGTTTTTATACATAAATGTATGATAACTTTCTGGATGTTCCTCTGGTATACCTACATATTCATCCATATTAAATGTATATACATTTTTAAATGAAATTAATCCTTCCTTATATAATTTTATTAAATTTTCATACATTTTAAGAGGTGTTCCTCCTGTAGGTAGACCTAATACAAATTTTTGTTCTTTTTTGGTTGCTTTTTTTATTTTTTTAGCCACATATAATGCTGCCCATTCACTCATTCTATCTGAAATTATTAATCTCATTTCTTCCTCCTGATTTTTATTAAAGTTTTTTTAACTATTAAAAATGAAATTATAAGTTATTCAAAACAATAATAAATTTATTAATTTTTATTTTTTACCTTTATTGTATACTATTTTCCCTTCTACAATAGTCATATCAACGTTGAATTCTTTATCAAATATAGCAAAATCACTATATTTATCTTTTTTTATACTTCCTTTTATATTATCTACTCCTATTATTTTTGCCGGATTTAAAGTAACTAAATTTATTAAATCCACAAGTGATATATCTATTTCATCATGAATATTTTTTACTGCATTATTTAATCTAAGTATGCTTCCAGCTAAAGTACCATCTTCAAGTCTTGCAGCTTTTTCATCTACATATACATCTTGTCCTCCAAGATCATATTTTCCACTTTTTAGACAAGCTGCTCTCATAGAATCCGTTATTAATACTATTTTATCTTTTGATTTTTGTTTGAAAACTATATGATAATTTGCAGGGTTTATATGTATATTATCAGCAATAATTTCGCAACTAACATCACTATTAAATGCAGCTCCTACAATTCCAGGATTTCTATGATGTAGTCCTGTCATAGCATTAAATAAATGCGTTATGTGTCTAGCACCTTTTTGTATTGCTTCCATTGCTATATTATATGTAGCATTACTATGCCCTATAGATAAAGTAATATCTTTATGACAATTACACATTTTATGTGTGAATTCAAAATTTTTATCTTTTTCAGGTGCATATGTAATTATTTTTATTATATCTGTATAATTTTCAATAAGTTTATATTCAGGATTTAATATATAATCACTAGATTGAGCACCTTTATATTTTTCGTTAATAAACGGGCCTTCAAGATGTGTACCAAGTATTTTTGCACCACTATCTATATCTATATTATTTTTTATATTTTTAAGTGCTTTTAATATATCTTCTCTAGACATAGTCATTGTAGTAGCTAAAAATCCAGTTACACCATTTTTAGCAATTGTTTTTGCAATATTTTCAAGTGATTCTCTTGTACCATCCATTACATCACTATTATTAGCACCATGTATATGAATATCTATAAATCCTGCTGATATATATTTACCATGTACATCTATTTCTTCTATATTTTTATATTTTTGTTTATAATCATTAAAAGTTAAAATATCTAATATTTTTTTATTAAATATAATTACGTGTTGCTCTAATATTTTATCTTTTAAAATGATATTTCCATTAATTAAAGCTTTCATATTTTATTCACCTTTTTTCAATGCTTTTATGACATCCTTAGCATTATATCCATTTCTTTCTAATATTTTTTTAATTTTATTTTTATCTTCATTAGTAACAATATTTACCATATCTACTACACGCTCTTTTAATTTTTTATTTATTGGTTTTACATTTATCATAAGATTACTATATACATAACCAAGTTTTATCATTACACCTGTACTGAGCATATTTAATACCATTTTTTGAGCTGTTCCCGCCTTTAATCTAGTAGAGCCCGCTATTACTTCAGGTCCTACATCAATTAAAATAGGAATATTAGATATTTCTTTCATTTTTCCATTTTTATTACAAAATATTGATAATGTTTTTGCACCTATTTGATTAGCAAATTTTATTCCTTCAATAGCATATGGAGTATTTCCACTAGCAGATACAGCAATTAATACATCTCTATTTGAAAATCCTATCTCTCTCAAATCATTTATTGCTAACTCTCTATTATCTTCTGTTTCTTCTTTCCAGTATGATATTGCTTCTCTTCCTCCAGATATCAAGGCAATTATAGTATTATCATTTATACCAAATGTTGGAGGACATTCTGATGCATCAATTACAGCTAATTTACCACTTGTTCCACTTCCTATATATACCATTCTTCCGCCATTTTTTATTATATCTGTTACTTCATTAATAGCTTTTGCAATGATATTTTTAGATTTTTCTACTTCAAAAGCTATTTTTTTATCTTCTTCATTCATCATTTCAACTATTTCAAGACTACTAGCTTTATCAATATTTATTGTTTTTTTATTTCTATCTATACTCATATTTTCTCCTATTTATGTTTTAAGATTACTTCATAACTATATTTATCAGTTCTATTAATAGTTTCTGTATATTCTATTATTTCATTATTTTCAATATAAGTTTTTCTATTAAATAACAGAGCTAATTCCCCTGATCTTATTTTTAATAAATTAGCTTCTTTTTTCTTTACTTTAATAGGATTTATTGATTGTCTTGCATAAAGCGGTTTCAATTTATATTCTCTTTCTAATATTGAGTATAGTGATTCACCTTCTAATTTTTCTTTTGTGAGATCTGGACAATATTTTAGTGGAATCCACGCGGTTTCTATTGCAAATGGTTCATTTTCTACATTTCTTATTCTTTTTATTTTTATTATTCTTTCTATCTTAGAATCTATTTTTAATTTTTCTCTTAATTCAAATGTAACATTTTCTATTTTAAATTCTAAAATTTCTGTACTTGTAGAAAAACCTTTTTCTTTCATCTCTTCAGTAAAACTTTTAAGATAAAAAAGTTCTTGTTGTTTTTTAGGTTCTGCTACAAAGGTACCTTTTCCTTTTTCTCTATAAAGTATCCCTTCATCTACAAGTGTAGAAATAGCTTTATTTACAGTCATTCTACTAACACCATATTTTTTACTCAAATCTCTTTCAGATGGAATAGTATCTCCGGGTTTCAACTCTTCATCTCTTATTACATTTTTTATATTTTCAATTATTTGATAATAAAGTGGTATTACACTATTTTTAGTTAATATTCCCATTATTACTTCCTCCTAAGTAATTCTTATTTATAAATTATAAGAGATTTTTATTAAAGGTTCAATGTAAATGTTTTAATCTGTTGAAAATTCATAAAGAGATTTTTATTTATATAAAATTATAAATAAAAAAACAACTTACTTTATAGAGAATTTTAAAGTTTCAGGAGATTAAAATTTAATCCCCTGAAATTATTTAAAAAATTTTAAACTTACATTTTTCTTATCTCTTGAGCTATAATTTCAGCTTTTGCTCCAAATATTACTTGAACTGATGTGGCACTTGGTTTCAATACTCCTTTTGCTCCTAATCTTTTTAATTCATTTTCATTAATAATATCTTGATTTTTCACTTCTAATCTAAGTCTAGTAATACATGAATCTACAGAAGTTAAATTTTCTTTTCCACCTAAAGCTTCTAATACTTTTCTTGATAAATTACTTGAAGTACCTCTTTCTTCTTCAATATCTTCCATATCATCTTCTCTACCTGGAGTAGCTAAATCAAATGCCTTTATAGTAAATACAAATATAAAATAATAAACTAATCCAAATACTAGACCAACAGGTATTAATAACCATCCTTTAGTAGCTAGATTCATATTTAAAAAGTAATCTATTGCTCCTGCTGAAAAACCAAATCCATGACGTATTCCCATTGCTGCTGTAAGTGCCATCGATATTCCTGTAAGTATTGCATGAATTAAGTAAAGACCTGGCGCTAAAAACATAAACATAAATTCAATTGGTTCTGTAACCCCTGTTAAAAATGCAGTAAATGCTACACTAAATAATACTCCTGCTACTCTTTTTTTATTTTCTTTTTTAGCAGTTGTATACATTGCTAATGCTGCTGCTGGAAGACCAAACATCATTATTGGGAAAAATCCTGTCATAAATATTCCAGCATTTGGATCTCCTGCAAAAAATCTATGTAAATCTCCATTTGCTACCACTTGTACTCCATCTTTTAAATAATCGAAACTTCCAAAAGTAAACCATGCCATAGAATTAATAATATGATGAAGTCCTGTAGGAATAAGTAATCTATTTAAAACTCCAAATGAGAATAAGCCTATTGATCCTGTTCCCATCATCCATCTAGCTACTGTATCTAATCCATTTTGAATAGAAGGCCAAACATATCCAAAAACAGCTGCTAAAACTATACATGCTAATGAAGTTATTATTGGTACAAATCTTCTTCCACCAAAGAATCCTAAAAATTCTGGAAGTTCAATTTTATGATATTTGTTGTACATATAAGCAGCTACAAGACCAGCTATAATTCCAGAGAATACTCCCATGTTAATATTTTTATTGATTGCTTGTGCTCCATTTAATATAACAAAATTTCCTACAACTCCTGCAAGCCCTGCTGCTCCTGCATTATCTTTTGCTAATCCTATCGCCACACCTATTGCAAATAGAATTGGTAAATTTTCAAATATTGCTCCACCTGCTGATGTAACAAATGGCATATTCCATAGTACTCCAAGTCTTAATAATATTGCCGCTATTGGCATAACTGCTATTGGCATCATAAGTGCTTTTCCTAATGCTTGAAATTTTGAAAATACTTTCATTTAATTCACTCCTTTTTTATTTTGATAAAGCTCTACTTTTTTAATCTTATTTTAAATATTGGTTCTAATGCATTCACTTTTCCATATTTAATATCAAATATCTCATCTATTTCATCCATAGATGAAACTACTATGGGAGAAATTATTGATTTAGCCTTATTTTTAATAAAATTCAAATCATATGCTATTAGTTTTTCTCCTTTTTTTACACTTCCTTCATCTTTTAATACAAGTTTACTAAATCCTTCTCCATTTAATTTTACAGTATCAATTCCAAAATGCACTATTAATTCTATATCACCTTTTTGGAATGATACAGCATGTTTCGTATCAAATATACTAATGTCTTCACTATCAAATGGAGCATATATAGTATCTCCATTTGGAATAATTGCAATGCCATCACCAATTATTTTTGAAGAAAAAGCATCATCAGGAACTTTTTCTAATTGAATTACTTCTCCATCAAGTGGAGAATATACTTCTACTACATTTTCTTTTTTCTTAAAAAACTTCTTAAACATTTTTTTCACTCCCAAAACTTTTTATAATTATATAGTGGTCTATACCAATTATATACCATTTATTTTTATATTTGTCAATATTTTTTAATATTTTTTGTTCGAATTTTCGTTATTTTGTTTCACTTAAACACTCTATAACCTTTATTTTTTAAGGTTATATTATATTTTATAAAAAAATCTTAACTTTATAAATTTTTAGATGATAAAATTTAAAATTTATAATTAAAATTTAAAATAAAAAAATACACATATAAATTAACCTAAAATTTATATGTGTATTTCAAAAGCGCTATATTTATTTATTTATTTTTACAAATGAAAGAAATCCTATTCCTATTAAAAATAAAAACATTATACTAAGCACTCCATATCTAGAACTACCTGTATATGTACTTACTATTCCCATTAAAAATGGACCTAGAATCGTAGCAAATTTCCCAAATATATTATAAAATCCAAAAAATTCTGTAGATTTTTCCTTTGGTATAAGTGACGCATATATTGAACGACTTATTGATTGTACTCCTCCTTGCGAAAGAGCAACTAATAATGCTAATATCCAAAACAATTTAATTTTTATATTAATACTTTCAAAATTAGGCAATTTAAATGCTAAAAATGTAATTATAATATATATTAAAATCGCAATAAAAATAAGAGTTTTTTGTGATATTTTGTCTGATAATTTTCCAAATAAAAGCGTTGCTGGAAATGCCACTATCTGTATCATGAGTATAGCTAATATGAGAGATATTACAGAAAGACCTACATCTCTTCCATATGCTGATGCCATACTAATAATCGTATTTACTCCATCAATATAAAAGAAATATGCAAATAAAAACAACATAATATTTTTATAATGTTTTATCTCTTTAAATGTTTTAAAAAACCTTTTAAAACTTTGAGTAAAAATATTTTCATTTTTATTTATTTTTACATAATAATTTTGCTTTGTATTTTTTAACATTGGTATAGAAAATAATCCCCACCATAAAAATACTATAAAAAAACTAAGCTTTGAGGCTATTGGCGAAATTATCTCTCCATCTTTTTTTAATATTATTACAAGTATAATAGTAATTATAAATGGTACAACACTACCTATATATCCCCAACTAAATCCATAAGCTGATACTTTTGCCATATTTTCTTCTCTAGATACATCAGTAAGAAATGCATCATAAAATATATTCGCTCCAGCCCATCCAACTCTTGCAATTACAAAAAATATTATACACTTTATCCATTCTCCTTGATTAATACTAATAAGAAGTAAAGTAGCTAATAATCCTAGTAATAAAAATATTGAAAAAAATCTTTTTTTATATCCTTTATAGTCAGCAAAAGTACCTAAAATAGGAGCTATTAAAGCTAAGATTAAAGAAGCAAAAGAATTCGCGTATCCCCAATTTGCTGTAGATATAGCACTATCGATACCTTTTGATACAAAATCTTTAAAAAATATAGGCATAATAGTAGTTATTAAAATAAGTGTAAACGCTGAATTTGCTACGTCATATATTACCCAGCTTTTTTCTTCTTTTGTTAATTTTGCCATGTTTCCCCCTCTTATTTTTATTTTATCAAATAATTATTTTCTACTATTATAAATATACCATATTAAATATAATTTTAAAATAAAAACCCATAAAAACATAAGTTGCTTTTATGGATTAAATTTCTTTCTAATATATATTTCCGGATAATCCTACAGATTTTTTTATTTCTATCATTTTTTTACTAGCTATATCTCTTGCTTTTTCTGCTCCTTGCTTTAACACTTTTTGTACATATTCCGGATTTTTAATTAATTCTTCTCTTTTGGCTCTTGCTTCTCCAAAATATTCTAATATTTTTGCTAATAATTCATTTTTAGCATGTCCATAACCATATCCACCAGTTAAAAATTTATTTTTCATTTCTTCTACTTCTTCTTTTGTAGCAAATAATTCATATAATTTTGTTATATTATTATCGGGATTTTTAGGCTCTTCTAAAGGTGTTGAATCTGTTACTATTCCCATTACTTGTTTTTTTAATTCTTTTTTAGATGCAAACATTTGTATAGTATTTCCATAAGATTTACTCATTTTTTGTCCATCAGTTCCAGGCACTACTGCCAAACTTTCTATTATTTGAGGTTCAGGAAGTTTAAATACTTCTCCAAAAGTTTGATTAAATTTTATTGCTATATTTCTAGTCATTTCAAGATGTTGTTTTTGATCTTTTCCCACTGGTACTATATCTGCATCATAAAGTAAAATATCTGCTGCCATAAGTATAGGATAAGTAAATAGTCCTACATTTGGAGATATTCCTTTTGCTATCTTATCTTTATATGAATGAGCTCTTTCCAAAAGTCCCATAGGACTTACATTTGATAATATCCAAGCAAGCTCTGTACACTCAGGTACATCTGATTGCAAATAAATAGTCGATTTTTCTGGATCAAGCCCTAATGCTAAAAAATCTAAAACAGCATCATATGCATTTTTTCTAAGTTGTTCTGCATTTTGAAGTGATGTTAATGCATGATAATCTACTATAAAATAAAACCCTTCATTATCATGTTGATTATCCACAAATTGCTTTATTGCTCCAAAATAATTTCCTATATGTAAAATACCACTTGGTTGTATACCAGACAAGCTTCTTTTCATAATAAATAATACCTCCTATTTTTTAAGATATTTTATCATTTAATAGTATTTTTTTCAAATTCAATTTTTTAATTTTTATTTATATAAATTTTTCTATTGATATATGACCCTATTTAAATTCGACAATTTTAATATTTTTTTATAAAAAATATTAAAGATTAGTAAAAATAAAGTCGATATATAATTTGTCCACATTATTGGTTGTGTGACTCCCTAAACAAAAACCATGAAATAAAAAGAGGAATGTAATCCCCAGTTACTTCCTCTTTTTATTTTATTTAAAGGATTTTTTCATCTTTTTTAGTAAAATATTAAAAAGTATAAAAATTATAAAAGAGGTGAGCTATGTTAAATAAAGGTTTTTTACTAAAATTATTTGAAGGTTTTTCTTTGAATAGATGGAATGATTTTATTAGACCAATTGAATTTACAGAAATGGATAGACATGCACTTAAAATGATGATAGCATATTTTTTAGGTAAATATGAAGAAGAACAAGGAAATATTATTGATTGGAACCAGCTTATTGAATCAGGTTTTTTTGATTTATTAAAAAAAATCTCTTTATCAGATATAAAATCACCTGTTGCTAAACGAATTAAACTTAAAAATCCTACTGCATATAAAGAACTTAATAAATGGGCAACAGCACAATACGAAGTATATTTAGATAAAAATCTTTTTGAAAAATTTCAAAACTACATACTTGATGAACCTATTAATAATCTTACTTTAAAAATTTTAAAATTAGCTCATAAATATTCTACAAAAATAGAATTAGAAATATTAAAAAAACAAAATTTAGATGATAGAGTTGATCCTATTTTAAATAAAATTTTTAATGATTTAACAAGATTTAAAAATTTGGCTTCATATAAATTTCTCACTCAAAACAAAAATTTTGAAGAACTTATTAAAATAATTCAATATTTAAGGTATCAAGAAAGATGGAATCAATCGCCTAGAGTTCCTAGAACATCTGTCCTTGGTCATAGTATGTATGTAGCATCCCTTACATTTATTATTTCTACATCTTTAAATGCTTCACAAAGTAGAATAAGAAATAATTTTTTTACAGCACTTTTTCATGATTTAATGGAATCTGTTACTCGTGATATAATTTCACCTGTAAAAAGAGCCACTTTAGAACTCCCAGATATAATAAAAAATATTGAAAATGAGATAGCCGAAGAAGAATTATATCCATTTATCGATTATGGCTTAGATGAAATTAAACTTTTCTCTGAAAATGAATTTGAAAGTCGTGTTTTTATTGATAATAAATGGCAAACTGTTTCTACTGATGAAATACAAGAAAAATATAATGATGATAATTATAATGCTATTGATGGTGAAATTGTAAAAATTTGTGATGAATTATCAGCTTTTATCGAAGCTTATCAATCAATTGAATATGGAATATCTTCAAAACCTTTAAAGTCTGCTATTACAAGTATAAGTGAAAAATATAAAAATAAAAAAATAGCTAATATCAATATTGGGAAATTATACCTTGATTTTTAACTTTATTCTTAATTTAGTTTAATAAAAAAATCCGTAGTTTGAATCTACGGATTTTTTTTTAAATATTTATTATAAAATAATATTATTTTTTCTTTTAATTCCTCTCTACTAATACTATTATCTATAATAAAATCAGCTAATTCTTTCTTTTCTTCTAAACTCATTTGTGATTCTATTTTTTTTATTGCATATTCTCTAGAAATATTATCTCTTTTCATTAATCTATCTATTTGTAACTCTTTATTTGATATTATAAGCAAAGTTTTATCACATAAATATTCTAATTTAACTTCAAATAAAAGTGGAATATCTAATATAAGATTTTTTTTATCATTGTTTAATTTTATTTGATTTTTTATTTCATTAATAATTTTGGGATGCATTATTCCATTTAATTTTTCTCTTAATTCTTTATTATCAAATATAAGTTTTCCTAAAACTTCTCTATTTACTTCATCATTTTTTATTACTTTACTACCAAATTCCTTTTCAATCTCTTTGATTACTTCTTTTTTTTTAGAAACATCACGAGAAATTTTATCAGCATCAATTACAACTAATCCCAACTCCATAAAAATTTTACTTACTTCAGATTTGCCACAAGCTATACCACCTGTAAGCCCTAATATCATTACTCTTCACTCCATATTTTTAAATTTTTTTCTATAAATTCTATTATTTGATTATGCTCTTTTTTTCCATTCCCCTCTATAGAAATTTTTTTTCCAAATTTAATATATATTTTTTTACTTCTATCTATTTTCCCAAAATCTTTAATATATTTCCCATTTCCCCAAAAATCAGTTTTTATTGCTATAGGTACTACATCTACATTTGCTTTTTTTCCTAATTTTATTCCTAATGAATTAAATTTTTTAGGATCAAATTCTACTGTTCTTGTACTTTGGGGAAATATTATTACTGATATACCATTTTTTAATTTTTTTACACCTTCATTTATTACTTTTATTAAATCTTCTCTTGAATTTTCTCTACTTACTGCTATAGGATCTCTAGCTTTCATTACTGGTCCAAAAAAAGGATATGTTAAAAGAGTATCCTTTACAACAAAAGTACATTCTAAATAAGGTGCTATAATTGATGGAAAAACCATAGTTTCTAACGTACTCATATGATTACTTATAAATACTACTGGTTTATCCAATTTTGCTAAATTTTCTAATCCTGATATCTCAAACCTTCCTCCAGACCCTTCTATTAATTGAAATATATCATAAGAAGTTTTTGCCCAATTTTCTGTATTGTAAATTCCTTTTAATGCTAACTTTCTACAATTTAAAACTATTTTACTATATTTCCAAAAAAAAGCTACTCTTGTATTAAATACTAATCTATCTAGCAAAAATCTTTTTTTATTAACTGGTGTTGTGTATGTATTGCCTTCAAAATATTTCTTCATAAAAACCTCCCACTTAATTTTTATTTCTTATTATATCATAATTTTATTTTTCTTTGCACTAGATTATTTTTATTAAATATAGTATTATTTTATGTAGAATAATACTATATTTATAAAAGTAATCAATAATCTATATATACAATTAAAAATTAGGAGGATTAAACATGGATATACTCAAATTTGCAAAAGAGATTTTTGAAATTGAAATTAATGAATTAAACAAAGTAAAAAATAAATTAGATAATTCATTTGAAAAAGCAATAAATTTAATTCTTAATTCTAAAGGAAAAGTTGTTGTAACTGGTATAGGAAAATCTGGAATTATCGGTAAAAAAATTGCTGCTACTTTTGCTTCTACTGGAACTTTAGCAGTATTTATGAATGCTGCCGAAGGAATACATGGTGACCTTGGAATGATAAGTAAAGATGATATTGTACTAGCTATTTCAAATAGTGGAAATAGCGATGAAGTAATTTCAATTATTCCTTCAATCAAAAAAATAGGTGCTACTCTTATTGCTCTTACTGGCAATAAGAAGTCCATTTTAGCAAAAGAAGCCAATTGTATACTTAATATTGGCGTTGAAACAGAAGCTTGTCCTATTAATTTAGCTCCTACTTCTTCTACTACTGCTACTTTAGTTATGGGTGATGCTTTAGCTGCTACTCTTATTAAATTGCGTAATTTTAAGCCAGAACACTTTGCTATTTATCATCCTGGAGGAGCTCTTGGAAAAAGATTATTATTAAAAGTAAATGATGTAATGCATAAATCTAATAATTTAGCAATTGTTAACTCTAATGCTCCTATTGATAAAATTATTATTGAGATGACAAATAAAAATCTTGGAGCTGTATGTGTAGTAGAAAATGATATTATGGTTGGTATTATAACCGAAGGCGATATACGTAGAGCATTAAAAAATAAAGAGAATTTTTTTAACTATATCGCAAATGATATCATGACAAAAAATTTTACTTATATAACTGAAAATGATATGGCTATAAAAGCTTTAGAACTTATGGAAAATAGAGAAAGTCAAATTTCTGTACTCCCAGTACTTAACAATAAAAAACTTGTTGGGCTTGTACGTATTCATGATTTATTAAAAGTTTCTGTATAATTTGATAATCAAAATATTGACCTGCAAATAAAAATATGTTATAATTTTTTATAATAATAATAAGGAGGATTTAATAATGGTAACTAAAGATAGTAATATATTAGAAGCTGTTCAAAAATACCCTGTAATTGCTCAAGTATTCCAAAGATATGGTCTTGGTTGTATCGGATGTATGGTTGCATCTGGAGAAAGTTTAGGAGAAGGAATTTCTTCTCATGGATTAAACGCTGATGCAATAATTGCAGAAATAAATGACATCATTTCAAAACAAGAAGCTAATAAATAATTTAAATAAAAAAGCTGTTGAAAAAATTTCAACAGCTTTTTTGTCATTTTTTTTACACTAATTTATTTTTTATTTTCTTTTACTATTTTTATAAAATATTTATGAACCCTATTATCATCTGTAAGTTCTGGATGAAATGAAGTAACTAAAATATTATTTTGCTTTGCTGCCACTATATGTCCATTTACTTGTGATAAAACTTCTACATTATTTTCAACAGCTTCAATATATGGTGCTCTTATAAAAGTCATTTTAATTTTTTCGCCTATATTTTTTACATATTCTTCTGTATAAAAACTTCCTAATTGTCTTCCATATGCATTTCTTCTTACTACTATATCCATTACTCCTAAATGAATTTTATCATCATTCACAATTTTTTTTGCAAGTAATATAAGTCCTGCACATGTTCCAAATATTGGTAAACCTTCTTTTATTTTTTCTATCAAACTATCTTTTATATTTAAATCTACTAAAAGTTTTCCAATAGCTGTACTTTCTCCTCCAGGAATTATAAGTCCATCTATTTCATTTAATTTTTCTTTTTTTCTTATTTCTATAGCTTCTACATTTAAATTTCTTAAAATATTTATATGCTCAATAAAAGCTCCTTGGAGTGCTAATACTCCTATCTTCATACTACCACCCTCTTTTAGCCATTTTTTCATCTTCACTAAGAGTATGAATTCCTATTCCTACCATTGCTTCTCCTAAATCTTCTGATATTTCTGCTAAAACTTTTGGATCATTATAATGTGTAACTGCTTTTACTATTGCTTGTGCTCTTTTTCTTGGATCTCCTGATTTAAATATTCCAGAACCAACAAAAACTCCATCACAACCAAGCTGCATCATAAGAGCCGCATCGGCTGGAGTCGCTACTCCTCCTGCCGCAAAATTTACTACTGGTAATTTACCATGTTTATGTACATATTTTAATAATTCTAATGGAACTTGAAGTTCTTTTGCTGCATTATATAATTCATCTTCATTTAATGATTTTATTCTACTCATTTCACTATTCATTGCTCTCATATGTTTTACTGCTTCTACTACATCACCTGTTCCTGGTTCTCCTTTTGTTCTAATCATTGAAGCACCTTCTGCTATCCTTCTAAGTGCTTCTGATAAATTTTTTGCCCCACATACAAATGGCACACTAAATTTTGTTTTATCTATATGATATTTATCATCAGCTGGAGTTAAAACTTCACTTTCATCAATATAATCTATTTCTAACGCCTCTAATATTTGAGCTTCTACAAAATGACCTATCCTTACTTTTGCCATTACTGGTATTGATACTGCTTCTTGTATCTCTTTTATCATTTTAGGATCTGACATTCTAGCTACTCCTCCGGCTGCTCTAATATCTGCTGGTACTCTTTCTAATGCCATTACAGCACAAGCTCCTGCTTCTTCTGCTATTTTCGCTTGTTCTGCATTAGTAACATCCATTATTACTCCGCCTTTTAGCATTTGTGCTAAATTTTTATTTAATTCATATCTATTATTCATATTAATTCCCCCTTGAAATTTTATAATACAATTTTATATAATTGTATTATAAATATATAAAAAGTCAATTAAAAAACTTTACGATTGTACTAGTACAATTTAATTTTTAGAAACCATTGCTTAACTATAAAATAAAGAAAAGGAGAATTAAATTGAATATAAAAATTAATTTAAAAAATAATAAAAAATTATATGTTCAAATATTTGATGAAATTAAAAAAAGAATTGAAAACGGAGAACTAAAATCTAATTCAAAACTTTTATCTATTAGAACTTTAGCAAAACAGTTAAATGTAAATCCTGCTACTGTTATGAAAGCATATGATTTATTAGAAGAAAAAAATTATATTTATAAAATTACTGGTAGTGGCTGTTATGTAAGTAATGAATTTGAAAATATTGATAAAAATGTAGAAATTGATATAGTAAATATGAATTTTAATAAAAATATTAAAAGATATTATGACCTTGCTAATAGTTATCCTGATCGCTCATTTTTTAAACTTCATATTTTAAAAAATTCAATAAATGATTCATTTAATAAATATGGTATAGATATGTTTTTTTATAGTGAAATTGACGGTGACAAAACTCTAAAAAAACTTATAGTCGAAAAATTTTATTCAAAACATAGAATAAATAATATTGATAAAATTAAAATTCTTTCTAGTAGTACTCATGCACTTGATATTATTTGTAAAAAATTATTAAAACCTGGAGATAAAATAGTAGTTGAAGGATACACTAATCCAAATGCATTATCTATATTTAAAAAATATAACATACAAATAATATCTATTTCACTTGAAAAAAATGGTATAAATATCGAAAAATTTAAATCATTGCTTAAACAAGAAAAAATAAAATTTCTTTATACTATTCCAAATTTTAACAATCCTACTAATATAATAACTACTGATACCAAAAAAAAAGAACTAATTAATTTAGCTAAAAAATATAAATTTTATATTATAGAAGACGATGTACTTTCTGATATATCATTTAATAAAAAATTAAATACTTTAAAAAGTTTTGATTTTAATAACACTAACGTTTTTTATCTATTTAGTTTTTCAAAAATTTTTTTACCTGGCATAAGATTATCTTATGTAACTATTCCAAATAATATTAACACATTAAATATAGAAACTTCTCCTTCTATATTTATCCAAAAATTTTTTTATAAATTTCTTAAAAAAATTGATTTTGAACGTTATAAAAACTCATTAAAAATATTTTATGAAAAAAAATATAAATTTTTTAAAGAAAATCTAGAACAAATAGAACAAATAGAAATTTTAAACAATTCTGAAGGGGGTTTTTATTTTTGGATAAAACTTCCTAATTGGATGGATAGTAAGAAACTTTATGAAATATGCTTAAAACATAATTTAGCTATAATTCCAGGAAATATTTTTCATCATAAATATATTTTCTCAAATTATATAAGAGTTAGCTATTCTTCAATTGAAAAAGAAAAAATTTTAGATGCTATAAACATTTTAAAAAAATGTATTTACAATTATTCTGTATTAAAAAAATGATATTTTTGTACTATTTTTTTATAAAAACATTGAAAATTTTGAAAAAATATAGTATCATTAATAATTAAAAATTTAAATGAGGTGAATAAAAAATGTCTAAACTTCTTATGACTCCAGGTCCTACTAATATTCCAACTGAAGTACAAAATATACTTGGTCAAGATATGATTCATCATAGATTTGATGATTTTCATAAAATTATGGAAAATTTAAATGAAAAACTAAAAAAAATATTTTTTACACAAAATGATGTATATACTATGACTTGTTCTGGTACAGGTGTTATGGAAACCGCTGTTGTAAATCTTTTTTCTAAAGGTGAAAAAGTTGCTATTGTAAATGTAGGTAATTTTGGTAAAAGATTTGTACAAATATGCAAAGTTTATGGATTAAATGTAATTGAATTAGAATATAATTGGGGAGAAACTTATAATATAAATGATATTAAAAAAGTAATCTCTGAAAATAATGATCTAAAAGGAATTTTTGTAACTCATAGTGAAACATCTACAGGTGTATTAAATAATATAAAAGCTATCGGTGAATTAACTAAAAATAGCGATATTTTATTAATAGTAGATGTAATTAGTGGTATGATAGTTAACGAGTTTAGATTTGATGAATGGAATGTAGATTGTGCAGTAGCTGGAAGTCAAAAAGGATTTTTATTACCACCAGGAATAGCATTTGTATCTATCAGTGATAAAGCTAAAAAAGCTCTTTATAAATCCGATTTACCAAAGTTTTATTTTGATTTAAAAGTTACTATAAAATATTATAATGAAAAAAAAGAAACGCCTTGGACTCCTGCAATACCTATTATTCGTGCTGCTGAAGTAGCTTGTGATTTATTATTAAAAGAAGGTATTGAAAATATACAAATCAAACATACAAAACTTAGAAAATATGTAGAAGATGAAGTTCAAAAACTTGGATTTAAACTATTTGTAAAAAATCCTGAAGCTAGAGGAAATACTCTTGTTACAGTTTATAGAGAAGATAATTTAGATTTAACTAAATTAAGAGATTATATTGATAATGAATATAATATAACAATTGCTGGTGGTCAAGGAAAATATAATGGAAAAATATTAAGATTTGGATGTCTTGGACTTTTGACAATACAAGATTTTAATAATCTTTTTAAAAAAATTAAAAAATATATAGAAGAAAATAATTAATTTTTTAATATCTAGATAATTAATTTTATCTAGATATTTTTTATTTATATATATTTTAAATATTTTTTTGATATTTAATAAAATTTTTTATAAATAATTATACTAAGAAATTTCTTTTTTATTGACTATTTCTATCAAAAAAAATATAATTATAAAGAGAAAAATAATTTTAATTGTAAATTTCAGGAGGAAATTTTATGCAAAATAATATAGATATCGGTAGACTAATACCTATGATTACTAGTCTTGATTATGAATTTACAAAATCTGAAAAAAAAGTAGCAAAGCTTGTAATTAATAACACAGAAAAAATAATTTATAGCTCTATTACAGACCTTGCAGATCTAGCTGAAGTAGGTGAAGCTACTATTATAAGATTTTGTAGAAAATTAGGCTTTAAAGGATTTCAAGGATTTAAAATGGCTTTAGCTCAAGAATTATCAATGAATAAACAAACACCAACAAATTTATCAATAAATACGCCTATTGAAGAAACTGATTCATTAGAAATTATAGCTAAAAAATTTTATACAGTTAATGATAAAGCATTAAAAGAAACACTCTCACTTTTAGACTATACTAGTTTAGAAAAATCTGCTGAACTTGTATCAAGAGCCGAAAGGGTTTATTTTTTTGGAGTGGGATTCTCCGGAACTACTGCAATGGAGTCTAAATATAAATTTATGAGACTTTCTATAAATTGTGATGCTTATACTGATAATCATTTTATGGCCATGGCAGCTTCTCTTCTTAATCCTAATGATGTTGTTATCGGGATATCTCATTCAGGAAGTTCATTGGAAACTGTAAAAGGACTTGAAATTGCTAGAAGTGTTGGTGCAAAAACCATATGCATTACTCATCATGCAAAATCACCTATTACAAAACATGCTGACATTACACTATTAAATGGTTCAAAAGAAGGACCTTTACAAGTTGGAGGAGTTGGAACTAAGATTGCTCAACTTTTTGTTATTGATCTTATATATACACAAGTTGTTAGAATTAATAAAGATAAAGCTATTCGTAACACAAAAAAAACTAGAGAAGCTATCGAAAAAAAATTATATTAATAAATATAATAAAATCAATATTTACTGATTTTTTAAAAACTTTTTTTATTTTTTTTATTGACATCCTCTTTATCTTATGATAGAATTATTTTCGTCGAAAGCGTGGAGGAATGTCCGAATTGGCTAAGGGGCCGGTCTTGAAAACCGGTAAGGCGCAAGCTATCTGGGTTCGAGTCCCAGTTCCTCCGCCACTCAAGTTTAATATGGAGAAATGGCAGAGCTGGCCGAATGCGCACCCCTGCTAAGGGTGTATACCTCCGGGTATCGAGGGTTCGAATCCCTCTTTCTCCGCCAGATGATTAAAAAGTGGATAATCCACTTTATTTTTTTATGTGCACCCATAGCTCAATTGGATAGAGCACTTGACTACGGATCAAGGGGTTAGGGGTTCAACTCCTCTTGGGTGCGCCAAAAAAAATATTTGACAAATATTTTTTATGTGATATAATATATTGTATTTTAAAATCAAATATATTTTGTAAAGAAGAAACCTGTGTTTCTCACCTTACGGGCTAAAGGCTTACATAAGGTCATTTAATAGTTAATGTAATTTATAGGTTTATTTATATATATAATAAATAACTATTAAGAGAGACAGGGTATTTATATACCCTGTTATTTTTTTAGGAGGTGTTTTTTATTTCTCAAAAGACGCGAATTAATGACAAAATTCGAGCAAAAGAAGTAATGGTTATCGGTGATAATGGTGAACAATTAGGAGTAATGAAATTAAATGATGCACTTGATTTAGCATCAGAAAAAAAACTTGATTTAGTTGAAGTAGCTCCAAATGCTAATCCAATTGTTTGTAAAATAATGGATTACGGAAAATTTAAATATGACAAAGAAAAAAAAGCTAAAGAAGCTAAAAAAAATCAAAAAGTTGTTGTTGTAAAAGAAATTAAATTTAAATCAAGAATTGACAAACATGATTTTGATACTAAAGTATCTAAAATATCTAAATTTTTAGAAAAAGAATACAAAGTAAAAGTTAGCTTAATGCTTTTCGGTAGAGAAAGAATGCATTCTGAAATTGGTATTAATTTACTTGACCAAGTTGCTGAAATATTTGCTGATAAAGCAGTTGTAGATAAAAAATATAATGAAGCTCAAAAATTTTTAATGCTATCACCTAAAAAGCAATAAATTTAGTATATAGCAGAATTCTGGAAGGAGGAAATATTTATGCCTAAAATGAAAACTCACAGAGGAGCAAAAAAAAGAGTTAAAGTTACTGGAACAGGAAAATTCGTTGTAAAACATTCAGGAAAAAGTCACATATTAACTAAAAAAGATAAAAAAAGAAAAAATAATCTAGGAAAAGATATGGTAGTTCCTGAAGCAGCTGCAAGAAAATTATCAAAATTATTACCATCTAAAGAAGGAAGATAATTCCTGTAAATCAAATTTTTGTATAAGGAGGATTTAGTCAATGAGAGTAAAGACTGGTATCGTTAGAAGAAGAAGACATAAAAAAATCTTAAAACAAGCTAAAGGTTTTAGAGGTGCTAGTGGTACAGCTGTAAAACAAGCTAAACAAGCTACTATGAGAGCAGCTGCTTATGCTACTAGAGATAGAAAAGTTAAGAAAAGAGAAATGAGAAAATTATGGATAATCAGAATAAATGCTGGAGCTAGAGCAAATGGATTATCATATAGTAGATTCATGAATGGATTAAAATTAGCTGGTATCGAATTAGATAGAAAAGTATTAGCTGACTTAGCTTTAAACAACCCTGCTGAATTCACTAGCTTAGTTGAAGCTGCTAAAGCTGCATTATAATTTATTAAAAAATAATTTTAATAAACTTAAAAACTGTTGAAATAATTTTCAACAGTTTTTTTATTTTTTATTGCATATTATTTATAATTTTGTTATAATATTTTTTGGTGTGAAAAATAATAATAGGTGATGTTATGAATATTTTTATTTTTTTTAAAAAAAATAATGTTTTTCAAAAAAAAATATCACAACAACTATATACAAAATTATATAGATTAATATAACCTGAGGTATAGCTATAGCTATATCTCAGGTTTTTTATTTAAGGAGGAGATTTCATGAATTACGATGTTATTATCATTGGTGGGGGACCTGCAGGAATATTTACAGCTTACGAACTAGTAAAAGAAAAAAAAGATTTAAGTATTTTAATTATTGAAAAAGGAAAAAATATTTACAAAAGAAAATGTCCAAAACATTATAACGGTGGAACATGTGTATACTGTAGCCCTTGTTCTATAACTACTGGATGGGCTGGAGCTGGAGCTTATTCTGATGGAAAACTTTCATTATCTCATGAAGTTGGTGGAAAGTTACCTGAATATATTGGAGTAGAAAAAACTCAAGAACTTATAAAATATGTAGATAATATTTATTTAAAATTTAACGCTTCAAAAGATATACATGGAGAAGTTGAAAATAAAGCTATGAAAAAAATAAGAAAAAAGTCTATTAAAGCTAATTTAAAACTTGTACATTGCCCTGTAAGGCATCTTGGTACTGAAAAAGCTCAAGAACTATATGCTAAATTATATGAACATCTAATCGATAATAATGTAACTGTAAAATTTAATACTATGGTTGAAGATCTTATTATTGATAATAATAATGTAATTGGTATAAAAACAAAAGAAGAAAATATTTATGGAAAATATACAGTTGCTACTGTCGGTAGAGAGGGTTCAAACTGGTTAATGGATATTTGTAAATCTCATAATATAAATACAAAACCTGGAACTGTTGATATTGGTGTAAGAGTTGAATGTAGAAATGAAATCATGAAAGAAATAAATGAAAATTTTTACGAAGCAAAAATGATACACTATACTAAAACTTTTGATGATAAAGTAAGAACTTTCTGCTCAAATCCTGGGGGATTTGTTTCTTCTGAATATTATGATGATAAATTAGCTGTAGTCAATGGTCATAGTTATAAAGAGCTTAAAAGTAATAATACTAATTTTGCTTTATTAGTCTCAAAGAATTTTACAGAGCCATTTAAATCGCCTATAGAATATGGTAAACATATTGCAAAACTAGCTAATATGCTTACTGAAAATAAAATTCTTGTTCAAAGATTTGGAGATCTTATACGAGGTAGAAGAACTTATGAACATAGATTATATCGAAATAATATTATTCCTACACTAAAAGATGCTATACCCGGGGATCTTAGTTTAGTATTGCCTCATAGAATATTAGTAGATCTTATTGAAATGATATATGCACTTGACAAAGTAACCCCTGGTATTGCAAGTGATGAAACATTACTTTATGGTGTAGAAGTAAAATTTTATTCAAATATTGTAAAAGTAAAAGAAAATTTTGAAAGTATTTCTATAAATAATCTATATTTAGGCGGAGATGGAGCTGGTATTACACGAGGTCTTATGCAAGCTTCTGTAAATGGAATTGTTTTAGCTAGAAATATTTTAAAAAATTTTTAATCAAAAAAAAGAGTCTAAATAGTAATGCACTCCAAAAGTAGACACAATATAAAACATTTGTATCTTCATTTTGGGGTGCATTTTCAGTTTTTTAGTCTCTTTTTTTATTTATAGTAAATATTAATCTAATAATTCTAAAAAAGAATTCATTACTTTTTCCATTTTTTTATTAACTTCTTCTTCACTAGCTGCATTTACTCCAAAATAATATTTTATTTTAGGTTCTGTACCCGATGGTCTAGCTGTAATATATGTATTATCTTCTAATACTAGTTGTAATACATTTGATTTTGGAAGTTCTAAAGCTTTTTCTGTTTTCTCTTTTTTATTTATTTCAATTTGTTTATCAAAATCTCTTAATATAACTACTTTTTTACCATTTATTTCAGTTGGAGTATTTTCTCTTAACTTAGTCATTATAGACGTTATTTTTTCAGCTCCTTCTTTACCACTCATAGTTATAGCTTTTATTCCTTCTTTATACCAACCAAATTTTTCATAAAGTTTTTTAAGCTCTTTTGCTATACTACTTCCTTTAGCAGCATAAAATGCTGCCATTTCAGCTATTATCATAGTTGTTACAACTGCATCTTTGTCTCTTGCATGTGTTCCTATAAGATAACCATAGCTCTCTTCAAATCCAAATATATATTCTCCATCAAGTTCTTTTGTTTCAAATTGTCTTATTTTTTCTCCTATAAACTTAAATCCAGTAAGAGTTTTCATTACTTCTATATTATGAGCTTTTGCTACTACATCAACCATAGGTGTTGATACTACCGTAGTTATTATTTTTCCGTTTGTAGGTATATTTTTTCTATTTGCTAAAATATATTCTACTAGCAAAAGTCCTACTTGATTTCCATTAGGATATATCCATTTTCCATTTTCATCTTTTACAGCAATTCCTATTCTATCTGCATCAGGGTCATTTGCCATTACTATTTCAGCACCTTTTTCTTCTGCTAATTTTATTCCTAACTTAAATACCGCTGGATCTTCAGGATTTGCATATCCTACTGTAGGAAAAGTTCCATCTGGTTCTTCTTGTTCTTTTACTGTATATACATTTTTAAATCCCACTTCATCTAATATTCTTTGAACTGGTCTTCTTCCTGTTCCATGAAGTGGAGAATATACTATTTTAAACTCTTCTTTTCCTGGTATATCCATATTTATTACTTCTTTTTTTATTGTTTCGATATACTTATCATCAAGTTCTTTTCCTACAATTACTAAAAGTCCTTTTTCTTTTGCTTCTTTTTCTGATATTAATTTTATTTCTCCAAAATCTTTTACATTTTTTACTGCTTCTACTACTCCACTTGCATGAGGTTCTACTATTTGAGCACCATCATTCCAATACACTTTATATCCATTATATTCTACTGGATTATGAGAAGCTGTTACGACAATTCCAGCCTGTGTTCCTAATTCTCTTACTGCAAATGATAATTCAGGTGTTGATCTAAGTGATTCAAATAAATATGACTTTATTCCATTAGCTGCAAGGACTAAAGCAGCATTTAAAGAATATTCTACAGAACCTATTCTACAATCATAAGCTATAACTACACCTTTTTCTTTTGCTTCTTTTTCATTTACAGAAAGCATATAATTAGCTAATCCTTGAGTAGCTTTTCTTATCATATATTTATTCATTCTGTTAGTTCCTATACCTCTTATACCTCTCATACCACCTGTACCAAAAGCTAAATCTGTATAAAATCTCTCTTCAATCTCTTTTTTATTATCTTTTATTGACTCTAGCTCTTTTTTATCTATATCGTCAATAAATGATGAATTTAGCCATTCTTCGTATTTCTTTATAAAACCCATTTGTTCTCCTCCTATTTTTAATGAATTCTATATAATTTTAATAGATTTTCTAAAAAAAATCAAGGAAAATAAAGAATTTGAAATATATTAATCTTTTAAGAAGTTTTTTTAACTTTAAAATAAAAAGAGTTATTAGTTAAAACTAATAACTCTTTTTATTTATTTGTTTCCAAAATATCTTTCTAATAACCCTTTAAATGCTTTTCCATGTCTAGCTTCATCTTTAGCCATTTCATGCACTGTATCATGAATAGCGTCAAATCCTAATTGTTTTGCTCTTTTAGCAATATCAAATTTTCCACTTGTAGCTCCATATTCTGCTTCCACTCTTCTTCTTAAATTTTCTTCACTTGAATCAGTAACTACCTCGCCTAATAATTCAGCAAATTTTGCTGCATGCTCTGCTTCTTCAAAAGCTATCCTTTTATATGCTTCTGCAATTTCTGGATATCCTTCTCTATCTGCTACTCTTGCCATTGCAAGGTACATTCCTACTTCTGTACATTCACCTTCAAAATTAGCTCTTAAGCCAGATATAATCTCTTCATCACCACAAGCTAATCCTTCTCCTAATTTATGTTCAGTAGCCCATATTAATTCTTCGCCTTCTTTAATTTCAACAAATTTATCTTTTGTTGCTTTACAAACTGGACATACTTCTACTCCTTCTTCTAATATTTCTCCACATACACTACATCTAAATTTTTTCATAAATTTCATCCTCCTTTTATGTTTTTATTTCATTTTTGTAATAATTACAGAATAATAATATCAATTTTTCTTATATTTGTCAATATTTTTTTAATAAAATAAAAAAGCTATCGACATTAATCGATAGCTAAAATTTTATATTTTTTTTATTGTATTTTCTACTCTTTTTAAAGTTCTTTCTTTACCTATTACAGCAATTATTCCATATAATTCTGGTCCTCTACCCTCTCCAGTAAGTATTGCTCTAAGAGGCATAAGAACTTTACCTGGTCCTTCTCCTAATTCTTCCATTATTTCATTAAGAATTTCTTTTGCTCTATCTTCTGAGATATTTTCAGATTCCATTTTAATTTTTTCTACAAATAAATTAATTGCTTTTTTTCCTACCTCATCTTCTAGTGCTTTAAGAACTCTTTCTACTGATTTTCTCTCTTTTCTGTTCATTTCTTCTGTTACAACTGGTAATTCAAAATTATCTTCATAATATATTTTTGATTTTGTAGCTAACTCTTTTAGAGTTGTAGCTCCATCTCTAAGTATTTCAATAACTCTTCTTAACGCTTTATATTCTTTATCTGTTAATTCTTTATTAATATATCCTATTTCCTCAAAATATGGTTTAGCAAGTTCTACTAATTCATCTAAATTTTTTAATTTCATATGTTGATTATTTACCCAACCTAACTTAACTAGATCAAATACAGGCCCACCAAGAGATATTTTATCAAAATCAAAACTTTCTACCATTTCATCAAAAGTAAAAATTTCTTTATTATTTCCTATACTATATCCCATAAGACCTAAGAAATTTAATATAGCTTCTTTTAAATATCCTTCTTCTTTATAATAATTCAATGAAACAGGATTTTTTCTTTTCGATATTTTAGTTTTATCTTGATTTCTAAGAAGTGGCATATGTACCCATACAGGTTCTTCCCATCCAAAGGCTTTATATAATTGAATATGTTTTGGTGTTGATGCTATCCATTCTTCTGCTCTTATTACATGAGTTATTCCCATTAAATGGTCATCTACTACATTAGCTAAATGATAAGTAGGAAATCCATCTGATTTTAATAAAACTTGATCATCAATTTTATTATTTTCAAATTTTACTTCTCCTCTAAGTACGTCTTTAACTATTGTATCACCTTCATAAGGCATCTTTAATCTTATTACATATTTTTCTCCATTAGCTAATCTTGTTTCTATCTCCTCTTTTGATAATGATCTACAATGTCCATCATACCCTGGAGCTTTCCCCATAGCTTTTTGTCTTTCTCTTAAATTCTCTAGTCTTTCAGGAGTACAAAAACAATAATATGCCATTCCTTTATCAACTAATTCTTTTGCATATCTCGAATATAATTCAAATCTTTCTGATTGTCTATATGGTCCAAATTCTCCTCCTACATCTGGTCCCTCATCATAGTTAAGTCCTAGCCATTTTAATGAATCAAATATTTGTTGTTCCGACTCTTTAGTTGATCTAGTTTGATCTGTATCCTCTATTCTTAATAAAAATTTTCCATTATTATGTCTAGCAAATGCTAAATTAAATAATGCTATATATGCTGTTCCAACATGTGGATCTCCTGTTGGTGACGGTGCTATTCTTACTCTAACTTCTTTTGACATTTTTCCTCCTCTATAATTAAAACTATTCTATTATTATTTTATCTTTTTTAAATTTTATTTTGTTTATTATTATATCTAAATTTAAATCCTCAGCTTTAAAAAAAGGATTTAATCTTTCTTTAAATGATTCAACAATAAATTTTGGTACTGCTATTACTCCAACTTTTCCTTTTTTTATATCAAAATATATTTCATTATTTTGAATATAAAATGTACCTATAAGAGTAATCTTAAATATTCCACTTAGTACATTCGCTTTACCTTCAATAAGAATATTATTATTTTGTGTTTGTATTTTTATCTCTTTTATATCATTATTTCTTTCTAAAAATGCTTTTTCTAAATCTTTTGTGAGTAATTCTAATTTATTTTGTTGTTTTTCTTTATGATCATATATTATTATTTTATTAAATCTAACTTTATCATATACTAATCCTGTAATTTCGATTCCTTCTTTTATATCTGATATACCTTCTATTTTTTCTATTTTTTCAGATTTAAAAATTTTATCAAAATAATACCCTATATTATGATCTGCAAAAGTTGAAAATGAAATTGCTAGATAAAGTATCACACCAAATTTTTTCATAATTAGTTCCCTCACATTATTTTTTTATCATATATTCTCTTATCCCTATGTTTTCTACTTCATATTTCTCTTTATCTATTTTATAATCTTCTAATAGATTTTCAAAACTAAGTATTTTATAATTTTCTTTTAATCGAGACTTTCCTAAACCTGATATATAAAAATACGATTCATTACCTCTATTTTCAGCTGCCTTATTCATTAAAGAATTTAATTCTTTATAATTTAAATTTAAAATTATAAATTTTTCTTTAGTAAACATTTCATTAACTTCTGCTACAGTATAAAGTCCTTTTTTTATACCTTTTAATAATGATTTTTTAGGGAATATAACTGCATCTGTTTTGTAGGATTTCATTAATTTATCTGCTAAATCATCTAAAAATGGTACTTCATCACTTAAATATATTTCATAAGGATTAAATGTATTATCTGTATATCCTATTATTAAGCTATTTTCATTTTTTATCCTTACATCTGTCCAATTAATATAATTTCTAAAATCTCTGTCATAACCAAATTTTTCTGGTTTTAAAATATTTTCTCTTTTTAAAAGAGTAGCTGTTTTTAGTTTAAAGCCTATTTTATCTATACTTTGATTATCTTCTTGTTCATCATATTTAAAATCTAATACACTTATTCCATAAGTTGGTATTAAATAAGTATTATTTATCTTTTCTACTCCAAAATCATAAAGGTTTAATCTGCTTTCAAATAATCCTGTTATTTGAGGGAAATCTTGGATTATACTTACATTTTCTTCTCTTTCTAAATCTGTAACTACAAATAAAAAATCTACATTATCTTCTAGCATATACATAAGATTTTGAAGTTCTCTTTTATAACTAAGAGTTCCTTTTATATCTTCTTCATATATATTTGTTATTCCTACTACACATACTATATAGTCTTCCATTTTCATAAGTTGATATGGAAGAACATCTTTAGCTATTATATTTAAGGTAGACATTTTTATCTGTGTAGGATCTATTTTATCTCTCCATAAAAATTCTTGTTTCCCTAAAAAATTAAAATTAAAATTTGTTGTTTTATAAAAATTTAGCATTATATCATTTTTTTCAAGATATTCTGTCATATTATTTCCAACATTAATTTTTATTACATTATCATATTGCATCTCTTTTTCTTTTGTAATAGTATCTATTGCTATTTTTAAGGAATCTAATTTCTTATACTCTCCATTCAAAGCTCCCATTGAAATAATACTAAAGTTTACTGTACGTGCAAAGGTATTTATTGAAAATATCATAATAATAAAAATTACTAAATATTTTTTCATAGTCATACTCCTTATTTTTTTATCCATTTTAAATAAGCATTAATAAACCCGTCTATTTCTCCATCCATTACTGCTTGAATATTTCCTATTTCAAAATTAGTTCTATGATCTTTTACCATAGTATATGGTTGAAATACATATGATCTAATTTGATTTCCCCAACCTATCTCTGCTTGTTCTCCTTGTATTTTTCGCATTTTTTCTTCTTGTTTTTTTAATTCTATCTCTAATAATTTTGATTTTAATACTTTCATAGCTGTTTCTCTATTTTTAAGTTGGGAACGTTCTTTTTGACAAGTAACTATAACACCAGTTGGTATATGGGTTATTCTTACAGCTGAATCCGTCATATTTACATGCTGTCCACCTGCTCCACTTGCTCTATATGTGTCTATTTTTAAATCACTTGGGTTTATTTCTACATCTATATTATCGTCTACTTCTGGAATTACTTCAATAGATGCAAATGATGTATGACGTTTTTTATTAGCATCAAAAGGTGAAATTCTTACAAGTCTATGAATTCCTTTCTCACATTTTAAATATCCGTATGCAAGAGCTCCTTCTACTGAAAAAGTAATATATTTATATCCTGCGCCATCACCTTCTAAAGAATCTAATATTTCTATCTTATAATTTTTTTTATTACACCATCTACTATACAGTCTATAAAGCATTTCTACCCAATCACAAGCTTCTGTTCCACCTGCTCCCGAATGAATTGTAACAATAGCATTACTATTATCGTACTCACCATCAAGAAGAAGTGAAGTTCCAAATTCTTCTATGTATTTAGATAATTTTTTAAACTTAATATTTAGTTCTTCTTCGAATTCTTCTTCTCCAGATTCAAAAAATTCTATAAGGACCTCTATTTCTTCATATAAATTAACTATATCTTCAAATTTTTTTACTATAAGTTTTAAACTATTTAACTTTTTTATTGTCTCTTCACTTTTCTTTTTATCATTCCAAAAATCATTAGAATATGTAAGTTGCTCCAACTCTGATATTTTTGCTTTTTTATTATCTAAGTCAAAGATGCCCCCTGTGCTCTTCTAATATTTTGCTAAAATTTTCCATTTCTCTTTTTATCTCTAATATATCCATTCTGCACTCCTTTAATAATCAGTTTCACCAATTGTATATACTTCATCATTTAATGAATTTAAAAAAATTTTACCATTTTCAAGTTTTATGTTGTCATAATTTTCTACACTATTAAAATTCGTATTTTTTATAAAACCATTTAAAAAATCTTGTAGCACTTTATTCTCAGTTGTTACTACTACAAAATCATTTATATTTATTAAATATATTTTTTTATATAAAAGAGGGATTTCATACATTTTATATTTTTTTAAGTCTATAAATTCTATTTTTTTATTAAAAAACAATATTTTTTCATATATTTTTTTTATGATTTGTTCACTATTTAAATAATTATCTTTTTTAAAGAAAAAATATGTTCCATTTAAATATTTTATTTTTCCCGCCATATTTAAATCAAAATCAAATAATTCATTTTCAACATAAAATTCTGATAACTGTTTTTCTATCTCATTTTGCATATATTTTGTATTTCTTCCCATTTCAATAGATTCAAATTGTGGTGGTATAATATTTTCTAAATTATATTCTTTTAATATATTTGTTTTTTCACCTGGAATATAATATCTATTTATTTCACCGTTTTCCAATAAAAATTTTGATTTTGCTACACTTACTTTATCCTCTATTATTTCATCTTTTTCTATATAATATTTATATTTTGTATCTTTTTCTTCATAATTCATAAGTTTCTTAAAACTCTTTTTATCTTTTAAAAATTTTTCATTTTTTGTATCTATCATCCAAAAAAATAAGTTCATATCATCAGAAAAAATCAAATAATTATCATCATATCCATAAATATATGGTTTATCACCTAAAGAATATTTTATAGTCATCCCATTAAACGTCTCTGTTTCAAATTCATTAGATTCTATAAGTTTTTTGTCTAATCCTATCATATTAACTAAAATAATAAATTTTAATTTTTCTCCATCATTTAAAAAAACTACACTATATTCTTTATTTTCTATTACTTTTTCAATATCTATATTTTTAAAATTTTTATTTTTCTTCAAAATATCTATCTCATTTTCAAAATTCTTATCTAAAATATTAAAAATATTTTCTGTTTTAGAATAAAAATAAAAATAACTATTTTCTGGAAAAATATTTGCTCCAAAATTTTCTGCAAATGCAATTGTAGCTATAACAAAAAAAAGAAAAATTTTTTTCATACATTAACTCCTTAGTTTTTTTGAGTTTTTTTATTTATCAAAATAATTTTTTTTTAGCTCTTAATTTTTTGAATTTTTCTATATATTTTCAAAAAATCATCTATTGATTATACCATAACAGCTTAGTTTTTTCAATTATTTATACTCTCTGCTTAATTATTTATAATCAAACATTTTTACTCTTTTAATTATATTTTTTACTTCTTCTACTGTTACTTTTGGTATATGGGTATTATTTATATATACATTTGGTCCGATTGCACATTTAGCAAAACAATTTTGTATTTGAAGAGTTATTCCGTCTGAGGTAGTTTCTCCTACATCTATTTTTAATTGTTTTTTAAATTCTTCTAAGATAAATTCACTACCATTTGCACTACATCTAGCTCCTTTACATACTCTAATTAATACACTATTTTTAGTATCATCTTTTAATAAATCACTTTTTGATATGCATTCTTTTATCTCAATTAAAGGTATTTCTGTTTTTTCTGATATAAAATTTTGTACTTCATTTGGTAAATATCCATACTCAATTTGTGCCATATATAATATATCTTCAAGACCTTTTCTTTTATCTTTTATGCCTTTTATATAAAATTCTATATCATTTAATACTCTTTTTGATATTTTCATTTTTTCCCCCTTTTTTAATTATATTTTATAAATTTATTCTTTACTTATTACTATAGCAGTTGCAATAGCAACTTTTCTATTATGAGAAATTGTTATCATTATATCTATATTATCGTATTTTTCTTTTAATTTATTTCTTAAATTTACATATGGTTTACCTAATTTGTCATTTAATATCTCTATATCTGTTAATGAAAATTTTATTCCGGTACCAAATGCTTTTGCTACTGATTCTTTTGCTGCAAATCTACCTGCATATGATGCAAAAGGCGATGATTTTTTTTCTACTATTTCTATTTCTTTTTCTGAAAAAACTTTTTCTTTAAATTTTTTAGTCCTTTTTATTGCTTTTTCTACTCTTTCTATCTCTATTATATCATTTCCAATTCCTAATATTTTCATTTTTTCTCCATTTTCTGAAATATATCTATTTTTACATCTATTGTTATCTCTAGTTCATTTATTTTTTCTAATCTTTTTACTGCCTCTTTTTTAGTTTTCCACTTATATGGTGTCATATTAAATAAATTCATTATTTCTTGATTACTAGTCAATTTCTTATTATAATTTACTTTTTTAGTTTCTTTATGTATAAAATAATCTTTTGCCTCATCAACTATATCAACACTTTCTATTTTTACTTTGTCATATAACACTTTTTTTAATTCGATTAAGTGCATATCATCTGTTGATACAACTATAAGATAACCATTTTTTGATAAGAGTCTAAAATTTTCTTCTGGAATAAATCTACTAAACATAACTAATGAAATATCTATACTATTATCTAAAAAAGGCAAATTTAAGGCGCTTGCTACCACCCAATTAATATTTTTATATGTCTTCGCTGCTAAATTTATAGCTTCTTTTGATATATCTATACCACAAATTTCACTATTAGGTATTTTTTCTTTGATTTTACTAGTATAATATCCTTCACCACAACCAATATCTATTATTTTCATTTTTTTATTATTTGTTAACTTTAATATTATTTCATTAACACTTTTTGAAATCTCTTCATAAATATCTGTATTTAAAAAATTCCTTCTCGCTATTACCATTTCTTTGTCATCACCAGGAGTTTTACTTCTTTTTTTATTTGAAATAAGCAAGTTTAAATACCCTGATTTTGCCATATCAAATGTATGATTATTTTTACATTTATAGCTTTTATCTATTTTATCTATTTTTTGATTACATATTGGACAAATAAACATTTTAATCCTCTATTCTATATATTTTTTTTGCATTATTAGTTGTTACTTTTATTACTTCATCTATGCTTATATTTTTTAATTCTGCTATTTTTTCAGCAACATATTTTACATAAGTTGGTTTATTTCTTTTTCCTCTAAAAGGTGTCGGAGTAAGATATGGTGCATCTGTTTCTATTACTAATCTTTCAAGTGGTATTTTTTTTACTACTTCTTGTGTTTTCTTGTTATTTTTAAATGTTACAACTCCATTTATCCCAAAATAAAACCTATCTATAACACTTTTTGCTGTTTCATAACTTCCTGGATAACAATGAATTATTCCTGTTATGTTCTTTTTAGATTTTAAAATATCTATAGTATCTTTCATAGCTTCTCTTGTGTGTATAACTACTGGCTTATTAATTTCTTCTGCTAATTCTAGTTGTTTTAAAAAAGCTATCTTTTGTTTTTCTACTTCATCTTTCATCCAGTAATAATCAAGTCCTATTTCTCCAATAGCTAATACTTTATTATTTTTTTTAGCTATTTCATATATTTGTTTTAATGATTCTTCATTCATTTTTGAAATATCTGTAGGATGAAATCCTACTGTTGCATAAACAAAATCATATTTATTTGCTATATCTACACTTATTTTAGAACTTTCTAAATCATATCCTATATTCACTATAAATTCTAGTTCTTTTTTTGCCTCTGCTAATACTTCTTCTATATCATTTTTATATTTTTCACCATATATATGACAATGTGTATCTACTAATTTCAATTTATACCTCCATATTTAATTTTATTCTTAAATTATTAATATTTCTAAAAATTTTTTAATAATATAAATTAAAAATAAGTCCTTTAATTTTAAAGGACTTGCAATTTTTAGGTTTTATCTTAGATTATTTATCTAAATCTTTTTCTAGCATTTCTACTACATTTTTAAAAATTTTTTTATTTTCATCAGATAAACCCATTAGTGTTTTATGTGCTTCTAATATATGTTTTGCTTTTTCTGATTTATCATCAAAATCTTTATTTTCAAGCTCTTTTAATTCGACTTCTTGTTTTATATCATCAAGATGTTTCATTAAATTGTATACACCTGTTGATTTTAAACTTGTTTTAACCATATTTGATGAATTTATTTCATATAAAAATTGATTCCATTCTTTTTTCAATCTAATAGCTGTTTTAGCAATAAGTCCTAACATTGTACTATCCATATAATTACATTCTTCAAAATCTAAAACTATCTCTTTTTTTTCTCCAGTAAATATATTATTAAATACCTCTTCTAAGGTTTTACTATTTTTCATAGTTGCATTTCCCACAAATTTTATAAAAATTTCATTATTATACTCTCCAATTAAATATTTATTTTCTTTTATATCAGTACTCATAATCCAACCTCCCACCATTTAATTTTATTCTTAATTTATTATAACATACTTTTTTTGGATAAGTAAAATAATTTTAATAAAAAACTATCGAATTTTATCGATAGTTTCAATTTTTAATTATTTTTTAATATTAATTCAAAATCTTCTTTTGTATAACTATATTTTGTTTTACAAAAATGGCATTCTACTTCTATATCTTCCTGTGATTCTAATAATTTTTTTATTTCATCTTTTCCAAGTGATACTATTCCTCTAAAAAATTTTTCTTTATTACAATCACAAGTATAATTTACTTCTATTGTATCTAATATTTTATATTCTTCAACTAAGTCATTTGGATTTTCACTATTCATATCTTCATAAAGAAGTTTTGCTATTCTTTCTGGATCCATTCCACCATTCATAAGTTCTGTTACACTTTTTATTGCTTTAATTTTTTCTTCTAATTTTGTAATAAACCCCTCTTCTGCTCCTGGTAAAAGCTGGATTATATATCCTCCTGCATGTTTTATACTCATATCTTTATCTACAAACACTCCAAGTGCTACTACTGAAGGTATTTGTTCTGATGTAAAATAATAATAAGCAATATCTTCTGCTATTTCTCCTGTTTGAATTGGTGAAACACCTATATATGGTTCTTTCCCACCTATATCTTTTATTACTTTTAAAAATCCTTTTCCTATATATCCACCTACATCAAGTTTTCCATTAGTTTTTCTTTTTATTACTTCTTTATCATTTGCTATATATCCTTTTACATTTCCCTTGTTATCCGCTGTTGCAATTAATTGTTTTGCTGGACCATCACTATCTATTCTTAATGTAACACTTCCATTAGATACTTTTATTTCTTGCCCCATCATAAGAGCGGCTGTTAATACTCTCCCAAGTGCTGCTGTAGCAGTTGGTGAACTATTATGTATTTTAACTGATTTTTGAACTACATCTGTAGAATCTATTACCATAAATCTTGCATTTTTACTAATTCCTCTAATTAGTTTTCCCATTTTTTCCTCCTAAAAAAAATAAAACACCAATAGGTGTTTTTAATTTTAAATGGTACCGAGAGTGGGACTTGAACCCACAAGGAGCAAGCTCCGTCAGATTTTGAGTCTGATGCGTCTACCAATTTCGCCATCCCGGCATCTATCATATGCAAAAATTATTTTAGCACACTAATCTTCTTTTGTCAATATAGTTACTTTAGAAATTATATACATTAACAACAATTTTAAATAATACAATATTTTTTCATTTTTTTTGAAAAATAATTAAACATTTATAACAAACACTCTTATTAACTTAAATTTATTTATTAATCCAAAAAAATATTGACAATTTAAATATTTAATGTTAATATTATCTCATTAAACTTTGATTATCAAATTAAAAGTGTGTGGAGGTATTTGAATGAAAAAATATTGTTTGTTTTAACTTTTGTAATATCAAGTATTATTTTTGCTAAAAATGAAGTGAATGTCTATACTCATAGACATTATGACTCTGATCAATCTTTATTTCAAAAATTTGAAAAAGAGACTGGTATAAAAGTCAATGTTGTTAATGCAAGTGCTGATGAGCTTATTAAAAAATTAGAATTAGAAGGAAAAAGAACTCCTGCAGACATATTAATTACAGTAGATGCTGCTAGATTGCATAGAGCAAAATCAAAAAATTTGTTACAGCCCGTTATAAGTGAATCTCTAATAAAAAACGTTCCTTCACATTTAAGAGATAAAGATTCTTATTGGTATGGTCTTACTTATAGAGCTAGAGTTATTGTATATGATCCTAATAAAACAAATATAAATGATTTGTCCACTTATGAAGATTTAGCTAATCCAAAATGGAAGGGTAAAATCTTAACTAGATCTTCTTCAAATGCTTATAATCAATCTTTAATAGCTTCTATAATAGCTCATAACGGCGAAGAAAAGACTTTTGAATGGGCAAAAGGAATAGTTAATAATTTTGCAAGAACTCCTAAAGGAAATGATAGAGATCAAGCTAAAGCTGTTTTAGCTAATGAAGGTGAATTAGCTATAATGAATACTTATTATATAGGAAAAATGTATAATTCATCAAATGAATTAGAAAGAAAAGTAGCTAGAACTTTAAAAATATTTTTCCCAAATCAAAATGGAAGAGGTGCACATATTAACGTAAGTGGTATCGGTGTAACTAAATATTCCAAAAATAAAGAAAATGCTATTAAATTTATTGAATTTTTAACAAGCGAAGCAGCTCAAAAAGATTTTGCAGAAGCTAATTATGAATATCCTGTAAATCCAAATGTTGAAGCTTCTAAACTTGTAAAATCTTGGGGTAGTTTTAAAGCAGATACATTAAATTTATCAATTCTTGGTGAATTAAACGAAAATGCTGTTAAAATAGCTGATCGTGCTGGGTGGAAATAATGAAAAGTTTTAATAAATTCTCCAGAAATCAAACTTTTGATTTCTGGAATTTCCTTACTATTATCTCAACTTTTATAATTATTTTACCTTTATTATATATAGTTGTTAATATTTTTACCAAAACTAGTAACAATTTTTATCATATAATAAATAATTTGTTGTTTGACTACATAAAAAACACCTTTATTTTAAGCCTTTTTAGTAGTCTTTTTTCAGCTATTATTGGATATACTCTTGCATATTTTACTGTTTTTTATGATTTTAGATACAGAAAATTATTTGATATACTATTTATATTACCACTTGCGATTCCTACTTATATTGCAGGATATGTATATGGAGAACTTTTTTCTTTTACAGGATTGTTCAAAGGAAAAATTGATATTATGAATATATATGGAGGAATATTTATATTTTCAATATTTTTAGCTCCTTATGTATATATTATTTCAAAATCTTATTTATCAAAAATATCTTCAAATATAATAGAAAATGCAAAAATTTTAGGGAAAAATGATTTACACATATTTCTTAACGTATTACTACCTATGTCTAGAATAGCTTTAGTTTCTAGTGTTAGTTTAGTAACCTTAGAGATTATAAATGCTTATGGTGTTGTAAAATATTTTGGAATAAATACATTTAGCATTGGTATATTTAGAACTTGGTTTTCTCTTGGAGACAGTAATAGTGCTATAAAACTAGCTGCATTTCTTATGTTTACTACTTTTATAGTCTTAAGTTTAGAGAAAAATTTTAGAAAACATAAAAATTATTCTTATATAAATTCTAAAATAAAATCTATTAAAAGAAAAAAACTATCAAAATCACATGAATTTATCATAACCATATTTTCTTTACTATATATAATTATTGGATTTATCTTTCCTATTATTCAACTTGTATATTTTAGTATGCTTACTTATAAAATGATGCTTAATTATGAAACTTTTTTGTTAATATTTAAAACCTTTATATTAACTGCAATTTCTTCTTTAATTACTCTAATAATAGCTTTGATAATATCAAATAATGCTCGATTATCTAAAAATAAATTTTCTGGAATTTTAGCTAGAATTTCAAGTATTGGTTATTCTATTCCTGGAGCTGTTATAGCTATAGGTGTACTTATGCTATTTATTACTATAGATAATTTTTTTGATACATATTTTAGTATGAGTTTTATTGTGCTTATTCTAGCTTATATTATTAGATTTTTAGGTGTTGGATATAATACTATTAATACAAGTTTTTTAAAAATCGGATTAAAGTTTCATGAATCTGCTAGAACACTCGGTAAATCTAAAATATATACTTTTTTTAAAATAGATTTTCCTATGATAAAATCTTCTATTTTTTCTGCATACATACTTATTTTTATTGAAATAATCAAAGAATTACCTCTTACATTAATTTTAAGGCCCTTTAATTTTGATACTTTGTCAACAATAACAAAAAAATATGTAGAAGACGAAATGATTTATCATTCTGGTATTCCTTCATTAATTATAGTATTTATATGTTTTTTAGGAATAATTTACTTTAATATATTAAATAAAAACAGGAGAAATTAAAATGGAATATATAAAATTAGAAAATATAAGTTTTAAATATGGCAAAAAAATTATTCTAGACAATATATCTTTTTCTATAAAAAAAGGAGAAGTTTTAGCAATTTTAGGAGAAAGTGGAAGTGGAAAATCTACTATTCTAAGAATTATTTCCGGTCTTGAAACTCCTAAAACAGGTAAAATTACTATTGATAATCATATTATTTTTAATAAAAATATAAATTTCCCTCCCGAAAAAAGAAATTTAGGTATGGTTTTTCAAGATTATGCTCTTTTCCCTCATTTAAACATAGAAAAAAATATAACTTTTGGTATTTCTCATTTTAACAAAAAAACAAAAAAAATAATTTTAAATAAAATGCTAAAACTAGTAAAATTAGAAGAACATAGTAAAAAATATCCTCATGAACTTAGTGGTGGTCAACAACAAAGAATAGCTATTGCTCGTACATTAGCTACTAATCCAAAATTACTTTTATTAGATGAGCCTTTTTCAAATTTAGATGCTAATCTACAAAGTAGTATAAGAAAAGAAATAAAATCAATTATTGATATAGAAAAGACTACTACAATTTTTGTCACTCATAATAAAGAAGATGCTCTTGAAATAGCTGATAGAGTAGTGATTATAAAAGATGGTAAAATTATACAGATCGATACTCCAGAAAATATTATTTCCAATCCAAAATCTTCATATGTAAAACATCTATTTCATTATTAAAAAAACTCTAAAATCAAAATTGATTTTAGAGTTTTTTTAATTATTTTTTTTCTTTAAATAATCTTCTATTGCAGCTTTTATTGCATCTTCTGCAAGTACAGAACAATGCATTTTTTGAGGTGGAAGTCCATCTAGAGCTTCTGCTACAGCTTTATTTGTCACTTCTAATGCTTCGCTTACTTTTTTTCCTAATATCATTTCTGTAGATATTGAAGAAGTTGCTATGGCTGAAGCACATCCAAAAGTTCTAAATTTTACATCTTTTATTATATCATCTTCTATTCTTAAAAAAATTTCCATCATATCTCCACATGATGCATTTCCTATTTTACCATATCCATCTGGATTTTCAATAACTCCTACATTTCTTGGATTCATAAAGTGATCCATTACTTTTTCTGAATATTGCATCTATTTTCAACTCCTTTTAATTATTTTTAAATTCATTCCATAATGGTGACATCATTCTAAGTCTTTCAATTATTGGCGGTAATTCATTTATTACATAATCAATCTCTTCTTTAGTATTATATCTTCCAATACTAAATCTTATTGTTCCATGTGCAAATTCTTCTTCTATTCCCATTCCAAGCAATACATGAGATGCATGTAAATCTTCACTTGAGCAAGCCGAACCGCTACTTACAGCTATTCCTTTAAAGTCTAAACTAAGTAATATAGATTCTCCTTCAAGATATTTAAAAGTAACACTTGAAGTACCTGGTAATCTATCTACCTCTTTTGAATTAATTACAATTTCTGGAATTTTTTCTATTATTTTTTCCTCAAAATAATCTCTCAACTCTTTTTCTTTTTTATATTCTTCCTTTATATTTTTAAAAGCTACTTCTAAAGCTTTTGCCATTCCTACTATCGCAGCTACATTTGATGTTCCTGGTCTAAGTCCTTTTTCTTGTCCTCCACCAGTTATAAATTTGGCCATTCTTGTTCCTTTTTTTATATAAAGAGCGCCTACTCCTTTAGGTCCATAAAATTTATGAGCTGAAAAACTCATTAAATCTATATTATAATCTTTTGGCGAAAACTTGAGTTTTCCTACTGTTTGTACAGCATCTACATGAAATAATATTCTATGTCCTTTTGCAATTTGACCTATTTCTTTTAATGGCTGAATAGTCCCAACTTCATTATTCGCATGCATTACAGATATCAACACAGTATCTTTCCTAATAGATTTTTTTAATTGTTCTAAATCCACTAATCCATTTTTATCTACTTTTAAAAAAGTTACTTCATATCCTAGTTTTTCTAAATCTTTAGCTGTATTTCTTACTGATGGATGTTCTATCTCTGATACTATTATATGTTTTCCTCTTCTTTCAAAAGCTCTTACTACTCCTCGTATTCCTATATTATTAGCTTCTGTTCCTGAAGCTGTAAAAATAAGTTCATCTGCTTCAATTTTTAATAAATTTGCTATAGTTTCTCTAGCTTCTCTTAGAGCTTTCCCTGTCTCTTGTCCAAATCTATGCATACTGTGTGAGTTTCCATAATACTCTGTAAGATATGGTACCATAGCTTCAAATGCTTCTTTACACAATTTTGTTGTTGCATTATTATCTAAATATACTTTCATAACTCTCCACACCTTTTTATTTTTTTTATTCTTTTTTATTTATTTTAAAATTCACTTTATAATATATTTTTTTATAAAATTTGTCAAGAATTTTTATTAATGATTTAACCTAATATATTAACTAACAACCCCTGTATTCCATCTATTTTTGACATTACAAAAAATGCTTCTTCTTGTTGCTTTAAAAAAGCTAAGGTTAATTCTTCTAATTCTTTATCTATTTTATCTACTGTTACAAATATTTTTTGCTCTCTTCCACTTCTTTTTAGCCCCATTTTATTATCAACTTTATACATCTTTTTCATAGCTAATACTAAAAATGCTTTTACTTTATTTTTATAATTAGTTAAATTTTTAAGATTTGGATTTCTAGCCAACTCTTCTCCTAAAACTTTTATATCTTCTAAATTATCACTTAATTCTCCTTTAATCAAATCTACTTCAACTTCATTTAATTTATCTAAAAAAGGACTATGATTTATATCTAAATCTCTTTTTTCTACTCTAGTAGTAGTTTGTGAATCACTTATCTTTTTTTTATCTTTTTTCCTGCTGCTTAATAAACCTTTAGATTTTGAAATTGCTCTTGATATTCTTGACATACTTATCTAAATCTCCTTGTAAAATTTATTATACAACTTTTTTAAATATTTTTCAATAAAATATTTTAATGGCAATGCTTTGATAATCAAATATTTTTTTTGCAATACTCATTTATACCGCACTTATTACACTCTGCTTTTCTAGCTTTACAGATAGCTCGCCCATGTCTGATTAATAAATTTGGATAATCAAACCAATATTTCTTAGGCACCCATTTCATAAGCTCTCTTTCTATTATTATAGGATTGTTAGTTTTCACAAATCCTATTCTATTTGATAATCTTTTTACATGAGTATCTACAACTATACCTTCTGGTTCTTTAGTAATATCTCCCATTACTACATTTGCTGTTTTTCTTCCTACCCCAGCCAAATTTATCAAATCATCCATATTCATTGGTACTTTCCCATCATATTTTTCTATTATATCTATACTACATTGTTTTATATTTTTTGCTTTATTTCTATAAAATCCTGTACTTTTTATAAGTTTCTCTATTTCTTCTACTTCCATATTTGCAAATCCTTCAGGAGTATTTACAATCTTATACATCTCTTTTGTTACCATATTTACTCTTTTATCTGTACATTGCGCAGAAAGTATTACAGCTATTAAAAGTTCAAAAGGAGTATTGTAATTTAACATTACTTTCGACTCTCCATACTCCTTTTTCAATATAGCTATTATATTTTCCAATCTTTCTCTTCTGTTCATAATATCCCTTTCATTATTACTAATTAACATAAAAATTTTAAATATTTTCTATAATAATTTTATTTTATATAAAATATTAATATTCTAAAAAAAAATTATACAAAATATTTGTTATATTTACATTACTTTTAATATAACTTTTAATTTCTAGCAAAAATTCTAGTTTTTTTAAAGTTTTATTTTTAATTATAAGAATATAAAACATATTTTCTAATATATCTCTATTTTTATCTATCTTACTATTTATCTTTTCTATAAATTCTATTTTTTCTATTTCACTAAAAAAATCTTTATTTTTAATATAATCATCTAAACTTTTCAAAAGTTTAATCTTGTTTTCTAATTTACCATTCTCTATATATTCATCAAGTACTACATCTATATCTTTATAGCTATATATTTCTTCTAAGCTATAATTTCCTTTTTTATATTCTAAAATATCTTCATTATCTCCAATAAAAAAATCAAATATTTCTTTAGATACTTCTAATTCTTCATTATTTAAAGTATTTATTTTTATAGTAATACATCTAGAAAGTATTGTTTTTAATATATTCAAACTATTAGATGTAAGTATAAAGTATGTATTTTTAGGTGGTTCTTCAATTATTTTAAGTATTGCATTTGCTACTTCTTTTCTTGTTTTATGTATATTTTTTATTATAAATACTTTTTTATCTCCTTCATAAGCTGATTCATAACTTTCACTTATCATATCTCTTATTTGTGATATAGATATATTACTATTATCTAATCCTTCTATTATATGAAGATCTGAATATACTTGTTTATCAATATTTATACATACTCTACAACTATCACAATAGTCATGCTCAATCTCATTACATAATATTCCTTTAGAAAAATTAAGAGCAAATTCAAATAAATTTGCTCCCTTAATTCCATGTATTAAATATGTCCCTGATTCTTTATTATTTTTTAATTCATTTTTTATTATCTGTTTTGCTAACTCATTATTCTTAATAGAATCAATTCCCATTATCTTTCTTCCTTTTCTATTTGTCTAAGTACATCTATTTTATCTAATGCCATTCCAGCTCCTATAACTACACTTTCAAGCGCATTTTCTGCAAGATATACAGGAAGTTGAGTGTAATTTGACATAAGTTTTGTAAAGTTTCTTATTAAAGAACCTCCTCCAGTCATAACTATTCCTTTATCTACTATATCCGCGGCAAGTTCAGGTGGAGTTTTTTCAAGTACTGATTTTACATTGTTTACTATTTGCATAAGTGAATCATTAATAGCTTCTAGTACTTCTGTTGAACTTAAGCTAATAGTTTTTGGCAGCCCTGTAATAAGGTCTCTCCCTTTTACGTCTATATATTCTTCTTCTTCTAAAGGAAGTGCTGAACCAATTTTAGTTTTTATATACTCAGCAGTTCTATCTCCTATTAATAAATTATGTACTTTTTTTACATATCTTACTATATCTTCATCAAAGTTATTTCCTGCTATTCTTATAGATTTACTTACTACTGTTCCACCAAGTGCTATAACAGCTATATCGGTAGAACCGCCTCCTATATCTACTATCATACTACCTTCTGCTACTGATATATCTATTCCAGAACCAAGAGCTGCTGCTCTTGCCTCTTCTATAAGATAAGCTCTTTTTGCTCCAGCTGATATAGCTGCTTCAAGTACAGCTCTTTTTTCTACTCCCGTTACTTCTATTGGTACACATATCATTACCTCAGGTGCAAATATATTAAATTTTCCAAATACTTTTTTTATAAAGTATTTTATCATCGCTTCTGTAATATCATAATCAGCTATTACTCCTTCTCTAAGAGGTCTTACCGCTATTATACTATCTGGAGTTTTACCTATCATCTCTTTTGCTTCATGCCCAACTGCAAGTACCTTTTTAGTATCTCTATCAACCGCTACTACTGATGGTTCATTTAATACTATCTTATTTTTTTGTTTATAATATACCAATGTATTAGCAGTCCCAAGGTCTATACCTATACTTTTATTGATATTAAATCCATTTTCAAAAAATTTAAGCAACATCATCACCCTCTAAAATAATTTTTATAATATTTTCTAGTTCTTCTTTATACTCTAATAAATAATATGCTCCAATTAACGCCTCTAATGCAGTGGCGTTTTTATATTCTTTTAATGTACAAGTAGATGGATAAGATTTTATTTTTGAATTTCTAGCTCTTTTAGAATAATCTATTATTTCTTGTAAAAAATCATATTCCCCTTCATTTAAAATTTTTAAATATATTTTACTTTGAAATTTTGCATTTACATATCTTCTCACTATTATATTCAAATCTTTTAAATTTATATTTTTTCTTACAAAATATTCTCTTATATAAAGTTCCCAAATAGAATCACCTAAATAAGCTACAGTAAGTACACCTAGCTCATTTAATTTTTTAAATTCCATGTAGTTTTATCCTTCCCGTCTTTTATTTCTACCCCAAGATTATTTAATTTTTCTCTAATCTTATCTGCTAATTCCCAATTTTTTTCTTTCTTAGCATCTATTCTTATCTCTAATAAAAATTCTATCAAATCTTTAGTTAAATTACTATCAATTTTTTTCTCATATTTTATATCTATTCCCAATACATCTATCATTACTTTTTTTATATAATTTTTTATATTAATAATAGTTTCTTTTCCCTCTTTAGTAATTCCATTATCAAGGTATATATTTATAGATTTCACTAGTTCAAATATGGCTCCAATAGCTTTTGCAGTATTAAAATCTTCATCCATTGATAATTCAAACTTTGCTATACTATTTTCATAAGTTTTTTCTAATTCTACTATATTTTCATCTTGTATATCTTTTATATTTTCTAGTTCTTCATCTATTCTAATAAGAGTATTTTCTATTCTTCTTAAACCTTGTTCCGCCATCTTTAATTCTTCATCACTAAAATCAATTGGCTTTCTATAATGAGAGCTAAGTATAAAAAATCTAAGAATTCTACCTTCATATTTTTCAAGTACTTCTCTTAGAAGAAAAAAATTATTTTTCGATTTTGACATTTTTTCTCCTTTAATATTTATATACCCATTATGCATCCAATATCTAGCAAAATTTCCACCATATCCACATTTTGATTGTGCTATTTCATTTTCATGATGCGGAAATATAAGGTCTTGACCCCCGCCATGTATATCAAAATCTTTTCCTAAAAATTTATAACTCATTACAGAACATTCAAGATGCCATCCTGGTCTACCTTTTCCCCAAGGTGAACCCCAGAATGGCTCTCCCTCTTTTGCTGCTTTCCATAAAGTAAAATCTAATGGATTTTTTTTCTTATCATTTACTTCGATTCTAGCTCCACTTACTAATTCATCTATTTTTTGATGTGATAATTCACCATAATTCTCTTTATATTTTTCTATATCAAAATATACATCTCCTTCAGAAGCATAAGCATAACCTTTTTCTTCTAAATCTTTTACAAGTTTTATCATCTCTTTAATATTCTCTGTTGCTTTAGGTCTTATCATTCCTTCTTCTTTTAAATTTATTTTTGCTGTATCTTCAAAATATGCTGTAATGTATTTTTTTGCAACTTCTTTTACTTCAATTCCTTCTTCGTTAGCTCTATTTATCATTTTATCATCTATATCCGTAAAATTTTGTACATATGTTACTTCATATCCTTTATATTCTAAATATCTTCTAACAGTATCATAAAATACTGCTGGTCTTGCATTTCCAATGTGTATATAATTATAAACTGTAGGTCCACATACATACATTTTTACTTTATTAGGCTCTACTGTTTTAAAATCTTCTAATTTTTGTGTTAATGTATTATATATTTTAATCATTTTTCACCTCATTATCAGTACTATTTCTCTCTTCTGTGCTTCTTATTTTACATGTTTCACATTTTATTCTTTTAGCTAATTCTCTTAAGCTTCTCTCTACTTCATGCATCTCATCTAAAATTGGATCAGGTAAATCCATATGATTTAAATTTGTAATTGTATCTTTTACTTTTTCTCCATTTATTCTTACAATTCTACCTGGTATTCCTACTACTGTAGAATTATCTGGAACATCGCTAAGTACCACAGAATTAGATCCAATATTTACATTATTTCCTACTTTAAATGAACCTAATATTTTTGCTCCTGCTCCAATTACTACATTATTTCCAATAGTTGGATGTCTTTTCCCTTTTTCTTTACCTGTTCCTCCAAGGGTAACTCCTTGATATATAGTAACATCATCACCTATTTCTGCAGTTTCTCCTATTACCACGCCCATACCATGGTCTATAAAAAATCTCTTTCCTATTTTTGCTCCTGGATGTATTTCTATTCCTGTAAAAAATCGACTCATCATAGCTATTAAATTTGCAAAAAATTTCAATTTTCTTTTATATAAAAAATGTGCAATTTTATGCCAAAATATAGCATGTACTCCTGGATAAAGAAGTAAAATACATACACAATTAGTAGCTGCTGGATCTCTATCTTTTATTGATTTTATTGTTTCAAACATATTTTACCTCCTATTTTCTTTCTTGTGTTATTCTATTTAATTCTCTAATAGTTAGGTGAATATCTTCATCTTTTTGAGTTGGTGTATAAATTCTAGCTCTTCTTATTTTTTCTTTTTCTAATTCGATTACTTTAAAATCAATTTCAAAATCATTTAATTTATTTTCAACTTTTCCAAATGGGTCAATCACCATAGAATTTCCAGCAAAATTAATACCATCTTCATATCCTACTCTATGAGAAAATACTACATAACTATTAAACATATCAGCATATGTTTTCAGCATATTTTCCCATGTTAATATATTTGCTGGTTGTTCATTTTGATATTCTCTTGATGGACTATTTGCTAATACAAATATATAGTCTGCTTTATCTTGATTTAATATATACATAGTAGAGCCATGCCATGCATCTTCACATATAAGCATACCTATTCTTCCAAATTTTGTGTCAAATGCTCTTATTTTATCACCTCTAGAAAAATATCTATATTCATCAAACATTCCATATGTTGGTAAATATACTTTTCTATGAGTATGTATAAGTTTACCATCTTCTAAATAAAATGCAGAATTATAAAAATTATGCTCTTTAGTTTCTTCTACTCCACCAAATATTATAGATATTTTTTTACTATACTCTAATAAAATTTTAGGTATTTCTCCATCTTCTACCCATTTCGCTACTACTGGTACCATGTCTTTTAAAAAATATCCTGTAAGTGAAAGCTCAGGAAACACTATAATATCTGCTTTTTTTGATATGGCTTTCTCTATATTTTCTTGTAATATTTCAAGATTTTTTTCTACATCTCCTAAGTATGGTTTTATTTGTGCTAATGCTACTTTTAATTTCATTTTTCTTCCTCTCTATTTTTTATGTTTCTCATATTTATTATATAAATAATAATTAAACATATCTACAAGCGCTTCCCAACTTGCTTTTATTATATTTGTAGATACACCTACTGTACTCCATTCTTCTCCTGTTTCACTATTTTTAGATTCTACAAGTACTCTTACTAATGATTGTGTTGCTTCACTATTTAATATTCTTACTTTATAGTCACTAAGTGTTACTTTTTCAAGTTCTGGATATTCATGTAATAATGCTTTCTTTAATGCTTTTGTAAGAGCATCAACAGGTCCATTTCCTTCAGCAACTGTATAGTATTCATTTCCTTCTATTTCTAATTTTACTGTTCCTTCAGATACTTCTCGAAGTTCATAATTTTCTTCACTTATTATTCTAAAACTTTTTACATTAATAAAGTCTACTTTTTTATTTAATTCTCTTTGAACTAATAATTCAAATGAAGCTTCTGCACCTTCATATTCATACCCTTTATTTACTTTTGATTTTACAGCTTTTATTACTTTTGTAATTTCATTATCATCTAAAATTATATCTAAATCAAACTCTTTTAATTTATATTTTATATTACTTTTTCCAGAAAGATCAGAAATTGATACAACCCTTTTATTTCCAACATTTTCAGGGCTCATATGCTCATAACTTTGGCTATTTTTCATTATAGCACTTACATGTACTCCACCTTTATGAGCAAATGCATTTGTCCCTACAAATGGCATTCTTATTTCATGAGCAAAATTCGATAATTCACTTACATATTTTGATAATTGTGTAAGTTTCGTTATATTATCTCCTAAAATATCATAGTTCATTTTAAGTTGTAAAATAGGTATTATCTCACAAAGATTTGCATTTCCACATCTTTCTCCGTATCCATTTATTGTTCCATGTATTTGCATAGCTCCTGCAAGTATTGATTCTATACTATTTATTGTTGCCATACCAGAATCATTATGAAAATGTACACCTATTTCTGTAGAAATATTTTCTTTTACATCTTTAATTATATCTCTTATTTCTAAGTAATGTTGTCCTCCATTAGTATCAGCTAGTATTATTCTCGTAGCCCCTGCTTTTTCAGCTTCTTTTAATACACTTAAAGCATACCCTTTATTCTTTTTATAACCATCAAAAAAATGCTCTGCTGTAAAAAATACCTCTTTTATTTTTTCTTTTAAGTATTTTACTGACTCATATACTATTTCTAGGTTTTTTTCAAGTGTAATTCCAAATATATCTGTTACATGTAAATCCCATGATTTACCAAATATATTAGCTACATCTGGTTCTATTTCTATTATCGTATTTAAATTTTTATCATCTTCTATTTTATTTTTATAATATGCCGTACTTCCAAAAGCTACAATTTTTGAATGTTTTAACTTATGATTTTTTATTTCTTTGAAAAATTGATAATCTTTTGGATTTGAACTAGGCCATCCACATTCTAAAAAATCTATACCTACATCATCCATTTTTTTCGCTATTTTTATTTTATCTTCAAGTGAAAAATTCACTCCTATCATTTGACTTCCATCTCTTAAAGTAGTGTCGAATATTTCTATTTTCTTCATAAATCCTCCTATTTTGCCAAATAGATAAGATCTTCTTTAGTAGTAATTTTTATATTATCATAGTCTCCTTCAAGTATTTTTACTTTTTCATCTATTTTTTCTACAAGTGAAGAATCATCAGTTCCTAAATATCCTTCATCTTTTGCTTTTTTATATGCTTTTTTTAGAGTTTTTATTCTAAATACTTGTGGAGTCTGTGCAGCTACTAAGCTATTTCTATTTGGCGTATGAATTATAATTCCATTTTCATCGACAACCTTAATAGTATCTTTTACCATTACTCCTATTACTACACCACTTATATCCATATTTTTTTCTAATTCTTTATATGCTTTCTCTATATATTCTTCTTTTATAAATGGACGTACTCCATCTTGTACTGCTACTATTGCATCTTCATCTTCTATTATTTTTAATGCATTATATACAGAATCTTGTCTTTCTTTTCCACCTTGTATTACATTTTTTACTTTTTCTATATTAAATTCTTTTACATAGTCTTTTACTTTCTCTATATATTCTCTATTTGTTACTATAATTATATCTGTTACTAATTTATTTTTTGATATAGTTTCCAAAGTTTTTATAAAAATAGGTTTTTTATTATATTCTAAAAACTGTTTTGGATAATCAAGCTGCATTCTTTTTCCAATTCCAGCAGCTGCCACTATATAATAATATTTCATTTTTTTATTCTCCCAAATATCATTCTACCTGCAGCTGTAGGATATACACTTGTTATTATCAATGTAACTATTTCTCCTACATGATCTCCACCATCTTCAGCTACTACCATAGTTCCATCTTGTAAGTACCCGACAGCTTGACCATCTCTATCACCTTTTTTTATAAGCTCTATAGTTAATTCTTCATTTGGAAGAACTACGAGTTTTAATGAATTTGCTAATTGATTTATATTTAATACTTTTACTCCTTGTATTGTAGCTACTTTATTTAAATTAAAATCAGTAGTTAATACATCTCCTTCAATATCTTTTGCCAATTTTACAAGTTTTGCATCTACTTCTTTTTCTGGATAATCTTTTTCTTCTATTACAATATTATATTCTTTTATTTCTTGTAGTTGTTTTACAAGATCTAGACCTCTTCTTCCTCTAGCTCTTTTCATATTATCACTAGAATCAGATAAAGTTTGTAATTCTTCTAAAACGAATTTAGGTATAACAATATCTCCTTCTAAAAATCCAGAATTCATAATATCTAATATTCTACCATCAATTATTATACTACTGTCTAATATTTTAGCTTTTGCTCCTTTTTCTATTTTTCTTTCTTCTAAAATTTTTTTAATATATTCAACAAAATGAACTATTAAATAACTTAATACAATAGAAAGTACTCCTAATAATATTATTCCTTCTTTGCTATTTGAAAAACCAAATAAAACATAGATAAAAATAATATAGCTAATAATAGTAATAAAAAAAGCTTTTAAATTCATAATCCTAGCCCCTAAACTTTTTTCGTTTAATGGACTTTCACCTCTCTTTCATAATTTTTATTTTTCCTAACTCTTTTTTTATAATAATTCTATTTAATATAGAATAATATAATTAATAAATTACACAAAGCACATAACTTTTAACAAAATAAAATCACTATTTAATTTTAATTCTTTTTCTATTTATAATAAAAATTTATAACATCACCATTTTTAATCTTAGTTGTAAATTCTGCTTCTTTAGAGTTTACAATAATTTTTAATAATTTTCCACTTTCATGATCATTTAATAATGTTTTAGGATCATAATATTTAAATACATCTGATACAAGAGGTAGATTTTCTTCTGGAATATCAAAATCTATTTTATCTCCATCTTTTATTTCTCTATCACTTGACACTACTTTTCCATTTAAAATAATAGATTTTTTCAATTCATCAAAAATTATCTCTTTTTCATTTACAATGACTTTAAATTTGTTATCTGTTTCCTCTAAAATATCTTTTATTTTCATATTTCCTAATTCATTTTTTTCTATTCTTATATTATCTCCGTTTTGAATAATATAATTTGGTGTTATTTCTTCTTCATCTTTATATATTTTTAAACCAGGAATTATCATTTCTAATTCTTTACCATTTAATATAATTTTTATTGTTTTCTCTAAACTTTCAGAAATAACATCTTTTACCATTATTTTATTTAGTATTTCTAACTCATCTCTATCTTGAATAAGATATTTATCATCTAAACTTTTGCCATCTTTTAATATTTTTATATCTATTTCTTTTGTTTTATCATTAAGTTTAAATTTTATTTTATCATATTTCTTTTTTAAGTCTTTTATAGAAACCACTGCATCTCTACCATCACGAATTGGCTTTATCTCTATAGTATCACCATCTTTTATCTCTTTATCAAGACTAGCAAATTTATTATTTACTTTTATTACAGCTCTTTTTCCCATCTCACCTTTAAATATCTCTAATTTCCCATTTATTGTAACTGTTATTGCATTTCCTGGCTTACTATAAAGTAATTTTGTATCATATCCTATTGATAATAATACTTCCATTAAAGACATATGTTTTGTAAAAGAAAATACTCTATGAGATACTTTATTTATAGAAATAGTTAAAATATTAAATTCTTTTCCTTGAAAAGCCATATTTGCTATACCAATAGGGGTTACATATTCTGCTGTACTTAACATATTTTCACTATTTACAAGAGACTTAATTGCTTCAGTTCCTCTTACTGCTACTCTTCCAGCTACAAGTGAAACTTTTTCAGCTATTTTTTCTCTAAGTTTTGGTATAAGAGAACCTCCTCCTATCAAAATTATTGCTTGAGGGGCTCCTTCATTTAATTCTAAAATTTTCTCTGATATTTTTAAACTTAATTTTTCAAGGATAGGATCTATTTTTTCAAAAATTTCTTTTGTTGTTATTTCATATTCTATACCTAATATATCTTGATATTTAACTATTTCATTATCTTTTAAAGATTTTTTTATTCTTTCTGCTTCCTCAAAATCTAATAAATAATCTTCTTCTATTTTTTCTGTAATTTCATCTCCAGCCATAGGTACCATTCCATAACCTACCACTTTCCCAGATTTTGTTATGGCTATATCCGATGTACCTGCTCCAATATCTACAAGCGCTATATTGAGTTTTCTCATATCTTCAGGTACTACTACATTAATTGCGGCAATAGGCTCTAATGTAAGATTTTCTATTCCTAAATCTACTTTATTTAACATTGTATACATACTATCCACTACTACTTTTGGTAAAAATGTAGCTAAAAGTTCTATTTCTAATTCTTCACCTTTTTGATATAATGGATTTTTTATTTCTACTCCATCTAACTTATATTCTATCACACTATAACCTACACAATAATACTCTTTATTATTTTCATTTCCTAATGATTTTATTGTATTTTGGATAGCTAATAATTCTACTGTCAATATATCATCTTCGGATAGTTCTTCACTTGAATCAAAAGATTTTTTAGCTTTTCCTCTAAATGTAATAAGATTACGTCCCGCTACTGCTACTGCTACTTCTTCTATTTTTTCTTTTGTTTTATCTTCCATAGTATCTTTTAATATTTTTACTGTTTTAGCTACTTTTGATATATCATGTATTTGTCCATCAAGCATCGCCCTACTTTCATGCTCTTTAGAAACCATATCTATTATTTTTATTTTATCCTCTTCTGTGTATTCTGCAAGTAAAAGTACTACATTTCTAGTACCTACATCCAGTGCATAAACTTTTTTCAAAATCTAACACCCCTTTTTATTTTAGTGTCACAACTGTACATCCATAACCACCTTGATTTTGGTCTGCTATTTTAAAACTTTCTACAAAACTAGCTGTCCTTAAATATTCATGTACTCCTTTTCTTAATACTCCTGTCCCTTTTCCATGTATTACATACACTTCTTTATATCCATTTAGTATTGCATCATCTAAATATTTCTCAAGATCATATATAGCATCTTCTAACATTTTACCTCGAAGATCTACTTCGGATTTAACATTGGATTTTTTTACATTATTTACTCTAATATATTTTTGCTTATCTATTTGCTCTGATTTTTTTATATCATCATAATTAACCATAAGTTTTAGAATTCCAGCTTGTATTTGAGCTTTTTCTTTATTTGGATAATCTTTGAGTACTATTCCATCTTGATTTAAACTTTTTATAAATACTTTTTCTCCTATTTTTAAATCAAGATTTATTTTAATTTTCTTTTCTATTTTTACATTTTTAGTTTTCTCTTCTCTTATATTTTGACGAAGCATGTTTAAACTTTTTTCCGTTGCTTTTAATTCTTCTTTTTTCAATTCATCTTTTTTTATTTTATCAATTAATGCTTTTGCTTTATTTTGAGCTTCTTTTATCATTTTATCAGCATTTTCATAAGCTTCTTTTAAAATACTATTTTTTTCTTTTTCTAGTTCTATCACTTTTTCTTCATATTCTTTTTTTAATTTTTCCGACTCTTTTTTTAACTCTTCTATCTCTACTTTTGCGTTTTCTATTTCTTCTGTTTTTTCTTTTATATTAGCTATCATATTTTCTACTTTTTTATCTTCTTCACTAATATATTTTTCTGCCCTTTCTATTATTTCTGTTGGTAATCCTAGTCTAGTCGCGATTTTTAGTGCATTACTTTCACCGGGTATTCCAAGTAATAGTCTATAAGTAGGTGATAATGTATTTGCATCAAATTCCATAGAAGCTGTTTCTACATTTTCTTCATTAAATGCATAAGCTTTTACTTCACTATAGTGTGTCGTTATAAATGATTTCACTTTTTTAGACTTTAAATAATCTATTACTGCCATTGCAAAAGCTGAACCTTCAATTGGATCTGTTCCAGAACCTAGTTCATCTAATAATACTAAACTAGATTTATTAATATTTTCTAAAATATCATGTACATTTTTCAAATGTGCTGAAAATGATGATAAACTTTGTTCTATACTTTGTTCATCTCCTATATCAGCATATACTCCTGTAAACATTCCAATTTCAGTTTTTTCATTTACTGGTATCAATATTCCACTAAGTGCCATAAGTGTATGAAGACCTGCGGTCTTTAATGCTACTGTTTTTCCACCTGTATTTGGTCCTGTAATAAGCAATGTATTATAATTTTTTCCTATTTCAAAAGTAAGAGGAACAACTTTATCTTTTTCAATGAATGGATGTCTTGCCTCTATAAGTTTTAAATACTCTTTTTCGATAATTTTTGGCATTATAGCATTTATTTCCAATGCATACCTTGCTTTTGAATAGATAAAATCAATATCTACTATTGCATCAGAAATTTTTAAAATTCCTTCTTTGTTCATTCTAAGCATATCTGTTGTTCTAAGTAAGATTTTTTTTATCTCTTCTCTTTCTCTTACCTGTAATTCTCTCATTTTATTATTTAATGAAACAACTGATAATGGTTCAATAAATACTGTTTGTCCACTAGCTGACCTATCATGTTCTATTCCCTTTATCTGCCCTTTAAAATCAGCTTTTATTGGAATAACCATTCTTCCTTCTCTTTCTGTAATAATTTTTTCTTGTATAGCCTTTGCATTAAGTGGATTAGATATTATATCATCAAATTTATTTTTTATATTAAGTGATATATTTTTCTTTTGCTCTCTAATATTTCTAAGTTCTAAAGAAGCGTCATCTTTCACCTCGCAACTATCATCAATTGCTTTTTCTATAATATCCTCTAATCCTTTATATACAGGAACATCTCTAAATTTCATATAAAGGTTTCTATATTTTGATTCTAAATTTTCTAATTTAGTTTTTACTCTTCTAAATGCTCTAAGAGTCTTTTTAATAGATACAAATTCTTCTGGTATTAAATACGTTCCTATTAATTCTATTCTTTTTATGTATTTTTCAATATCATTTATTCCAGATAAATCAATACCTTCATCATATTTTTCTATTTCTACTACTTCTGATACATATAAAAGTTCTTTTTTTATAACATTAATATCTTTAAATGGTGTAAGTTCTTCTATTTTCAATTTTGTTGTATCTAATATAGAATATTTTATAATTTCCTTTTTCAGTTTGTCATATTCAAGTACATTAAATGTATGAGTATTCATCTTGCCTCCCACATAATAAAATAAATAATTTCTTTTAATTATATCATATAAAATCTAATTTTTCTATTATTAAAACTCTATTCTTTTTTATATTTTTCAATATTTTTTTATTTTTTACAGTTTATTTTTCTTGCTTTTTTTTTAGAGTTATGATAAAATATTATTCGGAATTTCTTTAGGAGGTGAAATTAATGAGAGTATGCGAAGTTACAGGAAAAGGAACTGTTACAGGAAACCAAATTTCTCACTCACATAGAGTTACAAAAAGAATTTGGAAACCAAATTTACAAACTACTAAATTATCTATCAATGGAGTTACTTTAAAAGTTAAAGTTTCAACTAAAGTTTTAAAAACTTTAAAAACTTTAAATGATGCTGAAACTGTAAAATATTTAAAACAAAATAAAAAAACTTTATCTCCAAGATTAGCTGAATTAGTTAAATAATTTAATAAAAAAAGACAGTCGGTGCATAACTGTCTTTTTTTTATTTTTTGAAAATTTCAAAACAACAAAAAATACTATTCTTTTTTTATAAATAATATTTTTTTTATTATAGAATTTTCTTTTTAATAATGATATAATTATAAAAGAATTTATAATGAAAGGGGATTTTTATGAGAATTTTAGTTACTGGTGGTGCTGGTTATATAGGTAGTCATACATGTATTGAGTTACTTAATAAAGGATACGAAATTATTGTTGTTGATAATTTTATCAATAGTAAAATGGAAGCTTTAAATAGAGTTAAAGAAATTACTAATAAAGATTTTAAAATATATAACATTGATATGTGTGATTATAAAAATTTTGAAAAAATATTTATTAATGAAAAAATTGATGGAGTAATCCATTTTGCTGGGCTTAAAGCAGTTGGGGAATCTGTAACTATTCCATTAAAATATTATCAAAATAATTTAATTTCTACATTAAATCTTATTGAATTCATGAAAAAATATAATGTAAATAATTTAGTTTTTAGTTCTTCTGCTACGGTTTATGGCGACCCTGAAATAGTCCCTATTCCTGAAACAGCAAATTTAAATGCAACAAATCCATATGGAAGAACAAAACTTATGATAGAAGATATTCTTAGAGATTTTTCTTTAGCTAATAAAGATTTTAATGTCGCTTTACTTAGATATTTCAATCCTATTGGTGCTCATAAAAGTGGAAAAATTGGCGAAGATCCTAACGGCATTCCTAATAATTTGCTGCCATATATTTCTCAAGTTGCCATAGGAAAATTAAAAAAATTAAGAGTTTTTGGAAATGATTACGATACTATAGACGGTACAGGTGTTAGAGATTATATACATGTTGTCGATTTAGCTCTAGGTCATATAAAAGCTATTGAAAAATTAATTACTAATCCTGGTTTAGTTACATATAATTTAGGAACTGGTAATGGTACTAGTGTTCTTGAAATGATAAAATCATTTGAAAAAGCTAGTGGTATAAAAATTGATTATGAAATTGTTAATAGACGTCCTGGAGATATTGCTAGCTGTTATGCTGATCCTACAAAAGCTAAAATAGATCTCAATTGGGAAGCACATTATAATATAGATGATATGTGTAGAGATACTTGGAATTGGCAAAAAAATAACCCAAATGGATATAATTAATTTAATATAAAATAAATATTTTAATAAAAAAATCCTCATAATAATTTAAGAGGATTTTTTTATTATTTTAAATACTTTATCTGCTGTTAAATTTTTCATACATTTAAAATGTTTTTTAGGACATTTTTTATCTCCATGCAACGAACATGGAGAACATTCTTCATTTTCATATAAAAGTATAGAATTTTTATCATATTCAAACATTCCTGGGCTTGTCGGCCCAAATATTACAAATGTTTTTGTTTTTACTCCTCTTGCAATATGAAAAGGACCACTATCATTTGTAACTACAAAATAAGCTTTACTAATAATAGCACCACTCTCTTTTAAATTCAATTTTCCTGCTAAATTTATACAAATATTACCACTTAATTTATTTATTTTAGATAAGTCTTTTTCTTCTGCTTTACTTCCTATTAATATAATATTGTAATTATATTCTTTTTTTATTAATTTTGCTAGACTTGCAAAATTTTCTTTTGGCCATTTTTTAGTTTCTTTTGATGCTCCTGGAGCAAAAACTACAAAATTTTCTATCTTCAATTTTTTTATTTTTTCTAAATGTTCTTTTAAAAAATTAAATTCTATATTTTCACCATTATAATAAATTTGATATTTTTCTAAAGGTTTAAAGTAATTTTTTATAATTGTATTATCAACTTTATATTTTATTAATCTCATTTTAACTAATAATGATTTCCACCATTTTCGTTTTTTATAAGTTAGTACTTCGCATTTATCTCTAGCTTTTAAAAGTTTTGATATATATATTGAACGAAATTTATTGTGTAAATCTATTATTAGATCATATTCACCTTTTAATTTCTCTTTTATAAACTTTTGTATTCCATTTTTTCCTTTATATTTATCTTTTTCAAATATTATTAATTTATTAATATTTGAATTATAAGTAATTGCATCTTTAAATTTATCCATTACAATAAAATCAATATCCCAATTCGGGTATTTTTTTTTTATCTCAGTTAAAATTGGAGTTGTAAGTATCACATCTCCTATTGAACTAAATCTAATAATTAATACTTTTTTTCTATCCATTATTTTCTCCAAGTTTCTTTACAATTTTTTCATATACATAGTCTGGTTTTATCTGTTTCATACATTTAAAATGTCCTTCTGGACAATTATTTCCCCCATGAAGTCCACAAGGTCTACAATACAATCCTTTATTTTCAATAATTTCAGAAGTTTTACTATACGGATAAAATCCAAGTTCTTTTACTGTTGCTCCAAATATTGCAAATATATATGGCTTTTCAAAAGCACTAGCTATATGTATAGGTGAACTATCATTCGTAAGCACTATATCAGCTCTTTTCATTATTTCTGCAAGATCTAATAAAGATGTTTTTCCAATTAAATTGACACTATTTTTTGTTTGTATCAATTTTAATTTCTCTTCATCTTTTCCACCAATTAATATAACTTTTAAATTTTCTATATTTTCTAATCTTTTTATAACTTCATTAAAATATTCTGTAGGCCACATCTTAGTATACCATTTGCTTCCAGGTGCAATCACTATTATTTTTTGATTTTTTATGTTGTTTTTTTCAAAAATTTCATCTATTTTTTTTTGATTATTTTTATTTGGAAAAAGTTCTATTTTTTTTTCTAATATATCAGCATTTATTCCTTGAACTAATTGTAATAACCTATCTACTTCATGCAAATCTTTTCTATATTCTATTAGTTTATTTAAAAATATTTTCCCTTCACTATTTTTATAACCTATTCTTACAGGTATTTTACTAAAAAAAACTATCAAAGAACTTCTTAAATATCTATGAGGTACAAAAGCTATATCATAGTTTTCTTTTCTCAATTTTTTTACTAAATTAAAAGCCCCTTTTATTCCTTTATCTTTTCCTTTTTTATCATATATAAAAATGTTATCTAAATAAGGATTATTTTGTAAAATTAAACTCCCTGCTTTTGTTGTTACATAATCTATTTTACAATTATATAAACTTTTTATTTTTTTTATTAAAGGAGTTGATAAAACAATATCTCCAATAAATGCTGTATGAAAAATAAGTATTTTTTTCATCTAATTACCTCATTTTTTATATTTTTATTTAGTATACATAAAAAAATATAATATTATTTAAATCTATAAATATAAAACTTATCTCTATAATCTAATTTTATTTTTCTTATTATATAATACTGATTTATTAAACCCAAATATATAATAGAGTACTATTCCTGTAAAATACATTATAAATCCAGCCCAAATTACATCACTTAAAAAATGTCCCCCTTGTATATTTCTTCCTATCCCCATAATAAATCCATAAATAATACCAAAATATAACCAAAATAATCTAGTTTTTCTCTTTTTTATATAAAAAAATGGAAACATCATAAAAAATCCTACTGATGCATGACCTGCTGGAAAAGAATTATATTTTCCTTTTATTTTATATAAATCTCTAAATTTATCCCATCCAATAGCACCTTGTTTTGTTTCTAACATTTTTTCAGTTTTTTCAGTAAATACAAGTTTTCCTTTTTTTACAGGCGGTATATATTTAGCTTCACCACCAAATTCTACTATTTGACGTGGTCTAGGTCTCCCCCAATACTCTTTAAATATCATATTTACAATTATACCAGAGCCCAATAACATATATAAAAATACAAATAAAGATATTTTTCTATAATCCCTAAATGAATATATTAAAAAACTAAGAATATAAACAAATAATCCTATTAAAGCTGATAATATTCCTGGAATAGGTCCATAGTTGTAAAAAAATTTTACAATTTTTAAATTATCTAAATACCATTTACCCTCTTTATAAAATAATTTTTGCCATAATATATCTAAATTGGTCATGTAAAAGGGTATAGTAAGTAAGATTGCTAATATTATCGGAAAAACAATTAACATAAATTGATTCTCTTTATTTTTCATATTTAAACTCCTATTTATTTATTAATTTATTTATCGTTTTTTTTATTATTTTACTAATTTTTCTTTTTAACTTAAAAACTTCATAAAAAAATTTAGCTAATTTAAAAGAAATTTTATCTGTTTCAATATAATTATATGCTTCTGAAATATCTACAGAAAATTTTATATATTCTATGTTTTCTAAAATTTTAGAAATAAATATATTCTTTTTTTTCAAACTCGTATCTATAGTAATTATTTCTTTTTTATTTTTTAAAAAATTTCTTTTTTGAGTATCATTATGTAAATATCCTAAACTATGGATTTTTTTTAATAATTCTATTACCTCTTTTGCATCTTCTTTTCCTACAACTTCACCTTCCATAAATTCATATATCATATATGAGTTAAATACCATACCAAATTTTTTATATTCTACACAAGCTATAGGTATATTAGTTTTTATTCCATTTTCAAGTAAAATTTCCATACTTTTAAGATTTTTTAAAACTTCACTTTTTCTAAATAATGTTAAAAATCTAATCCATTTCCTTTTATTTTTTTCTACTGGTATCTTTAATATCAGATTTTTATTATCATACGTTAATAATTTTACAATACTTCTTGTTGAATCTTTTAAAACTTTACCTTTTATATTATATATTTTTTCTAATTCTTCAATCGTATATTTTTTTTCTGTAAAATTATATATTTTTATTTTATAATTTTCCATCTAAATAAAACTCCTATTTCTCTTTTTTTAAAAGAATATAGTTTCTAAATCCTCCTAATTGTTTTCCACCTAATATTTTTTGTTCTACAAAAGTTAATATTTTATATTTTAATTTTTCATGTTTATGTTTTTTTCTATAAGGATTTGGTTTCCCTGAATATTGTAATTTATCTTTCCAATCAAACTTTTCTATCCATTTTTTCATTACTTTTGGATGACTTTCTTTAAATACAGCTAATTTATTTAAAGGTCCATAATCAAATTCTTTAGGAGCATTTTTATAAATTTCTGCTACTTTTTTAGATCCTTTATGTACAGTATCTAAAGCTTGTTTTTTAGCTTGCATATATTGTGGTGGTCTTACCCATCCATAGTGATAAATATATGCATCAATTTCTATAACTTTTAGTTTATAAGTTCCTTCCTGTTGTCTATAATTTATTTCATCAAAATTAGGAATTCTTCTAAAAGATTGAGCAGATTCCCAAGAATGTATTTCAGGATTATTTCTTATTATTCTTATTTCTTTAGGATACCATCCATGAGAAATATGATAATGGTCATAGTCTCCCCAAAAATGCTTATATTTAAATAAAAAACCTTCAATATTTTTATCATCTTTATATTTTTTACATGCATTAACTATTGTATCTAAATACTTTTCGTGTACTACTTCATCTGCTTGTAAATAAAAAAGCCATTCTCCACTACAAGCTTTTTTAGCTATATCTGTTTGATGTGCATTTTCCATTCCATTTGGATATTTTTCTAAATCCCAAACAGTATCAATTATTTTGATTTTATCAGAGCCAATGCTTTCAATTAATTCTCTAGTATTATCACCTTCATCACAATCACCAATTGCAATTACAAATTCATCTACAATAGGTAAAATTGACATAACTGCCTCTTTTATTGGATAATAAAGTTTCGAGGCATTTTTTATCATACTAAAACCACTAATTAACATATACTTATCTCCTTTTAATTTTTTTTAATTCCTAGATCACAATAATATTTTTCTTCTTTAATTTTTCTTTCATATATCTTTTTATTTTTTTTATATTTTTCTTCTCTATCAACTTTTTCATGATATAAATGATATTGTATTACTTTTCTTTTTATACAATTAAATTTTACTCCTTTTAATCGAAGCCTAGTTTCGAGATCTTTATCCTCACCATAATATGGCCCTTCATATTCTTCATCAAATCCATTTACTTCATATAAGTCTTTTTTACTCACCATAAAATTACATCCATAAACTCCACTTTTTCTTCTTGAAGTAATAAATGGGATATAAAATGCTTCTTCTTTTCTTTTACAATCAGTAAATAATATTACCGGTAAAGATAAAAGAGAAATATTTTTTGTTTTCACTACTTTTTTCGTTAATTTTTCACTAATATGTGTTCTTCTTCCGAATAATACATAATTTTCTTTTATATTTTTTACATATTGATAAATAAATTTATTATGTAAAACACAATCACCATCAATAAAAATTACATAACTACCTTCGGCTTTTTTTATAGCTTTATTTAAAATTTTATTTTTTCTAAATCCTTTATCTTCTTGGTTGACATGTTTAATTTCAAAATTATATTTCTCTTGAGATTTTTTAATAAAATCTTTCATCTCTTGAGAATCGTTATCTTCAGCTACAATTACCTCAAAATTTTTATAAACCTGTTTTTCTAAAGACATAAATATTAAATCTAAATAATCAATATTTTTATAAACACTTACTACTAAAGAAACTTTAATTTTTTCCTCTTCTTTAAAAATATAAGCCAACGTTATAAAAAAATAAAAGAGATAAGCACCATGTGTAAAAAACTCAGTATGAAATATTTGAGTAAAATAAAATCCTACAATTCCAGATAAAATACCTATTTCTATAGATTTTTGTTCTATATTTTCACTTTTTATTCTATTAAAAATACTATTAGTTATATAAAGAATGAATATAATAAATAAAATAAAAAAGATTAGACCCAAATCTATTAATATCTGTAAAAAATTATTGTGTACATTTGTTCCAAATTTTATTCCATATTTGTTTTCCTCTTGAAACTCTTTATTTTGCCTATAATAATATTCTTTCATTTTAATAGGTATATTTTTTCTACCTGCTCCAATAAATAAATCTTCAGCAATAACACCTTTTGCTATATTCCACATTTGAAGTCTTGATATATTTGATATATCTGTTTTTGTATTAGATATACTTTTTATTCTACTTACTATTCTTTGATTATTTAAAGTATAATCTCCTATAACTACTAAACTTAAACTTAATATAAATATTAATAATACTTTTTTATTTTTTGATAATAAAATAAAAATTATTATTGCTACAAAAAAACCTATCCAAGAACCTCTTGATTTTGTTAATAATAATCCTATAAAACTTAATATAGTATTTATAAAAATCAAATAATTTAATGTTTTTATATGGTTATATGTTTTAAATATAATTAAAGAAAAGTTAAAAATTAATACAAATACTAATATATCTCCTTCTCTTCCAGGTCCAAAAAAACCCATAAATCTCTGATTTATATTTTTAAATGTAAAAAAACCATATATTAAATTTATTAACAATCCAATTTCTAAAAAATAAATAATTTTTTTTATATTTTTTATATCTATATATAAATAAACTACAAAAGGAACTAAAAAATAATAATATTTTCCTAAATAATTTGGATATCCACCTTGATTAAATATATTAATAACAAATCCTAATAAGTATAAAATTATTCCAAACTTTGCTATTGATATTATTTTTATATTAAATTTATTTATTAATATATATATAATTGTAGTGATCAGCAATAAACTTGCTGTTATATTTGATAATGCTTTTGATGAAAAAATTGATAAAATAAATACATATAATATTATTGTTCCTATTTTTATTAAACTATTCGAAAAACTCTTATTTAATTCTAAATTTTTCATAATGCACCTCTTTATTTTTATATTTAGTTATCTAAATAAATATATAAATTTTGTATAAAATTCATAATTTAACTCTTCAATATTCCCGTCTAAAATATATTCTTCTCTTTCCTTATTACCTTGTACATGAATAATATAAGCCTTTATTTGCATTTTAACTTCTAACTTAAATCAAGTATTCTTTCTAATTCTTTTATTTGTTTATAAAAGTCAAATTCTCTAGCTTTTTCTATAAGTAATTCCTTATCAAATTTCTTATAAGTTTCTATCATTTTTATGATTTTATTTGTAATATCATTTATGTTTTCTGATTCTGCTAAATATCCGTATTTTTCAGTTATTACAATTTCTGGGATATTGCTTATATTTGTAGCTACTACCGGTTTTCCACATGCAAAACTTTCAACTAATACATAACCAAATCCTTCCCAAAGTGCTGTATGCACTAAAAAATCAACTTGTTTTAATATTTCATATATGTCTTCTTTAAATCCAACAAATTTTATATAATTTTCTATATTTAATTTTTTTGTAAGAAGTTCTAATTCCTCTTTTAATTCTCCATCCCCAATAATTAAAACTATAAAATCTAAATTTTTATTTTTTAATTTTTTTATAGATTCAAATAAATATTTGTGTCCTTTTTGTTTTGTTAATCTTCCTATATTTGCAATCACTATTTTATTTTTATCAATATTGTATTCTTTTCGCAAATCTAATTTTGAATCTAATTTTAAAATATTATCTATTTTTATTCCATTATATATTACTTTTATTTTATTTTCACTTACAATATTTTGATTTTTATTTAATGTTTTTTTAGTTTCAATTGAATTTGCTATAACTATATCAACTAAATTTTTAAATATATATCTATTTAAAAAACTATTTTTTAAAGGAATAGCACTTCCTCTTCTATATATTATTTTATTTACATTTGCTAATCTTGCTGCAGTAGCGACTAATTTTAGATCATTTGATTGATTAATTATTACTATTTCAATATTATTTTTTTTTAAAAAATAATATATCAATAAAACCTTAAAAATATTTAAAAAACTAAGATTTTTTATATTTATTTCAAATAGATTTATATTGAAATTTAATAATTTTTTTTTTAATATTCCTTTTGGATTACATATAAAAAATATATTATATTTTTCATTTTGTGATAAATAGCTAGAAGTTTCAAAATGCCATTTTTCTCCTCCACCCCAAATTTTATTACTGTTTACAAAACATATATTTTTACTCATTATTATTTATCATCCTTTAACATGTATAATTTTACTTGTATTACAAAATTATATATATAAGCTAACATAGCTAATATAAAACCATAAAAACCATCTAAAAAACCTAATTTTAATATATACATTTTAAAAAATTTAAAAAAAGGATTAAATATTATTGTAGAAATTGAAGCTTTTTTACCTTTTTCTTTTCTTTTTATTGCACCTTTAGTAGTATAACTATTAAATTTATTAAAATATTCTTCTAAACTTAAATAAGTATAGTGATATAATTTTTCTTTGATTTTTCCGATTTTTTCTTCTGTTAAAAAACTTTCATGTATAATGGCATCATCAAGCTTAGCTTTCCCTTTTTTAAATAATCTAACTACATAATCATTACTCCATCCACCGTATTTTATCTCTTTTCCAAAGCAAATACTACATCTATTTATTTTATATACGTCATATTCATTATTTTTATTAAAAATTATTGTTTTTATTTTATTTGCTAGTTCTTCTGAAACTACTTCATCTGCATCAATAATCAAAATCCACTCATTATTACATTTTTCTATTACACTATTTTTTTGTTTTCCAAACCCTTTCCACTTTTCAATAAAAACTTTCGCATTATATTTTTTAGCTATTTCTACAGTTTTATCTATACTATAACTATCAACTATAATTATTTCATCTGCTATACTTTTTATAGCCTTCAAGGTTTTTTCTATTTTCTTTTCTTCATTAAATGTAATAATTCCTACAGATAATCCCATTATTTCTCCTTAACTTCTTTAAATTGAGTGTCATATAGTTTTTTAAATATACCATTTTTAGCAAGTAATTCATCTTTTTTTCCCACTTCTTTAACTTCCCCATTTTCCATTACAACTATTTTATCTGCACTTAAAATAGTAGATAACCTATGAGCTATTACAAAGCTTGTTCTATTTTCCATAAGTTTATCTAATGCATCTTGTACTATTTTTTCAGATTCAGTATCTAATGCACTTGTCGCTTCATCAAGTATTAATATTGGTGGATTTTCAAGCAATGCTCTTGCTATAGCTATTCTTTGTTTTTGTCCTCCACTTAATCTAACTCCTTTTTCTCCTATTTCAGTATCAAATCCATTTGGAAACTCCATTATAAAATTATATGCATTTGCCATTTTAGCTGCTTTTATTATATCTTTTTTAGTTGTCTTATGGATACTACCATATGAAATATTATCATAAATCGTTCCTGAAAATAAAAAAGTTTCTTGTGGTACAATTCCTATATTTTTTCTAAGTGATTCAATTTTAATATCTTTAATACTAACATCATCTATTAATATCTCACCTTTTTTTATATCATAAAATCTAGGAAGTAAATTTACTAATGTTGTTTTCCCGCTGCCACTTTTTCCTACTAAAGCTATCATCTCACCTGGATTAACGTCTAAATTAATATTTTTTAAAACATAATCTTCTTTTTCATTATATTTAAACCATAATTCTTTTATACTTACTTTTCCTTTTACTTTTTTTAATTTTTTAGCATGTTTTTGTTCTTTAATAAATTCATTGCTTTCAAGTACTTCAAATACTCTATTTATAGAATGACGTCTTGTTTGAATAGCACTTATTTTATCAGCAACACTTTTTAATGGTTCACTAATTAAACCTAAAGATGTTAAAAATGACATAAGTTCTCCTGGTGTCATTTCACCATTTATTACTAATAATCCACCATAATATGCTATTATTGCTACTCCTAAAGTACTTGTAAACTCTACAAGTGGTCTTACTCTTGCATTAACTTTTACATTTTTTAATGTTAATCTATAATTTTCATCATTTTTTTCTCTAAATCTATCTATTTCATATACTTCTGTAGCAAAACTTTTTATAATATTTATACCATTTAATATTTCTTGCAGTAAACTATTAAGTTTCGAAAAACTTTCTTGCATTCCTTTACCAGTGTTTTGTAATTTTTTACTATATTTTCTTACTATACCACTACTTGCAGGAATTAATACAAGACATATAATACTTAATTTCCAATTTAACAAAAAAACATTTCCTAAAAGAATAATTATAGTTAGTAATTGTACAACTAACTCAAATGATAACGTAACTACATTTTGAACCATTGTAAGATCTGATATAAACCTAGTTATAAGGTCACCTATTTTTGATTTATTAAAAAAATCATGTGACATATAGATTACTTTTTCATAAAGTTCGTTTCTCATATTTCTTACCATTTTACCAGAAATATAGTTTTGTAAATATATTCTATAATAATTAAAAACTCCTTTTGCAAGCATTAATAAAATTATTCCTATTACTACAAATTGAAGTTTTTTCAAATCTTTTGCAATAAGTACATCATCTGTAATATTTTTCATTATTTTTACAGGATATGCATTAGTTATAGAAACTAAAATAGATAATATTATTGTAGCTATTATTGAAAGTATAAACGGTTTTGCATAAGAAATTAGTTTTGATATTCTATTTTTCATTTTTCACCTCTATTTTTAAATTACATATAATTATAACAAAGTTAATATCTTTTTTCAATAAATAAAAAATGCCAAGCAAATGCTTGGCATAAAAAATTTATCATATAGCCTTAAAAAGGGGGTATAAGTACTATATGGATATTGTTAAATTGGTGCCGACGAGAGGAGTCGAACCTCCGACACTACGGGTATGAACCGTATGCTCTAGCCAACTGAGCTACATCGGCAAAATGGTGCCTAGGGCGGGAATCGAACCCGCACGGACAAAATGTCCACAGGATTTTAAGTCCTGTGCGTCTACCTATTCCGCCACCCAGGCGTCTCATTTCTCAAAAGACAAGATTAATTATATATTAAACTAATTAATATGTCAATACTTTTTTTAAGTTTTATATTTATTTTTTAAGTAATTATAATTTTTATATATTTTTTTTAAATATTCTGTTTCAAAATCACCATATTTTTTTTCTAATCTTTTTGTTTTAGTTGGTCCTAAATTATATGCAATTATAGCTTTTTTTATATCTTTAAAATACATTATCTGCTCTAAAAGATAGGTAGTTCCTATTTCTACATTTTTTTCTACATCAAAAAGTTCTTTTTTATTTTTTACATCTTCACCCATTTTTTTTGCGATAGCTTTTGCAGTAGTGTATTTTATTTGCATAAGTCCATATGAAGGATCTCCAGATATAATATTTGCCCTAAAACTACTTTCTGTCATTATAAATGCTACTGGAATCCTCCAATCATATCTATATTTTTGACTTGTATCATATATTGCTCTAGACAATTTTAATTGTTCTTTTTTATCAAGTTTATTATAACTAAGTTCTTTTACAGCATCTAAAATATTCTTATATTCTTTCAGATCTTCTATTTCTTCATCTTTTTTATTTATTATTCTATTTTTCTCTTCTATAATTTCTAATTTTTCTATTATTTCATTTTGTAATTTTTCTATATTTTTTCTATGTTTTTCTATTTCTCTATTTCTTTGTGCAATTTCAGAAATAACTAAAAATACTCCCAATACAATAATTAGAACAAGTGTAATAAAAGAAAATTTACTAAAACCTATTTCAAATACTATATTTTTTTCATTTTTTTTAACAAATTTCATATTTTATCCCCCCACACTTAGTGGTTTATTTAAAAAGTAAAAACCCGGATACAATACCGGGTTTAAAATCTATTTAAGCTTCTTCAAATTGATCTTTACCTACAGCACACACTGGGCATACCCAATCTTCTGGTAAAGCTTCAAATGAAGTTCCTGGTTCTATTCCTGCATCAGCATCTCCAATTTCAGGATCATATACATATCCACAAACTACACAAACGTATTTTTTCATAATTATCTCCTCCTAGTTATTATTATATTGTTTTTTATATAAAATTAATAATTTTTTTCTTTTATTTCAAAATATGATTTTGGATGTAAACATGCTGGACATTTTTCAGGTGCAAATTCACCTTCGTGTACATATCCACAATTTCTACATTTCCATCTTGTTACTTCTGATTTTTTAAACACTTCGTCATTTTCTATATTTTCAGCTAATTTTCTATATCTTTCTTCATGTTCTTTTTCTACTTTTGCTATCATTCTAAATGCAGTTGCTACATCTTTAAATCCTTCTGCCTCTGCTTCATCAGCGAATGCTGGATATAATTCTGTCCATTCTTCGTTTTCACCTGCTGCTGCTGCTTTTAAATTTTCAACAGTTGTTCCTATTTTACCTGCTGGATACATAGCTGTAATTTCTACACCTTCTCCAGATTCTAAAAATTTAAAAAATCTTTTAGCATGTTCTTTTTCATTTTCAGCAGTTTCTTGAAATATAGCTGATATTTGTTCATAACCTTCTTTTTTTGCCACACTTGCAAAATAAGTATATCTATTTCTTGCTTGTGATTCTCCAGCAAAAGCTTTTAATAAATTCTTTTCTGTTTTAGTTCCTTTAATTGACATACTACCTGTCCCCCCTTATTTCTATTAATTATTTTGAATTGTAGATGAATTCAATGGTACTTGAGCTACTCTTTGACCAAGTTCTCTATCAATCATAAATAATCCTGTTCCTTCTCCATTAATTAATTTTAATTGATTCAAAATTTTAAGCATATTTGCTTCTTCTTCAACTTGTTCACTTATAAACCATTGTAACATATTCATTGTAGCATAATCTTTTTCTTGTTGCGCTAAAAAAAGAACTTCGTTTATACTTTCAGTAATAAAACATTCATGTTTATAAATATCTTCAAACACCTCTATTACATCATTCCATTCTTTTTCTACAGCGTTTATAGTTTTTAATCTTACTTTCCCACCTACTTCATTTATATAAGTATAAATTCTCATAGCATGAGACATCTCTTCTTCCCATTGAACTCTCATAAAATTAGCAAATCCTGGTAAATCACGAGCTTCAAAATAAGATGACATTCCTAAATAAAGATATGCAGAATAAAATTCTTTATTTAATTCTTCATTTAAAGCATTTAAAACTTTTTCTTTTAACATTTACTGCCCCCTAATAGTTATTTTAATCCTTTCCATAACCCATGTAGATTACAATATTCTCTCGCATATAATACTTCATTAGATTTTTCTACTATGAATTTTGCTTCTGGTTTATCATTTGGCGTTAAATTTTTTCTATAAACTTTTCCATCTACAACAAGTTCAATCATTGTTATATAGTGTTCTTCCGTCATTGGATGCGCTGTATTTTCACCTACTCTTACTACATATCCATCTTCTATTTCTTCTATAAATGGTACATGTTTTTCTGTAGATGAATCAGCCGTTTTTTCTTCTAAAAACTCCATTTCTTGTCCACAACAAACAAGATCTCCTTGACCTGCTTTTAATACTTCTACTATATTTCCACAAAGATTACATTTATAAATACCTAATAATTTTGCCATTCTTTTACCTCCTAAATAAAATTTCTATTTCTTATATACCATAAAAAAATAATTTTCCTTTAAAAAAAGATAAAAAAATTTTATCTTTTTTTTAAGCATTCACTGCATATTCCTTTAAAATATATATGGTGTTCATTTACTTGATAACCATTTAATTCTAGAATATCAGCTTTTTCTGGAGAAATTTCAATATCTTTTACTTCTCCACAATTCTCACATTTAAAATGTGCATGTAAATCTACATCTGCATCATATCTAGTTTCGTTTTCCTCTATTACTATCATTATAGCAATCTTTTTTTCAATAAATAGATTTAAAGTATTATATACTGTGGTTTTTGATAATGTCGGTATTTCCTCAATAATAGCTTTATATATCATATCTACTGTAGGATGATTTTTATTCTTTACTAAATACTCAAAAATCTTAATTCTTTGATATGATGGTTTAATACCGTGACTTTTTAAATATTCACTAATATTTTCAATAACTATTCCCATGATTACCGCCTCTTTCGTTTTTTAAATTTGTAATCATTTCAATTATGATAATACTATAAAAAATGAAGTTTGTCAATACTTTATTTAGGAAGTCGAATATAAAATGTTGTTCCTTTATTAGTAAGTGATTCAAATCTTATTCTACCATTATGTGCATCTATTATTTTTTTTACACTCGCTAATCCAAAACCTGTTCCTTTACTTTTTCCAAAAGTTGCTCCTAATGTAAATAATTCATCTTTTATCTCTTCTGGTATTCCTTTTCCTGTGTCAGATATTATAATTTTTAAGGTTTTATCATATTCAATAACTTCTACCTTTATTTCTCCCTCTCCATGTGGAAGAGCTTCTTCTGCATTTTTTAAAATATTCCAAAAAACATTATGTAATTTATCCCTATCTCCATATACATATATATTTTCATCTATTTTTAATTTTACTAAATGTTCTATATTTAATAAATTTATTACATCTAAAAACAACTCTTTTACATTAATATAAGTCTTATCTAATATCATATCATTAATTCCTGCAGCAATATTTAATATATCTTGAAGCATTGTTTTTAATCTATCTATTCCTTGTTCCATTTTTTCATAAAATAATTCTTTTTTCTCTTTTGAATCTGTCATTTTTAAAAGTTCTAAATATCCTGCAAGACCTGTAAGTGGATTTTTTAAATCATGTACAATAGTAGATACTGATTCACCTATTACAGAAAATTTATGCATATCTTTTATATGCTGTTCTTCATATTTTTTTATATTTTGTACATCTCTAATTGTTACTATAACATAGTCGCTATTTTCAAATCTAAATGGAAGGGCGTTTAATAAAATCTTTATTTTTTTAGTTTTATTAGTTAAAAATATATTTAGATATCCTTGTCTATTATAGATAGCTTTTTTAGTTTGTCTTACTTCTTTTACTATATTTCTAATAAAGCAATCTCTAATTAAAGGATTATCATCTTCTATTTCTACATCTAGTTTACACTCTACTTCTTTACCAGATTCATCAGAAAAAATTATTTCTTTATTTTGTTTTAAAAAAATCTGCACTTTTGCATTTACTTTTGTAAGTCTTCCTTTATTATCAAAAATAAATATCATTTCTGGCAAAGAATCTAATATAGCTCTAAAAATAGGTGCTTTTTCAAATTCTTTTTCCAATTCTGTAACAATACTCATTTTAACCCCTCCAATTTTTACAACTAACTATTGTTTTTCGCTTTTTAACTTATTAATTTGTAAAAGAAGTTCATCTATTACTTCATCAGAATATCCAAATCCTAGTTTTTTCTTTGCACTTGCTACTATTTCATATACTGTTGATTTAATTTTTTCATTATCATTTACTACATATTTATAATTATTTTCTATTTCTTCAATTTTTGTTTTTTCTTGGGCTAAAGTGTATTCTAAATTTTTTATATACTCTTTTTTTTCTTCTACTATTTTTTCTAATTCTTTTTCTCGTTCTAATTTTTCTTTAAAATCATTATTTATTTTTTCTTTTTGAAGTTCAAGTGCTTTTCTTATTTGTTCTAGTTCTTTTATTCTTTTTTCATTTTCATTTTTTTCTTCTTCTAATCTACTATTTAATTCTTTCATTTTTTCCATTTTTATTTCTAAATTATTATGTTTGTCATTTAATTCCACAAACCTTCTTCTAAGTTCTGTTGCTGGTATATGTTGAGGATTATTTCTTTCTTTTTCCTCTTCACCTAATATAAAACTATCAAACTTTTTACTATTTAATATTTTTATAAATCTATCTAAATAATCTATTGCTTTTAATACTGCTTGATTCTTATCATCTCTATTATTTATTCTGCTTTTACAGAAAGGATATACTACTTTTTCACTACTTTTGATAAAATTTTCTTCTTTTTCATCTTCATTTAATAATGATACTCTTCTATGTAAACAGTTTAATGCATAATGCATAGCATAAATAAAATATATATAATTATAATTTAATAATTTTAATATTTTTCTTGTTTCTTTTACTGAATAAGTAATTAAAAATGTAATGTATTTTGCATATTCTAAGAAGCTTTTCTTTTGAATATTATCTTTTTCCATATCTTTTGCAAAATCAAGATAATCTTCTGGATTAAAAATAAAATTTTCTATTTTACTTTTGTCTGTATCCTCTTCATAGAATTTTTCAATTTGAGCACAAAGTGGTGCTAAATCCACCCACATATTTTTAAAAAATGGTATACTATCAAGTTCGCTTAACATTTCTGCAAATTGATTTTCTGCAGTTTGAAGCTCATCTTTTTCTAGTCCACCAAAAAATAATGTATATAAGAATATAGCTCCTACTCCATAAATATCAGTAGCAAATGACCATTGTCTAAGTTCTGTGGTTCTTGGAATAGACATCCATGCTCCTGTTTCAATAATTTCTTTAGAAGCAATAATTATTTTTCCATGAAAAATTTTCCAATAATTTTTACTACATAATAATATTTTATTACCATTTTCCGTTATTCCTACATCTTCTATTTGAAATATATATTCTCTAATTTGAATTTTATCCCCTGGAATTAAAAGAGATGAATCATATTTAGGATTTTCTTCTATTTCTTTCGGATATTTAAATTCTTTTATATTTTCTATAACTTCTTCTTTTACAATATCTTCTTCAAGAAGTTCTCCTCGCCATCCAAGAAGTATTCTTACTGTATCATCTTCATTATTTACAAATACAGCTGTATCAGCGTTTTCTCTTTCTATATCACTTTTTCTTTCAGGTGCATAAAAAGGTGATGTTCTTTCTTTACTAAGAGTAGGCCCTAATATTCTACTAAAATGTTCATCAGATACTTTATTTCCATCAATTATCCCTACATCATGTTTATTAAAACTACCATAATCAATAAGTTTATAATTTTTAGGATTAGTATAATTCCCCATATACATAATATTTGCTGGTCTAATATCTGAATGAATAATATTTCTATGGTGCAATGAATTAAGACCATCTAATAATGTTCTATTTAATTCCAGATAATTAATTAAATCCCATTCTTTATTTTTTCTATTTATTATTACCTCTGATAGCGTACTATTTCCCCATTCATATACAATAGAAGGAAGTCCTACATACCAAAGTTTATTATATTCATTTTCTTCTTTTAAAAACTCTAATACATCTAGATAGCTTATTACTCTTCTATTTTCTATTGGTTCATACAAAACTATGGTTTTTTGCCATGGACTATTTCCATCCATTGCATTTTTCTTTAATTTTTCAAAATCTTTCTTATTTTCTAATGGTAATTCTTCTAATTTAACACCTTCTGGAAAAAGTTTTATTTCTCCTTCTTCATCAACTTTTATCCCACAAAATCTTGGCATTTTTCCTTTGTTATATTGCACTGCAATAATTTGTCCATTTTGTTTTCTTGCTTCTTCGCTAGTTGAATTAATGCTTTGTATTGGTTTTTGAATAATTTTTTCTGAAAGTAAAGAACCTCTTAATAATCCATCTCTCCCTATATCATCTTGAGTAGTAAAAATTTCTGTTACATTTTTCTCTTCTTCATTTAAAAGTTCACATATATATGCATTTTCTTTTAAAGTATCAGCTAAAAGTCTCGGAATTTTTAACGCATAAACTCCGCCTCTATCATTTTTCAACTGTATTACTACACCAAGTGCTCCCTCATAACATGTTCCTTTAGTATATCCATTTTTATCAATAGGAATATACCATTTTTCATCAATATAAAGTTTATACTCTTTCTTTTCTGATTCATTTACTTTAATATTTTTACTCAACTAGATACCCTCCATATTTTAGTTTTATTCATTATTATATTAACACTTTTTAGTCACATATTCAATAAGCAAAGATATATATTTCTTAAATTTTAAACATCATATATAATCTATCTATACCTTTTCCATATTCATCTTTTAACTCTTTTTCTATCTCAAATCCCAACTTTTCATATAGTTTTATTGCTTTTATATTTTCTTTATCTACTGTTAATACTATATTTTTTATTGTTTTTTTATTTTTAATAATATACTCTTTTAGTTTTTCTAAAAAAACTTTTCCTATTCCTTTAGATTGATATTTTATATCTACACAAAATCCATATATATATATAGTATTATTATCCCAATTATTTATTAGTTCTGCTACTGCTAATATTTTATTATTTTCTTCAATGGCTAAAACTTTTCCATATCTTATTATTGGTTTTAATATCCAATAATCAACACCGCCATTTTTTCCAAAAATTCTTTCTTCAATTTTTATTATTTGTTCTATATATTCTTTTTCATTTGATAAAATTTCTATAAACTTCATATACTCACCCTAATAATTTATTTCACAAAGATATAATCCTTGTGGCTCTGCTAATATTTTTTCATCATTAATATTTGGATCTTTTAATTTGTTTATAATATAATTTTCGTCTCTTTCTCCAAAATATACTGCTAAAGCACTTCCTATTATAATTCTAACCATAGACTTTAAAAATGCATTTGCTTTTAAATAAACTATTGTATAGTTATTCTCTCTATAACATTTTATTTCTTTTATTTCTCTAAAATTATTTTTTGCTTCACAATCTGATTTTCTAAAACTATCAAAATTATGTTCACCTAATAAAGGAGTTAATATTTTTTTTAATTTTTCTTCATTTATTTCCTCTTTTACATTCATCACTTTATCATAATCAAAAGGATTTTTTTGAGAACACATTTTGTAAATATACGCTCTATCTTTAGCTGAAAACCTAGAATTAAACTCTAATTCAACTTCTTTCGTATCTAATATATGAATATCTTTTGGAAGTCCTCTATTTAAAATATATGTAAGTTTTTCTACTGGTATAGTTTTATTATTAGTTAAAAAATTTGAAACTTGAAAAAGTGCATGAACACCTCTATCTGTCCTACCAGATGTTTTTATTGTTATTTTTTCTCTAAATAATTTATTTAAAGCTTTTTCTATTTCTCCTTGTACTGTCCTAAATTCATTTTGTCTTTGCATACCATAAAAGTTACTACCATTATATTGATATGTTATTTTAATATTCCTCATTATTTTCTCCTACTTAAAATTTATCTATTTCTTTATTATATCAAATATAATTAAAATAAAAAAGACCTTAAAAAAACAAGAGGTAAATCCTCTTGTTTTTTACTTAACTATCATTGTTCCTATTCCTTCTTTTGTAAATATTTCTAATAAAAGAGAATGTTCTATTTTACCATTGATTATATGTACTTTACCGGCACCTTTATCAAGTGCATTTAAACAAGCAGATATTTTTGGCAACATTCCACCTACTATTATTTTATTATTTATTAATTTTTCTACTTCTTCTTCAGTTACTTTATTTATTAAAGAACCTTTATCATCTATATCTCTCATTATTCCCATTACATCAGTTACAAATATAAATTTATCTGCTTTTAATGCTCCTGCGACTTCACCTGCCACATAGTCAGCGTTTATATTATACGTAGTCCCTTCTTCATCAGATCCAACTGGACATACTACAGGAATATATCCTTTTTCTATTAAAGTATTTACTATATCAATATTTATTTTCTTTACCTTTCCTACATATCCTATATCAATTTTTTCTCCATTTTTTTCTATATATTTTTTTTCAGCTAATATAAGATTACTATCTTTTCCACTAAGACCTATTGCTTTCCCACCATTTTTATTTATTATTGCTACAATATCTTTATTTACTTTTCCAGCTAAAACCATTTCTACTAATTCGACTGTTTCAATATCTGTTACTCTATTTCCTTCAATGAATTCTACTTTCTTATTTACTTTTTTTAATATCTCATTTATTGCAGGTCCTCCTCCATGAACTACTACCGGATTCATTCCTACATATTTCATTAAAACTATATCTCTAATAAAATCTTGTTTTAATTTTTCATCTGTCATTGCACTACCACCATATTTTATTACAATAGTTTTTCCTGAAAACTCTTTTATATATGGCATAGCCTCTAATAAAATATTAGCTTTTTCTATTATTTTTTCCATATATTCCCCCAATATATTTTATTAATTTTTATACACTTTATTTAATTTGATTTATCTTACATTTCCAAGTATTCTTTTACAGTATAATAATTTTTATTTTCTGTTGCTTCATATACTTTTAAGTAAAGTTCTGCTGTTTCTATTGCGGTAAATAAAGCTATTTTATTTTCTGCAGCTTTTCTACGTAATTTAAATCCAAATGTCTTAGTATTGTTTCCAAATGTAGGTATATTTATTATTAATTCTATCTTTTTTTCTTTTAATTTATTTGAAATATCTTCTTTGTCAAGCTCTATTATATCATAAAATTCTTTAAGATATTTATATGTATTTCCACTACTATATATTTTAAAACCTTTATTTATGTATTTTTTTACAATTTCTTTTCCTTTTTCTTTACTAATATCACTAAATGATACATATACTTTTTTATTTTCTATTTTTCCTACTCCACATGCTTTAAAACCTTTATATATAGCGTTTTCTAGTTTTTTATCAATTGCTAATATCTCACCTGTAGATTTCATTTCTGGTCCTAAAAAAATATCTACATCTGCTAATTTTTCTGTAGAAAACACCGGAAATTTTAAAGAATAAAACTCTTTTTCTTTGGCAAGCCCTGTTCCGTATTTCATATTTTTTAATTTATCTCCAAGCATAATATCTACAGCTATTTTTACCATAGGAATTCCAGTAACTTTACTTAATATTGGTACTGTTCTACTTGCTCTAGGATTTACTTCTATTATGTATAACTCATTTTCATAATATACATATTGTATATTTATCAATCCTTTGGTTTTTAAATTTATAGCTATTTTTCTAGTAGTTTCTACTAATTTATCTTTCAATTCATTTGATAAAGTAATTGGGGGATATGCTGATATACTATCTCCTGAATGTATACCTGTTTTTTCTATATGTTCCATAATTCCAGGTATAAGAACATCTTCACCGTCAGATATAGCATCTACTTCAATTTCTGTTCCATATAAATATTTATCTACAAGTATAGATACTGCATCTAATTTTTTAGCATCTTCAAAATATTCTACTAACTCCTTATCAGTATTTATAACCTTCATAGCTCTACCACCTATTACATAAGATGGCCTAACTATTACTGGATACCCTATTTTTTCTATCAGTTTTCTTGCTTCATCTATTGTAGATACCGCATCTCCAATAGGGCTTTTTATCTTAAGATTTTCTAAAAATTCTCTAAATTTTTCTCTATCTTCTGCTAAATCTATTGAGTTAAAATCACTACCAAGTATTTTTATTCCTGATTTTTCAAGTCGTTCTGTAAGATTTATTGAAGTTTGTCCTCCAAATTGTACAATTACACCTTCTGGATTTTCTTCTCTTACTATATTAATTACATCATCTATATATAATGATTCAAAATATAGTTTGTCAGATGTATCAAAATCTGTACTTACTGTTTCAGGATTATTGTTTATAATTATTGCTTCATATCCTCTTTCTTTGGCTGCCCATATAGCATGTACAGAGCAATAATCAAACTCTATTCCTTGCCCTATTCTTATTGGTCCAGAACCTATTATTATTATTTTTTTATTATTCGTAATTATATTTTCATCTGTACTTTCATAACAAGAATAATAATAAGGAGTTACTGCTTCAAATTCTCCACTACACGTATCAACCATTTTATAGGTTGGATATAAATTTGATTCTTTTCTTATATTATCTAATTCTTTTTTTGTTATTTTAGATAGTCTGATTATTTCATCATCTACAAATCCTATTTTCTCTGCTTTTTTTATATATTTTATATTTTTAGGATTTTCTTCTAATTTTTTTTCTAAATCTATTATATTATGAATTCCTTTTAAAAACCATCTATCAATTTTAGTGTAGTTAAAAATATCTTCTATTTTATATTTTCTTCTGAAAAGTTCTGCAATAGCAAATATTCTATCACTATTATTTGTAACTAATTCATTTATAAGTTTTTTATCGCTTTTTTCTTTTAATCCGCTATAATTAAGTCCTGTATAACCACCTTCTATACTACTTATAGCTTTCATAAGAGCCCCTTCAAAGGTTCTATCTATTGCCATAACTTCTCCTGTAGCTTTCATTTGAGTAGAAAGCGATTTACTTGCTGTTTTAAATTTATCAAAAGGCCATTTAGGTAACTTTAAAACTATATAATCAATAGCTGGTTCAAAAAATGCACTTGATTTTTTAGTGACACTATTTTTTAATTCATCCAAGCTATATCCGAGAGCTATTTTGGCAGCTATTTTGGCTATTGGATATCCTGTAGCTTTTGATGCAAGTGCAGAAGAACGGCTTACTCGCGGATTTACTTCTATTACAATATATTCATAAGAATTTGGATTTAATGCAAACTGTACATTACATCCTCCTTCTATATCTAATGCCGATACTATTTTAAATGATGATTCTCTAAGCATTTGATATTCTTTATTTGATAAAGTTTGAGAAGGTGCCACAACTATACTATCACCTGTATGTATTCCCACTGGATCTAAATTTTCCATATTACATACAGTTATACAGTTCCCTTTTTTATCTCTCATTACTTCGTATTCTATCTCTTTCCAGCCAGCTACACTTTGTTCCACAAGTACTTGATGAATAGGACTTAGCTTTAATGCTCTTTCGCATATTTCTATAAATTCTTTTTCATTACTTGCTATTCCTCCACCTGTTCCGCCAAGTGTATAAGCAGGACGAAGTATTATTGGGTATCCTATTTCTTTTGTGAATTTTATTCCTTCCTCAAGCTTATGGATAATTTTACTTTTAGCTATAGGTTCTCCTATTTTTTCTAAAAGCTCTTTAAATTCTTCTCTATCTTCTGCTTTTTTTATAGCTTCTATATTTATTCCTAATAATTCTACTCCATATTTATCAAGTATTCCTTTGTCATATAATTTCATTGCTAACGTAAGAGCTGTTTGCCCTCCAAAACCAGCTAAAATACCATCTGGTTTTTCTTTTATTATTATTTTCTCTATTACATCTGTCGTTAATGGTTCTATATATACTTTATCTGCTATATTTTCATCTGTCATTATTGTTGCAGGATTACTATTTATAAGTATTACTTCTATCCCTTCTTCTTTTATTGCTTTACATGCTTGCGTCCCAGAATAATCAAATTCTGCTGCTTGTCCTATTATAATAGGCCCAGAACCAATTAATATTACTTTTTTTATCATAACTTACTCCCCTCTCACTAATGTTAAAAATTCATCAAATAAATATTCTGTATCATGAGGTCCAGGACATGCCTCTGGATGAAATTGAACAGAAAATATTGGATAATCTTTATGACGAATTCCTTCTACTGTATCATCATTAAGATTTCTAAAAGCTACTTCAAATCCAGTATTTTCTAAACTTTTTTCATCTACTGCATATCCATGGTTTTGAGAAGTTATAAAAGATCTATTTTTTTTATAATCAATTACACCGTGATTTCCACCACGATGTCCAAATTTCATTTTATATGTATCTGCTCCAGCAGCTAAAGATATTATTTGGTTTCCCATACAAATCCCAAAAATTGGAAGTTTATCAAATAAATTTTTAATGCACGCTATTGCTTTTATAGCATATTTGGGATCTCCTGGTCCATTACTAACTAATAGTCCATCTACTTTATGTGCTAAAATTTCTTCTGCTTTTGTTCCATATGGAAAAATCTTTATATTAATATCTCTTTTCTTTAAATTATCTAAAATATTATTTTTTAATCCTAAATCAAGTACTCCTATTGTCTCTTTATTTCCTTTTATTTCTATTATCTCTTTTACTCCTACTTCTGTCATACTACTTTCTATATTTAAAGGTTTAGAAAATAATTCTTTTAACTCTTTTTCATCTAATTTTTTCGGAGAAATAATTGAATTCATAACTCCTATATCTCTTATTTTTATTGTAAGTGACCTAGTATCAATATTACCTAAAATTGTAAGATTTTTCTGTTTTGCAAACTCTTCTAAAGAATCTTTGTTCATAAAATTGCTAGGTGTTTTTTCTAAATTTTTTACTATTAGACCAGAAGCATAAACATCTTGTGATTCATTATACATATCATTTGTTCCATAATTTCCAATAAATGGATAGGTAAGTATAACTATTTGTTTTGCATATGACGGATCTGTTAAAATTTCTTGATAGCCTGTCATAGATGTATTAAAAACTAACTCTCCATATTTTATATTTTCTTCACCGTACAAATTTCCTTCATAATAACTACCGTCTGATAGATATAAATATCCTTTTTTCAATATTCTTCCCCCCATTATAGTCTTTAAACTATATTTTAAAAAAGTTTTAAATCATTATGATTTTTAACTTCTATAAGAGCCATTTATTTTTACATAATCATAAGTAAGATCACATCCCCAAGCAGTTGCTGAATGCTCTCCAGTTTTAAAATCAGCTATTACTATTACTTCTTTTTCTAAAAGTATCTCTTTTACTTTGTCTTCATTAAAAATAATAGGCAATCCATTTTCAAATACTTTTATTTCACCTTTTCCTGATTTGAAATACAAATCTAAAGTATTGGGAGTAAATTGTACTCCTGAGTATCCCATAGCACATAATATTCTTCCCCAATTTGCATCTGCTCCAAAAAATGCTGCTTTTGTTAAATTAGAAGTAATTATACTTTTAGCTAAAATTTTGGCTTCTTCTTCATTTTTATAATTTACTACATTCACTTCTAATAATTTAGTTGCACCTTCACCATCTGCAGCTATCATTTTAGCAAGCTCTATATTTACATATTCAAGAGCTTCTTTAAATTTATTAAAATTTTTATCTTCTTTATCAATAAGTTTATTCTTAGCTTTTCTACTTGACAAAATTATACAAGTATCATTTGTACTTGTATCTCCGTCAACAGATATCATATTAAAAGATTTATCTATTGTAGGCTTAAATGCTTTTTCTAACATATCTTTTGTTATATTTATATCTGTAACTATAAATCCAAGCATTGTAGCCATATTTGGATGTATCATTCCAGAGCCTTTAGCTATTCCAGCTATTTTTACTTTTTTACCATCTAATTCTAATTCTACACCTATTTCTTTAGGCTTTGTATCTGTTGTCATTATAGCTCTTGCTATACTATGTTTATCATTATGATTTTGAACTTCAGTACATATTTTTTCAATTCCACTTAATATTTTATCCATAGGAAGTTGTACTCCTATTATCCCCGTCGAATTCACAAGCACTTCTTCACTTTCTATCTCTAAATGTTTTGCTATATTTTTAGCTATAATTTCTGTATTTTGATAGCCAACTTCTCCTGTGCATGCATTTGCATTTCCACTATTTATTATAACAGCTTTTATATTTTCATTTTCTATATTTTTCATATTATATATAACAGGAGCAGCTTTTATAACATTTTGTGTAAAAACTCCAGAAGCTATTGCACCATTTTTAGCATATATTAAAGCTAAATTTTCTCTTTTCTCTTTTCGAAGTTTAGCATCTATTCCAATAGATTTAAAACCTTCTACATCATTTATTGTTATATCTTTTTTTATCATGATATTCCCCCAATTTTTAGACATCATTAAATATTTCTAAAAAATTATTTTTATTTATGAGCTCATGAAAACCAAATTTTTTATAAAATTCTTTCGCATTAGTTGTATATAATAAAAATCTTCTCAGATTTTTTAATTCTTTATATTCTACTACTGATTTTATTAAAAATTCACCTAATTTTTGTCCTCTATAAGCTTCATCTATATATACATCACATAAATATGCAAAAGTAGCATAGTCTGTCACAACTCTAGCTATTCCAATATGTTTATCGTTATCTAACAAAGAAAAACATAAAGAATTTTTAAATGATTTTTCTATTAACTCTTTACTTCTTTTATTTGCCCAGTGTGCATTCGAAAGATGATCATACACTGATTGAATATTTATTTTATTTGGATCTGTTGTTACTAAAAAATTATCTTTCTTTACTTCATAGTACTTTTGCATATTTATCCTCCATTAAATATATATAGATATATTTTCAATCCCCATATTCTCTTCTAAATCAAATAATACATTCATATTTTGTATTGCTTGTCCTGCTGCACCTTTAACTATATTATCTATTACTGAAGTAATAATCACTCTATTTGTTCTATTATCTATATTTATAGTTATATCACAATAATTTGTTCTTTTAACATCTTTTGTTTGCACATCTATTTCTCTTATTCTAACAAATTTATTTTCTTTATAAAACTCTTTATATATCTCTAGTAACTCTTGTTTAGTTTTATTAATCTTTAAATTTGCATAAATAGTCGAAAGAATTCCTCTACTCATTGGAATAAGTGTTGGAGTAAATGTAATTTTTATATCTTTATTTGCTAATTTCGACATTTCTTGTTCTATTTCTGCAGTATGTCTATGAGAAGCTACTTTATAAGCTTTTACATTTTCTGTTGCTTCACAGTAAAGCTTATAAATGTCAATTCCTCTACCCGCTCCAGATATTCCAGATTTTGCATCTACTATTATATTTTTTGTATCAATAAATTTCTTTTTTAAAAGTGGAGCTATTCCTAATAGTGTAGCTGTTGGATAACATCCAGGATTTGCTATTACTTTACTATTTTTTATACTTTCTTTATCTTTTAATTCTACTAATGCATATTCAGATTCTTTTAAAAGGGATTCATATGGATGCTCTATTTGATACCACTTCTCAAATTCTTCTTTGCTATCAAGTCTATAATCAGCTCCAAGATCTATTACTTTAACCCCTTTATCAACTGCTTTTTTTACGAGTTCTATTGATTTACCATGTGGTAATGCTAAAAATAATACATCTATTTCATCATATTTTTCTAATGCTTCTTCAGTAGACACTAAAACGTTATCTATTATTCCATAATAATTAGTATATACATCAGAATATTTTTTACCACTATATGAATTCGAACTTAAAAATATTATCTCTACTTCTTTATGATATTTTAATAGATAGACAAGTTGTTGTCCTGCATATCCAGTTGCTCCTATTACTCCTGCTTTTATCATTTTTCCCCCTTATTAATTTTTTAAAATACTTTTTAGATTTATTTTGAAACCACAGAATACACATTAAATTTTTTATTAATTCCACGGTTCCCTTAAAAATATTTTCCCATACTTTCTAATTTGTTTATTTTGAATTTTTACTTTTAATTAAACTCTGTACTTTTGTTGGTAATGAAAATAATTTTATAAATCCTTCTGCATCTTTATGATCATACATATCACTAGCTCCAAATGATGATATTCCTTCGTCATATAATGCATATTTAGATATTCTTGCTGCTGGTTTTATATTTCCTTTATATAATTTTAATTTTACTTTTCCACTTACATTTTCCATTATGCTATCAATAAAAGCATCTAATCCATCTTTTAATGGAGTAAACCATAATCCACTATAAGTTAAATCACCATATTTTTGAGCTACTGTTTTTTTGAATGACATTGTATCTTTATCAAGACAAATTGATTCTAATTCTTGAAGAGCTGCATAAAGCAATGTTCCTCCTGGTGTTTCATATATTCCTCTTGATTTCATTCCTACAATTCTATTTTCAATAATATCAATAACTCCAATTCCGTGTTCTCCAGCTATTTTATTTAATTTTGTAACTAAAGATACTGCATCTAATTTTTCATTATTTACAGCTACTGGAACTCCCTTTTTAAACTCAATTTCTACATATTCTGCTGTATCTTTTGCTTGTTCTAAAGGTTTTACCATCATATATATTTCATCTTTATGTTCATTTTCTAAAAATTCAATATCTCCTCCCTCATGACTTATATGCCATAAATTTTGGTCTCTTGAATATATTTTTTCTTTTGTTACAGTTAATTTTATTCCATGAGCATTAGCATAATCTATTGCATCTTCTCTTGATTTTATATCCCATATTCTCCAAGGTGCAATTATTTTAATACTTTGGTCAATAGCCGCTATCCCAGTTTCAAATCTAACTTGGTCATTTCCTTTTCCTGTACACCCATGACATATATATTTTGCTCCCTCTTTATGAGCTACTTCTACAAGTTTTTTTGCTATTAATGGTCTTGCATGAGACGTTCCTAATAAATATTTATGCTCATATACAGCTCCGGCTTTTAAAGCTTTAAATGCATATTCTGTTAAAAATTCCTCTTTACAGTCTTCTACATATACTTTTGATGCACCAGATTCTATTGCTTTTATTTTTACTTGTTCCATATCATCATCTTGTCCTACATCTACACAACAAGCAATTACCTCTAAATCGTAGTTTTCTTTTAACCATGGTATAGTAATCGATGTATCTAATCCTCCTGAATATGCTAATACAACTTTATCTTTCTTCATAAATAATCCCTCCTATAAATCTTTATTTTAATTTTTTAAAAATTTTTCTGCCTCTTTTAATTGTCTTTCGACTTCACTATACGATGTACCACCATAAGAATTTCTATCTTTTATACAAGTTTCTATTTTTGCTTTTTCTATAATATCTTCTTCAAATTTTTCATTAAATTTTTTATATTCATCAAAAGTAAGTTCGTTCAAGTATTTATTATTTTCTTCACAGTAAGCTACAAGTTTTCCTACAACTTCATGCGCCTCTCTAAAAGGTATTCCTTTTTTTGCTAAATAATCAGCTATATCTGTTGCATTTATAAATCCTTTATAAATATCTTTTATCATATTTTCTTTATTTACTTTTATTGTTGCAAGCATCTCTTTAAAAATTTCTAATGATATTTTTATATTATCTATTGAATCAAATACTCCTTCTTTATCTTCTTGTGTATCTTTATTATATGCTAATGGCAATCCTTTCATTACAGTAAGTATAGAGATAAGATTTCCATAAATTCTACCTGTTTTTCCTCTTACAAGTTCAGCTATATCTGGATTTTTCTTTTGTGGCATAATAGATGAACCTGTAGAATACGCATCATCAAGATTTATAAATCCAAATTCACTAGTAGCCCAAAGTATAATTTCTTCTGAAAATCTTGACATATGCATAGCTATCATAGCTATTACAAAATTTGTTTCTGCAATAAAATCTCTATCACTTACACTGTCTAAACTATTATTTGTTACTTTACCAAATCCAAGCTCTTTTGCAACAAAATGTCTATCTATATTATATGTAGTTCCTGCAAGTGCCGATGCTCCAAGTGGCATTACATCTACTCTTTTATAAAGATCGTTTAATCTATCATAATCTCTTTTTAACATTTCAAAATATGCTAATAAATGATGTGCAAAAAGTATAGGTTGTGCTCTTTGAAGATGGGTATATCCAGGTAATATAACTTCTTTATTATTTTTTGCAACTTCTTTTATTACTTTTAATAAATCAATTATTATTTCTTTTATATTTTTTATTTCTTTTTTTAAATAAAGTCTTATATCAAGAGCAACTTGATCATTTCTACTTCTAGCTGTATGCAATTTTTTCCCTGTATCACCTATTTTTTGTATAAGTCTTTTTTCTATTGCCATATGTATATCTTCATCAGCTAATGAAAATTCTAATTCATCATTATCTATTTCTAACTCTATTTCTTTTAATGCTTTTTCTATTTTTTCTTGCTCTTCTTTAGATATAATATTTTGCTTAGCAAGCATTTTTGAATGCGCTATGCTTCCCATAATATCTTCTTTATACATTCTTATATCAAAAGTTATTGATGCATTAAATTTTTCTAGTAATTTTGAACTTTCTTTATTAAATCTTCCTCCCCAAAGCTTCATATTTTCCCCTTTCAGTTTTCCTTTTTTATTATAGGACTTTTTTGTTTGGCTTAAAAATATACACTGTAAAAAACAGTGCATATTTTTTGTCACTATTTTTTATTTTCAAAGTCTATTTATTTTTTCCTTCTTTTAAATTATACCTAGACCTCATCTTTTTTCCTTTCAAAACATTTTAATTATTTACTAAAATATTTATCATAAAGTTTTTTATATTCTCCATTTGCTTTTATTGTTTCAAATGCTTTATTTAATTTTTCTAATAATTCTTTATCTTCTTTTCTTAAAGCTATTGCATATTCTTCTGTTACAGATACTCCTTCAATTACTTTTATCCCTTTATTTTGTTTCACATAATTTTTTGCTGGTTCTGAATCAAGTACTACAGCATCTATTTTATCCGCTTTTAAATCTAGTATAGCAGCATAAGAAGCATTATATTTTTTTACATTTACATCTTTTATATCACTTACTATTAAATCTCCTGTAGTTCCAATCATTGCTCCTACTTTTTTACCTACTAAATCATCAAATGATTTTATATTATTTTGATTTTCTCTAACTATTATTACTTGACTTGTAGAATAATAACTTTTTGTAAAATTTACAGATTTTTTTCTTTCTTCTGTAGCTGTCATTCCAGATACTACTAAATCTATTTTTTTGGTTTGTAATGCTGGTAATAATCCATCGAAACTCATATCTTTTACTTCATATTTAATTCCTGCTTCTTTTGTTAATAATTCAATTAGTTCTATATCAAATCCAATTATTTTATCTCCTTCTCGATATTCAAATGGTGGAAATTCCGCATTCGTTCCTACTACATAAGTTTTTTCTTTATTTCCTCCACATCCCACTAAAAATATTGTTGCTAATATTACTAAAGTTAAAATTTTCTTCATAAAATATTCCTCCTTATTTTTTATTTATTTTAAAATATTAATATTTTTTATATTCATTAATTTTCTAATGGTTTAAAACTTTTGATAAAAACTCTTTTGTTCTTTCGTGACTAGGATTTTCAAATATTTTTTTAGGTTCATCATCTTCTAGTATATTCCCTCTATCCATAAAAAATACTCTACTAGCTACATTTTTAGCAAATCCCATTTCATGAGTCACAACTAGCATTGTCATTCCCTCTTTTACTAAAGTTTTCATTACTTCAAGTACTTCATTTACTACTTCAGGATCAAGTGCGCTTGTAGGTTCATCAAATAATAATATACTTGGTTTCATTGCAAGTGCTCTAGCTATAGCTATCCTTTGTTTTTGCCCCCCTGATAAACTATTAGGATAAACATACGCTTTTTCTTTTAATCCTACTTTTTCAAGAAGTTCAAATGCTATTATTTCTGCTTCTTTTTGTGTAAAATTTTTAATTTTTATAGGCCCTAATGTAAGATTTTCAAGCACTGTTTTATGCGGAAACAAATTAAAATGTTGAAAAACCATTCCTATTTTTTCTTCTCTTACTTTATTTATATCTGTCTTTTTATCTAAAATATCTATTCCATCAATATAAATATGACCATTTGTTGGTTCTTCTAAAAGATTTAAGCATCTTAAAAATGTTGATTTCCCACTTCCAGAAGGTCCAATTATTGCTACAACTTCTCCCTTTTTTATTTCTTTATTTATTCCTTTTAATACTTCTAATTCTCCATAATATTTATGTAAATCAACAATTTTAATCACTTTTTCTCATTCCCTTCTCTACAACTCTCATAAATTTAGTAAATAAACTAGTAAGTACCAAATATATAAATCCAACTGCTAATAATGGCTCTACCCCTCTATAAGTTTGACTTGTAATAATATTAGCCGATCTAAGTAAATCAACTCCTCCAATAAATCCTACTATAGATGTTTCTTTAAGAAGTGTTATAAATTCACTTACAAGTGTTGGTAATATTTTTTTTATTGCTTGCGGAATGATAATTTCTTTCATTGCTAATCTATAAGGCATACCTAAAGCTTTTGCTGCTTCCATTTGCCCTTTATCTAATCCTTGAATTCCTGCTCTTATTATTTCAGCTACATAAGCTGCACTATTAAGTCCAAAAGCAAGACCAGCTACTATAAAAACAGGTGTATCTCTAAGCGCTCCTACAAATACAATATTAGCTAATATCATCAATTGTACGACTGCTGGAGTTCCTCTAACTAAATCTACATAAAGTAATGCAAACAATTCTAAAGGATTAAATTTTTTTATTTCTTCATTTAAATGTTCAAATTTTTTTAAAGGATAAAAACGAGAAAGTCTAAATAATGCAAGTATTATACCTACTACAAGTCCAATAAAAGCTGCAAAAATCGTAACTCCTACTGAAAAACCCAATCCTTTTATAATATACATATATCTTCCATCATTAATAAAGATATTTTTTAATGTTTCTAAATAACTCATTCTACCTCCTGTATTTATATATAAATATTTTTTTGTAATAAAAAAAGCCTATAATAGGCTATAGAGATTTAAAATTATACAAAATCTATAGACTATTCCTATTAATAAATTTTATTTAGTTTTATAATATTTTTTTCATTCCTAAAATTCCTTAAATTTTTCATTTTAATTCACCTCGAATAATTTATAAATAAAAAATACCCCTGTTAATACCCCTTTATTGGAGAAAGTTATATTTATTATTTTCTCCCCATAAAGGTATACTACCAAGGGTAAGTTATACTCACAAGAGAAATTCTTTCTCCTGATCTTTGCACAATTTTAATTTAGCTAATTGTAACAAACAATCAAAAGATTGTCAATAATTTTTTATATATTTTTTATGTTTTGAATATATATTTTATATAAATAACTGTTTTTATTAATAAAAAAGCATATATAGAAATTCTATATATGCTTTTTTTTAATTAATTATCTAATGGTAATCTTAATGTTTGATCAATGTAAATTAAATCAGGATTTTCTAATCTGTTTATTAGCGCTAAATCTTTTACAATACTCAAAATTTCTTTATCACTTAAAGTATTGTCTGCAGCTTTAATTATATTCCATAAACAATCTCCTGGTTCTGCTTTATATTCTGTTACTGGTATCATTATTCCTTCTATATTTGGTACTTTTACCTCTTTTTCTTTTTCTATTGCTTCTTCTAATACATCTCTTATTTGAACATATGTATCTACTACTTCTTTTGCTCCTTTAAAGTTGTATTTATCTCCTCCACCTAATATAAAATCATTTGTTGTTAATGTATACCATTTATCATCTTCTACTATTGTTCCATCTTCTAATGCCAACATTTCTACTCTATGTTCATATTCTTTATCTGGATTATACACTACATATAATCCTGCAAATTGTCCATCTGTCATGTAATCTGCATCTATTCCATGATCTATTAACTCTTTTAAGTGTTTTCCACTTACTTTCATTGTTACTAATTGATTATCAAATGGCATTACTTCATAAAGGTCACCCATTGTTATGTCTCCTTTATATAGACTTCTTCTTAGTCCTCCTCCATTTGTTAATCCTATTTGTGTTCCTGTTGCTTTTCTCATTATGTCTGCTGCCCAATAACCTAATGGTGTTAAATTTTTTGCACTTCTATCATGTATTAAATCTTCATTTAGTTTTCCTACTACTTTTCCTAAAATTGGTTTTAATTTTTCTTCTCTCATTTCATATCTTAATTTCGCTTCTTTTGATACTGGTATATCTTCTTTATGTTTATATGCTAAATCTACATATGCATTTACTGTTAATTTGTTTTCTTTATCAAACATTAGTTCTATTCTTCCTAAGGCTCTTCCATATTTATATGCTTGTACTACTGGTATTCCATTTATTTTTCCTGATACTATTTTATGACTATGTCCTGTCACTATTGCATCTATTCCTTTTACTTTTGATAATCTTTCTATTTCATCTCCTGTTATTTCTTTTGTATCTCTATCTTGGACTGTTGGTACATGTGTTAATGCTATTATTGCATCTGGTTTCCCTTCTGATGCTTTCCCTGACATTAAATATTCTACCCATTCTTTAGCTGCTTTTTCTACTGGTATAAATTTTAAATCTTTTACATTTTCTACTTTTGTTTGATAAGCTGTTGATTCTGTTGATAAACCTATAAATGCTATTTTTTTACCTGCTATTTCTACTATTCTATATGGCATTGCCCATGATACTGGTTTATTTGTTGCTTTATCATATATGTTTGATGCTAAAAAGGCTACTCCTTTATCTTCCCATTCTTTTATTTTTTCTACTCCCCAGTCAAATTCATGATTCCCTATTGCTGAACCTACTAAATCAAGTAATTCAAACATATCATTTACTGGTGCTCCTACTGTTAAGTTTGATATTGCTGTCCCTTGATAGTTATCTCCTGCTGATACTACTAATACATTTGGATTTTCTTTTTTTAATGCATCTACATATCCTACTATTTTAGCCATTCCTAGCTCTTTTCTACCTTCTTTTACATGACCATGAAAATCATTAAATGTTACTATATCAATTTTTACATCTCTAGGAAAATCATATATATTTAATGATTTTACATTTAATGTTCTTCCATCTTTCGATCTAGGTATTTGAATTTCTCCCGATCTTACTTTATCTAATATTTCTTCTTTTCCTGGATAATCAAGTTTAATTCCTACAATTTTCCAGTTGTTTTCAACTTTAGGAGATAGTTTTCCTCCCATTTCTTTTGTATATTTAATTATAAGATCTCTTATTCTTCCTGCATCTTGCATTTCTGCATAAGAATCAAAATATTTATCTTCTGGTTTTACAAGCCCTAATGATAATAATGTACCAAATCTATAGTTATTTACTGCTAGTTTATAAGTTTTATTTTTATCAAATGGTTTACCATTAAATATTACATTTTTTATTCTATTTCCAGGTTCTTGAGATAAATCTATTTCATAATTTACTCCATAGAACATATCGTAATTATATCCTCTAACATTTTCATTAAATGAAATAGTTATATCTCCCTCTTTCCAAGTATTATAGTAAGAAGCTGACCATTCCATATATTTTAATAAATTTTCACCTGTTATATTCACTCCTACTAATGTATTTGGATATTTATAGATATATGCTACATCTTTTTTCTTAAATGGTCCTTTTTTAAGATTTGAACCAAAATTAAATAATGCTGCTGATGAAATATCTGCATTTGCATATTTTTTTTGTACTCTATTTATTAAATTAATTACTGCTGTATCTTGAAGTTGAGCAGTTGGCATAGTTGTTACTTTATCAGCTTTTGTTATATAATCTACACCTTTTATAAAATCATCTGTTACTTCACCAATAACTGTATTTGCATCAGCTAATGATTTTTCATGTACATATTTAAATTTTTCAAGCATTTCTTTATCAGGTTCTACTTCTTTTGTAGATAGATTAGCTGCTTCTACACCCTTTACTTCCCAATTTCCATCAGTTTTTACTAATTTTATTCCTGCTACTGCAAGTGATGAACCATATTTACCAGGTTCTATTATTTTTACTCCATTTACATCTTCTACATAAGTAGCATGTTCATGCCCACCAAATATTACTGAAAACTCTGGAAAAGCTTTTGCTAAATCATATATTCCAGCTCCTCCATATTCTCCTTTTCTTCCTAAATGAAACGCTCCTATTAATACATCAAAATTATCTCCTATTTCATCTAAAGTTGCTTGAAGACTTCTTTTTGTTTCTTGAAAAATCAAATTTTTAAAATGTTCAGGAGTTGAAGCTTCCCATTTTGGTATATGTGGTGGAGTAATTCCTATTACTACTACTCTAGCACCATTTACAATAAACTCTTGATATGGTTGTACAAAATAAGAACCATCATCTTTATTAAAAATATTTGCAGAAATTACACTACCTTTAAAACTATTAATATTTTTTATAAGAAAATCTTTACCAAAATTAAATTCATGATTTCCTATAGTCCAAGCATCTGTTCCCATAAAATTCATTGCTTCTACCATAGGATGTGGATTCATATCATTAAATAATTCTGCACTATTATCTTGTACTGTATCTCCATTATCTAATAATATCATATTTGGATTTTCTTTTCTTAATTGTTTTACTAAAGTATATATTTTAGCATATCCCGCATCTTTATCCTCCGAATCGATTGCATAATCATACGGATAAATTCTTCCATGCATATCAGAAGTTAAAGCAATTACAACTTCTTGTTCATTTAAATCTTCTGTTCCTTTTATTACTGGTGGATTATTTTTATTTGTTACTACTAAATCTTCCACTTTTCTTTCCTCTGCTTTAGTTTCTTCTACTTTTGCAGATTCTGTTACTTTAATAGCTTCTTCTGCTTTTGGAGTTTCTACCACTGTTTCTGTTTTTGTAGGAACTTCATTTACTACTTCTTTTTTTACAGTGTTACTATTACACGAAACTATTGTGATTAACAATGTAAAAAGGATAAATAGTTTTTTTAATTGCATAATTTCCCCTCCTATTTTTATTTGTTTTTCAAATAAATAATTTAACACTACATTATAATTTTATATTATTTTTTATAAAATTTCAAATTTATTTACTTTATTATACTAAAATATTATTTACTTTTCTTCGATATTAATTTAATGGTACTTTTAATGTTTGATCAATGTAAATTAAATCAGGATTTTTAATTCTATTTATTAATACAAGATTTGATATTGTTTCTGATATTTTTGTATTATCTAATTTAGAATCAAATGAAGTTATTATTTTCCATAATGAATCTCCTGATTTCACTTTATATTCTGTTACTGGTATCATTATTCCTTCTATATTTGGTACTTTTACCTCTTTTTCTTTTTCTATTGCTTCTTCTAATACATCTCTTATTTGAACATATGTATCTACTACTTCTTTTGCTCCTTTAAAGTTGTATTTATCTCCTCCACCTAATATAAAATCATTTGTTGTTAATGTATACCATTTATCATCTTCTACTATTGTTCCATCTTCTAATGCCAACATTTCTACTCTATGTTCATATTCTTTATCTGGATTATACACTACATATAATCCTGCAAATTGTCCATCTGTCATGTAATCTGCATCTATTCCATGATCTATTAACTCTTTTAAGTGTTTTCCACTTACTTTCATTGTTACTAATTGATTATCAAATGGCATTACTTCATAAAGGTCACCCATTGTTATGTCTCCTTTATATAGACTTCTTCTTAGTCCTCCTCCATTTGTTAATCCTATTTGTGTTCCTGTTGCTTTTCTCATTATGTCTGCTGCCCAATAACCTAATGGTGTTAAATTTTTTGCACTTCTATCATGTATTAAATCTTCATTTAGTTTTCCTACTACTTTTCCTAAAATTGGTTTTAATTTTTCTTCTCTCATTTCATATCTTAATTTCGCTTCTTTTGATACTGGTATATCTTCTTTATGTTTATATGCTAAATCTACATATGCATTTACTGTTAATTTGTTTTCTTTATCAAACATTAGTTCTATTCTTCCTAAGGCTCTTCCATATTTATATGCTTGTACTACTGGTATTCCATTTATTTTTCCTGATACTATTTTATGACTATGTCCTGTCACTATTGCATCTATTCCTTTTACTTTTGATAATCTTTCTATTTCATCTCCTGTTATTTCTTTTGTATCTCTATCTTGGACTGTTGGTACATGTGTTAATGCTATTATTGCATCTGGTTTCCCTTCTGATGCTTTCCCTGACATTAAATATTCTACCCATTCTTTAGCTGCTTTTTCTACTGGTATAAATTTTAAATCTTTTACATTTTCTACTTTTGTTTGATAAGCTGTTGATTCTGTTGATAAACCTATAAATGCTATTTTTTTACCTGCTATTTCTACTATTCTATATGGCATTGCCCATGATACTGGTTTATTTGTTGCTTTATCATATATGTTTGATGCTAAAAAGGCTACTCCTTTATCTTCCCATTCTTTTATTTTTTCTACTCCCCAGTCAAATTCATGATTCCCTATTGCTGAACCTACTAAATCAAGTAATTCAAACATATCATTTACTGGTGCTCCTACTGTTAAGTTTGATATTGCTGTCCCTTGATAGTTATCTCCTGCTGATACTACTAATACATTTGGATTTTCTTTTTTTAATGCATCTACATATCCTACTATTTTAGCCATTCCTAGCTCTTTTCTACCTTCTTTTACATGACCATGAAAATCATTAAATGTTACTATATCAATTTTCACTCCTTCTGCAAATGCGAAAACAGAAATTAATAAAAATAATGCCAATGTTTTCAATGTTTTTTTCATATTCTCCTCCTTGTATTTTAAATTTTAGAGAAAATTTATTTTTTTCTCTATATATAATAAACTTTTTTTGTAAACGGTATCATTTTTTTTAATTAAACCTCTTTAAAATTTTTAGTTTCTATATAATATTACCCTATTTTTTTTTAAATTTCAAATTTATTTATTAATAATGATATTTAATATTAACGACATATGTCAAATGTTTTTTATAATTAAATTCATAATAAAAAAAGACTGCAAAATTGCAGTCCCTAAAATATATTCACTTGATTTATCCAGCTATTGCTTCTACTGGGCATACTCCTTCACATGCTCCACAATCTATACATGCTTCACTAATTTCATATTTTCCATCTGCTTCACTTATTGCTGATACTGGACAAGTTCCTTCACATGCTCCACATCCTATACATGTTTCTTTATCTATTACGTACATTACATTACCTCCTATTAAATATATACTCTATTTATTATTTATCCAGCAGCTATTGCTTCTACTGGGCATACTCCTGCACACGCTCCACAATCTATACATGCTTCACTAATTTCATATTTTCCATCTGCTTCACTTATTGCTGATACTGGGCAAGTTCCTTCACATGCTCCACATCCTATACATGTTTCTTTATCTATTACGTACATTACATTACCTCCTTCAAATTTTATTACATTAATAATATACTGTTTTTAAGCTATATTGTCAAGAACTTATTTATTTTAAAGGGATTTAAACGTTTATATTGTTTTGAGATTCAAATATTTTATAGTTTTAAAAAATATTTTTTTCACTTAATATGTACAGTATATATTTACATTCTTTTTTCATTAGTTTTCTTATACTTTTACATTATTATTTTTCACAATTTTATTTGAAAATCAAAATTTTTGTGAATTTATAAATTATTATTTTTTAAAAATGTTTTTTATATCATTTCCTGTAATTATAAAAAACAGTAATATAAGAATAACCATTCCTATTAGATGTACTCTTTCTTCTATTTTTTTATTTATTTTTATTCCTATCATTTCTAAAATTACAAATATAATTCTCCCGCCATCAAGAGCAGGAAATGGTAATAAATTAAATATCCCTATATTTACAGATAACATAGCAGTAAGCCATACAAGCAATATTTTCCCTGTTTTTACAAATTCATCTACAATTCTTACCATGCCTATAGGTCCTGATACTTCATCAGATTTAACTTCTCCTTTAACAAGCATTTTAAGACCTTTAAATACTGTAGAAAAAAGTTCATTAAAAGATTTAACCCCTTCTTTAATTCCTTCAATAAAACCATATTTAGAATGAATATATTTAGGATTTATCCCTATCATATATTTTTGATTTTTTTCATCATATATAAGCTTTATTTTTTTTTCTATTAAAACACCATCTCTTTCAATAACCATATTTAACTTATCTTTTTTTATATTTCTCATTATTACTGTTATATCATTCCAATTTTCTATTTTTATATTATCTATTTCTTTAATTTTATCTCCTACTTTCAAGTCATTATAAGCTGGAGCTTTTTCGCTTATATATCCTATACTTCCATCATCAACAATATCGTATTTTCCGCTAATAAATGTAAGCGACATCATAATAATAAACGCTAATACAAAATTCATAAATACCCCTGCAAATAAAACTATAAATCTTTGATATGCAGGTTTTGAATTAAATCCATTTTCAACTGGTTTCTCTATATCCATTCCATCAATATTTACAAAACCACCCATTGGAATTCCTCTTACACTATATTTAGTATAAGATTTTTTATAACTTAATAATTCTGGACCCATTCCAATCGAAAATTCACTAATTGGCATTTTAAAAACTCTTGCAGCTAAAAAATGTCCCAACTCATGAATAAATATAATTATACTTAATATTAATAAAGTAATCAATAAAGTCATTACTCCTCCTTAATTTATTTTTCTAAAATATCTTTAACAACATGATAAACTTCATTATGTATTTCTTCTATACTTTTAATCTGACCTTCTTCATTTACACATTCTATCTTATACCAATTTTCTATTTTAGCTATTTCTAATGAATTTTCATATGATTTTTTCATATATTCTATATCTTTTTCATGTATATCTTTTTCTTTTTTTCCTGTTATTTTATTCTCTCTATTCGAGATAAGTTCTAAAGCTTGTTTTGTAGGCATATTTAAAAATATAACTATGTCTGGTATTGGCAATGCTATTTTATTATATTCCAAGTCTTTTAACCAATTCAAATACTCTATTTTTTTATGATATTCTTTTATTTTTGCTCCTTGATGTATCATATTTGAAGTTGTATATCTATCAGATACTACTATTCCATTTTCTTGATAAAAATTCCCCCATTCTTTATTAAATGAAGCATATCTATCTATTGCATACATAGTAGATATTGGATATGGATTTATTTCTTTTACATTATCCCCAAATTCTCCTCTTAAATACATTTTAATTGGTTCACTTGCTTTACTCTCATAATTTGGAAAACTAATAAGCTTTATTTTTTTATTTTCATTTTTTAATCTTTTATAAAGTCTTTCTGTTTGAGTTTGTTTTCCACTTCCATCACTACCTTCTATAACTATTAACTTTCCCATTTATATCCTCCTAATTTATTAATAAAAAATATTCATAAAAATAATACCCAATACTTGATCCTAGTACTGCTCCTAACATTACATCGCTTGTCCAATGTTTTTTAGATATTATTCTAGATACACCCACAAAACAAGCTATTATAATAAATATAAAGTTATTATAATATAAATATAAAGGAACCATTGCAGAAAATATAGACGTTGTATGTCCCGATGGACTACTTAAATATTCATGCTTAAACATTTTCTTCTCTAAAATAGCTTCTTTAAATTTAAATAAATCAAAATTATTAAGTTTTTTTTCTGGACGTTTTCTTGTTATAAAAGGTTTTATTATATTTACAAATATACCTGAAAAAATAGAACTTATTATAGTTATTAAAAATAGTCTTTCTATACTGTTATCTAAATTTAAAAATTTTATAAAAATAACTACTATTATTAATAAAGCTGATAAAATATCACCTTTTCCTATCATATACCCTAATTTCCCCCAAAAATAAAATAAAATTGTATTATTCTCAAAAAAATATTTTGTAATTACTTTATCTATAAATTTAATTATTAAATATTCTATAACTAATATTAAAACTAAATAAAAAATATTAATTCTTGAAAAAAAATTAATCATTACATATCTCATCATATCTAAAAAATTGATTGTTTTTGTTATTTCTATTATTATAAGTATATATAAAGGATAAAAAATAAATTGAATTGTATCATTTCTATCAAAAAATTGCTTTATTCTTTTATGTGTTTGATCCATTATAAATATTCCCTTCTAATTTTATCTCTTATTTCTCTATCTACTTCTAATATTACATTCAAGTTATCTATATTTATAGTTTTATGATTATTCATTTCATTTTCTATTATTTTATAAATATCTAAAAATTTTATTTTATTATTTAAAAAAAGTTCTACCGCCATTTCGTTTGCTGCATTAAATACAATTGGCATACTTTTTCCTATTTTTCCTGCAAAAAAAGCTAATTCTATACCTCTAAATACTTTATTATCTACTTCCTCAAAAGTTAAATTCGAATATTTCATAAAATCTAGTCTATCAATAATCTTATTCTCTAGTCTTTCTGGATAGCTAAAAGCGTATTGAATAGGTATTTTCATATCTGGAACTCCCATTTGTGCAACAATACTATTATCAACAAATTCTACCATTGAATGAATTATGCTTTGTGGGTGTATTACTACTTTTATTTTATCATAGTCTATATTAAATAATTGGTGTGCTTCAATTACTTCAAGCCCTTTATTTATAAGTGTAGATGAATCTATCGTTATTTTTTTACCCATACTCCAATTAGGATGTTTTAATGCATCTTCTAATTCTACATTTTTTAAAAATTCTATAGTTTTCCCTCTAAATGTTCCTCCACTACCTGTCAATACTAAATTTTTTACTTCTTTATCTTTTCCTGCTAATAATGATTGAAATAATGCTGAATGTTCACTGTCTACAGGTATTATTTCTGCTTTATATTTTTTTAATAAACTATTAATATAGTCTCCTCCCGCTACCATTGTTTCTTTATTAGCAAGTGCTATTCTTTTTTCTTTTTTAATAGCTTCTATAGTAGCTTCAAGTCCTATTGCTCCACTTACTGCAGTTAAAATAATATCTGTTTCATTAAGTTTTCCTATTTCTTTAAGGCCTTCTTTTCCATAAAATATTTCGATATTGTTAAATTCGTTTTTCAAAAATTTATATCCTTCTTCTGTTCCTATTGCTACATATTTAGGTTTAAATTCTTTTATTTGTTTTGCTAAAAATTTATAATTACTATTAGCTGTTAAAGCTATTACATTAAACTCATTTTTCAATTCTCGTATAATTTCTAATGCATTTGTTCCTATACTTCCTGTAGATCCTAAAATAGATATATTTTTCATTTTTTCTCTTCCTCTCTCTAAAATAATTATAGAAAAATAAAAGACCCAAAAGTCTTTTATCATTAAAGTTGAATATAAAATGATTCTTTTGAGTCAATATATTTAATAGTTTATACTATAAAAAATTTTATATAATAATACATAAGTGGTAATACAAATATTAAGCTATCATACCTATCTAAGATACCTCCATGTTCTCCTAATATATGTCCCGAATCTTTTATTTCATATTCTCTTTTAAAAATTGATTCTACTAAATCTCCAATTTGACCAAAAAATGAAACTATTACTGGTATTATAATTAAATGTATTATTTTTATACCATCAAAAAATACTATATTTATTAAAAACATTGTAATAATCGTAAAAATAATAGAACCTATAGAACCTTCAATAGACTTTTTAGGACTTATTACACTTAATCCCTTTTTAAAAAATTTTCTTCCAATATTCATACCTACAATATATGCAAAAGTATCTGATATCCATACTAAGGTTTGTATTGTTATTAACCATAATTTCCCTTCTACTAAGAAGCTTATCGCTAATATATGTGAAAACATAAATGATACATATATTACTGGTAATAATGTATTCATAAAATATTCACTTGTATTTTGTATTTGATTTCTCAAAACTCTATAAGTTAATAATATAATTATTCCCACAACAAATAAGGCAGTTCCATGTTTAAAATTTATATATCCCATTTTTTGTAAATAATATCCATTTGGTATTATTAAACCAAAAAAATATCCTAAATATTTATTATATTTTTTATTTCCATAAGATAGCATTTTATAAAACTCAGACATTCCAAAAATTATAACTAAATTAGTAAAAATAAGTAATGGAATTCCCCCTAAATAATATATGAGCAATGTCAAAATAACTAATACAATAGCTATTATTATCCTATTTATCATTAGATAATCCTCCAAATCTTCGTTCTCTTTTCATATAATCTAAAATAGCTATTCTAAATTCTTTTATACTAAAATCAGGCCATAGTGTATTAGTTATATAAAACTCAGAATATGCTATCTCCCATAATAAAAAATTACTTATTCTAAATTCACCACTTGTTCTTATAACTAATTCTGGATCAGGAAGTTCAGGACCACCATAAAGTTTTTTTTGGATGTCCTCTTCTGTTATCTTTTCTTTTTTTTCTAATAATAATTTATTTACAGCATCTATTATTTCTTGTCTTCCACCATAATTAAATGCAATATTAAGTGTTATACCATCATTTTTATCTAAAAATTCCACTGTCTCATCCATTAATTTTAATACATCTTTAGATACATTATCTCTTCTACCTAAAAATTTTAATTTTACATTATTTTTATTTAAATCTTTTCTTTCTTTTTTTAAATATTCTTTTAATAAAAACATAAGTCCTTTTACTTCATCTTCAGGTCTTTTCCAATTTTCAGTTGAAAATGCATATAAAGTAAGATATTTTATTCCTAATTCTTTTGCTTCAATTAATATATTTTTTATTACTTTCATACCTGCCTTATGTCCAAAAATCCTTGGTTGTCCTTTAGATTTTGCCCATCTTCCATTCCCATCCATTATTATAGCTATATGTTTTGGTACTTTTTTATTCATTTATCCTCACCTAGTCTTTTTTATTTCACTAGCTATTTTACCATAATTATATTATTTTTTCTACTATAATTAATTTTTAATAACTTTAAAATAAATAGTTTCAAAAAAAATAAAGCTGTTGAATTACTCAACAGCTTTATTTTAAAATTTTATTTTACTAATTCTATTATAGCTAATTCCGCTGAATCTCCTCTTCTTACACCAGTTTTTAATATTCTAGTGTAACCTCCGTTTCTTTCAGCATATTTTGGAGCTATATCAGAAAATAATTTAGCAACTACAGCATCATCTCTTAAAAATGCAAATGCTCTTCTTCTTGCTGCTAAATCTCCTTTTTTTCCTAAAGTAATCATTCTTTCAGCAAATTTTCTCAATTCTTTTGCTCTTGTTACAGTAGTTTCTATTCTCTCTTCTCTAAGTAAAGAAATAGTTAGATTCATCATCATAGCTTTTCTATGATCAGCTCTTCTACCTAATTTTCTATATGACATATTATGACGCATTTAAAGCCTAACCTCCTCTTTCACTAATCTGCAGAATTAGCAGTTAGATCATAACCTAATTCTTTCATTTTTTCGATTATTTCATCTAAAGATTTTCTTCCAAGATTTTTTATTTTTAATAATTCATTTAATCCTAAGTTAGATAATTCTCCAACTGATTCAATTCCTGCTTTTTTTAAACAGTTATATGATCTAACAGTTAAATCTAACTCATCTATTTTCATATTTATTCTTTCATCTATTTCTTCTTCTACTACATCTTCTTCTATATCTATAGGCTCTCTTAAATGCTCCATTTTATTTCCAATATCAAGTAAAGAATTAAAATGCATCTCTAAAAGCTCTACAGCATAAGATATAGCATCTTTTGTATCTACACTTCCATCAGTTTCAACAGTAAGTGTTAATTTATCAAAGTCAGTCATTCTACCAACCATTGTATCTTCAATTTTATAACTTACTTTTCTAATAGGAGTATAAATAGCATCAACTGCTATATAATCTATAGGCCATCCTGTTCTATCAATATCCTCTGCTACTACAAAGCCTTCTCCAGTATCAACTAAAAATTCTATGTTTAATTCTCTATCAGTAGTAATAGTAGCTATCACTTGATCAGGATTAATTATTTCGATTTCAGGATCAGGCAAAATATCCGCTCCAGTTACTACTTTTGGTCCTTTTACATTAAGAACCATTCTTTTTTCACCTGGAGTGTCAGTTTTTATTACTAACTCTTTTATATTTAAAATAATATCTGTTACAGCTTCTTTAATTCCATCAACAGCTGAAAACTCATTTAATACTCCATCAATTCTAACAGCTTTTACTGCAGAACCAGGAATAGATGATAATAACACTCTTCTAAGTGCATTACCTACTGTGTTTCCATATCCTCTATATAATGGTTCTACAACATATTTTGTTATAAATTTATTTTCAACTATTTCTGTAACATTAATATTATTTGCTATTTTTTCTATTTTTAACATATCTTCAACTCCCTTTGGATTTTAAAAGGATAGAACACTAGCTTATTATCTAGAGTAAAATTCAACTATTAACGCTTCATTGATTTCAAAATCTAAAGCATCTCTATTAGGATTTTGTAATACTTTTCCTGCAAAATTAGCTTTGTCTAAATCTAACCATGAAGGTACTCTTACTGCTTCTACTGCTTCTTTTACAAACTCAATGTTTCTTGAAGCTTCAGAAAGAGATACAACATCTCCAACTTTTACTCTATATGAAGCAATATTTACTTTTCTTCCATTTACTAAAACATGACCATGAGAAACTATTTGTCTAGCTTGTCTTCTAGTTTTAGCAAATCCTAATCTAAATACTACATTATCTAATCTTCTTTCTAAATATTGAAGTAATAATTCACCTGTTACTCCTTCTCTTCTTGTAGCTTCTTTATATAATTTATAAAACTGTTTTTCCATTACTCCATATATAAATTTAGCTTTTTGTTTCTCTCTTAACTGAACAGCATATTCAGTAGGTTTTTGATTTGCATTTGGTCTAGGACCTCTATTTGATTTTTTATTTACACCTAAAACAATAGGATCTATTCCAAGCGCTCTACATCTTTTTATTATAGGCTGTCTATTTCTTGCCACTTTGTTTTTCCTCCCTTATTTACAAAAATTACAACAACAATTAGATAATACTACACTCTTCTTCTTTTTGGTGGTCTACAACCATTATGAGGTACAGGTGTAACATCAACTATTTTAGTTACTTCAAGCCCTGCAGCTTGTAGTGATCTTATTGTAGATTCTCTTCCTGAACCAGGACCTTTTACTCTAACTTCTACTTTTTTCATCCCATTTTCTACAGCTACTTGTGCCGCTTGTTCAGCAGCTATTTGCGCAGCAAATGGAGTTCCTTTTTTAGTTCCTTTAAATCCTGATGTACCTCCAGATTTCCATGACACAACGTTTCCTTCTGTGTCTGTAATAGCTATAATAGTATTATTAAAACTAGAATGTATATACGCAATTCCAACTGGAATATTTTTTAATTTTTTCTTTTTACTTGTTACTCTTTTTTTAGCCAAAACAGCTACCTCCTTAATATAAAATTACACAACAATAAGTTTATTTTTTCTTAGAAACTAGCTTTTTAGGTCCTTTTCTTGTTCTAGCATTAGTTTTTGACTTTTGTCCTCTTACTGGAAGATTCATTCTATGTCTAAGACCTCTATAACATCTAATATCTAATAATCTTTTTATATTTAATCTAATCTCTTTTCTTAAGTCACCTTCAACTTTTATTCCATCAATTATAGCTCTTATTTTATTTACTTCTTCTTCTGTTAAATCTTTAACTCTTGTATCAGGGTTTATTCCAGCTTCTGCTAGTATTTGTTGAGAAGTTGGTTTTCCGATTCCGTAAATATAAGTTAATGCTATTACAACTCTTTTATTTCTAGGAATATCTACTCCTGCTATTCTTGCCAACTTAATTTCCTCCTTAAATATTAAAATCTATATATCCGTCAGTAATATAAACCGACTAAATACTTTCTTCAACATGCATCTAAAAATATTTTAGATTAAAAAGCTCTACAGCTAAACATGTCTTTACAGCAAAACTATCCTTGAACTTGTTTGTGCTTAGGATTTTCACATATAACTCTTATTTTTCCGTGTCTTTTTATTACTTTGCATTTATCACAGATTGGTTTCACTGATGCTTTTACTTTCATTACTCCTCCCTCCTTTTCTTATTTTTTTCTATATACTATTCTTCCTCTAGAAAGATCATATGGAGATATTTGCACTGTTACTTTATCTCCTGGAAGTATTTTGATATAGTTCATTCTCATTTTACCTGAAATGTGAGCAAGTATTACATGTCCATTTTCTAATTCTACTTTAAACATTGCATTTGGTAAAGCTTCTAATATTTTACCTTCTAATTCAATTACATCTTCTTTTGCCATTTTTATTCCACCTCTTTTTAAAGCGTCATTTCATAATATCATAATTCATTCAAAAAGTCTACTCTTTTTTGTTGATTTTTTTAAGTTTCGACTTAATCTAATTCACTTAAGATTACCGCTTTCCCGCCAATTATTGCAACTGAATGCTCAAAATGTGCACTTCTTTTTCTATCTTTTGTTACAGCTGTCCAACCATCTGATAATAATTCAACTTTATAAGTTCCTACATTTACCATAGGTTCAATTGCTAAAACCATTCCATTCTCTATTTTTATACCTCTACCTTTTCTACCATAATTTGGTATCATAGGTTCTTCATGCATTTTAATTCCTACACCATGTCCACAAAAATCTCTTACAACAGAAAAACCATTTTTTTCTACGTACTTTTGGACTGCATTTCCCATATCCCCTAATCTTTTCCCAACTACAAGATTTTCTATAGCAATTTCTCTAGCTTTTTCTGTTACTTTCAATAATTTTTTACTTTCTTCATCAATTTCGCCAACTGGATATGTTATTGCACTATCACCAATATACCCATTTAAATTTGTAACTACATCTATACTTACAATATCACCATCTTTTAAAATTATATCTTTTGATGGAATACCATGTACAACTGCTTCATTTACAGATATACAACTTACTGCTGGATATGGATTCCCGTATTCTTTTCCATATCCCTTTGATTCACCAGTAGCATTATTAGAAAGTAAATAATCTTCTATTATTTTATCTATTTCATAAGTAGATATCCCTGATTTTATATACTTTGGTAAAACTTCTTTATATAATTTTGCTATAAGCTGATTTGCTTCTTTAATTTTTTTTATCTCTTCTATACTTTTTATAATTACCATATAATTCCTTTCTAATTTAAAACAGCTATAATGTCTTTAGTTACTTCATTCACAGTTTTAGTTCCATCTATTTCTACAAGTATTCCTTTGTTTTTATAAAAATCAAATAAAGGCGCTGTTTGATTATGATATGCATCTAGCCTCTTTTTAACAGTTTCTTCTGTATCATCTGCTCTTTGATAAAGGTCTTCTTCTTTTTCATCTACTGGAGGATTAAATTTAATATGATATATTTTTCCTGTAGATTTAGATACTCTTCTTCCTGTTATTCTTTCAATTATATCTTCATCTGGTACATTAAGCGAAATCACTTTATCTAAAGATATATTTAATTCTTTTAATAACTCTTCTAAAGCTTCTGCTTGAGGAATAGTTCTAGGAAACCCATCTAAAATAAAACCACTTTTACAATCTTCTTCTTTTAATCTATCCTTTATTATTCCTATTATTATATTGTCTGGTACCAATTTGCCATCATCCATATATCTTTTAGCTTCTTTTCCCATTTCTGTTTCATTTTTTACAGCTTCTCTCAAAATATCTCCTGTAGAAATTTGAGGTATTCCATATTTTTCTATTAAAAATTTTGCTTGAGTTCCTTTTCCTGCTCCAGGTGCGCCAAATAACATTAAATTCATTTTTTTTCACTCCTTAAAATTAATCTATATATACAAATGGGAGAATCCAAATTCTCCCTTTTATTAAAATTTAAGAACTGAGGCTTAAATAATTAAGCCTCAAACCCTAAATAATAAAGTATCTATTTTATAAATCCTTCATAATTTCTCATTACTAATTGTGCATTAATTTGTTGAACTGTATCAAGCACAACTCCAACCATGATTATTACTCCAGTTCCACTAAACACTTGTGGAATTCCAGTAGCATTAGATACTAGAGTTGGTATTATAGCAATAATTGCTAAAAATAGAGCACTTACCCAAGTTATTCTAGTAACTATTTTTTCTAAATATTCAACTGTTTCATTTCCTGGTCTAATCCCAGGTATTGTTCCTCCACTTTGTTTTAAGTTATCTGCAACTTTTTCAGGATCAAACATCATCGCAGTATAAAAGAAAGCAAAAAACATTATAAGTATTGCATAAATTGTTAAATAAAACGGATGAGTATTAGTAAATATTCTACTTAATAATACATAACCAGGCATAGTTGATGGTAATGCTTTTATTATCATTGTTGGTAAAACCATTAGTACTGAAGCAAATATTACAGGCATTATTCCCGCTACATTTACTTTAATTGGTAAATATGTGTTTTGTGCTACTACACTTTTCCCAACACTTCCTCTTCCTACGTATTGAATAGGTATTTTTCTTTGTCCTAATTGGAAAAGAACTATTACAGCTATTACTACAAACGAAAGTAATACTAGAAGTGCTAATAACGGAACTAAGTATTTACTTCCACTCATTTTTTGCACTGTACTTATTAATCCAGATGGTAATCTAGAAATAATATTTAAGAAAATAAGTTGTGACACTCCATTTCCTATTCCATATACACTTATTTGTTCTCCAAGCCACATTAAAAATACTGTACCTGCAGTAAGTGTAGTAATTGTATTTATTGAAAATGCAACTCCTGGTGTTGTAACTAATCCCATAGTTCCTAACCATACAGTTACACCTAAACCTTGAACAACTGCAATTACAATTGTTAAATATCTAGTCCATTGTGTTATTTTTTGTCTACCAGCTTCCCCTTCTTTTCTAATATCATCTAATTTAGGAATAATAACTGCTAAAAGCTGCATTATAATCGAAGCATTAATATAAGGCATTACCCCTAAAGCAAATATAGACACCTTTGTAAAAGCTCCTCCAGAAAACATATTGATAAAACTAAGTAAATCATTTTGAGTTACCATGCTTTTAAGTCTATCTATATCTACACCAGGAGCAGGGATATGAGTCCCTACCCTAGCAATTAAAAACATTAATAAAGTGAAGAGGATTTTTTTTCTCAACTCAGGTAATTCATTAATACTCTTTAGCTTATTTTTAAATTTTTCCCATGAAGACACCTGGCTCACCTCTCAAATTTTTTTGATTATTTAGTTGCATTTTTAGCTACATCAGCAAAAGTTTTTATTTCGATTATTTCAACTTCTCCTCCAGCAGCTTCTATTTTATTTTTAGCTTCTTTTGACACTTTATGAGCTACAACTTTTAATTTTTTTGTTAGCTCGCCATTAGCTAATATTTTTATACCATCATTTAATTTTTTAACTATTCCTTTTTCTAATAAAACTTTAGGAGTAACTGTATCTCCATCATTAAATGCGGCTTCTAATCTATTTAAATTTAAAACAGTATATACTTTTTTAAAGTAAAAATTTGAGAATCCTCTTTTAGGAACTCTTCTGATTAAAGGCATTTGTCCACCTTCAAAAGCAAATGGAATAGTAGCTCCTGCTCTTGATTTTTGTCCATTATGACCTTTACCAGCTGTTTTACCATTACCAGATCCATTACCTCTACCAACTCTTTTTCTAGATTTTCTAGCATTAGCTGGTGATAATTCATTTAGTCTCAAATTTTACACCTCCTCTACTTCTAATAAGTATGAAACTAATTTAACTTTTCCTTCTATATCAGGTGTTTTTTCATGCTCAACTATTTGATTAATTTTTCTTAATCCTAATGACTTAACAGTTGCTACATGATTAGGTTTTCTACCACTTACGCTTTTTACAAGCTTTATTTTAAGCTTAGCCATTTGCTTCCCTCCTAGCTTAAGATATCTTTAACTTCTTTTCCTCTAAGTTTTGCTATTTGCTCAGCACTTCTTAAAGTTTTTAACCCTTCAATAGTTGCTCTAGCAACATTGTTTTTATTTTTAGATCCTCTTATTTTGGTAAGAATATCATGTACTCCAACAAGCTCTAATATTTCTCTTGCTGAAGAACCAGCAATTACTCCAGTCCCTTTTGTAGCAGGTTTTAATAAAATATTAGTCGCTCCAAATTTTCCAATTTGTTCATGAGGAATAGTTCCATTTTTTAATGCTACAGTTATCATATTTTTCTTTGCATTAGCTATTGCTTTTCTTATAGCATCAGGTACACCATTTGCTTTTCCAAGTCCTATACCTACTTTTCCATTTTCATCTCCAACAGCTGCTAATACAGAGAAAGAGATTGTTCTTCCTCCAGTAGTTGTTTTTGAAACTCTATTTATTCTTAATATTCTTTCTTTTAATTCAACATTATTATTATTTTTAGCCAAAGTCTCTCTTCCTCCTTCCTTAGAATTTTAGACCAGCTTCTCTAGCTGCATCAGCTAAAGCTTTTACTTTTCCAGTATAGATGTATCCAGATCTATCGAATACAACTTCAGTTATTCCTTTTGCTAAAGCTCTTTCAGCAATTTTTTTACCTACAATTTTAGCAGCTTCAACATTTCCACCATTTGTTACTTCCGCTCTTAATTCTTTATCAATTGTAGAAGCTGAAACTAAAGTAACAGCGTTTACGTCATCTATTATTTGAGCAAATATATTTTTATTTGATCTATATAAAGACAGTCTTGGTTTAGAAGCCGTTCCATTTATTCTTTTTCTTATTTTTAAATGTTTTCTTCTTCTAACTTTTTGTCTATCTACTTTTTTAAACAATCGACTTACCTCCTTTGCCTTATACTACTCTAAGCTTTTTTACCTTCTTTTCTTCTAATAATTTCATCAGAGTATTTAACACCTTTTCCTTTATAAGGTTCAGGAGCTCTTTTTGCTCTGATCTCAGCAGCAACTTGTCCTACTACTTCTTTATCTATTCCATCAATGTGAATTACAGTTTGTTTTTCTACTGTGAAAGTAATTCCATCAACTGGAGCTATTTCTACTGGATGAGAATATCCTAAAGATAATTCTAATCCTTTTCCTTTTGCAGCAGCTCTGTATCCTACCCCAACTAGTTCTAAAGTTTTTCTAAATCCTTCTGATACTCCTACTATCATATTATTTAATAAAGCTCTAGTAGTCCCGTGTAAAGCTCTAACACTTGGAGTATCATTTGCTCTTTCTATATTAATTATGTTATCTTCAACTTTTATTGTAATGTTATCAAAAAAAGTTTTTGATAATGTACCTTTTGGTCCTTTTACAGTAACATCTTTTCCGTTAATTGTTACCTGAACACCTGAAGGTATATTAATAGGTTTATTACCTACTCTAGACATAAATCTGCACCTCCCAGTTTATTTTACCATACATAGCAAAGAACTTCTCCACCAACGTTATTTTCTCTACAGAATTTATCTGTTACTATTCCTTTAGGAGTTGATACAACAGCTACTCCTAATCCAGATAATACTCTAGGCATTTCGCTAGCTCCAGAATAAACTCTTCTTCCTGGTTTCGATATTCTTTTTAATCCTTTTATTACTTTTTGTCCATCAACATATTTTAAATATACTCTTATATTTTTTCTATTTCCATCTTGTATAACTTTGTAGTTTAAGATGTATCCTTCTTCTTTTAATAAACTAGCTATTGCTTCTTTTTCTTTTGAATGCGGAATATCCACTCTTTCATGAGAAGCAGCATTTGCATTTCTTATTCTTGTTAACATATCTGCTATCGGATCAGTTAAAAACATAAACTTTTAATCCTCCTTCCTACCAACTTGCTTTTTTTACACCAGGTATAAGCCCAGCGCCAGCTAATTGTCTAAATTGTACTCTTGAGATTCCAAATTCTCTCATATATCCTCTAGGTCTTCCATTAATTTCACATCTATTTCTTACTCTACAAGGAGAAGCGTTTCTAGGTAATTTTGATAAAGCTTCTATAGCTTCTCTATCTCCTTTTTTAGCTCTCTCTTTTAATTCAGCTCTTTTTGCAGCATATTTATCTACAGTTTTTTGTCTTTTTACATCACGCTGAACCATTGATTTTTTAGCCATTTACTCTTCCCTCCTTACTTTTTAAAAGGCATTCCAAATGCAGTTAATAATGCTTTTCCCTCTTCATCTGTTTTAGCTGAAGATACAATAGTTATAGACATTCCTAATAATTTTTCTACTTTATCATAGTCTATTTCAGGGAAAACTAATTGGTCAGTTAATCCTAACGAATAATTTCCTCTTCCATCAAAAGCTTTACTTGATACACCTTCAAAGTCTCTTACCCTTGGTAATACAACATTGATTAATCTATCTAAAAACTCATACATTTTTTCTTTTCTTAAAGTAACAGCAACACCTATCGCTTGTCCTTCTCTTAATTTAAAACCAGCTTCTGATTTTTTAGCTTTTTTTATCGAAGGTTTTTGTCCTGTAATTAAAGCCATATCACTTGCTGCTGCATCTATTAATTTTGAATTTTGAGTAGCTTCTCCAACTCCCATGTTTACTACGATTTTTTCTAATTTAGGTACTTGCATTATGTTTTTTAATCCTAATTCTTTTTGAAGAGCCGGAACTATTTCTTCATTATATTTTTTTAATAATCTAGCCACTTAAATGTCCTCCCTTCTTATAAAACTTCACCTGATACTTTTGAGTATCTTACTTTTTTTCCATCTACTACTTTATAACCTACTCTTGTTGGTTTCCCAGCTTTTTCATCAAATAACATCACTTTACTTGAGAAAATTGGAGCTTCTCTTTTTACAACTCCACCTTGTGGGTTTATTTGATTAGGTTTTACATGTTTTGTTATAATATTTATTCCTTCAACTATTATTTTACCTTTTTTAGGAAACACTCTTAACACTTTACCAGTTTTTCCTTTATCCTTACCAGAAATAACAAATACTGTATCTCCAGTTTTCACATGTAACTTATTAGGTACAAATTTTATTTTTGGTTTAGCCACAATAATTAGCCTCCTTCCTTATAATACTTCTGGTGCAAGAGATACTATTTTCATAAATTCTTTAGCTCTTAATTCTCTCGCTACAGGTCCGAAGATTCTTGTTCCTCTTGGTTCATTATTGTTGTTTAATACTACTGCAGCATTATCATCAAATTTTATATATGAACCATCTTGTCTTCTGATTTCTTTTTTAGTTCTAACGATTACCGCTTTTACAACGTCACCTTTTTTTACATTCCCGTTAGGAATAGCTTCTTTAACTGATGCTACAACTATATCTCCAATTCTTCCGAATCTTTTCTTTGAACCACCTAAAACTCTGATTACCATTATTTTTTTTGCTCCAGAGTTGTCAGCTACATTAAGGATAGTTTGTTGTTGTACCACTTATACTCCTCCTCTCAAATAAGCATTACTCAGCTTTTTCAATTATTTCTACAACTCTCCAGTTTTTATCTTTAGATAATGGTCTAGTTTCCATTATTCTTACTTTATCTCCAATTTTACAAACATTATTTTCATCATGTGCTTTAAATTTTTTAGATTTTTTTACTCTTTTTTTATAAAGAGGATGTAAAGCCATTTTTTCTTCTAAAACAACTACTGTTTTATCCATTTTATCAGAAACTACTACACCTTCTTTTACTTTTCTTTCGTTACGCAAGTTACTAACCTCCTCACTTAAAAATATTAGTTAGCTAATTCTCTTTCTTTAATAATTGTTTTTATTCTAGCTATTTCTCTTCTTATTTCTCTAATTTTAGCAGTGTTAGTTAATTGTCCTAAAGATAGTTGAAATTTTAAATTAAATAATTCTTCTTTTAATTCTTTAGATTTAGTTATTAACTCTTGAGTCTCTAAATTTCTTAATTCAGCTGCTTTCATTATTCATCACCACCATTTTCTCTTTTTACAATTTTACATTTTATAGGTAGTTTGTGAGCTGCTTTTCTTAAAGCTTCTTTAGCTAATTCATCGTTAATACCTGATACTTCAAACATTATTCTACCAGGTTTAACAACTGCTACCCAACCATCAACATTACCTTTACCAGAACCCATTCTTACTCCTTCTGGTTTTTTCGAATATGGTTTATCAGGGAATATTCTAATAAAAGTTTTCCCCTCTCTTTTAAAAGTTCTGTTGATTGTTACCCTACATGCTTCAATTTGTCTATTTGTAATCCATTTTGGTTCTAAAGCTTGTAATCCCCATTCACCAAAATGAACAGTATTTCCTCTTTGAGCCTTACCTCTTAGGTTTCCTCTCATCATTTTTCTATATTTAGTTCTTTTAGGCATTAACATTTTACGCTTCTCCTCCTTCCTTTTTACTTGGAAGAACTTCTCCGTTACAGATCCATACTTTAATACCGATAGCTCCATAAGTAGTTCTAGCTGTTGCTGTCGCATAATCGATATCTGCTCTTAATGTGTGTAAAGGTACTCTACCTGAATGTGACCATTCACTTCTAGCAATTTCTGCTCCATTTAATCTTCCAGATACCATTACTTTTATTCCTTGAGCTCCAGCTTTTTCAGCTCTCATTATAGCTTGTTTTACAGCTTTTTTATAAGCAACCCTTTTTTCAATTGCTAAAGCTATATTTTCAGCCACTAAAACTGCGTCTTTATTAAAAGCTTTAACTTCTTGAACTTTTATTATAGCTCTTTTATTTGTCATTTTTTCTATTTCTTTTTTTAAACTTTCTATTTCAGCACCTTTTCTTCCAATTACAATTCCAGCTTTAGCTGTATTAATAATTATTACTACTTGAGAAGGTGATGTTCTTTCTATTTTTATACTTGAAATTCCTGCATGGTAATATTTATTTTTAATATATTTTTTTATTCTTAGGTCTTCATGAAAATATAATTTATAATCACTCTTTTCAGCAAACCAATTAGAATCCCAAGTTCTTGTTATTCCTAATCTAAGTCCTCTAGGATCTACTTTTTGTCCCACAGTAATACCTCCTTACTTTTCACTAACTACTACAGTTACGTGACTTGTTTTCTTATGAATAATATCTGCTCTTCCCATAGCTCTTGGGTTTAATCTTTTTAATTTTGGTCCTTCATCTACCATTATTTTAGATACATATAATTTTTCTTCATCCATCTCGAAGTTATTTGTTGCATTTGCAATTGCAGAATTTAATACTTTTTTAATTACTCCAGCTGCTTTTTTATTTGTAAACGTTAATATATCTAATGCTTCTAAAGCAGATTTTCCTCTTACTAAGTCTGCTACTAATCTAGCTTTTCTTGGAGTTAATCTCACATAACGAGCTATTGCTTTAGCTTCCACTTTTACTCCTCCTTTACCAAAATAATAATCTATTTAAATTTTATTATTTTTTCTTTTTCTTATCTTTTCCATGTCCATAATATGTTCTAGTTGGTGCAAACTCACCTAATTTATGTCCAACCATTTCCTCAGTAACATAAACTGGGATATGTTTTTTTCCATTATATACCGCAAATGTCATTCCTATAAATTCAGGGAATATAGTTGATCTTCTTGACCATGTTTTGATAACAGTTTTTATATCTCCACTTTCTACAGCTTTTAATACTTTAGCCTTTAAATGATGGTCAATAAAAGGTCCTTTTTTTAATGAACGAGCCATTAATTCAGCCTCCTCTCAAATTTTATTACTATTTTTTTCTTCTTCTTACAATAAATTTGTCTGATTGTTTTTTACCTCTAGTTTTATATCCTAAAGTAGGTTTACCCCAAGGTGTAACAGGTGATTTTCTTCCTATTGGAGCTCTTCCTTCTCCTCCACCATGTGGATGATCAACAGGATTCATTACAGATCCTCTTACATGTGGTCTTCTTCCCATATGTCTAGCTCTTCCAGCTTTACCTATGCTTACAAGTGCATGTTCAGAATTTCCAACTTCTCCAATTGTAGCCATACATTCTCTATGTACTAATCTTAATTCTCCAGAAGGCATTTCCACGTGACAGTAAGTTCCTTCTTTAGCAACTAATCTAGCAGCTACTCCTGCAGATCTAGCTATTTGTCCACCTCTACCAGGTTGTAATTCAATGTTATGAATTTGTGTTCCAACTGGCATATCTTTTAATTTTAAAGCATTTCCTACTTTTATTTCAGCTTTTTCTCCTGCCATTACTACATTTCCTACTTTTAAACCTTTAGGAGCTAGTATATATCTTTTTTCTCCATCAGTATAAACAAGTAACGCAATATTTGCAGTTCTATTTGGATCATATTCAATTGATACAACTTTAGCTGGTATATCTAATTTATTTCTTTTAAAATCTATTATTCTATATAATCTTTTATGACCTTTTTGTTTATTTCTTCCTGTTCTGTGTCCATAATTATCTCTTCCATATGATGCTTTTAAAGGAACAGTTAAAGATTTTTCAGGTCTTTTATTTTTATCTATTTCCTCATTTACTAATCTAGACATATGTCTAGTACCATTAGTAATAGCTTTTAATTTTCTTATTGCCATTTTTTACCTCCACGACCTATAATTATCTATATTTTTCATTTTTAAACTTCTGGAAAAAGATTGATTTTATCTCCATCTTTTACTTTTACCATAGCTTTTTTTACAAATTTAGTTTTATATACTCTCATACCGTATCTTTTTAATTCAGGCTTTACAGTTAAAGTGTTTACTTCTTCTACTTTTACACCGAATATACTCTCAACAGCTTTTCTTATTTCTATCTTATTAGCTCTTTTATCAACTATAAAAGTATATACATTATTTTCTCTTCTTTGTAATTCACTTTTTTCAGTGATTACAGGTTTTTTTATTATATCGTATAAATTCATATTATGCTAGCACCTCCTCGATTGTTTTAAGTGCTTCTTTTGTCACAATAACTTTTTCTTGTTTTAGTAACCAATAAACACCTAGTTCATTTGGTTGTAAAACAACAGCATTAACTAAGTTTCTAGCTGATAAATATAAATTCCAATCAGCTTCTGCTGTCAAGTCATTAACAACAAATAATTGTTTATTGTTAGCTTCTAATGCTTTTACTAAAGTTATAGCTTTTTTAGTTTTTATTTCATCAAATCCACCATCTATTACTACTAAATTACCTTCTTGTATTTTAGCAGCTAAAGCAGATTTAACAGCTAATTTTCTAACTTTTTTATTAACTTTTTTCTCATAACTTCTTGGTTGAGGTCCTAACGCTACCCCTCCACCAACCATGTGAGGAGCTCTTATTGTACCTTGTCTTGCTCTACCAGTTCCTTTTTGTTTGAAAGGTTTTCTTCCCCCTCCTCTAACCATAGCTCTTGTTTTAGTTGCAGCTGTACCTTGTCTTGCTGCCGCTAATTCAGCAGTTAAAACTTCATGTATAACCGCTTTATTTGGATCAATTCCGAATACCGCATCATTTACTTCTACAGTACCAGTCTTTTCTCCATTTATATTAAATAAATCTAATAGCATTTTTTTCCTCCTTCCTCAAACACCTACGATAAACTTTCAAACTATTTTTTTACCGCTGGTTTTACTACTAAGTAACCGTTTTTTGGTCCAGGAACAGCTCCTTTTACCAATAATAAGTTATTTTCTACATCTACTCTTACAACTTTAAGATTTTGAACTGTTACAGTTTCATTTCCAAGTCTTCCAGCCATTTTAGTTCCTTTTAAAACTTTAGAAGGTGTAGATGATTGTCCAATCGATCCTCCCAATCTATGGTTTCTTGAAACCCCGTGAGTAGCTCTGTTTCCACCAAAGTTATGTCTTTTCATAACCCCAGCTGTACCTTTACCTTTTGATGTTCCTGTAATATCTATATACTCAACACCATTTAATGCATCAACTTTGATTTCTTGTCCAATTTCATATCCATCAACTGTATCAACTTTAAATTCTTTTATAAATCTTTGAGGTTTAACTCCCGCTTTGTTGAATATCCCCATCATAGGTTTAGTAGTGTTTTTTTCTCTTTTTTCATCAAAACCTAATTGGATAGCATTGTACCCATCTGTATCAACTGTTTTCTTTTGTAATACAAAATTAGGTCCTGCTTCGATTACTGTTACTGGTATTAATTTCTCATCTTCGAAAATTTGAGTCATACCAATTTTTTTCGCTAAAATTCCAGTCATTTTTTACCTCCATCAAATAATATATTGGTTGACAACTTTTCCTCGTGTGTCGTCAACGTGTATTATTCTGTAAGTTTTTACAAAATAATTACGCTTGTTTAATTTCTATTCCAACACCGCTTGGTAAATTTACAGATGTTAATGATTTAATTATGTTTTGGTCAGAATTTAATATTTCAACCATTCTTCTGTGTACTCTCATTTCAAATTGTTCTCTCGAATCTTTATTTACATGCACAGATCTTAACACTGTATATCTTTTAATTTTTGTTGGTAATGGCATTGGCCCTGCTATTTCAGCTCCTGCTTTTTTTGCAGTTTCAGCTATTTTTTTAGCTGATTGATCTAATAATTTGTGATCATAAGCTTTTAAATATATTCTTAATTTACTTGCAGCCATTTAAAGATTGCACCTCCTAATCATTATTCAGGACGCGAAGTAAACCCTTCACGTCCCGATATTATATCATATTTTTTATATTTGTCAAAGTTTTTTTTGATTATTTAATGATTTTAGAAACAACTCCTGATGCTACTGTTCTTCCACCTTCTCTTATCGCAAATCTTAATCCTTCTTCCATTGCTATTG
>sequence05
TAACTTATGGAATTGATATGTATTAATATCAGTTTCCCGCTTCTTTCTCTATTCAATTTGTAATGTCCTTTTCGTCAATTCCCTTGACGCGAGATTAATTCTAACATATCTTTTGTTCCTAGTCAACACTTTTTTAATTATTTATTTTATTTGTCATCCTAATACTCTATTATACTATTTAAAATCAGTGTTTCTATAGAAAAAAAATTAAAAGTTTTAAAATTAAATAAAAATTTCAGCATATATTCTTCTTAATTAGTTTAGATAAAAACTTTTATCTAAACTAATTATATAATTTTATGTTTATTTTTGATATAATTTAATTATATCAAAAATAATAAATGGAGGTTAAGAATTATGAAAAAATATTTTTTGATTACACTTTTTGCTATTTTAATAACTACTCCATCTTTTGCAGAGAATATAAAAAAACTTAAAATTGCTACTTTAAAAGGTCCTACAGGTATGGGGATGGCTAAGTTAATGGAAGATTATTCTAATGATTATAATTTTGATATATATTCTGCACCTGATCAATTAATTGCTAAAATAATAAAAAAGGAAGTTGATATTGCTGCAGTCCCTGCAAATTTAGCATCTATCTTATATAATAAAACTAAGGGAAATATTAAAGTAGCGGCCATAAATACATTGGGAATTTTATATATTGCTGAAAACGGAAATAATATAAGTTCAATATCTAATTTAGAAAATAAAACTATATATGCTAGTGGAAAAGGAGCTACTCCTGAATTTATTTTAAATTATTTTTTAAAGAAAAATAATTTAAAAAATGTAAATGTAGTTTATTTATTAAATCATAGTGATATAGCGTCATCTCTAGTAGCTAATAAAATTGATATTGCTCTTATTCCTGAACCATTTCTAACAATTGCTCAAACTAAAAATTCTAATATAAGAGTTGCTCTAGATTTAAATAAAGAATGGGAAAAAATAACAAATAATAATAAACTAACTATGGGGGTAATTATTATTAATAAATCTATTAATAATAATAAAATTGATGAATTTTTAATTAGATATAAAAATTCTATTAATTTCGTAAATAATAATCCTGATTTAGCAGCTAATTTAATAGAAAAACACAATATATTTACAAATAAAAAAATTATAAAAAACTCTATTCCAAACAGTAATATTGTATTTATTGATATGAATGAAGGCGAAAAATATTTAAATGATTTTTATAAAATTTTATTTGATTTTAATCCAAAATTAATTGGGGGAAAAATTCCTAATGAAAACTTTTATTACAAAAATAATTAAAAAAAAAATTATTATTTTATCATGGATATTAATATGGGGATTAATCGCCAAAATAGTAAATAATTCCATATTAATACCTTCTCCAATAGAAACTTTTAAAACTCTATTATCCCTTGTAAATAAGGCTAACTTTTGGTATACAATTTTTTTTACTGTATATAGAGTATTAATTGGTGTTTTATTATCTATATTTTTAGGAACTTTTTTAAGTATATTTGCAATTTATTCAAAAATATTAAAAGATTTTTTTGAGCCAATTATTACTGCTATAAAATCAACTCCTGTTATGTCTTTTATTGTAATTGCATTAGTATGGTTTAAGTCTGGGATTGTTCCTATATTTATAAATGTATTAGTATGTTTTCCAATAATTTATACAAATATTTTAGAAGGAATAAACTCTATTGATAAAAAAATACTTAATATGGCAAAATTATATAAAGTGAAAAACATTTATATTATAAAAGATATTTATATTCCAGCAACTAAAAATTTTCTTGCTTCTGGGATCATTATGTCTTTAGGACTTGGATTTAAAGTGACTATTGCATCTGAAATTTTAAGTGTCCCAAGATATTCTATAGGTCTTAATTTGCTAGAAAGTAAAACATTGCTTGAAACTCAAGAACTTTTTGCATGGACAATAATTATTGTATTTTTAAGTCTACTATTTGAAGGTTTATTTAAATTTTATCTAAAATATAAGCGAGGGAATTTTAAAAATGAATAACTCTATAAAATTAATTAGTATTGATAAAAAATATAATAATGAAATAATTTTTAAAAACTTTTCTATTGAATTTGAAGAAAATAAAATACATATAATTTTTGGTCCTTCTGGAATCGGTAAAACTACTTTATTAAATATAATTGCTCAAATTGAAGATTTTGATAAAGGTAAAATTATAAATAATCACACTGTCTCATACGTATTCCAAGAAGATAGGTTACTTCCTTGGTTAAATGTATATGAAAATATTGAATTTGTATTAAAATCAATAATAAATAAAAAAAATCGAGAAAAAATTATTAAAAATAATTTAAAATTAGTAAAGCTTGAAAATCATTTATATAAATTTCCTAATGAACTTAGTGGAGGAATGCAACGAAGAGTAGCTTTAGCAAGAGCTTTTTCTTATCCTAGTAGTCTACTTTTGATGGATGAACCTTTTAAAGGTCTTGATTTGAAATTAAAAAAAGAAATCATTTCTGATTTTTTAAATTTATATAAATCATCTAATAAAACTATTATTTTAGTAACACATGATATTAAAGAAGCTAAACTTTTGAATGGAATAATTTATGATATTAGTAAATTAAAAAAAATTTCAACTCTTTAATAAATTTTATATTTTAAAGCTTAAATTTTTAATAAATTTAAGTCTTTTTTATTTTATTTAATATTTTTATGTGCTATAATTATAAAAACAAACTATTTAAGAGGTATATAATTATGGAAAATATTTATGAAGCTTTAAAAAAAGAAATTAATAATCTAAAAAATTCTACATCTACCTTAAATAGTGATAAAGTGACTATCTCTATTAAGAATATTGAAAATTCTATTGATTTTTTATTTGAAAAAGCTATGAAAGAAAAACTTAATTCAGAAAAGATAGTTAAAAATTTTTTTGAAAAAAAAGAAGTTTTTGAGATTATTTTTGATAATATTGATATTGGATTATTTATTATTAATGTTGTTAATAATGAATTTTATGTGGAGTCTATAAACAGAGCTTATGAAAAGGCTACTGGTTTTAAAAAAGATGATGTAAAAAATAAAAATATTAAAGAAATAGTAGATACAAAGTTATACTCCGCTTTTACTTCTAATTACCAAGAATGTATAAATAAAAAAGAACCTTTAGAATATGAAGAAATTTTATTTGTTAATTCAAAACGAACATATTGGTTTACTAAACTTATACCTCTTATAGAAAATGAAAAAGTTATTAAAATTATAGGTACTTCTGTTCCTATCACTGAATATAAAGCCTCTGAAAAAGAAGCTAAAAAAAGAGAATCCTTTTTAAAAACTCTTTTAGACACAATTCCAAATCCTATATTCTATAAAGATGAAAATTTAAGATATTTAGGTTGCAATAAAGCCTTTGAAGATATATTAAGGCTTAGACTTGAAGATATTATTGGTAAAAATGTATTTGAGTTATCTTCTAGAGAATTAGCTGAAGAATATCATAAAAAAGATATTGAACTTTTAAAAAATCCATACAAACAGCAATATGAAGCTCAGATTAAAAACGCAAATGATCAATATAGAGATGTATTATTTTATAAAGCAGTTTATGAAATTGACGGTGAGATAGCTGGTATTATAGGTACAATTCTTGATATTACAGAAATTAAAAATTATCAAAGAATACTAAAAGAATTATCATTACAAGATGAGTTAACTCAAATATATAATAAACGTGGTATCAAAGAACTTAGCCAATCTATGTATAGAGAATTAATTAGAAATAAAGGAACTCTTGGAATACTTATGATAGATATAGATAATTTTAAAAAATATAATGATACTTATGGACATCCAGAAGGTGATGTCTGTTTAAGTAAGATAGCTCAAACCATAAAAGAATCTTGTAATAGACCTCGAGATCTAGTTGGAAGATATGGTGGTGAAGAATTTATTGTGTTTTTACCTAATACTGATATTAAAGGGACTATTGTAGTTGCAGAAAGAATTCTTAAAAAGATTAGAAACTTAAAAATCCCTCATAAAACTTCACCTACTGCAGACGTTGTTACTGTAAGTATTGGTGTTCTAAATGTTCTTTGTGATAAAAACATTGATTTAGATACACATATATTTATGGTAGATAATTTACTTTATAAAGCTAAAAAAAATGGAAGAAATAGATACGAGGTGTAATAATGGCAAAATTAATCGGGTATATCAAAGATAATTCTATAAATATTTATATAAAAAACAGATTACTTGGAACAATAGATATAACTAATATTAAATCTATACCAAATATCCCTAAAATTTTTAATTTAACTAAAGAACATTTAAAAACTGAATGGGATAAAATAAAGCATAATCTAACTATTGCTGATAGACTTTTAAATTATGTTTTTAATAGTGAGTTAAAACTTTTTATTGAAAGTGATTTTTCAAGTGCAGAAGGTTTCGGATTAATGTCAATATTTATTGAAGTATTAAAAGTCTCTAAAATAGAACTTTTGCATAAATCTGATTATTTTTTTACTAATGGAAATAAAAATAATTTCTGTTTTGTAGAATCAAATAATAGAAATTTTATATATTTAGATTTTAATTCTGGTAATAAAATAATTATCTCTAAAGATAACATTGACCATTTAAAACAATATATTAATCTAGAAAGAGTTGATATAATATCTGATAAATATATAAATGAATTAAAAGAATTTGAACAAATCACATTAAAAGATTATTTAATAGTTGAACATTATTTAAGTAAATAGGAGTATTATGTATAAAGAAATAATCTGTAAAGAAAATCTAAATTTAAATGGTATAGTTTTATTTCAAAAAGCAGTAAGAGGAATTATTTATAAAAACAATAAATTGTTACTTATTTATTCAAAAATTAATAAAGATTATAAATTTCCTGGTGGCGGAATGGAAATAAATGAAACAGAAATTGATACTTTAAAAAGAGAAATTTTAGAAGAAACTGGCTATAATGTAACTAATTATAAAAAATTTGGAGAAATTATAGAGATTGATGAACCATTAGATAAATCTAATTATGATATTTTTAAGATGCATTCAGTTTATTATTTATGTAATGTAACTAATACTATTTCAAATCTATCGCTTGATGAGTATGAAAAAGAATTACAATTTACTCCTAAATGGATAGATATAAACAATGCACTAAAAAAGAATAAAATTATTCTTAATAACAATTTTAATATACCTAAATGGTGTAAAAGAGAAACCTATGTTTTAGAGTACTTATCAAATAACATTAAAGATTTAGAGAATTTTAGTCGATGATATTAATGTTATTAATTATCATCGATAAATCTTCCAAATAATAAAGAGTATCTATAGGGATACTCTTTTTATTTTTCTTATTGACATTTAATTTTTTATATAGTAAAATCATTTATGCAATCGTATGCATGATTTTATGAAATAAAGTACTAATATATTATTAAAAAGAGGTCTCTTATGAAAAAATTTACAATTAAAGATATCGCCAAAATAGCAGGAGTACACCCCTCTACAGTATCAAGGAGTCTTAACAATAATCCTGTAATTCCAGAAAAAACTAGAAAAAAAATTCAAGATATTGCTAAAAAATTAAATTTTGAATTTAATAGCAGTGCTAGAAATCTTAGTCTTAATAAAACTGATAATATCGGACTTATTATTTCAAATGGCTTTGACAATGATAGCACCATGCCTTTTGTAAATATTATTCTTGAGAAAACTAGAAAAATACTTTCTAAAAACTCTCTTGATACAATAGTCGAATTTTCTAAAAACATCTATACTAATGAGAGTAATATCCAAAAAATGGTGGCTTCTAAAAAAGTCGACGGTTTTTTAATACTTGATTCAAATTTTTCTAAAAAAGAGTTTAATTTATTAAAAAAAAATAAAATTCCTTTTGAAATAATGCATTTCAAACCAAATTTTGAAGATAGCGAAAATTATGGATACACTGCTACCGATCATTTTGAAGGTGGACTAATGGCAACAAATTTTCTTATAGAAAATGGTTTTACAAACATCTTTACTATTACCGCTATTCAAAATGACACATCTTTTAACGAGTTTACACTTAGAACAGCTGGGTATAGATATGCTCTTAGTAAAAATCAAATTGAAATTAATGAAAATAATATTCTATATTCTAATATATCTTATGAAGATACCTATAAAATAATAAAAAATAATATCCACATTTTTAAAAAAGGCGATGCTATATTTGCACAAACAGATATCATTGCTTTTGCTGTAATAAATGCATTTCGTAATCATAATATAGATGTCCCTAATGATATCTCGGTAGTTGGTTATGATGATATCGATATGGCTAGATATTTTTATCCTGCACTTACTACTATAATGCAACCTTTGGATGAATTAATAGAAAAATCGTGCTATAACTTAGTGAAAAAAATAAAAAATGTAACTTTTAAAGATAATTATAAAATATTAATTAAGCCAAAATTAATAATAAGAGATAGTGTACTAATAAAGCATTAGTAATTATTTCATAATTTTATGCATTCGGTTGCATAATTTAGGAAATGAAAAAAAGAAATGATTAGGAGGTACCAAATGGAAAGAAAATGGTGGAAAGAAAGTATTGTATATCAGATTTACCCTAGAAGTTTTAAAGATACTACTGGAAATGGCATAGGTGACTTAAAGGGAATTATAGAAAAAGTTGATTATTTAAAAGAACTTGGCGTAGATATAATTTGGCTAAATCCTGTATATAAATCACCTAATGATGATAATGGTTATGATATTAGCGATTATTATAGTATTATGGATGAGTTTGGAACTATGGAAGATTGGGAAAAATTATTAAATGAACTACATAAAAGGGATATGAAATTAATTATGGATCTTGTTGTAAATCATACCTCTGATGAACATATCTGGTTTTTAGAGTCAAAAAAATCAAAAGACAACCAATATAGAGATTATTACTTTTGGAAAAAAGGAAAAGATGGAAAAGAACCAAATAATTGGGTTTCTGTATTTGGTGGTTCTGCATGGCAATATGATGAAACTACTGATGAATATTATTTACATATATTTAGTAAAAAACAACCTGATTTAAATTGGGAAAATCCAAAAGTAAGAAAAGATATTTATAAAATGATGAAATGGTGGCTCGATAAAGGTATAGATGGTTTTAGAATGGATGTAATTAATTTTATCTCAAAAAACACAGACTTTCCAAGTGTATCTACTAATGAAAAATACGGTTGGGGTGGTGAATATTTTATGAATGGCCCTAGAGTAAATGAATTTTTTAAAGAAATGAATAAAGAAGTCCTTTCAAATTATAACATAATGACAGTAGGAGAATGTCCAGGAGCTACTCCAGAACATGCTAGTAGCTATGCTAACATCGATGGTAGTAAATTAAATATGATATTCACCTTTGAACATGTAAGTCTTGATCATGGCCCATATGGAAAATTTGATATAAAACCTTTAAAACTAAAAGATCTTAAAGAAAATATAAATAAATGGCAAATAGAATTGTATAATAAAGCATGGAATAGTCTATATTTAATGAATCACGACCAACCAAGAGCAGTGTCAAGATTTGGAGATGATAAAAAATATAGAGTCGAATCAGCTAAAATGCTAATAACTTTTACTATGACTCTTTGTGGTACCCCTTATATTTATCAAGGAGAAGAAATAGGAATGACAAATATTAGTTTTGATTCTATTGAAAAATATAGAGATCTAGAAACATTAAATTATTATAATGAAGCATTAAATAATGGTGCCGATAAAAATAAACTTATGAAAGCTATTCATTATATGAGTAGAGATAATAGTCGTACGCCTATGCAATGGGATAATACAAAAAATGCTGGTTTTTCAAATGCTGATACTACTTGGATTAATGTAAATCCAAATTATACAAAAATAAATGTAAAAGAAGCATTGAATGATGAAAATTCAATTTTAAATTATTATAAAAAAATGATAAAAATAAGAAAGTCTAATTTAACTCTTATATATGGCGAACATATTCCTTTTATGAATGATAATGAAAATATTTTTGCTTATATAAAAAAATACGAAAATCAATTATATATAGTATATTTAAATTTTTCTAAAAATAAACAATCTATAATTTTACCTGAGAATATTACTAAAGAAAATCTTACTTTAATAATTTCAAATTATAAAAATAATGATTTCTTTAATTTAAAACCTTATGAAGCAAGGGTTTATAAAGTATCTCAAAACTAGAGTATTTATCTACTCTAGTTTTTTATTTATTAAAAAAAATTAATGTATTTATTACATAATTCATTTTTTTCTCTTAAATTAAATTTTATGAATTTTTAATTTGAATTTTTAATTTGACATTACAATATAAATCTTATAGTTACATATAATATTTTATGATATAATATAGTGTAAAATTAAGAATTAAGGAGTGCTGATAATGTCTGAAAAAGATAAAATTTTAAAACTTCGAAAAGAGATTAAAAGGTATAATTATTATTATTATATAAAAAATGAACCTTTAATTTCAGATACTGAATTTGATAAATTATTAAAAGAATTAGAAGTTTTAGAAAAAAAATATCCAGAATTAAAAGATGAAAATTCACCTACAAACAAAGTGGGATCTAGCATTGAAAATAATAAATTTAAAAAAGTTGAACATAAAAAGCCTATGCTAAGTTTATCAAACACATATAATACTCAAGATATTTTAGATTTTCACAATAGAATTGTCAAATTTATTGAAAGTAATAATATCGAATATACTATTGAAATGAAATTAGATGGACTTAGTATTACCTTAATATACGAGAACGGTGAATTAATTCAAGCTCTTACAAGAGGAGATGGAATAATTGGTGAAGACGTTACAGAAAATATTTTACAAATAAAATCTATTCCTAAATATTTAAAAGAAAATATATCAGTTGAAGTAAGAGGTGAGGTTGTTTTACCAATATCTGAATTTAAAAAATTAAATGAAATCAGAATAAATAACGGCGAAGAACCATTTGCAAATCCACGTAATGCTGCAAGTGGTACTCTTCGTCAATTGGATAAAGAAATAGTAAAATCAAGAAATCTTGATGCTTATTTTTACTTTTTAGTTGATTCTGATAAATATAATATTAATTCACATTTTGAATCATTAAAAGTAATAGAAAAACTTGGATTGAAAACTACCAAAATTTATAAAAAATTTAAAATAAATGAAGTAGAAAAATATATAAAAAAATTTGATGAAATACGAAAAAACCTTGATTATGAAACTGACGGACTTGTAATTAAAGTTGATAATATTAATTTATACAATATTCTTGGAAATACTACAAAAAGTCCTAGATGGGCAATAGCATATAAATTCCCTGCAAAACAAGCTACTACAAAAATAAATAATGTCACTTTACAAGTAGGAAGAACAGGTGTTATTACTCCTGTAGCTGAACTTGAAGAAATAGAATTATCTGGAAGTCTTATTAAAAGAGCTTCTTTACATAATTTTGAAGAGATAAAAAGAAAAGATATAAAAATAGGAGATACAGTGTTTATTGAAAAAGCAGCTGAAATTATTCCTCAAGTTGTAAAAGTAATAAAAGAGTTGCGTACAGGTAATGAAAAAAATATCGAAATCCCTAAAACTTGCCCCGCCTGTGGAAGTAAGCTTATAAAAGAAAATGGTTTAGTCGCATTAAAATGTACAAATAATAATTGTAGCGCAAAGTTACAAAGAAAAATAGAATATTTTGTGTCAAGAGACGCTATGAATATTGATGGTCTTGGAGGAAAGATTATTGAAAAATTTATTGAAATAGGAAAATTAAAAAATATCGATGATATCTATACTCTTCATAATTACAAAACAGAATTAATTTCTTTAGAAAAAATGGGGGAAAAAAGTGTAGAAAACTTATTAACTTCTATTGAAAATAGTAAAAATCAAAAATATGAAAAAGTTATTTATGCTTTAGGTATTCCTTTTGTTGGAAAATTTACTGCAAATATTTTAGCAAAACATAGCAAAAATATTGATAGTTTAATAAGAATGTCAAAAGAAGAACTTCTTGAAATTGAAAATATCGGAGAAAAAATAGCTGATTCTATTGTACATTTTTTTAAAAATCCTGAAAACATTAAATTAATAGATAGATTAAAAAAATATGGTATAAATTTTACTATTTCAAGTAAAAATAATAGCAATAATATTTTTGAAGGAAAAACATTTTTAGCTACTGGTTCATTAAAAAAATATAAAAGAAGTGAAATAAGAGATATTATTGAAAATAACGGCGGAAAATATTTGTCAACTGTTAGTAAAAATTTGAATTATCTTATAGCTGGTGAAAAAGCTGGAAGTAAATTAAAAAAAGCAAAAGAAATGAATATAACTATATTATCTGAAAAAGAATTTGAAAACTTATTAAACTCAAATACTAATATCAATAAAGAAAATGATTCTATTCAAAAAAATACAGGACAAAAAACTTTATTTTAATAAGTTTTAGGATTTCACTTAAATAAATCAATTACGACTAATAAAAAGGGGTATTATATGATTAAATTTATTGATTTTTTAAATGATTTAGATTATGAAATTTTAAATCAAGGAGAAGAATTTCCTTTAAATAATATGCAATATGATTCTAGAAAAATAAAAGAAAATGATATTTTTATAGCACTTGAAGGATATACTGTAGATGGACATAATTATATTAATAAAAGTATTGAAAATGGTGCAAAACTTATTTTATGTAGTAAAAAATTAAAAAAATATAATAAAAATATCACATATATTTTAATAAAAAATCTTCGGAAAAATTTAGGATTTATTGCTAGTAGATATTATAATTTTCCAGAAAAAAAGTTAAAAATAATTGGAATTACTGGTACAAATGGAAAAACTACTATTACGTATATTTTAGAAAACATTCTAAAAAATATAGCTAGAATAGGAACTATCGAATATAAAATCGGAGATGAAATATTAGAAGCTCCAAATACAACTCCTGAATCATTAGATATAATAAAAATATGTAAAAAAGCAGTAGAAAAAAATATAAAATATCTTGTTATGGAAGTAAGCTCTCATGCATTAGAATTAAATAGAGTAAATATGTTAAACTTTGAAGTTGCTGGATTTAGTAATTTAACTCAAGATCATTTAGATTATCATAAAACAATGGAAAATTATTTTAATGCTAAAAGAAAATTATTTTTACAAACAACTAAAAATAATTTTGTATTTAATATTGATGATAAATATGGAAAAAGATTATATAATGAGTTTGGTGGCATTAGTTATGGGAAAAATGGTGATATTTCAGGAAAAATTTTAGAATACAAGTTATCTTCTATGCTTTTAAAGTTAAATATTTTAAATAAAGAGTATATTATTGAAACAAAATTACTAGGGAAATTTAATCTATATAATATTCTTTGTGCAATTGGTATTTCCTTAAAATTAAATATTCCTATTGATTTAATTATTGATTCAATAAAAAAGATGAATGTAGTTCCTGGTAGATGTGAATCTATTGACATTGGTCAAAATTTTTCTATAATATTAGATTATGCTCATACTCCTGATGGATTGATAAATATTTTAGATACTTTACATGATATGAAAAAAAATAGAATTATTACATTATTTGGAGCTGGTGGCGATAGAGATAAAACTAAAAGACCTCTTATGGCAAAAGCTGCTACAAAATATAGTGATTATATAATAATTACTTCTGATAATCCTCGTACAGAAGAACCCGATTTAATAATTGATGATATAGAAACTGGATTAAAAGAAATAAATTTTAAAAATTATACAAAAATAACAGATAGAAGAGATGCTATTAAATATGCTATTGATATAGCAAAAGAAAATGATATAATATTACTTGCAGGAAAAGGACACGAAACTTATCAAATAATTGGAAGAAAAAAAATTAATTTTAATGAAAAAAATATAGTAATAAAATATTTAAATGATTTAAAAAAATAATATAAATATATAAATTTTCATAGCATTTTAAATCTAATATAAAGTTAAAAATAATTATAATATTATTATCACTAAACTATTTAAAATACAAAAGGAGAAATTTATGGGATTAATTTTACAAAAAATAATCGCTAATATATTTTTATCACCATTTTTAATAATTCTCTTAATTATTCCATTGTTTTTTATAAAAAAATATAAAAAACATTATATCTTTATATTATCTATATTTATCTATATTTTTTCAATAGAGCCTACAAAAGATTTTGTTATAAAACCTTTAGAATCAAAGTATCCTACAATAACTAAAAAAACAGAGTTAGATAACATCGATATTTATGTAGTTCTTGGAAGCGGGATAAATGATTATGCTCCTCTTAATTTTAATACTAATGGTACACCAACTAGAGCTGCTCTTGCTAGAATTGTTGAAAGTATTAGACTTTACAATATTTCAAAAAAGAAAATAATTTTTTCTGGCGGAATAGTATTTAACGGAAAAATTTCAGAAGCTGAAATTTATAAAAAAATTGCTATCGATTTAGGGGTAAATACAAATGATATTTTAATTGAAACTAAAAGTAAAACAACTTATGAAAATTTGAAAAATATAAAAGAAATTTTAAATAATTATAACTATAAAAAAATAGGTCTTATTACCTCTGCTATACACATGAATAGAGCTATTAATAGTGCAAAAAAATTAAAATTAGATATACTTGCATTCCCTTGTGATTATCATTCAAGATATACCTCTTATAATATTTCATCATTTATCCCTAGTTATGATAATATGAAATATATTCGAGACGCTATATGGGAATATATCGGGGTAATATACTATAATTTAAAATCATATTAAAAAAGGAGATGAATAAATGTTAGTAAAAGATGTTAAAAAAATAAATATAGGTGGAAAATTTAATATAGGAGAAAAAAATAAACTAACTTTATTAGCTGGTCCATGTGTAATTGAATCAGAAGAATTGGTTATGGAAGTTGCTGGAAAAATAAAAGAAATTTGTGATAGATTAAATATAAATTATGTGTTCAAATCATCTTTTGATAAAGCAAATAGAAGTTCAATCTACTCATATAGAGGACCTGGTATAGAAAAAGGTCTTCAAATACTTCAAAAAGTAAAAGATACGTATAATATACCAGTAGTAACTGATATTCATGAAGTCTGGCATGCTGAAAAAGCTGCAGAAGTAGTTGATATTCTTCAAATTCCTGCATTTTTATGTAGACAAACAGATTTATTAATTGCAGCTGCGAAAACTGGAAAAGCTGTAAATATAAAAAAAGGTCAATTTTTAGCTCCTTGGGATATGAAAAATGTGGTTAAAAAATTTGAAGAATGTGGAAATGAAAATATTATGCTTTGTGAAAGAGGAAGCAGTTTCGGATACAATACATTAGTTGTTGATATGAGAAGCTTACTTGAGATGAGAGAATTTGGTTATCCAGTAGTATTTGATGCTACTCATTCTGTACAAAAACCAGGAGGTAAAGGAGATACAACCGGTGGAGATAGACAATATGTATCACCTCTTATGAGAGCAGCTTTAGCTATTGGAGTAGATGCAATATTTGCAGAAGTTCATCCAGATCCTGATAATGCAAAATCAGATGGTCCTAATATGTTAAAATTAGATGAATTAGAAGAGATATTAAAAATTGCTATAGAAATAAATAATGTAGTTAAGAAATAAAAATTTTAATATAAAAAAAAGAAAAAGAACCACATAAGAGAAATTTTAAAACTATAAATTTAAAGTTTTTAATCTATTGTGGTTCTAAAAATTTTCTTTGTATACTTTATATAAGTTCTTTATATATTCAAAAATTTTTAAAATTACAAGAGGGGGATTAAATGAATAAAGAAAATAGGGTACAAATTATACTTATCTCTATACTTATATCTTTTTTATCATTAGTAGTATTTTTAAAAAAAATACCTTTAAAACCTGGTACTATAGAATATTTAGCATGGCCTGTAAGTAATATAAATTATGATTTTTTTTCATTTTATAAATCAAGAATTTTAATTTTATTTGTAGCTTTTGCACTTCCAATTACAGCTATAAATAAATGGGGTAAAATAGATTGGAAAAATCATTATTTATTTTTGTTTATATACATATTATTTGCTATTTTATCTGCTGTTTTTTCTCCTTTTCCACAATTAGCATATAATGGAGTTGCTGATAGATATGAAAGCTTATCTGTTCTTATTGCTTATATTATGCTATTTTTTATAATTAATAATTCTATTTCAAATGAAAAAGATTTAAAGTCTATTTTAATTGGGGTGACTATTGTATCAATCGGAGTTGCTTTAATAGGTATTTTCCAATATTATGGATATGATATTTTTTCTTCTAATTTTGGAAGAAAATTAATTTTACCTAAAGATTTAGAATATTTAGCAAAAAATTTAAGATTTAAATTTCAAAAATATCAAATTTATTCTACTTTATATAATCCAAATTATGTAGGTTCTTTTATGACTCTTACTATATTTTTGGGTATAGGGATGTATTTATATCATACAAACATAAAAAAAATATTTTGGTATTTTTATACTTTACTTATGTTTGCAAATTTAGTTGGATGTCGTTCTAGAGGAGGATTTACTGGATTTATTTTTTCTCTTTTGATTTTTTCTATATTTTATTTTAAATTTATTCTAAAAAATTTTAAACAATTATTATTTTTGTTTTTATCTATTATTTTAGTATTTTATTTAATGAATGTATCTGACAAAGCGGATAAAGTTCTTATAAAAAAATATAGTACATATTTTGATAATTTTGATACTGGACTTCGAGATCTTTATATAGAAGGAAATACTGCGATTATTAGAGATAAAAACACTACTTTAAAAATAGAAAATATTGATAATACCAAAGTTGTGTTTTTAGATATTAATAATAATCAAATAAAAACTAAAATAAAAACTAATACTATTTATCTTTTAGATGATAATTATAAAAATTTTAGATTTGAGTTGAAAAAAAATGCTTTAAATTTCAAATATGGAGATACTCATTTCGAATATTTATTAATATTAATGGATAATACTTTTAAAACTGTTGATAATCATAATAAAATAATGCCTATTTTAACTGTACCTCATGTAAAACTTCTTGAAGGATATGAAAAAATGGGTTCTTTTAGAATATATAATTGGTCAAGAACAATTCCAATAATAAAAGATACATTAATTTTAGGTTATGGCCCAGACACTTTTTCAATAGTTTTCCCTCAAAAAGATTATTTTGGAAAGCTTATATCTTATGGCACAAAATCAATTCTTATAGATAAGCCACATAATATGTATTTACAAATAGCTGTAAATACTGGAGTTATCTCACTAATTGCTTTAATTGGATTATTTTTACATTTTTTTATAAAATTTATAAAAAATAGAGTATCCATACAAAGTAATTCTTTTCCTATATTTATCAGTCATTTTATAGGATTAGGAATAATAGCCTATTTAATAACAGCAACTTTTAACGATAGTGTAGTATCCGTTGCACCTTTATTTTGGACATTTTTTGGTAGTTGGTATGGAATATTAGAACTAAAAAAATAGGAGTAAAACTCCTATTTTATTTTATATATTTTTTCTAATATTTCTATTGCTTTATTAAAATTTTTTTCTTTTATTAAAATATAATCTTTTGATACTGCCGAAACTATGTTAAAATCAATATCTTCATTAGCTAACTCAGTAGTAATATTTGCTACTACTTGAATGAGTTCATCCTCATTTCTATCCTCTATTTTTAAAACTCTCCAATTTTCATTATTACTACTACTTTGTTTTTTACAAATAATAGATATATTATCTCTTATTTTAAGAATAGAATAAAATTCACTTTTTTCTATATGTTTTTTTAAATTTTCATATTTTTCTATATTATATATACTATAAATTTCATCTAATATTTTTATTATGTACACTTTATCCCTCCAAAAAAGAAATATCTCAGTCATTATTATAGCATATTATTAATTTATAACAAATAAAAATAAAAAGGTCTTTTGTTTTAAAAGACCTTTTTATTTTTATTTAATACTCTGTATAAATCTAATAATTCCTTCTAATCCTTCTTTATCTCTTTTATAAACCCCGGCATGTTCTAATACTTTAGAAAATACTATTCCTACTTCTTCTTTTAATATTTCTTTTGCATTTTCAAAAGTTATATTATTATATTTTGATTTTACTTCTTTTACCCAATCAAGATGTTTTATTACATCTTGATTTTTTTCTATTTCTTCTATATAGTTATCTTTTATAATTAATTTTTCTAATATTCTTAATTCGTGTTTCAATCTACCAGGAAGTACCGCAAGCCCCATTACTTCTATAAGACCAATATTTTCTTTTTTTATATTATGTACTTCATTATGTGGATGAAATATTCCTAAAGGATGCTCTTTACTCGTTCTATTATTTCTAAGAACTAAATCAATCTCATAATTTAAACCTCTTCTTCTAGCAATTGGAGTTATTGTATTATGAGGTTCATCTTTGCTATATGCATAAATTCCTAGTGATTCATCACTATATTCTCTCCAATTTCTAAGAATTTTATCAGCTAATTTTGATAATCTTTCTCTATTTTTTCCATTTATTCTTATTACACTCATTGGCCATTTTACTATCCCTATTTCTATATCTTCATAATCTTTTATTTCAACAAATGTTTCTATATGTGCTTTTTCCATCGGAAAAATATGTCTTCCACCTTGAAAATGATCATGACTAAGAATACTTCCTCCAACTATCGGAAGATCCGCATTTGAACCAATAAAATAGTGTGGAAATTTTTCTACAAATTCAAGTAATCTATCAAATGAACCTTTATCTATTTTCATTGGTCTATGATTACTACTAAATATTATAGAGTGCTCGTTATAATATACATATGGTGAATATTGTAAATTCCAAGGCTCATTAGTAAGAGTAATTGGTATTACTCTATGATTTTGTCTTGCTGGATGATTTAATCTTCCGGCATATCCTTCATTTTCTACACAAAGTAAACATTTTGGATATGAACTTTGAGGCATATTTTTAGCTGCTGCTATAGCTTTTGGATCTTTTTCTGGTTTTGATAAATTAATTGTTATTTCTAAATCTCCATACTCAGTTTTACTATACCAATGCTCATTTTTAGCTATTCTATCTGTTCTTATATAATTAGATTTTTTTGACATTGCGTAATAATTATCTGTAGCTTTTTCTATTCCTTTTTTTTCTACAATATCATAAAAATTTCTAATTACTTCACTAGGTCTCGGCATAAGTTTTGCCATTATTTTTGTATCAAATAAATCTCGATATGTCACACTATTCTCTTTTAATCTTCCATTTTCATAGGCCCAATCCAATATTTTTTCTAAAATTTCTGTTGGATATTCTAATTTTTCATTTACTTTACATTCTTTGTACTCATCTAATTCCAATACTTCTAGTAATGCATTTATAGTAAAAATTTTATCTTCTTTTTCTATAAGTCCTTTATCTAATGCATAATTTATAAGTCTTGTTATCTCTTTATTAATATCTATCATAAGTTTCTCCTATTCTTTAAATCCATTTTGATTATTTTTATGCCAATTCCAAGCACTTTCAATAATTTTTTCTAAATTAGAATATTTTGGTTTCCATCCAAGTTCTTTTATAGCTTTATTTGAACTTGCTATAAGTTTTGCAGGATCTCCAGCTCTCCTATCTGTTATTTCTACTGGTATTTCATGTCCTGTTACTTTTCTCGCTACATTTATTACCTCTTTTACAGTAAATCCATTTCCATTACCTAAATTATATATCCCACTTTTTTCTGTCTTAAATAATTTTTCTACTGCTAAAATATGTGCATCTACCAGGTCCATTACATGTATATAATCTCTTATACACGTTCCATCTTTTGTATTATAATCCTCTCCATAAATAAATATTTTCTCTCTTTTCCCAAGAGCAACTTGTAAAATTATTGGTATTAAATGCGTTTCTGGCTCATGATCTTCTCCAATTTTTCCACTTTCATGTGCTCCAGCAACATTAAAATATCTCAAAATTACATATTTTATTTCATAAGCCCCTTCAGCCCATTTTAGCATTTTTTCTACTGCTAATTTTGTTTCTCCATATGGATTTGTAGGAAAAGTTTTATCTGTTTCTAATATTGGTACATTTTCAGGCTCCCCATATGTAGCTGCTGTTGATGAAAATACTATTTTTTTTACATTATTTTCTTTCATTACTTCTATTAAACACATTGTACCGTAAACATTATTATTATAGTATTTAATAGGTTCTTGTACACTTTCTCCTACAAGTGAATCAGCAGCAAAATGTATAACAGCCTCTATTTTATTTTCTTTAAATACTTTATCTAAAAATATTTTATCTCTAAGATCTCCAATATAAAGTTTAGCACCTTCCCATACAGCATCTTTATGACCTTTTTGAAGATTATCAACTACTATTACATTTTCTCCTCTTTGAATAAGTTCTGCTACAGCATGACTTCCGATATACCCTGCGCCTCCACATACTAGTATATTCATCTATTTCCTCCTACACTAAAGTTATTTCTCAAACTATTTTCTAAAAATTATAAAAAAATAAAATTTTATATAATTAATCTTTTATCTCTCTAGCTCCATCACCAATTTCAGCTATATAAAAATCCGCCTTTAATCCTGTTTTTTCAAAATATTTTTCTCCAACATTTTTTATAAAATCATCAATTTTATCATTTTTTACAATTGCTACAATACATCCTCCAAATCCTGCTCCAGTCATTCTTGCTCCCATAGTTCCTTCTTGCTCCCAAGCTGCTTCCACTAAAGAATCTAGCTCTTTGCCTGTTACTTCATAATCATCTCTAAGTGAAATATGCGACTTATTCATTAGTTTCCCAAATCCTTCTATATCTCCAGAATTTAATTTTTCTACTGCCTTTAGTGTTCTTTGATTTTCATATACTGCATGTTTTGCTCTTTTTCTATTAATTTCATTTTTTATTAACTCTTTATTTTTTTCAAATTCTTCTTCTGTGAGTTCACCAAGTGATTTTATATTTAATTTTGTTTGGAGATCTACTAGTGCTCTTTCACATTCAATTCTTCTTTCATTATATTTAGAATCTGCTAATCCTCTTCTTTTATTTGTATTAGCAATAATAATTTTTGCATTTTTAAGTTTAACAGGTGCGTATTTATATTCTAATGTATCACAATTAAGTAAAATTGCATTATCTTTTTTTCCCATTCCTATAGCAAATTGATCCATTATTCCACAATTCACTCCAACAAATTGATTTTCTGCCATTTGACTTACTTTTACCATATTTACCATGTCAATATTTAAATTAAATAATCCTTTTAATACTACTGATGTTGCAAGTTCAATAGATGCTGATGAAGATAATCCAGCACCATTTGGTATATTTCCAAAAAATAATATTTCAAAACCTTTTTCTATACTATATCCTTTTTCTTTTAAAATACTAAGTATCCCTTTTGGATAATTTGCCCAATCATGTTCTTTTGTATTTTTTAACTCATCTATATTAAACTCTATTATTCCTAAATCTTTAAAATTTTTTGAATATAATCTAACTTTTTTATCATCTCTTAATCTTGCAATAGCATATGTTCCAAAACTAAGTGCACATGGAAATACATTCCCGCCATTATAATCTGTATGTTCCCCTATTAAGTTTACTCTTCCCGGAGAAAAAAAAGTTCTAACCTCTCCATTTCCAAATATTTCTCTAAAGTCTTTTTTTAATTCATTTACAATTTCTTTCATAACTCCTCCTTCATTTCACTATAATTCTACTTCCATTTTCTTATTTTATATAAATCTTACTCGTCTAGAATTTCCTTTTCTATAAAGTAGGATAATTCTATTTTATATTTCCAAAATAAAAATCTTAAAATTCATATATTGAAGCTGGAGTTGGAACTATTTTTAATAAATTTAAAAACATTTTTCTTAATTTGTTATTTTCTTTTTATAATTTTACTTCCATAAGGTTCTATTTCTATATTTTCAAATATTTTTACTTGATCAGTATGATTTGTAATAAATAAATATTCTTCGTCATCTATTTCTCTTGGATACACTTCAAGTCCATATTCAGATATATAATGTTTTATATTATTTTCATCTATTATATTTTTAAAAATTTTAACTATAACTTCTATATCTACTCCACCACCAATATAATAAACTTTCCCTTTTTTATAATTATTAACTGTTATACAAACTTTATCATTATAAAATTTATCAATATACTTATAAATTGGAGTAGCTGTTACTGGTATTATAAGATCTCGCCATACTCCGCATTTTCCTATATTATTATCCAATAATGATTTGATTTCTACTTCTTGTCCTGCTTGTAATGCTTCTACTTCTTCTATTTTTATCCCACACATCTCTCTTACTTTACAAGGTAAAGTTTCTTCAAAATGAATATTATTATTTTTATCCTTTATTCCTGCTCTAAATGAAAATATAATAGTTCCTCCATTTTCAGAAAATTTATCCAATTTTTCTTTTAATTCATCATCTATAATTTGCATAACAGGTAAAACTAAAACTTTATATCGGTCAAAATCTTTAGTTGTAGGTATAACATCTATTTTTGTATTAAATATATAAAACGGAGTATATAGTCTCATTATTTCATTGTTAAAATCAAATTCTAAACTTTGTTGTTGTATTTTCCACGACCATATATTATCAAAATCATAAACTACAGCAATATCAGCATTTATCTTTGATTGTATTACTTTTTCATATTTTGATACATCTTCTATTACTTCTTTAACCTCTTTATATTTTCTACCATCTTTATTATCATGATCTATTATTCCAAAACAAAATTGTTCTGCTCCTCTTGTCATTCCTCGCCATCTAAACCAAAGCATATTTTCACACCCATGTGCAAATGCTTGATATGACCACATTTTAGCTTGATTAGGTCGAGGTAAATATCCTATTATATTATGACCTTGCGCACCCATTAGTTCTTCTACTATCCAAAAGTTTTTATCTTTTAAACCTCTAACAAAATCATGTGCAGCTGCAATTGCTGCTGGCGATAATGGTTCTTTTAATCCTCCCCATACAGGATAATTATCATATGAAGCAAAATCTAAATTTTTTACATTTTCTTCATGATCATAATATTTTGTAAAAAATCCACCTGATAAATTTGTAGTCACTGTTTGATGTTTTCCTTTTAATTTTTTAACTAATTCAATTTGAGCATTTGCATATCCATTTAATGAATAAGATCTAAATCTACTCCAATCAAGTAAAAGGCTTGGATTATGAACTGTTATTGTTTTCAACGGAGTTGGTATTTCATCAAAACTATTATATGTTTGCCCCCAAAATATTGTTCCATATATTTCATTTAAATTTTCTGGTGTTTTATATTTTTCTTTTAAATATTTTTTAAATTTAATTTGACAATTTTCACAATAGCACATATCACTACCTTCATGACCAAATTCATTATCTATTTGCCATGAAATAATAGCCTCTTCATTTTTATAATGTTCTACAAGTTTTGTCACTATTTTATTACTATATTCTAAATATATATCAGAATTATAACAATATTGTCGTCTCCCACCAAATACTCTTTCTTGCATATTTTCATCCTTTGATAAAATACTCGGATATTTTTTAGCAAGCCAAGCTGGAAATGTAGCAGTTGGTGTCCCAAACATTATTTTTATATTAGCTCTTTTTAATTTTTCTATTACCATATCAAAAAAATTAAAATCATATTTCCCTTCTTCTTTTTCCATAAGATGCCAGGCAAATTCACCTATTCTAACTATATTTACTCCCATCTCTTTCATTCTTTTTATATCACTATCAATTAATTCTATCTCCCAATGTTCTGGATAATAATCTACACCAAAATACATTTTTCCCTCCTAAATTTTTATTAATTCAAAATATTCTTTTAATTATTAATTAACTCAATTATAAAATCCCAACTAACACTACTTTTTGCATCTACTTTAGCTACTTTTTTTATTTTATTTGCTAAATATAAGTCATCATATATTCCTGTACAAGGTTCTAATGCTATATTATAATCTCCTCTATATCCTCCTTGTGTTTTCCATACTCCTAAATAAGGTATTTTTTCAACATCATATCTATAAATAATTTTTTCTTTTGTTTTTGTATATTCTATTCCACAAATATCATTTTTTTCTAATTTATCTAAAAAATAAAATTTCTCACAATTATTTTTTTCTACTGCTTCTACTAATGACATATCTATTTCTTTATTTGTTTTTTTAGATATTGTTATTGGATAATTATGAATATCTCCCCACTTTCCTAAATGCTCTGAACTATGCTCTACTGTTATTATTTTCTTTAATCTTTCTGGTACTATTATTTTAGCATCATCATATGGATTAATGAGAGCATGTGGTGTCCATATATATTTAAATTCTTCATCATTTAAATTTTTTACAATATATCTAAATTCTAATTTATTGTTATTTAATCTTACTTTTTTAGTAAAAATATAATCAAATACAGGACTTTTTACACTAAATAATACATAATCTAATTTTATTTCGTATTCCCAAGGAAGTGTCCATACTTCTCCATGATCAGGAATCATTTTATTTTTATGTTTTCCCTCTGGATATGGTGCTTCATCTATACTCGGAAAAACTTCGTCAAATCCACTTGAATCATATTTACTAAATTTAGATCCATATTTTGGTATCTCTATTTGTTTTTCTTTCGCTTGAAAAAATATTTCTCTATTTGTTTTTTTATTAATTAATGAAGCTAATTTAGATCCATATTTTGGTAAAAATGTTGCTTTTATATAATCATTTTCTAATATTAAACTTTCTATTCCTTTGAAAACATCTTTTTTTATCTCCATTTTTCCTCCATTATACTTTATGACTTAAAATTCTTTTTCCCTTAAATAAATTTTCTAATATTAGTGTAACAGCACCTATTGTTGCTGATTTTTCTTGTAGTATAGATGGTTTTATTTCTAAATTTTTCAATGTAGTTGTTAATCCATATCTTTTTATTGTTGTTTCTACATTTTTATAAAATAATCCTTCTATTTTATTTATCTCTCCTATTATTACTATAAGGTTAGGATTCACTATATTTATTACTGTTGCAAGTGCTTTGCCTAAATATTTTGCGTTTTCTATTATTAAATCTCTTGCTAATCTATCTCCTTTTTTAGCCGCTTTAATTATTTTATCTAAATCTATATTTTCATATTTTAAATATTTACTTTGTTCTCCTATCATTAATTTATATTTTATATTTTCAATCATTGCTTTTGTCGATGCAAGCGCTTCAAGACATCCATAATTTCCACAGCTACATCTTTTAGTACTATGTTCTTCTACTGTTATATGTCCTATCTCTCCAGCACTATAGTTTCCACCTGTATAAATTTCTCCATTTAAAATTAATGCAGACCCTATCCCTTCACTTATATTTACTACTAAAAAATTTTTACTTTCTTTTGCAACACCAAATTTCCCTTCCCCTCTCGCCATCGCTCTTACATCATTGTCTACTATTACAGATAATTTTAATTCTTTTTCTAATATTTTTTCTAATTCTATATTTTTCCATTCATAATGTGGTGAAAATACTGATATTCCTTTACTTATATCAACAATTCCATTCATTGCAATACCTATTCCAAATATTTCTTCTTCAGTATTATTAATTATTTCTTTTAAATTTAATATTAAATTACGTAATATATAATCTTTAGTATGATTTTTAAGTTTAAAACTTTTTTCTGTTATTACTACACCATCAAGGTCAGCTAAAATAAAATCTAATGAATTAGGCCCCATATAGACACCTATTATATAAGCTGCTTTTGATTTTAGTTTAAGCATTATTGGTGGTCTACCACCTGTTGTTTGACCTATTCCAATCTCTTCTAAAATTCCTATTTTAATAAGTTTTTTAGTTGTTTTAGAAATACTAGCTGGAGTAAGAGATGTTAGTTTTGCTATATCTGCTCTTGATATAGGTCCTTTTGCTCTAATTATCTCTAATATCCCATTTATATTTATACTTTTTATTAAATTAAAATTTCCTTTTTCCATTTTTATTACTTCCTTATATATTATTTTAATACTTTTTATTCTATTAAATAACATTCTTTCTATTTTTAATTGAATTATACTTTGTTATTTTCTTATAGTCAAAGAAATAACAACAAAAAAAATACACTTTATTAATTTATTTAATAAAGTGTAAAAAAATCCTTTTTTTATTATTTTTTTATAATTATACTTTGTTAACTAAGTTAATTATTTTTAGATATGAAGTACCTTTTTAATTATATCTTTTCTAAGTATCATACCATAAAACTTATTATCTTCTACTACATAAAGTCTTGTAGCACTTTTAGTCACCATTAAATAACTAAGTTCCATAATAGGTGTTTTTCTAGTTACAGTAAGTACGCTCTTTCTATATAATTCATTTACTTTTACAGTGTTTTCATTTTTAAAATAATCTTCAAATGGTTCTCCTGTAGCTAAAAAACTCATATCACCAAGTAATGACATGTATTTAGGAAGTCCATATTCTATAAGCTCTCTTGGTGTTATCTCTCCTATAAAATTATCAAACATATCAAATACTGGAAGTCCAGGAAGATCACTTATTACAAGTTTACTTGCTACATCTTCAAGAGTTTCATTCTCATATACTCTCTCAACATCTTTTATCATTATATCTTCAGCTGTAATTGTATCTTTTACATCTTTTTCATACTTTTTAATATATTTTAATATCTTATTTTTATCTATTTCTATATCTATTTTATCTAAAAACTCTTTTTGATTTACAAGTTTACTTATAGCTGACATCAATTTTAAAACAAGTTTATTTTTATTTTTTGATGCAAGTATCAAAAACATATATTTTATATCATCTTCTTTATGAATAGCTGCTATTTCATATTTTATTGGTTTTTTTACTCTTACTAAAGCTACTAATATATCATCATAACCACCTAATCTTCCATGAGGAATCATTACCCCATTTCCTATCGCTGTAGATATTTCGTGTTCTCTTTTTAAGACTGTTTCTGTAACTTCCTTTTCTATTGATACTAACTTTTTATCAACTTTAGCTAATTCATCTATAGATTTTTTTATTAAACTGTCTATATCATTTGAATCTATATCTAAAAATATAAATTCTTCTGTCATATAAGTAGATAATTTCATTACGTAACCCCCTTTATTTTATTATTATTTTTTTAATTACATATTTTACCAATTCAAATTATTACTGTCTTTTTATTCAATATAAAAACTAAATATTATTCTCTTTAAATATAAGCTATCTTTTCTCTTATTATATTTTTTTATTCTTTTATAAATATCTCCAATAAATATAAATATTAGATACTATTACTGTTAATATAGTAATCAATACTCCATATTTTAAAAATTCAAAAAAACTTATTTTTCTTCCACTTTTTGCTGCTATTCCAGTAGCTACAACATTTGCAGATGCTCCTACTATTGTTGCATTTCCTCCAAAACATGCCCCTACTGATAATGCCCACCACAATGCATATTCTATTGTTTTTTTTGTTAATTCTGGATGTAATTTCATTATATTTGGTATAAGTTCATTTTTTATTAAGGGAATAATTGTTGTTGTATACGGTATGTTATTTACAATAGCAGAAACAAATGTAGATATCCAAAGAATGAGTGCAGATGTTATTTTTAAATTTCCATGTGTTACTTTTATCATTTTTTGTCCTAGTATTTTAAGTACTCCTATTTCTACTACTCCTTGTACTAAAATAAATAATCCTATAAAGAAAAACAATGTTTTCCATTCAACAGTTTTAAAAATTTCTTCTGGATCTTGTTTTGCTATTATCATCAATACTACTGCACCAGACATTGCTGTAGCTGCAATTCCAAAATTTGTAATAGAATTAGTTAAAAATCCTAATATTACTAATCCCATAACTATACCAGATTTCATTAATATTTTATTATCTCTAAGTGCTCTATTCGGATCTATTTCCATAATACGAGCTTTTAGATCTCTGGATACTTTCATTTTTCTTCCAAATAAAAACCAACTGATTATTATTAAAAATAACATATCTATTAGTACAAGTGGTCCCATATTAAACATAAATTCATTAAATGATATTTCTCCAGCTGTTGCTATAAGTATATTAGGTGGATCTCCAATAAGTGTTGCTGCTCCCCCTATATTTGATGCAAATACTTCCATTAATAAAAATGGTATTGGATCAAGTTTTAATTGCTCAGTAAGTATTATAGATACTGGTACTATAAGCATTATTGTCGTTACATTATCTAAAAATGCTGAAAATAAAGCTGTAGCTAACATAAGTAATATTAATAAAAGAAATGGTTCACCTCTAACAAATTGTGCTAATCTTATTGCTACCCATTGAAAAACTCCTGTTTCTGACATAATATGTACTATTATCATCATTCCAATAAGTAAAAATATTACTTCCATGTCAATTGATTCAAAAGCTTTTTCTTCTGATATTATTCCTACTGCTATCATTAAAAAACCACCCAGTAGTGCCGAAAGAGTATCTGGAATTTTTTCTGATACAATTAATGCAAAAGTTAAAATAAATATAATTACTCCAATTAAAAATTGTGTCATTTTGTTGCCTCCTTAATTATCTATATAAATTTTTTGTGAACATTTTTAATACTTATTTTTTTATAAAAAAATTTTAATTATATAATTATACTACTCTAGAATATGATTTTTTTCAAATAAAATGTTTTTATAAATATCTAACATATATATATATTGTTGAAACAATTATTGTAATTAATGTTATTAAAATTCCGTATTTTAAAAATTCAAAAAAATTTATTTTTCTTCCACTTTTTGCTGCTATTCCAGTAGCTACAACATTTGCAGATGCTCCTACTATTGTTGCATTTCCTCCAAAACATGCTCCAGTTGATAAAGCCCACCATAATGCATACTCTATTGTTTTTTTTGTTAATTCTGGATGCGATTTCATTATAGAAGGTATCATTTCTTTTTGTATCATTGGAATCAATGTCGTTGTATAGGGTATATTATCAATTACTCCAGAAACTATACCTGATAACCATAAAATTAAAATAGAGGTTATTTTTACGTCATTTTTTGTCATTTCTAATAATTTTTCTGCTAAAATTTTAATAATACCAATTTCAACTACTCCTTCTACTAACATAAATAACCCTATAAAGAAAAATAATGTTTTCCATTCTACTGTTTTAAATACTTCTTCCGGTTCTTTATTTATAAGTATCATAAGAATTACTGCACCAGCTAATGCTATTACTGCTATTCCTATATGAGTAAATGTATGTGTTACAAATCCTAATATAACAAAAAACATAACTAATGCTGATTTCCATAAAATATTCTTATCTTTAAGAGCTTTATTTGGATCTATATCCATTATTTTAGCTTTTAAATCTCTTGATACTTTCATTTTTTTTCCAAATAAAAACCAACTAATAATAATAAGTAATATTATATTAATTATTACTAATGGACCCATATTAAACATAAATTCATTAAAATTAAGTTTTGCTGCTGTTCCTATTAAAATATTAGGAGGGTCCCCTATTAAAGTAGCTGCTCCTCCTATATTTGATGCGAATATCTCCATTAATAAAAATGGTATTGGATCAACTTTTAACTGTTCAGTAAGAATTATTGATACCGGCACTATAAGTAAAATAGTTGTAACATTATCTAAAAATGCTGAAAATATAGCGGTTATCCAGATTAATAACACTAATAATAAAAATGGTTCTCCCTTTATAAATTGAGCTAATTTTATCGCTATCCACTGAAAAACTCCTGTTTCAGACATAATATGTACTATTACCATCATTCCAATAAGTAAAAATATCACTTCTAAATCAATTGCTTCAAAAGCCTTTTCCTCTGATAATATTCCAACTAATACCATTAATATACCACCAAGTAGTGCCGATAACGTATTTGGTATTCTTTCAGTAATAATCAATACAAAAGTTATCACAAAAATTAATGCCCCTATGATTACTTGATCCATTTTCCCTCCTTAATTTTTATATAAATTTTACTTAATACATCTCTAAATTTAAAATAATTTAAATTTTCATTATATTATATATTACTATGAACTTATTATGTTTTTCAAATAAAATATTTATATAATGACTTAAATCCATTTGAAAATTTCATATAACTTTCATATTCTAAAAATAAAAAACACTCCTTCTCATAGTATACAGTTTTATTATTTTAACTATCTACTACAAGAAGGAGTTATTATATTAATTTACTAATTTTAACTTTTATGAAAGTTTTGGAAACATTACTACTCCATAAATAGGTCCAGAATGTGAACCAACTACAGGTCCTATATTTATTTTTCCTCTACAATCTACTTTAGCCTGTTTCTCTAAAAATACTCTTATTTTTTCAGCATTTTCAAACTCTTCTGTTGCTCCACCCCATATAGGATATGCAATTATTGAATTATTTTTCAATTGTTCTTTTATAAGTCTTTCTATTTTTTTCAATGCTGCTATTTCTCCTAGTACTTTACCGTAAGAACTTACTTCTCCATCATCTATTTTTAAAATAGGCTTTAATTTTAGTACTCCACCTATTGCTGCAGAAGCTTTTCCTATTCTTCCACCTTTTTCTAGATATTTTAAATCATTTACTATAAAATAAACTGATGATTTTTCTCTAGCTATTTCTAGCCAACTTACTATATTTTCAAAGCTCTCTCCTTGTTTTGCTCTTTTAGCTGCTTCTATTACTAAATGTCCTTGAAGTATAGTTACAGCTTTACTATCTACTATTTGTATATCTTTTTCTCTTCCTGTCATTGTTCTAGCTAATTTTGCTGATTGTTGTAATCCACTCATTTTACTAGACATATGTATAGAAATTATTTTTTTATAACCTTTTGCAAAAAGCTTATTATACATATCTCTCATTTCAGCTGTTGAAGGATGAGCTGTTTTTGACATTTCTCCATTTAATATTTTTTCCCAAAATTCTTCTGATTTTAATTCAAAAAAATCTTTATAACTTTCTTTTCCAAAGTTTACTATAATTGGAAGAAGATTTATATTATATTGATCTATGAGATCTTTTGTTATATCTCCAGCAGAATCTGTAACAATTGCTATTTCTGGTAAATTTGGATCTCTATTTTCTATATATATATAATAATTATAGTTTTCTTGCTGTCCTTCATATACTTCTATATCTATTTCAGGAGATAAAAGCATATCATTTCCTTCTTTTGTAGTGTGTTTACCTTTTACCGCAAAAATTCTAAGAGTATCTTTTGTTATATTTTCTCTATAAATATCACTTATAATCTCTTCTAATCTTTCATTTGTATATTTTAATTTCCCATCTACAAGAGCTATATAACTTCCTTTTTTAATAGTAAGTCCATCAGCTTTTGTATCTCTTACTGCTATCGTTATCTCTATAGATTTATTTCTATGTGTATTAGCTACTATCTCTTTTAAATCTTCTTTTCTATTTTTAAGTACATAATATCCTTCTAACATAGTTCTTGTTTCAAATAATATTACATTTTTTTTAGATCTTTCACACACAAGATTAGCTGTTGATATTATATTTTTATTGTTTGGTAAAATTATAATTTCTTCAGCTTCAATTTGAGAAATCATTTCTTCTATATCTGATACACTTGGGTTTTTACTTTGTCCCCCAAGAAGAACTCCTGCCGCTCCTATTTTTAAAAATAGTTGTGCCATTTCTATAGTATCCGCAATTGCAACAAATGCTTTATTGTTAATAATATTTAAATTCTCTATTAATATATGTTGATCTACTGTAAATCCTTTTTCATTTTCTCCTACTACAAGACTTCTGTGTTGTTGTGCCATATTATCTATTTTTATATTTGTAAGTTCTCCATACTCTCCGGCTATTTCTAGGGCTTGTCCTGGATTATTTGTATGTATATGTGTTTTTGTTTTTTTACTAGTTTTAGCCACAATCATAGAATTACCAAGTTTTGCAATTCTTTCTTTGTATTCTTCTATATCAAATTCTCCAGCCATTATTATATATTCTGTACAATACTTATACTCTAGATCTTCTTCTACAAATCCAACTTTAGTTTTTCTTTTTGCTTGATTACTTACTATTCTTTCAAGATCTTTTAACATTTCTTCATCTGTAATAGATTTTTCAAATCCTTCCATTAAATAAAAAAGACCTTTTGCTCCAGCATCTACAACTCCAGCTTCTTTTAATTTTGGTAACATATCTATTGTTTTTTCAGTGCTTTCATAAGCTACATTTTTTATAAATGATAAAAAATCTACAAAATTATCTTTATCTTCAGGCCAAGTTTTAGCTGCTTCTGCTATTTCTCTAATAACTGTAAGTATAGTCCCTTCTACAGGTTCAGTTACAGAATTATATGCATATTCTCTAGCTCTATCAAAAGCATGTACTACATCTTTTATATCTAGCTCAGTTTTTCCTATCGCAGCATTTAAAAATCCTTGTAATATTTGAGATAATATTGTACCAGAATTTCCTCTAGCTCCTAAAAGAACAGCTTCTGAAACAGTCTCTATTAGTCCTTCCATTGTCATTTCATCATTTAATTTTATAAGATCATTTTCTATTGCTTGAAGAGTCATTGACATATTTGTCCCTGTATCACCATCTGGTACCGGGTATACATTTAAATCATTTAAGACATCAGCATATTTGGATACCCATCTACTTCCTGCTATAAACAATTTTGCAAGTCTAATTGCTGTTAACACTTTTATATCTAATTTTTCCATAAATATCCTCCAACTCTAACTTATTTAAATAATTTTACTTATTTAAATATTTTTCTATTATATTTTTCCAAAGATTTTTTTCCTTTAAAATATGCTCTATAAATTCTCTTACTGCCCCATCTCCACCATTTTTTGTAGATACAAAATCTACTTGTTCTTTTATAAAATTATCTGCATCATTTGGAGCAGCAGTAAATCCTACTTTTTTTATTGCAGGAATATCATTTATATCATCACCCATATATGCTATTTCTTCATACTTAATATTATATATATTACATATTTCATCAATTTTTTCAAGTTTATTTTTTATCCCTTGATAAATAATTTCAAATTTCAATTCTTTTGCTCTTTTTTCTACAATTTTTGATTCTCTTCCTGTTATTATACCAAACTTAAATCCAAGTTCTCTGGCTTCGACAATAGCAAATCCATCTTTTACACTAAAACTTTTAGTTTCTATTCCATTATTATCATAATATAATTTACCATCTGTTAATGTTCCATCTACATCAAGTATTATAAATTTTATATTCTCTACATTTCTTGACATAAGCTCTCCTTATTTTTAAAATGTTGGTGGTGTTACTACCCACATTACTTTACATGTTTTATTTGTTTCATTTTTAAATTTATGTTTTTGATTTGATTTAAAGTATAGACTATCTCCTTCTTCTAGTGAATAGCATTTTTCATTTATATATACATCTAACTTACCTTCAAGTACAAATACAAATTCTTCTCCTGGATGTTGGTACGATTCTCTTCCACTTTCTCCATATGGTCCTATTTCATAAAGTATTGGCTCCATATCTTTATCTATATTTCCTGATGCTAGTAATGATATTTTAGTATTAGAATCCATGCTTTCCACTGTATCTCTATCTTTTTTTCTTGTAACTATAGCGTCTTTTTTTACTTCTTCGTCTTCTATTAAATAACTTACTCTTACATCTAAACTATTTGCTATTTTTTTTAAGTTTTCAATAGATGGAGATGCTTTTCCTTGTTCTATTTGCGATAAAAAACTAGCTGATAAATCCACTTGCGATGCTAAATCTCTTAATGAAAATCCTTTTTCATTTCTTATTTTTTTTATTTTCTCACCTAACATAACCTTACCTCTTTCTTAAAGTAATTTTAACAGTTCAAAAAGTGCAGTTAACGAAGCTCTTTCTCTAATTTTTTCTCTATTTCCATTAAAATGATGTTTTTTTATATTATAAATATCATCTTTTTTTATGCCTATATATACTGTCCCTACTGGCTTTTCTTTTGTTCCACCATTAGGACCTGCTATCCCTGATACTGCTATTCCAATTTCTGTTTTTAATCCTTTTAACATTTCATACACAGTTTCTTTACTTACTGCTCCATATTTTTTTATTGTCTCTTTTTTTACATTAAGTCTCTCGTGTTTTGCTTCATTTGAGTATACTACTATTCCTTCTGTAAATACTTTAGACGCTCCAGAAACTGATACAAGCTTTGAGGCTATTAATCCTCCTGTACATGATTCTCCCAAAGATATCCTTTTATTTTGTTTTATTAATTTATTTATAACATTTGTCTCTATTCTTTCATTATCTTCACCAATAATATATCCACTTAATTTATTATCTATTTTATTTTTTATTTCATTAACTAAATCAATTTTATGTTTTTCTGTCTGCATCCTAAATATTATACCATAATCTTTTACCAAAAATTCAAAAATAATTTCATTTTCATAATTTTTTATAATATCTAAAATCTCATTTTCTAAAATAGATTCAGCTATTCCCCAAAATAAAATATCTTTTATATATACCTCTTTATTTAAAGAATATTTTTCTTTTAAAAAACTTAAAAATTTAGGAAATAAATTTTTGAGCTCTATTGGTACTCCTGGAAACGCCGCAATTTTATTTATATAAAATCCAGGTGCAATTCCTGGCTCATTATAAAAAACTTCACTTCCTGTTGGTACCATTACTTCTTTTTTATTTTTTTCAAAAATTTTAATATTTCTTAATTTAAACTTTTCTATCATCTTATCATAATGAAATCCATCTATTTCATTTTTAATATTTAAAAATTTTGATATTGCATCTCTAGTAACATCATCAATCGTAGGCCCTAATCCACCTGAAAATATTACTATGTCTGATTTATTATATACATATTTTAATAAATCTATTATCTCATCTATATCATCACTTACTACTGATTTTCCAATTATTGTAATCCCTATTTTATTCAATTCTTCTGCTATATAGATACTATTTGTATCAATCATCATTCCACTTAAAAGTTCAGTTCCTACTAAAATAATATATGCTCTCATTTTATTCACCTAATATTTCTCTTACTTTCAATAAAAGCTCTCTTGGACTAAATGGTTTTGTTAAAAAATCTGTTACATCATATTTTTTCCCTTCTTCAATATAATTATCTTGCCCCTTAGCTGTTAATATTATAAGTGGTATACTTTTCACTTCATCATTTTCTCTAATAAGTTTACACATTTCAAGTCCTGTTAATCTAGGCATCATAATATCAGATATAATTAAATCCGGTTTTTCTTTTATGGATACTTCATACCCTTCTTGTCCATCATTTGCTGATACAACTTCATATTTTCCTTTTTTTTCAAGGTTAAATTTTACTATTTGTAATATATGTTTTTCGTCATCTACTATCAATATTTTTTTGCCCATTTTTTCACCTCTTTTATATTTTAGGTATCGTAAATAAAAACGTCGCACCTTTTCCTATTTCTGATTCTACCCAAATTCTTCCACCATGATACTCTATTATATTTTTACATATAGGTAAACCAAGCCCTGTTCCTCCTACATTTCTTTTTAATATATTATCCGTTTGTTTAAACTTTTCAAAAACCGTTTCAAAATGTTCTTTTGCTATTCCTACTCCATTATCTTTTACCCCTATTAATATATGTTTATCACTATAGTGTTTACAAAATACCTTTATTTCAGTATTTTCATTTGAAAATTTTATTGCATTATTTATTAAATTTAATAAAACTTGTAATATTCTATCTTTATCAAAAGGTATCTCACATTTTTCATCCTGAAATTCTGTTTGTATTATAATATCTTTTTTAGCTGCAAAACTTTCCATATTTTTTACTGCTCTTTTTATAATAGCGTTTATATCATTTATTTTTATTCTAAATTCCATTTTCCCTGCTTCAATTTTAGAAAGATCTAATATATCATTAATAAGTATATTTAATCTATCTGTTTCTTCATTAATAATGGATAAAAACTCTTTCTCTATACTATCTTCTTGAGCCATATCAATAAGTGTTTCAGCATAAGCTTTTATTGAAGTAAGCGGAGTCCTAAGTTCATGCGATACCATAGATAAAAATTCATCTTTTAGTTTATCTATTCTTTTTAGCTCTTTTAGCTCTTTACTTTCCCGTAAGTCTCTTAAAACTATAAGTTTTCCTGCATTTTCTTCTTCAAGTTTAAGAGGTTTTACCCCTACTCCAAATAATATTTTTGTATCTTCATCTATTTTGTATTCTATTTCTTCAGTAATATAACTTTTAATTTCCTTTTTTACTATTCTATTAAGCTTTGTTATAAATTCTATATCAAACTTTGTATTAATTAATTTTTTTCCAAATACGTCTTTTCTTTTTATATTAATTAATTCTTCCATTTTTTTATTGTATACTCTTATTTTTTCTTCGCTATCAAGTACTATTATACCATCATTCATATTTTGAACTACATTATCCATATAATTTTTTAAGGCTTTTAAATTTTGATTTCTTCTTTCTAAATCTTTATACAAAATAACATTTTCAAAAGCTATTGATATTCTACTTGTTACAATTTCTAACACTTTTAATTTATTCTTAGTAAAGTATTCCTCTACATAAATAGTATTTAATATAAACGCTCCTATTATTTTTTCTTGGATTACAATAGGAACAATTACTGAGGTTTTTATTTCTTCAACTTCTTCTTTTAATACAAAGGCTTTTCTCATTTTTCCTGCCCATAATAAAAAGTTTTCACGGAGAATTTTTAATAAATTTTTCTTTAATACATTATTATAATTTTTTTGTTTAGTAATTATATATAAATTTTTTTCTTCGTTGAATTTTACAAATGCTACAGAATGATAATCAATAATTCTCTTAAGCTCCTTTATATAAAGCTCAATAAGTTCATCTTCATTCATATCCATATTAAGATCGTTCTGTATCTCTAAAAATAAATTTATTGTATCTTCATAGGTCTTTTTTATATTTAATTCTAATTCTATATCCCTAGCCATAAATTAACTCCTATTAATATTATATTAGCCACTATTCCTGCTAAAAAATCATCAGCCACTACCCCTACACCATTTTTCATATCTTGTACTTTATCTATAAACAAAGGTTTTGTTATATCAAATAATCTAAATAATATAAATGCTAATACTATATTGATAATAAGTGATAAAATAGTTGTAGGATTTACCATAAATAATGTTGTCATATAACCAAGCACTTCATCAAGAACTACTTGTTGTGGATCTTTTTTATAATAAATTTTTTTTTCTGCAAAATCACACATATATATTGAAATAAAAAATAAAAATATTAAAAATACAAAATATATCATATTATAAATTTTTTCATTCTTTATTATACCACTAAAATACAAAGAATGAAAAATAATATATAACGGAATCGCCCCTAATGTCCCTATTGTCCCTGGTGCTTTTTTACTTCTTCCTGTACCAAACCATTCTAAAAAAAATTGTACTATATTTTTATTCATATTTCATCTCCCTTTATATTTTTATCAACAATTTTATTGAATTTTTTTATATTTTATTTTTCATCATTATAATAAATAAAATTTTAAAATATTATCTTTCTCAAATAATTCTCAATTTTTTATTTCTTTTAAAAATAAACTCTATATTTTATAAAAAAAACTTTTAATATTTTTTATAATTAATTTTAAATTTTAAAATATAATTCTATAATACTCCTGTGTCAAAATTATATCCTCTATATTCTCCATTCATTCTTTCTAAACTTTCAAGTATTTTAATCATTTCATCTTCTGTTTCAAATATAAAATCTAATCTTATCTCATCTAAATTCAAAACTTTTATTTCATTTAGTTTTGGTATAAGATTTAAAGGTTCTTTTAAATAAATTTCTACATTTCCAATTTTATTTTTTATTCCAATAAATTCATCGCCATTTTTATTTTTAAACTCTATTTTATTATTATCAAATATTGAATACTCTATATACATTCCCTTAAGATATCCATATACTACAAGTGCTTTATTAATTTTTTCTGATTTTATATTTTTTATCGTTTCTTTATCTAACTCTTGAGATAAATAAACAGTTTCTACTTTATCTATTTTTTCTAATTCTTTTATTGCATAAGAATTCGTTATATTAAAATTTTTATCTAAAGTTATTTTATTATTCTTATTATTTATTACTTGATAAAAATTTGTACACAACTTACTTTCCAAATCTATTTTATCCAAATTTTTTTCATTTGCAACTTCTACCTGTTTAAAGTATATTTCATCTATTTTTTTATTTTCTAAATATTTCTTTGCAATATTATATTGTTTTTCATTTGACACCAATACTGAGATTCTTAATTTTTTATGTTCTTTTTCTCTAAATTTTTCTATTTTTTTTATATTTACTACTCTTTTTTTGCTTTTTAATATTTCATTTTCTAGTTCTTTTATGATTTCTCTTCGAATATTTTTCAATTCACTAAGCGGTAGAAAAATATTTTCATCATTCTCTATTTTTATATTTTTAATAAAGAATGAAGTATCTCCTAATTCACTAAATTTTTCTATAATTTTTTCTTTTGTCGTAGCTCTTTTTTTTGCTTCTTTTATAACAAAATATTCTTTTTCAATATTTATATTTTCATAATAAATTTTTATTTTCAATTTATTATTTAACGTTGCTATAACTTCTATATTTATTCCAATTTTTTTTTCTGAATTTTTTATTTTTTGATTTATATTATCTAAAATCGATTTATTATAATTTTTATAGATATATTCTGTTTTATTTAAATTTTCAAATAAATTTTTTCTAAATATAATTATATCATCTTTTTTAGCTTCTTTTCTATTTTTACTAGATTTTATATCTATTTTATTTATGTTATATCCATATAATATATTTAAATTTTTATCTACAAAAGTTATTCCATCTCCTAATACAACACTATCTAATAGTTTAAATTTATTATCTGATATTTTTTCCCCTATTTTATATCCAAAATGTGATGCATATTTTTTATTCATCAAGTTTTTATCATTATAAAAATACCCTTTACTATATCCTCTATTAAATATTTTTTCTATATTACTTTCTCTATCTAAATCATCTATAAGATTTCTATAATAATTTACTACTTCATATACATATTCTTCGCTTTTCATTCTACCTTCTATTTTTATAGAATTAATACCTATTTCTTTTAATTTTTTTATCTCATCTATTCTAAATAATTGATCCTTTGGACTAAGTATATATTCTTTATTAGTGTCTAATATATATTCTTTTCTACAAGGTTGTGCACACATTCCTCTATTTCCACTACGTCCACCTATAAAGCTACTCATATAGCAATTCCCTGAATAAGATATACATAAAGCACCTGATACAAACATTTCTAATTCTACATCAGTTTTTTCTCTAATTTTTTTTATACTATTATAATCCAATTCCCTAGCTGGCACTACTCTAGTTATTCCAAATTTTTTAAAAAAATTTATCTCATCTGCATTCGATATTGTCATTTGTGTACTTGCATGGATTTCTATATCAGAAAAATTTTTTCTAATAAATCTTAATAATCCAAAATCTTGTACTATTATTGCATCTACTCCGTATTCATATACTTTCTTTATGTTCTCATATAAACTTTCTAGCTCTATATCTTTTATTACAGTATTAAGTGTTAAGTATATTTTCACTCCTCTAAGATGCGCATAATCTAGTGCTGTTCTTAATTCCTCAAAAGTAAAATTTTTAGCTCTTCTTCTAGCTCCAAATCCTTTTATCCCTAAATATACCGCATCTGCTCCAGCTTTAACTGCAGCTAAAAATTTATTATAATCACCAGCTGGTGCTACTATTTCCATAATCTACCTCTTTTTTTATACTTCTTTTTATTTTTCAACCATAATTTAATATAAATAATTAGTTTTAATATTACAAATCTAAAACTATAATTTAGTTTTTTATAAATGAATAATTTATTTTATATAATATTTACTACATAATTCTTCTGCTTCTAATATAGCATTTTTTATCATTTCAAAATCTACTTTATAAGGTGAATTCCATATTGTATCACCCTTATACATAGCTTTATTTATAACTCTTTTCAATTTATCATCATCCAAATCATATCCAAGTCCTTTTATTCCAATAGGTGCATTTATACTATGATAAAATTCTAATATCTCATCAAGCATATCATATTCTTTATCTAATACTAATTGTACAATATTTCCAAATCCTACTACTTCTCCATGAAGATTATTTTCTCTATATTCTGGGAAAATAGTAAATCCATTATTTATAGCATGTGCTGCAACCGCTCTACAAGCTTCTCCGCCGATTCCTCCTATCAATCCAGCCGTTAAAATAATATGTTCTATTATTCTATCAACTTCTTCTGAATAATTTTTATTTTCTATATCTTTAATTACTTTTTTTCCATATTTTAATATCTCGTTATATGCTTTTTTGGCTAAATATATAGCTATTTCAAGTTCTACATTTTTATTTTTTATATTTTTTGTATATGCATTTGTTTCTATCCATTTTGCTAATGTGTCTTGTATTCCAGAGATAATATATCTTTTAGGTGCTTCAAATATTATCTTTTTATCCATATAAAGTATATCTGGATTCTTATAAATATTAAAATATTCATAAGAAGCTCCTGTATCAGAGTATACCGCACTATGACTTGCCCATGATGCACAAGTAGCAGCTATCGTTGGCACTGTAACTATTTTTACATCTGCTTTATATCCAGCAGCTTTTACTGTATCCATAGTTTTTCCACCACCAAACCCTATTATACAATCACTTTTATTTTCTTTTATTACTTTTACAACTCTGTCTATTTCTTTATGAGTGCAATCTCCGTTAAAATATTCTATTTTTATATTCAATTTATTTTTTAATGAATTAATTCCAAATACTATTATATCTTCAATATTTTTATCATATAATACAGTAGCTTCTCTTGAAATTTTAGATATTTCATTACCAATATTTTTTAAAATATCATATCCACTTATATAATTTCTTGGTGCAATAAAAAGATTAAGCATAATCCACCCCTTTTAAAATACTTTCTTTATATATTTCATTTACTCTTATTCTAATTTTCTTTATTTTTACTTTTAGAACTAATTAATCAATTTTTATATTTTTACTTTTTAATCTATTTCTTCATACTAAATCTTTACATTTTTTCACTCTATTATAGCACAATAATATTGATTTTAAAAGACTTTGTCTAGTGTCACTATACATATTTTTATGTATAAAAAAAGAGAAGTGGATATCCACTTCTCTAAAATTTATTTTATATTAATTATAATCCATAAGTAAATTCTACGCCAGCAACTGTTTTAGTTTTTGACATATCAGTAGAATCTTCTTTTGCATAAACTTTATTTTCAGAAGAAGTTATGATTAATTTTGGAGTAATTGTAAAGTGTCCTTTAGACATTCCTACTCCAGTTTCTAACTCAGTAGTAGCTCCATTTGTAGTATTTACTTCTTTATTTAATAATTTTACTGAAGCATATGCAGTTGATGCATATCCATTTATTTCTTCTAAGCTATATGATCCTTTTGCAAAAACTCCTGTTTGTGCATCTGCATTTTTATTATCTTTTTCCATGAAGAACTCTCCATTTACTGATACTGCATCAGTTAAATTCATTGAAGCAGTAGCTCCTGTATACATAGCTTTAGTTCCAGTTGTATAAGATACTGCAGTTCCTAATGTAACTCCTGCTACAGTAGTATTGAATTCACCTTTTACTTGATATTTATTTTTTGTATTAGTATTATCCATAACTGCTAATTTAGCTGCTACACTACTAGCGTCATCTAATTTAACTGCTAATTTAAATCCTGGAGCTGAAATGTTTGAATCTGAAGCAAATGTATCATTATCCCAATCCATTCCATCTACTTCCCATGGATATAATGTAAATGAAGTCATTTCGCTTCCCATTACAGCCCATTTAATATAAGCTCCTGAATCTTTATCAGTATCTAAATCAAATTCACTACCAGCACTTATTAAAGTTGCTCCAAATCCTATTTCAAAATCTCCTTCAGTTTTAGAATAAGATGCTGATAAGTTATTATCATCTCCTACACTAATATCAAATGATAAATCTCCAAAATCTCCTGTTTTACTAGTTGATAATGTAAAATTTAAATCTCCACCCTCAATATTCATACCATTAACAGTATCTAATACGTTTACTGTACCTCCTATATTAGCTCCTGTAACATTCCATTCTGTTGCAAACACTGTACCAGTTACTAGTAATAATCCAGCTAATAAAGTTGCTGTTTTTTTCATGTGAACATCATCTCCTCTTTTAGTCTTTTTTATAATAAAAAGTTAAATACTACATATAATATAGTATTCAATTAAAAAAAATAATTTTCTAAAATATAATTTTTAATACTCTAGTTTTAATTTACCATTTTTTAATTTTTTTTTCAAGCTTTTTTTGATATTTTTTGAGTTTTTTTACCATTTTTTTTACACTTTTTTTACATTTTATCTTATTTTTGTTATTTTCTCGATTTTAATACACTTTTAGTACAGTTAATATTTTTTAAATATAAACAATATATATATTATTAAGACCTTACATTTATAAGAATAACTTATTTTATTCAAAAAGTCAATACCTCTTGAGAATTTTTTTACATTCTTGTACTTTGTATTCTATACATTTTATTTATCTGAAAAGATTTCTTCACTAAAATGACAAGCTGCATAATGACCTGGTTCTATTTCTCTCATTACAGGTCTTTCTTGTCTACATTTATCCTTTGCATATTTACATCTAGTTGAAAATTTACAACCTTTTGGTGGATTTATTGGGCTTGGTAAATCACCTTCTAATTTTATTCTATTTTTACTAGCTTCTATATCTGGATCTGCTATAGGTACAGCTGATAATAATGCTTCTGTATATGGATGTAATGGTTTTTCATATAATTTATTACTTTCTGTTAACTCTACCATATCTCCTAAATACATTACAGCTACTCTATCAGATATATATTTTACCATACTAAGATCATGTGCAATAAATATATATGTAAGTCCTCTTTCTTTTTGTAATTCTCTTAATAAGTTTGTTACTTGTGCTTGGATAGATACATCTAAAGCTGAAATAGGTTCATCACATACTATAAATTCTGGATCTACAGCCAATGCTCTTGCTATTCCTATTCTTTGTCTTTGGCCTCCTGAAAATTCATGAGGAAATCTATTTGCATGTTCTCTATTTAATCCCACTTTTTCAAGTAGATTATATACTATTTCTAATCTTTCTTCTTTTGTTTTATACATTTTATGCACATCTAATCCTTCTGCTATAATATCAGCTACCGTCATTCTAGGATTTAATGATGCTTGTGGATCTTGAAATATCATTTGAGCTTTTTTTGCAAATTCTTTTGTAGGTATATTATTTACATTTGTTCCATTATATATTACATCTCCACCTGATTTTGGATAAAGAACTGTAAGCGTTCTTCCTAATGTTGTTTTTCCACAACCAGATTCTCCAACAAGTCCTAATGTTTCTCCTTTATATACATCAAAACTAACTCCATCAACAGCTTTTAATATTTGTTTGTGTCCTACATGGAAATATTTCTTTAGATTTTTTACTTCTAATAATTTCTCTTTTGCCATTATTTTAGTTCCTCCTTTTGCTTAACAATAGGATTCTCAACTTTTGGCGCATCTTCATGATGTAACCAACAAGCTACTTTATGAGTATCACTTATTCTAAAGAATCCTGGTTTTTTCTCTTTACATACTTTCATAGCATATTCACATCTAGGAGCAAAAGGACATCCTACAGGAGGTGCTAATAAATCTGGTGGTGTTCCATCTATTGACTCTAAATTTTCTTTTTCTCTATCAATATCAAGTCGCGGCATAGATCTCAACAATCCCCATGTATATGGATGTTCTGGATTATGAAATATATCTCTTACTAAAGCTTCTTCCATCACTTCTCCACCATACATAACGATTACTCTCTCCGCTATATCAGCAACGACTCCAAGATCATGAGTTATCATTATTATTGCTGTGTTTAATTTATGTTTTAATTCATTCATAAGGTCTAATATTTGTGCTTGTATTGTAACGTCAAGGGCTGTTGTTGGTTCATCAGCTATTAATAATTTTGGATTACAAGCAAGGGCAATAGCTATTATTACCCTTTGTCTCATTCCACCTGAAAATTCATGTGGATATTGATTAAATCTTTTTTCTGGAGTTGGTATCCCTACAAGTCTAAGCATTTCTATAGCTCTTTCTTTTGCTTCTTGCTTAGTCATATCTTGATGTAAGAGTATACCCTCTACTATTTGATTTCCTATTTTCATAGTAGGATTTAACGAAGATAGTGGATTTTGGAAAATCATTCCTATTTTTCCACCTCTAATTTTTTGCATTTCTGATTCTGATTTATTTACTAAATCTTCTCCATCAAATATCATTTCACCTTGTTTTATTCTTCCAGGTGGCATAGGTATAAGCTTCATTACTGTTTGTACTGTAACTGATTTCCCACTACCAGATTCTCCAACTATAGCAAGGCTCTCTCCTTCATTTACTGAAAAATTTATTCCTCTTAAAACCTTTACCTCTCCTGCATATGTATCAAAAGAAACATGAAGGTCTTTTACATCTAACAGTTTTTTATTTTCCATCTTTACATTCCTCTCCTAAAATAATATATAAAATAAGATTATTTTCTCAATTTTGGATCTAACGCATCTCTTAATGCATCTCCAACAATATTAAATGCTAAAGTTGTAAACGATATTAATAATGCTGGTATTACAAAAAGATGTGGTCCTCTTTGTAATAATTGATATCCTTCATTCGCTAAACTTCCCCATGAAGCTAAAGGTACTGGAATACCTATTCCAATAAAACTTAAAAATGCTTCACTAAATATAGCTTGAGGTATGTCAAGTGTAAGTCTAACTATTATTTGACCTAATGCATTTGGAATAAGATGTTTTGTAATTATCCACATCGGATTAGCTCCAAGAGCTATTGAAGCCATAACAAATTCTTGTTCTTTAATCCTTAATACTTCACTTCTTACTATCATAGCCATAAACATCCATCTAGTAGCACCCATAGCTATAATTATAGTTTTTAATCCAGGTCCTAATACTACCATTAATAATATAATATATATCATACTTGGTACAGACATCATTATTTCTACAAATCTCATCATATAAAAATCTATTTTACCACCAAAAAAACCTGCTATACCACCATATAAAGTTCCTACAACTCCTTCTATAAATACAACTATTAAAGCAATGGTAAATGATACTCTTGCTCCAGCCCAAATTCTAGTAAAGAAATCTCTACCAAAATTATCAGTACCAAAGTAATATCCAGCTTTTAATGATTCCGCATCCCAAAATCTAAAAGTCATATCAGTATTCATTTCTCTATATCCATACTTGTTTAAATATGGTCCAATTATCGCAAATAAAAACATTACTAGAAGTGACCAAAAGAAAAACATTGCTAATTTATTTTGTTTAAATCTTCTTAACGCATCTTCAAGATATGTCATACTTGGTTTATATATTTTTTCACTTTCAGCTAAATCTTTTCCAACAAACGTAAAATCATGTTTCATAATAACTATTCTCCTTTTCCTTTACTTAGTCTTACTCTAGGATCTATAAATACATAAAGTATATCCACTATTAGTAGCATCACTACTAATAAAAAAGCATAAAATATAGTAATTCCTAATACTACTGTATAATCTCTATTATATATACTTTCTACATAGTATCTTCCTAGACCAGGAATAGAAAATATTTTTTCTATAACAAACGAACCTGTAGTTATTGCTGCAAGTAATGGTCCCATATATACTACTACAGGCATAATAGCATTTCTAATACCATGTCTTGTAACAATTTTAAAAGGTTTTTGACCTTTTGATTTTGCAGTTATAATATAATCTTGGCTAAATACATCTATCATTGATGCTCTCATCATTCTAGCTATTACAGCTACAGGAAAAAGTCCAAGTGCAATAGTAGGTAATACTTTATGTTGCCAAGTATCATATCCTGCTACAGGAAGTAATGATATTCCAAATTTTCCATTTATAGCAACTATTATCCATTGTAATGTCCCTGCTAATACAAAACTAGGTACCGATACTCCGATAACTGCTAGTAGCATTGCTCCAGAATCAAGTTTTTTCCCTCTATTTAATCCCGCTATTATTCCTAAAAATACTCCTACAAAAAATGCAAAAATTGCAGCTCTTATTCCTAAATCTAGTGAATATGGGAAATGATTTTTAATCATACTTGATACTTTTCTTCCTCTAACTTTCATTGAAAGACCAAAGTCACCTTTTAATAAATTCCCAACATATTTCACATACTGTATAGGTAATGGTTTATCTAAATCATATTTTTCCATAAGTTTTGCTTTAATTTTAGGTGGAATAGCCTTTTCGCTAGCAAAAGGATCTCCAGGTAATTGATGAACTAGAAAAAAAGTAATCGTTGTAATTAGTAATAATGTAATAACACTTGATACAATTCTCTTAAAAATGTAATTAAACATAATGTCTCCTCTCTAAAAATATATAATTAATTTTGTTTTTAATGAGAAAATGAAAAACAATTTTCAGCTTCTCATTATAACAAAAAATAAGGTAAGTATATTATACTATATATTTTAATATTTTCAAATATATTTCCTAAAAAAATCAATAATAAACATTGGAAAATGGTCACTATATAAGCGATATATAGCGACCATTTATGTTATTTTTTAATTTTTTTATTATTTTTGAATATCAGCATAATATAAATCTGTTTCTTGACCAACTGCTCTAAAGTATACATTTTTTAAATAAGGTTTTACTAATCTGTTTCTATTTCTATAGAAAGTAACACCTATAGGAAATTCTTTAGCTAATATTTTTTCTGCAGCAGCCATAGCTTCCATTCTCACTTTATTATCTGATGAAGTTTGAGCTTTCTCTATTAAAGCATCGTATTCAGCATTTGACCAACCAGTATGATTATTTCCACCATTTGTTACCCATAAATCCATATAAGTCATAGGGTCGTTATAATCTGGTCCCCATCCTGCTAATACAATTTCAAAGTCTCTCGAAGACATTCTTTGAAGTCTAATTTGGAAAGTAACTTGTTCTATTTTAACTTCTATTCCAAGTTTTGTTCTTAATTGCTCTTGATAGAATTGAGCTTCTTTTGTTGCTGTATCACTTGTACCAGTTAATAAGCTAATTTCTACTGGACCAGTATGTCCAACTTCTTTTAATCCTTCAGCTAGTAATTGTTTAGCTCTTTCTACATCATTATCTTTATATAATTCGCTTCCAAAATCTTCTCTAAATCCTTTATCAATTCCAGGGAATCCATAAGGTACCATTCCTTGAGCAGCTTTAGATCCATCTTTTTTGATTTTTTCAACTAATTCTTTTCTATCAATTGCTATAGTTATAGCTTCTCTTATTTTTCTATTTTTTAATAATTTATGTTTTGTATTAAATTCAAAATACCATACAGAACCATCACTATAACTTACTAATTCTGGACTATCTTTAAATTCTGGTAATTGATCTCCGCCTAGTCCAACTATATCTAACTCACCATTTTTATACATATTTAAAGCTGTATTACTATCATTTACCATAAGTGCAGTAATTCCATCTAATTTAATTTTTGACGAATTCCAATAATCTGCTCTTTTTTCTAATACTATTTTACTATCATGTTCCCATTTAACCATTTTAAATGGCCCATTAAATAAGAAGTTATCTTTTTCTAATGCATAGTCTTCTCCTTTTTCTTTGAAAAATTCTTCATTTAAAGGATAATATGTTGGGAATGCAGTTACTGATGCAAAGTAAGCAGCTGGTTTTTCTAATTCAAACACAACTGTTTTATCATCTAATGCTTTTACTCCAACTTTAGAAAAATCTTTAATTTTCCCTTCATTATAAGCTTGAGCATTTTTTATATAATAAGTCATATATGCATACTCTGAAGCTGTTTCAGGCTCTATTGCTCTTCTTATTCCAAATACAAAATCATGAGCTGTCACTGGTTTACCATTTGACCATTTTGTATCTCTTAATTTAAATGTCCATTTATTACCTTCTACCGTCCATGATTCTGCTACACCAGGTACTACATCTCCAGTAGCTCCTAATCTAGTTAACCCTTCCATAATAAATGGTAATATTTGCATAGCACTTTGATCTGTTGTTAATTGCGGATCCATTGTTCCAGGTTCTTGTCCTAAATTAATTTTCACAACTTTTTTTTCAGCTTTAGTTTTCGCACTTTCTTTTGCGCCACCTCCACCACAAGCTACAAATAATACTAATGTTAATAATGTCAATAGCCACTTTAATCTTTTCACTATTATCTCCCTCCTACATCTTTATTTAGTTTAATATTATAATAGTATTAAACTAATTAATAAAAATTTATTATTATAATACTACTCTATTATACACGATTTTTATATTTCTTCAAATATATGATTTAAATATATCTAATATATTCCATATATATAGTCTTTGATTTTTAAGGACTTTTAAACTTTAAAAGAACTTTTTTTTATTTTTTTTGAATTTTTTTATGATAATCATCTATTTTTTTAATTTATATCTTTTTATGTCAAATATATCACAATTTATATATATGCATTTTTTGTCTTTTTCCTTTTTTATAAATTAAATTTTTTATAAATTAAATTTATAATTTTATTAAATCGTATGTAATACATAAAAAACTTAAAATATATTCTCTATAAAAATAAAAAAATAGAGTATCAACTCTATTTTTTAAATGGCGCGCCTAGTAGGAGTCGAACCCACAACCTACGGATCCGAAGTCCGCCGCTCTATCCAATTGAGCTATAGACGCATATTTTTTTATAAAAAAAAAGTCCAAGTGGACTACTTAAATGGTGCGAAGGGAGGGACTTGAACCCTCACGTCATAGACACTAGATCCTAAGTCTAGCGCGTCTGCCAATTCCGCCACCCTCGCAAAATGAATGGTGCGTCATACAGGAATCGAACCTGTGACAACACGATTAAAAGTCGTGTGCTCTACCAACTGAGCTAATGACGCAAATATTTAATTGGGGTGAACGACGGGATTTGAACCCGCGACAACCAGTGCCACAAACTGGCGCTCTACCAACTGAACTACGCTCACCATATATGGAGCGGGAAACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACGCTCTACCAACTGAGCTATTCCCGCAATGGTCGGAATAGCAGGATTCGAACCTGCGGCCCCCTGCTCCCAAGGCAGGTGCGCTACCGGACTGCGCTATATTCCGAACTTTCCAAGGCGAGTATAATAATATCACAACCTTTAAGTTTTGTCAAACATTTTTTTTATTTCACTTAATTTTTTGAAAATTTCAAGTTTATTTGTACTTATTTTCCCTATGCTAATTTAATAATTTTTTTATTTTTCTTTTATTTTTTCTATAAGTTTATTCATTTGATAATGATATGAAGATATATCATTAAAAAAACTCAGCCTTTCTTTAAGATTTTCTGATATATTACTTATATGCTTTTCAAGAATATCTATCTCTAATGCTCTTTTACTACAGATATTTTCTGTATTTTTTATTATTTTTTTCATTTTATTTATTCTTTTTTCTTCTTTTTTAATAAACTCTAATTCTTCTTTTTTTAATTCATTACAATTGTTATTTCCAAAAAAAATATCTTTTCTATAATCTATTATAGTTTTTTCTATTTTACTTATTTCTTCTTTTAAAATTTTCATATTTTCTTTAATATATTTTAATTCAATACAACAATTTTTTATTATTTCAATATTTTCTTTTAAATCTTCTTCAAGTTCTAATCCATTTTTTGTGTTAACTTTAAGTGTTTCATTAATTATATCCATTAATTCAAGTTGAGCATTTAAATATATATTGTTCTCTTTTTCTTCTTTTAATTCTTTTGTTTCTTTTATTTCTTTTTTTATAAAAAGTTTTTTTAATATTCCCGTCATATGCCTCATTCCCCTATGCATAATAATATTATTGATTGATTTAAATGTATTCCTTTGTACTGCTCTCCATAAGATAAAAAACCTGAAAAATCTGATATATTTGCTAAATTATTTATAAAATGTTTTTCTATATTATTTTTTCTATAATTAAGCTCTGTAAGAATACATTGAACAGTAAACATCATATTAACTTTTTTAAAATCTTTTTTAATATTTTCTAATACAATTTTTTGGCTATCTAAAGGATTCTTTTTTTCCAAAATATTTACAGTAATATTTTCTGGAATTTTAGTATACATTTTTATACTTTTATCTGCATTTATTGAAAACACTGTTGATATATAAATATCATCTAAAACAGTTCTACCTAATGGGTGTTTTTGCAAATATTTATTTAATCTATTTTCATTTATTCCTAAAAGTTCTGCGTATCTTTCACTAGCCTTTTTATTATCTAACTCATATATTATTCTATTATTAAAGTCTGCTTTTGTTATTCTAGTTTTTATATCTGTTTTTTTATACATTACGTCTTTGTATGTTTTTATTTTAAAATTTGTTTTTTCAAAATTAAGATATAAAAACAATGATGTATTATTTAATAATTCACCATTTAAAGATAAAAATGTTTTTTCAAATCTACAATTATCTCCTCCACTTCCTCCTATTATTTCTAATTTATTTTTAAAAATAGAGTTTATAATTGATAATACATTTTCTTCTGCTCCAGATAATCCTTCATTAAAGAGTATCCCTACTTCTTTATTAGTATATTTTGATTTTAAATAATTTTTTTTATTAAATTCATTTATTATTTGTTGTCTAGATAATATTGGTAAATTTTTTACATCTTCTATACGAGAAATTATATACTCTATACTTTCATAAAATGCTATTCCTGTAACAGATTTTTTTACAATTCCTGCTTTATTATGGACTTCTCCTGCTGTTGTTATACCTATGATTTCACATTCAATATATTTCTTAGATAGCTTTTCTGAAATTTCTTTAAAATTTTCAATCTTACTTGTAAAAAATAAAATAAGTCTTAATTTTTTTTTTTCTAATTCTATCCCTTCTATAATTTTCTCTATACTATTTTCATTAGAAAAAAAGTTTTTTATCATCTCTCCCCCTTATTTAGTTTATTTCTAATAAACTATCTTTTGATAGTCTAATCCCTATTGCGCCTAACGGTGCTGTAACTACTATTGATAATACTGCTATTGCTAACATAATATCACCATTTGGTACTCCCATAGCATATGGTATACCTCCTATTGCTGCTTGTACTGTTGCTTTTGGTAAATACGCTATTGCACAAAATAATTTTTCTTTATTGTTTAATTTTGAACCCGCTAATGATATATACACTGCTATTGTTCTACCTATTAACCCTATTGCTATTACTATTAATCCTAAAAATCCTGATTTAAATATAAGATTTATATTTACTGCTGCTCCTATAAGTACGAATAACAATATTTCCGCTAATACCCATACTTTATTAAATTTTAAAGCCATTCTTTTAGCTAAATCATCATTTTTTTCTAAAATTATAAACCCTATTGCCATTATTCCCAATAAACTAGCAAGTGGTATAATTTTTAATTCTTCTATATGATGAAACATAATTGCTACCATCATAAATACTAATACTTTTTTAGTATCTCTCATATGAAATTTTTTAAATAATTTTAATAATAAATATCCTAGAATAATTCCTATAATAATCCCTAAAATTATACTAATTGGAATATTAAAAATAGATTTTATTACATTTACATTTTTTCCAAGTGCCATTCCTAAAAAAGAACTAAATAACGTAATTGCAAATACATCATCTATCGATGCTCCAGCTAATATTAATGTAGGTATCTCTTTTTTCTTTCCATATCCTCCTTCTTTTAAATTAAGCATTTCTGGTACAATAACTGCTGGTGATACTGCTGCTATTATAAATGCTAATACACCTGATAGTATAAAAGAAAATCCCAAAATATAATGCGCTGCAAATATAATAAATGTTCCTTCTAATATACATGGAATAAATGACATTTTAAGTGCAGGAACACCAATTTTATTGAGTACCTCTCTATTTATTCCAAGCCCTGCTCTAATAAGTATAACTATAAGTGCTGCTGTTCGAAGTTCTGATGATATATCCAAAATTTTATCTGATATAAATAAAAATTTTAAACTTTCAAATCCATTATTCATAAAAAAATCTCTTGAAAAAGGTCCCAATAAAACTCCGGTTAATATCATTCCAAGTAATGGTGGTAATTTAATCTTTTGAAATAATGATGAAAATAACATAGCTACCAATATTATTACTGATAAATTGAATAACATATTTCCTCCTTATATTATAAAAAATTTATGAACTATTATGTCTAATAAAAAATGTTACGTATATTCTATAATTATTACAATTTTAAATCTATTTTAATATTTTTTTTCACAATAACAATTTTATTTTTAAATCAAATTTTATAATTATTATACTACATTTTAAGTATAATTTGAAATATTTTTATTTTATGATATACTTAATATAGATTAATTCTACAATAAAAGGGGTTTTAGCATGAAAAAAGTTTATTTTGTTCTATTTTCATTAATATTTATATCTTGTAGCTCTGTAAATCAATACAATAAAACTTTTGATTTTGGTACTGATAAAGGATATAAAGATTTAACTATTCTTTTTGATGATGGAACAGATTATTATATTTTAGATAAAAAAATTAAAAATTCAAATACAAAAATTATAACTTCTAAAAATATAAAAAAAGAAAAAGAAAATATAAAAAAAGATAATATAAATACTACTTTATCAAAAGATTACACAATAAATAATTCTACTAATTTATTTTATCCGTTATCTAATTTTAAAATAACTAGAAATTTTGATAAAAACGGTAAAAAATCTATTGAAATTGCTAGTTCAGAAAATAAAATAAGTGCTTCAGCGCCTGGAATGGTTATATATTCTGGAGAAAATTCTAATCTTGGAAAAGCTATTTTTATTTATCACAACAATGGATATATTTCTATTTATTCTCATCTAACAGAATTAAAATATAAAAAAGGTGATTATATTAGAGATGTGAATACTACTATTGCTATATTTAATGATACATTTGAATACGAATTAAGAAAAAGAACTGACAAAGGAGTTATTGCTATAAATCCTATTGAAATACTTAAAAAGAAATAAAAAAAGAGGCATTTTAAAATGCCTCTTTTTTTATAAAATTAATCTTCTAATACATTCATTACTCTAGCTTGAGATACATTTGCTTGAGCTGAAATTGCTTTTTCATCATTAATTTGTTCTTTTAATTCAGATAATTTTTCATTTAATTCATCTGGATTATCAATTCTAGATGAAGCAGCTATTGTATTTTCTGATGCTATTTGTAGTTTTTTAATTTCTTTATTAAACTTATTAATATTCTCTTTATTTTCAGAACTTCTAGCTAAAATATCATCTATCGCTTCATCAATAACTTCTAACTTATTGTCGCTTATCCAAAATTCATCAAGACCTAAAGTTTGTAAATTAATTCCGTTTAATGCTTTCTGACTACTTCCTTGCAAGGACTTGGCTATTTTTTCTACTTCTATAAGCAATGCATCTGCTTTGTCTTTATAATTTACAGATGGTGTTTGTCCTTCTAGCTTACTAGTTAATTTTCTTAACTCTTCTAATTTACTTTGGATTTCAGAAAGTTGTCCACTTCCATTTTGTGCAACAGATATTTCAGTTTGATAATACTTTATTTTTCTCAGTATTTCATTTGTTTTCATTTCGAAGTTTTTCTCCCCAGCTAAAACTTCATCATTCTTAGTTGCACTAGCTTTTTTCAATAAATCAGATCTTTTTTCATAATCATTTTTCAGTTTGATATCTTTATATGCAGCTCCTCCATAAGCTCCTGTTAACTTCATGTTGACACCTCCTTTTCTCAAAAACCATGTATCATCTACTATTATACTATATCTTTATTTACTATTTCAAGTTACTTTTTATTTATCCCTGTTTTCATATATGTATTTTTTAGCTTTTTTTCATGATGTAGAGCAATAATATCTTTTTTTATATCTCCTATTTTTTCTTTATAAAGTTTTTGATTTCCATTTTCTATATCTAATATTTCCTCTATCAACTCTTTTAGCTCTATTTTTATTTCGTTATTTAAATTTTTTAATTCTATTTTTTCTAATTTTTTTTTAATTTCTATTTTCTTTTGTGATAAAAGGCTTATATATTCTTCATCTATTTCTTTTTGATTTAACTCTCTATTCTCCTCACTAGACAATCTATAAAGTTTTTTATATTCGTCTATAATATCAAGCTCTTCCAAATCCACCTTTTAATCCACCTTTCACTCCACCAGTATTTTTTACTGCTACTTTCCAAGTATCTCTTAATTCTTCTAATAATTTTTGAACTTCATCTATTTTTTCTTTATCTTTTTTTAAATTAGCTTCTACTAATTGACTTAACATATAATCATAAATACTATATAAATTTTGAGCTATTTCTCCACCACTTTTCATATCCAAAGAAGCCATTAATTCTGTTATTATATCTTGTATTTTTATTATATATTTATTAGCATTCATTATATTTTTTTCATCAATGCTTATTTTTGCTAATTTACAAAATTTTACGCCACCTTCATATAAAAGCAATATCAATTGTCCTGGTGTTGCTGTTTGAATTTGAGTATTTTTATACTGTGCATAAGCATTATTTTTGTTGTATGGATTATTATTATACATTATTTTCCTCCTAAAAATTACATAAAAAATCTACCTAAAGTACTACTATACATTCCATTATAAGTATTTTCATCATAAATTTTTTTGTATTCTCCTGTTGCATTAACAATGGTATAGTACCAATAATAATTTCTTACTAAAAAAAATAGTATTAAAAAATTTAATATATATTTTAAAATATAGCTACTTAATATATTTTTCGATATAAATATTAAATAACTTAACATTAAAAAAATTAATAATTGTTTTACAAGTGCATTATAGCTTCCTTTTTCTCTTTTTATTATTTCTTTTATTTTTACTATTGCATATTTCCCAAATTCTTTTGGAATTATTATACTTGTTATAAAAGAATACACTATTAAGGGTATTCTATAGACCAATACTATTAATAAAAGAAATATTATTGCAAAAAATGTAAATATATCATTTTTTAATATTCCTATTCCATACATAGGTAAAATAGTCAATACACTTAATAAAGATATATTTATTACTATAATAAGTATCGCTTCAATTAAGTTTTGAAATATTTTAGGGTAATATATAAGAGAATAGAGAAATATTCTTTTAATATTAATTTTACTAAGCCTTGTTTCATTTTTTACAATTGATATAAGACCTATTGAAAACATAAAAAACAAAAAATATCCCATTATAGATAACCTTAAATCTATAACTAAAAAACTTATTATGAAATTAAAAAATAATGCAGAATATAAAATATTTTTATTTCTATTAAAAAATGCAAAAGCTTCTTCATATTTTGTAAGCATTTTAATCCCCCTATAAAAATACTACTTTACTTTTTTATTTTTTCTAAACCACTTAATTATTCTTATTTAGTTATAAAACTATACTTTCATTATTGCATCTATCATCTTAGCTACTCTTTTTGTTTCTTTTACATCATGTACTCTCAAAATATTAGCTCCATTTTGTACAGATAATGCTGCCACTGCTAGACTTCCTTCAAGTCTATCATCAGTCTCTACATCTAAAATTTTTCCAATAAACGATTTTCTTGAAGCTCCAATAAGTATCGGCAATTCAAATTCTTTAAATTTATTTAAATATTTTAAAATTTCTAGATTATGCTCTATCGTCTTACCAAATCCTATTCCTGGATCTAATATTAATCTATTTTTTTCAATCGAATACTTATCTAATTTTAATAAGAGAGTCTTAAATTCATCTTTTATGTCATTTATTATATTATTATAAGTAGGATTATTTTGCATTGTTTGAGGTGTCCCTTGCATATGCATAGCGATTAAATAGCATTCATACTCTTTAACTACTTCAAGCATCTTTTCATCTCTAAATCCAGTAATATCATTTATTATATCTACATTATACTTTAGACATTCTTTTGCTACTTCACTTTTATAAGTATCAATAGACAATATTACATCAAATTCTTTTTTTATTCTAGAAACAATAGGTATTACTCTATCAAGTTCTTCTTGTAACGGTACTACTTTTGCTCCCGGTCTAGATGATTCAGCTCCTACATCAATAATATCTGCACCTTCTTTTATCATTTCTTCTACTCTAATTAAAGCTTTATCTATATTATTATATTTTCCACCATCTGAAAATGAATCAGGAGTCACATTTAATATTCCCATTATTTTAGTATTTTCAAAAAAATCTATTTTCTTCATATATTTAACTCCTCGTATAACTTTTTTCTTCTATAATTTTTTAAATTCATTAATTTTCTATATTTCCCAATCTCTAGGATATCTAAAGTCTCTATCTATAGTTCTAGCTGATACTTTTGCTATTACTGGTAATTTTCTTTTGTATTGAGAAAATTTAATTTTTCTATACAATTTTTCTATAAACGGTCTCTCATATCCTTCATTTAATAACTCTTCATATGTTTTTCTTTCATCTATCATTGCATAAAGTAATTTATCGGCTTCATAATATGTAAATCCAAGTTCATTTTCATCACTTTGCCCTTCCCAAAGATCAGCACTTGGTTTTTTCTCTATTACTTCTTTTGGAACTCCCATATATTCTGATAATGCCCAAACTTGAGTTTTATATAAATCACCTATTGGATTTAATGCTGACGCCATATCTCCATGTTGAGTTCCATATCCTAATAATAACTCCGTTTTATTTGATGTTCCTAAAACAAGAGCATTTTCTCTTGCTGACATATCATAAAGAATAGTCATTCTTTCTCTTGCCATTTTATTTCCTTTTCTCATATTATTCATATCAGAAAATTTATTGAAATATGCATCTACCATATCTGTTATCTCTATTAATTCACTTTTTATTTTTGATTTTTCTACTACCAATTTTGCGTGGTCTATACTATTTTGACTAGATGATTTATAAGGCATCATTACTCCTAGTACATTTTCAGGCCCTAATGCTTCTTTTGCAATAAAAGCTACTAATGCAGAATCTATTCCTCCTGATAGTCCTAATACTGCTTTTTTAAATCCTGATTTATGTACTTCTTCTCTTACAAAGTCTACTAATATTTTTTGTGTAAGTTCTAAATTTAAATCAAGTTTATTTTTCATAACCTAACCTCTCTAATTATTATTTTCTATATCTATTACAAATTTTCCTAAATTACAAGCTCTATAATCTCTAAGTATTTTATATGCTGCTTGAAGTGTATCAAGTTTTTCACCTTTTTGCAACATTCCTAAATTTTTTGCTACTTTTTGTAATATGATTTCAGGTAATTCATTAATATCACTTTTTTCTAATCTATATTTTTCTATAAATATTCCTTCTTTATTTAATTGTTTAATTCTTTTTATAAATTCTTGAGCAACTTCTTCTATAGGAAGTATTTCATCTTTTATAGCCCCTGCAATAGCAAGACTATATCCTACAAATTCATTTTCAAATCTAGGCCATAATATCCCTGGAGTATCAAGTAGTTCCACCCCTTGTTTTATTCTAATCCATTGCTTCCCTTTTGTAAATCCAGGTTTATTTCCTACACCAGCAGAATTTTTCCCAACTATTCTATTAATTAATTTTGATTTACCTACATTTGGTATACCTGCTACTATTATTCTTACATTTACATTTCTCAAACCTTTTTTTTTCATTTTTTCTACTTTTTCTTTTGATAACTCATTTATTAATGAAAAAACTTTTTTTATATTATATCCAGTTTCTGCACTAATCTCAAGTACTTCATTTGCCATATTATTTTCTTTAAAATATTTTTTCCATCTATTTATCTCTTCTTTTTCTACTAAATCTGATTTATTTAATAAAAGTAATCTTTTTTTATTTTTTGCAAATTTTGGTATATCTGGATTTTTACTGCTTAATGGTATTCTCGCATCTACTATTTCTAATACAATATCTATTATCTTCATATTTTCATTTATCATATCTTTTGTTTTTTTCATATGCCCTGGATACCAATTTATTTTTGTCATTGACACTTTTAATCTTCCTCTCTTTTCTTTCTCTCTTTATAATTCTCAAGTCCTTCTACTATTAGTACTATTTCACCTTTTACTGTCTTACTTTCAAATACATTTAACACTTCTTCTATACTACCTTTTACTATTTCTTCATAAATTTTTGTTATTTCTCTAGCAATAGTAACTTGTCTATCTCCTAAATACTCTTTTATTTCTTTTAAAGTTTTTACAATTCTATGTGGCGATTCAAATATCACTATATTTCTTTCTTCTTCTTTTAATTTATTCAGTAATGTCTGTCTTCCTTTTTTCTTTGGTAAAAACCCTTCATATGCTATTCTTCTCATATTCATACCACATACTGAACTTGCTGCTGTCAACGAACTTGCTCCAGGAATGGGTACTACTTTTATTCCTTTTTCTAATGCTTTTTCTACAACTTCATATCCTGGATCAGATATACATGGAGTCCCTGCATCTGTTACAAGTGCTATATCTTTTTCATCAATTAATAAATTCATAATGTTAGCTATTTGATGATGTTTACTGTGTTCATCATATCTATATATTATATTTTCTATTTCAAAATGATTAAGCAACTTTTTTGTTACTCTTGTATCTTCTGCAAAAATATAATCTACTTTTTTTAAAATTTTTATTGCACGAAATGTCATATCTTCTAAATTACCAATTGGTGTCGCTACTATATAAAGCATTTTTATACCTCTCTTAACTTTTCTTTTATATTCATATTTATCCTTCTACAATATTAAAATAAGTCCTTTAAAAATTAAAGGACTTATTTTATTTTTATCTTTTAAATTTATTTTGTATTGTATAATATTATTCCTTTTAATATTGATTCTGCCATAATAAGTTGTTCATCTTTTTTTTCTTCAAGTTCTTTCTTTTTCTCTTCACCTTCTGATTTTCCTATAGCATCTATTATTTCATGTTTTGTTTCTTCTAAACTGCTCTCTTCTACATTTGTTAATGTACCTTCAAAGAATAAAAAATCATCCTTTTCTTTTACTTCAACATCTGGCATTATTCCTTTTTCATGAATACTTTCTCCATTTGGGGTAAAATATTTTGCAATTGTTAATTTTATTCCATCACCATTTGCTAAATAAAATATATTTTGTACAGAACCTTTACCAAAACTTTTTTCTCCTACTAGTAATCCTCTTTTATAATCTTTTATTGCACCAGATACTATTTCACTTGCTGAAGCCGATCCTTCATTTATCAATATCACTAATGGAAAATCTCCTAAATAATCTCCTTCTCTTTTATATACATACTCTTTTCCTTTTGCATCTTTCATACTTACTATCTTACCTTCTTTTATAAATAAAGATGCTACTTTTATTGCTTCAGCTAATTGTCCACCAGGATTTGTTCTAAGATCAAATATAAGCCCTTTCATTCCTTGCTTTTTTAAATTTATTATAGATTTTTCTATATCTTTAGATACATTGCTACTAAATTGTGTAAGTCTAACATATCCTATTTTATTATCCAACATTTTACTTTTTACATACTTTAATTCTATTATATCTCTTTTAAGAGTAATATCTATTGTTTTATCTATACTTTCTCTATAAATTTTTATATTAACTGTTGTATCTTTAGCTCCTCTTAATTTTTTTTGACATTCTTCACTTGTAAGAGGTATAGTACTTTCTCCGTTTATTTCTAATATTCTATCTTTAGGCTTTATTCCAGCTCTAAATGCAGGTGTATCTTCTATTGGTGATACTACTAAAAGTGCTTCATCTTGTTTTTTATTTATTACCATTCCTACACCAACAAATTCACCTTCCATATCTTCTTCAAAACTTTCTAATTCTTTTTTTTCAAAATATGTAGTGTGTGGATCATCTAATACTGATATCATTCCTTTTAAAGCCCCTTGTAAAAGTTTCTCTTTTGTTACTTTATCTTGTTTTTCATATGTTAAAACAAAATTTTCATCTATTAAATTCATTACAGATTCTATTACTAACTCTACATATCTTTGCTCTACATCTTGTTTATTTTCCGTTTTACTAAAAGTAAAACTATTAATTAAGATTATTAATAAAATTATTATTCCTTTTTTATTTAGCATTTTTTTCCTCCTTAATTTTTTTTGCCTTTTCTAACAATTCATCAATATTTAAGTTTATATTTCCTTTTTCTTTATAAATGAATTTTGTTATATATTCTATATTTCCTTTTGTTCCTTTAATAGGAGATACATCTATATTAACTAAATAAAACCCTGTTTCTGTGGCTATTTTTAATACATTCTCGATAGCTAATTTATGTTTTGATATATCTCTTACTATTCCACCTTTTTCAATATTTTCAGGTCCTACTTCAAATTGTGGTTTAATAAGAGCCATTAATATGCCTTTTTCTTTAATAAATTTATTTAAATTAGGAATTATTTTAGTAATAGATATAAAAGATACATCCATTACTAAAATATCAACTTTTTCATTATCTATATCATTTAAAGTTAAATTTTTTATATGCATGTTTTCAATTGATTTTACTCTTTTATTGTCTCTTAATTTCCATGCGAGTTGATTTGTTCCTACATCTACTGCATATACGTATTTTGCACCATTTTGTAATGAACAATCAGTAAAACCACCTGTAGATGACCCTATATCAAGTACTATTTTATCTTTAAAATCTATATTAAACTCTTTTATTGCCTTTTCTAATTTATATCCTCCTCTACTTACATAAGGACAAACATCGCCTTTTATTCTTATTTCAGGTTCTTTCTCTTCATTATATTTTATAATAGTTCCCGCTTTATCAATTTTTTGATTATTAACTAAAATTAATCCCGCCATAATAGCTCTTTTAGCTTTTTCTCTACTATCAAAAAAACCTTTTTTTACTAGTAAAATATCTAATCTCTCTTTTATCATTAATTCCACCTAATTTATTTGAAATTTTTCATTTTATAACAATATTCTAATAATTCATTATCCAAAATAAGATTTTCAAAACCATTTTTTTCTACTTTTTTTAACAATGCTTCTGTTTCTTTTATTCTTCTAGAAAAGCTATAATCTCCATTTGGAACAGTTTTATTTTGATAATAATACTCTAAAAGTTCTTGATTATTTTTAAGCCCTAAATATATCTTAGCTCTTTTTAATCTATCATTTATTATTCCTTCTGTCTGACCTGTAATTTTAATGATTTGTTTTTTAGTATGCCCTTTACTCATTAATGCTACTATTTTTTTTGCTCCAATAGGATTTATTCTATGATACGTTGCTGAATATTTATCTGCTAAATGCACTATATCATCTTCTCTACTATTTGGAACAATTTTTCCCCACCTTCCATGATGAGAAAGAACTATATGTACTATTTTTTCAAATTTCCCATCCAAAATCTCAACTTTTGTGGCTTTCTCTACTTCTTTTAATATTTTTTCAGCTTCTTTTCTTACTTGTGCTGGATAATTTCTCATTAAATTACTATGCGAAATTTCATTATTCTTTAATCTTAAAGTAGCCTTTGTAGTATCGTGTATTATTACTCCTACTAAAATAACAAACATATCAATTTCTTTTGCTGCATTCTCCATTGTTCTATATCTTTTTTTCATCTCTTTAATTGAAGTTTTTAATACATCATAAGTATGCACAGCTACAGAAATCCCTTTGTCATCCACTAATTTAAGTTGCTGAATTGTAGGGTGAAAAACTAAATTTTGTAAAAATTCATCTACTAATGCTTTACTTTCCACCTTTTCTCCCTTCTAAAATTCTATTCAATAAATTTTGACCTCTTAATCCTTGTTCTTTTAATATTTCATCTCTTTTAGCATGCTCAATAAATTCTTGAGGTAGTCCTATTTTATTTATTTTTTTTAATATATTATTTTCATTTAAATAATTTATTAAATTAGCTCCAAATCCTGTTACTTCAATTCCTTCTTCTAATACGAATATATTTTCATATTTAGATATATTTTCTAAAATATATTCTTTATCAAAAGGTCTTATCCAAGCTGCGGATACAATTGTTGGGTTTAAATTATTTTTTATTATTTCATCATAAATATTTATTATTTCATAAAACATACTTCCTATAGCTATAATAAGATCTTTTTCTCCTGTTTTTATCTCATTCCATTTTCCTCTACTAACTTTAAAAGAATTTCCTTTATAATTAAAAGATTTTTCCCTTGGAATCCTTATGGCAATAGGATTATTAATATTAGTAGAATAATCTAATATATCAACTAATTCTCTACATGTTGTTGGAGCTACTATATCTATATGTGGTATAGTTAACAAATATGATATATCAAATAATCCATTATGTGTTTTTCCATCTTCTCCTACGATTCCTGCTCTATCTATAATAAGTCTTACTGGTGAATTTTGAATAGCTATATCATGAATTAATTGATCATAACCTCTTTGTAAAAATGTAGAATATAATGCTAAATATGGTTTTTTTCCTTCTAATGCAAGTGCAGAAGAAAAAGTTACCGCATATTCTTCAGCTATTCCTACATCAAATGCTCTTTCAGAAAATTCATTAAAAAATTCTAATAATCCTGTACCTTTTACCATTGCTGCTGAAATTGCCATAATATCTTTATCTTTTTTAGCTAGTTCTACTAAAGTTTTCCCAAAAACTTCAGAATAAGTTTTTTTATTACTTTTTTCAACTTCACCTGTTTTTATATCAAAAGGAGATATCCCATGAAATTTTTCTTTATTTTCTTCAGCATGCAAATATCCTTTTCCTTTTTCCGTTTTTACATGTAAAAAAACTGGTCCCTCTATTGTTTTTATATATTCAAGTATCTGTAAAAGTTTTTCAAAATTATTCCCATCTATTGGTCCAAAATATTTAAATCCTAATTTTTCTATTATACTAATAGGTGACACAAAATATTTTAATGAACCTTCTATTTTTTTTATAAAATCAGCTATTCCTTTTCCCATATAAATTTTTCTTATTAGGCCCTCTATATCATGTTTTAAATCATTATAAAACTTGGTATCCATTATTCCTTTAAATAATTTAGAAATAGCTCCTACATTTTTTCCTATAGACATTTCATTATCATTTAATATAATAATAACATTTTTTAAATTTCTTCCCCCTATATTATTGAGTGCTTCAAAATTTTCTCCATTTGCAAAAGAAGCATCACCTACAATAGCTATTATTTTATTATTTTTATTTACTTCAGCTATTCCTGCTGCTGCTGCAAGTGAATTTCCAGCATGTCCCGATATAAAATGATCATGTATGCTTTCTCTTCTATCTGTAAATGGCGTTAACCCATTTTTTTTTCTAATTGTATTTATTTTTTCTTTTCTTCCAGTTAAAATTTTGTGCACATAGCTCTGATGCCCTACATCAAACAAAAATTTATCTTGCGGAGAATTAAAAATTTTATGAAGAGCTATCGTTAATTCTACAACTCCTAAATTTGGTCCGAGATGTCCTCCATTAGTACTTACTACATTTATTAGAAGCTCTCTTATTTCTTGTGATGATTTTTCTAGTTCTTCTATATTTTGTGTTTTTATATCTAAATTCATTATTAAACCCCACTATTTCAATATATATGATTTCATTGCAAATGAAACAGCTATTCCAAGTAATGCTCCTACTAGTACTTCAATAGGCTCATGTCCTAATAACTCTTTTAAATCATTTTCCATCTCTTTCATATCAAAGTTATTATTTTTTAAATTTCTAACTATTTTATTTATTACCCCTGCCTGCTTACCAGCTGCTCTTCTTATTCCTGTAGCATCATACATAACAATAATCCCAAAAACAGTTGCAATAGCAAACTCTATACTATTTGACCCTTTTAAAATAGCTATAGAAGTCGCTATCGATGTAACAGTAGAGGAATGTGAACTTGGCATCCCTCCTGTTTCAAATAATCTATGAAATTTTAATCCTTCTTTTTTTAAAAACGGACTAATCACCTTATAAAATTGTGCTAAAAAAGCAGCTAAAAATGCTACATCTAATATTTTATTCCCAAAAATTATACCTTGCGTCATCCCGTTGTACCATCCTTATATTTTTTTTATTTTATCTGAATACACAGGTTTTTTTTCATTTTCTTTAAAGAATATAATTGTTTTTCCTATTATATCTACTATTTCTATTTCTGATTTTTTAGATATTTTTTCTGCAATTTCTCTTAATTCTTGTTTTGAAAGTTCTGCATTTTGAAGAGCTTTTACTTTTATTAACTCTTTTACTCTAATAGCATTTTCTATATTTTCTATTATATTATCTGTCAAACCATCTTTTCCTATTCTTACGACTGCTGTTAGATCATGTGCTTGTTGTTTTAAAAAACTTCTTTGTTTACTGTTTAATTTCATTTATTTTTAAACCTCCATTATGATTGGTAAAATTATCGGATTTCTTTTTGTTTCTTCATATAAATATTTACTTGCTGTATCTTTTATTGTTCCTTTTAAAATATTCCATTCTGTTACACTATTTTTTTCATGTACTTCTAAATTTTGTTTAATAAGTTTTGTTGTTTCATTTATTAAATTTTCTGATTCTCTAGAATAAACAAAACCTCTTGTTATTATATCAGGTCCTGATACTATCATACCAGTTTTCTTAGAAATAGTTACAACCACAATTACTATTCCATCTTGTGCTAAATGTTGTCTATCTCTAAGTACAATATTTCCTACATCTCCTACTCCAAGTCCATCTATTAATACATCACCTGACGGAACTTTTCCTACTTCCTTTGCGTATTCTTTTGTTAACTCTATTTTTTTACCATTTTCAGTAATAATAATATTTTCTACTGGTATTCCACACTCTATAGCTAATTGTCTATGTGCTTTCAACATTTTATATTCACCATGGACAGGCATAAAATTTTTAGGTTTTATTAAGTTAAGCATTAGTTTTAATTCATCTTGACTTCCATGACCAGATACATGTATTCCAGCTACTTTTTTAAAAACTACTTCTGCTTCTTTTTTTAGTAAATTATTTATATTACTATAAACAGCTTTTTCATTTCCTGGAATTGGTGTAGCTGATATTATCACAGTATCTTCTTCTCTTATTGTTATATGTCTATGCATATTTTTTGCTATCCTTGAAAGTGCTGCTAATGGCTCTCCTTGTGTCCCTGTACAAAGTATAACTACTTCATTATCTTTTCTATTTTCTACATTTTTTAAAGACACCATTAGCCCTTTAGGTACTTCTAAATATCCAAGTCTTGTAGCTATTTCAAAAACTTTTACCATACTTCTTCCATCTATGGCTATTTTTCTATTAGTTTCTTTTGCTACATCTACAATTTGTTGCAATCTATGTATATGTGATGCAAATGCCGCTACTATTATTCTTCCTTTAGCATTTCTAAATTCATTTCTAAGTGCTTCACCTACACTTCTTTCTGATGGTGTAAATCCTGGTATTTCAGAATTTGTACTATCTGCTAAAAGTAAATCTACCCCTTCTTCACCTAAAGCTGCAAGTCTTTGAAAATCAAATCCTACATTATCTACTGGTGTTAAATCCACTTTAAAATCTCCTGTATGAACTATTCTACCAGCTGGCGTATTTATACATATAGAATAAGCATCTGCTATTGAATGTGTTACTCTAATAAATTCTACTTCAAAATATTTTCCTATTTTTTTTACACTTCTATTAGTTATTTCATAAGTTTTTGGTTTATGTGATATTCCGCCAAAATTATCAAACTTTGACATAGCTAATGCTATACTTAATTTTCCACCATAGATAGGAACAGTACTATCTATTTTTTGATATAAATACGGAATTGCTCCTATATGATCCTCATGCCCGTGTGTAAGTACAAGTCCTTTTACTTTATCTTTATTTTTTTCTAAATAATTATAATCTGGAATTACCAAATCTATTCCATATAAATTCTCATCTGGAAAACTGCTTCCTGCATCTATAACAATTATTTCATCTCTATATTGAATAATTGTACTGTTTTTCCCTACTTCTTCTAACCCACCAAGTGGCATTATATATACTTTTTCTTCTTTTCTAGGTTTATCATTATTTTTTGTTCTTTCTATCTTTTTATTTATCTTATTTGTTTCTTTCATTAAAAAACCCCCGGACTCTTTCTATTTTATTTTATATTTTTCTTACCAATTCTTTATTTTGACATCCTTTCAAAATAAAGCTACACTCTTTTTTTATTAAAAACAAATCTAAAAAAACTTTTTTTCTCTTCTATTTTTTCTCCTGATTTTTCTAATAATTTTTTAAATTCATTTTCATTTAATCTTTCTACTTCTATTTTATTATTATTTAAACTTATTTTTTCAGGTACAGAAACTTCTCTTATTTTAGGATATTTTGCCATAATATTCGCTATTTTTATATGATTTAAATTTATTTCATTCGCCACTACTATAGCTTTATTATTTCCTTTAGAGCCAGCATGAATAAATCCTTTTGCTTTCCCAAAAATAAAAACACTTCCTGTAGCTATAAGCTCTGCTCCAATATTTAAATCTCCTAGCAAAATAACATCTCCATCAATTTCTATTTTCTGACCTGAATGTATTTTTTTCTCAATTATTTGTACTTTTTTATATATAATCTGTGGTGTTATATCTTTTATTAAATACAAAAAGTGTCCTTTTTCATTTAAAATATTATATATATCTTTATAATATTTCTTATTTTTTCTTTCTAAAAGAAAATCTGTTTCTACATCAAAAAAGTTTTTTTCTATATTTTCTTTTAGATCTAAAATATTTTTTTCATAATCTTCTATTTTTATTAAGATTCCGTCTTTTAGATATTTCAACACTTTTAACTCCCCCCCACAGATTTATTTATTTTCATAATACTTATCAATAAAAGCATTAACTGCTTTTGTTGCAATAGCTCCTCCAGAACCCCCTCCTTCAACAAATGAAACGAAAACAATTTCTGGATTATCTGCAGGAAAATAACCTGCTGCCCATGCATGTGTATCACTATACATTGAATTTTGTGCAGATCCTGTTTTAGCTGCTATTTTTACAAAATCTCTTCTCAATCTCCTTCCAGTTCCATGATTACTATCTACAACTTGTACCATTGCTTCTCGAAGTGTATCAAAATACTCTTTTTTACCGTTATATAATATAGAAATTTCATGTTCTATATTTTTCACTTTACCTTCACTATCTATCACTTTATCTAATATATGTGGTTTATAACCTATTCCATTATTAGCTAAAACATCATAGGCTAATAACATCTGTAAAGGGGTCACTAATAAATACCCTTGACCTATAGATAAGTTTACTGTATCTCCTCTATACCAACCTTCACCATAATGAACTTTTTTCCACTCTTTGTCTGGAAGTATTCCTACTTTTTCATCTGGTAAATCTATTCCTGTTTTTTTCCCCAATCCAAATTTAGATGCTGTTTCTATTATTGGTTTATGTCCTATTTTATCTCCCATTGTATAATAATATGTATTAACAGACTCAATAATAGATTTTTCCATATTAGTATAACCGTGTCCACCTCTTTTCCAACTTCTATATTTCCATTTTCCTATTTGATAATATCCTGGGTCATAAATTTCATAGTCTTTATCTATTCCTTGTTCTAAAAAACTCATAGCTACTAATGGTTTAAAGATTGAACCTGGTGGATAAGTACTTCCTGTAATTCTATTTATAAGAGGTCTGCTAGGATTTTTAATCAGCTTATTCCAGTCTTTTGTACTAAATTTTGAAGTAAACATATTTAAAGAATATTCTGGACTACTTACCATAGTTATAATTTTTCCTGTTTTAGCTTCCATTGCTAAAAATGCTGCTTTTTCATTTCCTAAAAAATCTGTAATGTATTTTTGTAATTCATAATCTATACTTAAATATAGATTACTCCCTGGTTTTACTTCTGCATTTTTTATTTTTTTTACAATTTTATTATATGCATTTACTTCAATGTATTCATAGCCATCTTTTCCTTGCAATAATTCATCATACTGTTTTTCAATTCCTTTTTTACCAGTATAGCTTCTTTTGGTATAGACTGGATTATCTTTTAATTTTTCATATTCTTTTTCTGTTATAGGCTTAATATATCCAAGTACATGAGATGCCAAATCATTATAAATATAGTATCTTTTCGAATAAGAAATAACATCTAAATATGAATATTTACTTATTTTTTCCATTATTTTATGTGCTTTTTCTATTTCTAAATCTTGCTCAAGTACGTTTTCTCCTGTATAAGTATATATTTCTCCATATTTTATTTTTTTTATCACACTCTCTTTTGAAATTCCTAATAACTCCGCTATATTTTTTACTATTTCATCATTATATCTTCTACCATTTAAATATACTAATCTATATCCAGCTATATTTTTTACTAATAATTTTCCATTTCTATCATATATATTTCCTCTGGGTGCTTCTATCCTTCTTATTTTTATCCTATTTTTTTTAGACTTTTCAATAAATTCTTCACGATTATATACTTGCATATAAAAAAGTCTTATAAGTACTAATCCATAAACTAAAATTATAAATATTTTTAAAATATTTAAACGAAATTTATAATTTTTTACTAAACTTATTTTTATTTCATTTTGCTTTTTTCTCATTTTTGCACCCATCTTTTTTCAAATTCTAGCTTTTTTCAAATTCTAATTTATAAAAAATATAATTCATTACATATACAAATAAAAACTCTTTAACAAATGAATATAAATTTAACAAACTGTATTCAAAAAAATTTATATATAAAAGATATAAAATCACCTCTATAAGTGTAATAATAAATATATTGATTCCTTGAAAAAGAATAAATTTATAAAAAATACGAAGAATAATAAAAAGAAATAAAAAAAACACAATAGGTCTTTCTACATGATAGCCTGAAAGACCTACAACAAATCCTATAATAAATAGATATGGTAGAGAAAAATATTCTTTTGTAAAAATAATATATCCAGCATAACTAAGAGCTACTGCATTATAAGGAAAATCTACATAAACACTAGTTTCTAAAAACACTAAAAAAATTATTATTATTAAATTCATTATTTTCTAATAACTTCCCTTGCGCTACTCCATAATTGTTCTAATGCATAGTATTCTCTATTTTCACTATTTAAAAGATGAATTACTATGTCATCATAATCAATTAATATCCATTTTGCTTCTTTGTAGCCCTCAATTCCTAATCTTTTTTCTCCCATTTCATTCATTTTTTTATTTATTTCATCAGCTATTGCTTGAGCATTTTTTTCAGAATTAGGAGTAGCTATAACTACTTTATCACATAAACTATTTTTTCCTTCAAAATCTAATACCAATATATCTTTTCCTTTTTTTTCTTCAATAGCATCTATTATCTTTAATATTTTTTCCTCCATTTTTTCCTCCATTATTTAAGTAGAATATTTATTTTATTATTAAGTTCATTGTTTTCTCTTAGATTTTCTATATTTAATAATTTTGATAGTTTATATGCAGTATAATAATCTTCACTATTGTATTCAATCATATTATCTGATATATCTATGTCTTTTTTTATTCTTTTTGTTGTAATATATCCTTCATTTTTTAGTAATTTATATACTTTTTCATCATAAGAATCTTTTCTAATGACATAAATATCTAATAAATTTTTTTGTTCCTTCCCTAATATGATTACTAAGTTTGCTATCGTAGGTAAATTTGCATTTTCTTTTACTTTTATATATTTTTCATTTATAGTTAACAATAATTTTTTTAAAGTTTCTTCTGATAATCCATTATTTATTATATACGTGTATTCTGTAAGTTCTTCATAATTTGCTGCATTATATTTAAATCCTAACTCTTCTTGTATTTTTTTACCTGTTGCAGTTGCATATCCTGTTTTACCATTAGCATTTAATATATCCACTATTATTTCTTCTGGTCTTATAGAATTTAATTCTTCTTTATCATAATAAAGTTTAGAAAAAACCTCTGTTAAACCAGAATTAAGTATATATTTTTTACCATTTTTTTCTATATAAGGTATTATTATTTGATGTTCTGTTTCTATTTTTATATCGCTATTATTTTTTACAACTATATAATTTTCTAACTTTACAGGTAGTACATCATTTAATACATTTAAAAGGTCTGCATATCTCTTTTCTTTTATATAATTTTTAAATTGCATATCTTTTGTTAAATAAACTTCCATAGGAAGCATTATAGATAGCTTTTTATCATAAACAATAAAAAGATTTCTTTTTCCTATTAAAACATAATTCTCCCATACAACATCTTTTTTTTGAGAATTTACTCTAAGAGTTCTATAAGAAAAAAATAAAAATACTATTACTATCAGAGATATTAGATATTTTTTTTGTTTTCTTTTAAATTTATTTTTTCTTATATTCACTATAAAGCAACCCCTTTGTCAAGTTATTTATTTTTACTTTTACAATTTGATTTACTTCTAATTCTTCATCTATTTTTACTTTTAAATAATTTCTACTATAACCGTATGATTTTCCTTCTTTTATCTCTTCTACTAACACTTCTAATTCTTTATTTAAATATATTTCTCTCTCTTTTTTATACATCTCTTTAGCTAATTTCTCTAAGTTTTTAGAACGTATTTTCTTTGTTTCTGCTGATACTTTTTCTTGATATGTCGATGCTAAAGTATTTTCTCTATCTGAATATTGAAAAATATGTAAATCTGAAAAAGATATATCTTTTATTAAATTATATGTGTTTTCAAAATTTTTATCTTTTTCATGTGGAAATCCTACAATAACATCTCCTGTAAATTTAATATCTTTTACCTCTTTTTTTATTTTAGAAAGGACATTTTTTACAAGTTTTGAATCATATTTTCTTTTCATTAAAGATAATATTTCATCATCTCCAGATTGAAGTGAGATATGAAGATGTGGCATAAGTTTATTATTTGTTTTTAACTGATTTATAAATCTATCTGTGATTTTATCAGGATAAATGGAACCTAATCTTATTCTTTCTATTCCATCTATTTTACTTATTTCATCTATTACATCTTCTATTCTTATATCTCCAATATCTTCTCCATAAGAACCAAGATTTATTCCAATCAAAATTATTTCTTTAAATCCTTCTTTTGCTAATTCTTTTATCTCTTTTATTATACTTTCTAGTTGTCTACTTCTTTTGTGTCCTCTAGCAAAAGGAATTTTACAATAAGAACAAAAATTATCACATCCATCTTGTATTTTTACATAAGCTCTATTCATCTCTCTAAAAGTAGTAAAACTATATTCTTTATAATCTTTTTCATCAAATATATTTTTTATATACATTTTTTTTGTATCAGAAATAAGATTAAAAATTTCGCCTTTATCTGTATTTCCTACTATATAATCAATATCATTTATTTTTTCCAATTCTTTTGCATTTGTCTGTGCATAACACCCCGTAACTATAAGCAGTGAATCTTTATTAATTTTTTTAGTTCTTCTCAGTATATTTCTAGTTTTTTTATCTGCCATAGCTGTAACAGTACACGAATTCACTACATATATATCCGCATAATCATCAAAGTCAACAACATTATATCCATTATCTACAAATTGCTTTTTTATACTTTCTGTTTCATATTGATTTACTTTACATCCTAATGTATAAAAAGCAACTTTTTTATTTAAACTCATTTACTAATATTCCTCCTGCTACAATAGCTGCTGTTTCAGCTCTAAGTATTCTTTTTCCTAATGTTGCTATTTCACTATTATTTAATTCTTTTAAATATTTAATCTCGTTTGTAGAAAAACCACCTTCTGAACCTATTATATATAATATATTTTGTATGTTTTTTCCTTTATATTTTTCTAAAACATTTAATATCTTATGTTCTTTATCCGCTTCATAAGGAATGATTATAAGATCATACATATCAAATTTTATATTTTTCAATTTTACAGGTTCCTCTATTATTGGTAATTTTACTCCTTGGCATTGTTTTAATGCTTCTTTTGCAATGATATCCCATTTTTCTTTTTTTTCTTTAATTTTTACTACTGTTCTTTCTAAAACAGTAGGAATAATTTTATCTATTCCTATTTCAGTTAATTTTTGAATTGTTAAATCCATTTTATCATTTTTTATAATTCCCATCGCAATTTCTATAGAAACATCTGATTTTTCAGGATTTTCATTTATTTCGTCTATTTCAAGTAATATATATTTTTTATCTACTTCTATTATATGAGTAATATACTCTTTTTCTCCATCAACAACTCTTACAATATCTGATATTTTTAATCTAAAAGAATTTTTTAAATGATTAATATCTTTTTTATTTGTAATCTCTATTATTTTACCATTTATATTCTTCTTTTCCACAAAAATACTTATCATTAAAACTCCTTAATATCATTATCAATAAGTTCTCTTAAAGTTGTATTTTTTAATATATCAGTTAACGCTTTATTCATTTTATCCCACAAGTAAATTGTTTTACAATTATCTCTTACACATGCTTTGGAATGTTTATCACACACAACAACTCTAACATCTGATTCTAATATTTCAAATATTTCTAAAATGTTTATTTCTGATGCTTTTTTAATTAATTTATATCCACCATTAGGTCCTCTTTTTCCTTCTATTATATTAGCTTTTTTTAATTTAAACAATATTTGTTCTAAATATTGAATTGATAAATTTTGATCTTCTGATATTTCTTTTATTCTGACTAATTTCCTCTCATTTTCTTCTATTTGAGTGGCAATATATATAAGCGCTCTAAGCCCATATCTTGTTTTTGTACTTATTTTCATATATTACTCCTTTTCTAAATGTTTATACGCTTTTTCTGTTATCATTCTACCACGAGCTGTTCTTTTTATAAATCCTATTTTTACTAAATACGGTTCATATACCTCTTCTAATGTCCTTCTATCTTCTCCTAATAATAATGATAGTGTCTCTATCCCCACTGGTCCCCCATTATAATTTTTTACAATAGCATTTAATATTTCTCTATCTAATTCATCTAAGCCCTCTTTATCTACTCCTAATAACTCTAATGCTTTTTGTGTTGTTTCTTTATTTATATATCCATCACCTTTAATTTCTGCATAATCTCTTACTCTTTTTAAAAGTCTATTTGCTATTCTAGGAGTTCCTCTACTTCGAAGTGCTATTTCATTTGCCCCATCATCTAGTATATCTATATTTAGTATTCTAGCTCCTCTTTTAATTATTTTTTCTAATTCCTCAATAGAGTAATAATCCATTCTATGAACCACTCCAAATCTATCTCTAAGAGGCGCGCTTAAAAGTCCTGCTCTAGTTGTTGCCCCTATAAGTGTAAAATCTGGAAGTTCAATTCTTATAGAACGGGCCGAAGGTCCTTTTCCTATAACTATATCTATTTCTCTATCTTCCATAGCTGGATAAAGTATTTCTTCAACTGATGTATTTAATCTATGTATTTCATCGATAAAAAGAATATCATTTTCTTCTAGCGATGTAAGAATTGCTGCTAAATCCCCTGCTTTTTCTAAAACTGGACCTGAAGTTATTTTCAAGTTTACTTCCATCTCATTTGCTATCACTCCAGCTAATGTTGTCTTTCCTAGTCCTGGTGGACCATAAAGAAGTATATGATCTATAGATTCTTCTCTATTTTTGGCAGCTTGAATAAATATATTCATTTTTTCTTTTAATTTTTCTTGACCTATGTATTCATCAAAATATTTAGGTCTTAAATTTTTTTGATATTCTTTTTCAGTATATATTTCATCAGTTGTAATAATTCTATCTTCTACCAACCTTATTTTCTCCTATTAATATATTTTTTCGCTTCTTCATAACTATTTTTTGAACTGTTTACCATCCCTAATTTTGTATAAATATCCCCTTGTAATATAAGAATATCATATCTATAAGTTGTATATGGATGAGTTAAAATTATTTTTTCTAGCCTATCTATACTTTGTTTATATACTTTTTCTAAAAATCTTTGTTTCTCCAAATATCCTATATCTTTTTTCTCTGAAATATTAATATTGCTTTTAATATTTTCCATTTCAAATTTTATGTTTCTATCTATTCCAAATAATGTAGCTTTTGCTTTTTTTAATTCATCTTTTATATCAATGTAATCTTTTTCATATGATTTTAACTGCTTCACTTCACTAAGTTCATATAAAACTTCTTCTGCCTTTGTAAGTTCTAAGTTGGCGATATAATCACGTATTTTTTGAATTTTTTCTTTTACTATCTTGTCTTGTTCTTCAATGCTTAAAAATTCAATATTAACATCTCTTATTTCACCAGCTTCTGTTAATTTTAATTGCGTTCTAACAGATAAATATCCAGGTTTTTCTGCAATTATATTTTTTAATCCTAATCCTTCTACTCTTTCAAACAATTTAGTTTTTATAGCATATCTTTTTCCATTTATTTTTAAAGTATAGTTTTCAATATTACTTCTAAATATCATTTTACCAATAGGTTTTATTTCAACATTTTTAATTACTGCTTCACCTTTTGATATTGTTATTTCTTCTCGTTTTGATTCATAACCTAATTTTTTAAATATAATATGATATTTTCCTTCTGGTATGTTTTTAAAATAATATTCTCCTTTATTATTTGTAGATTGCCATATAGCTAGTTCTTCTATTATTACAAGTGCATTTGATATTTTTTCTTTTTTATTCAATGATACTGTTCCGCTCAATCTACTAATTTTTGGCTCTAATTCTATATTAAAATTTTCATTTTCTATTGATTTATCTATTGTTTTAATTATTGTTTTTTCTTCAAAACCATTTGCTTTTACTCTAATAATTTTTCTACCTTCTACTTTTTCTTTTGTTTCTAATTCATAATATCCGTTCTCATCAGCTTTTGTTGTTGCTATAATTTTATTTTTATCTAAAAGCATTACTGTAGCATTACTATTAAATGGATAAATATAACCTTTTAAAAGATTTCCTTTTACGTCTCTTTTTAAATTTACTTCTAATTTATCTCCTACTTTTGCTCTTTTTATAATGGTTTCTTTATATTTTGGAGCATTAATCCTTATTTCATATTCTTTTTTATAATCTAGTGCTTCTAATATAACAAGTCCTTTAGTTGGTACTTCTTCTACAATATTTCCATCGTTATATATTTTTACTTTTGCTTCTATATTTTGCGGATATATATTTACATAAATATTATCAAATTTACTTAAATTTTCAAAAGGTATATCCTTTATAACACTCCCTTTTATCTCAATATTATCTACAAAATCCATTTTACCATAAGCTTTTATTTTTACTGTATAAACTCCAGACCTTAAAGGTTCTATCGTAAGATTTTTTGTACCATTTTTTATACGTTTTGAATACGCTAAATAATCATCTTTATAAAGAAGTATCACTCCATCTTTTATTTTATCATTAAATCTAAGAGTCAAAGTATTATAGTCAATAGGCTCCATATTATATGTCCCTATATTATTCACTTTGTCTTTTTCTACTTTAAAGCTTATTCCATTTTGATAAGCTCCTTCTTGAATAAGCTTAGCTTTATAGTCACCTTCTAATAAAGATGTTTTAAATTGAACATTTGGTTTTAATATTATCCCATAAGAGTCATCATTAAAATCTAAAAATATATCTTTATCTATTTTTGAATTTACTCTACCAACTACCGGATATCTAATATCTTTTCTTACATCTGGTATCTCAACAATCACTTCATTTACATTTTTTTCTATTTTTACTTTTTTCTTATAATCAGGAAGATCACCTTTTTGAAATACTAAAGTATATTCTTTTCCAAGAGTTAAATTATCAATATAAAAATTCCCTTCTTGATCACTTATATCATATAATAATTCATTTTCTACATAAACAAAAACTCCATAATCTTCATGATTTTCTACTTTTACAAAACCTTTTATTTCTGCTGCATTTACTAATATGGTTAAAATAAAAAATAATATAATAGATGATATTTTCTTCATTGTATATTTCTCCTTTTTTACATAATTTGAATTAAAAGGAATTGAACTACCCCTATTATCGCTCCTAATATAGCTCCAATTAATTCTATGTGTTTTAATTCTTTCTTTGCTATATTTATCGTCATTTTTTCAACTTCTTCAAGTGAAAATTGATTAATTTTATTAACTATTATTTCTTTAAAGTCTATTTCGTTTTCTAATTTATGTATTATTATATTTACTAATTCTTCTTTATTTTCTTCTATTACATCTTTTATATATCCCTTAATTTTACTTATCATAGAATCATTTACAAACATAGCTATCATTGGTATATTTTTAAATAAATCATCTTTTAATTTTTTTTCAACAATATCATCTACTATTTTATCTATTTCATCTTCTAATTCAATAGAATTTATTGTTTTAGTTATATCCTTCATAGAAATAAGGTCTCTATCAATTGTTTCTGCTATGTTTATTGCTATTTCTTCTCTTCTTTTTGGTATTACCCCTTGTAATTTGAAAAATCCTAAATTAATTGGTTCGTAAGGTTTGAAAAGTAGCTTAATTGCAACAAAATTTGTAAACCATCCTATTAAAGATGCTATAATTATTAGTGTAAAAAACGAAAGTATTCCTTGCATTTTCCCCTCCATAATTTAAATTTTAAAATTTGATTTAAAATTTTTATTTTTTTATATAATTATTTAAAATATTTTACCATATATGACTATATTTTTCAATGTAACATTATCTGTAAAATAAAAAAAACAGGTTTTAACCTGCTTAAATGTAATATATGGAGGCGACGACCAGATTCGAACTGGTGAATAGAGATTTTGCAGACCTCTGCCTTACCACTTGGCGACGTCGCCTTATTTAAATGGTGCCCAGAGGCGGAATCGAACCACCGACACGGGGATTTTCAGTCCCCTGCTCTACCGACTGAGCTATCTAGGCATAAATGGCGGGAGTGACGGGGATCGAACCCGCGACCTCATGCGTGACAGGCATGCGCTCTAACCAAACTGAGCTACACCCCCACAATTTGTATTATATTAAATAAATTTTACTTTGTAAAATTTATTTATGGTGGTCGCAACAGGACTTGAACCTGTGACCCCCTGCTTGTAAGGCAGGTGCTCTCCCAACTGAGCTATGCGACCCTCTTTACTAAAGCTTGTAAATTATATAACATTATCATATTTTTATCAAGCTAGGATAGATTGAATTAAATAAGATTATTATAAATTATATAAAAATATTTATCATTTTATAGCTTTTTCTTCTGATTTTTAATATTTTAAATTTTATATAAAAATATTTATTTTTTTGAACTTTTATATAATATATATTACAATATATTTAAGGGAGTAATTATATAAAATCATAAGTAATTAATAATTAAATTCTAAATAAAATAGAATAACTGTATAAGATTACTATAGCTACTCAAAATAATCTATAGAAAGGATAATGTATAATGAATATCCTATCTTTTCATTATACAAGGTAATAATAATGAAAATGTGTATTTTAGCAAAAAACAATAACATAAAAAAAATAGCTGAACTTAGTAATAAACCTAAATTTATATGCAAAAAATGTTTAAGAACATCGAATAAAAAAGAAAATCTCTGTAAAGCTGAAAAAATAAAAAAACTCATTAAGAAAGGAGATTCATTAATTTGAAAAATAAAATTTATGCTATTATTGAAATTTCCTATATGGAACTTATCTGTAAAATAATTGAAAAAAAATTAGATAATTCTTTTATAATATTAGAAAACATCTATCATCCTATTAAATTAACTGATGAATTTAAATTTGAAGATGTTAATAATTTATGTAATTTAATAAAAAAATTAGAAGTGAATTTAAAAACATATAATATACCTAAAATTAACATTAAAATTTTTGGTGTTAGTAGTCTTGGCGAATCACAAAATAAAATATTTTTTAAAGACATACTTATAATAAAAACTGGGTATAAAATAGAGTTTTTAGATTTAAATAAAAAAAATATTTTTATTTATAAATCTATTTTAAATTCTATAATAAATACTGAATTTTCTAATAAAACAAATCTTATAGTTGGTATAGATTATGGACATATTACTTTTTTTTTAATTAGAAATTTAAAAGTTATTTATTATCAAAATATCTCTTTAGGAACCATAAAACTAAAAAAAATTATTGAAGAATTAAATTTCAACCCTAATAATTTAGAAAACCTTATTTATGATTATTTTTCAAGTTATATTAATATAATTCAAAATTCTATTTCAAAATACAATATTGATAATATTTTTATTAGAGGAAGTTTATTTTACAAAATAACCTCTAAAATTTCTAACCGAGTCAATGATAATATTTATTCTTTACCAAAAGAAAATTTTATTAAATTTGCAAATGAAATAAAAAATTATTCTCTTCAATATCTAAGCGATAATTATAATCTTAGCGAAGAAAAATCAGAAATTATTTTTCCAAAAATATTTTTTACTAAATTATTAATATCATCTATACCTTATAAAAATTTATATAGTATAAACTTAACTTTAATTGATTCTTTGATCTACTCAACTATTTTCAGAAAACTTTCTTTAAAATACAATAAATATATTACAAACTCTATACTTGAAAATACTAAATATTTAGGAAGTAAATTTAATTATAATTTAGAACATGCTACTCAAGTAGCTAAATTTACAAATATTATTATTAATTCTTTAAAAACTAACTATAATTTTAATAAAAATGATATTCTTTATCTAACTATTGCTGCATTTTTACATGATATTGGAAAATATATATCTATTAAAAATCATTCTGAACACTCTTACAATCTTATTATGAATAATACTATTTTTGGTTTAAGTGCAGAAGCTAAAGAATTAATAGCTTTAATCTCTTTTTATCATAATAAAAAATTTCCAAATTTCTCATCAAAAATGTTTAAAAATTTTGATGAAGTAAAAACTATGAAAATTATTAAATTGACTTCTATTTTAAGAATAGCTGATTCTCTTGATAGAGCTCATAAAGTAAAAATTAAATCATTAAATGTTACTTTTGATAATCATACAATGATATTAAATATTACAACAAACGATAAATTAACTATTGAACATTGGAGTTTTAAGAAAAAATCAGAGCTGTTTACAGATATTTTTGGTTTAAAAACTATTTTATTAAATAAAAATTAAAGGAGTTAATCATGGTTTATTCAAATAAAAATTTTTTTAATAGAGAATTAAGTTGGCTGTATTTTAATGAACGAGTTTTAGATGAAGCTATTTTAGATAAAAATCCATTAGTTGAAAGATTAAAATTCATTGCTATTACCTCTTCAAATTTAGATGAATTTTTTATGATTCGAGTAGCTGGATTGAAAGCACAAATCGAAGAAAATTATATAAAAACTGATATTTCTGGTCTTACTCCAAATGAACAAATGGAAAAAATCAAAATTAAAGTAAAAAAATTAGTTGAAAAACAATATAATTGTATCATAAATACTCTTTTCCCAGAACTTGAAAAAGAAAATATTTTTATAAAAAAATATAATGAATTATCTTTAAAACAAAAAGACTTTGTCGAAAATTATTTTAATGAAACTATTTTCCCTATACTTACACCTATGGCAATTGATGCTAGTAGACCTTTTCCTCATCTTATAAATAAAAGCTTGAATATAATGACAAAATTATTAATTGATGGTGAAAATAGATTTTCCATTATTCAAGTACCTACTATAATTAATAGATTTTTAGAACTTCCTTCTAAAAACACAAAGGAATTTATTTTAATAGAAGACATCATCAAAGCTAATATAAATAAACTTTTTACTGGATATAAAATTGATATTACTGGTGAATTTAGAATAACTAGAGATGGTGATATGATAATTGATGAAGACGAAGCTGATGATCTACTTATCGAAATAGAGAATTCTTTGCAAAAAAGAAAATGGGGTTCTCCTGTTCGTCTTGAAGTTAAAGAAGATTTGGATAATGATATCTTAGAGTTTTTAACAGAATCTCTTAATCTTCATATCTCAAATATTTATAAATTAAACGGGCCGTTAGATCTTACATTTTTATTTAGTTTTTGTAATATAAATAATAATAAAAATCTTGAATTTAAACCTCAACCACCTATTTTAAGTAAAGCATTTTCAAAAGAAGAAAGTATATTTTCTTCAATTAGAAAAAAAGATATTATTTTACATCATCCTTATGATTCTTTTTCGCCTATTATAGATTTAATAGAAGTTGCTGCTAATGATCCTAAAGTATTAGCTATAAAACAAACATTATATAGAGTAAGTGGCGATTCTCCTATTGTAAAATCTCTTATAAAAGCTGCTAAAAATGGAAAACAAGTTACAGTTCTTGTAGAAATAAAAGCTAGATTTGATGAAGAGAGAAATATTAAATGGGCTAGAAAACTAGAAAAATCCGGTTGTCATGTTGTATACGGATTAAAAGGATTAAAAACTCATGCTAAATGTTTATTAATTGTAAGAAATGAAAATAACGGGATTAGAAGATATGTACATTTTGGAACAGGTAATTATAATGATTCTACTGCAAAACTTTATACTGATTTAGGATTTATAACTTGTAAAGAAGAATATTGTATTGATGCTACTAATCTTTTTAATAAATTAACTGGTTTTTCTTCTCCTAAATCATGGCACAAATTATCTATTGCTCCTGAAGGATTAAGAAATAAATTATATAAATTAATCGATAAAGAAATTCTAAATGCAAAAGAAGGACGAGAAGGAAAAATTATAGCTAAAATGAATTCTTTAGTAGATAAAGAAATTATTGAAAAATTATATGATGCTAGCAATGCTGGAGTAAAAATTACTCTTATTATTAGAGGAGCTTGCTGTTTACTTCCTGAAGTTAAAGGATTAAGTGAAAATATAAAAGTATATAGTATTGTTGGTAGGTATCTAGAACATAGTAGAATATATTACTTTTTTAATAATAATAATCCAAAAATATACCTTTCTAGTGCTGATTTAATGACAAGGAATTTAGATAGAAGAATAGAAACTTTTTTTCCTATTGAAGATAAAGAAGCGATTGATTTGATTAAAATGATTTTAGAATATAACTTAAAAGATAACTATAATTCGAGAATAATTAAATCTGATGGTAGCTATGAATTGATTAAAAATAAACATAAAACTTTTAATTGTCATAAAGAGTTTTATTCTTTTACTAAAAAAAATAATTAATTAATAAAACAAGCCCTAAAAAAGGACTTGTTTTATTAAACTTGTGTATATGAACAAAAATAATTATAATGCTTTTATTAAAAGTGAAGCTGATGCTAAATTTGTAGCAAGAGGTACATTATGTACATCACATATTCTAAGAAGTGCTGTAACATCTGGTTCATGAGGTTGTGCTGTCATTGGGTCTCTCATAAATATAACTGCTACTACTTCATCTTTTGCAATGTCTGCTCCTATTTGCTGGTCGCCTCCTAAAGGCCCTGACTGGTATCTAGTTATTTCTAGTCCTGTAGCTTCAGCAATTTTTTTCCCTGTAGTTCCTGTTGCTATTAATTCAAATTTTTTAAAAAATTCTTTATTTCTATTTACAAAGTTAATTAAATCAATCTTTTTTTGATCATGTGCTATTAATGCTATTTTATTTTTCATTTTACATTCTCCTTTGCATTACTTTAAACTAGTAATATTTTTTATTACTATATTTTTTTACTACTAAATAACTAAATTATAAATTAGGTATCTACAAATTTATTTTTATTTCTCTATCTAGTCTTTTAATAAATTCATACATAAACTTTTCTCTTGTTTTTGCTATTTCTTTTGCTGTTTTAGTATTCATTCTATCTTTTAATAAAAAAAGCTTATCATAAAAATGTTTTATTACTTCATTAAGATCACTTTTTATACTTCCACCATAAATAAAAGCTCTTGCTATACCTATAGCTCCTAATGCATCTAATCTATCTGCATCCTGTACTATTTTACCTTCTATACTTTTTACTATTTTACCTTTAGAAAACGATATAGTATTTACTATATCAATAATTTTTTCTATTTTTTCTTTTTCTATACTATAGTTATTAAGAATTTCTAAAATTATTTTTCTTCTATCATTATCATTATATCCAAATTTATGATCTGCAATATCATGAAGAAGTGCACTACACTCTATTATAAATTTATCTCCTGTTTTTTCTATTTCATATATCTCTAATGCATTTTTATATACTCTCATTGTATGTTGAAAATCATGTCCTGTTTTATCATATTTTAATCTTTTTTTTACTTCTTCTTTTATATTTTTGATTATATACATGTTTTCTCCAATGTTTTAAGACTTAAATAGATTTCTATACTCTATTTTACTATTATTTTAACTATTTTTTTCTTTCCTACTCTAAATACAAAATCTTTTTCTAATTTTACTATATAATTTAAATCAGTTATTTGATCTTCGTCTATTTTTACTGCACCTTGTTTTATCATTCTTCTAGCTTCACTTGTTGATTTACAAAATTCTAACTCTTTTACTATTAAATCTATAATTTTTATTTCACCTTTAGAAAATTCTTTTTCAGGTAAATCTACATTAAGATTTTTTTTAGAAAATACATTTTCAAACCATTCTCTAGCTTTTTCTCCCTCTTCTCTAGAATGGTACATAGCTACAATTTCAACTCCTAATCTTTTCTTTACATCCATAGGATGTAAAGTTCCATTCTCTACCCCTTTTCTTAATTTAGCTATCTCTTCTAGCTCTATATCAGTAGCAAGTTCATAATAATTCCACATAAGCTCATCTGATATAGACATTACCTTTCCAAACATATCATTAGGCGTTTCTCTAAGTCCTATATAATTTCCTAATGATTTCGACATTTTTTCCACACCATCAAGTCCTACTAATATTGGAGTCATCATACAAACTTGTTGTTCTTGACCTGCATTTTTTTGAAGGTCTCTTCCTCTTAGTAAATTAAATTTTTGTTCTGTTGCTCCAAGTTCTATATCTGCTTCTATTGCTACTGAATCATATCCTTGTAATATAGGATACATAAATTCTACAAGTGAAACTGGTTTCCCAGCTTCAAGTCTTTTAGCAAAATCTTCTCTTTGTATCATTTGCGCTACTGTAAATTGTGATAAAAGTTTTAATGTATCTTCTAATGTTAGTTTTTCTAACCAATCACCATTATATACTACTTCTATTTTATCAAGATCTAATATTATTTGTACTTGATCAAGCCATCCTTTTATATTTTTAGCTATTTCTTCTGAAGTAAGCATTTTTCTTGTTTCTGACTTTCCTGTTGGATCTCCTATTTTAGCCGTAAATGAACCTATTAAAAATTTTACTCTATGTCCTAATTCTTGAAATTTTTTTAATTTTCTAAGTTGTACAGCATGCCCAATATGTAAATCACTTCCTGTTGGGTCAACTCCTAATTTTACAACTAATGGTTTATTATTTTTTATTGAATTTCTTAATTTGCTTTTAAACTCTTCTTCTGAAATTAAATCTTCTACTCCTCTTGTAAGTATTTTAAACTGTCTTTCCACCTCTTTTTCGATATCTACCATACTTCTATCCTCCTAATTTTTTTATAAAAAAAAGCTCATAGGCACACTATGAGCTAATAATTTATTTATTTTCATAGAAATCCCTACACTTATGGCTATTATTTTTTATTAATTTTATTATAATAATAGCTATAATAATAATTTCTGTGCATATTAGACTCCTTTTTACTGATTTTTCTAGATTATATCATATTTTTTTATTCTATACAAGTGTTTCGAACTTTAGCATTTTTATACCTTTATAATTTTCTTTTTTTATATATTTAAAACCTATACTTTGAAAAACTTTTATTGAAATTTCATTTTCAGGAATAATATAAGAAATAAATCTATTTATATTATATTTTTGTTTATATACATTTAATACAGTTTTTAATATAGTTTTAGCATATCCCTTTCCTCTTATTTTTTTTATTAAATATATATTCACTATATTTTTATTCTCTATTCTTATCTCACCTAAATAATAATTTTTACTGTCAAGAATCAAATATATTATATATGATTTATCTAAAAGCTTTGTTTCATAGTTATGTTTGTACTCTTTTTCTAATTTATTATAGTCATTAATAAAATTTTTTTCTAAAAATTTTTTATTGATATTATCAAATATAATTTCTATATCTAATATATTAGCTTCTCTAAAATAAAATATTTCATTATTTATTTTTATTTTTCTTTTAGTTTCTACACTATCTATCATTAAAAATCCCTAACCTTTTAACTCATTTAATTCTAATTCTATCTCTTCCCATTGTGTCATTTTTTCTAATATTTCTTCTTCAAGCTTATCTAATTTTTCTTGATAATCTAATAGTTTAGATACATCGTTTATTTTCCCCGCTTCATCAAATTTTTCTTGAATTTTATCTTTTTTTAACTCTAATTCCTCAAGCTCTTTTTCTATTTGTTCAAATTTTTTTTCTAAAGAATTTATTCTATTTTTTATTCTCTTTTGCTCTTCATAATCATTATTTTTTTCTTTCTCATTTTCTACATTATTTTTTTTAAATTCTTTATAGCTATCATAGTTTCCATTAAAATATGTTGCACCATTTTCATGAACTTCATATATTTTATTTACAGTATTTTCTAAAAAGTATCTATCATGTGACACTACTATAATTGTTCCATCATAATCTTCCAAAGCCTCTTCTAAAACTTCTCTAGAATATATATCTAAGTGATTTGTTGGCTCATCTAATATCAAAACATTTGGCTTTTGTAAAATAAGCTTCATAAAACTTACTCTTGCTCTTTCTCCACCACTTAATTTAGCTATTTTTTTCTCTATTTTCTCTTCGTCAAATAAGAATCCTCCTGCTATTCTTCTCGCCTCTTCTTCACTTAATGAAAATGAATACATTAATTCATCTAATACTCTATAATCAAAGGATAAATTTGCATGTTCTTGATCATAATAAGCTATATCTAATTTCTCTCCTCTTTCAATAGTTCCACTAGTAAATGTATCTTTTTCTACTAGTATTCTAAGAAGAGTTGACTTTCCTACACCATTTTTCCCTATTATTCCTATTCTATCTCCTCTATAAATATCTAGATCTAGATTTTGAAATAACAATTTATCATTAAACTCTTTTTTTAACCTTTTTATTTTAAAAATTTTATCAGTACTAAGTCTAGCAGACTCAAATTTTAATCTCATCTTTCTTATATTTATTACTGGATTTTCCATTTTTTCCATTCTATCTAATAATTTTTGTCTTCCTCTAGCTTGTTTTGCCTTTACTCCTGCTTTATATCTTCTTACAAATTCTTCCATTTTTTTTAATTTTTCTTGTTCTTTTTCAAATGATTTTACCGCACCACTTAAATAAGCTTCTTTTTGGATTATATAATCACTAAAATTCCCATTATAAATATTAATTTTTTTATTTTCTAATTCATAAATTTTATTTACTACATTATCTAAAAAATATCTATCATGTGATATAAGTATAAATGCTCTATTATAAGATTGTAAAAATTTTTCTAACCATTCTATTGCATTTATATCTAAATGATTTGTAGGTTCATCTAATATTAATAAATCAGGCTCTTGTAATAATATTTTTCCAAGCGCTACTCTTGATTTTTGTCCTCCGCTCAGATTTTCTATACATAAATTATATTGATTTTCTTCAAAATTTAATCCATTTAAGATTTGCTTTACTTTATATTCTATTGCATATCCTTCTTCTTGTTCATATTTTGTTGATAATCTTGATAATTCTTCCATTATTTCATCAAATTTTTCTATATCTACAGATAACTTTTTATTTAATTTTTGTATTTTTTTATAATCTTCTTTTAAATAATCAAACACTGACATAAGTTCATCAAATATAGTATTTTCTTCATTTAATTCAAAATGTTGCGATAAATATCCTATTTTAAGATTTCTTTTTTTATTTATAGTTCCAAATTCTTTTGTTTTTTCACTTATATCATGCGATTCTTTATCTAATAATATCTTTACTAACGTGCTTTTTCCTGCTCCATTTACACCTATAAATCCTATTTTATCTTTTTCATCTATACTAAATGATACATCACAAAATATATACGTTCCTAAAAATTGTTTATTTAAATTGTTTACTGTAAGTAATGCCATTTCTACTCCTTTTTTAATATTTACTTAATTATCTTTGATTTAAATTAATATATATTTTCCATTATTTTTAATCATTTTATTTTACCTTAATTTAAATAATGTGTCTAGAAAATAATTTTTTTATATTACATCATAAATCTTTAAAAATTATAATATTTTTCATATATTCTCTTAAAAAAAAACTAGTTTCAATATATTGAAACTAGTTTTTTTATCTATCTATTGTATCGAAAGCTAAAAGTTTATCTATATTTTTTAATTCTTTATCTTTTAATCTATTATATTCATATCTATGTACATTTATTTCTAACTTTTTCTTTAATTGACCTTCTACTGCAAATAAATTAAGATTTATTTTTAATACATTTTCATTTTTATCAAATGCATCAGCTATAGCTAAATAAAGCTCATTATATATATTATCCATATTATCATCTTTCATAACAAATCCCATTATAAGACTATCATTAGCTATTTTAAATAATGTTGGTTTTATTGATTTAAACTCTAAAACATATGCTGTTTTTAATTCCTTTACGTATTTTACTACTTCTTGTTTTTCTTTTTCTTTTATTTCTTTTTTTACTTCTTCTATTTTTAGTTTTATAATATCTTTATTTTCAGGCTCTTCTTTTAATTTTTGTTTATAATAAGCTAATTTTTCTATTTCTGATAAATTTTCTTCTATTGTTTTTTCTGTAATAACTACTGCTGCTTCTGATGTAGTTTGATTATTTTGCGTTTCTTCTGTATACACTTCTTTTTTGATGCTTTTTTGTCTATCCACCATAAGCTTTGTAGCAAATATAGTTGATATTAAGAAAAAAGCTATAACTCCAGCAATATAATATTTATATTTAAATAATATATCTTTATATTTAGAAATATCTAACTTAGGTAAATTTATTTTCTTTTTCTCTTTTAATTTAGTTTCTTGTTTTGGAACTTCTTCTTCTTCTAAATTTGGAATTTCATCCACAAATTTTAATTCTTCTAATACTTCTTCTTCATCTGGAATATCTAATATTCCATTTTCTTCATCTATTCCTATTAATAGTTTTTCTAAATCTTCTTCTGATATTTCATCTTCTGATTTTTTCTTTTCTTGGAACTCTTTGACTTCTTGAGTTTCTTCATCTATTCCTGGCATAGATATCTCATCGCTTATATCCTCTTCATCTTCAACGTTATCATCAAATATCATTTCATCTATACTTTCCATTAAATCATCATTTTCTAACTCACTATTATTTATATCTAAATCATCTTTTATTTTTTCTAACATATCTATCCCTCCAAAAACTTTTAAATATATTTTTTTTGTGTTATACTTTAAAAAAACTTAGAAAGTAGGTCAATCTATGAAATACTTTATTATATTTTTTATCCTTTTTAATTCTGTATTTTCCTTAGATTATCATCACGATGGTATATCTAATATTTTACAAGAAAAAAACAAACCCTTTTTTATAAGTATCGGTAAAGATGGTAAAATCATTTCGTGGAATTTTGAGAAAAATAAAATTATTAATGAAATTTCTTTTAATAATGGTGCTTTAAATAATATAAGTTTCTCAAAATCTAATAATTATTTTGCTATTTCAAACTATTTTGGTAAAATATTTATATTAAACAAAAATAGTTTTAATATATTAAATATTTTTAATTTTAATTCTATGAGTATTGAAAATCTTTATTTCATATCAGATTCTAAGTTACTACTAGTATACCAGAATAAAAAAATAATTTTAATAGATATTTTTAAAAAAGAAAAAATAAATGAAATAAATTTGGATTATGAAATTCTTGACTCAACTATTTATAATAATAAACTTATTGTTTTGGATAGAAATAACAAGTTTTACTTTATTAACTTAAATAATTTAAATATTGAATCAAATTTAGAGTTTCCTTCTGATAAAATTATACATAAGTTTCTTATAAATAAAAATAAGCTTTTAATATCATATAAAAATAAATTAAAACTCTATGATATTAAAACTAAAAAAATTAATAAAATTATAACTTATCTAGATATAAATATAACTTCTTTAAATTTTTATAACGATAATTATTATATTGGTTTTAATAATGGACGTATTATTAGTTATGATAAAAATTTAAATAACTCTATTTTAGACTATAAATTACATAATGACAAAATCAATAAAATTATTGAATATAAAAATAAAATTATTTCTATTTCTGATGACGCTAGCGTTATTATTTATGATAAAAATAATAATAAATTAATAAATATTTTTAATGGACTTTAGTAGGAGGACAAATGAAAAAAATTTTTTTTACAATTTTAATTATATTTTTAACAGGCTGTAGCAATATAAACAAAACTAAAAATATTGAAACCTCTGAAAAACATTTTATAGATTCTGATATTTATGACCCTCTAGAACCCTTAAATAGAAGGATTTATTATTTTAATGCTGTAATTGATAGAAACATTATTTTACCTACAGCAAAATTTTATTCTAAAATAACTCCCGATTTTTTAGAAAAAGGAATCTCTAATTTTTTTAATAATTTAAATGAAATTCCTACTATTTTAAATAGTACGTTACAATTTAAATTTGATAAAGCTTTTGTATCCTCTGAAAGATTTTTGATAAATTCAACTATTGGTTTTTTAGGATTTTTTGATATTTCTTCAAACTCCTTTAATTTAGAAAAACATAAAGAAGATTTTGGACAAACTTTAGCTTTTTATCACATTCCACAAGGTCCGTATATTATTTTACCTATACTTGGTCCATCTACTGTTAGAGATACTGTTGGTACTACATTTGAATATATATCAAAACCCTATACTGACCCTTTACAACTTATAGATTATTCACAATCAACTCCTGAAATGATATTTATTAGTTCTATAAATAAAAGAAATAATTTAAATTTTAGATATTATCAATCAGCTTCACCTTTTGAATATGATTATATTAGATTTTTGTATTTTAAAACTAGACAATTTGAAAATATCAAATAAAAAAAGACTTAGAATTAAAAAATTCTAAGTCTTTTTTTATTTATAAATTTTTTGCTTTAATGTTGCTGTAGAGGTTTTAAATCCTTTAGTTTCTATATCATTATTTTTATTATCTTCATTTACTATTTCTGCTTTTATTTGTATAAATAAATCTCTTGTATTTTTTATTATACTTTCATATTTAAAGAATGTCCCAAATATCGGCATATCCCCTAATACAGGTACTTTATATATACTATTATTTACTGTTGTCTTTTTAAGTCCTCCAATAAATACTACTCCTCCATCTTCTAATGTAACTATAGACGTTAATTTATTTTTTTGTGCTGCTCCTAATGCATCTTCTTCTGTAGCATCTCCTAGGGTATTTGTCGATTTACTACTTAAAAAAGAACTAACTTCAGACGTGATTTCAAGTGTGATTTTATCTTTTTCTCCATCTCCATCTCTAATAATTGGTGTTACATTAAGTACTGTTCCAGCTTCTTTAAATAATGGTTCGGTTGTTGTATTTCCATCACTATCTGTACTACTTGTTGTTCCTACTTTTAATTCTGCTGATACATTAAGATTTGCTGTTTTTCCATTTAAAGTAACTACTGATGGCACAGCGTTTACACTAGCATCATCTGTTTGTTTTAACATATTTATTGTACTTGATATAACATTGTCTGTATTTCCTAAATATGATGTAAATGTAGCTATTGGATTTCCTGTAGCTACTGCTATTTGTCCTGTTATCCCACTTGAGACACTATCTTTATCTTGATAAGACCAATCAATTCCAAGCTCTTGAGTAAGAGTTCCTGTTATTTCTAAAATTTGTGCTGTTATCCTCACTTGTTTTATTGGCTTATCTAATTCTTTTATTAGATTTTTTGCAGTTTCTATATTTTCTGTACTACCTTTTAATATTATAAGATTTTGATCTTTTACAGATATCACTTCTAAGCTATTCTCATCAGTCATAGATGTAATAACTTGTTTTACTTCATCTGCAAAAGCATATTTTAAAGTAATTTTTTCTGTAAATCTTTCTCCGTTTTTATCTTTAATAATTCCAAGTTTTTTAGTATTTTCAGATGATGTAGATTTTTCAACTACTTCTATAAGACCTTTATTTTCTTTACTATCAACTGGATTTAAATATAAATTAATACTAAGTGTTTTCCCTTGTTCTATTTCTACTATATCTCCATTTGTTTCGTAGTTATTTGCTATACCTTTGATTATATACGTTCCTGGATTAATATTTTCAAATATATATGCCCCTCCGGCTTCACTTAAAACTTCTTTATATACATCATTATTTTTTATCAAAACTATTTTTGCACCTGTTATTCCTAGTTTATCTGTTGATAAAACTCTCCCCACTATTTGACCTGTGGTTTTTTCATCAGATTTTAATGTTTGTTCTAAAATAATTATATTATTTACTTCTTTTGCTTGTAAATTATTTGCCACCATTACAGCATCTAATATCTCTTTTAAATTTTGACCTTTTACAAAATAAAGGTCTATCATATTATCTTTTACTTTTGATTCTGCTACTATAGTTATCCCACTTGTTTTAGATATAATACTAAGAGCATCAGCTAATTTAACATTTTTAAAATCTAGTTCATTTGGATATATTACTCTTTCTAATCTATCCATCATTGCTCCTATTGATATATTGAAAATCACAATAAAAAGTATTAATAACTTAGCTAAATATTTTTTCTTCAAAAACCCTCACCGTCCCTCTTGTACATTTAATTTTAATATTTTTCCACTAGATATATCAGTTATTACAACACCTTTTTCATGTGGTTGTAAATAATATCTATAATCCCCTATTTTTATCGAGGTATTACCAAATATTACTTTTCTTTTTTCTATACCATCTTCAATATAATAAAGAATTCCACCCCACATATCTCCCTTTTTAATAATTGTATCTATTTTTTTAAATGTTGATGTTATTCTTCCAGTTGTTTGAATTATTCTTTGATTAATTTTTGTTTTATCTACTATTAATTCTTTGAAATAATTATTTTTTCCCTGAAATTTTTTTAACGATTCTTTATACACATCATCAGAAATATAATTATCTAAAGGATTTTTTGCAAAAGATACAAGATAAAATATGAAAAATATTATAAATACTAATCTATTCAAAATTTATCTCACCTTCTTCCTTGATAAAGTAAGCTCCTATTTTAAATTTCACTTGTACTTTATCATTATTAATTCTATTTATAAGTATACTACTTCCTTTTAAAGTTATTAAAAAATCAGAATTTTCTAAAAAATATAAAAATCTACTTATTTGTAAAATATCTCCTACAACAGTATAAGGAATATACTTTTTTGTATATCCTTTTTTATCTTCTCCAATTTCTATACTTCCTATCTCTATTATTTTTACTCCTATATATTCAGCAATATCATCTATCATTATTTTTAATCCTGTATTATCTTTTATTGTTGAATTTTTAAATTTTATCTCTAACTCTTTTAAATCTTTTTTTTGTGCTTCATATATTTCTAGTTGCTTATTATATTTCTTTTTTTCTTTTATATAAGTTGTCGTTATTTTTTGTAGATTTACTTCTACAGATTTTAATTCTTTTATCTTGCTTCTTATACTCAAAGAAGGCATTATAATCATTGGAACTAATAGAGCAATCAAAATAGCTATACTTAATATTATTATCGATATTTTTAATTGCTTTTCTGTAAAATCTGTATTTATTGAAAAATCTATATCCCTCCCAAAAATTTCCATCTATATCCCCCTTAATTTGAATTTAGTATAAGTTGATATTGAAATTCATTTACTTCATTATTTTTTATATTACTATATTTTATAAAATCTGCTTTAATAGTAGAAAATCTATTTGTACTTTTTAAATTTCTTTCAAATTTAAATATATTTTTTGCAGGATTAAGTTTTAATTGTTTATTTTTTATAGTTTTACCTGATAAAAATAAATTATTATTATCATACATTATACTATCTAGCCACATTCCACTTGGTATATTTTCTTGTAAAGTATAAAGTATCTCTGATACTCTTAAATTCTTTTGATTAAACACCTCTTCTATTATTTGAATATTACTTGTAAGGTCCGGTATTTCTTTCATTTTTTGTTTTACTTCTTTAATATTTTTTGTTATTTTTTTTATTTCTGCATTTTTATTGTTTATTATACTTTGTTTATTTTCAATTATTGAATTTAAATATAGATTTATACTAAAAAGTATTGTAAAAATAAGTAATATAACAAGTAAAATCATTCGTGAAATAGATTTTAACATTAGTTTTAACTTATATTCTTGTGTCAAAAAATTAATATCTATCATAACTATTTCACCTCTTCTATTATATTACCAAGTAACGCTATACATTTTGCTGTATCTATCTCTTCAAATTGTTCCATAATAATTTTACTATAACTAAAATCATCAATCTCTACTTCTAAGGATTTCTTTAATATGTTTCTAAAACCTTTAATTAGAGTTCCTCCACCTGTTATATATATTTTATCAAGCCCAGGTGTACTTTCATGACTTACATAAAATTCTATTGATACTTTTAATTGTTTTTCTAATTGACTGATAAGTTTTGCTAATTCTTGAAAAAGTTGCCTATCATTTTCATTTTCAATATCGTTATTATATTCATCTTTTGCAAGTTCTAAACTTTTTTTTATTCTTTCTGCTTCGATATAATCAATATTATAAATACGAGTAATAATATCATTTAGATCATTTCCACCAATAGCAATAATTCTCTGTAGTTTTATATCTCCACCTTTTTCAATAAAAAGCTTTGTAGCTTCTGCTCCTATGTCTACTACCATTATACTTTCTTCAGGTTCAATTTTATCTTTTTCTTTTTGAAATTGTAAAAAATTGTATAAAGATATAAAATCAGGTATTATTTTTACAATTGATAGTTTTGCAGCAGTCGCTATTTCTATTAAATTTTTTATTTTATCCTTATTTATTGTAATTGCTATTACTTCTTCGTTATCTCCTACAAAATTTAAAGATATAAATTCTGTTATAAAATCTTCTGGTATAAAATTTGGAATAAGTTCTTCTAACTCTCCTTCTATAATCGCCATTTTTTCTTTATCATCCACTAATGGAATACTTAAAAATTTCACAAAAAAATCTTGTACAGGTAATGAGATAACTACATTTTTATTTTTTAATTCTACTAATTCTACTAATTCTTTTAATCTATTAGTAAATTTATCATAATCCACTATATCCCCATTTAATATTGTTCCTTGTGATAATTCTAAAAGAGTCATTTTCTCTATTTTATTTTTTTTTAGTTTAAGCCCTTTAATTGCAGTGGTTCCTATATCTATAGCTCCATCTACTTTTGTTTTAAAAAACAAATTAATCACCCCTTATTTCTATTGCTTAAAACTCTTTCAAAAGCTTCAACTACTACTTTTAATATACTTACTTTCGTTTGTATATTTATTTCTCCTAACTTTGTAAATGTATAACCTTTTAATGTTGTAATATAATGTGCTGGTAATTTGTTTAATGAATATGCTTTTACATCTAATATATCTCTTTCTGATACATTTTTTCTTATATCTGGATTATTATTTAAAAAAGATTCTACTGCTTCATCAACCATTATTTCCATATAATTTTCTAATTTTGACATAATTTAATCCTCCTACCTATTTTTTTCTTTTTATTACCTCTATTTTATCAATGTTTTGAGAAATAATATTAATTTTATCCTTATCTATTGTTGTACTACTAGAATATCCCGCCAAGGTTTCTAGACTAATTGATTGATATACATTAATATCATAGATACTTTCCTCAACTATTTTTTTACCACTTTCTATTATTTCAGGAAATACCAAAGTTTTAATATATTTTACTTCAAAATCATAATTGTTTCCACTAGTAAAACTAGAAAAATCAGACATCCCATTAGGATAAGTAATATCTAATAATTTATATCCGCCTATACTTTGTTTTGTAGTACTTGGATCATACCATAATTTTACTACTTTATTTTCATAATTAGTCCAAGTTCTATTATCTACTTTTCCTGAAGTTTTGTTTTCTAAAATTATAATTGCTTGATCCGTACTATTAAAATCAACATTCCAATATGATGTAAAATAATCTATATAATTTCCTATTACTACTCCCGCTATAGCAGGTTCCGACGTTGTAGGTATGCTTGGAAAATATCCTAGTGAACTATAGTTTTCATATTTTGCTTTTTTACCAAAATAATCTTTTTTGCTTCCTGTAAATATAGTATTTGTATCATCATAAATATATCCCAATTTCACATATTTATCAGCTAAGTAAAGTTCATAATATCCTATACTTGAGCTTTCATCTATATAGCTTAAATGTTTCTGTCCTACTATTTTATATCCAGCTCTTTTACCTTTTTCTTCTGACATATAAAGTAAATTTAATGATATCGCCATAAAAAAAGACAAAAGTAAAATTACTAATATAAGGGCTGAACCATTTTTTTCTATTTTTTTATTATTCATAGTCCACCTCTAAAAATTAAAATCTATTCTTGTAACAGCAGAATCTCTTATAGTTCTTGTATAATCACCATTTTTAAGTTTTAAATATATTACAACTACATTTTTATCATATAAAAAATATCCATCTTCTACATTTGATAATATTGTATCTGAAGCTACTATACTTGAAGAAGATGTATCACTTTCCCCAACTTTAAGTTCATTTCCTACTATTTCAAATTTCACCCAATAAGGAATATATATACCTGATGAGTTTAAAACCGTTGTAGTCAAAACCAAAGCTGAAGAGGTTGTCCCTTCTATAGGTGTTATTATTGCTTTATTTCCATTGTAATTTTGAGATGAACGTACTACTTTTTTTATTATGTCAACTGTCTTACTCATTTCCAAATCCATATTATTTATCTCTTCTTGTCTTTTATGATTTTTACTAAACGATAAAGTAAATGGAATTATTAATGACAATATTATTGTAGTTATTGCTATCGCTAGTATTAACTCAACTAAAGAAAATCCATTCTTTTTTATATTGTTTTCATTTAAACAATTTTCTCGTTTCACCCTAATTCCCCCAATTTTCTATTGGTGATACTACAAAAGTAAGAAAATATTCTTTTTCTTTTCCTGTTATATTATTAGAATTAGCATCTCCTGTACCGATTATAACACTTCCATATATATATTCATCATATCCTGGATAAGTATCTTCTTCTTTATCTGTTAATGGATTATAATATTTATTACCCCCTTCTAATCCTACACCTTTTTTATCTAATCTTAAATATATAACAGTTTTTGAGAGATCAACACTTTTAGATGATAAAATAAATAAATGATCTATTCCAGAAGCTGTTGTAGTTAAATTAAAATCTGATTCAAAATTCTGATAACCACTAACACTAGTATCAATGATATATGCTGTAGATTCTAAACTATCTTTTTTAAATACATATTTCCCACTATATGTACCGCCATTATTATCTACAATGATTTTTAGATTATTATATCCTCTTGATTTTACATAATCTATCATAGTAAAAGCTAATCTACTTACTTCTTCATTTTGATCTGCTTTCTCTGACATTTTAAAGATTGAAGGGTATACGGAAAGAATAGGAAAAATAGCTATAGAAAATATAGCTAATGCAATTATTACTTCTAATAGTGAATACCCCTCTCTTCTCTTCATATTCTTGTTGTCAAAACCTTATAAACTTTATAAAACCTCTTTAACCCTCTGTTCAACATACCTTATTTTTACAAATGATACAATTTTTTTAAACTTAACTTTAAATTAATTAAGTATTATAACTTTAATCTTAGTAGTCACTTGATAAATAGTTATCATAAATATTAGATGATCTTCTATGAACTAATATAAGTATATTTTTTACGTTTTATAATGTTGCTGGTTTTGACAAACTTCCCCCCTCTTTATTTATTTCGTATTTCTAGATACTTTACGTTACAACTATATAATTTTTTCTAATTTTTTTAATATTTTATTAGCTGTTACTTTCTCTACAAGTATTGTTTATTCTATAAATTAAAAATAGAAGTATCTATTATCTAATGACAATTTTTTCTTTATGAATTTATACTTAATTCTTTATATATTTTTATTAGCTTTTTTATTTTAATATCATAATTATTGCTGCTAATACTAAAAATGGTCCAAAAGGTATCATATCCTTTCTTCCTTTTTGCTTTTTTATAAGTAAAATTACACTCACAATAGCTCCTATTACAAAACTAATAGTAAAAAATAAATGCAACTCAAAATAACCTCTATATCCAATAAAAGCACCTATTCCAGCTACTAATTCTAAATCTCCAAATCCTAAAATACTTTTATGAAGTATAGATTCGCCATACGCATAAATCATAAAAAATGGAAATAAATAAGTTGCTGCTCCTAAAAATGATTGTAATATTGTAATATCACTTATAAAGGCTAATGCAAACCCTAAAAATATTAATGAAAATGTTAATTTTTCTGGTAAATAATATGTTTGTAAGTCTATCATACCAAGTACTATAAGTATAGATACAAAAATAATATATTTTACAGTTAAAATAGTAAATCCATATTTAAAATACACTAATAAATACAATATCCCTGTAATTATTTCTATTACAGGGTAAATAAAAGATATTTTTATTTTACATACTCTACATCTTCCTCTTAATAGAAGATATGAAAAAACTGGTATATTATCATACCATTTTATTGGTTCTTTACAATTTGGACAATGAGACGGAGGGAAACTTACACTTGCCCCTCTAGGAATTCTATAAATACATACATTTAAAAAACTACCCACAATAAGTCCTAATAAAAATACATAAAATATTAGCAAAATTTGTTCCCCTCTCTAATACTCATTCCATTTTTTTCCTTTTGTATCTTTAAAATCGATACCACTACCCGTTGTCCCATCTATGTATAATTCTCCAACTATTGAATTATAATATAGCTCCGCTATATTTTTTTCACCACTAAAATCACCACGACCCACACTTTCTGTACCATCATCTTTTTTTACTGTTCCTGCTTTAAATTGTAATGATGTAACATTTCCAGAATTTATTCCAGTTGCCATTTGACTTTTTATATTATTAGATAAATAAGTAACTATATCTAGTATTGTGCTTGGTGGCTGAAAATCTGGATCATCAGTTTGATATATTGTTACACCACTTCTAAATGCTGATAGTACTGTTAATACTCTAGCATCTTTTGCTTTTTGTATTTGTTTTCCAAATTTTGGAACAGTAATAGATGATAATATAGCTATAATAGATACAACTATCATAAGTTCTATTAATGTGAATCCATTTTTTTTATTCATTATACCCTCACTATATTGTATCAAAAAGACGGTTTTACCGTCTTTTTGAATTTATATATTATAAATCTGACCAAGTTTTTCCTGATGTATTAGTTCCACTTGTAGTAATATTAATTGCTCCATCAGATGCACTTCCTTCATATTTAATAGTAATAGATGATGGTGAACCCGCTACTATATCTGCTTCAGTTACAGTACTTGATTCTGAAACAGTTGTTGTTGTTCCTTTTTCAAAAGTTTGATTTTGTGTTTGAGTGTCTACAGCCTCAGCTAAATCTCCAAAATCAGTAGCATAATCACCTTCATGATCAGTATAATAAAGTGTTGAAGCACTTCTCCAGTTACCTACTAAAGATAAGGCTTTTGCATCTTTTGCTTTTTGTATTTGTTTTCCAAATCTTGGTACCGCTACAGCTGATAGAATAGCTATTATTGCTACTACTATCATAAGTTCCACTAACGTAAATCCATTTTTTAATGTTTTTTTCATAAAATTCATCCTCCTTATATTTTATTTAACTTTAGCTTTATTTTTAAAGCTTATTAAAAACTTTTTATTTTTATAAATAACTATAATTTTAAAATCCATAAAAATTTTCTTTGAAAGTAAGTAATTATACAAATGTGAATAAATATTTTTTATAAATCAACAACTGAAATTTTTCTTGATTTTTTAAACTATAAATAAAATATTTTTTTCTCTAATATGTACCAATATATACTTTATATTTACTTAAATATAAACTCTTTTTGATATTGATTTCTTAATTATAAATATAGATATTTCCGAAAAACTCCTTTTATTATTCTATCATATTCTTTCTCAAATTTAAAGAATAATTTTATTTTTTTTATTCATTTTTTTATTTTGTATACTGTTTTGTATTCGTAAATTTTTCGTATTGCGTACTCTTTGTCTTTACTATTTCCGTATTTCAATATTATTTTCAAATAACGTTCTATTTTTGATAAAAGTATTTTACTGCTATTATCTTTATACCTCATTTCATACACTTTTATCAAGTATTTTATTAATTCTATATCATATCTTTCATTTAATATTTCATTTATTACTCTTTCTACTTTATCAAAATTATTTCCTTTTAACCCTCCTATTACTATTAAATATTTTCTTAATAATTCATTTTCTTTATTATATTCTACCCCTTTTACTAATATACTACTTGCCATATTATATTTTTTATATCTATTAATAAATGCTAAAATTGATGAACTAATATAATAATTTTGTAAAAAATATGGTGATAATTCTGCTATTTTTAGACTTGTTTCATATATTTTTTTCGTTTCTATCTCTACACTATTATTAAATGGCGTTCCTATTTCTAAGCTTTGTTTTATCCATAATAATGAAGTTGCTGCTTTTTTTATTCCAAATATTTTATATAAAAACACATCATAATTTTTTTCTTTAACACTTTTATCTTTAAAAATTTCTTTTTCTCTATTCTCTATAAAAATATTTGTTTTTACAAAAAATAACAAAATTATTATTATTAAAAAATATTTTGTAAAAAATTTATTTTGAATATTATTTTTTCTATTATACATATTTATCACCTATAATTTACGCTTATTAAATATAATTACTGATATTATAAGCACTAAAATTGTATAAAAAATAACATATAAAAAATCCATATAATCAAAAATATAATTATAATCCAAATTGTCTCTTAAATTTAAATAATGAAATTTTGGCATAATAAAATACAAAATTTTCATAATAGTTTTTATCAGTATATCTCCTGTTTTTTCCATTATATTTTTTATATCATAACTAGCATGTGCTATAAAATATATAAGAAAAGTAAATATATTCCCCGTAATATAAGAATCAGAAATTAAAGAAAATAATATCCCAATAGATATAAGAATAATAAATTTATACAAAATATATAAATACGATAAAAAATAAATTTTATTAAACATATAACCTTGAAATTTTAATACTAATGTTAATATTCCACCTAAAAAAAACTCATAACAAAATATAATTGATAATATACCTAAAAAAATTCCAAATACATATTCACTTCTATTTACAGGTTTTGTAAGTATTAAATATATTGATTTGTCTTTATGCGCTTTTATAATAATACTTGATGATAAAAATACAGTAATTAGAAGTAAAAAACTCTCAATAAAAAATAGTCCTATATCTTTTACCATTTCTAAGTTATTATCTATAGTTAATTCTTTTAATATACTAAATCCAAATAAAAGTATAATAGAAAAAACCAAAAAACCTATAGCTATTTTATTTGATAAATTTTCTTTTGCTGTATATTTTGCTATTACTAGACTTTTATTTTTCATTACTATCACCTTTTATTTTTTCTATAAAATATTCTTCTAAATTTTGAATTTTATCTTTTTTTATATTAATTTCCTCTACTATTTTACCTTTATTTATTATAATTATTCTTTCACCTATTTTTTCTATATCATCTAAAATATGTGTATTTAAAAATACAGTAGTTCCTTTTTCTTTCAACTCTTTTATTATATCTATTACTTTTTTTCTAGCTATTGGATCAAGCCCAGACATTGGTTCATCCCAAAACAATAATTTTGGTTTATTCATTAGTGATTGTGCAAGTCCTACTTTTTGAAGCATTCCTTTAGAAAACTCTTCTAGTCGTTTATTTTTGTATTGTTTTATATCAAATCTATCTAATACTTCATCTATTCTATATTTTAATTCACTTCCAGCTAACTCATATAAATAACCATAAAAATTCATTATATCTATAAGTTTTAAATCTTTTGGATAATAAGATATTTCAGGCAGATATCCAATATATTTTTTATTTTTGTTTATAAGCATGTTTTCGCCAAATATTTCTATTTTTCCACTATCATACTCTAAAAGTCCTAATATACATTTTAAAAGTGTTGTTTTTCCTGCACCGTTTAACCCTATTATTGAAAATATCTCACCTTCATTTACAGAAAATGAGATATCTTTTATTCCAAGACTATATTTTTTCCCTTTTAAATTTTTAAATATATCTTTTTCTTTATATATTTTAGTAAGATTTTCTACTTTTAGTATCATTTTAACCTCCTAGATTTTTATCCTACTAAATCACTTATTTGTGTAAGTGGTAAAAATAAACCTATTACTATACTTCCAACGAATACTGCCATTACTAATATTGCTAAAGGTTCTAATGCTGCTAATGCTTGTTGAATAGTTTCATTTACTTCTACATCCTGAAAATCTGACACTTTAGCTAGCATATCTATAAGTGTTCCACTTTCTTCTCCTACTTCTATCATTTGAGTAACCATTATAGGAAATTCTCCGCTTTCTTTTAATGGTTTTGCTAATGTATTTCCTTCTCTTATACTTATTTTAGACTTTTCTATAACCTTAGATATAACAGTATTTCCTGACGTATCACCTGCTATTTCAAATGCAGTTAATATATTTACTCCACTTTCAAGAAGAGTAGACATAGTTCTTGTAAATCTTGAAACTGCTACTTTTCTATTCAATGGTCCAAAAATTGGTAATTTTAATATAAATTTATGGAAATTATATTTTCCTTTCTCTGTAGATATATATTTATATATTAAAAATAATCCTACTCCTGTTAACCCTAATATAATTATCCAATTTTTAGCAAAAAAATCACTTACATTAAATATAAATTGTGTAAAACTAGGTAAATCTTTTCCAAATTGATCAAACATCATCTTAAATCTAGGTACAACAAACGACATAAGTCCAAATACTATTATAATTGATATTAATATTACTATTATAGGATAAGTCATCGCTCCTTTTACTTTTCCTTTTATCTCTTCAGACTCTTCCATACTTTTTGCAAGTCTTTTTAATACTGTTTCTAATGATCCTGATGCTTCTCCAGCTTTTACCATATTTACATATAATTTATCAAATTGATTTGGATATTTTGCAATAGATGTTGATAAATCTACACCACTGTTTAAATCTCTTACTACTCCTTCTAATATTTCTTTAAACTTTATATTTTCATTTTGTTCTGTCAAAATACTAATAGTTCTAAGAAGTGGTATCCCTGCATCAAGCATTGTTGCAAGTTGTCTAGTAAAAAGAACTATTTCTTTTCTTTTTATTGTACTAAATATACTATTTTTTTTTCTTTTTTTCCCACCTTTTTTTATAGGTACTGCTTTTACTAAGTTTATTCCCTCTTTTTTTAATTTTTTTCGAAGTTCAGATATGCTGTTAGCCTCTCTCTCACCTCTATATTTTTTACCCTTTTTGTCTATACCTTGATAACTATACCGCAACCTTTATTCCCCCTTTAGATAAGTGTAACTCTAAGTACTTCTTCTAATGTTGTTTCACCTTTTAAAGCTTTTTCTAAAGCTCTTTTACGAAGTGTTTTCATTCCATTTCTTTTTGCTGTTTCTCTAATCTCTTTTGTAGATGCTCTAGCAGATATAAGATCTCTAAGATCATCATCAAGTACCATTATTTCATGTAACCCAACTCTTCCTTTATATCCTGTACCATTACATTTACTACAACCTTCTCCATAATAAAATGGTATATTTTTATATTCTTCGTAATCTAAATTTATACTTAAAAACATTTCTTTATTATATGTTTTTTCTGTTTTACAATGTGGACATATTTTTCTAGCTAATCTCTGTGCTGTAACTGCAAGTAAACTAGATGATATCATAAATGGCTCTATTCCCATATTTAAAAGTCTATTAATTGTACTTGGTGCATCATTGGTATGTAACGTTGATAAAAGTAAATGCCCTGTAAGCGCTGCTTTTATTGATATTTCTGCTGTTTCTCTATCTCTTATCTCTCCCACCATTATTACATCGGGATCTTGACGAAGAAATGAACGTAATGCTGTAGCAAAATCTAACCCTATTTCTTGTCTACAATGTACTTGATTTATTCCTTCTATCTCATATTCTACTGGATCTTCTGCAGTAGAAATATTTATATCCCCACTATTTACTTCCATAAGCGCTGAATATAGTGTAGTTGATTTTCCACTTCCAGTTGGTCCTGTTACTAAAAACATTCCATATGGTTTTTTTAATACTGAACGTATTCTCCTCAAATCTTCTTCATCATATCCTAATAAATCTAAATCTAATTTTTGTGCTCCTTTATCAAGTATCCTCATTACAACTTTTTCTCCACTGATTATAGGTAATGTTGAAATTCTAAAATCTATATTTCTTCCATTTGCTCTTATTCTAAATCTTCCATCTTGTGGAAGCCTTTTTTCCGCTATATCAAGATCCGACATTATTTTTATCCTTGATACTACTGCATTATATGCTGATTTTGGAAAGCTATTTAATTCTATCAATACTCCATCTACCCTACATCTTACTCTTACCGTTTTACTATAAGGTTCTATATGGATATCACTTGCTCCTATTTTTACAGCCTTTCCTATTATGGCATTTACCACTCTTATTACTGGTGCGCTTTCTGATGACAATCCACTTTCTAATTCTTCTACTTCATTTGCAAACTCTTTATCTTCATCTGTCATATGTTCTAATTCAGATAATATACTGTCAACATCTTCATTTGTTTGATTATTTTTTCTTGTTTCATATTCTATTATTATCTCTTGGATATTTCGTTTTAATGCTAATATAGGTTTTATTACTTCTTTTGTTCTCATCTGTACTTCGTCTACTAAAAATACATTAGTCGGATCTGCAAATGCCACTAAAAGTTTATTTCCTTCTTTCCTAATAGGAATAACTGAATTATCATGCATAAATTCAGAAGGCAATTTTTCCATTAACTCTTCATCTATATCACTATAATTAATAATTATACTCCCAACACCAATATGCTCTGATAAAATCGGTAAAAGTTGATCTGCTCTAATATGTCCTAAATTTATTAGTGTTTCTCCTAATTTTTCTTTTACTTTCTTTTGTTCGATAAGTGCTATTTGAAGTTGCTCTTCCGTTATAAGCCCTTCTTGAATAAGCTTATCACCTATCATTAGTTGTCTTCTTACAATAACCATAGAATACACTGTTGCCAAAACCTTATAAAACTCTATAAATTTCTTTACTTTGCTATTTAATATATTTCATTTAGACTACTTTATTAATTTTACTATAATTAGATACTTTTTTCTATAGATACTCTTATTGCTTTGATTTTTATTATTTTAATAATTACTTGATTTAAATAATCATTTCTAATATTATATAATTTTCTATAAAGTAATCTACTTTGTGTTTTGAGTTTTATGATATTACAAGTTTTGACGAACTTCCTCCCTTCTTTACTTAATTTAAATTTTCTTGATATTTTACGTTTCAATCTATGCAATTTTTTAGAATTTTTATTACTTTACAAAGATTAAATTATAAACAAATCTTGCAGTTCTTAGTAAATTTCTATAGTTGTTACTCTTATTTTAAACCTGGTATAATTTTATTTTTTTAATGTTGTCATCTTTTAATAATTCCTTAATTATTTTCTTAATGTTTGATAAATTTTTCCTATTGATTTAAAAAAATTTTATTTAGTTTTTTTATCTCTTTATTTATAATAAGTAATATTTATTTTTAATATATCACTTTCTCTTTTAAATTACAATTTTTTATTTAATTTAAATTTTGCAAGTCCACCTATAGATGTTTCTTTATATTCATTTTTCAAATCTATTCCCGTTTCTTTCATTGTTATTACCACTTCATCAAAGCTTACTCTATGGCTTCCATCAGTAAATAATGTATACTCTGCTGAATTTATAGCTCTAATTGCTGCTACAGCGTTTCTTTCTATACATGGTACTTGAACATAACCACCTACTGGATCACACGTCATTCCTAAATGATGTTCCATTGCCATTTCTGCTGCATAATCAATTTGTTTATTATTTCCTCCCATAATATACGTTGTCATTGCTGCTGCCATAGAGCATGCAGATCCTACTTCTCCTTGACATCCTACTTCTGCTCCAGATATAGATGCATTTTTTTTAATAAGATTTCCTATAAGTCCACCTACTGCTAATGCTTTTGTTATTTCTTCAACGGTAAGAGCATACTCTTCTTTTAATGAACGAAGTACTGCTGGTATAACTCCAGATGAACCACATGTTGGGCCCGTTACAACTAGTCCTCCCATTGCATTTTCTTCTGACACAGCAAGAGCGTATGCAAATGTAAGTCCTGTCGATTTCATTCTACCTCTTTGCATTCTTGATTTTTTATAAAACATCGATGCTTTTTTAGGATATTTTAATTCTCCTGGAAGTACTCCTCCTTTTTGTATTCCTCTCTCAATTGCTTCATTCATTATATTCCATATTTTTTCAAGATATTCAAATATATCATCATCTTCTCTTTCAGCTACATATTCCCATAATTCTTTATTATTTTCTTCACACCAATTAATAATATCTTCTAATTTATCGTATTCATAAATAGATTTCTCATCTATTTTTTCACCTTTTGATACTATTGTGCCTCCACCTACACTATATACTTCAAAGTTATCAATTAATTCATTTTCTTTATTATACGCTTCAAAACACATTCCATTTGTATGAAATTCTTTTACTATCTCTGGTTTAAAAATAACTTCTGTTTTATCTTCTCCTAATGTTTTCTTTATTATCCAATCTGTTAAATGTCCTTTTCCTGTAGCTGCTAAACTACCATATAAATATACTATAAATTTTTTTGCTTCTTGATTTTTTTCTAAAAATAATTTTGCTGCTTTCTGTGGTCCCATAGTATGACTACTTGACGGTCCATTTCCTATTTTATAAATCTCTTTTATACTTTCCACTTTTACACCTCTTTATTTTTGTTTATATATATTAACTTAGATATAATTTAATAAAAACAAGTAAGAAAAAAGTAATCAAAATTACTGTTATTCTAAAAGTTCTATGTAAAAATCGTTTTTTCTTATATATTTTCACTTTATAATTTTGATGATATTCTTCTGCAGGATAAAAGTCATTCGCTTTTGATATTTTTGTTACTATTTTTTTAGAATATAATTTTATATCTTCTATATACCTGATAAACTCGTTAGCTTCTTTTTTTTGATTTTCGTTAGTATAAAAGATCTCGCTTCTATACCTAGTACCATTATCTTTTCCTTGCTTATTTAAACTCGTTGGATCATGCATTTTAAAAAATTCTTCTAATAATTCCCTATAAGTTACTATATTTTCATCATAGATAACTTTTACTGTCTCTGCATGTCCTGTATTATCTGTATATACTTCTTTATAAGTAGGATTTTTTACATGCCCTCCCATAAAACCTACCTCAGTGTCTATTACTCCTTTTATTCGTTGAAATTCATATTCTATTCCCCAAAAACATCCTCCTGCAAAATATGCTATCTCCATATTTAATTTCTCCTTATTTTTTATCTATAATTTAATGTCTTACTTAATATATATTTTATCATATTTTTTCTTTAACTAAAATATTTTTAAAATTATTTATTAAAGTCATATATTAACTCAAATAAATTATTAAAACTATATAAAATAAAAAAAGAGTCTAAAAATAGACTCTTTTTTTATTTACTTCTTAATTCTCCATTATGTTTTTTCTTAACAATTCCTAATATTTTTTCTATAGTTTTATTTATTGTATCTTCTTCTAAAGTTCCTTTTTTATCTCTAAGTACAATATTTATTGCTACTGATTTTTTACCAGTTTCTATTTTTTCACCTTCATATACATCGAAAAGTTCTACTTTTTCAATTAAATTTGATGATTTTTCTATATCTTTTAACATATTTCCTACTAATACACTATTATCTACTACAATTGCCAAATCTCTTTGTACTGCTGGATATTTTACTATACCTTCATATTTTATTTTATCTTTACCATACTTTAATATTTTTTCAAGATCTAGCTCTCCTACATAGGCTCTCTCTCTTTTTATATCCATTTTTTCAGCAAAATCAGGATGTATTTCTCCAAATGTACCAACTAAATCTCTTCCTACCATAATATCTGCACTTCTTCCTGGGTGATACATCGAGTTATTACTTCTTATTAATTGATAAGATTTCATTCCAAAACTTTCAAGTATTGATTCTACATAGGCTTTTATATCATAAAAATCATAAGATTTTGGTTTTATATCCCATATATTTCTATCTTTAGATCCTGCAAGAGCTATTGCTATTTTAGGTATTTCAATTGCTAATTTCTCATCTTTTTCAAATGTTTTAGCTATTTCAAATATTTTTAAATCATTAATATTTCTATTAAGATTATCTCTAATATTTAAAAGTAAGGAATAAATTAAAGTCGGTCTCATTATAGCAAAATCTTCTACAATAGGATTTTTTAATTTCACACAATTATTTATATCAAATCCCATAAAACTAATTATTTCTTCTGGAATAAAACTATAATTAATTACTTCTTGTAGTCCTGAACTTACTAAATAATTTTTAGCTCTATCTATAGCTTCTGTTTCTTTATAAACAGTTCCACTTTTTACAGTTTCATTAGGTAATTTATCTTCTATATTTTCAAACCCATACATTCTTATAATTTCTTCAAATAAATCTGCTTCTCTTGTAATGTCTCCTCTATATGAAGGTGGAATGATTGTTATTATATTATCTCTACTTTCAACAATTTGAAAATTAAGTCCAATAAATATTTTACCTATATCTTCTATACTTATTTCTTTTCCTACAAATTTATTTAATCTCTCTATATTTAATGTTACTTCTTTTTCTTGATATTTTTCGAAATATTTATCAATAACACCTTCTACTACATCTCCATTTGCTATTTCAGATATTAATGATGCTACTCTATTTGCTACTACTGTAGCATTTTCTATATCTACTCCTCTTTCAAATCTATAAGATGCATCTGTAGAAAGAACTAATCTTTTTGATGTTTGTCTAATTAATACAGGATTAAAATAAGCTACTTCAATTACTACATTTTTTGTATTTTCATCAATTTCACTATTTTTTGCTCCCATTACTCCCGCTATTGCTATAGCTTTTTGATTATCTGCTATTACAATATCTTTTTGACTTAGATTTCTTTCTTCTCCATCAAGAGTTATTATTTTTTCTCCTTCATTTGCTTTTCTTACAATAATTTCTCCATTATTTATTTTATTATAATCAAATGCATGTATTGGTTGATTATATTCCATCATTACATAATTTGTTATATCTACAACATTATTTATAGGCTTAATTCCTATTGCTTTTAATTTTGTTTGTAACCATTTTGGTGACTCTTTTATTTCTACATTTTTTATAATTCTAGCTACATATCTTTTACATCCTTCTTTATCATCTATAGTAACTTTTAAATTACTATCTATATTTTCTGATAAAGTTGTAAAATTCGCTGTAGGATATTTTACTTTTCTATTATAATAAGCTGCTATCTCTCTTGCTATTCCTAAATGAGATAAACAATCTGGTCTATTTGGTGTAATTTCTAATTCAAACACTACATCATCTAATTCTAAATAATCTTTTAACGGAGTACCAATTTTTGCATCTTCTGATAAAATCATAATTCCTTCATGAGACTCTCCTATTCCGAGCTCTTTTTCAGAACAAAGCATTCCATGCGATTCTACTCCTCTAATTTTAGTTTTTTTGATTTTAAAATCTCCTGGAAGTATAGCGCCTATTTTAGCTACTGCTACTTTATCTAAATTTTTATGATTTGTCGCTCCACAAATAATTTGTACTACTTCATCTCCTGTATCTACTTTTAATAAAGTTAGTTTATCAGAATCAGGATGTTTTCCATACTCTATAATTTGACCTACTACAACATTTTCTAAATTTTTTCCTTGTTCTTCAATAGCTTCTACTTCTTGACCTATCATAGTCAGAGCGTGTTCTAATTCATTTATATTTTCTTTTATTTCTATATAATCTTTTAACCATTTTAAAGAAATTAGCATATCAATCCTCCGTATTATTTTTTAAACTGTTTTAAAAATCTCATATCATTATCATAAAATGCTCTAAGGTCATCTATTCCATGTCTAAGCATTGCTATTCTTTCTATTCCCATACCAAATGCAAATCCAGATACTTCCTTGGGATCATATCCGCCCTCTTTTAGCACTTCAGGATCTACCATTCCACATCCCATTATTTCAAGCCATCCTGTATGCTTACAAAGTCTACATCCTTTACCTTTACATATTACACACTCTACATCCATCTCTGCTGATGGTTCTGTAAATGGAAAAAAATGTGGTCTAAATCTTACATTAGTATCTCCAAATACTTTTTTTACAAATTCTGTAAGTATAGCTTTTAAATTTGCAAATGATATATTTTCTCCTATCATTAATCCTTCTATCTGATGAAACATAGGAGTATGAGATACATCATAATCTGATCTATATACTCTACCTGTTGCTATCATTCTAAATGGTGGTTTATGCTCTTTCATATATCTAATTTGTACTGGTGATGTATGTGTTCTAAGTACTACATCATCAGCTATATAAAATGTATCTTGTAAGTCTCTTGATGAATGAGTTTCAGGAATATTTAATGCATCAAAGTTATAATATGTATCTTCAACTTCTGGTCCATCAGCTATATCAAATCCCATTTCTGTAAATATTCTTTTTAATAAGTTTTGTGTTTCTGTTACAGGATGATATCCACCTTTTCCTATTTTTCTACTAGGTAATGTTATATCAATAAACTCATTTTCTATTCTTTCTAATTTTTCTTTTTCTGATAATTCTTTTAATCTTACTTCTAATAATTTTGTTATATCTGATTTTATCTCATTTACAAGTTTACCAATAACAGGTCTTTCATCATTAGATAATGATTTCATCCCTTTCATTATGTCTGTTATTTTTCCTTTTTTCCCTAAAAGCTGTACTCTAATATCATCAAGTTCTTTACTTGATTCTACTTTTTTTATAAGCTCTTCTGCTTCTTTTCTTAATTCTAATAGCTTATCTTTCATTTTGCCTCCTAAAAATTTTTGCTCTATATAAATTATAATTTTTTATGTATAAATTCTATTTTTTCATCTTCTAATAAAAGTATTCCATATTCTCCATTTATTGCTGCACCTGGATTAAAATAATGAATATCCTTTAACTTTTCATAATAAGCTCTATGTGTATGACCAAATATCACTATATCGTATCCTTTATTTTCAGATTCTTTTTGTATTATATCATAATTTTTCTTTACTGCAAAAAGATGTCCATGAGTTATAAGGAATTTTTTATTTAATAGTTCTATTTCTATAATTTCTTTTGTATGAAAATCAAAAAAATCACAGTTACCTTTTACTATATAAAAATCTTCTTCTCTATCTACTGCAAAACTTAATTCTTTTCCATCTTTAGCATAATCACCAGCAAAAATAACTTTATCTGGATTTTCTTTATTATAAATACTATATATATTTTCAAAATGTGAATGACTATCACTAAGTATTAATATTTTCATTTACTACTCCTAATTTTTTTAATTTTTAAAATAAAAATATAGGTTTATTTATTTTTTCAATTATTTTTACTCCTATTTTCCCTGTAAGTTTTTCTAAAATAAACGAATATCTAAGGTTTCCTATAACTAATATATCTGCTTCGTATGCATAATCTTTTAATATTTCTACTTCATTCCCTATTTCTTCTTTATAGTTTATCTTTTTATCTATTTTATTTAAATATATATTCAAATCTTTCTTCGATTCAGTTTCACTGTTTATACTTAATGCTGTGAATTCTTTTATATCATCAAATAATTTTATAAATTCAAAAAATGATTTATTTATATTCAAACCATTGTCATCAGCTATTAAAATTTTTTCAAAATTATAATGTGCTAATTTAGGTACTGCAATTATAGGTTTATAATGAAGTTTAAATATATTCTTTATTTCATTTTTTAAGTATATTTCTTTTGCAAAAATAAGAAGGTCATGCAATTTCATCTCTTCTAACAATTCATCAGAAGCGTTTCCTTCTTTTGTATAAAATTCTCCTTCTATTTTATTTAAAAATTTTTCTTTTATCTGCTTTTCATGTTTTTGTTCAAGCTCATTCCACTCTGATAATATATAATTATTTGTACTGTCTATTACTAATCCTTCTACCATTGGTGGTATTACATCATACTTACTTATATCTTTTACATAAATTCCTGTTATTTCAATATTTTTATATTTTTTCTTTAATACTTCCATAAAACTTAGTAAATAATCTACCTCTTCCTCTGATGAAAAATATACAAGTACTCTATTTAACATTTTTATCACCCTCTTTTTTTGATTTTCACCCTCTACTTTTATATACCCTTTATATTCAAATATCCTTTATTCTTTTGATTATTTTAGCACATTAATTAAATAAATAAAAGAATGTTTTTGCTATTATTTGCTAAAACATTCTTTTAAATATGTTTTTATATTTTTATTTTCTATTTTGCAAGAACTACTGATGTATGTGCTGGTATTCTCACTTCACCATCTTTAACAATTACTTTACTATTTTCTATATGCTCTATACCCGCTTTTTCTCCATCTAATATAATTTTTGTATTTTTGTCTATAAACATATTTTTTATAATTAATTCATCTTTTTTTACATTATGAACAACCAATAGATATTTAAAATTAGTTTCATCAATATTATCTTTTTCTAAAGTATTATTAATAATAAATGCAATATATTTATTATTGTCTATAGACATATCTTTGTCAATAAATCTCACTGCTTTTTGAATATTTTCTGTATATTGATATCTAAATCCTTTTATAGCTCTTTTCATTTTTATAAGTCCACAATAATACTCATATACTTTTTTAAAATCTTTATCATTTTTTCTATTCCATCTATACATATTTACAAAATCTGATGAAGCATATGTATTTTCATGAAAATGTTTTATTCCTAAAGTATCTTCTATTTCAATAATATTTTCTGAAGTATGGGCTCTATTTGATTCTGGGTCATCTTTTGCAAGTGGTTTTGTTCGAGCTATTTCTACTCCTCCATGTATAATAATCTTTCCTTGAGATGTAAATAACATCACACTTGCTTGCTTTAATATTTTTATTTTTTCTTCTTTACTGCCTTTAAATGATAGATTTATCTTATCCCATAAAGTAAAACCATCATGAATAGATAAATATTGCAATACTTCATTTGGAGAATGTGCAAATCTATTGTAAATATCTTTATTAATATCTACATCCTTACCGCCATTATCAAAATAAATCAAATTTGCTATTATCCCTGTTCTACATATAGAGGCGAGAGAATAATCTCCTTGAACAAAGCCTTTATTTTCCATTCTTCCTGCATAAGCATCTCTTGTTGTATCATTAAACATTGCTAAATCTATCCCAAGAGGGTAATATTCTGGAAAACCTTTTATTGGTGCTTCTTTTACATCTAAGTCCGTAAAATTCCATGCTTCTCCGTGTAATATAATATTATCTCCTAACGCTCTTCTTATTTCTCTTATTGTTTTAGTATCAATAAATCCCATTAAATCAAATCTAAATCCATCTACACCATATTCATCTACAAAAAATTTTAGTGAATCAATAATTAATTTTCTTACCATTTCATTTCTTGTTTCAAGCGATGGTCCTGCTCCTGATTTTAATGATATATTTTTTTCTTTATCATATCTATAATATTTTCCTGGTGCTATATTTTCAAATATATCATAACCGTAAGTATGATTATATACTACATCTATTATCACACCTATTCCATTTTCATGTAATTTTTTTACTAAATATCTAAATTCTCTTATCCTAGTATATGGATCTTTTTCATCAGTTGATAACCATCCCTCTAATGTAAAATAATTATGCGGATCATATCCCCAATTATAGTATTTTCCTCCTCTATCTCTAAAATCTCTATCTCCTTCATTTACAGTATAATAATTTTGAATAGGCAAAAATTGAACATGTGTAATACCTAATTTCTTTAAATGTTCTATTCCTTCTGTATAGTTTGCAAATCCTAAAAAAGTTCCTTTTCCTTCTACATTAGTATTAATAGTAAAATCTCTTACATGTACTTCGTAAGCTATAAGTTCTAAACTATTTTTTAGATTATTCATCCCTATACTTCTGTCTTTTTCACCTGCTTTTTCACTCTCCATATCTATTATTGCTGCTTTACCTATTTTATCCTCTAAATGAGGATTAAATCCTGCCATTGATTTAGCATATGGATCAAGTCCTCTTCTTTTTTCTCCATTTTGAAGTTCTATCTCATATTGATAAAAATATCCATCAAAAGTAGAAACTTTCATTTTGCTATTTTCTAAATAAAATTCCCAATACTCTCCATTTTTATTCATATAAAAGCTATTTAACTCTTTATTTGAATCATTTTTATCATAAATATAAACTTTACACCTTTTTATATCTGGTGACCATAAATAAAAAAATACTCCATTTCTATCTAATGTAGCTCCTAATTTCTTATACATTTTACCATCTCCTATTTTTATTTTTCTTCTCTCTAAAAAAGAGTATACTATAATTTTATTTTTTTGAAAATGTTTTAATTAAAAAAATTATATAACCAAAAAAATATTTTCAATATAAAACCTAAACGTTCTATAATTGAAATTTTAATCTTTTTTTTAAACTTTTATTGACTTTTTGATATTTTTTATATATACTAATAATGTAGATTTAGTAAAACGTTTTACCAAAGTTGGTGATAATGATTTGAAAAAAATTACAATTAAAGATATTGCTAAATTAGCTGGAGTATCTCCTTCTACTGTTTCTAATGTTATTAATGGAGTTAGTAAATGTTCTACAGATACTCGAGATAATATTTTAGCTTTAATCGAAGAATTAAACTATAAACCAAATATTACTGCAAAATCTTTAGTGACAAAACGTTCAAAACTTATTGGTTTTGTGTTTAAGCAAGATAATGAAAATTCATTTTTACAAAATCTTTTGTATGGAATACAAAGTGGAATTAAAAATTTTCCAGAATATGATATTATTACTACAAATATAAATAATAGTTATAATTTAGAAGAATGGATAACAAAACGAAATCTAGATGGTATTATATTTTTAGGAATGTTTTCTAGTAATTTAATATCAAAAATTCAAAGATTAAATATTCCAATTCTTCTTATTGATAATTATTTTGAACAAATACCTAATATAAATTATGTCTATTCTGAAGATACACTTGGTGGTTATTTAGCTACAGAACATTTAATTAAAAAAAAATGTAAACATATAGCTCTTGCTACAGGTTCTTTAAAAGAAAATGAACTCTTTTTTAGAAGATATCTTGGTTATAAAAGTGCTTTAGAAGACTATGGTATAAAATTAGATGGAAATTTAATATTTGAAAGTAAACATATTGATTTTAATTCTGGAAAAATATTAGGTGAGCTAATAACTCAAAATAAAAATATCGATGGCATCGTTTCTTTAGCAGATATTTTAGCAATTGGTATAATAAAAAGACTCAATAAAGAATATAATAAAATACCAGATGATATTTTAATAATTGGATTTGATAATATCCCTGGTTGTGAATACACTACACCACAACTTTCTACTATAGATCAAGGAATATATGAAAAAGGTTATAAATCAATAAATATATTAATAAATAAAATAGAAAATAATAATAAAGATTCAATAGAAGTACAAATCCCAATCAAAATTATTGAGAGGGAAAGTACGAAAAAATAATAAATTTAAAAAGAGGAGTTGATTACTTTGGCTGGAGTAATTTTAAAAAAAGTTGAAAAAACATATCCTAATGGTTTTAAAGCTGTTCATGGAATTGATTTAGAAATTAAAGATGGAGAATTTATGGTATTTGTTGGTCCATCTGGATGTGCAAAATCTACTACACTTAGAATGATTGCTGGATTAGAAGAAATAACTGGAGGAGAAATTTGGATAGGAGATAAATTAGTAAATGATTTACCTCCAAAAGATAGAGGAATAGCAATGGTTTTCCAAAACTATGCATTATATCCACATATGAATGTATATGATAACATGGCGTTTGGATTAAAACTTGCTAAAGTTCCTAAAGATGAAATAGATAAAAGAGTTAAAGAAGCAGCTGAAATGCTTGAGTTAACTGATTTATTAGATAGAAAACCAAAAGAAATGTCTGGAGGACAAAGACAAAGGGTTGCAGTTGGAAGAGCTATTGTTAGATATCCGGAAGTATTCTTATTTGATGAACCATTATCAAACCTTGATGCAAAATTAAGAGTACATATGAGAGTTCAAATTACTCAATTACATCATCAATTAAAAGAAATGGGAAAAACTGCTACAATGATTTATGTAACACATGATCAAGTAGAAGCTATGACAATGGGAGATAGAATATGTGTTCTTGAATTTGGTAGAATTAAACAAGTTGATACTCCATTAAATCTTTATAATAAACCAAAAAATAAATTTGTTGCTGGATTTATCGGATCACCTGCAATGAATTTATTAGAAGCTACTTTAACTGAAAAAGATGGAAAAATATATGTAGATGTTGCTGGTACAGAATTCTTATTACCTAAAGAAAAAGCTGAAAAAGTAAAATCACATGTTGGTAAAAAAGTATGGTTTGGTATTAGACCTGAAAATATCTTAAATAAAATTACTAATCCTAATGAAACAGCTAACTATGCTAAAGGAAAAATATCTGTTGTTGAACAAATGGGTAATGAAGTATTCTCTTATTTTTCAATTAATGGTGTTCAATATACTTCAAGAATTCCTTCTGATAAATCAGGAGAAATTGGTAATGGTATAGAATACGATTATTGGTTTGAAATGGATAGATGTCATATATTTGACTATGAATCAGAAGAAAATATCAGTTTATAATATAGTAAATAAAAAGACAGCATATAATGCTGTCTTTTTATTTATATTAATATCTAGAAACATTTATCATGAATAATTAAAATTTCCAAAAATAATTTTAAAATAGGGAAAAGCTGCCATGATAGCAGCTTTTTGTGTGGGTAATTGGTTGGGTGTGGTTAAAAGGTATTCAATTAGTCAGTTAAATTAAAAAATATAACTTTCTAACAATTTGTTCTTCTATAGGATTCAATTCCTATTTCCAGACAAAAATATTCTATCATATTTATTCATAAATTACAAGCTTTTATTTTCTATTATAAAATGATTTTATCAAAATTTTTAAATTATTATAAATTTTTCTTCATAAAAACTTCCCTTATCTAAACCTATCGTTACTATATTTTTTCTACAATTTTTACATAATGAATATACTCGAATACTATCCTCTTTTTTATCAATCTCATTACTTACTTCTCTTTTTAATTTTATTATTTCTTCTTTACTTAGTTCTGATTCAAATACACTATATTGCACTCTAATACCATAACGTTCTAAACATTTAACTAATTTTTAAAAAATATATAAATTTTAATAATTTAAATAAAAATATCACTTTTTTACTTTAATTTTATTTTACCTTAATAATTTTCTTAAATCAAATAATTTTACAAAATATTTTTATCTACTTTTTATTTATTCAGTTTATTTTTTAATTCTTTTGCAAATACATATATGTCATTGTATTTTTTTACATTGAAGTAAATTTTTTCTTCTTCTATTTTTCCATGGCCAGTTCTAACAAATACAGGTTCAATTCCTAATTTAATCGCTCCCTCTAAATCGCTAAGTTTATCTCCTATCATATATGAATTTAAAAAATCTATATTATATTTTTCTTTAGCTTTTATAAATAACTCTGGTTCTGGTTTTCTACACTTACACTCTATAGCATATTCTTTAATTTCTCCTTTAATATGATGTGGACAATAATAAAAATCATCTATTTCTATATCATATCTTTCTTTTAATATCTTATTTATATACTCATGTAATATTTTTACATCATTTTCACTATAATATCCTCTTGCTATTCCCGATTGATTAGTAATAACAATAACTAAATATCCTAGTTCTTTAAATATTTTAATTGCTTTTTCACTATTTTTAATAAATTCAAATTCTTCTATTTTATGTAAATAATTCTTTTCAATATTGATAGTCCCATCTCTATCAATAAATATGCACTTTTTCATATATCTCCTCCAATATTTATTATTACAATATCTACTATTGTATTACAATAAAATCAAAAAATCAAAATAAGCTATCTTTTTATAGATAGCTTATTTTAATATATATGGTGTTTCTTGATATACATAGTAATTTAACCAATTTGAAAATAATAAATGAGCATGTGCTCTCCAAGTAACTAATATATCATTATTAGGATTATCGTCTATAAAATAATTTTTAGGAATTTTTATATCAATTCCTCTTTTTATATCTCTCTCATACTCTTTTTTTAAAGTATCTTTATCATATTCTGAATGTCCTGTGATAAATATATGCTTTCCATTCTTTGAAGTTATTATATGTGCTCCTGCTTCTTTTGATTCTGTAAGTAATATCAAATCTTTATGATTATTTATATCCTCTATTTTTACTGTTGTATGTCTAGAATGTGGAGCATAAAATACATCATCAAATCCTCTTAAAAGTTTTGTGTTTTTTACATAAATATCATGTTTAAACACTCCAAATTGTTTTTCTTTTAACTCATATTTTTTTATTCCATAATTATAATAAAGTCCTGCTTGAGCTCCCCAACATATATGTAGTGTTGAAGTTACATTTTTATTTGCGTAATCCATTATCTTTGTAAGTTCTTCCCAATATTCTACTTCTTCAAATTCTAAGGTTTCAACAGGCGCTCCTGTAATAATAAGTCCATCAAATTGATGTTCTTTTATCTCTTTAAAGGTTTTATAAAAACTTTCTAGATGCTCTTTTGATGTATTTTTTGATTGATAAGTAGCTGTTTTTAATAATGTTATTTCTGTTTGAAGCGGTGTATTTCCTAACAATCTAAGAAGTTGTGTTTCAGTTTCTATTTTTGTCGGCATTAGATTTAATATAAGTATTTTTAATGGTCTTATATCTTGATGGTTTGACCTTTCTTCATTCATTATAAATATATTTTCATTTGATAAAATATCATGTGCTGGTAGTTTTTTAGGAATAACTATTGGCATTCGATCACCTCTTTTTGTATTTATATAATGATACAAAAAATACTAAAAAAAATCAACTATTTTTTCTCTCGCATTCTTCTCCCACACACTCACTAAGTTGTATATTAAGTGCTATTACAGATAAATTTATTTCTATTGCTGAATATATAAGAGATAACATTAAAAATATTAATGAAATTACAAATAATATTTCTCCATATAATATTTTATCAAAAAATATTAAAAACATAGAAAACACACAAAAAAATAATGATAATATTGCTAAAAATTGCATATCTCTAATGAGTTTTATTCTTTTTTTTAAAGAATTTATTTGTGATTCTATAATATATGTTGTTTTATTTTCTTCTTTTTTTTTGTCATGTAAATTTCTTATAAGTGAAGCTATTGCAAGAAATCTATTTGTATATGCTAAAAGCAAAAGTGATATTGTAGAAAATATAATAGCTGGTGTTGTTAATGTTATTCTCATTTTACTCCTCCTATTTTATTTTTTATTTTTCTAAATAAGAAAATGTGTATTCATTACTTAATAATATCTCTTTTATTAAATAATAAAAAGCTATTAATATATTTATTATAGATACTATAAAAAAATATAAAACTATTTTTTCTATAAATATATTTGATAATATTGTTAAAATATCAAATATTAAAGAAAATATAGAAAAAAACATTATTCTTTTTATATAATTTATTCTTTTATATAATATTTCTATTTTAAATCTATCTTTTTTATCTATTTTTTCTCTTATAAGAACTGATATCTTATTAAATCTATCCACATACGTTGTCATTAAAAGAGAAATTCCAGAAAAAATATAAGAATATATATTAATATCTAACATACTTTCACCTCATTAAATATTTATATCATTTTTTATTTTTTTAGTCAAAAAAAATTTTTTAACCAATAATATTAAAATTTTATATTTTAAATAAATTAATTTTATTTATTTTTTTCTCTATTCTTTTTTTATGATATAGAATATAATAAAAAAGCTGCCTTAAGGCAGCTTTTATCTTACATTTAATCCGTATTCTTTCATAATATTTTTAGAGTTTTCGACTCTTTCAAATGTAGGAGAATCTACTTTATAAAGTTTGTATTCCATTCCAAGTTCTTTCCATTTATATTCTCCCATTTTATGAAATGGTAAAATCTCTACTAAATCCACTGTTTTTAAATTTTGGCAAAATTCACCTAATTTATGTAAATAATTATCTCTATCTGTTATTCCTGGTACTAGCACATGTCTTATCCATATTTTTTTATTTATTTCTGATAAATATTTTGCAAATTTAAGTGTATTATCAAGCTTAACAGAAGTCAAATCTAAATATTCCTTTTCATCCATACATTTTATATCTAAAAGTACTAAATCTACATATTTAAGAACTTCTTTTACTTTGTCATTAAAAATATATCCACTTGTATCTATAGCAGTATGTAACCCTTCTTTTTTACATTCTTTTAATAACTCTTTAACAAATTCTAATTGAACTAACGGTTCTCCACCTGTTATTGTTACTCCACCTTTAGGATAAATAAAGTTTTTATATTTTTTTATTTCATATAATACTTCTTCTACACTTCTTTCATATTTTGCCTTATTTATATCCCATGTATCTGGATTATGACAATATTTACATTTTAAAGGACAACCTTGCATAAATACTACAAATCTTATCCCTGGTCCATCTACAGTACCACATGTTTCATATGAGTGAAGTCTGCCTTTTATATTCATATTTACTCTCCAATACTAAAATCTTTCTGTAATTGTTCTTTTAATTACATCTAATTGTTGCTCTCTTGTAAGTCTTACAAAGTTAACCGCATATCCTGATACTCTTATTGTTAATTGAGGATATTTTTCTGGATGTTCCATTGCATCTTCTAATAATTCTCTATTAAATACATTAACATTTAAATGTTGTCCACCATTTGGTGTGAAATATCCATCCAATAAATTTATTAAATTTTCTTTTCTATCATTTTCATTTTTTCCAAGTGTTCCAGGAGTAATAGCAAATGTATATGAAATACCATCATGTGCATGTTCAAATGGAAGTTTTGCTACTGATGATAATGAAGCAAGTGCTCCTCTTCTGTCTCTACCATGCATAGGATTTGCTCCTGGTGCAAATGGTTCTCCTTTTTTTCTACCATCTGGTGTAGAACCTGTTTTTTTACCATATACTACATTTGATGTAATTGTTAATATTGATTGAGTTGGTATAGCGCCTCTATAAGTATTATGTTTTCTAAGTTTATTCATAAAATTTTTAACTACTTCTACTGCTAAACTATCAGTATCATCGTCATTATTTCCAAATGGTACATATTCTCCTTCTATTTCATAATCTATTGCTAGTCCATTTTCATCTCTTATTACTTTAACTTTTGCATTTTTTATAGCAGAAAGTGAATCAGCAATAATTGATAATCCTGCTATTCCAAAAGCTTCTGTTCTTTTTACTTGTGGGTCATGTAATGCCATTTGAAATGCTTCATAATTATATTTATCATGCATATAGTGTATAATATTTAGTGCTTTTACATATACCCCAGCAAGCCATTCAAGCATATTATCAAATTTTGTCATTACTTCATCAAAATCTAAATATTCTGATGTTATTGGTTCAAATCTAGGTGCTACTTGTACTCCGCTTTTTTCATCTACTCCACCATTTATTGCATATAATAATGCTTTTGGTAAATTAACTCTAGCTCCAAAAAATTGCATTTGCTTACCTATTCTCATTGGAGATACACAACAAGCTATTCCATAATCATCACCAAATTCTGATCTCATTAAATCATCATTTTCATATTGAACTGCTGATGTATCTATTGAAACTTTTGCACAATATTTTTTAAAGTTTTCAGGTAAATTTCTAGACCATAATACTGTCATATTTGGTTCTGGAGCAGGACCTAAGTTATAAAGAGAATGTAATATTCTAAATGAATTTTTAGTAACTAATGGTCTTCCATCTACTCCCATTCCTCCAATTGATTCTGTTACCCATGTAGGATCCCCAGAAAAAAGATCATTATATTCTGGAGTTCTTAAAAATCTAACTATTCTAAGTTTCATTACAAAATGATCCATCAATTCTTGAGCTTCTTTTTCTGTAATTACTCCATTTTTTAAATCTCTTTCAATATAGATATCTAAAAATGTTGATACTCTTCCAAGTGACATTGCTGCACCATCTTGATCTTTTGTAGCAGCTAAATATGCCATATAAGTCCATTGTATAGCTTCTTTTGCATTTTCAGCTGGTCTTCCTAATTCTAAACCATATGCTTCTCCTAATCTTTTTAATGCTTCTAATGCCTTAATTTGTTCTGTATACTCTTCTCTATCTCTTATAGTTTCTTCATTCATATCATGTTTTGTACTATTTTTTAATATTTCTTTTCTTTCATTTATAAGTCTATCTACTCCGTATAGCGCAACTCTTCTATAATCTCCTATTATTCTTCCTCTACCATAGGCATCTGGGAGTCCTGTAACTATACCGCTTCTTCTAGCTGCTCTAATGCTTTCATCATAAGCTGAAAACACTCCATCATTATGAGTTTTTCTATATTTAGTAAATATTTCTTCTGTTGTTTTATCTAATTCATACCCATAAGCTGTTAAAGAATTTTTAACCATTCTTAATCCACCTTTTGGATAAATACCTCTTTTTAGTGGTTTATCTGTTTGAAGTCCTACTATTTTTTCTAGTTCTTTTTCAATATATCCAGCACCATATACATCAATTCCTGAAGGTAATTTAGTTTCTGCATCATATACACCTTTTTCTCTTTCAACTTTAATCATTTCCATTATTTTTGTCCATAAGATTTTAGATGCTTCTGTTGCTTCTTCTAAGAAAGATTCATCCCCCTCGTATGGTAAATAGTTATCTTGAATAAAAGCTCTAACATCTATCTCTTTTTGCCACTCTTCACCAACAAATCCTTCCCATGCTTTCATAATTATTCCTCCTTAAAATTTTAATTCCTACTTAACCTTGCTCTCTTATACGTGAATGATATCACTACTTTCAATTTTTGTCAAGTATAATTTAATTTTTATGATTATTTTTATTTTTTGTATAGTTTAACTTCACATTTTTATAATCAAAATATTGTTTGTCAAATATTTAAAAAAGACAAACTAGAGTTTGAAAAAACTTTAGTTTGTCTTATAATTAAATACTATGTTTTTTATTGATATAAATTTTAATCCTTTTATTTTATGTGATAATTTTATCTTTTCTTTTGGGTTAACTATTTTTAATTTTAATTCTCTCTTATATTTTCTTTTTATTAAATTATTATATAAAAATTTTCTTGATTTATTTTTATTTGATATCAATATTAGAGGAAATAGATATAATCTTAATAATTTATCTATAATATATATATAATTATTTCTTGTCATCTTTCCTCCTTTAATATTGTTTTTATATCTTCATACTTAAACCCTTTTCTCATTAAGTATTCAATTTGTTTATTTTTTTCTCTATTTCTTACTTTTCTTAAATTTTTTCTAATATTTTTATATTCATTTTCTTTTATTTCTTCTCTTAACTCTTTTATTTCTTCTTCTAATATTTTTTTTTCAGCACCTTTGATACTTAATTCATATTTTTTTTTCTCTATACTAGAATTTTTATTTTTTATATAACTTTTAATAAAACTTCTATCATCTATATATCCTATTTTTTCAAGTTCATCTATTATTTCTTCAATAATTTTTTTTTCAACAAAAAATTTTGTTTCAAGTTTATATTTTAACTCTTTTTTTAAATAATCTCTTTTACTTAAATAATAAAGAGCTCTAGACTTAATAATAGATTTTATTATTATTCTATATTCTTCTTCTGATACACTTTCTTTTTTTATTAAATTCAACTCATATATTATATCATTACTTATATAATATTCCTTATCATCTATTACTATTTTATTCCTCTTCAGATAAAACTTCTTCATTTACTTCCTCTATATTTTCATTTGGAAATAGTACTTCCTTTAGTTTATTATAAATTTCTTCTCTTAATTCTGTATCTTCTTCTAATTTTGCTCTTACATTTTCTCTACCTTGACCAAGTCTTACATCTCCATAACTAAACCAAGCTCCTGATTTTGATACTATATCATTTGCTATTGCTAGATCAAGTATTTCTCCTACTTGTGATATACCTTTTCCATACATTATCTCAAATGAAACTTCTTTAAATGGTGGTGCTACTTTATTTTTTGTTATTTTTACTTTTACTTCATTTCCTATAATTGAATCACCTTGTTTTACTGTAGATATTTTTTTTACTTCAAGTCTTATAGATGAATAAAATTTAAGTGCTCTTCCTCCTGTTGTTGTTGTTTGAGGTCCAAATCCAAATCCCCCTATTTTTTCTCTTATTTGATTTATAAATATCATAGTAGTTTTTGATTTATTAAGTGTTCCTGTTAATTTTCTAAGAGCTTTTGACATAAGTCTAGCTTGAAGGCCCATTTGTTGGTCTCCCATTTCTCCGTCTATTTCTACTTTAGGTACAAGTGCTGCTACTGAGTCCACTACTATAACATCTATTGCTCCACTTCTTACAAGCATATCAGCTATTTCTAATGCTTGCTCTCCATAATCTGGTTGAGATATTAATAATTCTTCAGTATTTACTCCAAGTGCTCTAGCATATTGAGGATCAAGTGCATGTTCTGCATCTATAAATGCTGCTACTCCACCCATTTTTTGTGCTTCTGCTATAATATGAAGTGCTAAAGTTGTTTTTCCTGAACTTTCAGCTCCATATACTTCCACTACTCTCCCTCTAGGTACTCCACCTATACCAAGTGCTATATCTAAGTTTAAACTACCAGTTGGAATGCTTTCAACTTCCATTTTAGCATTCTCTCCTAATTTCATTATTGATCCTTCTCCAAAATCTTTTTTTATCTGTTTCATTGCCATTTCTAATGCTTGTTCTTTTGAAATATTTTTTGATTTTGCTGCCATTTTTTCCCCTTTCTATTCAAATATCTCTTTTAATATTTTTATATCATCAATAGCATATTTCCCCTCAAATACTATATAAGGTCTCTTAGGCTTCATTTGACTTTCATATTCTTCTAATTTTTTAGGTGATATAATTAAAAAATCTATGCTTCTTAAAAATTCTTTTAAGCTTACTTTTTCTTCACTAAAAATCTTAAACTCTTTAATGTTCATTCTTCTAAACTGTCTATTGATAATTTCCTCTTCTTGAGCATCTTTACCTATTATTCCAACTATTTTATTTTTCATTTTTTTACCATAATTAAGCAATTTTATACTTTGACTTATTCCTAGTGTAAATATCTCTTTTTCTTTAAATTTTTCTAAAACTTTACTTACTTCATTATAATGAATATATGGAATAATTATAAGTTGTATATCTTCTATCTCTTTTTTTATTTTTTCAGAATTTTCCAATAAATCATCTATAAGAATACCTCTAATTTCTATATTACCTATTTCTTTTTTTACCATATCTTTAAAATCTTTTATAGAACCTTGATTACATTCTATTAATGCTGCTTTTTTTATTTCACCTTTTAATATCATAAATTTTAGATAATGGCTTTTAAAATATGTCATTCCTATTATTTCATCAATATCTATTCCTTCTTCAATTCCTTTTTTTAAAACACTTTCTATTTCTTTTAAAAATTTAATTTTTTTATTATCTCTTTCATATTTTACAAAGGTTCCTTTACCTTTTAAAGATTCAACATAACCTTCTTCTTCAAGTTCACTATAAACTTTTGATACAGTATTTTTATTTATTTGTAAAAAATCTCCTAATTGTCTTACTGTTGGTAATTGTTCATCATTTGATAATTCACCGTCAATAATTAATCCTTTTATTTGTTCTTTTAATTGTGTATGGATACTCAAGTTACTGTCTCTATTAATTTTTATCTCCATTATTACCACCTTGTTTAAAATATTAATTAAATTCTACTATATTACTTAAGTTTTTTCAAGAAAAATAACCTTTCTTTATTTTTTAAATTTTTTTTATATAAATTTTTTTAAAGAAAATATAAGCCAGTAAAATCTTATTTACTGGCTTATCAATATTATTCTACTACTGAATATTTTTCTAATAATTCTTTTTCTTCTTCTTTTTGTTTTTCTATTTCAAGTTTTTTTATAGATAATTTCACTTTTTTATTCTTATTATCTATCTCGATTATCTCAGCTTCAATTTCATCTCCCACTTTAAATTTATCATTTAAATTTTTAATAAAATCTTTTGATGCTTCTGAAATGTGTATCATTCCATCAACACTTTCTTCAATTTTTAAAAATATTCCAAAATCTGTAATATTATTAATTTCTCTTTTTACTACATCTCCTACTTTATAATTTTCTTCAATAATTTCCCATGGACTTTTTGTAAGTTGTTTTATTCCTGCTTTGATTTTTTTATTTTCTTTATCTATTTCGATTATTTTTACTTCTACTTCATCTCCTATTTTATAAAGACTACTATCTACTTTTGACCATGAATAGTCTGATATATGTACAAAAGCATCTACATCATCTAATAACTCTACAAACATACCAAAATCTTTTACATCTACTACTTTTCCTTTTACTACCGTACCTATTTCAAATTTTTCCATAGCCACTTCCCAAGGATTTCTTTGAAGTGCTTTTATTGATAATTTTAATTTTTTATTTTCTTTGTTTAATTCTATTACTTTTACTTTTACTTCATCTCCTACTTTTACAAATTCTTCAATATTTCTTATTTTTTTTGACCAAGTAAGATCTGATATATGTACAAGCCCTTCTATTCCTTTTTCTAATTCAACAAATATTCCAAATTTTACACTTCTTACTACTTTTCCTGTTACTTCACTATCTAAAGGATATTTTTCTTCAATTGTATTCCAAGGATCTTCTAATAATTGTTTTATTGATAATTTTACACTTCTATTTTTTTCATCTTTTTCAATTACTTTTCCTGTTACTTTATCTCCTACTTTAAATATATCTCTTAAATTATTTATTTTTTCCCAACCTACTTCTGAAATGTGTATAAAACCAATAATATTTTTATATTTTACTGATAATCCAAAGTCTAAAATATTTTCTATTTCTACTTCTACTATATCTCCTACACTAATTTCAGATAAAGTTGTAATTTCTTTTTTTAATAATAAATCTTTTGCAGATACAAGTATTTTTCTTCTTTTTTCATCTTTTACATCTTTTACTGCTACTTCCAATTCTTTTCCAACAATATTCTCATCTTTTTTAGCTGTAGATAAAGAATTTGGCATAAAAGCATTTAATTTTAATACATCTACTATGTATCCACCTTTTACTTTTTTTATTACTTTTCCTTTTAATGGTGTTTGGTTTTTCAATGCTTCTTTAATTTTTTCAAAATTTTCATTCATTTCTATATTTCTTCTAGATACTCTAATACCTGTTTCATTTTCTTCTATTATTGATACTTTTATAGTATCTCCTATTTCATAATCTTCTACTTCCGAAGCTAATACAACCGCTTCTAATTTAGAATTTATGTCTAAATAAGCATATTCTCTTTCTTTTCTAATTATTGTTCCTTCTACTTCTTCTCCTCTAGAAACATTTTCTGGTAAAAAATCTTCTAAAAGTTCTTCAAAATTTGTCATATCATTCATTATAATATTTCCCCCTTCAACATTTTTTCAATTTCATGTATACTTTTTTCAGGTGTTGAAGCGCCAGCAGTTATTCCTACTACATCTATCCCTTCAAACCATCTTTTATCTATATCTTCTTTTTTTTCAATTAAATATGTATTTTTATTTAAATTTTTTCCTATATTATAAAGTTTTTTAGTATTGCTACTTTTATTACTTCCAATTACAAGTAATAATTCAACTTGTGTTGCTAATTGTTCCGTTGCTCTTTGTCTTTCAAATGTTGCTCCACATATAGTATTAGCTATTTCATAATCAATAAAATTCTCTTTTATATACTCTTTTATTTCATTAAACATATTTTTATTTAATGTTGTTTGAGCTAAAATTAAATATTTTTCTTTTTTATTAAGAACTGAATTTTTTAATTCATCTAAATTTGCGAAAATATTTACTTTTTCTTTTCCATAACTAATAATCCCTTTTACTTCTGGATGATTTTTATCACCAATAAAAATAATTTTATAATTTTCATTTATTTTATTTTTTAATATATCTCTTGCTCTATTTACAAATATACATGCTGCATCATATATTATTGAATCTGTATCAGATATTTTATCATATACTTCTTTTACTGTACCATGTGCTCTTACTAAAATAGCATCTTTACTTGTAAATTTATATTTATTATTTAATATATCTTCTTCTGATATAATTTTTGCCCCTTTTTTTATTAAATCTTCTATTACTATATTATTATGTACTAGCATACCTACTATATACACATTTTCAAAATTTTTCGCAAGTATTTCTTCTGCTAGATTAACTGCATTTTTTACCCCTATACAAAATCCCATTTTTTTTGCATGAACTATTTTTTTAATCTTCATTAAATTTATCTACCTCTATTAATTTTTGTAACGCTTGTAGAACTTCATCTTCATCTGGACCATCTGCTATAAGTTTTAATTTTCTTCCCTTTTCCGCAGCTAAAAGCATAAGTCCCATTATACTTTTTCCATTAACTTCTTCACCGTCACTAATTACTGTAACATCTGCATCATATTCTCCAGCTATTTGCACAAATAAAGAAGATGGTCTAGCATGAAGTCCTGCTTCATTTTTTATTTCTACTTCAAGCTCTTTCATTATACCACTCCTATTAATAATTTTGTTATTAATTTTTTTATTTCTTGACTATTTTTTGCTTTTAATATTTTTTCTTTATATTTTTTTATCTCTTTTAAATCTATAGACTTAATTATTTTTTTTGCTCTAGGTATAAAAGATGGTAACATACTCAAATCTTTTATTCCTAATGCAATTAATAGGATTATAGCTATTGGTTCTCCTGCCATTTCGCCACATACACTTACTTTTTTATTATATTTTTTACCTATTTCAGATACATGATTTATTAAATTAAGTATCGCTATATCATATGGATCATATATATTTGATACTAATTTATTCAATCTATCTGCTGCTAATACATATTGAGTGAGGTCATTGGTTCCTATGCTAAAAAAATCAACATACTCTACATATCTTTCTGCCATAATCGCTGCAGAAGGAATTTCTATCATTATTCCTACTTCTATATCTTTTTTATAATTTAATTTTTCTATTTCTAATTCTTTTTTTACTTCTTCTAATATAGTATTAGCTCTTACAACTTCTTCTACTTTACTTATCATAGGATACATTATTTTTATATTTTTATTATATCCCGCTCGAAGTATTGCTCGAAGTTGTGTTTTAAATATATCTAAATTTTCCAAGCAAAACCTTATTGCTCTAAAACCTAAAAATGGATTTTCTTCATGTGGCATATCATAATATCCTAATTTTTTATCTCCACCTATGTCCAATGTTCTTATAATTAATGGTTTATTTTCAGGAAGTGCACTATACACTTTCTCATACATTTTTATTTGTTCATCTTCACTAGGAAACTTATCATTTTCCATATAAATAAATTCCGTTCGAAGCAAGCCTATTCCATCACATTTAAATTCTTTTAATTGCTCTATTTCTATATCTCCACCTATATTTACATGAAGATTTATTTTTTCTCCATCTAAAGTACTAACATCTTCTACTTTTAATTGATCAATTTCTTTTGAAAATTCTTCATATTTTTTTTCATAAATTTTATATTCTTTTAATATTTCTTCTTTTGGATCTAATATTACTAATTGTTTATCTAATCTACTATCCAAAATAATATCTTTATTTGGATCAATATCTAAATACATAATATTTTTTACACCAATTAGTGTTGGGATACCCAAAGATTTACATAAAATAGCTGTATGTGATGTTTTTCCACCTTCTTCTGTTATTATTCCAAGTATATTTACTCCATCATGATAAAATTTTAATAATTCAAAAGGTTGTAACTCTTTTGCTATTATTATTTTATTATCTATATCTTCATTTTCAGGTGTTATATATAATAAATTTTCTATTATTTTTCTTCCTACTTCACTTACATCATTTGCTCTTTCTCTATATAAAGGGTCTTTCAATGATTTAAACATTTTTATATATTTTTTTATTACCCTATCTACTACTACTTCAGCATTTATCATATCTTTTTCTATTTTATTTTTTACATCTGATAAAAATACTGGATCTTCTAAAATCATAAATTGTACATTTAATATTTTTAATTCATTTTTATTTATTCTATCTTTTAAAGAATCCATAAGATGTCTTATCTCATATCTAGTATCATCTATTGCTTTTTCTACTCTAATTATTTCTTCTTCAATTTCATTTTCTTTCAAAGAACGAGCATCGATTTTTATCTCTTTTTGTTTTCTAAGATATGGTTTTCCTATTACTATTCCTTCAAATATTGAAGTAGCTTTTATCTTTTTCATATTTTAGACCTCTTTAATATAAAATTATATATCTCACATAATTATATATTATTTTAGTTAAATTTTCAAATATTATTACTATTAAATTCCTTTATTTTATTTACCTTATTATTTTTATTTTTGTTTATATACATTTATAATTATAAACTATTTTTTTATATGTGCTATTAGTAGAGCTATATCATGTCCTGTTACTCCTGATATTCTAGAAGCTTCTCCTATAGAAAGAGGTTTCACTAAATTTAATCCATCTTTTGCTATATTTGATATTCCTTTTATATTATCATAATTAAAATTTTCAGGAATTTTCATATTTTCAAGCTTTTTAAATTTCTCTATCTGCTTTTTTTCTCTTTCTATAAAAACACTATATTTTACTATTGTTTCTATTTGATTTGTTACAAATTTAGGTAATTCTAATATATCTACAAATCCTTTTAACGAATTATAAGTTATTTCTTTTAATTTCAACAATTCATAAGCTGTTAATCCCTTTGTTACTCTTTCTGAAGCTCCAAGCTTTTCAAGTAAAATATTTATCTCTTTTTTAGTTATTTTTATTTCTTTTAATTTCTCTATTTCTTTTTTTATTATATTAATATAATTTTCTAATTCAGATAATTTTTCTTTTTCTATTATTCCTATCTCTTTTGCTTTATCAAATAATCTTATAAACGCATTATCAAATCTAAGGGTAAGTCTATACTCTGCTCTTGAAGGTAATACTCTATATGGTTCTGGTGTTTTCTTATGAATTATATCATCAATAAGAACTCCTATATAACCTTCTGTTCTATCAATTATCATAGGTTCTTTATCATCTATTTTTCTTACCGCATTCACTCCTGCTAAAAAACCTTGAGCAGCTGCTTCTTCATAACCAGATGTACCATTTATTTGACCCGCTAAAAATAAATTTTCTAATATTTTATTTTCTAAATTCATTTTTAATTGATAAGCAGGTATATAATCATACTCCACTGCATATCCATATCTTACTATTTTAGCATTTTCAAGACCTTTTATTGTTCTCAACATTTTTTCTTGAACAAATGGAGGCATTGCTGTAGTTAAACCATTTACATAAATTTCATTACTTTCTATACTTTCTTGTTCCAAAAATATTTGATGTTCATATTTATCTGGAAAATTAAGTACTTTTCTATCTAATGATGGACAATGTCTAGGGCCATGTGTTTCTATAATTCCACTAACTATTGGTGAATATTTTAATAATTCTTTTGTTACTTTAATAGTTTCTTCTGTAGTAAAAGTAAGATATGTTGGCATTATAGATTGCTCTTTTTTATTGGTAAATATCGAAAAATAATTTGGTTTTTCATTTCCATATAGTTTTTTTAATTTTGAAAAATCTATTGTTCTTTTATCTACTCTTGGTGGAGTTGCTGTTTGATATCTATCTATTTCTATACCATATTTTAAAAGACTTTCAGATAAATAATTTGCTGCATTTTCTCCCTGTCTTCCTGCACTATACTCTACATCTCCTATTACTATTTTTCCTTTTAAAAATGTTCCTGTTGCTAAAACCACTGCTTTTGAATAATAATCTATTCCTATACTTGTTTTTACTCCGACTACCTTTTTTTCTTTAACTATAATATCTATTACTTCTGCTTGAATTATATCAAGATTTTCTTGATTTTCTAAAATTTCTTTCATTTTTACTCTGTACAAATATTTATCAGCTTGAGCTCTACTTACTCTAGCAGCAGGTCCTTTTGTTTCATTTAATACTTTCATTTGTAAATTATATTTATCTGTATGTTTTCCTATTTCAGCTCCTAATATATCTAATTCTGCTATTAAATGACCTTTTCCTGGACCTCCAATAGATGGATTACATGACATCATTGCTATATTATCAAGATATAGTGTAAATATTGCTGTTTTTTTTCCAAGTCTAGCTGATGCAAGTGCTGCTTCTACTCCTGCATGTCCAGCGCCTACTACTATTACATCATATCTATTATCAAACATTTTTTCCTCCTAACACATTATATTTTAAAATTCTAATTATCATTATTTTTTCTATTTTATAATAATGATTTTATTATTATCTATATAACTCCAGATATATATTATATTCTTTATACTTATTCATAAATTTTTATATTATATATTTTTTATTTTATAAAAAATATTTTTGTCTATATACATATTTTATTTAATAAAAAAGATCACCGCAGGCATAACCTGCGGTTTTATTTTCCTACACAGAAATTACTAAATACATGATCTAATAAATCTTCTGTTGATATTTCTCCTGTTATTTCTGATAATGAATCAAGGGCTACCCTAAGGTCAATTGCAATTAAATCCATTGGCATCCCCATATCTATTGTTTCAAATATATTCTTTATACTATCTTTTGTTTTTTCAAGTGCAGATTTATGTCTCACATTTGTAATTACTAATTTTTGTGAATTATTTTCTATATCTCCACTAATTACTAAATTATATATACTATCTTCTATATCTTTTATTCCTATTTTTTCTTTTGCAGATATCTCTATAAAACTGTTAATTTCTTTAAATTCAGATATATCTATTTTCTTATCTAAATCAGTTTTATTTAATATTCCAAGTACTTTTTTATTTTTTACTTTTTCATATATTTCAATATCTTCTTTTGTAATTTCAGTAGAACTATCAACAACAAAAAGAACTAAATCAGCTTTTTCTATAAGTTCTTTTGATTTTTCTACTCCTATATTTTCTACTATATCTTCTGTTTTTCTTATACCTGCTGTATCTACTATTATAAGTGGTATTCCTTTTACATTAATTATTTCTTCTATTACATCTCTAGTAGTTCCTGCTACATGAGTTACTATTGCTCTTTCTTCTCGAAGTAAAGCATTTAAAAGACTAGATTTTCCTACATTAGGTTTTCCAACTATCGCTGTTTTTATTCCTTCTTTTATCATTTTTCCTGTATCATATGAATTAATTAAATCATCACATTGAGAATATACTTCTTTTAAATTATCATATAAATTATCAGGTAAAGGGTCATCTATTCCCTCTTCTGGATAATCAAGTACTACATTTACATGAGCTGTTACATCTAATAACATTTTTTTCAACTCATATATTTTTATTCTTAAATCTCCTCTTAATTGCTCTAGAGATAATGAAATACTTTTATCTGTTTTAGAATGAATAAGATCCATTACCGCCTCTGCTTGTGTAAGATCTATTCTTCCATTAATAAAAGCTCTTTTAGTAAACTCACCTTGTTCAGCATGTCTTGCACCATTTCTTAATACAAGCTCAAGTACTTTTTCTGTTACTAAATATCCACCATGACAATTTATCTCTACAATATCTTCTTTTGTATATGTTTTTGGTGCTTTCATTACACTCACAAGTACTTCATCAATTATTTCTTTTTTTTCATTTATTAATTTTCCATAATTTATAGTAAAAGTTTTTAATTCTTTTACATTTTTCTCGCTAGCTGGTATAAATATCTTTTCTAAGATATCTAGCGCTAAATCTCCAGATATTCTAACTATACCTATTCCACCTTCGCCCCTTGGTGTTGAGATTGCAGCTATTGTATCAAATATCATTTTTTATCTAACCAACTTTCTTTTTTTTTATTACAATATATCTTTTTGGATCTTTTCCTTCACTATATGTATCAAGCTCTTCATAAGTATTTATTACTTCATGAATTATTTTTCTTTCTCTTGGTGGCATAGAATTTAACTTTATTGTTTTATTAGTTCTTATTGCTTTTTCTGCCATTTTTCTTGCAAGTTCTCTTAATGTTTCTGCTCTTTTTTCTTTAAATCCTTCTACATCAACTTCTACTTTACAACCCTTTATTAAAGTATTTAATAAAAATTCAAAACTATTTAAAGTTTTTCCTTTTTTTCCAATAATAATACCATTATCAGAACCATATAAATTTATCGCTATAAAATGTTCTTTTGATTTTGTAATTTCTATTTCTAAATCTAAATTCATTTTTTCTAGCAATTCTTTTGTTTTTTTTATTACTAATTCTTCTATTTTATTTTTTTTTGTTGCTTTTATATTATATAAATTATTCGTAGAAATAATTCCTAATATTGATATTCCTTTTTTTATTATTTCTAATTCTATTTCATAATCTTTTCTTATTATATTTGTATCCAATATAAATTTTTCTATTGCTTCTTCTTCATTTTTCGCTTTAATTTCCAAAGTTATTAAATTACTTTTGTTGATTTTCACCCTTATCATCCCCTTTATTTATTAAAAAATACTGTTGGGCTGTTGAAATTAAACTTGATAATAACCAGTATAATTGTAGCCCTGTTGGCATACTTAATGAGAAAAACAATATCATTATTGGGAATGTATATTGCATAGCTTTCATTTGATCATTTTGAGTTGTACTATTTGACATAACTTTTTGTTGAAAAAATGTAACCAATGCATTTAATACAGGTAATACATAATATGGATCTGTTTTCGTTAAATTCCAAAATAAAAAATTAACGTTAGTTACAGCTTCTGGCGTTTGTTTTAATACTCCAAATATTCCCCATAAAAATGGTAACTGTATTAATAATGGTAAACAAGATCCAAAAGGATTTACTTTGTGCTCTTTATATAATTCCATTGTTTGCTTATTTAATTCCTGAGGATCATCTTTATATTTTTCTCTTAATTTATCTATCTCAGGTTGTATTTTTTTCATATCCTTCATAGCTTTATCTTGTTTTAAGGTAAGAGGTAACAAAATAAGTTTTATTAATAGTGTTACTCCGATAATAGCTAATCCATAACTTTTCGTTACGTTATAGATCATTAATATTATTTCTCTAATTAGATTTTGAATTATTGACATTTTTCCCACCTTTTTTATTTTTTTTTGGAACTGGGTCATATCCCCCATGACTCCATGGATTACATCTTAATATTCTCCAAATAGATAAAATACTTCCCTTTATTATCCCATGTTCTTTTATAGCTTCAATTGAATAATTTGAACAACTGGGATAATATTTACAATTATTACCAAGTATTGGAGACATTATTTTTTGATAAATTTTTATTAAAAAAATTAATATTTTTTTCATTTAAAATTCCTATTTAATATTTTTATTAAATCTTTTTCTATAACTTTTAAATTTAATTTTTCTATGTTATTTCCAGCATTTTTTTTAGCTATAATTATATAATCATAGTTATCTTTAAATTTTATTAAATTTAATCTTATAGATTCTCTAATAAGCCTTTTTATTCTATTTCTACAAACAGCATTTCCATTTTTTTTACTTACTACAATTCCAAATCTTTTTTTATTTAAATTATTTTCTAATGTATATATCAAAATATAGTATCCATAGATTTTTTTTCCTTTTGAATATATATATTGAAACTCATTATTTTTTCTTATTTTTTCCATTATCATACCTTTATGAAATTTAAAATTTTGAAAAACCCGGTATATAACTTTTACCGGGCTTTATGCTGATAATTTTTTTCTTCCTTTAGCTCTTCTTCTTTTTAATACATTTCTTCCTGATTTAGTTTTCATTCTTTTTTTAAATCCATGATCTTTTTTTCTTTGTCTATTATTTGGTTGATATGTTCTTTTCATTTATTCCCTCCTAATTTTTTATACATCTCAGGTAACTATTTTAATAGAATTCTTTTAATTTGTCAAGTAAATTTCATTGATTTTTATTTTTTAATAAAAAAGAAACTTTTATTTTTAAAGGTTTTGTTTTATATGTTATATTGTTATATGTATAAATTCTATAATTAATAAAAAAAGTTTATTTTATTGATTTTTTTTAGAGGTTTGTATTTTTGTTTATAAACATATTGTTTTTATTATAAAATTCAATATATTTTTATATATTATTAATAAACAAGATTTGATTTTATTAGTTATAAATATATTTTTGTTTATATACATACAAAAAAACTAATAAATTCAATATAAAATATTAAAAGAGTTTTTAATTTGCTAATAAAATTAGCATTTTGAAAATATTTTTGTTTATAAACACATTGTTTTTATTAGGAAATTCAATATATTTTTATATATTATTAATAAACAAGATTTGATTTTATTAGTTATAAATATATTTTTGTTTATATACATACAAAAAAACTAATAAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCATTGTTTTTATTAGGAAATTCAATATATTTTTATATATTATTAATAAACAAGATTTGATTTTATTAGTTATAAATATATTTTTGTTTATATACATATAAAATCTTTTAAAATCAACAATATAAAAACAATATATATTCTAAATAAATTATATATAATATATGTATATGAATAAAAATAAAAAATATTACAATATTTTATTATTTTTGTTATAATAAAAAATAGAAAATTATTATTGAATATATACATATATATTTTACTATAAATTAGGGGAAAAAGAAAATATTTTTTAGGAGGAATCATCTATTATGATCTTAAAAGAAGAAAAAGAAATATTTGAATTAGATGAATATAATATTGATACATCTGGTGATTTAACAAAAGATGCAGTAAGAGAAATAGATCATTTTGATATGGAAGAAAAATCATTACCAAATATAGAAGTAAAAGAAATGATTATAAAAGAAACAGGAAATTTTTTAAATTTAAAAGAAAATATAATTAATATACCTATTGAAATGATAGTTTTTCCTTTTTTTACGCCTCAAAAACAAAATAAACGTGTTAATTTTAAATATTCTTTTCAAGATTTAGGTGTAACAATGTACTGTACATTAGTTAGTAAAGATGAAAGTGATAAGGTTTTTCAACCATCTATTTTCGAAGAAAAAATATATAATTATCTTATTTCAATGTATGAACAAAAAAGAGAAATTAATGATACTGATGAATATATAGAATTTGAAATATCTGATTTTATTTGTGGTTTTTTAGGAAATAAAATGAATAGAGCATATTACTCTAAAGTAGAACAATCTTTGAAAAATCTTAAAAATACAGAGTATCAATTTGTAATATCAAATCATAGTAAATTAGGAAAATATAAATTTGAAGATGAAGAATTTAAACTTTTAACTTATCAAAAATTAAAATTAGGAAAAAAAGTTTTTTATAGAGTAACACTTAATAAAAATATAAGAAAAAAAATAAAAGATAAAAGATATATTAAATATAACTCTAAAAATCTTTTAGAAATTATTGATAAAGATGTAGTAGCTTCTAGAATATATAAATATATAAGTAAAATAAGATATAGTAAAATAGAAGATGAAATACCACTAAAAACTTTGGCGGCGATAATTCCTTTAAAGACAGAACAAATTGTAAGTAGAATAAATAAAAAAGGTGAAAAAAGACGATATAAATTAAGTAGAGTAAAACAGATAAAAAAAAGAATAGAGAAAGCTTTTAATGTATTAATAAAATTAGGTTATATAAAAAGTGTAAAAATATATGATAAAAAAGGTGAAATAGTAGTTAAATATCAATTTAATATAGAAAAAGATAATAAATGTCACGTATCTTCGTATATTGGTAATAAGATACCTAAACTAGAAAGAGTACCATATGAGAAAAATAATGAGATAGATATTAATAGATATAAGGTTGAAGAAGCTATTATTATTGATAATCAAGATATATTAAAAGCAAAAATAAAAAAAGCTAAACAAAATATGTATATTTCAAAATTATGGAATAAAAGAGTAGATAATAAAATAAAAAGATTAGTAAAACAAAAAGGAGAAGAGTTTGTAGTTAAAATTTTAGATATTTTATATACTCAAGTAAATTATGAGATTAGAACTACTTTAGTTCAATATATTAATGGAATAGTAAATAATTTAGAAAAAAATAGTGATATAGTAGAAGAAACTATTAAAGTAGAAGATAATTTAACTCTTTTTGAACAAGAAAAAAAAGAAAATAAAGGAAATAAAACAAAAGAGTTATCTGACGAAGAAATAAAAAAAATATTTAATTCTTTAGATGAATTAGAAAAAGCATCAATAGAAAAACAAGCATTAGAAATTTGTGAGAAAAGAGAAAAAGTATCAATAGAATTTTTAATAAAATTAAAAAATCAAAATCAAAATATATATATGCTTACTATATTAAAATTTATAGGAGAAATACTGATAGAAAGAAATTTAGTATAATATAAATATATAAACTTTGCTTCTAAAATAAAAAAAGCCTTACATAGGCTTTTTTTATTTTTAATCATATACATATTTAAACATAGTAAAATAAGTACTATTTTGCTATTGTGAAATGAAAAATATTGATTATAAAGGGAATAAAAAGATAAGAAATATTTTTGTGCATATACATAATAATAAAAACTAGTAAAATAAGTATAAATTAAAAAAGAAAAATTTCTTAAATAAGTAAAATCAAAATTTATTTTATAAAAAATTATTTTTGACTGTATACATATTTAAACATAATAAAATAAGTACTATTTTACTATTGTGAAATGAAAAATATTGATTATAAAGGGAATAAAAAGATAAGAAATATTTTTGTGTATATACATAATAATAAAAACTAGTAAAATAAGTATAAATTAAAAAAGAAAAATTTCTTAAATAAGTAAAATCAAAATTTATTTTATAAAAAAATATTTTTGTCTATATACATATTGGTTGAAATAAAAAATATTTTTCTATAATTGCTTAAAAAAAATATATATGATATTATATAATGTATTATTATGTAAAGGAGTCGATTAATGGAAATAGTAAAAATAAATACAGAATTTATAAAATTAGATCAATTATTAAAGTGGATTAATGTAGTATCAAGTGGAGTTGAAGCTAAAATAGTTATTCAAGATGGCTTGGTAAAATTAAATGGAGAAATAGAAACTAGAAGAGGAAAAAAAATATATAATGATGATATTATAGAAGTTAATGGTAGAAAATATAAAATAGTAAATAAATAATTGAGGTGTTACTTTGTTTATAAAAAATCTTTCATATTTTAATTTTAGAAATTTAATAGATGGAAATTTAGAATTTGACAAAAAATTTAATCTGTTTTTAGGAAAAAATGGGCAAGGTAAAACATCTGTTTTAGAATCTATATATTTTACTATTACTGGTCAAAGTTTTAGAACTAAAAATATAAAAGATATAATAAAATATGAAAAATTGAAATTAGCTACATATTTGGAATATGAAGACAAATTTTCAGAAAAAAATATCGCTATAAAAACAATCTCTAATAAAAAAGAGTATTTTTATAATAAAAAAAAAGTAACTTATGATGAATATTTAGGAAGATTGAATGTAATATCTTTTATTCCAGAAGATATAAATCTTATTATTGGTTCACCTATGAATAGAAGAAATTTTTTTGATTATGAAATATCTCAAGGAAATACAAGTTACTATATACATTTAAAAAATTATAATAAAATATTAAAAATAAGAAATACTTTTTTTAAGAATAAAGATTTTAGTGAAATATTTGAAATATATAATCAGAAATTTTTTGAAGAAATAGTCGAAATAGTTACAATGAGATATGAATACATAAAAAAAATTTCTATTTTATTAAATCTTAATTATAGAAAATTATTTGATAATAAGAGTGAATTAATTTTAACATATAAAAATTCTTTTGGTGATATAACAAAACTTAATAAAAATCAAATAATGAAAAAATTATTAGAGTATTATAAAAAAATAAAAGATAAAGAAAAAAAATATGGTTATTCTTTGATAGGTCCTCAAAAAGATGATTTTTTATTTTTGTTAAATGGAAAAGAAGCAAAATCATTTTCTTCTCAGGGAGAAAAAAAATCAATTATATTTGCATTAAAAATATCAGAAATAGATATGCTTATTAAAGAAAAAAGTGAAACACCTATTTTTTTAATAGATGATATTTCATCTTATTTTGACTCTATACGAAAAGAAAGTATAATAAAATATTTTGAAAATAGAGAAATACAACTCTTTTTAAGTTCTACTGATGATTTGGGAATTAATTCTAAAAAATTTAAAATATTTAAAGGTGATGTAAATGGATGAAATAAGAATTAATCCAGTAAATGAGATAGTAAAATTAGGAATAAAACAAAGTAGAATGTTAAAAGAAAGTATGATAAGAGCTTATTATAATAAAATAGTAGAACCATATTTTTTTGAAAATTCTATGATAATAAAATTAGATAATGATATATTGATTATAGGAGTAAAAAATTCTATATGGTTGCAAGAATTTACTTTGAAAAAAAATATAATCTTATATAAAATAAATAAAATTTTTGAAAATAACTATATAAAAAATATTAGATTTGAAATAAAAGAAAATATAAATCCAGAAAAAATATATGAGGAAAATTTTGAAAAATTTGAACCAGAAAAAATAAATTTAAAAAAAGAAGAGATAGAAAAGATAGAAAAAAAAATAGAAGAATATGATGAAGTGATAAAAGAAAAAATAAAAAATATGATGATATTATCTAAAAAAAAAGAAATCTATTTAAAAAATCATAATTATAAAAAATGTAAAAATTGTGGTATATATTTTTATAGTGAAAGAGATATATGTATAAATTGTTTTAATCAAAACAAACATAAAGAAAGAAAAAAATTATATAATATAATAAAAAATATTCCATTTATCAAGTATGAGGATTTGACAAATACACATATAACAAAAGAACAATTTTTAGATATTAGAGCAAAAATAAAAGATGAAGTAAGAAAAAAAATGATGGATGGAGCAAATAATAATAATATAAAAGTTTATAAAAAATATGCTAGAATTTATTTTATGATTGAAACACAAAATTCTAATGAAAAAGAAATAGAAAATTTAGTAAATAATTATTTAAAACGTCTAATATACTAAATATTTGGAGGGGAAAATGAGTTATAAAGCAGAAAATATTAAAGTCCTAGAAGGATTAGAAGCTGTTAGAAAAAGACCTGGAATGTATATAGGATCTACATCAATTAGAGGACTTCATCATTTAGTTTACGAAATAGTAGATAATAGTGTTGATGAAGCTTTAGCAGGTTATTGTAATAATATTCAAGTAAATATTTTACCAGATAATATAATAGAAATAAGAGATAATGGTAGAGGAATCCCAGTTGATTTACATCCAAAACATAATAAATCTGCACTTGAAATTATTATGACGGTTCTTCATGCGGGAGGAAAATTTGAAAAAAGTGGATATAAAGTATCTGGAGGACTTCATGGAGTTGGAGCTTCTGTAGTAAATGCTTTATCAGAATGGTGTGAAGTAGAATCAAGAAGAGATGGTGGAGTATTTTATCAAAAATATTTTAGAGGAAAACCAGTAGAACCAGTAAAAAAAATAGGGGACTGTTATGAAGAAACAGGTACAACAGTTAGGTTTAAAGCTGATTATGAGATATTTGAAACATTAGAATATGAGTTTGATACTTTAAAATCTAGATTAAAAGAACTTGCCTATTTAAATAAAGGATTATCTATAACTATTACAGATAGCAGAAAAGATAAAGAAAAATCAGAATATTTAAAATTTGAAGGTGGAATAGTTGATTTTTTAAGTGAAATAACTAAAGAAGAGAAAAAAATAATAGAAAATATTATATATATAGAAGGAACTAAAGATGATGTTGTAGTAGAGGTATCATTTGTATATACAGAAAAACAAAGAGAAAATGCTTATTCATTTGTAAATAATATAAATACTCATGAAGGAGGGACACATCTTAGTGGATTTAAAACAGCACTTACAAGAGTAATCAATGATGTAGCTAGAGAACAAGGATACATTAAAGAAAAAGATGGAAAATTTCAAGGTACAGATGTAAGAGAAGGTATTACATGTATAGTAAGTGTTAAAGTACCTGAACCGCAATTTGAAGGACAAACAAAAACAAAATTAGGAAATTCAGAAGTTACAGGCGTGGTATCATCAATAGTTTTTGATTATCTGAAAATGTATTTAGATGACCATCCAAATGATACTAAAAATATAGTTGAAAGAATATTACTTTCTAAAAAAGCTAGAGAAGCAGCTAAAAAGGCAAGAGAGTTAGTACTTAGAAAAAATGCACTTGAAGTTGGCTCACTTCCTGGAAAATTAGCTGATTGTTCATCAAAAAAATCAGAAGAATGTGAAGTATATATAGTAGAGGGAGATAGTGCGGGAGGAAGTGCAAAACAAGGAAGAGATAGAAGATTCCAAGCAATATTACCTTTAAGAGGAAAAATATTAAATGTAGAAAAAGCCGGTATTCATAAAATACTTGAAAATAATGAAATAAGAGCATTAATAACAGCTATAGGAACAAATATCGGTGATGATTTTGATATAGAAAAATTAAGATACAGTAAAATAATAATAATGACAGATGCCGATGTAGATGGGGCACATATAAGAACCCTTTTACTTACTTTCTTTTATAGATATTTACCAGAGCTTATAGAAAATGGAAATATATTTATAGCGCAACCACCATTATATAAAATATCAAAAGGAAAATCAATTGTTTATGCTTATTCAGATAAACAATTAAATGATATTTTAAAAACATTTGATGAGGGAACAAGATATAATTTACAAAGATATAAAGGACTTGGAGAAATGAATCCAGAACAATTATGGGAAACAACAATGGATCCAGATACAAGAACATTATTAAAAGTAACTCTTGAAAGTGCAACAGAAGCAGATAGATTATTCTCTGTGTTAATGGGAGATAAAGTAGAACCTAGAAGAGAGTTTATTGAAGAACACGCAGAATATGTAAGAAACTTAGATATTTAATTTACTTGAGAGGAGTATAGAAATATGTCAATTGAAAAAGAGATATATATAGAGGATGAGATTAAGGCATCATACCTTGATTATTCAATGAGTGTAATTGTAAGTAGAGCACTTCCAGATGTAAGAGATGGATTAAAACCTGTACATAGAAGAATACTTTTTGCAATGAATGAAATGGGAATGACTAATGATAAGCCTTATAAAAAAAGTGCTAGAATCGTTGGGGAAGTACTAGGTAAGTATCATCCACATGGAGATACTGCAGTATATAATACTATGGTGAGAATGGCACAAGAGTTTAACTATAGATATATGCTTGTACAAGGACATGGAAACTTTGGTTCTATAGATGGAGATAGTGCAGCTGCTATGAGATATACAGAAGCAAGAATGGCAAAAATTACTTCTGAGTTATTAGTAGATATTGATAAAGATACTATAGATTATAGAAAAAACTTTGATGATAGCTTAGATGAACCTGTAGTATTACCAGCAAAACTTCCAAATTTACTTTTAAATGGTGCAGATGGAATAGCAGTAGGAATGGCTACTAAAATACCACCACATAATTTAGGTGAGTTAGTAGATGCTATTATTGCATTAATAGATAATAAAGATATAACAATTGAAGAATTATCTACTCATATAAAAGGACCAGATTTTCCAACTGGTGGAATTATATTTGGAAAAAAAGGTATAAAAGAAGCATATGAAACAGGAAGAGGAAGAATATTAGTTTCTGGAAAAGTAGATGTAGAAGAGAAAAAAAATGGTAGAGTTAGTTTGATAATAACAGAACTTCCTTATCAAGTAAATAAAGCAAGACTTATAGAAAAAATAGCTAACTTAGTAAAAGAAAAAAGATTACAAGGAATATCAGATCTTAGAGATGAATCAGATAGAGATGGAATAAGAGTTGTAATAGAACTTAAAAAAGGAGAAGAACCAGAATTAATATTAAATAATTTATATAAATATACAGAATTACAAACAACTTTTGGGATAATTATGCTTGCACTTGTAAATAATATACCTAGAGTATTAAACTTAAAAGAAGTTTTAGAATATTATTTACAACATAGATTTGAAGTAGTAACAAGAAGAACACGATTTGAATTAAATAAAGCAGAAAAAAGAGCACATATTTTAGAAGGATTTAGAATAGCATTAGATAATATTGATAAAATTATAGAGTTAATTAGAGCTTCTAATGATGGAAATACAGCAAAAGAAAAGCTAGTAGAATCATATAGCATAAGTGAAATACAAGCAAAAGCTATATTGGATATGAAATTACAAAGATTAACAGGATTAGAAAGAGGAAAAATAGAAGCTGAATATAATGAACTTATGAAATTAATCATTGAGTTAAAAGAAATATTAAATAATGATAATAGAATATATGAAATAATAAAAGCAGAGCTTGTAGAATTAAAAGAAAAATTTAATGATGAAAGACGTACAGAGATAAAAGCTTCAAGAAGAGATATATCTGTAGAAGATATAATAAAAGATGAAAAAATGATAGTAACACTTACTAATAAAGGTTATGTAAAAAGAATGGCTTTAGATAAATATAAAGCACAAAAAAGAGGCGGAAAAGGAATATCTGCTCAAGTAACTATAGAAGATGATTTTGTAGAAAGTATGTATGTAGCTTCTACATTGGATACATTGATGATATTTACTGATTTTGGAAAAGCATATAGTTTAAAAGTATATGAAATTCCTGAAACATCTAGACAAGCAAAAGGAAAACTTATAACTAATCTTATAAATTTAGATAAAAATGAAAAAGTAAGAGCAATTATAAAAGTTCGAGATTTTTCAGATGAAACAGAAGTATTCTTCTTAACATCACAAGGAAAAGCAAAGAAAACAAATTTAGATTTATTTAAAAATATGAATAGATCTGGAATTATAGCTATTAAACTTAATGAAATGGATAATTTAATATATGTAGGACTTATAAATAATGAGAAAGAAGAGATATTTGTAGCAACTAAAAAAGGTTATGCAATAAGATTTGGTCAAGAACTTATAAGATCTATGGGAAGAAATGCAGCAGGAGTTAAAGCTATAACTCTTCGTACAAATGATGAAGTCGTATCTGGAGTAATAGTAAGAAATGAAGAGGAGAAAATACTCACTATCACAGAAAGAGGATATGGAAAAAGAACTGATTTAGAAGAGTATCCATTACAATCAAGAGGTGGAAAAGGAGTAATAAACATAAAATCAAATATAAAAACAGGAGATGTAGTAGAAATAAAATCTGTAAATGATGATGAAGAACTTATGGCTATCACATCAAATGGTATAGTAATACGTACACCTGTTGAAAAAATATCTAATATAGGTAGAGCTACTCAAGGAGTAAAAGTTATGAGAGTAGCAGAAAATGAAAAAGTGGTATCTATTGTAAAAGTGAAAAAAAATTTAGAAGATGAGATAGATATTGAGGAAGAAGAATAAACCGGTTTATCCGGTTTATTTTTGTATATAAACAAAAATAAAATTTTGAAAATAATTGAAAACAGATAAAAAATAGCTTATACTAAAAAATGTATTAATATTATAATTATATGTATATAAACAAAAATATTATTTTTTAGATTTTTATCTAAGAATGTAAAAAAAGAGTCTTTTTTGGCTTAATTTAAATTAATTATTTTAATTTATATAATGTTTTATAAAATTAAATGGAGGAAAAATGAATTTTACAATAGATTTAGAAGAAAAAGAAATATATAGAGGGAAAATACCTTTTTTTCTTATGAACAAAAATAAAAATATCATATATCTTTCAGGATTAAATAAGAATATAGATGATTATTACTTTGGAATAAAAGACTTTTCAAATAAAAATCTTTTAAAAATAGAAAACTATAATTATACAGATATAGAATGGAAAGAAAAAAATATAGAATTATTAAATATATTAAAAAAAGAGAATTCAATTATTTTTATTAGTTTAAATGCTGTATTTAAAGAATATTTTTCTAAAATAAAATTTTTTACTATTTATAAAGAAAAAGAATATAAAATAAATAAAATTATTAAATTTTTAGAAGAGAATGGATATACTAGAAATTATATAATAGAATCTATTGGTGAATACAGTATAAGGGGAGATATAATTGATATATTTTCTCCGTCATATGATCATCCAATTAGATTAGAATTTTTTGATAATTTTTTAGAAGATATAAGATATTTTGATATAGATACTCAAAAATCTATAGAAAAAATAGAACATATTGATATAAATAGTAATATAGGAAATAGTGAAAAATATAGTTTTTTAGAACTTTTAAATAAATTAAAGTATAAAAATTATGAGATTATTATAGAAAATAAAGAGTTTTTAGATTATAAACTTGAAGAATACATACTAAATAATAGAGAAAAAGAGAATAAGATAAGAGAAGAATATGCAAAAATTATTTTTGATAATATACATATATTTACAAAAAGATTAAATGAAAATTTTGTCAGTAAGTTAAAAGATTATGACTATATAAAAGAGTATTCTAAAAATAAGACTATTTATATTTTTACAGAAGAAAAAAGAAGATATGAAGAGATATTTAAAGGATATAAAAATATAATTATAGAGAGAAAAAATTATTTTGAAGGATTTGAAACAGCAAAAGAATTAGTAATTACTGATAGAGAGTTAAAAGGAATAAGAGTTGTAAGACTTGAAAAAAGAAAAGAAGGATTAAAACTAAAAAATATAAATCAAATAATAAAAGGTGATTATGTAATACATGAAAATCATGGTGTAGGTATATATTTAGGAATAGAAGAGATAGATAATAAAGATTATTTAGCTATTAAATATGCTGATGCAGATAAACTTTATGTACCAATTGATGGCATAAATAAAATAGAAAAATATATAAATGAACCAGGAAAAATTCCTGAAATATATAATTTGGGAAGAAAAGGATTTAAAAAAAGAAAAGAAAAAATAAGAAAAGATATAGAGGAGTTTGCAAAAGAATTAGTTCAAATTCAAGCAAAAAGAGAAGCTGCAGTTGGATTTAAATTTTCAAAAGATACAGTATGGCAAGAAGAGTTTGAAGAAGGATTTCCATATAATGAAACAAAAGATCAATTAAAAGCTATAAATGATACTAAGAGAGATATGGAAAGTTATAAAGTAATGGATAGAATAGTTTGTGGTGATGTAGGATATGGAAAAACAGAGATAGCACTTCGTGCAGCATTTAAAGCAGTAATGGATGGAAAGCAAGTAGTTATGCTTACACCAACAACTGTTTTAGCACATCAACATTATGAAAGGTTTATAGAAAGATTTAAAAATTTCCCTGTAGATATAAAACTATTGTCAAGACTTGAGTCAAGAGGTAGTCAAAATAAAGTTGTAGAAGGATTAAAAAATGGTTCAGTTGATATAGTAATAGGAACACATAGGTTATTATCAACTGATATTAGTTTTAAAGATTTAGGCTTGATAATAATAGACGAAGAGCAAAAATTTGGAGTAAAAGCAAAAGAAAAATTAAAGACTTTAAGAATTGCAGTAGACACACTTACACTTACAGCTACTCCTATACCTCGTACACTGAATTTAGCTTTATTAGGAATAAGAGATATATCTATAATAGAAACAGCACCAGAAAATAGAAAGCCAGTAGAAATAAAATTTTTAGAAAAAGAAAAAAATAAAATAAAAGAAGTTATTTTAAAAGAAAAAGCTAGAGAAGGACAAATATTTTATCTTTTTAATTCAATAAAAGGTATGGAAAATAAATTAAATGAATTAAGAAAAATATTACCAGATTATATAGAAATAGATTTTATTCATGGACAAATGCCAGCTAATCAAATAAAAGAAAAAATAGTAAAATTTGAAAATGGAGAATTTGATCTTTTACTTACAACAACAATTATAGAAAATGGTATAGATATAGTAAATGCAAATACAATTATAATTGAAGGAATAGAAAAATTAGGACTTGCACAAATATATCAATTAAAAGGTAGAGTTGGTAGAGGAAATAAAAAAGGATATTGTTATTTATTATTAGAAAAAGAAAGAAAACTTAGTAAAAAAACAAAGCTTCGTAAAGAAACATTGGAAAATATAAATGTGCTTGGAGGAGGTTTTCAATTATCATTAGAAGATATGAGAATAAGAGGAGCAGGAGAAATACTAGGAGACAAGCAACACGGTGCTATTGATACATTTGGATATGATTTATATATAAAAATGCTTAATGAAGAAATGAAGAAATTAAAAAACGAAGAAATCCAAAAAGAATTGTATATAGACATTAATAAAAAAGGTTATATACCTAATGATTATATAAATGAAACTGAAAAAATTAGAGTATATAAAAGAATTTTAAGTTGTAAAAAAATTATAGAATTAAAAGAATTAAAAAATGAAATAATAGATAGATTTTCTAAAATGCCTAAAGAAACAGAGGAGCTTTTTGAGTATTATGAGATAAAATTACTAGCTAAGGAAGTAGGAATATTGGAATTAATAGAAACAAAAGAAGGGTATTTTATGAAATTAGATGAAAATAAAATTGAAATAGATAGAATAAATGTGTTAATATTAAAAGGTAAACTAAAATATATATCAACTAAAAAAGCAATTATTTATAATGGAAATATAAAAAAATTTTTAATAAACTTAAAAGAAGGAGAGAACTAAATGAAAAAAATATTAGTTATAGCAATATTATTAGTATCAGTAGTATCATGTAATAATAAAAAACAGGTAAAAGAAAAAGTGGTAGAAAAAACAGAAAAAGTGGAACTTATGGATAAAAATGAAACGCCTAAAAATGCATTAGCAAGAGTAGGAGACGAAGTAATAACAGAAGATGAAGTTGAAATGGTATTAAAAAGCATACCAGAACAATATAAAGATTATTATAGTAGTGAAGAAGGGAAAAAAGAAATATTAAAAGAATTAGTAGAACAAAAATTAATAAAAAAAGAAGCCGAAAAATTAGGTTTAGATAATGATAAAGAATTACAAAAAGAATTAAATTTATATAAAGAAAGATTACTTATTAATAGTTATATAAATAAAAATATTATTAAAAAAATTGATGTAACAGAAGATGAGTTAAAAGCATATTATGAAGCAAATAAAGAAAATTATAAAATACCAGAACAGGTAAATGCTTCTCATATATTAATATTAACAATGAATTTAAATGAAAAAGAGAAAAAAGCTGCCTATAAAAAAGCTCAAGATGTATTTAAATTGGTGAAAGAAGGAAAAGATTTTCATGAATTAGCAAAACAATATTCAGAAGGACCTTCAGCAAAAGACGGAGGAAGACTTGGTTGGTTTGAAAAAGAAAGAATGGTAAAAGAATTTTCAGATGCTGCTTTTAGTACTGAAAAAGGAAAAGTATATGACGGAATTGTAGAAACAAAATATGGTTATCATATAATACTTACAGAAGATAAAAAAGAATCTTCATATATACCATTTGAAGAAAAAGAAAAAGAATTAAAAGAAGAACTTTTAAATAAAAAAAGATTAGATGAATATAATAAAACATTAGAAAGATTAAAAAAAGAGTATAATATCGAGGAGATGTAATGAACAAGTTTCAAGAATTAATTGAAATAATGAAAAAACTTAGAAAAGATTGTCCTTGGGATAAAGAACAAACCTTAGATAGTTTAAAACCTTATCTTTTAGAAGAATCATACGAGCTTATAGATGCAATAGATAAAAAAGATTATAACGAATTAAAATCAGAACTTGGAGATTTACTTCTTCAAGTTGTTTTTCAATCTGAAATAATGGAAGAAGAAAAGAGGTTTAATATAGATGATGTTATTGAAAAATTAAATGAAAAACTTATTAGACGTCATCCGCATGTATTTAAAGATGTAGAAGTAGAAAATAGTGATGAAGTATTAAAAAATTGGGAAGAAATAAAGAAAACAGAAAAAGAACATTTAGATAGAGTATCAGTTCTTGATGGGATTCCAAATTCTTTACCACCATTAATTAGAGCAACAAAATTGCAAAAGAAAGTTAAAAAAATAGGATTTGAATTTGAAAAAATAGATGATGTAATAGAAAAAATAGATGAAGAAGTATTAGAATTTAAAGAGGCAATAAAAAATAAAGATATTAAAAATTTAGAAGAAGAGCTTGGAGATATAATATTTACTTTAGTAAATATTAGTAGATTTTTAAAAATTGATATAACAAATGCTCTTATAAAAACAAATAGAAAATTTGAAGAAAGATTTAGATTTGTGGAGAAAAATTTAGATTTGAAAAATTCTACTTTAGAAGAAATGGATAAAATGTGGGAAGAAGCAAAGAAAAAAATCTAAAATTACTTAATATGTATATAAACAAAAATAATTTTATAAAAAATTATTTTAATAGAAAGGATTTTTTTATGAGATTAGATAAATTTTTAAAAACTGCTAGAATAATAAAAAGAAGACCAATTGCTAAAAAAGTAGCTGATAATAAAAAAATAAAAATAAATGGCAAAATAGCAAAATCAGCTACAAATGTAAATATGGGAGATATATTAGAAGTAGAATATTTTAATAGATATATGAAAATAGAAGTATTAGAAGTACCAAAAGGAAATGTAAAAAAAGAAAAAGCAAGTGAGCTAATAAAAGTAATAGAAACAAAAAAAATAGAAACAAATGAGTTAGCATTTTTAGAGGAAGATGAGCTAGATGAAGAGTTATAAAGAAAAAGCAAATGCTAAAATTAATATAGGACTTAATATATTAGAAAAACTAGAAAATGGATATCATAGTTTAGATATGATAATGGCTCCAATTGATTTATCAGATATATTAGAAATAAAATTTAATGAAAAAAAAGGAAATTTAAAAATATTTTGTAATAAAAATGATGTGCCTATTAATGAAAATAATATTATATATAAAATATATAATAAATTTTATGAATATACCTCTTTACAACGCGAAGATATAGAGGTAAAATTAATAAAGAGAATTCCTAGTGAAGCAGGACTAGGTGGAGGAAGTTCTGATGGGGCTACATTTTTAAAAGTTTTAAATAATTATAATAATAATATTTTGTCTACTAACGAAATGATAAATATTTCAAAAGATATTGGAGCAGATATACCGTTTTTTATAATTAATAAAACAACAAGAGTAAAAGGTATTGGAGAAAAATTAGAAATTATAGAAAATAAATTAGAAAGTGATATTATACTAGTAAAGCCTAGTTTTGGAATTAGTACAAAAGATGCATATATAAATTATTCTAATTTAAAAAATAAAAACAATGCAAATATAGAAAAAATAATAAAGGGATTAAAAGAAAATGACGTAAATTTAGTTAGAGATAACATAGATAATCATTTACAACAATCTGCAAAACTTTTTAAAAATGAATTGGAAAAATTTGAAAAAGAACTATATAAATTGACAAAATTAAAATTTTATATGACAGGTAGTGGAAGTTGTTATTATAGTTTTGTAGAAAAAAAAGACTCAAAAAAAATTATAAATTTATTAAAAAATAAATATGGGACTTACTTTATAAGTCTTACAAGATTTTACTAATCAAAAAAAACGAAAAAGGAAGGTGCTTAGAACAATGAACATTACTGATGTAAGAGTTAGAATTGTAAAAGGGGAAAATGAAGCAAAATTAAAAGCTTATGCAGACATCACATTTGATGATTGTTTTGTTATTCATGGTTTAAAAATTATTGATGGGCAAAAAGGCATGTTTGTAGCAATGCCGAGCAGAAGAATGCCAAGTGGTGAATTTAAAGACATAGCTCATCCAATAACACCAGAAACAAGAAAAGAAATAACTGATACAGTTATTGAATATTATGAAAAAGCATTAAATTCTCCTGAAACATTAGAAGAAGTTTCTTCTGATGAAATAGAAGAATAATTTTTAATGGGCTCAGAAATGAGCTCATTTTTTTTCTTGACAAATTATAAAAGTTTTGATAAAATAATTTTCGTTGTTGGGCTGTCGCCAAGCGGTAAGGCATCAGACTTTGACTCTGACATGCGTTGGTTCGAATCCAGCCAGCCCAGCCATTATATAGTTTTTAACTCCAATTAAAATAATTGGAGTTTTTTTTTATAAAAAATAAATGTTTAATTTTTTCTTGATTATAAAAACGGATTTATAATTGATAAACAAATATGATTGTGATATACTAAAATGTATAGTAAATTGGAGGGAAAAATGAAAAAAGCAATCATATTATTATTTTTAGTATATAGTATGTCTATATTTTCTGAGGAAGCAAGTTTTTATAAAGATGTAAAAATAGATAATTGGGCTTATAGAGCTGTAAAAAATCTTGTTGAAAATGGTATTTTTGATATAGAAAATGAGGAATTTTTAGGTGATGAAAATATAGATAGATATGAATTTGCTTTTTATCTTTCAAGAATGTTAAATAAAATAAATGAAAATAAGGCTTCTAAATCTGATTTATTTATTATTGAAAATATAGTATATGAATTTTCAAAAGAATTAAACAGTTTTGCGTTTAATTCAGATGAATATATAAAAAAAATATCTAATTTAGAAGAAAAAGTAGATAAATTAGAAAAAAACAATGTTAAAATTCAAGAATCATTGCTAAATATTAATGAAAGATTAAAAAATTTAGAACAAAATAGCGGTATTAATCAAAATTATATATTAGAAAACAGTATATATAACGATAAACTAAAATATTTTCAGAATTTTAATCTATATTTAGCTTCAGGAATAAGTTATAAACCAAATTCAAAAATAGAAGAGAATAGATATAAGGGAAATTATACATTGGGATTAGGAATAACTGATGAAAATTTTGAGCTTATTATAGAAAGTGAAACATCAGATGAGACTAAAAAAGATGGAGAACTAGTAGTAAAAGGACAAATTGCTACACGTATAGATTTTATGGGAGGCTCAACGCTTAGTTATCATACAAAAGGATACGAAAAATATTATAAATCATATTTTAATAATGTAATATTTGATAATCATAGTTCTTATCAATATAATAAATTAAGTAGTACTACAAATTATAGTAATTTGAAAAAAACAATAGGAGATAATAAAAGAATTTCATATTATGATTTGAGTAATGAAACTATAGACTATGAACTAGATGAATTTGATTCTTATGGGTTATCATTTTTAAATAAAAATTTTATTATTCTTATAGAAAAATTAAGAACAGATAGAGCGATAGATGAAAAAGAAGGTATAATAAATCCAAGTGGAAATATAGCTTATTCAGATACATTAGTTTTTTTTGGTAAAACAAGTCAAAAATATATAGATGCAACAGCTATGATAAATGGAAACGTAGGAAATCGTGATTTTGAAATAGTTGGTAAATATCCTGGTGATTTTTATGATTTAGCAGGAGGTTTTACTTTAAGTCAAAGAGATAGTGGTAAAGAGGTACAAGATTATTCAGGGTATAAAAGATTATTTTTATTTGATGCTAGAATAAATTTTGGTGATACAAGAGATATTGAATTCGGGACAGAATTAAAAAATAGTAATTATGGAAATAATTTATATCAATCATATTATTTTTCATTTAAATATTTATTAGGAGATACGGGGGTAATAAAATATAAAGGTGAAAATATTAATGCAAAAAATCAAAATAATTTTATAAATCACTATTTTTTAATAAATTTTAATAGTGGAAGATTAAAAACTTATACAGGATATAATATAATAAGTGTAAATAAATCTGCAATTGTAAATGAAGACAGTATCGAAGAAATATATTATGTGTATAATGGTTTATATACCCGAATACAAGATTATGATGAATTTTTAATAAAAGCAGAATATCAATTTAATCAAAAATTAATAGGAAAAATAGGATATTATTTAAAATCATTAAAAGATAAAATAGTAACAGAAGAAAATGCTACAACATTTCAATTTACATATAATTTTGCAAATAGCATAAAAATTTTTGCTAAATATATGCAAAATGATGGAGAAGATATAAATGATAGACAACTCGATATAAATGATGATATGTTAGATATAGATTTTGATGAAACTACGGGAGTTATAAGAAAAGCAGAAGAAGGAAAAGTTGAAATAGGAGTTGAGATAAAGTTTTAGGTTTTAGGGGGAACATAAATGAAAAAAAATGATCCAAATCAAATAATTCTTGGTGAACTTGTAGATATAGAAATAATAAACCCCGATAGTGAAGGTCGGTATCATGCTACAAAAGTATCTGATATTTATGAAGAAGATAATTCGTTTTCAGTAAATTGGCCAATATATGAAAGAAGATATTTACCAGCAAGAAGAAATGATAAAATAAAAGTAATATTAAAGAGAAAAGATGCAATATATTATTTTGAGAGTCGGATAAAAGCTAGAGCTTTAGAACCATATGCACATCTTAGAATAGAAAATCCTAAAAAATTGATAAAAAAACAAAGAAGAACATATTTCAGACTTCCATTAAATCTGATAGTAAAATTTATTAGATTAAAAGATGAGGTAAAAGAAGGAGAACTACCTCCAGTATATTCAGGAATTTCACTTGATTTAAGTGGAGGAGGAATGTCGATATTATCTAAAACAGAACTTGAGTTAGGAGAAAATATAGAAATTAGTTTTGAATTAACTAATGGAACAAGATACGAATATGTATCTTGTAAAGTTAGAAGAAAAAAATTAATAGATATAAAATATGAGTATGGTTTAGAATTTTTAGATATGCCAAATAGAGATAGAGAGTATATAATAAGTTATCTTTTTGAAGTGCAAAGAACTAGAGCGAGAGCAAAAGATGCAAAAGAATAATATAAATTTAGGAGGGGAATAATGGAAAAATTAGTATTTAATTACAAACTTGCTGAAAAATTTATAGCGGAAGATGAGTTGAACCTTATTAAAGCTCAAACGATGGAAGCTGTAAAAGTATTAGAATCAGGTGAAGGCGCTGGAAATGATTTTTTAGGTTGGAGAGAATTACCTGAAAACTATGATAAAGAAGAATTTTCTAGAATAAAAAAAGCGGCAGAAAAAATAAAAAATGATTCAGAAGTATTAATAGTTATTGGAATTGGAGGATCGTATTTAGGAGCAAAATCAGCAATAGAATTTTTAAAACACACTTTTTACAATAAACAAACAAAAGAAGAAAGAAAGTCACCAGAAATTTATTTTGCAGGAACAAATATTAGCGGAACATATATAAAACATTTAATAGATATAGTAGGAGATAGAGACTTTTCTGTAAATGTAATATCAAAATCAGGAACAACAACTGAACCAGCAATAGCTTTTAGAATTTTTAAAAAATTATTAGAAGAAAAATATGGAAAAGAAGAAGCTAAAAGTAGAATATATGCAACTACTGATAAACAAAAAGGAGCATTAAAACAACTTGCTACAGGTGAAGGATATGAAACATTTGTAGTACCTGATAATGTAGGAGGTAGATTCTCAGTTTTAACAGCAGTAGGATTATTACCAATAGCAGCAGCTGGAATAGATATAGATGAATTAATGAAAGGGGCTTATGATGCACAAGTAGACTTTAAAGCTCCATTTGAAGAAAACTATTGTTATCAATATGCAGCAGTAAGAAATATATTACATAGAAAAGGAAAAGATATAGAATTATTAATAAATTATGAACCAAGATTACATTATATAGCAGAGTGGTGGAAACAATTATTTGGAGAATCAGAAGGAAAAGATAATAAAGGACTTTATCCTGCATCAGCTGATTTTACAACTGATTTACACTCTTTAGGACAATATATTCAAGATGGAAAAAGACATTTGTTTGAGACATTAATTGAAATAGAAAAACCAGAAGAAGATATAGTAATAGAAGCTAATGAGACAGACTTAGATGGATTAAATTATTTAGCTGGAAAAACTATGGATTATGTAAATAAAATGGCAGCTAAAGGAACTATATTAGCTCATACAGATGGAGGAGTACCTAATTTAAAAATAACTATACCAGAAGCTACAGCATATCATTTAGGATATTTGTTTTATTTCTTTGAAAAAGCTTGTGGTGTAAGTGGATATTTATTAGGAGTAAATCCATTTAATCAACCAGGAGTAGAAGCATATAAGAAAAATATGTTTGCTTTATTAGAAAAACCTGGATTTGAAGAAGAAACTAAAAAAATAAAAGAAAGATTAAAATAAAATCTTTAAAAAAGAGCGTCAATTGTCGCTCTTTTTTAATTAAAATAAAAAAAGTTGAATTATTTGGAAAAAGTTGTATAATATTTAGAAGAAGAAAATATTTTTAAAATAAATAAAAATATTTAAAAATTTATATTAAATAAAATAAAAGTAGAAAATGGAGGAAACAGATGTTAGAAAGAAAGCTAGAAAATGGTTGGAAAAATCTAGATGAAAAAACAAAAAAAGATATTTTTGATTTTTCAGAAGGATATAAAAAGTTTTTAGATATTTCTAAAACAGAAAGAGAATTTGTAAATAAAAGTATAGAATTAGCAGAAGCAAAAGGATTTGTAAATGCTGATACAGTAAAAGAATTAAAAGCATTTGACAAAGTATATTATATAAATAGAGGAAAAAATGTAATATTAGCTGTAATAGGTGAAGAAGATATAGAAAATGGAGCTAATTTTGTAGTATCACATGTAGATGTACCTAGACTTGATTTAAAACAAAATCCTTTATTTGAAGACTTAGAAATAGCAATGATGAAAACACATTATTATGGTGGAATAAAAAAATATCAATGGGTATCTATACCACTTGCACTTCATGGAGTTGTAATATTAGAAAATGGAGAAAAAATAGAGATAGTAATAGGAGAAGATGAAAATGATCCTGTGTTTACTATACCTGATATACTACCCCATTTATCTAGAAAAGTGCAAGATGATAGAAAAGCGAGAGAAGTAGTAAAAGGTGAAGAATTAAATATAATAGTAGGAACTATTCCAACTACAATTGAAGATAAAGAGATAAAAAATAGAGTAAAATATGCAGTACTTGAAAAATTAAATGAAAAATATGGAATGAAAGAAGAAGATTTTTTATCAGCAGAATTTGAGATAGTACCAGCATTTAAAGCAAAAGATGTAGGTCTTGATAGAGCGATAGTTGGAGCATATGGGCATGATGATAGAATTTGTGGATATACTTCATTAAAAGCTATATTAGAAGTAGAGAGACCTAAAAAAACAGCTATTTGTTATATAGCTGATAAAGAAGAAATAGGAAGTACAGGTTCTACAGGACTTGAATCAAAATATATAGAATATTTTATGGGAGACATTATTAGTAAATTAAAATCGAATTATAATGATATGATGCTTAGAAGATGTTTATGGAGTTCAAATGCATTATCATCAGATGTAAATGCAGCAGTAAATCCTATGTTTAAATCAGTTCATGATAGTGATAATGCAGCAAAATTTGGATATGGAATTGTTGTAACAAAATATACAGGACATGGCGGAAAATATTCTTCAAATGATGCAGATGCAGAATATGTATATAAAATAAGAAAAGTATTAAATGATAATGGTATAAAATGGCAAACAGGAATGCTTGGAAAAGTAGATGAAGGAGGTGGAGGAACAGTAGCAAAATTTTTAGCACATTATGGTATAAAAACTATAGATGCAGGACCAGCACTTCTTGCTATGCACTCTCCATTTGAATTAGCATCAAAATTTGATATATATGAAACTTACAGAACATATAAAGTATTTTTTGATATGAAATAATAATATTATATAAAAAACTTGAAAAATTTTTTTTTTAGAGTTATATTATAGATATAAAAAGATAGTATTTTTTACTATCTTTTTATTTATAATTAAAAATTTATCTGAAGACACAAAGAAATTTGTGTTTAAAATTAAATTTTTAATTTGAAAGGTTGTGAGAGGTATGAAAAATTTAAAAACTTAAAAGCTACTGTTTGATAAAAAAGTATCATAAAATATTTAAGGAGGAAAAATGACAGTAGAGATAAAAAAACTTTTAAGTAAAGAAAATGTAGTATTTTTAAATACACAAGATATGGAAAGTACTATAGAAGTTTTAAGTGAAAAAGCAGAAGAAATAGGTTGTATTTCTTCAAAAGATGAATTCAAAGAAGCTATATTAGAAAGAGAAGGATTGGTAAGTACAGGAATAGGATTTGGAATAGCTATGCCTCATGCAAAATTAGAAAATATTAGTGAGTTTTTTATGATAATAGGAATAAATAAAAAAGGAATAGACTGGGATGCAATAGATAGAAAACCTGTTGTAGCAGTTTTTCTAATAGGTGGCCCTTCTAATCAACAAAAAAAATATCTTCAAATTATAGCTAAATTAATGCTTCTAATAAAAAATAGTGAAAGAAGAGAAAAATTATTAAATGCTAAAGAAGAAAAAGAGATTGTAGAAATTTTTCAAGATTTTTAATCAATTTAATAAGGAGATATTAAAATGCACATTAACATATTAATAATATTAGCGGGACTTTTTTTATTAGCGTTTGTAAATAAATTAGTGTGTCCGAAATTAAAATTACCTGAAGTAACAGGATATGTAATTCTTGGAGCTATTATAAGTGGTGTTGCTGGAATTACGGTGGGAATGTCAAAATTAAATGAGGTCCTAGATTCTATAGAGATTATATCAAGTATAGCATTAGGAATAATTGGATTTTCAATTGGTATTGAATTAAAACTAAGTGTATTAAAAAAACTTGGGAATTCTATATTTTTTATAGTATTATTTGAAGTATTTGGAGGATTTGTAGTAGTAGCGATAACTTCAAAAATATTTGGATTTCAAACATATACTGCCTTATTATTAGGTTCTGTAGCAGCAGCAACAGCACCAGCAGCAACAGTTGCTATAATAAGAAAATATAAATCAAAAGGAGAATTAACATCAACTATTTTGGCAGTTGTAGGGATAGATGATGCAGTTGCATTAATAGTTTATGTTCTTGCAGCAGGTTTTGCTTCATCAATGGTAACAGGAGAAAAACTTCATATATTACATATATTTGTAAAAGTTGGAATATCTATATTTATAGCTATATCTATAGGGGCAATAAGTGGATTTGTTTATAGTTATATAGTAAAAAATATAAAAAATCAAGATACAATGGAAATGATATTAGTGGCATTTATATTACTTTTGTTAGGATTATCAGAAATGTTTGATGTTTCCGAACTATTAACTATAATGACTTTTGGAGCATTTATAACTAATCTTTCTGAGGTGACAACTAGAAAAAGTGAAAATATAATTGAGAAATTTACAGGAGTATTTGTTGGAGCTTTCTTTATAGCTGGTGGTGCTTATTTAGATTATAGTTTAATAAAAGCAGTATTTGGTACGAGTGTATTATTTTTTATAGCACGGACTATTGGAAAAATATTTGGAGCAAAAATTGGGGCTACTATTGGAAAAGCTTCCCCAAAAGTAAAAAAACATATAGGAGTAATGCTTCTTCCACAAGTAGGGGTAGCAGTAGCACTTGTTATCTCAATAAAAAAACAATTTGTAGGAGTGCAAGTTCATGGAATAGATATAGGTACTTTTATATTTAATATATTGTTATTAACTACTCTTCTTACAGAGTTCATTGGTCCTATATTGACAAAACGAGCTTTACTAGCTGTTAAAGAGATAAAAGAAAGATAATAATTGAGAGAATGAGAGGGGAATAAATATGCACTATTTATATGTAAAAGTAATGGATATAGACTATAAAGAAGACATATTTTTAGCATTAGAAAGCGTTGATATAGTAAAAGCTTCATATATTGAGGGAACTAATTTAGATAATGCTCTTACAAGAGAATTGCCACTTTTTAAAGGTTTTTTTCAAAGTGAAGAAGAGAAATCTAAGCAAGTAATTTTAATAAATGCTTTAATTAATGATGAAGAACAAGCACAAGAGTTTATAACAATGCTAAGAGAAGCTGGAATAGATGTAGATAATGGAGAGATAATAAGAGTATTAACATGGCCTGTTAATATATTGGTAGGATAAATAAAATTATTTAAAGTCAAACCAAAGTGTTTGACTTTTTCCATTTAGAAAATTATAGAAATAATAATAGAGTTATAGATTTTAGGAGGGTAAATAATTGTGCGACGAAAATTTTTAGAAGAAAAAATTATATTTTCTAGTATTATAAAATGGAGTATACTAGCTTTATTTACAGGTATAATAGTAGGAACATCAACGTCACTTTTTTTAAAGGCTATAGACTATGGAATAAAATATAGAAGAATTTTTTCTTTTAAATATTACTATTTATTACCATTAGCACTTATAATAAGTGTATTTTTGATCCAAACATTTGCAAAAGATGCAAAAGGTCATGGAACGGAAAAAGTTATAGAAGCTATACATAAATATGATGGTGCGATAAAACTTATGGTAGTGCCAATAAAAGTACTAGCTACACTTATAACTATAATATTTGGAGGATCAGTAGGGAAAGAAGGTCCGAGTGCACAAATAGGTGGAGGTGTAATGTCTTTTGTTTCTGATATATTGAAAATAGAAGATAAAGATAAGAAGAAATTAGTAATATGTGGTATAGCAGCAGGATTTGGAGCGGTATTTGGAACTCCAGTAACTGGAGCAGTATTTGCAGTAGAAGTCCTTTATGTAGGAAAAATGTTGTATGATGTATTATTACCTTCTTTTATAGCATCTTTTACGTCTATATATGTATCAAAATTATTTTATGTAAGACATTCAAATTATTTAAATGTAGGGAATCTAGATAATTCATCATTAATTTTATATTTAAAAGTATTTATAGCAGCAATATTATTTTCTATAGTTACATTTATGTTTATTGAAATTTTAAATAAAATAGAAAATATTGCAGAAAAGATAAAATTAAATATTTATATAAAAACTTTAATTGCTAGTTTTATAATTATTCTTATAGCATTAATATTTTCTGATGACTATTTAGGATTGGGATTGCATATGATAGATGATTCGATTAATGGAGAAGATATTATATGGTATGCTCCGTTTATAAAAATTTTTACTACAACTATTACTTTAAGTTTTGGAGGAAGTGGTGGAATATTAACTCCAGTATTTTTTATAGGTTCAACTTTAGGAAGTATAGTAGGAGAATTATTACATGGTTCGCTACCTTTATTTGCAGGACTTGGAATGGTAAGTGTATTAGCAGGTGCAGCAAATACGCCAATAGCTTCTGTTTTAATGGCGGTAGAGCTATTTGGAGGAGGAGTAACACCTTTTGCAGTTTTATCTTGTATAATAACATTTTTATTAACGGGTCATAGAAGTGTATATCCAACTCAAATACTTTCTATGAAAAAATCTGAATCAATTGATTTGGAAGTAGGAAAGGAAATAAAATCTACAACTGTAATGGGAACAACAAAAAAAGTTATGTATTTAAAAAAAGCTTTAGATAATAACCAACTAGAAAAAATAATACCTTTAGAAAATATATTTTTTTTAAAAGCTGAAACAAAAGAAGAAGTATTAAAAGAATTTGCTAAAAAAATGAGTAATATGAAGAAAAAAATGAAAAAAAAAGATATAATGAAAGCTCTTCAGCAAAGAGAAGAAATTTATTCAACCGCTTTAGGGCACAAAATAGCTATACCACATTTTGAAGTATCTTTAAATGAAGATTTTTTCATTTTATTTGCAATATTGGAAAAAGATATAAAATGGGATGATAGAAATTATGTTAATACAGTAGTAATGATAGCTAAACCAGAATTTGAACAAAAAATATATCTTGAAATAGTTGCTAAAATATTAAAACAGATAAAAGATGAAGATATAAATAGAGAGTTAATAGCAAGCAAAACGCCAGAAGATGTAATGGCTGTTTTAAAGAGAAAAAAATCTTAAATAAAAATTTTTAGTATAAAAAAATAAATTTTGGAGAATTTTAAAGCTGCTAAACAGCAGCTTTTTTTATTGTTATTTTATAGTAAACATGATATAAAATAATAGAAAAAATTTATAATTTTATTTACCAAGAATAAAATGGAGGAAAAATGGAAAAGATAGAAGATAAAAATTTATGGTATCCATATGCTCAAATGAAAACTAGAAAAGAAAATTTTTTAGTGAAAGGAGCACAAGGAGTATATATTGATATATATCATAGTGAAAAAAAAGAGGAAAAAAAACTTATAGATGCAGTATCTTCATGGTGGTGTGCAGCTCATGGATATAATAATAAAGAGATAAATGAAGCAATAAAAAATCAAATAGATAAATTTTCTCATGTAATGTTAGGTGGACTTACTCATGAAATAGCACAAAATGCATCAAAAAAAATAGTTGAGATAACAAAAGAGGGATTAAATCATGTGTTTTTTTCCGATAGTGGTTCTGTTGGAGTAGAAGTAGCTTTAAAAATGGCTATTCAATATTATAAAAATAAAGGAGATGTAAGTAAAAATAAAATTATATCATTAACTCATTCATATCATGGTGATACATTTAAAACAATGGAAATAGGAGATGATCCAGACTATCATTTTGCATTTAAAGAGTTTTTTAGAGATTGTTATCATATTGATGCACCAAAGGGATTAGAAGCAAATGATGATGAAATAAAGAGGTGTATAAATGATTTAGAGAAATTATTAAAAGAAAAATCTGATAAGATAGCAGCTTTTATAGTAGAACCATTAATTCAAGCAGCAGGAGGATTTAATTTTTATAGTTATAAATATTTAAATGAAGCTAAAAAATTGTGTGAGAAATATGATATTTTATTTATATTTGATGAAGTAGCAACTGGATTTGGAAGAACAGGTAAAATGTTTGCAATGGATTATTGTGATTTTACTCCAGATATATTGGTACTTGGAAAAGCACTCACAGGTGGATACATAGGACATGCAGCGACAGTAGCAACTACAAAAGTTTTTAAAGAATTTTATAGTGATGATAGTGAAAAAGCTTTTATGCATGGACCTACTTTTATGGGAAATCCTTTAGCTTGTAGTGCAATTTTAAAGAGTATAGAACTTTATGAAAAAAATGATTATTTAAGTAAAATAAAAAATATAGAAGAAATAATGAGAAAAAAATTGATAAATATTAAATCTAATAAAATAAAAGATATAAGAGTATTTGGAGCAACAGGTGTAATTGAAGTTGGAAATAGTATTTTTTTAAGAGGATTACAAGAATTTGCATATGAAAAAGGAGTTTGGATAAGACCATTTCTAAATTATGCTTATATTATGCCTCCATATATAATAAAAGAAGAAGAATTGTTAAAAATAATAAATGTATTAGAAGAGTGGTTTAAATAAAAAATAGACCTAATATTTATTTTAGGTCTATTTTTTATATTAAAATTTAGTTATAAATGATATTTTAGCTTGATCTTGTTCATTATCATAGATAGTTGTGTAATTATACATAAAATTATCAAAATCTTCATATGTATCATTAGGTCCATAAGATAGTTTTAAATAATTAGAATTATCAAATTTATATTTCATAGATATAGAAAATTTTGTATTATTTTTATAGTTATTATCACTATCCACCATTTTTCCATTTGATTCAATTCTATCAAGTTGATATTTTCCACCAAATGAATAAGTTATATTATTTTTACTCAAATCTTGTTTATAAAATAAAATAAAATTATCTTCATCTGAACTAGAATTACTATATTTTTTATTCATATATCTTCCACCAATTAAGATATCAGAATTATATGGAATAGATTCAGGTGTTTTAGGTTTAGATAAAACATTATTATTTTCAAAATTCCATCCTAAATTAATTTGTTTATATAATTCATCGCCATCATCATAATACTTAGAAGCAAATTTCATACTTTTATTATTAGTATATAATTTACTATGCTCTCCATATAACTCCCAAGAATTTATATTTGTATCATTATTTCTAATATATCCAAAAGTAAATTTATCAAATGTATTATTACCAGAAACATTTTTAGCTGTAATTCCAGGTCTATAAATAGTTTTATTTACTAAAGTTAAAGTAGAATCAGTTGTATCATTATCTTTATTATTATTAATAATATCAAAAGTAAGATTATAATTATTATTTACTTTTAAAATATTTTTAAAAGATAATTCTTTTTCTTTTGAAGAATTAATTTCATTAGATACATATGTAGAATGATACAAACTAGTTTTTAAGTATGGTGAAGTATATGAGATACCTTTTATTCCACCATAATGGTTTATATCAGATTTGATTAAATCAGTTTGTTTAAATACCTGATAATCAGTATCTCCAAGTCCAGTAATATCATAATTTTTCCCAGTGCTTATTCCGGCAAAAAGAATATCTATTTTGCTATCTTTTAAATATTTTGTAGTGTTAGAATATAAATAAATAGCAGAGTTATCATCCATAGGTAAAATATATTCGTTATTAGTAGAATTACTATTATAATCTTTGTTTGACACAGTAGAATATTCTACATTAAAATATGTATAAGTATTATTATTTATAGTAAAATTAAAATCTGAATTAAAAGATAAAAATGATTTTTTAGTAGTATTTATAGGATTATCCAATCGAGTATACATTAAATTATAATTAGATTTAGTACCTTCTTTATTATTAAAATATCCAAATACACCTCCCCACTCAACTCCAAATAGTTCCCCATATGAAGTAGTTGAAAACAAAGTGGTATATTTTTTGTTTAATAAAGTACTTTCTATAATATATCCATCATTATTTTCTATTTTATCGCCATTTAATATATTAAAATTAGAGTTAAATGAAGGAAGTTTTTTATTTGAATAATATTCATTGTCGCTTTCTTCATAAATATTTTTAAACATAACAATTTTTAAAGTATCATCAGATAAATGAATATCATAATTAGCTAACCCATAATTTGGATCAAAAGTAAAAGTAGAATTTAAATAATTATTAAATTTTGTTAAAATACTAGCTCTTCCATCAATATCTAGAGTAGAATTGTTAGAAGTAAAATTTTTATTTATTTCTAATTCTGCATTAAATCTTACTCTGTCAATCATAGATTTTAATTCATTGTAATTATTATCAATTTTTTGATTAAGTTCAATTTTTAAAGTATCAATTTTTTGATTAAGTTCATAATCTGTAGCTCCAAGTTTACCAAGTTCATTTGCATATTCACTAACCAAAGCTTTTAAAATAGTTATATCCTGTATGTTAGCATTCTTTTTTATATAATTTTCATTGTAAATAATACTATTATATAAGATAGTAGCTATTTCATATCTAGAAAAATTTTTATTGCCTTCAAAATTTGATTTGTTATCAAATAGAGGAGTTAAAATATTTTTTTCAGTTAAAGATTTTATAGCTTTACCTTCAAAAGAATTATAATCAATATCGTCAAATGCAAATGAAATATTTGATATAATAAGTAGAGCTATTAAAAATAAATTAGATTTTTTCATTATATACCCTCCTAGATGTATACGTTACCATGTTATAAATTATCATAAATTTATTATAAAGTCAAACCCTAAAATAAGTATATATTGATAAACTGAAATAATCCTTAAAAAACAAATAAAAAAAATTACTTTATTGATGATTATAAAAAAAAATGATATAATAATTAGAAAATGTAACTTTAAGGTTGTGAAAAATGAAAAGAGAAATTTTAAAAAAAATTTTAAAAAAATATTTTAAAAAAATAGAAAAAATAAATAAAATTTGCATAGATAGTAGAGAAGTAATGGAGAATGATCTATTTTTTGCTATAAGAGGTGGAAACAATTATATTAAAGAAGCACTTAATAAAGGTGCATATGTTATTTACGATAAAAATGGAGAAAATATAGTTAATGAAAAATGTTATAAAGTTAAAGATAGTATAGAATTTTTACAAAATTTAGCAAAAGAGTATAGAGAAAAACTAAATATAAAAATAATAGCAGTAACTGGAAGTAATGGAAAAACAACAACAAAAGATATTATTTTTCAAATATTTAATGAAAAATTTAAAACAAAAAAAACTATTGGAAATAAAAATAATCATATAGGAATGCCTTATACTTTATTAAATGTAGAGGATGATGATGAATTTTTAATTCTCGAATTTGGAATGAGTAATTTAGGTGAAATTGATTTATTAGCTAGTATATCAAAGCCAGATATAGGAGTTATTACAAATATAGGAGAATCCCATTTAGAATATTTAAAAACAAAAGAAAATGTATTTAAAGCTAAAAGTGAAATAATACCTTATAGTAAAAAGATGGTTGTAAATGGTGATGATTTTTATTTATCAAAATTAAATGATAAAAAAATAATAAAAATAGGAAGAAATGGAAATATATCTATATTAGAAATAGAAATAAAAAATGAGTATACATATTTCAAATTAAAAATTAATGATAAAGAACATAAATTTATAACAAATCTATATGGGGTACATAATGTATACAATATAGTGATTGCAATACAAATAGCGATATTTTATGAAATGAGAATAGAAAAAATAAAAGATATTATAAAGAATTTAACTTTAACATCAATGAGATTTGAAGTTTTAAAGATAAAAGGAAATATATATATAAATGATGCTTATAATGCAAGCCCTATATCTATGAAAGCTTCTCTTGAAACTTTTAATAATTTATATAATGATAGATACAAGATAGTTGTTTTAGGAGATATGTTAGAGCTTGGAATAAATAGTAAAAAATATCATGAGGATTTGTCTTATATCTTAGAAAGAATAGATATAAAAGAGATATATCTATATGGAAAAGAGATGCAATACCTATATAAAAAAATAAAAAATAGATTAAATGTAAGGTATTTTACAAATAAAAAAGATATACAAAATTTATTAGGGAATAAAGAGGAAAAATTAGCAGTTCTACTAAAGGGATCTCGTGGAATGAAATTAGAAGAAATTTTATAAACTAAAGGAGATTGGCATGTTATATTATATTTATTTAAAATTATTTAATGAGCTTTCATTTTTAAGGGTATTTAAGTATATTACAGTGAGATCCATAATAGCGTTTTTTTTATCATTTTTTATAGTTCTTTTTATAGGGAAACCATTTATTAATTATCTAAGAAGAAAAAAAATAGGAGATGATATAAGAAAAGAGGGACCTAAAACTCATTATAATAAACAAGGTACACCTACGATGGGCGGGGTACTTATTCTTTTTTCAATACTTCTCACAGTTTTAATAACAGGTAATTGGACTAATCAGTATATTGTACTTCTTTCTATTTCTACATTATTTTTAGGTGGATTAGGATTTTATGATGATTTTAAAAAATTTACGGTGGATAAAAAAGGATTGGCAGGAAAAAAGAAAATACTTGCACAAATAATACTCTCTATAATAGTATGGATTTTTATAAAAAATCTAAATTTAGGAGAAATTTCTTTTTCGATTGTAAATCCATTTTTAAAAAATTCTTATATTTACATTGGTAGTTTTTTAATGTTATTATTTATTATATTTATTATTGTAGGAAGCTCAAATGCTGTAAATATAACAGATGGACTTGATGGATTAGTTATTGTACCAGTTATGATAGTATCATTGACTCTTGCAATAGTAGCATATTTTACAGGAAATATTATTTGGAGTAAATATTTAAATCTTTATTATATAGAAGGAACAGGCGAAATAGTAGTATTTTTAGCGAGTATAATAGGTTCTGGATTAGGTTTTTTATGGTACAATTTTTATCCTGCGCAGATTTTTATGGGAGATACAGGTTCATTAGCACTCGGAGGATTATTAGGTATTATATCAATATTATTAAAACAAGAGATTTTATTAGGTATAATAGGAGTAATTTTTGTTATAGAAGCATTATCAGTAATAATTCAAGTGTGGTCTTTTAAAAAAAGAGGAAAAAGAGTATTTAAAATGGCGCCTATACATCATCATTTTGAAATTTTAGGTGTACCAGAAACAAAAGTAACTGCAAGATTTTGGATAATATCAATTATGTTTTCTATATTAGGACTTTTAATTTTAAAATTAAGATAGGTGATTATTTTGAAAGCTATTGTTTATGGAGCAGGAAAAAGTGGTTTAGGAGCAAAAAAACTTTTAGAAAAACAAGGTTATGAAGTAATTTTAGTAGATGATAAAAATGGAATATCATCACAAAAAGCTATAAAATATTTAGATGAAATAGATATTTTTATAAAAAGTCCAGGAATTCCTTATAATGATTTTGTAAAATTAGCAATAGATAAAAATATTAATTTAATAGATGAAATAGAATTAGCTTATATGTATATGAACAAAAATACGAAAATTATAGCAATTACAGGAACGAATGGAAAAACTACTGTAACAAGCAAAATAAAAGAGTTATTAGAGTATAATAGTTATAAAGTAAAATATGCCGGAAATATAGGTATTTCTTTTTCCGAAATAGTTTTAGAGGGTAAAGATTTAGATTATATTGTGTTAGAACTTAGCTCATACCAGCTTGAAAATATTAAAACATTTAAACCATATATATCGATGATAATAAATTTAACACCTGATCACATGAATAGATATAGTAGTTTAGATGAATATTACAATGCAAAATTTAATATTTATAAAAATTGTAATAATACTGATTATTTTATTTTAAATATTGATGATAATGAAATAATGACTAGATTTAATAAAAATATAAACTTAAAAAAAATTTCTTTAGAAAATGAAGCTGATATCTATTATAAAAATAATTATATATTTATAAATAAAGAAATGTATATAAACAAAAATAATCTTTCTTTAAAAGGTATACATAATATACAAAATATTTTATTTATAATATCTGTATCTGAAATTTTAGGTCTTGATAGAAAAAAATTAAAAGTTTTTTTAGAAACAACAAATACTCTAGAACATAGAATGGAAGAATTTTTTAAAAAAGAAGATACTTTGTTTATTAATGATTCTAAAGGAACAAATATAGATTCTACAATAAAAGCAATAGAAGCTTTTGAAAAAGACTTAATTTTAATAACAGGAGGAAAAGATAAAAAAGTAGATCTATATCCACTGTGTAAAATAATAAAAAATAAAGTAAAAAAGGTATATCTTATAGGTGAGACAGCAGATATTTTAGAGGAGATATTATTAGAGCTAGAATATAAAAAAGAAAATATTAAAAACTTAAAAACTATTGAGAAAGTAGTAGATAATCTTAAATTAGAATCAGAAATAGTACTTTTTTCGCCGGCACATTCTAGTTTTGATCAATTTAAAAATTTTGAAGAAAGAGGAAAAATTTTTAAAGAATTAATTTTACAAAAGTTTAATTAGAAATGGGGTTAAATATGAAAAAAGTTGTTTTAACAACTGGAGGAACAGGTGGACATATATATCCAGCTTTAGCTATTGCAAAAGAACTTAAAAATAGAGAAGTAGAAACGTTATTTATAGGTAGTAAATATAGAATGGAAAATGAATTAGTACCTGAAAATGGATTTGATTTTATAGGGCTAGATATAAAACCTATTAAAATAACGAATATAAAATCAATATATAGATTATTTAAATCAATAATAAAAAGTATAACAATTTTATACAAAGAAAATATAGATTGTATTATTGGTTTTGGAAATTATATATCAATACCAGTTTTAATAGCAGCCTTTTTACTTGGGAAAAAAATATACCTTCAAGAACAAAATATTAATTTAGGACTTGCAAATAGAGTATTCTATAGAGTATCTCAAAAGATTTTTGTAGCTTTTGATAAAACATATGAAGATATTCCGAGAAAATATCAGCATAAAGTAATGGTAACGGGAAATCCACTGAGAAAAGAATTTAGATATATAGATAGAGAAGAAGAGCGAGAAAAATTAAAAATAGGAAATAATGAAAAAATACTTCTTGTTATTGGTGGTAGTTTGGGAGCAAAAAAAATAAATGAAGCTATATTAAATAATTGGGATGAGTTATTTAAAAATTTAGACATAAGAGTGTATTGGGCAACAGGAAAAAATCATTTTGATGAAATAAATAATAAAATAAGAAAAAGAAAACCAAATGATGTAATAAAACCATATTTTGATAATATAGCTAAAATTATGGCGGCTTCAGACCTTTTAATTTGTAGAGCTGGAGCGTTAACAGTATCTGAGGTTATAGAACTCCAAAAACCTAGTATTATGATACCTTACAAAAGTAGTGATGTAGGGCAAAAACAAAATGCTGAATTGTTAAAAAAAATAGGTGCTGCAAAAGTATATGATGAAGATAATAGTGACGAAGCAATAAAAGAAGCAATAAATTTAATAAAAAATGAAAAATTATTAAAAAAAATGAAAAATAATTTAGTTTTAATAAAAAAAGGAAATTCTACATTAAAAATTGTTAATGAAATAGATATTTGGAGGAATTAAGTATATGAAAGGTATAAAAAAAGTTTTTTTTATTGGTATAAATGGTATAGGTATGAGCGGATTAGCTAAAATAGCTAATAGTATGGGATTAGAAGTAGAAGGATCAGATATAGCTAAAAAAAATATAACTAAAGAATTAGAAAGTTTAGGAATAAAAGTATATATAGGTCAAAAAAAAGAAAATATAAAAAAAGTAGATATGGTAATATATTCGAGTGCAATAAAAGAAGATAATCCAGAATATATAGCTGCAAAAGCAAAGAATATAAAAATGATAAAAAGAGGAGAGTTTTTAGCAAAACTTTTTAATGAAAAAATAGGTGTAGCGATAGCGGGTACACACGGAAAGACAACAACTACTTCATTAATGTCATCGATTTCAATGTCAAAATCACCAACTATAATGGTAGGAGGTATTTTACCAGAGATTAATTCAAATGCAAAAGTTGGAAATTCTGATATTTTTATAGCTGAAGCGGATGAAAGTGATAACTCTTTTTTATATTTAAAACCTAAATATTCAATAATAACAAATATAGAAGAAGATCATTTAGAAAATCACGGGTCATTTGAAAATATAGAAAACTCATTTAAAAATTTTATAAATCAAACAGAAGAAGAAGTTATTCTTTGCATTGATTGTAAAAATGCTAAAAATTTAAGTAAATATTCTGACAAAATAAAAACATACAGTATAATAGATAAAGAAGCTAATATTTATGCTGAAAATATAAATCAAATAGATAATTTTACAACATTTGATTTGTTTATAGAAAATAAATATATAGATAATTTCAAAATAAAAATTCCAGGAATACATAATGTTTCAAATGCTATAGGGACTATATATTTAGCAATAAAATTTGGAGTAGAAATAGAAGAAATAAAACAAAAATTAGCAACATTTAATAATGCAAAACGACGATTTGATGTACTTTATAGTAATGGAATAACTATAGTAGATGATTATGCACATCATCCAACAGAAATAAAAGCAACATTGAGAGCTGCTAAAGAAAGAAAAACAGATAAAATAATAGCAGTTTTTCAACCACATAGATATAGTAGATTAAAATTTTTATTAGATAAATTTATTGGTGTTTTTGATTTAGCTGATGAAGTAATAATTTTACCGATTTATTCAGCAGGAGAAAAAAATATTTATGGAGTAGATGAAAAAATTTTAGTAGAAAAAATTAATCACTCTAAAATAAATATAATAAAGGGTGAGGAAGATATTTTAAATAAGATTAAAGAAAACAAAATCAAAACAACATATCTTTTTATGGGAGCTGGAGATATTTCTCAAATAGCACATAATTTAAGTGAAAAAATATCAAATAATTACGGAGTGTAGAATGGAAGTTATAAAAAACGCGAAAATGAAAAATCATTCAAATATGAAAATAGGTGGAGAAGCAAAAGAGCTTATTTTTATTGAAAAAAAAGAAGAATTATTAGAAGTTTTAGAAGAAGCAAAAGATTTTTTTATAATAGGTAATGGTACAAATACATTAATAAAAGATGGAAAAATAGATAAAACTTTTATAACTTTAAAAAGATTAAATGCGATTAAATTATTAGAAAATAATAGAGTATATGTAGAAGCAGGGTTAGACTTTAGTAAATTTATAGAATTTATGGAAAAAAATAATTTATCAGGATTAGAAAATCTCGCGGGTATTCCAGGTAGTGTAGGTGGGCTTGTATATATGAATGGTGGAGCTTATGGAACTGAGATTTTTGATTATATAGAAGAGATAGAAATAATAGATAATAATAATAACTTGAGAAAAATAAAAAAAGAAAATATAAAATATAGTTATAGAGCAACAGAGATAAAAGAAAAAAAATGGATAATAATAAGTGTTATTTTTAAATTAGAAAAAGGATTTAATAAAGAAAAAGTAAAAGAATTAATAAACAAAAGGGAAAATAATCATCCTTTAGATTTACCTAATTTAGGAAGTACTTTTAAAAACCCAGAAGGTTATTATTCTGCGAAATTAATAATAGAAGCAGGAATACAAGGACATAAAATAGGTGGTGCTAGAATTTCTAAAAAACATCCTAATTTTATTGTTAATGAAGAAAATGCAAAATATAGTGATGTTATAAAGCTTATAGAGTATGTAAAAAATAATGTGAAATCTAAAACAGGAATAGAATTAGAAGAAGAAATTATAATTATAAAATAAAACTGACACTTTTAGTGTTGAAAAAAACTAAAAAAAATGATATATTAGTGATAAGTATTAAAAGGGGTAAGTATGGTATTTTTTAAAAAATTTATACCTATTTTTATTTTATTTATTATTTTTTATAATATATATTTTTTTTATAATTCAGATTATTTTTTAATTAAAGATATTCAAATTATGGGTAAAAATGAATTATTAAAAAATGATATTATAGAGAAATTAGATATTTTAAAATCAAAAAATATATGGAAAATAGATATAGAAAAACTTAAAGAATTAATATTAAAAGATGTAAGAATAGAAAAATTAGATATTAAAAGAAAAATACCAGATAAATTAATTTTTGAAATAGAGGAAAAAAAACCTTTTATTTATGTTGAATATAAAGGAAGAATATTAGTTAGTGATAAAAATGGAATAATTTTTTCTATATATAAAGAAATATCTAATGAAGATTTGGCTATAATAAAATTAACTAACTTGGAAGACTTGAAAGAGTATATTAGTATATTAAATAAATTAGAGGGAAAATATTTAGAATTAATATCAGAACTTTATAAAAAAGAGAATTACTATATCATTTATTTAAGAGATGGAATAAAAATAAAGACAGATATTGATGTAGAAAAGAAAAAATATAGTTTAGCTTTTAAGCTATATAATCATTTAAAAAATAAAAAAGAGATAGATGAGTATTTAGATATAAGATTTAAGGATTTTATTGTTAAATAGGATTATTAAGGGGGAGGCAGTTAATGGATAATAATATTGCCGTTGCTATAGATATAGGAACAACCAAAATATATGTAATAATTGCAAAAGTAGATAATGAAACACATACATTTCAAGTAAAAGGATACGGAGTTGCTGCGTCTAGGGGATTAAAAAGAGGGTTAATAGTTGATATAACAACACTTAGTGAAGATATAGAAAGAGCTGTAAAAAAAGCAGAATTTATGGCCGGAATTAAAATAACAAAAACTTTTGTAGGACTTTCTGGAAAACATATAAAATCTAGTGTAACAAATGTTGAACTTGAATTAGATAATGCACCAAGAGTTATAGAGGAAAAAGATTATAAAAAACTTGTAAGAAAAGCTATAAATAGATTAGTAGAAGATGGAAGACAAGTACTTCATGAGATAGTTTATAATTATAAAGTGGATAATTCTAGCGTACTTAAAAATGCAATAGGCATGCAAGGAAGTTTTTTAAAAGCAGATGTACATCTTATTACTGGTTCTGAAAAAGAGATAATTTCATTAAAAAATGCTTTGAAAAATATTAACATAGAAATAGATGATATTATATTAGAACCTTATGCTTCAGCAAAATCAGTGCTTACACAGTCTGAAAAAGAATTTGGAACAGTAATAGTGGATATAGGTGGGGGAACAACAGATCTTGGAATATATAAAAGAGATAAATTAATTTATGCAAGTGTAATACCAATTGGTGGACAACATTTTACAAGTGATATAGCACAGGTATTAAAAATAGATTTAGAAACAGCAGAAGAATTGAAAAAGACATTTAGTGATTTATATTTTGATCCAAAAACAGAGAAAACTTTGCAAGTAGATAGTAAAAATTCAAATGATAAAATAGAAGTAAAATTAGATGTACTCAAAGAGATAATAGAAGCTAGAATAGATGATATAATAGAATATATAGAAGAGGGAATAGAATTATCAGGGTTTGGTGATTATATAACAAATGGAATTGTATTTACAGGTGGTTCGTCTAAGATAGCTGGTCTTGAAAAAAGAGCAAAACAACTTTTGAATTATAATATTAAAATAGGGGTACCTATAGAAATAGACGGATTATTAGAAAATATGAATAAACCAGAAAATGCTACAGGAATAGGATTATTACTTTATGCTACTGAAAAAAAATATTATTACTCAAAATTACATAAAGAAAAAAAACAAGAGAAAAAAATAGAAAAAAAAGAACAAAATAAAAATAAAATTGAAAAAGATAATAATATTAAAGAGAAGGTTAAAAAATTTTTTTCTAGCTTATTTTAGCGGAAATTAAGGAGGGTAAACAAGCATGGGGATGGAAGAACATGTAAAAATAAAAGTAATTGGTGTTGGAGGAGCTGGTGGAAATGCTATAAATGATATGATAGCTAGTGGTGTATCTGGGATAGAATTTATAGCAGCAAATACAGATGTACAAGATTTAGAAAATTCTGCTGCTCAAATCAAACTCCAATTAGGAAAAACTTTAACAAAAGGATTAGGTGCGGGAGCTGATCCAGAAATAGGAAGAAAATCAGTAGAAGAAAGTAAAGAAGAAGTAAAAAAAATATTAGAAAATACAGATATGCTTTTTATTACAGCAGGAATGGGTGGAGGAACAGGGACAGGAGCAGCTCCATCAATAGCTGAAATAGCTAAAGAATTGGGTGTTTTAACTATAGGTATAGTTACTAAACCATTTAATTTTGAAGGTAAAAAAAGAATGAAAAATGCTGAAGAAGGATTAGAGAGGTTTAGAGAGTTTGTAGATACGCTTGTTATTATTCCAAATGATAAATTATTTGATTTACCAAACAAAAAAATAACTCTTAAAAATGCATTCCAAGAAGCAAATAATATATTAAAAATAGGGGTAAAAGGTGTTTCGGAGCTTATAACAAAACATGGTTATATTAATCTAGATTTTGCAGATATACGTACAATAATAAAAGGATCAGGAGTAGCTATGTTAGGATTTGGAGAAGCAAGTGGAGAAGATAGAGCAAATATTGCTACACAAATGGCGTTATCTAATCCATTGTTAGAAAAATCTATAGAAGGAGCGCAAAGAATCTTATTAAATATAACAGGTGGAGAAGATTTTACTTTAACAGAAGCAAATCAAATTTCAGAAGCAATTAAAGCAGCGGCGGGAACAGAGCATACAGAAGAGATGATGTTTGGTAGTGTTATAGATGAAAGTTTAGAAGATATAATAAAAGTGACTATAATGGCAACAGATTTTATAGATTTAGCTGATAAAGAAATTAGAAAAGAAAAAACATTTGAAACAAATATTAAAGTTAATAAAGATAAAAAAACTGAAGAAGATGATGATTATTTAGAAATTCCAGCTATAATTAGAAAAAGAAATTTATAAAAAAAGTTGATTTTTAAATAAAAATATGTTATTATAAATAGCCCTGTTTAGTAAAAAACTAGACAATATCCAGAGGGAGGAGGAAGATTAATGATAAGAAATTACGAAATAATGTACATTATTAATCCAGTAACTACAGAAGAGCAAAAAGCAGAAGTTATAGAGAAAGTAAATGCTATCTTAGCTGCTGCAAAAGCTGAAGATGTAAAAGTTGAAAAATGGGGAGAAAGAAAATTAGCTTACCCTATCGACAAAAAAGAAACTGGGTTTTATGTATTAACTACTTTTAAAATTGAAGGAACAGAATTAAAAGAAGTAGAAACTAAATTAAACATAACTGAAAACTTAATGAGATATATCGTAGTAAAAAAAGACTAATTATAGATATTTTTGGGGAGGGGTTTTATGTCAATGAATTTAGTTGTATTAACAGGTAGATTAGCTAGAGATCCAGAGCTGAAATATGGACAAAGTGGTACAGCTTATTGTAGATTCACTTTAGCAGTTAACAGGGTAGCTAAAGATGAAGCGGATTTTATAGGATGTACAGCATTTGGAAAAACTGCAGAACTTATTGGTGAATACTTAAGAAAAGGTAGTATGACAGGAGTTCAAGGTAGATTACAAACTAGTTCATATGAAACAAATGGTGAAAAAAGATATAGAACAGATGTTATCGTTGATAGGATTGAGTTTTTAGAATCTAAAGCAAGCTTATCTACAACAGGAAACATAACAAATACGTCTAAATCCCCAGAACCAGTACAAAATTCGCATGAAGAAGAAGATGATGACGAATTTCCATTTTAATTTTTGGAGGTGAAGATAATGGATATCAAAAGAAGAAGAAGAAGAAGATCAAGATTAAAAGTAACTGCAAAAGATATTGATTATAAAAATGTAGATTTATTAAAAAAATTTATGTCTGATAAAGGTAAAATTAATCCAGCTAGAGTAACAGGAGCAGATGCTAAATTACAAAGAAAAATAGCTAGAGCTATTAAAAGAGCAAGAAATATAGCGTTATTACCTTATACTAATACAGTAAGTAAATAATTAAATTTATTAAAGCTAATGAGTTTTTCATTAGCTTTTTTTTATTTGAAATGATATAATTTTATAAAAAATCAAAAAATTTTAGGAGGAAAAATGTTAAAAAAAGAAAGATTATTTGAAATATTAGAAAATTTTTTAACTAAAAGTATTGCTGTAATAGGAGATATGATGATAGATGAATATATAATAGGAAATGTAGATAGAATATCTCCAGAAGCTCCAGTACCAGTAGTAAATGTAAATAATGAAAAATATGTACTTGGAGGAGCAGCTAATGTAGTAAATAATTTATCTGTATTAGGTGTAAATGTATTAGCATATGGAATAGTAGGAAATGATTTAAATGCAAATAAGTTACTTTATAAATTCAAAGAAAAAAATGTAAATACAGAAGGTATAATAATTGATAGAGAAAGACCTACAATAATAAAACAAAGAATTTTAGCAGGGAATCAACAACTTTTAAGAATAGATAGAGAGAAAAAATATCCTATTTCTAATGAAATAGAAAATAAAATTATAAATAATTTAAATAAAAATATAGAAAAAATAGATGCTATTATTTTATCTGATTATGATAAAGGCGTTCTTACAGAAAATTTAGCTAAAAATATAATTAAAATAGCTAAAGAAAATAATAAAATAATAATTATAGATCCTAAACCTAAAAATGTTTTGAACTATATAGGTGCAACTTCTATGACTCCAAATTTAAAAGAAGCATGTGAATGTATAGGAAAAAATATAACTGAAAATGAAAATGAAATAATACAAATAGGAAAAGAAATAAGAGAAAAATTAGAGCTAGATCATTTACTTATGACTAGAAGTGAAAAAGGTATGAGTATATTTATGAAAAATAGTGTAGAAAATATACCAACGTTTGCAAAAGAAGTATATGATGTAACAGGAGCAGGAGATACAGTAATCTCATTATATACATTGGCGCTTTCGTGTGGAGCAAGCTATGAAGAATCAGCTAAAATAGCAAATACAGGAGCAGGAGTAGTAGTTGGTAGAGTAGGAACATCAGTTGTAACAAAAGAAGAAATAATTGAATTTTATGAAGAAATATATGATAAACATAATTTAAAAATAGAAGAAAAAAAATATTAAAGAAAGGATAAAAATATGTATAGAATAGGTAATGGATATGATGTTCATAAACTAGTAGAAAATAGAAAACTAATATTAGGTGGAGTAGAAATACCTTATGAATATGGATTACTAGGGCATTCTGATGCAGATGTTCTTATTCATGCTGTTATGGATGCGTTATTAGGAGCACTTGCACTAGGTGATATAGGACAGCATTTCCCTGATACTGATGAAAAATATAAGGGAATATCAAGTATAGAATTATTAAAACATGTGAATAAATTAATAGTATCTAAAGGATATGAGATAGTCAACATTGACTCTATTATAGTCATGCAAAAGCCTAAATTAAAAGGTTATTTATTTGAAATGAGAGAAAATATATCAAAAGTAGTTGATATAGAAATAGAGAATATAAATATAAAAGCAACTACAGAAGAAAAATTAGGATTTACAGGAAATGGAAATGGGGTTAAATCTTATGCGGTTGTAATGTTAAAAAAAAGTAATAAATTTTAATTAAAAAAATTTGATAATTAAAAAAAATAGAGGTAAACTTGTATTAGAGTTTTAAAATTTCAAAATAAATGATATAATTTCTTAAAATAATATTTGGAGGTTATATCATGAAATTAATAGTAGGACTTGGTAATCCAGGTAAAAAATATGAAAAAACTAGACATAATATAGGATTTAATGTTATTGATAATTTAGCAAAAGATTTAGGTGTGGAGAATTTTAGAGAAAAATTCCAAGGTCTTATTGCAGATACGACTTTTAGGTCAGAAAAAGTTTTATTACTTAAGCCACAAACGTATATGAATCTTAGTGGAAATTCATTAATTGAAGTTGTGAATTTTTATAAACTAGATATAGAAAATGATATTATTGTAATATATGATGATATGGATTTAAAATTGGGTGAGCTAAGAATTAAAGCAAAAGGAAGTGCAGGAGGCCATAATGGAATAAAATCTATAATAAGTCATATAGGAGATAAATTTATTAGAGTAAAATGTGGAATAGGAAAACCTAAAGAAAAAGGAGAAGTTATAAATTTTGTATTAGACAATTTTGCTAAAGCAGAAATAGAAGAGGTAGATACTTTAATTGAAAATGCGAAAAATGCCACAAAAGATATTTTAATTTCAAAATCTTTAGATAGAGTAATGCAAAAGTATAATAGAAAAAAATAACAAATATTATTGATTTTAAGAGTAAAAAAACTTTTTAAGCCTAAAAAAACCTTTAAAAATAAAAAGGAATTGGTTTAAGAAGTTTTTTTTCGATATTAAACCATACTTTACAAAGTGAATTTTTAATCAAAGTAAATTTTGAAAAAACAAATAATAAAAACATACAAAATAAAAAAATAACTTACTTTACAAAATTTTTAAAAACAGTTATTATATAAAGTGAATGTTAATTATAATTTAACAAAGGAGTTGAATTAAATGAAATTATTTAGTTTTAAAGGTGGTATACATCCGCCTGAAAACAAAGATTTAACAGAAAATTTAAAGATTGAAGATTTTAAAATTCCAAAAGAAATATGTATACCTCTTCTTCAACATATAGGAGTAGTACTAGAGCCTCTTGTAAAAGTGGGAGATAGGGTAAAAAAAGGTCAAAAAATAGGAGATAGTAGTGGTTTTTTATCATCACCTGTACATTCATCAGTAAGTGGAGTGGTAAAAAAAATAGAAGTTAGACCTTTTCCAGTAAGTGGTAGAGTAAATACGGTAATTATTGAGAATGATTATGAAGAAGAAATTTTTGAATATCCCAAATATAAAGAATATGAAAAATTAACAAAAGATGAATTATTAAAGATAGTAAGAGAAATGGGAATAGTAGGACAAGGTGGGGCAACATTTCCGACACATATAAAACTTAATCCACCAAAAGATAAAAAAATAGATGTCTTATTAATAAATGGTGCAGAATGTGAGCCATATTTAAATGCTGATAATAGGCTTATGCTTGAACAAACAGAAAAAGTAGTAAAAGGAATAGATATATTTAGACATATTTTAGGAGTGCAAAGAGTAGTAATAGGGATAGAAGAAAATAAAGAAGAAGCAATTCATAAAATGAAAGAAGAAGCTTCTAAATATGGAATGGAAATAGCAGTACTTAAAACAAAATATCCTCAAGGAGGAGAAAAACAATTAATAAAAGCTGTTTTAGATAGAGAAGTACCTTCTGGTAAATTACCATCAGAGGTAGGAGTAGTAGTACAAAATACGGCTACAGCATTATCTGTATATGAAGCAGTGATTGAAGGAAAACCAGTAATAGAAAAAGTACTTACAGTGTCAGGGCTGGGAGTAAAAACACCTAAAAATTTAAGAGTAAGAATAGGAACACAATTTAAAGAAATACTAGATTATGTAGAAATAGATAGAGAAAAAACAGAAAAACTTGTAATGGGTGGTCCAATGATGGGATTAGCTCAACATTCAGAAGAAGTTCCAGTAATAAAAGGAACATCTGGGATTTTAGCTCTTACAAAAAAAGAGATGAATCCATATAAATCAAGAGCTTGTATAACATGTGGAAAATGTGTAGATGCATGTCCGATGAATTTATCTCCATTAATGTATGCAAAACTTGCAAGATTCCAAGAGTGGAAGGAGATGGATAAATACGATTTATTAGATTGTATAGAGTGTGGAAGCTGTTCATTTGTATGTCCAGCAAATAGACCATTAACAGAAGGGATAAAAATAGGAAAAGCTAAATTAAGAGCTATGAAAAGATAAAAGAGAAGGCAGGTGTATTATGGATAAATTATATAGAGTAGGTCAATCACCACATATTAGAACAAAAGAAACAATAGAAAGTGTAATGTATGATGTAGTAATAGCACTTTTACCAACACTTTTAGTTGCAATATATTTTTTTGGAATGAAAGCATTATATATGACATTAGTTGCTGTAATATCAGCAATGTTAGCAGAATATGTATCACTTAAATTAATGAAAAGAGAAATTACGATATTTGATGGTAGTGCCATTATTACAGGAATGCTTTTTGCTTTTATATCTCCAGTAACACTTCCATATCCATATATAATTATTGGTTCAGTTGTATCAATAGTTATAGGAAAAATGGTGTTTGGAGGACTTGGACATAATGTATTTAATCCAGCATTATTAGGAAGAGTATTTTTAATGGCATCATGGCCAGCACTTCTTACAAGATATGTAAATGTAGATGGAAGCGCAGGTGCTACTACTTTAGATTACTTAAAAAAAGGAAAAGATTTAATGGAAGTATTTGGACATAATGTATATTTAGATATGTTTATAGGAAAAATGGCAGGTTCCATGGGAGAAACATCTGCATTAGCTTTGCTTATTGGTGGATTATATTTAATCTATAAAAAACATATAGACTGGAAAATGCCAGTTACAATTATTTCTGCAGTGTTTATATTAGCACTTATTTTTGGACAAAACCCATTTTATCATATACTTTCAGGAGGATTATTTATAGGTGCCTTTTTTATGGCTACAGATATGGTTACTACACCATATACAACTAGTGGAAAAATTATATTTGGACTTGGAGTTGCTTGTATAACTATGCTTATAAGATTAAAAGGTTCATATCCAGAAGGAGTAGCATTTTCTATTCTTATAATGAATGGGGTAACTTCACTGATAAATAAATATACAAAACCTAAAAAATTTGGTGAGGTGAAGTCAAATGAATAAAACATTACATTATGGACTTGTATTATTTATTATTGCTTCTATTTCAGCTTCAATATTAGCATTTATAAATGGGAAAACAGCTCCTGTAATAGCTGAAAGATCGAAAAGAGAAGAGATCGAAGCTAGAAAAAATGTTCTTTTAGCAGAAGATTATAAAATAGAAGAAAAAAAAGAAATAGAAGGAATGGAATTTATACCAGCATATAAAAATAATAAAAAAATTGGATATGTAGTAAAAACAATAGGGCCAGGGTATGGAGGAGATATTGTAATATTATTTGGTGTAGATATGAATGGTAAAATTACAGGAATAAATATATTAAAAGCATTAGAAACACCTGGACTTGGAGATAAAATTTTAAATAAAGAATGGCAAAAAAGATGGATAGGAAAAGATAAAAATTATGAATTTAAAGTAGGTGTAGATTCATTTGCAGGAGCAACTATCTCACCTAGAGGAGTATATACTGGTCTTATGAAAGCGTTAGATGCTTTTGAGAAAGAGGTGAAATAGAGTGGAGAATAGATATTTTAAAGAGTTTTCAAAAGGAATAGTAAAAGAAAATCCAGTACTTGTTCTATTACTTGGGTTATGTCCTACTCTAGGAGTAACTACTTCTGCAACAAATGGATTGACAATGGGACTTGCAACATTAACAGTATTAGTTTTTTCAAATATGATAGTATCTATGATAAAAGATTTTATCCCTGATAAAGTAAGAATACCAGCATTTATAATGGTAATAGCATCATTAGTAACAATAGTTGGAATGGTAATGGAAGCTTATATACCAGCACTTTATGCAGCACTTGGAGTATTTTTACCATTAATAGTTGTAAACTGTATAATTCTTGGAAGAGCAGAAAGCTTTGCATCTAAAAATGGAATTATATTATCGATATTAGATGGTTTAGGAAATGGTTTAGGGTTTACTTTTACTCTTGTTTTATTAGGAGGAATAAGAGAAATTTTAGGTAATGGAAGTATTTTTGGAATTAAATTTTTAGGAAGTTTTTATAATCCAGCTTTAATATTTATATTACCACCAGGTGCATTTTTAACATTAGGGTTTATTATAGCTACGATGAATGCAAAAAAAAATAGAAGCCTTAATAAAAAGGAGGCAAAATAGATGGATTTAGGTAGATTGATTTCAATAATAATAGGTTCGATTCTTATAAATAACTTTATATTTTCTAGATTTTTAGGTATTTGTCCATTTATGGGAGTATCAAAAAAAATAGAGTCATCAATAGGAATGGGAATGGCGGTTACATTTGTAATGACATTAGCATCATCTGTAACATGGATAGTATATTATTATATTTTAAAACCATTTCATATAGAATATTTAGAAATAATAGCGTTTATACTTATAGTAGCATCGCTTGTACAATTTGTAGAAATGGCAATAGAAAAAACAAGTCCAAATTTATATAAAGCATTAGGTGTATTTTTACCACTAATTACTACAAACTGTGCGGTATTGGGAGTGGCACTTATAAATATACAAGAGGAATATAATTTTATAGAGACAACAGCAAATGGATTTGCAGCAGCAGTAGGATTTACACTTGCATTAGTTTTACTTGCAGGAACTAGAGAAAGACTTGAATACGCTGATGTACCAGAAAGTTTTAAAGGAATTGCTATAGCCTTTATAAGTGCAGGAATTCTTGCAATGGCATTTATGGGATTTAGTGGTATAAAAATCTAATAAGGAGTGATAATGGTGGATATTATAATTGCAGTAGTTGCATTAGGAACTATAGCCATATTAATGGGTGTATTTCTAGCATATGCGGCTAAGAAATTTGAAGTAAAAAAAGATCCTAAAATAAATGAAATACTAGACATATTACCGGGAGTAAATTGTGGTGCGTGTGGATATCCAGGGTGTAGTGGATATGCTGAAGCAGTAGCAATGCAAGGTGTAGATATAAATTTATGTGCACCAGGTGGAGCAGAAGTAGTAGAAAAAATATCGACGATTACAGGGCAAGTAGCAGAAGATAAAGAAAAAATGGTAGCTAGAGTAATGTGTCAAGGTGATAATACTAAAGTTACAAAAAGATATGAATTCGATGCAGATATAAAAACATGTGCTAATGCACTTCTTTATTATGGTGGAGATAAAAGTTGTATGTATGGATGTCTTGGATATGGAGATTGTGAAAAGGTATGTCCAACAAATGCTATAAAAGTAAATGAAAAAGGAATAGCAGTAGTAGATGAAGAGTTATGTATTTCTTGTGAGAAATGTGTAATAGAATGTCCAAAAAATATAATAAAAATGGTAAGAGAAAAATCAAGAGTATCAGTACTTTGTTCTTCACATGAAAAAGGAGCAGACTCAAGAAAAGTATGTAGTATATCATGTATAGGATGTGGAATATGTGCTAAAAATTGTCCAGTAGATGCAATAGAAGTAAAAGGAAATTTAGCAGTAATAGATGATAGTAAATGTATAAATTGTGGAATATGTGAAGTGAAATGTCCGACAAATGCAATAAAAAGTGATATAAAAGAAGTAAAAAAAGCAAAAATAATAGAAGATAAGTGCATAGGATGTACAGCATGTGCTAGAGTATGTCCAGTAGATGCAATAGAAGGAGAAGTTAAGAAAAAACATAAAGTTATAGCAGAAAAATGTATAGGATGTGGTTTATGTTATGAAAAATGTAAATTTGATGCTATAAAATTGGAAACACAAATAAAATCTTCCTAAATTTAGGAAGGTTTTTTATTTATAGATTATAAGTGAAAAAAATAGTTATTATAAAGTTTGATTTTTCTAAATATATGAAATAATAATTGACAAAAACTGTTTACTTTGATAAGATAGTGATATATATAATTTGTAAAAACAAAAGGGTCATTATATGAAAAAATATAGAATTGAAAAAGAGTATAAAGGTTATACTATATCTGAATATTTAAGAAATATTCAAAATTATTCTGGTAGAAGTATCAGAAATTTGGAGATTTTTTTAAATGGAAAGAGAGTTAAACCTAAAAAAAAATTAAGAGCATATGAAGTACTTTTAGTAAAAGAAAAAGAAAAAAGTACAAATATTAAACCGCTAGAGATAAAATTAAATATTGTATATGAAGATGAAGAAATACTTATTATAGATAAAGACCCAGGAATAGTAGTTCATCCTACTTTAAAAAAAGTAGATAAAACTTTGGCCAATGGAATAGTATATTATTTTAAAGAAAAATATAATAAAATTATGATTCCAAGATTTTATAATAGATTAGATATGGATACCTCAGGACTTATAATTATTACTAAAACAGGATTTGCACAAAGTTTTTTACAAGAAAAATGTGAAGTGAAGAAGTACTATTTAGCAATAGTAGAAGGAATAATTGAAAAAGATGAATTTATTTTAGAAAAACCAATAGGAAGAATAGGAAATAATCTAAAAAGAGAGATTTTACCTATTGAAAATGGCGGACAATATGCGAAAACAAAAGTTAAAGTTTTAGAAAAAAACATAGAAAAAAATATTACTTTAATAGAGGTAGAGCTTTTTACAGGTAGAACTCATCAAATAAGAGTACATATGTCAAGTATAGGTCATCCACTTATTGGAGATAAATTATACTCTGATAAAGAAAGAAATATAAGACAATTATTACATGCGTATAGATTAGAATTTATTAACCCTATTAGTAAAGAAAAGCAAATTATCGAGATAGAAATGAAAGAAGATATGAAAAAATATCTATATAATTAATTTGACATTAGCTTTATTTTGAGTTATATTAGTTGTGTATGATTTAAATTTACATATAAAAAATAGGAGGTATGATTAAATGGCAGTAAAAGTTGCAATTAATGGATTCGGAAGAATCGGAAGACTAGCATTTAGATTAATGTTTGGTTCACCTGAATTTGAAATCGTTGCTATTAATGATTTAACAAGTGCAGGAGATTTAGCTTACTTATTAAAATATGATACAGCACAAGGAAGATATAAAAGTGATTCAATAACAGCTGGAGAAGATTCAATTACTGTAGATGGAAAAACTATTAAAATTTATGCTGAAAGAGATGCAAGAAATTTACCTTGGGGAGACCTAGGAGTAGATGTTGTATTAGAATGTACAGGATTTTATGTATCAAAAGATAAATCTCAAGCTCATATTGATGCAGGAGCTAAAAAAGTTGTAATCTCTGCACCAGCAAAAGGAGATTTAAAAACTATCGTATATAACGTAAATGATGAAATTTTAGATGGAAGTGAAGATATAATTTCAGGAGCTTCTTGTACAACTAACTGTTTAGCACCAGTTGCTAAAGTATTAAATGATAACTTTGGATTAGTAAAAGGATTTATGACTACTATCCATGCTTATACAAATGATCAAAACACATTAGATGGACCTCATGCAAAACCTATTACAGCTAGAAGAGGAAGAGCTGCTGCTGCTAATATGGTTCCAACTTCTACAGGAGCTGCGGTAGCTGTAGGAAAAGTTTTACCTGAATTAAATGGTAAATTAGATGGTGGAGCTGTAAGAGTTCCAACTGTTACAGGTTCTTGTGTTGATTTAGTAGTAGAATTAGAAAAATCAGTTACTGCTGAAGAAGTAAATGCTGCAATGAAAGCTGCTGCAAACGAAACTTTAGGATATACAGAAGATCCAATTGTTTCTTCAGACGTAATTGGAATTCACTATGGATCATTATTTGATGCTTTATCAACTAAAGTAATGACTGTAGATGGAAAACAATTAGTAAAAATCTTAACTTGGTATGATAATGAAATGTCATATACTGCTCAATTAGTAAGAACAGTTAAAAAATTAGCTTCATTAATAAAATAATTAAATAAATAGAATAGCGGAAACTTAGGTTTCCGCTTTTTTAAAATAAAATATGATATTAAAGAGAAAATCAGGAGGGAAAAAATGGCTAAAAAAATCGTAACTGATTTAGATGTAAAAGGTAAAAAAGTTTTAATGAGAGTTGACTTTAATGTACCTATGAAAGATGGGAAAATTACTAATGATAATAGAATAACAGCGGCACTTCCTACAATAAAATATGTATTAGAAAATGGTGGGAAAGTAATTGCATTTTCTCATTTAGGAAGAGTAAAAACCGAAGAAGATAAAGCTTCAAAATCTCTTGCTCCAGTAGCTAAAAGATTAGAAGAAGTATTAGGACAAGAAGTAAAATTTGTTCCAGTTACTAGAGGTCCAGAATTAGAAGCAGCAATAGACGAATTAAAAGATGGAGAAATCTTAATGTTTGAAAACACAAGATTTGAAGATATAGATGGTAAAAAAGAATCTAAAAATGATCCAGAATTAGGAAAATATTGGGCTTCTTTAGGAGATGTATTTGTAAATGATGCATTTGGTACTGCACATAGAGCACATGCTTCTAACGTAGGGATAGCTTCAAATATAGCTGAGTCAGCAGCTGGATTCTTGATGGAAAAAGAAATTAAATTTATAGGAGGAGCTGTTGATAATCCTGAAAGACCATTAGTTGCAATATTAGGAGGAGCAAAAGTTTCTGATAAAATAGCAGTAATAGAAAACTTAATTGCAAAAGCTGACAAAATTATTGTTGGTGGAGGAATGATGTTTACTTTCTTGAAAGCAAAAGGATTAAATATAGGAAAATCTTTATGCGAAGAAGATAGAATAGAATTAGCAAAAGAATTGATGGAAAAAGCAGGAGATAAATTAATACTTCCAGTAGATACAGTTCTTGCCGAAAAATTTGCAGCTGATGCAGCTCATAAAACTGTAGCAGTAGAAGATATAGCAGCTGATGAAGAAGGATTAGGATTAGATATTGGTCAAGCTTCTATAGAATTATTTGCAAAAACATTAGAAGGAGCAAAAACTGTAGTATGGAATGGACCTATGGGAGTATTTGAAATGCCTGCATTTGCTAAAGGGACAATAGCTGTTTGTGAAGCAATAGCTGCATTGGAAGGCGCTACTACAATAATAGGTGGAGGAGATTCAGCAACTGCTGCAATTCAATTAGGATTTGCTGATAAATTTACTCATATCTCTACTGGTGGAGGAGCTTCATTAGAATATTTAGAAGGTAAAGTGTTACCTGGAGTAGATTCAATATCTGATAAATAATTATTTTAACTATCCATGATTTTCATGGATAGTTTTTTTATTTTTTGGAAATGTGTAAAAAAGTAAATAAATTAAAAAATAGATTAAAATATTATTCTTTACTTGAAAAGTCAAGAATAATATGATATATTATTTATATAAAATATAAATAAATGGAGGAAAGACTATGCATGTAGGAATGAATATAGTAATATATGATTTTTTTTGTTCAAATAGTCCTTTATATATAGATATTATGAAAGTAATAGAAGAATTAGATATATATCCAAATGTAGAAAAAATAAGAGATGTAGACGCTATATTTAATATATCTGATAAACCACCTGTATTATTTATTAATGGAAAAAAAGTAATAGAGGGTGAGTATCCAGATAAGGAAAAATTAAAAGATATAATAGAAAAAAATTTATAAAAATTCTTGAGTTTTTTAATAAATAAAGGAGGAAAAAATGAGTAGTTTATTAAAAATTAACAATTTAAAAGTTAAAGTAGAAAATAAAGAGATATTAAAGGGAATAGATTTAGAAATAAATAAAGGAGAAGTACATGTAATAATGGGACCAAATGGTGCTGGAAAATCAACACTTTCAAATGCTATAACAGGAAATCCTAAATACGAGATTGTAGATGGTGAAATAATTTTTGAAGGTGAAAACATTAATGACTTAAAAGTGGATGAAAGAGCTAAAAAGGGGATTTTTATGTCATTTCAATATCCAGAAGCAATACCTGGAGTTACAGTAGAAGAATTTTTGAGAGCATCAAAATCATCAATAACAGGAAGATTGCAATCAGTAATTAAATTTAAAAAAGAGTTAGAAGAAAAAATGGAGGAACTTCATATTGATAAAAATTATGCAAATAGACATTTAAATGTAGGATTTTCTGGAGGAGAAAAAAAGAAAAATGAGATACTACAAATGGCTATATTAGCACCTAAATTAGCTATATTAGATGAAACGGATTCAGGACTTGATGTAGATGCTATTAGAGTAGTGTATGAAGGAGTAAATAAATTAAAAAATGAAAATAATGCGATACTTATAATTACTCATTATAATAAAGTGTTAAATTATATAAAACCTGATTTTGTTCATGTGGTAAACAATGGAAAGATTGTAAAATCTGGTGGAATTGAAGTTGCTCATGAAATAGAAAAACAAGGTTATGAAAATATAAAGGTGATATAAATGAAAAAAAATAAAACAAGTGTAGATGATATCAATAGAGGCATATATGATATAGTAGATAAAGAAGATCATTCATACAAATCTAAAAAAGGATTGAGCAATGATATAGTAATAGAGATTTCAAAGAAAAAAAAAGAACCTAAGTGGATGCTAGAACATAGATTAAAAAGTTTAGAAATTTATAATCAAAAACCTATGCCAACTTGGGGTGCAGACTTAAAAGATTTAAGAGTAGAAGATATAATTTATTATTTAAAGCCAAATACAGAAATGAAAGAAAATTGGGATGATGTTCCGGATTATATTAAAAATACTTTTGACAGATTAGGAATTCCAAAAGCTGAAAGAGAATCCTTAGCAGGAGTTGGAGCTCAATATGATTCTGAAGTTGTTTATCATAATGTAAATAAAGAATTAATAAAACAAGGGGTAATATATACAGATATAGAAACAGCCTTAAAAGAACATGAAGATATAGTAAAAAAATATTTTATGACACTTATAAGAAATATTGATCATAAATTTGCTGCACTTCATGGCGCGGTATGGTCTGGTGGTTCATTTGTATATGTACCAAAAGGAGTGCATGTAAAAATGCCACTTCAATCATATTTTAGATTAAATGCAAAAGAAGCAGGTCAATTTGAACATACACTTATTATTGTAGAAGAAGGAGCAAGTCTTCATTTTATAGAAGGATGTAGCGCACCAAAATATTCATCACAAGCGCTTCATGCGGGTGCAGTAGAACTTTTTGTAAAAAAAGGTGCTAAGCTTAGATATTCTACAGTGGAAAATTGGTCTAGAAATATGTATAACTTAAATACAAAAAGAGCAGTAGTAGATGAAAAAGGAACTATTGAATGGGTATCAGGTTCATTTGGTTCAAAAGTTAGTATGCTTTATCCTATGAGTATACTTCGAGGAGAATATGCAAGAGCAGAATTTACAGGAATTACTTTTGCTTCAACAGGTCAATATCTTGATACAGGCGCAAAAGTAGTGCATGCAGCACCATATACTAGTTCAACTATAAATTCTAAATCAATATCAAAAAATGGAGGAATAGCTTTTTATAGAGGTCTTTTAAAAGTAGCTAAAAATGCTCATCATGTAAAATCAAATGTAAATTGTGAAAGTTTAATGCTAGATAATATATCAAAATCAGATACAGTGCCAATAATAGAGCTTATGAATGATGATGTAGACATTGGACATGAAGCTAAAATAGGTAGAATTAGTGATGAGACGATTTATTATTTAATGCAAAGAGGAATTAGTGAGGAAGAGGCCAAAGCTATGATTGTGAGGGGATTTGTAGAACCAATTACAAAAGAATTGCCATTAGAATATGCTGTAGAATTAAATAATTTAATTAATTTAGAGTTAGAAGGAACAATAGGATAAAATAATAAAATTCAATTTTTTAAATTGAATAAAAAAGATAGAGGTGTATATATGTTTGAAAGTTATAAGAAATTTAATAAAGATAAATTAGACATATTGAACTCTTTAGAAAAACCAAATTGGCGAAGAGTAGGATATCAATATGAATTTAAGTTTGATAAAATTAGAGAATTATCTAAGATTTCAGATAATGATATAATAAAAATAGATGAAAAAATAATAAAAAAAATAGAATTTAAAAATTCTTTTAAAGAAAATGATTATTTTATAAAAATGGCAGAATTGTTTTTTAATAGCGGTGTGTATATAGATAACAATAAAAATTCTAAATATTATTTTTCTTTTAAAGGAGATAAAGAAAACAATAATATTTTAGATTATAATATTATTATAGCTAGAGAAAATAGTGAGAGTAGTATTATATTTGACTATACAGGTGATATAGATGTTTTTAGAAATTCTTTATTTAAAATAAAAGCGGAAAAAAACGCAGTAATAAATATTTTTTTTGTTCAAAGATTAAGTGAAAATTCTGAAAGTTTTTCAAATATAATTGTAGAAGCAGATAGAACTTCTAAAGTAAATCAATATTTTTTTAGTATGGGTTCAAAAATAAATATGATTAGTAATAATGTATATCTTCTTGATAAAGAAGCTAGAAGTGAAGTTTATTCAGTTTATATTGGAGATAAAAATAAAAAAATAGATTTAGAATTTACAACTAATCATAGAGCACCTTATACAGAAAGTATTATTGAAGGAAGAGGAGTATTAAAAGATAATAGCAAAAAGGTATTTAGAGGAAACCTTCAATTTGATAGAGGAGCTAAAAAATCAATTGGAAAAGAGTCAGAATTTACGTTATTACTTAATAAAAATATAAAATCAGACTCTATTCCAACCTTGAAATGTGATGAAGATGATGTAATAGGTGAACATGCGGCTAGTGCTGGACAACTTAATGATGAAAAACTTTTTTATTTAATGCAAAGAGGATTTGATGAGAAAGCAGCAAAAAAAATTATAGTTATGTCCAGTTTAAAACCAATTATTAGTAAAATTAATAATAAAAAATTAGTTGAAAGATTATATAATATAATCGAAGAAAGGTTTTCATAATTTAATCGAAATGAAAAATAATTGAGGTGTATAAAATGCATAAAAATAAGTTTCCTATATTTGAAAATAATAGAGAATTAGTATATTTAGATAGTGCAGCTACTACTCAAAAACCAAAAGAGGTATTAGATGCAATGTATAACTATAATATTTATAATAATGCAAGTCCAAATAGAGGAAGTTATAAACTTAGTTTAGAAGCTACAAATTTATATAAAGAAAGTAAAAAAAATGTTGCGACATTTATCGGAGCAGAAAGTGAAGAGATAATTTATACTAAATCAGCAACAGAATCGTTAAATTTAATATCGTATGTTTTAGAGAAAGAATTAAAAAAAAATGATGAAATTTTAGTAGGAATTAGTTCTCATCATTCTAATTTAGTTCCTTGGCAAGAATTAGCTAAAAGAAAAAACATAGTTCTTAAATATATTTATTTAGATAAAAATGGAGAGTTTGATTTAAGTGATTTAAAAAATAAACTTTCAAATAATACAAGATTAGTTACATTTTCTTATGCTGTAAATACTACTGGAGTTGTACATGATGTAAAAAAAATAATAAACTTAATAAAAACATTTAATACTAATATAAAAATAATAGTAGATGGTGCACAGATAGTACTTCATAAAAATATAGATGTAAAAAAATTAGATATAGACTTTTTTGTGTTTTCAGCGCATAAAATGTTTGGACCTATTGGAATTGGAGTACTTTATATAAAAAAAGAATTAATTGAAAAATTACCTCCATTTTTATATGGTGGAGATATGATAGAGTTTGTAGAAGAAACAAAGTCTATATATAAAAATAATTATGAAAAATATGAAGGTGGAACTCAAAGTGTAGAACTTGCAGTAGGACTTTCAGCAGCAATAGAATTTATTAATAAAATAGGTATTAAAAAAATAGAAACATATGAAAAAGAATTACATGATTATTTACTAAGTAAATTAAAGGAGCTTGATTTTATAGAGATATATTTTGAAAATCAAAAAAATAAAACTCCTGTTATAGCTTTTAATGTAAAAAATGTACACTCTCATGATGTGAGTCAAATATTGGATATGAATAATATAGCAATAAGGACCGGTCATCATTGTACACAGCCACTTATGAAATATCTAAATATTCCTTCTTGTTGTAGAGTAAGCTTATCTATTTACAATACTGAAAATGATATAAATAAACTTATAAAATCACTATATAAAGTAAAAGAAATTTTTTATTAAAAAATATAAATTTATAATACAAAGAGATAAGATAATCGTAATAATACATAAAAAAGTTCTAAATTTTAATAGTTTTAAGTAATTTTATGTAAGAAAGTATTTTAAATTTTGCAATAAAAAACAAAGAATCTGGAGGTGAAATTATTGGACTATAATAAAATATATACATCTTTAATTATGGAACATAATAAAAGTGGACATAATAAGAGGGAAATAAAAAATGCAGATTATATTGAAAGAGGTCATAATCCAAATTGTGGAGATGACATTACTGTACAATTAAAAATAAAAGATGACAAAATCGTAGATGGAGCTTTTATAGGAATAGGGTGTGCAATTTCTCAAGCTTCAGCATCAATACTTTTTGATATAATAAATGGCAAAAATATAAATGAAGCAAAACATATAGTAGAATCTTATCTTAAAATGATAAAAAAAGAAGAAATATCAGAAGAAGACAAAGAAAAATTAGAAGATGCTGTAATCTTAGAAAATATATCAAATATGCCAGCTAGAGTAAAATGTGCTACGCTTGCATGGAATGGAGTAAAAATAATTTTTAATAAAATATAAAATCCTCTTAAAGTAATCTTTAAGAGGATTTTTTTTATTATTGTTCTATCCAAACTGATACACTACCACCGTTTACTTTGAATTCAGCCCATCCATCATTATTTGAATAAATAACATCGCTTCTATTTCCAAGATAATCTATAAATTTAGCATTTGCTTTACCTACATACATCCATTTACTACCACCACTAGCATCAGTTAAGATTGTAGCCATTGCTTTTGGATGATTAGCATCACCAAGTCTTGTCCAACCAATAATATCAGGATTATCTAAATAATCTCTTTGTTCTCCATAAGCATATAATTTTCTTGCTTCAACAAGTTTTTTTATAGTATTGTATTGAGACTTAATATTTTGTGCACCATACATATCACCATAGAAAACACATGGATAACCATCTTGTCTAAGTAAAATCATAGCATAAGCTAGAGGTTTAAACCAATCTTTTACTGGTGATTCAAGAGCTTGACCAGGTTGTGTATCATGATTTTCTACAATAGTTACAGCTTTTAATGGATTAGATTGAACTAAAGTACCATTAAATATATTTTTCATATCATAATATCCATTACCATTTGACGCATTATGAAAATTCATGTGTAATGGTGCATCAAATAAAGACATTTTACCATTAGATTTTGTTATATAGTTATTTAATTTATTTATATCATAACTCCAATATTCTCCAACTGTAAATAATTCTTTTCCAGTTGAACTTCTTAAATAATCTAGCCAATCATTAAAAAATGTAAATTTAATATGTTTTACAGCATCAAGTCTAAATCCATCTACACCTGTAAAATCTAAATACCATTTTCCCCAATCTTTTAATTCTTGAACAACTTCAGGATGATCCATATCAAGATCAGCACCCATTAAGTAATCATAATTATTATTCTCAGTATCCACTTCCCAATCCCAAGATTTTCCTGTACCATTAAATCTAAATATAGCTTTTTGTTTAGAATTATCATCCCAATCTACACCATCAAAATGATACCATTTCCAATTAAATGTAGAGTATTTTCCATTTCTTCCAGGAAAATGAAAATCTGTCCAAGCACTTATTGTTTTGGTTTCATAGGTAACATTTCTATTATTCCAATCTACTCTAGTAGCTGATACATTTTCTTTTCCATCTGCTCCCATTCTATGATTAAACACAACATCACCATATATTTGTATACCATTTTGATGAGCTACATTTATGGCATTAAGATATTCATCTTTTGTACCATATTTAGTTCTAATAGTACCTTTTTGATTAAACTCTCCAAGGTCATACATATCATATACTCCATATCCAACATCTGCACTTCCAGCTTGTCCTTTATATGCAGGTGGAAGCCAAAGAGCTGTAATTCCCATATTTGATAAGGTAGAAGATTCAGAAGCTACTTTATTCCATAAACTTCCATCATTAGGTAAATACCATTCAAAATATTGCATCATAGTCCCGTTAATAGAAGAAGAACTATTATTTATTTCTGTAACTTTAATTTCATGAGTAGAATCATAAAAAGTGATTTTATATGTTTTGTTAGGAGAAACATAATAATCTTGAGAAGGATAGTTTTCTGACCAATCCCCGTATCTATCAATTTTAAATCTAGGACCACCAGAAGAGTCACCATTATTAAACGTAACGGTAATTTCCCAAGTATTAGAAGCTACTTTAGTCATTGGACTAGTATTCCAAGAATTAGGTGTACCTCTAAAATAAGCATTATTCCATTCACTAACAAGTGAAGCAGATATACTACTATTATTTAAATTAGATGTTAAATTAGATGTTTTATCACAGCCAATAATAGTAAGAAAAACCAATAAGAATAAAAAATTTAAAAATTTTTTCATAATAAAAAATACCTCCTATAATTTATTTTACAATCTATACATTTAATAATGTATAGATTCAAAAACAATTGAACTGTTTCCAGTATATTTTTACCATTTTTGTATAAAAAAATCAATACTTTATTAAGTTAAAAAAAGAACGTTTCCAAAAAAACTACATTTTCCAAAAACTGACTAGCTAGTCATTGACTTGATGGTCAGTTTGTGATATGATTAAAATATTAAAATTAAATCAAAGTATAATCAAGGAGGGAAATCAGGAGGAAAATGGATGAATTAAATACTAAAAATAAATTAATAAAAAGTGCTATGGAACTTTTTTTAGAAAAAGGTTATGAAGGAATTAAAGTTGAAGATATTACTAAAGAAGCTGGAGTTGCGAAAGGAACTTTTTATACTTATTTTAAGGCAAAAGATGATATATTTATTGATGTTATATCCAAAATGATGGAAATTTATATAGATATATTAAAAAACTTAAAGTTTGAAGAAGGTGAATTAAAGAAAAACATCAAAAAAATAGTGAGCCTTATGTATAAAACCTCTTATAAACACAAAGCAATGTATAAAGTAATATCTCTTATATTCAAGAATCCGCACCTTTTGTCAAAACTTTTTGAAAGTGAATTTCCTTTTAAAAAAATGAGTGAGGATATATATATAAAACTTTTAGAAAGTAGTAAAAATGAGGTTAGAGATGAAGTAATAGAAAATAAAAAAATATTTATTACGGTACTAGGTAAAATATTAGATGCATATATGTTTGAATTATTTGAAATAAAAGAGTTTAAAAGTAGTGGGAAAATAAAAAAAATAACAGAAGAAGAATTGGAGTATCATATTAAAATAATTTCAAATACTATTTATTTAGCTATAAAAAAATAAAGGAGGAAGAATATTGAGACGAAAAGTAGTGATTTTAGTTTTTTTATTAACAACTCTTACATCATTTGCAAAAATAGAAATAGATTTAAATACTGCAACTGAAAAAGTGATAGAGAAAAGTGAAACTATAAAAAAATATGAGTTAGATTTAGAAAATTCAAAATTACAAAAAAAAGAAGCTTTTAAATCAGGATTACCAAGTGTAGGATATAGTGGAACTATTGCTAAAACAGAGGATAAGAACACTTTTACAGGTAGTGATGAATACCATCAATATAAATTAACATTATCACAACCTATTTTTAATGGTTTTAGAATAATAACAGCTATTCAAAATGGTGATAAATATGTACAGCTTAGTGAATATGCATTAGAAAAAGAAAAAAATGATGAAAAATTAAAAATTACTAAAAATTATATAGAAGCATTAAAATTAAAAAAGCAAATAGAGATATTAGAAAATTCTAAAAAAGAATTAGAGAAAAATTTTGAAAAAATAAAAAGAATGTATGAATTAGGGTTTGTAATGAAAAGTGATGTATTGGATATAAATTATGGATTAATAGAATTGGAAAGTACAATTTTACAAATGAAAAATGCATTTGAAATATCAAAACTAAGTATAAAAAATGATTTAGGCATAGCGAGTGATGAAAAACTTATTTTAAAAGATGTTAAAAATATAGATAAAAAAATTAATGTAATAAATATAGATTTAGGAAAAGATTTAATTAAAATTAAAAATGAAAGTTTAACTGCAAAAATTTTAGATATAAATTTAGATTTAGCAAAAGCTTCGGAAAAATTTGAAAAAGCAAATTTTCTTCCTATGGTAAATGGGCAATTTTCATATGGAAATCAAACTACATATGGTAGTATAAAAGACGCTTTTAAATCAGAGAATTTAGATTGGTCAGTAGGAATAAGTATTTCAGGAACATTATATAATTTTGGTAAAAATATAGATGCATATCAAAGAAGTAAAAATAACACAAAAAAAGTTGAATATGATAGAAAATTTACAAAAGATAACTTAGAAATAGCTTTAAAATCTGCATATTTAGATATAGTGAGATTACAAAAAGTATTAGAAGCAAAAGAAAAAGCACTTGAAAGTGCTACTGAAAATTATAAATACCAAGAAAAAAGGCTAAATAATAATTTGATTGATTCTATTACATTTTTAAAAGCTGAAAATAGCTTGAGAGAAGCTAATATAGGGTATAATATAACTAAATTAGATTTATATTATGCTATTGAAAATTATAAAAATTTATTAAAATAAAATGTAGGAGGGAATAAATTGAAAAAATATATTTTAGTATTAGTAACAATTATACTTTTTGCATCTTGTGGAAAAGCAAATAATAAAGGAGTACAAAAAGTATCAAAAGAAACAGCAAAAATTGTTAAAACGAGTACTTTAAAAAAAATAAAATTAAGTAAAGAAATTAAAACTAATGGAATATTAAATGCAAAATATGAAATAGTTCATTCTGGACCAGAAGCAGAAGTAGAGAAAGTTTATCATAAAAATGGTGATTTTGTAAAAAAAGGTGATATTATAGTAAAGCAAAAAGATATAAATATTGAAAATAATTATAAAATGGCTCTTGCAAATTTAAATGCAGCAAAATCAAACTATGAACAAGTTATAAAATTTTCTGAAATTCAAGTGAGAACACAACTTGAGCAAGCAAAATCGGCAATGATTAGTGCCGAACAAAATTTAATAAAAGCAAAAAAAGGAGCAAAAGTAGAACAAATAGAAATAGCAAAAAATAATTTAAAAACAGCAGAATCAGCTTTTGAACAAGCGAAGTTTAATTATGAAAAAAATAAAAAATTATATGATGAAAAATTAATTTCAGAATCTGCATTTCTTCAATTAGAAACAATGTATAACCAATCAAAAAATCAACTTGATAATGCGAAAAATAACTTAGAACTTCTGATAAAAGGTGCTGATGAAGAAGATATAAAAATTTTAGAAGCGATGTATGAACAAGCAAAAGCAAATTATGAGCTTGTAAAGAAAAATGTAGATGAAGAATCTTGGAAATATACAATTAATGGGGTAAAAGCACAATATGATTCAGCGCTATATAGATACGAAATGGCTAAAAAAGCCTATGATGATTTAACAATAAAAGCAAAAATTAGTGGAGTTGTATCAGGGTTAAATTTAAAAAAATATCAAAAAGCAAAACCGGATAATGGTCCATTTTTTACTATTATAGATGAATCAAGTATGGAAACTGTTGTATATTTATCTGTAAGTGAAGTTATAAATTTAGATAAAAATAGTTTTGCAGAGGTAAATATAGAAGAATTAAATAATACATTTAAAGGAAAAATAGATTCTATAGATCCTGCAGCAAGTAAATCTACAAATAAATTTGCGGTAAAAATAGTTATAGATAACAATAAAAATATGTTAAAAAAAGGAATGTATGGAAAAATTAGTTTATTTACAAATCCAAAAGAAAAATTAGTTGTACCTAAAAAATCGATTGTTATTAAAGGATTATATAAGTATATTTATAAGTTAGAGGGAGATAGAGTTAAAGCTATAAAGGTAGAATTAGGTGTAAGTAATGATGAATATCAAGAAGTTATAGCTGATAAATTAAAAGTAGGAGATAAAATAGTTGTAGATGGACAATTTTTATTACAAGATAACGATTTAGTAAAAGAGGTGAATTAATGAAATCAATATCACATTTTGCTATAAAAAAATCTGTAACAACTATAATGCTTATTATTACTATGGTTGGGGCAGGGGTTTTAGGAATGTTAGGTATGTCTTCTCAACTTTTACCAGATTTTGATATACCAGTATCTATAATTAATATAACATGGATAGGAGCATCTCCTGAAGATATAGATAAACTTATAACAAGTGAGGTAGAAGATGCACTTACTGGGATTGATGGGATAAAAAATATAAATGGATATAGTTCTCAAAATATATCAACTGTAGTAGTTCAATTTAATTATGGAACAGATACAGATGAAAAAATTAGAGAAATTCAAACAAAAGTAAATAATATAAAAAAAGATTTACCTAGTGATATAGGAGAGCCATTTATTGACAAATTTGATATAAATGCTCAACCAATATTAATATATAATCTTTTTGGTTCAGATTTAGTCGAATTAAATAGTTTAGCTGAAAATATAATAAAACCAAGATTGGAAAAAATATCAGGAGTTGGAGAGATAAGAATAAAAGGTGGACTTAAAGAAGAAATTTTAGTTGAATTAGAACCTGAAAAATTAGCGGCATATTCTTTAGATATTATGCAAATAAAAAGTATTTTATCTTCTTCAAATATTAATATTCCTTTAGGAAATTTAAAAGAAGGTGATAAAGAGTTTATAGTAAAAGTTATTGGTGAAATAAAAACTATAGAACAAGTAAAAAATATAGTTGTATCAAATAATGGTGGACAGTTAGTAAAGTTAAGTGATGTAGCAAATATCAAATTATCAACTGAAGATGTTGAAAGTTTTGCAAGACAAAATGGAGAACCATCTATAAGAATAGAAGTAATCAAAGTAAAAGAAGGAAATACTGTAAACATAGCAGAAGAAGCTAAAAAAGTAATGGAAAACTTAAAAGAAAGTTTACCACCTGGAATAAATACTGTTCTTGCTACAGATTTTTCAATACCGATAAAACAATCAATAGGAACGGTATCAAATAATGCTATAGTTGGTATTATACTTGCTTCAATTATACTTTTAATATTTTTGAAAAATATAAGAGCTACATTAGTAGTAGCAATAGCTATACCAGTATCAGTTGTATTTACGTTTGCATTATTACCGCTTAAAAATATTACATTAAATGTAATATCGCTTATGGGTCTAGCTCTTGGGGTAGGAATGCTTGTTGATAATTCTATTGTTGTTATTGATAATATTTATAGGCATCTTACAGAGTTAAAAGAAGATAAATTTACAGCGTCAGCAAATGGAGCTAGTGAAATGTCAGTACCTATAATAGCATCAACAGCTACAACTGTAGCAGTGTTTTTACCGATAGTAATGAGAGAAGGAATGGCAAAAGAGATATTTCATGATATGTCATTTTCAATTACATTTGCATTAATTTCTTCTTTAGTAGTTGCTTTAACATTTGTACCTATGGCAGCTTCAAAATTTTTAGACCCTAAAAAATCAATAACAAAAGAAGGAAAAATTTTAGTAAATCTTAAAAGAGTATATGTAAAAATATTAGATAGAGCATTAAAACATAAAATAATAACAGTATTAATAGCCTTTCTTATGTTTATTGGTTCTATAGGACTTGCGACTTTAACAATAAAAACAGAATTTTTTCCTCAAATGGATCAAAGTGAATATCTAGTTAAAGCTAAATTATCTAAAGGTCTTGATGTAAAAAAAGCTGATTTGATAGCAAAATCAATGGAAAAAATAGTTAAAGCTGATAAATTTACAGTGAACTATTCAACAGCTGTAAGTAAGGAAAATATTACAATAAATATAAAAACATTAGAAAAAAATGAAAGAAAAGAAACGATAAATGATATTATTTCGCAAATAAGACCCAAATTAGCTAATATTCCAGATGCAAAAATAACAGTATCTGCTTCAAGTGGAGGGCCAGGTGGCGGAAGCGATGGAGGAGTACAGTTAAAAATTTATAGTGACGACTTAGATAAACTTTCTGTATTTAGTCAAATAGTTTTAGAAAAAGTAAAAAAAATACCTGGATTAGTTGATGTAAAATCATCTTATGAAGGTGGAAATCCTGAATTAAAACTTGATATAGATAGAGATAAAGCACAATATTATGGATTGAGAGTATCTGATATAGCATTTTTAATATCATATCAAGTACAAGGTACAGATGCATTTACAATAAAAACTTCAAATAAAGATGTTGATGTAAAAGTAAGAATAGCTGAAGATTATAGAAATAGTATAGAAAAAATATTAGATTTAGAATTAAATACTAGATTTGGAAAAATAAAAATAAAAGATATAGCTTCTTTTAAACTTGAAGAAGGTGCAGCTCAGATAGAAAAAGAAAATAAATCAAAAATAATTACGATTTCAGCAAATACAGATAATATTGATTTAAGAACAGCTACTGCAAAAATAAAAGAAGTAATAAAAGAACTAGATATTCCGGCAGGAATTAGATATGATTTTGGTGGAGATCAAGAACAATTTGTAGATGTAATGAAAGATTTATTATTCGGTTTTGGAATTGCAATTTTCTTGATGTATTTTATACTTGCATCACAATTTGAATCATTTACAATGCCAATAATTATAATGGGTTCACTTCCGTTATCAATTATAGGGGTTTTAATAGGATTAGCTATTACTAGAGTTAAATTTAATATTATGGTAATGGTAGGAATAATTATGCTAGCAGGAATTGTTGTAAATAATGCTATAGTACTAATAGATTATATAAATGTACTTAGAGCTAGAAACCACCCTTTAATAGAAGCTATAAAAATAGCAGGAAGAACAAGACTTAGACCTATTATAATGACTACAGCAACTACTATATTTGGAATGCTTCCATTAGCCTTAGGTATAGGTCAAGGTACAGAGTTTTATCAAGGTATGGCGATAGCTGTAATATTTGGACTTTTATTTGCCACTTTGCTTACATTAATATTAATACCTGTTTTATATTCGATAGAAGAAAGTATTAGAATAAAATTTAAAAATAAACATAAATTAAAATATGAAACTTCTATATATAAAAATTAAAGGAAGTGATTAAATGTATAAAGAAATAAGAATAGTTTACTCTGATGCAGCTAGAAATGAAATATTAAAAATTTTTAAAGAAGAAAAAATAGAAAAATACATTAATTTAGAACAAGTTCAAGCTATGTGGTCAAAAAATATAAGACATATGGGAACACATATTTGGCCAGGAACTGATAGTATTTTTATTCTTCTTTTAGAAAAGGAAAAAGCAGAGCAATTATTAAAGAAACTAAAAGAGATGAAAAAAAAGCTTATAGAAGGAGTAGATATGTTTGTAACAGTTACTCCAGTAGAAGAAATATTCTAATATAATCAAACACTTTAGCTTTTTAGCTAAAGTGTTTTTTTTTGAGTGGAATATTATCGTACATATTTCAAAAAAAATTAAAAAATAATACAAAAATGTTGCAAAATAGAAATTTGAGTGATAAAATATATTAAAAGTTTACATGTATTTTTTTTGTACATGAAAATTTTATTATGGAGGGATTCGATTATGAATAAAAAATCTATTTTAGCAATTTCAGAAAATAAAGATACGCTAAAAAGTTTAAGAGGAGAATTAAAAGATGAATATGAAGTAATTACTTTCAATAATTTTTTAGATGGTCTTGATATGCTTAGAGAAAGTGACTTTGATATTTTATTATTGGATGAAAATCTATCATGGTTTACTTTTACAGAAGCAGTTAGAAAATTAAGAGGAATTGGAAAAGATATAATTATTATTGCACTAATTAATGAAGAGACAGAAGAAGTTTTAGAAGATTTAAAAAAAGCTCAAATTTATCATTGTGTAATAAAACCAATAGAACTTAGAAAAGTAAATAGAGTAATAATACCTGCACTAAATAATTTGGAATTATTAAAAGAAAAAAGAGAGCTTGAGAAAAAACTTTCAGATACAGAAGAATCAGAAGAAATAATAGGGCAAAATTCTAAAATAAAAGAACTAAAACAAGTAATTGAAAAAGTAGCAGATAGTGACCTTACAGTGCTTATAACAGGTGAAAATGGAGTAGGAAAAGAACTTGTCGCAAAAGAAATATATAAAAAATCATATAGAAGAAAAAAGAATTTTATAATTATTAATTGCGCTTCAATAGCACCTACACTAATAGAATCAGAACTTTTTGGATATGAAAAAGGTGCTTATCCAGGTGCTAATATGACTAGAAAAGGAATTATCGAAGAAGCAGATGGAGGAACATTATTTTTAGATCAAATAGGTGCTATGGATTTAAAAACACAAGCAAAATTATTAAGAGTTATAGAATATGGAGAACTTAGAAGAGTCGGAAGCAACAGAACTATAAAAGTAGATGTTAGATTTATAGCTGCTACAAATGAAAATCTTGAAGAATCAGTAAAAAGAGGAACATTTAGAAAAGATTTATATCATAGAATAACAGCTTTTCCTATAGAAGTGCCAGCATTAAGAGAAAGAAAAGAGGATATACCTTTATTAGCAAATTATTTCTTGAATAAAATAGTATCTGACCTACATAAAGATATGGTAGTTATATCTGGAGAAGCAATGAAATACTTAATAGAATACTCTTATCCTGGAAATATTAGAGAGTTAAAAAATATTATTGAAAGAATGGTAATTTTATCAAATGATAAAGTAATAGGTGTAGAAAATCTACCTCTTGAAATAAAAATGAAGTCAGATACTTTAGAAAATAAAACAATTACAGGAATTGGACCATTAAAAGATATATTAGAAAAAGATATCTATGACTTAGCAGAAGTAGAAAGAGTAGTTATAGCTAATGCATTACAAAAAACTAGATGGAATAAACAAGAAACAGCAAAACTTCTAGGAATAGGAAGAACTACATTATATGAAAAAATAAGAAAATATGATTTGGATAGAAGAGGTATAGCTAAGGGAGAATAAGGAAGTTAAGGAGAGATAGAAAATGGATTTTTTATTAATTCAATCTTATTTAGATAAATTACCAAGTAAAGAGGATATAAAAGAAGTTCCAGAAGTTATAGCACTTATCAAAAGTTATTCAGAAAATATTATAGATGAAGAATTAGATAAAATATTAGATGAAAGACATTTTGAAATTACCACAGCAAAGCAAGAGAATGAAATAAAAAATCTTGATTATTCTTTAGACTTTTATATAGAAAAATTAAAAGAACAACTTCAAGATAAAAAAAAAGAAGAACAAGAAGAGGAAAAAACTGTTATAAATTGTTTAGGAACAGTTTATTCGAAATATATAGGGAACACACTATATTCTAGAAAAGTTATGAGAGATATAGCGGATACGTTAAGTAATTATAATACTTTAGAGTATAATATAAAACTTGAAGAAGCAAGTTCTTTGGATGAAGAAATAAATAAATTATTAGAAAAATTAGGTTTTCCTAGTAACTTTCTAATTGTAAATAGTATTGAGGGTGCATTGTATACTTTATCAAATAGCTTTTTAAAAGATAAAGAAATACTTATGAATTTTAAAGATGCAGTTAACTTTGATAAAATTGGACCAATAGATATATTAGAAAAAAATGGAATAAATGTTGAGTTTGTGGGATATCTAAATAATATAAGTTCTAAAGATTATCTAAATAAACTTTATGAAGATAGATATATATTAAACGTTGATATGAGTTATATTCCAGTTGAAAACAATATATCTTATAAAGAATTTAAAAATATGAATAATAAAGTTATAAATATAACAGATAAAGTCCATATAAAAAGTAATAGAAAAGAGATAAAAGAACTTTCGTTTGAATTAAGTGAATACTTAGAAAATGATTTTTTTATTGATATAGTAGACTTTTCTAAATTTGCAGGGTTTCCAAAATGTGCATTTATATTTATAAAAAATGATGAAATATATAATGAAATCAAGGACAATATTATTTTAGATGTTTTATCTATAAATAAAGAAACAAAAATATTTTTATTTCATCTATTAAAAGCTTATTATGAAAATAATAAAGAAAATATTTTTATTGAAAAAATACTATTAAATGAAGAAGAAATAAAGAAAAAAAATCAAAGAATAATAAACAAATTAGAAAAAGAGCTTGGCGATGAAGTGGAAATTTCTTTAATTGAAGGAGAATACTTAACTTTAGATGATAGAAATAAAAATGAAAAATTTGAAAGAGAATTAATCATTTTAACACCTAAAAATCTAGATGCAAAAGAAGTGGAAAAAGCATTAAAAAAAGGTGAAAATGCTATATTTTGTTGGCTTCATGAAAATAGTTTGATATTTAATTTACAACTTTTATTTAGAAAAGATGAAACTAAATTTTTAGAAAAAATTAAAAGTGTGTTTACGGATACTATTTAATTGAAAATTAAGAATAAAGTTGCTATAATATTTAAGGCATTTTAATATTATTTTATAGGGAGGAAAAACGGTGGCAATAAGAAAATTAAGAAAAACGATGAAACCATTTATATGGATATTTGTAATAGCATTTATTATTACAATAATAGGAGGTGTAGTAAGTTATATATATTCATATAAAAATGCAAAAGCTCAAAAAATGGCACTTAAATTAAATGGAAGTTATGTAGATTCTTTAAAAATTGAGAGGGCATTTTCTAATGGAATAGAAAATTATAGAAAAGTATATGGAAATAGCATTGACGGGGAAGAATTAAAAACTATTATATTTAATAATTTTATAGAACAAGAACTTTTAGTAAAAGAAGCTAAAAATATGAAAATAAAAGTATCTTCAAAAGAGATAAATGAAAAATATAATCAAGTTAGAGCTAATTTTCCAGATGAAAAAACATTTAATAATGCATTAAAAATGCAAGGATATACAAAAGATTCTTTAAAAAATGATATCAAAAATTCTTTGTTAGTAGAAAAAGTTACAGAAAAAATAGAAAGTCAAGCTAAAGTGACTGATGATGAAATAAAAAAATATTATGAAAACAATAAATATGGGCTTTATTTAGATAAAGATTATGAAAAAGTAAAAGATGAAATAAAAGAAAGATTATTAAATAATAAAAAAGGAAGAATATATAGAGCATATGTTTCAAAACTTTTAAAAAGTTCTAAATATGAAGATGTAAAGGAAATTTATCAAAAATATCTTTATAATATAGAGATTTCTAAAGATGGATTTGAATTTTCAAATATTGATATAGCAAATAGAACTATAATTCAAAAACTATATGGTGCTGGAGAAAAAGCAGCAGAAACAGCTAAAAAATCAATAGAAAAAGATATTGAAACAGCTAAAAAATATATAAGTGCAGGAGTAGAAGTAAATAAAGAACTAACAACAGAAGATAAAATAGTTGATTTAAGAGAAAAATATATAGCAAAATTAAGAAAAGAAATAAAAATATCTGATGAAGAAATAAAAACATATTTTGAAAAAAATAGTACGAAATATGAAACAAAAGAAGAAGCGGAAGCACAAATAATAGAATTTGAATTAAAACCTAGTAAAGCAGATTCAAATAAGGCACTTGAAAAAGCAAAAAATATTTTAAAAGAATTAACACCAGAAAATTTTGCAGAAAAAGCAAAAGAATATTCTGAAGGACCTACAGCTGTAAATGGTGGAGACCTTGGATGGTTTACAAAAGGTAGAATGATAAAAGAGTTTGAAGAAGCAGCTTTTTCTACTGAAAAAGGAACAATTAATCAAAATATAATAAAAACTCAATTTGGATATCACATTATATATGTTGAAGATAAAAAAACAGAAAATGGAAAAGAAAGCGTAAAAGCTAGACATATTTTAATAAAAGAAAACGTTAGTGAGGACACAAAAAACAATGTTATTAAAAAAGCAAAAGAAATTTTAGAAAAAATTAAAAATAAAGAAATAACTTTTGAAGAAGCAGCAAAAGCTAATTCGGTTCTTAAAAATTTTGAGTTTAAAAAAATAAGAAGAGATGGTTATATAGAAGGGATAGGTTTTAATAAAGAATTATCAGATGCTATTTTATCATCTAAATTAAAAGAACTTAAATTATTTACAAATAATATTATAGTTATATTTAAGAAAACAAAATATCAAAAATTTGAAAAGGCAAATTTTGAAAAATCTAAAGATAGAGTTAGATATGATATATTAAACGAAAAGATTAACAAAGCATTAATCGAGATAACTAAATAAGTCTTTAAAATAAATAATTAAAACAATAGAGATTGTTAAAAAATATACTAAAATCATTTTGACTTTAGGTATTATTTATGTTAAAATTAATTGGCTATTAATAAATCAAATAAAATGGAGGGAATGTATATGACAAAAATCGTTAATATTCATGCCAGAGAAATATTAGACTCAAGAGGAAATCCTACAGTTGAAGTTGATGTAACTTTAGAATGTGGGGCTATGGGAAGAGCTGCTGTTCCATCTGGAGCATCTACTGGTGAAAGAGAAGCGGTAGAATTAAGAGATGGAGATAAATCTAGATACTTAGGAAAAGGTTGTTTAACAGCTGTAAATAATGTAAACACTATAATTAAAGAAGCTATTATTGGAATGGATGCACTTGATCAAGTTGCTATTGATAGAAAAATGATAGAATTAGATGGAACTAAAACTAAATCTAAATTAGGAGCTAACGCTATATTAGGTGTTTCTTTAGCTGTAGCTAAAGCTGCTGCAAAAGCAAAAGGATTATCTTTATTTAAATATTTAGGTGGACCAAATGCAAAAGAATTACCTTTACCAATGATGAATATATTAAATGGAGGATCACATGCTGATTCTGCAGTTGATGTACAAGAATTTATGGTACAACCAGTAGGAGCTAAATCTTTCAGAGAAGGATTAAGAATGGGTGCTGAAGTATTCCATCACTTAGGAAAATTATTAAAAGCAAAAGGAGATTCTACTAACGTAGGAAATGAAGGTGGATATGCTCCGGCTAAATTAAATGGAACTGAAGATGCTTTAGATATAATAATAGAAGCTATTAAAGCTGCTGGATATGAGCCAGGAAAAGATATTACTTTAGCTTTAGATGCTGCTGCGTCTGAATTCTGTGAAGGTGGAGAAGATGGAAATAAAACTTATCATTTCAAAAGAGAAGGTGGAGTAAAAAGAACTACAGCTGAAATGATAGATTGGTATGCACAATTAGTAGAAAAATATCCAATAACTTCAATTGAAGATGGATTAGATGAAAATGATTGGGCAGGGTTTGCTTTAATGAGAGAAAAATTAGGAGATAAAATTCAAATTGTTGGGGATGATTTATTCGTAACAAATACAGAATACTTAGCAATGGGTATCGAGAAAAAATCTGCTAACTCAATCTTAATTAAATTAAATCAAATAGGAACTTTAACAGAAACTTTAGAAGCTATAGAAATGGCTAAAAAAGCTGGATTTACAGCAGTTGTTTCTCATAGATCTGGAGAAACTGCTGATGATACAATAGCTGACGTTGCTGTAGCAACAAATGCTGGGCAAATCAAAACTGGTTCTGCTTCAAGATCTGATAGAATGGCTAAATACAATCAATTATTAAGAATTGAAGAAGAATTAGGAGATGCTGCAGAATACAAAGGAATGGGAGTATTCTACAATTTAAATAAATAATTTAAAATTAATACATAATTAAGAGCTAGCTTAAAATTAAACTAGCTCTTTTTTCTTGACGAAAATTAGAAAAAATGATAGCATTATAATGCTTGAAAATATAAAAAAATTAGGCTTGACTTTTTGAGAACAAAAAAGTATAATGTTAAAGTTAGTCTATAAAATTAAAAATTTGAAAGGAGGTAGCGAGGTTTAATGCCTACTATAAATCAGTTAGTTAGAAAAGGTAGAAGAGACTTAGAGAAAAAGAAAATCTCTCCTGCGTTACAAGAAAATCCACAAAAAAGAGGAGTTTGTGTAAGAGTTTATACAACTACTCCTAAAAAACCTAACTCAGCGCTAAGAAAAGTTGCGAGGGTTAGATTAACAAACGGAATAGAAGTTACTGCTTATATTCCTGGGATCGGACATAACTTACAAGAACATTCAATCGTACTTGTAAGAGGGGGAAGAACAAAAGATTTACCAGGGGTAAGATATAAAATAATAAGAGGTGCATTAGATACTGCAGGTGTTGCTAATAGAAAACAAGGTAGATCTAAGTACGGAGCTAAAAAAGGATAATCGGAGGTGAAATAATTTAAATGTCAAGAAGAAGAAGTGCGGTAAAAAGAGATGTATTACCTGATTCAAGATACGGTGATATAGTTGTTACTAAATTTATAAATTACATTATGTTAGATGGAAAAAAATCAATCGCAGAAAAAATATTTTATACTGCAATGGATAAAATAGAGGAAAAAACTGGACAAAATGGATATGAAGTATTTAAACAAGCTATGGAAAATGTAAAACCACAAGTAGAAGTAAGATCTAGAAGAATTGGTGGAGCTACATACCAAGTACCAGTAGAAGTAAGACCAGAAAGACAACAAGCATTAGCAATTAGATGGTTAGTTACTAATGTAAGAGCTAGAAAAGAATATGGTATGATGGATAGATTAACGGCTGAATTAATAGCTGCTGCAAATAATGAAGGTGGATCAGTTAAGAAAAAAGAAGACACTTATAAAATGGCTGAAGCTAACAGAGCGTTTGCACACTATAAATGGTAAGCCTTATAATAACAGATTAAGGAGGTTAAGCTTCAAATGGCTAGACAAGTTTCTTTAGAAAAAACAAGAAACATCGGTATAATGGCGCATATAGATGCCGGGAAAACAACAACAACAGAAAGAATACTTTTTTATACAGGAGTTACACATAAAATAGGAGAAGTTCATGAAGGTGCTGCTGAAATGGACTGGATGGAACAAGAACAAGAAAGAGGAATCACAATTACATCTGCTGCAACTACATGTTTTTGGAAAAATCATAGAATAAACATAATAGACACACCAGGACACGTGGATTTTACAGTTGAAGTTGAAAGATCTCTTAGAGTATTAGATGGATCAGTTGCTGTATTTTCAGCAGTTGACGGGGTTCAACCACAATCTGAAACAGTTTGGAGACAAGCTGATAAATATCAAGTGCCAAGAATGGCTTTCTTTAACAAAATGGATAGAGTAGGTGCTGACTTTGATATGTGTGTAAATGATATCAGAGAAAAATTAGGTGGAAATCCAGTAGCTATTCAAATACCAATTGGTAAAGAAGACTATTTTGAAGGTGTAGTAGATCTTATTGAAATGAAAGAATTGTTATGGACTACAGATGAAATGGGTGCTAATTATGATATAGCAGATATTAGAGAAGAATTAAAAGCTAAGGCTGAAGAAGCTAGAGAAGCTATGATTGAGTCTGTAGTTGAGACAAGTGATGAATTAATGGAAAAATATTTTGGTGGGGAAGAGATAACTAAAGAAGAATTAAAAGCAGCAATAAGAAAAGCTACTATTTCGAATGAAATTGTACCAGTTACTTGTGGGACAGCTTTTAAAAATAAAGGAGTTCAACCTTTACTTGATGCTGTAGTTGAATTTATGCCTTCACCAATTGATATCGGAGCTGTAAAAGGTACTGATATGAAAGATCCTGAAAAAGAATTATCAAGAGAACCTTCAGATGATGAAAGTTTTTCAGCGTTAGCATTTAAAATAATGACTGACCCGTTTGTTGGAAAACTTGCATTTTTTAGAGTTTACTCAGGAGTTTTAGAAAAAGGTTCTTATGTGTTAAATTCTACTAAAAATGTAAAAGAAAGAATGGGAAGAATTCTTCAAATGCATGCAAATAAAAGAGAAGAAAAAGATGTAGTATACTGTGGTGATATAGCAGCAGCAGTTGGATTAAAATCTACAGTAACAGGAGATACTTTATGTGCTTTAGATAATCCTATTATACTAGAAAAAATGGAATTCCCTGAACCAGTTATATCAGTAGCTGTTGAACCAAAAACAAAAGCTGACCAAGAAAAAATGGGAATTGCATTACAAAAACTATCAGAAGAAGATCCTACATTTAGAGTAAAAACAGATGAAGAAACTGGACAAACTATCATATCAGGAATGGGTGAATTACACTTAGAAATCATTGTTGATAGAATGAAAAGAGAATTTAAAGTTGAATCTAACGTAGGAAAACCTCAAGTTGCTTATAGAGAAACTATTACTTCTACAACTGATGCAGAAGTTAAATACGCTAAACAATCTGGTGGTAGAGGACAATACGGACATGTTAAAATCACTATTGAACCTAATCCAGGAAAAGGATATGAATTTATCAATAAAATTACAGGAGGAGTTATCCCTAGAGAATATATTCCAGCTGTAGATAAAGGAATGCGAGAAGCTTTAGAAGGTGGAGTTTTAGCAGGATATCCTATGGTTGATGTTAAAGTTACTTTATTTGACGGATCATACCATGAAGTTGATTCATCGGAAATGGCATTTAAAATAGCGGGATCTATGGCAATTAAAGATGGAGCTAAAAAAGCTACACCTGTATTATTAGAACCAGTATTCAAAGTAGAAGTAACTACTCCAGAAGAATATATGGGAGATATTATAGGAGATCTTAACTCAAGAAGAGGTATGGTTCAAGGTATGACTGATAGAAATGGTGCTAAAATAATCAATGCAAAAGTACCTTTATCAGAAATGTTTGGATATGCAACTGATTTAAGATCAAAATCTCAAGGAAGAGCAACTTACGCTATGGAATTTAGTGAATATGCTCAAGTACCTACAAATGTTGCAAAAGCAATAATCGAAGAAAGAATGAAATAATTTTATAAATAAAGAATAGGAGGCAAAAAATGGCTAAAGAAAAATTTGAAAGAAGTAAACCACATGTAAACGTTGGAACAATAGGACACGTTGACCATGGTAAAACAACAAC
>sequence06
AATGTTTGGATTTAAAAGTCCAAATGAAGTTTATGAAGAAAAATTAGTTAAATTAGCATAGGGGTAGATGTGTGCAATTAAACTTGCAATTTTCATATCCTTAAAATTTATATACTTATTTTTAAAAAAATGTTAAAATATGCATTGAGGTGATTTTTATGGTAAAAGATTTAAAAGAACAAATTCTTAAATTAAGTAAAAGAATTGAAGAAGAGTTCGGAATTGAAATTTTAGAAGAATTAACAGAATTTTTCGAAGAAGAAGAATATGCTAATCTACTTTTAGATATAAAAGTAAAGAAAATAAAACTTTTTGGTGATAAAGATGAATTATCATTTGTTGGATTTTATTTAGGCGATTATCATATTACATTTAATTTTGAATACGGCGAAGATGAAGAAGGCCCTTATTATGATGTAGAGGTTGAAATTATTAACGTATAAAAATGGACTTTTTAAGTCCATTTTTATATTTCATCTATTTTTTTATAATGTATATTTTTTGTTGGAATATTATCTATAAAAATTTTGCCATATCTTTTTGTATATAATCTATTATCAAGTATTGTTACTATCCCTCTGTCGTCCTTACTTCTTATAAGTCGACCTATTCCTTGCTTAAATTTTATTATTGATTCTGGAATTTGATATTCCATGAATGCATTTTTTCCTTCTTTATTCATATTTTCAATTATTGCTTCTACTACTGGATCACTAGGTACTTTAAATGGAAGTTTTACTAAAATTACTGAACTTAATTTTTTCCCCTTTACATCTACTCCTTCCCAAAAACTATCTGTTCCAAAAAGTACTGGTTTTTCAGCTATTTTATACATATTAATCAATTTGTTTCTTGGAGCACTTCCTTGTAAAAAAATTTCATATCCATCTTTTTCTAATTTATCTCTTATTAAATAATAAAGATAATTCAAACTTGAATAAGATGTAAATAACAAAAATGTATTCCCTTTTGCTTTTTCAATAAGTTTTATTATAAAATCTTTTATTTCATCCAAAAAATTTCTATCATTTGGATTTGGAATATCTTTTGGAATATATACTTTCATTTGTTTATCATAATTAAATGGAGAATGTATTATTTTTTCATAAGTTTCTTCTTCTAATCCAATTGATTTTTTAAAATAATTAAAATCTTTTCCAATTGCAATAGTAGCAGAAGTAAATATTATTTTATCTAAATTTTCATAAAGAGTAGTTTTTAATTCATTAGTTATTTTAAGTGGTGTTGCTACTAATTTTGCATTTCCTCTCTTTATATTTGTAGATAGCCAATATATGTATTTCTCATCTTCCATTTCTGTAATAAATTTAAAACTCATAAAATAATTTTCAATTCTATCTACATATTTTTTATAATCATTAATAATACCTTCTTCATCTTCATAATCTTTTAAAACTCTATTAAATTCTCTCTGTTTTCTAATATATGTATTATATGAAATATATAGTTCTGCTTCAAATTTTTTTAAATTATTCCAATTTTCATCTATTAATAATTTTTCTGGTCTTAATCTTAAATTTATACTTCCTGTTCCAGAATATAATTCCATTAATTTGATAAAATAATCATTCCCTTTTCTAAATAATTCTTCATGAATAGGGATAATTGTATCATTAATATATTTTTTTATTTTTTCATACTCTTTTTTATTTTTCTTTTTTATATAATAGCTTATATTATATATCTGTCCTAAATTTTTTGATTTCCCTGGTTTTATTCTATATATATTATTCATTGCTTTTGTAAATGAATATTTTGATACTTCATAAGAAAAATAATCTCTTGCTACTTTTTCTATATTATGTGCTTCGTCAAATATCACTAAATCATAATTTGGAATTATAGAAAATTCTGTATTAAATCCAACTTCTTTTCTTATTGCTAAATCAGAAAAATACATGTGATGATTTGTAATAAGAAGATCTGCCTCTTCTTTTTCTTCTCTTGATTTCATAAAAAAACATTTATGCTTATTCGGACATTTATTCATAGTACAAATATCTGTTTCACTTGCAAAAAGTTCCCATACATTTGATGATGGTTCAAAATATAATTCTGCTTTATCACCAGCTTTTGTTTTTGTAATCCATTCTTTTATTTTTTCTATTTCTTGGATTTGTGATTCACTAAAATCCTCACTATTTATTCCGCCATTTCTATTTAAATTTATATATTTTCTAAGACAAACATAATTCCCTCTTCCTTTTACTAAAACATATTTAAAATCTTCTGGAATTACTTTTTTTATTATAGGTATATCTTTATTTAAAAGCTGCTCTTGTAAATTTATTGTATTTGTCGTTACTATTACTTTCTTTTCATTTTTTATTGCCCATTCAATAGCAGGGATAAGATATGCCAGAGTTTTTCCTGTTCCTGTTCCCGCTTCTACAATAACTTTTTTATTATTATTAAGTCCTTCCTCTATAATTTTTGCCATTTCTAACTGTTCATATCTATATTCAAATTCATTAAATACTTGACTTAAAACTCCTTCTTTTTCAAAAAAAGGAACAACATCTATTTTTTCCAAAATTTCTTCTTTTAACTCAACTATTACATATATGTCATCAACATCATTATTTACTATATATGCCCCACCTTTTTTTTTATTTGCATACATTGATGCTACTGCTATATCTGCATCAGAAGGATAAAGATAACCAGATGGATGATTATGTATTATAACTTCTTTTTTTTTCATATATGAAATTATAGCCGGTACACTTTTTTCATTCCCTCTTGCTATTACTTCTATATCATATACCATCATATCTTCATCTGTTATCCCTCTAAAAAACACTTCATTTCCAAAGGCATTCTGTATCTCTTTTTTTATTTTTTCGCACGCTTCTTGTGTAATTCTATCTAAAATATTCATTATTCACCTCATAATTTATTCATTATATAATTTTACTATGTTTTAAAAAATTTTTAAAGTTGATTTTTGTTTTTATTTTTGATATAATATATATGGTCCATGTTCAATGAAAAAAGTCCATAACCTTGAATATCGTGTTGTCAAGAAAATATCTTGACTTATTTTAACAAAAATGTTAGATTATTGAAAGAATTTTTAATTTTTTAAGGAGGTATGGAACTTTGGCTCATTCAAAATCAGCAAAAAAAAGAGTTGTTATCGCAGAAAGAAACAGAGTAAGAAATCAAGCAATAAAAAGTAAAGTAAAAACTATGGTTAAGAAAGTATTATTAGCAGTAGAGGCTAATGATGTAGAAGCTGCAAAAGCTGCTTTAGCTGTAGCTTATAAAGAACTTGATAAAGCTGTTTCTAAAGGTGTATTAAAAAAACAAACTGTATCTAGAAAAAAATCTAGATTAGCTGCAAAAGTAAATTCATTATAATAAAAAGGCTGAAAACAGTCTTTTATTATATTTAAAAAATACAATGATAATTATCATTGTATTTTTTTGTTTAACTTACTATTGCTTTCCAAAATTTCCCAACTATACTAAACTCTATATTTTTATCTATTATTATAGGCTCATGGTTAATATTTAAACTTGTTAATATAACTCTTCCTGTTTTATCTCTATTATACACTTTAATTACTGTTTTATTTTCTACTATAAATACCCCTATTTCACGATTTTCAGGCATTATCCCCACTTTTATAAGTACGATATCTCCTTCATGGAATTTAGGTTCCATACTATCTCCTTTTACCTTTACTCCTACTATATCTGCTCTTGCACCTATTAGTGGTATTTTAATACTTTCTTCTGGTTCTGGATAATTTTCGATTTCGTTATAACCTGCTCGTACATAAGAATATACCGGTATCTCTTTATAGTCATTATCTTGTATAAAACTAATATTTTGTTCTACATTTTCTACTTTTTTTAATTTTTCTATAATACTGTTTTTTCTATTAATTTCTTTTTTTAATGTTTTCATTTCTTCTAAAACGATATTAGGAGTTTTTGCAAATGCTAAAATTCTTCTTAATTTACTCTCATCTTCTTTTTTTAAGTCATAATAATTTAACAATTTATTTAAAATTTTATCTGATGGAACAATTTTATTATTTTCAATATCATGTAAGTATGATTTTGATACTCCTGTATTTTTTGAAAGTTCAGTAAGAGTTAATTCACTATCTATTCTTAATTTTTTAAAATATTCCCCATGTGTATTCAAAATTTTCCCTCCTTATTTATTTGATTTTTATATTTTTTTAATTAAATTTATAAAAAATTTCTTCTATATAAAATATCTAATTTTTCAAATTATATAATTCACCTAAGTATAGCTTTTAAATATTTTAACTTTCATATAAAAGTTTTTTTGTATTTATCTCTAATAATCTTGTAATTTGTTTTTTATTATATTTAATTATTCTTATCAAATATATTATACATTTTTTTTTGAAAAAAATCAAAAAAATCCATTTTTTTTTGGAAATAACCTTGATTTTTTTTTAAAAATATATTACACTATTAATAGGAAATGTTCGATTAAAAACGGAAAAGGTGGGATTTATGATAAGTGAAGTTATTTTAGCTGATAAAATTCAAGAAATTGCTAACAAAAAAAATATTTCAATTAACCAACTTGCGCACATGATAAACTACTCGCCAAAATCATTGAAACATACTTTATATAAAATGAAAAAGAATAACCAAGATCAAAGCCTTAGTTTTGATTGTTTTATAGCTATAACAGAAGCTTTAAATATTAATATAGAAGAACTCATGTAACATCATCTTTTTTTATAAGAGAGAGTAAAATATTTTTTCTAAATATTTTATGCACTCTCTTATATTTATAAATTTAGGAGGAATTTCAATGTCTAATTTATTTGAAAAACAATTAAAAAATTTGTTTTCATCACAAAATAGATTTATTCAAATTTTTGAAAAGCAATTATCTAATGAAAATCTTAAACTTTTATATCAAAACATGTTTAAAACACTTCAAACTAGAGCTTTTTATTACTCTTTAATTAGTCAAAATAATCATTTCGAATCTTTACTATTTGAAAAAATTAATAATTATAACTTTTTCAAAATAAATAAACTTTTTAAAGAATTTGAAATATTAATTTTAAAAATATTTTATAAAAATAATGAATTTAATAAATATAATTTAAAACTTATCCAACAACTAATTATTGAAGAAAAAGAATTTCATGATTTTTTAAAAAAATTATTATCTAAAAATATTTCTTTAGAATCTTCTAATATAAATAAAATCACTTCTTAAAATTAAGAAGTGATTTTATTTATAATTATAATTTTTTTTCAAATAATTCTGTTACAAGTTTTGGATTTGCTTTTCCTTTTGTTATTTTCATTACTTGACCCATTAAACCTTTTAATACTCTCGGCTTTCTTCCTTCATCAGCTTGTTTATAATCTTCTACCATTTTAGGATTATTTGCTATTACTTCATCTACTATTTTTTCTATTTCTGAACTATCACTTACTTGAGTAAGACCTTCTACTTTTACTATTTCTTCTGGATCTCTACTATCTGTTAACTTCATTTCAAATACTTTTTTAGCTATTTTACTAGATATAGTTCCATTATCTATTAATTTTATAATTTTAGCTAAATGTTCTGCTCTAATACTAAAATCTGTTATTTCTTTGTTTTCTTCTTTTAATACTCTTAATACTTCTGTAATTATCCAGTTAGAACTAGATTTAGAATTATTACTATATTTTGCAACTTGTTCAAAATAATCTGCTAATTCTATTTCATTAGACAATATTTCAGCATCTTTTTCTTTTAAATCATATTCTTTAATAAATCTTTTTACTTTATCTATTTTTGATTCTGGCATTTCAGCTTTTAATCTTTCTAATCTATCATTATCTATAATTACTTTTACTAAATCAGGCTCTGGAAAATATCTATAATCATTTGCCTCTTCTTTACTTCTCATTACTCTTGTTACTCCATTTGCTTCATCCCAAAGCAATGTTTCTTGTTCTACTACTCCTCCATTTTCAATTAATTCTATCTGTCTTCCTATTTCATATTCTATAGCTTTTGCTACTGCTTTAAAAGAATTTAAATTTTTAGTTTCTGTTCTTGTTCCAAATTTTTCAGTTCCTTTTTCTCTTACAGATACATTTGCATCACATCTAAGAGAACCAAGCTCCATACTTACATCACTTATACCCGTATATTTTATAGCTGTTTTAAGTGTATTTAAATATTCATATGCTTCTTCTGGTGTTCTTATGTCTGGTTCTGATACTATTTCAATTAAAGGCATTGATGCTCTATTAAAATTTACAAATGATTCATTTGTTGTATGAATAGATTTTCCTGCATCTTCTTCTATGTGGATTCTAGTTATTCCAATTCTTTTTTCTCTACCAGAATTTAATTTTATATCTAAATATCCATTTTCAGCATACGGTTTATCAAATTGAGTTATTTGATAATTTTTAGGTGTATCTGGATAAAAATAATTTTTTCTATCAAACTTACTTTCTTTATTTATGTCACAGTTTAAAGCAAGTCCTGCTTTTATTGCATAATCTAATACTTTTTCATTTAGTTTTGGTAATACTCCTGGATGCCCTAAACATATTGGACATACATGTGTGTTAGGTTTTGCATTATCATAATCTGTACTACATCCACACCATACCTTTGTACCTGTTTTTAATTGACAATGTACTTCTAATCCTATTACGGCTTCCCATTCTCTTGCCATCTATATTAAACCTCCTATTAAATATTATCTGGTAATTCTATTCTATAAGCTCTTTTTTCAAAATTATTTGCTACTTTTAATAAAGTTGTTTCGTCAAAATGTTTTCCTAATAATTGCATCCCTATCGGTAATCCATTTTTATTTTTTCCTGTTGGTATTACAATCCCTGGAATACCTGCTAAATTTGCTGATATTGTAAATACATCTTCTAAATACATTTCAACAGGTGATTTTTTATCTGTTAATTTAAATGCAGTATTTGGAGTAGCTGGTGTAAGTATTACATCTACATTTTTAAAAGCTTTATCAAAATCATTTTTTATTAATCTTCTTACTTTCTGAGCTTGTTTATAATATGCATCATAATATCCTGCACTAAGTACATATGTACCTATCATAATTCTTCTCTTTACTTCATCTCCAAAACCTTCACTTCTAGTTTTAATATAAAGATCTTTTATATCTTTATAATTTTCAGTTCTATATCCATATCTAATTCCGTCAAATCTAGCAAGATTTGAACTAGCTTCAGCTGGAGCAATTATATAGTAAGTTGATGGAGCATATTCTGTATGCAAAAGTGAAATTTCTACTATTTCAGCCCCCATTTTTTTATATTCTTCAATAGCATTTTCTATTGCTTTTTTTACTTCATTATCCATACCATCTATAAAATATTCTTTTGGAATTCCTATTTTTAGTCCTTTTATATCTTCATTTAAATTTTTTGTATAATCAGGAGTTTCTATATTTAAAGAAGTTGTATCCATCTCGTCATGTTTAGCTATTACATTCATAAACATAGCTACATCTTCTACAGTTTTTCCAAAAGGTCCTATTTGATCAAGTGATGAACCAAATGCAATAAGTCCATATCTTGATACTCTTCCATAAGTTGGTTTAAGTCCTACTACTCCACAAAACGCTGCTGGCTGTCTTATACTTCCTCCTGTATCACTTCCTAGAGTAAGGATTACTTCTTGTGCTGCTACTGCTGTAGCGGATCCTCCTGACGAACCACCTGGTACTCTCTCTAAATCCCATGGATTTTTACTTTCTTTTATAAATGAAGTTTTTGTTGTCGAACCCATAGCAAACTCATCCATATTAGTTTTTCCTATAAGAATCATACCTTCATCTTTTATTAATTTAACAACAGTTGCATCATAAATACCCTTATAATTTGATAAAATTTTTGAAGAAGCAGTAGTTGGCTCACCATTGCTTACCATATTATCTTTTATTGCTACTGGTATCCCTTCAAGTGGTTTTAATTCTATTCCTTTTTCTATTTTTTCATCTACTTTTTTAGCTTGTTCTAAAGCGTTTTCTTTATCTAAATAAACAAAACTACCTATTTTATCTTCTACTTCATTTATTCTTTCAAAAATACTATTTACTATATCAACAGCTTTTATCTTTTTTTCTTTTAAAAGTTTAGAAAGTTCTTTAGCTGTTAATTTATATAATTTTTTCATTTATTCCTCCTTTTAAAATCAAATACATAATTTAAACTTATTAACTTAAATTAATTATTTTATTTTTATAGAAAATTAAATATTTTCTTTATTTAATTCATATATTGTTTTTGCTACTATTATACCTAAATATGCCCCTATTATTACATCGCTTAACCAATGCTTTCCTTCATAGATTCTAAATATTCCTATTAAACTTGCTACTATTATACACAAAATTCTTATTTTTTTATTTTTATAAAAATAAAAAAATATAAAACACACTGAAAATCCTGTAATTGTATGACCTGAAGGAAAGCTTGTATTTGTATAATTAAATATTTTATTAAATTTAAAAAAATTCAATTCATTAAAACTAACAAATGGTCTTTCTCTAAGTATTATATGTTTTAATATTTGTACAAAAATTCCTGAATATAAATTACTTGCAAGGGCTAATATAGATATTTTAGATAAATTTTTATTAAATTTAATTCCTACAAAATATAATATTATTAATGGTATTGATATAATATCTGCCTTGCCTAAATTTTGAAAAAAAACTGCAATATTCCCTAAATCTATATTATTAATTTTTTTCCAAAATAACATAGTAATTTTCTTATCTAATAAAAAAATTGATAATATTACAAAAAATAATACAATATATGTTGATATATTTTTAAAAAGATTATTTAAAAAGTGTTTTGTTATTTTTAAATATCCCTCTTTTATTATTTTATAAATAAAAAATAATAATAAAATATAAACTAATATCATCATTTTAGTCCCTTATAATTATAACATTTATAAATATAAAATGTTCTATATACTTTATTTTTTCGTTTTATATCTATAGTTTTTATAAGTTTTACTTTATCAAAATCATATATTCCTCTTGGATCATCATTATAAAAACTATGTGCTATAAATATACCGTTTTTTCCTATAAGATTTTTTTCGTTTTGTAGAAAATCAAATTGTTCTATTTTTTTATTTAATGAATATACATAATCTTTATTTGGCAAATAAAAATAAAGCTGTGATGCTGTTTGATATCTAGAACCAAATATAAACCAATTATTTTTATCTGTATACATATTTTGTACTATTTTCCCTACTTTATCCCATCCATACATATCAGTTGTTATATCATCTTTTTCTGGTATTGGCAATATAGGATAAATTAAATGTATATATATTATCAATGATAATCCTAAAGCTGTTTTCCATCCTATATTAAAACTTTTTTTTCTTAAATTAACACTATGAGTATATACAATTAAAAGTGGAATATATGCTGTAGCCAACCAATGTACTTTTGATGGATTTGAAAAAGAGCTTATAGTAAATATAGCTACTAAAGGTAATGCATAAAAAATTAATAATTTAACATATTTTTTATTAAAATTTTTTATACTTTCTTTAAATAATCCGACAAAAATAATTGGCGATACTATTGCTATTTGTCCAAATAGAAATTGTGAAAATAAATATGGTCTAAATTTATATACTTTTTTTTGTCTTTCAACTAAATGAAACGAAAAAGATATAAAATCATGCTGTATATTCCATATTATTACTGGTAAAAAAAGAAGTAAAGATAGAACAAATCCTAAATATACTTCTTTTTTAGTAAACCAAAATCTTTCTTCTTTATCAAATATCAAATAAAAAAATATTGCAGGATATACCATAAACATATTATATTTACTAATTAATCCAAGCCCTACTACAATCCCAAGTAGATACCAATATTTTTCTTTTTTCTCTTTTATTATTTTAATAAAAATATATAAACTCAATGTATAAAAAATAAGTAATGGTGTATCTGGCAAACTCATTATTCCTGCAAGAGCAAAAAGTGGTATTATATTAAATAAAATTACACTCCAAAATGCTCTTTTTTTATCATAAAATAAATATATACTTATTTTATATATTAATAATGATACTATTAATATTCCAATATTTGCAGGTAATCTCACTGCGAAATTATTATTTCCAAATATTAATGTAAATATTTTTATAAAATATGCTATCATTGGAGGATGATCATAATAACTTATACCTAAATGATTTGACCACATCCAATAATACGCTTCATCATCTGTTAAATTAAGTACTGTCCCCCATATTAACCTAATTATAAAAAATATTAAAAGTACAATTAATACTCTATTTTTTTTTAATATTTTTTCAAACATATTACTCTCCTTAATTTTCGCCAACTATTTTAGGAACCACAAAAGATCCTTCCAAAGACTCTGGGGCATTTTCTAAAGCTTTTTCATTTGAAATAGATTTTACTATTTTATCATCTCTAAATACATTATAAATATCATTTATTTGTGCCAGAGGTTCTACTCCTTCTGTATTTACCTCAGATAATTTTTCAACAAATTTTAAAATATCATTTAAGTCATGTTGAAATCTTTCAATATCTTTTTCTTCAAATTCTAGCATTGATAATTTTGCTATTTTTAATACTTCTTCTTTTGATAATGCCATTTTAATTCCTCCTTAAATTCTCTCTCTTTTTAATATTTCTATTATATTATTAAAATTATTATATTTATAATGTCTTATATTATTTTCAGAACAGTATTTTTCTAAATTATGTCCTATTTTTGCAAATACATAATCTGCAGATGTTACACACGGTATATCAGAACTTCCATCTCCGATAAATATTACTTTTTTATACTCTGTCTTATATTTTTCAACTATACTTTTCTTACAAATTCCTTCAAATGCCTCATTTACATCATATGGAAATGTTACTTTTATCCCATTATTAGTAAAATTTACTTTGTTTGAATAAATATGTTCAATTGGTATATTAATTTCATTTTTTTCAAAATTCGGTAATATATTTTCATAAGCTCCCGCACTAACTACTCTTATATTGTAATTAATATATTCTAAAAATTCTTTAAAATATGGATCTAATACTATGTTTTTAATTACATTTTTCTTGTACTCTTCTTCATCAATATTAAGACTTTCCACAAGTCCTTTTATATAATCTCTTACTCTTAGTTTTCCTTCTTTAAATTTTTTTTGATATTCATATACAAGTTCTTTATTATACTGTTTTAATAATTCATCAGTACTATCTTTTAAACTTATAGTTTTATCAAAGTCTACTAAAAAGATTTTTTCTTTCATTAAAACTCTCCTCTTTTTCATCTATACATTCATACACAAAATATTCTTTTTTTATTAAATCATTTCTATAATTTAATTTCTGTAATAAATTTACTTTACTAAATCTTTTTTCCAATTTTTCTTTAAAATTAATTTTTCCAATATATATAGCTCTTTTAATAGGATGTTTTAAATCTTTTTTCCATAAATCATATTGAGAGAATCTAGTACTATCTAAAATATAAGTTTTTTTTGGCATATTTAAATAATATGCAATTTCAGAGCCATGATAAGAATCTATTAATAAATATTCATAGTTCTTTAAATTTATTTTTTTATCTAAACCTTTATATACCGTATCAAAACCTTTTAATCTATACTGTAATATTTTTATAGGTTTAGGTAAAATTGGAATAAATTCTGGTGTTTTAACTAATCCTACTACAATAACAGTAAATATTATAGCTCCTTTTAAAGTTTTTTTCATATTATTTTTCACATAAAAATAAGCTAAAAATATTGCTCCACTTATATATGCTGGTGCTGTCCAATTTGGTTCTGATTTTTTATATAATGCATTATATGCAAAAAATATAAATACAAATATAAAGTTTATAAAAAAATATCTAAGTTTTTTATTTTGCCAAATATATTTAAAATATTTAATTATAAAATAAAAAATCGTTACAAAATATACTGGATGAAAAATTAAAATTTGACCTCCAATAAATTCTAAAAATTTATCAAATCGAATAATTTTTTTTATAGCTACTCCATGATTAAATTGAAATCCAAATGATATAAAATCATTTTGATAATTCCAATAAAGAACTGGAAACGAAACTATTATTCCCAAAATTACAGCTAAATAGAAATCCTTTTTAAAAAATACTTTTCTATATTCTTTATCACTTAAAAGAAATATTATCATTACTATAGCTATTAATATTGCTGTATATTTTGATAAAAAAGCACATCCCATAAAAATAGAAGCTAAATATATCCCTCTTCTCTTGTCTTCAAAAATATATTCATAAGCAAAATATAAAGATAAAGTCCAAAATAGTATCAACGGCGAATCTGGGGTAATTAGCATAAATCCCCCTTGAACTATTATTGTTGATAAAAAAATATATATACTATATTTTGCAACTTTTTTATCAAAGGCTTTTTTAGCAAGTTGATATACTATATATGCAGATAAACTTATACTAAATAAAGCAGGTAATCTTATAAAAAATTTATTATCACTAAAAATTGTAAATATTTTTATAAAATATGCTACCATAGGTGGATGATCAAAATATGATAATTGTAATCTTTTTGACCATACCCAATAATAAAGTTCATCACTATAAAAAGGCCATAATATATTAAAAAAAATATTTATTAATACTACAAAAGAAAGTACTCTTTTTGTTTTAATATCCATATTATTCACCTTTTAATTTATTTTTATTAAATCTCATCCAAACTACTTTTAATACAGCTTCCAAAAATATTTTTTTAGACATTTTAGATTTTCCTAGTGTTCTATCTTCAAATATAATTGGTATTTCTTTTATTCTTAATCCTTTTAACCAAACTTTATAGTTTAATTCTACTTGAAATGAATAACCATTAGATATAATTTTATCTAAATCTATTTTTTCCAATGTTTCTCTTCTAAAACATTTAAATCCACCTGTAAAATCATTTATTTTTGCTCCTAATATAATTCTAGAATAAAGACTTCCGCCTCTACTAATAAATTTTCTAATAATTCCCCAGTTTTTTACTCCTCCACCTTTTACATACCTACTTCCTATTACAAGGTCATTATTTTCTATCTCTCTTAAAAAATCTGGAATATATTTTGGATTATGTGAAAAATCAGCATCCATTTCAAAAATATAATCATATTTTTTTTCTAAGGCCCATTTAAATCCTGCTATATATGCAGTCCCTAACCCTAATTTCCCTTTTCTTTTCATTAAAAAAAGTTTTTCTTTATATTTATCTCCCATTAATCTTTCAATTATTTCATAAGTTTTATCCGGAGAATTATCATCTACAATTAATATATTCAAATCATTTTTTACAGAATATATTAATTCTAATAATTTTTCAATATTCTCACTTTCATTATAAGTAGGTATAATTATTAATGTTTTTTTACTCATTACTATCTCCTTCTATTTTTTTGTCTTTAAATGTTATAAAATAATTTCCTAAAAAATTAAAAATTGTAGCAATTCCTATTGCAAAAAATTGTGCTAAAACTTTTGAAAATTTTAAATGATCTTTTAAAAAGCTAACATTAGAAAATACTCTTATAAATATTTCTAAAAATATTAAATTTATTATAAAATTTATTGAACTTATAATCATAAAATTCATATATTTTTCTTTAATGGTTTTATTTATCCCTTTATCTCTAAAAGTCCATAAAAAATTCCAAATAAAATTGTTTGTAACTGCAAATAAAAATGCAATACTTGCTGTTAAAACTGTATTTGTTACATCAAACACATATGTAAGTACTGAAAATACAGATAAATTAACGATTACTCCACTAGCACCTACTATTCCAAATTTTAAAAACATTCTAATTATTTCCATATTCCTCCTAAAGTGTTTTCAAATAATTTAATTCTTCTTCTGTTAGCTTTTTATATTCTCCAACTTTTAAATCCCCTAATTCAATTTTTCCTATTTTCACTCTTTTTAAATAAATTACTCTATTGTCTATAGCTTTTATCATTCTTCTAATTTGTCTATTTCTTCCTTCTCTTATTGATATATAAAAACTTGTTTTATTACTTTCATATTCAACATTTTCAATTATTGCTGGCAATGTTAGTCCTTCTTCTAATTCTATTCCATTTTCTAATTTGTCTATATCAAATTTTGATAATTTATTTTTAACTACAACAAAATATTTTTTGTAGATTTTACTTTTAGGATGCATTATTTTATTAAATATCTCTCCGTCATTTGTAAGTAATATAAGACCTTCTGTTTCAAGATCTAATCTTCCTATTGGATATATTCTTTTATCTGTTTTTATTAATTCTACTATTGTTTTTTCTCTTGTATCTTTTACTGCAGATAAATATCCTTTTGGTTTATTTAATTTATAATAAACTTTTTTTTCTATTTCTAAACTAATTTTTTCCCCGTCAATTTCTATTGTATCACTACAATTTACTTTTATTCCAGGTTCTGGAAATTGTCCATTTATTTTTATTCTATTATCTAATATCATTTTATCTATTTCTCTTCTAGAACCTATACCTATACTTGCTAAAAATTTATTAATTCTTATTTTTTCCAATCTCTTCACCATCTTTATTATTTTTATTTTCTTGATTTTCTTTAATTTTTTCTCTTATCTCTCGATAATTTGGTAATTCTTCTAAAGAATTAATATTTAAATATGCACAAAAATCTTCTGTTACTTCATATAAATTTGGATTCCCAATTTTTTCAGCTTTTCCAACTACTTTAACTAATTTTTTTTCATGCAAAGAAGAAACAACTCCATCTACATTTACACCTCTTATTTTTTCTATTTCACTTTTAGTTATTGGTCCATTATATGCTATAATCGTAAGAGTTTCAAAAGCAGCTCTACTTAATTTTTTAGGTTTTACTTCTGGATTAAAATATCTATAAACTGCCTCTCCACAATTTGGGTTTGTTACCAATGAGACTTTTTCATTTTCTATTTTTACATTAATTCCATTATCTTTTCTTAATTCTTTTAATTGAAATAAAGCTCTTTTCATATCTTCTATATCTAATTCAAAAAAATTAGCGAGTTCTTTCATCGATATATCTTTTGCTTTTAAAAAAAGTATAGCTTCTAATTCATTTAACATCTGCATAATTCTCACCTAATATTTCTTTTAATTCTTGCATAAAATTTATATTATATTTTTCTCCTAATAAATTATTTTCATTAATAAATAATAAATCTTTTTTATTATATTTATTCAAATTTTGTTTATATTCTTTATCAAATATATTTTTTAATAATTTTATTTTTTCTTCAATTTCTAAACTTATTTTATCGTTAATATAATATCCTTTTATTTTTTTTAAAATAGTATATGTAATTAAAATATTTTCAATATAATATCCTTTTGGTTTTTTTATATCTCTTCCATTATCAAATATTAAACCATTTTTATTAATTTTTTCTAAAATTTTACTAAGATATTTTATTTTTATATTTTCTTGATTTTCACTTAAAAATTCTGTATCATTTGTTATTTTAATATATTCTAAAAAAACATATAAAAAAAGCATATTTGAATAACATAAATTTTCCCCTAAATCATTATTTAATTCAAAATTTAAAATTTCTTTTACATCATCTAAATATCCATTTTTTAATAAATATAATGCTGAAAAAAACATATTTTCTCTATTTATAGAAAAATTTTTATTATAAAAAAAATTAATACTTCCATCTAAGTTTTTATTCATCAATATTTTTTTTATAATAACATCTTCTTTACCTTCATATTTAAAATATTCTTTCATTTTTATTTTTTTAAAATCACTTTTTTCTATAAATATATTTATTTCATCTATTCCATTATTATTTATGATAACAATACTTTCTTCAATATCTTTTATTTTTTCTTCTCCATTTTTTAATTTTTTATTTAAAAAATTTTCTATAGTGCTAAAATAAGCATTTAAATTATTTGAAAAAAAATAAAAATCATTATATTTATAGTATTTTTCTTCTTTTCGCAATTTTGATTCTTTTTCTGGTTTTATAAAAGTAATCAACTTTATATCTTTATTATATGTATTTGTTATTAATTTTATTATTTTTCTATTTAAATAAAGATATATTTTTACATCTAATTTATAATTGTTTTCAAATAAAAATAATAATTCTATATTATCTTTATTCTCTATTTTTTTTACTTCTTTTATATCTAAAAACTTATTTTTATGAAACATTTTAAATTTAATTTGTTTAATAATTTTTTTATTTTTTTGTATATTATATATATCAATAATATCAAAATTATCAATTTTATACTGAAGTAAACTATTACTATATATACTTATTCCAAAACTAATTGAATATACAAATAAAAAAAGTATTACTATTTTTTTCATAATTTACCTCACTATAAACAATAAAATTGGGTGACCAAATTTCAAAGTCACCCATATTTAAAATTAATAATCTGTTTCTGGTGATATTATTACTTCTTTATATCTATCAAAATCATTTAATAATTTTTCAATTCCCATCACAACACAATTTAAAGGATTTTCAGCTAAAATTACTGGTACATTTAAACTTTCAGATATTTTTTTATCTAATTCTCTAATAAGTCCCCCTCCACCAGCTAAAACTATTCCTTTTTGATAAATATCCGCTGATAATTCTGGTGGTGTTTTTTCTAATGTTAATTTTATTTCTTCTATAATTTGAGATATAAGCTCTTCTAACGCTTCTTTTATTTCATTTGCTTTTATTGTGATATTTCTTGGTAATCCATTTAACACATTTCTTCCTCTTACTTCACATTCTATATCTTCACTAAGTTCCATTGCTGTAGCAACATTTAATTTTATTTCTTCAGCTGTTTTTTCTCCTATTAACAAATTATGTTTTTGTCTTACATATTGGACTATTGCTTCATCAAATTTATTCCCAGCTATTCTTACAGAAGTAGTTTTTACTATCCCTCCAAGAGATATTACAGCTATTTCTGTAGTCCCTCCTCCAATATCTACTATCATACTACCTTCTGGTTCGAATATCTCAAGTCCTGCTCCTATTGCTGCAGCCATAGGTTCTTCTATAAGATACGCTTCTCTTGCTCCAGCTTCTAATGTTACATCCATAACCGCCCTCTTTTCTACTTGAGTTACTCCAGCTGGTACACATATTACTACTCTAGGTTTTGTTAAAAATTTTCTCTTATGAACTATCTTATAAAACTCTCTAAGCATTTTTTCTGTGATTTCATAATCGGCTATAACTCCATTTTTAAGAGGTCTTATAGCTTCTATATTTGCGGGAGTTTTCCCTATCATTTTTTTTGCTTTTGCGCCTACTTCATAGATTTTTTTACTTTTTACGTTAATAGCTACTACTGATGGTTCATTTAAAACTATCCCTTTATTCTTTAAGCACACTAATGTATTTGCTGTTCCTAAATCTATCCCTAAATCTTCTGAAAAAACTCCAAATACGTTGTTAAATATTCTTTTCATTTGCCACCTCATTATAAATTTTCTATTTGTAATAAATCATATAATAATTTTTCTCTTAGATCACTAACAAATTTTGATAAAGGAAATCCCATTACATTATAAAAATCTCCTTCTATCTTTTCAACTAATAAATTCCCTTTTTCTTGTATACCATAAGCTCCTGCCTTATCCAAAGGTTCTCCTTGGTTAATATACCATTTTATAAGTTCATTGTCTAGTTTTTTAAATGTTACTTTTGTTATTTCATAATTTAATATTTTTATATTTTTTTCTATATTTAAAAACGAATATGCTGTTATTACATTATGGGTATTTCCTGACAACATTTTTAAATATTTTTTAGCTTCTTCTTTATTTTGGGGTTTCCCTAGAACCATATTATCATATACTACAACTGTATCTGCAGCTAATATATAACTAGTTTTATTTTGTTTTGCCACTTCAATAGCTTTTTTATTTGCTATATCCATTATCTGTTCTAAAACATCATTTTTATCACTTACTTCTTCTACTTCTTTTGTTTTTATGTCAATATTTTTAAATATTTTTTCTAATATTTCTTTTCTTCGTGGAGATTTAGACGCTAATATCATTTTTCTCCTCCTTTAAATAATTTAATAATTCTTGTGTCATAGCTAATCCTACTTTATATTTTTTTTGCAAATATATAATATCCGTTTGATTATTTTTTATTTCCAACAATATTTTATCATATATATCTTTTCCAAAAATATCTATAAAAAAATTTTCTTTTTGATTATTTTTTATTCCTTCACTCAATTTATCTTTATTAAAATTTTTTTGTTTTTCTTCTTCTAATTTTTCTTCTAATTTTTCTTTTTTTTCTAATTTTCTTTTCTTTTCTTTTATAATTTTATCTTTTATTTCTTTTTCTTTTTTATTCTCATCAATTGATTCTTCTTTTTTTAAATTAAAATCTATTTTTTTATTAATCACTTCTTTTTCTTCTATATCTTTTTTTCTATTATTTTCATTATTAAATAAAAATTGAACTTCTAAATTTTTTATATTTTTCAATTCTTCATATTCTTTAGTTATCATATTCGGCTCATTAAAAATTTTTTCCTGTACAAATTTTTTATTTTCTATATCTCTCAATTCTTCAACTTTTATTTCATTTTTATCTAAATTTTTTTTATTTTTTAATGACTCGTCTATTATTTTTATTTCTATTTGTTCTTTTTTTTGGTTTATTTTATTTTTTTCTTCTTTTCTTTTTTTTATTTCTCTTATTTTTTTTTCTCTTTCTTCTCTTTCTTTTCTTATTTTTTCTTTATGTTTCTTTTTTAATTCTTTTATTTTTTTTCTTCTTTCAAAAAAATTCGGTTTTTTAAATTTTATTAAATTATTTTTTTCTTGTATTAATTCACTTTTACTATTTAATTCTTCTTCTGCTTTTTTATTTTTTTTATCTTCTTTTTCTATTTTTATAGATTTTTCAAATTCAAAAAAAGTATTTCTAAAATACTTTCTTTCTATTTGAAAATCATAATTTGAGTTTTTAGATTGTTTTTTTTCATTTTTTTTATTCTTACTTTCCCTTTTATTCTTACCCTCTTTTTTTTCAGTTCTCTCTTTTATTTGTTTTCTAAGCTTTTCCTTTTTATCATTTAAAAAAATATCCTCGAATTTATTGTTTTTCAATTCTACTGCTTTTTTTTCTTTTTTCTTAAATTTATTACTCTTTATTTTTTTTAATGTTCTATAACTAAAGCCTATTATTTTCCCAAAGACTATTAAAAAAACTAGGGGAAATACTAAACTATTTAATACAATAATAATGTTTTTACTTAACATATTAAATAAAGTACTTAATAATACAGTAACTAATATTCCTTTTCTTTCCCAATAATTATTAAGAATATAAGTAATAATTTCTCGCTTCGATATGACACTTTTAAGATTCAAATATAAATTAAATATTTCTATTTGAAATAAAAACAGTAAAAATATTTTTAGTCTAAATGATATCATATCATATATTTCATTCTTAAAATTAATGATTATAGCAAAAATTATCAAGTATATTGTTAATAAATTATAGTAACTTCCTAAAAAATTATAAATCAATTTATAAATGTTAGTATTAAGTATACTAATGGAAAGTAAAAATAATGCCGATATAAATAATGAAATACTTATAATTTTTTTTTGTTCTTTACCCATTTATAATCCCCTTTTAAAAAAAAATATAATAAGTAAATTCTATCATATCAAATTCTTTTTTTCAAGAATTGATAGTTAGATTTTTATACTATTTACATTATTTTTATCATATGTTAAAATATAAAATATTATTAATTTTTAAAGGAGTAGATGGAAATGAAAAATAAAGGAATAATTACTGAAATAAATAATAACGAAATAAAAGTAAATTTATTTAAAGATAGTGCTTGTAGCCATTGTTCTGGTTGCAGTGATGGAGATAAAATGTCATGTGAATATACTTTTAAAACAAATACTACTGGATTAAAAGAAGGAGATATAATTGACTTTGAAATGAATAACAACTCATTATTAAAACTTGGACTTACTGTTTATATTCTTCCTATATTTTTATTATTTTTTATGTATTTTTTAGGTAGTTTAATAAAATTATCTCAAGGAGCTAATATTTTATTTAGTTTTTTAGGTCTTATTATATATTTTATTATTCTTTTTGTAATAGAAAAAATATATGGTAAAAACTTTTTAAACCAAAATATAAAAATTTCAAAAGGTGAGTAAATATGTCTAAAATAAAAATAATCTTTTTATTTTTTCTAATAATTTCTCTTTCTAGTTTTTCAGAATACTATGCAATTGGAGCAAATTTAGGAAGTAATAAAGGATTAAATCTTTTAATTTATAATTCACAAGAAAAAGCAGTTCAAGTAAACTCTTCTTGGAGTTTAAATAATACTAGTACAACTTTTATTTTTTCTTTTGATCAAGTCTATTTTTCTCTAATGCCTGATGGTGTTACTCCTATGTATTATGGTGTTGGTATGAAAGTCTCAAATAAAGAAGATGAATACATTGGTGTTAGAGGTGTTTTAGGTGCATCATATTTTGCCCAAGATATTGATGAAAACTTAGAACTTTATATCGAGCTAGATCCTACTTTTCATTTAGCAGCCACAACAAATTTTTTGGCATTAGAAATTGGCTTAGGATTTAGATACTATTTTTAAAAAAGGTGAGAGATGTGATAAAAAAAATTTGTGGGATTTATTTTTTAATTTTCATATACAGTTTTGCTGCATATGAAGAATTCAAAAATGATTCTAGCTATGAAGAAACTATAAATTTATATTCTGGAAGTTCTTATTTTAATAATAATATTACTTCTGCTATTGGATTAAACCTTGGAACTACTACAGGATTAAATCTTGTTTACAATAACATTTCACTTACTTTAGATAGTAGGATTCTTAGTATTACTAATCCTACTTTGGCTCTTAGTATTGATTCTATTTCTAAAGATGATTTTTTTACAATTGATTCTGGTATCCCATTTCATTATGGTATTGGTATTAAATTAACTACTAGTGATAATACTAAATTTGGTTTTAGAGGATTAGTTGGTTCTAGTATTAGACTTTCTGATTTTGATGAGAATTTAGAATTATATGGAGATTTTATTCCTACTTTTTATTTACCATCATATGGAAACTTTTTAGTTTTCGAATTTGCGATTGGCTTTAGGTATTATTTACCATAAAAAAAGTGAAATTTGATTTTTCAAATTTCACTTTTTTTATATTCTAAATTCTTTTAATTGTTTTATAAATTTTTGTATCTCTTTTTTATCGTATTTATCTTTAGTTACAACTAACTGATATCCATCATTATTATCAAATTCTTCTATAACTTTAAATTCACCTTTTTCTATCTCTAAATAAACTGAGTAATAAGGTAATACTGTATATCCAAATCCTTCTTTAACAAGATTTTTTATTGTTTCAATACTTCCTTGTACTGAAATTTTATCATCTAAACTTACTTTATATTTTTTTTCAAAATTAGCAATATTTTTTCTCGTTAATGGGCTATCATTTCTCATAATTAATTTTTTTTCTGCAAGTTCAGTAGGATCATCTATCTCTTCATTATAAATAATTACAAAAGGATAATTTGCTATTTCTATAACTTCTAATTCCTTATCTTTTACATAATATGTTCCCATCAAAGCAACATCTACTTTTCCTTCTTTTAAATCTTTAATAAGTGGTGTTCGATCTTTTATTATTAAATCAAATTCAATTTCAGGATAATTCATTACAAATTGTCTTAAAATTCTTGGAAGCATTTGCTCACCAATAAGATGTGTTGATCCTATTACAATTTTTGCTTTATCATATACAACAATTCTTTCTATCTCTTTTTCTGCTCTTTTAACTTTTTGAAATATTTCTTCGGCTATTTTATATAATACTTCTCCAGAATAAGTTAACTTAATTTTTTTAGAACTTCTATCAAAAAGTTTTGTATTTAAAAGCTCTTCAAATTTTTTAATTTGAATAGATACCGCTGATTGATTTATGTATAACTTATTTGCAGCTTTAGTAAAACTACCTTCATTTGCTACTTCATAAAATATTTTTAAATAATGTAAATCCATATATAATTCCCCCAAATTTGTTCTTTGTGTTTCATTATACTACTTTTTATTTAATAATTCAAGAAAAAAGAGGATTGCTCCTCTTTTTCTATTTAAAACTTTCCAAATTGGCTTTTAATTTAGATAATTTATCTTCATATTCTTTTTGTATTTTTTTCTCTCTTTCTATAATTGCAGTTGGGGCTTTTGAAACAAATTTTTCATTATTTAACTTACCATTTACCTTAGCTAACTCTTTTTCTATTTTCTCTATTTGCATAGTTATTTTTTTAATTTCTGCATCCAAATCTAATATTCCTTCTAAAGGTACATATAGTTCACTTCCATTTGCTACTCTAAATCCTGAACTTGCTGGTCTTTCCATATTTCTTCCGTATTTTAAATTAGATAATTTTGCCAGATTTTTTATAAAAATACTATTTTCTTCTAATACTTTTAATTCGTTTTCTACACTACTTTTTATTAAAACTTCTAAATCTTTTGCTGGTGATATATTCATTTCTGCTCTTATATTTCTTATTGAACTTACTAATGTTTGAATATATTCAAAATCTTTTTCAATGTTTTTATTAATTTTATTATTATTTAATACTGGATAAGCTTCTAACATAATAGTTTCTTTTCCAGTATTTAAATTTTGCCAAATTTCTTCTGTTATAAACGGCATAAATGGATGTAATAATCTAAGCCCTTTTTCTAATATATCCCAAAGAACATATTGAGCTGTTTTTTTACCTATTTCATCATTTGAATTATATAATCTTATTTTAGCTATTTCTACATACCAATCACAAAAATCTCCCCTTAAAAATTCATATACTATTTTAGCTGCTTCATCTAAAATATGTTTTTCTAATTTTTCATTAACTTCTTTAATTGTAGTATTTAATCTTGAATATATCCATTTATCGACTAACTCAAGATTTAACTCATCTTTATTTATACTATTCTTATCAAAACCTTCTAGATTCATAAGTACAAATCTTGATGCATTCCATATCTTATTAGCAAAATTTCTTCCCATTTCAATAAGTTTTTCAGAAAAAAATACATCTTGACCTTGAGAAGTATTATATATCATTGTAAACCTAATAGCATCTGCCCCATATTTTTCTATTAAATCAAGAGGATCTGGAGAATTTCCTAATGATTTCGACATTTTTCTACCTTGTTCATCTCTTACTATACCATGTAAGTACACTGTTTTAAATGGTACTTCTTTCATTTCATATAATCCCATCATTATCATTCTAGCAATCCAAAAAAATAATATATCTGCTCCTGTTACTATTGTTGCTGTTGGATAAAACATATCTAATTCAGGTGTTTTTTCCGGCCATCCCATAGTTGAAAAAGGCCAAAGTGCTGATGAAAACCATGTATCAAGTACATCTGTTTCTTGAGTAAGTTCTACTTCTTTACCAAATTTTTCTTTTGCTTTAGCTTTAGCTTCTTCCATATTTCTAGCTACAAACATCGTTCCATCTTCTGCATAATATGCTGGTATTCTATGTCCCCACCATATCTGTCTAGAAATACACCAATCTCTTATATTTTCAAGCCAATTAAAATATACTTTTTCCCATCTTTTAGGAATTATTTTTACTTCACCATTTCTTACTACTTCAAGTGCTTTTTCAGCAAGAGGTTTCATTTTTACAAACCATTGTTTTGATACTCTAGGTTCTACTACTGTATCGCATCTATAGCAATGTCCTACAGCGTGATTATGAACTTTACTTCCTACTAATAATCCTAATTCTTCAAGATCTTTTAAAATTTCTTTTCTTGCTTCAAATCTATCAAGTCCTTTATATTTTCCACCATTTTCATTTATCTTTCCAGTATCTGTCATTATATTTAAAATTTCTAAATTTTGTCTTTCTCCTACTTCAAAATCATTAGGATCATGTGCTGGTGTCATTTTTACTACACCTGTCCCAAATTCCATATCTACATAATCGTCTGCTACTATTGATATTTCTCTATTTAATAATGGTAAAACAACTGATTTCCCTATAAGATGTTTATATCTTTCATCTTCTGGATGAACAGCTACCCCTGTATCACCAAGCATAGTTTCTGGTCTTGTAGTAGCTATTACTAAATAATCTTCACTATCTTTTATAGGATATTTTATTTCCCATATTCGTCCTTCTTTATCTATATGCTCTACTTCATCATCAGCAAGTGCTGTAGTACATCTAGGACACCAATTCACCATATATTCCCCTTGATAAATAAGTCCATCTTCATATAATTTTATAAAAATCTCTTTAACTGCATCTGAAAGTCCCTCATCCATTGTAAATCTTTCTCTATCCCAATCAAGAGAAGCACCTAATTTTCTAAGTTGTTTAGTTATTATTCCACCATGCTCTTCTTTCCATTTCCATACTTCTTCTATGAATTTCTCTCTTCCTAAATCTTCTTTCGTTAAATTTTCAGTAGCTAATTTTCTTTCTACTTTATTTTGAGTAGCTATCCCTGCATGATCAGTTCCTGGCATCCATAAAGTATTATATCCACTCATTCTTTTCCATCTTACAAGTGTATCTTGAATAGAATTATTTAATACATGCCCCATATGTAAAATTCCTGTTACATTTGGTGGTGGAATAACTATACTATATCCCTCTTTTTCGTTATCTAATGTAGCCGCAAAATATTTATTTTTTTCCCATTTTTTATACCACTTATCCTCAATTTCATTTGGAGAATAAGTTTTAGCCATATCTTTCATATTAGCTCCTCCTTAAATATATTTTAAACTTTTAATTATTAAACATAAAAAAAACAGCTATATAGAATAGCTGTTAATTGACTTTTTAATAAATTTTGATAAAATCAATTCTTAGCATGAGTCATAACTATTCTATAATTATTATTTTAAAAATAATATATTATTTTTTACGACTTTGACCACTGCTAAAAATTCTATCATAGTTTATTATCTCCTTAAAACAAAAAAATTATACTAAAAGATAATATCAGAATAACATTTTTTTATTTTTTTGTCAAGTTTTCATAATAAAAGAGCTTTGTAAATACAAAGCTCTTTTAAAACTATCTTCTATTCATCATCATATGCATTATTCCGCCACCATTTTCAAGATTTGTAAATCCTAATCTTGATAAAATTGATATAGCGTATGAACTTCTACTTCCAGAAGCACAATATAATATTATTTTTCTATTTTTAGGTCCTAATTCATCTACTCTATTTAATAATTCATCTAAAGGTATATTTATAGCTCCAGGATATGCTCCACTTAAAAATTCTCCTGTTGTTCTAACATCAACAATTAAAGGTTCGTTTAAATCTACTTTTTTAGTCTCTTTTACTTTTTCTTCTTTTATTTCTTCTTTTTCTATTTCATTAATATCTTTTTTTTCTATTTCTTCTAAATTCACATCAAAATTTTTAGGAGTTATTGCCATAGCATAATTAGCTATACTCATAAATCCTCCACTTACATTAATTACATTTTTATATCCAGCTCCAATTAATGTTCTTAATGCTTGATGTCCTTTTTTACCATTATAATCATATAAAATTATTAATTTATCTTTAGGAATTTCATTTAATTTTGTAGCAAATACTTCAAGTGGTATATTTTTAGCTCCTTGAACATTTGCTTTTTCATATGCAAATAAGTCTCTTACATCTATCCATAGTGCATTTTTATTTTCTAAATATTCATCTAATTCAGCTACTGTTAAAGATGGAGAATATCCAGTTATTCTATTTTCTGCTGCATATGCTGCCATATTTATAACATCATTAGCAGTTCCAAGTGGTGGTGAGTAAGCAAAATCAACATCTGCTAATTCATAAATAGTACGACCTGTTGCTGTTGCAACTGCAAGAACATCTAGTCTTCTATCCGCTCCTTGATATCCAGCTGTCTGTCCTCCTAAAATCACTCCTGTTTCTTTATCATAAACAATAGTTACAGTTACATCTTTTGACCCTGGATAATATGAAGTATGATGTTCTTTATGAACTGTAATTGCATCTGCATTTATTCCAAATTTTCGAGCTGCTTTTAAAGATAATCCTGTAATTCCTGCAACCGCTTCAAATACCCTAACAATAGATGTCCCTATTGATCCACTATATTTATGGTTTCCACCTAATGCATTTTCTGCAGCTATTCTTCCTTGTCTATTTGCAGGTCCTGCAAGAGGTATTCTTACTTTTTTACCACTTACTCTATGTTCTAATTCTACCATATCACCTGCAGCAAATATATTTTCATCGCTTGTTTTTAAATATGAATCAACTAATAATCCACCAGCCTCTCCAATAGCAAGCCCTGTTTCTTGCGCAAGTTTTAATGTTGGTTTTACTCCTATTGACATTATTACCATATCTGCATCTATTTTATTTCCATCATTTAATACAACATTTTTTCGAGAGATTTCAGTTACACTTTTATTTGTATAAAGTTCTACACCATACGATATTAATTCTTTTTGAATAAATCCAGCTATCTCTGCTTCCATTAGTGCCATTACATGTGGTTGCATTTCTACTAATGATACTTTTAATCCTCTTTTTACTAATGCTTCAGCCATTTCAAGACCAATAAATCCTCCACCAACAACAACAGCTGATTGTGGTTCTTCATCCTCTATATATGAATGGATTTTATCCATATCATCCAATGTCCAAAGTTGAAACACATGATTTTCTTTTGCTCCTGGAATTGGAGGTGCTATAGGACGTCCTCCTTGTGCAAGTATAAGTTTTGTATACTCATACTCTCTTTTTTCTCCTGTTCTTGAATCTACAGCATAAACTATTTTATTCTTTCTGTCAATTTCAGTAGCTGTCGTATGAATATCTACTTTTATTTGATATTTATCATAAAAACTTTCTGGACTTTCTAAAATCAATTTTGATCTATTTTTTATATCTCCTCCAATATAATATGGTAATCCACAATTTGCAAATGATATATCATTTCCTGATTCTAATATTGTTATTTCAGCGTCACTTGATACTCTTCTAGCTTTTGCTCCTGCTGTTGCTCCTGCAGCAACTCCTCCGATTATTAATATTTTTTCCATAAATCTCCTCCATTATTCTATATTAATATATTACAATATTATAATATATCAGTATTTTTATTTTGTCAATAGTTTATTTTTATATAGTTATAATATCCTTTTATTCCTTGAACTCCTGTTTTATAAATGATAAAATTAATATATAATCTAATATAAAATAGGAGGAAATATGACTATCGATAAAAATATTATAAGAAAATTTATGCAAGAAGAGTATGAAGGTTATTTAGTTTATAAAAAACTAGCAAAACTCGAAAAAAATCTAGAAAATTCTAAAATTTTAGATAATATAGGAGAAGAAGAATTAAAACATTTAGAAACTTGGAAAACACTTTTAAATGAAAAACCTAAAATTAGGATTTTTAAAGTATGGTTTTATATTTTTATTGCTAGATTTTTAGGTCTTACTTTTGGTATAAAATTAATGGAAATAAATGAAGATAAAGGAAAAAATGCTTATTTAGAAATATTAAAAAATAACTTAGATAAAGATCTAGCAACTAATATTCAAAAAATGATTGATGATGAAGACAAACATGAAAAATTACTTATTAATATGATAAATGAAGAAAAGTTGGATTATATTGGTTCTATTGTTCTTGGACTTAATGATGCTCTTGTTGAACTTACTGGAACTCTGGCCGGACTTACTTTTGCATTGAAAAATACAAAATTAATCGCTATGTCTGGATTAATTACTGGAATTGCAGCTTCGTTTTCTATGGCTGCAAGTGAATATTTAGCGACAAAAGCAGAAGGCGATGATGATGCATTAAAATCTAGTATTTATACAGGAATTGCATATATTTTTACTGTTATAATTCTAGCTTTACCATATCTTGTATTAAAAAGTTATTCTTCAGCCCTTATACTTACATTAATATTTGCTTTACTTATTATTTTAGTATTTAATTTCTATATTTCTATTGCAAAAGATTATAATTTTATACATAGATTTTTAGAAATGGCACTTTTAAGTATGGGTGTTGCAGGTTTATCATTTATTATTGGAATAATCGTAAAAAATTTATTAGGAGTAGAAATATAGGAGAAATTTATGAAAAATATTAAATTAATTGTGTGTGACCTCGATGGTACTTTACTAAATAGTAATCATGAAATATCTGATTTTAACATAGAAATATTAAAAAAATTAAAAAAAAATGGACTTGAAATAATTTTAGCTAGTGGTAGAAGTTATGAGGCTATGCTACCTACTATAAATAAACTAAATCTAACTAATGAAATTATTAGTTATAATGGTGCTGCCATCTATAAAAATAATAATTTGATTTTTCAAAAAGTTTTATCTAAAAATATTTCTAAAGAACTTATTAATATAGGAAAAACAAAAAATATCTACTTCCATGCTTTTCATAATTTCAAGTGGTATATTGAGGAGTTTACAAATGAAGCCAAAGAATACAAAGAACGTTCGGGCTTACAAGAACATTATATAGATTTTTCTACTCTAGAAAATCCAAATTTTCTTAAATTAATGTATATCTCTTCAAAAGAAAATATAGATATCTTAGAAAAATTTTTAAAAGAAAAATACAAAAATACAATATATTTAGGTCGTTCTAATGATAATTTTCTTGAAGTTATGCATAAAAACGTCTCAAAAGCTAATGCATTAAAACAAATATTAAAAAATAAAAATTTTAACACTGAAAATATCATGGCTTTTGGTGATGGTTTTAATGACTATGAAATGTTGAAATATGCTAAAATAGGTGTTGTTATGGATAACGCTAATAAAAAATTAAAATCTCTTATAAAATATAAAACTATTTCTAATGATGAGAATGGTGTAGGTATATTTTTAAAAAAATTTTTTAATTTATAAATTTTTTAATTTAATAAAAAAAAGTGAGTAAATTTTATCTCACTTTTTTTATTAAATTAATCAAATTTTTATATTATTCTCTCTTTATGCCTAGCAGCATGGCAATTTATATTTATAGCTACTGGCATCGATGCTATATGACATGGATGGGATTTTATTTTTACAGCAAGTGCTGTTGTATCACCACCAAATCCCATAGGCCCTATATTCAACTTATTTATTTCTTCTAATAATTCATTTTCTATTTTAGCTAATTCTTTATCTTCATTTATATCATCTATTTTTCTAAAAAGCGCTTCTTTTGCTAAAATAGCTGATTTTTCAAAATTCCCACCTATTCCAATTCCTACTATTATCGGTGGACATGGATTCCCACCTGCATTTTTTACAAAATCTATTACAAAGTTTTTAATTCCTCCTATACCATCAGATGGCTTCATCATTTTAACAGTACTCATATTTTCACTACCACCACCTTTTGGAGCAAAAATAATTTTTAATTTATCTCCAGCTACTAATTTTGTATGAATAACTGCTGGCGTGTTTGTTTTTGTATTTTCTCTAAATATAGGACTTCTTACAATCGATTTTCTTAAATATCCTTCACTATAACCTTTTTTTACTCCTTCATTTATAGCTTCATATATATCAAAGTCAAAATATATTTCTCTTCCTATTTCTAGAAATACTACTGCTAATCCTGTGTCTTGACACATTGCCATCTTTTCTCTACTAGCTATCTCATCATTTTTTATTATTTCCTCTAATACATTTTTACCCAACTTATTTTTTTCGTTATCTTTTGATATTTTTAATTTGCTTATGACATCTAATGGTATATTATGATTTGCATCTACACAAAGTTTTGCTACTTCTTCTATTATTAATTTTTTTTCTATTTTTCTCATTTTATTCTCCAATTATCTTTGATAATTTGGTGCTTCTTTTGTTATACTTATATCATGTGGATGACTTTCTTTAAGACCTGCTCCAGTAATTTTTACGAATTTACCATTTTTTATTAAATCATCAATAGTAGGCGCTCCACAATATCCCATTCCAGCTCTTATTCCTCCACACATTTGAAATATTACATCTGATAAACTTCCTTTATATGCTACTTTTCCTTCTATTCCTTCAGGTACAAGTTTTTTTGCATTATTTTGAAAATATCTATCTTTACTTCCTCTTTGCATAGCAGCCATTGAGCCCATCCCTACATATATTTTAAATTTTCTTCCTTCGTATATTATTTCTTCTCCAGGTGCTTCATCTGTTCCTGCAAGTAATCCTCCTACCATAACACAATTTGCTCCTGCAGCTAAAGCTTTAACTATATCACCAGATAATTTTATACCACCGTCAGCTATAACTCCTATTTCCATTTCTTTTAAAACTTCATATACATCATTTACTGCAGTAAGTTGAGGAACCCCTACTCCTGCTACAACTCTAGTTGTACAAATAGAACCTGGTCCTACTCCTACTTTTACAGCTGTTACTCCTGCTTTTACTAAATCAAGAGCAGCTTCTTTTGTTACAATATTTCCACCTATAATATCTAAATCAGGAAATTTATTTCTTATTTTTTTTATAGTTTCAAGTACTCCCCTAGAATGTCCATGTGCTGAATCTACAGTTATTATATCTACTCCTGCTTTTACAAGAGCTTCTACTCTTTCTAAAGTGTCGTTCCCTACTCCTACAGCTGCACCAACTCTAAGTCTTCCTTTTTCATCTTTACATGCTAATGGAAATTCCTCTGCTTTATCTATATCTTTTATAGTTATTAATCCTTTTAACTTATTATTTTTATCCACAATTGGTAATTTTTCTATTCTATTTTCTAACAATATTTCTTTTGCTTCTTCTAAGGTAGTTCCTTCGGAAGCCGTTATTAAATTTTCTTTAGTCATTATTTTTTCTACATTTTCATCTAAATTTTTTCTATATTTAAGATCTCTATTTGTGATTATCCCAACTAAAGTTCCATCATCTTCTACTACAGGCAATCCAGATATTTTATATTTGCCCATAATAGTATCTGCATCTAAAAGAGTTGAATTTCTATGAAGTGTTATAGGATCTGTTATCATCCCACTTTCATTTCTTTTTACTTTATCTACTTCAGCCGCTTGTTCTTCTATAGTCATATTTTTATGTATAAATCCAAGTCCGCCTTCTCTTGCAATTGCAATCGCTAATCTTGCTTCTGTTACTGTATCCATTGCAGCACTTAAAATAGGTATATTCAATTCTATTTTTTTAGTAAGTTTTGTTTTTAATGATACTTCATGAGGCAACACCTCTGATTTTTGTGGCACCAATAATACATCATCAAATGTTATGGCTTCTTTTATTATTTTCCCGTTTAACATTATTCCTCCTTAAATATCATCTTTTATTATTTTAAATTTCTCTCTTTTTAATTCTCTCAAAATTGCGCAAAATTCTATTTTTTTATTCATTACAAGTGGTATTATATATTGTTTTTTTTCTACTGTAATAATATCTAAGCAAGCCTCTATTTTTTTAGTTCTAGGAATAACCATTTTTTTTAACTCTATACTATCTATACTACTAATATTAAATCTAAATGTTTTTGTAATTATCTCATCATTTTTCTTATCAATAATAAGCCTAAAAGTAAATACTTCTTGTACTATTAATATTCCTGTATAAAATATAAGCGCTCCAAGTATTGCCGAAATAGATAATTTTTTATTTACAATATCAGCCATATAATATAAACCTATTAAAATTAACGGTAATCCTGTTCCTATTTTAATAATTTTTGTTCTAAAATTAAGAGAAAATTTATATTTTTCTTTATCTAAATTTACCTCTTTTTTTTCTACATTTTTGACCAAATCTTCATAAAAAAACATAGTATCAACTCCTCTTATAATATTTTTTATATGATACTATATTTCATTATATTATGTAAAGGATTATTCCCATTCAATAGTTGCAGGTGGTTTAGAACTTATATCATAAGCAAGTCTATTTATTCCTTTTACTTCATTAATTATTCTATTTGATACTTTTTCTAAAAGTTCATATGGTAGATGCGACCATGTAGCTGTCATAAAGTCTGTTGTATTAGCACTTCTTAATACTGCGGTATATTCATATGTTCTTTCATCACCCATTACTCCAACTGATTTAACTGGTAAAAGTACTACAAATGCTTGACTTACTTTATCATATAATTTATTTTTTCTAAGTTCTTCTATAAAAATATCATCTGCTTCTCTCAAAATATCTGCTTTTTCTTTTGTTACTTCTCCAAGTATTCTTATACCAAGACCTGGTCCTGGAAATGGATGTCTATCTATCATATATTCAGGAATTCCTAATTCTTTTCCTACTTTTCTTACTTCATCTTTAAATAATTCTCTAAGTGGTTCTAATAACTCAAATTCCATTTCTTCAGGTAGCCCACCTACATTATGATGTGATTTTATTGTTGATGATGGTCCTTTTATAGATTGTGATTCTATTACATCTGGATAAATTGTTCCTTGTGCTAAAAAATCTGCATCTTTAAATTTTTGTTTTTGTTCTTCAAATATATCAATAAACTCTTTTCCAATTATCTTTCTTTTTTCTTCTGGATCAGTTATTCCTTTTAACTTTGTTAAAAACCTATCTTCTGCATTTATACATTCAATATTCATTTTAAAATTTTTACCATATGTTTCCATTACTTTTTTTGCTTCATCTTTTCTCATAAGTCCTGTATCTACAAAAAAACAATTTAAATTATCTCCAATAGCTTTATGTATCAATACTGCTGCTACTGATGAATCTACTCCTCCAGAAAGAGCTAAAATTACTTTTTTATCTCCTACTCTTTCTCTTATTTCTTTTATTGTTTTTTCTATATAATTTTCCATTGACCAGTTCTTTTCACATTTTGCTATTTCAAAAACAAAGTTTTTTAATATATTTTTACCATATACTGAATGTGTTACTTCTGGATGAAACTGAACTGTATATATTCTTTTTTCTTCATCAGCAAGTACTGCTATTGATGAATCAGTATGAGCTAATTTTTCAAATCCAGGTGCTATTTCTACTACATGATCTGCATGACTCATCCATACTTGTGATTTTTTAGGTATTTCATTAAAAAATTTACTTTTATTTTTATCAATTATTAATTCTGCTTTTCCAAATTCTTGCTTATCAGCTTTATCTACTTTACCACCAAGTAAATGCATAGTAAGCTGCATTCCATAGCAAATCCCAAGTATAGGAATATTTAACTCATAAATTTCTTTATCTAATGTAGGTGCCTCTTCTAAATATACTGATGCTGGGCCTCCTGATAATATAATTCCTTTTGGTTTCATGGATTTTATATCTTCTATTGGTGTAAAATAAGGTACTATTTCAGCATATACTCCCATTTCTCTAATTCTTCTAGCAATAAGTTGATTATATTGTGAACCAAAATCTAAAATTAGTATACTATCTTTATACATCTATTTTCTCTCCTTAAATTAAAATTGTTTATAACAAAAAACCTAAGTATATACTTATCCCATGGTGAAAGTATATACTTAGGCTAACTAAATATAAAAACTTTCACTCATAGAAGATTGATTTACGGTCAATCGTAGAAACACCAATCCTTATTATTGGCTTATATGAATGAAGTATTCATTATTCTATTTTTAAATTTATAAGATAATATCACAAAAACAAAACATTGTCAACACTTTCGATTGTTAAAAATCTTTTTATAATATTATTTAAGTTTGAAAAATTTTAGTTCATTATCTAGATCTCTATTTTTTTCTAATATATCCCTAATTATTTCTAATTTATCTTTTAGTATTAAGCTGATATTTTCTCCTAATTCATCTGTTTTAATTCCATATGATTCTATAGTTGTTGAATTATTTGCAATATTCTCCACCGCTTTTGCTATTTCTTCTACCGCAAGCATTTGTTCATTTAAATTTGTGTCTATATCTTTTATTTTTTCATCTGTTGATTTGGATAAATCAACCACTTTATTTAAATTATCTACTAAATCTATAATTCCTTTTTCAGCATATATTATTTTTTCTTTTACTACTTCATTTCCTTTTGCAACAATTTCTACTTCTTTTTGTATTGTAGTTGTTATTTCATCTATTTTTTTAGTTTCACTACTTGTTTGCTCTGCTAATTTTCTTATTTCTTCTGCTACTACGCTAAATCCTCTTCCGGCTTCTCCTGCTCTTGCCGCTTCTATTGCTGCATTTAATGCAAGTAAATTTGTTTGTTCTGATATTGCATTTATTGCTACTGTTATATTCCCTATATCTTTTGATATATTTACTAAATCTTTTACCTTTTCATTGGTATCTATTACTTTTTTAGTTACATCATTCATATCAGTTTTTACTATAGTACCAAACTCAATTCCTTGTTTTGCAACATCTAACGTTACCTTTGAATTTTCTAATATTTCTGTATTAAATTCTCTTACCGTTCTAACAGATGCAGATACTTCTTCTACACTTGCTAATGTTTCTTCTGTACTTGCTGTTTGATCCCTTACTTGATCTAGTATGTTTTCTATCATATTTTTTAATATAAATATACTGTCTTTTGTTTCACTATTTATTATAGTTGTCATATCTTCTTCTAATTCTATATTTTGAATATTAATATCTTGTGATAAATTATGAGCTTTATTTATTGTAATATTTAATTTATCTATTAAATTATTAATTCTTTCTGATATAGTATTTATCTCATCTTTTGTTTTTATATTAGTTTTAAAAGTTAAATCTCCATTTGATAGTTGATCTATATCACTTGTTAATTTTTTTATTGGCTTTGCAAATGTATTTCCTATTATACTAGAAGTTATAGCTACTATTATTAAAATAAATATATTTATTATAAATAATAAATTTCTAAAATTTATTATTGGTCCCATTATTTCTTCTGTATAAGTACCACTTACAATATACCAATCTAAATCTTTATAATATTTTGAATTTACAATTTTTTCTCTTGCTATTTTATCATTTGGATTTTTCCAATAATATATTGTATTCCCTTCTTTTTTATCTATTATATCTTTTACAAACTCTTTTCCATTTATATCTTTTGCATTTAATATGCTTTTTCCTTCTATTGCTGGATGAATTACAAGTACACCCTTACTATCCATTATATATGTATATCCTGTTTTTCCTATTTTTACTGATAATACTTTATCCCTAAAGTCTTCTTTTTTTATTAACTCTTTAAATTCATCTTTATAACTAGTTGCACTTATTAAAAAATCCCATGGTTTAAAATATACTCTATATAAAGCTTTCTTTTTCCCTTTATACTCATATTCTATATATTCATTTTTAGATTGTTCTCTTCCTTTAATGTCCTTATATAAAGATGAAACTTTTCCTATTACGCTTTTTTTAGGATGAATTAATATTTTACCTGTTTTATATGACATTACATATGGATACCCTGTTTTTCCTATTTTTTGACTTAATATAATTCGAGATAATTCTTTTTTTGCTTCAGCTTCTGTTAATTCACCATTTTGTACTTTTTTATAATATTCTTTTACAATATCTAAATTCTTCTCCGCTATTCCTCTTAAGTAGCTTTTTACTGATACATTCACACTTGTATCAACCATATTATAAGTTAATTCATTAATTCTTTCAATATCACTTATTATTTGCTTTCTTAATAGTGCTTTACCAAATTGATAAACTAAAATATTAATTATTAATAATATGAATATTGTTATACTGACAAAAATAATACTAATTTTTTTACCTATTTTCATTTTTACCACACTCCTTATAATAACTTATAATAAAAAAGGGTATATAAAATTACATACCCTAAATAATAATTAAACTATATTAACAACTCTTTTACTGCATCATCTTTATATTCAAGATTATGTATTGAGTTAATGTATCTTATAGTTTTTGTTTTTCCCCTAATTAAAAGTGTTTGAGTTCTAGCTATATTTCCATTTCTTTTTATCCCTTCTAAAAGATCTCCTTTTGTTATTCCTGTTGCTGAAAAAACTATTTCATCATCTTTTACCATATCATCAATTGTTAAAACTTTTGTTATATCTATTCCCATTTCTTCACAACGTTTTTTCTCAAAGTTACTTATTTTATCATTTTCTAATGATATCCCTTTTACTTCCCGTCTTAATTTAAGTCTAGCATTCATGTCACCACCAAGAGCTTTTAATGCTGCCGCTGATACTACTCCTTCTGGTGCTCCACCTATTCCATATAAAAAATCTATTCCTGAATCAACTATAGCTGTCAATAATGACCCCGCTACATCTCCATCAGGAAGTGCATATATACTCACACCCATTCTTTGTAAGTCTTCTATTACTTGATAATGTCTTTGTTTATATAATATTATCCCTTTAAGCTCTGATACCTTTTTATTCATTTTTTCTGCTATATTATTTATATTTTCCATAAGTGGTAAATTTAAATCTATTGCACCTTTAGCTCGTGGGCCAACTATTAATTTTTCCATATACATATCTGGTGCTTTTAAAAAACTCCCTTTATTTCCTGCTGCAAGTACTGCTATTGCATTTGCTTGCCCTTGTGCAACCATCCTTGTTCCTTCTACAGGATCTACTGCTATATCTACTTGAGATATATTTTCAATTTCTTCATATTTACCAACTTTTTCACCAATATAAAGCATTGGTGCTTCATCAATCTCACCTTCACCTATTACAATTTCACCTTCAATTTCAATTTCATTAAGCATATTTCTCATTGCATCAACTGCTGCTTGATCTGCCCCTTCTTTGTCTCCTTTTCCTATCCATTTATATGCTGCAAGGGCTGCTGCTTCTGTAATTCTAGCAAATTCTAACGCTAGTTCTCTTTTCATTATTCCTCCTACTCTATTATTCTATAAATTTTTTCATTTTCCTTTTTCATATCTAACAAATTTCTAGCTTTTTTTTCTATAATATCTAAATTTTCTATATTTTTTAATTCTAATTGTAGTTTTGAATATGTTTTTTCAAGTGTATTTATTTTTAATTCATTATTTTTAATTTTCAAATTAAGTTTATTTATATCATATAATACATTTATTATAGGAAATAGCCACCATTTTATCATAACTATTATTATTAATATAATAAGCACAATCTTTAATTTAATTCGTGTTTTTACTAACATTTGGAACCTCGTTTTTTTTAGTCATTGTTTCAACTATTTCTTTTACACGAAGCGGATTTATTTTGGAAAGCTCATCAAGTATAAGTGCTACTTTTTTTTCATCCATTTTTTCAAATATTTTAGAAACAATATCTAATTCCATATTATTAACAGCTATTGCTACTGAATTTGGTTGCATTTTAGCATATATGTTTGAAAATTTTGTTATATTTTCATCTTTAGCTGAATACTCCGCATTTAATTTTTTTAATATTTCTTCCTTTTTTATTAATTCTTCTTCTTTTTGTTGAAGCTCTTTTTCTTTTGTTAATAATTCTTTTTCTAATACTTTTACATCCTCTTCTCTTTTTGTTACTGCCAATTCTTTTAATTCAATTTCTTTTCTTTTATTTTCAAGAATTTCTTGATATTTCAACATTGTATTTTTTAATCTCTCTTCTTCTGTTAAATGAATATTATAACTATAACTAATATAATTACCTATATAAGGTAATTTTGCTATATTTGAATCTTTAGATATTACTTTACTTAAGTTTAATACTCCTATTATATCTAAAAATATTATTCCTCCTATTAATGTAAAAAGAAAAATTAAAAACATTATAATAGTTAGTATAAAGTATTTCATTCCATTATTTTTTTTCTTTATTTCTTTTTTATTTTCAGCCATTATTAGTTTCTCCTATTATATAAATTATTACTTAATTCATCTATTAATTTATCTTCTTTTTTCTGCATATTTTTTTTATATTCTTCAAGCTGTTTTTCTTTTAATTTCTCAAATATTTTTCTTTCTTTACGTATTTCAAAAAATTCTTCTCTCGCTTTTTCAAGATTTTTCTCTATAATATTAAGCTCTTTATTAAATTCTTCTATTTCATTATTTATTTTTAATATAAAATTATTATAATTTTTTAAGCTATTTATATCTATATTCCCAACTTTATAAGCTTTGAATTCTTGATGTAATTCTGCTTTTCTATTAATTAATATTTCTTTTTCTTTAAGTTTTTTATTTTTTTTCTCTTGAATTCTAAAATATATATCTTTTGCTTGATGCTCTTCTTCCAGTTTATAATCTAATGCTTTTTGAAATTTAAATTTAAACATTTTTTATCCCTTTTTAATTAAAAAGATTTATTAAAATATCTTTAGTATCTTCAAAATTACTTTCTTCATGTATACCTTGCTTTAAAAAATTATTTACTTCTTCTATTTTTGATATAGCATAATCAACTTTTGGATTACTTCCTTGTTTATAAGCTCCTATGCTTATTAAATCTTCAACTTCATTATATGTTGCTAATACTTCTCTTAATTTTTGGTTAGCTTCTAAATGCTCCTTTGAAACTATATTATTTATAACCCTAGATACACTAGCAAGTACATCTATTGCAGGATAATGATTTTTTTCAGCCATTTTTCTAGATAAAACTATATGACCATCTAAAATCCCTCTTACTGTATCTGCTATTGGGTCATTTAAATCATCACCGTCTACTAATACTGTATAAAGTCCTGTTATCGTTCCTTTATCTGAATTTCCTGTTCTTTCTAAAAGCTTTGGAAGTTCTGCAAAAACACTTGGTGTATAACCTCTAGTAGCTGGTGGTTCTCCTACCGCAAGTCCTATTTCTCTTTGTGCCATAGCAAATCTCGTAAGTGAATCCATCATAAGCATTACATTATAACCTTTATCTCTAAAATATTCTGCTATTGCCGTTGCTGTAGAAGCACCTTTAAGTCTTACTAATGCTGGCTGATCAGATGTAGCAACTACTACAACTGTATTTTTCATCCCTTTTTCTCCAAGATCCTTTTCTATAAATTCTCTTACTTCTCTTCCCCGTTCTCCAATTAATGCTATTACATTTATATCTGCTGAACTATTCCTAGATATCATCCCAAGTAATGTTGATTTCCCTACTCCAGAACCAGCAAATATACCTATTCTTTGTCCTTTTCCACAAGATATATTAGCATCTATTGCCCTTACTCCTATATTAAGAGGTTCTGTTATTCTTTTTCTAGCTAATGGATTAGGTGCTTGATTTTCAAGTGGCATATATTTTTCTATTTCTATTTTACCTTTATCATCAATTGGATTTCCAAGCCCATCTATTACTCTTCCCAGTAATTTTTTACTCACTCCTACACTAAGGCTTCTACCACTAGGAATTACTTCACATCCATGTCCTATTCCTTTCATATCCCCAAGTGGCATAAGAAGTACTTTATTATCGTTAAACCCTACTACTTCTGCATCTATTTTTTTATTTGAATTTAGTAACTTTATATAACAATGTTCTCCTAGATGTACTAGTGGCCCAGAAGATTCTATAGTAAGTCCTACTACTCTTACTACTCTCCCAACAGATTTTATAGTTTGAATACTATCAACTATTTCATTATATCTATCAAAATCTATTTTCATCTTCTCTCCTACTCTTCATGTAGTTTATCTATTATAGTTTCTAATTGTGTTTCAATACTTGCATCTACTCTTCCCATTTGTGTTTCTATTACACACCCTCCTGGAGTTAAAGTTTTATCCTCTAAAATATTAAATTCTTCTATATTATAAAATTTACTTTTCATTTCTTCTTTTAATTCTTTTGCATATTGAACTTGTTCCCAATTTACATAAACTGTAATTTTTGGTGAAACAGATATATTTTTTAAAGCTTCTAATAAATTTTGTTTTAATATTTCTTTATTATTTACTTCTATTTTTATGACTTTTTCTGCTACTTTTATTATCAAATTTATTATTTCTTCTTTAGAATTATTTAACATAATCTCTTTTTCATTCATTGCTTCTTCTAAAACTCTTTGAACGTTTGAAAAAACATTACTCGAATTTAATAAAACTTGATTTTTCCCTGCTTCATATCCTTCTTGATATCCTTGATCCCAAGCTTTAGCTTTTATATCATTACTTTCTTTTTCAGCCTCAATTCTTGCTTCTTCTATTATTCTATAAGCTTCATTTTCTGCTTCTTGTTTTAATTTTTCCATTTGTATTTCTAATTCTTTTAATTCATTTTGTTTTGAAAGTAATATTTCATCAAGTTCAAAATTATCAAATTCATCTGATTTTTCTTCTGTTTCATCATAGTATTCTTCTTCGTAATCAATCTCGTTTTCTATTTTTTGTTCATTTTTTTTAATTAAGTCTTCATTTTCTTTTGCAACTGTATTTTTTTTATGTTTAATTACTACAGGTTCTGTATTTTTTTTTACAAAATTACCCTTAATTACATTAAACAATTAGCTCATCCTCACTTCCTCTAGCTATTTGAATTTCACCTGATTCTTCAAGTTTTCTTACAACAGCAACAATTCTTTGTTGAGCTTCTTGTACATCTCTTACTCTTACAGGTCCAGTATATTCCATATCTTCACGTAAATTATCTGCAGCTCTTTTAGACATATTTTTAAATATTTTTTCTGCAACCTCTTCACTTGATCCTTTAAGAGCCATAGTAAGATCTTTATTTTCTACATTTTTAAGTACTTGCTGTACTGATTTATCATCAAGCAAGATAAGATCTTCAAATACAAACATTTTCTTTTTAACTTCTTCAGCAAGTGTTGCTTCTGCTTCTTCTAATCCTTCTATAATAGTTTTTTCTGTTGTTCTATCTACATTATTTAATATTTCAACTAATGCATCTATACCACCTGTCATAGTATAATCTTGACCCATAACTGTTGAAATTTTTCTTTCTAAAATTCTTTCTACTTCTCTTATCATCTCTGGAGAAGTTCTTTCCATTTGTGCTATTCTTCTTGCAATATCTATTTGCTTTTCTGAAGGTAAATGTGACATAATCTCTCCAGCTTTATCTGCAGGAAGATAGGATATTATAAGTGCTATAATTTGCGGATGCTCTCCAGATATAAAGTTAAGTATTTGCTCTGACTCTGTTCTTTGAATAAAATCAAAAGGTCTAACTTGAAGATTTGATGTAAGTTTTGTAATAATCTCTACAGCTTTATTTTCACCTACAGCTTTTTGAAGTAATTCTCTTGCATAATTTATACCACCTTGTGATATATATTGTTGAGCTACCATCATTTCATTAAATTCTTCATATACTTTTTCTTTTTGATCTAACTGAACTTTATTAACCTTTGCTATTTCAAATGTCAGATCTTCTATTTCATCAGGTTTTAAATATTTAAAAACTTCTGCAGCTGCATCTTGTCCTAATGCAATCATAAGTATTGCTGCTTTTTGTTTCCCTGTTAATTTTTCTGCCAATTTTCTTTCCCCCTAATCTTCCATTAACCAATTTCTTAAAAGATTGGCTACTTCTTCAGGTTTTTGGATTGCTATTTGTCTAATTTGATTTTCTTGATCTGCTCTCTCTTGCTCCTCTATGCTCATCGCTTCTTCATTTAAATTTACGTCATCAAGCTGAGGTAATAAATCAGCAATTGCTTTTTCTTCTCTTTCTTTAATTCTTTTACTTTCAAGTCTTTTAAATAATAATAATGCGCCTCCCGCTATTATTAGAGTAATAATAATAAAATAAATTCCTATCAATTGATATTTTTTCCATTTTTGTTCTTCTGCAATAGAATCATTATATCTTTTTGCTATTTCAAAATTAAATGGTAATACCGTAACATTTATTTTATCTCCTCTATTTTCATTAAACCCAACTGCTGTTTTTACCATGTTTTCAAATTGTGTTATTTCTGCTGGCGTTATATTTTCTTTATCTTTAAAATATACAGAATCTTTATTTAATGTAACTGATACTGTCATTCTTTTAATATTTCCAATAGATTTTTCATAAACTGTATTTTTTTTATCTAATTCATAATTTTTTACAACATTATTTTCTTTATAATTACTACTATTACTTTCTTCTTTCCCAACATATCCTGGTATATTACTTGTTGTTCCTGGTACTCCACTAGCTACATCATTTACTCCACCACTTACTTCTTTTAAATTATTTTGTTCACTTCTTATAAGTCCTTGTGTTAATTGTTCACCTGATACAGTTGGTGTAGTATAACTTTCTGTTTGATAACTTTCTTTATTAAAATCTAATTCCACACTTACTTTTACTCTATAGTTTCCACCACCAAGAACATTTAATACCCCATTAGCACTTCTCTCTAACTTTTTTTCTATTTCTTGTTGTAATTCTATTCTTTTTCTAGATGCTAAAGATCCTTCTTGCGAAAAATCAACCATATCTGAAAGTATATTTCCAGAAGTATCTACAACTTCTACATTTTCTTTTGGCAAATTTTCAATAGCTCCTGCTACTAGTACAATAATACTTTTTATATTTTCTTCTTTTAAAGTTTCAAATGATTCTAGTTCTATTAATACTGATGCTTTTGCTTCTGTTTTTTCATTAGCAAAAGGACTATTATTAGCTGGTGTTATATTTACTACCGCTCTTTTTACTTGACTAAGAGACTTTATAGTTTTTTCTAATTCACCTTTTTGTGCTCTCAAAAACATCATTTGTTTATCAAATTCAGTAGCACCAATTTTTGAATTATCAAAAATTTCAAATCCTACTGCTGAATCTGGTAAAACTCCTTCTTTACTTAAATCTAGTCTAATAGCATATTTTTGTTCTTTTGGTACTTCTATTACTGTACCATTACCTGTAATTCTATATGTAATACCCCTTTTGTCTAGACTAGCTTTTATTTTAGCTGCATCTTTTGATTCTAATTCTGTAAATAATGGCTCATAATTAACTTTACTACTTAATACAAAAAATAAAATTAAAAAAGTCAATAAACTTCCTAATAAAAAAAATATTGTAATTTTTTGAATCTTAGTTAAATTTTTCCAAATTGTTGTAAACTGATTTTTTATTCTTTTGAAAAACTCATTCATTTTTTATTTCCTCCAAATAATATTAAATCTGCATTTTTGCGAATTCTTGATACCCTTCAATAACTTTATTTCTTACTTCTGTTACAAATAACAATGCTATTTCAGCTTTTTGGCTTGCTATCATGACCTCATGCAGATTATCTGTTTTCCCTGTTAAAAAATCAGTTGTTAAATTATCTGATTCAATTTTTAATTCATTAGCTTCATTAATTGCATTTTTTAGATAATCACTAAATTTTTCCGTCCCTTTTTTTGTGTTTTTATTTATCTCGTTGTTATTGAAAATTCCATTTATTTTATTTGTAGACTTTACTATCATTATATACTCCTCCTATTTACCTATTTGAAGTGCTGCTGTAGCCATACTTTTAGCATTAGTAACAACAGTCGCATTTGCTTCATATGCTCTTTGTGCAGTAATCAAGTCTACCATTTCGTTTATTGTATTTACATTTGGCATAGCCACATATCCTTTTTCATTTGCATTTGGATGATTAGGATCATATACATATCTAAAAGGTGTTTTGTCCTCTATAACTTTTGCTACTTTTACTCCTTCGCTTTTAGAAATACTTGCCTCTTTGCTATCTATATTTATATTCATTGGTACTTTTAATTCTTTTTTTAATTTTTCTTCAAATACAACTAATTTTCTTCTATATGGTCCTCCCTGTTCTGTTACTGTAGTATTCGCATTTGCTATATTATCTGCTATAATATCCATTCTAAATCTTTCTGCTGTCATACCAGAAGCTGCTTTATTCATAATATTAAATACACCCATTTTTAGTCCCTCCTATTTTACTTAGATTTTATAACAGATTTTAATAATGTGAAATCTTGAGATATTCTTGTAATAGCTGTTTGATATCTAATATTATTTTTAGCTTGCTCTACTTTTTCTTTTTCTATATCTACATTATTTTTATCATTTCTCATAATAGTATTTTTTTCTACTACTTCTAATGGTTTTATTTCTTTTATATTTAATGTATTAATTTTAATATGTTTTGAGTTTGTTGTTACTCCTTCTAAAGATTTATTTTCTCCAAGTGCGGTATTTAAATATTTTTCAAATTCAATATCTTTTCTTTTATAATTTGGAGTATTTACATTTGCTATATTATTTGCTATCGCTTCAGCTCTTTTATTATAAGCGTCTAATCCTTTTTCTAATATAGTAAATCTGTTATCAAAAAGTTTCATGATTTCCCTCCTTAAAAAATTTTAACTATTTTTAAGAAATTTTATATACAATAAACATTCCTAAAATAATTGATATAATATCTAAAATAAGCATAGAAAAAGTAATCCCAGGATAAATTTCTATTATTGACGCTAAAATAAGTCCTATGATAAATAAAATAGTTTGCTCTCTATGGGTTTTTAATAAAAAATCAATAATTCTTGCAAATATTACTATCCCCAATATAGCACCTATTCCAATTACTGATAATGGTAATATATTTAAGTTATTTACAAATCCTATTACATTATGGTATTCTCCTAATAATAATAATATTAATGATCCTGATACTCCAGGCATTACCATTGTTCCTGCAGCTATTATACCACAAAAAAACAATTTAATTAAGTATACAGTACTCATATTAATTATACCACTTTCAATTCTTTGAAAACCATTAAAATATCCTAAACCTATTACAATAAGCATCCCTAGTACTAAAAATAAAAAATTAATACTCTTTATTCTTACTTTTTCTTTTTTAGAAATAAAAAAAACAGATGGTATTATGAGTCCTATAAAGAAAAAATTTGTTGCTTCATTATAATTATTATACATATATTCAATAATTTTTGAAAAAATTAATATTCCTATAATAACACCTATACCAATCTGAATTAAAAATTTAATAAATTCTATTCTTTTTTTATTATCTACCTCAAAAAATTCTCCTATTGCTTCTGTTAATTTATCATAAATTCCTAATACAAAAGCTAATGTTCCACCTGAAACACCAGGAATAATATTTGCTGCTCCTATAGCACTTCCTTTTAGTATGTTTTTAATATACTCCATCTATACTCTCCTCTTTTTCTTTTATATATTCTATTGCCATTAAATACCCAATATCTCCAAAACCAGTCAATTTACCTATTACAATATCTGAAATAACAGATATATGTCTAAATTCTTCTCTTTTGTATACATTTGTCATATGAACTTCTATAGTTGGGATTTTTACCGATAATAAGGCATCTCGAATAGCAATACTATAATGAGTAAAAGCGCCTGGATTAAATATAATATAATTTATATCTTCAAAATATGCTTGTTGAATTCTATTTACAATTTCTCCTTCAATATTCGATTGAAAGTCTAAAATTTCATAATTATATTTTTGAGCTTTGATTTTTATATTATTTATTATATCGTCTAAAGTTTTGTCTCCATAAAGGCTCTTTTCTCTTTTTCCTAAAAAATTTAAATTAACTCCATTAATAACTAATATTTTCATATTTTATCCCCTATTTTTTTATAGTTTCTATTTCTTTAATAAAAGACTTTAAATCATCAAATTTTTTATATACCGAAGCAAATCTTACATATGCTACTTCATCTATTTTTTTTAATTTTTTCATTATAAGCTCCCCTAAAAAAGAGCTTTTTATTTCTCTTTTATTTGAATTTTCTTCTATTTCTACCTCTATTTCATCCACTATTTTTTCTAATTCTTCTCTTTTTATTTCTCTTTTTATTGTTGCTCTTAAAAGTCCTCTTAAGATCTTATCTCTATTCAATATTTCTTTGCTTCCATCTCTTTTTATTACATATATAGGTAATCTTTCCACTCTTTCATATGTTGTAAAACGTTCTCCACAATTTATACATTCTCTTCTTCTTTTAATAGAAAAACCTTCTTGATAATTTCTACTATCAATTACTTTACTATCCTCAGATTTACAGTATGGACATCTCATATAATCACCTAAATTTTTTCTTCTTTATCAATTAACTCTAATATCTCTTTTGGAGTTTTTGCATTAATAAGTTTATTTCTAAATACCTCTTCTCTAATTAATCTAGATATTCTAGCTAATATTTTTAAATATACTTTACTTTCTGAAGATGGCGATGCAAAAATAAAGAATAATTTTACTTTTTCTCCATCTAGTGATTCATATTCTATTGGAGTTTTAGCACTAACAAAAGCAATCGTTAATCTAGTTGCAGCTTTAGTTTTTGCATGTGGAATTGCTACACCTTTTCCTATTCCTGTTGTTCCCAACATCTCTCTTTCATTTAAATCTTTATAACACTTTTCTTTATCAATTATATTTTCTGAAAATGATAGTATTTCTGAAAACTTGTTTAATGCTTCTTTTTTATCCTCTAAATCTAAATCTAATTTTATAAGTTTTTCCTCCATAAAATCAGTAATTTTAACTAATTCCATTTAAAATATTCCTCCTCATTAACTGCTTAAAATCTATTTTTATATGTAAATGGTAATTTATATATCTTTCTAAAATAACAATAATATCAATTATTTGTTTATCATCAAATTTTAACTTATTTATTCCTTCAATGTCAATATTAAATAATTTTTCTAAATATATAACTTGTTCCTCACTTAATTTTATAATATTATAATTATTATGCTTTGTTATTTTCCCATTTATAATATCAAATTTATTTCCTTTTTCAACACTAAATAATATCCCTTCATACTTTATTATATTAAACAAATATACAGTAAGCATTATATAAATATTATTAATATTTTCTTCTTTATTTAAATAAATCAACGCTTTTTTAGTCATAACATATATTTTTTCTATCAAATTTTCTTCTACATTAATAGAATTCAAAATAAATAATATATAATAAAGTAAATTAATTTTATCTAAATTACTGTAAATTTTATTTAGATATTTATTTATTTCAAATGATTTTATATTATATTTATTGTTATTCTTATAGATATAATAGTTTGATATAACACCTATTTCTGTTGCATTTATATCTCTATTTTTCGATTTTCTTATTCCTTTAATAAATATTTCTAATATTCCTAAATCTTTTGAAAATAATTTTACAATTCTATCTGACTCATTAATATCTATTTTTTTTATTATTATACACTCTGTATTTATTATTTTTTTCATTTTTTCCCTATTCAAATAAATTTTCATCTATATTCTTATCTATCTCTATATCAAAAAAACGAATTTTTTTTATAATAATATTTTTTTCATATATCTCAATTAATTTAGGAAATTTTATTCCTCCTATCTCTTCTACATCTCTAATTAAAATACTATATCCATTATCATACTCTACTTTAATATTTATATTCTCCTCTATATCAAAATCATTTTTAATAAAATTAATATAGTCTAATATATTATCTTCTTCTATTGGCTCTTCTATATATTGTTCGAGTAAAGGATAATAAGTTTTTTTCACATTATTATTATAAATGTATTTTTCTCCTTTATTTATTTCTGGATATATAACTTCTTTATATAATTTATCTGGAAATTCTACTATTAAATTATATTTTTTGATTTTAACATTTTTTTCAATAAAAGTCTCTTCTTCTACAAAACTCTTAAAACTCTTTATATTTATTAACTCTTTTCCATATATAAACACATTAAACACTATAAACATTATACTTATTATTTTTTTCATAATGACTCTCCTTTATTTTATGACTAAAACTTCATATACTTCAAAAATATTAAATGGAATTTTTACATAAATTGTTTTAAAAAATTCATTTTTCTTATCTTCTACTCTTGTTACACTTCCTATATAAATTCCTTTTTTATAAATATCACTTATTCCCGAAGTATAGACTTTATCTCCTACTTTAATATTATTATCACTTGTTACATCCTCGATTTCTAATATTTCTGATTTCGCTCCTTTTAATATTGCAAGTATATTTTTTTCTCCTATAATTACACTTGTATAAATATTTTCTTTTGTTATCATTTCTACAATCGAATTAGTTTTATATACCTTTTTTACTTTCCCTAATAAATTATTTTTATATAAAACAACTGAATCTTCTTTTATTCCATCATCTGAACCTTTATTTATAAAAAATTCATCATATACACTTAGTGCATCTCTAAAAGAAACCTTAGCTATTACAAAATCTTCTTTTATTTCTGACTTGATATTTAATATTTCTTTTAATCTATTATTTTCTTCTAGAACATTTTTTAAATTATTATTTTCTAAAATCAATTTATAATTTTCACTCTTTAATCTGTTATTTTCTTCTAGAATCAAATTTATATTTTTTATATTATCTACAGTATTTTTCGCACCTCTAGAAACTTTATAAAAAAATATTTTAAAAGGCAAAACTACTCCATTTATACTATTTTTTACAATATTCAAAGGCATTTGGAATAATAATATAATTATAATTAATAAAAACAAGAGTAATCTTAATCTTTTTTTTCTTTTTATATCCTTTATTTTCATAATTTGCACTCCTAATTAAGTTTCTAATATTATATAATAAATAACCTCGTTTGTAAAGTTGAGCAATAAAAAAAGGGAGCTAAGCTCCCTCAAATTTTTTTTACATCATTGGCATTCCACCTGGCATTCCACCAGACATTCCAGCTCCTAAATCATCTTTTTTTTCTTTTTTTTCTGCTACAACTACTTCTGTTGTTAGAATTAATGCTGCAACTGAAGCTGAGTTTTGAAGCGCTGATCTAGTAACTTTTGCAGGATCTATTATTCCAGCTTTTAACATATCAATATACTCTTCTTTTGCCGCATCAAATCCAATTCCTTTTTCAGAATTTTTAACTTTTTCAACAACAACTCCACCATCAAGTCCTGCATTTTCAGCAATTTGTCTAAGTGGAGCTGTAAGAGCTCTTTTTATTATTTCTACTCCTACTCCTTCTTCTCCTTCTAGTTTGAAATCTTCCATTTCTTTTAATATTTCTACTAAAGCTGTACCTCCACCTGGAACTATTCCTTCTTCTACAGCAGCTCTTGTAGCATTTAAAGCATCTTCTATTCTTAATTTTTTCTCTTTAAGTTCTGTTTCAGTAGCAGCCCCAACTTTTATTACAGCTACTCCACCAGATAATTTTGCTAATCTTTCTTGTAATTTTTCTTTATCATATTCAGAAGTTGTTTCAGAAATTTGAGTTTTTATTTGATTAACTCTAGCTTCTATTTTATTTTCTTCTCCAGCTCCACTTACAATTACTGTTTCATCTTTTGTTACTTTTACTTTTTTAGCACTTCCTAAAGTATCTAAGTCTACTTCTTCTAATTTCATACCTTTTTCTTCTGAAATTACTTCTCCACCTGTTAAAATTGCTATATCTTCTAACATAGCTTTTCTTCTATCTCCAAATGCAGGAGCTTTTACTGCTACTACATTTAATGTTCCTCTTAATTTATTTACAACAAGAGTTGTTAAAGCTTCTCCTTCTATATCTTCTGCTATTATTAATAAAGGTCTAGATGATTGAACTGTTTGCTCTAATAGAGGTAATAATTCTTTCATATTAGATATTTTTTTATCGGTTATTAAAATATATGGGTTTTCCATTTCAGCAATCATTCTTTCAGTATCACTTACCATATATGGAGACACATATCCTTTATCAAATTGCATACCTTCAACTACATCTAGCGTAGTTTCTAAAGATTTTGCTTCTTCTACAGTTATTACTCCCGTTTCTCCTACTTTTTCCATAGCTTCTGCTATAAGTTTTCCAATTGCTTCATCTCCAGCAGAAATAGATGCTACTTGAGCTATCTCTTCATTACCTTCTATTTTTTTAGATTTTTCTTTTAATAATTCAACCGCTTTTTTTATTCCTTTTTCCATTCCTCTTCTTACAAATACAGGATTTGAGCCAGCACTTATCATTTTCAATCCTTCTTTTACCATAGCTTGAGCAAGCACTGTTGCTGTTGTTGTCCCATCTCCTGCTACATCATTTGCTTTTGTTGCTACTTCTTTTACAAGTTGGGCTCCCATATTTTCAAAAGGATCTTCTAATTCTATTTCTTTTGCAATAGTTACTCCGTCATTTGTAATTAAAGGAGAACCAAATGATTTTTCTAATACAACATTTCTTCCTCTCGGTCCAAGTGTCGCTTTTACAGCATTTGCTAGAGTATCTACTCCTATTTCAAGTTTTTTTCTTGCTTCTTCATTAAATTTTAATATTTTTGACATTCTTCATTCCTCCTTTTGTCTTAATATGAATTAAAACAAATTATTCAACTATCGCTAATATATCATCAATATTTAATAATAAATATTTTTCTTCACCATCTTTTATTTCAGTTCCTGCATACTTTGAATATACTACTTTATCTTTTATTTTTAAATCTTCTAATTTTTCTCCTTTTCCTAAAGCAATAACCTCTCCAGTAGTAGGTTTTTCTTTAGAAGATGAGCTCGGTAAAATTAATCCACTTGCTGTTTTTTCTTCCAATTCAACAGGTTTTACTAATACTCTTTCACCTAATGGTTTAATTGTCATTTTTAAAACCCTCCTTTTTTTATTTTATTTTATTTTTATTAGCACTCACTTAAAAAGAGTGCTAAATACTTACATATGTATAATATTATATTTTTAATTTCTTGTCAATAATTTTTTTGAAAATTTTTATTGATTATTTTAAATTTTTATGATAAAAAAAATTATTTATTTCAATGTGGGAGGATATATATGAAATTAACTGAAAATATTTTAAATTTTTCAAAATCTCAAGATGAACCATTTTTTATATTTGATACTAATATTATTAAGGAAAATTATAATTTATTAAAAGAAAATATTAACTATTCAAAAATTTATTATGCTGTAAAAGCTAATTCGCATGAACGTATAATCAAAACTTTGATATCATTAAATTCTTGTTTTGATGTTGCCTCAATTGGTGAACTAGATTTAGTATTAAATTTAGGTAGTTCACCCGAAAATATTAGTTTTGGAAATACAATAAAAAAAGAAAAACATATTAAATATGCATATGATAAAGGAGTTCGTTTGTTTGTTGCTGATGAATTTGATGAAGTCAAAAAGATAAGTAGAGTTGCTCCAAATTCTAAATTATTTATAAGAATTGAAATGAGTGATTCTGATTCTGACTGGCCACTTACAAAAAAATTTGGCACAAATATTGAAAAAGCAAAAGATTTATTAAGATACGGAAAAAAACTTAATCTTATTCCATATGGAGTATCTTTTCATGTGGGTTCTCAATGCTATGATAAATATATGTGGAAAAAGGCTTTATTAGAAGTTTTTGATATCTTTGAAACTTTAAAATATGAGGATATTCATTTAAAATTTATAAATACTGGTGGAGGAATGCCTGTTCAACATCTTAGAGAAATACCAAAAATAAAAGATATTTGCCATATAATAAATGATACTATCTCTGAATATTTTTCAAATTATTCAGATCTTATCGTTGCCGTTGAACCAGGTCGTTCTATGGTTGGAAATAGTGCTATCTTATGCTCTAATGTTATACTCGTTTCTCAAAAAGAAAAAAATGAATGGGTTTATATTGATACTGGTATTTTTCATTCTTTAATGGAGGCGATAGAAGGTTTTCAATATGAAATAGTTTGTCCCTTTAATAAAGGTAAAGAAAAGCTTTATACTCTATCTGGGCCTACTTGTGATAGTGTAGATACTCTTTATGAGGAGATACATTTACCTAATGATATAAAAATTAATGATAAAATATTTTTTATTAATGCTGGTGCTTATACTACTGGATACGCAAGTAAATTTAATGGTATTTTACCACCAAAAATATTTTTTATTGATGAAATATAAAAAGACCTCAAAATTTGAGGTCTTTTTATTTTAAATTAGTTACCTTTTTTAGCTTCTTCAAATTTAGCCCAAACACCAGATTTAACTAAAATACTTTTTACAGTTCTTGTAGGTTGTGCTCCATTTTTTAAGAATTTAATTATTTCTTCTTCATTTAATACAACTCCATTTTCTTCAACTAATGGATTATAAGAACCTAAATAAGCGATAGCTTTACCATCTCTTTTACTTAAAGCTTCCATCGCAGCAATTCTGTAAAAAGGTGCTTTTTTTCTTCCTAATCTAGTTAATCTTAATTTTACCATTCTGTTTATCTCTCCTTTATTCTTATTTATTTATTATATATTTATTTAAAAAGGAAATTTCATACCAGGAATTTTTGGCATGCTTCCTCCACTAAACATTTTCATCATTTTTTTCATTTGTTCGAATTGTTGAAGTAATTTATTTACTTCATGAACATTAGTACCGCTTCCTTTTGCAATTCTTTTTTTTCTACTAGCATTAATAATTTTAGGTTTACTTCTTTCTTCTTTTGTCATTGACTGAATTATAGCTTCTACTTTTTTCATTTCTTTTTCAGCTGGTGCTAAATCACCAATTTGATTTGCTCCAGGAATCATTTTCAATAAATTACTAATCGGCCCTAATTTCTTTATATTTTGCAATTGTTTTAAAAAATCTTCCAAATCAAATTCTTGTTTTTTTATTTTTTCTTCAAGTCTTTTAGCTTCATCTTCATCAATAGCTTCTTGTGCTTTTTCTACTAAAGACACTACATCTCCCATTCCTAAAATTCTTGAAGCTAATCTATCAGGATGAAAAAGTTCTATATCTTCTAATTTCTCTCCAACTCCAATAAATTTAATTGGTTTACCTGATACAGCTTTTATTGATAATGCTGCTCCACCTCTAGCATCTCCATCTAACTTTGTTACAACAACGCCATCTATGTTAAGAGTTTCATTAAATTTTGAAGCTACATTTACAGCATCTTGCCCTGTCATAGCATCTACAACTAATAAAATTTCTTGAGGTCTTGCCATTTTCTTTATTTCTTTTAATTCATCCATTAAATTTTCATCTATATGAAGTCTACCAGCAGTATCTAAAATTATATATGTTGCATGTTCTTCTTTTGATTTTGTTATTCCTTCTTCACATATTTTTACAGCATCTTGGCTTCCTTCAATAGTAAATACTCCAACTCCAATACTTTCTCCTAATACTTGAAGTTGTTTCATAGCAGCAGGTCTATATATATCTGCTCCTACTAAATATGGTTTTTCACCTTTTTTCTTTAAGAATTTTGCCAATTTTGCTGCAAAAGTTGTTTTACCAGCTCCTTGAAGTCCTGCAAGCATTATTATTGTAGGTGGTTTATTTGCTTTTGTTAAGCGTGCATTTGTCCCCCCTAATAGTTCCACTAATTCATCATGAACTATTTTTATAAATTGTTGCGCTGGATTAATTCCTTTTAACACAGTTTCTCCAACTGCTTTTTCTTTTACTTTTCCTACAAATTCTTTTACAACTTTATAATTCACATCTGCTTCTAATAAAGCAAGCCTAACTTCTTTTAATGCATCTTTTATATTACTTTCATTAAGTACTCCATTTCCACGTACTTTTTTAAATATTTCTTGAAATCTATTTCCTAAATTATCAAGCATTAAAACACCTCTTTTATTGAGCTTCTAATAATTCTATAATTTTTTTAATCTCATCTATTTTATACTTTTTATCTATTTTTCTTAATATACTTAAGATTTTTTTATCTCTATGAAAAAATCCTAGTTTTTTTTCATAATCTTCAAGTATTTTTATTCCTCTTTTTATATTATCATATACAGCTTGTCTACTTACAGCATATTCTTTAGCTATTTCTGATAAAGAATAATCTTCTTCAAAATGTTTAAGCATATATTCTTTTTGTCTATTACTTAGTAAATTTTTATAATAACTAAGTAATAGAGAAGTTTCCATAAACTCTTTTAGCTCCATTTTTAGCTCCTACATTATAATATTTTTATTATTTTTTGTCAAGTGTTTTTTCTTTACAACTAGTTTAATTTTTCTATTTCTATATACTTAGTTTTTATCCCTTTTTTAGTAAAAAGTTCTTCAAATTCAGTTCTAATATTTTCTATTCCTTTTTCATCATTATGCAAATCATCTGTATTATAAATAACTTTATAACCTTTAACAGATTTTAATAATTCTAAAGTATCTTTATAATATCCCTCATGATCTGTTTTAAAAAATATTTTTCCACCTTCTATCATTATTTTATCTATTATATCTGTAAATAACGATTCTTGAATAATTCTATTTTTTTCTCGTCCATCCCATGGGTCTGGAAAATTAATATACATTCCACTAATTTCTTTTTCGCCAATAAATTCTGGTATTTCTTGCCCCCATCTACGTATAAATAAAATATTATTTAAATTTCTTTTTTTAGCTTTTATCGCTGATAGTACAAGTCTTTTAAATTTTAATTCTATTCCTATAAAATTTTTATTTTTATGATTTTCTGCATTTTTTACAGTAAAATTACCATTTCCACTTCCTATTTCTAAATATATAGGATTTTTATTCTCAAAATAATCTTTCCATTTATTTTTTTTATTATTAATCTCATTCTTATCATACATTATATATTTGGGATAATCCTTTAATTTTTCCATATATGGATTATAGTTTTTTTTAGGATTATCAAAAAAATTTTGCCACATTATATTCCTCCAAATTGACTTATATTTTATTAAAATTCTATCTATTTGTCAAGCATTCTATCTTTACTTAATTGTTAAATTAAATACTTTATTAAGTGCTTCTGTATTTTCATTAAAAAAATCTTTTATCTTTTTTGCTACATCTTTTTTATCCTGCATTTCTATTTTTTTTATACTCTCTAAAAAATCTTTTTCTGATTCAACTTTATATCCAATATTATAATTTAAAATTTTTTCTGATATATATTTTACATTTTGCAAATATTTCCCAAATATTGGTGTTTTATTATATCCTAATGGTTCTAATAAACTATGCCCACCTATATTCACTAGTGTTCCTCCAACAAAACTAATATCACTAAGTGCATAAAATTTTCTAAGTACTCCAATTTTATCTATTATTACTATATCTACATTTTTATTTTCTTTTTTACTATATAAACTATAATTTCTATTTTTTATTAATTCTTTTATTTTTTCTACTCTTTCAAGATGTCTAGGTACAATAAATAATATTGTATTTTCTAGTTTGTCAAATATATTTAATAAAATTTCTTCCTCGCCGTCTCTAGTACTACCTGCAACAAATACTTTTTTATTTTCAATTTTATACATTTCTTTTATTTCATTTAATTCTTTTTTATCATATTGTTCTAGTTCTATACTAAATTTTAGATTTCCTGTGTTAACTACTTTTTCTTTTTTAGCGCCTAATTTAATAATTCTTTCTCGATCTATATTACTTTGCATACAAAACAAATCTATTTTATCAAATATTTTTTTTAAAATAAATTTAAATTTCAAATATATTTTATATGACTTATCTGATATTCTTCCATTTATCAAATAAATTTTTACATTATTTTTATATGCAATATTTATAAAATTTTTCCATATTTCTGTTTCTATTAAAAATACTTTCTTTATTTTCATTTGTTTAAATATTTTATTTAATACAAATGGATTATCTAATGGAAAATACTCTAATTTTATTCTAGTATCTGTATACTTTTTTTTAGCATTTTCATATCCTGTTTCAGTAATTACTGTTAAAAGTATATTTTCGTTTGTTTCATTTAATATTTTATTTATAAAAGGTTTTATTAGATTTGTTTCCCCAACAGATGCACAATGTAACCATATATACTCTTTATCTTCTTTTAAATTAAAATTAAATCTTTTTAAGAAAAAAATTCTATGTCTTTTAAATAGCATTCCTATAGCATATATTATCATTAAAAAAATATTATATATCATTTCTCCTCCACTTTATTAAGATTTAATATTAATATCGCAATAAATATAAGAGTTCCTCCTAAAAAAATTGTAAAATTATTTGCTTCATTTAAGAATATTATTCCCATTATAGATGCAATAAATATTCTTGTTGCTGAAAGTACGCTTCCTTCAACTGCTGATACATATTTATATCCTTTTGTAATGGTATATTGTCCTAAAAAAGATAGTATTCCCATTATTAATAATAATAATAATTCTTTTAGATTAGGCATTTTAAACATATAAAAAAACATTATTAGTGTAACTAAAGTTCCTATATTCATCAAATAAAAAAGTATTGTACTAGGTTTATCTGTAAGTCTTGCTGCTCTTAATGAAACTATTGCAAGTCCTGCGACAACGCCCATTAAAATTCCTAAAACATCTGCTATCTCAAAACTGTTTAATTGTATTCCTGATATAAGATATGTTCCGTAAAAAGCCAAAATTACTGCAAATATTTTTTTCAAATTAAAAGTTTCATTTTTTAAAAATATAGGTGCAAATATAGCCACAAATATAGGGTATGTCATATTATAAATATTTGCTTTTGTTGTAGTTGTAAGTTGTATTGTTACAAAAAATAATATAACTGCAAAAGTATTTAAAAAAGCTCTTGCATATACAGCTTTTTTATTAACTGGTTTTATATTTTGATTATATCTTATTTTATTTCCCCATACAATAATCATTCCTATTAAAAATCTAAAAAAAGATACTTCTACTCCTGGAATATTTCCATTTTTTGTTATTAATTTTACTGAAATCGACATTAAATAAAAAAATATAACTGAAAGTAAAATATATCCGTATCCTTTTATTTTATCAACATTCATTAATTTCTCCTAACTATACATTAATTTTATAAAATTTTTTTTAATCTTCTTTTTTATTTTCTATAAAAAAATTGAGATTCAAAAGTTTTACCTTTGAATCTCTATAATTTGTTATTCGTTTACTTTTTCAGCTAATTTTTTACCAACTTTAAATTTAACTACTTTTCTAGCTGGTATTGTCATAGCTTCTCCTGTTTGAGGATTTCTTCCTATTCTTTCTTTTGTTTGTTTTACTTCAAATGTTCCCCATCCAACAAATTGAACAGCTCCTTTATCTATTAAGGCAGTTTGTACAGCTTCTAAAAATCCTTCTACTTGTTTTGTGGCTTCTTTTTTACCTAATTCTGCATTTTCCGCGTAGATTTCAATAAGTTCTTTTTTAGTCATTTCTTTCCTCCTTAAGTCTTTGTCACAATTTCTTATTATACTTATTTTTTTGATTTTGTAAAGCTTTTTTTAATTTAGTACTTCATCAAGACTTACCATTTTAATATTTTCTTTTTCAATTTCATTAATACTTTCTTTTATAGCTTTAGCTACATTAGGATGATAATGTGCAATAAAAGCAGCTTTTTTCCTTTTTTTTGTTATTTCAATTGCTTTTTTGATCTCTTTTTTTATTGCTTCAATATTTTTATCATTATCTAAAAAATGCATACAATAATTTGTTTTAATTCCCATTTCTTTTGCCAATTTATATCCTTTTGATTTTGAAGTAGTTCTACTATCAAAATAAAATAATCCTTTTGATTTTGCTTCATCTAATATAACTTTCATTTTATCATTTGACGCAGTAAATACAGACCCCATATGATTATTAAAACCTGATACTTCCCCTACATTTTTAAGTGCTTCATTAAATTTTTCTCTTATTAATTCATTACTCATATTTTTATATACAAGTCCTTTAGTTCTATCATTAAGATTTTTTAAGGATCCTTCCATAGGCATATGTAAAATAGTTTCATAACCTAATTCTTTAAGCTTTTCATTTGATTCTTTTGATTTTGATAAAAAAGGTATTATTGCGAAAGTTAACGGTTTATCTATTTCTTTAAAATCATTTATATATCTTAAATTATTTCCTACATCGTCTATAATTATTGCCATTTTTATTCTTTCTAACATATGAGTATTAATCACTATTTTTAATTCATTTTTATTATTTTTAAATAATATTTTATTATCTTTTTTATCTATAGTAAATAATTTTGATTGTAAAAGTTCGTTGAATTTTTGTTCATTATCATCATAAAATTCTACATCTAATTCTAGTTTATCCGTTTCAATTATTTTGTTTATTTTAATTAAATTATTATTATTTAAAAATGATAAGCTTATTTTAAAGCTTTCTATTTCTTTATTTTCCATCTGTATTCTTTCTTTTTCTTTTTTCATTATATTATAATTATAAATAAAAAAAGATGTAAATAAAAAAATTATAACACTCCCTAGAATATAAAATTTCTTTTTCCCCATAATTCCACCTCATTATATTTTCATATATGATAATATTTTTTCTACTACTTCATCAATAGTTAATTTGCTTGTATCTAATTCAATTGCATCTTCTGCTTTTTTTAATGGACTTTCTTCTCTTTCACTATCTAATTTATCTCTTTTTATTATTTCTTTTAAAGTTTCATTATAATCAGCTTTTATTCCTTTTGATTCATAATCTTTAACTCTTCTATTTGCTCTTTCTTCTGGAGAAGCAACTAAAAATATCTTTAATTCTGCATCAGGAAAAACAACCGTTCCTATATCTCTTCCATCTATTACTATTTTTTTACCTTCAGATATTTTTCTTTGTATATCTACTAGTTTTTCTCTAATAATTTTTACTGCAGCATATTTTGATACATTTGAAGTAACTTCTTTTGTACGAATATCAAAGCTAACATCTTTGTTATCTAAAAAGAATTTATCTTCTTTTATATCAAAATTTGTTTCTTCTAATATTTTTTTTATTTTTTCAATTTCTTCCACTTGAATATTATTTTCTAAACACTTATACGTAATCATTCTGTACATTGCACCTGTATCAAGATAAACAAAACCATCTAATTTTTTAGCAACTAATTTTGATACTGTACTTTTTCCACTTCCTGCTGGTCCATCTATTGCTAATACATATCTCTTCAAAACTTTTACACCCTTTCCTTATTAAACACTCTTTACTGTAAATGCTATCCAATCTTTCGATTCATTTTTATCAATTACTTTAAGATTTTGATTTTTAATAGCATTTAATATATCTTGTTCTTTATCTTTAATTATACCTGATAAAATTATTATTCCATTTTCTTTTAATACTTTTGAAATAGAATCTAACAAAAGTATTAAAACATCTGGTAAAATATTAGCTACTACTACATCAAATTTTTTTTCTTCTACTTTTCCTAGTAAATCACCATGTATAACTTTAATTGTTTCATCTATTTTTATATTATTTAACTCTAAATTTTCTTTTGCAGCTTCTACTGCATCTTCATCTATATCTATTCCCCATACCTCTTTCGAACCTAACATTTTAGCGACAATCATAAGTATTCCAGAGCCTGTTCCTACATCTATTACATTTACATTTTCATCTATATATTTTTCCATAAGTTGTACACATAAATATGTTGTAGGATGACTTCCCGTTCCAAAAGCCCTTCCTGGATCAAGTTCTATTATTTTTTCATTTTCAGAAGCATTATATTTTCTCCAAGTAGGTTTTACTACAAAATGTTCACTAATCTTTTCTGGGTACAAATATTTTTTCCAATTTTCAAGATAATCCTCATCATCTAATTCATAAAATTCTAAATTATATATCAAGTCTTCTCTTTTAGAAAATTTTTCATTAAAAGATTCTATAATTAATTTTTTCTTCTTTTCGAAATAAAAGTTTTTTGGAAAATAAACAGAAATAGCATAAGTATCTAGTAAAAATTGTTTTTCATTTGAATAATAATCCAATGGATTTTTCTCAAATGGTTCATCTATTTTTACTCCTTGTATTCCAAATTCATATAAAAAATTTATAATTTCTTCTTTTGCTTTTTCATAATTCTCTGCTTCATACGTTACTTTTAATTCCACTAGTTTCATTTTATCACCTAATCTAATATTTTTTTTAATTCATCTGAATACATATCAAGTTTTATAGGTGTTATTGAAATAAACCCTTGTTTTACTGCTACAAAATCTATTTCTAAATCTTCTCCTTTTTCAGAAGCTTTGCCACCTAACCAATAATATTTGTTCCCTTGAGTATCTATTCTTTCTATAATATTATCTAAATATCTTCTATCTCCTTGTTTTGTATATACATATCCCTTTATATCTTCGTTTACTATATTTGGTACATTTATATTTAATAAAGTATCTTTTGGAAATTTAATGTTTTTTATTTTATCACAATATTTTACTATAAAATTTGCAGCTGTTTCAAAGTGATTATTATCTAATATATCACATAAAGATAAAGCTATTGATTTTACTCCTAATAAACTTCCTTCTGCTGCTGCTCCAAAAGTTCCTGAATAAAATATATCTGTTCCTAAATTTGTTCCTTTATTTATTCCAGATATTACAAGATCAATACTTTTATCTTTAAATAATTTTAATAAACCGATTTTTACACAATCTGCAGGTTTACCATTTATTCCATATCCAAAAAATTTTCCATCTCTTTCAATTTCTTTTATTCTTAATGGCGAATGTAATGTTATTCCATGTCCTGCTCCACTTTGTTCATCTAATGGTGCTGTTACATATATTTTATGTCCTGCTTTTTCCAAAAAATTCTTTAAAATTTTTATTCCTTCAGCATATATTCCATCATCATTTGAAATAAGTATATTCAATTGCTTTCTTCCTTTCTAATCCAAATCTCTAAAAAATTTTCTATGTATATTAAAAGTGTATTAAATAGTATTATAAATCCAAAACTTATATAAATAAGTTTAATTTCTTCTTTTATTTCAAATATATTTATATAAACAAATAAAACTATCCATATTAAAGGAATAAATATCCCACTAATTAAATAATTAAATCCTTTTATTATTTCTCCTTTTAAAAGTTTATTTACTCCAGGAAAAATAGTTGAAAAAATATTAAGTGCTATTTTAAAAAAATTAGGGGTTTCTTGATTATTTTCATCGTTTTCAAATTCTAAATCCTTTTCACTTAAATTCATTAGCTTAAGACTGCAAGATTTACAATAAAATACTTTATCTGGATCTTGAGAGATAACATCTATCTCTTTTCCACATCTAATACACTTTTTCATATACCCTCCATTTTATATAAAATCTAATTCTTCTAAAGACACATCTATTCTATTGAATTCTTTTACATTTTTATTATCATCTAAAATTAATTCTACACCATTTAATCTTATGTTATCATTTCCAATTTCAAATTTTGAAGGCAAACTATTTAAAATTTAGGTAAAACACTTTCTATTGTCATTCCTATAATACTATCATGTGATCCTGTCATCCCTATATCTGTAATATAAGCTGTCCCTTCGCTTAATATTCTATTATCAGCAGTTTGTATATGCGTATGTGTTCCATAAATAGCTTTTACTTTCCCATCTAAAAACCATCCTAAAGCTACTTTTTCTGATGTTGCTTCAGCATGAAAATCTACTATTATTATATCTGTTTCTTTTTTTATTTCATTTAATATATTTTCTATTACTTCAAAAGGTGAATCTACAAGTGGCATAAAAACTCTTCCTTGTAAATTCACTACTGCTATTTTTTCACCATTTTTAGATTCTTTTATAATATAACCACTTCCTGGAACACTTTTTGGATAATTTAAAGGTCTAAGAAGTGCATTGTTTTCATCTAAATATTTGTATATTTCTTTTTTATCCCATATATGATTTCCACTAGTTATAACATCTATTCCATATTCAAAAAACTCATCTGCTATCTTAGTTGTAATTCCAAATCCTGCAGCAGAATTTTCGCCATTAACAATTATAAAATCATATTCTTCTTTTTTTCTTTCTAAAAATTCATATAATATTTTTCTTCCTGGTTTTCCTATTATATCTCCTATAATTAATATTTTCATATAATACCTTTCTAATGTTTACTTATAGAATTATAAATGGCGACCAAGTAAGTCGCCATTATTATTTATTTTGCGTATTCTACAGCTCTAGTTTCTCTAACAACTGTAACTTTAATTTGTCCTGGATATTGCATTCGTTCTTCTATTTTTTTAGCTACTTCTCTTGACATTATTGTTGCTTTATCATCATTAATTTCTTCTGCATTTACAATTATTCTTATTTCTCTTCCTGCTTGTATAGCATATGAACTTTCTACTCCTTCAAATGATGTTGCAATTTCTTCAAGATTTTCTAATCTTTTTAAATAAGTAGATAATGTTTCTCTTCTTGCCCCTGGTCTAGAAGCCGATATAGCATCTGCTGCTTGTACTAAAACTGATTCTACACAAGTAAATTCTTCTTCACCATGATGCGCCGCAGCTCCATTATAAACATTTTCTTTTTCACCAAATTTTTTAAGAAATTCTGCTCCAATTATAGCATGAGACCCTTCTATATCATGATCTAAGGCTTTTCCTATATCATGTAAAAGTCCAGATCTTTTAGCTAACTCTACATTACATCCAAGTTCAGCAGCTAATGTTGAAGCTAAATTAGCTACTTCTATAGAGTGTACTAATACATTTTGACCATAACTTGTTCTATATTTTAATCTTCCTAAAGTTTTAATGATTTCTGGATGCATATCTGTAATTCCTAATTCAAATAATGCTTGTTCTCCAGCTTCGACAATAGCTTGATTAACTTCTTTAGTTGCTTTATCAACACTTTCTTCTATTTTAGCAGGATGAATTCTTCCATCTTGAACTAATTTTTCTAAGGCTAATTTTGCTATTTCTCTTCTTACACCATCAAAACTCGAAACAACTACTGCTTCAGGTGTATCATCTATAATTACATCTACTCCTGTAAGTGCTTCTATTGCTCTTATATTTCTTCCTTCTCTACCTATTATTCTACCTTTCATTTCTTCATTAGGTAATTGAACAACCGATATAGTTGCATCTACTACATATTCTGATGCAGCTTTTGATATTGCAGTTGAAAGTATTCTTTTTGATATTCTTTCTTTATTATCTTCTAGTTTATTTTCGTATTCTCTTATAACAACAGCAGTTTCATGAGTTAATTCTTCTTTTATTTTATCTAAAAGAATTTCTTTTGCTTCTTGTTTTGATAATTCAGCTACTCTTTCTAATTCTAGTTCTTGTTTTTCTTTCAATTTTTCTATTTCTTCAATTTTAACATTTAATTCTCTTGATTTTTCTTCTAAATGTTTTTCTTTTGTTTCAATTTTTTCTAATTTATTATCTACATTTTCTTCTTTTCTTATAATTCTTTGTTCTTTTTTATCTATTTCAATTTTTGCAGCTTTTATTTCTTTCTCTGCTTCTTCTTTCATTTTATAAATTTTTTCTTTTGTTTTTATTTCTGTTTCTCTTTTTATATCTTGAGCTTTCTTTTTTGCTGTTTCCACTATATCTTCTGCTTCAATTTTAGCATTTTCTAATTCTTTTATTTTTCCTTTTAATTGCTCTAGTCTACTATCTATATTTTTCTTTTTATAGTAAAGTGCTAAAAATATTCCGGCAACCAATATTGTAGCGGAAGCTAGTAATACTATATTCATAACTTCTCCCTCTTTCTGTATTAGTTTATAATGTATTCTTGATCAACTTCTATAACTGTATATTCTTCTATTATTTCAAATGTTGCTAATTTTTGATCAAGTCTACTTATTCTTACCCTTGCGACAGGTAATGTTCTAGTTGCCAGTTTTTCTCCTGTTCTATTATCAAATACACTTGGTAATACACTGCTTAGTATATAAGTATCACCTAATGTAGCATTGGGAATTATTCTTCTATCTATAGTTACTTGAGTATTCCATCTTGTGATAATTCTAACTCTTTTGTAATTATCTTTTTGGTCATAATATATAGATTTTAATATTTTTCTTACTTCTGGAAGGTGTGAAATAGTTCTTGACATTTCATATACTTTATCATATTTTTTTTGGTCATAATAAAGTTTTAATAAACTTAATTTTATTTCTTCAGAATCATTATATTCTAAAGCTTTATTAAAATTATATTCTGCTAAAACAAAATTTTTATTATCTGCATAAACTTTTCCTATTTTATAATAATATATATAATTTTCTGGATATGTTTCTATTGCTTTTTTCATAAGTACCATAGCTTCATTTGTACTATTATTCTTTAATAAACTTATAGCTTCATAATAGTAATTATCTGCTTTTTGTTTGTCTTTTTCTATCCTTTTTACATATTCAATTGACGGATATTTATTTAAAATAATATTATATTCTTTATTTAAATATAAGTATTCTAAAAATATATTTTCAAGTGCTTCTTTATTTTCTAAAGTATCATATATTTGTAAAAGTGCTGTTGTTTCGTTATTTAACATTAAATAATTAAACAATTTCACTCTAACATCATCATCTGTTGTAATTAATTCCTTAAATAATTTACTTACTTTTTCACTATTATTTAACTCATAATTTATTTTAAAATAAAGAAGTTTAGCATCTTCATAGTCAGGAACTTCATTTAATACAAGTTCTAGACTATACATAGCTTTTTTATAATCTTTTTGATTGTAATATTCTTTAGCATTTTTATATTCTTCGTATATATTCGCTGAAAAAATATTTATTACTAAAGTAAAATATATAATTATTAAACTAATTTTTTTTGGATTTTTCATAATATCCACCTATTTAAATTTTAATTTTGTTTAAAAGCTTTCTAAAGCCTCGTTTTCATTATTATAAATATCAAATAATTCATCTAATCCAACCATTTCAAAAATTGTAGAAATATGTGTATTTAAATTCACTAATTTTAAATCTCCATCTTTTTCCCTAATTTCTTTTAATCGTCCTCTTAATATTCCCATCGCTAAACTATTGATATGTACTAATTCTTTAAAATCAATTATAATTTTTTTCACACCATTTTCTGTTAATTTTATTAACTTATCTTTTAATTGAGGTGCAACTAACGCATCTAGCTCTCCTTTTACTCTAAGTATAACAGTATCACCTATTTTTTCTTCTAGTATTTCAAAGTTAGTTACCATATACTTCCCTCCTTATAATTTTTTTAAAGCTTCTATTCTAGTTCCTCTTTTTTTTACTATAATTTCTAAACTATCAACAAGTCCTCGAACTATATTTAGACCCATTCCACCTTCTTCTTTACTATGTCCTTCACCTTTAAAACCACTTCCAAAATCTTCAACAATGATAAATATTTTTCCATCTTTAATTTTTAATTTTAATTCTAATTCTCTTTTATCATCTTTTGAAAAATATGCGTGTTCTACTACATTTGTACATAATTCATCAATTATTGATATTAGTTGAAATATATTTTTTTCATCTATTTTATTGTTTATTAAAAAATTTTTTACGGCATTTCTTATTTTACTTAAAAGCTCATATTTTGCTTCTACTTTTAAAAAAAAATTTGTATTCATTTATGTTTACCCTCTTTCACTAAAAGAGATAAATACCCATTTTTCATTAACAAGTTTACTATTTATTTCAAAATAAAAACTATCATCAAAATAACTTATTATTAATGGAACTTTTGTTATATCTCTTCCAAATTTTATTTTTCCAAAGTAAATTTTTGCTTTAGTAATATTATATTTTTTCATATTCTTAATAATTAATTCGTTTTCTAAAGTATCTAAAGTACTTTCTTTTAGTAAATTATACTTCGAATCTTTTAATTCTTGTTTTATATTACTAAGAAGCTCTCGTAAATCTTGTTCTTTTTTTAATTTGTATTTTAACTTTTGCCGTAAATAATCTTGTTTTTTACCTTCTTTAATATACTTCAACATTTCTTTTGCGTTTTTAAGATCCCAATTTTCATAGTAATAATAGAACTTTTTTTCATAAACTGGCATTTCTTGTTTTTTCTCTAAATTACTACAACTTATTATAAATAAAGTTATAATAAAAATAAATATTTTTTTCAAAACTACCCCCTAAGGTATCAATTTATTTTATCATACTCTGATTAAATACGCAAGTTGAATTAAACGTTAAAAATCTCTAATATATTTTCTATAATCTCCTCTTCAGCTTGCTTATCTAAGTCAAACCAAATAATATCTTTTTCTTTATTAAACCAAGTAAATTGCCTTTTTGCATAACGTCTTGTTTCTCTTTTTATTATTTCTTTTGCTTCATTTAATGTGATTTTCCCTTCAAAATATAAAAATAGCTCTTTATAACCTATAGCTTTTATATTCTCAATTCCTTTTTTATAATTTTCATATAGAAATTTTGCTTCATTTAAAAGACCTTCATTAAACATAATATCGACTCTTTTATTAATTCTATTATATAAAATCTCCCTATCTCTTTTTAATCCAATCTTAATAAAAGTATAATTGTTATTTTTTATATTTTTATTTCTTAATTTCGAATATTTTTCATTTGTAATTAGACAAACTTCTAAGGCCCTCTCTACTCTTATTCTATTTTTTAAATCAATAGCCTTATATGCCTCAATATCTATTTTTTTTAATTTCTCACATAATTCTTCTAAAGTATATTTTAGTAATTCTTTTCTTATCTCTAAATTACTTTCTGGTAAACTAGATAATCCTTCTGTTATACTTCTAATATAAAGCCCTGTTCCACCAGCTAATATAACATTCTTTCCATTAAGATTACTTAGTACTTCATTGACTCTATTATAATATTCGCCTACACTATATTTATGTGTTGGCTCTATTTCATCTATTAAATAATGTTTCACTCCTTCCATCTCGTTTTTTGTTATTTTAGCTGTTCCTATATCCATATATTTATATACTTGCATAGAATCACTAGAAATTATATCTGCATCTATTTTTTTTGCTAATTTTATTGAAAGTGATGTTTTACCAACTCCTGTTGGGCCTGCTATAACAATTCCTTTATTCATATTTCACCTACCTAATACTTATTTTATTTATTATAATTTAAAATTCCCTTAGATATAATGAAATACTTTTATACCTAAGGGAAATTATTATTCTACATACTCAAATTCAAATCCTTCTATTCTAATTACATCTCCATCTTCAATCCCATGTTTTTTTAATTCTTTTTCTAGACCTAAATTTTTTAACATTCTAATAAAACTAACTATTCCAGCATCTCCATTGAATACATAAGTATTCAATATATTATCTATAATCTTTCCTGTTACTTCAAATGTACCATTTTCATCTATTGTTACTTCCCAATCTTTTTTATCTTTTTCTATTTCTGCTATTACATTTTCTACTTCTACTTCTTCTTCTAAAGGTTCTCTTTCTATTTTTTCTAACATAACTAATGTTTCATCAAGAACTTCTTTTAACCCATCATTTAACAATACAGATACTGGAAATAATTTTAGTCCTTTTTTTTCTATATATTTTTTAAATTTTTCATATTTTTCATCATCATATATCATATCCATTTTGTTTGCTAACACAATTTGAGATTTTTTAGATAATTTTTCACTAAATTTTTGAAGTTCATTATTTATTTTTTCAAAATCATCTATTGGATCTCTCCCTTCTAATCCAGCTGCATCAACTATATGATATATCATCTTACATCTTTCTATATGTTTTAAAAATTTATCTCCTAATCCTACCCCTTCATGTGCCCCTTCGATAAGTCCTGGAATATCAGCAATAACAAATGATTTATCGTGATGTTTCACTACTCCTAATTTAGGTGCTAAAGTAGTAAAATGATAATTTGCTACTTTAGATTTTGCCGCTGAAACTTTATTAATCAAACTTGATTTCCCTACACTAGGATATCCTACAAGAGCTACATCAGCTAATAATTTAAGTTCTAATTTTATTTTTAATTCTTTTCCTTCTCTTCCTTTTCCTGCTAAAGTAGGTGCTTTTCTTATAGAAGATTTAAAATGAATATTTCCAAGTCCTCCTTTTCCACCTTTTAAAAGAACTCTTTTTTCTCCTTCTTTATTTAAATCTAATAATAATTTTCCAGTTTCTATATCTCTAACCATAGTTCCAACAGGTACTTTAATTACTAAATCCTCTCCTGTTTTCCCATACATTTTCTTTTTAGCACCATTTTTACCATCTTCTGCCTTAAATAATTTTTGGTATTTAAAATCTATTAATGTATTTATATTATTATCTGCTATAAAAATAATGCTTCCACCATCTCCACCATCTCCACCATCTGGACCACCAAATTGGACATGTTTTTCTCTTCTAAATGTAGCCGCTCCATCTCCACCTTTACCCGCTTTTACTGTTATTATAGCCTCATCTATAAACATATTTCCTCCTTAATTTACTACTCTTTTTAAACATTTCAGATAAAATCAATATAAAAATAAAATTTATTTCCTTATATTATATATAATTTCATTTATATTTTAAACAATTTTATTATTTCTATTCACTCTATCTTTAATAAAAATTTGTTTTAATAAAAAAATCCCGGGCTTGCCGGGATAATTAATTATTCTGCAGGATATACAGATACTTGCTTTCTATCTCTTCCTAATCTTTCAAATTTTACAAATCCATCAACTAAAGCAAACAGAGTAAAATCTTTACCTTGTCCCATGTTTGTCCCTGCGTAAAATTTGTTTCCTCTTTGTCTAACAATTATATTTCCAGCTTTTACAAATTGCCCATCATATCTTTTTACTCCAAGATATTTAGGATTTGAATCTCTTCCATTTTTTGTAGAACCCGCTCCTTTTTTAGACGCGAATAATTGTAAATTTATCATTAACATTAGTTTGCCTCCTTTTCAACAACTTTTAAAAACTTTGGATACTGCTTTTCTATTTCTTTCAACATTATACACATAGACTCTAAAATAGCGTCTATTTCTTTTCTATGTTGTATTACTTTTTTTTGTATTTTTATAGAAGATATATCAAGTTTTAAATAACCTGTATCTTCATCTATTTTTATAGCTGCTGGAATTTTAAGATATTCTGTTATTCCAATAGCTGATTGTTGGCTTATAGCTGAAATAGCTGAACATACAATATCTTCTCCGCTATTTGCGTACCCACTATGCCCTTCACCATAAAACCCAATAATTTTATAATTTTTTCTTACAATTGTAAACTTTGTCATTATGCTTCTATTGATTTTATTTCTAATTGAGTAAATAACTGTCTATGTCCCATTTTTCTAGCAGAAGCTTTTTTAGGTTTATATTTAAAGTTAATTACTTTTTTCCCTTTTCCTTGAGCTACTACAGTCGCTACAACTTTTGCTCCTTCTACGAAAGGTTTACCAACTTTAATTTCACCTTCATTTGCTACTAATAACACTTCATTTAATTCAACTTCTTGATTTAATTCAGCATTTATTTTTTCTACTCTTATTTTATCTCCTGCCGCTACTTTGTACTGTTTTCCTCCAGTTTTTATTACTGCGTACATGTTTTCACCTCCAAAATATTTTCGCTAACTTAAGGCTGCTGAAAGCCCTTGTTATGCGTTAACCGTCTTATTTTATACTTTTTTCTTTGTTTTGTCAAGTAATTTTACTTTAATTATTAGATATTTTATAAATAGGCTATTATTATTGAAATAATTGCAAAAATAATAAGATATATTTCTTCATAAGAATTTTTTTTATATTTTGTTTTTATTTCTTTTATTATTTCTTTTATAAAAAAAGAAATAATAATATATACTAAAATTAATGTGGTTAGTTTAAAAAAAGTATTATTTTCTACTAATAAAAAAGGCAACATCAAAAAAGGTAATGTCAAAAAATCTATTTTATATTTTATAAAAATTGCTAATATTAAAAACAATAAAAAATAAATCGAAAAATTAATTTCAGTATTATTAGACAACAATTTATAAAATATCGGTGTTCCTATAAATAAAATAATTTCTTTTTTATTTAAAAACAATTTCTTTTTATCTAAAAAAAATTCTATTCCTATTAAATATAAAAAAAAATACGAATTATTTATTAATATTTCATGCATATATTCTCTCATGTCTCGTTCTCCTTTTTAAAAAACAAGAAATTTTCTATAATTTGTCTAATTATTAAAAAAAATATTATTCCTATTCCAGCATTTTCTACATATTTCATCCCAAAAAACATTTCTAGATTTTTTCTAAAAAAACTTAAAAATATAATTATCAATATATTTTTTAGTACATTTTTTTCTGAAAATTTAAAACTATATAATAAAGAAATCAAAGAAAATATTAATATGTTTTTATCTAAAGAAAAAATATATATTGTTTTTAATATTTCAACTAATATACAAATAAAAATACTTAATATTAACTTGACTTTATATTCATCTTTAAAAATTTTAATAAGAAGTAAATTGAAAATATATAATATTAAAAAACCTAAAACAGCGTCTAGACTTGTTTCTAAATTTACACTTCCCATTACTATTAACATAACAGCATATTCTGAAAATATTTGCATTCAAATCACCTATTCAATATATTTAGTTGCTCCTGCATTTTCTATATCTTTTTTTAAATCTTTTTTATACATATAAGTATATTTTTCAAAATCCTTTAAAATTTTTAACATTATCTTATCAATTGTTTTATTTTCTTTATTTTTCAAGACTCTTAAAAAAAGCTTATTTTTATCTACTAATTTATACTCATTAAGTATTTCTTTTTTATTTTCATTTTGAATTATTACATTATATATTTTTTTATATAATGATATCCCAACTAATAATTCATTCTCTTTGTATTTAACCTTTGTTATATAACCTATCTTATCGCCAAAAATATCTTTTACACTATAATAGATAACTTCACCTTCAATTTTATCATTTCTATCTATATAAACCGTTGTTTCAAAAATTTTATTTAAATCACTTGAATTAACTTTTGAAAAAATAGGTATTGATATCATTAAAAATAAAAGTAAAATTTTTAATATTTTTTTATAATTAATTTTTTCTCCAAAACTTATTGGCGTACTATTTTCTTCAAAAAAAGGAACTAATAAATTTGAAATTAAAATTGCTATAAATATAGAGTCTGTATTTTGAGTATAATAGAATAAATAAAAATTTAAAATTGCTATAAATACAGCATAATAAATCTTTCCTATTTTTGTATATGGTGAATAAATTGTGTCTGCTGCTAAATACACTAATGAAAATAATAATGGTCCAGACATAATTATCAAATCACTATCATATCCTTTTAATGCAAATAAAACATACGTTACTATTATTGTTATTAATGGTATCCTTATTTTTATATTATTTTTTATTTTTAAATAAAAAATTGCTAATATTAAAAGTATTACTCCAAATTCTTTATCATTAAAAATACCTAAAAATAAATTTTTTTTAATTCTAAAATTATCTATATTATATTTAAAAAGCATTAAATTAATTTTATTAACATTTAATAAAAAAATAGAAAAAAATAATTTTACTAAAATTACAGGATTTAATAAATTTCCTATTAAATAATCAAAAAAAGATAACATAATTCCACTTAACAAATAGTATTTTATACTTAAATTTTGTGGTAAAATCAGCATTAATATTGTTGTTTGATTCAATATCATATTAATATCAAAAACTTCTTTTTTTAAATATTTTTTTATAAATAAACTAAACATAAAATATATTGTAAATACTAAAATATATGAATATACAAATTGTTCTTTAAAATAAAATATTTTTATAATAATAAACGGTATTAAAGTAATAAATCTATCATTTAACATATTTTTATAACTATATTTTGTTCGAATAAAGGGCGCTATAGATATTTTTAATTTATTCATCTATTTCCTCCAATTTCTTTTTTAAATAATATATTGTTTCTCTAAGTGGCTGATTAGTTGGACAAATATATTGACAACTTCCACAACTAATACATTTATCAAAATTATATTTTTTTATACTTTCTACATCTTTCACAGATAAATCTAAAAATTTCAATGGAACTAAATTCATTGGACAAACTTCTACACATCTTCCACAATTTATACATTTATATGATTTTATTTTTTCTGTTTCTTTTTCATCTAATGCTATTATAGCTTTAGTTTCTCTAAGTACAGGTAATTCAATATTATAAATTGCTTCTCCGTCCATTAAACTATTTATTACAATTTGTTTGCATTTATTATTGTAATAAAAACAGTATTCTAATATATCTTTTATTTTCATTCCTATCGGAACTAATAAAATAGACGGCTTTTCTATGCCCTTTCCATTTACTGATACTATTTTTTCAATAACAGGTTTATTCTCTACAACTGCATTATATATATCTAATACACATAAAATATTTAACATCAGTATTTTATGTTTCGTTAAATCACGCGAATATTTTTTTTTAAATAAATATTTTATTAATAGATTTTCTTTGTGTAATGGATAGAGCTTAGGAACTCTTTTTATAATTACACTTTTGTCAAAATGTATCTTAAAAAAATTTGACAGCTCTTTATTATTTTCTATAATAATTATAATATTTTCTAATTTAAAAAGCTTGATTATAAAATTAATTATAATTTTTAATTCTTTAATTTTTTCATAAATAACTATATTATTTCCATTTAAATAAGGTTCTGTTTCCAATCCATTAATTATGAAATGTTTTATTTTGTCGTCTTTTAATTTCATAAATTTTTTATATACCGGTGTATTTTTTTTATTAAAATCTATAATACCATAATCTTTTAAAATTTTTAAAAATTCTTTTTTCGTTAAATTTTCATAATTTTTTCTTTTTTTAAAATTATTTTTTTTATTTTTAATATCAACTTTTATTTTTATATATTTTATTTTTTTATCTTTTTTATAATTCTTTTCTATTATTTCAATAAAGGTTCCTGCTACACTTGAAAATATAGGAAAATTATTAATATCCTTTGCTACAACTTCTCCCATGTGGATATAATCATTCTTTTGTTTATAAATAGTATATTTTTCTTTAAAATCAAGAGGAATAAGAACCTCTTCTACATCAAAAAAATGTTCTATTTCAATTTCATCTTTTTCTTTTTTCCAGTAATGAAGTTCTAAAAAATTTTTCATATATACTCACCTTTATATTAATATTCAAATAAATTATACCACAATGTTTTGTTTTAAATAAATATATTTTTTGTTATAATATTTTTAAATACTATTTAATTTTTATAGAAAGGAATATTTATGAAATATAATTTATTAGGTAATTCTGATTTAAATGTATCAAAAATAGGTTTTGGATGCTGGGCTACTTCAAAACATGGTTGGAAAGATGTAAATTTAAATGATGCGATAAAAACATTAGAAACATCATTTGAATATGGAATAAATTTCTTTGATACTGCTCCTATTTATGGTTTTGGGAAATCTGAAGAAATATTAGGTCAAGTATTTAACAGTGTTCGAAATAAAATTATAATTGCAACAAAATTTGGTTTACGTTGGAATGAATTTGGAAAAGTTATACATGATTTATCTAGAGATAGTATAATGTATGAAATAGAAGCTAGTTTAAAAAGACTTAGAACTAATTATATTGATCTCTATCAAATTCATTGGCCTGATAATAAAACTGATATACTTGAAGTAATAAATACCTTAGAAGAATTAAAATCTCAAAAAATTATAAAACATATAGGTGTTTCAAATCTTAATATAGATGACTTAAAAAAAATTTCATCTTTTATAGTTTCAACACAAAACAAATACAATCTATTAGAAAAAAATGTCGAAAGTAACATTCTGCCATTTTGTAATAAAAAAAATATTGGATTTATAGCTTATAGTCCTTTGGCTCAAGGACTATTGTCTGGAAAAATAGACTCTAGTTATAAATTTTCAAAAAATGATATTCGTAGATTCAATCCATTATTTAAAGATAAAGAGTTGTTTAATAAAATTGATAAAATCAATAAACCTCTTATAAATAGTGCTCTAAAATTTCTTTTAGAAAAAAAAGACGTTTCTTCTATTTTAATTAGTATGACAAAATTAAATCATTTAAAAGAAAATATAAAAATAGCAGAAAGTATATAACTCTCTGCTACTAATTTATCATATTCTATAGCTTAAAATTTCAAATTTATAAATTAAAAAAATACAAAATAATAGAAAGCATATGCTTTCTATTACTTTTAGTGTATAAAGGGAATTATCATTTCTGATAATTAAGGGTTAATCAAGTTTTCCTTGATTTGTGGAAAGGGATATTCCATAATTAATATATCATACCATTCTTTTAAAGTCAATATTTTTATTTGTTTTTCTATTTAAAGTCATTTTATATAATGACTTTAAATAGAAAATAATTAACCGGCTAGGGGTTACTAGCCGGTTAATTAAAGGGATTTAAATTGCTTTAAGCAATTTTAGGGGTTAATCTAGGGTTATTCGATAGGAAAGGGATATCTTCCTATATTGTCATTATATAATATATAATAAAATTTTTCAACCTTTTTTTAATAATTTTAATAAAAAAAATAATTGTATTTATAATAAAATATCTGTTATAATCTATATATATTTATAAATTAGGAGATTTTATTATGAAATTAACAAATTTTAAAATTGTATTAATATATTTTATATTTAGTTTTTTATGGGTGATTTATTCTGATAAATTTATTTTGGTTTTAACTAAAGATCCTATTATTCTTACACACATACAAACATATAAAGGAAGCTTCTTTATCTTTCTTAGCACTTTTTTAATATACTTATTAATTTATTTTGAAACAAAACAAAAAGAAAAACTAAATATAGAAAATCTAAAAAATAAAAATTTAATGAATAATATTATTAATAATACTTCATCTTTTATTTTTATAAAAAATTTAAATGGGGAATATATTTTAACAAATAAAAAATATCAAAATATTTTAGAAAACCCTAAAAATTTTTTTAACAATGAAGTTTTAAGTCAGATTTATACAACAGATGAAGAAATTAAAGTTAAAAAGAAAAAAATTTCCGTAGAAATCCCTATTAATAATAAAATTTTTTTGATAAACAAATTTCCTATTTTTGATAAATTTGGTAATATTGAATATATTGGTGGAATCGGAACCGATATTACAACAATTAAAAAAAATCAACTAAATAATGAAATAAAATCTCTTGTCTTTGAAAATTCTAGTAAAGGAATTGTTATTTTTAACAAAAATGGTGATATTTTAGAGACAAATAATTCTTTTAAAAATTTGTTCCCAGTCAAAAGTAATCTTAAATCTATTAATGATTTTAAAGAATTCTTTTATGATAAAAATGAATTCTTTTATTTAATAAATGCAAAAAATAACATTTTAAGAGAGTTTTGGATGAAAAAAAAAGATGGTACTCTTTTTTCTACTTGGATAAATTTTGTTCCAATAAATTATAATAATTTTATTATCTTTATAGAAGATATTTCTCAAGATAAAACAGACAATTTTAAAAACAAAGAAGTTTATAATATTGATAGACTTACTGGTTTGCCAAATAGATTTTTATTTCGAGATCGTCTTTCTCAAACTATTATAAATAGCAAAATAAATAATTTTAAATTTGCTTTAATTTATCTAGATATTGATAACTTTAATTCAATTAATACTTATTATAATTTTTCTATCGGTGATAAATTATTAAAAGAAATTACTAATAGAATTTCAACTATTATAGAACCAAATTATACTTTTTCTAGAATAAGTGGTGATGAATTTGGAATAATAGTCCCTAATTTTTCTTCTATAACAGAATTAAACAATTTTTTAGAAAAAATTCAAAATTCATTTAATAAAAATTTTTATATAAACAATAATGAAATAAATATTTCAATTAGTTTAGGAATATCTATTTATCCTGATAATGGACTAAATATTGATACTTTAGAAAAAAATAGTATTTTTGCATTAAGATATGTTAAAAATAATGGAAAAAATGGTGTCCATTATTTTACTGAAACACTAAATAAAAAACATATTGAACGAATAGAAATTTCAAATCATTTAAAAAATGCATTAAAGTTTAATGAACTTGAATTATATTATCAACCACAAGTTAATATATCTACTGGTCAAATAATAGGAGTTGAATCATTAATACGTTGGAAACATTCTACAAAAGGTTTTATCCCACCTGTTATTTTTATACCTATTGCTGAAGAAAATGGAATGATTCATCAAATTGGTGAATGGGTTATTAATACTTCACTAAATAGTTTAAAAGAATGGAATACTCTTTTTAATAAAAAAATAGAAATTTCTATAAATTTATCACCTCTTCAATTTAGAAAAGATAATATAGTTAATTCAATTTATAAAAAAGTTAAAAAGTTAAATTTAGATCCAAAATATATTACATTTGAAATTACAGAAGGCATTCTTATTGAAGATATCGATAAAGCTAATCAAATAATAAATAAATTTAAAAACTACGGCTTTAATATTGCTCTTGATGATTTTGGTACTGGCTATTCATCTTTAAATTATTTAAGACTTTTTAAAATAGATAAATTAAAAATTGATCGAATATTTATTGCTGACTACCCAGAAAAAGATGAAGGAAAACTTCTTGAACTAATTATTAATTTAGGAAAATATTTAAATTTTGAAATAATTGCTGAAGGTGTTGAAACTCCTGAACAATACAACTTTATTAAAAATAAAAAAGTTGATACTATTCAAGGATATTATTTTTATAAGCCTATGCAAAAATATAAAATAGAAGAACTTTTAAAAAAATAATATCTAAAAATATTTCATTCTAAACTATCGGTATTTTATCGATAGTTTTTTTATTTATTTTTAAAATAAAAAAAGAATTTTTGTTTTTTAACGTATAATATAATATAAAAACTACTTTTTATTTTTCTTTCAGAAAAACAATTGATTAGCTTTTTATTTTTCTTTCAGAAAAACAATTGATTGGCTTTTTATTTTTCTTTCAGAAAAACAATTGAGGTGATTAAAATGTTGTTATTATCAATTTTATTAAATAGTTTATCTGGGCTTGGAGTATTTTTATATGGAATGCGAATTATGTCAAAGAGTATTCAGGAAGCATCAAATAAAAAACTTAAAAATTTTATAGCAAAATCTACAAATAATCCTTTTTCAGCTTTATTTTTGGGTATTACTATAACCCTTATTACACAATCTTCTTCTATTACTACTGTAATGGTAGTTGGATTTGTTGATGCTACTTTAATGACTCTCAAACAAGCTATTGGTATAATTTTAGGTGCTAATATTGGTACTACTATCACTGGATGGATACTTGCTCTTAAAATAGGCAAATATGGTTTTATTCTTTTCGGTAGTTTTGCTATTATTTTTTTATTTAGTAAAAATTATAAGTTAAAAAACATTGCTAAAATATTTATGGCTTTTGGTCTAATTTTTATTGGCCTCGAATATATGAAAGAAAGTATTATTCCTATTAAAAATAGTCCAAATTTTATAAAATTATTTCAATTATTTAATACTAATAATTTTTCAGGTATTATTTTTAGTGTTTTTTTAGGTGCTTTTTTAACGGCTATTTTACAAGCTTCTGCTGCTACAATAGGAGTAACTATTGCTCTTGCATCCCAAAATCTAATTACACCATATACTGCTATTGCTTTAGTCTTAGGTGAAAATATTGGTACCACTATTACTGCATATTTAGCTTCTTTAGGAGCTTCTAAAAATGCAAAATCTACTGCTTATGCCCATATTTTAATTAAAATAATTGGAGTTACAATTATTATTCCTTTATTTTATGTTTACTCTAACTTTATAAATTATATTTCACCATTTTCTAATGGTATAAAATACATCCCTCTTGCTCATACTATTTTTAATGTCACTAATTCTCTTATTTTTATTCCCTTTATACCTAAATTTATATTACTATTAAATAAATTTATCAAGATTGATAAAAATGAACAAAAATCTAAAATTATTCATAAAAAACTTTTTGAATCACCATTTATAATCTTAGAAAAATCAAATATTCAATTAAAAAAAATGAATAAATTATTTTTAAATAGTCTCAATAATTATAATTCATTATTAAATAATAAAGACTTAAAATCATTAAATATTATATTAAAAAACGAAAAGAAACTTGATTCTTTTGAAGAAAAACAAAATCTTTTATTAACTTCTTTTGTTAACTATAATCCTTATAATAATAGTATTATTGATATCCAATATTATTTAAAGTTATCTAATATTTTAGAATCTATGGGGGATTACATTGCAAGTCTTGGAAAAATAACTAAAAAAGCTTATGATAATAAAATATATTTTTCAGAATCACAAATACATAAAATAAATTCTATTCATAAAAAAATTGAAAAAGTTGCATTTAAAATATCTATCTTATTTGAAAATAATAAAAATAAAGAATTAATTATTGAATGTAAATATATTATTAATAAAAATAATAAAATTTTAAATGATAATATTAAAATTTCTAAAAAAAATTCTATTGATTTTATTTACTCTGAAATTTTGGCTAAATATCGTAGAATAAATAGACATCTTTTATACATTGCAGAGATTTTAGAAAATTATACAACATAAAAACCTTCTAAATATATTTAGAAGGTTTTTATTAATACTATATCATATTTATTTAATTTTAATTCTGTTTTATTATCTATAATATTTAATTTTTCTTTATTTTTTAGATTATTTCTAAATATTATTTCACTATTTTTATTTACATCTAATATTATTTTTTTTTCTTTTGAACTTTTATTTATAACTAATTTTAAATCTTTCTTTTCTAAGATTATAATATCTTTATCATTACTATTTATTATTTTTGAAATTGTATCTAAAGAATTTTTTAATTCTTTTTTCAATTTTATAATTTCTTTATAATAATTAAATATTTTGTCATTTGAAATTACCTTGTAATATATTTTTTTATTTACTTCATCTATTATAACTTTTTCATTTAATTTTGCTTTTATCTTTTCATATTTAAACAAATCATCACTTTCATCTAAATATATATATTCTTCTTCCCAAAGCATAGCTTTTCTATTTCTTGGAATATCTCCACCCCACATTCCTTTTTCATCCCCATAATAAATATCCAAATTTTTCCCTAGCCACATTTGTAAAAAAATTATTTGTTTTAACTCATTAATTTTATCTTCTAAAATTAAATCTGGTCTTATTTCTAAAAAATTATCGCCTTTTATAGATTTATTATTATTATCATAAATATTATTATTAATAAGTGCTGAATATACTCTCTCTGTATATTCATCACTTATAATATCTATTTTATTATCCAAAAATTCATTAAAAATAATATTTGATAAATATTCCATTTTACTAATTTTATTTTTATAAAACTTCAAACTATTTATGACAAAATTATAATTTGTATTCTCATCACTTAATATTATTTTATAATTTAAATTTTCTTTTAAATAAGCTATTATTTCTTTATCACCAGAAATTCTAATCCCTAAAAGTTTACTATTTTCCCATTTTTTTAATGCTGTTAATAAATATTTTTTTACTTCTTCATTTTGTACATTTAAAATAGGTTTCCCAAGAGTATTTTTAAATTTCATATTTTTTATATTTGATATTATTCGTTCTTTTTTTATTTCTCCAGTTAAATCTTTATCTATTTTTTTAAATCCTTTTTTTATCTCATATATATAAAACCAATCAAAATATTTTGAATCTTTACCATTTTCTACTACATCTAAAAATGCAAAAAAATATTCTGATACATAATTTAAATTTACATCTATTATAATATTAATATTATTCTCGTAAAAATCATTTATTAATTTTATAAAATCTTTATCAGAGTTTGTATAAATATTTTTTTCAAAATCTATATTTTTAAAATCATTAATATCAAAATAATTTGGTGAAATGTATCTATAATCTATCACGTCACTTTTATCTGCTGAAAAAGAAATAAATGGTGAGGATAGTTCTACCGTATCTATATTTAAACCTTTAAAATAATTTCTTTTTTTATTAACTCCTATTAAATCACCACCATAAATAATATTATCTATTTCTCTTATATTATCTATATTTTCTTCAAAATCTGTAACATTAAATTTTTCATTATAAAAATTTCCTTTTGCATTATATTTAGGATCATTTCTTCTATCTCCATTATAAAAACTATCTATTTCTAATTTATATATAACATCTCCTAAAATTTTTAAATTGTTTTCTTGTATATTTTTTTCTAATTTAAATTTTTCTATATTATTATTTTCTTTTTTTATTCCAGTTTTGTCATAAAATCTTATAAGATTACCATCAATTATCTCAAAATAATATTCTATTGACTTTTCTAGATTAATATAATAATAATCATTTAATCTATCGCTACTTAAATATTTTAATTTTAATTTTTGATTATCTGTTATCAAATAAACATTTTCTATATCATTTTTTTTTGTTTTAAATATTATATAAATATTATTATTCTTATACTCTATTTTATGTGATAAATTATTTTCAAATATATATCCATCACCTTTTTTACTATTTTTAGGTACAAACTTATCAAAATTTTGTTTTTTTACACTAAAACATCCAGAAAATAGTAATAATAATAAAATTATTTTTTTCATTCCATCCTCCAATAAATAAAAAAATTAGAAGACCCTTTAGAGTCTTCTTATTTATTTCACTTTTATTAATTCAATCTCAGCAAACTCTTCTTTTCCTTCTTCTGAAACATAATTTTTCATTAAAGAGTTATCACCTAAAATATCTATTACATTACTATCTCCATTATAGTCTGTTCCACCACCAAAACTATTTAATCCCACAAATTCATCTACTTTAGTATTAAAAGTACCATTACTTGAGGTATCAAATCCCATACTAAATACTTGAATTCCTTTTAATTTATTAAAAGAAATTTTATCTTTTGACACAGATACTATAAATTTGTTTCCTTGAACATCAACATTATCTGGATAAATTAATCCTTCTGTTATATTTTCATATCCAGTAGTATCATCTTTAACATCTGTATTTTCTTTTATAAATTTTGTTTTAAAATCTACGTTTCTTAAAGGGGCTACTACTATAACTTTATCCCATTTATCTTTTATTTTTAAGTTTCTTCCATAAATAGTATTGTAATATTTATTTTCATTAAAATTTAAATATATATCAAACATTTGAGCTTCCCAACCAAAATCATTATTTGAATAATTATTAATAAAGCTTCCTACTGTAATAATAAAATTATATTCTTTTTTATTTTCTGTTATTTCTATTGAATTAATATCTAATGATTTCAAAGTATATTTTTTATCAGTTGGATATTTATAATTTCCATAACCATTATCATCATTTACTTTATCTTTGTAAAAAAATAAACTTTGACCCTGTGTATTATTTGTTTTAGTTTCTATAACACTACATGCACTAAGTGATAATATAGATAATGCTAATAATATTTTACTTACCTTCTTCATGCTTTCCTCCTAAATGTTGCATTTTAAACATAACAATTATATACTAAAGTTTTTTATCTGTCAAAAAAATTAAGCTTTTATTCTGTCTAATTTTTCTTCACTTATTAAATACTCCATTATTATAGGAGTTTTTTCTTGGATTTCAATTAAAAATTCTTTTAATTGAAATTTAAAAAATATTAATAATTGTTTCTTTTTCCCTTTTTCTACATATTCTAAAAAAGTATTAAAAATATCTTCAAATTTTAAATAAGTTTCTTCTATCCCCAACTCTCTAAAACTAATATTACTCAAGTTTAAAACAGAAGAAAAAACATTAAATATCCATTCAAGTCCATCAATATTATCTTTTAAATATTTATCTAACTCTTCTTCTATATTATTTGCTAAATCTATATTATATAAATTCTTAATAAATTTTTTTAAAAAAACTTCCATTTCATTTACTGTTTCTATAAGTAAAATTTTAGTTTTTTTACTATTTATTTCTATTGTCAATATTTTAGTTATATCTACTTCTGCATTTTCCCTCACATTCATTCCATCTACTATAATTTCATTTATAATTCTGTTTTGTTCACTTAATATTTTACTTATTTGACTTAAAATACTCTTAAAGTTATCTATCTTTACTAAATTAATTTTTTGATTATCTAAAATTATATCCATAATTTACTCCCTATAAACCTGCTATTTGTCCATTTAACCAACTACTAAGTGATTTACTATTTTGTAAAGCACCCTCCATTGAACCAAACTGTGCTTTATATACATCTTCTTTTCTAGTTATTCTTTCATTTGTTTCATCTATCCAATCGTTAATTGTATCTATTCTTTCATCATAATATTTTAATCTGTTTTTTAACGTTCCTCCATATCTTGTATATGGTGCTAAAAATGCTTCCATTCTTCTAGAAATCCCTTCATCTGTTCCTATTTTTTTTGTAGTTGATACTTTTTTAGATTCAACATATATTTTTTCTCCTTTTTTAGGAGGTGTCCCAAATTCTATCTTACCAGTAACATCATCTATTATTACTGCATTTGGTGGTAATTTCTTACCTAATTTTGCTAACGCTTCATCTTTTGTTTTTACATCGCCATTAATAATATATTTTATTAAATCAAGTCTAGAAACTGTATATTTATATAATTCACTTTTTTTAATTATAGGATTTTTTTGGTTATCTAAAGAATAACTTTTATCTCCTACAACAACTCTTATATCTTCTATTTCTCCTGGAAGTGGTTCTGTTGGATCAAATACAGTTTTACTTCCATTTCCTATACCTAAATCTACCGGTTTTGCATCATTTGCTTTTTGAGTAAACAATTTTTTTATTTCAAGTGGCTTTTCAGCTATTGCTTGTCTTAATTTTGATTCATTAATTGTTAACTTTCCACTTTTAGCATCTGTTTCTACTCCAATTAAAGCTAATTGATTATACTTATCCTCAATACCATTTACACTGGCTGTCATTTTATTTCTTAAATTTACAAGTAAAGAAGTCGCAGTTGTATCCCCTTGCAATATACCATCTTTTTTTGTTTTTTCTTCTATTATATCTACTACTTGATTATATGAATATAATAAATTAGCTATTTCTTCTAATGCAGCATCTGTATTATAATCTACTTTTATAGTTACTTTTTCTCCATCCTTAGTTTCATTTTTTAAATTTATTTTAAGCCCCTCTAATTCTATACTATTTGAATTTCTTTCATATGTTACTCCATCCATTTTAAAGCTTGCTTTTTGTCCTTTAAAAAGTGATCTAACCTTATCCCTTCCACTTTTTGTCTGTTGCATTACTTTTAATTTTTTTAATAGTCCACTATTATCATTTTCTATTATCATATCTTCTCCAGGAATAGTAGATATGAAACTTATTTTTTTAGATCCTTCATCATAAACTGCTTTTACATTTGCTCCAGAATTATTTACTTTACTTATTATACTTTTAAGACTATCTCTTGTTGGATCTACATTAAATGTGTATCCATTTATTGTGAAATATCCATTTTTTACATCATTAAAATAATCCGAATCTTTTAAAAGTTTAAAACTTTCTGGTTTTACTCCATTTTTTATCTCTTTTCCGTTATATTGATCAAGGCCTAATTCTCTTAAAAAACCTCTATCTTTTGCTTCTATTTTTATTGCTGATGTTTCATCTTTTGATTCAAATATAATTCTTCTTCTCTTTGAATCATACATTGCTTTTACCCCAGCATTGGATTGATTTATCTTATTTAAAAATAATCCAACTGTATCTTCTGGAGTTACATTTATATCTACTCCATTTATTTTAAAACCAATATTTGAGTAATCTGTTTTATTTATAAAACTAAAAAATACATCTAAAAATTTATCATTTGGATTTTTTATCCCTGTACGGCTACTAATAATAGTAGAATTTCTACCTTCTTTAAGTGGTAATCCTTCTCTTGAACTTACTTGTGCTGGTTTTGCAAGGTGTATATCTTCTATTACATATACTCCATTTTTTACATTTGTTGCTGCCTCTGCACTTACTAAAGTTTCATCACTTACTGATGTTTCTTTATTATTAAATTTAGAACTTGTATTTAATGTTTGTGCTGCTATTTTTACAGCATTAATTTTCTTTTCTATATCTGCCCATTCTTTTTTTTGCTCTTCTAATTTACTAATTTCTTTCTTTTTTGTCTCAATAGGTTTTTTCTCTACTTCAACTAATTTTTTAACCATACTATTTGTATCCATTCCAGATGCTAATCCGGTTAATTGTATCCCCATTTTCGACTCTCCTTCCAAAAAACCTTTTTATTCATTTCTTTTATCGTCTTTTTTTTTCTTTTTCTTTAACAAAATATAAAGACTAGAAACATTATGATTTCTAGTCTTTATATTTTTTAGCAATCGTTTTAAAAACTTCTTCTAAAACTATAAAAGCTTCTACTATATCAGGATCAAAATGCTTTCCTTTTCCCTCTAATATAATCTCTTTTGCTTTTTCATGAGAAAAAGCAGGCTTATAGATTCTCTTAGATATAAGAGCATCATACACATCTGCTAATGCCATTAATCTCCCTGAAACTGGTATTTCTTCTCCTTTTAACCCTCTTGGATAACCAGTTCCATCCCATTTTTCATGATGTGTATATGCTATTTCCATAGCATAATGTAAAAAACTTTCTCCATTTAATGCTTTATCTGCTTTTAAAAGAGCATCTCTACCATATATAGTATGTTTTTTCATTTCTTCAAACTCTTCAAAAGTAAGCTTTCCTGGTTTTAATAAAATTTTATCTGGAACACCTACTTTCCCTATATCATGAAGTGGTGCCGATTTAAATATATATTTAATTACTTTTTCATCTTTTAATTCCTTATATTTAAAATTATCCCTTAAATATTCAGCTAAAACTTTTACATAATATTGAGTTCGTAAAATATGTTCTCCTGTTTCATTATCACGAGTTTCAGCAAGTGAAGCTAGAGTTCTTATTGTTAAATCTTCTGTTTGTGCTATTTTTTCTGTTCTTCTTTCTACTTCTTTTTCTAAATATTTATTTTGTTTTTCTAATTTTTCGTTTGCTATTTTTAGCATAAGATGAGTTTTTACTCTAGCTTTTACTATTTCTGGATTTACAGGTTTATTAATATAATCTACTGCTCCTAATGAAAATCCATAGGTTTCATCTTCTACATCTGTTTTAGCTGTAATAAATATTATAGGTATATTTTTACTCCTATAGTCTTGTTTTAATATTTTACATACTTCATAACCATCCATTTCTGGCATCATTACATCTAAAAGAATTAAGTCTGGTGGATTATCAGAAAAGACTTTCTCTAATACTTTTTTACCATTTAATGCAAAAGTTCTTTTATATTCATTTAATATTCCTCCTAAAACGTCTATATTTTCCGGAGTATCATCTACAATTAATATCTTTTGATTTTTTAATAGCTCATCCATAGTCTTCACCTACTAATAGTTAATATTTTTTTTAATTTTTCTAATGCTTTATCAAATTCATAATTATTTATTAAGACTTTTATTAAATTAATTTCATTTTTATCAAACTCTCCGAAATCAATTGACTCAAAATAATCAACTGCATCCATATCTTCTTCTTCTAGCATTTTTATCAATTTTTCATAATTATTTATTTTTTCTTTTGGCTTTTCATCTTCTTTTTCTTTCTCTTTTTCTAAATAATTTTCTATTTCTTTATAAGTTTTTTCATAAATTTCTAAAAATTCTTCAAAATTTTCTTTTAATTTATTAGGATTCTTTTCTTTTATTGAGCTTTCTACTTCTTTACATATATTACTTAATTTATTAGCGGATATATTAGCAGATACTCCTTTTAAAGTATGAATTAATTTAGAAAGATTTTTAAAATTATTTGTATTATATTCTCTTTTTAACTCTAATTCTGTATTAAAATTATTTTTAATAAATTTTTCTAGTATATCTTTATAAAGTTTTAAATTACCTATTCTTTTTATTCCCTCTACATAATTTAAATATTTGAAATCTATTTCTATTTCTTTTTTTATATTTTTTTCAAGGTCAATATCATCTATTTTTAATATCTTATCTTTTCCTACCCAGTTTGATATTATTTTTATCATTTTTTCAGGAACTATCGGTTTACTTATATACCCATTCATCCCTGCAGCAATACACTTTTCTTTTACTCCTGATATAGCATCAGCTGTAAGTGCTATAATTGGTATATCTACTCCTATTAATCTTAATTCTCTTGTAGCTTCTATTCCATCCATTATTGGCATCTGTAAATCCATTAGTATAATATCATATTTATTTTCTGTTACTTTCTCTATTACTTTTTTACCATTATCTACTACATCTACCATAAATCCTTTTTTTTCTAGTATTTCTTTTGCTACTACTTGATTTATTTCATTATCTTCAGCAAGAAGTACATTAACTCCATTTGCTATATAAGTAGATTTTACTATTTTATTATGTTTCTTAAATTTTTCAAAAATATTAATTATTGAATCAAATATTGTAGATTCTGTAATTGGCTTTAATAAAATATCATCTACTTCTATTTTTAATGTATTATTTTTTTGATATTCTAAACTTTCATTATAATTCATAAGACATAAAATTTTTAATTCTTTATTTTTATTTTTTATATTTTTTAATATTTTTTTTGAGATATTTTTTATCAGATCATATTCTATTATTATTAATTTATAATTACTCTCTTTTATATAGATAAAAAATTCTTCATCATTTATAGCTGTATCTATCTTAAATCTAAATCTTTTCAAATACATTGTTAATACTTTTGCTATATTAATATTTTTTTCAAATAATAAAACTCCTATTTCTTCTAAATTTATACTTGGTAAAACATAATCTGTTTTTTTTCTAAAACTTTTTAAAAATCTAATTGTAAATGTAAATTTTGTCCCCTTATTTTTTTCACTTTCAACAAATATTTTACCTCCCATAAGCTCTACAAGTCGTTTTGAGATTGTTAATCCTAGTCCTGTTCCGCCGTATTTTCTAGTAATACTAGTATCTTCTTGGGTAAATGGAGAAAATAATTCATTTAAATATTTTTCATCTATTCCTATTCCAGTATCTTCTACTTCAAATTTTAATATCAAAAATTCTCCATACTCTTTTTCTTTTTTTATTCTTATATTTACTTCTCCACTTTCAGTAAATTTAATAGCATTATTAGATAAATTTAATAATATTTGCCCAACTCTAGTAGGATCTCCCACCACATAGTCTGGTACATCTAAATGTTTTTCTATTATTATTTCTAATTTTTTATTTTGTAATTTTATACTTAATATATTTGATATGTTTTCTAATATTTTATTTATATTAAATTCTGTATTTTCTAGTGTGAGCTTAGAAGCTTCAATTTTTGAAAAATCAAGTATATCATTTATTATTCCCAATAAATTATTTGATGCTTGTTCAACCTTTTTTACGTAATCTATCTGTTTTCTAGTAAGTGTTGTATTCATTAAAAGATGAGTTATTCCTATTATTGCATTCATTGGAGTACGTATTTCGTGGCTCATATTAGCCAAAAAACTACTTTTAGCTTTATTAGCTAGTTCAGCTTTTTTCTTTGCTTCTTTTAATCTTTCTTCCATTTCTTTTCTAACAATCGCATTTGCAAAAATATCCCCAAATATTTTTAATACCGACATATCTTCTTTCGACCAAACTTTATTTTTATTTACTGTATCACAAGCAACAAATCCCATTAATTCATTCCCATATCTTATTGGTACACAAAGAAGTGATTTTATATTTGCTTGTAATAAATACTCTTTTTCAATTCCTTTTTCCATTTTGTTTATATTTGTTATATAAATATTTCTAAACTTTTCAAAATTTTCCATAAAATAAGAAAATGGAAATACACCTTTTAATATATCAATATTTGAATCTATACCTTTTTTTCTCCATTCATAATGATTATAAATATGCTGTTTTGATTTTGAAAATAAAAATAAATACGCTCTATCTACATCTATAAATTCACCTAATTTTTCAAGACCATATCTTATCTCTTTATCAATATTTTTTCTAGTATATATAACAATATGTGTAGAAATATCTGCAAAAAGTTTTTCTATTGCTATTTGATATTTTGTTTCTTTTTCTACCTCTTTTTCTGAAGTAATATCAAATATATATATAGCTATATACATATTTGATACTCTTTTCATATGTATTTTCAACCATTTTTTTTCTCCTTTAGCTGTTAAAAAATCTATTTCTTGTTTATGTTCGCCCGATAAAAATCCTATTGTAAGTTGTTCATTTATTACATTAAATATATTTTTGTCAATTATTACTTCTCTAAAAAATCTTCCAATTAAATCTTCTTTATAATAGCCTGTGATTTTTTCAAATTCATCATTTAAATAATGAATTATTTTTTCATCATCTATTAAAATTAAACCTATTGGAGTAAATTTTAATAACCTTTCATAATTTTTCAATTCATTTATTTCCTTTTGAAATAAAATCAATTTTTTATTAAAAATTAATAAATAAATTATAAATATAAATATAAAAAATGATAAAAATATTATAACTAATATATAATATTTATCTGTTTGATGTGATAAATTATTATTTTTTAATTCATAATTACTATATATTTCTTTTTTTATTTCATCTTCTAAACTAAATACAGCTTTTGACAGTACACTATCCAATAATTTATCTTTTTTTGATATATAATAAAAAATAGGATATCTTTCTTCTAATATTAATTCTATTTTAAAATTTTGATTTTTAATTTTTTCCAAATAATTAATTTTATCTATAATAAAAAAATCTATTTCTTTCTTTTTAACTAATTCTAACATTTCTTCTATGTTATTTACTAAAACTATTTTTAAATTAGGATATTTGATTTTTAATTCTTTTTCAATTTTATAATCTTTTAATATTGCAATTTTTTCATTATTTAAATTAATATTATTTACCAAATATCTATTCCCAACTAGAAATAAAGGATTATCTTTATATAATACTTTTTTAGAAAAAAAGTTTTCTTCATTCAAAATTTTATTTGAATTAATAATTATATCATATTTTTCTATATTCTCACCTTCATGAATATCTTCTATTGAATACTTTATTCCTATATTACTAAACAATTTTTCAAAATATTCTTTTATTATTTTATATTCATTGTTTTCTATATTTTTCACTAATGAACCTATTTTTATTGTTTTTACTGTTTTCAAGTTATTAATTTCGTATTCATTTAGTAAAAAATATATATTATTTTTTAAAGAATATTCTCTTAATAGTTCTTCTTTAAATTCTCTCGATTGATTTAAAATTAATTTTTCAATTAATTCTTTTAATTTTTTATCATTGCTTTCAATTGTTATATTTAAATATTTTATTAAATCATATTTAATAATTTTTATATTCTTTAAAATATTATTTTTTAAAATATTATTTATTGTTAAATTATTTCCTATATATACATAATCTTTATTTGCATTTACAAGCGACAATGCATCATATATATTTTTTACTTCTTTTATATCTATATTTTTTTTATATAATTCTTTGATTTTTTTTAATTTTTTATTATTTTTTTCTATAACAATTTTTTTATTTTTCAAAGTATTCTCATTAATTTCATTTGTATTTTCATTAACTACCATACTCATTTTAGAAGAAATAATCCCATTAGAATTATTACTATAATCAAAATCTAATTCTAATTCTATTTCATCTTTTTTAGTATAACTATTTAAATAATAAAATTTCAATGGTGTTTCTTTTTCTATTTTTTCAAAAATTTCTATAAACATCCCGTCATATTCACCAAAATTATTTTTAAATGAATACGGTGGAAAATCTTTTTTCACTAAAACATCTATTTTTTTTGATTTTTTTAATTCTTCTACTTCTTTTTTATTAAAAAAGATTTTATCTAAATCTATTTTCCATTTCTCTTTTAGAGATTTTATATCTGATATTTTCAATTCATTTAAAGATTTTTTTATCATTTCCTCTAATTTTTTATTTTTTAATAAAATTCTATATCCTAAACTTAATTTAAAATTTTCTAATTTTTTTAATTCTAATTTATTATTAAAATTATCTAAAACATTTTTTATCTCTAAATCACTTAAAATTATTCCATCTATTTTTTCATTTTTTAAATCTTTAATCATTTCTTCTGCAGTTTCATATATTTTAACTTTTTTTGAATAAATAAAATAATTTTTTAAGAAAGCATTGTTTAATATTCCTATTCTATCTTTTTTTAAATCAAAATCTAGTTTATTTAAATAATACGCATTTATCCCCAATTGATAAATAATATCCGAGAAAATATAATTTTTAGCTAGTTCTTTATCATACAGATAATAAGCTAAACCATCTATCTCTTCATTTTTTATTATTTTTTTCATATCTTGAAATCTAGTTTTAATAAAATTTATTTTTAAATTATTTCTTTCCCCTAATATATTCCAAAAATCTACAATAATACCATCTAATTCATTATTATTAATAAATGAAAATGGTTTAGTATCTACAGGAATTGCTATATTTAGCTGCGACACTTCATTTCCATTAACAATATATATATTTATCATAAATAATATTAAACTTATTAATTTTTTCATTTATTTTCACCTCATATTTACTTTACTTTAATTATAACTTATATCCTCTAATAAAATCAAAAATAAAATATATAGTAATTTTTATATAGAAATGATATACTATTGTGTAATTTAAAAAATGAAGGAGTTATATGAATGAGTAATAAAATTAAAAACATTGCAATTATTGCACACGTTGATCATGGTAAAACAACTTTAGTTGACGCTATGCTTAAACAAAGTGGTATCTTTAGAGATAACCAAAAAATTGAAGAAAGAGTTATGGATAGTAATGATTTAGAAAAAGAAAGAGGAATTACTATTTTTTCTAAAAATGCATCAATATTTTATAAAGATTATAAAATAAATATTGTTGATACACCTGGACATGCCGATTTTGGTGGTGAAGTACAAAGAATTTTAAAAATGGCAGATAATGTTCTTTTACTTGTAGATGCATTTGAAGGGGCTATGCCTCAAACAAAGTATGTATTAAAAAAAGCACTTGAACATGGTCATAGACCAATTGTAGTTATAAATAAAATTGATAGACCAAACTCTAGGCCTGATGAAGTTGTTGATATGGTTTTTGATTTATTTGTAGAATTAAATGCCAATGAATATCAACTTGATTTCCCTATAATTTATGCATCAGCTAAAAATGGTTTTGCTAAACATAACCTTGATGATCCTGATGAAAATCTTATTCCATTATTTGATACAATTTTAGAAAATGTTGATGACCCAGAAGGAGATATAAATGCACCATTTCAATTTTTAATAACAAATATTTATTATGATAACTATTTAGGAAAAATTGGAACAGGAAGAATATATAACGGTAGTGTAAAATTAGGTGAAGAAGTTGTTCTTTTAAAACGCGATGGCGAAAGATTATTATATAGAATATCTAAACTAATTGGATATGAAGGCCTTAATCAAGTTGAATTAAAGGAAGCTTTCGCTGGGGATATTATCTCTATTGCTGGACTTGAAAAAGTTGATGTAGGGGAAACTATTGCTTCAAAAGAAAACCCTATCCCTCTTCCATTAATAGAAATTGATGAACCTACTCTTGCTATGACATTTATGGTAAATGATTCTCCATTTGTTGGCCAAGATGGTAAATTCCTTACTTCTAGACAAATCCTTGCTAGACTTGAAAAAGAAGTTCAAACTAATGTCAGTATGAAATTAGAAATGACTGATTCTCCAGATGCCTTTATTGTTAAAGGAAGAGGTGAGCTTCAATTATCTATTCTTATTGAAAATATGAGAAGAGAAGGATATGAATTACAAGTCTCTAAACCACAAGTTATATTTAAAGAGTTAGAAGGACAAAAAACAGAACCAATTGAATTAGCTACTATTGATGTAGCAGATGAATATGTGGGAACAATCATAGAGAAAATGGGCCTTCGTAAAGGTGAAATGATAAATATGGTTCAAGGAAACGATGGATATACTAGACTTGAATTTAAAATTCCTGCCAGAGGTCTTATTGGATTTAGAAATGAATTTTTAACTGACACAAAAGGAACTGGTGTTTTAAATCAATCATTTTATGAGTATGAATTCTATAAAGGCGATATTCCTACAAGAACTAGAGGTGTTTTAGTGGCAACAGAACCTGGGGTAAGTGTTGCTTATGCTTTGTTTAATATACAAGAAAGAGGAACACTTTTTATTGAACCTGGAGTCGATATATACGAAGGAATGATTGTCGGAGAACACAGTAGAGAAAATGACCTTATTGTAAATGCATGTAAAGGTAAAAAACTTACAAATATGAGGGCAGCTGGTAGTGATGAGAATGTTAAACTTGCTCCACCTAGAAAATTTTCTTTAGAACAAGCTCTTGAATATATAGAAGATGATGAATTATTAGAAATTACTCCTATTAATATTAGAATGAGAAAAAAAATACTAAAAGCAGGAGAAAGAAAAAGATCAAAAAGATAATAAATAAATTTTAGAGAAAAGACAAAAGGTTTTTTCTCTTTTTTTTTGTATAATATATATATGAAAGGAGATGAAAAAGATGAAAAAGAATTTTATATTAGATACTAATGTTCTAATTCATGATCCTAATGCAATATATAATTTTGGAGATAATCGAGTTATTGTACCTATTTATGTTATTGAAGAAATTGATAAATTAAAAAGAGCTGAAGGAGAAAAAGGTAGAAATGCTAGAGTTACAGCACGGCTGTTAGATACTCTTAGAAAAAATGGTAATCTCAATACTGGTGTCAAATTAAATAATAATGGTACTTTAATAGTAGAAACAAAAGGTTCTTTAACCTCTTTACCTGAATTTTTAAGAGAAGACAAAGTAGATAATCGTATACTATCTGTTGCAAAAGAAATTTCAGATAACAAAGAACAAACAATTTTAGTTACAAAAGACATTAATATGAGAATAAAAGCAGATGCTTTAAAAATTCCTGTTGAAGATTATGAAACAGATACTATAAAAATTGATGAACTTTATAGCGGATTAAGTAAAATTGAAGTCGATGAATCATTATTCAATACAATAAATAAATCTGGTAAAATTAAATATAATGAAATTTTAGAAAATGAACCTTATCCTAATGAATTTGTTAATATTTTAAATAATAATAAATCTTTTTTAACTAAATATAACTATACAAAAAAAAGATTAGAAAAATTATCTTTTAGTTTTAATACCCCTTGGAGTATTAAAGCAAGAAATTTAGAACAAAAATGTGCTTTTGAATTACTTTTAGATAAAAATATTCAAATAGTAACTTTAGTTGGAAAAGCTGGTACTGGTAAAACACTTCTTGCTCTTGCTAGTGCTTTAGAACAAACAGTTGAACAAAAAATATATAAAAAAATCCTTGTAGCTAGACCTATTATTCCAATGGGAAAAGATATTGGATATCTTCCTGGTAGTGAACAAGAAAAATTAAAACCTTGGATGCAACCAATATTTGATAATTTTGATTACTTATCAGAAACTAAAGAAGATAAATCAGGAGAAAAAGTAGTGGAAGCTTTACAAAGTATGGGATTATTAAAAATAGAAGCTCTTACATATATAAGAGGGAGAACTATCCCAAAAGGTATTATTATTATTGATGAAGCTCAAAATCTTACTCCACATGAAATTAAGACAATTGTCACAAGAGCGGGAGAAGATACAAAACTTATATTTACTGGTGATCCTTATCAAATTGATAATCCATATTTAGATTCAAATAGCAATGGACTTACATATTTAGCTGAAAAATTTAAAAATGTTGATTTAGCTGGTCATATTACTTTAATAAAAGGAGAACGTTCAAAATTAGCTGAAATAGCTTCTAAATTATTATAAATTTCTTTTAATTCTTTTATTTTTATAGTAAAATATATGTGATAAAAATTACTATAAATTTTTAAGGAGGAATACAATGCTAACAGCTTTTATTATGGCAGGAGGTAGCGGACAAAGATTTTGGCCTCTTTCAAGAAATAACAAACCTAAGCAATTACTAAAATTAATATCTGAAAAATCTATGATTCGAGAAACAGTTGACAGGATTTTACCTATTATCCCTGCTGAAAGAATATTTATAGGGACTAATATTATTCAAGCTGATTCAGTAAAAAATGAGTTACCTTTTATTCCTGAAGAAAACATAATCATAGAGCCCCTTTTTAAAGATACTGCAGCAGCCATTGGATATGGAACTATGATTATTGATAATAAATATAAAGAATCTGAAATAATTGTTTTAGCTTCTGATCATCTTATAAAAAATGAAGAAAATTTTAGAAAAAGACTCCAATCTGCAGCTGAAGAAGCTAAAAAAGGTGGAATAATAACTTTAGGGATAAAGCCTAGTAGACCAGAAACTGGCTATGGATATATTGAAACAAATGGAGAATGCTATATAGGAGAGCCTGCTCCTGTAAAAAGATTTTGGGAAAAACCAAATCTTGAAAGAGCAGAAGAATATGTTGCTGCTGGAAATTATTTATGGAATAGTGGTATGTTTATATTTTCATCTGAAGTTATGCTTTCATCTATTGAAAAATACATGCCAAAACATTATTCTATTCTATGTAATATTAAAAATAAAATTTGTACTGGCAAATATGGTTTAGAGTTATCCGAACTCGTAAGAGAAGATTTTGAAAAATTTGAAAAAATCTCTATTGATTTTGGAGTTATGGAAAAATCTAATAATATAAAAGTTATTCCTGTTGATTTTGGGTGGAATGATATTGGTAGCTTTCCTGCTCTTGACGAAATTTTCCCCTGTGATGAAAATGGTAATGTTGTAAAAAACACTCATGCTATAAATATAAATAGTAAAAATAATATCATTATTGGAAATAATAAAAAGATTATTGCAACGTTAGGGGTTAAAGATTTGGTAATCGTTGAAACTGACGATGCATTATTGGTATGTGATAAAAATAGTGCACAACAAATAAAAAAACTTATGCCTTTTTTACCAAAAGATAACAAATAGTTTACATTGGGAATTAATTTTAAAAATTAATTCCCTTTTATATTTTTTTTATAAGATTACTATTAATATTATATATACTTATTACAAAAATAATATATTTGTTATTTTTTTAGTATTCTTGTATTATATAAAAAAACAATTATGTTGTAATTTTAAGATTGGAGGATATACTATGAAAAGAGGAATAGGAATTCCAGAGGCACAAGGTTTATATTCACCGTTATATGAAAAAGACAATTGTGGTATAGGGCTTGTAGCTAACATTAAAGGAATAAAAAGTCATGATATTGTTAAAAACGGAATACGTGTTTTAGAAAAAATTGAACATAGAGGAGCTGTTGGTGCTGATCCAACTACTGGTGATGGTGCTGGTATTCTATTACAACTACCTCATAAATTTTTTACTAAAGTAATTGATAATCTTCCTGAATTTTCTGAATATGGAGTAGGAATGATATTTTTTCCTAAAAATAAAAACTCTAGAACTATGTGTAAAGAAACAATAGAAAATATAGTTAAAAATGAAGGCTTTGAAATTATTGCTTGGAGAGAAGTTCCCGTAAATACAAAAGAAGTTGGAAAAACTGCTGAACTAACAAGACCATATATAAAACAGTTATTTATAAAAAATAATGGAAGTAAAAATTTTGAATTGAAATTATATATTTTAAGAAAACAAATAGAAAACGCCGTAAAAGAATTAGAGATAGAAGAAAAAGAATATTTTTATATCCCTTCGATGTCTAGTAAAACTATTGTATACAAAGGACTTTTACTTGCAGATCAAGTCCATTCCTTCTATTTGGATTTGCAAGATAAAGATCTAGAAAGTGCTATTGCTTTAGTTCATCAAAGATACAGTACTAACACTTTCCCTTCGTGGGATTTAGCACAACCTTTTAGATATTTAGCCCATAATGGTGAAATAAATACAATAAAAGGTAATGTTAACTGGATGTTATCTAGAGAACCTGAATTATTTAATGATGTAATAGGTGAGGATATTAAAAAATTATTTCCTATTAATGATCCAATAAAAAGTGATTCTGCTAATTTAGATAATGCTCTTGAATTATTAATAGCTTCTGGAAAGTCTTTATTAGATGCTGCTAGTATATTAGTACCTATGGCTTGGGAAAATAACCCAGATATATCTGAAGATTTAAAAGCTTATTTCGAATATTATTCTGGTCTTGTAGAACCTTGGGATGGTCCTGCTGCTTTAGCTATGACAGATGGTAGATATATATTAGGAAAACTTGATAGAAATGGCTTAAGACCCGCTAGATACATTATAACGCATGACGATACTATTATCTTAGCTTCTGAAGCTGGTACATTAGAAATTGAACCAAAAAATATTAAATCAAGTAATAGATTACAACCTGGCAAAGTTTTGCTTATAGATACTGAAAATGGAAAAATATTTGATGAGAATGAAATAGAAAACCTTCTTACAAAATCTAAACCATTTAAAAAATGGCTTGAAAGAAAAAAATCAATAGATGAACTACCTATGCCAAAATTAAAAAATGATTACAATAAAAATGAAATAATTAAAAAATTTAGAGCATTTGGTTATACTAGAGAAGAATTAAAAGAAGTTATTGCAAATATGGCTAAAAATTCTAAAGAGCCAATTGGTTCTATGGGAAATGATGCTGCTCTTGCTGTACTTTCAAATAAATCAAAAAATATATTTGCTTACTTTAAACAATTATTTGCTCAAGTAACTAATCCCCCTATTGACCCAATAAGAGAAGAAATTGTAATGTCTCTTACTACTAATATAGGTATTCATGGTAATATACTTATTGATAAAGAAGAAAATTGCGATTTAATAAAATTAGATACACCTATTTTAAGCAACATTCAATTAGCTAAAATTGAAAACTTGGATTCTGCTGAAATTATTGATATATGCTTTGATAAAAATCTATCTTTAGAAGAAGGTTTAAATAATTTATTTGAAAATACTAAAAAAATAATTAAATCTGGTAAAAAAATTCTTATTTTATCTGATAAAAATATTTCCAAAGATAAAATAGCTATTCCAGTATTATTAGCTACCGCTGGATTGCATCATTATTTAATACAAAATCATCTAAGAAATGGTATAGATTTAATTATTGAAACTGGAGAAGCTAGAGAGGTAATGCATTTTGCTTTACTTATCGGATATGGTGCTCTTGCTATTAATCCATATTTAGCATTAGACAGTATTAAATATTTATGTGAAACTAAACAATATTTAACTAACTCAAACATTGATAAAAAACAAGAAAAATATATAAAAGCTATTGGCAAAGGTTTATTAAAAATAATGTCAAAAATGGGTATTTCTACAATCCAAAGTTATAGAGGGGCTCAAATTTTTGAAGCACTTGGACTAAAAAATGAATTCATTAATAAATACTTTAAAGGAACACCTTCGAGAATAGAAGGAGTTGGAATTGATGTAATAGAAAAAGAAACACGAATAAGACATGACTATGCATTTGATAATTTTTTAGATAAAGATGATTTATTAGTTAATGAAGGTGAATATAAATGGAGAAAAAAAGGTGAAAAACATCTATTCTCTCCAGAAGCTGTAGCTACATTACAGTATTCTACTAGAATCGGAAATTATGAAGAATACAAAAAATATTCTAAGATTATAAATGAGCAAAGTGAGGCATTAGCAACTATTAGAGGTTTATTTAAATTAAAAAAATCTACTCCTATTTCAATTGAAGAGGTAGAACCTGTTGAAAATATTATGAAACGATTTGTTACAGGAGCAATGTCATTTGGTTCAATCTCAAGAGAAGCTCATGAAGCTCTAGCTATTGCAATGAATACTATTGGAGGAAAATCTAACTCTGGAGAAGGAGGCGAAGATCCTGCTAGATTTTTAGATAATCGAAGAAGTGCTATAAAACAAATAGCTTCTGGTAGATTTGGTGTTACTACTCATTATCTTGTAAATGCAGATGAACTTCAAATTAAAATGGCTCAAGGAGCTAAACCTGGAGAAGGAGGGCATCTTCCTGGACATAAAGTAAGTGAAGAAATTGCAAGTGTTAGACACACTTCGCCCGGAATAGATTTAATCTCTCCTCCTCCACATCATGACATATACTCAATTGAAGATTTAGCACAATTAATATTCGACCTTAAAAATGTAAATCCTCAAGCAAGAGTAAGTGTAAAATTAGTTTCTGAAGTAGGGGTTGGTACTGTTGCTGCTGGTGTTTCAAAAGCACATGCAGATATGATACTTATTTCTGGATATGATGGTGGTACCGGTGCTGCTCCATTATCATCAATTAAACATGCTGGATTGCCTTGGGAACTTGGTCTTTCAGAAGCACATCAAGTACTTATCTTAAATAATTTAAGAGATAGAGTAAGAATACAAGCTGATGGGCAATTAAAAACAGGTAGAGATGTCGTAATTGCTGCTCTTCTTGGAGCTGAAGAATTTGGTTTTGCTACTGCTCCACTTGTAGTTCTTGGATGTGTTATGATGAGAAGTTGTCATACAAATACATGTCAAGTAGGGGTCGCTACTCAAGATCCTGTACTTAGAAAAAGATTTTTAGGAAGATCTGAATATGTAATTAATTTCTTTAGATTTATTGCTCAAGAAGTGAGAGAAATAATGGCTGAGCTTGGATTTAGAACACTTGACGAAATGATTGGTAGAACTGATTTAATTGAAATGAATGACGCTATTAATCATTGGAAAGCTAATGGTGTAGATATTAGCAAAATACTTTATAAACCACAAGTTGACTCCTCTATTGGTACTAAATGTTTAAGAAAACAAAATCATGGTATAGACAGTATTTTAGATAGAGAATTAATTAATCTTGCTAAACCAGCTCTTGAAAATGGCGAAAAAATTATAATAAACAAACCTATTATAAATATGAATAGAACAACTGGAACTATGCTTAGTGGTGAAGTTGCTAAAAAATATGGTTCTCAAGGATTACCTGATGATACAATCACTTTAAATTTTAAAGGTGTTGCTGGTCAAAGTTTTGCAGTATTTGGAATGAAGGGTATTACTTATAATCTAGAAGGTCAAGGTAATGACTATATTGGTAAAGGATTATTCGGAGCAAAAGTTATTATAAAAGCTCCTAAAGAAGCTACTTTTAAACCTGAAGATAATATAATAGGAGGAAATACTATTTTATACGGTGCTATAAAAGGTGAAGCATACTTTAATGGTAGAGTTGGGGAAAGATTTTGCGTAAGAAACTCTGGTGCTTATGCAGTAGTAGAAGGAATTGGCGATCATGGATGTGAGTATATGACTGGTGGTAGAGCTGTTATTCTTGGTACTACTGGAAGAAACTTTGGTGCTGGTATGAGTGGTGGAATTGCATATGTATATGATATTGACGGAAAATTTGAATCAAGATTAAATAAAAATATGGTAATTATGGAAAAAGTAGATGATGAAACATCTATAAATGAGCTAAAATCTATGATTGAAAAACATTATCAATATACTAATAGTAATAGAGCAAAAGAAATTTTAGAAAATTGGGATCAATCTTTACAAAAATTTGTAAAAGTATTATCTCCAGAATATAAAGCTCTTCTATTAGAAGGGAAGGTGAAATAATAATGGGTAAATTAGGAGGATTTTTAGAATTTCCTAGAGAAGAAGCACAAAAAAGACCTATTGAAGAAAGAATAAAAGATTTTAAAGAATTATATAAACCATTTACAGATGAATATTTAGTTAAACAAGCTGCTAGATGTATGGATTGTGGTATTCCTTTTTGCCACTTTTCATGTCCCGTAGGAAACATATGCCCTGAATGGAATGATTTTGCACACAAAGGTGAATGGGAAAAAGCTCTTACTATTCTTCATAGTACAAACAACTTCCCTGAATTTACTGGAAGAGTTTGTCCAGCACCATGCGAAGGTGGATGTGTTTTAGGAATTAATGATAAACCTGTTACAATAAAAAATATCGAACTAAATATTGTAGAAAAAGGTTGGGAAAATGGATGGATTAAACCTATGCCACCTAAAAATAGAACTAATAAAAAAGTAGCTGTTATTGGAAGTGGTCCTGCTGGACTCGCAGCTGCTCAGCAACTTAATAGAGCTGGACACAATGTTACTGTATATGAAAGAGATAGTAAAGCTGGTGGAATATTAACTTATGGTATTCCTGATTATAAAATCGAAAAATATGTAGTTGAAAGAAGAGTTAATCAAATTATTGAAGAGGGTGTAAAGTTTATTTATAATACTAATGTTGGAGTAGATATTAGCGTAGACGAATTAGAAAAAGAATATGATGCTATACTACTTGCTGGTGGTTCCAAATTAGCTAGAGACCTTCCTGTATATGGAAGAGATTTAAAAGGTATTCATTATGCAATGGATTATCTTATCCAACAAAACAGATTAAATGCAGGAGAAACTATCCCAGAAAAAGAGCTAATAACCGCAAAAGATAAATCAGTAATAATAATTGGTGGTGGAGATACAGGAGCTGACTGTGTTGGAACCGCTATAAGACAAGGCGCTAAAACTATATATCAAATAGAACTTTTAAATAAGCCGCCCCTTGATAGACCTCAAGATAATCCTTGGCCAAATTTTCCACAAACATTAAAAATTAATACAGCTCATGAAGAAGCCGAAACATGTCTTGGAGGGAAATGTGAACTTGGAGAAATCAGACAATGGAATATATTAACAAAACAATTTACTGGTGATGAAAATAATAACGTAAAAGAATTCCATGCTGTTAGAGTAGAATGGATTACTGATGAAAATGGAAAAAAAGTTATGAAAGAAGTTCCTAATAGTGAATTTAAAGTCGAAGCAGACTTAGTTCTTTTGGCTATTGGTTTTGTTCATCCAGAACATGATGGTTTGATAAATAATTTAAAAATAGAGCTTGATAATCGTGGAAATGTAAAAGCAGATACAAAAAATTATCAAACTTCAAAAGAAAAAATATTTGCAGCTGGAGATATGAGAAGAGGTCAATCTCTTATTGTATGGGCTATAAATGAAGGAAGAGAAGCTGCTGAATCTATTAATAAATTTTTATCATCAAAATAAAAAAAGCTGTCAAATATTTGACAGCTTTTTTTTATTCTATATTAAAATATTTATATGGCTTCAAATAATTATTTTCAATTATTCCTATTCCCCAAAATTTATTATCAAAATATATTTTATAATAACCATTTTCCCCTTTATAACTTATTTTATTTCCATTTATAAGCATATTTTTTTTGATTTTTTCTTTTATTTCTATATTATTAAAATCAAAACTTTCTTCTACTCTAAGTAAAAAATCTATATTATTTTTTATAAAATTTCCCTCTATTTCTTCTATTGTAAAACTATTTTTAATATTATATTTTCCTACTTTAGTTCTTATTAGTGATGTCATTGTAGCAAAACATTCCAATTCTTCACCTATATCATAAATTAAACTCCTAATATATGTTCCTTTTGATACTTTACACTCTATTTTAGCTTTTTTAGCATCAAACTCTAATAACTTTATATAATCTATTTTTATTTTTCTAGCTTTTCTTTCTATCTCTTTTCCTTCACGAGCTAACTCATATAATTTTTTACCATCTACTTTTATTGCTGAATACATTGGAGGTATTTGTTTTATTTCACCTTCAAATTTTTTTAATATATTTATTAATTTTTCTTTTGAAATAATAAAATTTTCTGTTTTTTCTATTATATTTCCAGTAACATCATAAGTGTCTGTTTTATAGCCAAATTCAAATTCTGCTATATATGTTTTTGATTTTGCCTCAATCAAACTTGCTAGTTTAGTAACTTTCCCAACACAAATTACTAAAACTCCTTCTGCTAAAGGATCTAAAGTACCTGTATGTCCTATTCTTCTTTCTTTTAATATTTTTCTTAATTTTCTTATAACATCAAATGAAGTGATCCCTTTGGGTTTATTTATATTTATTATTCCTTCTAGTTTCATGATATCTCCTTTTTTTTAATTACTGTTATATATTCTAACAAAACTTTTTAAAAAAAACAATTATATTTATTGAAATATATATGTATTTTATATTATAATGTATTATAAGGTCAAATAAAATGGGGGATAATATGAAGCTTGATAATTTATTTAAAAAAGAATTTGACATTATTGAAAATAATAAAAAATTTTTAGAAGATTTTTTTAAAAATAATAATAACATTTCAAAAGAAGAAATTTCTAATTCCTATAACCAATTATTAAAGGATTATCAAAAATTATTAAAACAAACATTAAAGCTTACTGCACTTGGTGATAAATTTCAAAAAATATCTCTTATTTCTGAAAAAGAAGTTCAATTATTATTAGATAACTCTAAACAAGGTTTTTTATTTATAGATAAAAATTTTATTATTCAAAAAAAAATTAGTAAAGAATCTTTAAGAATTTTTAATAAAAATTCTATTACTGGATTAAATATCCTAGATTTATTATCATTTAAGTCAGAACACGCTAAAGAAACATATATAAATACATTAAACTCACTGTTTACATCTCATCCTATAAAAAAAAGAGTTTACTTATCTCTTTTAGAAAATAATTTTATTATAAATAAAAAACATATTACAATCGACTATGAATTAACTAAAATTTTAAGTGACAATACTGAAGTAGAATTATTAGTATTTATTTTAACTGATATTACTGAACAAATAAAATTTAGAAGAAGAATCCAAAATGAAAAAAGAACTATTTTAATGTTAACTAGTGCTATCTCAAATAGTATTGAATTAAAAAACAATATAAATGATTATATAAATTTTTATCATCAAATTTTACCAGAAATAATTTCTTCTTATTCTTTTGAAGAAAGTTGTAGTAAAATATTTATTGAAATCCATAATTTTAAAGCTTTATTTTCTCAATTTTATATGTTTAATACTGTCAAAAAATTACATCACTTTGAATCAAAGCTTAGTTATTTTATGGAACATAAACTTAAATTTGATATTTTCCCACTAATAAAAAATATTAATCATTCAAAACTTTTTCAAAAAGATAAATCTATTATTGAGTTTTATCTTGGAAAGAATTTCTTTAATGAAAATAAATATATTGAAATTTCAGAAGAACGAATTGATTTACTTATAAACGCAGTAAGTAAATACTGTCCTTCTGATAATATAAAAAAAGAAGTTTATTCTTTAAAATATATTTCACTACATAAACATTTTAATAATTTAAAAACTTTCACATATAACAGTTGTAAATCAAACCATAAATTTATATCATCATTTAAAATAGAAGGTAATGATATTATGCTTTCTCCTAAATATTATAAAAATTTTTTAAAAACTCTTATACATTTATTTAGAAATATTGCAGAACACGCTATTGAATCTCCTGAAAAAAGAGATCTATTAAAAAAAACTAAAGGTGGAAATATTAATATAAAAACTATAAAAAATAAAAATTTATTTTCTATAATAATTACTGATGATGGTAAAGGTATTGATAAAAAAATGTTATTAAAAAAACTTAATTCTCTTTCAAATGGAGAATTTTTAAAGAAAAAATATTCTAAAAATATTTTAGAGGTTATTTTTGAGCCTTCTTTTTCTACTAATAGAACTATAAATTATTCTGCTGGCAGAGGAGTGGGAATAACAAAAGTTAAAGAAGAAATAATCAAATTAAACGGATCTATAAAAGTAGAATCTATTATAAATAAAGGTACACGATTTATAATCACTTTACCATATCTTGAATAAATTGAGGGATTTCATGAAAAAAATTATTAAAAACTATTCACTTTCTACTAAATTAATATTTTTTTTAAATATATTAATTATGGTGTCTTTTTTATTATTTGTTATTCTTAATTTTTTTTACTTTAAACCTAGGATTAATAAACTATCAAAAGATAATGAAAAAATATTATTACTCCTTGAATTTAAAACAGAATCAAATATCAATTATATATTTGACAATATGATTTTTGATAATAACAACTATTTAAAATTTAAAAATAAATTAATTTTTGAAAAAAACAAAAGATTATTAAATATTTCAAACGATTTTACTGAAACATATTCAAATATAAAACTTAAAAAAGAAGAATTTTTTAAGTTTTATTATTTAACAGTATTTTCTCTTTTTATGAGCTTCTTTATTTTTATTTTTATTCTTTATAATTATATAAATAGAAATATTTTTTTTAATATAAAAAAAATTATTAACGATTATAATTATAATGGTAACTTAAAAAATGAAATTATTATTATTGAAGAAATAATTAACTCATATAAAAAAGAAATTGATAATTTTAATTATAAAATTAAGAAACTCGAAAAACAAATTGAATTTTATAACCAAGATTTAGATCTTAGGATTGAAGAAACTGCTCTATCTTTATTAAAAAACAATGAAAAATTAAATACTAATTATAAATTTATAGATTCTTTGCGATATGCTAAAAAAATACAGCTTTCTATTTTCCCAGAAAAAAATTTACTTAATAAATATTTTTCTTCATATTTTTCTATTTGGAAGCCTTTAGAAATAGTTAGTGGTGATTTTTATTATGCAAAAGAAGTTAATAACATTCTTTACTTTGCTCTTATAGATTGTACTGGGCATGGTATCCCTGGTGCTTTTTTATCAATTAAAGTATATCAATTTTTAGAAAATATATTATCTAATCCATATAATGAAGATACTGGGCAAATATTAACTATATTACATAAAAAACTTCGTAATATTCTCAATAAACATGAAAGCAACTTAACTGATGATGGATTAGAAATTGCTATCTTTAAATATAATCCTATAATCAATAAGTTAATATTTTCTAATACAAAAATACCCATGTATTTATTAGATAATCAAAATAATGTTATTGAAATTTACCAAAAACAACCTAGTCTAGGATATTTAAAAACACCTTATAATTTTAATTATTCTAGTCAATTTATTGACCTTGAGGAAATTAAATCAATTTATCTTACTACTGATGGGATTATAAAACAACCTAATAAAAATAATAACAAAAGATTTTCAAAAAAAAGATTTAAAGAATTAATAAAAAAATATTCTCTTTATTCAATGCATAATCAAAAAAATCATTTCTTATCTTATTTTAATAATTTTTTTGATGAACAAAGAGATGATATTACAATAATAGGAATTGACTTAAAAAAGGGGGAATAAAAAATGGAAGATTTATTTATTAGAGCTACTAAATATAGCCCTGAAATTCATTTTAACATTAGCAAATCAAAATTAATCATAAAAGGAGAGTCTTATCCAGAAAATTCATTTGAATTTTATACACCTCTTTTTACAGCTATTAAAAATTATTTTTCAGATACTTCAAACAACCAATTATCACTTGAAATCTATCTTACATATTTAAATACAAGTAGTTCAAAATGTATTATGAATATTTTTGATATTTTAGAATTATATCATAAAAAAAATAATAAAGATATTTCGTTAATATGGTTTTATGATGAAGACAACGAAGAAATTGTTGAAATTATAGAAGAATTTAAAGAAGATGTTAGCTATAATTTTGAAATAAAAAAATTAGAAGAATAAAAGCTCTAGAAAAATCTAGAGCCTTTTTTTATATTAATGTCCTGTCACTATAAAATTTAATAATGACAATAATGCTATTATCCACATTGTAGGTTTTATTTTGTTAATATCTCCTGCAGCTACTGTTACTATAACATAAGAAATAAAACCTAAACTTATTCCTGTACTAATTGAATAAGTTAAAGGCATTGTTACTATTGTAATAAATGATGGTACTGCTACTTCAAAATCTTTTAAATCAATATTTTTTACATTTTTAAACATATATACTCCAACTACAACAAGTGCTGGAGATGTTGCAAATACTGGTACTATCCCAATAATTGGTGTAAATATTAATGCTAATAAAAACAATAACCCTGTTACTACAGAAGCTAGTCCTGTTCTTGCTCCAGCTGCTATTCCTGATGACGACTCTACATATGTAGTTGTTGTACTTGTACCTAGTAATGACCCTACTACTGTAGCTATTGCATCCGCTTCTAATATTTTCCCTATTTTATCTATTGTCCCATCTTCTTTTACAAGTTCTGCTTCATGAGCACAAGCCATAATTGTACCAACTGAATCAAATAAATCTACAAACATAAATGAAAATATCGCTCCAAGCATACTTATTTGTAATGCTCCTTTTATATCAAGTTTAAATACTATTGGTGAAATAGCCGGTGGCATAGATATAATCGCAGTAGGTAATTCTACTTGTTTCATCATTATCCCTAAAATTGTTGTTGCTAAAATTCCTATTAATAATGATCCTCTTATATTTTTTATTTCAAGTACAGTAATTATTACAAGACCTGTCAGTCCTAAAATTAATGGTGTTGTTATTTTTCCTAATTTTACAAGTGTTACTGGATCACCAACTATTAATCCCATCCCTTTTAATCCTATAAAAGTAATGAAAAGTCCTATTCCTGCTGATACAGCAAGTCTTAAAGAGATTGGTATTGCATTTACTATTTTTTCTCTTATTCCAATAATTGTAAGCAATAAAAATACTATTCCTGATAAAAATACTACTCCTAACGCTTGTTGCCAACTAGCCCCGTTTCCTATTACTAATGTATATGTAAAAAATGCATTAAGTCCCATTCCTGGTGCCATAGCAAATGGTACATTTACCCATAACCCAGCAATAATTGTTCCTATAAAGGACGCTAAACAAGTCACTGTTATTAATGCTCCTCTATCCATCCCTGTAGCACTTAAAATGTTAGGATTTACAAATATAATATACGCCATAGTAATAAATGTAGTAAATCCTCCTATTACTTCTCTTTTAATTGATGAATGATGTTCCTTAATTCTGAAAAAATTCATTAAAAAATTTTCCATCTCTACCTCCTATTTTTATATTAAAAAAACCTAGTTAATATATAACACTTAAAAACTCATTTCTAAGTGAAATACACCAACTAGGTTTTTCCACTCATAGTAGGCTATTTACGGTAGCCTGTAGAGACTTCTGACCTTATTACAGAATTATATGAGTTATCTTATTATTTATTTTACGACAAATTATATCATTAATTTTATTTTTTTTCAACACTTCTTACCATATATATTATAAATGTTTAATATTTTTATTATTAATGTATTTTTTAAAATAATTTGGTATATCTGTTTGAATGTCTATTTTATCAAATGATATACTATAAGAATTTAAATACATATATTTATCATTTATCCCACCATATTTTTTATCACCTATAATAGAATGTCCAATATTTTGCATTTGTACTCTTATTTGATGTTTTCTTCCTGTTAGAATTTCTGCTTCAAGTAAAGTAAAACTATTATAGCGTTCTATCACTCTATATTTTGTTATAGCTATTTTCCCATTATCATCTACTACTACTTTATCGCCATTGTTTAATAATTTATTTTTTATTTCAAATCTATTTTTATTTATATTTCCTTTAACTAGTAAATAATATTTTTTACTTATATTTCTTTCTCTTATAATTTCTGTTAATTCTCTAATTTTAGGAAGTGTTTTTCCACCAAGTATAAGCCCAGACGTATCCTTATCTATCCTATTAACAAATGAAAAATTTTTATTTTTCAAATAACTTTTTAATTTTTCACTAATTCCAACTTCATATCCACTTCCTTTATGCATTACTTCTTTTGGATTTTTAAAAAATATTAATATCTCCTCATCTTCATAAATTATTCTATTTTTTATATCTTGTTTCTCTTTTTCATTAAGTTTATAATATTTATATTCCTCATTTTCATAAATAAAATATAAAGATAATTCATCTCCTATATTTAATCTGTAATTTTGTTTTACTTTTTTATTATTTACTTTTATCTTACCACTTCTCAAAAATTTAAATATATCTCCTAATTTTAATTTTGGATAATTTTTTCTAATATATTTATCAATCCTACTATTTTCATATTGTTCATTTATTATTATTTTTATCATTTTTATTTCCTCTCTTTAATATAAAAATAGCAAGAAATCCTTGCTATTTTGAACCATATATTTTTATACTTTGAACTATTCCTAATATCATTGCTGTAAATAAAAGTGAACTTCCTCCATAACTCATAAGTAAAAGGGGTAATCCTGTAACAGGCATTATTCCTATTACCATTCCTATATTTACTATGCTATGAAAAAAAATTATCCCCGCTATTCCATATGCTACTAAACTTCCATATTTATCTTCACTTTTATTTCCTATTTTTATAATTGAAAATACTAAAAAAAGATATAATATTACTAAAAATCCGGACCCTACAAATCCTAATTCTTCACTAAGTACTGCAAATATAAAGTCAGTATGTGATTCTGGAAGAAATTTTAATTTGTTTTGAGTCCCTTGAAATAATCCTTTTCCAAATACTCCTCCGGAACCTACGGCTATCATTGATTGAATTACATTCCATCCACTTCCTAAAATATCAGCTTCTGGATTTAAAAAAGTTAATATTCTTTTCTTTTGATATTCTTTTAAAAAGAAAAAATATCCAATTGGAATAGATACAATACCTAAAAATATCAAACTAATATATGTTTTTAAATCTATATTATTTAAAAATATAAGCTCCATATATAAAAATACTAAAACTAACGAAGTCCCTAAATCTGGTTGTTTTACAATTAATAAAAATATTGGAATTAGATGTATACTTGAAATAAAAACACTTTTTAGCCCATAAAAATTTTTGTTATAACCATTTACTAAATGTTCTGAAAAAGTTAATATGAAAAATATTTTCGCAAATTCTGAAGGCTGAATATTTATAGGTCCTAGCTTTATCCATCTTGTTGCCCCTAATATTTTACTTCCAAATATATATATAGATAACAAAAATAAAATATTAAATATATATATAAGTTTTGCATTTTTAGAATAAATTCTATAGTCTATAAGAGAAAAAACTAAAAATACAACTATTGACATAATTCCAAATATTATTTCTTTTATAATAAACGTATCTGTTTTAACTCTTGTAGCACTATAAATTGTCATCAATCCAAAAGAAAAAATTATTATTATATTAATAATAAACACATAATCTAATTTTTTTAATCTTTTATTTAACTTAGAAATAGTTCTACTATTAGTCTTCATCAAAAATATTTCCTTTTCTTTTTACTTTTTTTACTGGTATTGTAATAGAAAGACCTATATTTTTCTCTCTTTCTCTTTGGACACTACATTCCAGTCCACTTTCTTCAATAATTAAATATTTCTGAAATACTTTTATCATATCTTTTTTCAAGTCTTCCATTACTTCCTGACTAATACTTGCTCTATCTTGAGTAATTACAACTTTTAATCTATTACTTGCTATACTAGCACTATTTTTATTTTTTTTAAATATACTTAACATCACCCAACATCTCCCTATCCTCGAAATATATTTAATACACGATCCATAAATTTGATTTTTTCAACATTTAAAAATTCTACTTCATCTCCGAGTAACCTTTTAATTATATTTCTGTAAGCTTTAGCTGCTTTAGTTTCTTCATCTTTAATTACAGCTTCTCCTCTATTTGTAGAAATTATAACAGCTTCATCATCTGGAATAAGTCCAAGTAAATCAACCTCTAATGTATCTTTTATCTCTTCTACATTTATCATTTCACCTTTTCTAACCATTTCTGGTCTAATTCTGTTAATGATAAGTTTAAGATTTAATTTTTCATATGAATCCAAAAGTCCTATTATTCTATCAGCATCTCTTATAGCTGAAAGCTCAGGATTTGTTATTATAATTATTTCATCAGCTCCAACTACAGCATTTCTAAATCCTTGCTCAATTCCGGCAGGTGAATCAATTAAAATAAAGTCAAATTCTTTTGCTAACTCTTCAGTGATTTTTGCCATATCCTTGGGTGACACTGCTGTTTTATCTTTTGTTTGTGATGCTGGCAAAAGTTGTAACTTTGATTTTAACTTTTTATCTTTTATAAGTGCTTGTTTTAATGTAGCTCTACCTTCTACTACATCTACTATATCATATACTATTCTATTTTCTAACCCCATTACTAAATCTAGATTTCTAAGACCTATATCAGCATCAATTACAGCTACATTATATCCTTCAAGTGCTAATCCTGTACTTATATTACATACTGTGGTAGTTTTACCTACCCCTCCCTTTCCAGATGTAACTGCTATTACTCTCCCCATTTAACTTCCTCCTTTTATTATTTTCCAGTGTGTCCAAATCCACCACTGTTTCTTTTAGATTCTTCTAAGGCTTCTACTATCTTAAATTCTGCTTTATATACTTTTTGTAATACAAGTTGTGCTATTCTTTCTTGTGGATTAATTATATATTCATCATTACTTAAATTTATTAATATGATTTTTATTTCTCCTCTGTAATCAGAATCTATGGTTCCAGGAGTATTAAGCATTGTTATTCCATGTTTTATAGCTAACCCACTTCTAGGCCTTACTTGTATTTCATATCCATATGGAATCTCAAGATACAATCCTGTAGGAATAAGAGCTCTTTCTAATGGTTTTAATGTTATAGGAACACTATTATTAGAGTAAACATCCATTCCTGCAGCGCCTTCTGTCATATATTTTGGTAGTTTTATATTTTCATTTTCTTTTTTTAATTTTATTATTACTTTATTCATTTATATCACCAAGTATTGTAACTGAATAATATTTTTCATCAAAAATTTTATTTGCATATTTTTTTACTCTTTCTAAATCAATAGCATTTATCTTATTTTTTATTTCCTCTAAAGGAATTATTTTATTATATGTTATATATGAAGAGGCTAATCTTGACATTCTAGCTCTTGTTGTTTCTAATCCTAAAATAAGCGAACTTAAAACTTGATTTTTAGCTTTAACAAGTTCTTTTTCTGTGATTCCATTTTCTTTTATATCCTTCCATTCTTCGTATATCATATCTATTACTTCATTATAATTTTCTTTTGTCGTTCCTGCATAAACAGAAAAAGCCCCACCTTCATAAAATACAGTGTTAAATGTATATACTGAATATGCAAGTCCTTTTTCTTCTCTAATCTTTTGAAAAAGCCTAGAACTCATATTTCCTCCAAGAATAATTGAAAGTATAGAACCTACATATCTATTTTCACTTGTATACGAACTGCCCAAAGTATTAACACATAAATGTACTTGACTTATCTCTTTTTTTAATATATTTTTTACTGCATTTAATTTAAATTCTTTTTTTTCTATTCTATCTTTTTTTATAGTATTAAAGTTTTTAAAGTATAAGTTAAAGGTTTTTAAAACTTCTTCTTCACTCAAGTTTCCTACAACTACAATTGCAATATTATCACTTGTGTATCTTGTTCTATAATAATCTAATATCTTCTCTTTTGTAAGCGCATTAATACTCTCTTCTGTTCCTAAAATATTTTTACCATAGTTCCCATTAAATATATATTCATTATTAATATCATGTATCTTTTCTTCTGGTATATCTTCATACATTCTTATTTCTTCAATAACTACTTTTTTTTCTTTTTCAATATTTTTCTCTGTAAAAGTAGAATTTAAAAATATATCACTTAATACATCTGCAGCAATTTCAAAATGTTCTGATAATCCCGTTATATAAAATGTTGTTGTATCTTTTGATGTATAGGCATTCATTTTCCCACCTATATTATCTATTTCTTCAGATATATCTTTTGCACTTCTTTTTTCCGTTCCTTTAAATAACATATGCTCTATAAAATGCGAAATCCCACTTTCATTTTCTTTTTCGTCTATTGCTCCAGTTTTTACATATATTCCCATTGAAAAAGAATTAATATGTGTTATTTTTTCATATAATAAAGGTGTTCCATTATCTAAATGAAGTATTTTACCCATTAAGTCCTCCTAATATTCTGCTTTATTTAAAAAATATATTCCAATTACTAAAAATAATAAGTTTGGTATCCAAGCTCCTACAAAACTATTTATTTTACCACCAATTGATAAAGCTTCTAACGTTGCTTGAATTACATAATAACTATAGCCTAGAAAAATACTAAGTGCTAAACTAATTGCTGATGCACCTCTTACAAATCTACTTCCTAAAGATAAGCCCAAAAAACTAACAACAAAAGTTGCAAATGGATAAGCTATTCTTTTATTTAACTCTACCAATAATTTACTGACATCTCCACCTGTTCTTTTAATAAAATTTGCACTATCTCTTAAATCATTTAATTTAGCTTCTCTTAATATTATCTTATCCCTTAAAAAATCTTGTGGTTTTTCTTTTATTATATCATATATCCTTTCATTAAAAAAGATAGTTTCATTATTTTCTAAATCATTCTCAACAACTTCTTTTAATATCCAATTATTTTTTTTTATATCAAAATATCCTTTTTTAGATACTATTATTTTTTTTATTTTTTTTAATTCATCATCAAATAAAACTAATTCCATATTATCAATAGTGTTTTTTTCGCCATTTATTATCCTTATATAATAAAGATAATTACCTTCTCCTTTTAAAAAAACATCTGCTTTTATTTGAGAAATTTTAAGATTGTTATATACTTTTTCATATCTTAATTCTCTAGATTTTTTATTAGATATTGGTACAACATTATTATAAAACCAAAACGCTCCAAAAGATAATGTAAAAGTAAATATTAACGGATATCTTACTATTCTAAAAAAACTTATTCCTGAAGTTTTTAATGCTGTAATTTCAAGCGTTGTTGCCATTTTGTTAACAGTTATAAGCCCACCTAATAATATAGAGAGTGGTAATACTGTCATTATCATATCTGGAGTTATTGATAATGTATATATTAATGCCTCGCTATATGTCATTTCACCTTGAGTAACATACCCTATAATTCTAAATATTTGACTAAGAATAAAAATTACATTAAACCCAATCAAACTCATAATCCAATTTTTTATAAAATTTTTCAATATGTATATATCAATTTTTTTTAGCATCTATCTACTCCTAGCTTTTTTTACATATAAAAACATTGTAAGTAATAAAAGTAAAATATTAGGAATAATCATCGCAATACTTGGTGCAATATTTCCTTTTTGCGATATCATATAAAAAATATTAATAAGAGTTATATATATAAAAATTATTAATATACTTATTCCAAAACTTGCACCTTTCCCAGTTCTATTATTATTTACAGATAATATTACTCCAAGTACTGATAATATCAAAATCGAACTAGGAGTATATAACTTTTTATACATTTCAAGCTCGTATTTAATTGTTTTTTTATTTTGTTTTTTTAAATTATTAATTTTTTTTAAAAGATCACTAATACTCATGTTTTCGGGTTTTTCTATTGTTGTATTAAAATCTCCAAAAAAAGTATTAATTGGAACTTCTTGTTTTTCAAATTTTCCTTTTAAAGATATTTTCCCATCACTGCTCACTTTATAAAAGGTTGCATTTTTTAAATACATTTTAGAATTTTCCCATTTTGCTTTTTTTGCCAAAATTACTTGTGGATAAATAGTATCTATTTCTTTTTTAAATATAACCAAACTATCTGCAACTGTTCCTTCTGGTTCTAAATGATTTATATAAACATTATAATCATTTATTCCAGTAACAAATATTTTTTCTTCTAACTGCACCGAAGGTTTTGTATAAGCAATTTTTCTAGATATCTTTATAAGTTTTTCACCAGAACGCGGTATTACACTCTGATATAAAAAATATACAAAACACATAATAATAAAAGATAAAGTAAATGTCGGTCTTATTATTTTTTTTAAACTAATTCCAATTGATTCCATTGCTATTATTTCACTTGTTGTTGATAAAGAACTAAACGTTATCATTATACCTAAAAAAACGCCCATAGGTATAGTTTCTGCAAAAATAGGTGGTAACGTATAAGATAAAAGTTCCAGTACATCTAGTACTGGCACACTTTTAACTAATATATTTTCCATCATGCTTACTAAAATATCTATTAAAAAAATAAAAGTAAACAAACTGATTCCAAAAATGATTGGTAATGTAAGCTCTTTATATATGTATTTATTAATTAGCTTCATTTTTTATTTTCCCCTTTTATCAAGTGCTTCTTTCAATACTTTTTTTATCTCTTTTTCATCTGTATATTTTTTTATTGTGTCTGATATATCTTTTGGTATCATTGGTAAAATAACATTTTGTGCTTTTATATATATTTTTGCTATTTTACTATCATCTAATTGTTTTTCTAAATTTTCTTGATATTTTGCTACAAATGTAATTATAAATAATAAAAATACTGATACAATTACTCCTTTTATAATTCCAAGTATCATTCCTAATACTTTATCCAAACTCCCACTAACACTTTTAGTTATAACAAATCTAAATAATTTTAATATAAATCCAAATACTATATATACTGCTATAAAAAGTAAAGTATATATAATAGTATTAGCTATTCCCTTGTCAACACTAACATTAAGTTTTGAATATACAATAGGTGTTAGTTGTTTTGATATTACTATATTTAATCCCAAAAAAAATATCGATAATATCTCATAAATAATCCCTTTTTTGAAACTAAGTAATGCAAAAATCAATAAAATAACAATAAATAATAGATCTAAATACATATACGCCTCCCTATTTTTTATATACTCTTACCCACAAACATTTTAAATATAAAGTTTCTGGTATATGAAGAATCCATGGATGATCGTTTGGTTGATAATTTACTCCCAACACCTCTAATATTTGTTCATTTTCTGATGCCGCCATTCTACTCGTTTCTATTAAGTCTTGTAAAGTAATATTATATGCACATGTTATTATCCCTACTATACCTCCATTTTTTATAATTTTAAAACTATCTAAACATAAGTTGTAAAAAAACTCTCTTCCTTTTTTTCTTTCTGTTTTCTTTTTTATAAGAGATGGGGGATCTAATGTAATTACATCATATTGTTCTCCACTTTTTACAATATCTTTTAAAACTTCAAATGCATCTCCTTCAATAGTTTTAAATTCATTTTTAAATTTATTTAAATTATAATTTTCATGACATAACTTCAATGCATATTTATCTTTATCTATTGCTACTACTTTTTGACATCCTTCTTTTAAAGCTGCAATAGAAAATCCACCACTAGATGAAAAAACATCTAAAAATTTAGTTTCTTTATTTAAATATCTTCTTATAAATTTTCTTGATTCTCTTTGATCTAAGAAAAATCCTGTTTTTTGACCATTTATTATATCTACTATATATCTCAAATCATTGTCTTCCATTATAATTTTATCTGGTATTTCTCCATAAATAATTCCTGTTTGCTCACCAACACCTTCAATTACTCTATTTTCTACATCTGATCGTTCATAAATTCCTTTAGGTTTTACTATTTCTAAAATAGCTTTTATTATAATATCTTTATATTTTTCTATTCCTTCATTTCTAAATTGAACTGATAAATAACCATCAAAATCATCAGCTATGAATCCTGGAATTCCATCTGCTTCTGCAAAAAATATTCTTTTTGAATTTGTTTCTTTTTTTAAATATGTTCTTTTTTTATATGCTTCTTTAATTTTTTTATAAAAAAATTCATAATTTATATCTTCATCTTTTGTTGTTAATACTCTAACTAAAATATTTGTATTGTTGTTAATATATCCTTTCCCTATAAAATTTAATTTCTCATCACATACATTAACTATATCACCAATATTATATTTCCCCATTACTGCTTTTACTTCATCTTTAAATACATTTGGATAAAAATTTTTAATTTTTTTATCTTTATTTTTATTTAGTATTACTCTTGTAGCCATTTTATTCCTTTCTTATCCTATTATTACCATATTATCTATTCTTACGTATTTTCCACCAAATATTCTCTGCACATTTCCTTTTAATTCTATTTTCTTATAAATACTTATTTCTCTTTTTTCTTGATTTATTATTTTCCCAAGAACAATAGTTACTTTTTCATCAGTAAACAATCCGCCTGTTGTTTTGCTAATAACTTTTCCTATTACTAAAGAGCCCGTTTTTGCTATCCCCTCAATATCTTTTTCTAAATTAAATTCTAATATTTCTCCTACTTCTAAAGAACCGTAATTTTTAACCGTTCTTATTTCTATAACCCCTATTTCTCGTTTTAAAAATTGACCTTTTTTAATGAAATCTTTATCTGTTATAAGTAAATATGAATATATATCATTTATTCTATCTAGCAATGCTTCTCCATTTTTTCTGTCACTATAAAGATATTCTTCTATTTTTTCTATTCTAGTTTGAAGGTCTAAATCAGAATCTCTTTCTTGAAATATATAATCTTCTAAATTGTCTACTTTTGTATTCAAACTATAATAACTTCCATCTAAAAATACTAAATCATATAGTTTTCTTTGTCTAATTAAAATATTGTCATTACTTCTATTTCCTATTATTCTATCTTCTAGAAATCCTATTCTTTCTTCATAACTCATTCCACTTGTTTCCATGCTTATTCCTATTACTTTTTTTTCTAAATAATTAATCCCTTGAAATTTTGAATTATCAATAGATTTTGTTTGTACTGGAGTATTATTAACAATGCCCCCTTGTTTTACTGTGTTTTGTAAAGGTACATTATTAGTACAAGCTAATATTATTAATCCTAATACTAATAATACTATTTTTTTCATTAATTTTCCTCCTCTATTATCTCTATATCATACGAATGACTAATATCTAAATCTAAACTATATACTGTAACTTTATAATTTCCGGTTGTTATTTCCTCTTTAAAATTTGAAGTCAAATCCCATTCATATGATAATTTTAATTCGCCTCTTTGAGCCAATTTTATCTTTTTACTTCTCTCTCTTTTAATATCTAATATATCACTTTTATATATAACTTTATTATCTTTTTCTACTATAATATTAAATATATTTTTTCTATTTATTTCTATAATTTTATCTTTTCTAGTAGTATTTTGTATCGTTAAATTAATTATCATAAAATTATTTTGATTAAGTTTTTTATTTCTTATTGTAGAAACTATCTTTAAACCATTTTTTTTAGTTGTATAAGAATATTTATGAACCGAAAAATAACTTTTTAAAAATATAAACATAAACACTATAACAATTATATCTAAAAAAGTTATTAATCTTGAAGAAATTTTTAATTTTTGAAATATCATAAATATACCCTCTTTACTCTTTTAGTCAGAGATGTTAATAATTCATATGGTATTGTATCTATCATACTAGCTAATTCACTTATATTCTCATCATATATTATTACTTCATCTCCTAATTTTACTTTATCTACTATTGAACTGTCTATACTTACCATAAATTGATCCATACATACTAGTCCAACTATTTTACATTTTACATTATGTATCTTTACATAACCTTTATTTGAAAAAGCTCTTTTTACTCCATCAGCATATCCTGCTGAAATAGTAGCAATTACTTCTCCCTCTTTTGCAAGATATTTTTTCATATAAGATATATATCTAGGTTTATCTATTTTTTTTAAATGAACTATTCTAGATTTAAATTTTAATACATTTCTTAAATCCAACTCTTTTTTTGTTGTATTTATCCCATAAAGTGCTATTCCTGGTCTTATTAAATTGCTATTTGTTTTATCTAAATAATTAATTATCCCAGCACTATTTGATATATGTTTATATTTTACTTCTATATTATGTGTTAATTTTTCAAATTCTCTTAATTGATTAATTGTATATTTTTTTTCTTCTTCAACATCTGCAACAGAAAAATGAGAATATATTCCTTCTATTTTAGCTATTTTATTATTTTTTATATAATTATACGCTTTTAAAAACTCTTCTGAAAAAAAACCTCTTCTTCCCATGCCTGTATCTATTGCTATATGTATTCTAGGATAAATTTTATATTTTTCTATATTTTTTATATTTTCAAAAGACGCTACTGTTATAATTATATTATATTTTATAATATCGTCATATTCATCACTTAGTACACAGCCCAATATCAAAATATCATCTTTTATTCCATTTTTTCTAAGTTCAATAGCTTCATCTACAGAAGCAACTCCAAATATTTTTATCCCATTTTTCTTTAAAATTTTAGATATTTCTATTGCACCATGTCCATATGCATCAGCTTTTAATATCCCTAATATATCATGATTATTTGAAATGTTTTTAATTATATTAATATTGTGCTCTAAATTTTTAATATTTATTTCAGCCCAAGCTCTCATACTTTGCGTCCCTCTTTCTATGTTTATCTTGCTTTTTAGTATGTTTTTTTCTAAAAACATACTAAAAAGCAAGCGAGAGAAAACCCTCTTGCCTGCTTTTATTTTAAGTAAAATTTAATTCCTCTTCCAATTTTTTCATAAGTCAATTTATCTTCTTTTATAAGCCAACCAAGTGCTAATAAAATTTCATCTCTTTTAAGCTTTGTTTCTTTTTCTAATTCAACAATACTTTGTTTTGGTTTATCTGCTAATGTTTTCCATATTATCCCTGCATTATTTCCTATCATTTCAAATGAATACTTCAATATAATCCCTCCCTTTTTCTTGTTAAACTTTTATTTTTTTATTTTTTTCAAATAAATATACAAGTGGACTAGCTACAAAAATAGACGAATATGTTCCTGAAACTATTCCTATTAACAATGTCGTAATAAATGTTTGTAAGCTTGCTCCTCCAAATAAAAGAATTGCAACTACTGCTAAAAAAGTAGTTAATGATGTATTTATTGATCTTACTATTACATCATTTATACTTTCATCTATTATCTCTCCTAAATTTCTTGCTTTATTTCTTCTATATACTTCTCTTATTCTATCAAATACAACTATTGTATCATTTATAGAATATCCCAATATTGTAAGAACTGCAGCTATAAATGGTGTATTTACTTCATAACCTAAAAGTGCTATCCCACCTATTGCTATTATTACATCATGTAATAACGCTATTATCGCTGCAATAGCAAAAATAAACTCAAATCTAATAGTGATGTATATAACTATTAAAATTGCTCCTATTATAAGTGCTGATATTGCACTTGTTTTTAATTCTTTTCCTATAGTTGCTCCTACTTTATCTACTTTTAATAAGTCAAATTTTGAATATTTTTCCTCTAATTTTTTTAATAAAGTACCTGTCTCTTCTTCTGTTAATTCAGGTACTCTTATTATAACAGAATTATCATCAGCAATTTGAACTTTTCTACTAGTTGAAGCTACTTGAGATATTTCATTTGAAATTTCATCAAATACATTATTAAGTGTTTTTAAATCTGCTTGTTTTTCAAATTTTACTTGTACTAAACTTCCACCAGTAAAATCTATTCCTAAATTCAATCCTTTTATTATACCTATTAATGATACTACTATTAAAAATGCTGAAAAACCTAACCATATTTTTGTTTTGTTAATAATTTCTAGTCTTTTCAATTTTATTTCCCCCTAACACCAAAGAATTTCGGATTTTTTATATCAGTATAAAGAACAAGTGTTTTTAACATAAATCTAGTCGCTGTAATAGCTGTAAACATTGAAGCAAGTATCCCTATTGTTAATGTAACTGCAAAACCTTTTACAGGCCCTGTTCCTAGAGAAAATAAAATTGCTGTAATTATAAGAGTAGTAATATTTCCATCTAAAATTGCAGAATATGCTTTTTTAAATCCATTTTCTACACTTTTTAAAATTGAATTTCCTCCTCTTAATTCTTCTTTTATTCTTTCAAATATTATTACATTTGCATCTACTGCCATTCCTAATGTTAATATAAGTCCAGCTATTCCAGGTAATGTAAGTGTTGCTTCAAAATAATTTAGCGTTCCAAATATGATAATTCCACAAATTGTAAGAGCTACATCTGCTATAAGTCCTGGTAATTTATAGAAAATTGCCATAAACGCCATTACTAATACTATTGCAATTATTCCCGCTTGTTTACTTTGAGCAATTGATTCATCACCTAAAGTTGCTCCTACTGTTCTTGTTTCAAGTATTTCTGCTTTTACAGGTAATGCTCCTGCATTAAGTAAAGTTTTTAAACTTTTTGCTTCTTCTATTGTATATCCTCCTGAAATAGTCCCTTTCCCTCCAGGAATTTCACTTTTAATTGTTGGTGATGTTTGAACTTCACCATCAAGAGTAATAGCTAATTGTCTTCCTATATTATTTCTAGTTAATTCTGCAAATTTCTTAGCTCCTTCTATTGTTAACTCAAATACTATTTGAGGTCTTCCAAAATTATCATAACTTATGTCTGCTTGTTTTAAATCTTTCCCATTTACTCCTGTTTCTGTTAATGAACCATCTGATTCTACTAATTTAAATTCTAAAAACGCTGTTTTCCCTATTGTTTCCACTGCTTTTTGAGTATCTTTAATACCAGGTAATTCTATTATAACTCTTTTATCACCTGTTTTTTGAACTACTGCTTCTGATACTCCAAATCCATTTACCCTTCTCTCTAAAACTTCTATTAATCTGTCCATATCATTTGAAGTTATAGTTCCTCCATCTTCAGCAACTGCTTCCATTACTACATATACGCCACCTTTTAAATCTAGTCCCATTTTTATAGGTTTTTTAAAAGCAAAATATGCTGCACCTAACAGAACTATTAAAATAATAACAAAATCAAATACTAAATTCTTTTTCATGCTTGCCTCCTAATTGTATTATAATAAAATTTATTTTTTACTATCTAAAAATGTTTGCAAAATAATAGCTGCAGCTACTTTATCTACAACTTTTCTTTTTTCTATTGCACCCTTTTTATTCATAGCCGTGAGTGCTTTATCAGCACTCACTGTTGAATATCTCTCATCTATCTCTATTATTTCTAACCCTTTTATTTCTTTTAGTAATTTTGAAATAAATAATCTCACTTTTTCAGCTTGTCTTTTTTCACTTCCATCTAAACTCTTAGGTATCCCAACAACTATAGATGAAATATTTTCTTTTGTTAATATCTCTTTTATTCTTTTAATTGCTTTTGTTTTTCTTCTGTCTATTACTTCATATGGTGTAGCTGTAATTCCTAAAATATCTGATTTCGCTACCCCTATTCTTACATCTCCTATATCAAGAGATAAATATTTTTTATACATTTTTTATCCCTTCTCTTAATTTTTATAAACTTTCAGTTAATATTTTTTTTGCTAATTTTATTGCTTCTGTAACTTTATCTCCATTTGGTCCTCCAGCTTGTGCAAAGTCTGCTCTTCCACCACCTTTTCCACCTGCTACTTCAGCTATTTTTCTCACTAAATCTCCAGCTTTTATTTTATTAATTAAATCTTTTGTTACTCCTACTGCGAATATAGCTTTTTTGTTATTTGTTCCTAATACTACTACACATGAATTCAATTTCTCTTTTGCTTTATCAACTATTTCTCTTAATTCACCGGCTTCTTTATTTTTAAAAGTTTTTAACAAAACTTTTACTCCGTTTATTTCTTCTATTTCATTAAATAAACTATTTGCTTCATATGTTGCTAATTTTGATTTTGTTATCTCTAATTCTTTTGTTAATTCTTTTTGCGTTTCAAGCAATTTAATTATTTTATCCTCAATATGATTTATATCTGTTTTCAATAATTCCGCTACTTTTAATATCTCCCTTTCCATTTCATTTACTACTTCAAAACTTTTATATCCTGTAGTTGCCTCTATTCTTCTTACTCCTGCTGCTATCCCTGATTCATGTAAAATATTAAATAATCCAATTTCTCCTGTTCTATTTACATGAGTTCCTCCACATAGCTCTATAGAGAACCCTTCTACTGATACAACTCTAACTATATCTCCATATTTATCACCAAATAGAGCCATTGCTCCTTTTGATTTTGCAGATTCTATATCCATATATTCTATTTTTACTTCAAGATTTTCAAAGATTTTTTTATTGACAATTCTTTCTACTTCTTCTACTTGTTTTCTAGTCAATCCTTCATAATGAGTAAAATCAAATCTTAATCTATCTTCTGTTACTAATGACCCTGCTTGATTTACGTGTTCTCCTACTACCTCTTTTAAAGCTTCATGTAATAAATGTGTTGCTGTATGATTTCTTTTTATTGAATCTCTTTTTTCTTTATCTACTTTTAAAATAAGCTCATTACCTTTTTCTATATCTCCTTCATTTATTTCAACTATATGTAAATAAATATCTTTTCTTTTTTGTACATCTATTACTTTTCCATTAAAGTTATCACCTATTATTATTCCGCTATCTGATACTTGTCCTCCTGATTCAGCATAAAATACAGTTTTATCAAAAATAATTTGTAATTTATTTTCTTCTAATTTTTGTATATCATATACAATAGCTTTTGTTTCTAATAAATTATATCCTTCAAAATTTGTTTTGCCGTATATATCATAAAATTTTTCAATAAATTCATCTTGCCCTTCTTCTTTAATTACTTCTCTACTATTTCTAGCTCTATTTTTTTGTTCTTCCATTTTTTCATTAAATTCATCAAAACTCACTTTTATTCCGTGCTCTATAGCAATCTCTTCTGTTAATTCAAATGGAAAACCATATGTATCATAAAGTTTAAATACAGTTTCTGCATCAAATTTTGTTTTCTTTTGTAATTTTAATTTTTCAATTTCTCGAATTGCCATTTCTATCCCTTGATCAAGAGTTTTAGAAAATTTTTCTTCTTCTATTTTTATTACTTTTCTTACGTGTTCTTTTGTTTTTTCTAACTCAGGGTAAGCATTTTTCATCATATCAACAACAAAATCTACCAATTTATATAAGAAATTATCTGTTATATTTAATAGTCTACCGTGTCTTACTGCTCTTCTTAATATTCTTCTTAAAACATATCCTCTTCCTTCATTTGATGGTAATACTCCATCAGAAATTAAGAAAATTATAGCTCTAATATGATCTGTTATAACTTTTAAAGAAAAATCTGTTTTTTCATTATTTTTATATTTTACATTTGCCATTTCAGCCACTTTTTCTAAAATAGGAAATAATAAATCTGTTTCAAATGTTGTATGTGTTTTATTTAATGCTGCTGTAAGTCTTTCAAGTCCCGCTCCTGTGTCTATATTTTTCTTTGGAAGCGGCTCTAAACTCCCATCTTCTAATCTATTGTATTCAGTAAATACTAAATTCCATATTTCTAAATATCTGTCACAATCACATCCTACTCCACATGTAGGACTCTCACATCCAAATTCTTCACCCATATCTATATATATTTCACTACATGGTCCACAACTTCCCGTTGGTCCTGCCGCCCAAAAGTTATCTTCTTCTCCAAGTCTAACTATTTTTTCTGCTGGTATTCCAACTATTTCTTGCCATATTTTTGCTGTTTCGTCATCATCTTTAAATACTGATACCCATAATTTTTCTTTATCAAATTTTAATATTTCTGTTACAAATTCCCATGACCATTCTATTGCCTCTCTTTTAAAATAATCACCAAAAGAAAAATTTCCAAGCATTTCAAAAAAAGTATGATGTCTAGCTGTTCTTCCTACATTTTCAAGATCATTTGTTCTTATACATTTTTGATACGTAGTCACTCTAGGATACGGAGCTTCTTTTTGACCTAAAAAAAAAGGTTTAAAAGGTACCATTCCTGCAACCGTCAATAAAAGAGTTGGATCATCTGGTATAAGTGATGCACTTTCAAAATGTTTATGTGTTTTATCTTTAAAAAATTCAATAAATTTGCTCCTAATTTCATTTCCAGTAAGCATTTTTCTATCACCTCAATTAAAATTGTTAATGTATTAACAAAAATATAATATATATTTTCTGCTATAATGTCAATAAATATTAATCTAATTTAAATTTTTCTCCCAAATAAACTTTTCTTGCCTGCTCATTTTCTGCAATTTCTTTTGGAGTTCCTTGAATAAATACTTTTCCCTCAGCCATAATATATGCTTTTTCTGTTATATTTAATGTCTCTCTCACACTATGATCTGTAATTAAAATCCCTAATCCTCTTTCTTTTAAATATCTTATAATATTTTGAATATCTTCTACTGCAATTGGATCAACACCTGCAAAAGGCTCATCAAGAAGTATAAAATCCGGATTATTAGCAATAGTTCTAGCTATTTCAACCCTTCGTCTTTCTCCACCCGACAGAGAGTATCCAAATGATTTATATACATGCGTTAGTTTAAATTCTTCTAAAAGTTCATCTTTTATTGCTATTCTTTCTTTTTTACTTATATTTCTCATTTCTAAAACAGATAAAATATTTTCTTCTACTGTTAAATTTCTAAAAACTGATGGTTCTTGAGCTAAATAACCTATTCCTAATCTAGCTCTTTTATACATTGGATATTTTGTAATATCTTTTTCATTGAAATATACTATTCCTAATTCTGGTTTTACTATTCCTACTATCATATAAAAAGTTGTAGTTTTTCCCGCTCCATTTGGTCCTAAAAGTCCAACTATTTCACCTTTTTTAACTTCGAGACTGACACCATTTACAACTTTTCTTTTTTTATATATTTTCACTAAATCTTGAGCTGCTATACTTTTCATTGTATATCTCCTACAATTTCTATTTTTTTATTTTCTTTATATCCTTTATATTCTATCTCTTTTTCTATATCTTCAAATCTATATTTAAGCTTGAATTCAAATTCATTTTCAAATATATTTTTATTATCATCTATTTTTTTTATTTTTTTAAATTGATAACTCAAATCTTTATTTTCAATAATTAATTTATTATCTATAATATCAAATTTTGTTTCTAAAATTTTTCCATTAATATAACTATCTTTACTTTCTTTTTCTACTTTTACAATATATTCTTTTTTTATTTCTGTATTATAAAGTTTATAAGTAGCAGTAAGAATTACAACTTCATCATTTTCTAAATATTTAGGATGATTTACTTCACCATATTTAGAAATAATATTTTTATTACTACTATTCCATATTATTATAACATTTCCATCTCTTTTTTTTAAGTCTATAGTTTTTATTTTTTCAGTTAATACTTTAGGAATCTTTATTTTCTCTATTGTTTTATTAATTACTTCGATATTTTTCTTTTCATTTTTTTCTTTATTTTTTTTCTGTTCTAAAGTTTCTATGTCAAATGTAAAAGCTATATTACCTTTTCCATATAATTTATTTTGTTTTAAGTCATATATCCCAGAATCAGCTAATATCTTAGTATCACCTTTATACGATATTACATTTCCACTAAGATCAATTTTATTGAGCGTATTATTAAAAATAGCTTCGTCTGCTCTTGTATTCACATCTCCACTTTCTTTACTTATATTAAAAATTTTTACATTTTCTTTCATTTTTGCTATTTCATTATTTATATCAAATTCTAAATTTTGTGATGAAATTTTATCTGTTTTATCTATCTCTAAAATAGATTCACCAGTTGAAAATACTGTTTTCCCAATATTATCTAATTCTAAATAATTAGAATTTAAATATAAATTTTTATAATAAAAATCTACTTTATCTTTTATCTCTGCTCTAGTAAGCTCTTGTTTATCACCTTTTGTTGTAAAATATATTTTTGCTGTTTCTCCTTCAAATGTAATACTATTTTTTGTTTTTTCATCTATTATTTTTGCTTCTAAACCATTATAAAAATTAAATTCATTTTTATAATATTCTCCATAAATGTAATTTCCTTTAATAATATTTCCATTTATTGTTGTAAATAAAGGATTTTCACCTTTTATTATTTTTTTATTTAAATTTATTTTAGCATTATCTAAAGTAATTTTTATATTATTTCTTTTAAAAACTATAGGTTCTGGTGAATCAATATACTCTGTCAATTTATAATAAATCATATTATTTGTTAAAATTTCAATATTATCTCTTGTATATTTTACATTTTCATTTAAATAAGCTATTTCATTTCTTATATCATATTTTATCTCATCGCTTAATATTTTACTTTTTTCATTATTAGCAATAAATTTATTTCCTAAAAATTCATTATTATTTAAATCTATTTCTCCGCTATAGATTTCCCCTTTCAATTTTTTATCTTTTGATAAAATAAAAGCTTTTACTGGAAATTCTATCAATTTACTTTCATCATTATATATAGCTTTTTCTGTATAAGCTGTATAATTATTATAATCTATTTCTACATTTTTTTTTAGTGAAATATCATTTGTTCCTTGAATATATATACCATTATCTGCTCTAAATTTTATCTTTTCTTTAAAATTTTCTCCAATTATATTTTCTAAAGTTATTTGATTATTTTTTAAATCATATTTATATTTTAAAAAATAAATATTATATTCATCGTTTTTTAAATTTGACTTTTCGTCACTTAATAAAATTTTATCAATATCATTATATATTGCATTTGTTCCATTAATATTACCTTTTTCGTTAATTATCGTGTATTCATTTGGAATATATAGTATATCTTTATCAATCATTTCTATTTTATCTGTTTTTATTCTGTATTCATCATTTTTTAAATTCACATTATTTTTTAATGTATATTTTTTATTATTATAATCGATAAATATATTATCACTCGTAGCTTTATTATTTTTGTTAATTATCGTTATATCCTCTGCTATTCCTTTTTCAGTATCTATTTTATATAATAATTTATTACCATAGATCTCTATTTTATTCTCTTTTTCTAACATTTCAAAATTATTTGGTACTTGCAGCTCTGATTTATTTAAGTTGTACTCTACTAGCGTTGAAATTAAATGATACTTTTCTAGCTCTACTCTTAATTTATTTCCTGTTATTAACATTTTTTTGTTTTCTTCATTATAAATAACTTTATCACCATAAATTTTATTCCCTTCTTTATTTATAATTATATTATCATAAAGAAATAATTCTTTTGAATCTATAAATGCTTCACCCTTATCTGCTATAAAACTAAAATCTTCATAATTTCCATGTATTTCACCTATCATAATCATTTGTTTATTATTTAGATTATAATTTATTTTACTCATTTCTAAATTTTTAAGATTATCATATATTTTTACATCTTTTTCAGCTATGACAACTTGTTTTATATTATCATAATAAAATTTTTTAGCTGATAAAGTATAATTGTTCATTTCTAATTTATATGCTAAATTACTTATTAAAATTTCTTTTTTAAGATTATAATTTAATTTTGTAAATTTCCCTATTAACATTTTTTTTTGTGATTTATAATTTATAATAATATTCCCTGAAATTTCTAAATTTTGATCTTTTTCAGAGTAAACAGCTCTATCAGCATATATTATAGAATCACCATGGTAAATTTTAATATTTCCAATTAATTCAAAATATGAAAAATCAGAATTTGTATTAAAAGTATCTGATATAAACTTTAAATCTTCTTCTTTGTTAATAGCTGTTAATCTTCTATTTCCAATAATTCTTTTAGATTTTGCCAAATACTTTAACTCTTCAGTTTCTAACTCCCAACCATTCTTACTATTTGTTCCTTTGATATTTCCTCTAAGAACCATATTACTATTTTTATCTATTTCAGCTTTATTTCCTTTTAATATACTAGTTTTAAAATAAGCTAAAGTTTGTTCAAATATTTCTTTTTTACTAATAGCTTCATTCGTTTGAATTTCTGCTTTGATTTTGTAATTATCAAAATTATATATAATATTAGTAGTTTTTATATCATTATTAAATTCGATTTTTATTTCCTTATCTTTTTTTATATATGTATTATATATAAAAAATACTAGAAATAGCATTATAAATAAATTCAAGCTTTTTTTTAACATTTTTCCCCCAATAATTTGATTTTCATTTTATAATCACTAAAAATTTCTAATTTTTTAATTAAAAAAATAATTTGATATATTTTTCAATATTTATTTATATTAGAGTTTTATTTTTTTATTTGTTTTTCAATTTCAAAACTATTTCGTTTAAATAATTTATAGCTTGCATTGGTGTAATATTGTTTATATCAATAGTTTCAATATATTTTATTATTTCAATTATATTTTCTGGAACTACTTCTTTTATTTCAACTATTCTTTCTGGTTCATCTTCTATTTCTTCTTCTACCCCGCCAAAAAGTGCAAGTTGTTTTCCTTTTATTTTTTTTTCAATTAAAGCTCTTTTTTCTTCAAGATTTTTTAATATTTTTCTTGAATTTTCTAATATTTCATTTGGTAGTCCTGCAAGCCTTGCTACTTCAATTCCATATGATTTATCTGCTCCACCTTTTACAATTTTTCTTAGAAAAATAACACTATCATCTATTTCTTTTACTTCAATTCTATAGTTAATTACTGTTTTATATCTATTTTCTAACTCTGTAAGTTCATGATAATGTGTTGCAAATATAGTTTTTGCTTTTACATTATTATGTATATATTCTGTAATAGATGTAGCTATTGAAATTCCATCAAATGTAGATGTTCCTCTTCCTACTTCATCTAGTATTATAAATGAATTTTCTGTAGCATTATTCATAATATTTGCTACTTCACTCATCTCTACCATAAATGTAGATTGTCCACTTACAAGATCATCGCTCGCTCCTATTCTTGTAAATATTTTATCTACTATACCTATAGTAGCATAATCAGCTGGTACATATGATCCCATTTGAGCTAATATCAAAATAAGAGCTACCTGTTTCATATAAGTAGATTTTCCTGCCATATTAGGCCCTGTAAGAATTATCAAATTTTTTTCTCTATCAAAATACACATCATTTGCTATAAAATCTTCATCTATTAAAAGTTTTTCAACAATAGGATGTCTACCTTCTTTTATTTCTATGCTATATTCTGTATTTAATTCAGGTTTTATATAATCATTTTTTATTGCAACTGATGCAAGAGATATTATTACATCTAAATAACTTATATCATTTGCTAATTGTTGCAATAAATTTTTTTCTTTTCTTATCTTTTCACTAATTTCTTTAAATAATTCATATTCTAAATTTTCTATTTTATCTTTTGCATTAATTATCTTATTCTCTATTTCTTTTAATTCTTCTGTAATATATCTTTCAGCATTTGTAAGAGTTTGTTTTCTAATATATGTATCTGGTACTAAATTTATATTTGATTTTGTTACTTCTAAAAAATAACCAAATATTTTGTTATATTTAATTTTCATAGTTTTAATACCTGTTTTTTCTCTTTCTCTTGCCTCTATTTCGATTATTATATCTTTTGCGTTTTTAGATATTTTTCTTAATTCATCAAGTTCTAAATTTACATTTTCTTTTATAATTCCACCTTCCCTTATTGAAAAAGGTGGTTCTTCTGTAATTGTAGTATCTATTAATTTATATAAATAATCTAATTTTTTTATATCTATTTTTATTATTTTATCATTATTTAGTATAGCTGCTATTTCAATAGATGATTTTATAGATTTTTTTAATGCTATAAGATCTCTTCCATTTTCAGTACCAAGTATTATTTTCCCTATAAGTCTCTCTATGTCATATATATTTTTAAGGTTCTCTTTTATTTCTTCTCTTTTAATTATATCTTTTATAAAAAAAGTTACATCATTTTGTCTTTTTTTTATTTTTTCAATACTTGTAAGAGGATTTTTAATAAATTTCTTTAATAATCTAGAACCCATTGCTGTTTTACATTCATCTAAAACCCAAACTAAAGTTCCTATATTATTTTTCTCACTACTAAAAAGCTCTAAATTTTTTTGAGTAGCTACATTAAGCTCCATATACTCTGCTCGATTTTCATAACTAAGTTTTGTTATTGGTAATTCATTATATTTATGAAGTTCTAACGCGTATTTTAAAATAATCCCACTCGCATCTATAGATAATAATTTATCTTCTATCCCAAAACTTTCTAATGATACTATATTAAAATACTCCTTTATTAACTCTTCTGAAGTTTTTAATTTGTTTATAATAGTATAATTTATATCATTAATTTCTAAAAATTTATCTATTTCATCCCTTATTTCTTTATAGCTTTCTTCCTCTATAAGTATTTCTTTTGGCGAGATTTTATATACTTCGTTTAAAACTTTTGTTTTTTCTATTTCAAATGTTTTAAATTCTCCTGTTGTAATATCTAAATAACTTATTCCTGCACGATTTTCTTTTATAATTAAAGATAATAAATAATTATTATTTTTCTCATCTAAAAAATCTATATCTATAACGGTACCAGGGGTAATTATTTTTACCACTTCTCTTTTTACTATACCTTTTGCTTGTTTAGGATTTTCTACTTGCTCACAGATAGCTACTTTATAACCTTTATTTACAAGTTTTGATATATAACTAGCTGCAGAATGAAATGGAACTCCAGCCATTGGAATATCTATACCTTTTTCTTTATTTCTAGATGTTAGTGTAAGGCCCAATTCTTTTGATACTATAACAGCATCCTCAAAAAACATTTCATAAAAATCTCCCAATCTAAAAAAAAGTATATTATCTTTATTTTCAGATTTAATCTGTCTGTATTGTTTCATTAATGGAGTTTCCGCCATATTTAATCCTCTTTCTGTAATAATTTAAACTCTTCTAATTTATTTAATAATTCTTTATAATTATCAATATGATTTATTTCATCTTTAAGCTTTGTTGCATTTTTCATTCCTTTTATATACCAACATAAATGTTTTCTTATTTCATAATAAAATGGCTTGTCTATATACTCTCTAGCATAGTTAACATGTTTAATAGCCATATTTAATTTATCTAATATTGTAGGAATAGTTTTAACTTCCCCAAATGAGATCTTTTCTCTTATTTGCTGTATAAGCCAAGGATTTCCAAATATTCCCCTAGCTAACATTATTCCATCTACATTTGAATAATTTATTTTTTCCATAGCATCTTCTGCTGTAAAAATATCTCCATTTCCAATTACTGGAATATTTACCTTTGATTTAATATCTTTTATAATTTCCCAATTAGCTATTCCAGTATACATTTGTTCTCTTGTACGTCCATGTATAGTTATATGACTTAAATTGAGATCTTCTGCTAATTTAGCAAAAAATAGTGGGTCTTTACTATCTTTATAACCCACTCTTATTTTTATACTAAATTTTGTTTCTTCTTTTAATGAATTTTTTATAGTTGTCAATAATTTTTTTACATGCTCTTTATCTTCTAAAAGTGCTGCTCCATAACCATTTTTAGTTATTTTTGGCATAGGACAACCCATATTTACATCTATATTTTTTACACCTTTTTCTTCTAAAAAAATTGCTGTATCTTTCATAAGCTCTATATCTTTTCCAAATATTTGAACTCCATCATTTTCATGAAGTTTTAACATTACATCTACCGTTTTTTTATTCCCCATTTGAACAGCATTTACACTTACCATTTCTGTAAACATAAGATCTGGCTGGAATTCATTTAAAATTTTTCTATATATAAAATCAGTCACACCTGCTATTGGTGCTACATAGATTTTTTTCATTTAAAAAACCTCTTTCTATCTTATCTCTGCTTCTATATTTTTTTTCTCAAATTTTTTTCTAAACTTTTCTAACGTTCCCAAAGAATAATATTCTTCTACACCTCTATATGCATGTTGATACTGTTGAATATAAATTTTTTTTACTCCTATTTCATATAACTGCTCTACAACTTTTTCAAATTCTTCTTCTTTAATATATTCTGGATACATTGTTATTCTTACTTCATAATTTATTTTTAAATTAATCATTTTTTTTATGTTATCTAAAATTTCTTCTGTTTTGAAATCTGAAAATCTTGAATAATCTAAAGATTTAAAATCTATCGCTATATAATCTAAACACTCTTTTAATTCTTTTACAACCTCTATATTACTTGCATTTGTATCAAGTTTTATTAAAAAATCTTCTCTAACTTCTTTTTTGATTTTTTTAATAAATTTCACTAATTCTTTTCCCTGTAAAGTTGGTTCACCACCACTTATACATATCCCATCTAATAAATTTTTACGTTTTTTTAAAAATTCTATTACTTCTTTTTCAGATATATATTCTACATTTATAGGAGAAATAAGTTCATAATTTTGACAAAAATCACAGTCAAAATTACATCCCGCCAAAAAAATAGTAGCTACTATTTCCCCTGGAAAATCAACCGTACTACTTTTTATTAAACTCGCTATTTTCATATCTCTTTCCATCCCTTTTTAACATTTTAACTAAACAAAATTATATCATAATAATAAAGTTTTTTCAAATAAAGAAAAATCCCCTACTTTTTAGGGGATTAACTATTAATCATCGTTTCTAAGGCCTACTATTCTTAATATATAAATGAATAAATTAATAAAATCCAGATAAAGCATTAAAGCTCCAAATACTGAAAATCTTTCTATTAATTCTTCATCACCATTTGCCATTATTATAATATTATTTTTAATCATATTCATATCATATCCTATAAATCCTATAAAAATTAATACTCCAAGATATGATACTATCCAATAAATAGCTGCTGTTCTTAAAAACATATTTACCAATGATAATATAATTAACGCTATTATTCCTACTCTAAGAAGATTTCCAAATTTTGATAAATCTTCTTTTGTAGTATATCCATATATTGCCATTACAGAAAATATAACTACTGTAATAATTAATGCATATATAATAGATGCAGTTGTAAAAAACATCATTAATAATGATAATGTCGCCCCTGTTAAAGCTGAATATACAACAAATAGTATCTTAGCAGTTTGAACACTTATTTTTTTTACCATTCCTGACATCGCTATAACTACACCAAATTGTGCAATTATTAATAATAAATATGATCTTGATACGGTCATTGCCATCACTGGATTAGTCATTATTGAAAATGCTACTCCAAAAGTTATTAAAAGCCCAGCTACCATCCAAATAAGAATTTTTGATATTGTATTTGCCATTACTTTTTCACTTACATGATAATATCCACCACCATTAAGTCCGTACATATCTATCCCTCCTATAATTTTTTTATTTTTTTAAACTTAGTAATTCACAAAAATATTCACAAAAAATTTAAATAATTTATCATTAAAGTTACTTTTAAAACTATTCGCATAACTTTTATCTAATCGAATTTTAAATTCAAAAACTTAAAAATTTATTAAAAGAAATAGAGCAATTTTCTTTAATTAATAAAAAAAATATGCTCTACTAATTTTTATATTAATTTTTAAATACTGGCTTTGATTCAGCTTTTATTATTTTAATAAATTCATCAATATCCATTTCGACTTGTTCTTTTGAACCAAATCTTCTTACATTTACTTTTCTATTTTCTACTTCTGATTTTCCTATTATTAATTGTACAGGTATTTTTTGCTTTGCATTTGCTTCTCTTATTTTATATCCTATTTTTTCAGCTCTATCATCTATCTCTACTCTAATATCTTCATTTTCTAATATACTTTTTAATTCATCTGCATAAGGTATTACTTCATCATTTAGAGTAAGAATTTTTACTTGAACTGGTGCAAGCCAAGTAGGAAACGCTCCTGTATAATGTTCAATTAATATTCCTAAAAATCTTTCAATACTTCCATACATAGCTCTATGTATCATTATGGGTCTATGCTTCTCTCCATCTTCACCTATATATGACATATCAAATCTTTCAGGTAAGTTCATATCTAATTGAATTGTTCCGCATTGCCATATTCTTCCAATAGCATCTTTTAATTTGAAATCAAGTTTAGGACCATAAAAAGCTCCATCTCCTGGATTTAACTTATAATCTTTTCCTGCTTTTGTTACTGCATTAGCTAATGCTTTTTCTGAAACTTCCCATATTTCATCACTACCTATTGCTTTTTCTGGCTTTGTAGACAATTCAATATGATATTCTAATCCAAATAATGTATAAAATTTATCATATAATGAAATTACATTTACAACTTCATCTTCGATTTGTTCTTTTGTCATAAATACATGTGCATCATCTTGAGTAAATGCTCTTACTCTAAATAATCCATGTAAAGCTCCTGAAAATTCATGTCTATGTACATGTCCAAATTCACCCATTCTAAGAGGTAAATCTTTATATGAATGTAATCCATTTTTATATGCTAATATTCCACCTGGACAATTCATTGGTTTTATTGCAAACTCAAATTTATCTATTTCTGAAGTATACATATTTTCTCTATAATTAAACCAATGTCCAGAAGTTTCCCAAAGTTCCTTATTAAGCATCATAGGAGTTTGAATAATTTTATATCCCGCTTTTTTATGCTCTTTTTCCCATATTCTCATAAGAATATTTTTGATTTCCATCCCTTTTGGCAAGAAAAATGGAAACCCTGGTCCATATTCTGATATAAAAAATAATTCTAATTCTTTTCCTAATTTTCTATGATCTCTTTTTTCTGCTTCTTCTAATAAAGTTAAATAATCTTTTAATTCTTTATTGTTTGCAAAAGCAAATCCATAAATTCTTTGTAACATTTTATTATTAGAATCTCCTCGCCAATAAGCTCCTGCCACAGATTTAAGCTTAAAAGAACCAAGATATCTAGTAGATGGAACATGTGGTCCTCTACATAAGTCAATAAATTCTCCTTGTTTATAAAGTGATAATACTTCTCCTTCAGGAATTGCTTTTATTATCTCTACTTTATAAGTTTCCCCCATATTTTCAAAAAATTCTATTGCTTCTTCTCTTGTTTTTTCTTCTCTTTCAATTTTTATATCTTCTTTTACAATTTTTTTCATTTCAGCTTCAATTTTTTCTAAATCTTCATCTGTAAATTGTTCTTTCGGATCAAAATCATAGTAAAATCCATTCTCTATAGATGGACCAATAGTAACTTTTGTTTCTGGAAAAAGTCTAATTACAGCTTGAGCCATAAGGTGCGCTGTACTATGTCTGATAATATCTACTCCTTCTTCTGTATCTGGAGTAATTAATTCTACACTTGCATCTTTATCAAGTACATATGTCATATCTACTAATTTCCCATCTATTTTTGCAGCTATTGCTTTTTTAGCTAAAGAATTACTTATACTTTTAGCTATTTCAAACATATTTACACTGTTTTCAAAACTCTTAATATCTCCACTAGGAAGTTTTACGTTTATCATAATAATCTCTCCTTTATATAAATTTATATCTTCATATTAAATATAAAAAAATACCCGGGTTTATACCAGGGTATTTTTAATTAAATCAATAAATAAAATAAATCAGCCCTCTTGATACAAACCTAATCCGCATTTTTACATTTTAATATAGAGGGAATAATTAGCCCTCTTTATTTTGCGGTATAGGTAATTTGTATATTAATAAACTTATTCATTTTATTACCTCCAATTTCCATTGATTATACTATTTTAAACTTTTTTTGTCAAGTTTAAATACCTGCTTCTAATTTCAATTCATTTTCAGTAGATTTTTTTGCTATACCAATAGATTTATCGGGGAATGTAAATAAATTAAAACTAAATGATATAGTATAATCATATCTTAAATAGGTTTGATTCCAATCAAGCGTATATGAAGTTTGCCATTGTCCAAACTCTATCTCTTTTCCTATTGTAGCTCTTACTTCATCTAAGTTCTCTTCGCTATTGCTATCTTTTAATTCTGTTTTATATTTTGTAGCAAATTTATATATCCATTTTTCATCTGTTTTCCCTATTTTTTTTATAAATTCCAAATAATGTGTTTTACTTGTACTTAATGTTTTGACATTATTATATATACTATTTTCTTCATCATAAGAATATACTAATTTATTTTCATCTCTATGCATTTCTAATCTAAGCTTAAATAGTTCTAATGCATTTAAAAAATTTGTTTCTTTTGTATAATTTTTATCTGCTCTTAAAGTAAGTGTGAATTTATTATATTTTTTATAAATAATCTCATCTGCAATATCATCTATACCAAAAATATCAGTAGTAATTCCCCTCTCTTGTTTTACTTGTTCTAAAAATTTTCTTTGTAGTTTTTCTTCTTCTGATTGACTTAATTCTACTTGATATTCTCCTGTACTATCTGTATATATTATTTTTTTATCTTCATCTTTTTTTAAATCATTATATTCATAGCTAACTTCATTTTGATAATAAGAATAATTGTTATCTAATTTATTATTATAATCTATTACTTCATAGCTATAATTATTATACTCAGATAATTTATCACCCACTAAATAATTTATTTTAATTTGATTTTTTAAAATGTTTTCACTATAATCATTTACTGTATTACCACTGCTATCATTATAATCATAAGTGGTATTTGTAGTTATTGTATACTCTAATGTCCACCATTTTTTACTTTTTTCTCCAAAAGAATATTCAAAATTATTTATAATATCTTTATCTATATACTTTAAAAAATTATAAGCCCTAATTCTATCTGAATAATCAAGAGTTGTATCAATAGTTTCATTTCTTACTCTATTTTTATAATATGAAACATTATATTTAAATTCTTTATTATCGTCATAAAGTTCTAGTTTATAGTTTTGATTATCTATATTTTTATAGTTATCTTCTTGATAAGAATTATTTATATCATAAGATGTAGCAATAGTTTTTTTATTTTCTATATTAAAATTTATACTATTTTTTAATGATATATTTTTTAACCATTTATTTTTATATGCATCATTATATGTTACTAAATTTATATTATATATTGTATCTGTATTTCCAAATAATACTTTTAATTCATTCGATATATCCTTTTTTAAAGTTTTCCCATTTAATCTATAATATTTTGAATCTTCGGCATCAGAAATATACGCTACCTTATCATTAAAATCTCTATTTTCACTATTATAGATAAAATAATTCATATAATAGCTAAATTTATTATCAATTTTAAGATCATATTTTCTATAAAAATCTCCTGTATTATTGTAGAGATTTTTAGTTACAATTTCTTTTGTAGTAAATTCTTGCAAACTATCTTTTTCAAAATATTTATCATACCTTCTATTAATTAAAAAATTTAAATTTCCTAATTTTGTATTTATTTTACTATCTTGATATTCTATTATATTATAATTAGAATTATTTACAAATTCATCATAACCTGTATTTTCATACAAGTCTCTATCTTTAGCAAATGATTTATAATCTCCTAATACAAGTTTTAATCTTTTGCTATCTTTACTTAATTCCGTTAGATATCCATTTTGTTCTATATTTTTTTCAATAATATCAACTGTTCTATTATATTGTCTATCTCTTGCATTTGTATAACTACTTCTAAAAGGATCTTCATCTAAATTAAGTTTTTCATAGTTTTTATCATAGCTATAACTAAATTTTAATTTATAATTTTTTAAAATATTATAATTACCTAAAGTAATATTAACATCTTTTAATGATTTCTCATCATATTGAGTAGTTGTATATGGGTTATAAGAATCACCTGTATAATCACTTAGTTCCTTGTCATCATCATACCTTTCACTATCAGACAAACTTCTCCATACATCATAATCTGTATTTTTATAAGAAAAATCTATCCTATATTTTTTATCTATCATTCTATATTCATCTATATTATTATATGATTTTGTATCACTTTGACTTGACCCTGGATCTAAATCTTCAAATCTTTCATAATACCCATAAAGTTTATATCTTAAATTATCTTTATCAAATTTTAATTTTGTCTGTATCTCATTATCTATTTCACTTTTGTTATCCTTATTTAAAAGGTTTTCATTATTATTATTTATGATTTCTTTTAAAACATCTTTATTATCTACATATTGTATATATGCATAAATTGATGTATCTTTATTTTTTCCAATTTTATCAAATTGAGTAGATAATTCATACCTAGACATTTTTTGTTCATAGTTACTATATGGGTCACTTTCACCAGAATCTTCTGCCTCACTTCTACTATCTTCTACAGCATTTATTGTATTAATTGTTTGATTTTTATATTTCCAGTGTAACTCCCCATTTTTCGTTTTATAATCATGTTGATGTTCAAAATTCCATTGTTCTTCATAATCTCCTCTTGGAAAAATCAAAGTATCATAAAATGAAACTTTCCCTTTGTTTTCGTCATTTATTTTATATATATTTTCAAAACTTTCTATGAAAGTTCCTTTTTTAGTTGATTGTTTTAAAGCTAAACTTCCATTTAAATTTTTATTTTCTATACCATAATCAAATCCCCATATAATATATGTTCCTTCATCACTATTTGAACCAATTTTAGGGAAAAGTGGAGCTTGTGTATCTGATTTTAAAGAACTAGCATACCATGGCATCCAAAATATAGGTATTCTCCCTGCATATAAAATATTATTATATGCTATCACCTTTTTCCCAGGATATACTAATATTCTTTTTGAACTCATATGATATGGAAGTTTAAATCTATCATCTTGTTTTTCTACTTTTAATGCTTTATGTGAAGTAGTAAACCATGCATTTTTTACTTCTGCTTTATCTGGATAACTAGCTAAAAATTGCTCTCCACCGTAATATAGTCTGTTATGTCTTTTTGGTGCGCCTGCTACTTCCACATAAGATACTCCATCTTGAATTATAGCTATATTTTTATCTATATTTAAAGTTAATTTATATGCTTCTACTTTATTATCTCCTTTATTAAATATCACTCCTTTTTCAGCTATAATAATATTCTTATCTTTCAATTTTCTAAGCTTATACGCTTTTAATTTTATATCATCATAATTAAAATTGACTCCTCCACCAGCTTGAAACTCCTCATTCTCAAAATCAATCACTGCTTCATCAGTATTTATATTTAATTGATCTCCAGCTAAAATATTTATTGATAAAATTATATACAATAACAATATATGTTTTTTCATAAAAAAAGTATATCCTCCATTTTCATTTATTAAAATCCTAATAATTATATTTTAAAATTATAATTTTTTGAATAACTATAAATAATTTTAAAATATAAAATTCGGACGAAATATTACATTAATTTTTACTTATATATATTTATTTGTTCTATAGCTCTATACGAGTTATTTTTTACTATACTTTTATTTTTTCTTTATATTTTTTCATCAGATACAATTATATCATATTTTATTATTATTAAAAATAAGAAAAATCTAAAAAAATAAAAATAGGTCTTTTATTTTTAGACCTATTTTTTATGTAATTATTTTATTACTTTTCCTAATCTTAGCTCTTTAATATGTTTTTCTGATAACCCTTTATTTTTCATATCTTTACACATTTTCTCTACTTCATATTCTACAAATTTTATTTCAAATTCTTTATTTTCTGTATTTAATATTATATAATTTGGAGTTGGCTTAGCTATTTTAGGTTTTCCTACACTCCCAGTATTTACTATAATTTTATTGTGTATTTTTTTTATATATGGAAAATGAGTATGAGCACATATAAGTACATCTTCTTTTAAATTTTCTGCTTCTTTTTCTATCTGTTTACTATTTTCAAATAAATATTCTGCAATATCTCTGCTACTCCCATGTACAATTTTTATTCTAATATTATTTTTTTCTATAATTAATTCTTCTGGTAAATTTATTATATATTTTTTATTTTCTTCTGTTAAATTTTCATATGTCCATATTTTAAAATCTTTTATATTTTCATCGAAACGTTTATTAATAATATCATAATCATGATTTCCTTTTATTGAAATAATATTATTTTCTTTTATTAATTCAATTACTTCATTTGGCATAGAATGATATCCTATTATATCTCCCGCCAAATATATTTCATTTGCTTTTTCTTTTTTTATATTCTCCAATACACTTTTTAATGCATAATAATTACTATGGACATCTGATATAAATGCTATTTTCATAAAATTCTCCTTAATAATTTTTATTAAATTATATCATAGATTATTACTTTTTAAAAATCTCTCTATAAAATAATATCCATTTCTAAAAAATATAGTATTTTATATTTATTTATTGTATAATTTAGAAAATTTGAAAGGAGTTTTTATTATGTATAAATTTAAAAATGATTATTCTGAAGGTGCTCATCGAAAATTATTAGAAGCTTTATTAAAACATAATCTTAACCAACAAAATGGATATGGTGAAGATATTTATACAGAAGAAGCAAAATCAAATATAAAAAATTACATTAATGGACAATGTGATATTCACTTTATTCCTGGTGGTACTCAAACAAACCTTATTGCAATTACTGCTTTTCTTAGGCCTCACGAAGCATGTATTGCTGCTAAAACTGGACATATAGTAGATCATGAAACAGGCGCTATTGAAGCAACCGGTCATAAAGTAATTAATATAAATACTCCTGTTGATGGTAAATTAACCCCTGAGCTTATACAGCCAGTATTAGAATATCATTATTTTGAGCATATGGTAAAGCCCAAATTAGTATATATTTCTAATTCTACTGAAATTGGTACTGTATATTCTAAAAATGAATTGAAAAATTTATATAATTTTTGCCAAACCAATAAACTTTATTTATATATAGATGGAGCTAGAATTGGAAATGCAATATTAGCTAGTGATGTAACATTACAAGATATGTATAATTATAGTGATGCTTTTTTTATTGGTGGAACTAAAAATGGTGCTTTATTAGGAGAAGCTCTTATTATTAAAAATTTAGATATAAAAAACGAAATAAGATATATTATAAAACAAAGAGGAGCTCTAATTGCTAAAGGACGAATAATGGGAATTCAATTTAATGAATTATTTAAAGATAATTTATATTTTGAATTAGCAAAACATGCAAATAATATGGCAGATATTTTAACAATAGAATTAAAAAAATTAGGTTGTAGTTTTTTAGTTGAATCTTCTACAAATCAAATATTTCCAATAATTGATAACAAAAAAATAAACAAACTATTAAAAAAATTTGATTTTTATATTTGGGAGAAATTTGATGAAAATAGTTCTGTTATTCGGCTTGTTACATCATGGGCTACACCAATAAAGGCTGTAAATGCTTTTATTAATGAATATAAAAATATATAAAATAAATAAAGATGAGAAAATTTTTCTCATCTTTATTTATAAAATTATTTAAAACTTAATATCCCATGTTTCTCTTATCAGTTCTTCTATTAATTGAAAACTTTTTCTAATTTTTTCTAAATTTTCTATAGAATAATGTACTTTTAACCCTTCTTTTCTTGAAGTAACTATTCTTGCATCTTTTAATATCTTTAAATGTTGAGATAAATTAGATTGAGAAAAATCTATATCATCATTTAAATCACAAACACATAATTCTCCAAATAATAATTTTTTTACTATTTTTATTCTTATTGGGTGTGCTAACGCTTTAAAAAATTTTACTTCTAATTCATTCAAATCCATAAAATCACCTTTTTACTATATTATTATTTTCTAATATATTTTACTCTATTTTTATCCGTTTTGTCAATAAAAATAATATTGCATTACAAATAGTTTAATGATATATTATGTATGTTTGATTGTATTTAATTTTTTTATATAAAGGAGATGACATAATGTCAAAAGTTTTTTATCCAAAAAGTTTAAAAGTTTTAAAAGAAGGATATGATTTTAATAGTTTTACAAAAGATTTGATTGCTGGGATAATTGTAGGAATTGTAGCATTACCATTATCTATTGCATTAGCTATTGCTTCTGGAGTAAAGCCAGAACAAGGACTCTATACAGCTATTATTGCTGGATTTTTAATTGCATTATTTGGAGGTAGTAGAGTTCAAATAGGGGGGCCAACTGGTGCCTTTGTTATTATTGTATATAACATAGTACAAAAATTTGGTTATACTGGTTTAGCTACTGCTTCTATTTTAGCGGGAATTATCTTGGTTATTTTTGGTGCTTTTCGTTTAGGAAGCTTTATTAAGTTTATTCCTTACCCAGTAACAGTAGGCTTTACTTCTGGAATCGCATTACTTATTTTCACATCACAAATAAAAGATTTTTTAGGTTTATATGATAGTGCTCCTACAGAATTTTTAGAAAAATTTCCTTATTTTATAAGAAATATTTCAAATATTAATTTTTATTCTGTATTTATTGGATTGATAACTATATTAATAACTTTTTTTTGGTCAAAAAAATTTAAAAAAATTCCAGGATCTTTAATTGCCATCATTACCACAACTATATTAGTTAGTTCATTTAAACTACCAATTGATACTATTGGTAGTGTATTTGGAGATGTTCCTAGCTCATTTCCGCCATTACATTTTCCAAGTATAAATCTTTTAACGATTAAAAAACTTCTTCCTTCAGCTTTTACTATTGCAGTATTAGCCAGTATAGAATCTTTATTATCTGCTGTTGTTGCTGATGGAATGATCGGAACAAGACATAATTCAAATACTGAATTAATTGCACAAGGAATAGCAAATATTTTTTCACCTATTTTTGGTGGTATTCCAGCTACTGGAGCAATTGCTCGAACTGCAACAAATATAAAAAATGGTGGTCGTTCTCCATTTGCAGGAATAGTTCATTCAATAACACTTCTTATAATTATGTTATTTTTAGGAAAATTAGCTAAAATGATTCCTATGGCTACATTATCTGGTATTTTAATGATTGTAGCTTATAATATGAGCGAAATACAACATTTTATAAAATTAAGAAAAGCTCCAAAATCAGATTTTTTTGTACTCTTAATTACATTTTTACTTACTGTTTTAGCTGACCTTACTGTAGCTATCCAATTTGGAATAATTTTATCAGCTTTATTATTTATGAAAAGAATGAGTGAAGTGACTGAAGCAGAATTTTTAAAAAAAGAATATTATGATACTGATGAAGAATTTATTGCAACTGGAATTTTAGAAAATAATAATCCTATTCCAAAAGAGATTGAAATTTTTGAAATAAACGGGCCTTTTTTCTTTGGTGCTGCATCTATTTTTAGAGATAATCTTGGAAATATCGAAATTTTACCAAAATTTTTAATCTTAAGAATGCGAAATGTTCCTGTTATTGATGCTACTGGACTTTCTGCATTAGAAACTATTATTAAATCTTGTAAAAAAAATAATATTCAAATAATAATATCTGGTATAAATAAACAACCTATAAATGCGATACAAAAAATTGGTTTAGATAAAAAACTTGGAAAACAATTTATATGTAAAAATATTAATGACGCTATTAATATTGCTAAAAAAAATTTATATAATTAAAGATTTTAAAATGTTTGATAAGCTCCCCTTATAGTAAAGAAAAATTCTTGACTATAAGGAGGAGTATTTTATTATTCATTAAAAAACAAAGCTTCTATTACATTAGAAAATCTTTTTGCCCAATATACTTCATTATGTTTAGCACCTTCAATCAAATAAAAATTTACATTAAATCCTTTTTCTTTCAATATTTCATATGTTTTTTTATTTCCATTAATATAAAGTTCATTAAAATTGTCTACTCTCTCATCACTTGTTTCATTAGTTCCTACATCCAAATATATTGTCATATCATTTTCTTTTTTTATATTTTTAATAAACTGTATCATATCATTTTCAGCAAACCAAATTGCATTTGATAAACCTCCTATTTTTGAAAAAATATTTTGATATTTCAATCCAATATAAATAGAAATAAATCCTCCCATAGAACTTCCTATTATAGCGGTATTTTCTCTGTCAGACAGAGTTTTATATTTTTTATCTATATACAATTTTAAATCATTTACTATAAATTCGGCATACTTATCACCTTTTCCTCCAAGAGTATAACCATCATTATATTTATCAGTGATTTTATAAAGATTATTATTTATAAATGGTGAATATTCTGTTATTCTTTCTGCTCCATTTCTTTCAGAAGCATTATCTATTCCTACTACAATAAAGCCTTTTTTAGTTTTTTCAAAAATACTATCTAAAGTTTTGTCTACATTCCACTCCATTCCATAAGCAGATATCCCAATGTTATATATATTTTGTGCATCATGCATATATATAACAGGATATTTTTTATCACTTTTTTCATAATCATTTGGTAAATAAATTCTTACTTTTCGATTTTTTTTTAATTGTTTAATATAAATTTCCTCTGTTATTATTTTTCCCATTTTATTATCTCCTTAATAATTTTTATATACTTAATTTTAATATACCATTATTGTTTTGAAATATCAAAAAAAATCAAGTGCTTATTACACTTGATTTTTTTGGTACAAGGAAAGGGACTCGAACCCTCACTGGCTAAGCCAACTACCCCCTCAAAGTAGCGTGTCTACCAATTCCACCATCCTTGCATATTCTTTTTTTGCATAAAATTTTATCATGATTTTTATAAAATTTCAAGCTCTTTATAAATATTTTGTAATATCTATTTTTTCTTTTATAATAATATCTTTTATATTATTTGTATAAATTTTTATATAATTATCTTTTACTTTAAAATAGTATCCATCAAACCATGAAAATAATTTCAAAAAAAACAATTTATAATTTTTTTCTAATTTTACTAAATCAACTTCTTCTAAATCTAAATAATTTTTTTCTAATTTTATTTTTTTTATAAATTTTTCTTCATAATTTATGCTAAATATACCTATAAATATCATAATTTCACCTCAAAATATTATAGCAATATTTATTCAAATCATCAATGAATTTAATTCTTTATTTTTTTTATAAAGAAAAATAGCTTGAAATTTTATTTTAAATATGAAATAATATATTAGTGATATTAATTTAAAATTTTACAGGGGGAATATTTATGAAAGAAATTAAAGCTTTTATAATAGTGTTAATATTATCATTATTTGTGATTTCTTGTAATAAAAAAAATACAAATAATTCAGGAAGTATTACCAAAAAAGCACCATTAAAAGTAGGAATGGAATTAAAATGGCCACCTTTTGAAACTATAACTGAAGATGGAAAACCAACTGGTATTAGTGTTGACTTAGCTTATGAACTTGGAAAGTATTTAGATAGAGATATTGAAATAGTTGATACTTCTTTTGGCTCATTAATACCTGCGCTTGAAACTGGAAAAATTGATATAATTATAGCATCTATGTCTATCACAAAAGAAAGAGCAGAAAAAATAAATTTTTCAAAACCATATTTTTATTTTTCATTAGTTACTCTTTTAAATAAAAATAGTAATATTAAAGATAAAAAAGAATTATTTTCAAGAGAAGGGTTAAAATTTGTAGGGCCCAAAAGTTTTGTAGCTTTAAAAATACCTAAAGAAAAAGCTAATAATCCAAAATTATTGGAATTTGATGATAAATCAAGTGCTGTTCTTGAAGTGGTTCAAGGAAAAGCTGATGCTTTTATTATAGATGCTATTGCTGCATCTGAATTTTATAGTAAATATCCCGAACAAACAGAAATACTATGGGATCCTGTTGAACAAGCTAAAATAGGAATGGGACTTAGAAAAAGTGATACTGAATTACTTGAAAAAGTAAATACTTTTATAAATGATTTAGAAAAAAATGGAGTTTATAAAAGATTGGCAGAAAAATATAATAGTATTATAGATAAAAGTTTACCTGGTCAAACACTTGATTTTTACACTACACCTATAGGAGATGAATAATGAATTTTAAAAAACAATCTATAAAAGGCTTTAATTTCTTTTTAGCCTTTTTAGTATTCACTTACTTTGTATACTTTATAATAAAAAGAATACCTTCTAGTAATTTTAGTTTTTCGTTTTTAGCACCATATAAAAATTTAATTATACAAGGTTGGCTAAATAGTATTTTAATTAGTATAATAGCCCTCTTTTGTAGTTTAATAATTGGGTTTGTTATTTATATAATGACTATAAATAATATACCTTTTTTACGTTATTTTATAAAATATTTAGCTATTATTTTTAATGAAATAATTTTCGGTTCACCACTTCTTGTATTTGTGTTAATAATCTATTATTTTATTGGAACTGCATTTAACTATTCCAATAGAATGGTTCTTGGCACTGCTGCACTTAGTCTTTATATGGCACCATATATGACAAATTTATTTAAAGGCGCTATTGAATCAATAGATGAAAATCAACATATGGCAGCAAAATTATTTGGTTTTACAACTATACAAAAATATCAATATATAATTTTACCTCAAATAATAAAAATTATTATGCCGCCATTATCTGGAAATTTAACTTTTATAATAAAAGGTAGTTCTATCCTTTATGTTATTGGATATAAAGAACTTTTTTATTCTATTTCAACTGCGCAATCACGTACTTATGCTTTTACAGAAGGATATATTTTAATGCTTGTTTCATATTTGTTAATTACAATTCCTCTTATCAGAATTACGAACTATCTTGAAAGAAGGTATGCCTAAATGAATCTAACTATTAAAAATTTAAAAAAAGATTATGATAAACCTGTTTTAAAAGGAATAAATCTTGAACTAAAAAATAAAAATATTATTGGAGTAATTGGTCCAAGTGGTGGCGGAAAGTCTACTTTTTTAAGACTTGTTGCAGGGCTAGAAGAATTAACAGAGGGAAGTATAATTGTAAATGGATTAGAAATAACAAAAGATAAAATAAAAGATTACCATAAAAAAATAGGTTTTGTTTTTCAAAGTCATAGTCTATTTCCTCATTTAACAATTTTAAGAAATATAACTTTAATATTAGAAAAAATACATAAAATTAATAAAAAAAACGCTGAAGAAAAAACCATCTATTTATTAGAAAAATTTGGATTATTAGAACATATGCATAAATTACCTGAACAATTAAGTGGCGGTCAATCTCAAAGAGCCTCTATTGTACGTTCTCTTGCTATTAATCCTGATATACTTTTTTTTGATGAACCTACAAGCTCTTTAGATCCAATTCTTACATATGAAGTATTAGAAACTATACTAAAATTAAAAGATGAAAAAAAAGATTTTATAATAGTAACACATGAGATTGGATTTGCTCGAGATGTTGCTGATTATATTCTTTTTATTGATGAAGGAAAAATTATTGAACATGGACCACCTAATATTCTGTCTTCGCCTAAAACTAAAAATCTAAAAATATTTTTATCAAAAGTCTTGAGTTGGAATAAAAACTAAAAAAAGACCTTAGTACCATGAAAACTAAGGTCTTTTATATTATTCTTTTATTAATTTCAATACTTCTTTTGGTTGTGAATTTGCTTGGGCTAACATTGCTGTTCCTGACTGAGATAATATTTTTTCTTTTGAAAATGATACCATCTCTTTAGCCACATCCACATCTCTTATTCTGCTTTCTGCTGCTTGCAAATTTTCACTTGCAACTCTAAGATTATTAATTGTATGTTCAAGTCTATTTTGCATAGCACCATATTTTGCTCTTTGTTCTGATACTTTTTCTACAGCTTTATTTAATACAGATATTGCCTTTTCAGCATCACTTGAAGTAATTACTGATACTGCTTTATCTGATGATATTACTTCTTTTTTAGTATCATTTCCTCTTCTATCTGTTGTAGCTTTTACTTCTTTACCTGCTATCCCCAATGCATAGGCATCCATTTTATCAAAAGTTACTACAACAGTTTGCCCTTCATTAGAACCTATTTGAAATTTTAGTCCTTCATTAGAGCTATTATTTTTAGGGTCATATCCATATTTCCCAGTTAATAATTGTTTTGTATTAAATTCTGTTGTATCTGCAATTCTATCAATTTCTCTTCTTAATTGATCCATTTCTTGCTGTATTACTCTTCTATCTGCATCTGTATTTGTATCATTAGAAGATTGTACAGCAAGTTCTCTCATTCTTTGTAAAATAGCATGTGTTTCATTTAATGCTCCTTCTGCAGTTTGAATAAGAGAGATGCCATCCTGTGCATTTCTTACCGCCATTTCAAGTCCTTTTATCTGGCTACGCATTTTCTCAGAAATTGCAAGTCCTGCTGCATCATCACCAGCTCTATTTATCTTTACACCTGAAGATAATTTCTCTAATGACGCTGCTTGCCTCTCTTGAGTTTCACTCAAGTGTCTATAAGCATTTTCTGCTCTTATATTATTATTAATTATCATTTTTTAAACCTCCCTCCGTGTTATTATTTGGATATTCCTTCCATGAACATCCTGGTTATTTTTATAACGGGCCCGTCTTTAATAACCATTTATAATTTTTAATAACTTTTTCAAATTATATTTTTATAATTTTTTCTAAAAATTACAATAGTTATTAAATTTTAACACGGAGAAAGGGTTACTCAGATAGCACAGGGCTACCTAAGTAACTGTAATATATTTTGAGGCGCAGTATTTGCTTGAGCTAACATTGCTGTTCCTGACTGAGAAATAATTTTATCTTTTGATAAAGCTACCATTTCTTTTGCCATATCTGTATCTCTTATTCTGCTTTCTGCTGCTTGTAGGTTTTCTGCAGATACAGCTAAATTATTTATTGTATGCTCTAATCTATTTTGAACAGCTCCATATTTTGCTCTTTCTTCTGATACTGTTTCAATTGCGTTATTTATTGTTGTTATGGCTTTTTGTGCCGAATTTGCATCTGTAACTGAAATTGCATCTCCAGTATCTACTTCTTTAGTACCATTATCTGTTTCTATTCTTTTAACCTGTGCTATCCTAAGAGTTTTAGCACTCATATCATTAAATGTAAGTTCTACTGTTTGTCCTTCATTTGCTCCTACTTGAAATCTTATTTTAGAGCCATTTTGACCATTAAAATCTCCATTTAATAATTTTTTTGTATTAAATTCTGTTGTTTTAGAAATTCTATCTATTTCTTGACGAAGTTGATTCATTTCTTTTTGAATTTGTTTCCTATCACTTTGAGTATTTGTATCATTTGCTGCTTGTACAGCAAGTTCTCTCATTCTTTGTAATATTGAATGAGTTTCATTCAATGCTCCTTCTGCTGTTTGGATTAATGATATCGCATCTTGTGAATTTTTTCTGGCCATATTAAGTCCTTTTATTTGGCCCCTCATTTTTTCTGATATTGCTAATCCTGCAGCGTCATCTCCAGCTCTATTTATTCTTAAACCTGAAGACAGTTTTTCCATTGATTTTGATACTCTGTTATTTACATCTGTTAAATTACGATACGAATTTAAAGCTGTAATATTGTTATTAATTATCATTGTTATCATCCTCCTTGATTTTTTGCTTCCATGCTACGATACTCGGCCGAGATTCGTTAAATTTGGTGATACTTTAGTCACCACATCTACATTCAGAAGACACGGTTTGGGGACAAAATTTCATCCTAAATCCAAACATCGTGACTAAAGCTCAATATCAAAAAGAAATTAAACTTTTCTGAAGCTATATCTTGGAGGAATCAAACAAATTAAAATATTTAATTGTCAATTTCCAGTTTTGAGGATGATAATTAAAAAGTTTATAGTCAAGGCAAAGCGAAAAATATTTAAATTATATTAAATTTAGATTTCGCTAAGCCAATATATAAAAATTTTTATTATCTAAGTAATTGTAATACAGATTGTGGTTGTGTATTTGCTTGTGCTAGCATTGCTGTTCCTGACTGAGAAATAATTTTATCTTTTGATAATTCTACCATTTCTTTTGCCATATCTGTATCTCTTATTCTACTTTCTGCTGCTTGTAAGTTCTCACTTGCTACTGATAAGTTATTTATTGTATGTTCTAATCTGTTTTGCATTGCTCCATATTTTGCTCTTTCTGCTGATACTTGTTCAATAGCATCGTTTATTACTGTTATTGCTTTTTCTGCACTTTTTGATGTTCCTACATCTAACGCTGTATCTCTTGTAGCTACTGTTCTTGTATTTCCTTCTGCATCTGTTATTGTTCTTTTTCCAGCTACTCCTAATGAAGCTGCTCCCATATCTCTAAATGTAAGTTCTACTGTTTGATGCTCATTTGCTCCTACTTGAAATCTTAATCCTTTATCTTTAAACTCGCCAGTTAATAGTTTTTTTGTATTGAATTCTGTTGTTGTTGATATTCTATCTATTTCCTGTCTAAGTCTATCCATTTCTTTTTGGATTTGACCTCTATCAGAGTCAGTATTTGTATCATTTGATGATTGTACTGCAAGTTCTCTCATTCTTTGTAATATTGAATGAGTTTCATTCAATGCTCCTTTTGCTGTTTGTATTAACGATATCGCATCTTGCGAGTTTTTAGTGGCCATATTAAGTCCTTTTATTTGACCTCTCATTTTTTCTGATATTGCTAATCCTGCAGCGTCATCTCCAGCTCTATTTATTCTTAAACCTGAAGATAGTTTTTCCATTGTTTTTTCTACTCTGTTATTTACTCCTGTTACATTTCTATAAGAATTTAATGCTACTATGTTATGATTGATTATCATATAAATCATCCTCCTTGATTTTTAATTGTTTTTGCTTCCTTGCTATGATATCCCGGGATTATATCATAAATTGGCAGCTTCCAGCCACCACATATATATTAAAATTTTTAATATATATGCAGAGGCTAAAACAATAAAAATCAAGAAGTTTTTATCACGGGAAAACTTATATAATAAATTTTATAAGTTTTCCCAAAATTTATATAATTTTATTATTTACTATTTTAATAATTGTAATACAGCTTGTGGTTGTGTATTTGCTTGTGCTAGCATTGCTGTTCCTGACTGAGAAATAATTTTATCTTTTGATAATTCTACCATTTCTTTTGCCATATCTGTATCTCTTATTCTACTTTCTGCTGCTTGTAAGTTCTCACTTGCTACTGATAAGTTATTTATTGTATGTTCTAATCTGTTTTGCATTGCTCCATATTTTGCTCTTTCTGCTGATACTTGTTCAATAGCATCGTTTATTACTGTTATTGCTTTTTCTGCATTTTGTGATGTTTCTACATTTACTGCTGTATCTCTTGTTGTCACTGTTCTTGCATTTCCTTCTGCATCTGTTACTATTTTTTTATCTGCTACTCCTAATGAAGCTGCTCCCATATCTCTAAATGTAAGTTCTACTGTTTGCCCTTCATTTGCTCCTACTTGAAATCTTAATCCTTTATTTTCAAAATTTCCAGTAAATAATTTTTTTGTATTAAACTCTGTTGTTGTTGCTATTCTATCTATTTCTTGTCTAAGTCTATTCATTTCTTTTTGGATTTGACCTCTATCAGAATTAGTATTTGTATCATTTGCTGCTTGTACTGCAAGTTCTCTCATTCTTTGTAATATTGAATGAGTTTCATTCAATGCTCCTTCTGCTGTTTGTATTAACGATATCGCATCTTGCGAGTTTTTAGTAGCCATATTAAGTCCTTTTATTTGACCTCTCATTTTTTCTGATATCGCTAATCCTGCAGCGTCATCTCCAGCTCTATTTATTCTTAAACCTGAAGATAGTTTTTCCATTGTTTTTGACACTCTGTTATTTACATCAGTCATATTTCTATAAGAGTTTAATGCTACTATGTTATGATTGATTATCATTTAAATCATCCTCCTTGATTAATTTAGCATCCATGCTATTTTCAACCACTAATAAAAAACTAAAATTATAGTTTTTCAAATGACATAATTTTAAATGTGCACATTTTAAAATTTGGTAATTTTAATTACCACACTTATACTTAAAATCTTCAGTATAAACATTGTAACTAAACCTGTCATTTTAAATAGGATGATTTATTATTGGAACTTCTTAAATTTTTTAAGAAGTTCCAAATATTATTTACTTAATTATCTAAGTAATTGTAATACTGATTGTGGTTGTGTATTTGCTTGTGCTAGCATTGCTGTTCCTGATTGAGATATGATTTTATCTTTTGATAAATCAACCATTTCTTTTGCCATATCTGCATCTCTTATTCTACTTTCTGCTGTTTGTAGATTTTCTGCTGCTACATCTAAATTCTTTATACTATGTTCTAATCTATTTTGCATTGCTCCATACTTCGCTCTTTCATCTGACACTCTTTCTATTGCGTCATTTATTATTGTTATTGCTCTTTCTGCACTTTTAGCATTAGTTATATCAACTGCAGTATCTTTACTACTTCTTCTTGATATAGTTCCATCCTCATTTTTTACTGCTTCCCATCCATTAATTTTTAAAGCTTTTGCTCCCATATTACTAAAAGTTAATTCTACTGTTTGCCCTTCATTTGCTCCTACTTGAAAAATAAGTCCTTTTCTAGCTAAATTTCCTGTAAATAGCTTTTTAGTATTAAATTCTGTCGTATTAGCTATTCTATCTACTTCTTGTCTTAGTCTATCCATTTCTTTTTGTAATTGCTTTCTATCACTATCAGTATTTGTATCATTTACAGATTGTACAGCTAATTCTCTCATTCTTTGTAGTATTGAATGTGTTTCATTTAGTGCTCCTTCTGCTGTTTGTATTAATGATATTGCATCTTGTGAGTTTTTAGAAGACATTTTTAACCCGCTGATTTGCCCTCTCATTTTTTCTGATATTGCTAGTCCAGCGGCATCGTCTCCTGATCTATTAATTCTTAGACCTGAAGATAATTTTTCCATCTCTTTTGACATTCTGTTATTTGTTAATGTAGTTGATCTATATGCATTTTCTGCCACCATATTGTGATTAATTCTCATAATTTTCATCCTCCTTGATTTTTTTAGCATCCTTGCTAATTTTTGATGACACTCTTTCCCTAAATATTTAGTATGTTGATTATATAACCACCACAGATATTTTTAAATATTTTAAATGTTTAAAAACATTTGCTGTAATTATATACAGCATGAGTTATCATCTTTTTAAGGAGGATTTATAGAAAAGCCAAAAGGCTTTTCATAAATCTTTTATTTTTTTAAATATATTTTATTTATAATATTTTAATTTGTTTTATCCTTTTAATAATTGTAATACTCCTTGTGGTTGTGCATTTGCTTGTGCTAACATTGCATTACCTGATTGTGATATGATTTTATCTTTTGATAATGATACCATTTCTTTTGCCATATCTGCATCTCTTATTCTACTTTCTGCTGCTTGTAAATTTTCACTTGATACTCTTAAATTATTTATTGTATGTTCTAATCTGTTTTGTAATGCTCCAAATTTCGATCTCTCATCTGATACTGTTTCTATTGCATTATTTAATATTGTTATCGCTTTTTCTGCTTTCTCTACTGTTGTTACATCTACTGCTGTATTTTCTGTCTGTACATATCTTTTTTCTTTTGTCCCATCTTCTTTTGTTATTTCTACTTCTCTTACTTCTGCTATTCCTAATGCTTTTGCTCCCATATCATTTATATTTAGTGTTACTACTTGATCTTGATTTGCTCCTATATGGAAACTTAATTTATTATCTTTGAATGATCCATCTATTAATTTTTTTGTATTAAATTCTGTTGTTGTTGATATTCTATCTATTTCCTGTCTTAGTCTATCCATTTCTTTTTGAATTTGTTTTCTATCACTTTGTGTATTTGTATCATTTGCTGATTGTACAGCTAATTCTCTCATTCTTTGTAATATTGAATGTGTTTCATTTAATGCTCCTTCTGCTGTTTGTAACATTGATATTGAATCTTGAGCATTTTTTGTTGCCATATTAAGTCCTTTTATTTGACCTCTCATTTTTTCTGATATTGCTAGCCCTGCTGCATCATCTGATGCTCTGTTAATTCTTAATCCTGAAGATAATTTCTCCATTGTTTTTTCTACTCTTGTATTTACATCATTAAAATTTCTATAAGCATTCATTGCTGTTAAATTATGATTGATTATCATTTTTCATTCCTCCTTGAATTTTAAACGGCTTCCTTGCCTTTATTTACTTTATTTACTTTTTTTACTTTTTTTAAATATATTTCATTTATAATATTTTAATTTGTTTTATCCTTTTAATAATTGTAACACTCCTTGTGGTTGTGCATTTGCTTGTGCTAACATTGCATTACCTGATTGTGATATGATTTTATCTTTTGATAAAGATACCATTTCTTTTGCCATATCTGTATCTCTTATTCTACTTTCTGCTGCTTGTAAATTTTCACTTGATACTCTTAAATTATTTATTGTATGTTCTAATCTGTTTTGTAATGCTCCAAATTTCGATCTCTCATCTGATACTGTTTCTATTGCATTATTTAATATTGTTATCGCTTTTTCTGCTTTCTCTACTGTTGTTACATCTACTGCTGTATTTTCTGTCTGTACATATCTTTTTTCTTTTGTCCCATCTTCTTTTGTTATTTCTACTTCTCTTACTTCTGCTATTCCTAATGCTTTTGCTCCCATATCATTTATATTTAGTGTTACTACTTGATCTTGATTTGCTCCTATATGGAAACTTAATTTATTATCTTTGAATGATCCATCTATTAATTTTTTTGTATTAAATTCTGTTGTTGTTGATATTCTATCTATTTCCTGTCTTAGTCTATCCATTTCTTTTTGAATTTGTTTTCTATCACTTTGTGTATTTGTATCATTTGCTGATTGTACAGCTAATTCTCTCATTCTTTGTAATATTGAATGTGTTTCATTTAATGCTCCTTCTGCTGTTTGTAACATTGATATTGAATCTTGAGCATTTTTTGTTGCCATATTAAGTCCTTTTATTTGACCTCTCATTTTTTCTGATATTGCTAGCCCTGCTGCATCATCTGATGCTCTGTTAATTCTTAATCCTGAAGATAATTTCTCCATTGTTTTTTCTACTCTTGTATTTACATCATTAAAATTTCTATAAGCATTCATTGCTGTTAAATTATGATTGATTATCATTTTTCATTCCTCCTTGAATTTTAAACGGCTTCCTTGCCTTTATTTACTTTTTTTACTTTTTTTATTTTTTTATATTTTTTTATTTTTTTTTATTAATATCATCACATATATTATACCTCTACATAATTTAAAATAATTATATAAGGAATATATATAATAAAATCTTTACAGCATTTAAATAAAACACTTTAAAATCCTATTTTATTTTATTGTCAATGTACTTTTATTATTTCTAATAAAAACATAATAATTTTATTATATTCACACCAAAAATAATAGTTACTTTTTTATTTTTTACTTTTTTATTTTTAATAAAAAATTATTTTTTTATTAAAGTGTATCTTTTTTATTATGATATTACACCAAATGGTGTAATATCATAATATTTATCCTCGTAATAGTTGTAATACTCCTTGTGGTTGTGCATTTGCTTGAGCTAACATCGCAGTTCCTGATTGTGCTATTATTTTATTTTTCGAAAATTTAACCATTTCTTCTGCCATATCTGCATCTCTTATTCTACTTTCTGCTGCTTGTAAATTTTCTGCAGATACTTTTAAATTGTTTATTGTATGATCTAATCTATTTTGCATAGCACCGTATTTAGCTCTTTCATCTGATACTTTTTCTAAAGCATCATTTATTGTTTTTATGGCTACTTCTGCTTCTCCTACTGACATTACTGATATTGCTGTATCTTCAGAATCTACTAGTTGAGTTTCTTTCACTTCTTGCCCATTTGCATCTAATATAGGATTCCCTGCTTCATCTTTTTTTATTATTTCTTTCTCTATTTTTCCTGCTATTCCTAATGCACTTGCACTCATATCATTTAAAGTAAGTGTAACAGTTTGATCTTTATTTGCTCCTATATGAAATATAAGTCCATTATCTGCATAATCACCATTTAGCAATATTTTAGTATTGAATTCTGTTGATTTTGTTATTCTATCTATTTCTTTTCTTAATTGATTTAATTCTTGTTGAATTTGTTTTCTATCACTTTGTGTATTTGTATCATTTGCTGCTTGTACAGCTAATTCTCTCATTCTTTGTAGTATAGCATGTGTTTCATTTAGTGCTCCTTCTGCCGTTTGAATTAAAGAAATCGCATCTTCAGAGTTTTTAGTAGCCATTTTTAGCCCATTAATTTGACCTCTCATTTTTTCTGATATTGCTAGTCCTGCTGCATCATCTGCTGCCCTATTAATTCTGTATCCTGAAGATAATCTTTCTAATGATTTTTCCACTCTTTGGTTTGTCATTGTTAGATTTCTATAAGCATTCATAGCTGTAATATTGTGATTAATTCTCATACTTCTCATCCTCCTTGAATTTTTTCGACATCCTTGTCTTTTACAATAAAAAAATCCGATTTATTTTCATAAACCGGATAATTTAAGTAGCTATGAGTATTTAGATTAAAATTTATAAAAGCACACTAAAATTTAAGTAAACTAAATAAGTAATTTAAACTTAGATTAATACACTTTTACAAACCTTAATCATCTACTCCATTAGACTTACTTAAACCTCCGTGTTTAAGAATTTTTTATAGAGCTTATTTGCTCTTTTCATATTATATTTATCGTCTCATTTTTTATAAAACTTTAATGTTTTTTTGATTTTTTTGTAACACAAATTTACATTAGCGCTACACAAAGCTTACTAATGCTACTAAAGAATTTGTCTTTTTCGACTACTCCTTTAGTCCATTAAAATAAGCCTCCGTGCTTAACTTTATTTTCTTTACATATTAATTATCGTTCTTTTAGTTTTTTTCTTTAGTTTTTTTTTTAATTTTTTTATTATCTATTTCTACATAATATTTATCGTTCTTTTTTTTAATCACTTTATATTTTTATTAAAATTTTATAAAAATTTTTGTATTTCTAATTCTTTTCTAAGTGCTAAGTCTATTATTTGTCCATCTGTTGTTGCTAATAAAGGTCTTGTTATTTCATTTGAGTTCAATCTAATTATTTTTGCTTTAGTAGAATCATTAAGCTCTACTCCTTGTCCTAAATATATTTCAAAAAATTTTGTAATGAATAATTTTGTAATTTTATTATCTAATTTACTATATGAATAATTATCTATTATTTCCAAAGCTTTAAAAGAATTATATTTTTCTCTATATGCTTTTTTTGAAGTTAATGCATCAAAAATATCTGCTACTGCTATTATCTTTGAATACTCATTTATCTCATTTCCATTTAGTTTATTTGGATATCCACTACCATCAGATCTTTCATGATGAAAACTTGCTGCTTCTATTGTTTCTTTTGAAAAACATCCAAATTCTTTCATTATATTTTCTGTTTCTTTTGCATGTGACATTATTATTTCATATTCATTATCTAATAATCTTTCTTCTTTATTTAATATTTCTTCTGGTATTTTAATTTTTCCTATATCATGAAAAAGCGCCGCTACAATTAATGTATCTAACTGTTTATCTGTATATTTTAACCATTTTCCTATTGTATAGGATAAAATAGCTACATTTAAACTATGATAATATAATTGCCCTTCTATTATTCTATCTTTTGTAATATACTCTAAAATATAAATTATATCTTTATTAAAATTTTGTTTAATAAATTTAACTACCGAAGCAATTATAGTTTTTCTTTTTGCAACGTCAACATTATTATTTAAAAATAATTTTTTTATAATATCTTCTAATTTATTACAATTTTCTGTTACTTTTTCTTTTACTTCAGGTCTACCAAATTTTTTTAATTCTACTTTTGAGTTTTCTATTTCTTCTTCTTCTTCAAAATATTCAAATCTTTTTTTAGGAGCGTCTTGTTCTCTTACATCTATTTCTATTACTTTTTCTTTTTTTAATCTATTTATTAATTTATTTGAAAGCCTTACTCCAGATGAAAGTAGTATTTTCCCGTATTCATCATAAACATCCGCTAAAATAATCATTCCTTCTTTAGCTTCATTTAAATCTATTCTCATATATAGAACTTCCCCCTTATTTTTAATAATTAATTTAATAATATCACGTACTGTACATTATGTCAATAATTAGAATTTTTTTAGTTATTAATTGAAAATTGCAAGTTTAATTGCACACATCTACCCCTATGCTAATTTAACTAATTTTTCTTCATAAACTTCATTTGGACTTTTAAATCCAAACAT
>sequence07
ATATTGTTTTTAGTGATTCAACATTTTAGCATAGATTCTTATTAGATGTGTCTTTTTTTTTATTTATTTGTGCAATTAATTATACAATGTTCCAAATTTTAAGGATATTTTAAAAAGAAAATTATAAAATCAAAATAAAGAGAGTCTAAATTTAACATAAAAGCTTCAAATATAAAAAAATTTGATATTTATAAAAAAATACTTTACAAAATTTTAAATATATTTTAAGCTAAGATATACTAAAAGAGTTAGAAAAAACTCAATTATTTGTTTTTACTAAAAATAAATCATAAAATATATGAATGCGGGGATAAGATGAAACATATTTTAAAAAAAAGAAATATAATTTTTGTAATAATAGTTTTTATAATAACAATATACTTCATGTTAAAAAATAATTACATACATAAAGAAATGTTTAAAAATTTGAATTATTTTTATTTGTTGATAGGAATATTGATTTCTTTTGGTGTTTGGGTTAGTGAAATTTTAATGCTAAAATCGATTTTACATAAAGATATATCAATTCATGATAGTTTTGAAAATATTGCACTTGGACAGCTATTTAATGGATTAACTCCTTTTGCTAGTGGAGGTCAAGTAGTTCAAATATATCATATGAATAGTAAAAAAGTAGCATATGCAAAATCTACAGCGACTCTTTTTATAATGTTTTTTATTTATCAAATAATTCTTACAATTTTAGGAATAATTAGCATATTTTTTAAATATAGTTATTTTAAAGTCGTTTTAAAAGAAAAAATATATTTTATTTTTTTTGGATTTACATTAAATTTAATAATAGCAATATTTTTAATATCATTATTTTTTATATCTAAAAATAGTGGTAGATTTATGTTTGGAGTAATCAAAAAAATACCTTTTTTAAAAGAAAAATATAAAAATAAATTATACATAAAAATAAGAAAATTTATAAAAGAATTTTATTTAAGTATAAATATTATAAAAAATGATAAGAAAATAGTAGTAAAGTTAATAGTACTAAATTTAATAAAATTATTTTGCATGTATATAATGCCATATTTTATAATACTGTCGCTAAAAGAAAATATAAAATTGGAAATATTACTTCCTGGAATGGCATTTTTAAATATGATAACATCATTTATTCCTTTACCAGGCGCAAGCTTGGGAGCAGAAGGTGGATTTATACTTATATTTCATAAATTTTTATTACAAAAAAATATATTTTTTATAATGTTTTTGTGGAGAGTTTTATCATATTATTTAAATATTTTAGTAGGTTCATTAATAATGATATATATTATTTTAAAAGAAGAAAAAGAGATAAAAAATTTTATTAAATAAAGAGGAGGGGTTATGAAAGTACTACTTTATTCTGAAGGAAAAAATTTATTTAGTAAATCAGGAGTAGGAAAAGCATTAGAACATCAAATGAAAGCTCTAGAATTGAATGGGGTTTCTTATACTTTAAATCCAGAAGATAACTATGATATAGCACATATAAATACAATAGGGATAAAAAGCTTGAAATTACTTAGAGAATTAAAAAAAAGAAAAATCCCTGTTATATGTCATACTCATACAACATATGAAGATTATAAAAATAGTTTCTTTTTTAGTAACTTTACATCTAAAATTATAAAATTTCAGTTAAAACTCATGTATAATATGGCTGATTTTTTAATATATCCAAGTAATTATACAAAACAATTGATAAAGAGTTATGATATACATAAAAAAGGGGCAGTAATATCAAATGGAGTAGATATTAATGAATTTGAAAATAAAAAAGAAAAATTAATAGAAAAATTTAAAAAAGAATTTGAAATAGATAAACCGATAATAATGTCGGCAGGACTTCCATTTGAAAGAAAAGGTGTAATAGATTTCTATGAGTTAGCACAAGAGATGCCAGAGTATAACTTTATATGGTTTGGTGCTAAAATGACAAAATTATTGCCTAAAAAAATAAAAAATATTCTTGAAAACCCACCAAAAAATCTTATTTTCCCCGGATATGTATCAAGAGAAGTTTTATTAGGAGCTTACTTAGTTGCAGATGTGTTTTGTTTTCCAAGTTATGAAGAAAACGAAGGAATAGTAGTACTTGAAGCTTTAGCAGCAAAGACTCCGATTATTATTAGAGATATACCAGTTTATAGAGATTGGTTAAAAGATAAAAAACATTGTATGAAAGCTAAAAATAAAGATGATTTTAAAAAATTAATATCTCTAATAATAGAAAAAAAAATTAAATTAAATGGATATGAAGTAGCAAAAGAAAGAGAATTAGAAACTATAGGAAAATATCTAAAATCAATATATGAATATCTTGTATATGAAGAAAAAGAAGAAATTCATAATGGAATAATATAAAGTTTTGGTAATATTCTCCGATAAAAAATATATAGATATTCAAGGAGTGAATATTAAGTAATTAGTCCAAGGAGGGATGAAAAATGAAAATCGGAAGAATAAATGGATATACTGCTTATTATAAAAGTAGTATAAAAAAAGAGCCACAAAAAACAAAAAAGCAACAATATGTTGCACCACATGTTGAAAAAAATATTGATAAACTAGCAAGTAAATTACAAAAAATAGGATTATATAATAAACAAGGTGCCAAAATTGTTGCAAAATCCATTGTAACGGGCAATATAAATATTGTAGCTTAAAACTAGAAGTTTTTAAACTTCTAGTTTTATTTTTATTTATTCTATTAACGTTTCCAAAATATTATAAAAAAATTCCAAAAAATATAGAATGAATATTGACTTTTTTGTTCTAATATGATATATATTATACTGTAATAAGATTTTTATTAGAATATAGTGGAAAACAAATTATTTTTTAATAAAGATTGATTTGTAATTATACTTTTAAGTTTATTTTTTTTAAATAAATATTGGAAACGATATTGAAAAAAGTTTTATTAAATAAAAAAGGAGGATTATATGAAAAGAAATATTAAGGCAGTATTTTTATTAGTTATTTTATTTAGTTTTGTTTTTACTAGTTTTTCTTTTGCTGAGGAGAAACTAGTTGTTTTACCGGGGACAATACAAAGTGCACTTGGGGGAACAGATTGGGATCCAGCAGGCGATGTAACAAAAATGACAAATATTGGAAACGATATTTATCAATTTAAAGGAATTTTTCCAGCTGGAAAATATGAATATAAAGTAGCAGTAGGTGGAAGTTGGGCAGAGAATTATGGAATGAATGGAGAACAAGATGGAAAAAATATTAAATTAGAAATTCCAGAAGATAATACAGAAGTAACATTTACATTTGATTATAATACTAAAAAAATTACTGATAGTATTAATGGAGAAGCTGTTGTAGAAGAAACAGCACCTAAAGTAGCTGTATTAGGAGGATTAGAAATAAGATTACCAGGGACAATACAAAGTGTACTTGGGGGAACAGATTGGGATCCAGCAGGCGATGTAACAAAAATGACTCATATTGGTGATGATGTATATGAATTTAAAGCTATATTACCAAAAGGAAACTATGAGTATAAGGTAACAGTAGGTGGAAGTTGGGATGAAAACTATGGTAAAGATGGTGCAGCAGATGGAAGTAATATAGAGTTAACAGTTCCAGCTGATAATACAGAAGTAACATTTACATTTGATTATAAAACAAAATCTATTTCTCATAATTTAGAAATAGTAGGAGTTAATTTTATACCTGTATTAACAAATACATTTGAAAAAAAAGGTAAAGATGCAGATATTAATGTAACAAATGAATTTGAATTTGGAATATTATCAAAAAATTTAACAGTTAATTCAAAAACTAGCTTAAATTTTGATTTAGATCATAAAAAATATACTATTGTAGATAGTTCAATAGAAAAAGAAAACTTATCATTAAAAGATGTAGAAATAGAAGATTTTTCAGCGGATTATAAAATAGGAAACTTAACAGTTGGAGGAATGATAAATAAATCATCATATGAAAAATCTACAGATTTTTTAGGAGTAATAGATCCAAATACAGGTAGTGATGATAGAGATAATACTAAAAATCCAGAAGATATAGCAAATAATAATATAGCAGGAAAAGTATCATACAATAATGGAATAAAATTAAATGCGGCAGTATCTAGTTATAAAGCAGATATATTTGAAGAATCAAAAACTAAAAAAACTTTTGGATATTTGAATTTAGAAAAAACATTTGCAAACGATAAAATAAAAGTAGGAACATCAAATGGTTTATATTCTGTAAAATATGATGGTAAAAAAGAAAATACAGCAATTGATTCAACAGTATATGGAGAAATTAAAGTAAATGATAAATTTTCTTTAAAAACTGAAGTAGGATATGTACCAACAGGAACAATTGAGACAGCTATTACAGGTACACATAAAAATGGAACTAATTGGGACTTTATATTTGATCCAGCGGATTATGATATAACTGATGATATTTCAGAAGTACATTTAGTAGGTGCGTTTAATGGTTGGGATCCAGCAGATAAAACTTATACATTAACAGAACAATCAGATGGAACTTGGACAGGAACATTTGCAGACTCAGTAGTAGGTGGAAAAGAATATAAATTTATATATGATGCAACTTCATGGAATGGAAATGAAAAAGGATTACCTGAAAGTTCTGGAAGTAATGCAAAAGTAGAAGAAACAAATAGACTTGATCCAAAATTAGATTATGGATTAAATTTATATTTTGCAGAAGCAAATTATAATTTATTTGATAAAGGAAACTTAAAAGTTGGAACTAAATTTTTAAAAGCTAATACATATATGCCATTTGCAAGTGATGATTTATTAGATGACAGCTCAACAGGGTATGTGGATAATTATTTAAACGCAGATTATAAAGTATTAAAAAATTTAAAATTATATGTAGAAAAAACTCATAAAACACAAGAAGTAAATAGAGATAAATTATTATCAACTAGATTAAAAGCAGGATTTGAATTAACAGAAACTCCAGTAGTAAGCTATGTAAAAGGATATTATTTAGCAGATCCACAAGATTCTAATTTTAATGCAGAATTAAAAGAAATATTTATAGAAACAAAAACAGAAAAATTACCATTAGTAAAATATATAACTGTAAATACAACTCAAAGATTTGAATCAAAAACATCTCAATACTATGTAGAATCAGAATTAAAAGAATTTAGTAAAATGATAGAATACGTAAAAGGTAACTTAACTTATGCAGTAGATGATGTTTATTATTCTGATCAAGATGGTAAAGCAGTTCAATACTGGACAGAAGCAAAAGCGCACAATTTACCAATAGTATCATATGTAAAAGCAGGATATGAGTCAGATGATAATGGCGGAGATGGAATAGTTGAAAGAAGTGATTATAAAGATCAAGATGATAATGATTGGTTGAAAAAATTCTATGCTGAAACAAAATTAGAAGCAAAATCATTAAAAAATTGGGATGGACTTACAGTTAATTATGAAACAAGAAAATTAGAAGAAGGGAAAACTGATTATACTCCTTCTGATTTAAATCAAGATGAGCAATATTATGTAGCATCAGAAAAATCATTTATTGATTGGTATTCAATATTAACATTTACTACAGGATATAAACTTCCTTTTGATATACAAACTAATTTTACATATAAATATGATTTAGCTCATAAAAATACATCAGAATTTGAAGATGACGCAATGAAAGTAGAGTTAGAGAAAAAAATTGGTATAACTACAATAAATGCTTCATATAATAAACAAGATGGAGATGAAGGAGAAGATTATACTAAAGTAAGCTTTAAATCAGTATTTTAATCTAAAGGGGGGGATCCCCTTTAGAATTTTAAAAAATGAAATCAATCAAAAGGAGTGATTAGTTTGAAAAAAATATTAAATATATTTTTAATATTATTATCTTTAGCAATAATAGGTTGCGAAGGTATGTTAAAAGATGCAAGTGAGGCAGGAGCTGGATTTGGAGATATAATAGTAAAACAATCAAATATTTTAATAGATTCAAATTTAGAAACAACATCAGGTTCAGGAGTAACAGTAACAGAAGGCGGGATAGATTTCACAACAGCAGAAGTAAAAATAAATGGAACATCTAAAGGGATAGGTGAAAAATTTGAAGGGTTAAAATCTGGAGAATATAAAGTAACAGTAGAAGTAAAATCAATAGATAAAAAAGACTTATATTATGGAACAGAAGTAGTAAAACTGAAAGTAGCAGAAGTATTACAACCAAAAATAACTTTAGATAGTTGGGAATCTGCTGTAAATTCATGGAAAATAACATTTAATCCGACAGAAGCAGGAGTAACAGTAGCAAATGAAGTACATTTAGTAGGTACGCTTAATGGTTGGGACCCAACAGATAAAACTTATTCGTTAGTAAAACAATCAGATGGAACATGGTCAGCAATATATGATTTAGATGAAGGAACAGAATTTAAATTTATTTATGATAGTACAGAATGGAATGGTAATGATATAGGAAATAATGGTGCTAATTATAAATTAGGAACAAATACAGATGGTGTAGCAGAACCAGTGCTTGCATGGAAAATAACATTTAATCCGACAGAAGCAGGAGTAACAGTAGCAAATGAAGTACATTTAGTAGGTACGCTTAATGGTTGGGACCCAACAGATAAAACTTATTCGTTAGTAAAACAATCAGATGGAACATGGTCAGCAATATATGATTTAGATGAAGGAACAGAATTTAAATTTATTTATGATAGTACAGAATGGAATGGTAATGATATAGGAAATAATGGTGCTAATTATAAATTAGGAACAAATACAGATGGTGTAGCAACAATGGACTTTTAATATAAAGTGACATCAAAAAAACTCCTCTTTTTTCCGCTAGAGTTTGAGAAATCTAACTTTAGCGGTTTTTTATTTTACTTGAAATATTTAAATATTTCAAGTAAAATAAAAATAACATTAAAAATGAGAGTATTTTATAAAAAAATCAAGTGTTATAAAAATTATTTAATAGATTTAAAAGGGGAGAAAAAATGAAAAAAATCTTAAAATTATTAATATTATTTTTATCATTATTTGAATTAAGCTTTGCAAGTAATATATCTATTTTAGAAAAAAATATAAATGAAAATGCAAAAAGTTTTATTGAAAAAACTGATTTAGCTATTTTTTATTATACTTTATCTAATGTATCAAATGAATTATCTAATGAAATAAATGCAAATGAAAAATTAAATAATATAATATCAAATAATTTGAAATCAGAAAAAATAAATAATATGGAGATGTTTAATAAAGATTTTTTTTATAGACAGTCTATATTAGATAATCTATATTTTGGAAAACGTATAGGGAAAAAAATTCCAGAAAAATTTAAAGATTTAAATTGGAATATAACAAATGTAGATGATGATAAAGGAAATATAATATTAAATTATATTTTTAAAAGAATTTTAAATGATTTAAAATATAGAAAAATAAATATAAAAAATATGGAAAAGAATATAGAAATAGAATTAAAAAACAAACCATTTTATTATGGATATTTTTTAACCCATATTATTTTATATGATTCAGAGTTTTTTTCTAAAAATATAAACATTTCTCCATATTATAAAATAATAAAAGAATTAGAAAATTTAGTAGATTATGTAATCAAAAATAAAGAGTATGATTTAGGTTATGAGTTGTATATGTGTCTTAGTTATTTTCAGTTATTTGAAAATAAAGAGTATAAAAAACTAGAAAAATTTTTATTCAAAAAAAATGTATTCAAAGATACTATATTAAAAGGTGATACACATTTAAAAGTAGTATATGGTATATCATATGCAATGAAATATGAGTATACTCCAAAAGAAAAAGGTTTTATTGAGTCAATTAATGGTAAAATTTACTATGAGGTATACGGAAGTAAAAGTAAAGAAGAACCGTTAATTCTTATATCAGGTGGTCCAGGTTGGTCACATGAAATATTATACCCATTATTAAATCTTTCTAGAAAAAGACAAGTAATATTGTATGATCAAATCGGAACAGGAAAATCAAATAAAGTTTTAACTATAGAAAATTTATCAATAAATGATTATATTATTGATTTAAGTAATATAATTCAAAATTTAGGGTTAGAAAAAGTAAGTATTTTAGGTCATTCATGGGGAACTATGGTAGCAATAGATTATACTTTAAAATATCCTAAAAAAGTATCAAAGTTAATTTTAGCTTCACCTGTTATAAGTGCAAGTGACTGGGCTAGAGATACAAAAATAAAATATAATACTCTCAAATCTAGTGATAAAGATGATGAATATACAGAAAAATACTTATTAAAAGATTTATATAAATATATGGATTATTTTATAGATTTTAATGAAAATATTTATTTAAAATTATGGGGTGAAAGCGAGTATAATATAAATGGATGGTCTAAAGTATATGAAAAAAAAGAAGAATTAAACAAAATAGATAAGAAAGTTCTTATAACAGCAGGAGAGTTTGATGAAATATATCCTGAAACTATAAAAGATTGGAATAATTATTTAGAAAATAGTAAATATATTATTTTTAAAAATACAAGGCATGTACATTATATAGAAGATAGAGTAAACTTTATAAATGAGGTAAATAACTTTTTAAAAGAAGAAAATTAAATAATATTAAAATATAAAATTCTTGACAAAAACATTAAATAGGAATATAATTATAAAAAATAAAATATAAAATCTTTAGGGGCAGGGTGAAATTCCCGACCGGCGGTAAAGTCCGCGAGTTAAATCATTTAATATTTGTCAAATGATTTAACATGAACTGGTGAAATTCCAGTACCGACAGTAAAGTCTGGAAAGGATAAAGATTAAATAAAAAATAAAATATAGATGAAGAATTTATATTTATTATTGATTTAAAATGCCCCGATTAAAATCGGGGTTTTTTATTTTAAGTTTGATGATCGAAAGGAGAAATAAGAATGGAAAAGAAAAAAATATGGTTAGGCTCAATATTTGTAATAATAGCAGCAGTTTTATGGGGGCTTGATGGAGTTGTTTTAACACCGAGACTTTATAATTTGCCAGTGCCATTTGTAGTATTTTTATTACATGCTATACCATTTGCACTAATGAATTTTATATTTTATAAAGAATATAAAAAATTAAAAGAATTTAAAATACATGATTTGATATTTATGGGGTTAATTGCTTTATTTGGAGGAGCAATAGGAACATTATCAATAGTGAAAGCACTATTTTTAGTTAATTTTCACCAATTATCTGTAGTTGTTCTTTTACAAAAATTACAACCAATATTTGCTATTATTTTAGCTAGATTAATATTAAAAGAAAAAACAGGTAAAGATTTTATAGTATGGGCTTCAATAGCAATAATAGCAGCATATTTTTTAACATTTGGATTAAATGCACCACATATAGATGCAGGAAATAAAAACACAATATTAGCGGCGATGTACTCTATAATAGCGGCATTTTCATTTGGTAGTGCAACGGTTTTTGGAAAGTTTATAGTTACTAATTTTGATTTTAAAACAGCAACATTTTTTAGATATGGATTTACTACTGTAATTATGGCAGGTATACTTTTATTTACAAAAGGATTTATTCCATTAGTAAATGTTACAAAAGCAAATTGGATAATATTATTAATAATTACATTTACAACAGGAGCAGGTGCAATAGCACTTTATTATTATGGTTTAAAATTCATAGATGCTCATATATCTACAATTTGTGAATTAGCATTTCCTCTTTCAGCAGCATTTTTTGATGTGATAATTAATAAAAGTATATTATCTCCTGTACAATGGATAGCGGCTTTTGTATTGATGATAACAATAGTTAAAATTAGTTTAAATCAAAATGAAATAATAGAATATAAAAAAGCATAAAAAATAACAGGAAGAAGCTTAATATTTCTTCCTGTTATTTCTTTTATCTTGATACATCAAATTATCACTTTCTTTTAATATTTCATTTAAATTTTTAATATGCTTTAATTGTTTTATTACACTTCCAATAGAAAAATGAATATTATTATCTTTACAAATATTTGAAATACGTTCAAGAATTAAATTATGAGTATTAATTGTACACTTAGTAATAATTAATACAAATTCATCTCCACCAATTCTAAAAATATAGTCACTATTTCTTATTTCACTTGATATTATTCGTACAAATTCTTTAATTAATTTATCTCCATTATTATGTCCTTTTAAATCATTTACTTTTTTTAGATTATCAATATCCAAAAAATTAAAAGAGATATAGTCATCTGAATCAAGTTCTAGCATTAATTTATCAAAAATTCTGAAAAGAGCTTTTCTATTATAAGCAGTTGTAAGTGAATCATAAAGAGTTTCTTTCTCTAAAATATTTTGTAGAATTACTTTTTTTTCTATTTCTTTTTCAAGTTCTTTAGTTTTATTCATTAAGGTTAATTTTGTAATAAAGAAAGTTTTATCTTGCTTTTTATAAAAAAAAGCAATTATTGAAAAAATAATAGAAAGTAATATTGGAAATATTAAAGTATAAAAATGGTTTGTATTAACTTTATTGTATAAAATTAGTAAAACTAAATTTATATAAAATGGTATTATAGTTATTAATAAAATCAAAAAATAATTTAAAGAAATACTAAAAACAAATTGAAAGAAAAAAATAAATATGATTGTATGAAATAAATTATAATTTGTTTTTAAATTGTTTTCAAAGTTAAAAAAAATTAAAAAATTAAAAAATATATTTGGTAAAAAAATTAGAATAATACCCAAGAAATATGTAATTTTTTTATTTTTTTTATGAGTATAATAAAAATAAATATATATAAAAGATGAAAAAATTAAAGTTATTAAAAAATATATGTTAAAATATTTTAATTTGGTATGAAACTGTAAAAAATATATAGGAACTATAAATAAATTTAATATAGATCCTACAATTAAATTTTTAATAAAGGTTTCAAAACAATATTCTTTATATTTAAGAATAAATTTATTATTTAACATAAAATCTCCTACTTTTTATTTTTAAATTAAATTTTTAAAAAAATACTCTTGAAATTAGAATAAGTAACAAATCCTGGTTTTGAATTAGGGATTTTTTTTACATATTTTTTTTGAGTATAATCAATGGTAATATTACCAGAATTTATTTTAGAATATTTTGCTGCAATTTTTGCAGCTTCTAAAATAATATTTTCCGAAGGATTTTCTCCTTTTATAATTACATGACTTCCTGGGATATCTTTTATATGAAGCCAAATATCATTTTTATCGGCTAATTTAAAAGTTATATATTCATTTTCTTTGTTATTTTTTCCAAAATAAATTTTAAAATTATCTACTATAATATATTCTATATTAATAGTATTTTTCCTTTTTTTTCTGTTATTCTTTTTTATTTTTCTTTTTAAAATATTTTGTTCAATTAATTCATCTTCTATAGAGATTAAAGTGTTTAGATTATCAGCTAAAACAATAAAATTCTTTAAAGTAAATAGATATTCTAATTCTTTTTTTATTTCTTCTTCTCTAATTATATTATACTCTAATTTTTTCTTTAATTTATTGTATTTTTTATAATAAATATTTAGATTTTCTTGAGGAGTTAAATTTTCATCTAAATGTATAGTAATATTTTGATTATTATAAAAATCAAATAGTTCAATGTTTTTTTGATAAGGTTTTATAGAATATAAATTTGCAGCTAAAATATCGCCGATATTTTTATATTTTTCATAATCAGAGTATTTTTCTTTTTCTTTTATTATATTTTTGATAATATTATTGTTTTTTTTGATTTTATTAGTAATGACCTTTAAATAATTTTGTTTTAATTTATTTATTTTTACTGATGAAATAGTAGTTGAAATATAATTATTTAACATATCAGAAATAGAATTAAAAGATTGTTTTTCAAAACTTTCTAATGACTGATATCTAACAAAAGAAGCTATTTTTATTTCATTATTTTCTTTATAAAGAATTGGTGATTTTCTTTTATTTAGATTTTTAATAAATTCATTATAAGAATTACTATTAATAGATGTTAATTTACCTATACCAGATATATATTTATGTAAATTATATTGTTCTTTTATTTTATTATATTGTTCTTCAGAAATATCAAAAGGAGAAAGTTTATTGTTTGATGTAAAAAATTCAAAATCACTTCCATTAAATAAATTTCTTTTATTTTCTTCTAGAAATAAAGGTTTTAAAGAATTGATTATTTTTAGCTTGTTATCACATAAAAAAATATTACTATGTTTCCCCATCATTTCAAATATAAGATTATAAATATTTTTTTTACCCAACTCATCTATTTTTTCAAATTTGAAAATCATTATCCTTTCAAAATTATATTGTAAAATGTCAATAAGAGTTGCTCCTAATAAATTTTTTTTTAAAATTAACGCAAAATTTAACTGTTCTTTTGGGGCGTTATCTTTATTTGCATTAATATAACAAATCGATAAATTTGGTAAAGCAGAAAAAAACAAATTATTTTTATTAAAAAATAATGATATATTTAATTTATCATATTGTACAATTTTTGTTATTTTTTTATTTAAAATAATTGATTTTAATTCATCAATAAGTAATTTTAAATGTATTCCTTCAAAGTATATCATAATAACTCCTTTCAAAAAAAATAGGCCTAGAAAGGCCTGTTTTTAATCTTTTAATAGTAATCCAATAATATTTTTACTGTCAATAGTATCAATTTCTACTTTATTATTATCAACTAATAAAGTAATATTATATTTGTTTTTATCAAGTATTTTAACTTCTTTATTTTCTACAATACCATTTTCTTTAAAGAATTTTTTTATTAAAGTACTACCTTTTATTTCAGTAATTTTAATTTTACAACCTTTCATAAAATTATTAATAATATCAGGTTTTACAAATTCAATTTGATTTTCTAAATTAGTAAGAATTTTACCAAAAACTGTTGTAAAGGATTCTAATTCAGCATTCGATAAATTTTTAGTTATCTTAGAAATAATATCTTGATGAAAAGTTTCATGATATTTTAAAGCTTTTAGTCCTTTTCTTGATAATTCTACAAAAACTTTTCGTCTATCTTTATCACTACGTTTTCTATTTATAAATCCTTTATCATTAAGTTTATTTATTGCAACAGTGGCTGTTCCCATTGTTATACCAAGTCTATCAGAGAGTTCATTCATGGTAAGAGAATCATTTCCTATAGCTTCTACAACATGTAGTTCTGTAGTAGTAAGACATTTTATTCCTTGTTTTAATATAAGCTCTTCTGTTTCATAAAACAATTTATAAAATTTTTCGATCATTACATTTACGTTTTCAAAAGACATATATTCCTCCTAATCTTTTAAAGAAGAGATTCTCTCTTCGTAATCCCCATTAAAAATATATGAGCCAGCAACCAATATATTTGCTCCAGCAGTGATACACTTCTTTGCTGTTTCATTATTTATACCACCATCTACTTCAATGTCAATACTTTTACTTAAAGCTCGAACTTCTTTTATTTTATCAATAGAAAATTCAATAAAATTTTGGCCACCAAATCCTGGATTAACGCTCATAATAAGAACCATATCAATATCATTTATAATTTGTGATATATTATTTACTGGGGTACCAGGATTTATAGATACTCCAACTTTCACATCAAAATTTTTAATAAGTTGAATAGTCCTGTGCAAATGAACAGTAGATTCTGCATGTATTGTAATAATATCGGCACCAGCATCTACAAATTCTTTTATATATCTTTCTGGTTTATCGATCATTAAATGAACGTCAAATATTTTATCTGTTTTATCTCTTATACTTTTTATAACTAATGGCCCAAAAGATATATTTGGTACATAGTTACCATCCATTACATCTATATGTATATAATCAGCCCCAGCATTTGATATGGCAATTATTTCTTCTCCTAATTTACTAAAATCAGCTGATAAGATAGAAGGAGCTATTTTAATCATATTTATTCCACCTTTCATTTTTTAATGTATTATAAGTTTTAATATAAAAATCATATCTTATTTTTGATAATTTATTTTTTTCAACCAAATCTTTAATATAACAATTTGGTTCGTTTATATGTAAGCAATTGTTAAATTTACAATTAATTGAATATTCATAAAATTCACTAAAAAGTTCTAATAACTCTTTTTCATTTCTTATATTAGGAAGTTCAAGAGATGAAAAACCTGGAGTATCAATAATGTAACCACCATAATTAAGATGAAGAATAGTTGCTCCTTTAGTTGTATGTCGTCCCCTTGATAACTTTTTACTTATTTCACCAGTTTCAAGCTCTTTTTCGTTTTGTAGTAAATTTATAATTGTTGATTTACCTACTCCACTAGGGCCACCAAAAGCAGTTACTTTATTCTTTGTGTATTCTTTAATAGTATCAATATTTTCTGTAATTGTAGAAATATAAAATACATCAATATTTAAATTTTTTAAAAAAGATAATGAATTTTTAAATATTTTTAATTCTTTGTTATTTACTAGATCTATTTTATTAATTATTACAAAAGGTTTCACATTGTAGTAAAAACAGTCTAAAAGTAAAAGGTTAAATCTTTCCATGTCAAAATTTGGAGATTTTATTGAAAAAACTATACCTAATAAATCGATATTTGCAACTAAAGGTCTTTTTAAAATGTTTTTTCTTTCTAAAATTTTATTTATAATTTTTTCACGTGGGTCAAATTCTACAATATCTCCAACAACACAGTTATCTTTACGGTTTATCCTTTTGTTTATACCTTTTAATTTACATTCAAAAATATTTTTTTCTTCATTTTCAATATAATAAAATCCTTTGATTTTATATAAAACTCTTCCTATTGTTGATGTAGTTGAAATTTTTATCACTCCTTAATTTATTTTATTATTTAGAAACAATAATATTTATACTACTCCCTTTTTTTATTTTTTCATTTACAGATATACTTGCGTCAAATACAATGTTAGGTTCGATTAAATCATTTTCAATATATTCAATACTTCCTATAAATAATTGATTTTTTTCTAATTTTTTTCGAGCATCATCAATATTAAGACCTATTATATCAGGCATTCTAACAAATTCATTTATTGGGCCGCTGCTTACTAAAAAAGAAAGATGTTTATCAGAAGACATAATAGTACCTTCTTTTGGATCAGTAGTAATAATTGTGTTAATTTTTTGATTAGAATGAGTATAAACGATCTCTTTGATAGAGAAACCTTTTTGTTCAGCCATTACTTTTGCATCTATTATATCTAGATTAGAAAAATCAGGTACAACAATTCTATTTTTACCTTTACTAACCCATACTTTGATAGTTCGACCTTTTTTTATAGCACTTCCTGCTTCTGGAATTTGTAGATATATTTTTCCTTTTTCAAATTCTGAAAAATCTTCGTCAATTTTTTTTAATTTTATATCTGAATTTTCAAGAAGAACAACAGCTTCATTAAAAGTAAGATTTGATAAATCAGGAGTTTCTAATAAAAAATCATTAAAGAAAAACTTTAAACCTGTATTTATACTAAAATAAATTATAAATATAATCAATATAAAGTCTAAAAAAATAATTATATTTTTTTTGTTCATAAAAAAACTCCTTGCTTTTAAAATGTTTTATAATCAAATATATTACCAATTACAAATATATCATATAAAAAAAAAAATATCAATAAATACTTGATAAATATTAACCTAAATGATAAAATAAATCAAGTTTATTGAAATATAATGGAGGTTTTTTATAAAAATGGCTAAAAAAGATTGGGAACACGGAATAATAAAAGTATTACTTACAGAAGAGCAAATAAAATCTAGGATAAAAGAATTAGGTGAAGAAATAACTAGAGATTTTAAAGATAAAGAAGAGGAAGTTATTGTTGTTTGTTTATTAAAAGGTTCAGTTTTATTTTTCGCAGATTTATGTAGAGAAATAAAAATACCTATGAAAATGGACTTTATGACAGTATCTAGTTATGGAAATGAGTTTGAAAGTTCAAGAGAAGTAAAAATAGTAAAAGATTTAGATGAAAATATAATGGGAAAACATGTTATAGTAGTAGAAGATATTATAGATTCAGGATTAACATTAAAAAGAGTATTAAAAATGTTAGGACATAGAGAACCAAAGTCAGTATCACTTTGTACTTTATTAAATAAAGAGGCTAGAAGAGAAGCAGAGGTAGATGTACAATATATAGGATTTGATATAGCTGATGAATTTGTTTTAGGTTATGGGTTAGATTTTAAACAGGAATATAGAAATATTCCGTATATAGGAATAATGGGAGCGTTTGATGGAGATGAGTAATACAGACTCTAAATTAAAAGAGTTATTAGATAAAAGAGAAGAAGAAAATGCAAAATTCAGGAGAAAAAAGAAAATATATCTATTTTCTTTTTTTTCCTTTTTATTTGTTTTTGTAATTTTATTTTTCTTTTATAAAATATTTATTCAAAAACCTAACATAAAAATAAAAACAAATAAAGAATTAGTAGACAATGTAGTTTATTTACCGGTTTTTGATTATTATAAATTATATTCTACTAAGAACAAAGAAACTACAATTGATAGCTATAGTAAAATTTTAAATGTAAAAATTAATAAAAAATATATTGTTCAATTAGGGATTTTTAAAGAATTTTCAAATGTTAGAAGAGAAAAAGAAAGATTAGAAAAATTAGGCTACAAAATATATTATGAAAAAAATGGTGATTATTATAAATTGAGATTTAATGTTGAGTTTGATAATAGAGAAAAAGCGGAAAGTTTTGCAAAAAATTTAATGAAAATAAACGTTATTAATGATTATTGGATTCGATTAAAATAATGGAGGATGAATGAATTTTAAACATAAAAAAAAATTTGGACAAAATTTTTTGACTAATCAAGATGAAGTGTTAAATAAAATAATAGAAGTATCTAGTGTAAATGCAAATGACTCTATTTTAGAAATTGGCCCTGGAGAAGGAGCTTTAACAGGGTATTTATTAGATATAGTTAATGATGTTATTTGTGTAGAAATAGATAAAGAATTAGAAAAAATATTATTAAAAAAATATAATACAAGAAAAAATTTTAAATTAATAATGCAAGATATTTTAAAAGTAGATTTTGATAAAGAAATTTCTAAAAAAGTTAAAGTTGTAGCAAATATTCCTTATTACATAACATCTCCAATAATTAATAAACTTATAGAAAACAGAAAATATGTAGAAGAAATTTATATAATGGTTCAAAAAGAAGTTGCAGAAAGAATTTGTTCTAAAAAAGGAAAAAATAGAAGTATATTAACTTTATCAGTTGAATATTTTGGAGAAGCAGAATATTTATTTACAATACCAAAAGAATATTTTACACCAGTACCCAAAGTAGACTCAGCATTTATGTCTATAAAACTTTATAAAGATAATAGATATTTAGATAGAGTAGATGAAAAAACTTTTTTTAGATTTGTAAAAGCAGCTTTTTCGAATAAAAGAAAAAATATAGTAAATAATTTAAAAACTTTAGGATATTCTCGAGAGATTATAGAAAAAAATTTAGAAAAATTATATTTAAGCAATAATTTAAGAGCAGAGAATTTATCAATCGATAATTTTATTGATTTAATTATTTTATTTAAAAATGGTGATGTTAATGTATAGTTATGAATTTTTTATTAAAACAGAAAAAAAACATATAGATTTTATAAATAAAATTATAGAAGCATATGAAGGGGTAGGAGTTGTAAGAACTTTAAATCCTAAAGAAGGCGAGATAAAAATTATTACTCTAAATTATTTTATAAAAGATATAGAAAAAATATTAGAAAATTTAAGAAATAAAGGTGTTAAGTTAGAAATAACAAAACAAGGAAAATGGGGAGGAATAATATAATGAAATTGGGTGTGAATATAGATCATGTAGCAACACTTAGACAAGCAAGGCTTGCTAAAGAACCTGATTTAGTAAGAGCGGCAGTTTTAGCAGAAAAAGCTGGAGCTGATGGGATAACAATACATCTTAGAGAAGATAGAAGACATATCCAAGATAAAGATGTGTATATTCTTAGAGAAATAGTGACAACAAGACTTAATTTAGAAATGGCTACATCAGAGGATATAATAGATATTGCAGTAGAAGTAAAACCTGACATGGTAACTTTAGTACCGGAAAAAAGAGAAGAATTAACTACTGAAGGAGGCCTTAATATCCAAGATAAAGAAGTAAAAGAAAAAACAAAAAAAGCAATAGAAAAATTACATACAGCGGGAATAGAAGTAAGCCTTTTTATAGACGCTAGGACAGATATAATGAAAATAGCAAAAGAGATAGGTGCAGAATTTGTAGAAATACATACTGGTAAATACGCAGATGCTAAAACAGAAGAGCAAAGAAAAGAAGAATTAAAAAATATAGAAGATGCAGTAAAAGCAGCAAAAGCACTTAAATTAAAAGTAAATGCAGGGCATGGATTAGATTATAAAAATGTAAAAGATGTTGTAAAAATAGAAGACATTGTAGAGCTTAATATAGGTCATTCTATTGTAGCTAGATCAATTTTTATAGGAATAGAGGAAGCTATAAAAGAGATGAAAAGGTTAATTGAAAATGTATAACGATATTTTTCATAGAGTTTATTATAATGAAACAGACCAAATGGGAAGAGTTTATCATTCGAATTTTTTAATTTGGATGGAGAAAGCAAGAACGGAATATTTTAGAGTAAGAGGAACTAGTTATAAAGATTTAGAAAAAATTGGAGTAATGCTTCCTGTAAGTGATATTCAAATAAAGTATTTCCATGCAGCATTATATGATGATTTAATTAGAATAAAAACTAAAATAAATGAATTTAGTAGAATAAAAATAGAATTTGAATATGAATTTTATAACGAAGAAAATATTTTACTTGCAAAAGGAAAAAGTATAAATATTTTTACAGATAAAAATGGAAAAATAAAAAGAATTTCAAAAGAAATATTTGAAAAAATAAGGGGGCAAAAATGTCAAAGAGATATACAAAATTAGAAGAATTATTAAAATATATATTAGAGCAACTTGTAGAGGATAAAGAATCTATTCAAATAACTACTACAGAAGAAAGAGATTTGATTATATTAAAAGTAAGATTAGCTGATGGTGAATTAGGAAAAGTAATTGGTAAAAATGGTCTTACAGCTAATGCTATAAGAGGAGTAATGCAAGCAGCAGGAGTAAAAGACAAATTAAATGTAAATGTTGAATTTTTAGATTAAGAGGTGGTAAAAAAAATAATGGAATTATTTTATTTAGGAAGAATAAATGGAACACATCATTTAAAAGGAACAGTTAAAGTGTATTCTTTTTTTGAAGATGTAGAAAAAATTATAAATAATAAAATTATTGCAGAAAAATCGAATGGTGAAAAGAAAATTTTAACTATAAATAATATTGAAATTGGTGGCGATAAATTACTTTATGTAGATTTTGAAGAAATTAAAAATAAAACAGAAGCATTAAATATAATGAATGCTAAATTGTATATTAGGAGAGATATTTTAGGAACAATAGAAGATGGAAATATTTATCAGAGTGATTATATAGGATTAAATGTTTATGATAAAGAAGATAATCTTTTAGGAACAATAGAAGATATAATGGAAACAGCAGCTCATGATATTTTTATTATTTTAGATGAAAATAATGAAGAGATTATGATACCAAATGTTGAAGTTTTTATTAAAAAAATTGATTTTTATAATAACAAATTGATTGTAGATATACCTGAAAGTTTAAAAAATATAAATAAGAGTGAAGAAAAATGAAAATAAATATTTTGACTTTATTCCCTGATATGTTTAGTGGATTTTTAAATGAAAGTATAATTAAAAGAGCGTTAGAAAAAGAACTTATAAAAATAAATGTAATAAATATACGTGATTTTACATTTGATAAACATAAGCAGGTTGATGATACTCCATTTGGAGGCGGAGGAGGAATGGTATTAAAGCCAGAACCTCTTTTTAGAGTTTTAGAAAAATTTAAAAAGAGTAAAATAATTTATACTTCTCCACAAGGAAAGACACTTACACAAAATCTAGTAAAAGATTTATCAAAAGAAAAAGAGATAACTATAATAGCCGGTCATTATGAAGGTATTGATGAACGTGTGATAGAAGAACTTGTAGATTTGGAGATATCAATAGGCGATTATGTTCTTACTGGTGGTGAACTTCCGGCAATGATTATAACTGATGCTATATCAAGGCTTATTCCTGGAGTTCTTGGAAATACTGCATCATATGAAAATGATTCATTTTATAATGGTTTATTAGATTATCCTCATTATACAAGACCAGCAGAATATAATGGATTAAAAGTTCCAGAGGTTTTACTTTCTGGACATCATAAAAATATTGAAATTTGGCGAAAAAAAGAAAGTATAAAAAGAACATATATTAGAAGGCCAGATTTATTAGAAAAAAAGCTTGAAAATAAAGAATTTTCAAAATTGGAAATAAAATTATTAGATGAAATAAAAAAAGAGATAAAAGATAAAACAGAGGGTGAATAGAATGAAAATATATAGTTTAGGAAATAAAAAACCTAAAATATCAAAAAAAAGCTATATATTTGAAGGAGTAACTATAATAGGAGATGTAGAAATATCAGAAAATGTAAATATATGGCCTGGAGTAGTTATTCGAGGAGATTTTGATAAAATATATATTGGTAAAAATTGTAATATACAAGAAAATTCTATTTTACATAATGACTATAATAAAGCAATTATTTTGGAAGAAAATATAACAATAGGACATGGAGTTATTTTACATGGTTGTTATATAGAAAAAAACTGTATAATTGGAATGGGGACAACTATTTTAGATAATAGTAGAATTCCTAAAAATTGTATAGTTGGAGCAAACTCTTTAGTAACTAAAAAATCGAAATTAGAAGAAGGAACTTTGATACTTGGTTCACCAGCTAAAAGCATTAGAAAATTAATAAAAGAAGAAAGAGAGCATATAGAAAAAAATTATAAAGAATACTTAGATCTTAGTAAAAAGTATAAAAAAGAATTGATTAAGGAGATAAAATGAGAGATAAAATATATTTAGCATTAGTTCATTATCCAGTATATAATAAAAGAAAAGAAACAGTTGCAACTTCTGTAACTAATTTTGATATTCATGATATTTCTAGAAGTTGTAGAACATATGATATAAAAGAATATCATCTTATTACTCCAGTAGATGCACAAATTGAATTAACTAAAAGAATTATAGGATATTGGCAAGATGGTGAAAGTGGTGGATTTAACAAAGATAGAGAAGAAGCATTTGAAAACACTTATATTACAGAAAGTGTAGAAAAATTAATCGAGATAATAGAGAAAAAAGAAGGAAAAAAGCCACTTATTATTACAACAAGTGCTAAAACATTTTCTAATTCAATATCTTATATGGATTTATCAGAAAAAATATTTAATGATAACAATATTTATTTACTTTTATTTGGTACTGGTTGGGGATTAACTCAAGAAATAATGGATATGTCAGATTATATTCTTCATCCAATTAGACCTGATGGCAAGTATAACCATTTGTCTGTTAGAAGTGCGGTATCTATAATATTAGATAGATTATTAGGAGATAATTAAGGAGGAATAATTTGAATATCATTAAATTTGATTCTCTAGATTCTACAAATAACTATCTTAAAAATTTAAAAACAGTAGTTGGAGATGAAGTTATTATAGCTAAAACTCAAACAAATGGAAGAGGAAGACGAGGCAATGAATGGGCTTCTTATGAAGGTGCAGCACTTTTTAGTTTTGTTTTATTAAAAGATTATAATTTAAGTATAGAAAAATACACTAAACTTCCATTTATAGTAGGTATATCAGTTTTAAAAGTTTTAAAATCTATAGTTAATTTAGAGTTTAAGTTTAAATGGACAAATGATATTTATTTAAATAATAAAAAAATATCTGGAATATTAGTAGAAAATATAAATAATAGATTTATTATAGGAATTGGAATAAATATAAATAATACAAATTTTGGAAAATTTAAAGATATAGCAACTTCTCTTAAGCTTGAAACAGAAAGAGAATTTGATATAGAAAGTATTATAAAAAAAGTTATAGAACAATTTGAAAAAGAATTTTCGAATTATAAAAATAATGGATGGAAAGAGCAACTTGAATATATAAATAATTATAATTATCTTTTTAACAAAGAAATTATAGTAAAAAATATAAATAATAGCTATCAAGCTAGAGCAAAAGAAATAGATATTACAGGTAAATTAATAATTGAAAAAGATAATAATATAGAAAAAATAGATATTGGAGAAATAAGTATAAAAAAACTAGATGAAGAATAATCATCTAGTTTTTTATTTTTAGCTTCCCTTTTTATTAACAATAAAAGATATAGGAGAACCTTCGAAACCAAAAGCTTCTCTAAATTTATTTTCTAAATATCGCATATAGGAAAAATGTAATAATTCTGGATAATTACAGAATAATACAAATTTTGGTGGTGCAGTACTAATTTGTGTTACAAAGTTTATCTTAATAGCATGTCCTTTTCTAGTAGGTGGCGGATTAAGAATAAGAGCTTCATTTAATACTGTATTTAAAAGTCCTGTAGTAATTCTTTTTGTGTATTCTTCATATATATTTATTGAAAGAGTTAAAATATCTAAAACCTTTTCACCGTTTTTAGCTGAAATAAAAAGTATAGGGGCGTAACTTAAAAATGGTAAATGACTTTCTAAAATTTGTCTATATGTTTTTTTATTTATTTCACTTTTATCAACAGCATCCCATTTATTTACACAAATAATAATAGGTTTTTGTTCTTCATGGGCAACTCCAGCAATCCGTTTATCCTGTTCAGAAATTCCTTCTACTCCGTCAATCATAAGTACACATAAATCAGCTCTTTTTATTGATTTTAAAGCACGAAGAACAGAATAATATTCTAGATCTTCTTCAATTTTTGATTTTCTTCTAATACCAGCTGTATCAATAAGAACAAAATTTTGATTGTTAAATACTAAAGGGGTATCAATAGCATCTCTAGTAGTTCCAGCTAAACTACTTACAATTGTTCTTTCTTCACCAACAAGTGTATTAACAAGAGAAGATTTACCAGCATTTGGTTTTCCTATAATTGCAAGCTTTAATCCTTCTTCTTCTTCAGGTAAATTTATATGTTCTAAATCTTCGACTACAGCATCTAGCATATCACCTAAATTTGTATTATGTTCAGCAGAGACAGGAACAAGTTTTTCAAAACCAAGGCCGTAAAACTCATAAGTATCTTCTAATTGACTGATATAATTATCAATTTTATTTACAGCTAAAACAATAGGTTTATTTTTTTTTCGTAAAATAGTTGCGATTTCTTCATCAAGAGCAGTAATTCCAGCCCTTCCATCAACTACAAAAATTATAACATGTGCTTCATTCATAGCAACTTCAGCTTGTTTTTTAATGTTTTCCATTATAAAGTCACTATTTCTAGGTTCTAGCCCTCCGGTATCTACTAACATAAATTCTTTTCCTGTCCATTCACACTCTCTATATAATCTATCCCGTGTAACTCCAGGTGTATCAGCAACAATTGAAATTTTATCTCCAATAAGTCTGTTAAATAAAGTTGATTTACCTACATTAGGTCTACCAACAATTGCAACAATTGGTTTCATTTATACCTCCTTTTTTTTCTAAAATTATTAGAATTTATTAAAATGTTTTTTTGATTATATTTTTTATTTATATTTTTTTCTACAAATATTTTTTTCCCAGTAAAAGGATCGATTTCAGTATAATACATAAGGGTAGAATAAGTAGAAGGTGTCGGAGTGAATATTTGTACTTGTTCTGGATTTACACGTAATTCTTTACTAGCAAATTTTTTTAACTTTTTCATTTCATTTTCATCACATCCGGGGTGAGCAGCAATAAGATAATATGTTAAAAATTGTTTTTGATTGTATTCCCTATTTAGTTCATAAAATTTATTTTTGAATTCAACTAATACATTTTTAGATTGTTTTCCCATTTTATTTAAAATATTATCTTCGCTATGTTCAGGAGCAATTTTTAATTGTCCTGAAATATGATATTTAATTAAATTTTCTAAAAATTTATTACCAAAGTTCTTATCACTTAAAATTAAATCATATCTTATACCAGATGCTATAAATATTTTTTTTATATTTTTAATTTTACGTGCTTTTGTAAGTAATGAATTATATTTTTTATGACTTGGCTTTAGTGATTTACAAGTATTAGGAAACATACATCTTTTATTTTTGCAGCTACCTAGTTTTAATTTTTTTTCGCACTCAATACCATACATATTTGCAGTAGGACCACCAATATCATTAATATATCCTTTAAAGTTTTTTTCAGAAGCAATGGATTCAATTTCTTTTAAAATAGATTCTTCACTTCTTTGAATAATAGTTCTTCCTTGATGGACTGCAATAGCGCAAAAATTACATTCACCATAGCATCCTCTATGAGTAGTTACAGAATTTTTAATAGTATCAAGAGCTTTTACTATTCCATCTTTTTTATAAAAAGGATGAACATCTTTTTCATATTTTAAATCATAAACAAAATCAATTTCTTTTGTAGTCAAATGATATGCTGGAGGATTTTGAATAAGATATCGATTATCATGTTTTTGATAAAGGCCTTTTGCAGTTAAAGGGTCATTATTTAAATAAAATTTATTAAAAGCATCAATAAATTTATATTTATCGCTTTTACATTCTTCAAAGCTAGGTAATTCAATAAAGTTATTTTTAGGTTTATTTGATATATAACAAAGCCCTCTTATATCGTTAGGAGAAGTATTATTTTCAATAGCTTTCGAAAATTCTAATATAGGTTTTTCGCCCATTCCATAAATTAAATAATCAGCTTTTGAATTAAATAGTATAGATTTTCTAAGAGAGTTCGACCAAAAATCATAGTGAACAATTCTTCTTAAACTAGCCTCAATTCCACCGATTAAAATAGGTCTTTTATTTTCACCTTTGAAATATCTTTGAATAAGATTAACATATTTTATAACAGCCCTATCAGGTCTTTTGTTATTGATACCTCCAGGGGTAAAATCATCATTTTGTCTTTTTTTCTTTGTAGCGGTATAGTTTGCTACCATAGAATCTACACAGCCACTAGACACCCCAAAATAAAGTTTTGGGACACCCAATCTTGTAATATCTTTATCAGAATTTATATCAGGTTGCGCAATTATTCCTACTTTATATCCTTGACTAATAAGATATTTTCCAATAACGGCACTTCCATTATAAGAACTATCAATATATGTGTCGCCAGATATTAAGATAATATCCAGTTGATTCCATTTTAAAAATTTTAATTCTTCTTTAGTTGTTGGGATAAACATCATTACTCCTTAAAAATTAATTGTTTCTACAAAACATTTCATATTATACCACAAATTTTAAGAAAAAATAATAATAATTTTATAAAAAAGAAGTAAAAAAAAAATCTTATATGTCGATAATTGGAATGGGTATATAGGAGGTGAAGTATGGAAGCAAACATATTGCAAACTCCCAATATATCTGGTGTAGAAAAAGTTACTAGTAGTAAAGTGAGTACTAAAGATATTAAGAATGGTAAAAAGATATTTGATTTTACTAAAATATTTAACACTACTAAAAATAAAAAAAGTTTACTTGAAGCAAATAAAAATAACATTCTTAATATCACAAATAAAGAACTAGTTGATGCTAAAAAACACACAGATAAAGATGTTACAAAAGAAGTTTTAGCAGGAATTTTATTAGCAAACGCTAATGAAAAATCAAGTGATACGAAAATAGCAGAGATAAAAACTACTAGTACAAAGGACATTGGCAATAGAATATCTAGAGCTCAATTAGGAATTAAACTCGCTAACTCTAATGAAATTTTATCAAAAGATGAAGGTCTTAAGATAAAAGAATTAAGTTCTGAAAAACAAAAAGTTGCAACAGAATTAATAGCAGGGAAAGAACTAGCAACTAAATCTAAAGTAAAAAATAATGATGATATTTTTCAGAAAAATAAAATTAGAGTAAAAAAACATGAAAATAATAAAGATGTTTTTATAGGTGAAGGTTTAAATTCTGATAGCCAAGTTCAATTTTCTAAAACAGATGTAAAAGGGAGAAATGATTTAGCATTTATATCATCTTATGGATTAAAAAAAGTAAACAAAAAAAACAAAGATGATGAGATTCAAATAACTAATATTGATTCAAAAAATATGAATTTTGAATTAAAAACAAAAGAAGGAACAGAAAAAGTATTTGCACCTAATCAAAGTATTACATATGAAACAGTAATGGAGCAAATAGAAAATGGTTTAAAAGTTAATTATAATTCTCAATTAAAAGAGATGAAAATTAAATTAAAACCAGAAGAACTTGGAGAAGTAGAAGTAAAGTTTAAAATCGAGAATAATATAATGAAAGCAGAGTTTGTAGTACAAAATCAAACAGTAAAAGAAATAATAGAAAACAAGTTTAATGATTTAAAAGAAAATCTTTTAAAACAAGGAATTGATGCACAAGAAGTAAATGTATATGTATCTTCCGATAATCAAAATAATCAAAATAATCAAAATAATTTTAGAGAAAGATATCAATTTTTAGCAAACGATAACAATACTAATACTCCAATTATAAATGATATACATTTAAATGCTGTAGAATCAACAGCAAGATTAAATAATAATATCACTAAAAATGGAGTAAATATAGTAGTTTAGGAGGTAATAATGCAAATAACAAATACAGGATTAAAAATACCAAAAGAATTACAAGAAAGCTCTCCAGTAGTTAATGAATCTCAACAATTAGGAAAAGATGATTTTATGAAGCTTTTAGTAGCTGAAATGACTAATCAAGACCCTTTAGACCCTAAAACAAATACAGAATCAATTGCTCAAATGGCTCAATTTTCAGCGCTTGAACAAGGAGAAAATTTAAATAAATCTTTTAATTCAATGTTAAGATTTCAAACATTAAATACATTAAGTTCAAGTGCTCAAATGATAGGGAAATATACAAGAGCAAAAATAGACGGTGAAGAAGTAGTAGGTCAAATTAAAAGTACGCATTTGGAAAATGGTCAAGTGTTTGCTAATGTAATTGATTCAGAAAACCAAGAAATAAAAATACCGTTAGAAACTATTGTAGCATTGTCAAAAGAAAAATTTGAAGAAAAAGGCAAAACTGATAGTAAAAAAGAGTCGCTTCCTAAAAATGTTATAGACCTTTCTTAAGTTAGATAAGGAGGTGTGTTATGGCTAGGCTTTTAAATTCAACTTATATTCAGGGATTGAAGAGTGTAAATAATAACATAGACAATAGCAATAAAAACAACCACGGAAACAAGCCATCAGTGGCTTTTGAAAATGTTTTAGAAAATGAAAAAAAATTGAAATTTTCTGCACACGCACAAAAAAGAATAGAGAGCAGAAGAATGGAGATAAAAGAGGAAGAACTTAAGAAGGTACAAGAAGGAGTGAAAAAACTAAGAGAAAAAGGGTGTAGAGATTCAGTTGTTATAGCAAAAAATAGAGCTTATGTAATAAGTATAAAAAATAATACTGTTGTAACTATCGTGGATGAACCAAATTTAAAAGACAATTTATTTACTAATATAGATAGTCTAGCATTAGTTTAATTCTGTATTGTTTAAATTATTACCTTGTTTTTCTCTAAAATGAATAGGCTGGACCTGAAAAGGAAGCCTTTAATCATTGAACGACTGAGATGATAAAAGGAGGAAAAATATGTTAGGAGCATTATATTCAAGTATTAGTGGATTGAAAGCCCACCAAACTAAACTTGATGTAGTTGGAAACAACATTGCAAACGTAAATACAGCTGGGTTTAAGAGATCTAGTGTTAATTTTGAAGAAACAATGACAAGAACTTTGAAAGGAGCTAGAGGACCTGTAGAGGGAAGAGGAGGTACAAATCCTTCAGCAATTGGCCTTGGAACATCTGTATCTAGTATTAATACGGATTTTAAATCTGGGGCTCAACAAACTACAGGAAGAAAAACAGATTTAAGAATTGATGGAAATGGTTTTTTTATTTTAAAAGAAGGAAATAGTAGATTTTATACAAGAGCAGGAAATTTTAATTTAGATGCAAATGGGAATCTAGTAACCCCTAGTGGAATGAAAGTACAGGGTTGGCAAGCTACAGTAAGAGAAGATGGAACTATGGGGATAGACTCAACTACACCATTAGGTGATTTACAGATTAGAGTAGGGAGTTCTCTTCCAGGAAAAGCTACAGATACTTTAAATTATACAGGAAATTTACAACAAAAAGCAGGGATATCAGATCTTACTTTATCAGTAGATGATCTGAGTGGAACAGGGAAAAAGGTAGATGTAGGTATAAAGTTTTCTTATGATAAAAATTCAGATAAATGGTATTGGAAAGCTCAAGGAGAAGGAATAGTAGGACAAGGAGCTTTTCAACTTGATGAAGATGGAAATATTAAAAGAAGTTTTCCAAGTGAAACAATCCCTATTCAAAACGCAAATGGAGTATTAATAAATTCACCAGTAGCTGGTAAAATAACATTCTCTGAAATAGCTGATGTGAAAAATAAAAAGACTGCTTCATTTACAGAAAACTCTTATGTTACATCTAGTGAAGTTTATGATTCGCTAGGGAAAACACATACTTTGGGTATTAAATATACTAAATTAGCAGAGAATGTATGGGATTTTGATGTTACTTCAGGAAGTGGTGAACCAGTGAAAAATGGTAAAGGATTTGTTACGTTTGATTCGGTAGGACAAATAAACGGAAAATATAAGTATGCAGATCCAAATGATCAAACAACTTGGCCAGAAGGGGTAACAGCAATGTATTTTGAGAATGGAGTTGTAGATCCAACAACAGGACAAGTTACATATGGAGATGTAAATAGTGAATACAGTATGGATGCAAATGGAGTAGTAAGATTTAGAGGCGCAGAAGTTCCAGGCGGACCTAAAAAAGGACAAATAATGAACAGTCAATTTGATGAAAAACTTATATTTGACCCAGCAGAAAAAGGATCAGCGCCACCGCCAGAAGGAGGAGCATCACCACTTGAAATTAGTTTAAACTTTAATAATGTTACTCAATTTGCAGCACAAACAACAATTACATTAGAATCTCAAAATGGATATGGAATGGGAGAATTAGAAACGTTCAATATTACAGATTCTGGAGATATTATGGGATTCTATTCTAATGGATATGAACAAACAATAGGTAAGATTGCATTAGCTAAATTTACTAATTCAGAAGGATTACAAAATATAGGTGGAAGTGCATTTAAACAAACTTCAAATTCAGGAGAAGCAATGGTTCTTTCGCCGGGAACGGCAGGAACAGGAAAAGTTGTTGCAGGAGCTCTAGAGATGTCTAATGTCGATTTAGCACAAGAATTTACTGATATGATTATTGCTCAAAGAGGATTCCAAGCAAATTCAAAAACAATCTCTACATCAGATCAAATATTAGAAAATGTAATTAATTTAAAAAGATAAATTAAGTAGCGGGTAAACGCTCCCGCTATTTTATTAAAATGCTAGATTTTGATAATAAATAATGATATAATATAGGGGGAGTAAAATGATACTCTTAACAAAATTAGGCAAAGAAAAAAAAGAAATTGTAATAAATGCTGAATTAATTGAAACAATAGAAGAAAATCCAGATACAGTGATAAATTTAACTACAGGTAAAAAGTTTTTAGTTAATGAAAAAAAAGAAGAAATTATAGAAAAAATAATTAAATATAGGAAAAGTATACAGCTTATATAGGAGGCTAAGAATATGGATATTGCTACAATAGTTGGATTTGTTTTAATATTTGCACTAATGTCAATGGGAATGGGATTTAATTTTGGACCATTTATAGATCCACCTTCATTTTTAATAGTTGCGGGAGGAACGTTTGGAGCATTATTTATGTCATTTCCTTTAAATGTAGTATTAGGACTTCCAAAAATTGGGATGAAAGCAATTAAAAATCAAGTTCCAGACTCTGCAGGACTTATAGCAACATTAGTTAGTTTTTCTGAAAAAGCTAGAAAAGAAGGATTATTAGCAATTGAAGCAGATATAGAAACAATAGAAGATGATTTTTTGAAAAAGGGAATTCAACTTGTTGTAGATGGGACAGATCCGGAGCTTGTAAAAAATATTTTAGATACAGAAGTAGGTTTTACAGGAGAAAGACATGAATTGGGTAAATCTATATTTAAATCGATAGCATCATTAGGTCCAGCATATGGAATGATAGGAACACTTATTGGACTTATTCTAATGCTTGGTAGTTTGGATGATCCGAGTACAATAGGGCCTAAAATGGCAATAGCATTAATAACAACTTTATATGGATCAGTTTTAGCAAATGCACTAGGCGATCCTATTGCGAATAAACTAGAATTTTATAATACTAAAGAACTTGCTTTTAGAGAATTGGCAATAGAAGGTATATTATCTTTACAAGCGGGAGATAATCCAAAAGTTTTAGAGGAAAAGTTAAAATCATTTTTATCGCCAGATGAAAGAGCTTCTTTATCTAAAGAAGAAGGTGAATAAATATGGCAGAAAAAAAATGTCCACCTGAAGGTTTACCTGGATGGATGGGAACTTATGGTGATTTAGTTACGTTATTACTTTGTTTTTTCGTTCTTTTGTTTGCTTTTTCTACAGTGGATTCTCAAAAGTATAAAAATTTAATTATGTCTTTTAAAGGTACAATGGGAGTAATGAAAGGTGGAAAAACAATAAGTCCAGATGAATTACTTACAAATAGTAGAATAGAATATAAAGGTAGTGAATATAGATATCAATATCTTTCAAAAAAAATTGATGGTGAATTAAAAAAGTACTCGGGTGATGAATATACACAAAATAGAAATGAAAATTCTAGTGAATCTACGGAAAATCAAAACAAAGAAAATCAAACTAAACAAACAAAAAAGAATTTAGGAGAAATAACAAATGAAGACACAAATGTAAAAGTAACTGAAAGAGGAATAGAAATTAGTTTAGGAGATAGAGTGTTATTTGATTTAGGAAAAGCTTTTTTAAGAAAAGAAGCGAAGCCTATTTTAGATATAGTGTATAATAACATTAAAGATATAGAAAATAATATTATTATAGAAGGAAATACAGATAACCTTCCAATAAATAATAAAGAATTTAAAAGTAACTGGGAATTGTCAACAGCTAGAGCTATCGCAGTTCTTAGATATTTTATTTCAAAAAACAGTAATATAGAAAAAAGAATGTCTGTAGCGGGATATGCAGACACTAGACCAATAGCTACAAATGATACGAAAGAAGGAAGACAAAAAAATAGACGAGTTGTAATAGTAATACTTAAAAGTTTAGATGAGCGCTTTCAAGAAAAAGTAGCATCTGAAAATCCCGTAGTAAGTGACCAAGGAGGAAATTAGTATGGCAGATGAAGCTAAAAATAATGTTCAAGAACCAGAAAAAAAAGGAACTCCTTTTTTGGTAAAAGCATTAATAATTGCTACTTTAGCGATTCTTGTAGTTGTTATTTCTACAGCGACAGCCTTTTTTGTTGCAACTAAAATAAGTAGTAAAGCAAATAATCAGCAAGAGCTGGTTCAAAAGGATACAAATGTTGATAGTGTTGAAAAAATAGAATATGGACAAACAGCTTATTTTGGAGATTATACTGTAAATTTAAATGAAGATAATCCTAGATATTTAGTTGTTAGTATATATTTTGAATATAGTCCAAAAATAAAAGCTAAAGAACTTGAAAAAATTAAAGCAGAAGTAGAAACGAATAAAGTGATACTTCAAGATAGAGTTATCTCTATTTTGATGAGTAAAAGTATTGCTGATTTAAAAGCTGATAATGATTTTATTAAACTTAGAGAATTGATAAAAGACGAAGTAAACAAAGTTTTAGGGAAAGAATATTTAATTAATATAAGATTTAGTAATGTACTAATTCAATAGCCAACGTTAGGTGGTGAGGTAAATGGCAGATGTATTATCACAAGATGAGATTGATGCACTATTATCAGCAATCTCCACAGGTGAAGTTGATATAGATAAAGCAAAATCTGAAGAAGAAGAAAAGAAAATAAAGCTTTATGATTTTAAAAGACCAGATAAATTTTCTAAAGATCAATTAAGAACATTACAAATGATACACGAGACATTTTCTAGATTAATAACAACAATGTTATCAGGACAATTAAGAACTAGTGTTCAGATCCAAGTTACTTCAGTAGATCAAATATCATATCAAGAATTTATTAGATCTATTCCAGAATTAACTTTATTGACTATTTATGAAATGGGAACTTTAGAAGGAAGTGCAATTCTTGAAATTAATCCAAGTATAGCGTATACTATTATAGATAGGCTATTTGGTGGAAATGGATTTAAAGAATTAGAAATTTATCGAGAGCCAACAGATATAGAATCAAAAGTTATGGAAAAAATATTATCTAAAATTTTAGGGTATTTAAGTGAAGCATGGAAAGATGTAACGGAAGTAATGCCAAGGATAGAGCAAATGGAATCAAATCCTCAATTTATTCAAATTGTGGGACCAAATGAAATGGTAGTAGTAATAAGTTTTGAAATAAAAGTTGGAAATAAATCAGGAATAATGAATATTTGCTATCCATCACCTTTAATTGATCCTATAGTATCTAAACTTTCAGCACAATATTGGTTCTCAAATCTAAAAAAAGAAAAAACAGAAGAAAATTTTGAAATTATTAGAGAAAGATTAAATAAAGTAAAAGTACCATTGATTGTAAATTTAGGAGAAATAGATATTAATTTTAATGAATTTATAAAGTTACAAGTTGGAGATGTATTATCATTAAATACATCAATTGATAAATCGTTATCGGTATTAGTTGGAAATAAAGAAAAATTTAAAGCTTTACCTGGATTACAAGGGAAAAAAATGGCGATATCAATTGAAGAAGTTATAGAAGAAGGGAGTGAATAAGCTGTGGAAGGAGTATTATCACAAGAAGAAATAAATGCCTTGCTTGCTGGAACGGACTTAAGTGATGAACCGGAAGAAAGTAATAGCTCTGGGTATAACTTGACAAAAGAAGAAGCTGATGCAATAGGAGAAATAGGAAATATTTCGCTAGGGTCATCTTCTACGGCTTTATCAACTTTACTTTCTAAAGAAGTTCAGATAACAACACCAAAAGTAAGTGTGATGTCATATAATGATTTTATTTCAGAAAGTGGAGCAGATGAGAAAGTACTTTGTCAAATAGAATATAGAACAGGGTTTATAGGATTAAATATATTAATTATTGATAAAAAAGATGCAATATTAATTGGTGATTTAATGATGGGAAATGATGGGTCAAATCCACCTGCAGAATTAGATGATATTTATTTAAGTGCAGTAAGTGAAGCAATGAACCAAATGATGGGTTCTTCAGCAACTTCTTTAGCTGGAATGTTCTCAAAAGAAGTAGATATTTTACCCCCCCAATTAACAGTTACTGATCCAGAAGAGATAAAAAATCAGACAGAATTTTTTAAATCAAATGATGAATTTATAGCAGTATCATTTGATATGGAAATTGAAAATTTAATAAAAACAAAAATATATCAAATTATGGATATAAATTTTGCAAAAGAATTAATAGATGAAATGTTTGGTATGATGAATGCGACTTCAGAACCGCCAAAAGAAGAAAAATTAGAACCACAAGCGCAGCCGACATATCAAGCGCCACCACAACCACAAGCGCAGCCGACATATCAAGCACCACCACAATCACAAGCACAACCAATGTATCAAGCGCCACCACAACCACAAGCACAGCCAATGTATCAAGCGCCACCACAACCACAAGCACAGCCAATGTATCAACCAAATTATAATGTACAACCAGCACAATTTCAAAATTTTGGGACAGCATCACAAGCAAGCATTGATGCAAATTTAGATATGATAATGGATATTCCGTTAAGAGTAACAGTAGAATTAGGGAGAACAAAACTTCCTATAAAAGAAATACTTGACTTAGGTGCGGGCTCTATAGTAGAATTAGATAAGCTGGCTGGTGAACCGGTAGATATACTAGTTAATGGTAAATTAATAGCAAAAGGTGAAGTTGTTGTAATTGATGAAAGTTTTGGTGTTAGAATAACAGATATTGTAAGTAAAATGGAAAGAATTAATAAAGTACAGTAAAGGGAGGATTTATAATGTCTAAAGGTAAAATCTTAATAGTAGATGATGCTGCTTTTATGAGAATGATGATTAAAAACATATTAACAAAAGAGGGATATGAAATAGTTGGCGAAGCAGAAAATGGAGCTATCGCAGTAGCAAAATTTAAAGAACTTAATCCTGATTTAGTAACAATGGATATAACAATGCCGGAAATGGATGGAATAAGCGCTGTAAAAGAGATTATGTCATCAAACCCAGGAGCAAAGATTATAATGTGTAGTGCTATGGGTCAACAAGCTATGGTAATTGATGCTATTCAAGCTGGAGCAAAAGATTTTATTGTAAAACCATTTCAACCGGATAGAGTTATAGAGGCAGTATCTAAAGTAATGGGAAGCTAGTATGGGGAATACCTACTTTTTAAATTTGATATTATTTTTGATTTTAATGTTACTTGTAATAATCTCGTACACATTAAAAAAAAATGGTATTAAATTAAATAAAAAAAGTAATGTAATAAATGAAATTACCAGATATTATTTTAATGCAAAATGTTATATTTCATTAATAGAAATCAATAAAAAATATATTTTAGTAGGTATATCAGAAAACAGTATTGTAAAAATTGATGAATTTGATGAGTTATTTTTAAAAGATGAATTTGAAAAAAAAGAGTTTACCTCTTTTTTAGACAGTTATAAAAATAAAAATTCGAATATCGAGATTAATAATTTTAAAGAAAAACTTAAAAAGATGAGGGAAGCAGAAAATGAGAAAAAAAATTAGTAGTATTTTTTATGTTTTATTTGCTATTAGTAGTTATGCAGCAATTGAATTTCCACAAATAGAATTGAAAGTTGGAAGTGGTGCTGGGAATAATAACTTAGTTGCAAGTTTACAAATACTACTAATTATGACAATACTAACTCTTGCTCCCTCAATAATTATATTAACGACAGCTTTTGTGAGGATAATAATCGTTTTACATTTTATTAGACAAGCTTTAGGATTACAACAAATGCCTCCGAATCAAGTCTTAGTAGGATTAGCCTTAGTACTAACGTTTTTTATTATGCAACCTACTTTTAATGATATTTTAGAAAATGCAGTTAATCCTTATTTAGATAACAAAATAAGTGAACAATTATTTTTTAAAAATATAGAAAAACCTTTAAAAACATTTATGTTAAAACAAACAAAAACAGAAGATTTAGAATTGTTTTTAAAAATTTCAAAAAGTAATATACCTAAAAATAGAGAAGAAATTTCTATTTTTGTAGTAACACCAGCATTTTTAATAAGTGAATTAACGAGAGGGTTTGAAATAGGAATACTTATTTTTATACCATTTATCATAATTGATATGATTGTTGCAACAGTACTCATGTCTTTAGGGATGATGATGCTCCCACCAGCTATGATATCCATGCCGTTTAAATTAGTTGTTTTCGTTATGGTAGATGGATGGAATTTAATATTAGATTCCTTAGTAAAAAGTTTCTTTTAGGAGAAGATAATGACAGAAGAAATGATAATGGAGCTTATAACTAGTGCTCTTATGACGATTTTAAAAATAAGTTTGCCTATACTAATTGTAGGATTATTAGTAGGTTTGATTGTAGGAATATTTCAAGCGACTACACAGATCCAAGAAATGACACTTAGTTTTATACCTAAGATTATTTCAATATTCATTGTGGTATTTGTATTGGGACAATGGATGCTTGTAACTCTAATAGAATACACTAAAGATTTAATAAAAATGATATCTAGATTGGGGTAACAATGGAAAATTTTTATGTAAAAGTTATAATATTTCTTTTGATTTTTTCTAGGATAGCAGGAATATTTATTATTTCTCCAGTATTTAGCCATAATGCGATTACTCAAAAAGTTAAAATAGGTATATCTGCTTTTATTGCTTTATTATTATATAATTCTCTAGCAATACAGGAATCAAAATTTTATGATATAACTTTTTCAAATCTTACATCATTTTTAATAAAAGAGATGTTGTTAGGAGCTATTTTAGGCTATGTAATATTATTAATATTTTCTATTGTTCAGACAGCATCGCAAATATATAGTGTAAATATGGGATTAGTAATGGCAAGTGTTTTTGACCCTATTTCTCAATTTCAGATACCTGTTTTAGGACAAATAAAGTATTTGGTTTTGATGGGTCTTTTTTTTATTTATGGAGTACATAGAAAAGTGTTATTTTTGCTAGCTGATACATTTTATAAATATCCAATTGGTGATTTAAATTATAATATTAATGGGATAACAGAATTTTTAATAAAATTTTTTATATATAGTTTTATTCTATCTATACAGGTCGCAATGCCTATTTTAATGGTATTATTAGCTGTAGATGTAGTTTTAGGTGTAATGTCAAGAATAGCACCTCAAATGAATGTATTTTTTATAGGAATGCCTTTAAAAATTATAGTAGGATTAATATTATTAATTAAATTTATACCAATTTTTATCTTGTATTTTAATAATGTTTTTGAAAAAATGTATTTGCATTTAGGAGAAATTATTAAAATAGCATTTAATAGTTAGATGTGGTTAATTATGAGTAAAAAAATATTAAAAATAAAAATAAATCTTCAATTATTTGCAGATAGCAGTGGAGATAAAACAGAAGAAGCAACACCGAAGAGAAGACAGGAAGCTAGAAAAAAAGGACAAGTAGCTAAAAGTCAAGATTTAGGTCAAATCGCAACATTATTAGTTGGAATAATTGTATTAAGATATTCAAATACTTTTTTTTTAGTAAATATAAATAATTACGTTTCCAAGCAGCTTAGTAATTTAACTTTTAAAGAATTAACTCAAGAAAAAATTTTAGAAATAATTAGTGAATTTACAGAAATGTTTTTTACAACAGTTTTTCCTATTTTGATAAGTGTATTAGCAATTGGGCTTATTATAAATTATGTTCAAGTTGGTTTTATATTTACATTAGAATCATTGAAAATTGATTTAAATAAAATAAATCCTTTAAATGGACTTAAACAATTGTTTTCAATTAAGAAAATCATTGAATTAACTAAAACAATCATTAAATTAATTTTAATAGGTTTTTATGCTTATTATGAAATAAAAGATAAGCTAGAAGAAAGTTTAAAAGCACCTTTTTTTAGTGTAGAAAATGACTTTATTTTAATGTTAAATTTATGTTTTTCGGTTATAATAAAAATTTCAGTAGCTTTATTAATAGTTGCTTTAATAGATTATATGTATCAAAAATGGGAATTTGAAAAAGGGTTGAAAATGACTAAGCAAGAAGTAAAAGATGAATTTAAACAAACTGAAGGAGACCCTCAGATAAAATCAAAATTAAGACAAATGCAAAAAGATTTATTGAATAAAAAAATGATAGAAAAAGTACCAGAAGCAACGGTGATTATAACAAACCCAACACATATTTCAATTGCATTGAAATATGAAAGAGGAATGGGAGCACCAGAAGTAGTAGCAAAAGGAATAGACTTTATGGCTTTAAGAATAAGAGAAATTGCAAAAGAACATAATGTTCCATTAATTGAAAATAAACCTTTAGCAAGAGCAATGTACCCTATTGTTGAAGTAAATCAAGAAATACCAGAAGAATACTATCAAGCGGTAGCTGAAATTCTAGCAGTAATTTTAGAGTAATGTTAAGGAGAGTAATATGGCAATTTTAGATAGTGGTATAAAAAATGCTTCGATTAGCACTTTAATACCAATAGGTCTTATAGGTGTTATATTGATGTTTTTTATGCCTATACCTACTTTTTTACTAGATACATTTCAAGCGTTTAATATAACTATTGCAATAACGATATTTTTATTGTCTATGTATATAAAAGAACCGCTTGATTTTTCTGTTTTTCCATCTGTTTTATTAGTAACAACATTATATAGATTAGCTTTAAATATGTCATCTACAAAACTTATTTTATTACAAGGATTAAATTTTAATGGGAAACTAATTAAAACTTTTGGTGATTTTGTTGTAGGTGGAAACTATGTAATAGGGATTATTGTTTTTGTAATATTAGTTGTAATAAATTTTATAGTTATAACAAAAGGTTCTGAAAGGGTAGCAGAAGTAGGAGCTAGATTCACGTTAGATGCTATGCCTGGGAAACAAATGAGTATTGATGCAGATTATAATGCAGGAATAATATCAGAAGAAGAAGCAAAAGAAAGAAGAAAAAAAATTCAAATGGAATCTGATTTTTATGGTTCTATGGATGGGGCATCTAAATTTGTTAAAGGAGATGCTATTGCAGGGATAATAATTACTATTGTAAATATATTAGGAGGATTCTTAGTAGGAATTTTAAGAGGAGAAGGATTAGCAGAGGCAGCTTCTACGTACACTATACTAACTATAGGTGATGGACTAGTCAGTCAAATACCAGCATTATTGATTTCAGTAGCTACAGGTATGGTTGTTACAAGAAGTGCTTCAGAATCAGATTTTGGAACTGATATAATTGAGCAATTTTTTCAAGAGCCTAAAATTTTATACCTTATATCAGGAGCATTATTTATTTTAGGTGTAATACCAGGGATGCCTAAATTATCATTTTTTTCACTTTCGATTTTTTTAGGCGGACTAGGATATATATTAACAAAATCAATAAAAGAAGCAGAAGCAAAATCAGAAGAAGAAGAAATTGAAAATGTATCAAATACTGAAGAAAATCAAATTGAAGAAGTTAAAAATTTATTAAAAGTAGATCCAATGGAATTAGAATTGGGATATAGTTTAATACCGATTGTAGATAAAGAACAAGGTGGAGATCTTCTTGAAAGAATAACAATGATAAGAAAACAATTGGCAATGGAATTGGGAATAATGATTCCTTATATGAGGATAAAAGATAATATGCAGTTAAATCCAAATGAATACAACATAAAGATAAAATCTTCTGTTGTTGCAGTTGGAGATATTATGATAGGGAGTTATTTAGCCATGAATCCTGGAAATATAGAAGAAGAAATAGTAGGAGTTCCTACTATTGAACCAGCTTTCAAACTTCCTGCTATTTGGATAAATGAAGAGCAAAGAGAAAAAGCAGAATTATTAGGATACACTGTTGTAGATCCAACTTCTGTATTAGCAACACATATTACAGAAACCATAAAAAGACATGCAGCAGATATTTTAGATAGAGAAGCTGTAAAAGAATTGATCGATAATATTAAAGATGAATATAATGTGATTGTAGAAGAAGTATATCCTAAAAAATTTGATTTAGGAGAAATTCAAACAGTTTTACAAAATTTACTTAATGAAGGAATTTCAATACGAAATTTACCTTTGATTTTAGAAGCTATGGCTGATGCTTCAAAATTAACACAAAATATTGAAACTTTATCAGAATATGTAAGAATAGGATTAGCTAGGCAGATTTGTAATGAATTTAAAGGCCCAGATGGAAAATTAAGAGTTTTAACTTTGTCACCAGAAACAGAAGAATTTTTAAAAAACAATTTACAAGAAACAGAATTAGGGAATTATATATCACTAGATCCGGTATCAAATAATAAATTATTATCGAGTATTTCTGAAGAAAATAATAAATGTGTTATGTCAGGATATCCGACAGTAATATTAGTAGCACCGGAAATAAGAAAACCACTTAGAGGATTAATAGAAAGAGATTTTAAAGGGATAGCAATAATTTCATATAATGAAATAATAGCAGATATTGAACTTGAAGCAATTGGGATGGTGAGTGTTGAGTAATGTTAGATATAAAAAATATTAAATTAAAAAAAGTAAAAACATATATAGAAGATGAATACAGAATAGCCTATGCAAAAGCAAGAAAAGAATTAGGAAATAATTTGATATTGATTGATAAGAAAGAAATAAAACAAGGTGGAGTATTTGGATTTTTTGGGAAGAAAAAAATAAAAGTAACTTATGGTTTAGAAGAAACACAAGATTATATTCAAAAAAAAGAGATAAAAGCAGGGAGTAATGTTGAATTATTGCAAGCATTAAAAGATGCAGCAAAAAAAACTATAGAGAATAATACTGAAAATAATGCTGAAGAAAAAAAAACTGGTATTTATTCACCATTTAAAAAAGAAAATTTTAAAAGTATTGATAAAATTAAAGAGGAAATCTCAATAAAAGAAGTAAATAATTTTAAACCATTAAGTGAAACTTTAAAAAATAATGAAAAAACAGAAAGTTTTACATTTATTGAAAAAACAGATGAACCTAATCTTGAAGATATAAAAAAAGAAATTCAAAAAGAATTATCAAGAGAGTTAAGAAATGAAAAAACAGAATTTTTTAATGTTGATGATGAAACAGAAGAATTTATTGAAAAACTAAGGGAAAATGATATCCCAAAAGATATAGCGATAGAAATAAATAATTTTTTTACTGAAAAAGGATATTCTAAAAAAAATTTTAAAGAAGGGTTAGGAGAATATTTTTTACAACATATAAAAACTTCTGAAAATGTACTAGATAAAAAGTTTTTAATGCTTGTAGGACCTACGGGGGTAGGAAAAACAACATCTTGTGCCAAAATAGTAGCAAATAATTGGAGAAATGAAAAAGAAGTGGCTTTTATAACAGCTGATACATATAGGCTGGAAGCAGTTAGTCAAATAAAAGCATATGCTAATATAATGAGAGTTCCGGTAGAAGTAGTTAAAAGGCCAGAGGATTTAATTAAAGCGGTAGAAAAATTTAAAGATAAAGATATTGTTCTCATGGATACAGCGGGAAGAAGTCCGAAAAATACAGAACAAATGAATGAACTTAAAGAGTATGTAGAAAATATAGGAAGTGAAATAGAAGTTGTTCTTGTAATGAGTGCAACCTCAAAGTTAAAAGTGTTATATGAAACAATTGAAAAATTTAAATATATAGGATTTTCAAGTATTATTTTTACAAAAATAGATGAAACAAGTAGTGTAGGCTCAATACTTACAATAATGAAAAAATATAATATACCAATATCGTTTATTACTACAGGACAAACAGTGCCTGATGATATAGAAATAGCAACGAAAGGGAAATTAAAAGAAATATTTATTGAGGGGATAAATTAAAATGGCAATAGATCAAGCAGCTAATTTAAGAAGAATAGTTAAAGAGAAAGATTTAAATTTAGATAAAAATAGTTTTAAACATGCAAAAATATTGGCTGTTACTTCTGGAAAAGGAGGAGTAGGAAAAACTAGCCTAAGTGTTAATTTGGCAGCTCTTTTAGCTAAAAGCGGGAAAAAAATATTAGTTATAGATGCTGACTTAGGTTTATCAAATGTAGAAATAATGTTAGGAGTAACACCTTCATATACATTAAATGATATTATAACAAATAAAAAAAAGATAGAAGAAGTAATAATAAAAGGACCATTTAAAATAGATTTTATATCAGGGGGGAATGGTTTTTTAGAATTAGCAGAACTAACAGATATAGAAAGAGAAGAAATTTTAATAAAAATTCAAAAATTAGATGAAATTTATGATATAATAATTATAGATACAGGCGCTGGAATCTCTAAAAACGTTACTGCTTTTTTAGAAATAGCAGATGAAATATTAGTAATAACAACGTCAGAACCAACTTCATTAACAGATGCATATAGTATAATAAAAATATTAAAAGAAAATGGTAATTTAGAAAAAGTTGGATTAATTATAAATAGAGTTAAGAGTGAAAATGAATATATACAAGCTTCTAAAGTTTTGATTAACACAACAAAAAGATTTTTAAAAGTTGATATAAAAGATATTGGATATATCTTTGAAGATGTATCAGTAAGAAAAACAATATATAAAAAGACACCGTTTACGATATATTATCCAGATTCAAAAGCAAGTACATGTGTAAAAAATATATTGTCGAAAATTACAGATACTAAAATTGTTGGAAAAGAGGAGACATTAATTGATAAATTTAGAAAATGGTTTAAAAGTTCGAGTGGGTGATGAAAATGATAAAAGTTCTAATAGTAGATGATTCTTTATTTATGAGGAAAATAATAGGAAAAATATTAGAAGAAGATGATGAAATAGTAGTAGTAGGTAGTGCTAAAAATGGAAAAGAAGCAGTTGAAATGAATTTAAAATTAAATCCAGATGTTATTACTTTAGATGTAGAAATGCCAATTATGAATGGATTAGAAGCTTTAAAAGAAATTATGAACACAAAACCAACAAAAGTGATAATGCTAAGTAGCTTAACAACAGAAGGCGCAAAGGAAACAATAGAAGCTCTCGAAAATGGAGCGTTTGATTTTTTATCAAAGCCAGATGGGAAAAGTGTATCTTTAAATATAGAAAAAATATCTGATGAACTTATCCAAATGGTAAAGGAAGCTAAAAAGGCTAATATTAATTTATTAAAAGTTAATAAAGTCAAAAAAAGTAAAGAAGAAAAAATTAGTTTTTCAAGTATATTAAAAAAGAAAGCTAAAAAAGAATTACATAAAGGACATAAGAAACCTTCTAAAATAGTAAGTATAGGAATATCAACGGGCGGTCCAAAAGCATTACAAACGATTATACCTAAAATACCAGAAGATATTGATGCAGGTATATTAATAGTTCAGCATATGCCACCTAAATTTACAAAATCTTTAGCTGATAGATTGAATGAATTATCAAATATCGAAGTTAGAGAAGCCCAAGATGGAGATAAAGTTGAAAGAGGTGTAGCATATATTGCCCCAGGAAGCCATCACATGACTTTATCAAAAGATAAAGAAACAATAAAATTAAATTTAGATCCGCCAAGTCAAGGGCATAGACCTTCGGTTGATGTTATGTATAACTCATTAATTAAAAATTATGATATGAAAAAATTAATTGCTGTAATTATGACTGGAATGGGTAAAGATGGAGCAGAAGGTATTAAAAAAATTAGAGAATTAGGAGGTATTACTATAGGTCAAAGTAAAGAAACTTGTGTGGTATATGGAATGCCTAGAGTAGCTGATGAATTAGGTGGTGTAGAATACGTCGCTGATTTAGAAAAAATACCTGAGTATATTTTAAAACATATTAAATAGTAATAGGGGGAATATTTTATGAGCATGTCACAATATATGTCAGTATTCATTGATGAATCAAGAGAACATTTACAACTTATGAATGATTCATTATTAGAATTTGAACAAGATACAGAAGATGTAAAAATAGTAAACGAGATTTTTAGAGCAGCACATACGTTAAAAGGTATGTCTGCAACAATGGGTTTTAATAGAATAGCAGAGCTTACACATCATATGGAAAATGTATTAGATAATATAAGAAATGGTGTTTCTATTGCAGATGGGACAACAGTGGATATTTTATTTGAATGTTTAGATACTTTAAATTTATTAGTCGATGAAGTAATTGAAACAGGACAAGAAACAACAGAGGTATCTGATTTGATGTCTAAATTAGACGAAATGGTAAAAGGAGCGGGTAAAACCACAACAAAACCATCGTCTAAAATAGAAAAAAAAGAAACACCAGAAGAAAAAAAAGAAGAAATACAAGCTGAAAAAGAAATCGATGAGCAAGTAGAATTTAATGAATATGAAAAAGAGATTTTAGCAGCAGGTAAAGGGAAAGAGATGGCACCGTATTTAATAAAAGTAGAATTAGATGAAGGGTGTTTATTAAAAGCAGCTAGAACTTATATGGTTTTTAGAAATTTAGAAGAAATAGGAGAAGTAATTAAATCTATTCCTAGTGTTCAAGAATTAGAAGAAGAAAAATTTGATAATAGTTTCTTAGTTGCATTTATATCAAAGAAAAGTATAGAAGAAATAAAAAATTCTATTTTAGAAGTAAGTGAAGTAAAAGATGTCTTAGTATCAGATATTGATATAAATATGTCGGAAAAAACAGAGGCTAGAGAAATTAAAGCAGTTAAAAAAATATCTGAAAAGCAAAATAAAGTTAAAAAATCAAAAAGTATGGTTAAGAAAACAACAACAACTGTAAGAGTAGATACAGAAAAGCTGGATTTATTAATGAACTTAGTGGGAGAATTAGTTATAAATAAAACAAGACTTGCACAGTTAGGTTTAGAGTATAATCTTCAAGATCTTTCAGAAACGTTATCACATGTAGATAGAGTGACTTCTGATATACAAGCAGTTGTAACAAAAGTAAGAATGGTACCAATAGAAACTGTATTCAATAGATTCCCTAGAATGGTCAGAGATCTCTCAAAAGATTTAGGAAAAGATATAGATTTGATAATAGAAGGAAAAGAAACAGAATTAGATAGAACAGTTATTGATGAAATTGGAGATCCATTAGTGCATCTTATTAGGAATTCAGTTGATCATGGAGTAGAGCTTCCTGATAAAAGAGAAAGTAAAGGGAAACCAAGAACAGGAACTATTTTATTGAAGGCAGAACATGAAGGAAACTCAGTAGTAATTACTATTAAAGATGATGGTAAAGGAATGGATACAGAAGTATTAGCAAATAAAGCAATAGAGAAAGGAATTCTTACTCTAGAAGAAGTTGAAAAATTGTCTCATGAAGAAAAATTGAATTTAATTTTTGCACCAGGTTTTTCAACAGCTTCAGAAATTACAGATTTATCTGGGCGTGGAGTAGGTATGGATGTTGTAAAAACAAAAATAGAAGCTTTAAGTGGTAGTATTGAAATGAGTTCCGAAGTTGATAAAGGAACTGAAACTAGAATTAAATTACCATTAACACTTGCAATTATAGAAGCATTAATGATAAAATTAGAAGAAGAAGTTTATGCAATACCACTTGCGAACATAGTTGAAACAATTGATATAGCTAAAGAAGATATTAGAACAGTTCAAAATGAAAAAGTTATACTTTTAAGAGGTGAAATTGTACCAATTTTAAATCTTTCAAGTATTTTAGAAGTAAAAACAGAAAAACCAGAAATAGAAGATAGAAATACTGTAGTCATAGTAAAAGCGGGAAATAAAAAAATTGGGTTTATAGTAGATGTGCTTATTGGGCAACAAGAGATAGTAATAAAATCTCTTGGAAAAATGTTCCAAGGAACTAAAGGTATAACAGGAGCAACTGTACTAGGAAATGGAGAGGTTGCGCTCATATTAGATGTGTTAACTTTAGTTTAATAAAATTTTTCTAGGGAGGAATATTATGTCAGAAAATAGTAAAAATGAGACATTACAAATAATAGGTTTTAAATTAAATGATGAGGAATATGCACTTGAAATTGAAAATGTCCAAGAGATAATTAAAAAAACTAAAATGACAAGAGTAGCAAGATCAAAAGATTATATTAAAGGAGTTATTAATTTAAGAGGAATAGTATTTCCTATTATAGATTTAAAATATAGGTTTAATATGTCTAGTCAAACTTATGATGATAATATGAGAATAATTATATTAGAAGTCAATGGTGTATCAGCAGGAATTATGGTAGATTCAGTTTCAGAAGTAATAGAGGTAGATAAAAGTAAAATACTAGCAAATCCACAGCAATCTAATTCTGAAATTAATACTGATTACTTAAAAGGTGTATGTAAAGTTAATGAAGATAGACTTATGACATTATTAAACATTGAAAAAGTTTTAGAAATAAAGAATAATTAATTTTTAGGAGAGATAAGATGTCAATAACAATTGATAAATTAGGAGAAAGAGAATTAGATATACTAAAAGAATTGGGAAATATAGGAGCTGGAAATGCTGCAACAGCTCTTTCTCAAATTCTTGCTAGAAAAGTAGATATGAATGTACCACAGGTAAAAGTTTATAATGTTACAGATGTTCCAGAACTTTTAGGCGGAGCTGAAAACATTGTAGTTGGAGTATTATTAAAGATGTTTGGAGATTTACAAGGGAATATTATGTTTTTACTTCCTGAGGATTCTGCAAGAAAACTTTTAGGGATGATGGTGGGACAAGAAGTTGAAGATGTTACCGATGATATGTCAAGATCTGCTATTATGGAAGTAGGTAATATTATTGCGAGTTCTTATTTAAATTCTTTAAGTTTTTTTTCAGAATTAACTTTGATACCATCAACACCAGCTTTTGCGTATGATATGGCAGGAGCATTATTGAGTGCTGTATTATTTGAAGTCAGTGAATTAAGCGATCAAGTAGTATTAATAGAAACAGATTTTTCTGGAAATGGTGAAGCAATAAAAGGACACTTCTTTGTACTACCTAATTTAGAATCATTGAATGCTTTACTAAAATTGGTGGTGGCAAAAGTAGATGGAAAATAATGTAATAAAAGTAGGAATGGCTGATTATAAAGTGGGAAGCGCACCTGCAAAACTTATTACATTAGGACTAGGATCATGTATCGGAATTACTTTATATGATAAAAGAAAAAAAGCAGGAGGAATGGCTCATATAATGCTTCCTAAAAATAATACTAAAGATCAAAATTCGCTTAAATTTGCAGATACAGCAATAACTCTTATGATAAAAGACCTTGAAAAAATGGGATTAAATAAAAGAAATATGGAAGCTAAAATAGCTGGTGGAGCACAAATGTTTTCTTTTGGGAAATCCGATCAATTAAATAGTATAGGATCAAGAAATGCAATAGCTGTAAAAGAAATTTTAAAAGAAAATAATATACGAATAGTAGCAGAGGATACAGGTGGAAACAAAGGAAGAACAATAGAATTAGATTTAGATACAGGGAAGTTAAGAATTAAAACAATTGGTCAGGGAGAAACGTATATTTAAGGGCTACTTATTTGGAGGTTGACATGATAGACGATAAAGAGCTATGGATAGAATACAAAAAAACAGGAAACTTAGAAGTTCGTGAGCAACTTATTATAAAATATATTCCATTAGTGAAATATGTAGTTGGGAAAATGATAACGAATCTCCCTAGAACTGTTGAATATGATGATTTAGTTGAGTACGGAATCATTGGATTGTTAGATGCTGTAGAAAAATATGATTTATCTAAAAATATTAATTTCAAAACCTATGCCGTAACAAGAGTACGGGGTTCTATTTATGATGAATTAAGATCTCAAGATTGGGTTCCACGTTCTGTAAGAAAATTAGCAAAAGATATTGAAAAAGCTTATATTCAATTAGAAAAAGAAACTGGAAAAGAACCAACAGAAGAAGAAATAGCAGTTTTTTTAGGGATACCACAAAAAAAAATAGAAGAGTTATATTCAAAAGTTGATTTAGGAAACATTTCTTCTTTGGACGATATAGTTTATGATAATGGAGAATCAAAAACAACGTTGGTTAATTTAATAGAAGATAAAAATGTAGAAAGTCCAGAAGAAAAATTACAAAAAGAAGAAGTGAAGCAATTATTGATAGAAAAATTAAAAGAATTAAAAGAAAAAGAAAGACTGGTATTAACATTATATTATTATGAAAAATTAACTTTAAAAGAAATAGGGGAAATATTATCAATTTCTGAATCAAGAGTATCTCAAATACATTCAAAGGCAATATTAAAATTGCGATCTAAAATAGCTACTAAGTTTGGAAATTATGCAGAATTTTTTTAATGATTAACCTAAAACATTCTACTAATCTTTAGTTGAATGTTTTAGGTTATTTATATATTTAAGGAGAATAATTATGAAAAAAATAGATTTTGGTTTAATTTTTAAAAATTCAGAAATAATATCTAAATTATTTACTAGTCAAGAAAAAATATTATTTAATCAACAAAAAAATATAAAACTTAATATAGAAAAATCAAAGAATTTAAAAAAAGAAGAAATAAATAGAATAGAAAAAATAGAATTGAGTAAAATAAATACTAATATAAGGAAAAATAAAAAACAAAAAAATAAAAATAGATATAGAGATAATAATAATGGAAGATGGATAGATTTTGAAGGGTAGTGATATGGATGAATATAGGTTATTTTAAATTTATTAATAATAGAGATAGCTATATATCGGGGTTGCTTATAGTGGATAATAGAGGTATACCGATAGAGTTTAAATATACAAATGAAATAATTCCAAGTAAGAAACAAAAATTGTTATATGGAACTACATTAAAAAGTTATTTAAAAGAAGAGTTGATGTTTAAAAACCTTGTTACTTCATTAGAAAATATAGTAGATATAGTTATAGTAGATAGTATAGAAGATATTTCATTAAATAAATATATAGATAATAAAGTTGTTGTAATAAGAAAAACACAAGAAAGGCAACTTAAAGATTTAAAAGAGTTTCAATTTGTGGCAAAAGATGAGCTGTTATATCAATATGAAGAAAAAGAAAATCCAATAAGAGTAATATTTAAAGAAGAATTTTCAGAAGAAATAATAGATATCTTAAATGAAATAAAAATAGAAGACATATTAGAACCGATAAATAGAATAGAGGAGGTTTTAAATGAAATATGCAATGGAAATTAGAAAAAATTTTTAATAAAAAAAATAAAAAAGATGAAAAAATAAAAATAGAAATTAAAAACAAAGAAATCAAAAAAAATATTTTAAATATAAATAATGTGAAATTTAATAACAAAGAGATAGAAATAAAAGATGGATTTAATAAGATAAAAACTATAAGAATAAGAGGATATAAATTTAAAAAAAATACAAAAATTAACAAAGAAGAGGATATAAAAATAACTAATTTAATAATAAATAAGAAAAAAATTTAAATTTAACTATTGTGAAATATTTGTTTGAAAAATGCTTGTATTTATGATAAAATTTAAAAGGTGATTAAAACATTAGGAGGAATGAATAAATGAGAAAAACAATAGTAGCAGGAAATTGGAAAATGAATAAAACGAATGCAGAAGCTGTAGAGACTTTAAAGAAATTAGCAGAATTAACTAAAGATATAGATGGAGTAGAAATAGTAATAGGAGCACCTTTTACAGCACTTTCTGATGCTGTAAAAGCAGTAGAAGGAAGTAAAATTAAAATAGCAGCACAAAATATGAACCCAAATGAAAAAGGAGCTTTTACTGGAGAAATATCTCCATTAATGTTAAATGCTATTGGAGTAAAATATGTAATATTAGGACATTCTGAAAGAAGAGAATATTATGGGGAAACAAATGAATTTATAAATTCTAAAGTTAAGACAGCTTTAGCGCATGATTTAACTCCTATTTTATGTGTAGGTGAAAAATTAGAGGATAGAGAAGCTAATAAAACAGAAGCAGTAGTAGAAGACCATGTAAAAGGAGGGTTAAAAGACCTTACTAAAGAAGAAGCTAAAAAAGTAGTTATTGCATACGAACCAGTATGGGCAATTGGAACAGGGAAAACAGCTTCTCCTGAGCAAGCACAAGAAGTACATAAATTTATAAGAAATTTATTAACTGATATGTATGGAGAAGAAATAGCAAATGAAATAACTATTCAATATGGGGGGTCAATGAAACCTGAAAATGCAAAAGAATTAATGAGCCAAAAAGATATAGATGGTGGATTAGTAGGGGGAGCTTCATTAGAAGCAGATAGTTTTGCAAAAGTTGTAAAAGCAGGACTTTAATTATTACTACAACAAACTTATGGCATATTATATGTTTAAAGAAAGGGTGAAAAAATGGCTAAGAAACCTTTAGTATTAATGATATTAGATGGTTGGGGGATAAATCCTCATAAAAATGAAAAAAATGCAATAGAAGAAGTACATCCAAAAAATTATTATGATATTTTAGAGAAATATCCAAATACTCAAATATTAGCAGCAGGAGAAGCAGTAGGACTTCCTGATGGTCAAATGGGGAATTCTGAAGTAGGACATTTAAATCTTGGAGCAGGTAGAGTAATATACCAACCATTGGTAAAAATTAGTAAAGATATAAAAGATGGTGTATTATTTGAAAATAAAGTATTAAAACCAGCATTTGAAAGAATAAAAAAAGAAAATAAAGCATTACATTTAATGGGTTTATTATCTGACGGAGGAGTACATTCTCATATCGAACACTTATTTGGATTACTAGAAATGGCAAAAAGAGAAAATTTAGAAAAAGTATATATTCATGTAATAACAGATGGAAGAGATACTCCACCTAAATCTTCTCTTATATATATCGAACAATTAGAAAATAAAATAAAAGAATTAGGAGTAGGGAAAATAGCTACTGTATCAGGAAGATACTATGCTATGGATAGAGATACTAATTGGGAAAGAACAGAAAAAGCATATAGAGCTATTATATTTGGAGATGGTGAAAAACACCTTTCAGCTAAAAAAGCTGTAGAAACATCTTATATGGAAGAGTTAACAGATGAATTCGTAAAACCAACAGTAATCACAGATATGGCGGGAAATGCACATTCAAAAGCTGAAAATGGAGATTTATTTGTATTTTTCAACTTTAGACCGGATAGAGCAAGACAAATTACTAGAGCAATAAATGATAAAGAATTTAAACATTTTGTAAGAGGTAATAATTCGGAAGTTGAATTTATATGTATGAGACAATATGATTCGACGATTGACGCTAAAATAGCATATGAAGATGATGATATTAATAATACGTTTGGAGAAGTTATTTCAAAAGCAGGATTAAAACAATTAAGAACAGCTGAAACTGAAAAATATGCACATGTAACTTTCTTTTTCAATGGAGGAGTAGAAACAAGTTTTGAAGGTGAAGAAAGAGTGTTAGTAGATTCACCAAAAGTAGCAACTTATGATTTACAGCCTGAAATGTCCGCATATGAAGTAACTGATAAATTAGTTGAATCAATAGAAAATGAATTATATGATGTAATAATAGTAAATTATGCAAATCCAGATATGGTTGGACATACTGGTATATTTGAGGCAGCAAAAAAAGCAGTAAGCGTAGTTGATGAATGCTTAGGAAAAGTAAAAGAAAAAGTATTAGAAAAAGATGGAGTTTTATTAATTACTGCAGACCATGGGAATGTAGATTTGATGGAAGATCCGAAAACACATGTACCATTTACAGCACATACTACTAATCCGGTTCCATTTATAGTTGTAACAAATGATAAAGGAATTGAATTAAAAGATAGTGGGAAATTAGCAGATGTTGCACCTACTATGTTAAAATTATTAGGAATAGAAAAACCTAAAGAGATGACAGGTGAATCTCTAATAAAATAAATTGGAGGGAAAAATGCTATTACTTTTTAAAATAACACTTTTTATAATTTCAATATTTTTAATTGGACTTGTATTAATTCAACCCGATAAAAGCCACGGAATGTCTGGAAGTATAGGTGGAGGGGCAGTTAATACAGTATTTGGTGTTAATGAAGATGGTGGTCCATTAGCTAAAGCAACACAAATAGTTGCAGCATTGTTCATAATAAATGGATTGATTGTTTATTTATTAACTTTATAAAAAGTATGCCATTTTGGCATACTTTTTTTGTAGTACAGTACTTGAGAGTAGATAAAAATTATGATATAATTTGGTGATATGATGAATAATTTATTTGAAATTAATTACAAGAGAAAACAACCACTCGCTTATAGAATTAGGCCAACAACTTTAGCTGAATTTTTCGGGCAAAAAAATATTATTGCTGAAGGGAGTCCTTTAAGAGAACTTATAAAAAAACAAAAATTTATAAATTCTATTTTTTATGGTGAAAGTGGGACGGGAAAAACAACTTTAGCTGAAATTATTGCAAAAGAATTAAAGTTTTATTTTGTAAAACTAAATGCAACTAATTGCAGCATAAGTGATATAAAAAAAATATCTGAAGAATCAGAAAAAAGATTGAAAATAGAAGGAAAGGAAACACTTTTGTTTTTAGACGAAATACATAGATTTAATAAATTACAACAAGATAGTTTGCTTAGTTTTATCGAAGAAGGAATATTCAAAATTATTGCGGCAACAACAGAAAATCCTTTTTATAATTTGAATAATGCGTTATTATCTAGATGTTTGAGTTTTAAATTTGAAAAATTAAAAAAAAATGATATTATTAGTATTATTAATAGAGCCGAAGAAATAGAACAGATTAAGATAGAAAATGAAATAAAAGAATTTATTGTAGAAACATCAAATGGGGATGCACGTATAGCATTAAATTATTTGGAGCTTATTCTAGAAGTTTATGATAATATAGATAAAAATGAATTAAAAAAAATAATTATTACAGAAGAATTTTTTCATAAAAAAGAAGATAAATATAATTTGATATCAGCTATGATAAAAAGTATAAGAGGAAGTGACCCCGATGCTAGTGTATATTGGCTGGGAAGACTATTAAAAGGAGGAGAAGATCCTAGATATATAGCAAGACGTCTTGTTATTTTGGCAGCTGAAGATATAGGATTAGCAAATCCAGAAGCACTTAATTTATCAACGAGTGCATATATAGCAAGTGAAAAAATAGGAATGCCAGAAATAAGGATAATATTGTCAGAAGTAGTGATATATTTAGCAATTTCAAGTAAATCAAATAGTGTATATAATGCGATAAATAGTGTATTTCAAGATTTAGAATCAGAAGAAACATTAGAAGTGCCTAAATATTTAACAAAAGAGTATTCTAAGAATTATAAGTATCCACATAATTATGATAATAACTTTGTAAAACAAGATTATTTGAAAAAAAACAAACGTTTTTATATTCCTGGAAACAATAGGATGGAAAATAAGATAAAAGAAAAATTAATAAAATTATGGGGGAAAAAGTATGGAAAATAAGATAGGTGAAATACTAAAAAAAGCAAGAGAAGAAAAAGGTTTTGATATAGCTTATATAGCAGAACAAACTAAAATACAAAAACGATATTTAATAGCGTTAGAAGAAGGAAATTACAATGAATTACCGGGCGAAGTTCATATAAAAGGATTTTTAAGGAATTATTGTCGTGAAGTTGGATTAGATAGTAATAAAATAATAGAAATGTATAATCAATATAAAAATGAAAATTTTGAAGAAGAAGAAAATGAAGTAGATGATAAAAATGGGATATTAAATCTAATTATTGCAGGGATCGTTATTATTTTTTTAGGGATTATTTTATTAAATATTATTGACAAAAAAGATGAAAATATAGTACAAGAAAAACAAAATATTAGTAATAATAAAAATTCAAATATAAAAAAAATAGAAAAAGAAGCATTAAAAACAAATAAAGAAAATAATAAAGAAGAAAAAAATGTAGAAAACGAAAATAAATTAATAAAAAAAATTGAGATAATAGAAGAAAAAAAAGTTGCAAAAGAAGAAAAAAATGATAAAATAGATATCTATAAAGAAATAAAAATAATTGCTAATGGAATATCATGGATAGAAATCAAGAAAAATAATAAAGAATATTTTACAGGGTTTTTAAAAAATGAAGAAAAAATAATAAAAGTTAAAAAAGAAGAAAAAATATATATAAAAATTGGCGATGCAGGAGTTGTAAAATTAATAAATGATGGAAAAGATTTAGGAAAAATAGGAAATAAAGGTGAAGTTAAGAAATTTAATTTTTAATATAGATAGGAGCTAGTATGAATATTAGAGCGGTTAGAGGAACAAAAGATATATTTAATGACGATGCTATAAAATATAATTATATTACAGAAATAGCTAAAAGAATTTTTGAAAATTTTAATTATAATAGAATAATTACTCCAATATTTGAAGAAACAGCTTTATTTAAAAGAGGAATTGGTGAAGGAACCGATATAGTAGAAAAAGAAATGTATACTTTTTTAGATAAAGGAGAAAGAAGTATAACATTAAGACCAGAAGGAACAGCCTCTGTAGTAAGAGCTTATTTAGAACATAAAATATATGGAAATGAAGAAATTACAAAATGGTATTACTATGGACCAATGTTTAGATATGAAAGACCACAAGCAGGAAGATATAGGGAATTTAATCAATTAGGAGTAGAAGTATTGGGGAGTAAAAATCCTAAAATTGATGCAGAAGTAATTTATATGGGATATAAGTTACTTGAAAAAATAGGAATATCAGATTTAAGAGTAGAAATAAATTCTGTTGGTGGAAAAGAAACTAGATTAAAATATAGAAAAGATTTATTAAAATATCTAAAAGATAAAAAAGAAAATTTATGTAATGATTGTCAAACAAGATATGAAAAAAATCCATTAAGAGTACTTGATTGTAAAGTAGAAAAATGTAAAGAAATTGTTAAAAAAGCACCAATTTTAACAGAATATTTATCAGAAAAAGAAAAAAAACATTATGAAGAAGTAAAAAGATTATTAAATATATATAATATACCTTTTTCAGAAAATCCTAAATTAGTAAGAGGGTTAGATTATTATTCTAATATTGTTTTTGAAGTAATAACAGAGAAATTGGGAGCACAAGGAACAGTTCTTGCTGGCGGAAGATACGATGGACTTATATCTACTATGGGTGGAAAAGATACTCCAGCTGTAGGATTTGCAGCAGGAATAGAGAGAATAATGCTCTTGATGAATGAGAAAAAAACAAAAAAAAATAGAATTGGAATTGTGTGGCTGGGAGAAGAAAGTAGTGATTATGCTTTACTATTAGCTAACGAATTAAGAGTAAATAATTTTGATGTATATATGGAATATGAAAAAAAATCTTTAAGAGCACAAATGAAAAAAATAGATAAAATAAACGCAAAATATGCTATAATAGTAGGAGAAGAAGAAGTAAAAGAAAATAAATTAGTAGTGAAAAATTTAAAAACAGGAGAGCAAATAAAAATAAAAAGAGATACAATTTGTGAATACATGAAAGGAGAAATTAATGAAATATAGAACTCACTTATTAGGCGAACTTAGAGAAAAAAATATAGAAGAAAAAGTAATCTTAACTGGATGGGTTGATAATAGAAGAGATTTGGGAGGATTAATTTTTCTTGATTTAAGAGATAGAACTGGTATTACTCAAATTGTATTTAATCCAGAAGATTTGTCAGAAAATATAATAAATATAGCGCATAAAGTAAAATCAGAATATATAGTAAAAGTAGAAGGTACGGTAAAAGAAAGATTTAGTAAAAATCCAAATATACCTACTGGAAATATAGAAGTAATTGCAGATAATATTAAAATAATTAATAAATCTGAAGTTTTACCATTTGAAATAAAAGATGATATTAAATTAAATGAAGCAATTAGATTGAAATATAGATATTTAGATATAAGAAGACCTAAAATATTAAATAACTTATTAAAAAGAAATCAAATGATGTTTTCAATGAGAGAATTTTTAACAAAAAAAGGATTTATTGATATAGAGACACCTATTCTTACTAGATCTACACCAGAAGGGGCAAGAGATTTTATAGTACCAACTAGAACTGAAAATGGTAAATTTTATGCTCTTCCACAATCGCCACAATTATTTAAACAAATACTTATGATTGCTGGAGTAGATAAATATTATCAAGTAGCTAAATGTTTTAGAGATGAAGATTTAAGAGCAGATAGACAGCCAGAATTTACTCAATTAGATATAGAGATGTCTTTTGTTGATGAAAATGATATAATGGAAATGATAGAAGAACTTGCAAAAAAAGTATTTTTAGATATTGTAGGCAAAAAAATAGAATATAAATTTGATAGATTAAGTTATTATGATGCTATGGAAAGATATGGGAGTGATAAACCAGATACTAGATTTGATTTAGAATTAAAAGATTTATCAGATATAGCAAAAGAATGTAATTTTAAAGCATTTAAAAATGTAGTAGAAAATGGAGGAGTTTTAAAAGGGATAAATGTAAAATCTGCTGCAAAAGATTATTCTAGAAAATTAATAGATGAATTAACAGAATTTGTCAAAATATATGGCGCTAAAGGGTTAGCATGGATAAAAATAGAAGAAAATTATGAAATAAAATCTCCAATAGCAAAATTTTTTACTAAAAAAGAATTGGACGAAATTATAGAAAAAATGGATGCGAAAGAAGGCGATATATTATTTTTAGTTGCTGATAAGCTAAAAATAGTGTATGATAGTTTGGGGGCTTTAAGATTAAAAATAGGAAAAGAAAGAAAATTAATAGATGAAAATCAATACAATTTCTTATGGGTAGTAGATTTTCCTTTATTAGAATGGTCTGAAGAAGAAAAAAGATATAAAGCACAACATCATCCGTTTACTGCTATAAAGGATGAAGATATAGAATTAATAGAAAATTCACCTGAAAAAGTTAGAACTAAAAGTTATGATTTAGTATTGAATGGATATGAAATAGGTGGTGGAAGTGTTAGAATACATCAAGAAGAAATTCAAGAAAAGATTTTTAAACTTTTAGAATTATCAGAAGAGGAAATTCAAGAAAAATTTGGATTTTTCTTAGAAGCATTTAAATATGGAGCACCGCCTCATGGGGGGATTGCTTTTGGAGTAGATAGATTTTTAATGGTTCTGTTAAAAGAAAATTCGATAAGAGAAGTTATACCATTTCCAAAAACAAATAAAGGACAATGCTTATTAACGGAAGCACCAAATTATATTGATGATAGTCAACTTAATGATGTTGGAATCAACTTGAAAAAATAAAATAATAATTTTCATAGACTGTTCGAGATTATGGAAATATTTTGGCCTAACAATTTATTTCCGGGGTTGGCTCTGTAATTGGTAAATCAGGTAAATCACGAAAAACTTAGTTTTTACGGATTCTGTATGCCAGTTATATCTGACTACCACTTTGTGTCGTATTAGCGACCAAAATTTTTATAATTTACGGCAGTCTGGGATTTTTAATTAAAAATTTAAGATTTAGATATAAATTGTCTTAATCTTTAATTTTTAATTTTAAAATTTGCTTATAGAAGGAGTATAAAGATGACATTATTAGAAAAAAAGATTGAGTCATATTTATTAGATGCAATAAAAGAAACATTTAAAAATATTGAAATAGATGAAGTGAATATTCAACCTTCAAATAATGAAAAATTTGGGGATTATCAAACAAATTTTGCGATGGTAAATTCAAAAAAAATAGGAGATAATCCGAGAAAAATAGCAGAAAAATTAATTAATAATATTAAAAAAAATGAAATTTTTGAAAAAATAGAGATAGCAGGACCTGGATTTATAAATATTTTTATAAGAATAGATTATTTAGCAGAAGAATTGAAAAAAATAGGAGAAAAAATAGAATTTCAATTTTTAGATACAGCCGGAGATGTAGTTATAGATTATTCATCTCCTAATATTGCTAAAAGAATGCATATAGGACATTTAAGAAGTACAGTAATAGGAGATTCTATAAAAAGAATATATAAATTTTTAGGATATAATGTTATAGCAGATAATCATATAGGAGATTGGGGAACACAATTTGGGAAACTTATAGTAGGTTATAAAAATTGGTTAAATAAAGAAAATTATAAAAAAAATCCTATAGAAGAATTAGAAAGGATTTATGTTGAATTTTCTAAGAAAAGCGAAGAAAATGAATCACTAGAAGATTTAGCTAGAGAAGAACTAAAAAAATTGCAGCAAGGCGATAAAGAAGCAAGAAATTTATGGAAAGAATTTATAAAAGTTTCTTTAGAAGAGTATGAAAGAATATATAAACGGATGAATATAGAGTTTGATACATATTATGGTGAATCATTTTATCATGATATAATGCCACTAATAATAGAAGAATTAAAAGAAAAAAATATTGCAAAAGAAGATGAAGGGGCCTTAGTGGTATTTTTTGATGAAAATAAGAATTTACATCCGTGTATAGTCCAAAAAAAAGATGGAGCTTATTTGTACTCAACTTCTGATTTAGCCACTATAAAATATAGAAGAGAAAATTATAATTTAAATAAAATAATATATGTAACAGATGAAAGACAACAAGATCATTTTAGACAAATATTTGAAATTACAAATATGCTAGATTGGAAAGACGAAAAACATCACATTTGGTTTGGAATAATGAGGTTTGCTGATGGGATTTTTTCTACAAGAAAAGGTAATGTAATCAAATTAAATGATTTATTAGATGAATCTGTAGAAAGAGCCTATAAAATAGTATCAGAAAAAAATCCTAGCCTTAACGAAGATGAAAAAAGGAATATCGCTGAAGTAGTTGGGATAGGAGCTGTAAAATATGCAGATCTTTCTCAAAATAGAACAAGTCCGATTATTTTTGAATGGGATAAAATATTAAGTTTCGAAGGAAACACTTCTCCATATTTACAATATAGTTATGCTAGAATAAAGTCAATAATGAGAAATGCAAATGAAAATAATATTAAAATAGATTATAATAAAAAATTGATATTTACTGAAAATAGTGAAATTAATTTAATTAAATTTGTATATCAATTTCCTAGAATAGTGATGTTAGCGGCAACAACTTTTAAGCCGAATTTATTAGCAGATTATATATTTGAATTATCTAAAAAATTTAATACTTTTTATAATGCGGCACCTATTTTAAAAAGTGAAAACAAAGATATAATAAATTCAAGGCTTATATTATGTGATAAAGTATCGTTTATAATAAAAGAAGGGTTAAATTTATTGGGAATAAGTACAGTAGATAGAATGTAAGGAATATTTTTCTGTACTTTTGAAAAATTACAAGGTATAATTTAGTAAAGGATGAACTTATAAAAAGTATATTATTAGAAGGGGGACTTAAGTATGGAAAAAGAAAAAAATATGTCTGATGAACTTCAGGTTGTAGTATTTATTTTAGATAAGAATTATTATGGGGTTCATATTTTGCAAGTCCAAGAAATTATAAAAATGACAGAAATAACACAGCTTCCAAATACTCCAGATTTTATAAAAGGGATTGTAAATTTAAGAGGTAATATAGTTCCGATTATGAATCTTAGAAAAAGATTTGGGCTAACAGAACAAAAAGAAAATGAGAATGCTAAAATTTTAATTTTAAAATTAGAAGAGTTACAATTTGGTATAATTGTTGATGAAATATCAGAAGTTGAGAAAGTTTCGGTTTCGTCTATAGAAGCTCCACCTAAAATTGTTTCTGGAGTAAGAGGAGAGTTTATAAATGGAATAGCTAAAACTAATGATAGATTATTAATCTTATTAAACATTGAAAAAATATTAACATTAGAAGAAAAAGAAATATTAAAAGAAATAGAAGAAACAAATTAAGGCGGATAGAATCCGCCTTTAAATATATACAAATGGGGGAGATATGAAAAGTTTTGAAATATTAATAATAACTGGTATGTCCGGAGCAGGAAAATCTAGTGCTATAAGATTTTTTGAAGATAGAGGATATTTGACAATAGATAATTTGCCAGTAAAACTATTGAGTAATATGTATAAATTATTTTTTAAATCTAGTAAAATAAGAAAAGTAGCTTGTGTAATAGATAGCAGATCGTGGAATAGTGCAAAAGAGTTTATAAATGAATGTAAAAAATTAAAAAAATTAGAAATTAATTTTAAAATACTTTTTTTAGATTCGGCTAATGAAGTAATTTTGAACAGATATAATTTAACAAGAAGAAAACATCCAATTAAAGAGTTTAATACACTTTTAGAAAATATAAAAGAAGAACGAAAACAATTAGAAGAGATAAAAGATTTAGCAAATGAAATAATAAATACGTCAAATATAACACCAAAAGAATTAAATAAAGAGTTGGAAAAATTATTAACAAGTGAAACTAAAAAAATAACAATAAGCATTTCTTCATTTGGATTTAAATATGGAATACCAATTGATTTAGATCTTATGTTTGATGTGAGATTTTTACCGAACCCATATTATGTAGAAGATTTAAAAAATAAAACAGGTAATAATAGAGAAGTATTTGATTATGTATTCAATTTTGATTTAACAAATGAATTTTATTTAAAACTTAAAGAGATGTTAATATTTTTAATACCACAATATATAAATGAGGGTAAATCACATTTATCAATAGGTATAGGATGTAGCGGTGGGAAACATAGATCGGTAAGTATAGTGAATAAACTATATGATGAACTTAAAGAAAATGATACAATAGAAGTATTAAAATCCCATAGAGATATAAGAAAAAATTAGATTGGAGTTATATGAGTAATATAGATTTAAATGAATTTCCAGATATGCCTGGAGTTTATTTAATGAAAAATATTAATAAAAAAATAATATATATTGGAAAGGCTAAAAATTTAAAAAAAAGGGTAAGTTCTTATTTTCAAAAAAAACATGATAGAAAAAAAACAGAAGAATTAGTTAAAAATATTTCTACTATTGATTATATTCTCTGTAAAACAGAGTTAGATGCTTTAATATTAGAAAATAATTTAATAAAAAAATATAAACCAAAATATAATATTGCTTTAAAAGATTCTAAAACTTATCCATATCTTTTTATTTCAAATGAAAAATTTTCAAAAATTTCAGTTATTAGAAATACAAAATATTTAAATAAAAATGGAGATTATTTTGGTCCATATCCAGGAACTGCATTTGAGCTAATAAAAATTATAAAAAAAATATTTATGATAAGAGACTGTAATAGAGATATGAATAAAAAGTATGATAGACCGTGTTTGAAATATTATATGAAAATGTGTTTAGGACCATGTGTGTATAAGAATATTGAAGCAAAATATAATGAAAATAAAGAGCAATTAAAACTTTTTTTAAAAGGGAATTATAAAGAGATACTAAAAAAATTAGAACAACTGATGAATAGTTATAGTGAAAAAATGGATTTTGAGACAGCTATTATATATAGAGAAAAAATAAAAAATATAAAAAATGCAATGAAAAATCAAATTGTTGAATATGGGAAAGATATTGATGAAGATGTTTTTTTAATAAAAGAAGAGTATGGTAATATTTTTATACAAGTACTTAATATAAGAAATGGTATAATTATTGGGAAAAATGAACAAATAATAAGCCTGGAGAATAATATAGAAGAGAGGAAAATAGAAGAATTTTTTTTAGAAATTTTTATTCAATATTATAATAATTATGTAATACCTAAAAATTTAATATTAGATAAAAAATTTAAAAAACTAGATAAATTAATAAAAAAATGGATTTTTATTGAGAAAAAAATAAAAATAAATCTATATTACCCTGAAATAAAAAGCAGAAGAAAAAAATTAATTGAAATGGGGTATTTAAATTTAGAAAAAGAAATAAAAAATTTTTATAATCGAAAAACAATACTAGAAATAGGAATAAAAAATTTATTTACGATATTAAAATTAAAAAAAATACCTAGAAGAATAGAATGTTTTGATATATCTAATATTCAAGGGAAAGATGCAGTAGCTTCAATGAGTGTAGCATTAGAAGGAAAACCATCTAAAAAAGAATACAGAAAATTTAAGATAAAAACAAAAGATACTCCTGATGATTTTCATATGATGAGAGAGGTTTTATTTAGAAGATATTCGAAATTAAATGACAATGAGCTTCCAGAGCTTATATTAATTGATGGAGGAAAAGGTCAATTAAATTCTGCTGCAGAAATATTGCAGAAATTAGGAAAAATTGATAAAATAGATTTAATAAGTATAGCAAAACGAGAAGAGGAGATATTTAAATATGGAGAATCTGTTCCGTATATTATATCTAAAAGAGATGAAACACTTAAAATACTTCAAAGATTAAGAGATGAAGCGCATAGATTTGGGATTACTTATCATAGAAAATTAAGAACTAAAAGAATAATAATAAGTGAACTTGATAAGATAGAAGGAATTGGACCTAAAAGAAAAGAAGTTTTATTAAAAAAATATAAATCAATTGAGAATATAAAAAAACAAAGTTTAGCTGAATTAAAATCCATTTTACCAGAAAAAATAGCAATAACTCTGTATAATTCACTAAATAATGAAAGGAGTGAATGATATAAAAACAGTATTAATTATTGATGATGAGCCTACTATTAGATTTTTATTAAAAGAAATAATATCTGATATGGGGTATAAAGTTTTAGAAGCGTCTAGAGCAGAAAAAGGACTACAGCTAATAAAAAAAGAAAAAATAGATTTGATATTATTAGATATTCAGCTTCCAAATATGAATGGATTAGAAGCTATACAGCAAATAAGAAAAATAAATATGGAAGTTCCAGTATTTATGATAACAGCTTTTCATAATATGAAAAATGTGGTAGAGATGTTAGATGTTGAGATTCAAGGTTTTATACCGAAACCTTTTGAAATATTAGAATTAAAAGATAAAATTTCAAAAATATTGGAGGCAAAAAAATGATGGTTAAAACTATTGATTTAAAAGAAAATATGGAATTAAAAGAGGGAATAGTTGTAAATAATATTGTACTTATAGAAGAGGGGACAAAATTAACAAAAGAGCTTATTGAAAGAATAAAAAAATTTAATATAGAAGAAGTCTCTATTAAAGATGAGGAAAAAAACATAGAGGATATTTTACTTGAAGAAGAAAAAATAAAAGAAGAGTTTAAAAAAGAATATTTAGAAAGTATAGAAGACACAAAAGAAGTATTAGAAGATGTTTTAAATAATAAAATTGATGATACTACATTAGAATTAATTGTAGATAAAACAATGGGTAATATAGAAAAGGATAAAAATATATTACTATCATTAATGGATATGAAATCTGAAGGAGAATATTTATTTGATCATAGTTTAAAAACTACAATGTTAGCTATTATGTTAGGGAAAGAATTAAATTATACTGATGAAGAATTGGAAATATTAGGAAAAGCTGCAATATTACATGATGTAGGAATGCTTAAAGTAAAAAAAGAAATAATTGATAAAAAATCAAAATTAACTTTAGAAGAGATGGAAGAAGTAAAAAAACATATAGATATTACTTTGGATTTGTTAAAAAATGAAGAAAAAGAAGTATTAGAAATAATAAAATATCATCACGAAAGAATAGATGGAAAAGGTTATCCAAATGGACTTAAAAGCGAGGATATACCAGATATGTCTAAAGTATTAAAAATAGCAGATATATATGCGGCACTTGTATCAAATAGAAGTTATAGAAAAGCTTTTAATGCAAATGAAGCAATAAAAGAGATGGTTCATGCTTCTGGAAAAGAAATAGATTTAATTTTATTTAAGAAATTTTTAAAAATCATGTCAATGTTTCCAATAGGAAGTAAAGTTAGATTAAGTAATGGGAAAATAGCTATAGTAAAACAAATTACAGAAAATATTTTTAGACCTGTAATAGATATTGAGGAGAATGGGAAAATAGAAAGAATAGATTTATCAAAAAAAGAAAACTTTTTATTGCATATAATGGGGTTAGCAGAATGAAAAAAGCTTTATTTTTTTTAATTTTAATTATAGTAGGATGTAGTCGAGAGATAATTTTAAGAAAGGAACCTTTAGAAAAGGTTCCTTTTAAAAGTGAATTAAAAAATACAGGAAATGTAATTAAAATATTTTATATTGAATACCCAAAAACAATAAATGAAAAAAATAAGTTTTGGACAGAATTTAGTAATATATCTAAAAAATTAATTGCTACTCAAGAAAAAAGAAACATTATTTTAACAAAAGAATTTTTTGATGATTTAAAAATTTTAACTCAAGAAAAAATATTTAAAGAAGAAAAAATATTTATTAAAATAGCTTCAGATTTAACGGAAGAAGAGAAAAAAGAATTAGTAAAATATTTTAAAGAATCCGAGAAAGAAACTGTTGATGATTATTTGAAGTTACAGATCAAATATTGGTTAACAAGATTACATAAAATAGGTGAATTTAAAGAAGAAAAAATATACAATGAGAAAATTAAAAACGATTTAATTTTAGAAGTAATAGAAAAAAGAAAAGAACAATTAAAATATATAATCAATGCTAATTATAACTATATAGCTAAATTGGATAATATTAATGTAGATAGTAAAATATATTTTAATGATAAAAATGTAAATATAGAATATGAAAGTATTTTAAAAAATCAAATTTCAAAATACGAATACGTATATATAACAAATTTAACAGAGGATATTATAGAAAAAATTTATAATAAAATAATAAAATTGGATAAAAACATTATTATATCAAATGCCAAATATAAGGGATATATATATAATGATAAATTTGTATTTTTTGTAAATGGAGAAAAAACTGTAAAAGAGTATAACGAATATAATGTTTTCATTGAAATAAAAAGTAGTAGCTTAAAAGAATTATTAAAATATAAAAATCTAATTACTTTGAATGAATTTTTAAAAGGAGAAAAATAATGATTTTATTAATGTATTTATTATTAAATATAGGAGTAATAATGTTTTTCAAACAAAAATATCAAAAAGAAAAAATAAAATCTAATGAAGAATTAATTAAAAATATCATTCAAAGAAACAAAGATTATAAAACAGATGATGAAATTCAAGATGAATACATAGAACTTATAAATGATATTGAAAATCAAGAGAAAGCTTTAAAAATATCATTGGACGAAATAAACTCGTATAAAAAAGAATTAAATATAACTTATAAAAGTTTGTTAGCTAAATCAACAGAATTAGAATATAGTAACTTAGTTTTAGAAAAAAGAGTAGCAAATTTATCAAATTTAAATGCAATAGGAAAATCTGTTTTATCTGAATTAGAGTTAGATAAAATTATTTCTATAATATTAGATGCATATTTTGTTTTAACAGGAGCTAAAAAGATAGTTTTATATTTATGGGAAGAAGGAGTATTAGTAAATAAAGCAATTAAAGGAAATGTAAAAGCTAAGAAAAAATATGAGTTTATAAAAGAAGAACTAGATCCTAATTTGATTTATGAAAATATATCAAAAGATATAGTAGATATAAATGAAGACATTATTTACTCAAATCTAAATGTAAAAGGGAAAGAATTGGGAGTAATATATATTATAGAAGATAGCGAGAATAAAAGAAAATCTGATGATAGAGAAACAATATCTGCTTTAGCAATGCATGTAGCAATAGCAATAAATAACTCTAAGGTTTACTCAGAACTAGCAATAAAAGAAAGATTAAATAAAGAATTGAATATAGCTGCAAAAATACAAAAAGATTTATTACCTAAAAAATCAGGAGTGAAATTTGATATTGATATTTCTGAATATTTTGAACCAGCAAAAGAAATAGGTGGAGATTATTATGATTATAACATTTATTCAGACGACGAAATTTATATTACAATAGGAGATGTAAGTGGAAAAGGTGTACCTGCGGCATTGTTAATGACAACAATTAGAGCAATATTAAAGACACTTTCATTTACAATAAATGCACCAAATATTATGTTAGATATGCTTAATAAACTTATGTATAAAGATATGAGTAGTGATATGTTTGTAACAATTTTTCATAGTAAATATAATAAAAAAACAAATATTCTTGAATTTTCTAATGCAGGGCATAATCCACTTTTAGTGTATAGGAATAAAGAAAATAATATAATGGAAGAAAATGTAAAAGGAATAGCCATTGGATTTTTAGAAAATTATAATTATAAAGAAGGAAAATTAAAACTTTTTAAGAATGACATATTAGTATATTATACTGATGGAATAACTGAAGCAGAAAATGAAAATGGAGAATTATTTGGAATAGATAGATTAAAAGAGATAATATTGAAAAATAGTTATAAATCAAGTATAGAGATAAAAAATGAAATACTAAATGGTGTAAGAAAATATAGAGGTAATAAATTGCAAACAGATGATATTACATTGCTAGTATTAAAAGTATAGCTTTGAGGTGAAAAAAGTGGAAATAAATAAAAAAATATTATTAATAGATGACCAAAAAGAAATATTAGAAAGTATGAAAAATCTACTTTCTGGTCAAGATAATTTAAAAATAATAAATAATAAGCTAGATGATTTACTTAGTGATTTTTTTGAAGAAGAAAAAAAAGAACAAGAGGAAGAAAAATACCAAGTTGATATAGCTGAAGATGGCCAAACAGGATATAATATGGTGAAAAAAGCATTAGAAAGAGATGAACCGTATTCAGTAGTAACAATAGATATGAGGATGCCTGGTTGGGATGGATTACGGACAGCAAAAGAGATAAGAAAAATTGATGAAAATATAGAAATAGTAATAATTACAGCATATACTGATAGAAATAGAAAAGAACTTGTAAAGAAAATAGGAAAACCTGAAAAGTTATTATATTTAAAAAAACCTTTTGAAAGAGAAGAAATTTTACAAATAATAATGTCGCTTACAATAAAATGGTCATTAGAAAAAAAAGTACAAAATCAATTTCATATAATAAAAGATTCAAATAATAAATTGGAAAAAATAATTGAAAGTATAAGTAATATAGAAGAAAAAGTAATATCAAATTTTAGCGATATATGTAAAGTAGTACTTACAGAATTAAAAGCACTTTTTGATTTTGAAGAACTTTTTATTTTTTTAGAAAACAATATAATAAAATATGATGAAAAGACAGAAGTAGATTTTAATTATAAAAATTTAATTAAAATAATAGACACAAATTCTAAATTTATCGTCTATAATGATTATTTGATTACTAAACTAGGGGATATTGAAGATGTAAAATTAGATAATCCAATAATAGCAGTAATTAAATTTAATAAAGAAAAATTTACTGAAAAAGAAAGAAAATATTTTGAAATATTTATAACGCACGTAAATAATTTTTTTATAAATTCAAATCTTTATATTGAATTAGAAAAAAAGAATAAAGAGCTTGTGCAAAGTAATATAAAATTGAAATTAGCAAATGAATTAAAAAGAAAATTTTTAGTGACTTCTTCGCACGAATTAAGAACGCCAACTTCATTATTATTAGCGTATTCAGAAATTTTATTTGATAAAAATTATAGAAATAAAGAAAAAATTTTAAAAAAAATATTTAAAGTAAGTCTTAGAATAAATGAATTAATAGAAAAAATGTTTAACGCACTTACAACAGAAGATATGAAAGAATCAATAGCACAAAAAATTGAAAAAACAAAGTTAAAAGAAATGTATGAAGAGGTAAAATCAAAAGTAGAAATTTTTCTAGAAAAGCGAAATCAAAAATTTATATATATAAATGAAACTTCGTATGAAGAAATACATATTGACAAACATAAGATAATAAATTTTGTATTGTATAATCTAGTTGTAAACGCTATAAAATTTTCAGAAGATGGAGAAATTATTATATTTAGAGTAAAAGAGGATATTGAGAAAAATAAGATTTTAATTTCAATAGAAGATAAGGGAATAGGTATATCAAATGAAGATATAGAAAATATATTTAAACCTTTATTTGTAGGTGGAGAGGAAAATAAACATCATTCGGGAATATATGAATACAAATCAAAAGGATTAGGACTAGGATTAACTATTGCAAAAAATGTAATAGATTCAATGAAAGAAGAAATTTACTGTAAAAGTAATTTAAAATCAGGGACAGTAGTTACATTTACATTAACAAAGCAAACTTAGTAAACATATGTTTAGAAAATAAATTTTTTTTAAATTATATCTTGAAAAAATTTCGAAATAGAGGTATAATTATGATACGATATCTTCGAAAAACAGACTATTAAAATTTAGAAGGAGGATGTAATGAAGAAAGGTCTAATTTTAACAATTTTAACAGGTTTAATTTTAACATTTGTAAGCGTTAACACTTATGCGGGGCTTTTTTTTGGAAACAAAAAAGAAAAAGCGGATAAAGGGTTAAAAGTAGGAATTGTTTTATCAATTGGTGGATTGGGAGACAAATCTTTTAATGATGCTGCTTACAGAGGATTACAAAGAGCAAAAGAAGAATTAGGAGTAGATTTTAAATATGTAGAACCTGCATCTCCTGCAGAAGATGAAGGATATTTAAGAGAATATGCAGAAGCTGGATATGATTTAGTAATTGCTACAGGATTTTTAATGAGAGATGCAGCTGAAGCTGTTGCAAAAGATTTCCCAGAAACTAAATTTGCAATTATTGATGATGTGGTAGATTTACCAAACACACAATCTTTATTATTTAAAGAAGATGAAGGTTCATTCTTAGTAGGAGCTTTAGCTGCTATGATGTCTAAAACAGGAACTATTGGATTTGTTGGAGGAATGGAAGTACCTTTAATTAAAAAATTCCAAAGAGGATATGAAATGGGAGCTAAATATATAAATCCAGATATTAAAATTGGAGTTTTATATACTTCAGGGCCTAATCCATTTAATGACCCAGTTAGAGGAAAAGAAAATACTTTAGCGTTAGTAAAACAAGGTGCAGATGTTGTATATCATGCAGCTGGTGGAACTGGAGCTGGGGTTATAGCTGGAGCTAAAGATGCTGGAATATATGCAATAGGAGTAGATTCTAATCAAGATGGAGAAGCACCAGGAGTTGTTCTTACATCAATGTTAAAAAGAGTTGATGTAGCAGTATTTGAAGCTGTAAAAGCTCTTAAAGAAGGAACTTTTAAAGGTGGAATAAAGAGATTTGGAGTTGCTGAAAATGGAGTAGGAACTACTGATTTCGAATTTACTAAAGATATAATTGGAGCTGAAAAAATAGCTAAATTAGAAGAAATAAAACAAGATATAATAGCAGGGAAAATTAAATTTTAATTAAAGCCGGATTATTCCGGCTTTATCTTTCCTATAAAGATAAATATTAAAAAAGGTGACGTAAGTCACCTTTAAATTTCTAAAGTGGATAATTACGAGAAAATAATCAAGAGAGAATTTTAATAGTTTTAGGAGGAATAAAATGAGTGTACATATAGGAGCTAAAAAAGGAGAAATAGCAGAAACAGTTTTACTTCCTGGAGATCCAATGAGAGCAAAATGGATAGCAGAAACATTTTTGGAAGATGCTGAATGTTATAATACTGTTAGAGGAATGTATGGTTATACGGGGTATTATAAAGGGAAAAAAGTGTCAGTACAAGGAACAGGAATGGGAGTTCCATCTATTTCTATATATGTAAATGAATTAATAAGAGATTATGGAGTAAAAAATCTTATAAGAGTAGGATCAGCTGGTTCGTATCAAGAAAATGTAAAAGTAAGAGATATAGTTTTAGCAATGGCAGCATCTACAAACTCTGGAATAAATAGACATAGATTCAATGGTGATTTTGCGCCGACAGCTAATTTTGAATTATTTATGAAAGCGGTAACTGCAGCAAAAGAAAAAAATATAGAAGTTAAAGCAGGAAATATATTAACAAGTGATGAATTTTATCAAGATGATTTTAATTCTTATAAAAAATGGGCATCATTTGGAGTACTTGCAGTAGAAATGGAAACAGCTGCTCTTTATACAATAGCTGCTAAATATGGAGTTAAAGCTTTAACGATTTTAACTATATCAGATTCATTAGTAACAGGTGAAGAAACAACATCTGAAGAAAGAGAAACGACATTTAAGGATATGATTGAAATAGCTCTTTCAACACTTTAATTATCAAGGAGAGTAATTATGGAAGAAAAAAAAATAATTGATTTAATAGATGAGGCTATTCAAGCTAGAGAAAATGCTTATGTAGAATATTCGCATTTTTCAGTAGGAGCTATAGTTGTAGATGATAAAGGGAAGCATCATAAAGGAGCAAATGTAGAAAATGCTTCTTATGGATTATCTAATTGTGCTGAGAGAACAGCAATATTTACAGCGGTTACAAATGGTATGAAAAATATAGATACTATTTGTATTGTAGCAGATACTACTGGACCTGTAAGTCCTTGTGGAGCATGCAGACAAGTAATAAAAGAATTTTCAGCAGAAAATACAAGAATTATTTTGGCAAACTTGAAAAAAGAATATAAAATACTAACTATGGAAGAGCTTCTTCCATATGGATTTAAATTATAGGAGACGATTAGTCTCCTTATTATTTTAATATTTAATTCTAATTAAATATTAAAATAATAAATAAAATGAGGTGAAAAAATGGATATAAAAGAATTAAAAAATAGCTATAAAAGGCTTAAAATAGACATCGAAAAGAGGTTGGAAGAATTTAAATTAATATGGTTAGAAGGAAATAATGAAGATATTTTTATTGAATTAGCTTTTTGTATATTAACTCCCCAATCAAAAGCTAAAAGTGCATGGAAAGCAATAACAAAATTGAAAGAAACAGGGTTATTATTTTATGGGGAAGAAGAAGAAATAGTGGAATATTTAAATATAGTAAGATTTAAGAATACAAAAGCAAAAAATTTAGTGCTTTTAAGAGAAACTATAAAAGATGAAAACGGTGTAATAATAATAAAAGAAATATTAGATAAATTAGAATCACCAATTAAAATGAGAAATTGGATAGTAAAAAATATAAGAGGGATTGGGTATAAAGAAGCAAGCCATTTTTTGAGGAATATAGGTTTTGGTAGTAAGCTAGCTATTTTAGATAGACATATATTAAAAAATTTGTTTAAATTAAATGTAATAAATGAAATCCCTAAAACATTAACAGCAAAAAAATATTTAGAAATTGAAAATAAAATGATAGAATTTTCTAAAAAAATAAACATAAAAATGGAACATTTAGATTTTGTATTATGGTATCAAGAAGCAGGAGAAATTTTTAAATAGAATCTTTTCTTAAATTGTCAAAAATATGTATTTATGATATAATCTTGATATTGTAGTAACTTTAAAATGTAGGAGGAATAATAAAAAATAATGAAAAAAGTAGCAATTTTAACATATGGTTGTCAAATGAATGTAAATGAAAGTGCAAAAATAAAAAAACTATTAGAAAATAATAGTTATGAAGTAATAGAAGATATTAAAAATGCTGATGTAGTATTTTTAAATACATGTACTGTAAGAGAAGGAGCAGCAACACAAATATTTGGAAAACTTGGAGAATTAAAAAATATAAAAGAAAAAAAAGATAATAAGATGGTAATAGGAGTAACAGGGTGTTTTGCACAGGAGCAAGGAGAAGAATTAATAAATAAATTTAATTATATTGATATTGTTATTGGAAATCAAAATATTGCTAAACTACCTAAAGCAATAGAAGATATAACAAATAGTGATTTAAAACATGTTATTTTTACAAATAATGAAGATGAATTACCACCAAGTTTAGAAGCAGATTTTGAAAATGGATTTTCAGCATCTATCGCAATAACATATGGATGTAATAACTTTTGTACATATTGTATAGTACCATATGTAAGAGGACGAGAAAGATCTGTACCTATGGATGAAATTATAGAAGAAACTAAAAAATTTGTAAATAAAGGATATAAAGAGATACTTCTTTTAGGTCAAAATGTCAATTCATATGGAAAAGACTTGAATAGTGGAGAAAATTTTGCTAAATTATTAGAGGAATTAAACAAAATAGAAGGAGAATTTTGGATAAGATTTACATCTCCTCATCCAAGAGATTTTACAGATGATGTAATAAATGTAATAGCAAAATCAGAAAAAGTAACAAAATCAGTTCATTTACCACTTCAAGCAGGCTCTACAAGAATTTTAAATTTAATGAATAGAGGATATACAAAAGAAGAGTATATAGCACTTGCTAATAAGATAAAAGAAAAAATACCAGGAGTAGCACTTACAACAGATATAATAGTAGGATTTCCATATGAAACAGAAGAGGATTTTTTAGATACCTTAGATGTAGTAGAAAAAGTAAAATATGATAATGCATTTATGTTTATGTATTCTAAAAGAAGTGGAACTAAAGCAGCTGAAATGGATGGGCAAATTGATGATAATATAAAAAAAGAGAGATTACAGAGATTAATTAATTTACAAAATGAATGTTCTAAAAAAAATAGTAATATATATAAAGGAAAAATTGTAAAAGTATTAGTAGAAGGACCTAGTAAAAAAAATAAACAAGTTTTAAGTAGTAGAACTGGAACAAATAAAGTAGTACTTTTTGAAGGGAATATTAACTTAAAAGGAACTTTTGTTAATGTAGAAATTACAGAAACAAAAACATGGACATTGTATGGTAAATTAGTTTAATATAGAGAGGATGGTAAACTAAATGAAAAAAGGTATAAGAGTATATAATTTATATCCCAAATTAATAGGTAAAATGGATAATTGGATTAATCATTTTGATAGGATTCAAGACATGAATTTTAATTGGATTTATATTAATCCTATAAATGCATCAGGATTTTCTGGTTCTGATTATGCAATAAAGGATTATTATTTATATAATCCAATGTTTATAAAAGGCTGGCCATTAAAATCAGAAGATTATAAGGAAGAAAATTTAGAAAAAGATAGGAAAAAAGGGAATGAATTATTAAAAAAAGTTTGCAGTGAAGCAGAAAAAAGGGGTATAAAAGTAATGTATGATATTGTTATAAATCATACAGCAATAGATTCACCGTTAGTAAAATTAAAACCAGAATGGTATGAAAGAGATGAAAATGGGAAAGTAAAAAATGCAGGAGCGGATGATAATGGAACTTGGGTTGTTTGGGGAGATTTAGCTCAAATAGATAATGCTAATTCTCCAGATAAAGAGAATTTATGGAAATATTGGTTAGATATGTTACTTCATTATTGTGATCTTGGAATAAGAGGTTTTAGATGTGATGCTGCATATCATGTACCAGCAGATTTGTGGAATTATTTGATTTCTAATGTAAAAGAAAAATATAGTGATGTGATATTTGTTGCAGAAACACTTGGATGTACTCCAACACAACTTATGAATGTGTCAAAAGCTGGATTTGATATTGTAATGAACAGTATCAAATGGTGGAACTATAAAGATGAATGGTTTTTAAAAGATTATAAAGAATGGGCAGGGAAATATTTTTCAATGACTTTTCCAGAAAATCATGATACAGAAAGATACTACAATGAAGTGAATGGAAATAAAGACTTAGCAATTAATAAATATGCTATACAAGCTTATTTTTGTTCAAGTATAGCAACAACAATTGGATTTGAATTTGGATTTAAAAGAAAAATAGATGTAGTACAAACTAACCCAGAATGGTGGGAAAATGCTAATTATGATATATCTAAAGAAATAAGCGAAATAAATAAAATTAAATCTCAATACCAAATATTACAAGAAGATAATATGATAATTCCTTATGATTTTCATAATGAAGAGTTATTTGGATTTGCTAAAGAAGCTTTAAATAAAAGTGAAAAAATATTTGTAGTAGCAAATTTAAGTCCGTATAATTGGCATAATATCAATATACCTAATTTTTATGAAATTATGAATGGTGATAAAATAAAAGATATTTCTCATGGGCATAAAATGGAAACTGTATTTAATAATTTAGATTATAGTTTGAAGCCTGGAGAGGTGAAACTTTTTTATATAAAATATTAAATTTTTTAAATAAAATAGAAAACTCTTTTTAAATAAAAGAGTTTTCTAATATAAAAAAAAAGGGGGCTAAAATGAAAAAAATTTTAATTGTTGATGATGAAGTAGATGTAGTAGAAGTAGTAGAAATGCTTTTAGAAACTGAAGGATATGAGGTAATAAAAGCATATAATGGAAAAGAAGCACTTGAAATAGTGGAGAAAATTACTCCAGATTTAATTATATTAGACATAATGATGCCAGAGATAGATGGAGTAGAAGTATGTAAAAGAATGAGAAATATCCAAAAACTAAAAGATATACCAATTGTTATGTTTTCAGCAAAATTATCTGCAATAGACAAAAAAGAATCCTTTAATGCAGGAGCTGATGGATTCATTACAAAACCTTTTAATGCAAGAGGATTTATTTCAGGAATTGAAACTTATTTAGAGTTGGGGAGAATGTAAAAATGGTATATTTGTTAATTTTTTGCATATTAGCTTATTTAACAATAAAAACTGGTCAAAACTTAAGTATATATGGAGATGCAATAGGTGATATAAAAGAACTAGATAAATCATGGATAGGAATAGTAATGCTTGCGTCAATTACATCACTTCCAGAAATGATTACAAGTATTTTTTCGACGTTATTAGGGCATCCTGATATGGCAGTGTCAAATATATTTGGTAGCAATATATTTAATGTTTTTATTATTTGTATTTTAGATGTGTTTGTTATAAAAAACATATGTTTCACCAATAAAATTGATAGAGGACATCTTTTGCCTGGATTTTTTTCTATTTTAATATCTATTTTTTTCATTTTTGGATATATTTTCAAATCATTTAATGTTTTTCATATAAGTATTATATCGATTATTATATTTATAGTATATTTAGTATCTATGCGACTTGTATATATTTATCAAAATGAGTATGAATTTAATATGGAAAATAACATTGGCATAGAAATAGAAGAAAAGCAAAATTTAGCTTATAAAGAAGCTAAAAAAGGATTTATTATTAATGCTATATTAATTGTATTATTTGGTATAGGACTTAGTTATACAGCAGATAGAATATCTATTATACCTATATTTGGAATAACTTTAGGAGCAAGTTTTGTAGGGACTATATTACTTGCAGTAGCGACATCACTTCCAGAATTAACAGTATCTATACAAGCAGTAAAATTAGGTGCTTATGATATGTCTATAGGAAATATATTAGGAAGCAATCTATTTAATTTATCGCTTTTAATATTGATTGATTTATTTTATTTTAAAGGAGCAATGTTTGATAAATTAACAGAATATCATATTATCTCAATGGCAGCATCTGTTATTATGGTATTAATTATAATTTTAGGAACATTTTTTAATAAAAAGAAAAAACCTTATGATGGGTATTTAGTAGGAATTATATATATAATATCTATGTATATATTATATATATATAGATAGTTTGGAAGGAGAATAATGGTACAACCAAATGAATTAATAAGTTATAAATTAAAAGAGTTAAAAGATTTAGCTAAAGATATGGGGATATCTAAAATATCAACTTATAATAAAGAAGAGCTTATTTATCAAATAATAATAGAAGAAAATTTAAATAAAGGGGAAATTATTGGTTATGGAAGGCTTGAAATTTTACCTGATGGATATGGTTTTTTAAGAGAATCTAATTTAGAAAAAGATATATATATATCTGCTTCTCAAATAAAAAGATTTAATTTAAGAACTAATGATATGGTATTAGGTGAAATAAGAACGCCAACTCCAGATGAAAAAAATTATGCAATGAAAAAATTAATTTTGGTAAACGGAGATACTTTAGAAGCAGCAAAATCTAGAGTACAATTTGATGATTTGATACCCTATTATCCAACAGAAAGAGCGAAACTTGAAACAGATGAAAAAGATAATATAGTAGGTAGATTTATTGATCTTATAGCGCCTATAGGACTTGGACAAAGGGGATTAATAGTAGCACCTCCTAAAGCTGGGAAAACTATGCTAATAAGCCAAATAGCAAATAACATAATAAAAAATAGAAAAGATATAGAAGTGTGGATACTTCTTATAGATGAAAGACCAGAAGAAGTAACAGATATAAAAGAAAATGTTACAAACGCAGAAGTATTTGCATCTACTTTTGATGAAAATCCAGAAAATCATATAAAAGTAACAGAAAAAATACTTGAAGAAGCTAGAAGAAAAGTCGAAAATGGAAAAGATGTATTTATTTTAATGGATAGTATTACAAGGCTTGCAAGAGCTTATAATATAGTAATGCCTTCAAGTGGAAAACTTATTTCTGGTGGAATTGATCCAATAGCCCTTTATCATCCAAAGAAATTTTTTGGTTCAGCAAGAAATATAAAAAATGGAGGTAGTTTAACAATAATAGCTACAGCATTAATAGATACAGGTAGTAGAATGGATGAAGTGATTTATGAAGAATTTAAAGGAACTGGAAATATGGATATTCATCTTGATAGAAATTTAGCAGAGCTTAGAATATATCCCGCAATTGATATTAAAAAATCTGGAACAAGAAAAGAGGAGCTTTTATTTACTAAAGAAGAATTAAGACTTATCTGGGGTATAAGAAGGTATTTAGGGAAATATGATAATGCAGAAGCAGCAAAGAGACTCATAGATACAATAAAAAATACCAATTCAAATAGAGAACTTTTAGAAATGTATAAAAGTGGAGAATAATTATTGTAAAAAAACTTTTAATGTGGTAAAATTATATTATTATATTTAAGGAGGAAGAGCATGAATAGGCAATATTTAAAAGGGCTCTTATTGGTTATTATATTGGGAATAGTGGGGCTAACTTTTTTTAAAAAAACTAAATCTGATGAAATTTTACCAACAGATAAATTTGTTAGCTATAAAGAGGCGATAAAAGAAGTAGAAGGAACAGACAAAATTGAAGAAGGTTCACAGATTGAAGATGGTGGAGTAGAAATATTAGATGATAATACTATATCATTTGAAAAAGAATATGTTGTAGTTGATAAAGAACCAATAGATGAATCGAAAGAAATAAAAGTAACCTATTATACAGTTCAAAAAGGAGATTCTCTTTATAAAATATCGAGTAAACTTGGAATAGATATGAATTATTTGATTGCAAATAATCCAACTGTAAAAAATGGTATTATTAGAATAGGTCAAAAGTTAAAAATAGTAAATGATAATAATATAGAATATATAGTTCAATCTGGAGATTCGTTATTTAAAATAGCAAAAAAATATAATGTGAAAATGGATGATATAATTAGTAAAAATGATTTAGACACGACAAATCTTATAGTTGGAGACAAATTAATAATTGAGAATCCTGATTTAAGCTTTATTAATAAAACAATTAATCAAGGACCAAACTTTAAATGGCCTATTAGATATTTAGGTGTGACAAGCCCATACGGAAAAAGATTTCATCCTGTATTAAAAAGAAATATTTTTCATGCAGGAGTAGATCTTCGAGCAAGAGTAGGTACTAATCTTTATGCACCAGAAGATGGAACAGTAAAAACAGCGGGTTGGCTTGGTGGATATGGGAAAATTATTATTATAAAACATAGTAATGGTTATGAAACAAGAATGGCACATTTAAATAATATATATGTTAAAGTAGGTCAAAAAGTAACAAAAGGTCAATTAATAGGAAAAACTGGGCAAACAGGAAGAGTTACAGGACCACATTTACATTTTGAAATAAGAAAAAATGGAAAAACATTAAATCCAATGAAATTTAGAAAATAGAATTTAACCTATAGATATATGAAAATATATTTATAGGTTTTTTTTATTTATTTTTTTGATAAAAAATTATATAATATAAATAATTATATTATTTAAAATAAGGAAAGGTGAAAACCATGAAAAAAATATTATTTTATTTAGCATCAATATTAGTATTTAGTAGTTGTGGGATATTTGATTTTTTTACAGAAAGTGTTACAAGTACAGCAACAAAAAAAGCTATAACATTATCAATAGATAATAATTCTAATAGTGCTTATGAAGCATATGCAATATTTACTAATGAAGAATATTATTCATACGCAGGACAAATAAAAATAACAAGTAATAATATAAATAGCAGCTTAAATAATTATATGGCTAATTATAATATAAATACATTAGGGAATGATGATATTATAAAACATCCTGTATTTTATAATAATGGAAAATTGATAAGAGAAAAATCTATAGAAAATACCATCTCATATAATATTAGAGCTAGCATAACAAATACAAGCTATACTGAAGGAAGTAAAGAAGAATTTTATGCATTGTATGCTGGAACAGGAGATTATTATAAAGAAAATAATGAATTAAATAAAAAACAAGCTACTTTAAAAAAACAGGTAAATAATATTGAAGTAAAAGTAGAGAATAATAATTCTAGTACAAGAACATTAAATATATGGGTTGCAGATGATGTATGGGAAACAGTAGTAACTCAAGAAATGATAGATGCATTAGCGGATAAATTTTTAAAAACAGGATTTGATAATGATATATATGATTGGGTAACTAATATATATGGCGATGAATGGTTTGAAGGTAATGATGAATATACAAATACAATAGACGGAAATAAAGAAATAAATATATTAATTTATAATATAAATGAAGGGAATAATAGTAATGGTAGTTATTTAGGTTTTTTTGACAGTACACATAATTTTATAAATAATGAAAATAATAAATATTCTAATGAAAAAATAATGTTTTTTATAGATAGTGGAAATCTAGCAAAAAAAGATGAGAATAGTAACTGGGATATAACTTATGTAGATAAAGAAGGTAAAGGGCCAGCAATTATATTATCAACATTAGCACATGAATTTACGCATATGATAATATTTTATCAAAAATATTATAATCAAGATATAAATATAGATTCATGGATAAATGAGATGTGTGCCATGACTACAGAGGATATTCTAGCAAATAAACTTGGAATAAATAATCCGATAAATATACGACAAGACGAATTTTCATTATATTCAAATAGTTATCCAGTTAATGAATGGACAAACTCAACATTACATTATGCTAATAAATATTTTTTTGGAGCATTTTTATTAAGAAATTTTGGAGTGGGAATATTTCATGATATTGCAACTAATGAATATAATGGAATTACAGCTATAGAAAAAGCTTTAGAAAAAAATGGATACAATATAAAATTTGAAGAATTATTAAAATATTGGGGAGAGGCTATATTAACATCAGATAAATATGAACTAGATTATGTTTATAGTAGTAAAGATTTATCTTATAATGGTATAACATATAGAGTAGCTCCTATAAACGTAGTAGATAATAAAAACTATAAAAATATAATATTTTATGGACTTGATGATAGTAGTGCTCCAGATCTTGATCTTGGGGCTAATATTTATTATAAATTAACTCCATATTCAATAGTAAGTGATAGTGAATGGGATATAACAATTCCTAGTGGAGTGGGAATAAATATTATTATTAAAGATTCTTTAGGGAATTTTAAAACAAAAGAATATTTTGAAGCAGAGGCGATAAAAAACAATAATAATTTTATATTAGAAATAAAATAGAGGTGAAAAATGAGAAAAACTAGAGAAATAAAAGTAGGAAATATAAAAATTGGTGGTAATAGTAATATAATAATACAATCTATGACGAATACAAACACTGCTAATATAAAAGAAACGGTTAAACAAATAAAAGAATTAGAAAAAGCAGGATGTGAATTAGTAAGAGTAACAGTTAATACAGAAGAAGCAGCATATGCAATAAAAGAGATAAAAAAAGATATAAATATACCATTAGTTGCTGATATACATTTTGATTATAGACTTGCATTACTTGCAATTGAGAATGGAATAGATAAACTTAGAATAAATCCAGGAAATATTGGCGGAGATGGAAATGTAGAAAGAGTAGTAAGAGCAGCTAAAGAAAAAAATATCCCAATAAGAATAGGTGTAAATGGGGGGTCATTAGAAAAACATATTTTAGAAAAATATGGAAAACCTACGCCAGAAGCACTAGTAGAAAGTGCTATGTATCATATAAAATTATTAGAAAAATTTGAATTTTATGATATAGTAGTATCTCTTAAATCTAGTGATGTAAAAGTTATGGCAAAAGCATATAGATTAATTAGTAACAAAATAGACTATCCTCTTCATTTAGGAGTAACAGAAGCAGGAACAATCTTTCAAGGTACTATAAAATCTGCAATAGGGATAGGAAGTTTATTATTAGATAATATCGGAAATACAATAAGGGTATCTCTTACAGCAAGTCCAGTAGAAGAGATAAAAGTAGCAAAAGAAATATTGAAAATTTTAGGATATAGAAATAAGGGGGTAGAGATAATATCATGTCCAACTTGTGGTAGAACTGAAATTGATTTGATAGGATTAGCAGAAAAAGTAGAAGAGGAATTTAAAAAATATAAAGAAAATATAAAAATTGCAGTAATGGGTTGTGTAGTAAATGGACCTGGAGAAGCAAAAGAAGCTGATTACGGAGTAGCTGGTGGAAAAGGCGTAGGAGTAATTTTTAAAAAAGGTAAAATTGTAAAAAAAGTAGATGAGCAAGATATTTTAGATGAGCTTCGAAAAATTATTGAGGAGGATTTAAAATAAAAAAAATAATTTTGATTATATTAATAATATTTATTTCGTGTAGTAATATTGATCTATTAGTTCGAGGATATTATGAAGTATCATTTGAATTTGATAATAATATTGAAAAAGTTTATATAGATAATATGGAAATAATAGAAAATAAAAAATATTATTTAAATAGAGCATATCATACAGCAGAAATAATATTAAAGTCTTCATCTATTAAAAAAGTAGAACTTTTCTTAGTAGATAAAGTAGGGATATATTTTATTTCAGAAAATAATATATATTTGATAAATAAAAAATATCAAATAATAGAGTAGGAGATAATAATGAAAACATTAAAAATAATAATACTAAGTATATTAATTTTGTTTATCTCATGTAGTAATAGTAGTATAAATAAAAAAATAAAAAAAAATAAAATAGAAGTGGTATTTAATTGGGATGAAAAAATATATAAAGTAAAACTTAATAACAAAAATATTATAAAAAATAAGGTATACTATTTAAAACCTGATAAATATACTATTAGTTGGATACAAACAAAAATAAATACAGAATTAAAAATAAGCAATAAAAGTGAAGATACAGGAACAAGTTTTGGAGTTAGTTTTATTATAAATTCAAAACAATTGGAATTAATAGAAGATAGTTATATAGACATAGTTTCTTCAGCTAAAGAAAATGCTAGCTTAAAAATTTATAATAAAAATATAATAAAAAAAGACAAAGAGTTTGACATGTTAGAATACAAAGAAAAAGAAATAAAAATCATTAAAAGGGAATAGGCGGTGAACAATATGGCATTAAAAAAAGAACTTGGGTTTTTGGATTTATTTAGTATAGCATCGGGAGCAATGATTAGTTCTGGGATATTTATACTGCCAGCACTAGCGTTTTCGAAAGCAGGTCCTTCAATGATAATATCCTATTTATTAGGCGGGTTAATAGCATTTGTAGGGATATTAGGAATAATAGAATTAACTACCGCAATGCCAAAAGCCGGTGGAGATTATTTCTTTATAAATAGAACTTTAGGACCATTGATAGGGACTATTTCAGGAGTTCTTAGTTGGTTTGCAATTTCTTTAAAAACAGCATTTGCAATATTTGGTATATCAGGAATAACAGCAAGATTTTTATATGGCGAAGAGATGATTAGTAGTGATATTCTAATAATTTCGATTTTTGTAACAATATTTTTTGTTGTACTAAATATTGTTGGTGTAGATTTAGCAAGTAAATTTGAAGTTTTATTAGTAGTTGTATTGATATCTATTATAGTTATTTATATAATAATGGGTATTTTTAAAATCGATATACAAGCTTTTACACCATTTATTCAAAAATATAAAATAAATATGGAAAATGAATTTGTATTTGAAAAAGCAATATCTATATTTTCTAAAGAGGGTATGATAACAATATTTTCAACGACAGCATTTGTATTTGTTTCATTTGGAGGGTTATTAAAGGCAGCTTCAGTATCAGAAGAAGTAAAAAATCCAACTAAAAATGTACCTTTAGCCTTAGTAGCTTCTATTATAACAATCACAATATTATATACTTTATTATTGTTTGTAACGGTAGGAGTAAGTAAAGGAAGAAATTTGATGATGTCAATTACACCAATAGCTGATGTAGGAAGAACTATAGCTGGAGATTTTGGATTTTATATTATAATAATAGCTTCTATGTTAGCATTTATTACTACAGGAAATGCAGGGATAATGGCAGCTTCAAGATATCCATTAGCACTTAGTAGAGATAGACTTTTTCCTAAATTTATAAGTAAAGTACATAAAAAGTTTAAAACGCCTATTTATTCAATAGTTATTACAGGAATGTTTATTATGGGATCGTTATTATTATCGCTTGAATCTTTAGCTAAAACAGCATCAGCAGTAATATTATTAACATATATTCTTACAAATGTTGCAGTAATAATTATAAGAGAAAGTGATATGGCAAATTATCAACCTAGTTTTAGAACACCATTTTATCCAATTCCACAAATATTTACAATAATAATATATTCATTGTTTATAGGTGAACTTGGATATAAAGCAGTAGAAACTAGTTTTGCATTTGTTATATTTAGTATTATATTATACTTTCTTTATGGGAAAAAACATGCTAAAAAACAATATGCATTTCTACATTTATTAATTAAAATGACAGAAAATTTAAACGTAACACATGATCTTGAAAGTGAATTAAGAGATATTATTCATGAAAGAGACGATATAGAATTAGATGAATTTGATAAACTTGTAAAACAAGCAGTAATTATGGATTTAAAAGGACCATTAACATTAGATGAATTATTTGAAGTAGAAACAGAAAGCTTAAAAAATATATTAGGAATACCTAAAAATATATTGTTAAAACTTTTTCATGAAAGAGAAAAAGAAAGTTCTACAGCTATAACTAATTTTACAGCAATACCTCATATTGTATTAAATACGGAAAAAGAAATTTTTCATTTAACAATAATTAGATGTAAAGAAGGAATAATTTATAATAAAGAAAAAAATAATATAAAATCAGTATTTTTATTTATTAGTAGTAAAAAAATGAAAAAAACACATTTGCAGACTTTAGCTTCGATAGCATCATTAGTTAGAGATAAAGATTTTAAAGAAAAATGGATAAATGCTAAAAATGCTGATTATATAAGAGATATGGTATTATTAAGTAAAAGAAAAAGAAATAATTAAATTGTAAAATAGAAAAAATTATGATAAACTTATATAGAAATGTAAAAGAAAAGAGGTGTTTGAAATAGTGAAAATATATAATCTATTCCCTCTTATAGCAGGAAAAATAAGTGATTGGATAGATAAGTTAGATGATATAAAAGATATGAATTTTGATGTTATATACTTAAATCCAATATATCAAACGGGATATTCTAGAAATATCTATGCTCCTAAGAACTTTTATGAGATAGATGAAAAATATTTAGACCCATTTTCAGAAAAATCACCGGCTGAGCAATTTAGAGAGTTTATAAATGAAGTACATAAAAGAGATATGAAAATTGTACTAGAGCTTATAGTTACTCATACGGCAATTGATTCAGATTTATTACTTACACATCCAGAATGGTATAAATATAATGAATATGGCGAAATAAAAAAGTATAGTATAAATAATTATGATACTTTGGTTGAATGGGGCGATTTATTAGAAATCAATAATCATCATGGAGATGAAACAATAAAAACATATCTTTGGAAATACTGGATAGATTTAGCACTTCATTATGAAAATTTGGGTATAGATGGAATAAAACTTCATTCAGCATTTAATGTACCAATGGATTTAGTTAAAGAATTGGTTGATAGTTTAAAGAATAAAAATAAAGAATTTATAGTTATAGGAGATAACTTAGGAGCTAGTTTTAATGATATGCTTGATTTGGCTCAAGCTGGAGTAGACTATTTATTTAGTAGTTTTAAATGGTGGAACTTCAGAGCAACTTGGTTTTTAGAACAGCATTATAAATTGAAAGAAATGGTAAAAATGATTTCATTTCCAGAAAATTATGATACAGAAAGAGTTGCAATGAGGTATAATGAAAATATAGAAGCTTCTAAAGCATTTTATATATTAGCTGCTCTTATTAATAGTTCTATTATGATTCCAATTGGATTTGAACATGGAAATAAAGTAAAACTTAATGAACTTAGAGGACTTGAACCAGAATTAAATATTGGAAATTTAGATTTAAAAGAATATATTTTACATGTAAATAGACTAAAAGATGAGATAAATCTTTTTTCAGAAGAAAATGATATATATTACTTAAGTCAAGAAAATCCAAATATTTTTGCTTTCAAAAGAATAAGTAGAGATAAAAAAGAGAGGGCCTTAGTCATAGCAAACCTTAATTTTATTTCAAGTCAATATTTAAAAATGGAAGATATTTACTATATTTTAGAAAGTGATAAAGTTATTGACCTTTCTCTTGAAAATAAAGAGGAAATTAAAAGTAAATTTTACGAAAAAACTCTTAATCCGGGGGAAGTAAGAGTTTTATATACAAAAGATTAAGAAATATAGAAGAGGTGAAAAATGTTAGAAAATTTGAAAAAAATGGATATGGGAATTTATGAAGTAATAATTAAAGAAGAAGAGAGACAAGAATCAGGTATTGAGCTTATTGCATCTGAAAATTTTGTTTCAAAAGCTGTAATGGAAGCAGCAGGAAGTGTATTAACTAATAAATACGCTGAAGGTTATCCAGGGAAAAGATATTATGGAGGATGTCATTTTGTAGATGAAGTTGAAACTCTTGCAATAGAGAGAGCAAAAAAACTTTTTAATGTAAATTATGTAAATGTACAACCTCATTCAGGGTCACAAGCAAATATGGCAGTATATATGGCTCTTATTAATGTAGGAGATACTGTTATGGGAATGGGACTTGATCATGGAGGACATTTAACACATGGATTAAATGTAAATTTTTCTGGTAAATTATACAATATAGTTAGTTATGGTGTAGATAAAGAAACAGAAATGTTAGATTATAGTAATATTAGAGAAATAGCTTTAGAACATAAACCAAAAATGATAATAGCAGGAGCAAGTGCATATTCTAGAGAAATAGACTTTAAAAAATTTAGAGAAATAGCTGATGAAGTAGGAGCATATTTATTTGTAGATATGGCACATATAGCAGGATTAGTAGCAGCAGGTGAACATATGAGTCCAGTACCATATGCACATGTAGTTACAACAACAACTCATAAAACCTTAAGAGGTCCTAGAGGTGGAATGATAATGACAAATGATGAGGAGATTGCTAAAAAAATAAATAAAATAATTTTTCCTGGAATACAAGGTGGACCTTTAATGCATATAATTGCTGCAAAAGCAGTATCATTTCATGAAGCGTTACAAGATGATTTTAAAGAATATCAAAAACAAGTAGTAAAAAATGCAAAAACTTTAGCTAAAGCTCTTGAAGAAAAAGGATTTAGAATAGTAAGTGGAGGAACAGATAATCATTTAATGTTGGTAGATCTTACTTCTAAAAATATTACAGGTAAAGATGCAGAAAAAGCACTTGTAAAAGCTGAAATAACAGCAAATAAAAACGGAATCCCTTTTGATAAACAAAGTCCATTTGTAACAAGTGGAATAAGACTAGGAACACCGGCAGTTACTACTAGAGGAATGAAAGAATCTGAAATGATAAAAATAGCTGATTTAATAACAAAAGTATTAGAAAATATCGATAATGAAGAAGTTATATTACAAGTAAAAGAGGAAGTGCATAGATTATCAAAAGAATTTCCTCTATATAAATAGTTATTAAACACTTGCAGTTGCAAGTGTTTTTTTATATATATATAATATGTTAAGTTTTAGTTTACAAAATAAAAGAAAAATTAATATATACTTTTTGATTTAAAAAGTAAAAAAAGCTTGAAATAAAAATATTTTACTAGTATAATAATTACATATGAAAAAATATTACTAATTAGTAATAAATTGGAGGATGTATGAATATTGGATTTATAGGTTCTGGGAAAGTAGGGATATCACTAGCTAGGTATTTTAAAAATAAAAATATAGATATAATAGGATTTTATGAACTTGATAAAAATAAAATAGAAAAATATAATAAAGAATTTACATTTTTTAAAAAGATAAAAGAATTTATAGAAAATATAGATATTATTTTTATAACTGTAAATGATGATAATATTAAAATTATTCGAGAAAAATTAGAAAAACTAGGATTTGAAAATAAAATTTTAATACATATGAGTGGTTCATTACCAAGTAAGGAAATTAAAATAAAAAAAAATTTTGCTTATTCTATTCATCCTATGTTTGCTTTTTCAGATGATAATACCCAAGATATAGAAAAAGCAACCTTTTCTATTGAAGGGGATAGAGAAAAAATAGATTATTTAGTAGATTTTTTTAATAAATTAGGAAATGAAATACTAAAAATAGAATCTGATAAAAAAGATATTTACCATTTATCAAATGTAATAGTTTCGAATTTAGTTTTATCTTTAATAGAAATTGGAATAAATTATTTAGGTGAATGCGGGATAGAGAAAAATGAAGCAAAAAAAGCAATTTTTCCACTTATAGAGAATAATATTAATAATATTAAAGTAAAAAATATAGAAAAAGCTGTAACAGGGCCTGTAGAAAGAGCAGATATAATAACATTAAAAAAACACTTAAAAGTAATAAAAGATGTAGATAAAGATTTATATATTAGATTGTCTAGTAATTTGTTAAAATTGTCAAAATTAAAAAATGTAGATAAAGATTATACTGAGTTAGTAGAGATATTAAGGAGTGATAAAAAGTGAAAAAGACAGTACCTCAATTTGTAGAAGCAAAACAAAAAAAAGAAAAATTAACGATGGTAACGGCTTATGATTATTCAATAGCAAAATTAGTGGATAATAGTAATATAGATTCAATACTTGTTGGAGATTCACTTGGAATGGTAATGCTTGGTTATGAGAATACCCTTCAAGTAACAATGAAAGATATGATTCATCATACAAAAGCAGTAGTAAAAGGGGCTAAAAACACTATGGTAATAGCCGATATGCCTTTTATGTCTTATCATGTAAGTATAGAAAAAGCAGTAGAAAATGCAGGAAGACTTATAAAAGAGACTAATGCAACAGCTGTAAAATTGGAAGGTGGTATTGAAATGGCTGATACAATAAAAGCAATTGTAAAAGCTCAAATACCTGTAGTAGCTCATATTGGACTTACCCCTCAATCTGTTAATATATTTGGAGGATTTAAAGTTCAAGGGAAAAATATTGATGCAGCTAAAAAATTGATTGAAGATGCAAAAGCAGTAGAAAAAGCAGGGGCATATGCAGTAGTATTAGAATGTGTTCCTGAAAAATTAGCTAAGATTATTACAGAGGAATTGGAGATACCAACTATAGGAATAGGGGCTGGAAATGTATGTGACGGACAAGTATTAGTATATCAAGATATGTTAAATATGTTCTCAGGATTTAAACCAAAATTTGTAAAAATGTACGCAGATATTGGAAAAGATATAGAAAATGCATTTAATAGATATGTAGAAGAAGTAAAAACAGAAGTTTTTCCAGCAAAAGAGCACACATTTGCAATATCTGATGATGTAATAGAAAAATTATATTAGGTGATAAAAATGATAAAAATAATAGAAAAAATAGATGAATTAAGAAAAATTTTAAAAGAGTACAGAAGAAATAATCAAACTATAGGTTTTGTGCCAACGATGGGGTATTTACATGAGGGACATGCGTCTTTAATAAAAAGAAGTAGTAGTGAGAATGAAATTACGATAGTAAGTATTTTTGTTAATCCAATTCAATTTGGACCAAATGAAGATTTAGATAAATATCCTAGAGATTTAGAAAGAGATAAAAAAGTAGCATTTGAAAATGGGGCAGATATTATATTTCATCCAAAAGTAAATGAGATGTATCCTGAAAAATTATATACTTTTGTAAATGTAGAAAATCTTGATAAAGAGCTTTGCGGTGCGAAAAGAGAAGGACATTTTAAAGGAGTAGCAACTGTTGTAACAAAGCTATTTAATATTGTGAATCCGGATAAAGCTTATTTTGGGAAAAAAGATGCTCAACAATTAGCTATAATAAAAAAAATGGTAAAGGATATGAACTTTGATATAGAAATAATTGGTTGTGATATAATAAGAGAAAAAGATGGACTTGCAAAAAGTTCTAGAAATAGTTATTTGAAACCAAAAGAGAGAAAAGCAGCAACTATATTGAAAAAAACTCTTGATAAAATAAAAGAAATGTTAGATAATAAAGAAACAGATGTAAAAAAAATTATAAATTTAGCAATAAAAAATATAGAAAAAGAACCACTTGCTAAAATTGATTATGTCGAAATAGTTGATTTATATACTTTAGAAAAAGTAAATAAAATAGAAACGGATGTGTTAGTAGCAATGGCAGTATATATAGGGAAAACAAGACTTATTGATAATTTTGATTATAAATTTAATTAGAATTAAAGAATAATTTTTTATAATAATATGGAGGAAAAAATGATATTAAGTATGTTAAAAGCAAAAATTCATAGAGCTACAGTGACACAAGCGGAACTTGATTATGTCGGAAGTATAACAATAGATGTAGAATTACTTGAGCAATCAGGTATAAATGAATATGAAAAAGTACATATTGTAGATATAAATAATGGAGAGAGATTTGAGACTTATACAATAGCAGGAGAAAGAGGAAGTGGAGTAATATGCTTAAATGGAGCTGCTGCTAGAATGGTACAGAAAAATGATAAAATAATCATAATGGCTTATTGTCAATTAGATTCAGAAGAAGTGGAAAATCATAAACCTAAAGTTATTTTTGTAGATGATAATAATAAAATTACTAAAATATCAAATTATGAAAAACACGGAAGATTAGTTGATTAATAGTTTAGATAAAGAAAGGTGTTAACATGAAAAAAATATTAATGTTTATAATAATAATAAGTAACGTAATATTTGCTGGTACAATAAAAGTAACGGGAATAGGGAAAATAAATACCAAACCAAATATAGCAAATATAAGTTTAGGGGTAATGACTGAAAATGAAGATGTATCTAAAGCTATAAAAGAAAATACTGGTAAAGTATCCAAGATAATATCAAAACTTTTAGAGTTGGGAATTAAAGAAAAAAATATTAATACTTCAAATTATAGTTTATATTATGATAAAGAAGATTATAATGATAAAGATTCTAAAAAAATTTATAAGGTAAATAATTCTTTGAATATTGAAATAGAAAATATAGAAAGAATTGGTGAGATAATAGATTTATTAGTAAAAAATGGGGTAAATAATATTTGGAATATAAGTTTTGGAGTAAAAAATAGAGAAAAATTTGAAGAAAAAGCAAAAATTATAGCATTAAAAAATGCAGAAGAAAAAGCAAAAAAAATATTAGAATCGCAAGATTTAAAATTAGGAAAAATAAAAAATATTTCAGAAAATATAGATCCTAATATACCTAGATATAGTTATGAAATGAATAGAAGTGCTGTAGCAGCTAATAATTATACAATAATATCATCAGTTTTTGTTGAATATGAAATAAGTTATTAATTTAAAAACCTCTTAAGAATAAGAGGTTTTTAAATTATTTTTGAAATATTTGTAATAATGTATTATAATTAACATAGAATGTGAAAAAAGGAGAAAAAATGTATTATTTAAATGAAAAAATATACAATAAATCTCCATTAGGGGAAGATTACTTTTATGGGATATCATTATTTGAAACTATTATGGGTTATAAAAATAAGCTAATCTTTTTAGATGAGCACTTAAAAAGGTTAGAAAATTCAATGAAATTTATAGGGATTGATAAAAAAATCGAAAAAAATTATTTATATGATTTAATAAATCAAGAAAAAGATTTAAATGATGAATTTATGTTAAAAATTCAAGTAAGTAGTGAAAATTTATTTATAAAAATAGAAAACTTTTCACATAGATATTTTAAAAATGGAATTAAACTTGTAGAAATAGTAAAATATTATCAAAGTGAGCTAGGATTTTTAAAAAGTGGAAATTATTTATTAAATATTTTAGCTAGAAAAGAAGTGATGAAAGAAAATGGATTTGAAGGGGTTTTTAGAAATAGAAATAATATTATTACAGAAGGGACAATTTCAAATATATTTTTTATAAAAGATGAAATAGTATTTACACCAAGTTTAGATTTGAATATTTTAAATGGGATTGTAAGAGAAAAAATAATAGAGATACTTAAAAAAAATGGTATAAAGGTACAAGAAGGGCATTATACAAGCAAAAATTTGTTAGAAGCGGATTCTATTTTTATATCAAATTCATTAATGAAATTAGGTTGTTTATGGGTATCAGAGTATAATAATATTTATTACAAAAAAAGCGAAATTATTCACTTGATAGAAAAAGAATATTTAAAATTAATAAAAAGTATGATATAATACCTAAGGTGATGAATTTGGAATTTAATAATAAATTAAAATTTTTTTTAATATTTATAATTTTTGTTTTCGTTATTCTTTTAGGACGATTATTTAGTTTGCAAATTATTCAAAGTAGAAAATATAAAGAAATAGTAAAAACACAAATAATAAAAAATTATAATTTAGAAGGTAAAAGAGGAAAGATATTATCAAAAAATGGAGATGAATTAGCTTATGATATTACCTATTTTTATATAATTTTAAATCCATATAATATTGTAAAAGATAATGTAGAAAAAGAGTATAGCTTAATTTTATCCAAATATATTAAAGAAAAAAAATCATCTTTTGAAAAATTATTAAATAAAAAGTATAAAGATGGTAGAAAATATTTAAAAATAAAAAATGTATTAGATGAAAAATTAAAAGAGAAATTAATAAAAGAATTAAAAAAGAATAAGTTATATAAATATAGTTATATAACTTTTGAAACCTCAAACATAAGAAAATATGCTAATGAAAAATTATTTAGACATATAATAGGATTTTTGGGATATAACGAAGATAATATAAAAGTTGGAAAATTTGGAGTAGAAAAAATATTTGAAAATGAATTAAAAGGTAAAAAAGAAAAAATTATTAGTTATGTAGAGAAAACAAGAAAAAGAGAATTACCAATGTTTTCTTCATTTAAAAATAATAATAATGAAATAAATCCAGATGGTGATAATGTTGTTTTAACAATAGATTATTTTATGCAATATATTTTATATGAAGAATTAATAAGTATGTATAATGATTATCAACCAAATTGGGCTTCAGGAATAATAATGAATCCTAATAACGGAGAAATACTTTCAATGGTATCACTTCCAGTTAATAAAGTAGCATATACAAAAAATACTATAATCCAAAATATATATGAGCCTGGTTCGGTAATGAAACCAATAATAGTATCTGCAGCACTTGAAGAAAAATTAGTTTCAACAAAAGATACTTTTAATAATTTAGAGGGAAAAATAGTAAAATATGATGCAGTTATTAGAGATAGTAGTAATTCATCTAGAGGAATATTAAAATTAGAAGATGTATTAATAAAGTCAAGTAATGTAGGAATGGTTAAAATAGCTGATAGAATAGACGCAAAAACTTTTGAAGAATATCTTAAAAAATTTGGATTTTATGAAAAAACAAATATAGATTTACCTAATGAGATTAATATAAAACAACTACCTTATAAAAAATGGGATGGATTAAAAAAATATACAATGGCATTTGGTCAAGGGATAGCAGTAACTCCTATTCAAATGATAAACGCGTTTAGTGCAGTTATAAATGGAGGGATTCTTTATAAGCCAAGAGTAATAAAAAAAATAACTACAGCTGAAGGAGAAACAATTAAAGAATTTAAATCAGAAATTATTAGGAGTAATATTATTTCTAAAGAAACATCAGATACAATAAAAAAAATATTATATAAAGTTGTAGAAGAAGGAACAGGTAAAAAAGCTAAAATTGACGGTTATAGTATAGGTGGTAAAACAGGAACTTCACAAAAAAGTGAAAATGGGAGATATTCTGATGATAAATTTATAGTGTCTTTTATGGGATTTTATCCTTTAGATAAGCCAGAATATTTAATATTATTAATAGCAGATGATCCTAAAAGTGATAAAAATGTATATGGTGGAAGTATATTAGCACCTGTATTTAAAAATGTAATGAAGAGAATTTTTAAATATAAAAATATACCACCAGAAAAAAATATAGAGGAGTTAGAAGACGAGGAAGTAAAATATAATAAAATAGAATTTGATTTAAAATATATGCCAGAGTTAAAAGGGCTAACATATAGAGATGTTATAGGAGTGTTTAAAGACACGGAATTCAAATTGGATATAAGTGGAAGAGGTAAGGTTGTTTATCAATATCCAAAGCCAGGAATTGAGCTTAAGAAGAATATAGCAATAAAAATAAAACTAGAGGAGTAAACAGGTGAAGTTATTTGAAAGTAATATTTCAATTGTTGATTTTTATAAAATAAATAAAGAAAATTTTTCAGAAGAATTTATTATACTTGACTCAGCTAATAAGAGTAAATTATCTAATTATTCATATATATGTGCTTATTTTAATAATAAAATTACATTAAAAGATAATTTAGTGAAATTTAATAATCAAATAATTGAAGAAAATATTTTTTATAAAGCTAGAGAAATATTGGAAATAAATAATAATAAAAAATATAAATATCCGTTTTATAATGGTGGACTGATAGGAATAATTTCTTATGACTATAATAAATATATAGAAAAATTGCCTAATATAGCAAAAGACGATTTAGGAATTGAAGATATATATTTTGTAATGCCTAATTTAATTATAGTAAAAGATGAAAAAACTAATGAATTTTATGAATTGAATTATTCAGATAAAAGATTTAAATGGAATAATACAATAAATTTTAAAAATAATATTGAAATAATTGAAGAAGATGTTGAGTGGGAAGATATAAAAAATTTTATACCTAATATGTCAAAAGAACAATTTGAAAAAATTGTAGAAAAAGCTAAATATTATATAAAAGAAGGAGATGTATTCCAAGTAAACCTAAGTCAAAGATTTATGACGGAATTTCCAGACGAAGATAGTTTTTATTTATACGAAATACTTAGAAAAATTAATCCATCGCCATTTGCATCTTTTATAAATTTAAAAGAATTTAGACTTATTAGTCAATCACCAGAAAGACTAGTTAAATTAGAAAATAATAAAATAGAAACAAGACCTATAGCAGGAACTAGAAGAATAAAAAAAGATAATAAAATAGATAATATAAATTTTGAAAAAGAATTAAAAATAGATGAAAAAGAATTAGCAGAACATGTAATGCTTGTTGATTTAGAAAGAAATGATATAGGGAAAATATCAAAAATTGGAACTGTAAAAGTAAATGAATTTATGGTAATAGAAAAATATTCTCACGTAATGCATATAGTATCCAATATTATAGGAGAATTAGATAAAAAGTATGATGGATTTGATGTTATAAATGCTATGTTTCCAGGTGGAACAATAACAGGTGCTCCTAAAATAAGAACTATGGAAATTATAGAAGAATTAGAACCTACTAAAAGAGGTTTTTATACAGGAAGTATGGGATTTATAGACTTTAATGGGAATATTGATTTTAATATTATTATAAGAAGTTTTATTCAAAAAGAAAATAAAGTGTACTTTCAAGTAGGAGCAGGTATTGTATATGATTCGGATCCTAAAAAAGAGTATAAAGAAACTATTAATAAAGCTAGAGCAATGATTTTAGCTTATAAAAATTATATAAATAATAAAAAAGGTAAAATATGAGATATTTAAATTTATATGTTTATGGACAAGAAGGTTTTTATGTTTATTTAGATGAAAACAACGAATATGAAATAGGTGAACATGTCCTTGTAATGTTTATGAATAGAAAAAAAATAGGACTTGTAGTTTCTGAATCAAAAGATAGAGAATTTTCTTTTAAAGTAAATAAAATCCTTCAAAAGCTTTATGGTGAAATAAAATTTAGTAAAAATTTAATAGAACTTTTTTTATGGATACAAAATCATTATTTATGTAGTTTTTCTCAATTAATAGATAGTATTTATCCAAAAGATTTGAAAGCAGAGATAGAAAAATATTATAAATTATCAAATGAATTTATACCTGCAGATGAAAAAGATAAAGAATTTCTCAATTATATAAAGAAAAAAGAGAAATATAAATTAAAAACTTTATATAATAGATATACAAAAGGATATATTGAAAAATTAATAAAAAAGAAAGTTTTAGAAGAAGTAAATCAAGAATTTAACACAAAAAATAATTATAATGATTTTAAAGATATAAAAGTTATACTAGAAAACAATAAAATAAATTTAAATGAAGAACAAAAATTAGCAAAAGAAAAAATAATTAATGGGAATAAAAAATACTACTTACTCTATGGAGTAACAGGTTCTGGAAAAACAGAAGTATATATACAACTTATAAGAGATGCTATTATAGAAAATAAAGGTGCAATATTTTTGTTACCAGAAATATCATTGACTCCACAAATGATAAAGAGATTTAAAGAAGAATTTGGAGAACAAATAGCCATACTTCATAGCAAACTTACTAATACTGATAGAAAAAAAGAGTGGTTAAGTATATATAATGGGAATAAAAAAATAGTATTAGGAGTGCGTTCAGCAATATTTGCACCAGTAAAAAATCTAAAATATATAATAATGGATGAAGAACATGAAACAACATATAAGCAAGACACTAATCCAAGATATAATGCTAAATATGTAGCAATCAAAAGAGCAGAAATTGATAACTGCAAAGTTATATTTGGAAGCGCAACGCCTTCAATAGAGAGTTATTATTTTGCACAAAATAATATTTTTGAATTAATTAAATTAAAAAATAGATTTAATAGTATAAAAATGCCTAAAATAAATATAGTAGATATGAAAAGAGAAGAAAATGAATATTTTAGTAAAAAACTTATAAAGAGAACAATAGAAGAGTTAAGAAAAAATAATCAAGTAATATTTTTTATCAATAGAAAAGGTTATTCTACGTATATTCAGTGTAAAGAATGTGGACATGTAGAAGAATGTCCGAATTGTGCAGTATCACTTGATTTTTATGCAAGTAGTAAAGAATACAAATGTAATTATTGTGGATATAAAAGAAAATATACTAATAAATGTAGTAGTTGTGGAAGTACAAATTTAAAATATTCTGGAAAAGGTACTGAAAAAATAGAAACCGAATTAAAAAAACATTTTAAAGATAGTAAAATAATAAGAGTGGATGCAGACACTACAAAAGATAGAGATAGCTATGCACAAATATATAATGATTTTTATAATAAAAAATATGATATAATGATAGGAACTCAAATAATTTCTAAAGGATTTCATTTTCCAAATGTAACTTTGGTGGGCATTATTACAGCAGATACAATAATTAATTTTCCAGATTTTAGAGCTGGCGAAAAAACATTTCAAATTATATCTCAAACAGCAGGAAGAGCAGGACGAGATAAAAAAGAGGGAGAAGTGTTAATTCAAACTTATAATCCAGATCATTATAGTATTTTATCAGTTATAAATCATAATTATGAAGAATTTTATGATATAGAAATAAAAAATAGAAAAATGCTTAATTATCCACCATTTTCTAGAATCATAAATATAATTGTATCAGGATTAGAAATAGAGAAAGTATTTAAAAAAGCTAAAAAATTATATGGTATACTGATAAATATAGCTAAAAATTTAGAAATATATGGGCCTATTGAAGCACCTATATTTAAAATAAAATCTAGATATAGATATCAAATATTTATTAAAGGAGAGAGAAAAGAGATAAATAGAATAAAAAAATATATTATAGAAAATGTAAATAAAGAAAAAAATGATAGTGTGAGAATAGTAATTGATGTTGATCCAATGAATTTAATGTAATATGGAGGTAAAAATGATAATGGATATAGTAACATATGGTAGCAGTGTATTAAGAGAAAAATCAAAAAAAATAGAGAAAATAGATGACGAAATAAAAACTCTTTTAAATAATATGGTAGAAACTATGCAGGAGGCACAAGGTGTAGGTTTAGCAGCTCCACAAGTGGGAATAAATATTAGAGCTTTTGTTCTTGATATTGGTGATGGAAATATAAGAAAAGTAATTAATCCAGAATTTTTAGAATTTTCTAATAATATAGTAGAGCAAGAAGAAGGATGTTTGAGCATACCTGGAATATATAAAAAAGTAAAAAGACCTGAATCACTTAAAATAAAATATTTAAATGAAAATGGTGAAGAAGTAATAGAACAAGCAGAGGGGTTATTAGCTAGAGCATTTCAACATGAATATGATCATTTAGAAGGGGTTCTTTTTGTGGATAAAATTTCACCAGTAGCAAAAAGATTGGTCTCGAATAAATTGCAAAAATTAAAAAAAGAAACATTAAAAAAAATAAAATAGGAGGGAATATGAGAATATTATTTATGGGAACACCAGAATTTGCAGTTCCTTCTCTAGAAATATTAAATAAATATCATGAAATTATTGGAGTATTTACAAAAATAGATAAGCCAAATCAAAGAGGGAAAAAAATAAAATTTAATCCTGTAAAGCAATATGCAATTGATAATAACTTAGATATATATCAAGTGAAATCAGTAAAATCAAAAGAAGTAATTGAAAAAATAAAAGAACTAAACCCAGATCTTATTGTAGTAGTAGCATATGGCAAAATATTACCAAATGAGCTTATAGAAATACCAAAATATGGAACAATAAATGTACATTCATCATTATTACCAAAATATAGAGGAGCAGCTCCTATTCATTATGCAATAATTAATGGAGAAAAAGAAACAGGAGTAACCATTATGGATATTGCAGAAGAACTTGATGCAGGAGATATAATTTTGCAAGCTAAAACAGAAATAAGTGATGATGATAATTTAAAAAGTGTTCATGATAGATTGGCTGAAATAGGTGCTAAAACTTTATTAAAAGCAATAAAATTAATTGAAGAAGGAAAAGTAATAAGAAAATCACAAAATCATGAAGAAGCGACATTTGTAAAACCAATATTAAAAGAAGAAACAAAAATTAATTGGAATAAATCTAAAAGAGAAATATTTAATTTCGTAAGAGGATTAGATCCATTTCCAGGAGCATTTTTTACGTTTAATAATAAAATTTTTAAATTATATAGAGTAGAAGAGTATGATAAAACATATGAAGATGCAGAAATCGGAGAAATAGTAGAGTTTGATAAAAAAAGAGGACCTATTGTAAAAGTTAAAGATGGTTCTATAATTTTAACAAAAGTTAAACCAGAAAATAAAAAAACTATTTCTGGAAGAGATATAATTAATGGAAATTATTTTGAATTATGTAATAGATTGAATTAAAATGATTGGAGGTAATTATTAATGAAAGAAGAAAGAATATCACCGAAGGTGATCGAAAGATTAACAAAATATTTAAGATGTTTAGAAAATCTTCCACAAGAGGATTATATTTCATCAGAAGAATTAGCAGAAAAAATGGGATTTACAGCGGCACAAGTAAGAAAAGATTTATCTAATTTTGGAGAGTTTGGAATTAGAGGTAAAGGATATCAAGTAAGAAATCTTTATGCAGATATTGAAAAAATATTAGGTGTTCATAAAACTAATAATGTAATTATTGTAGGAATGGGAAGACTAGGAAATGCACTTTTTTCTGAACCAGAATTTACAAAAGAAAGTTTTAATATTGTAGGAATTTTTGATAATTCGGAAAATAAAATAGGAAAAGAAATAAATGGTATTAAAATAAGAGATATAAAAGAATTAGAGCATTTTATCAATAGAAAAGAAGATGTAAATATAGCAATTATTACAGTACCAAAGTCAGTAGCACAAGAACTTACTGATTATTTAGTGAAATGTGGAATAAAAGCAATACTCAATTTTGCACCAATAAAATTAAATGTGCCAAAAAATGTTGTAGTAGAAAACATAGATTTATATGCTAAATTACAAGAGTTAAATTATTGGAAAGAAAAAGTTTTAAAATAAACAGGAGGATTATATTTTAATGAAGAAAATAATTGATGGGAGAAAAATCTCTAATGCTATAAAAGAAGAGATAAAAAAAGAAGTAACTGAATTAAAAGAAAAAACAGGAAAAATTCCTGGACTTGCAGTAGTTTTATTAGGGGAAAATCAAGCTTCAAAAGTATATGTAGGTTCAAAAATAAGAACTTGTGAAGAATTGGGAATTTTTTCTGAAAAATATCATTTATCAGAAAAAACAACAGAAGAAGAATTATTAAGATTAATTCAAACGTTAAATAAAAAAGAAAATATTGATGGAATATTAGTACAATTACCCATTCCAAACCATATATCAGAACAAAAAATAATTGATGCAATTTCTTATAAAAAAGATGTAGATGGTTTTCATCCAATTAATGTGGGAAAGACTCTTATAGGAGATAAAACAGGATTTAAATCATGTACACCATATGGAATAATAGAAATGTTAAAAAGAGAAAATATAGAAATATCAGGTAAAGATGCAGTAATAATAGGTAGAAGTAATATCGTAGGTAAACCTATGGCATCTTTACTTATAGCAGAAAGTGCTACTGTACAAATTTGTCATAGTAGAACAAAAGATTTAGCAGAAAAAACTAAAAAAGCAGATATACTAATATCAGCTGTAGGAAAAGCTAAATTTATAAAAAAAGATATGATAAAAGATGGAGCAGTAGTTATTGATGTAGGAATGAATAGGGATGAAAATAATAAATTATGTGGAGATGTAGATTTTGATGATGTATATGAAAAAGTAAGTAGGATAACGCCTGTACCTGGCGGAGTAGGACTTATGACTGTAACAATGCTTATGAAAAATACATTACTATCATTTAAAAATAATAGATTATAAAAAGTTCTAAATTAATAGAACTTTTTTTATTTTTTGAAACTTTCTTTAATTGGTCACAAAATGAACACATTAATAGAGTAAGATTATAGTGTAAGAAGAGATAAAGTCTTAATCAAAACTAAAATATATAAAATAAAAGGAGTGAGTAAAATGAAAAAAAGATTTTTAATAGCAGGATTAATAGCAATAGCGGTAATTACTAGTACATATGCACATGGTGGTGCAGGAAAAATGTCAGGAAATGGGTATAATAGAAATAGTAAAAATTTGAATAATAGAGATTATAAATTTACTAATGAAGAAATAGAAAAATATGAAACAGAACTTAGAGCAAAATATAATATTAAAAATGATGAAAAAATTGATTATAAAAAATTAACAGATAAAGAATTAGAAGAATTTGGAGAAATTTTAATGGATAGTATGGTATATGATAAAGAAAGACATGAATTTATGGAAAAATTAATGGGCGGAGATAATAGCGAACAGTTAAAATATATGCATATAAATACAGCAATAAATTATCTTGAAGGATATGGATTTGGAATGGGTGGAATGATGGGAAACAATGGAATATGGGGAAATAATTCTGATGCATTAGATATATTAAAAGAAAGATATGCAAAAGGAGAAATAACAAAAGAAGAATATAATGAAATGAAAGCTGAATTAACTAAATAGAGGTGGAAAATATGTGGAGATTTTTTAACGGTGGATGTTATAATTTGTTTGGAGGTCAAGGAATAATGATGATAATATTTTGGATAGTAATAGTGGCATTAATATTTTACTTTATAAATAAAAATGGAAATAAAGAAATATTTAAAAGTAAAACATCTTTAGAAATTTTAAAAGAAAGATATGCAAAAGGAGAAATAACAAAAGAAGAATATGAAAAAATAAAAAAAGATCTATAATATGGTATAATAATAGAGTGAGAATATTAAATTTTCACTCTATTATATATTTTTATGAGGTGTAAAATGAAAAGAATACTTATTATTGAAGATGAAAAAAATATACGAAAAATAATAAAAGATTATTTGAAAAAAGAAAATTATAAAATATTAGAAGCTGAAGATGGAGAAGAAGGATTAAATAAGTTTTTTGAAAATAATATTGATTTAGTAATATTAGATATAATGTTACCTAAAATAGATGGATGGAGTGTATGCAAACAAATTAGGCATAAAAATAAAGAAGTATATATTCTGATGTTAACAGCTAGAGATAAAGAATTAGATGAAATATTTGGATTTGAGCTTGGAGCAGATGAATATATAACAAAACCATTTAGTCCAAGAGTATTAGTAGCTAAAATAAATAGAATTTTTAAAAAAAACTTAGAATTAAATAAAAGTAATAAAATAAAAATAGAGAAATTACTAATAAATAAAGATAGTCATAGAGTATATTATGATAATAATTTACTTAATTTATCACCAAAAGAGTATGAACTTTTATTATATTTAATAGAAAACAAGAATATAGTTTTGTCACGAGAAAAAATATTAGATAATGTATGGGGATATAATTTTTTTGGAGATGTACGAACAGTAGATACACATATTAAAAAACTTAGAAAAAAAATAGAAAATAATTATATTGAAACAATAAGAGGGTATGGTTATATGTTCTCATTTAAGGAGATTGATTATGAAAAAAACAAATAAATTTAGTATTAAAATGTTTTTTATATTTTCGTTAATATTGTTTTTTTCAATGATATTTATAATTTTATTAAATAGAGTGTTTCTAAATAAATATTATATATATAAATATAAAATAAAAATGGAAAAAGAGTTAAAAGAAATATCTAAAAACCAGAATGATATTTATTATATAATAAAAAATTATAAAGGTGAATTTAATGTTTTTATATCAAAGAAAAAAAACTTTAGAGATAATAATTTTCATATGAGTATGGGAATGATGACAAATACTACTATGATGAAAAATCATATTATAAATAATCTTATTAAAAAATTAGATGAAAATAAAGATTATATAATAGATAGTTACTATAATATGCCTTTTGGATATAATGAAATAGTAGGAGTTTTAAAAAAAAATGATGATTTTATAGTTATGACATTTCCGATTAATAAAATTAAAGAAAATTCCCAAATAGCAAATGAATTATTTCTAATAATAGTTTTTATAGTAATATTTTCAGTGAGTTTTGTTAATTTTTATTTTATAAAAAGATTTTCAAAACCTCTAAAGAAACTCATTGATTTTACTAATGGTTTAGCCAATCTTGATTTTTCTAAACGAATCCAATTAAAAACAGGAGATGAAATAGAAAATTTAGCAAATTCATTTAATTATTTGGCAAATGAATTAGAAATAAATTTTAAAAAATTAAATGATGTAACAGAAAATCTAAAAAAAGAAAAGGATATTAGGGATGAATTTTTAAAAAATGTAAATCACGAATTAAAAACCCCAATAGCTTTAATTAAAGCATATACAGAAGGATTAAAAGACAATATTGCAGATGATAGAGAGGAATATTATAATATTATTTTAAATGAAACTGATAGAATGGAAGAAATGGTAAAAAAACTTCTTGAAGTAATAAAAAATGAAGAAATAAATTTAAAAAAATTAGAAAAAATTAATTTGAAAAATTATATAGAAAATATTTTAGAGAAATTTAAAGTTGATTTTATAAATAATAATATAAAAAAAGATATAGAAATAAACGAAAGCATAAATATTTGTTATACTAAAACAGATTTTGAAACATTAATGGTAAATATTATTACGAATGCAATAGGAAATATAAAAGAGCCAAAACAGTTTTATATAAAAGGAAAAGATAATAATGAATATATAGAACTTGCTATATTCAATAGTAGTGAAAAAATAGATGATGAAGAAATAGAAAAATTGTGGGAGCCATTTTACAAAAAAGATAAATCAAGAAAAAGAAGTTATGGTGGAACAGGACTTGGATTATCAATAATAAAAAAAATATTAAATAAACATAAAAATAATTTTTTATTTGCATATAATGAAAATAAAAAAGGTATGGAATTTAAAATTTTATTTAAAAAAGAGAGTTGTAAATAACTCTCTTAAGTTTTTTTTGTAATAGGAATGGTAAAACTAAATGAACTTCCAATATTAATAATACTAGAAATTTTTAAATCCCCGCCTAATCTTTTAATAAAATCAATACATAAAATAAGACCAAGACCAGTGCCATCTTCACCATTTGTCCCACTAGTACTAGAAAATTTAAAATTATTTAATATTTTATTTATTTTTTCTTCTGATATACCAACTCCAGAATCTTTTATTGTGATAGTTACACAATTGTCTTTTTTTTCAGCTAAAACTTCAATTTTACCATTATTCTCAGTAAACTTTATTGCATTAGAAAGTAGATTTCGGATAATAGTTTTTAGCATGTTTTCATCAGTAATCATATAAATTTTTTTATCTATAGAAGTATTTAAAGATATATTTTTGTTTTCAGCATTTAATTTAAGTATTTTCATTTGACTAGTAATAGCTTCTCTTAATTCAAATTCATTAGGATTGAATTCAATTTGATTGAGGTGAGATTTTGCCCAATATAATAAATTTTCTAATAAGTTATAAGTAGTTTTTGAAGATTCTTTTAATTGTAAAAGAGTTCGTTCAATATATTTTTTTTCGACATCTTCACTATATAGTTTTATCAATAAATATTCTACTAAATTATTATAAGTAGCAATTTGCCCCATTAAGTCATGAGAAATAATTGAAAATATTTTTTCTTTTCTATGTTTTAATGCATAGATTTCATTTTTTAGTTCTTCATTTTCTTTTTTCAATAAATTATTTTTACCTATTAAAACTTTAATTTTACTTTTTTTCCCCCTTAATAAATACCTAAACATAAAACCTCCCGAGTACTAAAACAAAACTTTATGACTAATATTAGCATATTTTTTAAAAAAAATCAAAATATAATTGACAAGTTTATAAAAAATATAGTATTCTATTTATAGGAAGGTGATAGTATGAAATTTTTAAAAAGAGTTTGGAAGACGTTAGCATTTATGGTAATTTCAATGATAAATAATATAGAATAAAAAATTGGCTATTATATAGCCAATTTTTTATTTTGAAATTAAAATTAATAATCTTTTCCAGCTGCGAGAATATTACTTTTATCAAAAGCGTGACATGGAGTAACCCCATAAACCATCCCACAATGAGGACATTTAGACTCAAAAGTTTTCATTATAAAACTTTTTTGACATTCACAATCAATTTTTACAGGTAAAGGCATAGCTTGTCTTTCAAATCCCATCATTCTCAATTTATCAACTATTTGTTTTCCACTTTCAAATTTTCCTGAACATCCTTCATGCATATTAATACCTCCTAATTTATATTTTAAAAATTTTAAATTTTTTTATCTAAAGTGATTTCTTTACCATATCTTAGTTTATTTCTCATATCTTGCATAATTTTATCAAGCTTTTCAAGTTCTGATAAAATACTTCTTTCTTTTTCTGTTACATTTATAATTTTTGTAATTCCACCGTTATTTATGACAATTCTTTTATTTCCCATAAGTGCCAAAATAGGATCATGTGTAGCCATTATTACAATTTTTTCTTCTCCTACTAATAGTTCAAGAGCTTTTTTTCTATCAATTCCGGCATTTTCAATTTCATCTATAAGTACTATAGGAGAACTACTTAATATTGCTGTATCAGCGATCATAAGCGCTCTAGATTGACCTCCACTAAGACTTGTTATAGGTGTATCTTTAGTAAATTTTTCTCCAGCTAATTCATTAGCTTTTGCTATTATTTTTTTTACTATTTCTTCATCATTTTCAACCATTCTACTTTGTGCATGAAGTTTTAAAAATTCATATACAGTAAGATCCATTACAAAGTTCATATTTTGAGATAATTGAGCGACTAGTTTATTACCAGCTGAAAATCTATTTGCTATATCAACAGGATTATTATCTATATGAATAATTCTTTTTGTAGGAGTATCTCCTTGAGCGGCCCATTCAATATCAGCTAATAATCTACTTTTTCCACTACCTGTAGGTCCAACAATACATATTATTTCTCCAGCATGGACATCTATTTTATCATAATTTTCTTTTTCACCGTATTTATTGTATCCTGGATAAATTGTAAGTGTTTTAACTTTATTATCATTCATTCCAAGAAATTCTATCATTTGATTAGTATAATCAATAATATTTTCAATTATTTGATCATCATCAATAGTATTTTCTTCTTTTTCGATTTTATCAATTGAATCAAGGAGTTGAATAAGAGTTAAATTTTCTTTGTTTTCAACATTTATTAGATTGTCTTTAAAATAATCTGATAAAAATGAATATTCTTCCTTTAATTCTTTTATAGTTAATATTTCTAATTTTTTTCTATTTAGCATTATTATCACCCAAATCTATTTTTCTTACATTTCCCATTTGATGTTCTTCCCCAATTCTTGTTTCTCCTAAACAGTAAGAGCAAAGAGCTGAAGGCATAGAGAATCTTAATTTTTTTCCTTTTAATGTTTCAATGTTTTCATTGTTATCGTACATAAGAGTAGATAATTCATAAGCGCCTTGGCCAGTTAATCCATTTATATGTATTGTTTTTGCTTTTGGATTTACTGAATTTACTCTAGAAGCAAATACTTCTCTTTCTGCTTGAGAAACAATATCTCCTTTAGTTATAACAACAATATCAGCACTTTTTAACATAGGACCTATTTTTTTAGGTGTATTTATACCACTTAGATTATCTATTACACATATGGCTTTTATATCTTGAATATAAGGCGAGCATCTATTACAAAGTCCAGCACTTTCTGTAATTAAAATATCTAAATTCTTTTCTCTTCCCCACTGAACGACTTCTTCGATATTACTTACAAAATAATGATCTGGACAAAGAGAAGCAGATAATCCTTTTTTTACAGGAACACCTATTTTTTCATATATTAAATCATCATCTGTATATAGGCAATCAAATTTTACAACGCCTACTTTTATATTTCTCTGTTTGAAACTTTCTATAGTTTTAATAATAACCGAAGTCTTACCTGATGAAGGTGGACCAGAAAATGTAATTAGATTCATCTATTCTTCCTCCTTAATTGAATTATTAAATATTTCTTCACAATAATTAATTAATTTACCGATATCATTTGAATTTATAAAATCCCATCCAAGCCAAATAAATTTATTATTTTCTAATTTATTATCTACTTTAGGATGTGTAGATGGAAATAAACCTTTATGAGATAATATTTCTCCTATTTCTTTTGAAGCAAAAAATTTTGCTATATTTTCTAATTTATCTTTTTTATTTTTTTTAGTTAACATAAATATGGGAGATATAATAGCTCCATCTTCTGGCCATTGAGCTACCATAGGGCCTCCTTGACCTGTCATTTTTGTAAAAAAATAAGGCATAATAGTAACAATAGGTTTTTTCATTTTCAATCTATCTGATTTAACCATTTGAGCAGGATGCATACTTCTAAGCAGAGCTCTTCCAAGTCTTTTAACTCCATCTTCACCATATAATTTATAGATATTTAATAAAATAGCGTTGAATAAATCAAAATCTGAGACAGGTAAACTTATAGAATTTTCATATTCATCTGATAATATATCTGCCCAAGTTTTAGGAAATTTTTTATTTCCTAACTCTTCAGTATTTACCAAAAATACAGCAGGTACAACAGATATTATAGAATAATAATTATTAGGATCTTTTATATTTAAATCTTTAAAATCTTTGTTATATTCAGTTATTCCAGTAATATCTTCAAATATTTTTTCTTTTCTATATTGACCCATTAAGTCATCTTCAAAAAACAAATCAAATCCTGCAGAGATAAATATATCTGAGATGTTTGAACTATCTTTTTTAATACTTTCTTTTAACCAATCAAGACCACTTGAAGCTGCTTTTAAATCTGCAGAGATATTTAAAGAATTTTGTTTTTTAAATTTTTCAAATCCTTCTAATAATGGGACTCTTACCGGACAAGGCAAAAGACCAGTAATTGAAATATCACTATTAGTTTTAATTTCTGAATTTTTTAATGTAATATCTTCAGTTTCAATGTTATGAGAAATAAAATCGTTAATTCCTTCAAGGAATGCATCAACAGATAATTTTTTTAATTTTATACTTTGCTCTAATGATATTTTTCCGACAGTTTTTAACATTAAGTTATTTTCAAAACCTTTAAATCCCTTAGATTTGAAAAACTCTATTGTTTCTGGATATTTATTTAGTATTTCGATTATTGTCATTTCTTTATTTATAAAATTCATATTAAACCTCCTAAAAATATATCTTTTATTTCTTTACAAAACAAGTATACAATTTTCTATTGATTTTTTCAGTAACATAAGTTACTATATAATATATTATAATAAAAAAGTGAGGTATACAATGAAAAGATTAGTTGAAATGTCTATTTTTAAAGGTTTAAAAGAGATAGAAATAGAAAATATTTTAAAAAAAGTAAGATATAATATAAAAAAATATAAAAAAGATGAAGTAATTGCTTTTCGTGGAGATGAAGTTAACAATATGTTAATCTTATTAGAGGGATTTCTTTATACTGAAATGCAAAAAAATGATGGAAAATGTATTAAAATTGATGAATTAAAAAAAGGAGATATATTGGCAAGTGCATTTATTTTTGGAGAAATGAATTATTATCCAGTTGATATTTATTGTAAAAGTGATGCAGAAATATTTTGTATTACAAAATCTGAATTATTAAAGCTTTTTAGATTGAACGAACAAATACTTGTAAATTATTTAAATAATATATCGACAAAAACACAATTTTTAAGCAAAAAGATTTGGTTTGATTTTAAAAATAAATCAATTATAGAAAAATTAAGAGATTATATAAATGAAAATATAAAAGAAGATAATACGTTTAAATTTCATAAATCATTAAAAGATATATCGGAAACTTTTGGAGTAGCAAGACCATCATTATCAAGAACTCTATCACATTTGATAGATAAAAAAATAATAGAAAGAATAGGCAAAAATCATTATAAAATTTTAGATGAAGATAAATTATTAGAAGAAGAATAAATAGATTTTGAAAAACTTTCTTAATTATAGTATAATAGTTGTATTAATAATAATTAATGGAGGTAAGATGTATAAAAATTATTTTTTATTAGGATTTGGATTATCTATTCTAATAACGGGAATTATAATGAAAACTTCTTTAAAAGAAGAAAAAAATATTTTAAAATCTAAAGAAAAAATAGAAAAAATAGAAAAAAAAGAAGAGATAAAAAATAAAGAAGTAGAAAAAACAAAAGAAGAATTTGAAAAATTATTAAAAACAATTGAAGAAATTAATAATGAAAAAACAAATAAAATAAAAGAAGAAAAAAAAGAAGAAATTTCAGAAAAAATATTAACTAAAAAAGAAGAAAAAAAAGATAATCAAATAGAAATAAAAAAAGAAAAAAATATAGTAACGTTAGCAGAACAAAAAGAAAATAAAAATAACGAAATAAAAAAAGAGGTTAAAATAGAAACTAAAGAAAATAAAATTATTTTTGTAGAAAATAAAAATAAATTAATAGATGATTTTTCAAACATATATAACATTAATTTTGGTGATTTGAAAGATAAAGAAGAAATAAAAAATAAGTTAAAAAAAATATTAGATATTTCTTTAATAAGAGTAAAAGATAAAGAATATATAATAAGTAAAGATAAATTTCCAAAAGAAATAGCTATGGATATAAGCAATAAATTAAATAATTTATTTGGAATAGATTCTGTGTTAACAATAAAAGAGTGGAGATTAGTTTTATTGAAAGATAAAAATCTCGATAACTTGGTTAAAGAGCAAAAAAGATTTGAAAAATATATAGAACTTGAAATTTTTGAAAAAAATGGAGAATATATTTTACAATCAAAGAATATTTTCTTTAAAAAAATTGCAGTTGAATATGCAAATTTAATAAAAAATAAAGAAAATATAGATATAATTATTATGCAACAATAAAAAATGAGAGTTTTGACTCTCATTTTAAATATATCTAATTATTACTTCTTGCTACTTGAATTTCATTTAATACTTTTGCTAAAGCGACCCATTCATCTACATATTTTTTATTAAAGGGGTTATTCTTTAGTTCAAATTCTACGGCATTTAATTCTTCTAAGTAAAGTTGTTCATAAAAAGTAAGTTTATCCATAAACATGTAAACCACCTCCAAATATTTGATTATATAAGGTGCTGCATATATATTATATGATAAAAATTAATATTTCCTTTAAAAATTTTTATTTGTTACGATAATTAATATATAGGATAATATTACTTTAAAATTAAAATTTAATTAGAAAGGAGAAGATATGAAAAAAACACTTATTTTATTTATTTTATTAATGGGAGTTCAAGCGTATGCACTGGATATTACACTTAGATTACCTGTTAGTACAAACACAGCGTTTCAAAAATTAAATGAAACGGATAATAGTGCAAGAGTTGGTATAGGTTTAGAAGCAGGCCAAGACTTAATTACATTTTCAATAGGAGCAGGAATGGAATGGGACAAGTCTATTAGCTTAAGTACAGGAGAAAAATTTGCACCAAGATTGACTTATGGATATTTAAAATATAATTTATTTCCAGTAGCATTTAAACCATATTTAGTAGGTAAATACGGCTATATGAGTGCATATAGTAAATCTGGTTTTACATCTCTAGACACAAGTACTTTTTGGGGAATGGGGCTTGGAATAGATATATTTAATTCACAAGGTGAATTACTTTATACAAATTATCCAGTGACAATAAATGGTACAAAAGATACTATGACAATGATTACATTAGCTTTAGGAATAAAAATATTTTAATAAAAAAAGGGCTTTTATTTAAAAAAGCCTTTTTTTATTAAAAAGAGATAGCAATTTGCTATCTCTAAAATTAATTATTTTCTTATTCCTAATTCTTTTATTAAATTTCTATATCCTTCGATATCTTTAGATTTTAAGTAATTTAATAATCTTCTTCTTTTACCAACCATTTTTAAAAGACCTAATCTTGAATGATGATCTTTTTTATGAACTTTTAAATGTTCAGTTAAATGATTAATTCTATCTGTTAAGATAGCTACTTGAACTTCTGTAGAACCAGTATCTTTTTCACTTTTACCAAATTTTTTTACTAAATCTTTTTTGTTTGCCAACATTTTGTTACCTCCTAATTATATTATTATTTAATCCAAGTATAGAGCCGGCAACAGCTACTAAACCTAGAATAAATGCAACAAATTATATCATAATTAATAAATTATGTAAAGAATTAATTTTTATATTTTTTTAAATTTTCAGTAATAGTATCTTTTAAAAAATCTTCTTTTACTTGAGGAAAACCAATAATTTCTTCTAATTCTTCAGACATTATAGTTTCTTTTTCAAGAAGTTGTAAAGAAATTTTTTCAAGAAGTTCTATATTATCAGATAATATTTTTTTAGCGGAATTATATGCATCATTAATAAGTTTTTTAACTTCTGCATCTATTAGTTTAGCAGTATCTTCACTATATATTCTTTGTTTAAACCATTCTCCTTCTTGAGAATCATCAAGCATAAGAGGTCCAAATTTATCTACCATACCAAACCGAGTAACCATAGCAAGAGCCATTTTTGTAGCTCTTTCAATATCATTACTTGCTCCAGTAGTAATATCTCCAAATACAAGTTCTTCAGCAGCTCTTCCACCAAGAAGTGCTTGTAATTCTGATAAATATTCATTTTTTGATTTTAAATATTTATCTTCAGTAGGTAAACTCATAGTATAACCAAGAGCCGCCATACCTCTAGGAACAATAGTTACTTTATGTACAGGGTCTGTATGAGGAATCATCCATTGAACAAGTGTATGACCTACTTCATGGTAAGCTACAATATATTTTTCTTTTTCAATAGTAAGTCTAGATTTTCTTTCAGGTCCAATAGATACCTTTTCACTAGCTTCTTCTAAGTCAGCCATAGTAATAACAACTCTATTATCTCTAGCAGCTAAAATTGCAGCTTCATTTAATAAATTAGCTAAATCAGCACCAACAAAGCCAGGCGTTTTTCTAGCAACTACTTGTAAATCTACATCTTCGGCTAATTTTTTATTTTTAGAATGAACTTTTAATATTTCTTCTCTACCTTTTTTATCAGGTCTATCAACTACTACTTGTCTATCAAATCTACCTGGTCTCATAAGAGCTTTGTCAAGGATTTCAGGTCTGTTTGTAGCGGCAATAACTATAATAGTTTCATCATTTCCAAAACCATCCATTTCTACAAGAAGTTGATTTAGAGTTTGCTCTCTTTCATCATTTCCGCCACCTTGTCCACTTCCCCTTTTTCTACCAACAGCATCAATTTCATCTATAAATACAATACAAGGTGCATTTTTTCTAGCTTTTCCGAATAAATCTCTTACTCTTGAAGCTCCAACACCAACAAACATTTCAACAAATTCAGAACCAGAAATACTAAAAAATGGTACATTTGCTTCTCCAGCAACAGCTTTTGCTAAAAGGGTTTTTCCTGTACCAGGCGCCCCCATTAATAATACACCTTTAGGAATTTTAGCTCCAGCTTTTAAGAATTTTTTAGGTTCCTTTAAAAACTCTACTATTTCTTGAAGTTCAACTTTTGCTTCATCAGCTCCAGCAACATCATTAAAAGTAACTTTTACTTTTTGTGATGTTCCATCTTTTGTTTTAGATTTACCAATATTAAATATTTGAGGACCACCACTATTACTATTTCCTCTATTCATTCTATTTAGTAAAAATATCCATACAACTATAAGCAATATCATTGGTGACCATGATAAGAATATATTAGTTAATAAAAGTGGCATTCTATCAGGTTCTAGAGATATTACATCTATATTTTTTTCATCAATAATTTTCATTAGTTTTTCGTCTTGAGATATTCTATATGTTATCATTTTAGTTTTATATTTTTGTTTAGTTACATCATCATATGCATATAGATAGTCTTCTTTTTCTTCAACTCTTAGAATATTACCATTTTTAAGAGTATTAATAAATTCAGTATAAGATACTTCTTTTATAGTTTGAGTTGTAGAAGTTGATAAAAGATTTGGTAGGGAAATAATAAGGACAATCACAAAAAGAATTAATACAATATTTTTAAAATTAACTTTTAATTTTTTTTCGCTATTTTCATCAGAAAATAACTCTTCTAATATTTTATCTTTATCTTTTTTTGTATCTTCTTTTTTATCCTTTTTTTCTTCATTAGTTTTATTTTCTTTCTTATTCTCTTCTTTCTTATTTTCTTTAGAATCTAATTTTTCATTAGAATCATTAGACTCTTTATTCTCATTTTGAATATCTTCATTTTTTTGAACATCTTCATTTTCATGAGAATTATTTTGATTTTCATAATCATTATTCATTAGTTTCTACCTCCTTAAGTTCGATTATTAAAAATTTTTTAGTAGTTGTGGTAGTCTTAAATTCTTCGCTTAATCGAATATTACCAACACAAACTATTTTATCATTATTAATTATTAAAGGCAAAGAATTTCTTTTATATTTATCAATTTTTTCATTTATAAAGAAATCTTTTAATTTTTTTTTGTTTTTTGAGCCAATAGGGATAAAAAAATCGCCTTTTTTTCTTGTACGAATTAAAAATTCATTATGTAAAATTTTATCTTTATCAATACAAAAAACATTATTTTTTGAAATATACTTATCACTTTCTCTAATAGAAATATAATAATTATTAAATATTAAATTTGAATTAATTTTTAATGTTTTTTCTAAAGAATTGTTATTAAGAATTTTAATATTATCAGAAATATAAAATTCATTATATATTTTATATAATTTTTTTTGCTCATTTAATAAGTATTCTTTGCTACCATTTGAATACAACAAATTAAAAATTTTATTAATTTTTTTTCTGTTATAGGCAATATTATTGTTTTTTAGAATAGTTTTAATAATTTCTTTTTGTAAGTATTCTGGAAAAGATATAAGTTTATCAATATCAAATTTCTTTCCAGAGTTATTTATATAATTATCAATTTCTTTTTTAAAGTATTTATTAATGTCATTTAACTCATCAATTAAAGATATGATTTTATCTTTAAAATTTGAGTTAAATTCTTTTTCAAAATATGGAATTAATTCAAGTCGAATTTTATTTCTAGTATAAATTGATTTGAAATTACTCTCATCAATTTGATATCTCAAATTATTTTCTTCTAGAAATTTTAGAATTTCCTCTTTTTTGATATATAATAAAGGACGAATATAATAATCTCTTTTTACAGGAATAGAACAAAGTCCATCTATAGATGTTCCTCTCGATAGTCGAAACATAAATGTTTCTACATTATCATCTAAAATATGTGCAAGAGCCACTTTATTAGCGCCTATTTTATTTTTTATTTCTTTAAAGAAGTTGTATCTAACTTCTCTACCAGCTTCTTCTTCACTAAGTTTAAAAGAGGTAGCATATTTTTTTATATCTACACTTTTTATAAAAGTAGGAATATTGTATTTTTTACCTAATTCAATAACAAATTGTTCATCTAAATCAGCATCTATTCCTCTTAAGTTATGATTGATATGTGCAAAATAAAGAGATAAATTATATTTAGATTGTAATTTATAAAGTAAATGAAATAAACAAACTGAATCAGGACCACCTGATAATGCAATAATTATTTTATCATTTTTTGAAATTAAATTATTATTTTGTATAGTTGATAAAAATTTATTATAAATTCTCACTATTTTCCTTTCTATTTTTCAGCAATTTGATAATTTATGCTTTTGATGCTAACACCTTGATAATATTTTTTTAATATTTCAATATAATTTTTACCTTTTTTAGCTAATGTATAAGCACTCCACTGAGGAAGTCCTACACCATGTCCAGAACCACTACCAGAAAAATAAAAATAATTTCCTGATGATTTTATTGTGAACATTGTACTAAAAATTTTAGAATAACCTACTATTTGACGCAATTTATCCCCAGAAATAGTAATTGTTTTATCGCCTATAATTTTTACTTTTTTAGCACGCTTACTTTTTATTTCAATGATTTTAATATAAGAGACTTTGAATCCTATTAATTTTGAAAAATCTTGCTTATTAATTTTATAACTCCAATGTCTACGAGGTGATTCTATATCATTTTTTCTATCATCAACACTTCTAAGATAAGGAATTTTACTTCCCCAAACATCTTCACTATTAGCAGTATATCCTCCACTACTAGCATGAAAAAGAGCGTTTATATATTTTCCATTATAAGTAATAACTTGATTTTCTGTCTGATTAATCAAATCATTTATTCTTTTGTTTTCTTTATTATAACCTAAATATACCTGAGAAGTAACTCCATCTTCTACATCATATAAATCAAACTTTTTATTTTTCATTGAATAGAATAAATATGTTCTAGCTGCAACAGCTTGAGCCTTTATAGCTTCGTCAGGAAATGAAAAACCTATTTCTGAAGGAACAACACTATATAAATATTCTTCGGTTCTTACTATATTAATAGGAAGAATATGGTTATTATGCGGTAATAATTCTAATTCGCCTCTATAAGTAGAATATGTTTTTCCATTTTTACTAATATCAAACATTGAAATAATATCTAATTTTTTTATTATTATTTTGTTAGTTATGCTATTTAAAATTTTTATTTTATTATTATAGTAAGTGATTTTTATACTATCATTTTTAGAAAGTATAGAAGTTTTGTTATTATATTTTATTAATAAATTTCCGTTAATAGACTTTATATAAATAGAATTACTTTCAAATCTTTTTAAACCTACTCTAATTAAAGGACCAAAAGTATCTAAAGATAATTGATAATCAAATGAAAATGAAAAAGTTGATAATAAAATAAAAAATAATAATATTTTTTTCAATGTTAAATCTCCTTTATTATTAAATCATTATTATAGATAAAAAGTATCTCTTTTTTCTCTTTTTTATTATTTATTATATCATAATTAAATATTTCATATTCAGTTTTTTTATAAGCTTCTCGTTTAGATTTGAAATTTAAATTATTTAATAATTCATTATATTTTTCTTTATCAGTATTTCTTTTGAACCAATATGGAAAATATCCCGTTTTTCCTATTGAGAGATAATCAAATTTTAAATATTCTATAAAAATATCAATATTTTTAAAAGATTTGTCTAAATAAAATTCATATAAATAATTAAATATAGACACTTGTTTATGAGCGACATTAATTAATTTTCTCTTTTTATAATACTCAGAAATATTTTCATAAAATTCAAAAGGTGAATCATAAAAATTTATTAAGATATAATTTAAAGATTTTAAAAATTTATTAGAATTATAATAAAAATCTAACGCTTTTTCAATATTTTTTAGTTTTACAAGGTCATTAAAAGATATATAATTATTACTTAAGACTTCGTATGGTGGGAAATCGAGATAATTATAATTATATTTACTAACAAGACTCTCCATTTCAGTACCATTTAAAATTTTTAAAAAACCTAATTGTATCATTTCAGCTTTTAAAGAATGAACATAATTAAATGATTTTTTAAATGTATTATAATCTTCTTCAGGTAAACCAGCTATTAAATCAACATGTAAATGTATATTATCTTTTATATCCAAAATATTTTTTTTGAGTATTTCTAATTTATTTGTTCGATGAATAATATTTAAAGTTTTTTCATTAATAGTTTGAATTCCTATTTCAAATTGGAAATATTTTCTAGGAACTTTTTGTAAAAATTTAATAACCTCTTCATCAAATAAATCTACACTTATTTCAAAATGAAAAGTAGTTTTTTCATTATAATTTTCTAATAAAAATTTCCATATTTCTAAATATCTTTTTTTATTAAGATTAAAAGTTCTATCAACAAATTTTACTAATTTTACTTTTTTATTAATAAATTTCATTAAATCAGTTTTAACTCTTTCTAATGAAAAATATCTAACTTTTTTATCAAGTGAAGACATGCAGTAAGCACAATTAAAAGGACATCCTCTTGAAGATTCATAATATAATATTAATGGTGATGTTTCAGATAATTCATTTTCATCATATGGGAAAGGAATTATGTCTAAATTTAAAATAGGTGTTTTATATCCATTAAATGTTATTTTCTTTTCTTTTCTATAATAAATACCTTTTACAGAGTCAATGTCTTTAGTTAAAAATTCTAAAAAAATTTCTTCACCTTCACCAGAAATGATATAATCAATTTCTTTGTATAAATTCATTAGTTTTTCTGCTTGATAAGATACTTCAGGTCCGCCTAATAAAATTTTTGTATTAGGTAAAATCTTTTTTATTTCAATAATTAATTTATATACATATTCACTATTCCAAATATACGTTGAAATAGCAATTAAATCAGGATTTTCTTCATTTATAGTAGTCAAAATTTCGAGTAAATGATTATTTATAGTTTTTTCAATTAAATTTATTTTATAAAAGCTATTTATTTCAATATATTTTTTTATATATCTAAGAGCAAGATTAGTATGTACAAACTTACTATTTATTGCTAAAAATAAAATATTTTTCATTAACTTCTCCTTATCAAGAAAAAATAAGCGTTCTATATTAAAGAACGCTATTTTTGATATATCATTAAATTTTCATTGTTAAATTTTCTATATGTAAAATTATTATCAATTCCATTTAATGTTTCAGAATGTCCTAAAATAAAAAATCCATTAGGATTTAACTTATCATAAAATTTATCGACAATCTCTTTTTGAGTGTGTTTTTGAAAATAAATAAATACATTTCTACAGAAAATAATGTCCATTTTAGGAATACTTGTAAATCTATCAGTTAAATTAAATCTTTTGAAAGTTACTAAAGATTTAAGCTCATTTTTCACAGTAACAATACCATTTTTTTCATCAATATCAAAATATTTTAAATATTTTTTTTCAACATTTTTAATATCTTTAATATCATATTTTCCTTCTTTAGCAATATTTAAAACTTTTTGATTTAAATCAGTACCTAAAATTTTAATATTTTTTCCTTTTAATTCAGGTATTTCTTTCAAAACAGCAGCTATAGTATATGCTTCTTTTCCAGTAGAAGCAGCAGCACTCCAAATATTGATAGTAGAAATTCTTCTATTGGCTAATAATTCAGGTATTACCATTTTTTCTAAAGCGATAAATTGTTTATCATGTCTAAAAAAAGATGTTTCGTTAGTAGTAACTTCATCAAAAAATTTAATTACTTCCGGATCAGACATTGACTTGTTTTTTATTATATTAAAATATTTAGTATAAGAATCAAGTTCTAAATCTCTAAGTCTTCTTCTTACTCTATTTTGTAAGATAGTTTTTTTATTTATTGTATAGTGTATACCACTTCTCTCATAAATATAATCTCTAAAAAGTTCAAATTCTTTGTCATTCATTTCAATTTTGATAATCATTAAAAATTACTTCCTTTCTTATATCTTAGATGTTCTTTATATGTAGTAGAAAAATGATGAACTCTATCTTTGGTTAATACAAAATATAAATAGTTACTATTTTTAGGATTTTCAGCCGCTAAAAAAGATATTTTTCCAGGATTTGAAATAGGTGTAGGCGGAAGTCCTTTATAATAATATGTATTATATTTTGAGTTTATTTTTAGATCTTTTTTAGAAAAATTACTTTTTTGGTAATTAAATAGATATGCTAAAGTAGCACATGATTGAAGTTTCATATTTATATTTAATCTGTTATGAAATACAGAAGAAATCAAATATTTTTCTTTATCATTAGCTGCTTCTTTTTCTATGATTGATGCAAGAATTAAATTATTATAAAATTTATTTTTATCAGGATAATTTTTAGGTGGATACTTTTTTAAAAAATTATCTAAAAACATATTTATAATTTCATTTTCAGATTGTGATTTAGTAAAATAATATGTATCAGGATAAAAATAGCCTTCAAAATTTTGATTTGGTGTAGGATAATAAAAATTTTTTTTATTTTTTAAAATTTCTTCAAATTTTTTAATATCAATTAAATTATTTGAATTTAATCTATTTTTAACCTGTTTTAATGTAAATCCTTCAGGAATAACAATTTTGATTATTTTATAAGAATTTTTAGTAAATTCTTTAAATAATTCATTTTTTGTATAGTAATTATTTAAATTAAAAGTACCTGCTTTTATTTTTTTCGAATCAAAAAAAAATTTAAAAAAAACTCTATCAAAAAAGTTATAATTTATATTTAATTTGTTATATATTTTTTTAATAGTATCATTTGTATTTATTGTAATATTTAATTGATAAAAATTTTTATTATAATAAAAATCAAAATAAAAGTAACCGCTACTTAAAATTAATACAGTAAAAATCAAAAAAAATATTTTTTTAAATTTCATAAATTTCCTCTTAATATTAGATTTTCCTTACATATTATATCATATAAAAATAAAGATTAGAATATTTATTTTTTATTAATATAATAATTTATTGTAATAGCATTTTCAAGTTTTATTTCCATTTCATTTTCTTTAAATAAAAATTCTTCAATTAAAATGTATTTTTCGTTATCTTTATTAAAATAATATCTTCGTTCTAAATTTTTTAATGAGTTTTGCTTAAAATTACTATCAAGAATAAAATCTTGTTTTAGGATTTCACCTTTTTTTTTCTCTATTTTTTTAGGAAAATTATCTATGCTATTTAATATTTCGATTGTTTTACTTTTCATATATTATTCACCTCATAAATATTTACGAGGAAAAATAAAAAATCCTTTAAATTAAAATAAGAAAATCTAAAAAAATTAGAATTTTATCAAAATATATAGAGTGATTAAATAATAAACTTATTTTTTAACTAAACCTATTCCATCTCCAAAAGGTAAAAGAGTAAAATCATGGTTTTGATATAAATAGTCAATAAAATTATCTAGTTTTTTAACAATTGTTTTAAAACGTTTAGGATATTCTTTATATAAATATCCTCTAAACATAATATTATCAATAAATATTAATCCATTTTCATTCAACAAATTATATGAAGTATTAAAAAAATTTTGATATTGACCTTTTGCAGCATCAATAAATATAAAATCATATTTTTTATTAAGTGTAGGAATAATATCTAAAGCATCACCAAGTAATATGTCAATATTATTGTTGTTTGACTTTTTAAAATTAGATTTTGCAATATCATATCTTTCTTTATCTATTTCTAGCGTTGTAATATGACAATTATCGTTTAAGGTTTTTGACATAATAAGTGTAGAATATCCAATAGCACTTCCAATTTCTAAAATATTTTGATATTTATTAGTAGAAAGTAAAAATCTAAGAAATTCTTTAACTTCTTTTGTGATTATTGGAATATTATATTTTTCAGCATATTCTTCTAATTCTAAAAAAAATGTATTTTTTTCATTTAATTTTGAATATATATAGTCGTTTGCTTGCTTTAATTCTTCAAGCATATTAATCTCCTTTCGTTATAAATATTAAGAATTTTTTTTCAATTTAATAATATAAAACGCATCTAAAAAATTATCAAATATATTAATACCGTTATATTTATCTTTGATGAAATTAACATTTTTGGGGATATCAGTTTCAACAACAGAAAAATTAGAATGTGTCTCTAAAAACTTACGTATGTTAGCTGTATTTTCTTCTTTAGTTATAGTGCAAGTACTATAAACTAATATTCCACCCTTTTTTAATTTTTTACTAGCAGAATTTAATATATCTAATTGTAATCTAGCAAGTTCCTCAACATTAGATATTGTTTTATTGTATATAGCTTCTGGTTTTTTTCTAATTACACCAAATCCACTACACGGAGCATCAACTAAAATTTTATCAAATTCACCATTTAATTCATTTATTTTTCTTGCATCATGTAATATAGGATAAACATTTTTAATACCCATATTTTCAGCATTATTTTTAATAAGTTTAATTTTATGTTCGTGAATATCAAGAGAAATTATTTCACCAGTATTATTCATTGATTCAGCGATAACCATAGATTTACCGCCAGGAGCACTACAAGCATCAAGAATTCTATCATCTTTATTAGCGTTTAAATTTTTTGCTGCAATATATGAGGAAGCATCTTGAACTGTTAATTTTCCAGATTTAAATTCATCTGTATTTAATATTTTTCCATCAGATAAATAATATACAAAATCAACTTGCTTTAAGATTTTTATATTTAATTTATTTAATAAATTTAAAAATTCTTTTTCAGTATACTTTAATTTATTAATTCTTATACTTAAGTAAGGTGTTTCTTTTAAAGTTTTTAAAATTTCTTTAAAGTTTTTGGGATAATCGGATTTTATTTTATTATAAAACCATTTTGGATAAGAGTATAAAAGGTACTCTTTTTTATTTAATAATGAATTAAAAATTTCATTTTTTTCACGAAAAATTTTTCGTAAAACACCATTTACAAAATTAGCTACTTTTTTATCATATTTATTTTTTGTAAGTTCAACAGCTTCCCAAACGACTCCTTTTTCATCACTATCCATAAAAAGTCCTTGGTAAAGGGATAAACGGAGTAGATTTTTTAACCAAGGATATTCTATTTTTTTTGTATATGTACGCAAAACATATTCTAAAAACATCTGTTTTCTAATCATTCCGTAAAAGACTTCAGTAATAAAAGATTTTTCTTTTATTGGTAAATTAGGATTTTCCCTAAAATAATCATTTAATGCAATATTAGAATATTTTCCGGCTTCATAGTGAGAAAAAACATCTATTATTCTCTCTTTTATATTCATATAACTCCTTTCAAAAATGTAGATTAACAATAATAATATATTTTATTGCTGTATTCTACAATAAAAAAAGGGTAAATAACCCTTTTTTTATAAATAAATTTTAATCTTTAAATTTTTTTGGTTTAATCCATTCGCTTTTTTTCCCTTGTGTATAATTATTTTCAAATTCTTTTTTGAATTCATAAAAGTTATTATTAAGGATAGCCTCTCTGGCGTTATTCATCATTTTAATTAAAAAATATAAATTATGGTATGTAGCAAGTCTTTGTCCAAGGATTTCACCTGTTTTAAATAGATGTCTTATATACCCTCTTGTATAATTTTTACATACATAGCAATCACAATCTTCATCTAAAGGTCTTGTATCTTCTGAATAACTAGCATTTTTAATCACTAATCTACCATACTTAGTAAATACAGTACCGTGACGCCCAATTCTACTAGGTTGTACACAATCCATCATATCTACTCCGTTAGCAACAGCTTCAAGCATATCAAGAGGCTCACCAACGCCCATAAGATATCTAGGTTTTTCTTCTGGTAATTTTGGAGTAATATAATCTAATATTCTATACATATCTTCTCTAGGTTCACCAACTGCAAGACCACCTATAGCGTATCCTGAAAAATGATCATCCATTTCAGTTAATTCATTTAAGCTTTGATCTCTTAAATCTTCATAGATTCCACCTTGAACTATTGCAAACAAACCTTGTCTATCAGGATTTTTATTTGCTTTTATACATCTTTTAGCCCATCTAGTAGTTCTTTCAAGAGAGTCTTTCATGTATTCTCTGTCAGCAAGTCCAGGAGGACATTCATCAAAAGCCATCATTATATCAGAACCAAGATTATTTTGTATTGAAATAGATTTTTCAGGTGAAATAAAATGTTTTGACCCGTCTATATGTGATCTAAAATTTACACCTTCTTCTGTTATTTTTCTAAGGGCTCCCAAGCTAAACACTTGAAATCCACCACTATCTGTTAAAATAGGTTTATTCCAATTCATAAATTTATGTAAACCACCAAATTTAGCTACAATTTCATCAGTAGGTCTTAAATATAAATGGTAAGTATTCCCAAGAATTATTTCAGCATTAATTTTTTCTAATTCTTCTGGAGTCATTGTTTTAACAGTTGCTTGAGTTCCAACAGGCATAAAAACAGGTGTTTTTATATTTCCATGTGGAGTATTTATCTCTCCAGCTCTAGCTTTTCCATCTTTTTTTTCAAGTTTATATTTAACAGGTAACATCTTTCCTCCTATATATCTCTTTTTACACTAACTATACCTTTGATTTTTTCTAGGTTAGCTGTAAGCCTTTTAAATTGCTCTCTTTCATTTAATTCAATAGTTAAATGAAGTTTTGCATATTTTTCACCATTATTTTTATAGCTATGTGTATTTATACCTAAAAGATTCATTTTGCTTTCAGAAATTAAATTAATAATATCTTTTAATAAATTATTTCTATCAAAAGCAATTATAGTAAAATTAAAAATAAATTTAGTAAACTTGTTTTTAACTATAGATTCATTCCATTTTACGGGGATTATTCTTTCAGGTTCTTTATTTTTTAAAGAAATCAAATTTTTACATGTCTTTATATGTACAGTAATACCTTGACCACGTGTAACATAACCTTCAACATCATCACCAGGTAAAGGAGTACAACATTTTGCAAATCTTACAAGAGTATTATCAGTACCGTTTATAATAATAGCATTATCGTCATTAGATTTTATTTTTTTATTATTTTTATCTAAAATCTCTTCTAAATTATTTTCAATATTTTTTTCTTCAATAGGTTTAAATTTTGAAATAAATGTATCTAATGGAATTCGACCTATACCAATTTGAAAAAGTAAATCATTAAAATTTGGAAGACTTTGTTTTTTTATAAAATCTTTTGCTATATTAGAATTTTCAATATCTTTTAATTTTAAATTATATTTTAATAGCTCTTTTTCAACCATAGATTTACCTAATTTATAATTTTCTTCAAACTCTTGGTCTTTTATCCATTTTTTAATTTTTGATTTTGCACTATGAGTAACAACAATGTTTAACCAATCTCTTCCTGGACCTTTAGCAGATTTAGAAGTAATGATATCTACTTGATCTCCATTTTTTAATTTATAATCAAGTGGAACCATTCGATTATTTACTTTAGCCCCAATACATTTATAACCTATTTGTGTGTGAATATGAAAAGCAAAATCAAGAGGAGTAGCACCATTTGTAAGTTCAATAACATCTCCTTTAGGTGAAAATACAAATACAGTATCATTTAAAATATCACCAGTAACAGTATTGATAAATTCTTCTGATGTTTCAGCTTCGTTTTGCCATTCTAAAATATTCCTAAGCCAAGAATAGATGTTATCTCTACGGTTAGTTTTTATTTTTTCTTTATATGCCCAATGAGCAGCAATTCCTTCTTCGGCGATTTTATGCATTTCATGAGTTCTAATTTGGATTTCAATATATTTTCCATTAGGACCAACAACAGTAGTATGAATTGATTGATAGCCATTTGCTTTTGGAACTGCTATATAATCTTTAAATCTACCTGGTACAGGAATCCAAATATTATGTATTATACCAAGGCTATTATAACAATCCGCTTTTGATTTAACGATTATTCTAAGAGCTGTTAAATCATATAATTCTTCAAAATTTTTGCCTTTTTCATACATTTTTTTATAAATACTATAAAAATGTTTTACTCTACCAGATACTTCGCCTTTTATATCATATTTTTCTAGTTCTATTTTTAAATAATTTAAAACATTTTCTGTATATTTTTCTCTTTCATGTCTTTTACTATTCACAAGCTCTACAATTTGTCTATATATTTCTGGATGTAAATAAGAAAATGCAATATCTTCTAATTCCCATTTTATTTTTGCAATTCCTAGTCTATGAGCAAGAGGAGCAAAAATGTTTAATGTTTCTTTTGCTATACTAATTTGTTTTTCCGGCTTCATAAATTTAAGTGTTCGCATATTATGAAGTCTATCAGCTAATTTAATTATAACTACTCTTACATCTTTAGCCATAGAAACTATCATTTTACGAATGTTTTCATGCTGTTTTTTGGTTCCTTCTGGCAAGTTTTTAAGCTTTGTTACACCGTCAACAAGTTCAGCTACTATTTCACCAAAATTATATATAATATCAGTTTTTGATATCATTGTGTCTTCAATTACATCATGTAATAAACCAGCAATAATAGTATCTGTGTCCATGTGAAGTTCAATTAAAATTTTTGCAACAGCAACGGGATGTGCAATATATCCTTCACCAGATCTCCTAACTTGACCTAAATGAGCTTCTTTAGCAAATTCATAAGCAATCATTATTTTTTCTATATTTAAATTATTACTAGCAGATTTTTTTATAGCAATAAGTAAATCATTACGATATTCCATCTATTCACCACATTTCTTTATCTTTTAAAAAAATAGACGACTCATAAGAGTCATCTCTAGTATTTTAAAATTGAAAATACATTATGTCCATTTAATTTATCTACACCATTTAAATCTTTAAGTTCAATCATAAAAGCTAATTCGTGTATTTTAGCACCAATTTTATCTACTAAATCAATCATAGCTCTCGCTGTTCCGCCAGTAGCTAAAAGATCATCTACAATAACAACAGTAGATTCTTTTTCAATAGCATCTTCATGTATTTCAATAGAGTTAGTTCCATATTCTAAAGTATAATCAGCAGAAATTGTTTTATATGGAAGCTTTCCTTTTTTTCTTACAGGAATAAATCCAGCTCCAATATTATATGCAATAGCAGCTCCAAAAATAAAACCTCTAGCGTCAGCTCCTAATACATAATCGATATTTTTATCTTTATATCTTTCAGTGAAAATATCTATAACATCTTTTAATCCTTTTTTGTTTTTTAATAATGTAGTAATATCTCTAAAAAGTATTCCTTTTTCTGGAAAATCAGGAATTGTTCTTATTAAGTCTTTTAAATAATCAAAGTTTTTTTCCATTTTAATTATATTTCCTCCTAAATATTTATAATATACACTGAATTTTTATTCTACAAGATAAATATAATAATGTCAACCTTATTCCCAAATATTTCCAATATATTTGATATTTTTATCATTGTTTTTAAAATAATCAATTAGTTCTTTTTTTATGTTTGGATACATAACAATATTATCTATTTTATTAATATCAATGTATTTTAAGTCAACCAATCTTTTTTCTTTTGATAATTTTAAAATACCACTACTATATTCTACTTCAAAAAAGAAATTAATAATATGTTTTTCTCCATTTGGATCAATAGCTTCAGAAATAAAAAGTAAATCATTCACACGTATATTTAAATTTGTTTCTTCAATAAATTCTCTTTTTAATGCTTTTTGCATAGTTTCTCCAAAGTCAACTCCACCACCAGGTAATAACCAATATTCTTTTCCGTTTTTTTTATGTTGAATTAACAATAATTTTCCTTCTTTAACAAGTATTCCAGCAACACGGACTCTTGGATTTTTATTCATAATTATAACCCCTTTATAGCTAATATTGTAATATCATCATTTTGTTTATTTCCATTAGTAAATTTTTTTATATCAAACATTAAATTTTCAATTAATGCTTTTGCATTTAGTTGATGGTATTTTTTAATGCTGTCATATAATCTTTCAAATTCAAAAAAATCATTATTTAAACTTCTAGCCTCTACAACACCATCGGTATATAAAAGGAAAACATCATCTTTATTGTATTTTATAATTTCTTTTTCAAAAGTTTCTTCTAAGAAACCTAAAACAGTACCTCCAGCTTGATACTCTAAAATAGTATTGTTTTTAGAATCATAATGTAATACAGGGTCATGTCCAGCATTTGAAAGTTCAATTTCTTGTTTTTCAGTATCTATTTTAAAACAAACAGCAGTAACAAATTTACCATTTAAGTTTTCAGTTATTAAATAATCATTTAATAACGAAAGTATTTTTTCTGGAGAAAATTCATTTAATTTTGTAATAGACATTTTAAAAGTAGTTTTTAACATACTCATTAATAAAGATGCAGGAATACCTTTTCCAGAAACATCAGCAACAATACCAATAACAATATTTTCATTTATTTGAATTAAATCATAATAATCTCCACCAACTGCTTTTGCAGGAATATTTATACCATAGAAGTCACCGTTTTTAGGTTTAGGCATTTCTTGAGGAAATAATCCTGCTTGTATTTGGCTAGCAATTTTTAATTGTTCTTCTTCTTTTCTTCTTTCAATTTCTTTATTTAAAAAGTCGATATTTTGTACAGCAATTGATATTTGATTTGCGAGTGAAGTTAAAAAACTTACATTTGCAGCTGAAAATTCAGTTTCTTTATTAAACAGTATAATTCCACCAATAATTTTTTTCCCATTAAATAAAGGAACTTCAAGGAAATTTTTTAATTTTTTTCTTAGCGTAGACGGTAACAAAGAGAAATTAGGTAAAATTGAAACATTATTTACGATAACTTCTTTATCACTATTTTTAATAAAGAAAAAAATATTTTCCATTCTTGATAAAAGTTTTAACTCAGCTTTTAATTTAGAATCTTCAACATTTACTATTGAAGAGATTTTGATATTATTATGTTCGTAATAATATATTAATCCAAATTCAGCTTCGATTATATCAAGTGAAAGTTCAATTATTTTTTCTTCTAATTCTTTTTTGTTATATATCTTACCAATTTCTTTTCCTATTTTATATAAAGTTACGATTTCTTCATACATGTTAGAAACTTCATCTAATTGAAGTTCTAAATTATTTTCAGTATCTTTTAATTTTAAATTTAATTCTTCGATTTTTTTATCTTTATTTTTTAATTTTAAATTTAACTGTTTAACAAAATATAAATTATTTAACATATGTGTAAATCCTTGAATAATAGCTTTTGTCAATTTAAATAATAATTCGTTTTCTAAATATTCAGTATCATTTATATTTATGAAAATAACTCCATGATGGATATAATAATTTTTCAGATTAATTATAAAATTATAACCACTATTATAGTTATAATCTGTATGAACAAAAATTCCACCTTCAACATTTTTTATTTTATTTAATATTTCTTCAGAAATTTTATTTTCATTAGATAGTTGACTAAAAATTTTAAAGCCTTTAGAAGAATTTTTATAGATAATTAATTCTTTTATATCAAAATATTTTGTTAGATAAAAAGAAATTTCATCAAAGAACATATCATAACTGATATTAGAATTCTCTAAGGCATCAAAAACTTGTAAAAAAGCATCTAATAAAAAATCTTTTTTTAATATCAAATTATTATCTTTTGTTATTTTATTTATAAGTTTATTAGTTTGTTCTTCTTGAAAATTTAATTTTTCAGATTTATTTTTATCTAATAAATTATAGTTATATTCTAGTTCAGTTATTTTATTAAATAATTTATCTATTTCTTCGTTAAAAAAATATTCAAATGTACTAAAACTATCAAAACCAAAAAAATTTCTATATGTAGAATTATTTAAATTAAATTTAGAATTTTTATTCATAATTTTTTTTATTGTTTTTGAAAAATAGAGTCGTAATCTGAATTCATATAAAAAGTAGCTAAAAGTAAGAATAATTATTTGAAAAAAATATAAAATAATATAATTTTGAATATAAAAATCAAAATTATTTAATAATTTTAATACAATAATTGGAGAAAAGAAAAAAAGAATAAAAACAATAATTTTATATAGAAAATTAATTTGCCAATCTTTCATTATTTTTTACTTCCTTTTCTATTATTTTTTTTAATTCTAATATTTTATTATCAAAAATATCAGCTTCCGGTGTTAAATTTATATATTTTTTTGCATTAATAAAATCTTTTTCATTGACACAAATTTCAGTAATAAAAATAACCATTTTTTTATTAACACCGTTTTTTATGAAATATTTATTTATAATATTTAATGCCTTTTTATATTCATTGAGATTATAATATAAATGTTTTGAATATAAAATATTAATTTCAATATTATTAGGGTATTTTTTATATAAAGATACTAATAAAGGATGAAGATTTGAAATATCATTTAATTTAAATAAAATATTAACTAAAAAAATATCAGTATCAATATTATTATTTTTAATAAGAATAATATTATTATATGCATTTTTATAATCATTTAAGGCATAATAAGTTTTAGATTTTAATATTAAAATCTTATCATTTAATTGATCATAAGATATCTTTTTTAAATAATTTAAAGCTTTTATATATTTTTCTTGATTATAATATAAAACAGAAATATTATAGAGTGTATTTGTATCATTAGATTTTTTTGATAATATTTTTAAATAATAAGATTCTGCAGTATTATAATCCTTTTTTTCGCTATAAATAAAAGCAAGGTTTTGTAGTGTAAAAATATTTTCAGAGTTAATAGAATAAGCATCTAAAAAACTTTCAAGTGCAACTTGTATTTTATTTTGATTAAGAGCATTAATTCCCTTAACAATTGCATAATTTTCTTGTTTTTTATTGTTTTCTATTTGTTTTTTTTGTGAATTACTACATCCAAAATTAAAAATAAGTATAAAAATAATAAATAGTTTAAATAATTTATAATTCATCCTTTGTAATTTTCACCTCTTTATAAGTAGTAATTAATTCTTCAGGATATATTGCGCCTCCAGATATAATAAGTTTAAAAGCATCTTCAATTTTCATATTTAAAAAAATTACTTCTTCTACTTTAGTCATAATAAACATACCAGATGTAGGATTAGGAGATGTAGGAATAAAAACACTACATAATTCATTTTTATTTATATGTTCATTATCAAAAAAACCTTTATTATTAGTTAAGAATCCAATACTATATATACCTTTTCTAGGGTATTCAACTAAAACAACCTTTTTATAAGATTTAAAATCTTTAGAAAATAATATATTATTAAATTGTTTAAATGTAGAATAAATTGGTTTTACTAAAGGTAATTTTAAAAAAACATTTTCAAAATAATTAATTCTTTCATAATTTATAAAATGACTTACAAGTAAACCAATTATATAAATTATAAAAAAGACTAATGCAAGAGATAAAAAGTTGGATAAAAAGTATTTTATAAAATCAATATTTATTCCTATATCATTTTCTAAAAAAATATCAACTAAATATTGCATAGGAAGTATTTGTGTAACTGTATGAATAGTTAACTTAAAGATAAATGAAAGAATATAAATAGTTGCAAATAAAGGCAATGTAGCTATTATCCCCGCAATAAAGTATTTTTTTAAATTGTTTCTTATTTTGTTATTCACCTTTATCACCATTATTTTCTGTATTATTTATAATAATAAGAACTTTATCAATACGTCTTTCTTCAATTTTCATTACACGAATAGTTAGATTTTCATGAGTTATTGTGTCATTGATTACAGGAATACGCCCTAATACTGAATAAATAAATCCACCTAAAGTATCATAATCATCAGAAATAGGGATATTTATATTTAACTCATTATCTAAATCGTCAATTGAGATCATTGCATTAACAAGATATTTAAAATCGCTTAATTTTTTAATTAATTCACCATCGTCATCATCATCAAATTCATCACTTATTTCACCAATAATTTCTTCAATCAAGTCTTCTATTGTAACAAGACCATTAATTCCACCATATTCATCGACAACCATCGCAATATGAATATGTGCTTTTTTAAATTCTTTTAATAAAGCATCAAGTTCTTTTGTTTCTGGAACAAAATATGCTTCTCTGACAAAATTTTTAATAGGTAAATGAAGTTTATTTTCTTTTATTACAGTAAATAAATCTTTTACGTATATAATTCCTATAATATTATCTATTTTTTCTTCATAAACAGGTATTCTAGAAAATCCACTATCAATTATATCATCCCAAATATCTTTTACAAGTTGAGAACCTTCTAAAACAAACATAGTAGTTCTAGGAATCATTACTTCTTTTACAGTGGTATCACCAAATTCAAAAATAGAGTGTATCATTTCTTGCTCTTCTTCTTCTAAAACGCCTTCATCTTTTCCGACATTAACAAATGATTTAATGTCTTCTTCAGTAATTAAAAGTTTATTTTCGTTTAATTCAACACCAAAAAACTTACTGATAATTCTAGAAACAAAAATAAGTATTTTAGTAATAGGATAAAATATTATATTTAAAATATTTATAATTCTTATTACAGACATAGAAATTTTTGTAGGGTAATTTTTCGCTATAATTTTTGGAGTTATTTCACCAAAAATTAATATAATAATAGTCATTATTCCAGTAACCAAAAGTATTGTATTAGCATTATTACCAATTAAAGTAATTGCTAAGGTAGTAGCAATTGATGATGCTAGAATATTTACAATATTATTTCCAATTAATATTGCAGTAAGAAATTCATTTGGTTTTTTTAACCAAAGTTTTAAAAGTTTTGCAATGTTTTCATTTTCTTCTTCGACTTTTTTTAATTTTGTCATCTTAAATCCAGTAAGAGCAGTTTCGGATGACGAAAAAAATCCAGATAAAATTATTAAAAAAATTAACAATATAATCTGACTATACGTTTCCAAGTAAGTACACCTTCCTTAATTAAAAAATATTTTTTATTAAATCAGTTTCAGTAATTATACCTTCTAACGAATCATTATTAAAAATTAGAGCGTAAGTATAATTATCTTCAACTAGCTTAGTAACTAAATTTTCTAGGGTATCATTAATATCTATTTTTAAAAAATTTGTTTCCATAATTTCTTTTGCAAGATAACCAGTAAGTTTATTTAATCTTTCTTTAAAAGATTTACTATTTGGTAATTGTAAAATTAAATCATTTATAGCAATAACAGGTGGTAGTGGAGCAGATTCTTTTTTTATCAATAAAGATTTTCTTTCAACAACACCAATAACTTTGTTATTTTCAATAACAGGCAATTTACCTATATTTTTTTCTTTCATTATATGAATAATTTCTTTTATATTTGTATCTGAAGATATAGTAACTATATTTCTTGACATAATATTAGTAATTTTTTTCATTTTAACCACCTCAAATTTAAATTAATTTTAGCATAAATACAGTTAAATTACAAGAATATATACACTTTAAATTATTCTGTTTTAGGAAGCACATATATCCATGTTTCAGTAGCTAGAGAATAATTAATAATTTCTTCTTTTTTAAAAAATAAATTAATTTCACGAATTGCACTTTCTTTTGAATCAGAAGTATGGATAACATTTTTTCCAGTATCAAGAACATAATCTCCTCTAATAGTTCCCGGAAGGGCATCAGAAGGTCTTGTAGCTCCTGCCATGGTTCTAACTATATTAATAACATTTTCACCTTCTAAGACCATAGCAACTACAGGTCCAGCAGTAATTCCTTTTACCAATTCATCAAAAAATGGTTTTTCTGTATGTTCAGCATAATGTTGTTTTGCAAGTTCTTCACTCATTTGCATAAGTTTAAGTCCTACTAATTTTATTCCTTTTTTTTCAAATCTAGTTATTATTTCACCAATTAATTCTCTTTGTACTGCACCAGGTTTTACCATTGCAAAAGTTTGTTCCATATTTTTTCCTCCTTAAGATAATAATTTAAATTAGTTATAAAATTATTATTTGATAATGATAATTTTTATTTTATAACTTTTTAATAATAATTTACTTATTTCTATTTTCGATAAAAAATAAAATATCCTTTTTTATAATTAAGATAAATTTATATTATAAATAAAAAATATTGTGAAAATTGCAAGTTTAATTGCACACATCTACCCCTATGCTAATTTAACTAATTTTTCTTCATAAACTTCATTTGGACTTTTAAATCCAAACATTTTTCTTGGATAGTTATTCATCCATCTTTCTATTTCCTTTACTTCTTCTCTTATTAGGTCTTTAAAACTACTTCCCTTCTTTAGAAATCTTCTTATCAGTTTATTCTGATTTTCATTACTTCCTCTTTGCCAAGAACTATATGCATTTGCAAAATATTGTGTCGTCCTTTTTTTCTTACTTCCTGTATATGATTTCTCTATCCTTTCATAATCTAAAAACTCACTTCCATTATCTGTTGTTATTGTTTTAAATTCTTCTCTAAAGTTTTTTACTCCTATTTTTCTTTCTAATCTATCTAATGCTTTTATTACCGAGTTTTGTGTTTTATTAGCCAATAATTCTATTATTT
>sequence08
TTCGTAAAATTTATTTATGGTGCCGCTTGCCGGAGTCGAACCAGCCACCTACTGATTACAAGTCAGTTGCTCTACCAGATGAGCTAAAGCGGCATTTTTGCACCAGTTAATTATATACTAATCAATATTTTTTGTCAATATTTTTTTTATAAAAAATTCCTCTATTTTCAATTACTTTTTTTATTTCTTTTTTATTTTCTAGATATTCTAAATATTTATTAAGTTCTGTATCCTCTATTTTCAATATTTCTTTCATATCTTCAAATGTTGAAGGTCTTCTATCTATTAATTCTAATATAAAATTTTCTATATTTTTTGTATATCCAAAAATATCCTCTTTAGTTTTATACTTTTTTATAATTTCTACATTTTTCAATTCTTTAGAAAAATACTTTTTTATTTCTTCTAGTCTATTCAATTTCATTGCTTTTACCCATTTTTCTGGCGCAGGTCTATCTAAACTATTTAATTGTATTCTATTAATTTTTATCTCTTTTAAATATTCTATAAATTTATCCAATTCTTCTTTTGTGTCATTTAGTCCTTCAATAAAAAATATTTCTAACCAAATCTTACCTTTATATTCTTCTGATAACTTTTTTATACCTTCTTTTATATCTAATAATTTTATTTTTGATGACGCTCTATCAATTTTTCTAAATACGTTTTCACTTATAGCATCTAATGATGGCATTATTATATCTGCTTGCATAATTTCTTCTCGAATATTTTTTTTATTTAATAAACTTGAATTTGTTATCACACATATTTTAGTATTAGTAATTTTTTTTATCTCTTTTATTAAATATCCTATTTCAGAGTGAAGAGTTGGTTCGCCATTTCCTGAAAATGTGATAAAATCTAAATAATTTCCTTTTTCTAAATAATCTTTTATTTCTGCCAAAACTTCATTAATTGGGGTATATTTTTTTCTCTCATTAAATAATTTGTCACTTGCACCACATTCACAATAAACACAATTAAAATTACAAATTTTTTCTTTTAATAAATCTACACCTAATGATATTTTTAATCTTCTCGATGGAACAGGACCAAAAATATATTTATATTTCATATTATCACCTACCAAGCTACTCTATATATTTCTTCTATCGTTGTTATTCCTTGCTTAACTTTTTCTTCACCATCTTTTTTTAAATCAACCCAACCATTTTTTAATAAATTTTCTCTAATTTCAAAATTACTTTTTTCGTTTAAAATATCTTTTTTCGTTTGATCATTTATTAAATAGAGTTCATGTATACTTGTTCGTCCTTTATATCCCGTATGAAAACAATATTCACATCCTTCTCCGTGCCAGTAAACCTCGCCGTTATCTAAAACTTTTTCTGTTTTACAATACGGACATATTCTTCTTACTAATCTTTGGGCTAAAACTCCTATAAGTGAAGATGTTATTAAATAAGGCTCTATCCCCATATCAATAAGCCTTGTTATCGAACTTATTGCATCATTTGTATGAAGTGTAGCAAATACTAAATGCCCTGTAAGAGAAGATCTTATTGCTATTTCTGCTGTTTCTTTATCTCTTATTTCACCTACCATTATTATATCTGGATCATGTCTAAGTACTGCTCTTAATCCTTCTGCAAAAGAAAAACCTATTTCTGACTTTACCTGTATTTGAGATACACCATCCATCTTATATTCTACTGGATCTTCTATAGTTATTATTTTTTTTTGCCCATCATTTAATTCTTTTATCGCAGAGAAAAGTGTCGTTGATTTTCCACTTCCTGTTGGTCCCGTCACTAATATTATTCCATTTGGTTTATGTACAAGCTTTCTAAATTCTTTTAAAACATCTTCTCTCATCCCAAGATATTCTAAATTCATTTCATTTTGTTGATTTGCAAGTATTCTTATAACTATACTTTCACCATTTACAGTAGGTATAACTGAAACTCTTAATTCCTGATTTTCTTTTCCTATTTTTATACCTATTCTTCCATCTTGTGGAAGTCTTTTTTCTGCTATATCCAGATCTGACATTATTTTTATTCTTGATACTACCGCTGCATAAACATTTTTTATTGAAGGAGGTACCGGTACATTATGAAGCATTCCATCAATTCGATATCTTAATAAAATATCATTTTTTATAGGTTCTATATGAATATCTGTTGCCCCTCTTTTATATGCATCTAATAATAATTTATTTACAAATTTTATTATTTCTGCATTTTCTTCATTATCAGAAATGTCAAATTCCTTTGTAAAGGTCACAACTTTATCTGTATTTGTAAACATTCCTGAACCTATTCCAAAATATTTAGTTGTCAATAAAAAAAATTCTTCTTCGCTAATCGCTACTGGTGTTACCATCTTTCTAAGCATAGATTTAATTTTCATCATTATTTTAATATCACTTGGATCAACCATTGCTAATATTAATTCTTTATCAGTTAATTTTATTGGAAATACTTTATTTTCATGTATTGTTTTTTCTTCTAATATTCTCAATGTTTTTCTATCTATTTCTATTTGCATTATCTCTTTACTTGTCAACATAACCACACCTCATAATTTAAAATTAAACCTCCTGTAATGGAGGTTTAATTATTTATTTAATTCTTCTAAAAGATATTTATTTTGAGTAAGCATAAGTTTAACTGTTATTTTTCTAAAAAATTGATACCATTTAAATTTCATATCTTCCATAGCTTTTACAGAATCTCTTATTGTTTTTTTTAAAAATTCTAACTCTTCAAAACTCATCATTACTGGATCGTTATTTTTCTTATTACATTCTGTTTGTAAATAGTTTAAATAATCAATAACTCCTTTTGTTTGAGGATTTGTTGCATATATTCCCATTTGTTTTTTCATTTCAACAATTAATCTAGCAAGATATTTTTTACTATTTTTATCTATATTAACCTTGTATTTTCTTTTCCCTTTTCCTATTTTTTGAATATTTCCTAACATACTCATTTGACTATAACTATTCATCATATCAGTATTTTTTAGTTTGTTTGTATTCATTCTGTTTTTCATACATACCCTCCATATATATTTTAATCAATATATTTATTTATTTTTTTATAAATCAATTCATATGAATTGTTTTCACAATTTGTTTTTTCTACATAAATAATATTATATTTTAATTTAATAACTTTATCAAGTATTAAAAATAAATTTTTTAAAATATCTTTTTCGTCTCCATTTTCAGAAAAATAAAAATAATTTTTATTATGTTTAAATTCTTCATATTTTCTCATTGTAATATATGCATTCTCTTGATTAAATTTTATATCTTCTTTTTTATTAAAAAATTTTATATTTATATTTATTTTTTTTGTTTTTCTCTCTTCTTTTATAACTTCTACTTTTCCTATTACTTCTTCAATTTCTTTTTTACTAATTATACCTTCTCTTATAATTAATGGTTTTTCTTTTGTCATATCTATTACTGTAGATTCTACTCTTTCTTTTGTAGCTCCTCCATCAATTAAATATTTTACTCTATTATCATTTTTAAAACTTTCAAATACCTGTTCTGCTAATACTGGACTTATCTCACCACTTTTATTAGCACTTGTTGTAGCTAAGCCTCCACCTACAAATTCAATTAAATCTATAGCTATTTTATTTAAAGGAATTCTAAAACCAATTGTTTTTTCTTTAGAAGAAATTATATCTGGAATATTTTTATTTTTATTTACAATAATACTAAGTGCTCCCGGCCAAAATTTATTAATTAATTTTTTTGTTTTTTCTGATATATTGTCTGTATATTTATAAAGCATATCTTTATTTGATAAAAGTACTATGATTGGTGAATTATAAGGTCTATTTTTTATATCATATAGCATTTTTAAACTATTTTCATTTTCAATAAAAGCACCTATCCCATATACAGTATCTGTTGGAAAACATACTATTTCACCTTTTTTTATTTTTTTTGAAATTTTTTCTAATTTAGCACTAGATATTTCTTTTACTACTTTTAACATTTTTCTCCTTTTAATATTTTATTCATCAAGCTTTATCTCTCTTAAAGTTTTAGCCGCATCTTCTGGAAGTACTGGATTAATATAAAATCCTGTCCCCCATTCAAATCCTGCAATTCTTGTAAGTTTTGGCATAATTTCTAAATGCCAATGAAAAACATCCTCTGTATTTTCATGAATATTTATTGGAGAAGTATGTACTACCATATTATAATCTACATCTCCTAATGCTCTTTTTATCCTAGTTATTACATTTTTTAAGATTTTCGCTAATGATCCAATCTGTTTTTTTGTTATTGTACTAAAAAAGGCACTATGCTTTTTAGGAACTATCCATGTTTCATATGGTACTTTCCCTGCAAAAAAATTAAAAGCAACAAACTCTTCATTTTCTTCAATAATACGCTCTTTATCTAATTGTTCTTGACTTAAAATATCACAATATACACATCTATCTCTAAATTTATAATAGTCTTTTGCTCCTTTAATTTCTGTTTCTACTCTCTTTGGAACAACTGGTGTAGCTATAAGTTGTGAATGAGAATGCTCTAATGAGGCACCCGCTCTTTCTCCGTAATTTTTAAAAATCAATATATGCTTTATCTCTTTTTCTTGTGATATATCTATATATCTATCTCTATATGCCCATATTATTTTTTCTACTTCAATATTTGTTAAATCTGAAATACATCTTTTATGATCCTCTGTTTCTACTATAATTTCATGTCTTCCAAGCCCATTCATCCTATCATAAATACCTACTCCTTTTTTTTCTAAATTTTGTTGAGGAGTAAGTGCTGGATACTTATTTTCTAATACTCTTATCCACCAATTTGGTGAATTTGGCTCTCTATTAGCTGTTTTAGGATAAGCTAATATTTCATCCCCTGATTTTTTTTCATTCCCTGAACAAAAAGGACAATATTTATCTTCTTCCTTTTCTTTTTTTTCTTTTTTTACTTTATAATCATTTGGTCTGTAGGCTCTTTCTGGTGAAAAAATAACCCATCTTTTACTTACAGGATCTTTTCTTAATTCAGACATCTTAAAACCTCCAAAAATTTTTAAAAAATGGTAGTGTTTACACTACCATTATACACAATTATTTTTGTTTTACAAATAAAGAACTTAATGATTCATTATTTATTACTCTTCTTATCCCTTCAGAGAACAATTTTGATACAGATAATATTGTCACTTTATCAATTCTTTTATCTTCTGAAAGTTGAATACTATCAGAAATCACTACTTCTTTTAATGGTGATTCTTGAAGTCTATCAATAGCAGGTCCTGAAAATACAGCATGTGTACAACAAGCGTATACTTCTTTTGCTCCTCTATCCATTACTGCTTGAGCCCCATTTGTAATTGTTCCTGCTGTATCAATCATATCATCTATAAAAATAGCTATTTTACCATCTATTTCTCCTATAATATTCATTACTTCTGATTCATTTGGTTTTGGCCTTCTTTTATCGATAATTGCTATTTTACAATCAAGCCAGCTCGCAAGTCCTCTTGCTCTTTTAACTCCGCCTACATCAGGTGATACTACTACTATATCATCGCCTGTAAATCCTTTATCTAAAAAATATTTTGCTAAAATCGGTAATGCTTTCATATGATCTACTGGTATATCAAAAAATCCTTGAATTTGTTGTGCATGTAAATCCATAGTTATTACTCTAGTTGCTCCAGCTGTAGTTAATAAATTTGCTACTAATTTTGCTGTAATTGGTTCTCTTGGACTAGCTTTTCTATCTTGTCTAGCATATCCATAGTAAGGCATAACAGCTATAATCTCTTTTGCAGATGCTCTCTTTAATGCATCAATAAATACAAGAAGCTCCATAAGATTTTCATTTACAGGTTCTGAGGTTGATTGAACTACTAAAACAGTATCCCCCCTTACAGTTTCATTTAGTTTAACATAAACTTCTCCATCCTTAAATCTGACTACTTTTGCATCACCAAGCTCAATCCCTAACTCATGTGCTATTTTAGTAGCTAATTCTTTGTTTGAGCTACCGGAAAAAACTTTAACATCATTAGTCCTCATTCTTTTTTCTCCACTCCTTTATATTTAATTGTTTTGCTCTTCCTAATCCTAATGAATATTCTGGAACATCTTTTGTTATTACAGATCCTGCTCCTGTTATAGCATTATCTCCAATTACTACCGGTGCTACAAATTTTGTATCACTTCCTATAAATACATTTTCCCCAATAATAGTTTTATGTTTATTTTTACCATCATAATTACATGTGATTGTTCCTGCTCCAAAATTTGTATTTTTTCCTACTTCTGAATCACCAATATAAGTTAAGTGTCCTGCTTTCACCCCTTTTTCTAATGTTGATTTTTTTACTTCAACAAAATTTCCAATATGTACATTTTCTTTTAAATATGCTTTTGATCTAAGGTGTGCAAAAGGCCCTATTGTTACACCACTTTTAATAATACTTTCTTCTATCACCGAGCTTTCTATTTTTACATCATTTTCTATAATACTATCTATTATTCTAGTATTTTGCATAATAATTGTATTTTCACCAATTTCTGTATTTCCTTCAATAATAACATTTGGATAAATAACAGTATCTTTTCCAATTTTTACACTTTCTTCAATATATGCAGTTTTAGGATCTATAAAAATAACTCCCTCATTCATTAATTCATTATTTTTTCTCTCTCTTAATACTTTACTTGCTTCAGCCAATTGTACTTTTGAATTTACTCCTAATATTTCTTGATTATCTTCTAAAAGATAAGACTCTACCAATTCATTATTATTAACTAATATTTTAATAACGTCTGTTAAATAATATTCACCTTTTTCATTATTATTATCTATTTTTTCAAGAGAAGAAAATAATTTTTTCGAATCAAAACAATATACTCCACTATTTATCTCGTTAATTTTTTTTATATCTTCACTAGCTTCTTTTTCCTCTATAATAGCAATTACTTTATCATTATTTTTTACTATTCTCCCATATCCAAAAGGATTTTCAACCTTTGCTGTAAGAATTGTAGCTGATGCATTTTTTTCATTATGAAATTTCACAAACTGTTCAATAGTTGTATTTCTAATTAAAGGAGTGTCTCCACAAGTTACAATAACTGTTCCTTCAAAATCTTTTAAACTATCTTTTGCTTGCATAATAGCATGTCCTGTTCCTAATTGTTCTTCTTGTGTTACATGTTCTATATTAATATTTCTATTTTTGAATTCTGAAATTATTAATTCTTTTTTATGTCCTAAAATAAGAATATTTTTATCTATACCAGCTTTTTTTAATTCATTATCTATCTTTATTACCATAGGTATTCCATTTACTTTATGTAGCACTTTTGGTAACTCTGACTTCATTCTTGTACCTTTTCCAGCAGCTAAAACTAAAGAAACTATGTTCATTATTTTCCTCCAAAATACATCTTATTTATAAATTTTTACAAAAAATTATAACATAATTATATAATATTTTCAAATGCTTTTAAAATCCCATTTTTTACTAAAAACATTTTTGTTTTAAAAATAAAAAGACATTTACTAAAATAGTACATTCGTTTATTAAATAATTTATTTTTGTGTATTTATAAATTTCAATGGCGAACAATTCATATAATTTTTAAAAACTTGTGCAAAATATTTATAATTATTAAAACCTAGCATATCTGCTATTTCATATACTTTATATTTCCCACTATTTAGTAATTCTATTGATTTTTGTATTTTATATTTATTAACAAAATTATTAAAAGTTATTCCCGTTTCTTCTCTAAACTTTCTACTCAAATAACCAGAGCTACAATCCAATTTATCAGCAATATCTTCTATTGATATTTTTTTATTATAATTTTCTTTTATATACTCTATCATTTTTAATATTCGTTTTGAAATCTGTTCATTTGAATACATATAATAATTTATATTTATAATTTCTAAATTTTCTTTTTTATTTTCTATTTTCTCCTTTATTTCATTATAAATTTTTTTATCTTTGATTTTTATTTTTACTTTTTCTATTATTTTTTTTAACTTTTCTTCATCAATAGGTTTTAATAAATAATCAAAAACTTCAAGATGTATAGCTTGTTTTGCATATTCAAATTCTGAATAACTCGAAATTATTATTGTTTCAAAATCAAATTTTTTTTTTGCTTTTTCTATCATTTCCAATCCATTTATTCTAGGCATTTTTATATCTGTAATTACAACATCAGGAAGTAGTTTATTTATTTTTTCTAACCCTTTTTCACCATTTTCTGCATCTCCAATTACTATACACCCCATTTCTAACCAATTAATTGTGTAAATTAAACCTTTCCTAATTATAGATTCATCTTCTACTATTAATATTTTAATCATTTATTTCATCTCCATAAACATATATTAATGGAAGTTTAATTTTCACTTCTACTCCCTCATTATTATCATTTTCTATTCTATTTCTAATAGTTATTCCATATTTTTTCCCATAAACCAATTTTATTCTTCTATGTACATTATATATCCCTATATGATCAGTTTTATTATCTACATTATTTAATATATTATTTATTTCTTTTAATTTTATTTCATCAATAAATTTTCCGTTATCTATTATCTTTATTATTAAATTATTATTTACTTTATAACTTAATAATTCTATTATCAAATTATCTTTATGTTCAAAGCCATATTTTATACTATTTTCTATAAAGGGTTGAATTATTAATTTAGGAATAATACTTCTTTCTGTATCTTTTTCTATATTTATACTATAGTCAAGTTTATTTTCAAATCTATATTTTTGTATAATTAAATAATCTTTAATATATGTTATATCCTCTATAAGAACTATTTTTTCTTGCTTATTATTAATACTATACCTAAGTAAACTTGATAAACTTACAATAACTTTTATAGCATTTTCAGGCGATATCTTCACCATATATTTTATTGTTTCCAATGTATTAAATAAAAAATGTGGATTGAATTGAGATTCTAATAATTTTATTTCTACCATTTTATTTCTATGGATTTGTTCCTTGTTTTCATTAATTAATTTATTTAATCTATCTAACATTTCATTAAAATAATCTGCTATTATCTCAAATTCATCATTAGTTTTTATATTTATATAAGTCTTCAAATCTCCGTTTTGGACTAATTTTATTCCATATAAAAGTTCATCCACTGTTTTACTTTGATTTATTGCAAGTTTTTTTGCTATCATTAAAAATATCATTATTAATAATATAAAAATCATACTCATAAAAATAATCCCAAATAAATAAAAACTTTTTAAATAACTCAAAGAAGTTAATGAATAAACATAAATATTATCATTAAAAATATTATTTTTATAATAAAAATATTCATTTTTACCTATTTTTACAATATTTTTTGTTTTACTAGTTAATTCTAATTTTCCTAAATTATTTATCAATTTATTATTTGTAGAAATAATATTATTATTAAATTTATCAGTGATAACTAATGCTTCAACTTTATCTGTATATATAATACTATTAATATCTTTTTCAATTAATGAAAATATTATATAAGCAACTATTTCATCTTTTTCTTTTATTCCTTTTCCTATTGAATAAACAGTGTTTAAATTTTTAGTTAATTGAGAATCATTTTTAATAAGAGTAATCTCACTTGAGTTTACTTTAATTTTATTAACAGTTTTATTTAATTTATATTTTTTATTATTATACTTTGATTCTTTCCAATCATTTGTAATCAGTATATTTTTATCTTTATCTAAAACATAAAATATACTTCGAATTTTTCTTGAATTTATAAATTTATATAAATCTGCAAAAATTTCTTCTTTATTTTGAGTTTTTTTGATTAATTTTCTTAATCTAACATCATTAGATAATTTATTTATTTTAGATTCATAACTTAAAAATTCATCTTGTAAAATATTAGATATATTTTTATTTTTATTTTTATTATTTACTTTTAATAATCTAAAATTATAATAAAAAAATACACTATAAAAAAACACTGAAAAAAATAAAGTTGGAAGTAATGCATAAAATATAAATTTTTTTTTAAGCTCTTCTTTAAAATATTTTCTCTTTTTTATATCCATATTTCTCCTAAGTGATTTTATCTATTTTCTAATAAAATTTTATTATACCGATTTAAAATATTTTGTTTATTCTTTAAAACTTCATCTAAATTATAAGATATAATTTTTATATTACTTTCACTCTTTAAATTAATGTTTTTTACATCTTTTCTTATACTACGTCTATTTAAATCTGTTGATATAAATTCTTGTATCTCTTTAGAAGTTAAAAAATCAATAAATTTTTTTGCTACTTCTATATTTTTACTATTTTTAATTATCGCTACTCCATCTGGAATTATTGCTGTTCCTTCTTTTGGATATACTATTTTTATAGGTGCTCCATTTTCTAAATATCTAGCTCCTATTTCTTCAAATGTACAACCAATTATATATTTTCCTTCTACTACTCCTTTGTATACATCTGATGATCTATTTAAAATTTCACCATTCATATTTTTAATTAATTTTCTTATATAATCCCATCCTTTATTATTATTTCCGCCCATAGCATATAATTGATTAATTAAATGTTCAAAAGATGATGATGAGGTTTCTGGATTTGCCATAGCTATTTTCCCTTTTAACTTGGGATTTAACAAGTCTTCAAATCCTTCTATTTTTATATTTCCTATTAAATTTTTATTTATCATTAATATACTTGGAATAGCTGTAAATCTAGTGATTTTACCATCTATATTTCTATATTTTTCTAAAATATATTCTTCATTTTTTGAAATATATTTCTTAAAATAATTTTTTCCCCCACTCAAAATTGATAAAGAACCACCCCACATTATATCCACTGAATTTTTATTTTCTTTAATTAATTTTAATAATTCTAAACTACCTTTTGATACAATTTTTACATTTACTTCTTCTTTTATTTCAAAACGATTAATTAGTGGTTCTATAAAAGATAATGGATGAGGTGAATATATAACCAAGTGATAATTTTTTTCTAATGTATTTTTTTGATTTCTTTTATTTCTAAAATTTTGATAAGAAATAAATACAGTTACTATTGTTAATAATATTAAAAATAATTTTTTCATAATAATTTTCTCCATTTACAATTTTAATTAATTATACTATATTTAATATAATAAAAAAAGAAAACATATTTATAATATAAATAGTTTTCTTAAAAAATTATTTCCCGTCTATTCTTACATTATTTATTTTTAATATCCCTTCTACTTTTGATAATTCATTTATTAAATTTTCTATATCAATAAATTTAGGCATCATTAAAGAAAATTCTGTTATCCTTTTTGTTATATCTCCATTATAACTTTCTCTAATATATTTTTTATCATATATTTTTATTCTTTTTATTTCTAAAAAATTTTTAATATTTTTTTCAATATCTTTATTTAATTTATATTCTATAATGATTTTTTTAGGTATTCTTTTTTCAATATGTCTAACTTCTATTCTTTTTAACAGCATAACAACTCCTGTTATTATTATCGCTGTCCCTAATGCTAATGTAAAATATCCTAATCCTACTGCAATACCTAAGCAAGCAGTTAGCCATAAAGTGGCTGCTGTTGTTATTCCTCTTACATTACCTTTATTTTGAATAATTGTTCCTGCTCCTAAAAATCCTACTCCACTTACTACTTGTGCTATCAATCTTCCTGTGTCTATTTTTATTCCTTGAGATAATTCAGGATAATTTATTAAAAAATTTACTGATTCATAACTAAGTTTTATCTGAATCATAGAAATAATGGCAGCACCCACACATAAAACTGTATGTGTAATAAATCCTGCAGGTTTATTTTTTATCTCCCTTTCAAGCCCTATTATAGCTCCAGTTATAATAGCAACTAAAATCCTTGCAAACATTTGATCAACTTCTAAATTATACATAATTTACTCTCCTAAAATATGTGTAATGCTTTAGTATCAAAAGAAAAAGAAAGCTTATCATCTACATCATGTATTTTTCTATTAATTGGATTATTATACGATATTTCTAATTTTTCACCAAAAAATTCTACTTCATATTCGTGATGTTGTCCCATAAATATTGATTTTGTTACTACCCCAGTAAAATCTTCTCCAAATATATCTATTGCCTCAGGTCTAATAACAATTCGTACTTTATCTCCTGATTTGTAGTTCTTATTACTTTTTATTTTATACTCTACACCATGAATATCAACTTCTAAGTATTCTTCTATTCTTTCTTTTACAATTCCATCTACTATATTTGCTTTTCCTATAAAATTTGCAACAAATTCATTTTTAGGTTTTTGATATATTTCAATAGGATTCCCCACTTGTTCAATATTTCCAGCATTCATTATAACTATTTTATCAGATAATCCCATAGCTTCTGATTGATCATGTGTTACATAAACAGACGTTATTCCAACTGTCTTTTGAATTCTTCTTATTTCATCTCTCATATGTATTCTTAATTTCGCATCTAGGTTTGATAATGGTTCATCAAAAAGAAGTATTCCTGATTCCATTACAAGTGCTCTTGCTAAAGATACTCTTTGTTGTTGCCCACCAGACATTTGAGAAGGTACTCTTGTTGCAAAATCTTCCATTTTCATAAGTTTTAATATTCTACTTACTCTTTCTTTTATTTCATTTTCTGGTAATTTTTGAAGTTTCAGTCCATATGCTATATTATCAAATACATTCATATGAGGAAAAAGAGCATAATTTTGAAATACCATTGCTGTATCTCTTTTATCTGGTGTTTTACTTGCTACATCTTCATCACCTATATAAATTTTCCCTTCTGTTGGCATTTCAAATCCTGCTATCATCCTAAGTGTAGTTGTCTTACCACATCCAGAAGGTCCTAATATTGTTACAAATTCACCTGGTTCTATATCTAAATTTATATTATTTACAGCTACTACTTTTTGATTTTTATTTGTTATAAAAGTTTTATTTAAATTTTCTATTTTTAATCTTTTAGCATTTTTCATATTATTTACCACCTTCTCCATTATTTATATTAACACCCATTCTTGACAATGTAAATTGCATAATAGATACTACTATCCCGACAATAATAATTAATATTGTTGAATATGCTGATGCAACTCCTATTTTACCTACATCAATTTGACTCATAATTGCAGCAGTTAATAAATTATAATTTGCTGATACAAGAAAAATTACTGTACTTACTAAAGTCATACTTCTAATAAAAGTATATGTTAATCCACTAAAAAATGCTGGCTTTATCATAGGAACTGTTACTGATGTAAATACTTTTTTACTATCTGCTCCTAATACATTTGCAGCTTCTTCTATTGATGGATCTATTTGTTGTAATGCAGCGATTCCTGAACGCACTCCTACTGGCATACTTCTCATTATAAACGCTATTATGAGGATAGTTGCTGTTCCTGTTAATACTAATGGCTTTGTATTATATGAAAGAACATATCCTAATCCTATTACCGTCCCAGGAATAGCTATTGCAAGCATTGTAGTCCCTTCTACAAATGTTTTTCCAATAAATTTTTTTCTAACTACTAAAAATGCTATTATCATTCCTAAAATTCCACTAATTGGTGTAGCAACTAAAGCTAACATTGTAGTATCTATAATAGGTTTCATTCCTAATCCAAATACATATTTATAATGATTTAACGAAAATGAATAATCTGCTCCCCATAATTTTATGAAAGAACCAATTGGAACTAATATATACAACAATCCTACAAAAATACTAATTGCAACTATTATATAATATACCGGCTTTACTATTTTTGGTGAATCTGTTAATTCTCTTTCTCGCGAAACCTTTCCAGTAACTGTAACATATGATTTTGTGCTTACATAATATTTTTGTATTGTAAATAAAATTATAGATATAATTAATAAAATAATTGCAAGTGCTGTTCCACCACCAATATCATAATTCCCTATACCTTGAAGATATATTTGAATTGCAAGAGTTGTATAATTTCCACCTATTACCATTGGATTACCAAAATCTGCTATCGATTGAATAAATACTAATAAAAAAGCATTTGCTAATCCAGGTACCATAAGTGGTAAAGTGATCGTCTTAAATACATTCCATCTCGATGCTCCTAAATCTCTAGCAGCTTCTTCTACTGAAGGATCTATACTTTTTAATAATCCTACAAGCATTAAATATGCGACAGGAAAAAATGTCAGTGTTTGTACAATTATTAAACCTTTTAATCCATATACATCAAAATCTCTTATTCCAAAAATTCCTCTTGTAATAAATCCATTTCTTCCAAATAATAAAATTGTAGACAGTGCTATTACAAATGGAGGAGAAATCATAGGTAAAATTGCTACTGCATTAAATATCCCTTTATTTTTTATTTTTAAATATGCTGATGCATATGCAAATAAAAATCCAATTAATGTAGAAATCGTACTCACTATAATTCCTAGAACTACTGTATTTTTTATTATTTCAAGTGTTGAATCGTTTTTGAAAATATTTTTATAATGCTCTAAAGATATTTTTCCATTATAAAATATACTTTCACTTAGAATTTTTATTAAAGGATATAAAATAAATAAAAAAACTAAAATCATTATTGAAATAATAGTTATCATCAATATTGGATCTCGCATATTTTTTTTGAAGTTTTCAACTTCATTTCTTATTAGTATATTAATTTTACTGTCCATTTATTACTCCTTTCATTTTGTTTCTTAAAAAAATCCATGTGTAAAACATGGATTCTTTTTAAGAAATTTTATTATTTAGTAGGTGCTTTAGTTTTTGTTGCTTTACTAAATTTTTCTACTAATTTCCCTCTATTTTTACCTGCCCAACTAAAATCATAATCAATTAATTTAGTATTTTTTAGTACCATTGCTTCTTTTGGTGGATTAGCATTTGGATTTGTTAAAAATTGATAAGATCCAACTTTTTGTCCTAATTCTTGTGCTTTTTTAGTTAAAGCCCAGTCAACAAATTTTTTTGCTGCTTCCATATCTGGTCCATTTTTTAATACCGCTACCGCTCCTATTTCATATCCAGTACCTTCAGCTGGTGCTGCTATTTCTATATTTTTAAATCCTTCTAATCTATATTTAATTGCATCATGTAAGAAAGTAATTCCAATAGGAATCTCTTTTAATCCAACCATTCTTCCAGGAGCTGTTCCTGATTTTGTATATTGACGAATTTGTCCATTTAATTTTTTCATATATTCTAAACCTTTTTCTTCTCCCATAAGTTGAATTACAGTAGAAAGCATAGTATACGCAGTTCCTGATGATCCCGGATGGGCTGTAACAATCTCACCTTTAAATTCTGGCTTTAATAAATCTTGCCATGATTTTGGATAATCATATCCTTTTTCTTCAAACCATTCTCTATCCATTACAAAACCTAAATATCCTATATATATACCTGTCCAGTATCCATCTTTATCTTTAAATTTATCTGGTATTATTTCTGCATTAGGTGATTTATAAGCTTCAAGTAACCCTTCTTGTTTTGCAGCTATAAATGCATCTGCAGGTCCACCATACCAAATACTAGCAGTCATATTATCTTTTTCTGCTCTTATTCTAGCTAACGTTTCACCGCTACTCATACGAACAAAATTTGTTTTTATTCCTGTTTCTTTTTCAAACTGTTTTACCGCTGCCATTGCATGATCTTCCATTAATCCTGCATATATTGTAAGAGTTTTTTTCTTTTTAAATAATCCCCCAGCAAATGACATAGTTGACATTAATGCTAATAATAATAACAATGTTAATCCTTTTTTCATTTTAAACCTCCTCTTTTTATTTTATTACTACTTCCTCTATTATATATACTTTATATTTTTTATAATTAAAATCCCAAAATTCTGTTTTTTTATCCAAAATTCTGAACTGATTGTTATAATTATATTCATTTTACTTTTTCTTTATCTCTATTTTAAAAAATCAAAAAAAATAAAAAGAACCTAAATAAATAGGTTCTTTTTTGTATAGTTAAAATATTTAATTATTTCACTACTACGTTTTCTGCTTGAGGTCCTTTTTGTCCTTGAACTACGTCAAATGACACTTCTTCTCCCTCTTCTAATGTTTTAAATCCATCTTTTTTAATTTGAGAAAAATGTACAAATACATCATTTCCTTCTTCTGATGTGATAAATCCAAATCCTTTTTCTCCGTTAAACCATTTTACTATTCCGTTTGCCATAGTAATACTACCTCCAAATTTTTTTAATTTAATTCTTCAAGAGCTTTTATTGATTTTGGAAATACTACTACTACATTCATAAATTTCCATAAATTCATTTTACTTCTTTCGAATCACTTAAATAAAGTATACCATACTTCCATATATATTACAACCTTTTTATTTTTTATTTTAATATTTTTTTACATTTGAAAAAATCTTTCTATTACTAAACTATAATTTTCCTTGTTTATTCTATATATTTTAACATGTTCTCCTTTTTGAAATATTTGTAAATAAATATTGTTTTTCTTTTTTAATTTTTTTAATTCTTCTTTTAAAATACTATATTTTGTAGTTTTATCTTCTAATGATTGCAAAATTAAAATTGGTACTTCTATTTTATTTAAAAGATAACCTAAATATAATTTTTTTAAATTATTTCCAATAACTATATTAAATAAAAAAGGTGCATATTTTATATAAAAATTAGATAATGGTAATTTTTTTACTCTATCAATAATTCTCTCTTTTGAATTACTTAGTGGACTATCTAAAATAAGAGCTTTTATTTCAATATCCTTTTGCTTTAATATATTATAATATTTTTCTATTGCATATGCACTTCCAAGAGCCCCCATAGAAAATCCATATAAAACAACTTTTGTTTTATTAAATCCATTTTTCATGTAATTGATTGCTGCAAAAATATCTTCTTTATAATAATATCCTAATGCAGTTAATCCCTTATCAGAATCTCCACTTCCTCTTAGATCCGGCATAAATATAGCATATTCTTTATTTAGTCCTTTTTCTCTTATAATATCTAAATATTCCAATACTACTAATCTATTTGATGTCCTTCCATGTAAAAAAATAATTACTTTATCTGATCTTTTTTCTTGTGAAGGAATATACCATCCTTTTAATCTTTTCTTATGTGAACAAAATACCACTTCTTTATAATCAAAACCATAATCTTGCGGAGTTTTTTTATCAAAGATCCCATAATCCTCTCTTAATATAGGATCAGAATAGACTTCTTCTAATCCTATGTAAACTGGCTTCATAATATTTTTTAATATCATTATACTACTTAGAATAATAAAAATAATAACACTTAAGATAAATAAAATAATAATAATCTTCATTTTACTATCACAGGATATTTTCTTTCCTCATAACTCTTTACAAGCTTATAAATATTGTCTGTTTTAAATTCAAAACTCATTCTTTCTCTCCTTTCTTTAGTAAAATTTTCTTTTAAATTTTTTATATTTGTAATAAAATCTAGTTTACAATTATTTTTTATATAATTCAAGTATTTTCTTCCATTTCCTGTAAATCCCAGTATTTTAATATAATCTAGTTGATATTCATCTTCATACATACCTATCAAAATAGATATAAGTATTCGTTTTATTCTACTTGTTGTATATCTTTTTGTTTTTATATTTTCTAAAAATTCTATAATATTTTCACTTTGTAAAGCTACATTATATATTCTATTTTCAAGCCCTTGTTCTATATCTTTTAATTTTTTTAATTTTTTATAATTATTTATAATTTCATATCTTATATAAGGATAAAAATCATCTAAAGTCACTATTTTATCTAGATTTTTTTTAATTAAATTATAACAATTTCCCGGTACAGTTTCTTTTATTTTTTCTATTTCATTGTTAATTATTAATTTTCTTATATTAGTAGCCGAAGTAATTTTTTCTCTTATTTCCTCCCCATAAAAATCCACTTTTTCTCTTTTTATAGTTTGAAAATTTATTTTACTCTTTATTTTTTCCCCTGCTTTTATATATTCTACTCCTAAAATGTTATTTGGTTTTAATTCTTTTAAAATTCCATATTCGTTTAACGCTTCATTAAAGGCATTTGGATACGAAACACCTGTTTTTAATCTATTTTTTATTAAATTTTGAAAATTTTCATTAAAGTGAAGATTTGCTATTTCTTTAAGTTCATTAATTTCTCCAGCTTCTGAACCAAATATAATAGTTTCTACATTTAAAGCATCTAATATCCTAACAGCTCCTTCTGCAAATCCTTCTGCACTTTTAATCGAATAAAAAACAGGTAACTCTACAACAATATCTACTCCATTTAATAGAGCCATCTCAGTTCTTACCCATTTATTTAAAACTGCTGGTTCTCCACGTTGTAAAAAATTTCCACTCATTACAGCAATAATAATATTTTTTCTATTCTTTTTTTTTGCTTTTTCTAAATGATATTTATGCCCATTATGAAAAGGATTATATTCAACAATTATTCCAGTAGCTTTCATTATTTTCACCCTATTTTAGATTTTATTATTACTAATTATTATATCATAATTATTTTAATAATAGAACAATCTCTATTTTTTTTTTTATTAAAATGATATAATTAATTATAATTTTTATATCAATTTATAAAAATTATTTAAAAAATTAAAATGCTATAATTAATAATTTTAATCAAAAATTAGGAGGAAAAATGTTAATTGGATTTGATATAGGAAATACACATATTGTAACAGGAATATATACTAAAAATGCTAAACAACTTACTTCATTTAGAATAGCGACTAACGCTAATTTAACTGAAGATCAATATTTTTCATATTTAAAAACATTATCTGATTTTAAACATATAGATTTAAAAAAAATAAATAGTGTTGTAATCTCATCTGTTGTACCTAATTTAACTAATATTTTTAAATTTTTAAGTATAAAATATTTTGATACAAAACCTCTAGTTATTAATTCTAAAATTAAATTACCTTTTACTTTTTCAAATAAAATAGAATCACCTAGTGCAATGGGTGCTGATAGAATTGTGGATATATCAGAAGCGATGTTTAAATATCCTGATAAAAACGAAATAATAATTATAGATTTTGGAACAGCTACAACTTTTGAAATTGTTAAAAACAATACTTATTTAGGTGGATGTATTTTACCTGGAGTAAATATGTCTATTGATGCTTTATTTTCAAAAACTTCAAAATTACCAAAAGTAAGATTTGAAAAACCTGAAACAGTACTCGGAAGAAATACAATAGAACATATTAATACTGGTATATATTATGGCGCTATTGGACAAATAAAAGAATTGATTACTCAATATAAAGCACATCTAGACTCTCCATATATAATAAGTACCGGTGGTGTTGGTAAAATTATTAGTCATGAAATAGATGAAATAGATGAATATATTGAAACTTTAGCAGTTGATGGTTTATATTCTCTATATCAATATAATAAAAAAATCTAGTGAAATACTAGATTTTTTTTATTTTGCAAGCTCTATTAATTTTTCTGTCATAAAACTATTTAATTCAAAATTTTTATTTATATAATAAATTAATTCTAATGCTGATTCCTTACTTTTATTATATCCTTGCATAAATTTATTTACATTTGATGAAATCCCTTGAAATTTTATATTTTCTTTTTCAATAATATTATAAGAAAGATGATTTTCTTCTAATATTATAGCTAATTCTAACAATCTATTTACTGCATAAATCTGAATAAAACTAAATGCTGGTATTTTATCACCTTTGTTATATTTTGCTAGCCCCAAGTATATATATGTTATTAATTCTCCTATTTCCCAATCAATATTTATATTATTGTTTTCTAAACGTTCTATTTGAAATTTATTAATGTCAAATTTATTTTTTATATATATAATTCTTCCTTCTGGTAAAATCATTTCTTCTATTTCATCTAAATTAAATATAATAAATTCTAAATATATTTTATCTTCATACATTACTTTATATCCATTTTTTCTATTTTTAAAAGCATATATCACTTTTGATTCACAATCTAGCCAAGATATATTTTTTAAAAATTCGTTTTCGTTTTCTTTTACAAAAATTATAAAATCAATTCCTGTATATTTATTAAATTCTTCTAATTCTAAACCTGTAGAATTCATCCATATAATCGCTTCGCATTCACTATACTTTTTTAAATTATTTTTTATTTCATCTAATCTTTTTGCTAATCTATCTTTAAACATTTTTATCCCCTCCAACTCTCTATTATAATTATCGTCATGTTTAAATAAAATAAAAGTTTTAACTTAGGTTTTATAATAATTATAAGTCTTTAAAAGTAAATAATAGTATTAAATATACAATACAAAATTCCTCTTTAATATAAATATATATAATTTAAAAGAATATTAAGAATATAATTGATATAATTAACAATTTTTTATTTTTAAAAAGGAAATTCTTTTATTTTTAGTAAACTTATATTAAGAAAAATTTTGGAGGTACCTTATGAAGAAAATAATATTATTTTTATTTATAGCTTATAATCTATTTGCAAATAATTACATAATAAATTTAAGAATTAATAACATCTATAAAAATAAAGGGAATATTTATCTTAAAATTTTTAATTCAAAAAAAAGTTATAAAAGAGATATTCCTTTAAAACAGTTTATTTTATCTTCTGATAATAATGAAATTTCCAAAAAAATAACTCTACCCAATAATTATTATTTATTTTCAGTCTTTCAAGATATTAACAATAATAAAAAATTGGATAAAAATTTTTTAGGAATTCCAAAAGAGCCTGTTGGACTTAGTAATTATAACGGTAAAGGTATTCCCGGAGGCTTTGATAAATTAAAAATATATATTGATAAAAACAGTACTATTGAAATAAAGCTCAAAAAAATATAAAGACTGCTAATTTAGCAGTCTTTATTTACTATATATAATAAATTTATATCTCAATTTTAAATGCAAATGTATGCATATTTACTTCTTGTGAACCTATATATGGTCCAACTTCTTTTGTAAAATAAGCATAATCAATTAAAAGCGTTCTGAATAATTGTGTTCCAAAACCATAAGTTGGATATCCTTGATTTAAACCTACTCTAAAATCAAAATCAAAAGCTTTATTATTAATTAACGCTATTTCCGCTCCTGCATGAAGTTTTTTCCAAAAATTAGTATCATCGTATCCATTTCCATCAAGGTCTTTATTTAATAAATTTTGTATCTCTACTGTCCAAAATATATTTTTTTCATACCAGTTCATTCCTCTTTCTTCTGGAGTAAATTTATTACTAATTGCTATAGAAAGATTTAATGGAAGTTTATCATCTTCTTCTATTTTTTCTTCATTTTCATATTTTGTTACTTTTACACTATTAATAAAATCTTTTAATGTAAATGCATAATTTAATTTCTTAGTTTGCCATACAGCACCTAAATTTGTACTAAATCCAGAGTATTCTGAATATCCTAATAATGAATTTTTTTTATCATCACTAATATTATCATCACTTAGTTCAAATAATCCTGATGAGCCTAATGAAGCCTCCATAGAAGTAGCTGATACCATTCTAAAAGATAGTCCCATAGAATATTGATTATTTTTACCTATCGATTTTGAAATTCCTAATGGCACATCTAAACTTGTGTTCATATCTAAAACTAACTCTGGAGAACTTGGTTTATTTACAAGAGCTATTTCATTTGCATTTACATTTCCAAATGCTCCTACTCCAAATCCTGCTCCAAAAATTCTACCTGTATACGAAGCAATAACTCCTGAGATATCTGCTCTTATTGCTTTATTATTTATCTCATTTCCATCATTATTTTTACCACTTGTATTTGTTCCATCTAAATAATCATTAAGAATTTTAGGTACATCATCTTCATTTGCATTTGATATAGCATCCATCATATTTTGAAGTGCTTTTGCTACTTCAAAAGTTTCATTTCCTGTTCCAATATTTCCACCTAAAAAGCTTAAATGCCATTTATCTATAAATTCTAACATTGCTGGATTATATATTAATGACATATCACTTTTTTCAGCCAAAATTGTAGTTCCCCCCATTGCATTTGATTTTACTGTTTTATATGATGCAGGGATTACTTCTGCAAATATCGATGTCGCTGATATAATAAATATAATTAAAAATAACTTTTTCATATTAATTGACCTCCCCTTTTTATTGTTCTGTTGCTACTCCAAGCTGATTTAATAATCCTTCATAGTTAGTTTGTTCTGTTGTATCATTTATGCTATCACTAAACGTAATTGAGCTTATTTTTTCTAATACATTATCAAACTCATCTACAACATCATAAAAATCATCATAATTATCTTTTAATAATTTTATGTTTACTACTTTACTTGGATCTTTAGCTGATAAATTACCATTTTGGTCTTCTGTCACTCCTAACAACATCATAAGTTTAGCTCTTAAATTTGTAAGTGTTATTATAACTTTTGGCTTGATTTTCATCCACGCTAATTTATCTTCATCTGTTAAGTTTGAATATTTTTTAAATATCCATTTATCTTGAGTTTTACTCTGATCTTTGTTTGCAAAAACATCTGTTATTTCTATAGCTAACCATACTCCTCCTGTTACCATTTCAGCAGTATATTTATCAGTATAATTAGGTATTATTTCTTTCATGTTTTTAAATTTTGTTATATCTTTTACCAGAGCTTTCATAAATTCATCTAACGCACCTTGTAAATATGCTTTTTTATAATTATGATTCACTTCAATTAAATCAGCTATTGAAAAATCATCATTACTAGATGTATTTGCCACTATATTCCCTGCTAAATTTGCATTCCCTGTAAAGCTATCTAAAACATCTGTAGTTTTTAAATTTCCTTGTCCCATTTTACTTTCTGCTATTGTTGTTTTAGCTTCTGTATACTCTTTTGCTTTTGATATATTTTTATTGATTAAATTTTCTAATGGTTTAGAAATATCTTCATATACTTTTTTAGCACCTTCAATTGCTACAGCTGAATTAGTAGTTGTAGCTATAGCTTTTACCATATCTTCTGTATTTAATGTAGTAATATCATTTATCGTTGCATTACTTATTTGTATTGCACTTAAGCTAGTTACATCAAATTTCACTTTTGAAGCTACTTCTTCACTTTCATTACTAGTTGCTCTCATATCACTATCGCCATTGATAGTTTCTTCAGCAATATTTACTGATTCTGCAAAATCTCCTTCTCTTAATGCTTGCTCTTGTTTAAAGGCTTTTACTTCCTCTGTATCTTTTGCTTTATCAATTGACTCAAACATATTACATGCTGTAATTAGCAAAGAAAAAGATACAATTATTAATAATTTTTTCATTTTAATTCCTCCTTTTTATATATTATAAAAGAATTTTTAATATCTCATCAATTAAGACCTGTTATTAATATTATACTACATTTATACAATGCTTTACTTTCTTTTTAAATGTTTTATTAAAATGAATTTTTAATAATTTTGTAAGGTAATTTTTCAAATATACAACTTACTGACTTTCTAAGATGTATCCTTTTTATAGTCTCGGCAAAAAGTGGTGCAACTGAAATAATTTTTATTTTATCATTATTTTTTATATATTCATTTTTTACACTATCTGTTGAAATTATTTTTTCAATAGGGCTATTTTCTATTTTTTCTAATCCTTCTTTAGTTAACAAAACATGTGATAATACTGCATAGATTTTTTTAGCACCTCTTTTTTTTAATTCATAAGCTAAATCTATTAAAGTCCCTCCTGAAATAGTAAAATCATCCGTAATTACTATATTTTTCCCTTCTACATTACCTACAATATCTAATATTTTTGCATTTTCTAAATGATCTCGTCTTGTTTTATCTGCTATTGCTATTGGCAAATCTAAATATTCAGAATACATTCTAGCTTCTTTTGCAAATCCTGAATCTGGAGAAACAATCATTAAATTATTTAAATTCATTGTTTTAATATATTCAGATAATAATGACATAGCGAAAAGATGATCCACTGGTTTTTTAAAAAAACCTTGTATTTGAGGGCTATGTAAATCCATTGTAACTACTCTATCTGCTCCCGATACTTCAATACATTCAGCACAAACTCTAGCTCTAATCGATACTCTTGGCTCATCTTTTTTATCACCTTTTGCATAACTAAAAAATGGAATAATCGCTGTTACCTGTTTTGCACTTGCTCTTTTAAATGCATCCATCCAAAATAATATTTCTGTAAATTCATCATTTGGATTCATTCCTATTGATTGAACTAAATATACATCTTTATCTCTTACCGTTTCTTGAATTTGTACAAAAATATTTCCTTCAGAAAATTTTTTTACACTTGATTTCCCTAGAGTAGAATTTAAATATTTACACATTTTTTCTGCAAACTCTTTTCCTGTACTACCTGCAAAGATTTTAATATCTTTTAATTCATTAATCAAAGATATTTCCCCCTTTTTATTTTAGTTAATTAAACTATTAATCTCAATAATTTAAATCATTATATTTTTTTATTAAGAAAATTCTTTCCTTTTTTTATACAGTATATAAAGAATTTATTAATTCCCTATATTTATTTAATATTTTCTATACCTCTATACTATTTTCCTCTAAAAAACAAAAAAAAGCAAATTGAATTATCAATTTGCTTTAAAATCATTATTTAGTTACTCTTTCTACATATTCTCCCGTTCTAGTATCTACTTTTATTATATCCCCAATATTTACAAATAAAGGTACTTGTAATTCATATCCTGTTTCTATTGTAGCTGGTTTCATTACTTTTCCTGTTGTATCTCCTCTAAGTCCAGGTTCTGTATAAGTTACTTCTCTTTCTACAGATGTAGGTAATTCTATTCCCACTGGTTTTCCTTCATAGAAAAGAACATCTATTACCATTTCTTCTACTAAATATTTTGGAGCATCTTCTAAATCTTCTTTTCTTAATGCAATTTGATCAAATGTTTCTTGATCCATAAAATTATAGTCTCCATCCATTTCATATAAAAATTGCATAGATTTTTTATCTAATCTAATATCATCAAATTTATCTCCAGCTTTAACAACTTCTTCTTTTATTTGTCCTGTTATAACATTTTTTAATTTAAATTTCATAACTGCAGCATTTCTTCCAGATTTATTAAATGTTGCTTTTAATATAAAAAATACATCATTCCCCATTTTTATAATATTTCCAGATGAAAATTCTTGAGCTGTTTTCATTAAAAATTCCTCCTAAATTATTTTAAATTTTGCTCAATAAAGAGCATCAAATTATCTATTAAATTATGTTTTTTAATACTATTACTAAATTTCAAAAAAATTTTTCTATCAATTTTAAAAAAATCATCAAAATATACATCATTTCTATCATAATTATTGATTTTTCTCAAGTTATAATTATACATTATTTTTTTATATATTTCAAATTCTTTTTGTGGAAAAAATTTTGAAATGATTTGTAAAAAACCGCTTATCTTATTTAAGTGTTCTAGTTCTTCTTGACAATATGCATGCCACAAAAAAGGTTTTCCTGCAAGAATTGCTCTTACAAAACTTTCTTCTCCTCTTACTAAATTATAGTCTGAAAAATAAAGAACTTTATCAAAATCCTCTTGAGATAAATAATTCATAAAAATTAAATCAATATTATCTATTTTTTTGTCTAATCCTCTAAAATATTTTTGCGTTTTTTCTCCAAATAGTAATAATGTATAATTTTGTTTTTGTTTTTTTAGATACTTCATTAAATTATCAAAATTAAATTCATAAGTAAATATTGTAATAATTTTATTTTCAATATTTATATCTAATTTTAATTCATTATTAAAAAAATATTTTTTTGAATAAATAGGGATTTCAAAATCAGATATAATTCCTCCTGTTCCTTCTTCTATTCCAGGCATAAAAAAATATTTTTTTATATTATTATATCCCGAATAAGACGGCATTAAATGATAATCTTTTGTCCACTCTTCTATATTTAAATATTCTAAATTTATTATCAGCTTTGTTTTATTATTATTTTCAAAATAACTTTCATCTATATCGCAACCAAATGCTTCTATAACTATTTCTGATTTCTCAATTTCAAAATAATCCACCTTATTTATATCTATATAAAGAATATTTCCTAATTTTTGTTGTGTTTTATTTATAGAAATATTCTTATTAATTTTATTAAAAGATTTTAAGTTATTTAAAAAAACTTTTATTTCTAATTTATCATTTCGTTTATGCAATTGTCTCGCTAATCTAAAGACAAATCCTATATCCCCATAATTATCTATTACATTACAAAATATTGCTACACTTTTCATCTTTCTCACCTTATTTTAGTATATCACAAACTCAAAAAAAATATAATTTATTTTATATAAAAAATATGTTATTATAATAATATATAAATTTTATAAAGGCGGTGGGTTATATGGTTTTATTAGGAAGTATTATTATTTTAAGTATCCTTATTTTATTTACAAAAGGGAATATTCTTTTAGGTAGTATTTTTATTATTATTCAATTAATTTTAATTACTTTTGCAACTAAAAAGTTGTTTCATTTACAAAAACTTTTAGAAAATATTTTTTCAAAACTAGAAAACAATGATATTGATTTTACTGAATATGAAGATAAATACCCTTCATTAAAAAGATTATTTGGATTTTTTAATAAAATTTCTCAGATAGTGTCTATAATCAACTATTCTTCAAAAAATTTAAAAGAACTCTCTAATCATTTAACTAAAGAAACTGAAGAAATTATTAAAGGCTCTAATGAAAACACTGATAATCTTTTAGCATTAGAGAATAAAACAAAAGATATACTCGATAGTGTAACTAATCAATACGCTTCAACAGAAGAAATATCAGCTACTATTAATAACTTATCTGAAAGTTTTAAAATAGTTGCTGAAAATGCAGAGCAAACTATGATTTTATCAAATGATACTGCAAAAGCAGCTAAAAAAGGTGGAAAAAGTGTTACAAAAACACTTAATGAAATGAGAAAAATTGAAACACTTATGCAAATAATTGAGACTAAAACCAATGAATTAGCTTCTTCTTCAGAAAAAATTGTAAATATAGTAAATATGATAAATCAAATATCTGAACAAACAAATTTACTTGCATTAAATGCAGCAATTGAAGCAGCTAGAGCTGGAGAAGCTGGTAAAGGTTTTGCAGTAGTTGCTGAAGAAGTAAGAAAACTAGCTGATGATTCTGGAAAAGCTACAAAAGAAATAGAGGATTTAATTAAAATAATACAAAATGAAACAAATGAAGTTATTAATGCTGTACAAGAAAGTTATAATGAAGTAAAAGTAGGTATAAAACTTTCTGAAGATACCATAAAAGAAATAGATAATATCGTTGAACAAACTGAAAGTACTAATAAAGAAGTTACTAATATTTCTAATGCTATTAATCAGCAATCAACAGCAATAGAAGAGATTCAAGTTGCAACTGAAACTGTAGCTTTTAACGGTGAAACAATTACAAACATCAGTCAAGAACAAACATATATTTTTGAAATTATAAGTAATAAATTAAATGAATTTTTAGAAGAAATTTCTAGACTTAATGAAATTTCTCATAGCTTAACTGGAAGTATAAATGGAATAGCTATTTTAGATAATAATAATCAAATTCAAGATTTAATTAAATGGGACAATAAATATAGTGTTAATAATGAAAAAATAGATAATCAGCATAAAAAACTTGTAACTTTAGTAAATACATTAAATGCTGCTATGCTACTTGGACAAAGTAAAAGTATAATTAATGAAATTATAGCAGAGTTAGCTGATTATACTGTTACACATTTTAAAGATGAAGAAGAATATATGGAAAGCATTGGATATGATGATTTAGAAAATCATAAAAAAATTCATAAAACATTTGTAGAACAAGTAGTTAAAGTACAAAATGATATAAAATCTGGAAAATCAAGTGTATCTAATGAACTTATTGATTTCTTAAAAAAATGGTTAATAGAACACATTATGAAAACAGATAAAAAATATGTAAAATAATTTTTAATAACAATTTAGGGGGAAATATGTTATCTAGGGTATTAAGTAGTGGTTATATAGGACTTGAAACATTTATTATAGAGGTGGAAGTTGACATTAATAATGGACTTCCATCTTTTTCCATAGTAGGATTAGCTGATACTGCTATATCAGAAAGTCGAGAAAGAGTTCGCGCTGCTATGAAAAATAGCGGTTATCAAATTCAACCAAAAAAAATAGTAGTAAATCTATCTCCCGCTGATATAAAAAAAGAGGGCGCTTCTTATGATTTACCAATAGCTATTGGAATTTTATCTTGCTATGATATTGTAAATAAAGATAAATTTAATAACTATTTATTAATCGGAGAACTTTCTTTAAGCGGTGAAATTAAAAAGGTAAACGGTATTATTAATTCTGTAATACTCGCAAAAGAAAAAAAATTTAAAGGAATTATTTTACCTGCTGAAAATTATTATGAAGCTTCATTAATTAAAGATATTGATATAATTCCAGTAAAAACTTTAAATGATGTTATTGAATTTATTAATAATAATAAAAGAATAAAAATAAAAAATAAAATTGAATTTATAGATCAAAATTTTGAAATAGATTTTAAAGAGGTAAAAGGACAAACTAAAGCTAAGAGAGCTCTTGAAATAGCTGCTGCTGGTGGTCATAATATATTTATGATAGGACCTCCTGGAAGTGGAAAATCTATGCTTGCAAAGCGATTAAATACTATTTTACCACCTATGAATGAAAATGAAATTATTGAAACAACTAAAATTTATAGTATTGCAGGCATGCTTAATAAGGACGAACCTTTTATAAAAACTAGACCATTTAGAGCTCCTCATCATACCTCTTCTGATGTTGCATTAATTGGTGGAGGTAGAAATCCTAAGCCAGGTGAAATATCATTAGCACATAATGGAGTTCTTTTCTTAGATGAGATGGCTGAATTTCCTAAAAAAGTTCTTGAAACAATGAGGCAACCTCTAGAAGATAAAGTTGTTAATATTAGTCGTTCTTTATATAGAGTGTCTTTTCCTAGTAATTTTATGTTAATATCTGCTAGTAATCCCTGTCCTTGTGGACATTATGGTAGTGATACTGGAGAATTTTGTAAATGTACTGAAAGAGATAGAATACGGTATATGAATAAAATATCTGGTCCTATTCTTGATAGAATGGATTTATATGTAGAAGTACGAAGATTATCTCAAGATGAACTTTTTAAATATTCTGAAGGTGAATCTTCTCAAGAGATATACACTAGAGTTATAAAAGCTAGGAAAATTCAAAATAAACGATATAAAAATAAATATATAAATGCAAATATGACAAGTAGTGATATCAAAAAATACTGTGAATTAGATAATCAAAGTAAAGATATAATTAAAAATGCTTCTAAAAGCATGAATATCTCTGCAAGAAGTTTTGATAGAATACTTAAAGTAAGTAGAACTATTGCGGATTTAGAAGGTAGTGAAAATATAACATATTTTCATATACTTGAAGCATTAAATTTTAGAAAAAAAGAAAATTAGAAAGGCTTAATATGTATACTTGGTTAGAAATTGATTTAAATAAATTAGAAAAAAATTATAATTACATAAAAAAATATACAAATAAAAATATTATTCCAATAGTAAAAGCAAATGCTTATGGTATGGGAGCTATTGAAATATCAAGATTTTTACAAAATAAATTTAATATAGAGATATTTGCAGTGGCTAATTATAAAGAAGCTATTGAGCTTTATAATAATGGTATCACCTCTAATATTCTTATTTTTAATGAAATAGAGTCTGAATATTTAAAAAAAAGTATTGATAAAAATTTTATTTTTACTATTTTCAATCTATTTTATTTAAAAAAATGGATTTTTTATTTAAAAAATGATATTTCAAAAATTAAATTTCATATAAAATTTAATACTGGTTTAAATAGACTTGGTTTAGAAAAAGAAGATATTCCTGAATTAATAGAATTAGTACACAAATACAATATAAATATAGCTGGAATCTATACACATTTTGCGACTGCTGATAGTAATATTAAATTTATGAAAAATCAAATTGATAGTTTTAATGACATTATTTCTATACTAAAAAAATATAATCTTAATTATAGTATTATTCACTTATCAAATAGTCCTGCTTCATTTAATGAAGTAATTATTAAAGAAAATTACGCTAGAATTGGTATGGCTCTCTATGGCCTTCAACCTATTGAAAATAAAAACATTAATATTACCCCTATTTTTAAATGGAAAGCTAAAATTATTGATATAAGGTATATAAAAAAAGGTGAAGGTGTATCTTATAGTCAAACTATTTTAAATAAAGATAGTAAAATAGGCGTCGTTCCTGTTGGCTATGCTGACGGATATATGCGACAATTATCTAATAAAGCTTATGTTTTATATAATAATAATAAATGTAAAATAATAGGAAATATATGTATGGAAAAAATAATAATTGATTTTACTGATACTAATGCTAAAATCGATGATGAAGTTATTATATTAGGTAATAATATTGATATTGAAGAATTTGCTAAAAATTCTAATACAATAGCCGATGATATCATTTCTAAATTTAGCAAAACAATAACAAGGAGATATATTTATGAAGAATAATCACCAAAATGGATTTACCATAATAGAATTGCTTATAGCTATATCTATTATTACTATATTAAGTACAATCGGTTATGCTACTGTATCTAAACAAATGGAAACAAATGCTATACTTAAAATGAGAAATCAGATACCTACTTTTATAAAAGGAATTTCAGAATTATCCTATGAAACTGGAGAAAAATACGATATAAGCATTGATTTCAATAATTATATTATTACAGCTAAAAAAAATGGCTCTACAACTATTTATAGAAAATTAAATTTAGAGAAAAATTTACAATATTGTTTTATTGATAATAATAATAAAATACAAAATACACTGTCTAGAAATACTACTAGCACTGGAAATATTAATATAGGATTTAGTATTTATATTTTCAATAAAAAAAATAAAGCTAAATCTAAAATATCTTTCGTAAGTACTACAAAAGTTGTAAAATTTTTAGTAATTAATAGATATACTCCTAAAAAAGATATGTATTTAAATAACTTTACTCAAAATAGAGTAATTACAGGAAGTGAATTAGAATTGAAAGATTCTAATAATTGGGAAAAGGTGAATTAAATGAAAAATTATAATACTCTTGAAAATTATATAAATAGTTTGCCTAATGATAGAAAAATCATTATTAATAAATTTAAGAAAAATTATCATTAATAATATTCCTGAAGGATTTGTAGAAGAATTAAATTATAATATAATTGGATATGTTGTTCCTCTTTCTATTTATCCATAAGGATATAAAAATGGATTACCTCTTCCGTTTATTAATTTAGCTTCACAAAAAAATTATATTTCTTTTTATCATTTAGGATTGTATAGTAATAAAGATTTATTAAATTGGTTTAAAGAAGAATATTCAAAAAAATGTAACCATAAGTTAGATATGGGTAAAAGGTGTATTCCATTTAAAAAATTCAACGACATCCCTTATGATTTAATTGCTGATCTTATAACTAAAATAGACGTTAAAACTTGGATTTCTATTTATGAATCTTCAAAAAAATAATCCTTACTCTCAAAATACCTATATAATTTATAGGTGTTTTTTTTATAAATTTTTTTTCAGAAATAAACAATTTCTTGATTTTGTATATACATTATGCTAAAATTTTTCTATTGTTAATTTAAGGAAAAATAAAAAATATAAAAGCGCCAGATCTTTAAATTATTTAAAGAAGACGAGGACTAGAGTTATCGAATTTTCGGCGGATGCTCTAGAGGTGGTCACAACCTAAAAAACATACAAAATCTAAAAGTGATTTTAGGTACAAATATGTTTTAGTGACTATTTTTCCTTAAAAAATTTTATATTTTTGAGGAGGACAACTATGTGCGGAATAGTAGGTTATATTGGTGAAAGGAAAGAAGTCAAATCTATACTTTTCAATGGTTTATCAAAACTAGAATACAGAGGATATGATTCAGCTGGAATATCTATACTAAAAAATGGAAATATTATTACAAAAAAGGCTGTTGGTAAATTAGTTAATCTTGAAAAAGAGATTATAAATACAGATATGAAAGGTTTTCTTGGAATTGGACATACAAGGTGGGCAACTCATGGAAAACCAAGTGTAGAAAATTCTCATCCTCATTTGTCTACCAATAATGATATTACACTGGTACATAATGGTATTATTGAAAATTATGATATATTAAAAGCTGCTCTTATCAAAAAAGGACACAAATTTTTAAGTCAAACTGATACAGAGGTTATAGTTCATTTAATTGAAGATGCATATGAAGGTGATATATTTGAAGCTGTTAAAAAAATTCTACCACTATTAGATGGAGCTTATGCAATTGGAGTTTTTACAAAAAATGAACCTAATAAGCTAATTGCTGCTAGAAAAGGCTCTCCTTTAGTTATCGGAGTAGGAAAAAATGAAAATTTTATTGCTTCAGATATACCCGCAATATTAGAACATACAAAAGATGCTATTTTCTTAAATGACGGTGAAATAGCAATTTTAACTAAAAATTCTGTTGAAATATTTGACCTTAATGGTGATAAAACAGAAAAAAATATAAAACACATAGAATGGTCTCTAGAAGCTGCAGAAAAAGGTGGTTATGACCATTTTATGATAAAAGAAATTCATGAACAAGATAGAGTGATTAATGATACTCTTAGAGGAAAAGTATTTGAAGATAATGTAAAAATCGATGAAATAACTATGAGCGATGAAGAACTTCAAAATATTCATAAAATACATATTGTCGCTTGTGGAACTTCTTGGCATGCAGGACTTGTAGGAAAATATATACTAGAACAAGAATTAAGAATACCTGTTGAGGTTGAAGTAGCTTCCGAATTTAGATATAAAAATCCTATTATTTCAAATAAAGATCTTGTTATTTTAATAAGTCAATCTGGAGAAACTGCTGATACTTTAGCAGGACTTAGAGAAGCTAAAAGTAAAGGTGCTAAAACTTTAGGAATTTTAAATGTAGTAGGAAGTACTATAAGTCGAGAAGCTGATGGTACTATTTATACAAATGCAGGCCCTGAAATAGGTGTTGCTTCAACAAAAGCCTTTGTTTCTCAATTAATAGCTCTTTATATTTTAATGTTATTTTTAGGAGAAAAGAAAAATATTTTATCAAAAGAGAGAAGAAAATACATTATATCAGAATTAAAATTATTATCTAAAAAAGTCAAAACAATTTTAAATAATGAGAAAAATATAGAAAAAATAGCTAAACTTTTTGAAAATGTAAATAGCACAATGTTTATAGGTAGAAATATAAATGCTCCTATTGCTCTTGAGGGTGCTTTAAAGTTAAAGGAAATATCGTATATTCATGCTGAAGGCTATCCATCTGGTGAATTAAAACATGGTCCTATTGCTCTAATACATGAAAATTTCCCAACTGTAGCAATAGCTACAAAGTCTCATACATATGAAAAAGTTAAAAATAATGTAGAAGAAATAAAAGCAAGAAGTGGAACAATAATAACTATAGCAAGTGAAGGTGATGAAAAAATTCAAGATATTTCTGATGCTGTATTATATGTACCTGATACAGAGGAATTATTTTCTCCTGTTATAAATGTTATTCCTTTACAAATACTATCTTATTATGTAGCAAAATCTAGAGGTTTAGATGTAGATAAACCTAGAAATTTGGCAAAATCAGTAACTGTAGAATAAATTAAAATCTCCCTAAGTAAGGGAGATTTTTCATTTTATTCTATCCTCTAATATATAACTATCATCAATAATATCTATTGTATTTAAATAATCTGCAACTATAAGCTCTGTTTTATAAGGTATTTCTGAAAATATTTTATCTTTTAATTTAAAATATACACCATTTCCATTTTTTATATATTCATTTACTGTTAAACTATATAATTTGTATTTATCCAATGGTTCACCATTTATAGTAATAACTATATTATTTTTTAATGTTTCCCATATTAAGTTCGCTGTATTTGGAAATTCTCTATGTCCTTTTGGCAATTTAGATATATTATTAAAAAGTTCTATTATTTCATATCCGTAAAGATTTAAAGTATATAATTTATGATCTGTTAAAATATTTTTAATATTTTCATAATATATATTACCTATATCAATCTTATTTTGAAATAATCCAGCATTTACTAATACAAAATCAGTTTTTGTATACTCTTTTATACTATCTGTTACTATTTGAGAAATTAATACATCTTTTTCTGCCACTTTAGCTGTATTTAAAGGTTTTAAAGTTTGAGCTAATAATATTTTTTTATCTTTTGAAAGTATTAATTTTAAACTATCTAGTGATTTTAAAATTTTAGTTTTATTTTTTTCTGTTACTGTTAATTTTTCTAAAATTCTTTTAGATATTATTTCCTCTGTTACATCAACTATACTTCCATCATCTTTATACTCTAAAAATTGAAGTAATTTCCCATTTCCATCTCTTTTTTCTTCAATAAATTTATTCTCAAACGTATAAAAAAAGCTTACTTCATTTATATTTCCTTTTAAATCTCTTTCTACTGCAAATAATTTTTTATTATTATTATATATTATATTTAATTCTGCTACCTTTTTTACCCTTTTTCCTCTCGAAATTACATCTAAAATAGTTGCTCTATCATTTTCATATTCTTTATAAAGATATTCTTTTATAATATCTCCTTTTAGATTTATTATTTTTTCACCTATTACTTTGTTATCTCTTATTATTTTCTCTATTTTATATTCATCATTTGAAAACAATAATTGAAAAAATATAACTTGAATTATTATTATATAAAAAAATTTATTTTTTATTATAGACATATATTTCCTCCTAAATTTTTATTAAATATTTTATATTTTAATATACTCTCTATTTCCTTTATATTTATAATTAATTATCGTCATTTTATAAAAATTATTTAAAATATTCTTTATCTAGTAGAGAGTATGGAGTAAAACATTTTTTATTAAAAAATATTATTATTAAAATAGAAGATATAAATTTTGCATTAAGTATAGCGAGCATGATAGCTATTTGATATTTTATAGCAGTTGTGGGTATACTTCCAGCTAATATTTGTCCTGTCATCATTCCTGGTAAAGATACTATTCCTATTGCTGACATAGATGCTATTGTTGGGGTAATCGATGATAAAATAGATATTTTTATACTTTCTTGTAAAGCCTCTAATTTATTAGCACCTATTGTTAATAAAAATAAATATTTTTCCTCTTTTTTACTTACTTCATTATATAAACTATTTAATGTAATAATCGTTCCTGAAATTTCATTTCCCAAAAGCATTCCGCCTACAGCTATTATATATTTCGCATCAAATATATTTGATAAATTAATAATAAATTTATTAAATATAAAAAGTGTTAATACTTGAGAAAATGCAATTGAAATAAAGATATAAAATATAAATTTTTTTAATTTTAAATTACTATTATTAGCAACATTAAGTGTTGCAATTATTATCATAATTAATAAATACAATAAATTAATAAATCTATTATTTAGTGTAAAAATATAATTTAAATAAAGGGATACTAAAAAAAGTTGTATACACATTTTAAATATCGAAAAAAAAGTTTTTTTTATAATATCCAATTTTAAAAATATAGAAGTTATTATTAAAGGTATTATAAATAATATTAATAATCCTAATGAATATATAGATATATCTTTTGTCATTTAATCACCAACTTATTATTTTTATACTTTCATATTCTAACCATTCTTTATCATGTGATACAATAATCATTGTTTTATCTAATTTTAAAATGTTTTCTATTACTTTTTTTTTAGTTTCTGAATCAATTGCTGAAGTGGGTTCATCTAACAACCAAATATCTTTATCTAATAAAATTGTAATTATTAACATCAATCTCTGTTTTTCTCCACCAGATAATTTATTTGTGAAATTATTTAGAATATCTTTATCCAATTGAAATATTTCTAAATATTTTTCTAACTTCAAAATATCTAATTCTTTTTTTCTATATTGTTTTAAAGAAAATATATATTCAATAAATTCTATTACTTTCATAGTTTGAAAAAAAATATTTTGAGGTATATAAGATATATTTTCTCTTATTTTTTCTATATTTTTGCTATTTAACTTATTATTGTTTATATACACATCACTATCTATATAAAAAAATCCAAATATTATATTTAGTAATGTTGTTTTACCACTTCCTGATTTAGAATTTAATAATATTTTTTCATTTTTATTTAGACTAAGATTAAAATTTTTAAATATCCATTTATTATTTAAAGTTAAATTCAAATTTTCTATTTTAATAATATTTTCCATATCATCACCAATTTTATTATACAATAAAAAAAGATGATTTCATAGAGAAACCATCTTTAAAATTTATTATTATATTCTTTGTTTTTCATGCTATTCAATAATCGGTTTTTTTACTACTCCAATGATTGTCGCTGTTACTAATGAACCAACAGTATATCTATATTTTTTCTATTTCTATTTCTTTATATAATTTTTCTGTTAATTTTTTTGTAGCTAACCCTCTTGAATAAGCAGTAGCAGTACCTGTAGCAACCGCATATTTAAATGATTCTAATAAATCTGACGTTTCTATATATTTTGCTGTAAATCCAGCTATCATAGAATCACCAGCACCTACTGAATCAATTAACTCACCTTTAGGTGGAATAGCTTTATATATACCATTTTTAGTAATAAATATAGCACCTTTCTCTCCTAGTGATACAATTACATTTTGAGGACCTATATCTTTTAATTGTTTTCCATATTTTATAACTTCTTCTAAACTTTCTAATTTAATATTAAATATTTCTTCTAATTCATCTTTATTTGGCTTTACTAAAAATGGCTTATATTTACTAGTATTTTTTAATATCTTAGTACGCGTATCTAGTATAAACTTTGTATTTTTATTTAATGATTTTATAATTTTAATATATGTATCGCTTGGCAAACTTTTAGGTACACTTCCAGCTAAAATAACAATATCCTCTTTTGAAATTTCTTTAATTTTTTTTATAAGTTTTTCAACTTTTTCAATTGATATATATGGTGAATTTCCATTTATTTCTGTTTCACTATTTTTACTTTTCATTTTAATATTTATTCTAGTATCTCCATTATCTAATTTTATAAAATCAGTTAAGATTCCATTTTCTTTAAGCTTTTTCTCTATAAATTCTCCTGTAAAACCCGCTAAATATCCCATTGCTATAGATTTTACATTTAAATTTTGTAGTACTTGACTTACATTTATTCCTTTTCCACCAGCTGTTTTATATTCTTCTTTACTCAAATTCAATCTATTTTCTTTAAATTCATCAACTATTACAGTATAATCAAGAGATGGATTAAGTGTTAAGGTATAAATCATTACTTACACTCCTTTACTATTGTTTTTTCTTTAAATCGTTTATCAATTAATTTATCTGTTATAATTATAGCTTCTTCTAATTTCCCAAATTTACAAAATGAATTTTTCCCAAATTTTGAATTATCTGCAAGAATATATGATTTTTTAGATAAATTTATAACCGTCTTTTTTATAAGTGCTTCTTCTGTATCTGGAGTTGAATATCCCCTTTCATAACTAAGACTATTTACTCCTAAAAAAGCTCTACTAAAATTATGTTTTAAAATCTGTTCATATGCTTCTATTCCTATAAGTGCTCTTGTAGTTTCTTTTATTTCTCCGCCTATTACATATGAACTAATATTATATTTTACTAATTCTAAAATATGATCAATACCATTTGTTACAACTTTTATTTTCTTTTTGGATAAATATTTAATCATTTGAAATGTAGTACTACCAGCATCTAAAAATATATATTCACCATCATTTACAATAGAGGCTGCAAATTTTGCGATAATTTCTTTTTCTTCTCTATTAATAGATGTTTTACTTGCCATTGAAAGTTCTATATTATCATCAATAACAGTAGCTCCTCCATGTACTCTTTTTAAAAGAGCTTTTTTTTCTAATTCAATAAGATCTCTACGAATAGTTGCTTCAGAACTTTTCGTAACACCCGTCAATTCTTTCACGCTTACTGTTTCTTTTTCTTTCAAATATTTTAAAATCAAATCATATCTTTCGTTTATTAACATATTTTCCTCCTCTACAATACTATACTACCTCTTCAATCAAAAATCAATCATTTCCAATCAAAAATAATCAAAAAAATTTTTTTATAATCATATTTAATTATTTTACATAAAAAAAAAGACCTAAAAGGTCTCTTTTTTATGTAAATTATAAATATTTTAATATAGCTTCTCCCATTTCTTTTGTCCCCAAAGAAACTTTTCCTTCACTATAAATATCTCCTGTTCTAAATCCTTCTTTTAATACTTTATTTACTGCATTTTCTATATCATCAGCAGCTTCATTCATTCCAAAACTATATCTAAGCATCATAGCTCCTGATAATACTTGTGCTATTGGATTTGCTTTATTTTGATTTGCTATGTCTGGAGCTGAACCATGGATAGGTTCATACATTCCAAAATTATCATCTCTTAAACTTGCTGATGCAAGCATTCCAATTGAACCTGTTATAATAGATGCCTCATCCGATAATATATCTCCAAACATATTTCCTGTAACAATTACATCAAATTGTTCTGGTGCTCTCACAAGTTGCATTGCAGCATTATCTACATACATATGATTAAGTTCAACTTCTGGATATTCTGGTGCTATTTCTAATATTGCTTCTCTCCATACTCTCGATACCTCTAATACATTTGCTTTTTCTACAGACGTTAATTTCTTATTTCTTTTCATAGCTGCTTCAAATGCTACTTTCGCTATTCTTTTTACTTCTTTTTTAGAATACTGCATTACATCATATCCTACTAAATCTTCCCCTTCGCCTTTTCTTCCTTTTTCTCCAAAATAAATTCCCCCTGTAAGCTCTCTTACTACTAATATATCTATTCCTTTATCAACAATAGAATTTTTTAATGGTGATGCATCTTTTAATTCCTCAAATACTTTAGCCGGTCTTAAGTTACAGAATAAATCTAATCCTTGTCTAAGTCCTAAAAGAGCTTTTTCAGGTCTTTTATTCCCAGGTAAAGTGTCCCACTTCCATCCACCAACAGCTCCTAAAAATACTGCATCTGATTTTTTACACTCTTCTAATGTCTTAGCTGGTAAAGGTTCACCAAATTTATCAATAGCACATCCACCTGCATCCATTTCTACCCAATTTATTTTTGTATCATATTTTTCTACTGCTTTATTTATAACTTCTATTCCAACTTTTGTTATTTCTGGTCCTATACCATCTCCTGGTATTGCTACTACCCTATATTCTTTTTTCAAATTAAATCCTCCTCATTTTTTTAATTTTTTATATTATCTAACATTTTATTTATTGCATTTAAATATGCATTTATACTTGCTTGAATTATATCTTCATCTATTGCTTTCCCTGTAGTATTATTATTTTCATAAGCTAATCTTACTGTTACTTCTCCAAGTGCATCTTTTCCACCTGTCACTGATTTTATAGAATAATCTTTTAATTCAACTTTTAAATTTGTTACCCTTTCTATTGCTTTAAATAATGCATCTATAGATCCTTCTCCAATAGCTACTTCTTTAATAATTTCTTCACCTTTTATTAATTCTATCATTCCGGTACAAGTCATATTATTTCCGCTATTTAATTGAAACGATTTTAATTTATATACTTCCTTAAAATATGTTTTATTATTAACTATTGCTTCAACGTCTCTTGTAGTCACATGTTTTTTCTTATCCGCTAAATCTTTAAATTTTTTAAATGCCTCTAATAATTCTTCTGATTCTAATTCTATCCCCATTTCTTTTAATGAATTTTCAAAAGCATGTTTTCCTGAATGTTTACCAAGGACTAAATTCAACTCTTTTTTTAATCCAATATCTTCTGGTGAAATTATTTCATATGTTGACTTTTCTTTTAGTACACCATCTTGATGTATTCCTGATTCATGTGCAAAAGCATTTGCACCAACTATTGCTTTATTTGCTTGTATATTCATACCTGTAAGACTACTAACTAATGTACTTATTCTATGTATATGAGTAGTATCTATATTAGTTTCTACACTTAATACATCTTTTTTTAATTTTAAAGTCATTACAAGTTCTTCCATAGCAGCATTTCCTGCTCTTTCACCTATTCCATTAACTGTACATTCTACCTGTGTTGCTCCTGCTCTTATTGCAGCTAAGCTATTAGCGACTGCTAAACCAAGGTCATTGTGACAATGTACACTTACATCTACATTTTCTATCCCTTTTGTATTATCTATAATATATTTTATAAATCTTCCAAAATCTTCTGGCAATGCATATCCTACTGTATCTGGTATATTTAAAGTCGTTGCTCCTGCTTCTATTACTTTTGCATATATTTCACATAAAAAATCAGGATCACTTCTATACGCATCTTCTGCAGAAAACTCAATATCATCAAAATATGATTTTGCATATTTTACCATTTCATATGCTTGATTTAATACTTCCTCTTTACTCATTTTTAATTTATATTTCATATGAATATCAGACGTAGCAATAAATGTATGAATTCTAGGCTTTTTGGCATATTTAAGTGCCTCATATGCTCTATCTATATCTTCTTTTCTTGCTCTTGCAAGTCCTGCTACTGTTGATTTTTTTATAACTTTAGCTATCTCTCTTACTGATTCAAAATCTCCATTTGATGCAATTGGAAATCCAGCTTCTATTATATCTACTCCCATTGCTTCTAATTGTTTTGCTATTAAAATTTTTTCTTTTAAATTTAAATTTACTCCAGCCGCTTGTTCTCCATCTCTAAGTGTTGTGTCAAATATTTTTATTTTCTTCATACAGACTCCCCTTTTCATTATAAAAGATAATATTTTTTACTGACAATTTTACAAAATTCCTGCTATCTGTATGATAGATAGAGGCGATTTAAAAAAAACTAACTTCGCCAAAGTTAACATAAAAAAAGCTAACTTTAATCTAAAAGTTAGCTTTGATATACTATATAATATTATTGTTTTACACAACTATTAGCTAACTTACTATGAAAATCATTTCGTTTTGATAAGAGTAATAAAGCTAACAGTAATAACAAAATTTTCATAATAAGAGCCTCCTTTTTTTAAAATATTGTACATATTTCTACATACAATTTATTGAATAAATGATATCAATATATTTTTTATTTGTCAAGATAATTTTAAAATTTTCTTACTTTAAAATCTTAATTATATATCTTTATATTTTAATGGAAAAATTAAAACTTGCCTCATTTTTCCATTATCGTCTACTTGCTCTTCTGTAAAAACCTCTTTTACTAAACTCATCTCCCCTTTATAAATATATTTATTTTCTTCATAAAGCTCAAAACAATGAATAGAATAACCTTCTTTTTCCGCATTATACAAAGATTTATTTTGTCTTATTAATTGCTGATCACCTTTTTTACCTATTCCTACAAAATATAGTATATCTCCTGCTTTTTTATGCACATATGAACAATCTAAAAATTTTGCTATTATTACTACAGTTTTTGTTTTATTACTTTTTCTTATTCCACCCTGATTACTACATTGAAATATTTCTGCTATCTCTTTATTTGTTACTTCTTGATTTAATTCTAAAAACATTTTTCCCTCCTTATTTTTTATCTATATTAAATGCTTAATTTTCATATATAATATTTTTTTATTTTATTTTTTACTCTTTTTCTTTCTCCACTTCATCTATTTCTGCTATATCTATCAATTTTTTATAATATATCCATTTATCTTTATATTCTAATAATATAGGATAAATTTCTACCCCTTTTTCTTTTGCTAAATAAAAAAGTTTAGCAAACTCTTTATCTGTTTCATATTTTGGTCTAAATTTAATAGAATTTCTTAGAATTAAAAACATAATAGCTGTTCTATCACCAGTTTTTTTCAATTCTATAAGTTCTTTTAAATGTTTTTGCCCTCTTTTTGTTGGAGCATCTGGAAATTTTGCTATTTTATCTTGTGATAATGATACACCTTTTACTTCTACCCAAATTTTTTTATTACCTTTTTCCAATAAATAATCAATTCTACTATTTTTATATTTTACCTCAGCTTTTATACTATCAATTTTTCCAAAAGGACTTATTTCAAAATCATTTAAAATTTTTTCTGATATATATCTATGAAATTTTGAATTTATCAAAATTTTTTCTCCATCTCCACTATCAGCTGCTATTACATCCCATTTCGTTTTTCTATTTGGATTAATAGCTTTTTGTAAATAAACTTTATTATTTTCAAATAATAACTCTTTTAATCGCCCTGGATCATGTACATGTGCCTCTATAATTTCATTATCTATCTTTACTTTTGATAAATATCTATTAGGTCTTTCTAAAAAAATCCCTTTTTTATCTATTGGAATATTTAAAATTTTTTTCATAAAATAATTCTCCTTTTTATTTTTAATAATATTTGATATTATAACAAATTTTAAACTATTTTAAACTATTTTATTTAGAAATATTGTTTATCTATTTTTTATTTTATGCTATAATAAAATTATCTAAAATCCGTACCATTAAAGGAGTTTACGAGCATAATGTTTAAGAATTTTTATTTTTTTATTTTTTTATTTTTTCTAGGTTGTTCCAATGTATCTGAATATAAAAATATTGTTTATAAAGATTATAAGACAAAAAATAATTTTAAAATAAAAAATGACGATATTAATACATACTATAAAAGCAAAAAAAATCTAAACAATTTTTTTATATTACATAAAACAAAAGATAATATTATCCCTATTTTACATATTACATCTAAAGAAAAAAATTGGGTATATCCTAATAAACTTGAGTTTATTTCAGAAGATATTTTTTCAACTTATTTTATTGATATTTCTGAAAATAAATATGATAATGTATTATTATTTAGTAAAACTACTCTAGATTTAAAAACTATTGAAAAATTAGCAATTCCATTATCAGATAGTGAATTTAATACTATTGTAAAATATATTAAATCTATTGATTGTAAAATAAAATTATATAGTGAATATGACAATAGAACTAGTTATATCATCTTATCTGATACCGAAAAAAAAGAAATGATTAAAACTTTTACATTATATAACAAACTAAAAAAAGGAGAGATAACTAATGTCAACTAAATTAAAATATTTTATAGCTGGAGAAGCTGGCGGATTAAACAAACAAACTGGAAGAATAGATATGCATGGAATTTTTGATGTTCTTACATCCCCTATATTTCCTATTGTTATTCCTAATATGGCTATATTAATTGGAATAGAAGCAAATGGAAAAGAACAAACTTTAGAATTAAGATTAAACAGTCCAAAAGACGAATTATTAGGAAAAATACAAGTAACTTTTCCTCCTACATATCCTGGACTTACAGCTAAACAAACTTTAAAACTTGAAAAATTACCTGTTATTTTAAAAGGAAAATACACTGTTGATATATTAGAAGTAAAAGCAAAAGGTGGATATCAATTTATTGCTACAGAAGATTTATTTACGGCTGTATTTCCACCAAAAAGAGAATTTAAAGAAGGAGAAATTGAAGAAATTTTAAAAAGAGATGACGTTATTAAAACTGTTATCACTGATTATAAAGTACCAGACAATGAAAAAGTATTTAAATTCCAATTAAGTCTTGATCCAAATGAAAAATTACCAGAAGGAGTTCAACCATTTCCTCAAGATGATAAGCTTGTTGTAGATGGAAAAGAATATGATTTAACTGGTATCAGAAGAAATGTTGAATGGATGTTTGGTAGAAAGAAACAGCAACCTCAATCAGAAGAAAATGTTGAAACTGAAAATAGTAATAAAAATATAAATTAATATATTCCCTAGTTGAAATTTTCTTTTCAACTAGGGAATTTTTACCTTTTATCAAGTCTTTAAAATCTTGATATTTAAGCATATTTATGATATAATTTATAGACAAATTTAAAGAAATTAAGGTGATTTAATGAATGAAAAAAAAGTGAAAAATGTTGGTGGCCAAGCTGTAATTGAAGGTGTTATGATGAAAAGTCCTGATAGAATAGCTACCGCTGTAAGAAGGTCTAATGGTGAAATAGTATATAAAGTTAAAGAGTTAAGTAAAAATAATAAATTTTTATCTAAAATACCTTTTATAAGAGGTGGTTTTATTTTAATTGAAAGCTTATTTGTCGGTATAAAAGAACTTACTTTTTCTGCAAATCAATTTGAAGAAGAAGAAGAAGATTTATCTGATTTTCAGCTTGCTTTAACTGTTTTTGTTTCAATGAGTTTAGGTGTAGGTTTATTTATTCTTTTACCTTCATTTATTAGTAATTTCATTTTTCAAAATAGTTTATCCTCTGCAAATATTTTAGAGGCAATTTTAAGAATGATATTTTTTATTGTATATATAAAATTAATATCTTTTTCAAAAGATATTAAAAGAGTGTTTCAATATCATGGTGCAGAACATAAATCTATTTATACTTTTGAAAATAATGAAAAATTAACAAAAGAAAATGCAAAAAAATATACAACTTTACATCCTAGATGTGGAACATCATTTTTATTAATAGTAATGATAATAAGTATTATTATATATTCGCTCGTAGATATATTTTTACCTACTCCGGATACACTACTTATGAAACAAGTAATGAAATTATCTACTAGAATATTACTTTTACCTTTTGTAGCTGGAGCTTCTTATGAATTTCAAAAATATACAAGTAGACATTTAAAAAATCCAATTATACGATTACTTGCTGCTCCAGGATTAAAATTACAAAATATTACTACAAAAGAACCTGATTTTGACCAACTAGAAGTTGGTGTCGTTGCTTTAAGAGCAGCTCTTGGGGAAACTATTGAAAATGCTAAAGATATAACAGAGGAGGAACTACAATAATGTTTAATAAACTAGAAGAAGTTGTAAAAAGAAGCGAAGAGCTTACTGCATTATTAGGAACGCAAGAAGTAGCTAGTGATCCAAAAAAAATGATGGAATATAACAAGGCTCTTTCAAGTATGAGTGAAATTGTAGAAAAATATAAAGAATATAAAAAAATAAAATCTGATTATGAAAGTCTTAAAAATGATCTTCATTCTGAAAAAGATCCTGATATGAAAGAAATGATACATGAAGAAGTAAAAGAATTAGAAGCTAAAATCCCAGAATTAGAACAACAATTAAAAATCTTATTACTTCCAAAAGATCCTAATGATGATAAAAATGTTATCATTGAAATAAGAGGTGGAGCTGGTGGAGATGAAGCAGCTTTATTTGCAGCAGATTTATTTAGAATGTTTACAAGATATGCTGAAAGACAAAAATGGAAAGTTGAAATAATAGATAAAAGCGAAATTGGTGTTGGTGGATTAAAAGAAATCATATTCTCTATAAATGGTAAAGGTGCTTACTCAAAATTAAAATTCGAATCTGGAGTTCACAGAGTGCAAAGAGTTCCAGAAACTGAATCTCAGGGTAGAGTACATACCTCTACAGTTACAGTAGCAGTTTTACCAGAAGTAGAAGATGTTGGAGAAGTTGAAATAAATCAAAGTGACCTTAAAATAGATACATATAGAGCAAGTGGTGCTGGAGGACAACATGTAAATATGACAGATTCAGCTGTTAGAATTACACATCTTCCTACTGGAATTGTAGTATCATGTCAAGATGGTAGATCACAATTAAAAAATAGAGAACAAGCTATGAAAGTACTTGCTACAAAACTTTATGAAATAGAACTTGAAAAACAAAGAAGTGCTGTTGATAGTGCTAGAAAACTACAAGTTGGTACAGGTGCTAGATCAGAAAAAATAAGAACATATAATTTTCCACAGGGTAGAGTTACTGATCATAGAATAAAATTAACTCTTCACAAATTAGATGCTATTCTTGACGGTGATTTAAACGAATTAATAGATGCATTAATTACTTATGATCAATCTGAGCAATTACAAAATTTAGGTGAAGAATAAACCACAGGTATTTCCTGTGGTTTGTTATTTGAAAACTGAGGTAAAATAATGAATAAACTTATCGATATATTAAATTTTTCTACAGAATATTTAACTAAAAAAAATATTTCAAATCCTAGACTAAATGCCGAAAAAATTATTTCTGAAGTTTTAGGATTAGATAGAATTATGCTATATGTACATTTTGAAAGACCTATAAATACTCAAGAAAAAGAAAAAATAAAATCTTTTTTAAAAAAAATTAGTATGGATAATCATTCTAAAAATTTAGAAAAAAAAGAAACTTTAAACTCTGAAATCTTTTTAAACACTCAATCTAATAAAAAATTTAAAGAACAAAACAGCTTTATTTTTAATGAAAGTATTGAATATCTAAAAAAATATGATATTAAAAATGCTAAACTAGAAGTTGAACTTATTTTTTCTCATATTCTAAAAATAAACAGAATGTTATTATCTTTAAATTTTAATAAAAAAATTTCTAAAGAAAATTTAGACAAAATAAAAATTTTATTAAAAAAACGTGCTAAAGAAAAAATTCCAATACAATATTTATTAGGATTTGAAGAATTTTATGGCTATAAATTCATTGTAAATAAAAATGTTTTAATTCCTAGGCCAGAAACTGAATTATTAGTAGAAGAATGTATTAATCTTTTAAAAGATATAACAGAACCTAAAATTCTTGATATTGGATGTGGTAGTGGTGCTATATCTATTACTCTTGCAAAAGAATTACCAAACTCTAAAGTGATTGGTATTGATATTAGTAAAGAAGCATTAATAGTAGCTGAAGAAAATTGTATATTAAATAATTGTGAAAATTTAAAATTTATAAAATCCAATATTTTTGAAAATATTAAATATAAAAGTTTTGATTTAATAGTTTCAAATCCTCCTTATATCCCTAATTATGAGTATAAAGAATTGCAACCCGAGGTGAAATTACATGAACCAAAACTAGCTCTTGTTGCTGAAAATAATGGATATTATTTTTATGATAAAATATCTAGTGAAGCAAGAACTCATCTAAAAAATGGTGGTCTTTTAGCATTTGAAATGGGGTATAATCAAAGTGAGAAAATAAAATCTTTTTTAAAAAGAGATAAATATAAAAATATTAAAATAAAAAATGATTATAATAATATACCTAGAATGATATTTGCAAAAAAAGGAGAAATTTAATGAATATAAAAGATTTTGACTATCATCTACCAGAAGAATTAATAGCGCAAAAGCCTATTAATCCAAGAGATAATTCAAAGCTTATGATAGTAGATAAAAGAAATAAATTGATTGAACATAAAATTTTTAAAGATATTATTGATTATCTTAATCCAGGGGACGTATTAGTTAGAAATTCTACAAAAGTTATCCCTGCTAGACTCATTGGAAAAAAAGAAACTGGTGGTGTTTTAGAACTTTTTTTATTAAAAAGAATTGATTTAAATAAATGGGAAGTTCTTTTAAAACCTGCTAAAAAACTAAAACTTGGACAGAAATTATATATTGGTAAATTAAATGAATTAGTAGCTACTTTACTTGAAATAAAAGAAGACGGTAATAGGATAGTAGAATTTAAATATAATGGAATATTTGAAGAAATTTTAGATAAATTAGGTGAAATGCCTCTTCCACCTTATATAAAAGAAAAATTAGAAGAGCAGGATAGATACCAAACTGTTTATGCTCAAAAAGGAGAATCAGTAGCTGCTCCAACAGCTGGTCTTCATTTTACAGAAGAATTATTAAAAAAAATAGAGGATAAAGGAATTGAAGTAGTAGATATATATTTAGAGGTAGGTTTAGGAACTTTTAGACCCGTACAAACTGATAATATATTAGAACATAAAATGCATAGTGAATTTTTCGAAATTCCAGAAAAATCCGCTAATATTATAAATAAAGCTAAATCTGAAGGTAGACGAATTATTGCTGTTGGTACAACAAGTGTACGAACTTTAGAATCTTCTGTAGATGAAAATGGTAAAATTATTTCTCAAAAAAATAATACAGAAATCTTTATTTATCCAGGATACAAATTTAAAATAGTAGATGCTTTAATTACAAATTTTCATTTACCAAAATCTACTCTTCTTATGCTAGTATCAGCTTTTTCAAATAAAGATTTTATGATGAGAACTTATAAAAACGCTGTTGAAAATAAATATCGTTTTTTTAGCTTTGGAGATGCTATGTTTATTAAATAGGGAGTGATAAAAATGCCTAGTAAAGAAACTATTAAAATTATCAAAGAAATGAGAAATCTTTATAAAAAACTTATTGAAATACAAAAAGAAATCATCACAAAACTAAAACTTGGAAATCTTAAAAATAGTGAACATATGAAATTAGAATATGAATTAGAACAAAATAAAGAAACTATGGAAAATATTCGAAAATATTTTGCTAAAATTCAATATATTGAAGAAATCAATAAAAGAATGAAAGAAAATTAAATATAATAAAGGCTTTTAATATAAAAACTTTTCAAATAGATAGAAAAGTAAAAAAGGAGGAACAAACTATGAAAAAAATAATTATTATTGGAATAATAATTTTATCATCACTAACATATGCAATGAATTTAGATGTTGAGGCTCTTCTTTATAAAAATACTGAATTTAAATTAGCTTCTGATTTAATAAATTTATCATCAAGTGATAGTATCAATTTTAGTTTAGGAGCTGGCTATTTATCTAGCTCATCTACAGGATTTGCTACATTAAATATGCTTACTGATTATAATACTTTTATAAATGGTCAAATTGCTCTTAGAATTGGTTCTACTTTTACATCATCTCTTTATCTAGCTACTGATATATCTTTATCTCAAGGAAACTTTGCTCCAATAATTTCTTATAATTTTAATGGTGATGTAATCGGACTTGGGCTTAGACTAAATTTTTAATACAAAAGGAGTTACACTATGAGAATTGTTGCAGGAATTGCTAAAAATAGAAAATTAAAAACTAGAAAAGGTCATGATACAAGACCTACTCTCGAAAAAATAAAAGAATCTTTGTTTTCTATAATATTTCCATATGTGGAAAACAGTAATTTTTTAGATTTATATAGCGGTACAGGAAATATAGCTTTAGAAGCAATAAGTCGAGGTGCTAAAAGAGCTATAATGATAGAAAAAGACCCTGAAGCATTAAAAATAATTATTGAAAATGTAAATAATTTAGGCTTTGAAAACAAATGTAGAGCATATAAAAATGATGTTTTTAGAGCTATTGATATATTGGGTAAAAAAAATGAAAAATTTGATATAATATTTATGGACCCTCCTTATCATGATGAAATATGTGAAAAAGTAATAAAAAGAGTTTTAAAAAATGAACTTTTAAAAGAAGATGGCATAATAATTGCTGAACATTTTATTGCTGAAAAAATGCCAGATTCTATTGGTGAATTGAATAAAATTGATGAAAGAAATTATTCTAAAAAAGTATTAACTTTTTATAGTAGATAATATATACTTAAAAAAATATCTTTATTATAAGGATTTGGAATCCTCATAAAGGATAAATAAACAATCTGAAAAACAATATATTGATTTAAGATTAAAATTTTTGAATAAACTAATAGCAATTAATAAAAAAATAAAAGATTTCAAATCAAAGAGACAGGAGTGTTTTTATATTGGCACGTGGTAAAAGTTTTGAAGATAACTTAAAAGAAATAGACAATCTAATAAATGAAATTGAAAACAATGAAAATCTTTCTCTAGATGAATCAATTAAAAAATATGAAAAAGCTATGAAGTTAATACAAAACTGTAGCCAAATACTAGAAAAATCAGAAGGAAAAGTCCTAAAAATTAAAGAAGAGAACGGAAAATTGATTTTTAGTGAATTTAAAAAGGGGGAATAATGTCTACTAATCTTAAAACTAAATTTGAATATTATAAAAATTTAACTAATACTAATCTTGAAAATTTTTTTAATGAATTAAATTATCCACAAATTATTTCATCAGGAATGAAATATTCTGTATTGAATGGTGGAAAAAGACTTAGACCTTTTTTACTTTTAGCTACTCTTGAAATGTTAAATATTGATATAAAAAAAGGTATTCCTAGTGCTTGTGCAATAGAGCTTATACATTCATATTCTTTAGTTCATGATGATTTACCTGCACTAGATAATGATGATCTTAGAAGAGGAAAACTGACTACTCATAAAAAATACGGAGAAGCAAATGGAATTTTAATTGGTGATGCTCTTCTTACCCATGCTTTTTATCTTTTATCTGAAAAGAATTTAAATATTTTGTCAGCAGATAAAATTGTAAAAATAATCTCATTAACTTCAAAATATGCTGGAATTAACGGTATGATAGGTGGCCAAACCATTGATATCGAATCAGAAAACAAACAAATAGATCTTCCTACTTTGCAATATATTCATACACATAAAACAGGAAAAATGATATTATTGCCTATTGAAATAGCTATAATTATTGCTAATTTAGATGATGTAAAATCTAATGTATTAAAAGAATATGCTGAAATAATAGGCTTAACTTTTCAAATAAAAGATGATATTTTAGATATTGAAGGAGAAATTGATAAAATAGGAAAACCTATCGGTAGTGATTTAGAGCTAAATAAATCTACTTATCCGTCTATTTTTGGACTTGAGAAAACTAAAGAAATTTTACAAGAAAAAACTAAAGAAGCTAAAGAGCTTTTATTAAATACTTTTGGAGAAACTTCTAAAATTTTAATTGAATTAGCTGATTTTATTGCAAATCGTGATAACTAGAAAGAGAGGAAATTATGTCAAATCTAAACAAAACTCCTACGGCGAATAGATTGCATATAGCAATATTTGGTAAAAGAAATATGGGAAAATCTACTCTTATTAATGCTCTTACTAATCAAAATATCGCTATTGTATCTGATTTTGCTGGGACAACTACGGATCCTGTTTCTAAAGCAATGGAAATATTACCTATTGGTCCTTGTGTTATTATAGATACTGCTGGTATTGATGATGTAGGAGAACTCGGAAATCTTAGAATACAAAAGTCTATCGATGTAATTAAAAAAACAGATATAGCGTTGTTAGTAATAGATTATAATGGCTTTAATAATTTTGATTATAAAATAATGGAACTTTTAAAAGAGAATAATACAAAATTTATTGTAGTTGTAAATAAAACAGATATTCAATCTATAAGTAATGAATTTAAAACCGATTTAAATAATTATAAATATATCGAATTATCTGCAAAAAATAAAACTAAAATTAATGAACTAAAAGAACTTATTATAAAACACTCACCTAAAAGTTTTGAACAACCTTCAATTTTAGGAGATCTTATTTCTCCTGGTGATGATATTATTCTTGTGATTCCTATTGATACAGGTATGCCTAAAGGTAGGCTTATTTTACCTCAAGTTCAAACAATAAGAGATATTTTAGATAATGATGGGATAATTCATATAAGTAAAGAACGTGAGCTTCGTTGGACTTTAGAAAATCTTAAAAAAAAGCCAAAATTAGTAATAACCGACTCACAAGAATTTGCTAAAGTTAGTGCGGATACTCCTGACGATATATTACTTACTTCATTTTCTATACTTTTCGCTAGGTACAAAGGAGATCTTTTTGAATTAGTAAAAGGAGCTAAAGTACTTAAAAATCTTAAACCAAATGATAAAGTTCTTATTGCAGAAGCTTGTACTCACCATGCTCAACCTGATGACATTGGAAAAGTTAAAATTCCTCGTTGGATAAAACAAAATATAGAGCCTGAAATAGAATTTGATTTTTGTTCTGGAAGAGATTATCCAAATAATTTAACAAACTATAAATTAGTTATTCATTGTGGTGGGTGTACTTTAAATAGAAAAGAGATGCTTAATAGAATAGAAGCTTCTACAAAAAATGGAGTTCCTATAATAAATTATGGTCTATGCATTGCTACTATTCATGGAATACTTGATAGAGCATTAAAACCATTTGAAGAAGTTTATCTTGAATGGCTTGATTCAGAATAATTATAAAAGGGGAAATTTATGTACGAATATTTATTTGGTAAAATAGTTAAAAAAAAAGTAGATTCAGTAATTTTAGATATAAATAATATTGGCTATAGAATTTATATATCATTAAATACATATGAAAAAATAAGTAATGAAAAAGTAAAATTATATATTTATTCTCATATAAGAGAAGATGCTTATGTTTTATATGGATTTTATAGTGAAACTGAAAGAAATTTTTTTGAAAAATTAGTAAATATAAGTGGTGTTGGTCCCAAACTTGCAATTGCTATTTTATCAACATTTACAGTTAAAGATTTAAAAACAATAATACTCAATAATGATATAAATTTATTAAAAAAAGTTCCTGGACTTGGGCCTAAAAAAGCTCAAAAATTAATTTTTGAAATACAAGATAAAATTGATTATAAATTTAACCTAGAGGAAAATTTTGAAACAAAAGATAGTATCCATATTGAAAATTTAAAAGATGATATTTATTTAGCAATGGAATCTCTTGGATATAATAAAAAAGATATAGACAAATTTATTGATTCTGAAAAAATAAATAATTACAATTCTATCGAAGAAGCAATAAAAGATATTTTAAAAACTATTCAAAGTAAAAAAAGATAGGGGGTACAATGAATATAACTGATAGGAGTAAGGAAGCTAATAGAATTACTATTATTGGTTCTATAGAAAATTTATTCCTTACAATATTTAAACTTTTTGCTGGAGTTATTGGAAATAGTAGTGCTATGTTAGCTGATGGAATACATTCTCTTTCAGATTTTAGTACGGATTTTATAGTTATTCTTAGTTTTATATTTTCAAAAAAACCAGAAGATAAAGACCATAATTATGGTCATGGTAAGATAGAAACACTTTCTACTGCAATTATAAGCATCATATTAATATATGTAGGACTTATGCTTATGAAAACTGGTAGCTTAAAAGTTTATTCTATTTTAAATGGTACTAATTTATCTCCACCAAAAAGTATCGCTGTTTGGGCTGCTTTTTTATCTATTGTAATCAAAGAAATAATGTATCGACAAACTTTATATGTTGCCAAAAAAATAGATAGTTCTATATTAAAAGCCAATGCATGGCATCACAGATCGGATGCTTTTTCATCTTTTGGTACTTTTATTGGGATTGGGATTGCTTTTTTATTTGGTCATAAATGGATAATTTTTGACCCTATTGCTTCTATAATAGTTAGTTTATTTGTTATAAAAGTAGGATTATCTATACTTTATACTACTGTAAATGAATTAATTGAAGGGGCTTTAGATGAAGAAGAGACTAAAAAAATAGAAAATATAATTTCAAGTTGTAATGAAATTATTAATTATCATGATCTTAAAACAAGAAGAATAGGAAATAGTATAGCAATAGAATTTCATATATTAGTTAATAGAAATTATTCTTTTGTAAAAGTACATGATATTACAGAATCAATAGAAAATAATCTGAAAAAAGCCTTTAGTAATCAACATCTATATATATCGATACATATGGAGCCTAGTGAAAAATAATTTTATATAAATAAGGACTTGAAAATTCAAGTCCTTATTTTAATATTTCATCTAAATTAATATCTTTTATCTTATTATATACAAAATCTGCTTTTTTAAAATCCTCTTTTTTACCTATTGCTACACCTAACATTCCAGCACTTTTAGCAGCCTCTATTCCTGCTAGCGCATCCTCTACTACAACACATTTTCCAGGAGAAATATTCAAATTTTTAGCTACATATAAAAATAGATCTGGAGCTGGTTTACTTTTATCTACACTATATCCATCGCCTATAAAATCAAATATTTCTTCAATTCCAAGATTTTTTATAACTGCTTTTGCATTTTTACTTGCAGAACCAAGGGCTATTTTTATATTTTTATTTTTTAATCTATTAAATATCTCTGTAATCCCTTCTATTAAGTCATTTGGAGTAACTTTTTGAATAAGCTGTTTATATCTTTCATTTTTTTCCGTTGCCCATTCTATTAGTTCAATTTCTGATACATCATCTTTTTTATTATATTCCATTATTATTTTTATCGAATCCAGTCTTGAGACTCCTCTAAGTTTTTCATTAACCTCTCTATTAAACAAAAGTCCTTTATCATCACAAAGCTCTTTCCAAGCTAAATAATGATATTCTGCTGTGTCTGTAATAACTCCATCTAAATCAAAAATAAATAGTTCAATATCTCTCATTTTTTCACCTCTATTCTATAGTCGTTTTATTATTGTCTATATATACATCTATTTTATCTCCTGATATTAGTTTTATATCTAACTTTTCTTTATTTAAAATAATCTCTAATTCTCTATGTTTAAAATTAATTTTAAATTTTATTTTATTTATATTATCTGGAAGTAGAGGATTAAAATGCAAATTATTATTTTTTATACGCATTCCTACAAATCCAAATACGACTCCCATCCAGCTACCACCCATAGCTGCTGTATGTATTCCATTTTTAGTATTGTGATGTAAATCGTCAAGATCAAGTCTAGCATTGTTTATAAAATAATCATAAGCTTTTTCTTTTAATCTAAGTCTACTGGCCATAATGCTAAATATACAAGTTGATAGCGATGAATCATGAGTTGTTATTTTTTCATAATATTCGAAATCATTTTTTATAATATCAAGTGTTGTTTCCTCTTCTCTTAAAAAATGAGCTAATATAGTATCTGCTTGTTTACATACTTGATATCTATACAATGTAAGAGGATGATAATGTAAAAGTAATGGATAATTTTCTTTTGGTGTATTTTTAAAATCCCATACTTTTTTATTTAAAAAACTATCATCTTGAGGATGAATATGCAATTTTTCATCAAATGGTAAATACATATTCTCTTTAGCTCTTTCAAATTCTTTTATTTCTTCTTCATTAATTTCTATTTTATTTTTTAATTTTTTAAATTGTTCTTTATTTTCTTTTAGTATTTCCCATGCTAATTTAGTATTTTCAAATAAATATTTTGCCATTATATTGGTATAGTAATTGTTATTTACAATACAAGTATATTCATCTGGTCCAGTTACATCATTTATTACAAATTTTCCTTCTCTATTAAAATGTCCTATATCAAACATAACTCTAGCCGTTTCAAATAAAACTTCAGCTCCATAATTTTGCATAAATTCTTTATCTTCTGTAATTAAATAATATTGAATAAATGAATATGCAATATCTGTATTTATATGATATTGTGCTGTTCCTGCTGGAAAAAATGCTGAACATTCATCTCCATTTATAGTTCTCCATGGATATAATGCTCCTTTTTTATGTCCCATCATTTTTGCTCTATTTCTTGCTTTTTCTAAAGTATTATATCTATACATTAATAAATTTTTAGCTAAGAAACTATTTGTAAACATAAAAAATGGTAAAATATAAATATCTGTGTCCCAAAAATAATGTCCTTCATATCCTTCACCCGATATTCCTTTTGCAGCAATATTTGTATACATATCTTTTCCTACTGATTGTAAAAGTTGATATAAATTATATCTAAGTCCTTCTTGTAGTTTTTCATCTCCATCAATTATAATATCAGATGTTTTCCAAAATTCATTTAAATATACTTTTTGTGCTTCAATATAAAATTCTTTTCCGTTTTTTATTACTTCATTTAATATTTTCAAATTTTCTGTATAATTATTTTCATATCTTAAACTATCAGTAAATACACTATATTTAACAAATTCTACTTTTTCATTCTCTTTTACTTCCAAAGAAAATTTAAAATTGATTTTATCATGTTCTTTTTCAATGTTTAATTGATTTTTTTTATTTACTTCATGTATACAAGAAGTAATTACACTCATATTTGAATGTTTTGTCTTATTCTCTATTATCCCAATATTTTCTTTTACTTCACATTTAACTACATCTAAATGTTTTGCATTTGCTGTCCCTATTCTTGGATCATCACTAGCTGTAATATTTGATACATTACCATCAATTAGTGAAGTGATTTCTATTTCCCCGCTAAAATTTAAAGGAGTTATATTATATTGTATTATAAATAATTCTTCTCTTGTAAATGAAACTATTCTTTTTATATCTATTTTTAATTCTTTTCCACTATTTGATTTCCATAAAATCTCTCTTTTTACATATCCTTCTTTTAAATTCAATTCATTTTTAAATTTTTTGATTTTTCCTTGCAATATTGAAAATTCTTCACCATCAATATTTAATAAAATTGTTTGCACATCTGTGATATTTAATATACTCTGAGAATATTCTGCATAACCATATAGTTTTTCACCATATTGAATATCTTCAGTTTCATAAAAACCATTTATATATATCCCTCTTACTGTTTTTAATTTCCCTCTAAAATCCTCTTCAAATGAATCTCTAACTCCTAAATATCCATTTGCTAAATGAAAAAGCGTCTCATTTAACATAAAATTTTCTTTATCAAAATTTTCTTTCACAATACTCCAATTTAACATTTTTCCTCCTACTTTTATATCTAAAGTTTTCTTAATTATAATTTATTTAAACAAAGATAAGGAATAATAATTTTTTTAATCTTTAAACATATTATTTTATATTTACTAATCATTATAGTTAAATAATTTTTTTAGTTTCTTATAATTCTAAAGCTTTCTTATATTTTTAATTTTATATTCTTTTTTATATAAAATTCTATTTTTTTCTAAATCTTTTAATTAATAAAAAACTTAGAAAAAAATACCTAAGAGAAACTGAATTCTCTTCAGTCTCTCAGAGGTATTCAATTTATTAATTATTTTATTGGATACCCAGTCATATCTTCTAAGTCATATGCTAAGTTTTCTAAAGCTTCCTCTGCTGTAGTTTGGTTATTTAATACTGAATATACAGCTTGATAGAATTTTTGAGATACTTGTGCATAATTTGGTGCAGTAGCTGTAGAAGGTCTAGGAGTTGCATTTGTAAATACATCATATAACGAACCAAAGAATGGAGCTGCCGCTAACACATCTTTATCTTGATATAATGATTTTATAGTTGGATTAAATGATCCTTCTATTGCTCTCATTTTTTGAACTTTTTCTGATGCCATAAATAAAGCTACATCTGCTGCTATTTCTGGATGAGCACTATATTTACTTACAGCTAATTGCCATCCTCCAAGAGCTGCTGCATGTTTCCCACCTTTATCCATTGGAAGTGGAGCTACTCCAAATTTACCTTTAATTACAGAATTATCAGTATTTCCTAATGAATATGCATATGGCCAGTTTCTCATAAATGCTGCATTTCCACCTTGCCAAATAGCTCTTGCATCTTCTTCTTTCATTGATATAACTCCATCTGGAGAAATTGTTCCTATCCATGATTTAGCTCTTTTTAGTGCTTTTATTGCTTTTGGATTATTTACTGTTATTTCTTTTTCTGGACTAATTATTGTACCTGCTCCATGCGAATCTAACCATTCGATTGCATCACAAGTAAGTCCTTCATATGCATCTCCTTGCCATACATATCCCCAAAAATCTTGATTTCCAGCTTTTCTTTCTCCTTCTTGTATAATTTTTGCTTCTCTTTCTAATTCATCCCATGTAGTAGGAACTTCTAAATTATATTTATCTAATAAATCGCTTCTATAATATAATAATCCTGCATCTGTAAACCAAGGAATAGCTACTAATTTACCATCAACTGTATTATTTTGAATGATTGGTTCAAAATGTTTTTTGGCTGCTTCTTTTCCTCCATATTGATTTAAATCTAATAAATGGTCAGCCATATCTCCTGGCCAAATTACATCAATTTGATAAATATCTACTTTTTTTGATTTTGCTTCTAAAAATTGTAAATATAACCCTAATCTATCTGAAGATGAATCTGGGGTATCCCAAAGTTGAATTTCTACATTTGGATGTTCTTTCATGTACATTTCTGCTGCTTTTTTATTAATTTCTAACTCTTGTCCTACTGCACCTGATGCTAAAGTAATTACTACTTTTTCATCTTTCATTTTTGGTTCTTCTGTTTTCTTTTTAAAAAATAATCCTGCTTCTGCCGAAGTTGCCATTGTCCCTAATAATGCCGCTGTCATTAAACCTGTCATTAATTTTTTGTTCATAATGTCCTCCTTATATTTTTTTGTTTATATCAGTTTTCTTTTAGAAAATTATGTTTATTTAACAAATTATCCTTTCACTGCACCTGCTGTAAGTCCCGCAACAATTCTCTTTTGGAAATAAAGAACTAAAATAATTATTGGTATCGTAACGATAACTGCTGCTGCCATTATTTCTCCAAATGGTTCTTGTCTCGAAACTGCACCTGTAAATAATGCTATCGCTACTGGTATTGTTCTTGCGCTTGGCTCTATTGAAGTAAATGTTAATGCAAATAAATATTCATTCCATGCAGCAATAAACGCTAAAAGTCCTGTTGTTACAAGTGCCGGCGCTGTCAACGGTAATAAAATATATTTAAAACTTTGAAATGGTGTAGCTCCATCTACTTGTGCAGATTGCATAAGTTCTACTGGTAATTCTTTAAAAAATGATGTGAGTACCCATGTTGTAAATGGCAATGTAAATAACATATAAGATAGTATCATACTTGCCATTGCTGGTAATCTAAGTGCATTAATTACTGCATATAATCCTGTAAGTACTGTTACTTGCGGAAACATTGTCATAGCTAATATTATGTAAAGAGATGCATTTTTCCCTTTAAATCTAAGCTTTCCTAGTGCAAATGCTGAAAATGAACCAACTGCTAAAGCAAGTAATGTAACCGAAGTTGCAACTATTGTACTATTTAATAATCCTCTTAAAAATGTCCCATCATTAAATATAGATCTATAATTCTTTAAATCAAAGAATATTTTATTTGTCACTGGATCTCTTGGTAAAAATGTTGCTGGTACCATTTGTAATTGAGCTTCATTTTTAAAAGATGAAACTACTGCCCACCAAAATGGAAATAACATATAAAATGCAATAAATATAACTAATATATAAAGTAATAGTTTATTTAAAAATTTTTTTGTTTCTTTATTAATCATTTGCATCAACCCCTAAAAACTTGATATATCCTATTGCAAATCCAAAGATAATAATAAATATAATCACTCCAATAGCTGATGCCATTCCCATATTTTTATATTTTATAAGTTGTGTATAGTTATAACTTGCCATCGAATACCTTCTATCAGCTAATAATACTTGGAATACATCAAATGCTCTAAGTGCATCTAAAGTTCTAAATATAAGCGCCACTGCAATAGTTGGCTTCAATAAAGGCAGTGTTATTGAAAAAAACTGTCTAATCGGACCTGCTCCATCAACTCTAGCTGCTTCATATAATGATGTAGGTATAGTTTGTAATCCTGCTAATAATAACAATGCCATAAATGGTGCTGTTTTCCATACATCAACTGCAATGATTGCTGGAAGTTGTAATGCTTGATCTGTTAAAAATGATGCTTGCCCATCTCCTAAACCCAAATTTGATATAACTGTATTAAATAATCCCGTTCTATTTGCTTTAAACATCCATTCCCAAATTCTAGCACTTACTACTGTTATTACTGCCCACGGTACAAGCATTATGGCTCTCATTGGACCTTTCCCTTTAAAATTTGAGTTTACAACAAGTGCTATAATTAATCCTATTATTAATTCTAATAATACAGACCAAAGAGTAAAATAAATTGTATTTCCTACTGATATTAAAAAGTCAGGATCTGATGCTCCTATTACATAATGAGTATTACCAATATTAAACCTTTTTAACTCTTTATATCTTATTGGTTTTTTTGGAAGAACTTCTCTAGAACTTTGATTCTCGTTTTCTAATTTTTTTATAGTAACTGAAAGTAATTTTTGATAATTTTTTAATCCTATTACTTTTGTTTTTACTGTAGAAGCAAAACGTTTATTTGTAAAACTTGTATAAAAAACATTAAATAGTGGATATGCTGCAATTAAAAGCATTATTAAAAAACTAGGAAAAAGAAGCTTATATGCTAATATTTGTTCTCTTTCAGCTAGAGTTTTCTTAAACTTTCCCATTTGACTCCTCCTTAAATATTTTTTGTGCACACGTTAGCACAACTCTTACATTAGTAACTATACCCCAAAAAAATTATAAAGTCAATATTTTTTTGTTTTTTGTTTTGTTTTTTTACATTTTTTTCTTTTTACGCTTATTTTTTAATTATTTTTTAATTATAAACTTTTATTTTGATTGTTTTTTTTAAAAAAATATAGTATAATTTATTTGTGTGCACAAGTGTGCATAAATATGGAGGTGAAAAATGGCTATAACAATTAAAGATATTGCTAAAATTGCTGGAGTTAGTCATTCTACAGTTTCTCGTAGTTTAAATGACAATCCTAGAATTTCAAAAGCAACAAAAGACAGAATTAAAAAAATTGCTAATGAACTTGGCTTTGAATACAATTCAAATGCAAGAGGCCTTAGCTCTTCAAATATAACAAATACTATAGGAGTTATTTTCCCTAAAACCTTTGATGATGTTGTTTCTGGACTTTTCTTAAATTCAATGGTTAAAAGAGTACAATATAACATTGAAAAAAATAATTTCGATACTATTATTGAATTTGCTGAAAATAGATTTAATAGAAAAAGCAATATTCAGAGATTAATTGATAGAAAAAAAATTGACGGTCTCGTACTTACTACCCCTGAAATTACTCATGATGATTATAAATATATTTTATCCCATAATATTCCTCATATATTTTTACATAATAAACCAAAATATTTTTCTCAAAAATCAACTATAGTTTTTACAGATCATAAAGAAGGTGGTTATCTCGCTACAAACCATCTTATAAAAAATAATCATAAAAATATTCTTACTATTACAGAAAAAGCTCAAGAAATAGAATTCCAAGAAAGATGTCAAGGATATGAAAAAGCATTAAAAGAAAACAATATTAAAATTGATAAAAATCTTATGCTTTATTGTGATATTACTTTTTATGACGGGTATAATATTATTATGGAAAACAAAGATTTATTAAAAAATATTTCGGCAATTTTCTTCCAATCTGATATAATAGCATTAGGAGGTATAAAAGCTCTTAAAGAGTTAGGATATTCTATTCCAGAAGATATTTCTGTAATTGGGTATGATAACTTAGAATTAGGTACTTATTATCATCCTTATCTTACTACTGTGCATCAACCTAAAAATGAGATTGTTGATATTGCTATAGAAAAACTTTTTCATTTTATTAATACAAAAGAAAAAATAAAAAATGAAGAGATTATAGCTGAACCTACTTTAGTTATAAGAGAATCTGTAAAAAAAATATAGTGAGGTTATTTTATGAATATAGATATAGTAGATATTCAAAAAAAATATGAAAAAAATTTCAATGATTATGAAAAATTTGCAAATTTTTTAAAAGAACGGTTAAATTATCTTTTTTTAATTAATAATTTTACACCTGCTAAATTTGAAACTCGAGTAAAATCTATAAAAAGTTTTATCAAAAAAGTTGAAAAAAAATATCCTAAATATAAAGATCCTTTTCATGATATCACTGATATTATCGGACTTAGAATAATAACTTATTATAATACTGAAATTGATGATGTTATTAAAATATTAAAAGATAATTTTGAAATAGACTATGAAAACTCTTCTGATAAAGAAAATCTTTTAGATTATGATAAAATGGGATATATCTCTGTTCACTATGTATGTAAATTTTGTGACAATAATAATAGTTTCCCTTATAAATTTGAAGTCCAAATAAGAAGTTTACTACAACATGTTTGGGCATCTATTGATCATAAACTTCGTTATAAAACATATATAGAAATCCCGAAACAAATAAAAAGAAAACTTTTTAGACTTAGTGCTCTATTAGAAGTAGCTGATAGCGAGTTTACAAGTATAAAAGAAGAAATAGAAATGCTTGAAAAATTTTATGAAAACAAATTTGATAATAAAAAATATAATTTAAGAATTGATATTTCTTCTATTAATTATTATTTGAAATATAATAACGACAGGATTAAAAATATTGCAAAAAATTTTAATATAGAAAGATTCAAATCTTTTGAATCTGCTAAATTAGATAATTTAGAAAGAAAACTTTTACACTTTTTATTAAAAACAAATAGACATTTTATTTATGATTTAGATGATTTTTTAAATATCATTGAATCAAATCAATCATTAATAGCTGATTTATTAGATAACGAAATTATAAAAAAATTAAGTATCATGATTAATTCTAGTTGTTCTTTTTTAATTGCTTTTATTATTTTAATTGATTTAGAGATAGATCGAGTTAAAAAAATATTAAATCTTACAGAGACACAACTATTAAAAATATTAAAGCTAAGAGAAACTCTTAACTCTTTAAAATGTAGAGATATTGTTATAAAAAAATGAGGTGTTAATATGGATAAAAAAAATATATATGAAAATATTTTAGTTTTTATAGAAGGTATAATTGCTGATGAGAAAAATTATATTGCTAATCTTGCTAATATATCTGCTATACTTTTTGAAAATCTTCCTAATTTAAACTGGGCTGGATTTTATTTATATGATGGAAAAGAATTAGTTCTTGGTCCTTTTCAAGGAAAATACGCTTGTATTAGAATTCCTATTGGAAAAGGAGTATGTGGTAATAGTGCAAAAGATAAAAAAACTTATATTATCGACAATGTACATGAATTTAAAGGCCATATCGCTTGTGATTCTGCTTCGAATTCTGAAATAGTTGTCCCTATTATTAAAGATGATAATTTAATTGGTGTTCTTGATATTGATAGTTATAAATTTTCAAATTTCGATAAAATAGATAAATTATACTTAAAAAAAGTTATTGAAATATTTTTAAAATATAGTGAGATTTAAAAAATAAAAAGGCTTCTTAAATTAAGAAGCCTTTTTATTATTGTTTGAATCTATGAAGCATATTATCTAAATGATTTGATGTTTCTGTAAGTTCTGTTGCTCCTTCTCCTAAGGTATTTATTACTTCCGATGTTGACATAACAGCATCATCAATTTCTTTTACTCTTGTATTAATTTCTTCAAATGAGTTTGTTATTTCATTTGAATTGTTAAGTAATTGTCTTAAATCTTCTGTTTGATTAGATATTCCTAAATGAATATCATTTAAATCATTTATTAGTGTCTCAAATGAAGAAACTATTTTTTCTATTGTAGATGATACACTATTTACTTCTTCATTTGTTTCTGATAATTTTTCTACATTTTGATTGGATATGTTTACTGTTTCATCAATTTTTTCAGTTATATGGTTTATTTTCCCTTCTATGTCTTCTGCTGTTTCTCTTGAAGTATTAGCTAATTTTCTAATTTCTTCTGCCACCACTGCAAATCCTTTTCCAGCTTCTCCCGCTCTAGATGCTTCTATTGCAGCATTTAATGCAAGCATATTTGTTTGCTCTGTTACTTTATAAATTTTATTTATAAATACATGTATTTCTGATGATAATTCTTTTAAAATATTTATCTCTTTAGCGCTATTTTTAATATCTTCTCCAATTAATGATATTTTTTCTAATGTTTTTAATAAATTTTTCTTTTCACTTAAAGTTTCTTCTAATACTAAACTATTGTTTGTACTTATATTATCTACTAAACTAAGCATCCCTTGTGCATTTTCTGATATAGCTTTTACTTTATTATCTACTTCGTGTAAATTATTAAATGATACAGATACTGAATCTGATATATTATTTATTGTAGCAGATAATTCTTCTGTTGTAGCAGCTGTTTTTAGTGCTGAATCTGATATATTTCCTGATTGATGTTTTACATTTTTTGATACTTCTTTTATTTCAGCTATAGTTTCTTTTAATGTATCAACCATTGTTTTAAATGATAAAGTTAAAACTCCTGTTTCATTTTTCTCTATTTTTTTAGGAAATACTACTGTTAGATCTAAATCAGATAATTTTTTACCTACAGTTGTTAAATTTTTAAGTGGTTTTGCTATACTTCTAACTAGTATTATAAATACTAGAATAGAAAATAATACTATTACAATTATATATACTCTATTTCTTATTGCTACTGATTTTATTAGCTCAACATTTCCTTCTGAAATACTTTTTACATTATCTATCGTCCAACTATTCTCTTTATTTTTCTTATCTACATATGGAGCTAAAGAATTATATACTGAATCCATACTTATAGCTACTTTTCCCAAATACGTATACTTTTCTTCTCCTAATATTTTCATAAACTCTTTATTTTTTTCTTCTAAAATATTTATTAACTCTTTTGATTTATTTATATTCCCATCATTTATAACTTTTTTCAATTCTTCATTTAAAAGAAAAATTTCATTTCTTATTTCTAATTCTTTTTCTTTTTTTTCTATTAATACGTCTACATTTTTTCTAAGTGATTTTATAACTAAATCTAATGTCCCTTTTAATCCTAAACTATCTGATACTTTATACACATTATCTATATTTTTTTTAAGTTTTTTTATCAACCTATTTTTTTCTTCTTTATTTTCAATATAGATAAATTCATTAGCTGATGCAAACAATTTTATCAATGAATCTTGAATTTTTTTTACTTCTATACTTTCATTTGATATTTGTTTCAATGTTTCTACATTTTGATTTATTTCATCACCTTTTTCTGCAAATAACTTTGTATTTACTGAAAGATTGTACGAAATCCCAGCTAATCCTAAAAAAATAAATAAGAACCCTATAAATAACTTTGTACTAATTTTCATATCATACCTCCTAAATAATATAGCACTCTATATCTATTATATTCTATTTTATCTGCTATTTCAAATTATATATTTTTTTTTATCAAATATTAATTTTTTGTAAATAAAAAAGAGTAAAACTCTTAATTAAGTTTTTACTCTTTTTTATTTAAGATTATTACTTATAAGTATATCAATAAGTTCCGAATATGCTATACCTTCTTTATTCCAAAGTTTTGGATACATGCTTATTTTTGTAAAGCCTGGTAAAGTATTTATTTCATTAACATAAATATCCCCATTTTTACATAAAAAACTATCTATTCTAGCTATATCTTTGCATTCAAGGATTTTAAAAACTTCTTTTGCTATCTCTTGCACTTTATTTACTATTTTTTTTTCTAATTTTGCTGGTATTTCTAAATTTGCACCATTTTCATCTATATATTTAGCTTCATAAGAATAAAATTCATGTTTATCTAAATTTGGAACAATTTCTCCTATTCCACTGGCTAACACTTCTCCATTTTTTTCTAAGATAGCACATTCTATTTCTCTACCTTTTATAAATTCTTCTATAATTATTTTATTATCATATTTAAATGCTTTTTCTATAGATTCCTCTAATTCTTTTTTGTTTTTTGCCTTACTTATTCCTACGGATGAACCCATATTTGCTGGTTTTACAAACATTGGGTATCCTAGCGTCTCTTCCAATTTATTATAGTCAATAAGTTCATATTTTCGTATTGTTATATATTTTGAGGTTTTTATTCCTGCATTTACTAATAATCTTTTCATTATCTCTTTATCCATACCTACAGCAGATCCTAATATCCCTGCTCCTATAAAAGGTATATTTAAAATTCTTAGCATTCCTTGAAGTGCTCCATCTTCTCCTATTGTTCCATGAATTATCGAAAAAACTATATCTATATTTATCTCTTTATAAGTTCTTAAATCTATTAATTTACTATTTTTACCTTTTAAAGAAAATCCTAATTCTATTCCTGTATTTTTTAATTTTATATTTTTAGGATTATTCTCATTTTCTAAAAAATTTTTATTAAATAAAAACCAATTCCCTTTTTTATCTACACCTATAAGTTTTACATCATATTTATTTTTATCTATCGCATCATAAATATTTTTTGCTGATTGAAGTGAAACTTCATGCTCTTGTGATTCCCCACCAAAAATAAGTCCTAATGATATTTTTGACATATCTCCCTCCTAGTAAATTTTATTTTAAAAAATTTGCTACTCCTACTAAAATCATTTGTGCTGACATAGCTGATAAAATAAGTCCTGTAAGTTTTATTAATATATTTAATCCTTTTTGCTTTAATAACTTCTCTATTATATTACTTATATATAATAATATTCCTAATGATACAATTGATAAAATCAATGATATAAATAATAATATTTTTTCACTATATTTTGTAATTTCTGCTCCCATTACAAGTAAAGTTCCTACAGTAGCAGGCCCTACTGCTACTGGAATAGCTAACGGTACTACTGCTATATCTTCTGTTTCTGTATTTGGAGTTTCTATATTTCCCTTTACTAAATTAATTGAAGATAATAAAAGAAGTATTCCAGCTCCTACTCTAAATGAATCTACTGTTATTCCAAATAATTTAAATATTGCATTTCCTGCAATTAATAAAATAACTGTAGTTATAGTTATTGCTATTGTTACTTTTACTGCTAATGCTTTTCTATCATGTTTAGTCCATTTACTTGTTAGTGATAAAAAAGTTGATAAAATAAAAAAAGGTGTTAATATAAAAAACAATTTTAAGTAATTTTCAATTATAATTCTAAACACTTTTCCTCCTTAAATATAAATATTCATATTTTATAAAAATATCTCTTGTTGTCGTAATTACTTAATTTCATTTGATTTTACAAAAAAATAAGAGGCTTATTTTGCCTCAATTAAAAATAGCTTATCTCCTTTTTTTACTGCTTGTCCATCTTCTATAAGAATTTTTACTATTTTTCCTGATATATTTGATTTTACTTCATTCATTAGTTTCATGGCTTCAACAATACAAAGTGTATCGCCTTCTTTTACTATATCCCCCTCTTTTACAAATGGTGCTGCTCCTGGAGAAGGTGCTTTATAAAAAGTTCCTACCATTGGAGATATTATTTCATCATAATTTTCATTATCTTGATCAAGTATTTCTTCTGTTTCTAGGTCATAATTTGTGACTTCTTCTACATATTCAACTTTCTGTGGTACAACTGTCTTTACTACCTCAGAACTACCTCTTTTTAATATTACTTTTGCTTCCTCTGTTTCTAGAATAAATTCAGAAATATTATTTTTTTCCACACTTTTAGCTAGTTCTTTTAAATTTTCAACAGTAATTTTCATAAAAATCCTCCGTTTTAGTTATTTCCAATTATCCTTAAATCTTTCACTCCTTTTATACCTCTTATTTCTTCAAGAGTTATTTCAATATCACGAAGTTTTTCCTCTCTTGCTTGTAGAGATATAGTGGCAGCTGCTAGATTGTCTATTGGTATATTTTGAATAATTGTTAAAATATTCAAATTTGATTCTGCTATTGCATCAAGTATTTTTGATAAAATACCTGGATGATCATCCATAAGTAAATAAAGATTAAAAACTGTATCTCTTCCACTTTCAAAAAATGGTCTAATATAATCTTTATATTTATAATACGTACTTCTACTTATACCAACTCTTTGAATAGCTTCATATTTAGATATTCTTTCACTTTGAATAAGATCATTTACTTCTATAACTTTTTGAATAGAAGTAGGAAGTATCTCTCTATCTACAATAAAATATTCTTTTTTATTTTTCATCATATCACCCTATAGTATTATTTTTTAATACAATACTATCATTTTTTTAATATTTTTTCAAGCTTTTATACATTAAATAAAAATTCCATTAAATCTCCATCTTGTACAATGTATTCTTTTCCTTCTATTCTAAGAACTCCTGCTTCTTGAGCTCCTTTCCAACCTTTATTTTTTATAAAATCATCATATGCTACTACTTTTGCCCTAATAAAACCTTTTTCAAAATCTGTATGTATTTCTGAAGCCGCTTTTGGAGCTGTTGCACCTATTTTTATAGTCCATGCTCTCACTTCTTTTACTCCTGCTGTAAAATATGTTTGAAGTCCTAAAAGTTTATATCCTGCTTTTATTAGTCTATTAAGTCCTGCTTCTTCTACTCCTAATTCTTCTAAAAACATTTGTTTATCTTCTTCTTCCATTTCTGCTAATTCTGCTTCTACTTTTGCAGATACTATAACTACCTCTGAATTCAGAGCTTTTGCATATTCTTTTACTTTATCTACATATTTATTTCCAGTAGCTAAGTCATCTTCTGATACATTGGCAGCAAACATCATTGGCTTTAAAGTTAAAAATTGATATACTTTTATTAAATTATATTCTTCTTCTGTTAATTCAAGTGTTTTTAATAACTGAAAATTTTCTAAATGATTTTTACATTTTTCTAATATTGGCATTATTTGAAGTGCTTCTTTATTTTTAGCTCTTACTAATTTACCATATTTAGTAATTGCTCTTTCTACAGCCTCTAAATCAGATAATATCAATTCTGTGTTTATTACTTCTATATCTCTAATAGGATCTACACTTCCATCTACATGTACTACATTTCCATCATCAAAACATCTTACAACTTGACAAATTGCAGCAGTATTTCTTATATTACTTAAAAACTGATTTCCTAGTCCTTCTCCTTTTGATGCACCTTTTACAAGTCCTGCTATATCTACAAACTCAACTGTTGCATTTACTACTCTTTGTGGATTTATAATTTTAGCTAATTCTTCCATTCTTTCATCAGGTACAGTTACCATTCCTACATTGGGCTCTATTGTACAAAATGGATAATTTGCAGCTTCTGCTGCTCCAGCTTTTGTTATTGCGTTAAAAAGTGTTGATTTTCCTACATTGGGCAATCCAACTATTCCAATACCTATCATTACTTATTTTTCCTCCTAATTTTTTAAAATTACACTAAATATTATCATAAAACACTCTTTTTTGCAATTAATTAAAAAAGTTATATCTAATTATTAGATATAACTTTATTTCTTTTTAAATTTATTAAACAGTCCTGATAATCCTGATATTTCTTTTGGTGTTTCTGCTGCTTTTCTATTTTCTGCTTGAATTTCCTCATAAACTTCTGCTCTGTGTACACTTACACTTCTTGGAGCTTTTATACCTAATTTTACTTGATCTCCCTTTATATCTACTACAATTACTTCTATATCGTCACCTATAATTATACTCTCATTTTTTTTCCTTGATAATACTAACATATCTCCTCCTACCCTAAATATTTCTGCATTTCTTCTAAAATATAGTGCTTCAACTTATGTTTTGGATTAGTTGAAATCACTTGTTTACCTATTTTTTTCTTAGTATTTATAACTATAGGTCCTTGAAGATTTGCAGTCATTTTTGAAGGATCCTCTGGCACTACTACAATAGCAAATATATCAGAATCTTCTGGCGCTTCTAAATCTAACTCTTCTGCATCTTTATCAGCTAGATTTAAACTGTAATTAGGATTAAATTCAAAAGGTCTAATTATAACAAAAGCAAGTTCTGGATCATCTATAGCTAAGAGCCACATTAATGGATTATTTTCTTCTATATTTAATATAGTAAATCTTTTTATATTTTCAAATCCGAAAATTCCATCTTTAAAAATTACTATATCATCTTCTAATATTTCTATTTCTCCAAATCTTGAAGTATTTAGCTTCATATATTCCTCCTATATTTTTGTATCAATTTTATTATCATATGTAGTTATTTCAACTTTTGGATATCTATCTACTCCAATATTTAATGTTCCTTTTTTACTATTAATATTTAAATTTTTTTTAACATTCAAATCAATTTTATAAGGTTTATAATTTATATTTACATATCCTTTTTTTACTCTAATTCGAATAGGTTCTTTTGGAAAATATCCTACATTTATCTCTTTTTTACCATTTCTATAAAGTTTTTCAAGAGATATATTTGCAATAGCATTTTTTTCGTTATTTTCTATTTTCATCATTCTATCGCCATCTTGAACATATTCACTAATTGCTTGATTTCCTTTTTGAAGGCTATAGTTTGATATATCTTTTTGTAAATCTACTGGATTTTTTCTATATAGTTGCTTATCTGCTGGATAATTATGTATTTCTACTGTATCTGATTTAGTTTTTATATTAAATTTAGCTTTAGTTTTTCTAAGATTCATAGTAGCATCTTGACCTCTTATTTTCATTTGTGGTCTTGTACTACTAATTCTTATATTACTATTTATAGTATTTATTTGTATCATTTTTGACATAATTATCACAACCTATTATTACAATGTTAAAATTATTTTACAAAATCTACTAAAGTTGGTTGAATAACTTTTGCTCCAACAGAAAGTGACATTCTCTGTACATTTTCTTGTGTTTTTAAATCCATTATAGATTTAGTTATATCTGTATCTTGTGTTCTTGACAATAAGTCACTCATACTTATTTTGTTATCTTCAAGTCTCGCCTCTACTTGCTCTATTCTTCTCATTTTTGCTCCAACTTGAGATCTATATTTCATTATCATATTAAAAATTCTATCTAATTCACCTATCTGTGATTCTATTGTATGTCCATCATTATCTTTATCGCTATTTACATCACCTTTATATATACTATCTCTTAAATATAATAGTTCCTTAAAAAGGTCTCCTTCTTTATTTTTAAAAATTTTATCACCTGTAACATTATACTCTAATGTTACTCCTTTGTCTACTTCTGTCATCATCATTCCTTGATCACCAGTATAATCTATTTTAACTGGAACATCTTTTAATATGTTTTTTCTAAGGTTACCTTCTACGTCTGTTAAATCAAGTGTCGCTTCTTCTCCTTCTTTTAATAAATCATTCCCTGTGAATATTTTAAAAGGCTTTTCTTGGGTATTATATCCCGCAAAAATATATCTTCCCCCTATACTTGAATTTCCTACGACAACTAATTGCTCTATTAATTCATTTATTTCTGATGCTACTGCGTCTCTAGCAGTTTGCTCAAAACTATCATTTGCTGATTGTACCGCTAATTCTCTTATTCTTTGAAGTATTTCACTTACTTGAGTTAATGATACATCTGTTGAGTTAAGATAAGTTTTTGCATTATCCACATTTTCTAAATATTTTTCTATTTCTGTCAATGCTGTTTGATAAGACATAACTTTTACAGCACCAATTGGATTATCTTGAGGAAGATTAATTTTAGTTCCTTTTGACAATCTATCATTAGTAATATCCATTTTTTCCATATTATTTTGTATATTACTAATTGCATTTGTTGACATCATTTTTCCCGTTACTCTCATTTTTTACACCTCTATAGTTTATTAATAAGTGTATCCATCATCTCATTAACAGTAGTTATATATTTTGCTGCAGCATCATATCCATGTTGATATTTTATCATATTAGCCATCTCTTCATCTAATGATACACCTACAACTGCTTCTCTTCTTTTTTCTAAATTATCTATCATTACCTTTTGATTTTTCATAAACTTTTTAGCTTCTTGTGAACTAACTCCAAGATCTGAAATAACTGATTTAAAAAATTCTGCATATGTAAAATCACCAATTGATTTTTTATCTTTTAAAGAAGCTATTCTAAGTGCATTTCTCCCATCACCCTCATTTCCTGGTGAATCCGGTATTCCGTCTCCATCACTATCTACTCCTATAGATGCTGCTATTTCATCTACATTTTCAATAGCAAATCTCATCCTAAAAGCAGCTCCTTCTCGCGGCTGTCCTGTTATTTCCTGACTCAAACTACTTATACTATCCGCTTTTCTAAAATCAAAATCTGCATTTTCTGTTGAAAGAATTCCTAATTTATTTAACAATGTTCCTGATTTTTGATTTAATGTTTTTATATAATAATCTTCATCTTTTAAAGCTCTTAATTTTAATTTACCATTTGGCCCAGCTGATGCTACTACTCCTGCTTTTGATTTATTTATTTCTTCAATAATATCTGTTAAACTATCTTGTGATGTATTATAACTTATTCTGACACCATTTATTTCAAAAAAACCTTCTTCTTCAAATGGCGCATTAGTTGTTACTGTATTACCATTTGCATCTGTTGTCTGAGTTTCTATTTTCAAAACTTCAGAAAGAGGCTTTTTTAATTCTGCAATCTCTTTTGTCCCAGATAATTTATATACTAAAGCTTCATTTCCACCATCATTATTTATATCTCTTATCAAAGGATATGTTGAAAAATCTTCAAAAAAATCTTGTCCTTTTCTACCTTTTAAATCAAATCCTGCTCTATTCATTTCATTTGTAGTATCTATTATTCCTATTGCTAATTCATCTAAATACTTCATGTATTTTACGCTTTCTTTATCTCTAAGGTCTATTAACCCTTTTAAATTACCATTTTCTACTCTTACCGGTTCTTCCAAATCTGCCCACAATAATTGCGCCATACCATTATTTATTTTTGAATCTCTTTTTACTGTTATCTCTTTATATTGATCTTTTTGAACAACTACTCTTCCACCTAAAGAAACAACATTCTCTCCATCTTTTCTTATTACTTTTATACTTACTATTTTCGAAAGTTCTTCTGTTAACAAATCAAATTCATCTCTTAAATCATTAGCATTTTGCCCTCCGGCTTCTGCTCTTTGTATTTGTGAGTTTATTTCTGCTAATCTTTTTAAATAGGAATTTATAGAAGTCACCGTTGATTCTATATCACCATCAAAACTTGTTTGAAGAGCTTGAAATCTTTCATAAGATGTAGAAATTGCTGTCGCCAATTCTTCTGCTCTCTCTTTTACGTTTGCTCTAATAGCCATATCTTCTGGATTTTTACTAAGCTCTTGCATAGCTCCCCAATATTCATCCAAAGTATTTCTTATACTTTGTTCAGAAGGTTCATTTATTATGTATTCCATATGCTTTAAATTCAATTCTTTTGTTTCCCATTTACCACTTTCTGATTTTTCTTTCATTATTCTATCATCAATAAAGCTATCTCTTACTCTTTTTATTGTTTCTACTTCTGAACCTATTCCTACTCTACCATATCTTGGATCTTGCATGCTTACAGTTTCCATATCTACCATTTGTCTACTATATCCTTCTTTATTCGCATTTGATATATTATGACCAGTAGTATCCATGGCTAACTTATGACTAACTAAACTTCTTTTCCCTATTTCTAAACTATTAAACATTCACGTTCACCTCTATTAAAAAAGCAGCTCAATTAGCTGCTATATTTTAGTGTTTAATAAATTGTTACTTGATACATTTTCTTTTTTCTTATATTTGTTATATCCTATTTCTTTTTTTCCCGATAATTCTTTTAATACTTTTTCTAACATCTCATTAGAAATCTCTATTATATTTTTACAGTCATTATTTTTTTGAACAATATCTTCAATAATAGATTTTAATTCAGTTCTTATATTTAATAACTTTTTTTTAATTTCTTCATCAGCTAAATCATTAATATAATCTATTAATTTAATATGTTTTTTATCTTCAAAAAGTTCTAATCTCTGGTTTTCAAGGTTTTCTATATTTTTTGTAAGTTCACGCTCTTCTAATATAGTTTTATTTAACTTTTTTATATCATTTTTTTCTATTGCATCAAATCTATCACAAGCTAATTTATATTCTTTTTTGTGAAATTCTAATTGTTTTTGCAATATCTCAACTAATTTATCCAAAAATTATCCCCTCTTTGAATTTAAAATTGCATCGGCTAATTTATCTAATGAAACATTATAAGTACCAGCTTCAATTCTAGATTTAATATCTGCTATCTTATCTGATCTTTCACCAGAAGCATTTAATTTTGCTTTTAGATAATTTACTTCTGCTTTGTCTACTGTAGTTTTTTTAGCATTAAAAGAAATATCAACTTTATCTTGAATAACTTTTTTATTATTGTTTATTACATTAGCTTTTTTAGTCGATGTCACATCTTTTGTATATTTCCCATAAATGCTATTGATATTTCCTACAATTTTCATCATAATTCACCTCTCCTTCTAAAAAAGCCTATATATCCTCCTACTAAATATATCGACAATTCACTTTAAAACATTAGTATTTTATTTTCTTTTTTCAGCTATATGCATTGATAGTCTTTTAGCTTTATTTTCTTGTGTTGAAGACCCGCCTAAACCACTTTTCATTTCCTCTTGACATCTTTTACATATTCTTCCTGCAAGTATTGATCTACCACATATTTCACATTTAGATGCTGGGGTTACATCTGATTTTTCTATTCTTCCTTCTTCATACCATTTAAGTATAAGTTGTTCACCTACCCCTGTTTCTCTTGCTATTTCTTTTGCAGTAGCTCCTGGATAATCATATAAATAATCTTTTACTATTCTAAAATTAGCTTCTGCATCTTTCATACAATCTGGACATAAATCAAGATTTTTTCTCACTTGTAAAAAAGTTTTCCCACAACTAATGCATTTTGTATGTTTGTGTAACATTCTAATCTCTCCCATCATTTAATATTTTTTTTGCTGTCTTTGTTAATGATAGCGTAAAAATATAGACCTCTTTAATCATATATTTTTTATTAATTGTTTTTATTAATTCATTTACTGTTGTTCCTGTGGTAATTACATCATCAAATATTAAAATAATTTTATTTTCTAAATCACCTTCTATTTTAAAAGCATTTTTTATATTTTTTTCTCTCTCTTTTTTGTTTAAAATTCTACTCATTTTTTTAGTAGCTTTTATTCTTTTAGCTTTTAAATATTTAATATTTAATTTTTTTAAAATTTCCTCTGTTTGATTAAATCCACGTTCTCTAATTCTATTATTATTTATCGGCACAGGTATTATTATTTCTATATTTTTTTTATTTAAAATTTCAAAAAAATCATGTTTTATTAATTTAACAATAATATTTTCTAGATTTTTTATACGATTTAATTTATAATTTTTTAATAATTTACTAAATATAGTCTCATAATCCCATATATAATATATATTTTTTATGCTTCTTAGTTTAGCTATTGATTTTAATTGTTTAAAACAATTATAACATATATACATATTATTGTCAGTAGATTTTTGACATAAAATACATCGGTCATAAAAAAATCCTCTAAAAATTTTATTATAAAAATTTTGGTGTAAGTTGTTTATTATCATCAATAATTTTTGCATTATATACCTCTGTAAAACCACATTGAATACAAGTTTTAAAATAATATTTACCTAATTCTAGTTTTATTCCCGGTTCCTTTTCAGGTAAAAAAACTGTTTTTACAATATATTTTTCTGAGCCACATTTAATACATTTATAATCCAATATCATCACCCCAAAATGCATCTTTTATCCAATTTATTTTATTATTATTAATTGCTATTATATCAAATCTAATATAATTATTTTGTAGATTATTTTTTATTAAATAATTCATGGCTCCCTTTAATATTCTTTTTTGTTTTCTATAATCTACACTTTCTTCTGCATAACCAAATTTTTTATTTTTTCTATATTTCACTTCAAAAAAAATAATTTTATCATCTTTTTTTCCTATTATATCTATTTCAAATCCTTTTCCATAATAATTAGTATCCATTATTTTTATTCCATTATTTTTAAGATAATCTAAAGATAATTTTTCATACTTTTTCCCTACTTCTCTTTTATTCATTATATTTCATTTACCTCAAACTCTTCATCTTCATCCAACTCTTTTAAGAATTCTATCATTTCTGAAATTATTTTAAATATGTCTTCTTCCATAACTTACCCCTTTAAGTTCAGATTATCTATCTTTTGTATACTATCTATTTTTATAAAAATATCTTTTACAATTAAATTATACCCTATTTTTTTTAATTTCTCCTTAGTTATTTCTATTTTTTTTAATATTTCTGATTTTGATAACATTTTTTCAAATTCAAAATTTATATAAATATTTTTATTTTTAATTACAAGTTCTAATTTTATTTTTCCTAATTTTTCAAATTCTATTATAATTATAAACTCTTTATTTACTTCTTTCTCCTCTTTATTTTTTAGATTTATTTTTTCTTTTATTATTATAGGTTTATTTATTGTTTTTAATCCAAACATATATACTAAATAATTATACTTTTGACTATATTCATTATAACTTTTACAAGCTTTATACAATTCTTCATTATTTATTTTAAAATTACTATACTCTTTTTTTAAATTTTCAAATAATTTTTTATTTATATCTATTTTTTTTATTTCTAACTTTCCATTTTCATATAAAAAATATTTTCTTAATAATTCGATTTTATCATTATTGTTTAATTCATTTAATTCATTTGCTATTATAAGTGATTTTTGTAAATAAATATCCTGCTTTTCTTTACTAAATAATCCATATTTTTTTACTAATTTTTTTATTTCATCTGATTTTAAAAAAATTTTCTCTTTTACCAAAATAGTCATAAATTCTTTTTGAATATCTATATCTGTTTTAATTTTATTAATAAATTCTACATTATTTTCATCTATTATTTTTACAAATATCTCATTATTTTTTATATCTACTATTTTTAATTTTACCACACTATTTATTTTTATATTTTTATTACTTTTGGCTTCGATTTTTATCCCATTCATATATAAAATCACACTATTTTTGTTATTGTTTAATACTCTAGCATTTACTATCATTCCAGGCTTTAGATGTGTTATATCTTGTTTGTCAATTATTTTATTAGCTATTTGTTCTATAAATTTAAACATCTTACTCACCCTTCAAATGCAATATTATAATTTTTTTTAATATGAATGTTTTGAATTGATATATAAATAATTCGACTTAATTATTAAAAAAGTTTAAGATTTTCTTCTCCTTTATTTTTATTTTTCTCTAAAATTTTATTTAAAAAACTTTTCCTATGAATTGGAGATTTTCCATATTTCAATAATAACTCTCTATGTTCTTTCGTCCCATAACCTTTATGTTTTTCAAATTTATATATAGGATATTTTTTTGCTTCTTCTATCATTATTTTATCTCGTGTTACTTTTGCAATAATAGAAGCAGCTGCTATAGCTAAACTTTTACTATCACCTTTTACTATTGTTTTTTGATTATAATTACAGTTCTTTATTTTTTTATTTCCATCAACAAGAATAATAGAATTTTTTATCTCGATATGTGAAAGTGCTATATTCATTGCTAAAAATGTAGCATTTAATATATTTATTTCATCTATCTTTTTTTCATCTACTATTCCTATCCCTACTTCACAATTGGCTAATATTGTGTCAAAAAGTTCTTCTCTTTTTTTTTCTGTAAGTTTTTTTGAATCATTTATTAGCTCAAACTCTTCTATATAATTATTTATTCTAACACATGCAGCAACAACTGGACCCGCTAAAGGCCCTCTTCCCGCTTCATCTACTCCTATTGGATAATTATAATTATTGTCAAATTCATAAAGTTTATTCATCTATATCAGCTCTCATTTCTAATTTATTCAAAATTTCTTTGAAATCATTTGGTAACTTTGCTATAAAAGATATTTTTTCATTTGTAATTGGATGATTCATTTCTAATTTATAAGCGTGCAACATTTGTCTAGTAACTAAATTACTTTTTTTACCATATACTTCATCACCTAAAATTGGATGATTTAAATATTTCATGTGTACTCTTATTTGATGAGTTCTTCCTGTTTCAATATTTACTTTAATTAAAGTAAAGTCTCCTTTTTCATCTAATACTTTATAATTACTGATAGCTAATTTCCCATTTTTAGTTACTACTGTCATTTTTTTTCTATTTTTTGTATCTCTACCTATTAAATTTTCTATTCTTCCTTCTTTTTCTTTTAATCTTCCTTTTACAATGCATAAATAAGTTTTATTCATTTTTTTATTTGAAAATTTTTCTATTAACCTATCATATGCTATATTATTTTTAGCTATAACTATAACTCCACTTGTATCTTTATCAAGTCTATGAACAATACCTGGTCTTCTTTCACCTTTAACTTTTAATATTTCAGGATAATAGCTTATAACTGCATTTACTAAAGTTCCCGTCTCGTTGCCAGCTCCTGGATGTACTACTAAATCTGGTTGCTTATTTATTACTAATATATCCTTATCTTCATATATTATATCTAAATCTATATCTTCTCCTAATAATTCTTGTTCTACTTTTTCTGGTATCTTTATTATTATTTTTTCTATTCCTTTTAATTTATAACTAGCTTTTATTTTTTTATTTGTACCAATTACTTCTATATTATTATTCTTAATAAGTTCTTGTATTTCTCTTCTACTTATTTCTGAAATATTTATACTAATATACCTATCTAGTCTAATATTTTTTTCATTTTCTGTTACAATAAACTCTTTAATTTCTTTATACATTAAACTCCCTCATTCTAAATAAATGAGGCAGATAGAAAAGTGCCTTATATCATTAGACTATTCTATCTGCCATTTTTTATCTTCCACAACAATTTTTATATTTTTTACCACTTCCACAAGGACAAGGCTCATTTCTTCCTATTTTTTCACTTTTTCTAGGTTGCTGACGTTCTACTTCTCCTGTTTCATTTTGATGAATATAATTTATATTTTCAGCATTTCTATTATGTCTTAGTTCTATATCTTCTTCTTTCTTTATTCTAATTTTAAATAAGAATGAAGTTACTTCTTCTTTTATTGTTCCTATCATTTCAGCATAAATTTGTGATGATAATAATTGATAATGAACTAATGGATCACTTTGTCCATATGCTCTCAAGTGTATACCTTCTTTTAATTGATCAAGTGTTTTTAAGTTTTCTCTCCATCTAGAATCTGTTACTTCAAGTAATATATATTTTTCAAGTTTCCTAAAGATTTCATCGCCAAACTCTTTTTCTTTTAGCTCATATATTGCTAATAAATCATTGTATACTAATTCTTTTATTTCTGATATTGTTAATTTTAAAATTTTATCTATATCTAAATTATACTCATATAATTCATAAAGTCTATCATATAACTCTTTTGTTTTCCAATCTTCTGTTACATCTCCACTAAGTTTAGCAGATACTTCAGCATTTATTACATCTTTTAGCATATTAAGAACAGTATCTTTTAAATCATCTTTCATTATAGCTGCATTTCTACTTGCATATACCGCTTCTCTTTGTTTGTTCATTACATCATCATATTGAAGTAATGATTTTCTTATCCCAAAGTTTCTAGCTTCTACTTTCTTTTGTGCATTTCCCACCGCTCTTGAAATAAGAGGATGTGTAATAGGTTCATCTTCTGGTATATTTAATCTTTCCATTACACTTGCTACTCTATCAGAACCAAAAAGTCTCATCAAATCATCTTCTAACGAAAGATAAAATTCCGATGCTCCAGGATCTCCTTGTCTCCCAGAACGTCCTCTAAGCTGATTATCTATCCGTCTACTTTCATGTCTTTCAGTACCTAGTATAAATAATCCACCTGCTTTTAAAACTTTTTCTTTTTCGGCTTCGCATTGAGCTTTATATTTTTCAAATACTTCCTTATAATTTTCATGGTCTCTACTTCCTAATTCCCCTAAAGCCATGTATTCTGGATTACCTCCAAGCATGATATCTGTACCCCTACCAGCCATATTTGTAGCAATAGTAACAGCTCCTAATCTTCCTGCTTGAGCTACTATTTCTGCTTCTCTTGCATGATATTTAGCATTTAATACATTATGAGGAATTTTTCTTCTTTTTAACGCTTCAGATAACATTTCAGAATTTGATATTGATATAGTTCCCACAAGTACTGGTTGCCCTTTTTTATGTAATTCTTCTATTTTATTAACAATAGCTCTTACTTTTGCAGCATGATTTTTATAAATTATATCTTCTCTATCTTCTCTTATTACTGGTTTATTTGTAGGAATAACTATTACTCCTAATTTATATGTATGCATAAATTCTGCCGCTTCTGTTTCTGCTGTCCCTGTCATACCTGACAGTTTTTTATACATTCTAAAGTAATTTTGTAATGTTATAGATGCTAAAGTTTGATTTTCACCAGCAATATTTACATTCTCTTTTGCTTCGATCGCTTGATGAAGTCCCTCAGAATATCTTCTTCCTTCTAATGCTCTTCCTGTAAATTCATCTATTATTATTACTTCACCATCTTTTACAAGATAATCTTTATCTCTTTTAAATAACTCTTTTGCTCTTAATGCTTGATTTAAGTAATGTGTAAGTTCTACATTTTCTGGTGAATATAAGTTATCTATTTTTAATATTTTTTCTACTTTTTTTACTCCTTTTTCAGTAAGTACTATTGTATGTCCTTTTTCATCTACTTCATAGTCACCCCATTTTTCATCAGGAATATTCATCTCTTTTTTTAATTTTGGATCTGTAATTTTTTCTGTTTCATAACTTCTTACAAGTTGTTTTGCCACTTCATTAAATATAGTATACCATTTTGTAGTTTGTTCACTAGGTCCTGATATAATAAGTGGTGTTCTAGCCTCATCTATTAATATAGAATCCACCTCATCAATAATAGCATAATTAAGTTCTCTTTGTACTTTTTGTTCAATTGAAGTAACCATATTATCTCTTAGATAATCAAATCCAAATTCACTATTTGTTCCATATAATACATCACATGCATACATTGCTTTTCTTTCTTCTATTGGTAGTCCATTAGTAACAACTCCTACTGTTAGTCCTAAAAACTTATATATTCTACCCATCATATCACTATCACGTGTAGCAAGATAATCATTTACAGTTATTACGTGTACCCCTTTACCTGGTAATGCATTTAAATATACTGCAAGAGTTGCAACAAGAGTTTTTCCTTCTCCAGTTTTCATTTCTGCTATTTTACCTTCATGTAGTACAACTCCACCTATTAATTGTACGTCATAATGTCTCATGCCAAGTACTCTAACAGAAGTTTCTCTAACTACTGCAAATGCTTCTGGTAAAATTTGGTCTAATGTCTCACCTTTATTTAATCTTTCTCTAAATTCTACTGTTTTTTGTTTTAAGTCTTCATCACTTAATTTTTGCATTTCTGGTTCTAATTTGTTAATTTCGTTAACAATTTTTCTTATTCTTTTAATTTCTCTATCATTTTTTGTCCCAAAAATTTTAGTTATTGTTTTAAGCATTGTTTCTCTCCTATCTACATAAAATATAATACTCCAAAAATATACTATCATAACTAAGACCTTTAGTCAATTTGAAATATTTTATTTTTAATTCGATTCTACTACTCCATTTAAATTCTATTTTCTATATTAATAAACTTATGAAATTTTCTTTTAGAATTATTGACAATTATAATAAATTAAAGCTATACTTTTATTACATAGGTTATCATAGAAAGAGGTAGATATTATGTATGATATTATAATTATAGGAGCTGGTGTAATAGGAAGTCTTATCGCTAGAGAATTATCAAAATACAATATAAAAATTGCTTTATTAGAAAAAAATGATGATGTAAGTTGTGGAGCTAGTAAAGCAAACTCTGGTATTATTCATGGTGGATACGATGCAAAACATGGTACTTTAAAATCTAAACTTTCATATAAAGGGAACCAAATGTATGATAAATTAAATTCTGAATTAAATTTTGGTTTTGAAAGAATAGGAAGTTTAGTTGTTGGATATAATGAAGAAGATTTAAAATCGCTTAAAAAACTTATAGAAAATGGTGTTAAAAATGGTGTTAAAAATCTAAAATTATTAACAAAAGAAAAAATAAAAGAAATTGAGCCAAACATAAATGATAATGTTCAATATGCTGTATATTGTAGTGATGTAGGAATTGTTTCTCCTTACGAAGTAACTATTGCTGCTGCTGAAAACGCCATTAAGAATGGAGTTAAATTATTTTTGAATAGTGAGGTTATTTCTATAAAAAAAGATGAATTTTTTATAGTTGAAACTCAAAAAAAAATATTTAAAACAAGATATATAATAAATTGCGCTGGTTTATATAGTGATAAAATAGCTAATATGGTTGGAATTGATGATTTTTATATTATTCCACGAAAAGGTGAATACATGTTATTTGAAAAATATTATGGCGATATTGTAAATCATGTAATATTTCAAGTTCCTACAGTTCATGGAAAAGGGGTATTAGTTACAAAAACTTATCATAATAATTTAATGATTGGTCCAAATGCACAAGAAATTAATACAAAAGATGATAAATCTACATCATTAGAAAATTTAAAATCTATATATATAAAATCTAAAAATTCTATACCTAATATTGACTATAAAAAGATAATTCGTTCCTTTGCAGGTATAAGAGCTACTAGTAATAAACATGATTTTATTATAGAAGAAAGTAAAATTAAAAATTTTATAAATGTAGCGGGTATAGAATCTCCAGGTCTTACAAGCGCTCCTGCTATTGCACAAATGGTTGAAAATATTTTATTAAATAAAGAATCTTTTAAAAAAAATAAAAAATATAATCCATATAGAAAATTTATTGTAAAGAAAAAAACAAAAGATGAATTACTTTCAAACACTGAATTAAAACCTTTATTAGATAATGAAACATATATATGTAGATGTGAGCAAGTAAGTAAAGAAATTATTTTAGACGCCCTTTCTAGAGGAATAGAGGTAAAATCAGTAGATGGTATAAAAAGACGTACTCGTGCAGGGATGGGAATATGTCAAGGAAATTTCTGTAGTTCTCGTGTAAAAAAAATAATCAGTAAATATTATAACATACCAATTGAAACAGTAAAAGATAGAGAAGAGGCAAGTGGTATTATAAATGAAAGAGTAAATAGAATAGAGATTTTAAAAAATTTCAAATAAAATTTAATTTTTTATTTTTTAGTAAAAAAAGCCAGAATTAAAATCTGGCTTTTTATCTTTTTCTTTAAAAATTTTTCTTTAAAAATTTTTGTTCGAATTCTTCATAACCTTTTTTTCTAAGTACACATGAAGGACATTCTCCACATCCATCACCTTTTATTCCATTATAACAAGTGAGTGTATCATTTTTTATAATATCTAGTACTCCTAGCTCATAAGCCATATTCCATGTTTCTGCTTTATCAAGCCACATAAGAGGTGTTTCTACAACAAATTGATAATCCATGGCAAGATTTAATGTAGTATTTAACGATTTTATAAAGTGATCTCTACAATCTGGATATCCACTAAAATCACTTTGTGATACTCCTGTAATTATAATATTTATATCTCTTTGTTTTGCAAATACTGCTGCAAAAGTAAGAAAAATCATATTTCTACCATCAACAAATGTATTTGGAATTCCTTCTACTTCACCTTTCGGTACATTTACATCTACTCTAGTAAGTGCATTTGGAGCTAGTTGATTTAATAAACTCATATCTAATATATGATGCTCTATTCCATGTTTTTTAGTTATTTCTTGTGCACATTCAAGTTCTAATTTATGTTTTTGACCATAATCAAAAGACAATGCTATAACTTCTTTATACTCTTTTTTCGCTTTAAATAAAAGTGTTGTACTATCTTGACCACCACTAAATACAACTACTGCTCTATTTTTGTTAATTCTTTCTTTCACTTTTTTCCTCCCTAAATTTCTTTTGAATTTTTTATAACATTCCAAGTAGATTATTTAATAACTCTTTATCTTCTTTAAATTTTCCTCTAAGAGTTGTTGTCATGGTTTTAGTTCCTGGCTTTTTTATCCCTCTTGTTGTCATACAAGCGTGCTCACCTGTTATAATTACTGCTACATCTTCTGTTTCGGTAATTTTTTGCATGATTTCAGCTATATCCTTACCTATTCTTTCTTGTAATTGAGGTCTTCTTCCTACCATATCAGCAATTCTTACTACTTTACTTAATCCAATGATTTTTTCTTTTGGAATATATGCTACTGCAACCTTCATATTATACATAAGAGCCAAATGATGCTCACACATAGAAAAAATTTCTATATCTTTTAATAAAACCATATCTTTATTGTTTTCTATATAACAATCCTCTTCATCAAATGTTACTCCAAACATTTTTACTATTTCATCATTTGTATATTTTAACCCTTCAAAAATTTCCTCATACATTCTAGCTACTCTCATAGGTGTCCCTTGTAATCCTTCTCTCTCAGGATTTTCACCTATTAATTTTAATATTTCTTTTACATGATAAGCTATTTTTTCTTTATTCATCGTATCTTTATACCCCTCTTTCATCAGGATTCCATATAATTTTGTGCATTTGTAACTGCAATCTCACATCAGTTAATTTATGTTCTTTCATAAACTCTACTATATATTTTGGCTCTATCTCTTTAAATACAGGGCTAAAATATACTTTACCCTCTTTTATATAATTTTTTATTATATTTTTAGCTCTAATAAGATCATAGTTACTTCCTATAACAAATTTTATAGTATCTTTATGAGTTAGTTTATCAAAATTCTCAATTTTCATCAACCCTTCCATTTTACTTGTAGGTAATTTATAATCCATAGTAATATATACTCTTTCTCTATTTATCTTTTCTAATTTTGATAAATCTATACTTCCATTTGTCTCTATTTCAATATTTATTTTATTATTAATAGATAATATTTCTTGTATAACCACACTAATATCATCTTGTAAAAGAGGTTCTCCACCTGTTAAAGTAATATTTTTAATATTATACATATTTATATCATTTTTTATATCTTCTATTGTTATATAAATAGTATTTACATTTTTTTCATTCGCCCACATTGTATCACAATAAGTACATTTTAGATTACAACTCGGAAATCGAATAAATAAACTAATTTCTCCTGCTCTTTGTCCTTCACCATTTATACTAATAAATTTTTCTACTATTTTATATTGTTTCATCTCTGCTCCTCATAAATAGCACTATTATTTGGTGTTTCATATACTATTACTCTTTTTACATCAAATTTTTTATTAAATTCATCATAAAAATATTTTGAAAAATTTTCTGCAGTAGGTCTAAACTCTACTTCAATCAATCTAAAATTTTCTCCTTGAAGCATATTAAAAAGCTCTTTTGATAAACTGTTTTTTTCTACAATTAAAGCATGATCATGAAAATCTACAAATTCTTTTACAACTTTTTTTAAATCACCAAAATCTACTACCATTCCTCTAAGATGGCCATTTTCTACTAATGCATCTGATTTTATTTCCACTACTACTCTCCATCTATGGCCATGAATATTAGCACACTTCCCTTTATATCCTTTTAAAAAATGTGCACTATCAAAACTATGTTCTGTCTGTAAAATATACATATTTTTTACTCCTTTTCTATAAAATTCATTCCATAATAGCAACAACCAATAGCTCCATTAAATTGTGGTTCATCTAATATTAAAATGTCATTATAATCATTTTGTAAATATTCTTTTATTGCCTTATTTTTCGCTACGCCACCACTTATTATCAATTCATCAGATAAAAATTTTGTAAGCATAGGTCGAAGTCTTTTATACATAGAATAATTTACTCCTGCACAAAGAACTTCTACACTATTTCCTTCAGCAATTTTTCCAATTAGCTCTGATTCTGAAAATACTGCACAAGTTGAATTAAGTTCAACAGGATTTATGTAATGATTTGATAATTCATCTAAAGATATTTCAAGTACATTGCTCATATTTTCAAGATATCTTCCGCATGAAGCAGCACATTTATCATTTAAATCAAGATCTGTTATTATTCCTTTTTCTACTTTTATTATTTTTACATCTTGACCACCCACATCAAGTAAGATAAAATCTTTTTTCTCTGTTTGGTACATAGCTCCATATGCATGAGCTTTTATTTCATTTATAGGCATAAACATTTTTAAATCTGTATTATTTCTACCATAACCTGTAGATATTCCTATATCTATATTTTTTATTCCTAGCTTTTCTAAATCAACTGTTATTTTTTCATTATAATTACAATAATTTTTATAAAATTTAACTGTACTCATTTTAAATTTTTCAATAATTTTATTGTTTTCCATAAGAACAATTTTTACTTCTCTACTACCTAAATCTATACCTAAGATTCTCATCTATTACTCCTTTTTTTTAAATCTAATAACATATCTAAAAATGCTTCTATTCTTAATTTTGTTCTAGCATCTAGTCTATCATCCTTATCTCCTTCAATATTTAATACAGGAATATTTAATCTATTTTTTATAATAATATCTTCCATCGCTCTATGACAAAAACTTTGAGTATAATGTATTATTCCGTCTATTTTTCTTTCGTTTATCTGTTTTTCTAGTTCTTTTATTCTATAATCTATATCATATGGATAAGTATAATCATAGTATTGTTCATAAATATTGTCATATTTAAACGCTCTCGGAAATGCAAACTCTCTTGGAACTTCATTATAAACTATTTTTGAATCAAATTTTTCTACAAATTCATGTAAATCACTAAACATTGTAGGTACTCCAATTAATCCTAAATTTAATTTCTTAATATCTGGAGTTCTTTTAATTATTTCTTTTAATTTCTCATCTAAAAATTTTGAATAATTATCTAAATCACCATCAAAATCGCTTAAACAAAGTTGTAAAATATGATTTTCAAATCCGCTTACTTTTCCTTGTAATGTTAATTCATCTATTTTTCGAGCTTTTTCTCTAATATTGTTTATTTCCCATCTTATATTTTCTACTTCTTCCAATGTAACATTAAAAAGACTCATAAATTTATCTATCTCTTTTTTTATATCTTCAAGGTTATGCGAATGCGGATAAGAAAATGGATAAAGCTTTATTCCTTTTTCTTTAAAAAGTTCTAATAATACTTTTGTATTTGAACAATCTCCTTCCAACACTGCTACTACCTCTTTTATTCCTTCACTTATACAAGCACTATAAATGCCTTTTATCCATGCACACATACTTTTAGGAAAACCATATTTTTCTGCATCATGTATATATTCTCTATAGTCATCAGATACTATAAAAACATTATTTAAATCAACTACTTTATATCCAGCAGCTAACAACACTTCAATTGGAACTGTTGTTGTTATTCCTATTTTCTTCATCTTCTTTACTCCTTAAATTTCTTCAAAAATCAAAAAAAAGATAGACTTTGCCTATCTTAACAAAGCCCTAGTTTTATTTATAGACAGGATGGTGCAACTGAACTGTCTTATTTAATTTGAGAAAAAAATTATATCATATTTTTAATAATTTGTAAAAATTTTTTTGAAATTTTATAAAAATTATATAATTAAATACATAAAAAAATATTTAATAAAACTTATACTAAGAATATAAATAATTAATAATAAATTAGCTAGTATTTTATAGATTATAAAAAGGTTAAAGCAGAGCTTTAACCTTTTTATAATCTTATTTTAGATATATTTAATTTAAAATTATACTATTAAATGCTAATTAATCATTTTTAACTGCAATTGATAAACAAACTCCAAATCCACCCCATAAAACTATCATACTAAATACTGCCATAACTATAGAACTATTACTCATAATTTATCTCTCCTTTCACTTCTCTAATCAGATAATTTATCAAATATTTTTGCCAATACAACAGTCGCTAATACAAAACCAGCACCATATAAACCTATTGCACTTAAAGAATATCCTTCATAAGGATTTTTAATATCTTGAATTATATTTAATATTGTCATAATCCCTAAAATTGCAGGTGTTAAATATTTTATTGTAAAATTCCACCAATTTCCAATTTTAAAATCTGATAACGGATTTACATATTCCCTTACTGACTCTAAATTGTAAAACCAAGCAAGTATTATTATTTCTATAAGTCCTGATAATGCTACACCATAATTATTTATATAATGATCAGCTATATCAAGTATATAAAGTCCTGCACCTGTTGCAAATATTAACGATACAAGTCCACCAATTAATACAACATAGTTTATCGCTTTTTTTCTTGTTATATTAAAATTATCTATAATAGCTGCTACTACTGTCTCTATTATTGATATACTTGATGATAATCCTGCAAATAATAAAGATGAGAAAAAAATTACACCAAATAAAACATTCATTCCAGGAAGAGCATTTATTGCTTTAGGAAATACAATAAATGCTAATCCTACTCCTGCACTAGCTACATCTTTTACATCTACACCTTGCGATTGTGCCATATATCCTAATATAGCAAATACAGCTATTCCAGAAAGCAAACTAAAACTAGAGTTTCCAAGCCCTGTAATAAACGCATTATTAACTATATCTGAATCTTTTGGTAAATAACTAGAATAAGCTAACATAATACCAAATGCTATACTTAAAGAATAAAATATTTGTCCATAAGCTGCTACCCATACTCTTGCATCTAATAATTTTACAAAATCTGGTTTAAAGAAATATTCTAATCCTTTTGCTGCACCAGGTAATGTTAATCCTCTAACTACCATAATTAACAAAGATATTATAAGAAGTGGCATAAAAATTTTACTAGCTTTTTCTATACCATCTTTTATTCCAAATGATAAAACTATATAATTAATCCCCCAAACAATAACTAATGGAATTAATACTGTAAAATTTAATCCACCAATATGTAATGGAGAACTACTTAATTTTAAATAATCTCCAAATAAAAACGCTTTTGGATCATTTCCCCATGCTAAAGTAAATGAATTAATCAAATACCCAAATGCCCATGCTATAACCATAATATAGTATACTGTAATTGCAAAAGCTATTGCAGTTTGCCACCAACCTAATATTTTCCATTTTTTGTTTAGTTTACCAAATACTCCTGGCGCACTACTTCTAATTTTATGACCTAATCCAAATTCTAAAATCAAAATAGGAATTCCCGCTGTTAATAAAGCAATTAAATAAGGAATTAAAAATGCTCCTCCTCCATTACTTGCTACAGTATAAGGAAATCTCCATATATTTCCTAATCCTATTGCTGACCCTATTGCAGCCATAATAAATCCTATTCTCGAGCTCCATTCACCACGATTGTTATTACTCATTGTACCTTCCTTTCATCTCTACCTTAATTTTCTAATTTTTCTAAAAAGACTTTTAGTGTCTTTTTTATATAAAATATATAATTTATATAAAATTGTACTAAAATATAGGTATAATATTACACTTTTTTTAATATTTTGTCAATATTTTTTTGTTTAATTATAACTATTAATTCTTCTAATTTTTAATATCTTATTTTAATATATATTACAACATATTAAATATATGTATTTATTTTTACATAGAATTTGTCTTAAAAAAATAAAAGCTTTTTTAACTTGATAACGTTTCCAAAAAATATGTTGATTTTTGGAAATTTATGTTGTATATTTATATTGTATGTATTAAAATTAAATTAAGGAGTGATTATGATTATGAAAAGTAATTCTAAAAAATTAGTTTTTTCTCTAATTTTTTCTTCTTTATTAATAGCTGGTTGTTCTTCTAATCAAGAAAATAACCCTGTAGAAAAAGTTTCTACTGCATCTATTTCTAAAGATTTTTCCAATCTTACTGTTCATTACCAAAGAGGAAATAGTGATTATGATAATTTTACTATTTGGGCTTGGGATGATGTAGATTTTACTGGTGATTGGCCTCATGGTATAAAATATAGTGGAATCGATAATTATGGTGCTGTTTATTCACTTCCATTAAAACCTAATCCAAAAAAAGCTAGTTTTCTTTTTGTTGATGAAACAGATGGCGATAATGGAAAAGATGGTAGTGATAAAATTATTGATGTAACTAAAACAAACGGTTCTGTATGGGCTATGCAAGGTAGTGACGTTGTGTATTATAGTGAACCAGATCCTATTGAAGATAATGAGATAAGAGTGCATTACAAAAGAGATGATGGTAACTATGATAATTTTACTGTTTGGGCTTGGAATGATGCAGATTTTACTGGTGATTGGCCTCATGGTATAAAATATAGTGGAATCGATAATTATGGTGCATATTATGATATACCTTTAAAAACAAATAGAGATGAAGCTAATAATTTAGGTTTCTTATTAGTTGATGAAACTCAAGGTGACCCCGGTAAAGACGGTAGCGATAAAGCATTTACTAAGCTAGCAAAATATAAAGAAATATTTGTTGTTCAAGGTAGCGATGATGTATTTATTGGACCAAATATGGAAACTCCAGATGGTCTTGAAGCTGCTGATATTATAGATGATAATAAAATTTCTCTTAAATTTACAAATACAGAAGACATTAATGAAGAAAATTTAATCTTAAAAAATAAATATAGTATTTCTACTGATATAAAAGATATTAAAATAATTGATAACAAAAAGGTGGTTATTACTGCTGATCTAAGAAAAGATTGGTATCCGTACACTATAGAATATGAAGGATTTAAAATAACATTAAAACCAGGACTTGCTTATTTTGATAGCAAATTTAGTTATACAGATGATGATTTAGGTGCTATATTCAATTCTGATGGTAGTATCACATTAAAAGTATGGGCACCAACTTCTGAAGATGTTCAAGTAGCAATATTTAAAAAGTCTAATCCAGAAATTGAAGCTGAAACTATTCCTATGAATTTAACTGAAAAAGGAGTATGGGCTGTAACTTTATCATCTGATTATAAAGGTGATTTTTATCAATATAAACTAAAACATCAAGGTGAAAAAAAGTATACTTATGCTTTAGATCCTTACGCAAAATCTATGTATGAATTTAAAATAAATACAAATGCTTCTAATAGAGCTATAACTGATGCTATTGGTAAAGGTGCTTTAGTAAATCCTAGTGAAATAGCTCAAATATCAAGTTTTGCTCATATTGATGGATATACAAAAAGAGAAGATGCTATTATATATGAAATGCATGTAAGAGATTTCACTTCTCATATTGATGCAAATACTTCTGCTCAATTTGGAACATATAAAGCATTTATTGAAAAACTCGATTATCTAAAATCATTAGGTGTTACTCATATTCAATTACTTCCTGTACAATCATTTTATTATGGCGATGAATCTAAAAATAGTGAAAGAGAATGGAATTATTCTGCTAAAAACAACAATTATAACTGGGGATATGACCCTCATAGCTATTTTGCTCCAGAAGGAATGTACTCTGAGAACCCAAAAGATCCTGCTTTAAGAATTAAAGAATTAAAAGAATTAATTCAAGCGATTCATGATAAAGGTATGGGAGTTACATTAGATGTTGTATATAATCACACTGCAAACTCTGAAATTTTTGAAAGATTAGTTCCAGGATATTATGGATTTTTAAATGCTGATGGTACTCCTAAAACTAGTTTTGGTGGATTACAAATGGGTACTACTCATGCTATGACAAGAAAGTTAATTATTGATTCTATTAAATATTGGACAAAAGAGTTTAAAGTAGATGGATTTAGATTTGATATGATGGGAAATCTTGATGCTAAAACAGTACAAATGGCATATAACGAAGCTGCAAAATTAAATCCTAATACTTTATTTATAGGAGAAGGTTGGAGAACATTTAATGGTGATGCTGGAGTAACTGGTATAGTTCCTGCTGACCAAGATTGGATGAATAAAACTGATGACGTAGCTGTTTTTTCTGATGAAATAAGAAATGAGCTGAAATCAGGATTTGGTAGTGAAGGTGAGCCTAGATTTATTACAGGTGGAGAAAGAAATATAAATACTATATTTAATAATATAAAAGGACAGCCTAGTAATTTTAATGCTGATGATCCAGGTGATGTAGTACAATATATTGCTGCACACGATAATTTACCTTTACATGATGTTATTTCTCAATCAATAAGAAAAAGTGTAGCTACACACGAAGATGAAATTCAAAAAAGAATTAGACTAGGTAATACTATTATTTTAACTAGTCAAGGTATAGCTTTCTTACACGGTGGACAAGAATATGGAAGAACAAAACAATGGAAAGGTACTGGCAAACCAGAAGATAAATATACTGTAGTTCCTCAAACTAAAGAAATATTTATACATGATTCTTATGATTCGTCTGATAGAATTAATGCATTTGATTGGACTGCTGTAGAAAAAAATGGAAGAGGATATTTAACAAAAGAATATACAAAAGGATTAATAGCAATAAGAAGAAGTACTGATGCATTTAGACTTGGTTCAAAAGATTTAGTTGATTCTAATGTATCTTTATTATATCCAAATGCAAATAAATCAGCTAAAATGATAGCTTATAAAGCTACTGCTACTAATGGTGATGAATACTACGTATTTATTAATGGTTATGCAAATGGTGAAACTCCGAGAGATTCATCTTTAAAAGCTGGTGTATTTGAATTAAATGAAGATTTATCAACTGGTCTTGTACTTGCTGATAATGATGAAGCTAATGTTAATGGTGTAAATGAAATTTCAGGTGTTACTTTTGATGGAAATAAAGTAATCTTAGATCCATTAACTGCTGTAATTATAAAAAAATAAGCATTCCCTCCTTTTTTAAGATAAATAAAAACTATAGCTTTTATATTTGAAAATCTCAAATATATCTGCTATAGTTTTTTTATTTTAATATATTATTTATATTTCTAATAATGCTGCTGCTCCAACTACTCCTGCATCATTTCCAAGTTTTGCTTGCACTATCTCTACTCCTTCTAATGTTACTGAAAGAGCATATTTAGAAAGTTCTTTTTTTACTTTATCGAATAAAAAATCTCCTGCAAGGGCTACTCCTCCACCTACTACTATTACTTCAGGATTTAATACATTTAACAAGTTTCCTATTCCTAAAGCTAAATATCTTGCAGCAAAATCAACTATATCTTCTGAAAATTTATCTCCTTCTTTTGCAGCATCAAATATATGTTTTGCTTCTAATTCATTTATATTTCGATTTATTTTTTCCCATAATAGATTGTTTTTATTTACTCTAAGTCTTAAAACAGCTTCTCTAATTATTCCTGTAGCAGAAGAATATGCTTCCCAACATCCTTTTTGTCCACATCCACAAAGTCTACCATCTGCTTCAAGTTTTATATGACCTACTTCAGCCCCTGCTCCGGTAAATCCCTCAACCAATTTTCCTTCAACTACTATTCCTCCTCCAATTCCTGTTCCTAAAGTAAGTCCTAATACATTTTTATATCCTTTAGCTGCTCCCATCCAAGCTTCTCCAAGTGTTATAACATTTGCATCATTTCCTACTTTTACAGGAAGTTCTAATTTTTCTTCAAGTATTTTAGCAATATTTAAATTTCTCTCCCAAGGAAAATTTGCAAAAAAAGTAACAGTTTCAAAATTTATAACAGGCCCTGGAATCCCAAGTCCAGCTCCTTTTACTTCTGACTTATCAATATTTTTTTCATTTAATAACTCATTGATAAGGTTTGCTATTCTATCAAAAGTATCTTCTACACCTTTTTCAGAATTAGTTTTTATAGATTTTGATACTACCACTTTTCCAGTAGCTTCATCTACAATTCCTGCTTTTACATTTGTTCCTCCTAAATCGATTCCAACAACATACTTATTCATAATAACTCCTGCACCTCCAAATTTTTTAATAATTATATATAAAATAATAACATTTATCAAGCCTTTTTCAATATATTTATAAAAAAAGGTCAAAAAAACCATTTTCTTCAGAACGATGTATTGTTTCGCCACTTTTTAATTTATCTATTCCTGTAAAATCAATTTCTTCCACTTTTGACATAATTCTACAATTTCTTTCTATTACCATATTAGCAGGAATTCTTGCAAATTTTCCTATTACATTTAATCCTGAATAAAGTTTATCTGGTATTTCTTTATTGGGAGTCATATTTTCTCCTACTCCTATTTGACTATTTTCTCCTATATATACTTTTTTATCTATAATTCCTCTATCTACATAAGCATTTTTCCCAACAATAGTATCATTTAATATAATAGAATTTTTTACAATAGCTCCTTTTTCAATAATTACTCCTGGGGAGATTACAGAATTTTCTACATACCCCTTTATTACACAACCATTTGATATAAGCGAATTTTTAGTTCTTCCATCACCTATAAATTTTACCGGAGGTCTTTCTTCACTTTTTGTTCTTATCATAAAATGCTCTTCATATATATCTATAGGTGGTTTTTCTGATATTAATTCTAAATTAGTTTTCCAATATTGATCTAAAGTCCCTACATCTCTCCAATATCCTTTAAATTCAAATGCTTTTATCTTGTATTCATCTATATTTTCTGGAATAATATCTTTTCCAAAATCACTTTTTCCATTTGGTCCACAGTTATTTAGTAACAACTCTTTTAAAACTTCAAATTTAAAAATATATACTCCCATTGATGCTAATTCACTTTTAGGATTTTCTGGCTTTTCTTCAAATTCTAAAATATTTTTATCTTTATCTACTGATAATATACCAAAATGATGAGCTATTTTTCTATCTACTTTTTTTACAGCTATTGTTATATCCGCATCTGTTTCTTCATGTCGCTTTATCATATCCCTATAATCCATTTTATAAACATGATCACCAGCCAAAATAAGTACGTATTTTGGTGAATAATCTGCTACATAATTTAGATTTTGATACACAGCATTTGCAGTCCCTACATACCATTTACCATTTGTTCTTTGGTACGGAGGTAAAAGAGTTACTCCACCATACGATCTATCTAAATCCCATGGCTTACCTACCCCTATGTGATCACTAAGTGATCTTGGTAAGTATTGCGTTAATATTCCTACTGTATAAATATTTGAATTTATACAATTACTCAATACAAAGTCAATTATTCTATACTTCCCAGCAAATGGAACTGCCGGTTTTGCTCTATGATTTGATAAAATATCAAGTCTTGTCCCAGCTCCTCCTGCTAAAATCATGGCTATTACTTTTTTTCCCATACTTCTCACCAGCCTCATTTTATTGTTTCAAATATCTTATCTACATTAACTATAGATATTTCTTTTGTTTCTTCAATTTGTACTTTAGCGTTAATATATGGATTAATTTTACAAAATTTTATAATTTTTTCTTTCTCAATTATTAAAGTATCATAAATTTCATCTACAATCAACGCAAAATTTTTCTTTTTATTAGAAATTATTATATAAATTTTATGTTTTTTCTTTTCTTCTATATTTTTAACATCTAATTTTTTTTTAATATTAAACACTGGAACTATTTCTCCTTTTAAATTAATTATTCCTAAAATGTACTCTGGTAATTCTTCTATTTTTTTTAATTTTAAGTTTATTATTATTTCTTGTATATGATTTATATGAATTAAAAATTTCTCTTCTCCTAATCTAAATAATATAAACTCTTCTCCTGATTTTGAAAATTTTAACATTTCTTCATAATTAATATCATTTGACATATTCATCACCTAATTTTCTTTCTTTTCGCCTGTTACTTTAAATTGCTCTACTTGCATTATAAATTCTTGTATTTTTTGATAAAATACTGTCATTGCTGTAGAAACCTCTTCAGCAGTTGAGGCATTTGATTGTGTTGCTGCTTCTAAATCTGCAATTATTCTATCTACAACTTCTATATCTAGTCTTTGCTCATCTACACTATCTCTAATATTTTGTATTATTTTATTCATTTCATGTATTTTTTCTGATATTTCACTTATAGAATTAGTTGTTTCATTTACTAATTCATTTCCTTTTTCTATTTTATCTACTGTAACTTTTATTCTTTTATTTATTTTTTTAGCAGATTCACTACTTTTTTTAGATAAAGCTCTTATTTCACTTGCAACTACAGCAAATCCTCTTCCTTGTTCTCCTGCTCTTGCAGCTTCTACTGCTGCATTGAGTGCCAAAATATTTGTTTGGAATGCTATTTCATCTATAATCTCTGTTATATCTTCTATTTGTTTAGAGCTTTCATTTATATTTTCCATAGAGCTTTTTAACTCTTTTGAAGCTTCTTCAATTCTCAATGTATTTGTAACTATTTCTTTTACTTTTTCTGTTGCTAAAATAGTTTGTGCAACGTTGTTATTTACTCTTATTCCTATTTGTTTCATTGTGCTACTATTATCTTCTAATGATGCAGCTTGTTCACTTGTTTTTTTAGCTAAGTCTTCATTTGCCATATTCATCTCTTCGGCAGAATTCCCTATACTTTGTGCTTCATTTTTTATTACTGATATCACTTTATCTAATTTTTCTATAAAAAAGTTAAAATTACTAACTAATGCCATAAATTCATTTGTTGTACTACTTTCTATTCTTACACTTAATTCCCCTTTTGCAGCTACTTTTATTTTATTTACAATATTAATTATAGGCTTTGTAAATTTTCTAGAAAATCTATCTACTATAAAATAAGTAAATAATACTATTAAAATTACTATTAATAATGTTGTATTTTGTAAATTTTTTAAATCTTTTTTTAAATCAGATGTTTCCACTGCCCCTATAAGAATCCAATTATTTTTTAACTTACTATAAAATAGTGTTTTGTTTTTCCCTAAATATTTGTATTCTAATATATCTCTAGTTTTTAAAAATTGTTTTTTTTCTAAACCTTCTATTCCATTGACATTAAAAATATTTTTATTATTAAGATCGATATTGGGATGATATATAAAATTAAATTTACTATCTAATAATGCGTAATATCCACTTTTATAAAATTCTCTTTTTTTTAATTCTGTATAAATTTTATCATAATCAAATTCTATTCCTATTACTCCATATTCTCTCCCATTTAAATACAATACTCTTTGATATTTTATTTCTGTTATCCCTTTGTCACTCTCAGGTAAACTCCAACCTTCAAAATAATCAATATTTTTATCTATTTTTTCTTTTGTATATATCCCATCTTTATCATAATCACTTAACATCACTCCTCTACCGTCTTTCAATTTTATATAAATTCCTAATTTTTTTTCTAAATCTAAATATTTCAGAAAAAATTTTTCTAAATCTTGTATTTTTTTATTATCTACTATATTTTCATTGTATAAATTAAAGTATGTATCTATTATATTAGTATCTTGAAAAAGTTCTTTTTCAAATAATAATTCTTGTTCATTTATTTTAGAATCTAATATTATTTTATAATTTCGTTCAAACATATTTTTACTTATAATGTTTATAGAAAATATCATTAATGTTGACATTATTAAAATTGATATCATTACATTCAAAGTAATTTGTTTCGTTATTTTCATTTATATACCTCCAAATTTTTTTAATAAATTTATATTAATTTTTTTTATTTTATAGTAATTTTGGATTAATAACTGGAACTAACTCTCCATTTCCTAATATAGTTACTCCTGAATATTTTCTTAATTTATCATAAGTTACATTTATATCCCTAATAATATATTCTCTCTCATCTAATATGTCCTTTATAAAATATCCTTTTTTTTGATCTCCATTTTTAAGTATCATTATTACTCTATTTACTATATCTTTATTCGAGTCAATATATCCTACTTCATACTCTTCGCCTTTATATTTTATTTTATCCTCTATTAATTCTACGTTATTTACATCTATTATTTTTTCTACACTTGATAATGGTATTATATATTTTTCGTCTGTTTTTACTAAAAATCCTTCTATTATAGATATTGTATTTGGTACTTTTAATATAAACCTTGTGTATTTATCTGTTTCTGTTTCTATTCTTATTTCTCCACCTAATTCTTCAATAGTTGATTTTACTACATCCATCCCTATTCCTCGTCCTGATATCTCTGTAACATAGTCAGATGTTGAAAAGCCAGGTAAAAATATAAGTTGTAAAATTTCTTCTTTTTCCATTGTTTTATTTATATCTACAATTCCTTTTTCTAAAGCTTTTCTATATATTTCATTACTATCAAGTCCTACTCCATCATCTTCTATCTCTATTACAATAAAATCATTTTCTTGATATGCTTCTACTCTTATGTGACCTGTTTCTATTTTCCCTTTTCTTCTTCTTTCACCTCTGCTCTCTATTCCATGATCTAACGAATTTTTTATCATATGCTTTAATGAAGGAGCTATTTTTTCTAATATAGTTTTGTCTATTTTTGTTGTTTCTCCTAATATTTCGAGTTGAACATCTTTATCTAATTCTATACATATGTCCTTTACTATTTTATTTAATTGATAAAACAAAACATTTGCTTGAATTAATCTAATTTGAAAAATATCTTCTTGTAATTCTTTTGTAATGTTTTTTATTTTACTCAATAAATCTATATATTGTTCTCTATATTCTTCATTAACTTTCTCTTCAAACATATATAATCCTGATTGCTTTATAGAAAGTTCTGTTATTGAATTAAGTAAACTATCCAATATATTTGTTTCTATTCTTACAAATTGTATATTTTTCAATTCTTCAATATTACTACTTAATTTTTTCTCTTTATTTTTTTTCTTTATTTCTCCTTTTTGTACACTATATTCCCCTTCACCAGATAATAAAACTTCTAACATTCCTTTTATTTCATCTAAATTTTCCAATAAAACTACTACTTTATAATTTCCTTCTTTTTCTTTATCTATCGATATTAATTTCCCATAAAAATCAAATAATTGTTCTATCTCTTTTATTTTCAAACTTCTTTCTTCATAAAACTTTAAATGGAAAGTATATACCTCTTTTCCTAATTCTTTTTTTGTATCAATTTTCTGAGTTACTAAATTTATTTCCTCTTCTTTTTTATTCCTTTTGCAACTTTTTTTATTTTGATTTTTTGAAAATTCTGTCGAAAGAGCTTTTTCAAAACCTTCATTTTCAGCTACTTTTATAAATTCTCTTACTTCATCCAACTTATCTAATACTTCTCTTACTATTTTTTCTTTTTCTTTTCCTTCTTTCCACCTATCCTCTATTTCATGAAAAAATTTTGAGTACTCATCAATATCAAAAGTAGCAAAGTCTCCTTTTAATGTATGAAAATGTCTTCTAATTTGAACATCTGTTTCCTCATCAATATCAGAATTATATTCATATAATATTTTTTCCAAATCTTCTACTATATCATAAACTTCCTCAAAAAATATCTTTATATATGAATTATCCATAACTCCTCCTTTAGAGAATTATTTATCAGCTTATTATGAAATTTCTCCTATATTCTTTATACAAAAAAAAATCAAAATTCTTTTTATTTTTTTTATTTTTTTATTCTTTACAAACTTCAATTAAATTGATAATATATATATTCTATGATATAATAAAAAATAGAGGTGATGAAAATTGCATTTGTTTTTAACTGAAGGAATGGGTTGGTTAGAAGTTATAACTGGTAGTATGTTTTCTGGAAAAAGCGAAGAGTTAATAAGAAGATTAAGACGTGCAAAATATGCTAATCAAAAAGTTATTGCTTTTAAGCATTCAAGTGATAAAAGATATGATAATACAAAAGTAGCTTCTCATTCGAAAAATTTTATAGAAGCTATTCCTGCAAGTAATGCAAAAGAGATAGAAGAATTAGTATTTGAAAAATACTATGATGCTGAAGTTATAGGAATTGATGAAGTTCAATTTTTTGGTCTTGATATAGTACCCGTTGTAGAAAGATTTGCAAATATAGGAAAAAGAGTTATTGTAGCCGGTCTTGACCAAGATTTTAGAGGTGAACCATTTCATCCTATGCCAGAATTATTAGCTAGAGCAGAACATACAGATAAGTTAAATGCTATATGTATGGTATGTGGAAGTCCTGCTTCTCGTACTCAAAGACTTGTTAATGGAGAACCTGCTTATTATGATGACCCTATTATCCAAGTTGGTGCTTCTGAATCATACGAAGCTAGATGTAGAAAATGTCATATAGTAAAATATAGAGAAAAAAAAGAAGGAAAACTATATTTTATAGTTGGTACAAGCACTGAAATAGGAAAAACATATTCTACTATCAATTTAATAAAAGATGATTTAAAAAACAATAAAAATATTATTGCATTAAAGCCAATAGAAACTGGATTTAAAACATTTAATTCAATAGATGATTCTGATAGTGGAAAATATGCTAAATTATTAAATAAAGAACTTTCTGAAATTAATGAATATTTTTTCAATAAACCATTATCTCCACATTTAGCTTCTATTGCTGATAATACAATTATTAATCTAAATAACATTAAAACTAAAATTAATAATGCTCTTAATAAATATGATACAGTTTATATCGAGGGAGCTGGTGGTTTATTAGTTCCTTTAAAAGATAAATTTACTTTTTTAGATCTTATTATTGCTTATAGACAAAAAGCTGAAGTTATTTTAATCTCTGCAAATACATTAGGAACAATTAATCATACATTACTTACTGTTGATGTCCTCAAAAGAAATGATATAAAAATAAAAGGTATTATTTTTAATAATATTGATAATATAAAAGATGAAAAATTTTTAAATGATAATATAGAAACTATAAAATCATTTACAAATATTGAAATTTTAAAAACTATAGATTATAAGGAAATTTGAAATGATAAATATTAGAAAATTAGAAAAATCTGATAAATTCGGCTATTTTTTTTGGATAAAATACAATGGTAAATTTTTTGATGCTTTTGATAAAATAAAAAATAAAAAAACTATAAAAGAAGAATTTGAAATTTCTCTAAAAAAACTTGGAATATCTTGGGCTAAAGGTATACAGCAAGGTGGTAGAACAGATAGCGGTGTTAGTGCTAATAAAAATTTGCTCTATATTTCTACTTATTTTAATGGTGATTTAGAAAAATTAAAAAACGATTTTAATTATTTAAATAAACATTTAAAAATTATTAAAATCGAAAAAACTATACCAAATCTTGTTATTCCTGATATTATTCAAATGCGTGAATATATTTATACCTATCCAAAAGAAAAAATAGATATTTCGGAATATGAAATTATTGAAAAATGTAAAAGTCTTTCTGGAGAATATGATTTATCAGAATTTACAGATTTCAAAGGGAAAAAACTTAAAAATCCCATTAGAAAAGTTAATATTATTTATGAAAATAATTCTCTTGTTTTTAAAGGAAATTCATTTTTACCAAAACAAATTAGAATTATGAGTAGTTATATTTTTACTAATACAAAAAAAATCTTCCCTGCAAAATATCTTACATTAAATAATATTATATTAAAAAAAGAATATCAAAATTTAATTATAAAAGAGATAAAAGAGCTCTCTATAAATGATGTAACTAAAATTGAAAAGTTAAATGATATTTATATATTATATACTAATGATAAAAGTGCTTTAATTGGTAAACGTGGAAAAAATATAAAAAAATTAAGAAAAAAATTAGGAAATGTCATTATAAAAGGGAATTAAGTTTGTGGGAGGATAAATGCTTTACAAATTAAAACAGGTATTAAATATCATATACCCTAAAATTAGAGAAAAAGATTACCAACTTGTTATAAAATATTTAGAACCGCTTGAATTAAATATTTTCAACGAAATGTCAACTTATGATAAAAAACACTCAATAAACATTTTAAAAGATTGTTTGAAAAACGAGAAACTAAAAGATGATATTTTATATTTAAAGCTTGCTCTTCTTCATGATTGTGGAAAAGATAAAAAAACTAAATTTTATCAAAGAGTTTTTCATTCAATTACAAAAAAGGGAGTTTTACAATTTCATACAAAACGTGGTTTTGAAAAAATAAAAGATATAAATTATAAATTAGCTTTACTTATATTAAAACACCATAATAAAAATATACAAAATGAAAAACTAAAAATATTTAGAAAAATAGATGATAGAAATTAGAAAGGAAAACAATGGTAAATATTGAGAAATACCTTTTAAAAGTAGAAAAACCAGCTCAATATCTTGGTAATGAATTAAATACAGTTCACAAAACTGATTTTATTAGTAATATGTGTTTAATATTTCCTGATACTTATGAAATTGGTATGTCAAATTTAGGTATAAAGATACTATACACTATAGCAAATAAAGTAGATGGTTTTTCTTTAGAAAGAGCCTTTTCGCCTATGGAAGATATGGAAAATATACTTAGAGAAAATCATATTCCTATGTTTTCTTTAGAAAGTAAAACACCATTAAATGAATTTGATTTATTAGGTTTTTCTTTAGGCTATGAACTTTGTTATACAAATATACTAAACATATTAGAACTTGCTAACATTCCTCATAATAGAGAAGAAAGAGGTGAGGAGCATCCACTTATTATGGCAGGTGGAAGTTGTGTAGTAAATCCTATCCCTTTAGAAAAATTTATGGATTTTTTTATTATTGGTGATGGAGAAAATGCCATAAAAGAAGTAGCTGAATTATTTGTAAAAAATAAAAATTTATCAAAACAAGAAAAATTAAATTTATTAAAAGATATAGAGGGAGTTTATGTACCTTCTTTACATGATAAAACTAAAAAAATAAAAAAAGCAATTGTTAAAGATTTAAATAGCGTAGAATATCAAGGTGAACAAATAGTATCATATATTAATATTGTTCATGACAGATCTATTATAGAAATACAAAGAGGTTGTAGTAGAGGTTGTAGATTTTGCCAAGCAGGTATTATTTATAGGCCTATTAGAGAAAAAAGTTTATCTACAAATTTAAAACAAATTAAAAACTCTATAATGACTACTGGATATAATGAAATTTCATTATCATCTCTTAGCAGTTCTGATTATAGTAAAATAGATATTCTTCTTCAAAATATTCAAAAAAAATATTCAAAAGATAATATTAGTGTATCATTACCATCTCTTCGAATGAATCCTCACTCTGTAAAAGTAGCAGAAGAGATTCAAACAGGGAAAAAAACTGGCTTTACTTTTGCTCCCGAAGCTGGATCACAGCGAATGAGAGATATTATTAATAAAGGAGTTACAGAAAAAGAAATAATTGAAACAGCCATTGCTGCTACAAAAGCTGGTTGGAATAGCTTTAAATTTTATTTTATGATTGGACTTCCTTTTGAAACATATGATGACATTGAAGCTATCAAAACTCTTATCCAAAAAGTTTTATGGGAATGTAGAAAAATAAAAAAAGGAATAAACATAACTGTAAGTGTTTCTAATTTTGTACCAAAACCTCATACTCCTTTTCAATGGACCGAACAAATGAATTTAACTGAAATGGAAGAAAAACATAAATTTTTAAAAGAACTTTTTTCTAGAGTAAAAGGTGCTACACTAAAGCTTCATTATAGAGAAACATCTCTTCTTGAAGGAGTTATTTCTAGAGGTGATGAAAAAATAGGTGACCTTATTGAATTAGCCTTTAAAAAAGGTGCAAAATTTGATAGCTGGAAAAATAAATTTGATTTTGAATATTGGTTAGAATCAATGAAAGAATTAAATATTGATTATAATGATTATCTTAGACAGAGAGATGAAAACGAGACTTTACCATGGGATTTTGTAGATATCGGTGTTTCAAAAAAATTTTTATTAAATGAATGGGAAAAATCAAAACAGGAAATTCTTACTATTGATTGTAGAGAAAACTGCGCTGCTTGTGGTATCAAAAAATATGTCCCAGAATGTGGAAATATTTTATCAGATTAATATATAAAAGGGATACTTAAAAATCCCTTTTTTTATTTGATATATTTCTATTATTTTGATATAATTTTTTAATCTTAAACTAATAACTTAAAATTAAAAAATTTTTAAATATAAAAAAAATGAGGTATAATTATGATAGATTTACATATACACACTACTGCTTCTGATGGAACTTTATCTCCGATAGAATTGGTCAAATATGCTAAACAAAAAAATTTATCTGTTATCGCTATAACTGACCATGATTCAATATCTGCTTTAGAAGAAGCTATTTTAGAAGGAAAGAAAAAAAATATTACTGTTATACCTGGAATTGAATTTTCTACTGAATATAATTACAAAGAAGTTCATATTTTAGGATATTTTATAGATTATACAAATGAAGAATTAATAAAAACTATAAATTCTTTAAAAAATGAAAGAATCAATAGAACTTATAAAATTATAGAAAAATTAAATATTAATAATATAAATATATCTATGGAAGATATAGAAAAAGAAGCTAAAGGCGATGTTATTAGCAGAATGCATATATCTAATGTTCTTTTGAAAAAAAATTATGTATCTACAAAAGCAGAAGCTTTTGAAAAATATTTAGGCATTGGAAAATCAGCTTATATTAAAAGAAAATTAACACCTTTAAAAGCTATAGAAATTATTAAAAACTCTGGTGGTTTAGCAGTTTTAGCTCATCCAAAACTAATACATTTAGAAAATGAGAAAGAATTTATTTCTTTGTTAGCTCAAAATAAACTGGATGGAATAGAAAGTTACTATCCTGGATTTTCTTCTAGTGATGTTGATAGATATATTAATTTTTGTAATATTTATAATTTGATACCAACTGGTGGCTCTGATTTTCATGGTCATAATCGCTTGACTTCTGATCTAAATATGCTTAAATTACCACAAAAAATTTATTTGAATTTACTAAATAGATTAAATGTTTAGTAACTATTTTTCGGGAGGAAAAAATGCACATAAGTAATATGAACACATTAAATAAAGCTATTTTAATTAATTTTATTACTATACTCACTTTAATACTCTTAGATATAATTTTTTTTACAATTAATAATCAATATTTTCCTTTAATTTCTTTGACTCTATTATTTGGAATATATTCTTATATTTATTTTTCAAATAATATACTTATTAAAACTAAAAAATATAGCCTTTCTTTGGCTTTTCCGATTATTTTATTATTAACTATACCATTTATAAATATAAGAAATTTATTAATACAAAATATTATATTTCTAATGTTAATTATTAATAGTCTCTATTTAAATAGAAAAGTCTTAAGAACAAATTTTTTATCTATTTTTGTTTCTATTTTTATCTTATTTTTAATTGATAAAAACCATTTAATAATAACTTTTTTTGATTTAAATAATTTTATAACTTTTTCTTTAAATTTCATATTGATTTTCTTAACTTTAAGTACATTAATTAGATGGTACAATAAAAATATTGCTACTTTTAGAGATACTTTAGATGTATTAGAGCAATCGGAAGAAAAATATAAAAAAACTATTCAAAATATTCAAGATGGATTAATTATATTAGGAAATAACCGTATTGAAGAGTGTAATGATATTTTTGCTAATATGGTTGGATGCTCTTTAGAAAATATAATTGGTGAAAGACTTGAAACATTTATTGAAAAAGAACATTATGAAAAAATATCTAAATATTTTTTAGAACTTATTTTTGATGAAGTAGATACTATAAGTTTTGAAACTAATTTTATAAATAAGAAAAATAACGAGATTATTAGAATTATATTTAGTGCTGCTAAAGTAGAATTTTTTTCTTCCTATAAAATACTCGCAACATTAAAAGATATTACTATACAAAAAAATGTAGAAACTCTTTTAAAAAATAATGCAAAATTATTAGAAGAAAAAGTTAAGGAAAGAACTTTAGAATTAGAAGAAGCAAATAAAAAATTAAATGATCTTATTCAAATAGATGGGCTTACAAAATTATACAACTACAAATTCTTGACAACAAAAATAAAAGAAAAAATAGATAATTCTTTAAAAACTAGCAAACCTTTATCTATTATTTTACTTGACCTAGATCATTTTAAACTTATTAATGATAATTTTGGACATCTTACTGGTGATGAAGTCTTAATTAAACTAGGAAAATTAATGAAAAATATCATCGGAAATAACGGTTATGTTGGAAGATATGGAGGTGAAGAATTTTTAATTCTTTTACCAGATTGTATTTTGGAAAAAGCTGTTGAATATGGTGAATTAATCCGAAAAAAGGTAGAAAAATATAATTTTGAAGAATTTAATGTAACTATAAGTGGAGGAATAGCTACATTTTCAAAAGAAGATAATAGTTATTCTTTAATTGATAAGGCAGATAAAAAATTATATGAAGCTAAGAAAAATGGACGAAATAAGATTATCCATTAATATTGTAAATTTAAAATAAGAAAGGAAGATTTTATGAAAAAAACATTGATTTTTATGACATTTTTATTAATAACAAGTTTCTCTTTTGCAAGTGGACTTTTTATTAAATCTGGCCCTGCTTGGAAACCTATAAAAAAAGAAAATAATACACAAACTGAAACTTTTAATAGAAACTGGCATTTAGAACTTGATTTAATGGGAAAATTAAGTGAAACTTGGGATATTGGTGCTGGTATAGAATTTAATAAAAGATATGAAAATGAAAATGGTAAAGAAGACCTTGGATACCTCCCTATTTATATATCAACACGATATAAATTAAGACAAGTAAATACCGCATCTTTTCCTTATCTAATAGGCCGAATTGGTTTATCTTTTCCAATAAAATATACAGATAATATTGAAACTGTAAGTGGTGGTGGATATGTAGCACTTGGAATAGGTTTAGAGCTTGACCACATGATTATTGAGCTTGTGTCTTCAGCTGCATCTATACAGCAAAGCGAGCTTTTAACATCAAATAAAACTATAAAGTTTGAAAAAGTTTCATTAATGTTTGGATATAGATTTGGAGAAAATTATTATACTCCTAGAGCTCTTTATAAAGCTCCTGTGCAAAAACAACCTATAATAAATACAAAAAATACTCCTATTAACGAAACTCCAGAATATAGTAAAGATGTCAAAGAAAGACTTGATAATTTAAAACAACTTCGTATTGACGGGTATATTACAGAAGAAGAATATTATGAAAAAAGAAAAGAAATATTAAGTGATATTTAAGAGCTTGATTTACAAGCTCTTTTTTTATAGGATTTTTTATTGAGTAGTGATATAATATAATAAAAAAAGGAGTTTTAATTATGGTTGATGCAATATATATACACATCCCCTTTTGTCAAAGAAAATGTTATTATTGTGACTTTTTATCTTTTTCAAATATGAATGATGAAATTGACAATTATGTAGAACATTTAATAAAAGAGATAAATTTATACCCTAAATACAACTTTGATACTATATATTTTGGTGGAGGAACTCCCTCTCTTTTATCTCCAAAACATATAAACAAAATATTAGAAAATTTAAACTTTAATTCTAATAGTGAAATTACTTTAGAAGTAAATCCTATTACTGTTAATTATGATAAATTAAAACAATTTAAAAATAGTGGAATAAATAGATTAAGTATTGGTATCCAAAGTTTTGATAATAAGATATTAAAACTTTTGGGAAGATTACATGATGATAAAAAAGCTATTTCTACATATTATGATGCTCGAAAAGCTGGATTTGATAATATCAGTGTTGATTTAATGTTTGCTATTCCTAATCAAACATTAAAAATACTAAATAATGATTTAAATATTTTAAAAAATCTAAATCCTGAACATATTTCAATATATTCTTTAATTTGGGAAGAAGGAACAAAATTTTGGGAAATGAAAGAAAAACATATTTTAATGCCATTATCAAATGAAATAGAAGCTGATATGTATAAAAAAATTATTGACTTCCTTACTAAAAATAATTATATACATTATGAAATCTCAAATTTCTCAAAACAAAATTTTGAAGCAAGACATAATTCTAAATATTGGGAAAATAAAGAATATATAGGAGTAGGTCTTGGATCTTCTGGTTATTATAATAGATTCCGATACAAAAATGTTTGCTTTTTGGATAAATATTATGGTATCATTAATATTAGTGACCTACCTATAATCGAAAAAGAAATTATTGATAAAAAGGATAGTTTTAAATATATTTTAGGTCTTAGACTACTTAATAAAGGAATTTCTCCAAGAGAGGATAAATATATTAAAATATGTAATGACTTAGTAAAAAAAGAATTTTTAACAAATACTAATAATAAATATTTTTTAACTAAAAAAGGAATTTTTTATGCAAATGATGTATTTTTAGAATTTATTGATTAGGAGAGATTTATGAGTTTAAAAGATACTATTACTAAAAATTTTAATGAAATAAATGAAGATATTAAAAAATATTCTCCATATCCGGAAAAAGTAAAAATAGTTGGTGCTACAAAATATCTTGATAAATATAAACTTGAAGATTATTTTTATTCAGGAGCTAAGATTATTGGAGAAAATAGAGTCCAATCTTTAAGAGAAAAAAAAGAACATTTTGATAATTTAGATATAAGTAAAAAAATTGAATGGCATTTTATTGGTTCATTACAAAAAAATAAACTCAAATATTTTATTGATTATATTAATTTAATTCATTCAGTAGATAGATTATCTATTGCAGAAGCAATTGATAAAGAAGCTAAAAAACGAAATAAAATTATTAATTGTCTTTTAGAAATAAATATATCAAAAGAAAAAAGTAAACATGGTTTTTTTATTGAAGATTTATATGAAAATATTAATAAATTAAAATCTTTAAATAATTTAAATATAATTGGTCTCATGACCATGGCACCATTTACTAAAGATAAGGAGATCATTTTAAACGTTTTTAAGAATTTAAAAACTTTAAAAGATGAACTAAATAATACACATTTTAATGGTGAATTAACGGAGTTATCTATGGGAATGAGTAATGATTATAAACTTGCTTTATCTCAAGGAGCAACTATGATCAGAATAGGAAGTAAACTTTTTAATTAATCAAGGAGTGATATTAATGAATATTTTTGACAATATTAAAAATCAATTCGGTTCTCATTCAAATAATTTTGATAGTGATGATTTTGAAAATAATGAGAATTCTGTAAAACAAGAAAAAAAAGATAATAAAATTATTTCTATAAATAATTATTCTGATCTTTCAAAATCTTATGGAAATGAAGATAATCAAGATACTCAAGAAAAGCAAATTGCAATGATTAAACCAAAATCTTTTGAAGAAGCAATTAAAATATCTAATTGGATTGAAGAAGAAAAAATTATAGTATTATCTGTTGAATTACTTACACCAAAATTAACTCAAAGACTTATAGATTTTATATCTGGTGCACTTTACATTAAAAAAGGCGAAATGTTTGAGATGACAAAAGGGGAAGTTTTTGTTTGTATACCTAATAAATATGGATCTATATTAGATATTAATAGTCTTACTGAGAATACAATTTCAAAATTAAATCTAAAATCTACAAATAATTATGAAGAAATCAAACCAAAATTTAATACAAAATAATAAATGAAATTTGTTTTTGATTCTTTTTTGTTTTATCCTGAAAAATTTATATAATAAAAAAATGACTCCAGATTTTTAAAAAATTAGTAGTCATTTTTTTATTATCTTTTTTCACTATAAACATATCTACTGATAATATTTAGCAAAAGGATCCTCTTCTGTTATAACTTCTCCAAAATTAGCTCCAGAAAAAGTACCATTAAATCTGTAACCTATATTAATTGATATTCTATTTGAAAACATACTCCAACCACTACTTCCTCCAAGTGATTGTGCTGCACTTAAATCAAATTGATATTCTCCTTCTAAAATAAAACTATTATATTCAAATCCCAACCCTACTGCTGCAAATGGAGAACTAACTTTTAATATATTTTGTACAGTATAATTAGCATTAGTTGCTGTCGTCCATTCTTTTTTAGCATATTCTATTGCTATTCCCAGTTTTATATTTAAAAACATATCCTCATCTGGATAAAATCCTGAATCAAATTTTTTCTGCATTAATAGATAAATTGGTAAATAATTAGCATACATATAACCAGAACCATTATTTATAGCTTTATTTAATTTTGAGCTTTGAATATAAGATACTCCTACTCCAAAAAATACCGACTCAAACCATTCTGTTCTGTTATGTAATTCAAAGCTATAAGTTCTCGAGCTCAACATTTTTATCGTTGTATTTGCTGTATCTACTGTTATTCCATCATTATCTTTTATTGTTTCGTAATAATTTCCACCTAAATGTGTTCCTATTTTTAATATATAACTGTTATCAAAAATTTCATATGCAGAAAAAGTATACGAAAACATTATAAAATAAACTAATATTAATTTTTTCATTTTAGACTTTGACTCCTTTCGTAACCTTTAATTTTATTATCGACTTATTTTTATATTTATTAAATCTAATTGTAAATATTTATCAGATATGATATAATTAAACTTAATAAAATTTTTAACAAGGAGTCTTTTTATGTTTGATAACCTAAAAAAACATGATACTGCTACTAAAAATATTGTTAATAAAATATTTTTCAAATTAAGCAAAGACATAGAAGGATACTATATTTCTATTGTTGATGAACATAATAACTATATAGAAAATATAGACCATCATAATTTTAATAAAAATACTCAAGATATCCTTGATATTATTGAAAGTATTGAAACAGAAAATTTATTTAGTATTTCATGGGAAAACAATGATAAAAAAGTTTATTTAAATGAACATCCTTTTTTATTAAATTTATTAAAAAATAGTAAAATTTTAATAGATGATAATTTTAATAAATTAAACTTTATAGATAAGATCTATGATTTAACTTTAGTTATTAAAAATAATAATACTGAACTAACATCTACATTATATTTAAACAATAATATAAAAAATTTTATTCTTATTACTGAAAATTGTGCTTTATTTGATAATAATCTTGTCTTCATTAAAGATATTGGTGAAAATTTTGAAAATATCCAAGATTTAAATTCAACTTTTATTTATGAAGAATTTGAAAAATTCTTAACAATAACATATTCTTATTTTAATAATATAATTATCAAATATAACAATTATTCTGTCGAAAATGGTCCACTTATAACTGCAAAACCATTAATAATAATAGAAAAAATTGATAAAGCTAAAAGTTTATATTTAAAATTAGGTACTTTTATTCCTAATTTTGATAATAATTTTATAGAAGAATATAATATTAAAAATATAATTACTGTCAATGATTTAGAACAAAAAATTTTAATCCATGATATAGAATTTTTTAATATTTCTAAAGAACTGGAATATTTACTAAAGATAATTGTCACATATCAAAGAGAATTAAAATTAAAAAATGGTTATTTTTTTGATGAAACTTTAATCATTCTAGAAGAAAAATTAGCACGTGAATTTATCAGTAAAGAGCTTACTAATCTTCTTACTAAATATCAAATTATTGGTACTGATAAATTTAAAAAATATAATATTAAAAATGTTAAACCAAAATTAATAACTAACTTATCTCATTCTATTGATTTTTTAGAAGGAGATGTTAGTATTCAAATAGAAAATGAAATTTTTTCCATTTTTGATTTGTTATCAATTTATAAAAAAAATTCTTATATTACGCTTAGTGATGGAACAAATGCATTAATCAATAAAAATTATATTGAAAAATTAGAAAGAATTTTTAGAAAAGATAAAACAAAAACAAAAATATCTTTTTTTGATTTACCTATTATACAGGATTTAATTGATGAAAAGATTTTAATAGATGCATTTCCTAAAATAAAAGAGATTTTTGAAGGTTTTAATAAAATTTCTTCTTTAGATCTCCAAAAGCCTGATATTAATGCTACTTTAAGAAGTTATCAAGAATATGGTTATAAATGGCTTGTATTTTTATATAACAACAATTTAAATGGATGCTTGGCTGATGATATGGGACTCGGAAAAACAATTCAAACTATATCATTATTATCATATATTTATCCAAAATCTAAAAAACCTACTCTTATTGTAATGCCTAAAAGTCTTATTTATAATTGGGAAAATGAAATTTTAAAATTTAATCCTAATCTTTATACAAAAATATATTATGGTATAACTAGAAATTTAGATAATGTTTTAGATGCTCAAATTATTTTGACAACATATGGTACTGTCCGAAATGATATAAAATTTTTAAAAGAAATAGATTTTGAAATGATAGTTCTTGATGAATCACAAAATATAAAAAATGTGAATTCTCAAATAACTAAGGCTGTTACGCTATTAAATGCTGACCATAAATTAGCTCTCAGCGGTACTCCAGTAGAAAATAATTTAGGTGAACTTTATTCTTTATTTCGATTCTTAAATCCAAATATGTTTGGAAGTGCAGAACATTTTAATAATTATTATTTATTACCTATTCAAAGAGACAATGATAAAGAAATAATAAAAGAATTAAAACAAAAAATATATCCATTTATTTTAAGAAGAACTAAGAAAGAAGTTTTAAAAGAACTTCCTGAAAAAATTGAACAAACATTATTTATTGAAATGAACCCAAAACAAAAGAAACTTTATGAAGAACAAAGAGATTTTTACTATACACTTATAAAAGAACAAATAAATACAAAAGGATTTACTAAATCTAAATTCTTTATATTACAAGCTTTAAATGAATTAAGACAGATCGCATCAGTTCCTGAAAATATAAGCAATAACGCTATAAAATCAAGTAAACGTGAAGTATTAATAGAAAATATTAAAGAAGCTGTTTCAAACAATCATAAAATATTAATATTTTCAAATTTTATAAAAACAATTGAAAATATTTGTGAAGATTTAAAAAAGGAAAATATAAAGCATCTTTCTATGACTGGTTCTACTAAAAATAGACAAGAACTAGTTGATGAATTTCAAAATAATAGCAACATAAAAGTTTTTGTAATGACATTAAAAACTGGTGGAGTTGGATTAAATCTTACATCTGCTGATACTATATTTATTTTTGACCCTTGGTGGAATAAAACCGCTGAAGACCAAGCTATTGATAGAAGTCATCGAATGGGTCAAAAAAATACTGTATTTTCATATAAACTTATTAGTAAAGGTAGTATTGAAGAGAAAATCCTCCAATTACAATATGAAAAAAGTAAATTATTTGAAAGTTTAATATCTGATGATAGCAATTCTATCAAAACACTTTCAAAAGATGATATTGATTTTATTTTAAATACTTAATAAGGAGTTAATAAAATAATGGGTATTACTAAAAATGATTTATTAAAAGCTTTAGATAGATTTTATTCAAAAGAAACGTTATTAAAACTTTTTAAAAAATATTTCTTGAATTGGATAGCAGATGGATATATCGGTGGTAATTTAGGACTTTTTGAAGTCTCATTAATCGGTCATACCTCAAAGAAACAAATTTTTTTAGATCTTATTTTTGAAATTTATTCAAAAGAAGAAATATTTTTAACTATTTATAATAATCTTGATAAAGATATCCAAAATATTTTTTTAGAAATTGCTTGGAATGAGAAATTTATTATTGATGACAAAAATAAATACCTTACTGAAAAAACAAATGGTTATAGAAAAATATTAATCCCTAAAACTAAATATATGTTTTTTAACTATAATTGTTCTGATGAAAATTTATGGGTAAAATCTAAAAAAGAAAATGGTTATTTTTATTTACATAAGGATATTATAAGATGGATAAGAAAATATTTACCAAAACCTAAGGAATATGATTTAATTCCTATTAATAAGCCTTCTACTACATTTTTTTTAAGTAGTGAAAAAGAAGTTATAAATAAAATATCTACTTACTATAATTTTTATTCTTTAGGACATATTGAACTATCTACAAGTAATAAAGTACTAAAAAAAAGTAAAAGAGAAATGAGAAAATATTGTAAATTAATTGAGTTTTACAATGATTTTGGTGATTTAGATTTTTTAAAAACTGAAACTTTATCTCTATTTTTATTAAGCTTATCTAAAAAATATCAAGATCAAAAATATTTTAAGCCTCAAAATTTAAAATTTTTAATTATTGGACTTTTAGATGGAAAACTTATTTCCGATGAAAATTTTAATTATACTACAAAATTTTTAAATTATTTAAAAGGAGTAAAATATATTTGGAATGAAAAAGAACAAACAAAAAAAGCCTTTAGAACAATAAAAACTGTATTAGAAAATATGCCCAAAGGTAAAGCTGTAAGTATCGATAATATTTTAAAATATATAGACTATCGAGATATGGATATAGAAATTTTATCTCCTGAAAATATCTATAACTATGTATATATAAATGAAGCTGATTATGGTAGAACTAAAATATCCACTTATGAAAATTATTATAATTATGTTGTTGTCCCTTTTGTAAAATCTATTTTTGCTATACTTGGTTGTTTAGGAGTATTAGATATATACTACGATGTCCCTTCTAATAAAAATGGACTATACTTAAAAAATGGATATCTTACAAAATATGATGGTTTTAAATATATTAAACTTTCAAAATTAGGTGAGTATATTTTTGATAAAATAAATAACTATAATTTTGGAGAAGATAACGAAAATAGTGAAGTTTATTTAGATTCTAATAGACTTATAATATCTATTGTCGGAGACTCTCCTATAAGAATAATGTTTTTAGAAACTATTGCAGAAAGAATATCAGAAAGTAAATTTAAAATATCCTATAAGTCATTTTTTAAAAATATTGAAACAGAAAAAGATATTTTAGAAAAAATAGATATCTTTAAACAAAAAATATCAAATAACTTACCTAAATTATGGGAAAAATTTTTTGAAAAATTAATAACTCGTTCTTCTTCTATTACTCCAGTTAATGATTATCAAATAATCAAATTAAAAGAAGATAAAGAACTTTTTGAAATAATATTAAAAAACAAAAAGATAAAAAGTAAAATACTTAAAGCAGAAAATTTTCATATTTTAATAAAAAAAGAAGATATTTCCGAACTTAGTAATTTTTTAAAAGAAAATGGTTATTTTAATAAATTAATATAATCTAATATATTGCCTATTATACTTTATTTCCAGTATAATAGGCTTTTTTTGAACTAAAAAAACCTTGTTTTTTTTTTACTTGAATGATAAGATATACTGACAAGACAATAATTTTAATATAATAAATAATTTTTATATAGATTTAGGAGGATTTTATGAGTGATATTTTATCTCAAATTGAAAAATTAAAAAAAGAAAAAAATGCTATTATCTTGGCTCACTATTACCAAAATGCTGATATACAAGATTTAGCTGATTTTGTCGGTGATTCTTATTTTTTAAGTGAAAAAGCTAGAGATTCCAATGCTGATTATATAATTTATTGTGGAGTGAAATTTATGGCTGAAAGTGCTAAAATTCTCTCGCCAAATAAAAGAGTTTTTTTCCCAGCGTATGCAAACGCAGAATGTTGTATGGAATATATGGCAACCCCTACTAAAGTTCAATCTTTAAAAGATGAATACCCCGAAGCTAAAGTTGTGTGTTATATAAATTCTAGTAGTGAAGTAAAAGCTCTTAGTGACGCTTGTTGTACCTCTTCGTCTGCTGAAAAAATAGTAAATAAAATTGATGCAAAACAAATTATTTTTGTGCCTGATAAAAACCTTGGCTCTTATATTCAAGAAAAAACTGATAAAGAAATAATTTTATTTGATGGATGTTGTAATGTTCATGATAAAGTAACTCCTAAGCATATTAAAGAATATAAAGATAAATATCAAAATATAGAAGTGGTTGCCCATCCAGAATGCAAAAAAGAAGTTAGAGATTTATCAGATTATGTAGGAAGTACTAGTGGAATATTAAACTATGTTAAAACTTCTCATAAAAAAGAATTTTTAATTGTAACAGAAAAAGGAATAGCTCATGAACTGTATAAACAAAATCCTGATAAAAAATTTTATTTTATAAATATGATATGTAATAGTATGAAAAAAATATTCCCAGAAACAATTTTAGAAGCACTTCAAGAAGAAAAATATGAGATTTTTGTGGATAAAGATATTATTAAAAATGCTAAAAAATCTCTTGATAATATGCTTTTATTATCAAGAGGTGAGTAAATATGACATATAATTGTGATGTTTTAATTATTGGTAGTGGACTAGCTGCCCTTAATTTGGCAATTAATTTAGATAAAAGTATCGATATATTAATTGTAAGTAATTCAAAATTAAAAGATTGTAATAGTTATTTAGCTCAAGGAGGAATTACTACAATTAAAGATGAAAAAGATAAAGAATTATTTATAAAGGATACTTTAGTAGCTGGTGAAAATGCTAATGATATTGAAACAATTAATTTTGTTTCCGAAAATGCTAATAAATCTATACAAAATTTAGTAAAGTTAGGTGTTCCATTTAATAAAGATAAAAATAACAATTTAATATATACTAAAGAAGCTGCGCATTCTACAAATAGAATTCTTTATTGTGATGATAGTAGTGGAAAAGTTATTTGGAAAACTATATTTTCTCATATTATAAATAGAAAAAATATAGACATTATTGATAATGTAGAGATAGTTGATATAAAATCAGAAAATAATAATTGTTATGGTGCAATTGGAATAGATGAAAATAAAAACATTATGAACTTTAATTCTAAAATAACTGTATTAGCTACTGGAGGAATTGGTGGATTATTTAAAAATTCCACTAATTTTAATAATATAAAAGGAATCGGTGTCTCCATTGCTCTTAGACATAACATAAAAGTAAAAGACCTTGAATATATACAAATGCATCCAACAGCTTTTTATTCTACAAATTCAGATAAAAGATTTTTAATCTCTGAATCAGTAAGAGGAGAAGGAGCTTATATAGTAAATGATATTGGAGAAAGATTTGTAAATGAACTATTACCTAGAAACAAAGTAAGTGAACGCATACTAAAAGAAAAGAAAAATCGTAATATTGATTTTGTTTATTTAGACGCTAGACATCTTGGAAAAAATTATCTACAAAATAGATTTCCAAAAATCTATAATTTTTGTCTTGAAAATGGTTATGATATGTCAAAAGACCTTATTCCTATACATCCTTCGCAGCATTATTTTATGGGTGGAATAGCTGTTGATAAAAATTCTAAAACATCTATGAATAATTTATATGCTTGTGGAGAAGTTAGTTGTACTGGACTACATGGTAAAAATAGACTTGCTAGTAATTCTTTATTAGAAGCTGTTGTATTTTCTGAAAGTGCCGCAAATTCTATTAATAAAGAAATTAACAGTAAAGATCCAAAAATAATTAATTACACTAATAATCTATTTGAAATAAAAAAAGAAAATATAAAAATATTAATTGATACTTTTAAAAAAATTCGGGAGGATTTATCTGATGAATTTTATTCTTATTGATAAAATAATAAACGAAGCACTAATAGAAGACGCTATATATGATGATGTTACTACTTTAAATATCATTTCAAAAGATAAAAAAGCTAAAATTGATTTAATTGCAAAAGAAGACTTAATAATTTGTGGTCTTGAAGTTTTTAAAAGAGTTTTTGATATACTTGGAGATGTTAATATAGAATTTCATTATAATGAAGGAGAATTTATTAAAAATAAAGAAATTGTAGCTACATTAGAAGGAAATGCTCAAAATATTCTTTTAGGAGAACGAGTTGCTCTAAATTTATTACAAAGAATGAGTGGGATAGCTACTAAAACTTATAATATCGTAAAATTACTTGAAGGTAGCAAAATAAAAGTTCTTGATACAAGAAAAACTACACCACTTTTTAGAACTCTAGAGAAATATTCTGTAAAAATTGGTGGTGGATATAATCATAGATTTAATTTGAGTGATATGGCTATGATAAAAGATAATCATATTAAAGCTGCTGGTAGCATTACAAAGGCTGTCAATGCTATTAGAAAAAATAATCCTTTTATAAAAAAAATAGAAGTTGAATGTGAGACACTAGCAGATGTAACAGAAGCTATTATAGCAAAGGCTGATATAATTATGCTTGATAATATGGATAATGATACCATGAAAAAAGCTATTAATATCATTAATAAACAAGCTATAATAGAAGTTTCTGGAAATGTAACAGAAGAACGAATAAATACTCTTAAAACTCTTGATATTGATTATATATCTATAGGGGCTCTTACTCATTCTGTAAAATCTAGTGATCTTAGCATGAAAAATTTAGTTATTTTTTAACAAATAATTAATTTTACTTGATTTAAATAAAAAGAGCAGAAGTTTATTAAAAACTTCTACTCTTTTTTTATTTCAAATTGATTAAAATAATTATGAATCTAGTTTTATTTTTCTTGTTTTTCTTTAGCAGATTTTTTAGCTTCATACTCTTTTGCACCATAATAAGCTCTTAAATATAATTCTTTTAATTCAGACATTAATGGATATCTAGGATTTGCACCTGTACATTGGTCATCAAATGCTTCTTCTGTCATTTGATCTAAACTTTCTAAAAATGCTTTTTCATTTATTCCATATTCTTTTATAGAAGAAGGAATTCCTATTTGAGCTTTTAATTCATCTATTTTAACAACTAGTTTTTCTATTTTTTCTTCTATTGTTGTTCCGCCTAATCCTAAATGGTCAGCTATTGCAGCATATCTATATTTTGCATCTGGATATTTATATTGTGCAAATGCAGCTTGTTTTCTTGGATTATCAGTAGCATTGTATTTAATAACTTCATTTAATAATAAAGCATTTGCAACTCCATGAGGTATATGGTGTGTTCCGCCTAATTTATGTGCCATTGAATGACAAATCCCTAAAAATGCATTAGCAAAAGCCATTCCTGCTATACAAGAAGCATTAGCCATTTTTTCTTTTGCTTTTATAGCTTCCGCACCTTTTTCATATGATTCTGGTAAATATTTAAATACAAGTCTTATAGCTTCTAATGATAATGGTTTTGTATACTCAGATGCAAGTACAGATACATAAGCTTCTATAGCATGTGTAAGTACGTCTATTCCTGATGCAGAAGTTAGTCCTTTAGGCATACTTAACATTAATTGAGGATCAACTATAGCCATATTAGGAGTTAATTCATAATCAGCTAATGGGTATTTTACACCTGTTTCATCATCTGTAATAACTGCAAACGGAGTTACTTCTGAACCAGTTCCTGCTGATGTTGCTACAGCTATAAACTGAGCTTTTTTCCCTAATTTTGGAAATTCAAATATTCTTTTTCTTATATCCATAAATCTCATAGCAAGGTCTTCAAATCTTACTTCTGGATGTTCATATAATGTCCACATGATTTTACCTGCATCCATTGGTGAACCTCCACCAAGAGCTATTATTACATCTGGTTGATAAGCTAACATTGCTTCTGCTCCTGCTCTTGCACTTGATAAAGTAGGATCAGCTTTTACTTCTGAAAATATTCTATAATCTACACCTATTTCATCTAATACAGTAGTAATGTGATCTGTATACCCTAAACTAGCAAGTACACTATCAGTAACTATAAATGCTTTTTTCTTAGTTCCTTTTAATTCTTGAAGTGCAATCGGTAATGACCCATATTTAAAATAAACTTTTTCTGGAACTCTAAACCAAAGCATGTTTTCTCTCCTTTCAGCTACTGTTTTTATATTAATTAAATGTTTTACTCCTACGTTTTCTGATACTGCATTTCCTCCCCAAGATCCACAACCAAGTGTTAGTGACGGAGCTAATTTAAAGTTATATATATCCCCAATTGCTCCTTGAGATGAAGGCATATTTATAAGTGTTCTTCCTGTTTTCATAATTTTTCCAAATTTATTTATTTTTTCTTGTTGTGTTACTTGATCCACATATAATACAGAGGTATGTCCCATTCCTCCAAGTTCTACTAATCTATCAGCTTTAGTTAAGGCATCTTCAAATGATGTAGATCTATACATAGCTAATACCGGAGATAATTTTTCATGTGAGAATGGTTCTTCTAATTCAACAGATTCAACTTCTCCTATTAATACTTTTGCAGTTTTAGGTACTTCTACGCCTGCTAATTGAGCTATTTTATAAGCAGATTGACCAACTATATTGGCATTAAGTCTACCGTCTATTACAATAGTATTTCTAACTTTCTCTACCTCATCATTTTTTAAAATATAAGCACCTCTTAATTCAAACTCTTTTTTAACTTCATCATATATTTTATCAGATACAATAACAGCTTGTTCTGATGCACAGATTACTCCATTATCAAAAGTTTTTGATAAAAGAATAGAATTCACTGCCATTTTTATATGTGCTGACTCATCTATAATAACCGGTGTATTCCCAGCTCCAACTCCTATTGCTGGGACTCCTGATGAATAAGCAGCTTTTACCATTCCAGGGCCACCAGTAGCTAATATAAGATCTGATGATCTCATTAATACATTTGACATTTCTACTGAAGGAGTATCAATCCACGCAATTATATCTTCTGGTGCTCCAGCTTTTACAGCTGCATCAAGTACCAATTTTGCAGCAGCTATTGTACACTCTTTTGCTCTTGGATGCGGCGAAAATATAATTCCATTTCTAGTTTTTAGAGCTATTAAAGCTTTAAAAATTGCAGTTGATGTAGGATTTGTTGTAGGTATAATTCCTGCAATAATCCCTATTGGTTCGGCTATTTTTGTTACACCAAAAGCATTATCTTTTTCTATTACTCCGCACGTTTTAAAATCTTTATATTGATTATATATATATTCTGATGCAAAGTGATTTTTTATTACTTTATCTTCTACTATTCCCATTCCAGTTTCTTTTACTGCTAGTTTTGCAAGCTCAATTCTAGAATTATTTGCAGCTAAAGCAGCTTGCCTAAAAATCTCATCAACTTGTTCTTGTGAAAAATTTGAAAATTTTCTTTGTGCTTCTCTTACTTTTTTAATAGCAAGATTTAATTCATCAACATTTGTTACTTTAAACATATCTCTTCCTCCTAAAGTGATTTTTTTAACTATAATATGTAAAAAAAATTATGAGCAATAAAAACTTCTTTTAATTAAATGCTTTTTAACATGTGTTGAGTGTTATTTAAAATATTTTTTTAACAATCAACTCTATAAGATAAATATATCACAAATGAAATTTAATGTCAATTGTTTTTTATTTTTTCAAGAAAAATATTTTTTTTATTATATTTAGTTTAAAATATTATTTGTTCTATATATCTATATAATTTATATGAAATCTCAAAATTATTCGTTTAAAACAAGTATAATAAAAAGACATCAACCATAATTAAATGATTGATGTCATAACAAATTTTAATATCTTATATTTTATGTTTTGGGAAATATTTTGTATGTAACATTTCATGAGCTTTATGACTCATTGGTTTTTCTAAATGATTTTCATAAATAGACTTAATATAAGGATTTTCATGCGATTTTCTTATTTCACAATTTTCATCTATATTATTAAGAACCTCTGTTCTTTTTTTAATTATTTCAAAATTTCCGTTATGGTAAGGTTGTCCTCCACCACCAACGCATCCTCCTTTACAAGCCATTATTTCTATAGCATGTAATTTTTCTTCTCCAGATTTAACTTTTTCAAGTAATTTTCTAGCTTCTCCAAGTCCATGAGCTATTCCTATTCTAAGATCTAAATCTCCAACTTTTACAGTAGCTACTCTACATCCTTCGTATCCTCTTAAAACTTCGAAATTAACATTTTCTAGAGTTTCTCCTGTTATCCATTCGTAAGCAGTTCTCGTTGCTGCTTCTATAACTCCTCCAGTTCTTCCGAAAATAACTCCAGCTCCTGTATAATCACCAAGAGGTGCATCAAATTTAGATTTTTCTAATTTTTTAAGATCTATATTAGCTTGTTTTAATAGTTTAGCTAATTCTCTAGTAGAAATTGAAATATCTACATCAGGATTTCCATCTTTAGAAAATTCTTCTCTTCCAGCTTCATATTTTTTAGCAAGACAAGGCATAACAGATACTACCACTAAATCTTCTCTGTTTATTCCTTCTTCTTTTGCCCATATATTTTTAGCTACTGCTCCAAACATTTGTTGAGGTGATTTTGCAGTTGAAGGTACATCTAACATATCAGGGAAATTATGTTCAATAAATTTTACCCATGCTGGACAACAAGATGTAAGTATAGGTAAAGCTTTTTCGTCTCCTGCTAAATATTTTTCTAATCTAGCCTTTAACTCTGAAGCTTCTTCCATTATTGTTAAGTCAGCAGCCCAGTTAGTATCAAATACTCCATCAAATCCTAATTTTTTAAGAGCTGTAACCATTTCACCTTCAACATTTGTTCCTACTGGATATCCAAATTCTTCTCCAAGTGCTGCTCTTACAGCTGGAGCTACTTGTACTATAACTTTTTTCTTAGGGTTAGCTAATGCTCTTACTACTTTCCAAGTATGATCAGCTTCACTTAAAGCTCCAACTGGACATACTGCGACACATTGTCCACAGTAAGTACATACTGAATCTTCTAAATCTTGCTCAAATGCAGGTGCTACTACTGCTTCAAATCCTCTGTTTACTCCTGATAAAGCTCCAACAGTTTGGATTTTATTACACATAGTTTCACATCTTCTACACATAATACATTTGTCCATATCTCTTATAATTGAAGGTGAATAATCTTTTCTATATGTTGATTCTGCTCCTTCAAATCTTATTTCTCTTATTCCAAATTGAATAGCTAAATCTTGAAGAGTACATTCTCCTGATTTTGAACATGCTAAACAATCTTTTGGGTGGTCTGATAACATTAATTCAAGTACTGTTTTTCTACTATGCATTACTCTCATTGAATTAGTTGTAACATTCATTCCTTCAAATACCGGTGTAGCACATGAAGGTGCTAGATTTTTTCTTCCTTCTACTTCTACAACACATATTCTACATGATGCACAATCATTTTTGTAATCAGCGCTTCCTATATTTAAATAACATAAGCTTGGTATATTTATTCCTAATGATTTAGCTGCTGCTAAAATAGTACTATTTTTAGGTACTTCTGTTTGAATACCATCTATAGTAACTTTAACCTTTTCCATTACTTTATTCACTCCTTTTTTGATTACTTTATTCGATAATTATAGTCTGTCTATAGCTTTAAATTTACAAGTTGAATAACATGCACCACATTTAATACATTTTTCTTGATCAATTACATGTTTTTCTTTTACTTTTCCTGTAATACAATTTACCGGACATACTCTAGCACATGCTGTACATCCAATACATTTATCATTAATAGTATATTGTAATAAATCTTGACATGAACCAGCTGGACATTTTTTATCTTTAACGTGTGCTACATATTCATCCCAGAAATTATTTAAAGTTGATAATACTGGATTTGGAGCTGTTTGTCCAAGACCACATAAAGAAGTATCTTTTATTGTTTCAGATAATTCTCTTAATAACTCAAGATCTTCCATAGTACCATTACCTTTTGTTATTTTATCTAATATTTCAAGTAATCTTTTATTTCCTACTCTACATGGAGTACATTTTCCACACGATTCTTCAACTGTGAATTCAAGATAGAATTTTGATACTGCTACCATACAGTCATCTTCGTCCATAACTATCATTCCACCAGAACCCATCATAGATCCTTTTGATGTTAATGTATCAAAATCAATTGGAGTATCTAAATCTTTTTCAGTAAGACATCCTCCAGATGGTCCTCCTGTTTGTACCGCTTTAAATTTTTTACCGTCTTTAATTCCTCCACCAATTTCAAAAATAACTTCTCTTAAAGTTGTTCCCATTGGTACTTCTACCAATCCTACATTATTTATTTTCCCTGCAAGAGCAAAAACTTTTGTTCCTGATGATTTTTCAGTTCCTATCGTAGTATACCATTCGCCACCATTTAAAATAATTTCTGGTATATTTGCAAATGTTTCTACATTATTAACGTTTGTAGGTCTTCCAAAATATCCTGATTCAGCTGGAAAAGGTGGTTTAGAAGTTGGTTCTCCTCTTTCTCCTTCCATAGAATGAATAAGTGCTGTTTCTTCTCCACATACAAAAGCTCCAGCTCCATATTTTATTTCTATATCAAAACTAAAATCAGTTCCTAAAATATTTTCTCCTAATAATCCATATTCTCTAGCATCTGCCATAGCTTTTCTTAATCTTTTGATAGCTAATGGATATTCAGCTCTTATATACACAAGACCTTTATTTGCCCCTGTAGCATATCCACATATTGCCATAGCTTCTATTACTGAATGAGGGTCTCCTTCAAGTATAGATCTATCCATAAATGCTCCTGGATCTCCTTCATCAGCATTACATACTACATATTTTTGATCAGCATGATTATTTGCTGCAAATTGCCATTTTAATCCAGTAGGGAATCCTCCCCCACCTCTTCCTCTTATTTTAGAAAGTTTTACTTCATTTATTACATCTTCTGGAGTCATTTCTGTTAAACATTTCCCTAAAGCTTGATATCCTCTATTTCCTAAATATTCTTTTATATTTTCAGGATTGATAAGTCCACAGTTTCTAAGCGCTATTCTTTGTTGTTTATCATAAAATCCCATTTTATCAGAATCAGATATTTTTTCTTTTGTACTAGGATCTTTATATAATAAACTTTCGATTTTTTCACCTTTTATTAAGTCTTCTTCTACTATTCTAGCTGCATCTTCAGGTTTCACTTCTACATAAAAAGTATTACTAGGTACTATTTTAACAATAGGTCCTTTTTCACAGAATCCAAAACATCCTGTTAAAACAACTTGAACTTCCTCTTCCATTCCTTTTTCTTTTAGTAAAGCATTTATATTCTCTGCAATTTGAGCAGATTTTGAAGATAAACAACCTGTCCCTCCACATATTAGGACATGTTTTTTATATGCCATGTTTTTACCCTCCTCGATTAATGATTACAATTACAACTATTTCCTGTGTTATTTTTTAAAAAACCAATAATATTTTCTGTATTTTTTACATATTTAATTATAATTTTTTCTGCTTCTTTCTCATCAATATCTCCAAATACTACACTTCCCGCATCTGGAACTATTATTTCTAAAGATGGATTATCACTATTATAACCTTTAAATTCAGTTTGATATACAACTACATTTTCTATTTTTTCTTTATTAATTAGGTCTATAATATATATTCCAACTTCATCAGCCCTTTTTTTAGCTAAAAGGCTATTTTTAGATATTCCTACTTTTATTTGAATTACATTTTCTAAATCAATTTCACTTCATTTTTTTCTTAATTGAATTAGAGCTTCACATTCTTTACCTATGTTTTTTAATTCTTCTACTGATTTGATTTTTTTAGACATTCAAATCCCTCCAGTTATATTTTTTTATTATCCTAATTCTTTATATTTTTTTATTATAGCATCTACATCTTTTGCTTCTTCTTTACCATATACATCTTCACCAACTAAAACTACTGGTGCAAGCCCACATGCTCCAACACATCTTAAAGCATCTATTGAAAATAATCCATCAGCAGTAGTTTCACCTGTAGAAATTCCTAGTTTTGCTTCAAAATCTTTTAGTACTTTTTCTGCTCCTCTAACAAAACAAGCTGTTCCCATACATACTGATATAGGATATTTTCCTTTTGGTGTCATAGTAAAGAACGAGTAGAAACTTACTACTCCATATACTTTTGCTAATGATACTCCTAATGCCTCAGCAACAAAAGCTTGAACTTCTTTTGGTAAATAACCAAAAATTTCTTGAGCTTTATGAAGTACTGATATAAGAGCTCCTTCTTTTGTTTCTAATCCATCAATAAACTCTTCAAGCTTTTTAAAACATTCATTTTTTAATTTGTTTTCACAAGCCGACATCTTATTCCTCCTTATAATTTTGTAAACATTAAGTATATTTTTTCACATTTGTTAAACTATACGCTTTAGTATACTATATATTTTAATTTAAATCAAACATTTTTTATTTTTTTTATCCTTTTTTTTGTGTTTTTTTTGTATTTTTTGTTCTATTATAAAAGGTTTGTATATCAAAATAAAATTTATCAAACTATTTAAAATGTTAATAATTTATTTTGATGTTTTATTAATATTCATTTTGTTATATCCTTGAAAATATTTTTTCACAATGTATATTAAAGATGAAAATAATTAAATCATAAAAAATATAAAAGATTTTTAACTAATTGATTATAAGACTTGAGTTTAACACAAAAATATTTTAATTAAAAATCATTATATAAATTTTATTTTATTTTTTAATTAATATAAGTCTAATAAATAAAACTTAAAATAATAGATTTTACTATTCTCCAGAAGAAAATTCTAGAAATCATATATCCGACAACTGTCCTGTACAATATTTTGTAAAAAATGATATAATATAAATTACTCAAAACACTAAATATTTTAAAGTTTTACAAAAAAATAATAGCTATTTAATTTATTTTTTAAATCTAAATTTAAAACACTTCATATATTTAGCAAATAAAAATAAAATAAATGATAGATAATGAGAGGAGAAATAAATGAAAGAGTTACAAAAGAAAGCAAATGAATTAAGAAAAGATATTGTTACTATGATATGCAAATCTAAATCAGGACATCCTGGAGGGTCTTTATCAATAATTGATATTATGACTGTTCTTTACTTTGATGAAATGAATATTGATAATCCAAAGGATCCTAATAGAGATAGATTTATTTTATCTAAAGGTCATGCAGCACCTGCTCTTTATGCTGTATTAGCTGAAAAAGGATTTATTGATAAAAAAGAATTAAATACTCTTAGACAATATGGAAGCATATTACAAGGTCATCCTGATATGAAAAAAGTAACTGGTGTAGAAATATCAACAGGTTCATTAGGACAAGGTTTATCAGTAGCTAATGGTATGGCACTATCTGCTAAAATATCAGATAAATCATATAGAGTATATGTAGCATTAGGAGATGGTGAATTACAAGAAGGTCAAGTATGGGAAGCAGC
>sequence09
ATGTTTGGATTTAAAAGTCCAAATGAAGTTTATGAAGAAAAATTAGTTAAATTAGCATAGGGGTAGATGTGTGCAATTAAACTTGCAATTTTCATTATGAAAAAAATATTTAAAAAAAAAAGAAAAAATGATATACTATTAATGGAGGTGTAAAAAATGTGTGAAATTCCAACTGCCTACCAATATGAAATGGAAAATATTACTGATTTATTAGAAGCAATTAAAATAAATAATAGTGATTATACTCTAATAAAATTATTAAAAGAACATTTAGATGAACTTATAGAAAAAATAGATAATGAAGATGTAAAAAGTAAAATAAAGCTTATTAGAAAAAAAGTCGTTCTTATTGAAAAAAATCTAGATATAGTATCAGATAGATTTTTTGAAGAAACTTATTATTTATTGAGTTATATAAGAAAATGCAATAAAAAAGCTGTTAGTTAAGTGAACTAATAAAATTCACTTATTAACAGCTTTTATTTTATAAAGTTTTAATTAACTCTCTTACTTTATTAATAACTTCATTTGCAGAAATTTCTATTGTTTCTCCAGTTTTTCTTAATTTTATTTCCACAATATCTTCATCAGATTTTTTTCCTACTACAATTTTTATAGGAAGTCCAATAAGGTCACTATCTTTCATTTTAAATCCTAGTCTTTCATTTCTATCATCAATTATTGTATCAATATTTGTTTCAGAAAAATTTTTATATAATTTTTCAGCTAGATCAACTTGAGTTTGATTTTTCATATTTGCTGGAATTATATTTACAATAAATGGCGCAATAGAAACAGGCCATATAATACCGTATTCATCATAATTTTGTTCAATTGCAGAAGCCATAGTACGAGAAACACCAATACCATAACACCCCATTGTCATTACTTGAAGTTTACCGTTTTTATCTAAGTATTTAGCACCTAAAGCTTCAGCATAGCCAGTACCAAGCTTAAATACCTGTCCTACTTCTATTCCTCTAGCTATTTCAAGAGTTCCGTCACAATGAGGACAAGGTTCTCCTGATTTGACCATTCTTATGTCATAAAATTTATTAATTTTTAAATCTCTGTTAATATTTGCATTTATATAATGTTTATCTTTTATATTAGCACCTATTACCATATTTTTCATTGGTTTTATAGTTTCATCAGCTACTACATAGATATCTTCTGATATATTTTTTAGTGCTCCGCAATATCCTTTAGTTATGCTTAATTTTTCAAACTCTTCATCAGTTATTAATTCTAGTTCTACAGGAGAATTTACTGCATTTTTTAATTTGATTTCATTTACTTCATAATCTCCTCTAATTAGAGCCATATAATATTTAGTTTCTGTCTCTAAAATTGATTTAAACATCATTGCTTTTACAGTTTTAGTAATATCAACATTTAAAAATTTAGCTACATCTTCTATCGAAGAAGTATTTTTAGTATCAATTAATGTTAACTCTTTTTCAGCTTCATCATTTTGAGTTAATTCAATATTTGATACAGCTTTTTCGGAATTTGCAGCATAATCACATTTATTGCAATATAAGATATCATCTTCACCAGATTCAGCGAGTACATGAAATTCGTGAGTATGACTCCCACCAATAGCTCCACTATCAGCTTCAACAGGTCTAAAATTAAGGCCACATCTAGTAAAAATTCTTTCATAGGCTTTGTACATATTGTGATATTCTCTATCTAAATCTTCTTCAGAAGTATGAAAGCTATAAGCGTCTTTCATTAAGAATTCTCTACCTCTCATAAGTCCAAATCGAGGTCTTCTTTCATCTCTAAATTTTGTTTGGATTTGATAAAGGTTTATAGGCAAATCTTTGTATGATTTTATATCATTTCTAATGATATCGGTAATAACTTCTTCATGAGTAGGTCCAAGAACAAAATCTCTATTGTGTCTGTCTTGCATTCTCATCATTTCTTCACCCATTTTTAACCATCTACCAGATTCTTTCCACAATTCTGCTGGTTGTAAGACGGGCATTAAAATTTCTTGACATCCTGCATTATCTAATTCTTCTCTAATGATTTTTTCTATTTTATTCAATGTTATTTTACCAAGAGGTAAATAAGAGTAAATTCCACTTGCAAGTTTTTTAATCATTCCAGCTCTAAGTAGTAATTGATGACTTATAACTTCAGCTTCCTTTGGGCTTTCTTTTAATGTTTTTAAATATAGTTTGCTAAATCTCATTTAAACCACCTTTCTAAATATTAAATATTTAATAAAAATCTGATAAATCATTTGTAATACCAGATTTTAACATTTCTATATCTGTTTTTATTGTAGCATTTGCATGTGCTACTTCATATGAAATAATATTTTGTTTATATAACTCAACAATATTTTGATCAAATGATTGCATTCCAAACATATCTTTATTAGCTTTTATAATATCAGGAATTTTTTGAGTTCCTTCATCTATTTTTATTAATTCTTGAATTGTAGATGTTGTTCGAAGTATTTCGTTTATGGCACGCTTATTATTGTCTACTGTTTTTAAAAGCTTTTGAGAAATTACAGCTTTTAGATTATCACTCAATTGATATCTTATTTGTTTATGCTTATCTACTGGAAAAAAATCAAGTATTCTTGAGATAGTTTTTGTAGCATTTACAGTATGCAGTGTAGATATTACAAGATGACCTGTTTCAGCTGCTTTTAATGCTGTTTCAATAGTTTCTTGGTCACGTAGTTCTCCAATATAAATTATATCAGGATCTTGACGAAGCACATATTTTAACGCAAGATTAAAATCAGGTATATCATTGGGAACTTCTTTTTGACTTATAATTGATTTTTTATCTTTAAATAAAAATTCAATAGGATCTTCAAAAGTTATAATGTTTTTTCTATAATTGCTGTTTATATGTTCCAAAATAGCAGCTACCGTCGTAGACTTTCCACTTCCAGTAGCACCAGTAACTAAGATTATTCCATCTTTTTCTTTTGCGATTTCTTTTAATATAACTGGTAGATGTAGAGTCTCAATATCTGGAATATCAAAAGGAATAAGTCTAGCTACTATCATATAAGAACTTCTAGAAAGAGAAATATTTAATCTAAATCTACCTGTTCCTGGAACAGAATAAGATATATCATAGTTTAATGAAGATAAAAATTTCTCTTTTGCTTTTTCATCTAAAATATCATTAACGATTTCTTCTAAATCTGTTTTTTTTAACCTTTCACAATTATCTAAATTAATTAAATCACCATTTTTTCTAATAATAGGTGTATTTCCTACTCTTAAATGAAGATCAGAACCATTATTATCTACAAGATATTTTAAATATTTATCTATCATATATACTCTACCCCTTTATCTCTTCGACATTATAACGCTTATTAATATCATGTTGCATATAAATATTGTCAATTTTTCCATTATTTTCAAATAAATATTTTGTAGCTAAATCTTTTACAAATTTTATTAATTTGATATCTTTTACAAAATCAATAAATTGCATATCACTAGAACCACTTTGCTTTGTCCCAAAAATTTCTCCAATTTTTCTAAGTTTTAAATCTTCTTCAGCGATTACAAATCCATCAGTAGTTTGTTCCATTATTTCAAGACGTTTTATAGAAAGTTCATTTTTGGTACTTGAAACAAGAAAACAATATGATTTAAATTTTCCTCTTCCAACTCTTCCACGTAATTGATGAAGTGCACTAAGCCCAAATCTATGAGCATCACTAATTACCATTATTGTAGCATTTGGTACATTAATACCTACCTCAATAACTGTAGTAGATACAATTATATCATATTTTTTCTTTTTAAAATCATGCATAATTTTATCTTTTTCACTATTTTTCATTTTACCATGTAAGAGAGCCACTTTATAATCAGAAAAATATTTATTTTTCAACTCTTCATACAATTCAGTAGCAGATTTTACATTTAAACTTTCACTTTCATCAATAAGTGGAGCTACAAAATATGCTTGTCTAGCTTGGCCAAGTTGTTTTCTAATAAAATTATACATTTTATTTAATTCGTTTTCGTTTTGTATCCATTTTGTTTTTATAGGAATACGACCTGGAGGAAGTTCATTTATAATAGATATATCGAGATCGCCATAAATACTAAGAGCTAGAGAACGAGGGATTGGAGTAGCACTCATGACAATAAGATTAGCGAGAACTCCTTTATTTCTTAAGTTACGCCGTTGTAATACTCCAAATCTATGTTGTTCATCTATAACCACAAGCCCTAATTTATTAAATTCAACATTATCTTCAATGAGAGAATGTGTACCTATTATAATATTTGTTAAACCATGTTTTATTTCATTTAAAAGTTTTTCTTTTCGTTTTCCTTTTATAGAACTTGTTAATAAATCTACTTTTATTCCAAATTCATAAAGTGAATCAACCATAGATAGATAATGTTGGACAGCTAAAATTTCTGTAGGAGCCATAATTGCTGTTTGATATCCATTTTCTACCATATAAAGCATCATAATTGTAGCAACTATTGTTTTCCCACTACCAACATCTCCTTGAATAAGCCGGTTTACTATTTTACCATTAATTAAATCCTTATAAATTTCAGTAATTACTTTTTTTTGAGCATTTGTCAATTCAAAAGAAAGTGAATCTAAAAATTTTTTAACAAGATGTTTGTTATCATCAAGTTTATATTTTTCTTTATTTTGTAATTCCACTTCAAATCTTTTAGAAATTATACTTAATTCTAATGTAAGGAGTTCTTCTAATGCAAATCTTTTTTTAGCCAATGTTATATCATTATTTTTTTTTGGAAAATGTATTTTTAAAATAGCTTCTTTTCTATCTAATATGTCATATTTTTTTAATATAGAACTAGGTATATTTTCAAAAATATTGTCTATATATTTATTTATTACTTTTTTGATTATAGCTCTTAGAGTACGTTGAGTAACTTTGTTAATACTGCTATAAACAGGTAAAACTTTTGCTTCTATTTTATCCTCGTCGTCAATTTTTTTATATTCTGGATTAATTATTTCATAGCCGTATGTTTTTTTTACTTTTCCAATAATTGATAATCGGTCACCAGCAAAAATTGTTTTTTTTAGATAAGGCATTTGAAACCAAGACAATCGTATAGTACCAGTTCCATCAGAAAGTGTTGCTTGAAAAATTATTTTTTTTGTACGGGTTTTTACCAAATTAGTTTTTAAAACAACTCCAGTAAGAACAACAGTTTCATCAGCTTTTATATCTATTATTTTTTTTAAATTACTTTTATCTTCATAAGTTCTAGGGAAAAAATATATTATATCTATAATATATTTTAAATTAAGAGATTTTAATATTTTTATTTTTTTTTCATCTAAAAAATCTATATTTTCAATTTTGTTGTATAGACTTAAATATTTTATTTCTTTTTCTAGAAGCAATAAAAACACCACCTAATGTAAAAATTGTTCCTATAATCATAAGTAGAGTAATAGGATATCCATATATTATTTTACTTAGTATCATAGCAAAAATAGGTAGTAAATAAATATATAAGCTAGATGTAAGTATACCTAGATGATTAACTACTCTATTCCATAATAAAAAGCATATTGCTGAGGTAATTAATCCTAAAAATAATAAACTACTTATTGTACTAATATTTATATTAAAATTTAAAGAAAAATCTCCTATTAAAAACATTAAAGGAAGTGATGTAAGAATACCAGATAAAAATACGTATCGAGTAATAATAATAGGAGTTATATTTTTATTAAATTTTTCTAAAATTATAGTATAAATAGACCAACTAAAAGCCGCTAGAAAAGCTAAAAAATCTCCTAAAGGATTTAATTGTAATATTCTACCATTAAATATTACAAAAAATAATCCTATTAAAGAAAAAATAGATCCTATTAATAAATTTTTTTCAAATTTTTTTTTATTAATTATATGTACAATTATAGCATTTAAAATAGGTATAGTACTAAGAATAAGAGTAGAATTACCAGGTGAAGTATATTTTAATGAACTTATTTCAAAGAAAAAATATGATGAAATACCAAATAATCCTGCTAAAAATACTAATTTAAATTGTGATTTATCTATTTTTATTCTTTTTGGATAGAATAAAAATAGAGATATAAAAGCTATAAATGATCTAATTATAAGTATTTGTGAAGAAGTAAAACCATTTGCTAAAAGTATTTTATTTGGAAAAAATGTAGAGCTCCAAAAAAATATTACAAGTAATGCATTAAAGTGCCAAATATATTGCATAAAGCCTCCTTCTATAAAAAAAGACGTTCTAAAATTTGAACGCCTAAAATAAAAAATTAATTCATTAATTTTTCCATTAATTCATCAGGAATGTTAAAGTTAGCATAAACTTCTTGAACATCTTCATTATCTTCTAAAGCTTCATAAAGTTTTAAGACTTGTTTTGCTGTTTCTTCATCTGTTATGTCAATTTCATTTTCAGGAACAAAAGTAATTTCTGCAGATTCAGCTACTAATTCATTATCTTCTAAAGCTTTTTTTATATTCTCAAAATCTTCTGGAGCTGTATATACTAAAAAGTTATCTCCATTTTCTATAATATCTTCTGCACCAGATTCTAAAGCTAATTCCATTATTTTTTCTTCATCAACATTAGAAAAAGTTAATACTCCTTTTCTATGAAACATCCAAGAAACACTTCCACTTTCACCTAAATTTCCATTATTTTTAGAAAAATTAGATCTAACTGTTGAGGCAGTTCTATTTTTATTATCAGTAACAACATCTACTATAAAAGCAACACCACTAGGGCCATACCCTTCATATCTTATTTCAAAATATTCTACACCTTCGATTTCACCAGTACCTTTTTTAATAGCTCTTTCGATGTTATCTTTTGGCATATTTCCTGCTTTTGCTTTATCTAAAGCAAGTCTTAATCTCGGATTGAAATTAGGGTCACCACCACCGTCTCTAGCAGCAATTGTAAGCTCTTTTGCTAATTTTGTAAAAAGCTTAGCTCTTGCTTTATCTTGTCTACCTTTTCTATGTTGTATATTTGCCCATTTACTATGTCCAGCCACAAAAAATACCTCCTAATAATTTGTTGTAAAAATGCCTCATTAAAATAATTTTAGAAATATTTTATGAGACTAGGTTGATCCTAAATTTTTACATGTATTTACAAATAATTTTATCATAGCATTTTTAATTTTTCAAGAAATAATATAATTTTAAATAATATGATTATTATCAAAAATAAAATCTATTTTTATATCATGTTTTTCATTATTTATTTTTTCTACTAATTGAAAAGGATATATTAGCGACACTTTTATACTAGATAAATATTTTTGTAAAAATTTGTCGTAATAACCTTTTCCAAAACCTATTCTATTTTTATATTTATCAAAAGCTATGCCAGGAACTATTATTAAATCAATTTCGTCTATAAAAATATCTCCACTAGGTTCTTTTATATCATATTTTCCTTTTATGAAATTATCGTTATAGAGTTTAGGATAAACTTTATCATTTATTATAGCAGGTAAAAGTAAAGTTTTATTATCTTTTATAATTTCTTGATTTATATATATTGTATTTACTTCATTTTTTATAGGAATATATGACATAATAGTTTTAGCATTTTTATATAAACTACTGTTTATAAAAATTTGTGTAAGTTCTTTAGAATAGAGTTCAATATAATTTTTATCTAATTTTTCACGTTTATTTTTAATAGATTTTCTTATTTCATTTTTATTTTTCATAAAAGCTCCATTTTTTCTTTTATCATTTTCATATCTTGCCAATTAAGCCATCTAGGGCTATTCATCTGTTTATCTGTTTCACGTAGTAAGTATGAGGGATCAAATAAAGGAATAAGGAGTATTCCTCCATTCCATTCATAAACATCTCCATGTATTTTTCTTATATCAACTTCTTGCTCTAATAAAACTTCAGTTGCAGTTTTACCTAGAGTAACAATTATTTTTGGATTTATAATAGCTATTTGCATATGTAAAATATCTTTATAAAAATTAATTTCTTGTTTTGTTAATTCTTCGAATTTTGCATTACATTTAATTATATTAGTTATATACATATCATCTAAAGTTATATCGACTAAATCACATACTTGAAAAAAGAAACTACCACTTGTACCAGGAAGAGTATTTCCAGTTTCATCTTCAAAAAGATTTAAATCATTTCCAATAAACATAACTTTAGCTTGTTTATTTCCAGCACCAAGTAATACTTTTTCATTTCTATTACCTAGGTTTGCTATTTTTGTAGAACTTATTTCAAATGCTAATTCTTCCCATAATAAATTTTTATCCATTGTTTTCACCTTTTACATAATATATTTCGCTATTTTCTCCATAATTAATTATTTTAAAATCAACGTTAATATTATTTTCATTAAATTTTGAGGAGATAGTAGTATATGCTAAATCATAAGTGTTACTATCTTTACTCATATGTACAAAATATACTTTTTCTATATTTTTATGATAAATATCACAAATTAATTTTGCAGCGTCATCATTTGAGAGATGTCCGTTATTTGATTTTACTCTTGATTTTAACTGCCAAGGATAATCATTTTGCATAAGCATATCATAGTCGTAATTTGCTTCAATTATTAATAAATTTAAATTCTTTAAAAAATTTTTAGAATAATTATCAACATAACCAATATCAGTAATTATCCCAATCTTTTTATTTTCTACTTCTATCCTATATCCAAGTGTTCTAGTTGCGTCATGCATTACATCAAATGGATATATATTAAAAGTATTAAAAAGATTAAAATTTTTATCAGATATAAAATTTAAAAGAGAATTTTCTATTTTTCCTAATTTATCTTTTGAAGACTCATAACTTTCTCTTGTTATATAGATAGGAATATTATACTTTCTAGATATAATACCAGCTCCTAAAATATGGTCAGAATGTTCATGAGTAATAAGAAGAGCATTTACTTTAGAGATATCAACATTTATATTATTTAATTTATCTTTTAGTTTTTTTCCGCTAAAACCAGCATCTATAAGAATTTTGTGATTATTACTTTCTATAAATATGCTATTTCCACTACTTCCACTGCCTAATATTGCTACTTTCATATTAAACCTTTCTATTTTATATAAATTTAAATTATAAAACATAGTTATACTAAAATAAATAATATTATTAATCAAGAATTAACTTAAGTTTTTCTAAAATTATTTTGAGTTTTTTAAAAAAATAAAGCTCAAATTGAGCTTTAAAAAATAATAAATTTTCTGTTATCTTCTGTGATTTTTATCTCTTTTATATAAGGTTTTCCTTTTTTAGACCAATAAAGATTATGAATACCAAGAGGTACTTTTAAATAATTGGTACCATGTCGTAAATTATAATTATCAAGTCTAGGAGTACTTATATTATCGGCTACAGTTATTTGTACTCTTATTTCTGTGTTTAGTATTTCTCTACGTTCTCTAATAATTGGATGTGTTGTAGCATTAGAAGTAATTGCAGTACAAGAGATAAAAGATAAAGTTAATATTAATATTAAAATATATTTTTTCATTTTTAATAACTCCTTAATAAAATATAGATTTGTTATTATAATGTAATTTTCGACTTAAATATTAATTAGTTTAAATATATTTTAACATATAAAAGCCTTGATAGTAAAGTAAATTCGATATATAATTAAATAAATATAAAATAATAACTTGGAGGAAGATAGATGAGTGAATTTGTACACTTACATCTACATACGGAATATAGTTTATTAGATGGAGTAGGAAAAATAGATGAATATATAGATAGAGCAAAAGAACTTGGAATGAAAGCTCTAGCTATTACTGACCATGGAAATATGTTTGGAGCAATAGAATTTTATAAAAAAGCATTAGCGAAAGGTATAAAACCTATTATTGGAATAGAGGCATATTTAGCAGAATATAATATGGAAGAAAAAAAAGGTAAAAACTTTCATATAATATTACTGGCAAAAAATGAAAAAGGATATAAAAATTTAATGAAGTTATCTTCTATTGCATATGAAAAAGGGTTTTATTATAGACCACGTATAGATAAAAATATTTTAAAAGAATATAGTGAAGGAATAATAGCTCTTTCAGCATGTATGCAAGGGGAAATTTCTCAAGCATTAATTGAAAATGATAATAATAAAGCAAAAGAGATAGCTCTGGAGTATAAAGATATTTTTGGAGAAAATTTTTATATAGAAATTCAAGCAAATGGAATAGTAGAACAAAAAATATTAAATGATAAATTATATAAAATAGCAAAAGAGTGCGAAATAGAAGTTGTTGGAACTAATGATGTTCACTATGTATACCATGGTGACAGTGAATTACAAGATATAGTTTTTTGTATACAAACAGGTAAAAAATTAGATGATAAAGATAGAATGAAAATAGAAACAGATGAACTCTATATGAAATCTAAAGAAGAAATATTTGAAGAATTAGGTAAATATGATGGAGCAATAGAAAATACAATAAAAATATCTAAAAAATGTAATGTAGAAATAAAATTTGGTGAATTTAAATTTCCACAATTTGATATACCAGAAAAATTTGGGAATGCTCAAAAATATTTAGAATTTTTAGTTGAAAAAGGAATAATAAATAGATATAGTGAAAATTTTAATAAAGAAATAGAAAAAAGAGTAGAATATGAATTAGAAATAATCAATAAAATGGGATACGAAGAGTATTTTATAGTTGTATGGGACTTTATACATTATGCTAAAAGTAAAAATATACCAATAGGGCCTGGAAGAGGTTCAGCTGCTGGAAGTATAGTAGCATATGCACTTGGGATAACAGAACTTGATCCTATAAAATATAATCTAATATTTGAAAGATTTTTAAATCCAGAACGTATATCAATGCCAGATATAGATATAGATATTTGTCAAGAAAGACGTCATGAAGTAATAGAATATGTAACAAATAAATATGGAATGAATAAAGTAGCACAAATTATTACTTTTGGGACAATGAAAGCTAGAGCAGCAGTAAGAGATGTTGGGAGAGTAATGGATATTCCACTAAGTAAAGTAGATAAAATAGCAAAGCTAATACCATTTAATATAAATTTAATAACAGCTTTATCTAAAATAAAAGAATTAAAAAAAATATATGATAGTGATAGTGAGATAAAAAAATTAATTGATATTTCCATAAGAATAGAAGGAAAAGTAAGACATTCATCTATACATGCAGCTGGAATAGTAATAACTAAAAATGATCTTATAGAAGAAGTACCTATATATTATGATACTAAAAGTTCTATTTATTCTACTCAATATCAAATGAAAGAATTAGAAGATTTAGGGCTTTTAAAAATGGACTTTTTAGGACTTCGAAACCTTACTATCATCCAAAGAACACTTGATTATATAGCAGAAGATACAGGAGAAAAATTAGATATTAATAAGATAGAATTAGATAATGAAAAAGTATATAAATTACTTCAAAGAGGAGATACATTAGGGATATTTCAATTAGAATCAAGTGGAATAACAAAATTAATAAAAAGACTAAAACCAAATAGATTTGAAGATATTATAGCACTTTTAGCCTTATATAGACCAGGGCCTTTGGGTAGTGGGATGGTAGATGATTTTATAAAAGCAAAAAATGGGGAAATAAAGATAAAATATCCAGATGATACATTAAAAGATATACTTGAAGAAACTTATGGAGTGATATTGTATCAAGAGCAAGTAATGAAAATAGCTAGTATTATGGCTAATTATACTATGGGGGAAGCAGATCTTCTTCGTAGAGCCATGGGAAAAAAGAAAATAGAAATAATGGAAGAAAATAGAGAAAAATTTGTAAAAAGAGCAATGGAAAAAGGATATACAGAAGATAAAGCTAGATATATATTTAGTCTTGTTGATAAATTTGCAGGATATGGATTTAATAAATCACATTCTGCAGCATATGCACTTATTGCTTATTGGACAGCATATTTAAAATCAAATTATCCTATTCAGTATTTTGCAGCTTTAATGACTTCTGAAATACATAATATAGATAAATTGGGACTTTATGTAGAAGATGCAAAAAAACATAAAATAAGATTAAGTGCACCAGATATAAATAATCCATCAACAAAATTTGTAATAAAAAATGGTAAAATAATATTTGGACTAGCGGCAATAAAGAATATAGGATTAACAATAGTAGAAAACATAATAAAAGAAAGATATGAAAATGGAGAGTACAGAAGTTATGAAGATTTTGTAAATAGGACTAAAAAATATGGAATGAATAAAAAAATATTAGAAGCTCTTATACTTGCAGGAGCTCTTGATAGTTTACCAGGAAATAGAAAACAAAAATATTTAGGAATATCAGAAGTACTTGAAAATGCTAATAAAATTGTGGCACTTGATGAAGTACAACAAATGGGACTTTTTGGAGATAGTAGCAAAAAGTTAGATAGTTTTAAATTTCAAAATGTAACAGAATTTGAAAAATCTAGTTTATTAAGGGCGGAAAAAGAGTATATAGGAATATATATTTCGGGACATCCACTTGATGAGTATAAAGATATATTAGATGTATATGAATTAAATAGCATACGAGAGATACATAATGAAAATATAAACTTTGTAAAAACTTTTGGTATAATAAAAAATTTAAAAAAATTAGTAACTAAAAAAAGTAGAGAAAGTATGGCTACATTTATACTTGAAGGATATGATCTAAGTATAGGAGTAACTATTTTTCCAAAAGAGTTTAAAAAATATATGCATTATTTAGTCGAAAATGAAGCAGTATATGTTTCTGGCACTATTAATTATGATAATTTTTCTGGTAATGAAGAAAAAAAAATCTTTATACGAGAGATGATACCATTAGGTGATATAGATGAGATTGATAGTTTTAAAGTATATATATTAGTGGATGAAAAAGAAAAATCAAAGATGACTAGGTTAAAACAGCTATTAAAAAAATATAAAGGAAATCATAGAGTATATTTAGCAATAAAAAATAAAAGACAAGTAATAGAGCTATCTAAAAATTATAGAATTATTCCAACAAAATATTTTATAACAGAGTTAAAAAACATAATAGGAGCTGATAGAATAAAAATTATATAAAATAACAATTGTTATTTTATTGTTATTGCACTTAAAAAAAAATTGTGATAAAATACCGTTGAAAGTTGATAATAAATAATAGGAGGGAATATTTTGGAATTCAAAGAAATAAAAAATATAATAAATATTTTAAATGAAACAGATCTTATAGAAATAGATGTTACATTTGGAAAAGAAAGAGTTTTTATAAAAAAAGATAATGTAGTAAAACAAGTATTGAAATCGACTAAAGCACCAAAAAAAGAAGAAATGTCTAAAAAAGAATTAATAGAGATAAAATCACAAAATGTAGGAAATATAATTTTATTAAATAAAACAGGGGAACCAATAGTAAAAAAAGGTCAAAGTATAAAAGAAGGAGAAGTATTAGCGTATATAGAATCAGTAGGATTAAAAGCTGAAGTAAAATCACCAGTTAATGGAATTATATCTGATGTATTATTAGCAGACGGTGATTTAGCAGATTATGGGAAAATTTTATTTTTGATTGAAAAAGCTTAATTATGGGAGGAGAATAATGTTTAAAAAGATACTTATCGCCAATAGAGGCGAGATAGCAGTAAGAATAATAAGAACCGCTAAAGAAATGGGGATAAAAACAGTTGCTATTTATTCAGAAGCTGATAAAGAAAGTTTACATGTAAAATTAGCAGATGAGGCTGTATGTGTAGGACCAGCTCTTAGTAGTGAATCATATTTGAAAATACCAAATGTAATAGCAGCAGCAGAAGCAGTAGGAGCAGATGCTATTCATCCTGGGTATGGATTTTTAGCAGAAAATTCAGAGTTTGCAAAAATATGTGCAGATCACAATATTACATTTATAGGGCCTAGTCCAGAATGTATTATAAATATGGGAGATAAAGCTACGGCTAGAGCAAGTGCTATAAAAAATAATGTTCCAATCACAAGAGGATCAGATGGAATTATTTCTGATATAGAAGAAGCTAAAAAACTTGTAAATGAAGTTATTACATATCCGGTAATGATAAAAGCTACTGCTGGTGGCGGTGGTAAAGGAATGAGAATAGCTAGAAATGATGAAGAACTTGAAAAAAATATGGTTGCAGCTAGTCAAGAAGCAAAAGCAGCATTTGGAAATCCAGATGTGTATATAGAAAAATATGTAGAAAATCCTAGACATATAGAAGTGCAAATAGTTGGAGATAAACATGGAAATGTAGTACATTTAGGTGAAAGAGATTGTTCTATTCAAAGAAGACATCAAAAATTAGTAGAAGAAGCTCCATCGGTAGCAATAGATAGTAAAACAAGAAAAGCTATGGGAGAAGCAGCTGTAAGACTTGCAAAATCGATAAATTATGATAGTGCAGGTACATTAGAATTTTTATTAGATACTCAAGGAAATTTTTATTTTATGGAAATGAATACTAGAATTCAAGTAGAACATACTGTAACAGAAGTAGTAACAGGGGTAGATATAATTAAAGAGCAAATTTTAGCTGCTGCAGGAGAGCCATTATCTATAAAACAAGAAGATATAGAGATAAAAGGGCATGCAATAGAGTGTAGAATAAATGCTGAAGATAGTGAAAATGGATTTTTACCGTCAGCAGGAACTATAGAAAAATATATTCCAGCAGGTGGATATGGAATAAGAGTAGATTCTCATTCGTATGCTGGATACACTATTCCTCCATATTATGATTCTATGATTGCAAAACTTATAGTTTATGGAGATACAAGAAAAGAAGCTATAAATAGAATGAAAAGAGCATTAGACGAATATATAATAGAGGGAGTAGATACAACTATTCCATTTCATAAAAAAGTAATGAATAATAAAGTATATAATGAGGGGGATGTATATACTAGCTTTATAGAAACTCATTTAGAAAAAAAATAAAGGAATTTATAAAATCTTTTAGAATAATAATTTAGATGATTTTAAGAAAAATTTTGTATATTGATTTAGAGTATTAAAATTGATAAATCAAAGTTTTGCGTTGAATTAAAAGTATATAAAAATAAGGAGGGGTATAAATGGCGGAAGTAGGAAATATAAAAATAGCAGATGAAGTAGTAGCAGTAATAGCGTCAAAAGCTGCCACAAATATAGATGGTGTACATAAAATGAGTGGAAATGTAGCAGACGAAGTAAACAAATTTTTAGGAAAGAAAAACTCTGCTAAAGGAATAAAAGTAGAAGTAGGAGAAAAAGAATGTACAGTAGATGCATATATTGTAGTAGACTATGGGAAACCAATACCAGAGGTAGCAAATGCAGTTCAACAAAACATCATTAAAGAAATAACAATGATGACTGGATTAAACGTAGTAGAAGTAAATGTTTATATTCAAGATTTACATTTTCCTTCAGATGATAAAGAAGAAATAGAAGCTGAAAATGAGGAATTGATAGAAGAAGCGTATTAAAAATTAGCCTCCGATATAAAAGGAGGTTTTTTTTATTTAAAAAAATTATTTGTTATTTTCTTTAAATTAGTATAAAATATATTAGAAATAATAAAAAGAAAAAGGGTGATATTATGTTGTGGATGTTTTTATTTGCTATAGGTTGGATAGGTTTGGGTATTATATCACTGGGTACAATGTTTTTAGCAGTTTTTCCTAAATATTTTTCAATAGTTAATTATTATAATATTAATTTTAGGCTAATAATATTAGGAGTAGGTTTTTTTTATTTTGCATTGTTTATTGAAAAATTACTAAGACTTTTTAAAAAAGAGGAAGCTTATTATCTTGATACTGAAAATGGAAAAATAAGAATAACAATTTCAGCACTAAATACTTTAATAAAAAAAGAAATAACAAAAAGAAAAAATTTAAAACTTATAAAAATGAAAAATAGTATTAATAAAAAAGGTGTTTATGTAAAAATAGAAATAGAAATATTAGAAACAGACAATGTATCTTTAAAATTAAAAACAATACAAGAAGATATAAAAAATAGAACAAAAGAAGTATTTGATATAGAAGTAAAAAGTGTAGATATAGTGACTAGTAAAGTTAAAGATATAGTAAAAGTTGATAATATAGGAGATGAAAATAATGCTGACAGAGATATTAGAGAAATTGATAGTTAATAGAAAAAAAATATTAGCAGCAATACTCGGATTCATTTTTGGAATAGTATATATATCTTTTGGGTTTTTAGATACTTTAATAGTTGCATTATTTACTATTATTGGTTATAATTACATGAGAATTTATAGAGAAGTTATTTATTTTTTTAAAAAAGTTTTAAAAAAATTAAAACAATTTGCAAAAAAAATGGAAGAATAATTATATTATAGATTAGAGAGGTTAAAAATGAGCAGAAGAGTAGCAAGAGAAGAAGTTTTTAAGATATTATTTGAAAGTGAACTTAGTAACACTGATTTAAAAGATGTACTATTAAGTTATTTAAAAAGAGAGGAATTAGAAAATTTAAGAGAACCACAAATAAAATTTATAAAAGAATATATTACAGGAATTGCAGAAAATTTAGAAGAAATAAATAAAGTAATAGATGAAAATATGATAAATTGGAATATTGATAGAATAGGAAATGTGGAAAAAGTTCTTTTGAGATTTGGTGCTTTTGAATTATTAAAAAAAGATACAGGAAAAGAAATAGTAGTAAATGAAATAATTGAGATAGCAAAGAAATATGGAAATGAGAAGTCGCATGAATTTATAAATGGAGTGTTAGCAAATATTATAAAATCGATAAATTAGGTGAGTATAGATGAAAAAAAGAATTGCTATCATTATAAAAGATCATGAATTAGAAAGAAATATATCAGATTTGCTTAGAGATAATCGATATATAGTAGATATACTATCTGTAGAAAATATTATTGATAATATTTTAGAGAATAAAATAGACTTACTTATTTTAGGTGCTCAAAGTATAAATGAAATTGAATTAGCTAGAAAATCTGAAAAGGTATCACAAATACCTGTAATTGTTGTATTTGATAGAAATGTAGGAAATGCAGATATAGTAGATACGTTTAAAAAAGGAGTATCTGATATAATTTATGTAAAAAAAGAAAGTTATAAACCAATATTAGATGCTGTAGATAGATTTTTTAACAAAGATGAAGAAGAAGTAAATATTGAAATAAAAAATATTAATCAATGGACAGTAATTACAATAAAATCAGAATTAAATCCTAAAAATTCATATTATCTAAAAGTAAAAATAGATGAATTATTAAAAAATAATAGAAAAAATTTTATAATTGATATATCTACATTGAATTATATGGAATCAGTAGGACTTGGAGTACTTATTTATATAAGAAAAAAAGTTCATGAAATATCAGGAGAAGCAAAATATATTATTACATCTAATAGAATAAAAAAACTTATTAGCATTGTAAAGCTTGAAAAATATATAGAGATGTATGATAATATAAATGATGTAACAAGCATAGAAGTAGACAATGATAAAATATTAGTAGCAATAGTAGATGATGCTAAATTTATGAGAGCGTTGATATCAACAGTACTTCAAGAAGAAGGATTTGCTACGATAGCTTATGGTGATCCTTTAGAGGCTTTAGAAGAATTAAGATATAAAGAACCAGATATAATACTAGTAGATTATGAAATGCCAAATCTAAATGGATTAGAATTTATAAGAGAATTTAAGCCTAAAAAAAGAAATATACCTACAGTAATGCTTACTACAGAAACAGATGTTAATTTGGCAGTTAGTGCAATGAGGTTAGGAGCTTCTGATTTTTTAAATAAACCTTTTAAAAAAGAAGAACTTATACATATATTAAAAAAAGTAGTTAAAGAAAATAAGTTAATGAAAGAAAATGAAAGACTTTTTCAAGAATTACAGATTAGAGAAAAAGAGCTTAAAAAGAAAAATAATCAGTTGTTTAAGCTATACTCTGAATTGGAAGAGGAGTTAAAATTGGCATCGGAAATACAAAAAAAATTGTTACCACAAAGTTATCCAGATATAGCAGGATATAATTTTGCAGTGAAATATAAACCTTCACAAGATATAGGCGGAGATTTTTATGATTTTATAAATCTTAATAATAATAGTTATGGAATAGCTTTTGCCGATGTGTCAGGACATGGAATACCTGCAGCATTACTTTCAACAATATTTAAAGTACATTTAGTTACACATTCAAAAGAGATACAAGAACCAAGTAAGTTGCTGACAGTATTAAATGAAAAAGTAGTTGAAACTTTTCCTGACGGTAAATTTATATCACTTTTTTATTTGTTAATGAGTCAAGAAAGTGATACAATAAGATATTGTAGGGCTTCACAAGAACCAGTTTTACATTTAAAAAAAGATGGAAGTGTACAAGAATTACCAGGAAGTAGTCAAGTATTAGGACTTTTTTCGGAAAAAGATTTTCCAGGCGTTTTAAATTTTGAAGATAAAGAAGTAGAGTTATTACCAGGAGAAAAACTATTTTTTTATACTGATGGAATAAATGAAGCACAAAATAAAAATGATGAATTTTATGGACTAGATAGATTGAAACAGGTACTTAGCGAAAATATAAATTGTGGTGCAACAGAACTTATTGAAAATATATATGGCGATTTAAAAGATTTTTTAGAAGGATTACCGGTAATAGATGATCTTACTTTAATGTGTATAGAAAAAAAATAAAAATCAAATGACAAGTAATACTTGTCATTTTTTATAAAAAATAATATATATCAGAAATTAATATAGTAAAATTTATTAGCTATAAGTATTTTATATATAAAATTGCTTTAATATATTTTGTATAATTTAAATAATTTATAAATAAAAAGTATAAGGAGATGGAATGGATTTAAGAAAACTTATTGATAAAGAAATAACAAGAGAAGAAGCTATAGAACTTTCAAGGTTAAAAGGTAGTAAAATGATGGAATTGTTTGCAGTCGCAAATGAAATAAGAGAAAAGTATTGTGGTAATGAATTACATACATGTACTATAACAAATGCAAAATCTGGTAAATGTCCAGAAAATTGTAAATTTTGTGCACAGTCAGCACATCATAATACAAATATTCCTACTTATGATTTAAAAGATGAAGAAACTTTACTTAATGAATATAGTAAATCAGAAGATTATAATGCAAAAAAATTTGGATTAGTTACAAGTGGGAGAAGTATAAAAAAAGGAACAAAAGAATTTGAAGAAATAGAAAAATTTATAGAAAATGCAAAAAAAACTAATAAAAAAGTAGAGCTTTGTTGCTCAATAGGACTTTTAGATGCAGAAGAAATAAAAATTTTAAAATCAAAAGGGCTTACTAGAATTCATAATAATATACAAACTTCTCCAAAAGTATATGATAAATTAGTGTCTACTACACATAATGTACAAGATAGAATAAATACCATAAAAATAGCAAAACAAGAGGGAATAGAAGTATGTAGTGGTGGAATAATAGGAATGGGAGAGACATTTGAAGATAGAATAGATATGGCATTTACATTAAAAGAATTAAATGTAGATGCAATACCACTTAATATATTAAATCCGATAAAAGGAACTCCTTATGAAAATATGCAAGCTTTATCTATGGATGAAATATTAAAAACTTTTGCAATATTTAGAATAATACACAAAGATAAAGTTTTAAAAATAGGTGCAGGAAGAGAAGGGATATTAAAAGATTTTATGGGGATGGCATTTATGAGTGGAATGAATGGTATGCTTATAGGAGGATATCTTACTGTAAGAGGTAGAGAAGTAGAAGATGATTTTAAATTTATAGAAAATGTAAAAAAAATGTGGAAAAATAAATAAGCGGGAGTGATTATTACTTCCGATTTTTTTGTTTTTATAATTATAAAAATTATAATTTTTTTTAATTAAATTAAAGAGGTGGGGTTATGAATTATTTAAAAGAAGTATTGCATAATTTAAAAATTAATAATATGCATAGAGAATTGAAAGATATAGATAAACTTGAGCATAAGTATATTTATAAAGAGGGAATAAAGTACTTAGATATGACATCTAGTAATTACTTAGGATTAAGAGATGATATAAGGATAAAAGAAGCAGTAATAAAAGGAATACAAACATATGGAGTAGGAAGTGGAGCAAGTAGACTCATATGTGGAGAAGCAGATATTTTTAGGAATTTAGAAGATAAGTTAGCAAAATACTTAAAGAAAGAAAGAGCACTTATATTTAATAGTGGATATGATGCAAATATAGGAGTGATTTCTACATTGTTTACAAGTGATGATGTAATATTTTGTGATAAATTAAATCATGCAAGTATTTATGATGGAATAAAATTAAGTGGTGCTAAATTAATTAGATTTAAACATATGGACTATAATGATTTGAGAGAAAAAATAGAAAAAAATCAAAATTATAATAAAGCACTTATAGTTACAGATTCGTTGTTTAGTATGGATGGAGATATTGCTGATATAAAGCAATTAATTAAAATAAAAGAAAAATATAAAAATATTTATTTAATGGTAGATGAAGCACATGCTGGAGGAGTTTTTGGGGAAAATGGTTTTGGAATTGCAGAAAGAGAAAATGTATTAGAAAAAATTGATATAAATGTAGGAACATTTTCAAAAGCATATGGAGTACAAGGTGCTTATATAGCAGCGTCAGCTACAATTATTGATTATCTTATAAATAGATGCCGTTCACTTATATATACTACAGCTCTTCCACCTGCTTTTATTGCTGGAATTAACGAAGCATTTGATATATCAATAAAAGAAAAAGAAAGAAGAATACATTTATTAGAAATAAGTAAATATTTTAAAGAAAGTCTAATAAAAACAGGATATAATGTATCAGAAACAAATTCTCAAATAATTCCTGTTTTATTTAAAAGTAATATAAGTACAATAAAATTAGGTGAATATTTATTAGCAAATAATATTTATGTAGTTGTAATACGTAAGCCTACAGTAAATATTCCACGAATAAGATTTTCATTAAATTCATTATTAGAAAAAGAAGATATTGATAAAGTTCTTGAATTATTAAAAAAATATAAGAAAATAAATTATTGAAAAAAACTATATAATACTTTATAATAAATACAAATGAGTCAAAAGGGGCGGTAAAATGAGCATAGGGTCAAGATTAACAATTTTTAATACTTTATTAAATTTAATATTTTTTTATTTTTTATCTTTTATTTTTGGTATTGATATTAATCTTTCTTTTATTATTTTAATATTTGGGATATTTATAATATATTATATATTTAATATTTATAATATGGAAAAAGGAAAATATCAATTTAGTGATTTATTGTATTCGTTTTTTTTAAATTTATTACTTGTTATTGTTGCACTACTTGTAAATATGAAAGAATTAGCATTTGTTTTTATAGATATTTTTATTTTACAAAATATAATTAAATATTTTTTAGCAAAATTTTTTGTAAAAAAAAATAATGTGATTATTATTGGAAAAAATAAAGAATCAGAAGTAATAAAAAGAATAATAAATGAAAAAGATATTTATAATGTAGTTGCAGAATTAAATTTTCAAGAGATAGAAAATATAGAAGAATTAGTAGAAAAATATGATGTGGAAAGAATAATTATCACAGAAAATATTATAAAAGAATCACTTATACAAAAAATATTAAGTGTAAAGTTAAAAGGTGTAAAAACGTATAATTATATAAATTTTTTTGAAAAAGTAGAAGAAAAAGTATTAGTAAATAGAATTAATGAAGAATGGTTTTTATTTGGAAGAGGATTTAATATACTTCATGATAATTTTCAAAAGAGATTAAAAAGAATATTTGATTTTTTACTAGCCATATTAATATTTATATTGACTTTTCCAATTATGTTAGTATCAGCAGTAATAATAAAATTAGAATCAAAAGGACCGATATTATTTATACAGGAGAGAATAGGTCTAGGAAATAAGTCTTTTAAAATAGTGAAATTTAGGTCAATGACAGTAGATGCTGAAAAAAATGGACCACAATGGGCTCAAAAGAAAGATAATCGAGTAACAAAATTTGGTAAATTCATGAGAAAAACAAGAATAGATGAACTTCCACAATTATGGAATGTAATAAAAGGTGAGATGAGTTTTATAGGGCCTAGACCAGAAAGAAAATATTTTATTGATATATTAGAAAAAGAAATACCATATTACAATGTACGTCATTCTGTAAAACCAGGACTTACTGGCTGGGCACAAGTGAAATATCCGTATGGAGCTAGTGTAGAAGATGCACTTAGAAAATTGGAATATGATCTATTTTATATAAAACATCAAAACTTTATATTTGATATAATAATTATCTTTAAAACAGTAAAAACAGTTGTGTTTGGAAAAGGAAGATAATAAAAATATTAAAAAAATTATGTAGCTATAGAAAGGAAAGAAATGCAAGAGAATAGTAAAGTTATGCAAAATGAAATAATAAACCAAAATAATTATTATGAAGAGGACGAGATTGATTTACTTGACCTTATTAGAGTAATATGGAAAAGGAAAACCCTTATTATAATTATTACAGTGTTAGTGACTATTTTTGGGGGAATTTTTGCACTTATTTCAAAACCACTGTATAAAGCAGAATTAACATTTACAGAAGAAAAATCCTCATCTTCAAGTATGTTATCAAGTTTAGCTAACTCTATACCATTTGGATTGATAGGTGGAACATCTAATAATGGAAGTAGCTCGTTACTTACAATACTTGAAAGTAGAACTTTTAGAGAAGAAATAGTAAATAAATTAGGATTATATGATTACTATATTAAATATAATAAAATAGAGCTAGATAAAATAGAGGATGAAAATGATAAACCAACTATTTATGATGTAGCAAAATGGGTTGGAAATATAGTAGTAGTATCAAAAGATGAAAAAAATGGAATATATAGAGTAGAAGTAGAATTATCTGATAAAGAAATGGTAGCTAAAATAGCAAATGAATATTTTACTGTATTGGATAATTATTTAAAGGAGCAAAAAGATGATAAATCAAATTTATCATTAAAATATTTAAAAGAGCAAGTAGATACAGTAGAAAAACAAATAAATGATAAACAAGCAGAACTTCGAGAAATAGAAAAAAAATATAAAACAGTAAGTATACTTGATGAAGCAAAAGTAGTAACTGAAAAAGTGGCAGAATTAAAACAATTTATTATACAAAAAGAAAATGAATTGAAAATATCTAAAAAATTTGCTGGAGAAAATAGCTTTGAAGTTCAAAAAATAAAAGAAGAAATAATAGTAGCTAAAGAACAATTAAATGCGATAATAAATGGAGATGATAACTTACCTGTTGATATTATACCTCTTCGTGATATACCACAAATCAAATTTGAATTACAAAAATTAGAGCAAGAATTAAATGTAAATATAGAAGTATATAAAATGCTTAGAGTAGAATATGAAAAAACAAAATTAGAGGTATTAAATAAAAAAAGTATGATAACTATTTTGGATAGTGCAATAGATCCAAAATATCCAGATAAACCAAATAAAAAGCTTATAGTAGTCATATCGTTTGTACTAGGTGGATTTTTAGGAATATTTTTTGAATTTTTTATTGAATTTTTAAAAAATATAGAGTGGGATAAAATAACAGAAGAAAAAATAAATTAGAACATAGATTAAAAAGGGGCGTAAAAATGAAAAAAATACTATTGTTTTTATCTTTATCAATAACAATATTTGCAGCAGATATTACAACAACAGATGTTACAACACTTATGCAAGCAAATAATAATCTAAATAATTTAAAGAAAAGTGATAATATAGATAATACTGATGAATCACAGCAACAGATGGAGAAATTAAATACTTTACAAAAAGAAAATGATAAAATACTAAATAAAGAAGAACTAAATAAAGAAGAACTAAATAAAGAAGAACTAAATAAAGAAGAACTAAATAAAGAAGAACTAAATAAAGAAGATAAAGAATCAAATATATTTAAAAGATATTATAATGAATATATAAGAAATAGAGAAGAATTAAAAATGTATGGTATGGATATAATAAATAATAGTAGAGCAGTAAAAACCACAAAAACTATTGGGAAAGATTATATATTAGGAATGGGAGATACAATAAATATAAATAGTTGGAGTGACATTTTATTACCTGATGAAGCAAATAAAAATTTTATGCCAATATTGACAATAGACAATAGCGGGAATTTATTTATACCAAATATAGGAATAATAAAAGCTGAAGGGAAAACAATAGCAGAGTTAGAAAAAGATATTTTATATAAAGCAAATAAAAAAATCAAAAATTTTAATATAGATATATCATTAAAGAATAGTAGAACATTTGCAATAACAGTAATAGGAGAAATTAATAAACCAGGTATTTACAGTATAGATAAATACTATAATTTATTTAATATACTTTATACTGCTGGTGGAATAAATAAAAATTCTAGTATAAGAAATATAAAAATCAAGTCGAAAGAAAAAGAAACTATAGTAGATTTGTATGATTATATAAATGGAAATAAAAATATTGAAGATATAAAAATAAATGATGGAGATATAATTTATGTCCCTGTAATAAAAGAAAAGGTAGCACTTTATGGAGAATTGAAGAAAAAATGTATATATGAATTAAAAAATGAAAAAACGTATGAAGAAATATTTAAAAATATAGGGGCATTTGATATTTTTGCAAATAAAAACTTGATAAAAACAAAATATATTGAAAATTTACAAGTAAAGGTATCAAATGAACGATTAGAAAATAGTATAAAACAAAATTTAATTTCAATTGAAATAGGAAGTATAGATAAAGAATCAAAAAATAGTGTATATATTTATGGGAATGTAGTAAACCCTGGAGAATATAATGTAGATAAGATAAAAGATTATAGGAGTTTAATAGAAACTGTAGGAGGATATAAAAAAGATACATATTTAAATAGTATAACTTTAATTAGATTAAAAGAAAATTATGAAAAAGAAATTATTACTTTTAATCCTATTGATGAAAATATTGAATTGAAAAAAAATGATACAATATATGTATATAATAGAAATGATATAGCGGCTAAAAAATATAGCAATATTATAGGAGCAGTAAAAAATCCTGGAAATTATGAAATATATAAAAATCAAAGAGTATTAGATCTTATTAATTTTGCTGGTGGAATAGATATAAAAGAAAATGTTTTTTATAAAAGAGCTGATATTTATCGAGTTGATGAACAAGGAGAATTAAATCTTATAAAATTTGATTTAGAAAAAGCTCTTGCTGGTGATACAAAAGAAAATATTATATTAAAAGCAAATGATATAGTAAAAATCTATAAATATGAAGAAGTAATAAAACCAGATACAGTATATATATATGGAAATGTAAAAGAGCCAGGGAAAATAAAATATTATAAAGGAATGACATTAGAAGATACAATATTTTATGCAAAGGGATTAGAAAAAAAAGCAGATAGAAATATAGTAATAGCTAGAAATGAAAAAATTAAAGATAAAATATCTGAAATAATAGTTGATTATATGAAAAATCCAGATTTTAAAATATTACCAAATGATGTAATCTTTGTAAGAAAAGATTCAACATGGCAAGATGTAAAAACGGTAAAAATAACAGGATTTGTAAAATACCCTGGGGAGTATTTATTAAATGATGATGAGGGAATTAATTCTATTATAAATAGAGCTGGTGGATTTAAATCTGATGCATTTCCAAATGGTATCCAAATAAAAAGAAAAGAGACACAATTAAAAGAGAGTAGAAGCTTAAATCTAGAAATAGATGATAAAATATCTCTTGAACAAAATGTGTTTAATTTAAAAGTAACAAACCTTAAATATGATAGAGAATTAAATAGATATAAAAATGATATAAAACTTATAGATGGAGATGAAATCTATATACCAAATAGACCTACAACAGTAAAAGTAGTAGGAGAAGTTTATGCACCTAGTATAATAGCATATAATGAAAATTTTAAATTGAAAGATTATATTGATGCAGCAGGTGGATATAAAGAAAAAGCGTATGAAAAAAAAGTATTTATAATAAAAGCAAATGGAAAAGCTATGAAAGAAAATATAAAAAAAATAAATATAGAAGCTGGAGATACAATAATAGTTCCAAAAGATACTAGAGAAAAAAGTAAATTAGATAGATTTTTAGATATATTACAAGTAAGTGTACAACTTTTAACGACAGTACTTCTTGTAAATACAGTTGTAAATTAACAATAAAAACTTCCCTAATCTTAGGGAAGTTTTTATTTAAAGTTAGATATTTAATTTTTTTGCAAATAAAAGAGGAAAAATCAAAAAAAACAATATAATATTAATTGGAACTCTATATTAGGATGGGGATAAATATGAAGATGATAAAATTAAAAGCAGGTGGAATATTGTATTTTGAAAATACTGAACCTAGAGAAATATATGTATTAAAATCAGGGCGAATTTTTTTAAAAAAAGAAAAAGGCTTTTTCTTTTATAATAATAAAATAAATACTTTAAAAGTATTAAATGTTGGCGATATGTTTGGATTTGAAGAAATTTTTATAGGAATAAAAAGAGAATCTAGAGTAATAGCTGATATTGATTCTGAAATATTAGCTTTTGAAGATAATGAATTTAGTGATTTTATAAAAAATAATATTGAAATAAGTAAAAAAATGATAATATCCCTTTCAAAAGAGATACGAGAATTAGATGAGAGAATACATTTGGAATCAAAAGAAAAAGATGAGCTTCGTTCAAAAACACCATTTTTTGATATATATATATATTTTATTTCAAGAGGAGAATTTTTAAAAGCTTCACAAGTTTTGAAAAGAATGATGATAAATGGAATTGAAATAGACTTTGTAAAATCTGAATCTAAACGAATAGAAAATTTTTTAGATTATAGTGTAACGCTAGAAAAAATAGATTTAGTAAAAAAATATTATGAAAAATCACATGAATTATTGATAGCCTTTTTAAAAGGACTACGTCATAATGTGATATATGATGATGTACTAGAAAAGCTTCTTATTGAAACTATAGATATACATGTAGCAGTAAAAAGAGAAAGTGAAATTATAAGTGAATTAGAAGAATTCATTGAAAAATTTCAGACTTCAAATAGACATAAAGAGATGATGTTTTTATTACTTAGAATATATGAAGAGAAAAAAAATTATACTAAAGCATTTCAAGTGGGAAATCTACTTATGGATGCAGATCTTAATGAAGAAGAAAAAATAAGATTTAAAGATATGATAACAGTATTAAAAGAGAAACTCACTCTAGAAAGAAAAGGTGAGGGAAATGTTTGAAAATAAAAAACTTATAGAAAAATTTGGAAAAAATTTTAATAATGGAGATATAATTTTTTGTGAATATGAAAAACAATCTAAATTATATTTTATAATATCAGGTAGAGTAAAAATAACTAAAATAAGAAAAAATGAAGAAAAAGTATTGGCATATATAGGGGCAAATCAATTTATAGGAGAAATGGCTGTATTTGAGGATAAACCTCGTACAGCGACTATAATAGCAGAAGAAGATACAAAAGTGTTAGAATTTGATAAAGATAGTTTTTTTGAAATTTTAAAATTAGCTCCTGATATAGCAGTGAGTTTGGTAAAAGTATTGTCAAATCGTAGATATAACACTGAAAAACAATTAGAGATAATATTAGAAGAAAATAGTGAAAGAAAGATATTACGTTATATATATGAAAAATATTTAAATACAAGAGAAAATGAAGTGATTTTATCGCTTGAAGAAATAAAAAATATTACAAATTTACCACTTGAAGAGATAGAAAAATATCTAAAAGTATATAAAGACAGAGGATATCTAGATCTTGATTATGAAAAAGTATATGTGAGAAATTTAGAATGGTTAAAAGTAAGATTTTCTAAGTAATTTTCAATAAATTATTTGAAACATTATTTTCTTGTTTTATTGACATGGAAATTTAGGGTGAGTATATGTATATAATTGAAAAATTAACTATAATTTCTATAATTTTTTCGATGATATATATAGTTTTTAATCTAAAAGTAGGGGCTATAATAACTCTACTTTTTTTGTTGTATATTTTTATAAAAAAGGATTATATTTATTTGATTATACTAATTCTTTTTTATCAAAGTTATATAAATAGTGATGTTTTAGAAAAAGATAAAATATATAATCTGAAAATAAGAAAAATAGGTGAAAAAATAGAAGTATTAAAAATAAATAAAAAACTTTCAAAAGAAGAATATAATATAAAAACTTATGACGAGATTAATAATGGAGTATTTTATACCATTTCAAAAATAGAGAAAAAATATAAAAATATAGTATATCTTGATAATTATGAAATAAAAGAAAGTAATTTAAATAAATATAGATATTTTTTATATAAAAATATTGAAAAACTTGATTTGGAATATAATACAGAAAATTTTGTAAAAGCTATAATTTTAGGTGAAAAAACATCTCTTGATAATAGTATAAAAAATAAGTTTAATAATATAGGTGCTTCTCATATTTTGGTTATATCAGGATTTCACATAGGACTTATTATTTTACTATTATTAAAAATAGCAGAATTTTTAAAATTTTCTTATAGACAAAAATATTTCTTTACTTTTATATTATTGAGTATATATGTATTTTTAGTTATGTTTACACCATCAGTATTTAGAGCATATATAATGGGAAGCTTTATTTTGTTTTCAAATATTTTTTATGAAAAAAATGAAATACGCAAATCATATTGTTTTTCCATGATATTAAACCTTATAAATAATCCATTTATTCTAAGAAATATATCTTTTCAAATGTCATATATAGCACTTTTTGCAATAATTTATTCATATAATTATTATAATAAATTTATTGGAAATAAATATTTTAAACTAATATTACTAAGTATAATAATTCAAATATATTTAATGCCAATATTTCTATATTATTTTAAAAGTATATATATTTTTTCATTTATTGCAAATGTAGTTATTTTATCTTATGCAATATTTATTATACCAGCGATATTTATACTATACTTTATAAATATACTTAGTTTTAATTTCTTTGGAATATTAATAAGATATATAATAGAGAGAATGTATCACTCATTATATGGGATAGTAACATTGTTTTCTAAAATACCATTAATGAAAATAGATATAAAATATGCCAGTACAATATTTTTAATGATATTTACTTATTTCTTAATATTTTTTATTGAATATGAAGTAAGAAAAATAATAAAAAGTAACTTGACAAAAAATATATAACAAGTTACAATTTTATTGTTCAAATAATGAACTATAAAAAAATAGGAGACAAATATGAAACGAATAGTAGATGAAAGTGATATATTAGAAATAATAGAAAAAGAGCCAATAATAAGTCAAAGAAAATTATCTGAAAAAAGTGGTATATCACTAGGAGCAGTGAATTTGTTAATAAAAAAATGTGTAAAAAAAGGATTTATAAAAATAGAAAACCTTAATTCACGTACAGTAAAATATATACTGACTCCGCAAGGAATAAAAGAAAAAACTAGAAAAACATTAAAATATATAAAGAATTCATATAATTTGATAATAGAATTAAATAATAAAATAATAAAATTAAGTAATAAACATATATCAGAAAATAAAACTATTGTCTTATTAGGAAAAAATGATGAAATAATGGAAATAATAGAAACTACATTTAAACTAAATAATATATCATATGATAAAATAAATAATATAAAAGATATAGAATATTTTAAGAATATTATTGTATATTTTTGGAATACAGAATTAGAAGAAAAATTAAAAGAAAAAAATATAGAATACATTAATATAATAAATGATAAAGTCTAATTTTTATCTAAAAAAAAGAAATAAAATATATAAATAAAAGAAAAAAATCAAAGATTTGAAAGGGGAACAAAATGTCAAAGGTAGCCTTAATTACAGGAATAACAGGTCAAGATGGTTCGTTTCTTGCGGAATTATTATTAGAGAAAGGGTATGAAGTACATGGAATAATTAGAAGAAGTTCTAGTTTTAACACAGGAAGAATAGAACACTTGTATATAGATGAATTAATAAAAGATATGCATATAAAAAGAAAAATAAATCTTCATTATGGAGATATGACTGATTCTAGTAATTTAATAAGACTTATCCAACAAATTCAACCTGATGAGATATATAATTTAGCAGCACAATCACATGTAAAAGTATCATTTGATATGCCAGAATATACAGCTGATACAGATGGAATAGGTACTCTTCGATTATTAGAAGCAGTTCGATTATTGGGTATGGAGAAAAAAACAAGAATATATCAAGCATCGACATCTGAATTATATGGAAAAGTACAAGAAGTACCACAAAAAGAAACTACACCATTTTATCCTAGAAGTCCTTATGGGGTAGCAAAACTTTATGGATTTTGGATAACTAAAAATTATAGAGAATCATATGATATGTTTTGTGTAAATGGTATACTTTTTAACCATGAATCAGAAAGAAGAGGAGAAACATTTGTAACAAGAAAAATAACTCTTGCAGCAGCTAGAATAGCACAAGGAAAACAAGAAAAATTATACTTAGGAAATCTTGATGCAAAAAGAGATTGGGGATATGCAAAAGATTATGTAGAGTGTATGTGGCTTATGTTACAACATAATAAAGCAGAAGATTTTGTTATAGCTACAGGGGAGATGCATACAGTTAGAGAATTTGCTACTTTAGCATTTAAAGAAGCTGGAATAGAGCTAGAATGGCAAGGGACAGGGATAGATGAAAAAGGAATAGATAAGAAAACAGGGCAAGTATTGATAGAGGTAGAACCCAGATATTTTAGACCTGCAGAAGTAGAACAATTATTGGGAGATCCTACAAAAGCTAAAACATTACTTGGTTGGAATCCAAGAAAAACTAGTTTTAAAGAATTAGTTAAAATAATGGTAAAGCATGATATGAAATTTGTAGCAAAAGAGGATAGAATAAAGAAAGCTTTTGATTAATATAATAATATAGAAATTTGTAAAAATATAAAAGAACTTACACAAAGAACGCAAAGTAAAAGAGAAGAGGACCACAAAGAAGAAAAGAGTTTAAAAAAAATAAAAGTGTTAATAGATTAAATAAAAAAAACCGTATAACTGACGGTAAAAAAGAGGTGTGTTTTTATGGAAAAAGAATCAAAGATTTATATAGCAGGTCATAGAGGAATGGTTGGTTCTGCTATTATTAGAAGACTTAATGAATTAGGATATAATAATCTTGTATATAGAACATCAAAAGAGCTTGATTTAAGAAGACAATCTGATGTAGAAAAATTTTTTGAAGAAGAAAAACCAGAATATGTATTTTTGGCAGCAGCAAAAGTAGGAGGAATACATGCTAATAATACATATCCAGCAGAATTTATATATGATAACCTTATGATAGAAACAAATATAATACATAGTGCATATAAAGCAGGAATAAAAAAATTATTGTTTTTAGGTAGTTCTTGTATATATCCAAAATTCGCAAATCAACCAATAAAAGAAGAAGAATTGTTAAGTGGATATTTAGAGCCTACAAATGAAGCTTATGCTATATCTAAAATAACAGGTATAGAACTATGTAAATTTTATAGAAGACAGTATGGCGTAGATTTTATATCTGCAATGCCAACAAATCTATATGGTATAAATGATAATTTTGACCTTGAAACAAGCCATGTAATGCCAGCTTTGATTAGAAAATTTCATGAAGCAAAAGTAAATGGAGATAAAGAAGTGGTAATGTGGGGAACAGGTAAGCCTAGAAGAGAATTTTTGTATGTAGATGATTTGGCAGATGCATTAATACACCTTATGAATAATTATAGTGATGAAATACATGTAAATATGGGAACAGGTGAAGATATAGAAATAAGGGAATTAGCTGAAATCATAAAAAAAGTAGTAGGTTATGAAGGGAAAATAGTAAATGATACAAGTAAACCTGATGGAACACCAAGAAAATTACTTGATGTAGAGAGGTTACATGCAACTGGATGGAAACATAAAGTTGAGCTAGAAGAAGGAATAAAAAAAGTTTATGAATGGTATTTGAGGGAATATGAGTAGAGGTCTAAATAAAAAAATAAAAAACTCGGTATTTTTTGCTTTAATAGAACAAGGTATATCTGTTATATTTGGATTTTTAAGTACTTATTTAATTATAAAATATATAGATAGAAAAATATATGGAATTTATAATTATGTATTGAGTTTTATGGTGCTTATAAATTTTATAAATATAGTTCCAGCTAATTATATGTTTAAATTGAAGAATAATTTAAAAGATGAAGAAGAATTGAATGTATATATAACTTCATTTTTTGTCTTTGAAATTATAAAAGGAATATTTATATTTATTTTGAATGTTATACTTGGAATTGTTTTATATTTAAAATTTTTGAATGGAATTTATTTGTTTATTGCGATAATGAGTAATGGGGTTCTTTTTTTTATAAACCAAATGATTGCTGTTAGTCGTATGGTTTTGAATATAAATTTTTTGCAGAAAAAGATTACAAAATACAGAATAAAATCTACTATATTAAAATTGTTATTACTTTTGTTATTGTTAGTTTTTCCAAAATTAGAGATTGTAATATTAGCTAATTTGTTTTCTCAATTGTTTTTCGGTATAATGTTATATAAAATTTTAGTGACAGATATTAAATTTCATTTTTCAAAATTAGATAATAAAATAATTTATAAAAAGAATAAACAATCTATAAGAAATTATACGTTAACAACTCATTTGTTGGGGGTAGTTTCGAATATCATATACAGAATAGATCCGTTGATTTTGAGTGGATTTGTTACAATGACTACATTGGGTAGGTATAGTGTTGCTTTGAATTTAGGGAATTATTTTATGATAATATTTCAAGTGTTACAAAATAATGCATCTATAGCACTTGCTAATATAAGTGATGAGGTGGAAGAAAATACTGTTATTTCTAAATTTTTAACATTGAGTGTTGTTTTATCAATTATTCAATATGCTTTATTTATTTTGTTTGGTAAAATATTTTTGAGTTTTTTTATTGAAGTGAAGGAAATAACTGAAATTTATAATTATATGAAATATATTTTACTAGGTTTATCAATTTATAATTCAATGATAGTTTTAGGGAGTTATATAGCACTAAGAAATGATCCGAAGATTCTTTTATTAAATGTGGCAATTCCCACAGGAATTTTTTCAATAATAATTTATTTTGGGGGAGCGGTTATTGGTGGTGCAGTTGGAGTAGCTGTTGGAAATATCATTGCTTATATATTTTTTTCAACACTATTAATTAGGGAAGTAAGAAAAACTAATTTCAAATTTATTTTGTTTAATAAATACAGGAGGTAATGGAATGTTAATTTCAGCAATAGTAATGGTAAAAAATGAAGAAGAGTATATTGGATATAGTATAATGTCAATGTATAAGTATGTAGATGAAATACTTGTAGTGGATGGTGGAAGTACAGATGGAACAGTAGAGATTATTAATGAAATCATAGCTAAATACGATCTGGATAAAAAGATTGTATTTTGGGAGGATTTAAGACCCAAAAAAGAGTTGATTCATGTAAGAACTGATATGGTAAAAAAATGTAAAGGGGAGTGGATATTAAGATTAGAAGGGGATGAAGTTTATTCTGATTTTAATGCAAAACAGGTTAGAAATTTTGTTAAAAAAAAGTTAAGAAATTCTAATGTGAAGTCAATTGGGTGGCCTTATCATTTTTTTGTTGATAATTTAAAAACAAAAGTACCAGTTGGAGAACCGCATACATTTGCAACGATAATGATAAAAAATGAAGAAGGCATTCATGCGGAACATCATTATAGAGATGGGAAGAGTGAAACGTTTTATGACGAGGGATGGTTTGATAAAGATAGGAAAGAGGTGTCTATATGGCATCCATATGACAATAGAATTCTTGTTTCTAGGAATATAGCAATACATCATTATGCATTTTTTAAAAGCACAACTAGGCATAACGAGTATGCAGAAAAATGTTTAAAAGAAAGCTTTGAAAAAAGTCATCCACAAGTATTTAAAAGATATGATTTTAAACCTTTAATGAAAAGTGAAAGATCAAGAGAGATAATAAGAGAGATAGAATCAAATGTTGAAAATGAGAAAGATGGTTTATCAATAAAAGAAATTTTAAGAAATAATATTTTGGATTTAAAAGATAATTTGAAGCGTAGGTTGAAATATTACAAAGGTGAAAAGATATGAAATTGATAAAAAAAGTAATTAGTAAAAAAAAGAGAATAGTATTAAATATGTTTGAGCAATATTATTCTAAAAAGTTTAAAAGTATGGTAAGAATATAACATGGGAAAGGAAATGGAGACCTTTTGTAAGTAATAATATACGGATTGTAAACTATAAAAATATAACTTTAGGCAATAATATTCATTTTGATGAATTTATGCATTTAATATGTGCAGATAAAGCAGAAATAAAAATCGGTGATAATGTTAGATTTGCAAATGGATTTCAACATATTGGATGCTCTAACGGAATAAGAATAGGCAATAATGTGTTAGTAGCAGCTTTTGTACATATTAATGATGGAAATCATAAATATGTTGATATAGATATACCTATAATAAATCAAGGAAGTTATAGTAAAGGAAAAATAAAGATAGGGAACAATGTTTGGATAGGCCATAGTGCTCATATATTAGGTGGAGTAGAAATAGGTGATAATGTGGTTATTGGGGCTGGAGCAGTTGTTACTAGAAATATACCACCATTCAGTGTGGCCGTTGGAAATCCTGCAAGAGTAATAAAAAAATATGATAAAGGTATAAAAAAATGGATAAGAGTATAATAAATTCATATTTTAATCAATTTTTAATCAATGAAAAAAATTAAATATAATTGAAAATGAAAATTATAAAATGAATTTGATTCTATAGTAGCTTTTTGACTATAAGATATTATATAAGGAGGAAAAATGAGAATAGCTATTTTAGGTGGAGGACTTTCAGGTATTTCTTTATACGATATATTAAATAGAAAATATGGGATTGTTTCAGATATATATGAAAAAAACGATAAATTTGGAGGATTATGTAGAACAGAAATCATAGATGGTTATGTCTATGATCTTAGTGGAGGACATGTATTTAACTCAAAATATAAAGAGGTAAAAGAATATATTTTTGAGTTATTAGATAAATCAAATTGGCAATATTCAGAAAGAAAATCAAAGATTAAATTTGGCAGTCAAATAATAGATTATCCATTTGAATTTTCTCTATCAAAAGTAGATAAAGAAATTGCTGCAGATTGTATAGAAAGTTTATTTAAAAGAAATAATGAAATAAAGATCAATAGTTTTAAGGACGCTTTGGTAAAAAATTTTGGAGAAAAAATTTATGAATACTATCTGGGACCTTATAATGAAAAAATTTGGAAATTTTCACCTGCAGATATGGATTTTGATTGGATAGAGGGGAAACTTCCTTTTCCAAATGCAAGAGAAATATTAATTAAAACTTTAAATAAGGATACTAAAGAAGAGGGGATGTCTCATTCTACATATTACTACCCTGTAGCGGGAGGAATACAAACAATGATAGATGCAATTTCTGAGAGTATTCCTAGTAATAATAGGTATGAAGGAGTTGAAAAAATTGAATTTAAAGATTCAAAAATCTATATAAATAAAAAGGAGTATGATTTGGTAGTAAATACAATACCTCTTCCGGAATTAAAGAAATTGATATTAAAATTAGATGAAAATATATTGAATGCTATAGATAATCTCAAGTATAATTCGGTTCATTCTTTTCTTTACCCTATAGATAAAGAAAATGACTATTCATGGATGTACATACCGGATAAAAAGATTATACCACATAGAATTGTTTATCAAGGGAATTTTGCAGAAGAAAATAGCCCTAAAGGAAAGAGTAGTATAACAGTTGAAATAACAAAACCAGAGTTATATACTAAAGAAGAAATGTTAGAAAATATTTCAAATTTTTTAGGACTTAAAAATCCAATAGCCGAAAATTTTACAAAATATGCATATGTGATATTTGATAAGCATAGAAAAGATAATATGTCATTGATAAAAGATTATTTTAAAAATAGGAATTTAATTTTACATGGAAGATTTGCAGAGTGGGAGTATCCCAATATGGATATATGTATAAAAAAGTCTATGAATTTAGCAGAATTTATTATGACAGAATCTAAAAATAAGATGGAGAAATAGATGTTATTGTTATCCAATAAAAATAAAAACATATCTAAATTTTTTATATATTTTACAGTATTTATATTTATTAGTAAATATTATATAAGCACTATTAATATTGATATTTTAGCACTCAATATTATTAATAAAACCTTAATGATAATATACTATGTATACTTATTTTTTAGTATTTTAATCATTAATTATAATAAGAAGGAGATATTTTTGATTTCTTTTTTATTTTTATTAATGGTAGTATTTAGAACACCTTTTTCTAAAGATATATTTATGATAGTAACTTCGTTTATTTTGATAAAAAGATTAAAAAGAAAAAGCTATTTCAAATTAATATGCTATACATTATTGATGTATAGCATATTGCATATAATTTTATATATTTTAAATATACTTCCAGACAAAACTTTAATAGAATATGAAATAAATGGGAAGGTAAATATAAGAAAAAGTTTAGGTTTTCTCTCAGTAAATGCTTTTCCACTTTTAATGTTTTTTTTGTATATTGGAAATACACTAAGAACTAAGGTGTTTAGTAAATCTAATTTTATTATTATACTATTAATTTTTATAGTTGTTGCTTTTACTAAGACTAGAACAATAGTATTAGTTATAATAATAATGAATATAATATATTTTATTTTAAAGATTACTAATTTAAAAAATAACATTATAAAATTTGTATTAAAGATCAATTATTTTTTGTTTGGGCTATTAACTATGTATATTGGGTTGACATATAAATTGAATGGAATTCTATTTTTGATTGATAATATTTTATCTTATAGATTAAGATTTTGGAAAAATATGTTTTCAATCATGGATTCAATTGATTATTTAAAAGGCCATGATATATACTCGTTGGCTAAAAAAATGCATAATCCTATTGATAATTCGTATATATATTCTATTTTTGGAATAGGAATATTATTTTTTTTAGTGTATTCAATATTATATTATAAATTGTTGGAGATTATGATAGAAGAAAAAAAATATAAGGAAATAACGGTAGTAACAATTTTTATTGTTTATTCATTTGTAGAGAATATTTATTTTTATGCAATATTTAATCCAACATTTTTATATATGATTGATTATTTTATTACTGATAAGAAAGGAAAAGAAAATGAGGGAGATTTCAATAATAATACCAACTTATAATAGAGCTATAACTTTAAAAAAAGTAATTAATTCTTATATTATTCAAAAATATGTAAAAGAGTTAATTATAATTGATGATGGAAGTAAAGTTGAATATAAATGTTTAAATAAATATATAAATGGGTTATGTGAAGAAAAACAAATAGATTACAAATATTTAAGAAATAAAAAAAATATGGGAGCAGCATATTGTAGAAATATAGGAGTTAAAAATTCAAATTATGATTATATTTTTTGGGGTGAAGATGATGTATTCTTGAAAGAAGATTATATAGAAAGGTTAGTTGAAGAAATATCAGAAAATGAGATATATTGTGGAGCGATAATCTATGATATATCTTTAAAAAAGAGTTTAGAATCTCAAAAAAGTGTTATTGATAAGCAAAGAAAATCAAAAAAACCTATTTTTGATTATAAAAAAATGGAGGGGTATTTTAGAGTAGAAGGAATTAAAAAACAGGAAATACCTTTTGGACATGCGCTAATTTTAGTTCCTAAAAGTGCATATAAAGGTGTAAAATATTACGAAGGATATGATTATAATGGTTATAGAGAAGAAAGTGATGCACAAGTACAAATGGTACAAAATGGATATAAGATTTATTATAATGGGAATGCAGTTTGTTATCATATGTTAAGGAATGAAATTGAGGAAAAAAGTGGTCAGCATAAAGGGAATTGGTTAAAATATGAGTTTTTTAAATTGAAAAATAATTTTATATTTTTTAATAGATATAAATCATTTTTTAAAATAAAATATAAGAATAAATCTAAAATCATTGCTTCTAATTATTTATTTACTTTAGATGTTTTGAAAATAATTTTAAAAAAGAGTGTTAAATCAATTTTAATGAGGTGAGAAATGAATATACTTATTATTACTCCATATAAAAATTATTTTGGTGGAGTAGAAATTGTAAATAAAGAATTAGAAAATATATTTACTCAAGAAGGGCATTGTGTAGATTATTTAACAACGGATAAAAAGTTAAAATTAAATATTTTACAAAAAGTATTATTTAGAATAATAGGATTACCTTATATAACTAGTCTGAAATTTAAGAAGTTGTCAAAAAAATATGATATTATTATTTGTAATGGTGAATTTTCTTTTGGAATAAAACATCCGAAATGTATAAATGTTTTTCATGGCTCATATAAAGGATATAGAGAGTATTTATCAAAAGAATTAAATTGGAGAGAAAAACTAAGTTTAATGAAATTAAGTTATATACAAAAATTAGGAAGTAATGGCAAAATTGTTATAGCTGTATCTGATTTTATAGCTAAAATTTTAAAAAAACAAGGAATAAAAGTATTTAAAGTAATTGAAAATGGCGTTGATGTAAATAAATTTAAACCATTAAATATTGAAAAAGTTAATGAATATATTTTTGTTGGTGGATATAGAAACAATGGATATTCAAAAGGATTTGATGTATTAGAAAAAATTGCTCAATCAGATTATAAAATTAATTGTGTAACTACAAGAGATCCCAAAGGTTTATTAGGATATATAGGAGGAAATATAGAAAATGATTTGTTACCTGAAATTTATAATAAACATAAGATGCTTATATTTCCAAGTAGGTTTGAAGCTTGCTCAATTGTTACGGTAGAAGCAATGGCATGTGGATTGCCGATAGTAATAAGTAAAGTTGGGATAGGAGAAAAATTAAAAAATGAAATTGAAGAATTTGTAGTAGAAACTTGGAATTCAGAAGATTATATAAAAAAAATAGAAAAAATAAATAAGAATTATAAATATTACTCTAAGTTAGCAAGAGATTATGCTGTGAAGAATTATTCTAAAATAAAATTTAAAAAAAATTGGTTAAATCTATTGGAGGAAATAAATGAAAATAAATTGGAAGATTAATAATAATGTAATCTCTAAATTAGAGATTAATAATGAAAATATTATTAATCCTTTTGGAATAGAAACTGCAGATTCGTATGCTTTTTTTTCTTTGGAAGAAGGAATAGGGTATAAATATAAAATATTAAGTAAGAATATAAAATACGATGACAAACATTATTCTTATAAAATAGTAAATAAAATGATAGAAGGTTTATGGGAAATAAATGGAGAAGAGAGTTTGAATGGCAAAATTTTGAATAGAAAAATCGAATTAAAATGTTTAGAAGACTCTAATTTTATGGATTTTGTTATGAGATTTAGAATAAAAAAAGAATTTGTAAATAAAGTACTTATATCGGATAAGGAGTTGTATTATAAGAATACAAATGTTTATAATCAGTATTCTGTTAAAAAAGTAAAATTAATAGGAGAAAATTTTGATATAAAAATTACTATAAATGATAAAATCATTTCTGAAGAAATGCTTCCATTTATATATGCAAGAGATAATAATGGCGAATGGATTATACATGTAAGAATGATGCCAAAGATATGGCATAAGGAAGTAATAAAATTATGTAATTCTTGGTATAAAACACAACCAATAAATCAGATTTTGTCAAAAAGAATATTAAAAAACCAAAAATTAAAAGATTACTTATGGTATCATAATGAAAGAATACCTTATAAAAATAAGATTATGAAATTTATAAATCCAAATGCTTTTCCAATAGTAACTTTAAATAAAGGGACAAGATTAAAATGGGATGTAAATTTTGAAATAATAGAAAAAGAACCAAATTATAAAGTATCAATAGTAATACCTACTTATAAAAGAGCAGATTATTTAGAAAGATTACTATTAAGTATAAAAAAACAAAGTTTTAAAGATTATGAAATTATTATAATAGATGATAATTCGCCTAATTATAATGAATATAAGATAGTTATAGATAAATATTCAAATCAATTTAATGAATTTAGATTTTTAAGAAATAAAAAAAATAGAGGAGCCCCTTATTCAAGAAATAGGGGAATTTCACAAGCAAAATATGATTTTATAGCTTTAGTAGATGATGATGATGAATGGTTTCCTACAAAATTAGAAAATCAAATAGAAATATTTAAATCTAGTAATAAAAAAACAGGAATAGTTTATACTTGGACAAAAATATTTCAAGGAAAAGAGTTAGTTGGAGAATATACTCCAACTAAAGAAGGATACTTAATGGAAGAAATATTAAAAGAGTGTTTTATTCCTTCACCATCAATAATGTTAAAGAAAAAAGCTCTTATAGAAGCTGGATTATTTGATGAAAAAATGCCGAGTTGTCAAGATTGGGATATGTGGACAAGAATTATTAGTTGCGGTTATGAGTGTAGAGTTGTAAAAAAATTTGAAACGATTTATCATAAGCATAATAGAGAGACTATAGGAAAATCAAAAAAAACTTTAAAAGGTTATAAATTATATTATAGAAAACATTGGAAACTTTTTGCAAAAAAATTAAAAAATGAACTAACATTGAAAAACTTTGTTAAGTATTTTTTAAGAATGTTGAGGGGATATTAAATGAAATATGAAGAAATTAGAAAAATAATAGAGCAATTATTAAATTATTTATCTAAAGAGAATAAAAATGGGAAATTTCCAGCAAGAACATTTTATGGTGAAACATTTACTGCATTGTCAATGTTAATGTATGATAAGAAAAAATATAATAAAGAAATAGAAGAAATAATGGAGTATTATTTAAATAAAAAAGATAAAAGTGTTAAGGATTTTCATTGGGAATTTAATAATTATGCGTTATTTAAAATTTATGAAATAGAAAATAAATTGGAATATAAAGAGAACTTATTCCCTTTAAAATTTAAAGGAACAAATTGTTCGAATTGGACGATGTTAAGAGGACTTGTTAAGGTTATAACAGGAAAAAAAGAAGGTTTGAAAGAAATAAGAAATAAAATAAAAAAGAACCAATTAGAAAATGGTTTGATTAAAGATGATAAAAAGGTAAATTCTTTTCAATATCATTCATTTATGTTGTTTTTATTAATTGAAGCATATGAAGTAACCCAAAAAGAATGGTTATTAAATTCTTTTATTAAGGGAATAAATTTTATTTATAACATTACACTAGCAAATGGAGATAATAGTTATATTGGTAGAGGACAAGAACAAATTTTCGGTTACGGTCCACTATTATATTCTTTAGAAAAAGCATTCATCTATACAAATGATAAAAAGTATAAATATTTACAAAAGAATGTTTTTATATATTTAAAAAAATTTATAAAAAAAGATGGAAGTATTCCTTTAGTATTAAGAGCTTCAGAAAAAAAATATCCTTTTAAAATAAATATAAATGATATTAATTATTTAGGTTGGTATGGTTATAACAATTATTTTGATTACTTGCCATTTCTAACATATTTTTTTGTTTTATTAGAACAAATTTTTAATGAAGTAGAAATAGAAGATGAAAATATAGATAATAAAAAAGATTATTATGATGGAATGTATTATATAAAAAGAGAGAATGTAAATTATGAAGCGGCATTAGCGGTTCCAGATTATAATGGATATTTAACAAATGATATGTCTTTTCCCTACATAATTATGGGGGATAAACGGATTACTCCAATGTATGGAGGAGAAGAATATGGATCTTCTTTATATTCTTTAGAAGGAATTCCATTGCCAAATTTATTTTTAAATTTAAATTTAAGAGAAAAAATAAAAGAAGCGTTATATCAACTTATTTTTTTTAAAAAAATTAGTTTTTTAGATAGATTAAAAAAAATTTTAAAAATTATATTGAAAAGAAATAAAAAAGAAGAAAAATATTATTTTAAAAATCGACTTATATATTCTTTAGATTTTAAAGGGAGTTTTATAGGAGAAGGATATTTTTTTAAGCATAGAAGAGATATAGAATTTAAAAAAAATTGCATTGAAATAAAAGAAACTATAATTTCTAAGGATAATTTAAAAATTAAAGAATTTAAGATATTAAATATATTTTCATTGGGAAGTTTACAAAAAAAATCTAAGAAAGAAATAAATTCTTTAATTAACAATAAAAACATATCATTTGAGTTCAAAGGTTTAAAAGAAGTAAGAATAGATAATAAAAAATATTATTGTGCTATAGATGAAGTGACAAATATAAGTTGTTATATGGAGAAAGATAATTTGAAAAAAGGAGAAAAAATTATATTTTCTTATAAAATAAATTTAAATGAAAGGATATAAAAGTGAAAAAACTATTGTTTATTTCAAATGATTTAGGAAGAGAAGATAGTGGAGGGAAGGCTGTAAGTTTTAGAAATTTAGAATTATTAAAAAAATTAGAAGAATATAAAATAAAAGTAATTTCATTTGGGGAAGGAATGTCTTCGGAATTTGAAATAATATTTGAGGTTAACTATAGTAAAATAGAATTATTATTTAAAAATTTATTTTTATATGCAGGAAATTTAAACAAAAAAAATGAAAAAGAGATATTAAGATTTATTTTTGAAAACAAATATGAAGTTGTTTTTTTAGATTGTTCACTATTTGGAAGAATTGCCAAAAAGATAAAAAAAACAAATCATAACATAAAAATTATAACTTTTTTTCATAATGTAGAATATTTTTATTATAAGGAACGGTTAAAATTAGACGGGGTTAAATATTTTCCATTAGTTCTATCTAGTTTATATAATGAAAATTTATCATGTAAATACTCAGATAAATTAATTTCTTTAAATGAAAGAGATAAATTAATTTTGGAAAAAAATACAAAAGGAAAATTGATTTAAAATTACCAGTAAGCTTTGAGGATAAATTTGATAAAAAAAAATTAAAAGAAAAATATGAAAAAGAAATAAAATTGTTATTTGTAGGTTCTTATTTCTTTGCTAATATAGAAGGAATTACTTGGTTTGTAAAAAATGTTATGCCAGAAATAGAGGGGAAGTTGTATATAGTAGGAAAAGGAATGGAGAAATTAAGAGAAGAATTAAGTAGAGAAAATGTAGAAGTTGTCGGAGGGGTAGAAGATCTTGCCGAATATTATTACAATGCGAACTTTATAGTAGCTCCAATATTCTCTGGTTCTGGAATGAAAGTAAAAACAGCAGAAGCTTTAATGTATGGAAAAACAATATTTGGAACAAAAGAAGCATTTGAAGGATATGAATTGGAATTTGGGAAAATAGGTGAAGAATGTAATAGTAGAGATGAATTTATAGAAAAAATAAATCAATATATAAATGATAAAAAAATAGAAAAATTTAACAAATTTTCAAGAAATAATTATTTGGAAAAGTATTCTAATAATATATTGAAAGAAGGGATAAAAAATCTATTTAAGGAGTTATAATTATGAAGAAAATTTTATTGGTCACAGCATTTCCTCCAAATAATAAAACTGCAGGGCAAAATTATACAAAAAATTTAATAAAAGAATTATCAAAAGAAAATATAATAGATATAGTAAGTTTTTCTTATAAAAAACATGATTTTTTTGATTTTAATAATAAAAATGTATCTTATAAAAAAATTATAAAAAATAATATTTTTACTAAAATTATGGGTAGCTTTAAATTTTTATTATTATTTCCTTTTTTTACGAGTAGATTTTCTTTTAGAGTATTAATATATATATTAAAAAATTTAAATGAATATGATTATATATATTTAGATTTTTCTCAAGTTTTTATATATGGTTTATTTATTAAAAATAAAATAAAATTTTTGATGGCGCATGATATTATAATTCAAAAATATAAGCGAAAGAGTAAAAATTTTTTCTTGAAATATTGGGTTAAATATTCTGAAAATTTAGTATTAAAAGCTAAGGATTCTAATATTTTATGTTTTAGTAATAAAGATTTGAATTTATTAAATTTGGAGTATAATTTAAGTGGAAATAAAGTAGATTTTTTTATTGAAAAAGAAATTCAAAATCAAGAAATTAAAGAAGTAGAAGATTATTTTTGTTTTTATGGAGCTTGGGGAAGAAAAGAAAATTTAGAAAGTTTAAAATGGTTTGAAGAAAATATAAGATATAAATTGGATTTTAATATAAAAATTATTGGTGGGGGATTAAAAGAAGATTATAAAAAAATTTTAAAAGACAAAGGTTTTGAAATTTTAGGATTTGTAGATAATCCATATGAAATTTTGAATAAATCAAAAGGTCTTATTGCTCCTCTTTTTAATGGTGCGGGGGTAAAGGTAAAAGTTATAGAAGCTTTAGCTTGTGGAACTCCTGTAATTGGAACAGAGGTAGCATTAGAAGGAATTGAACTACAAAATAAATTTATAAATAAAATTAATTCTTTTGAAGATATAAAAAAAGCTATAGAAAATTTAAAATTTTTAAAAGTAGAAGATAAAAAAGAGTTGAAAATTTTTTTTAATAGAAATTATGGAAAAAATAAATTTATAGATCTTATAAAGGAGTGCTAAAATGATAACAGCCTCAATAGTAACATATCATAATAATAAAGAAGAATTAAAAAAGGCGATATATAGTTTTTTAAATACTGATTTAGAAGTAAAACTATATATTTCAGATAATTCATCTAATAAAGATATAAAACAATTATGTAGTGATAGTAGAATTGAATATATTTATAATAATATAAACTTAGGCTTTGGAAAAGCTCATAACATTGTGATTGAAAAAGCAATGAAAGAAGGAAGTAAATATCATTTGATATTAAATCCAGATATATATTTTAATAATGGAGTAATAGAAAATTTAACTAAATATATGGAAAATAATAAAGATGTTGGTTTAGTTATGCCAAGAGTACTTTATCCAAATGGAGATATACAAAGATTATGTAAATTATTACCTACACCTATGAATTTAATAGGAAGAAAATTTATTCCAATAAAATCGTTGTTAGAAAAATTAGATTATAAATATGAAATGCAATTTACAGATTATAATACTGAAATGGAAGTTCCGTATTTGTCAGGATGTTTTATGTTTATAAGAACTTCAATTTTTAAAGAAGTTGGTTGTTTTGATGATAATATATTTATGTATTTAGAAGATACAGATTTATCTAGAAGAATAAATGAAAAATATAAAACTATGTATTATCCAAAAGTAACAGTATATCATAAGTTTGAAAAAGGGTCTTTTAAAAATAAAAAATTATTAATTTATCATATTAAATCTGCTATTTACTATTTTAACAAGTGGGGATGGTTTTTTGATAAAAAAAGGAAAGAAATAAATAAAGAAATTTTAAATAAAAATAATTATAAAAAAATATAATTTATTTTGGTATGATAAGATAATCATAAATTTATATGTTTAACCATTATTAAAAGTATTTTGTATTGTTTTAAGCTTATTTAAATAAAATCTAAACTAATATATTATGGAGGATATAGTATGAAAATAGCAGTTGCAGGTACTGGATATGTAGGATTATCAATAGCAGTTTTATTTGCACAAAATCATGAAGTTATTGCTCTGGATGTAATAAAAGAAAAAGTTGATATGATAAATAATAAAAAATCACCAATAGTAGACAAAGAAATAGAAGAATTTTTAGCTACAAAAAATCTTAATTTAAAAGCTACTTTAGATAAAGAAGAAGCATATAAGGATGCAAAGTTTGTGGTAATAGCGACTCCTACAAATTATGATGAAAAGAAAAATTATTTTGATACAAGTACTGTAGAATCAGTAATAAAAGATGTATTAAAAATAAATAAAAAAGCAGTTATGGTAATAAAATCTACGATACCAGTAGGATATGTAGAAGAGGTAAAAGAAAAATATGGTATAGATAATATAATGTTTTCGCCAGAATTTTTAAGAGAAGGAAAAGCATTATATGATAATTTATATCCAAGTAGAATAATAGTAGGTGAGCAATCAGAAAGAGCAAGAGAGTTTGCAGAATTATTAAAAGAAGGTGCAATAAAAAAAGATATGCCAATATTATTTACAAATGCAACAGAAGCAGAAGCAATAAAACTGTTTGCAAATACATATTTAGCTATGAGAGTGGCATATTTTAATGAATTAGATACATATGCAGAAGTAAGAGGATTAAATACAAAACATATAATAGATGGAGTAGGATTAGATCCTAGAATAGGGACACATTACAATAATCCATCATTCGGATATGGAGGGTATTGTTTACCAAAAGATACAAAACAATTATTAGCAAACTATGATAATGTACCGAGTAATATAATAAAAGCAATAGTAGATGCAAATACAACAAGAAAAGATCATATAGCAGAAATGATATTAGCAAAAAATCCAAAAGTAGTAGGCATATATAGATTAACAATGAAAAAAGATAGTGATAATTTTAGAGCATCATCAATTCAAGGAGTAATGAAAAGAATAAAAGCAAAAGGAATAGAAGTAGTAATATATGAACCAGTACTAAAAGAAGATAGTTTTTATAATTCGAGAGTGATAAATGATTTAGAAGAATTTAAAAAAATAAGTGATGTAATAGTAGCAAATAGATTTGAAGAAGAATTAAAAGATGTAGAAGAAAAAGTTTATACAAGAGATTTATATAGAAGAGATTAAAAAAATTATATAAAATTTTAATGCAAGGACTCAAATTAATTGTTTATAGAACAAATTAACAATTTAATACTATTTGAGTCTTTGTAGTTTCACTTAATATAGAAAGGGGAAATTTTTTATGAAAGGAATTATTTTAGCAGGAGGTAGTGGTACTAGATTATATCCAGTAACAAAGGCAATTTCAAAACAAATAACACCTATTTATGATAAACCTATGATATATTATCCTTTATCTGTGTTAATGCTTGCAGGGATAAAGGATATTCTTATTATATCAACACATAGAGATTTACCTGTATTTAAAGAGTTATTAGGTAGCGGAAAAGATTTTGGAGTTAACTTTAGTTATAAAGTACAAGAGCATCCAAATGGACTTGCAGAAGCCTTTATAATTGGTGAAGATTTTATAGGTAATGATACATGCGCATTGATATTAGGAGATAATATATTTTATGGACATGGATTAACAGGAATGGTAAAAGAAGCAGCTAGTAGAACAAAAGGAGCTACTATATTTGGTTATCCAGTAAAAAATCCAAAATCTTTTGGAGTAGTAGAATTTGATAAAAATGGTAAAGCTATTTCATTAGAGGAAAAACCAGAAAATCCAAAATCAAATTTTGCCATACCAGGATTATATTTTTATGATAATACAGTAGTAGAAAAAGCTAAGAAAGTAAAACCGAGCTCAAGAGGAGAATTAGAAATAACAACTCTTAATGAAATGTATTTAAAAGAAAAAACATTAAATGTAATAAATTTTGGACGTGGGATGGCATGGCTAGATACAGGTACACATGATGGATTATTAGATGCGGCTAATTTTGTAAGTACTGTGCAAAAAAGACAAGGAGTAATGGTAGCTTGTCCAGAAGAGATAGCATATAATAATGGCTGGATTGGAAAAGAAAAAGTAGAAGAATTAGCAAAACCACTTATGAAAACACATTATGGTAAATATCTAATGGAATTAATTAGATAGTGAAGGAAAAGACATTACACGGAGAACACAAAGGTAAAGAAAAAGAACCACAAAGAAAAGCATAAAAAACTTAGAGGAACTTAATTTTTTCTTAGTGTACTTTGTGTAGAGTTTTAGGAGGTAAAATGAAAAAAATAGCATATGGGATAAGTAATTTTAAAACAATAATAGAAGATGGTTATTATTATGTAGATAAAACTAAATATATTGAGATGTTAGAAAATTTAAATGAAAGATATTTGATATTTTTAAGACCTAGAAGATTTGGGAAAAGTCTATTTATATCATTATTGGAATATTATTATGATATAAATTATAAAGAAAATAAGCTGTTTGATGAATTTTATATAGGAAATAATCCAACAAAATTAAAAAATAGTTATTATATATTGAAATTTAATTTTTCAGGAATAAATACAAAAATAGAAAAGGAGACATTAGAAGGATTTAGGACAAAAGTAATAAATGGAATAAAAGAATTTTTAATAAAAAATAAATTTAAAATGAAAATAGATGAAGAAAAAACTGCAACGGAAATAATGAGTACATTTTTAACAGAAGTAAGAGCTTTAATTGATGGAAAAATATATATATTAATAGATGAATATGACCATTTTGCCAATGAATTATTAGGTTTTAATTATAATTTTTATCAAAATTCAGTAAGCAGTAATGGATTTGTAAGGAAATTTTATGAAGTAATAAAAGATGGGACAGGAACTGGAATAGTAGATAGGTTATTTATAACAGGAGTAAGTCCAATAACATTAGATAGTATGACAAGTGGATTTAATATAGGTTCAGATATAACATTAGATTCAGATTTTAATGAGATGATGGGGTTTACAGAAGAAGAGGTAAAGAAATTAGCCAATGCAACAATAGAAAATTATGATATAGATGCTAATATAGATAGATTAAGAGACTATTACAATGGATATAAATTTAATAAAAAGTGTAAAAATAGAGTATATAATAGTGATATGGTACTTTATTATATGAGTTATTACCAGAAAAATAAAGAAGAACCTGAAAATATAATTGATAATAATATATTAAGTGATTATAGAAAAATAGGAAAATTGTTTGAAATAGGTGGAAGAAATAATGAAAGAATAAAAATATTAAAAGAGATAGTAATGGGAATAGAGCAAGAAGTAGTAATAAGTAGTAGATTTAATTTAGAAATAGAGTTTAATTTAGATGATTTTAAATCTTTGTTATTTTATATGGGACTTATGACAATAAAAAGAGTAGATGAATTTGGAGCAGTATATATAGGGGTTCCAAACTATGTAATAAGAGAATTATATTTTGAATATTTCAATAAAATAATAGAAGAAGAAGCAGATTTTAAAATAGATGATAGCAAAATTAGAGAAGCGATATTAGAAATAGCAAGAGATGGTAAAATTGATAAATTAATAAAATTAACAGAAAATATATTGCATAAACTATCAAATAGAGACTTCATAAAATTTGATGAAAAATATGTAAAAGTAATAATGTTAATGTATTTATATAAAAGTAATTTATATTTCACAAAGAGTGAATATGAGGTAGAAGATGGATATATAGATATAGTGTTGAAAAAAGGGACAATAGGACAGCCGAGATATTATGGAATGTTTGAATTGAAATATATATCAAAGAAAGATTATACAGAAGACTTATTAAAGAAAAAATTAGAAGAAGCAAAAGAACAATTAATGAAATATAAAGAATCAGAAGAACTAAGAAGTATGAATAATATGAAAAAATGGGCTTTGGTATTTGTAGGATCTGAATGTAAGGGAATGGAATGTATAAGTGATAATATGAAAAAAGATATTATGTAAAATTAAAAAAAGTCAAAATAATTACACGGAGAACACAGAGAAAAAGAAAAAGAACCACAGAGAAGAATATGAAAATATTGAAATAATTGACAATTAACAACTGGAAATGTATAATAAAAAAAGATTCAAGTAAATAGAGTTGGAGGTTTTTAAAATTAGTAAATTTAATAAAATAGAAACAGGTATAAAAGATTTGGTTATTATAGAACCAACAGTATTTGGTGATAATAGAGGATTTTTTATGGAGAGTTATAGTAAAAGAGATTTTAGTGAAATAGGATTAAATATGGAATTTGTCCAAGATAATCATTCGAAATCTAAAAAAGGCGTTTTAAGAGGCTTACATTTCCAAACAAAACATACGCAAGGAAAATTAGTAAGAGTAATAGCAGGAAGTGTGTTAGATGTGGCAGTAGATTTGAGAAAAGATAGCAAAACATTTGGGAAATGGTATAGTGTCTTATTAACAGCAGAGAATAAGAGAATGTTTTATATACCAGAAGGATTTGCTCATGGATTTCTAACACTAGAAGATAATACAGAATTTCAATATAAATGTACAGATTATTATGCTCCAGAATATGATAGTGGAATAATATGGAATGACAAAGAAATTGGAATAGATTGGGAATTAGAAAAATATGGAATAAAAGAAGAAGAATTAAGTTTATCAGAAAAAGATAAAAATCAACAAACATTTAAAGAATTTATTAAAAGTGGAGTAATTTTTTAAAAGATAATTAATATTATTTTTACCATAGTTAAGTTTTGTAAATAAATAATTTATATAGAAAGGAAAAAAAATGATATTATTAACAGGTGCAAACGGGCAACTTGGTACGGATTTTAAAAAAATATTTGATAAAATAGGTATAAAATATATAGCGACAGATTATACTGAGCTAGATATTACAAATAAATTAGCTATAGAAAAGTTTGTAAAAGGAAAAGAGATTGAGATTATTATAAATTGTGCAGCATATAATGATGTAGATAAAGCAGAAGTTGAAAAAGATAAAGCATATACCTTAAATTGTTATGCACCTCAAAATTTAGCAAAAATTGCAAGACAAATAGATGCTGTATTTCTTACTTATTCTACAGATTTTGTATTTGACGGAAAAAAAGATATTCCGTATACAGAAAAAGATATTCCAAATCCATTATCTGTATATGGAATGAGTAAATATGACGGGGAAAAAGCAGTTCTTGATACATATGAAAAAAGTTTTGTAATACGTACATCATGGGTATTTGGTATAGGTAATAATAATTTTAATACTCAAGTAATAAATTGGTCAAAAAGTAAAAACGAATTAAATATAGTAGATGATCAAGTATCAGTGCCAACATACTCATATGACCTTGCACAATTTTCATGGGAACTTATAAAAATAAATAAATTTGGTTTATATCATATATCAAATAATGGAATAGCAAGTAAATATGATCAAGCTAAATATGTACTTGATAAAATAGGATGGAAAGGTAAATTAGGAAGGGCTAAAACAGCTGATTTTAACTTGCCAGCAAAAAGAGCAAAATATAGTAAATTAGATAGTAAAAAAGTAGAAAAAATAATAGGAAAAAATATTCCGACTTGGCAAAATGCAATTGATAGATATTTAGTAGAATTATATAATAAATAAAAAAAATAGTTTCTATTTAGAAACTATTTTTTTATTATTTTAACAAGATTGAGTTCGGTATTAGAAGTATTTGAAAAATAAAAAGTTTTTTTATCAAGTATAATATAAGAACTTAATAAATTTTCTACTTCATCTTTTTCATAATCATAATATATTATGCATAGAGGAAATTTTAAATTATCTAATTCAGATTTATTAATCATTTTAATTTTATGACCGATATTCCATACGTTTCTTATACCTGGTTGATGGAAACTATAAATTTTTATATTATCTAAATAATCAGTTTTCTTTACATCTCGAAGTGCTTGATATTTTCTATTGTGTTTAAACATAATATTTTTTAGATAAAATGGAGCAAAAAATATATTTGAAAACAACATAAAAACAAGTGTATAAATAAAAAGTTTTTTTATGTCTAATTGTTTAAAGTTTTTTAAAAATAATATTATAAATATAATATAACAAATAGTTAAAAATATAATATAAAAAATATTTAAATTATAATAATTTTTTGTAAAAAGTAATATTGGAATATAGATAGAAAAAATAATTATAATAGTAGAATGTATTTTTAAAATATTATTAATAAATTTAGAATTTTTATTTATGTTTAAAAAAGCACTATAAATAAATTGTCCTATTAATAAAGCCATAGGAATAACTACAGGAATAAGATATCTTTCTTTTTTTTCTGGTAAAATAGATAGTAAAACAAAAGAAATAAGCATCCAGAGTAAAGAAAATCTATATGTTTTAATATCAACTACAAATTTTTCCATATTTTTTTTAAATAAAGCTCCAATTCCTAAAACAAACCAAATTCCTGAAAAAATAGGAAAATGAAAATAATACCAAAAAGGTTGAGTATGTTTAGTTAACCAAGCAGTAGATTCGACCTGAGCTACTTTTAAAGTAATATCAGTATGCAAAAAAAATATATAAAAATACCAACTTCCTCCAATAATAAGAGAAGTGATAATAAATATAATAATTTTTTTATAATTTATTTTTTTAAAGTTTATATTATAAATAATAGTATAGCTTATAATGAAAGGTAAAAATACTGCATAAAGAGATACAGGACCTTTACTCATAATTGAAAATCCTAAAAAAATACCAGCAATAAAAGAGTATTTTATATGTTCTATAGATTTTAAAAGATAAAATAAACAACCAACAATAAAAACATTGGTATATATATCCCAAGAAGCAGTTCTTCCCATTTTAAAAATAAGAAAACTAGTAGCTAATACAATAGAAGATATAAACGATAAATCTTTATTTTGGGTTAGAGTCAGTACAAAATAAAAGAATAAAAAAATCATAAAAATAGTAGTAAACACAGTAGGAATACGTAATAAACCTAAATTTTCTTTATGATTTCCTAAAAAACCTAGAGTAGTAATCCAGGTAGGAAGAGGTGGTTTAGTTATTCTAATTTCTCCATTCATAGTAGGAATTAACCAATTATTTTCACTTAATATTTCTCGTGCTGTAGTAAAATTTCTAGCTTCCATTATATCTGCATCTTCTATATTTATATTAGGTAAAAATGAAAATAAAGATATAAAAAACATAAATAAAAACATTTTTTTATATGATATATTAAACATAAACATCCTCCAAATTATTTTCTGTTATTTTTATATTTTTTCATTAACATAATATTTCTGATATATACGATTATTCCAAAACTTTGTCCTAAAATAAATACAGGGTCTTTTTTATGGATTGCATAGCTCAATAATAAAAGACTTCCTAAAATGCTAAATATCCAAAATGCAAAAGGAATAGTACTTTTTTGATTTTTTTCTGATACCAGCCATTGAACAACAAATCGCATTGTAAACATAAATTGTCCTAAAAATCCTATTTTTAACCAGAAATTATTCAAAATTAGTCCTCCTTAATCTTATACATCAATACTCTAGATTTCATCCATCTAACTGCTAACGCATCTTTTAAACCTCTAAGAGCTCTTCCCCAAGTTTTATATTTTGAAGTTCCAAATTGTCTATCATAGTGTCTAACAGGTACTTCAATTACAGAATGTCCATAAATTTTTGCTAATGTAGGTAAAAATCTATGCATTCCATTAAATAATTGAAATTTTTTAACAACCTCTTTTTTAAATAATTTCAAAGGACATCCAGTATCTGTAATATTATCATTAGTGATAAAGTTTCGGATACCATTTCCTAATTGTGAAGCTAATTTTCTGCTAAATCCATCTTCTCTAGTAGCTCTTTTTCCATTTACTACATCATATTCTTTTATATAAGGTAATAAAACATAAATATCTTCTGGATCTGTTTGCATATCTCCATCCATAGTTACTACTAAATCACCATTACATTTTTCAAAACCCGCAGCTAAAGCAGCAGTTTGTCCATTATTTTCGGTAAAATGAAATACTTTTACATTTTTATTAGTTTTTGCAATAGAATTTAATATTTCTTCACTACCATCAGTACTTCCATCATTTACGTAAATAATTTCATAATTTTTAAATTGTTTTTTTAAGGCATTTTCAACTTTTTCAATCATTGGTTTAATATTATCTTTTTCATTATATACAGGAATTATAACTGAAATTTCCATAATTTATTCTCCTATCTAAAATTTAAGTTTATAATATTATACAAGTATTATCCAAAATTGTCTAATAAAAATTGTTGACTAAAATTTTATATAAATGTAATATATAAAGGAAATAACTTTAATAATTATTTGTTGTATAGAATATAGGTTTAAAAAATTATTTTTAAGAAAGGAATATTTATGGTAAAAACATATCTAATAACAGGAGGAGCAGGTTTTATAGGCTCACATTTAATAGAATATTTACTAAAAGAAGGAAATAAAATAATAAATATAGATAATTTTAATAATTATTATGATATTAATATTAAAATAAGAAATGTATTAGAATCGACTAATAAATATGATAAAAAAGTAGAAAAATTAGAAGAATTAAAAAGCGTAGTTGATAGTGAAAATTATAAATTAGAAATTATAGATATAATAAATAAAGAGGAGTTAAATAGAGTATTTAAAGAAAATAAGATAGATATAGTAATAAATTTAGCAGCAATGGCAGGAGTAAGACCATCATTAGAAAATCCACAATTATATGAAGAAGTAAATATAAAAGGATTTATGAATATTCTTGAAATGTGTAAAAAATATAATATAAAAAAAGTAATTCAAGCGTCATCGTCATCAGTATATGGAAATAATAAAAGAGTACCATTTAAAGAAATAGACATAGTAGATTTTGCAATATCACCATATGCAGCGACAAAAAAAGCATGTGAAGTAATGGGGCATGTATATTATCATTTATATAATATAGATATGATACAATTAAGATTTTTCACAGTATATGGACCAAGACAAAGACCAGATTTAGCAATACATAAATTCACTAGATTAATAACAGAAGGAAAAGAGGTACCATTTTATGGAGATGGAACAACAGAAAGAGATTATACATATATAGAAGATATAATAGATGGGATAACAAAAGCAATAAAATATATAGAAAAGAAAGAGAAAGTATATGAAATAATAAACTTGGGAGAAAGTCAAACAATAAGTTTAAAAGAGATGTTAGAAACATTAGAAGAAGAATTAGGAAAAAAAGCAAAATTAAAGAAATTACCAATGCAACTAGGAGATGTAAAAAGAACAAATGCAGATATAAGCAAAGCAAAAGAATTGTTAGGATACAATCCTAAAACAAATTTTAAAGAAGGAATACAAAAATTTGTGCAATGGTATAAAAAATCTTAAATATAATTTTAAAATTAATATATTAAATTTTTGTAATTAAATAAAATTAATAGGAGGGAAAATGAAAACATATCTAATAACAGGTGGAGCGGGTTTTATTGGAGCAAATTTTGTTAAATACATGCTTAAAAAATATAATGATATTAATATAATTGTACTTGATAAACTGACTTATGCAGGTAATTTAGGTACTATAAAAAAAGAATTAAATGATAATAGAGTAAAATTTGTAAAAGGTGACATTGCTAATAGAGAGTTAATTGAATATATATTTGCGAATAATAATATTAATTATGTTGTTAACTTCGCTGCAGAATCTCATGTGGACAGAAGTATAGAAAATCCAAAATTATTTTTAGAAACAAATATTATTGGTACACAAAATTTACTTGATGTAGCAAAAGCTCATTGGGTAATAGGAAAAAATGAAAAAGGTTATCCAATATTTAGAGACAATGTAAAATTTTTACAAGTATCAACAGATGAAGTATATGGAGCACTAGATAGAGATTTTCCAGATGGAAAATTATTAATTGAAGAAAAAAAATTAACAATAGATAATGGATTAAGTTTAGAAGAATTAAATAAAGTATTAAAGGATAGAGAAGTAATACCAAAAATATTTGGTAAAAAATTCTTTACAGAAAACACTCCATTAGATCCAAGAAGTCCTTATTCTTCGAGTAAAGCAGGAGCAGATATGATAGTAAGAGCATATAATGAAACATATCATATGCCGATAAATATAACAAGATGTAGTAATAATTATGGACCATATCATTTTCCAGAAAAATTAATACCTTTAATGATAAAAAATGTATTAGAAGGGAAGAAATTACCAGTATATGGAGATGGAAAACAAGTAAGAGATTGGTTATATGTAGAAGACCATTGTAAAGGAATAGATATGGTAATAAATGGTGGGAAAATAGGAGAAATATATAATATAGGTGGATTTAATGAAGAGCAAAATATAAATATAGTAAAATTAATAATAAAAATAATAAGAGAATTAATAGAAGAAAATACAGAATATGAAAAAATCTTGAAAATAGAAAAAGAAAATATAAATGAAGAACTAATAACATATGTACAAGATAGATTAGGGCATGATGCAAGATATGCGATAGACCCAAGTAAAACAGTAAAAGAATTAGGATTTTACCCAGAGACACCATTTACAGTAGGAATAAGAAAAACAATAAAATGGTATTTAGATAATCAAGAATGGGTAAAAGAAGTAGTAAGTGGAGATTATCAAAAATATTATGAAAAAATGTATGAAAGTAGATAAAATAAAAAGTCCTCTATAAAAGAGGATTTTTTATTTGTTTTATACAAATTTTTTATTGAAAAATTTAATTAATTTTAATATAAATTATGTTATAATTTAAAAAGGGAAAATTTAAAAAAAATAAAAAAGGGGATAGGGGGATGAAAAAAATCTTTATTAAAGGATTATTTTTTGTTGTATTAATTTTTATTGGGATAAGTATAGATAAATATTTAAATAATAATTATGAAAAAGAAAAAAACGAAAAGAAACTATTATTTCAAGAAAAAGTTATACCTATTGAAAAAATAGATATAAATATTGCAACAAAAGAAGAATTTTTAGAAAAAGGGATATCTCTTAGTAAATATGAAAAAATAAAAGAGTATATTGAGATTGTAGGAGGAATAGAAAAAATAGATAATTTAATAACAATCAAGGGATTTGGGAAAAAAACTATTGAGATATTAAAAGAAAAATTTTATACAAAAAGAAATATAAAACGAAAAAAAATTTATATAAATAAAGCAACAGAAAAAGAGTTGTTATATTTTGGATTTACAAAAAAAGAGATAGAAAAAATAAAAAAATATAAAAAAGAAAATAAGATGGTTTATTCAAACTTAGATTTATTAAAAATATTAGAAAAAGATAGATATATTCAATTTAAAGATTATATATTATATACAAAATATAACTAGAGGTGAAAAAAATGAAAGACTTTTTAGAAGAAATAAAAAGAAACAATCCTAATATACCTAAAATTACAAAATATATATATTTAGGAATTTTAGGATTAATAGGATTATTAATAATTAATTCAATAATAAAAAATCCATTGATATTAGCACAAATTTTAGTACTTATAATATCAGTATCATTGCATGAATTAGCTCATGGATATATTGCCTATAAGTTTGGTGATCCTACAGCAAAAATAGCAGGAAGAATTACACTTAATCCAATAAAACATATAGATTTATTAGGATTATTAGTTCCAGTATTGCTTATATTTAGTGGAGCACCATTTGTAATTGGATGGGCCAAACCAATACCAGTATCGTATAAAATATTAAAAGACAATAAAAAAGCTTATTTTTCTGTAGCTATAGCAGGAATATTAACTAATTTGATTTTAGTATTTTTAGTAGCAACAATTATAAAATTTGTATCATTAAATATAGTTTTAGCTAATATTATGTTTTATATGATTCAAATAAATTTAATTTTAGCAATATTTAATCTTATACCTATTCCGCCATTAGATGGCTCAAAAATATTAGAATCTTTCTTAGATTATAGAGGAAAATTATATTTACAAAACATTGAAAAATATGGTTTTATAATAATAATAGTACTTTTATATACCGGAATGTTAGAAAGATTAATGATGCCAATATATAATTTATTTTTAATAATAATAAAAATATACATAAATTAAAGCTAAGAAATTAGTAATTAATAAAATTTTTAAAAGCTAGGGTATTTAAATGTTGAAAAATATAAATAAACTTTAATAAAAATAAATAGATTAATAAGATAAATGAAGTATTATATGAAAATGATACTGATAAAGAAAGGTAGGTGAAAAGCCGTTACCAAAACCTAACTAATATAATAGCTTATAATCTAGTAAATGAAGTTCATTAAATCTGAAATTAAAAAGCTTTATAGAATTTTGGAAACGGGGAAATGCTTTTTGTATTTAATATAATAGGAGTAATAGCCTTTGCAATATCTGGAGCATTAAAAGGATTGAAACACGAGTTAGATATATTTGGAATAATAGTTTTAGGTGGAATAACAGCAGTAGGAGGAGGAATAATAAGGGATATTATATTAAATAAAATTCCAATTATTTTTATGAATGAGTTAGATATTTATATTGCAATATCTTCGGCAATTATTACATATACTGTTGGTAAAAAGTTAGAATTTTTTTCTTTATATGTAAAAATATTTGATGCAATAGGACTTGCTACTTTTGTTGTAATTGGTTCAAAAATTGCACTTAATAACAATATGTCAATATTAGGGACGGGAATATTAGCTACTCTTACAGGTGTAGGCGGAGGAGTTGTCCGAGATATATTAGTGAAAGAGATACCATTTATTTTAAAAGAAGACATATATGCAACTTTATGTTTTTTTGGTGGTATGATATACTGGGTGATTAATAAAAAATTTTATACAGAAGATGATTTAGTTTATAATATGATGTTTATATTTATTATTTTTATTTTTAGAATATTAGCAATAAAATATAATTTAAACTTACCTAAAAGAAAAATAGAAAGTTAAATACTAAAGATAAAATCAAATAATTAAGAGTAGTGTAAAAAACAAGAAATTATGAATTAGTGAAGGTAAATATAAAATAAAAATTAAAAATAAAAAAATACTAAAAGGAGTTTTATATGAGTTATAATATTTTAATTGTAGAAGATATAGCAGCAGCTCGTACATTATATAAAAAAGCTCTTGAAACAGAAAAATATTTGATAACAGATACAGATAGAGGAATGGAAGCAATAAGAATACTAAAAGCTAAAAAAGTTCATTATGATTTAGTGATACTGGATATAAGACTTCCTGATATAAATGGTAATGAAGTTCTTAAACAAATAAGAGAGTTTGAAAAAGATATACCTGTACTTGTACTTACAGCTTTTTCAGATAAAGATATGGTAATTGATATGGTTAATTATGGTGTGAATGATTACTTGATAAAACCAATATCAATACAAAAATTAAGAGAAAGGGTATTTCAAGTATTAGAAGGAAGAAAAAAAGATATTATAACTATAAAAGGAAAAAGAACACCAAATAGAAAAAAAGAAATACAAGAAAGTAATTACTTATGGACTAAAGAAACTATTTGTCCTATATGTGGAACAAAATTTGAGAGTTATAATTATAAGAACAAATCACAAAAATTAATAAAAATAGAAACAGATTTTCATGAAGTATATGAAAAATTCGATCCAATAATATATGATATATATGTGTGCCCACATTGCTTTTTTTCTGCAAAACCATCAGAATTTAATACTTTAGAACTTAAAGAAATAAGAGCATTATCGAAAGTGACAAGAGAAAGTAAATATAATTTTTATGAGCTAAGAGATATTGATATGGGACTAGAAAGTTATCAACTTTTATTAAAATGTTATAAATTATATAAAAAAATAACTAAAAGTGAATATGCTAATATATATATAAAAATTGCATGGTTATATAGAGATAAAAAAGATAATAATAATGAAAAAAAATATCTTGAATTAGCGCTTAAAGAATATGAAAAAAGATATAATTTAGGAGAAAGAATAGAAGGAAAAGATGGAGAATTAAAGCTGAAATATATGATAGCTGAGATATCTAATAGACTAGAACATTATGAAAAAGCAATGAAATATTTTAGAGAAATATTACAGGATAAAAAATATAAAGAGGAAAAAATTTATGAAAAAGCGCAAATTCAGTTACAAAATATGCTTGAGAAAAGAAAAAAAGAAAAAGGAGATTAAAATTGAATACTGTAGAAAAAGAATGCATAATTGAATTTGAAGAAAAAAAATCAAAATTTATAGGATATATAAAACCTATTTCTACAAAAAAAGAGGCAGAAGATTTCATAAAATCTATCAAAATAAAACATAATAATGCTACTCATAATGTTCCAGTGTATAGAGTTATAGATAATGGTAAAGAATACTTTAAATTTGATGATGATGGCGAACCTAGTGGAACAGCAGGAAAACCAATGGCAGAAATAATTAATTTAAAAGAAATATATAATGTAGTTATTGTAGCAACTAGATATTTTGGTGGAATAAAATTAGGGGCTGGTGGACTTGTAAGAAACTATGCTAAAACTGCAAAACTTGCTATTGAAGAAGCTAAGATAATAGAATATATAGAAAAAGTAGAAATTATAATAGATTTTCCTTATAATATAAGTGGAGAAATAGATAGAATTATAATTTCAAATGATATAGAGATATTAGAAAAAACTTATGATGCAAGAATAACATTTAAAATAAGAGTTGATAAAGTAAAAGAAAGCTTATTTAATAATATAAAAGATGTTATAGTAATTAAGTAAAATGTCAAGTAAAATAAGTTTACAAAAAACTCTTGAAAAAAAATATGAATTATGGTAAAATAGTTTTCGTATTATTAGAAAATTAAGTGAGGTGAAAGATTAATGAAAAAAGGAATTCATCCAGAATACAAAGACGTAAAAGTTTCATGCTCATGTGGAAATGAATTTGAAACAAAATCAACTTATTCTAAAGGTGATGAAATAAAAGTAGGAATTTGTTCGAACTGTCATCCTTTCTATACAGGAAAGGCTAAATTCGTTGACCAAACAGGAAGAGTTGACAAATTTAAGAAAAAATATAATCTATAATAAAACAGAGCTAAGTTTTTGCTCTGTTTTTTTTGTAAAATTTTAAAGGAGGGATATAAATGGGCGTGTTTGAAATGAACCATCCACTTATTCAACATAAATTATCTTATCTTAGAAATAAAGATACTGATACAAAAATTTTTAGAGAAACTCTTAATGAAATAGCAGGTCTTATGACTTATGAAGCTACAAAAGGTCTTAGATTAAAAGAGGTAGAAACAGAAACTCCTATAATGAAAACTACTACAAAAGTATTAGCTGATCCAGTAGCAATAGTACCTATACTTAGAGCAGGTCTTGGAATGGTAGAAGGAATGGTAACTTTTTTACCAACTGCAAGAGTAGGGCATATAGGTGTGTATAGAAATGAAGAAACATTAGAACCGGTATATTATTATTGTAAATTACCAGTAGATATAGCTAAAAGTAAAGTATTTTTGGTAGATCCAATGCTTGCTACAGGTGGTTCTGCTAATTATGCTATAGATTATTTAAAACAAAAAGGAGTAAAAGATATATCGTTTTTATGTATAATAGCTGCTCCAGAAGGAATAGAAAGAGTACAAGAAGCACATCCAGATGTTGATATATATGCTGCATCTATAGATGAAGGATTAAATGAAAAATCATATATTTATCCTGGACTTGGAGATGCTGGTGATAGAATATTTGGAACAAAATAATTTTTTAGACTAATCCTTTGATTAGTCTTTTTTTTTCTTGTAATAAATTATTTAATTCTATATAATATAAATAATATTTAATAGCTAAAAATACAAAACTAAATAAAGAATAAAAAGCCGGAGGAATAAATGAATATTTTAGATAGAAAAGAAGCAGCAAAATTAGTAAAAAAACTAAAAAGCGAAGGGAAAACAGTTGTTTTTACAAATGGATGTTTTGATATTTTACATGTTGGACATTTAAGATATTTACAAGAAGCAAAAGAACTAGGCGATATACTTATTGTTGGAGTAAATTCTGATAAATCAGTTTCAAAACTTAAAGGACCTACAAGACCTATAAACACTCAAAATGATAGAGCAGAAATGTTAGTTGGATTAAAACCAGTTGATTATACAGTAATTTTTACAGAAGATACTCCAGTAGAAATTATTAATGAATTAAAACCTTCAATTCATGTAAAAGGTGGCGATTATAAAAAAGAGGAGTTACCAGAAACTCCTATTGTTGAAAAAAATGGAGGAAAAGTTATAATTCTTTCATTAATACAAGGAAAATCCACTACTAATATAGTAAAAAAAATACAGGAAAATTAAAAAATAAATTTTATTTTTTTGTGTGAATTAGAGTTGAATAAAAATAAAAAAATGGAGGAATAAATGAAAAAAGTACTAACTTTTTCTGAAATAGATACTTTAGTTGATAAATTATCAAATATTATAAAAAAAAATGATGTAATAGCTTTGATAGGAGATTTGGGAACGGGGAAAACTACATTTGTAAAAAGATTTGCAAAAAATTTAGGAATTACTGAAAATGTGAAGAGTCCTACATTTACTTATGTAATGGAATATAGAGATATAGAGCCTGCACTATTTCATTTTGATGTATATAGAATATGTGATGCAGAAGAGATATATGAAATAGGATATGAAGATTATTTACATAATGATGGAATTGTAATTATAGAATGGGCAAATTTAATAGAAAGTGAACTACCAGAAGAATATTTAAAGATAGAATTATTTCATAAAGATGAAAATAGTAGAGGTGTTGAAATAAAATATATAGGAAATGAAAAAAGAGAAAAGGAGATATTAGAATATGTTGATTTTAGCAATTGATACATCAACAAATGTAGCATCAGTAGCACTTTATGATAGTAAAAAAGGTGTTATAGGAGAAATAAATTTAAATATAGGTTTAAATCATTCAGAAACAATATTAGCAATAATAGATAATTTATTTAATATTACTAAATATTCAAAAGATAAAATAGATAGAGTAGTAGTATCTATTGGACCAGGTTCTTTTACTGGGATACGAGTAGGAGTAGCAATTGCAAAAGGAATAGTTTATGGAAAAGATATAGAAATAGTTGGTATAAATGAACTAGATATGCTTTCTTATACAGTTTCAAAAACAGATAAAAAAATTATATCTATGATAGATGCTAGAAAAGAAAAAGTTTTTTATGCCGAATATAAATATGATAAAAGTGAAATTAAACAAATATCTGAATATAGAGTAGATTTCATAAAAAATATTATTGAAAATTCTAAAGAAGAATTTATTTTTACAGGTGATGGTGCTATTAAATATAGAGAGAAAATATTAGAATATACTAATAATAAAGGGATTATTATAAATAATAGTACAGGATATTCTAGGGCAGCAATATTAGCAGAATTAGGTATAAAAAAAGAAGCAGAAAATATCCATAAAATAGAACCGTATTATGTAAATAAAACTCAAGCAGAGTTAGAAAAAGAAAAAAAAGTATAAATATAACATAAAACACTTGAAAAAAATACAAATAAAGAGTATAAATAATAGTGCAAAAAGTGTTGTTGCATAAAAGACAACAAACCGGGAGTGGTAACTGTGAATAATGATATTATAATAGAAAAATTAAAGTCATTTAATTTTTCTAAAGCGGAAGCACAAGTATATATGACACTTATAAGATATGGAGAATTAAATGGTTCTCAAGTCTCAAAACTTATTGGGCTTAATAGAGGGACTGTATATACTGCGCTTAATAATTTATATGAAAGAGGTGCAATAGTTCTCTTACCAGAGCAAACTAATGTTTATAGAGCAGAAAATCCTAAAACGCTTATAGAAAATTTAACAGAAAAATATATCCTTGAATACAAAAATTCTGCAGAAATTTTAAAAAAAGAATTCGAAAAAATGGAAGAAAAAGATACAGTAAAAGTGGAATCTATCAATTTAAAAGGATATATGAATTTTATTTTAAAAGCAAAATCACTTATATACTCTGCAGAAAGTGAGCTATATATAGAAACAAATGATAATTTAGTAGATTTTTATGAGGAGTTTAGAGAATTAGTAGAAAAAGACGTAGATTTATATATTAGAGTATATACAAATGAGAAAGTAATAGAACTAGTAAATGAAGATTTTCCAGAGTCATTTAATGAAATAGGGTTTAATGACAAGAACTCAAAAGAAAGAAAAACTATGATAGTTGTAGATAATGAAAAAGCATTAATAGGTAATGGGAAAAAAGGTGATGACTTTATAGCCACATTTACAAATAATAATTATTTAGTAAGTATTATTTCTGATAGGATACATTATAGTATATATCTTGACAATATTGTAAAAAATGAAGGGATAAACTATTTGAAAAAACATAAAATAAATAGTTTGCACGAAGAAAATATATTAAAAAAAATAAAAAAATATTTAAAGATATAAAAGGGGGAGGAAATGAAAAATTTTTTTGTATTAATTCTCATAATTCTCTCTTTTTTATTTATATTAAAATATAGAAAAGAGAATTTTTTAAAAAAATCTCATAAAGTAAAAGTAGGCTTTTTATTAAAAACAATGCAAGAAGAGAGATATATAAAAGATAAAAAATATTTTGAAGAAGCAGCTAAAAAATATAAAATGGAAGTTATATTTGATAGTGCAAATAATAATGAAAGATTACAAATGGAAAAATTAGAAAATATGATAGCTAAAGGGATAGATGTCCTAGTACTACAACCAGTTAATACAGGAACTGCATCAAATATGGTTGAGATAGCACATAAAGAAGGTATAAGAGTTGTAGGATATGATTCTATGATAGAAAATAGTGATGTTGATGTACATGTAATGCAGGATAGTTGGAAAGTAGGAGAATTACAAGCAAAAGCGATGGTAAAGTGGTTTAAAGAGTATAGGGGCGAAGTCAAAGGGAATGTAGCACTTATAATGGGACAACCGGGTGATTCAAATGCAAAAGCTATGAGCGAAGGAGTATTAAAAGTTATAGCTCAAAATCCAGGGCTTAAACTTGTAGCAAAGCAATCACATGAGAATTGGGCTAGTGACAAAGCTATGACTACAACAGAAAATCTTATGGCAAAATTCAATAATAATATAGATGCATTTATTTGTAATAATTCAGGATTAGCAAGAGGTGTTATAGCAGCACTTGCAAGCTATAATTTAGATAGTGTAGGAAAAATCTTTGTAGCAGGAGCCGATGCAGATCTTGTAAATGTTAGATACGTAGCAGAAGGTAAACAAGCAATAGAGATTTATAAAACTATAAAACCTTTAGCTGAAAAAGCTGCTTATGCTGCTTATAGATTAGTTGTATACAAAGATAAAACAAATATAGATGAGATACTTTTATATGATAGAAAAGTATACAATGGTTATAAAAGTGTACCTACAATTATTACTCCTATATATGAAGTAAATAAAAATAATATAGACGAAGTAATCATAAAAAATGGTTTTCATAAACGAGAAGACATATATAATTAAGAGGTAAAATATGAAAAAAATAGCTGTAAAAGTAGAAAATATAATAAAAGATTTTCCAGGAGTAAGAGCGTTAAATAATATTAGTTTAGAAGTGAAATATGGAGAAGTATTTATTTTAGCTGGAGAAAACGGAGCAGGAAAATCGACTTTAATAAAAGTTATCTCAGGAGATTATGATTATTATTTTGGAAAAGTATATATAGATAATATTTTAAGGACAAAAGAAAATAAAATAAAAAAAATAGCTGTAATTAGACAAGAACTTAATTTAGTAGAAGAACTAAGTGTAGCAGAAAATATATTTTTAGGTAGATTATTAAAAAACAAATTTGGAATTATTGATTGGGAAAGAATATATTTAAAATCAAAAGAATTATTGAAAAAATTAAGTATAGAAAACATTGATGTAAAAGAAAAAATTAAAAATTTAAGTATTAGTCAAAGACAAATTATAGCTATTGCAAAAGCTTTATCTAAAAAAACAGATATTATAATATTTGATGAACCCACAAGTGCACTTAGTGAAAATGAAATAAAAACATTATTTAAAATAATAAATGATTTAAAAAATAAAGGGGTAGCAATTATATATATTTCTCATAAAATTGATGAATATTCATATATAGGAGATAAAATAGCGATACTTAGAGATGGTTCACTAATAGGTAGAGTTCAAAATTTAAAAGAGATAACATTAGATGAAATAATTACTAAAATGGTAGGTAGGGACATAAGTGATATGTATCCAAAAGAAACAATAGATATAGGAGAAAAAATATTTGAAGTAAGAAATATATTTTTAAAACATCCGAAATATAATGATAGATATGTAGTAAAAAATGTATCATTTCAATTAAAAAAGGGAGAAATTTTAGGGATAGCAGGCTTAATGGGAGCTGGGCGTACACAACTTATGTTAAGTATATTTGGAGCTTATGAAGGTGAGATAGAAGGAGAAATTATATTAGAAAAAAAAGAACTTAATATAAAATCTCCAAAAGATGCAATAGAAAATGGTATTGTTATGGTAACAGAAGATAGAATGAAAAAAGGTTTGTTTTTAGAAAATGATATTAATTTTAATGTGATTACAGTAGATAAATTACTTAGAGAAATATCAAATAAAATAGGAGTATTAAACTTTGATAGAGGTAAAAAATTAATTAGAAAATATATAGAAGAAATAAAAGTGAAAGTAGAGTCGCTTAATATACCTATAAAAAATCTAAGTGGAGGAAATCAACAAAAAATTATACTTAGTAAATGGTTGGCAACAAATCCAAAAATTATTATATTAGATGAACCTACAAAAGGAATGGATGTAGGAGCAAAAGTGGAAATATATAAAATAATTAATAAATTATTAAAAGAAGGAATGTCAATTATATTAGTTTCTTCAGAATTACCAGAATTATTAGGATTGAGTGATAGAATATTAGTAATGAACGAAGGAGAAATTGTAACAGAATTTACTAGAGAAAATGCAACACAGAAAAAAATAATGGCGTTTGCAACAGGTAACTTTAAAAGAGGTGAAATAGATGAATAAAATTGTATCAAGTAAAAGAAAAAAGAGTAAAAAAATAATACTAGAAAAATTTTTAAAAAAAAACATGAACTGGATAATTTTACTAATAATGGTACTATTTCTATCTCTTGTTACAGATAGTTTTTTGACAGCTAGAAATTTAAGTAATTTAATTAGACAAAGTACAATAGTAGGAATAATAGCTGTAGGAATGACGGGAGTAATTCTTTTAGGGGGAGTAGATTTATCTGTAGGCTCTATAGTTGGATTAGCTGCAGTAACAGTTACGTTATTAATGGAAAAAGGATTAAATGAATGGATTTCAATAATTTTAACACTAATTTTTGTAGGAGGATTAATAGGATATTGGAACGGGTATTGGATATCAAGGTATAAAATGGAGCCTTTTATTGTAACATTAGGAATGATGACTATTGCTAGAGGACTGGCATTAACAATATCAAAAAATAGTTCAATACCTGTAAAAAATGAAAATTTTACTAAAATTGCAGGTAGTTATATATCAATAAAATGGTCAATTATATTACTTTCTATATGTTTATTATACATATTAATAGAAGTTACTTATTATGCTATAAAAAAAAGAGAAGTCCTAAAAAATAAAAGTTATATAAAAAATACATTATTAAAAATATTTGGGATATTACTTTTATTTTTGATATTTATTATGTACAAAGGGATTCCAAATCCAGTAGCAATATTTAGCGTCATAATAATAATCTCTATTTTTATACTAAATAATACAAAATTTGGTAGAGATATATACGCAGCAGGAGGAAATAGAGAAGCAGCACGACTTTCAGGTATAGATATAGATAAGGTACACATGAAAGTTTTTATAATAACTTCAGTTTTAGCAGCATTTTCAGGTATTATTTTAGCTTCTAGATTGAATGGAGCATCTCCAAGTTTAGGGAATATGATGGAATTAGATGCAATTACAGCAGTTGCTATAGGTGGAACAAGCTTATCAGGTGGAATAGGTGGGACTTTTGGTACATTATTAGGTATATTTATAATAAGTATATTAAATAATGGAATGAGTCTTTTAGGATTACCAGAATCATACCAACTTATAATAAAAGGTCTTATTATAACTATGGCTGTTTGGGGTGATATTGTATCAAAAAATAAAAAATATCATAAATAATTTATTTTTATAGAAAAGACTGATTTAGCAGTCTTTTTTTTATTATTTTTTAATAATCTATCACTATTGCAAATAAATAAAAATATGTTATAATAAAATTGTAAAATAATATATTGAATTAAAGAGGGGCTAGAATGCATAATGAATTAGAAGAAAGAAAAAAACAATTTTTAAAAACACAAAATGAAAAAAGTTTATATTTAGGTGAATACAAAGAGAGAGTTATTGCAGCATTAAAAAAAGATCAAATTTTAGAAGATGATGTATATCAAGAAATAATAGATGCAATAAATACCAAAGAAGCGTATATTTTAAAAATGAGCAGAGATTTAGAATTAAAAAAATTAAAACCATATATAGAAGCAGCAGAGAAAGCAAATATAAAATATCAACTTGTTGATGGAATTTCATATATAGGAGATATAGGATTAATAGTAGCAGCTAAAGATGCACTTGATGAAATAAAAGAAAATGTAGTTATTCGTGATATGGATCAAGATTTTATAGATGCAGGACTGGGTGAAGTTTTTAGTAAAAATAGAGGTAAAAAAATTTGTTTAGATTGTTATGAAGAAGTAGAAGAAAAACTTCCTCAATATTTAGATGAATTTAAAAAAATAAATTTTTTGGATAAATTAATAGGTATAAAATGTCCAATTTGTAAGATAAAAAATAAAAAATAGTGCTTAGGAGGAATTTTTTAATGGATGCATATAAAATTATTGGTGGAAGCAAATTGGAAGGAGTTTTAAATGTAAGTGGTTCAAAAAATGCAACATTACCAATTTTAGCAGCAACTCTTATTGCAGAAGGAGAATATATTTTAAAAAATGTACCAAGCTTAAAAGATGTACGTACAATGTTTAAATTATTAGAAAAATTAGGATTAGAAGTAGAAAAAATATCTAAAAATAGCTATAAAATAATAAATAACGGAATAAAAAATATCGAAGCAACTTATGATTTGGTAAAAACTATGAGAGCATCATTTTTGGTAATGGGACCTATGCTTAGTCATAGTCAAAAAGCAAAAGTATCTCTTCCTGGTGGCTGTGCAATAGGTACTAGACCAGTTGATTTACATTTAAAAGGATTTGAAGCTATAGGAGCAAAAATAGAAATATCACATGGATATGTAGAAGCAATATCAGAAGAATTAATAGGAAATAATGTGATTTTAGATTTTCCGAGTGTCGGGGCAACAGAAAATATAATTATGGCAGCAGTAAGAGCAAAAGGAATTACAGTAATTGAAAATGCAGCAAGAGAACCAGAGATAGATGATTTATGTAATTTTTTAAATAAAATGGGTGCTAAAATTAGAGGTATAGGTAGTAGTAGAATAGAAATAGAAGGTGTAGACAAATTAAAAGCGGTAGAATATAGTATTATTCCAGATAGAATAGAAGCAGGAACGTTTTTAGTACTATCAGCTCTTTCAAAAGGAAAAGTAGGAGTAACAGATTTTAAGATAGAACATCTTGAAGGATTTATATTAAAATTAGAAGAAATTGGATATAAATTAAATGAAAATAATGGAGTTTTTTATGTAAAAGGTGAAATAGAAAAACCAAAACCTATAAGAGTTCAAACTATGCCCTACCCGGGATTTCCAACAGACCTACAAGCACAATTAATGACTTTGTTATGTTTTTCAAATGGAACAAGCGAGATAAAAGAAACAATTTTTGAAAATAGATTTATGCATGTATCCGAGTTAAATAGAATGGGAGCAGATATAAAAATAGACGGGAATATTGCTATAATAAAAGGAAACATTAATTTTAGTGGCGCAGAAGTAATGGCTTCTGATTTAAGAGCAGGAGCTGCGTTAGTTATAGCAGGATTATTATCAGAAGGAGAAACTTTAGTTCAAAGAATTTATCATATAGATAGAGGATATGAGAAATTAGAAGAAAAATTAAAAAATATAGGTGCAAATATAGAAAGGGTAAAGGTAGATATAATATAATGAAAAAAATAATAGGGATAAATCCAGTAAGAGAGTTATTAATAAAAAGAACAAAACTTAATCATATTGAGATTTATAATGGATTAAATGAAAATACAAAAAATGAATTAATAGAATTAGCAAAAAAAAATAATACTAAAATAAAAAAAATAAATAAAAGATATGAAAATTCGCAAGGGGTTATAGCTTATATAGAAGATTATGATTATTATATTGATTTTTTAGAGTTAATAGAAAAGATGGCGAAAAAAGATAAAAGTATTATTTTATTATTAGATGGAGTGCAAGATCCGCGTAATCTAGGAGCAATAATTAGAAGTGCAGAAATTTTTGGAGTAGATGCGATTATTTTACCACAAAAAGGCGCAGTAAAAATAAATGAAACAGTAGTTAAAACTTCTACAGGTGCTATTGAATATGTCCCTATATCAGTAGTGAATAATTTATCGGAAGCAATTGATAATTTAAAAAAAATAGATTATATAGTTTATGGTGCTGATGGAAAAGGAGAGACTTTTTATCACGAAGAATCATATAAAGGGAAAATTGCACTAGTATTAGGCAGTGAAGGATTTGGAATGAGATTTAAAACACAAAAAAAATGCGATAAATTAATAAAAATTCCAATGAAAGGGAAAATTAATTCATTAAATGTTTCTGTAGCAACAGGGATTTTGTTATCAGAAATATCAAAAAATATATAATGGGGTGGCCTAAGTATGACTATTGTAAATGAAATTAGTGATGAATTAATAGAACAAGCTAAATATGGTGATGCTGAAGCAATAAATGAAATTTTTACACAATATAAAAATTTTGTTTTTTTGAAATCGAAAAATTACTTTTTAATGGGTGCTGATAAAGATGATTTGATTCAAGAAGGGATGATAGGATTATTAAAAGCTATAAGGGGATATGACAAAAATAAATTAGCTTCTTTTAAAACTTTTGCATCAATATGTATAAAAAGGCAACTAATTACAGCAATAAAAACAGCAAATTCTCAAAAAAATATAGTTCTTAATAATGCAGTAGGAATAATGGGGGAAAAAGAAGAAAATAGAGAAGTTAGCTATAATCGTGGATTAGAATCTTATATATCATATGATCCAGAAGAGTTGTTTTTAACAAAAGAACAAGTAGAAGGATTAAAAAATTACTTAAATGAAAATTTAAGTAATTTTGAAAAAGAAGTTTTTAGATATATGGTAATGGGACTTACATACAAAGATATAGCTGAAAAACTTAATAAAAAAGTAAAATCAGTAGATAATGCAATACAAAGAATAAAAAGAAAAAGTGAAATGTGGATAAAAAATTATAGAGAAAATTAATATTTTTTTAATTAAGACTTGGCAAATGTCAAGTCTTTAAATTATGTTTTTTTATAAAAAGTATAGGTCAAATAATACTTGTCTAAAAAAAATAATTATGATATATTGAATGGTATAAAAATTAATAAAATTAAGGAGTGAATATTGGTGAAGGAATATAATTTTAAAGAGATTGAAAAGAAATGGCAGAAAGATTGGGAAGAAAAAAATCTTTTTAAAACAGAAAATAAAGTAGAAGGAAAAGAAAACTACTATGTTTTAGAGATGTTACCTTACCCTTCAGGAAATCTTCATATGGGGCATGTAAGAAATTATACTATAGGAGATGTTATAGCAAGATATAAAAAAATGAAAGGGTTTAATATCCTTCATCCAATTGGTTGGGATTCTTTTGGATTGCCTGCTGAAAATGCAGCTATTCAAAATGGAGCACATCCAGAAAAATGGACAGCATCAAATATAGCAACAATGAAAAATCAATTAAAAAAATTAGGACTCTCTTATGACTGGGATAGAGAAATAGCGAGTTATAGAGATGATTATTATAAATGGAATCAATGGATATTTAAAAAAATGTATGAAAAAGGATTAGTTTATAAGAAAAAATCACTTGTAAATTGGTGTCCTGATTGTCAAACAGTACTTGCAAATGAACAAGTAGAAGATGGGAAATGTTGGAGACATAGTAAAACAGATGTAGTTCAAAAAGAATTAGAACAATGGTTTTTTAAAATAACAGATTATGCAGATGAATTATTAGAAGGGCATAAAGAATTAAAAGGTGGATGGCCAGATAAAGTTCTTACTATGCAAAAAAATTGGATAGGTAAATCATTTGGTACAGAAGTTAAGTTTAAATTAGAAAATAGTGATATAGAAATACCGGTGTTTACAACGAGAGCAGATACTTTATATGGTGTAACTTATTGTGTATTAGCACCAGAACATCCTTTAGTTAATGAACTTATATTAAAAGATAATCCAAGTATTAAAACAGAAGTTGAGAATATGATGAATCAAGATATGATTACTAGAACAGCTGAAGGAAAAGAAAAAAATGGAGTATTTACAGGAAAATATGTTATAAATCCTATAAATAATGAAAAAGTACCTTTATGGATAGGAGATTATGTACTTATGAATTATGGTACTGGAGCTGTAATGGCTGTTCCAGCACATGATGAAAGAGATTTTATGTTTGCTAAAAAATATAATCTTCCAATAAAAGTAGTAATAACTCCTATTGATAAAAAGACAAAAGAAAAAATAGACTTAAAAGCAGAAGAAATGGAAAATGCTTTTATTGATAAAGGTGTTTTAATTAATTCAGGTGAATTTAATGATCTTGATAATAAAATAGCTATTACTAAAATTGCGGAATATTTAGAAACTAATAATTTTGGTGAAAGAACAATTAAATATAGATTAAAAGATTGGGGAATTTCAAGACAAAGATATTGGGGAACACCTATTCCTGTATTATACTGTGAAAAGTGTGGAGAAGTATTAGAAAAAGATGAAAATTTACCGGTAAAACTTCCAGAAGATGTAAAGTTTACTGGAAATGGGAATCCAGTAGAAACTTCAGAAACATTTAAAAATGCTATTTGTCCAGTATGTGGAGGAAAAGCAAAACGAGAAACTGATACAATGGATACATTTGTAGATTCTTCTTGGTACTTTTTAAGATATACTGACCCTAAAAATGAAAATTTACCTTTTGAAAAAGAAATAGCTAATGGTTGGTCGCCGGTTGATCAATATATAGGTGGGATAGAACACGCAGTAATGCATTTATTATATGCAAGATTTTTTCATAAAGTTCTTAGAGATCTAGGACTTTTATCAACAAATGAACCATTTAAAAGATTGTTAACTCAAGGAATGGTACTTGGACCATCATATTATTCTAAAAATGAAAATAGATATTTGTATCCTAAAGAAGTTGAATTAAAAGGAGAAAAAGCTTATTCAAAAGAAACTGGTGAAGAACTTATAGTAAAAGTAGAAAAAATGTCAAAATCTAAAAATAATGGTGTTGATCCACTTCATATTATAAATGAATACGGTAGTGATACAGCAAGATTATTTAGTATGTTTGCAGCTCCACCAGAAAAAGAACTTGAATGGAATGAAAACGGTCTTGCAGGAGCAAATAGATTTTTATCAAGAATATGGAAATTAGTTATAGAAAATAAAAAACATTTTAATACAAAAGAAATAAATTATAGTAATATATCAAAAGTGGATAAAAAAGTATTAAGAAAATTACATCAAACAATAAAAAAAGTAACTGAAAGTATAGAAGATAACTATCATTTTAATACAGCTATAGCTGCTATAATGGAACTTTTAAATGATATACAAGATTATTCAGTAAATGTAATAAACAAAGAAGAATCATCAGAATCAAAAAAAATATTTACTGAATTATTACTAAAAACAGTATTACTACTTTCACCATTTGCACCACATATTACACAAGAACTTTGGAAGGAAATAGGAAAAATAACATATTTATTTGAAGAAAATTGGCCAGAATATATAGAAAAATTAACTGAAGAAGACGAAATGAATATAGCTGTTCAAGTAAATGGAAAACTAAGAGGAACTATATTAGTAGAAAAAGCTAATATTAATAATAAAGAACTTATAGAAAAAATGGCATTAGAAGTAGAAAATGTAAAAAAATATACAGAAGATAAAAATATAATAAAAATAATTGTTATTCCTGGGAAAATAGTAAACATAGTTGTAAAATAAAAAACGAGGCTGAAAAGTATAGTATAACTTTAATTAAAAAATCTTTATTTAAAGATTAATATTAAATTTATTATATTAAAATAAACTTTTCAGTCTCCTAATTTTTTTATTAATTTATTTATTAAAAGGGTGATGATTTGAGAAAAATAGCTGATGTTAAAAATATTGTAATAAAAATAGGCAGTTCTACTCTTACTTATGAAAATGGACATCTTAATTTAGTAAGAATAGAAAAGATAGTAAGATACATAGTAGAGCTTATGAATAGAGGATACAAAGTTACATTAGTTAGTTCTGGAGCTATTGGAGCTGGAATGGGAAAATTAGGATATAAAAATAGACCTAAAACTATTCCTGAAAAACAAGCACTTGCAGCAGTAGGACAAGTGGCGCTTATTCATCTCTATCAAAAATTTTTTTCAGAATATAGTAAAAATGTAGCTCAAGTTCTTTTAACTATGGATGATTTTAGTAATAGAGAAAGATATATAAATGCAAGAAATAGTATGAGAGTATTACTTGAAAAAGGAATAATACCAATAATTAATGAAAATGATGTAATTGTAATAGATGAGATAAAAGTAGGGGATAATGATAGTTTATCAGCGTATGTATCAGCCATTGTTGAAGCAGATTTACTAATAATTTTATCTGATATAGATGGACTTTATGATGATAATCCAAAAGAAAATAAAAGTGCAAAACTTATTAAAACGGTAGAAAAAATAGATGGGAATATAAAAAAACTAGCAAAAGGTGCAGGAAGTAAGTTTGGAACTGGAGGAATGGCAACAAAAATAAAAGCTGCAGAAATATGTACTAATTTTGGGATAGCTATGATAATAGCTCATGGAGAAAAACCATACAATCTAATTGATATAGTAGATGGAAAAGAGATAGGAACATATTTCAAATCAAAAGATAAAAAATTGAATCATAAAAAACATTGGATAAAGTATAGTAGTAAAAAAGAAGGAGTAATTTATATTGATAATGGTGCAGTAAAAGCTATAAAAAAACATAAGAGTTTATTAGCGATTGGAATAAAAAAGCTTGAAGGACATTTTGAAAAAGGAAGTAGTATTTTAATAAAAGATATGGAAAATAATGAAAAAGGAGTAGGACTCATAAATTATTCTTCAGAAGAATTAAGTAAAATAATAGGGAAAAAAAGTGATGAAATAGAAGAAATATTGGGATATAAAGATTATGATGAAGTAATACATATAGATAATATGTATATAGATTAAGGAGGTTACTATGAGTGATTATATTTTAAATCTTGGGAAAAAAGCAAAAAAAGCTTCAAAGATTTTAGCTACAATGAGTACAGAAATTAAAAATAATATTTTATATAATCTAGCAGAAGAATTATTAAAAAATGCAGAATATATAAAAAAAGAAAATAAAAAAGATTTAGAAGCTGGTCAAAAAAAAGGACTGTCAAAAGCATTTATAGATAGACTTACATTAACTGATGCTAGAATAAAGTCTATGGCAGAAGGAGTAAGACAGATAGCAGATTTTACAGATCCTATTGGGAAAATAGAAAAAGGATTTAAACATAAAAAAGGTATGAGCATAACCCAAGTAAGAGTACCACTTGGAGTTATTGCTATGATTTTTGAATCAAGACCAAATGTTACAATAGATGCAGGGGCTTTAGCTTTAAAATCAGGAAATTCAATAATTCTTAGAGGTGGAAGTGATGCTCTTTATTCAAATAAAGTATTAAAAGAAATATTTGTTAAAGCAGGAGAAAAGTATGGTCTTCCAGAAGGAGCTGTACAACTAGTGGAGAGAACAGAAAGAGAGCTTGTACAAGAACTTATAACATTAAATGAGTATATAGATGTAATAATTCCTAGAGGTGGAAAAGGGTTAAAAAAAGCTATACAAGCAAATGCGACTATTCCAATGATAGAAACTGGGGCAGGATTATGCCATTTATATATAGATGAGTTTGCAGATAAAGAAAAATCAATAAAAATTGCAGTAAATGCAAAAGCACAAAGACCAGGTGTATGTAATGCTATTGAAACTATTTTAATTAATAAAGACAAATTAGAAGAAGTATTGCCGGATTTAGAAAAAGCTTTAGTAGAAAAAAATGTTGAAATAAGAGCAGATGAACAAAGTATTAAATATTTGACTAAAGCAATAGAAGCAACAGAAGAAGATTGGGAAACAGAATATTTGGATTTGATTATATCAATAAAAACAGTAGAAAATTTGCAAGAAGCAATTGAGCATATAAATAAATATGGAAGTATGCATTCTGAATCAATAATTACTGAAAATTATAATAACGCAGAGAAATTTTTAAATGAAGTAGATGCTGCTGCGGTATATGTCAATACATCTACAAGATTTACAGATGGTGGCGAATATGGTTTTGGAGGAGAAATAGGTATAAGCACACAAAAGCTTCATGCAAGAGGGCCTATGGGGATAAATGAATTAACAAGTTTAAAATATATAATTAGAGGGAATGGACAAATTAGAGAATAGAAAGAAGGGGGAAAAATGAAAATAGCTATTATTGGTTGTGGAAATATGGGTGAAGCAATTTTAGCAGGGATAATTAATTCGAAATTAACTGCTAGGGAAAATATTTTTATATATGACAAAAACAAAGAAAAAGAACAATTAATAGGTCAAAAATATTTAATAAACTTCAAAAAAGAAGGAACTATTATAGACACGATCAAATATGCAGATTATATATTATTAGCAGTAAAGCCTAATATCATAGAAAATATTTTAGGTGATATAAAAACCATAATTGGAAATAAAATAATAATTAGTATAGCTGCAGGGGTACTAATATCAACAATAGAAAATGTTATAGGTAGTGATAAAAAAGTAGTAAGAGTTATGCCGAATACACCTGCACTTATAGGAATGGGAATGAGTTCTATATCTATAAATGCAAACATAACAAATGAAGAATTAGAAAAAACTAAAAAAATAATAAATAGTTTTGGAAAATCTGAAATTGTAGAAGAAAAGTTAATAGATACAGTAATAGCAGTGAGTGGAAGTGCTCCTGCTTATGTATATATGTTTATTGAAGCAATGGCGGATGGAGCAGTACTTCATGGTATGAATAGAGATATGGCATATAAATTTGCAGCACAAACAGTAATGGGAGCAGCAAAAATGATATTAGAAACAGGAGAACATCCAGGATTATTAAAAGATAAAGTGTGTTCGCCTGGAGGAACGACTATAGAAGCAGTAGCGGAATTAGAAAAAAAAGGATTAAGAAGTGCAGTAATATCAGCAATGGAAAAATGTGTAGAAAAATCTAAAAAAATGAGTAAAAAAAACATTGACAAATAAAATCAAATGTGGTATTATACTTTGCGACTTGACGTTTAAAGTCAATATACCACACCAAATTATATGGTATGGGAGGAAAAACAGAATTCCGATTTAAATGGAGGTGTAAAATGAGAGTAAATGTATTATTAGAATGTACAGAATGCAAAAGAAGAAACTATAGTGTAAGTAAAAACAAAAAAAACACACCAGAAAGATTAGAACTTAAAAAATATTGTAAATTTGACAAAAAAGCTACAGTACATAAAGAAGTTAAAAAATAAAAAAATTGACAAAGTTTTACTAAAATAAATTGAAAGCATGCAGGTCAATGGCTCAATTGGTAGAGCATCGGTCTCCAAAACCGAGGGTTGGGGGTTCGAGTCCCTCTTGACCTGCCATTTTAAATTAAAAGGTGGCGTGTGTATGGCTTCTATAAGAAAAACTTTTAAAGAAATAAATGATGAAATAAAAAAGGTACGATGGCCTAAAACAGAAGAAATAGCAAATGCTACTTTATTAGTGGCTATAATAAGTGTTTTTGTTAGTATTTACATAGGTGTTTTTGATTTAGCATTTTCGAAATTTATTGAAAAGCTATCTACCATTTTTGGAGGATAAGTAATGGAAATTAATGGTTTAAAATTTGAAAAAAAATGGTATATTATCCATACATATTCTGGTTACGAAAAAAAAGTTAAAACAGATCTTGAAAAAAGAATAGAAACTTTAAATCTTTCGGATAAAGTTTTTAGAATAATCGTGCCAGAAGAGGAAAGCGTAGAGATGAGAAGAGGTAAGAAAAAAGTTGTCTCTAGAAAAATATTTCCTGGATATGTAATGGTAGAGATGTTAGCTGAAAAAGAAGAGAATAACGAAGGAATTGGATACAGAGTAGATAGTGATGCATGGTACGTTATTCGAAATACAAATGGAGTAACTGGATTTGTTGGAGTTGGAGCAGAACCTATTCCTATGGAAGATGATGAAGTACATAAATTATTTGCAATGATAGGGTTAGAAACAGAGAAAAAAAGCGAACCTAAAATAAATTTAGATTACGACATTGATGATGTTGTGAGAATAATTGAAGGAAGTTTTGAAGGTAGTGAAGGCAAAGTATCTAATATTGACTTCGATCACAAAAAAGTAAAAGTAATGATAGATATATTTGGAAGAATGACTCCAGTAGAAGTAGAGTTTGATGGAGTTGAAAAGGTTTAATACCTTTTTGTGGGAGAGAAATCATTATTACCACGAATATTACGGAGGTGTAAAAATATAAAATGGCAAAAGAAGTAGTAGGAAAAATAAAATTACAATTACAAGCTGGGAAAGCGAATCCAGCACCACCTGTAGGGCCTGCTTTAGGACAACACGGTGTTAATATAATGGAATTCTGTAAAGCGTTTAATGCTAAAACACAAGATAAAATGGGATTTGTAATTCCTGTAGAAATTAGTGTGTACAAAGATAGAAGTTTTAGCTTTGTATTAAAAACTCCACCAGCATCAGATTTAATAAAAAAAGCTGCTGGTATATCAAAAGGAGCTTCGAATTCTATAACTGAAAAAGCTGGAACAATATCAAAAGCTAAATTACAAGAAATAGCAGAAACAAAAATGCCTGACTTAAATGCTGCTGATTTAGAATCTGCTATGAGAATGATAGCTGGTTCATGTAGAAGTATGGGAGTAAAAATAGAAGACTAATTGCTTATATTATAGATGAAAGATGTGAATTTAGTGGTAGGATAAATCCGTTTAACCACAAAAGGAGGAAAGAATGGCGAAAAAAAGAGGTAAAAAATATTTAGAAATAGCAAAATTAGTTGATAAAACTAAATTATATACAGCTAATGAAGCTTTAGAATTGGTAACGAAAACAAGAACTGCTAAATTTGTGGAAACAGTTGAAGTTGCATTAAGATTAGGGGTAGACCCTAGACATGCTGATCAACAAGTGAGGGGTACTGTTGTACTACCTCATGGAACAGGTAAAATTGTAAAAATTTTAGCAATAACTCAAGGTGAAAACATTGATAAAGCTTTAGAAGCAGGAGCAGATTATGCGGGAGCAGATGAATATATTGCAAAAATTCAACAAGGGTGGTTTGACTTTGATATAGTTATAGCTACTCCAGATATGATGCCTAAATTAGGTAGACTAGGAAGAATATTAGGAACTAAAGGTTTAATGCCTAATCCTAAATCTGGAACAGTAACTGCAGATATAGCTACAGCTGTTCAAGAATTTAAAAAAGGAAAATTAGCATTTAGAGTAGATAAATTAGGTTCTATTCATGTACCAATTGGTAAAGCTGATTTTGAAGTAGCTAAATTAGAAGAAAATTTTAAAGCATTTATGGCAGAAATAAATAGATTAAAACCTTCAGCATCTAAAGGGCAATACTTAAGAACAGTTGCTGTATCATTAACTATGGGACCAGGAATAAAAATTGATCCAATAGTTTTATCAAAAGAGTTATAAAATTTTATATTTAAAATATAAAAACTAAGCCAAAGACAGTAGGGGTGTAAACTTAAAAATCCTACCGAGGTTAAGGTTTATAAGATAGACCGAACCTTAATTACTTGCAACCTTCGTCTTTTGTCTTTGGGACGGAGGTTTTTTATTAAGAGGAGGTGAAATGGGAATGGCAAATGATGCTAAAAAACAAATAGTTGCTGAATTAGCAGAAAAAATCAAAGCTTCTCAAGCAGTTATAATGGTTGATTATAAAGGCTTATCAGCTGTAGAAGCAGATCAATTAAGAAAACAAACTAGAGAAGCTGGTGTTGATTATTTTGTAGCTAAAAACAGATTATTTAAATTAGCTTTAAAAGAAGCTGGAATAGAAGCTGATTTTGAAGAAGAACTAAATGGTACTACTGCTTTCGCATTAGGGGAAGATCCAGTATCGCCAGCTAAAGTTATCTATGAGTTTGGAAAAACTAAAGGTGATTTTTTCAATATTAAAGCTGGTTTAGTTGAAGGTAAAAAAGCAGATGTAGCTACAATAGAAGCTTTAGCAAAACTACCTTCAAGAGAACAACTACTTTCTATGGTATTAAATGGAATGTTAGGTCCAGTAAGAAAACTTGCTTATGCATTCAATGCAATAGCAGACACAAAAGAAGCTTAATAGCTTAATTATAGTATAAATAAAAAAATAAAATATTTAAGGAGGAATAATTAAAAATGGCATTTAACAAAGAAGAATTTATAAAAGATTTAGAAGCAATGTCTGTATTAGAATTAAAAGAATTAGTAGAAGCATTAGAAGAGCACTTTGGTGTAACTGCATCTGCACCAGTAGCAGTAGCAGGAGCAGTAGCAGGAGAAGCTGCAGCAGAAAAAACTGAATTTGACGTAGTTTTAGTTGAAGCAGGAGCTAAAAAAATCAACGTAATCAAAGCAGTTAGAGGAATAACTGGATTAGGCTTAAAAGAAGCTAAAGAATTAGTAGAAGCTGGTGGAACAATTAAAGAAGCTGTTTCTAAAGATGAAGCTGAAGAAGTTAAAAAACAATTAGAAGAAGCAGGAGCAAAAGTAGAAGTTAAATAATCATGCTAAAATAACAGAATAAGGCACTTCTTTAGGAGTGCCTTATTAGTCTTATTTTAATAATTATTTAATAATTGGTGAGATTTGTTTATTTTATACACAAATTTTATTAATTATTAAATGTAAATACTATATGAGGGGTGAGAATCTTAATGAGTAAATTGATCGAGAGATTGAATTTTGGAAGAATTAAAGAGAGGGGGGAAATGCCACACTTTTTAGAATTCCAGCTTAGCTCATACGAAGATTTTATACAAGCTAAGAAAGCTCCAAATAATAGAGAGAATAAAGGATTAGAGCAAGCTTTTAGGGAAATGTTTCCAATAGAATCATCTAATGGAGATATAAAATTAGAGTATATGTGGTATGAACTTCATGAAAATGAATTTCCATTAAATGATGAATTAGAGTGTAAAAAAAGAGGAAAAACATACTCAGCCTCTCTTAAAGTAAAGCTTAGACTAGTAAATAAAAAAGCTGGAGATGAGATACAAGAATCACTTGTTTATTTTGGTGAAATTCCTTTAATGACAGAAAGAGCTACTTTCATTATAAATGGAGCGGAAAGAGTTGTTGTTTCGCAGCTACATAGATCACCAGGGGTATCTTTTAATAAAGAAATGAATATCCAAACTGGTAAAGATCTTTTTGTAGGGAAAATAATACCGTATAAAGGAACTTGGTTAGAGTTTGAAACTGATAAAAATGATTTTTTAAATGTAAAAATTGATAGAAAGAAAAAAGTATTAGCAACTGTATTTTTAAAAGCAGTTGAATTTTTTAATACTAACACTGAAATATTAGAAGAATTTTTTGAAACGAAATCTTTATCTTTGAAAGAATATATAGCAAAATATGATTCTAGAGAAGAATTATTAGAAGTGTTAAGAACAAAATTAGAAGGAAGTTTTTTAAAAGAAGAAATTTATGACGAAGAAACTGGAGAAGTAATTTTAGAATCAGAAAAAGTTATAGATGAAGAAACAGTTAATAAATTAATTAATTTAGGTATTGATGAGATACTATTTTGGGAAGTAAAACCAGAAGATAAAGTTCTAGCTAATTCTATAATTCACGATAATAGTAAAAATAGTGATGAAGCAGTATTAGAAGTTTTTAGAAAATTAAGACCTGGGGATTTAGTTACAGTTGACAGTGCTAGATCTTTGATTAGACAAATGTTCTTTAATCCTCAAAGATATGATTTAGCAGTTGTTGGAAGATATAAAATGAATAAAAGACTTAAATTAAATCTTCCAGAAAAACAGGTTTTACTTACAAAAGATGATGTAGTAACAACTGTTAATTATTTAAAAAAATTAATAAATGGAACAGGAAATACAGATGATATAGATAATTTATCAAATAGACGTGTTAGAGGTGTAGGAGAACTACTTCTTATGCAAATAAGAAGCGGAATGGCTAAAATGACAAAAATGATTAAAGAGAAAATGACTGTTCAAGAAGCAGCAAGTCTTACGCCACAGAGTTTATTAAATACAAGACCATTAAATGCGTTAATTTTAGATTTCTTTGGAAGTGGACAATTATCACAATTTATGGATCAGTCAAATCCGTTAGCTGAACTTACGCATAAAAGAAGAATATCAGCACTTGGACCAGGAGGACTTTCGAGAGAAAGAGCTGGATTTGAGGTAAGAGACGTACATGATTCACATTATGGTAGAATATGTCCAATAGAGACTCCAGAAGGACCAAATATAGGACTTATTGGTTCATTAGCAACTTATGCAAAAGTTAATAAATACGGATTTGTTGAGACACCATTTGTAAAAGTAGAAAATGGAAAAGCATTATTTGATGAAATTGTTTACTTAGCAGCAGATGAAGAAGAAGGATTATTTATTGCCCAAGCAGATACAAAAGTAGATGAAAATGGAATGTTGGAAAAAGAAGCAGTTTGTAGATATGGACATGAAATAACTCATGTACCTAGAGAAAAAGTAAATTATTTAGATGTTTCTCCAAAACAAGTTGTATCTGTTTCAGCTGGATTAATACCGTTTTTAGAACATGATGATGCTAATAGGGCATTAATGGGATCAAACATGCAAAGGCAAGCAGTACCATTACTTAGAACAGAGGCTCCATATATAGGAACTGGTATGGAAAGAAAAGTTGCAGTAGATTCTGGAGCAGTTGTTACATCTAAAGTAAAAGGTAAAGTAGTAGCTGTAGATGCAAAAAAAGTAGTTATAGAAGATGAAAAAGGTAAAGAACATACTTATAGATTACTTAATTTTGAAAGATCAAACCAAGCTATGTGTTTACATCAAAAGCCTTTAGTTGATTTAGGTGAAGAAGTTAATGTAGGAACTATTTTAGCAGATGGACCTGCAACTCAAGGTGGAGATTTAGCGCTTGGAAGAAATATTTTATTAGCATTTATGCCGTGGGAAGGATATAACTTCGAGGATGCGATATTAATATCTGATAGATTAAGAAAAGAAGATGTGTTTACATCTATCCATATAGATGAATATGAAACAGAAGCAAGATCAACAAAGCTTGGAGATGAAGAAATTACTAGAGAAATACCAAATGTAAGTGAAGAAGCACTTAGAAATCTTGATGAAAATGGTGTTATTAGAGTAGGTGCAGAGGTAGGACCAGGAGATATATTAGTAGGTAAAACTACTCCAAAAGGAGAAACTGAACCACCTGCAGAAGAAAAACTTTTAAGAGCTATATTTGGTGAAAAAGCTAGAGATGTAAGAGATACTTCATTAAGAATGCCACATGGTTCTAAAGGGACGGTAGTAGAAGTTTTAGAATTATCTAGAGAAAATGGCGATGAATTAAAAGCTGGTGTAAATAAGGTAATAAGAATATTTGTTGCTGAAAAAAGAAAGATAAATGTTGGAGATAAAATGTCTGGTAGACATGGAAATAAAGGAGTTGTTTCAAGAGTACTTCCAGCAGAAGATATGCCTTTCTTAGAAGATGGAACACATTTAGATATATTACTTAATCCTTTAGGAGTACCTTCGCGTATGAATATAGGGCAGGTATTAGAAGTACATTTAGGACTTGCAATGGGAAATTTAAATGGTGGAACACATATTGCGACTCCTGTATTTGATGGTGCTTCAGAAGAACAAATAAAAGATTATTTAGAGAAAGCTGGATTTAATAGAAATGGAAAAGTAACATTATATGATGGAAGAACTGGAGAAAAATTTGATAATCCGGTAACTGTAGGTAGAATGTATATGTTAAAACTTCATCATTTAGTAGAAGATAAAATGCATGCAAGAGCAATAGGACCATATTCTTTAGTTACTCAGCAACCTTTAGGAGGAAAAGCTCAATTTGGAGGACAAAGATTAGGAGAAATGGAAGTTTGGGCACTTGAAGCATATGGGGCATCAAATATATTACAAGAAATGTTAACAGTAAAATCAGATGATGTTGTAGGAAGAACAAAAACTTATGAAGCAATAGTAAAAGGTGAAGAAATGCCAGATCCAGATATTCCAGAATCATTTAGAGTATTATTAAAAGAATTCCAGTCATTGGCATTAGATGTAGAACTATTTACTGATGATGGAGATGTTATTGATATAGATAGAGAAAGTTTAAAAGAAGATGAAATTACAGAGTTTTCTTTAGCAGATTTGAAAAAAAATGAAAAGTAATAATATAAAAAGAAGTTAAAGAACTTTTTTAAGGAGGCTTTATATTATATGAATATAAAAAAGTTTGATCGTATTAGAATTAGGTTAGCTTCTCCAGAAAAAATAAGAGAATGGTCTTATGGAGAGGTAAAAAAACCTGAAACTATAAACTATAGAACACTTAATCCTGAAATGGAAGGTTTATTCTGTGAAAGAATATTTGGACCAACCAAAGATTGGGAATGTGCTTGTGGAAAATATAAAAGAATGAGATATAAAGGTTTAGTTTGTGAGAAATGTGGAGTAGAAGTAACTAAATCTAAAGTAAGAAGAGAAAGAATGGGGCATATATCATTGGCTGCCCCTGTATCTCATATTTGGTATTCAAAAGGTACTCCTAATAAAATGAGTTTAATTTTAGGAATTAGTCCTAAAGAATTAGAATCTGTATTATATTTTGCTAGATATATAGTAACAGAAAGTCATGAAAGCTCTGTAAAAGTAGGGAAAATATTAACTGAAAGAGAGTACAAATTATATAAGCAACAATATAAAACTAAAATAGAAGCAAAAATGGGAGCAGAAGCTATATTAAAGCTTTTAAAAACATTAAATTTAGGAGCGCTTCATAAAGAATTAGAAAAAGAGTTAGAAGAAGTAAATTCAGCACAAAAAAGAAAAAAAATTGTTAAAAGATTAAAAATTGTAAGAGATTTTATTAATTCTGGTAATAGACCTGATTGGATGATATTAAGAGAACTGCCAGTTATACCAGCTGACCTTAGACCAATGGTTCAATTAGATGGAGGGAGATTTGCTACATCTGATCTTAATGATTTATATAGAAGAGTTATAAATAGAAATAATAGATTAAAAAGATTGATGGATATAAATGCACCTGAAATCGTTGTAAAAAATGAAAAAAGAATGTTACAAGAAGCAGTAGATGCTCTGATTGACAACGGTAGAAGAGGAAAACCAGTTGTTACTCAAAATAATAGAGAATTAAAATCTCTTTCTGATATGCTTAAAGGAAAACAAGGAAGATTTAGACAAAATTTATTAGGAAAAAGGGTAGACTATTCAGCAAGATCTGTTATTGTTGTTGGACCTAGTTTAAAGATGAATCAATGTGGAATTCCTAAAAAAATGGCATTAGAATTATATAAACCATTTATAATGAGAGAGCTAGTAAAAAGAGAAATAGCAACTAACATAAAAACTGCTAAAAAACTTGTAGAAGAAGCTGACGATAAAGTATGGGATGTAATAGAAGATGTAATTCAAGATCATCCTGTATTATTAAACAGAGCTCCTACATTACATAGATTATCAATTCAAGCATTTGAACCAGTACTTATTGAAGGAAAAGCTATAAGACTTCATCCACTAGTATGTTCAGCATTTAATGCTGATTTCGATGGAGATCAAATGGCAGTACATTTAATGCTTTCACCAGAAGCAATAATGGAAGCAAAACTTTTAATGTTAGCGCCTAATAATATAATATCTCCTGCTAATGGACAACCAATAGCAGTACCATCACAAGATATGGTTATGGGATGTTATTATATGACAAAAGAGAAAAAAGGTTCTAAAGGCGAAGGTAAAGTTTTCTCTAATATAGATCAAGTAATAACTGCTTATCAAATAAAAGTACTAGATACTCATAGTATAATAAAAGTAAGAATAAATGGAGAATTAATAGAAACAACTCCAGGAAGAATTTTATTTAATGAAATGTTACCAGAAGAAGCAAGAAATTATGGAGTTACTTTTGGTAAAAAACAATTGAAAAATTTAATTAGTGATTTATATGAAAAATATGGATTTAGTTTGACTTCAGAACTTATAAATGAAATTAAAAACTTTGGATATCACTATGCCACTTTTGCTGGAATTACAGTAGGGATAGAAGATATTGAAGTTCCTAAAGAAAAACCAGAAATTTTAAGAAAAGCTGAAGAAGAAGTAATGAAAATAGAACAAGAATATAGAAAAGGTAAAATAATTAACGAAGAAAGATATAGAAAAACAGTAGCAGTATGGAATAGAGCGACAGATGATGTAACAGATGCAATGCAAAAAAGTTTAGATGAATTTAACCCAGTGTATATGATGGCAAATTCAGGTGCCAGAGGATCTATGAGACAAATGAGACAATTAGGTGCTATGAGAGGACTAATGGCAGATACACAAGGTAGAATTATTGAGATACCAATTAAAGCTAATTTTAGAGAAGGGCTTAATATATTAGAGTTCTTTATGTCATCACATGGAGCAAGAAAAGGACTAGCGGATACTGCATTAAGAACTGCCGATTCGGGATACTTAACAAGAAGACTTGTTGATATTTCACATGAAGTTATAGTTAATAAAGAAGATTGTGGAACTCATAATGGAATAGAAGTAGCAGATTTAGTTGTAGAAGGAAATGTTATTGAAAAATTAGAAGAAAGAATTAATGGAAGAGTATTAGCAGAAGATTTAGTATTTGAAGGAGAAGTAATAGCTCCTAGAAATACTATGATAGGAAAAGAAATAATAAAAGAAATTCAAGCTAAAGGAATAAATAAAGTAAAAATAAGATCACCATTGACATGTGACCTTGAAAAAGGAGTTTGTCAAAAATGTTATGGAATGGATTTATCTAATCATCAAGAAATTCTTCTTGGAGAAGCAGTTGGAGTTATTGCAGCTCAATCAATTGGAGAACCAGGAACACAGCTAACAATGAGAACATTCCATACTGGTGGGGTAGCACAAGCTACAGAAGCTCAAAAAGATATAAAAGCTGAACATTCAGGAATAATTGAATTTAGAGATATGAGGTTATTAGATTATAATAATGAAAGTGTAGTTGTTTCTCAATCAGCAAAAATAATAATAGAACCAGATGAATACGAAATACCTACGGGATCTATTCTTAAAGTAAAAGAAGGAGAAAGAGTAGAAAAAGGAACAGTATTAGTTGAATTTGATCCATATCATACTCCTATAATTACTGAAAAAAATGGAAGAGTAGAATATAGAGAAATATATGTAAAAGAAATTCATGATGAAAAATATAATGTTATTGAAAGACTTGCTGTAAAACCAATAGAAGCAGGAGATATAACACCTAGAATAGTAATATTTGATAATTCAAATAAAAAAGTAGCAGAGTATAGAATTCCTTATGGTGCATATTTAATGGTGGGAGAAAATACTGAAGTTAAAAAAGGAGAAATATTAGCTAAAATTATAAAAACAGGTAGTGGTACAAAAGATATCACTGGTGGTCTTCCAAGAGTACAAGAACTATTTGAAGCTAGAACTCCTAAAGGAAAAGCAATAGTAAGTGAAGTAGGCGGAAGAGTAAGAATACCTGGTAAGAGAAAGAAAAATATGATAGTAGTTAATATTCATTCTTTAGAAAATGAAAATGACTATAAAGAATATTTAATACCTGCAGGAGAACATATTATTGTTACTGATGGTCAAATTATTAATCCAGGTGATAAATTAATAGAAGGAGTTATTTCTCCACACGATGTACTTGCAATAAAAGGATTAGTAGCTGCACAACAGTATATACTTGAAGCAGTTCAAGAAGTATATAGAGAACAAGGTGTTACTGTAAATGATAAACATATAGAAATTATAGTAAAACAAATGTTTAGAAAAGTAAAAATTGTAGATTCTGGTGACTCATTATTCTTAGAAGATGAAGTAATTGATAAGAAAACACTTGATATTGAAAATGAAAAATTAATATCTAAAGGGAAAAGAACAATTAAATATCAACCAGTAATACAAGGTATTACAAAAGCAGCAGTAAATACAGAAAGCTTTATTTCAGCAGCTTCATTCCAAGAAACTACAAAAGTTCTTGCGAACTCAGCTATTGAAGGTAAAGAAGATACATTAAATGGATTAAAAGAAAATGTAATCATCGGTAAGAAAATACCAGCTGGAACTGGATTTAATGCATATAAATATATAGAACCTTTAGTTAAAGAGGAGAAATAATAATATGGCGACTAACAAGTCGCCTATTAAATTATAAATTATTTTAAGTAAATAATGTAGTAAGCTAGTAATAAAATTTTTTAAAAGGGGCGATACTATGCGAAGTATGACAGGATATTCTAAAATTATAGAAGAAAATGAGCATTTTAGAATATCAATTGAAATGAAAAGTGTTAATAATAAAGGTTTAAATATAAAAATAAAAATTCCGAATTTTTTAAATTTTTTAGAAAATAGGATAAAAACTGAAATAGGAAAAAAAATTCATAGAGGTTATATAGAATTAAAAATAAATTTTGAAGATAAGAGAGAAAACGAAAATTTATATTATTATAATAGAAATAATGCTTTATCATATATGAAAATATTAAATGAAATAGAAAAAGAATTTTCCTTAAAACTTGAAAACAAAGTAGATATGGTAGTAAAATATAGTAATAGTATAAATAAACAAGATATAGAAATAAACGAAAATGAATATACAGAATTTATAATGCCTGTCTTAAATAAAGTAATAGATAATATAAATGAAATGAAACAAACTGAAGGTGAAAGATTAAAAGAATATTTTATAGATCTTATTGAAAATATAAAAAATAATATAAAAGATATAAGCTATTTAAAAGAAAATGTAGTAGAAAATTATAAAAATAGATTATTAGAAAAATTAAATAACTATAAAAATGAAATAGATGTAAAAGAAGAAGATATCTTAAAGGAAATATTAATTTTTACTGATAGAAGTGATATATCAGAAGAATACTCAAGGCTTATAAGTCATTTAGAACAATTTTTAATAGAATTGGATAGTAAACATAACTATATAGGGAAAAAATTAGATTTTATACTTCAAGAAATATTTAGAGAATTAAATACTATGGGAGTAAAAAGTAATTATTATGATATATCTAAACTTGTAGTTGACTGTAAAAGTGAAGTAGAAAAAATAAGAGAACAAGTTATGAATATAGAATAAAATTAGGAGGAGAAATGGGCGTAATAAGAATTGGATTTGGAAATATAGCAATGAAAAATAGAATAATAGCCATTGTAAGTCCAGATACTGCTCCTAGTAAAAGACTAAAAGAAAGAGCTAAAAATGAAAATTTATTAATAGATGCTACTAATGGAAAAAAAACAAGAGCATTAATTATTACAGATAGTAATCATGTGATTATGTCAGCTATAAATCCAGAGACGTTATTAGGAAGAATAGAAAAAGGAGAAAAATAATGAAAGGTAGATTATTTATAGTATCTGGTCCTAGTGGTGCAGGAAAATCAACAGTTACAAAATTAGTTAGGAAAAAACTTAATATGACATTAGCTGTGTCTGCAACTACAAGAAAACCTAGAGTAGGAGAGGTAGATACAGTAGATTATCATTTTTATAGTATGGAAAAATTTCAAGAAGCAATAAAAAATAATGAATTTCTTGAATATGCTAATGTACATGGGAATTATTATGGGACATTAAAAAAAGAGGTAGAGAAAAAATTAGAAAATGGTGAAGATGTAATTCTTGAAATAGATGTACAGGGCGGATTACAAGTAAAAGAAAAATTTCCAGAAGCTAAATTAATATTTTTTAAAGCACCTAGTGTAGAAGAATTAGAAAAAAGACTTAGGGGAAGAAATACTGATACTGAAGAAGTTATACAAACGAGATTAAAAAACTCATTAAAAGAAATGGAATATGAAAAATATTATGAAGAAGTAATAATTAATAATAATGTTGAAGAATCAATAAAAAAATTAATAGAAATAATAAAGAGAAAAGAAAAGGAGGAAAAATGAATAAAATAGGAAATAAGAAAAAAATGTATGATGAATTAATAGAAAAAATACCTAATAAATACATATTAACGATAGTAGCAGGTAGAAGAGGAAGAAATTTATTAAGAGGTGAAAAACCAGTAGTAAAAGTAGGACCAAAATCGACTATGGTTCAAACAGTATTCAAAGAAATTTTAAAGGATAAAATTAATTATGTGCAAAATCCACCAGAAAAAGAGAATAAAAATGAGACAAGTGAAAGCAAATAAAATCCTTATAATATTCTTATTAATTTTATTTATAGGATGTGGAAATGAAGTAAAAAAATATGAAAAGACAGAATTTGCATTTGGGACATTAATCAAAATAATAATTTATGAAAAAGATACTAAATTAGCTGAAAAGGCTGCAAATAAAGCTTTTGAAGAAATAAAGCGAATAGATAGCAATTATAACACTAAAGTAGAAAATAGTTTGTTTTATAAATTAAATAATTCTAAAAATAAAAAGATAGAATTAGATGAAGAAGGGAAATTTTTAATAAATAAAGTATTAGAAGTATCTAAAGAAACAGATGGAATGTATGATATTACGGTAGAGCCATTATTGAAATTATGGGGATTTTATAATAAAAAAAATAAATTAAAAGTTCCGACAAAAGAAGAATTAAAAAATACTTTGAAAATAGTAAATTATAAAAATATTATTATAGAGGATAATATAATTTATTTGAAAAATAAAAAACAAACAATAGATACAGGTTCGTTTTTAAAAGGATATGCTATTTATAAAGCAAGAGAAATATTAAAAAAAGAAGGAATAAAATCTGCATTTATATCTGCTTTGTCAAGTATAGAACTTATAGGAGATAAAGAAGGGAAAAAATGGAAAATAGGACTTCAAAATCCGAATAATCCAAGTGAAATATTAAAGATACTTTTGATAAAAGATAGAGCAATAGGAGTATCAGGAGATTATCAAACATATGTAGAAATAGATGGTAAGAGATATCATCATATTATAAGTCCTAAAACTGGATATCCTAGTGATGAAAATAAAATGCTAGTTATTGTAAGCAATAATGCCTTTCTTTCTGATATGTATTCTACAGCACTTTTTTCATTTAATTATAAAAAAATATTTGATTTTATTAGTAAATATAATAATATAGAAGCTTTTGTAGTAGATAAAAATAATGATATACATATAAGCAAAGGTTTAAAAGAAAATATAATTGAACCTTAAAAAAATCTTAAAATCAAACAAATATAACTTGAATATATTCAAAAAATGTACTATAATTTATAATGGTATGTATTCTATTTTTTGAGGTAAAATAATGAGACTAAAATTTCGAGAAGAAGATGTGCAAAATTTGTTAGACAATATAAATATAGTAGATGTAGTTTCTGAATATGTTTCATTACAAAAAACAGGGGCTAATTATAAAGGATTGTGTCCTTTTCATCAAGATAGGAATCCATCTTTTATGATTAGTCCTTCTAAAAATATATCTAAATGTTTTGTATGCGGAAAAGGCGGAAATCCCATTACTTTTTATAAAGAATATCATAAAATAAGTTATGAAGAAGCAGTATTAGAACTCGCTAAAAAATATAATGTGAATATAAAAGTGATCGGAAAATATAATAAAATTAATGAAAAAAATAGTATTTATTATAAAATATTAAATGAAGCTTTAGAATTTTATAAAGAAAATATATTTAAAAATAGTGGAAGAAATGCTTTAGATTATCTATATAAAAGAGGATTTAGTGTTGATTTTATAAAGAAACATAATATTGGATATTCATTAAGCGAATGGAATAGTTTATATGAATACTTGTTAAATAAGTCTTATAACTTAGAAGATATAAAAGCTGTAGGACTTATTAAGCAGGGGGAAAATGGATATTATGATACGTTTAGAGATAGAATTATGTTTCCAATATATTCTGTTTCAGGAAATATAATAGGTTTTGGCGGAAGAATATTAGAAGATAGAAAAGATGTTGCAAAATATTTAAACTCACCAGAAACAGTTGTATTTAATAAAGGTAAAAATCTTTATGGAATAGAAGAAAAAGGTCTTGAAATAAAAAAGAAAAATTATGCTATTCTTATGGAAGGATATATGGATGTACTTAGAGCTAAAAGTTTTGGATTTAATACAGCTATAGCCTCGCTTGGGACATCACTTACAGAAAATCAAGCAAAATTATTAAAAAAATTCACATCTAATATAATAATAGCATATGATATGGATAACGCAGGACAAGAAGCTACTGAAAGAGCGATAATGTTATTAAAAGCCAATAATTTTAATATAAAAGTTGTGTCATATAAAGATGCAAAAGATCCTGATGAATTATTAACAAAATTTGGTAAATCTAAATTTTTAGAAGCAATAAAAGAATCAAAAGAAGATTTCCAGTTTTTATATGAAAAATATATAAATTTATACAATATAAATGATATATCAGGCAAAAAAAAGTTTGTAGAACATTTTAAAGAATTTTTTCAAAATATAAATAGTGAATTAGAGAAAAATTTATATATAGAAAAGTTTTCTAAACAAATAGATATAGAAATAGACGCATTAAAAAGTATACTTATAGATAAGAATAAAAAGAACAAAAAATATAGAACAGAGATAAAAAATAATTTTATAGAAAATAGAAAAATAAAAAAAAGAGATAAAATAGAAGAAGATTTAATAAGAGTATTTTTTTTAAAGAAAGAATACATAAATTATTTTAAGTCATATGAATTTAAAGATGAGGAATTTAATTTGATAAAAAATTATTTATTAAAAGATAATAAAGGATTGAAGCAGATTTTAAATTCTAGTGAATTTAGTGAAGAAAATAAAAAAGAAATATTAGATATAGTAAATCTTAATTTTAAACTTTCAAGTGAGGAAGAAAAAGAAAAGTTTTTTCTAGATACACTTATTGCATTTATTCGTAGAGAGTTAAAAGAAAGAATGAAAAAGATTAGAAAAAATAATGATACAATGAGTTATTTTAAATTAAAAATAGAGTTTGAAAAATTAAAAAATATTCAAACAAAAGATGAAATCCTAAAATTTTATAATCAATATTTATTAATGATAGATTAAGGAGGAAGCAGGATAATGAGAGAGTTTATAAAAAATGAAAAAGTTCTTGCTTTAGTAAAAAAAGCAATGGAAAAAGGCAAGATATCTTATGAAGAAATAAATGAAGAGTTGCCAGATAGTTTTCCTGCGGAACAAATTGAAAAATTAATTGAAGGAATGGAAAAACAAGGAATAAAAATAATTTCTAGTAAAGATAAAAAGAAAAAATTAGAAAAAGAAAACAAACTAGAAAAAGTTAAAAAATTAAAAGATAAAATAGAAGAAGATGAAAAAGTAGAAGAAAAAATTGTAGAAATAACTGATGAAGATGATGAAGATTTTAATTTTGAAGAAGAATTAGAAGAATTAGAAAAATTGGAAAATGATGCAATATCTTTAGGTAGCGGAATAGATATGGTAGATGAACCTATAAAAATGTACCTTAGAGAAATAGGTCAAATTCCATTATTAACTCATGAACAAGAAATAAAACTTGCTAAAGGTGCTGCTGAAGGAGATGAGTATTGTAAACAACAACTTATTGAAGCAAATTTAAGACTTGTTGTAAGTATAGCTAAAAAGCATACAAATAGAGGATTAAAACTTTTAGATCTTATTCAAGAAGGAAATATGGGACTTATGAAAGCAGTTGAAAAATTTGAATATCAAAAAGGATATAAATTTTCAACATATGCAACTTGGTGGATACGTCAAGCTATAACTAGAGCTATTGCTGATCAAGGTAGAACTATAAGAATTCCAGTACATATGATAGAAACTATAAATAAAATAAAAAAAGCAAGTAGGATATATCTTCAAGAAACAGGAAAAGAAGCAACACCAGAGGTTTTAGCTAAAAGACTTAATATGGAAATGGAAAAAGTAAAACAAATATTAGAAATGAATCAAGATCCAATATCACTTGAAACACCTGTTGGAAGTGAAGAAGATAGTGAACTTGGAGATTTTGTAGAAGATAATAAAATATTAAGCCCTTATGAAGAAGCTAATAGAAATTTATTAAAAGACCAATTGAGTGAAGTATTAAAAACTTTAAGTGATAGAGAAGAAAAAGTATTAAGATTTAGATATGGACTTGATGATGGATGCCCTAGAACCTTAGAAGAAGTAGGGAAAATATTTAAAGTAACAAGAGAGAGAATAAGACAAATAGAAGTAAAAGCACTTAGAAAATTGAGACATCCAAGTAGAAGAAAAAAACTAGAAGATTTTAGAAGCTAAAAGGCGCAAAAAATTTGTGCCTTTTATTAATTTAAAAAAGGAAAAAAGAGTATTTTAAATAATAATATAAAAGAAAATTATAGATAAAGGGGAGATAAGAGATGATAAATATAGAGGAAATAATAAAGAAAAAGCAGATAAAACAATCAGAATTTGAAGATTTTATGGAAAAATGTGAATTCTCAGAAAAAGAATATTGTGAAATAATAGATAAGATTGTAGAATCAAATGTAGAAATAATACGAGATGAAGATAACTTTTCTGAAAAAGAAGAAGAAAATATTTTTTCTTTTTCAGAAAATTATTATACACAAGATATACTAAATCAATATTTTCATGATATATCTAATTATGAATTACTTAATAAAGAAGAAGAAAGAAACATTTTAAGAAAGGCTAAAAATGGAGATAAAGAAGCAAAAGAAAAAATAATTACATCAAATCTAAGGCTTGTGGCTAAAATAGCATTACATTATAGTAGAGCTGGAGTATACTATTTAGATCTTATTCAAGAAGGGACAATTGGGCTTATAAATGCTATTGATAAATTTGATTTATCTAAAAACTATAAATTTTCAACATATGCTACATGGTGGATAAAAAAAGAAATTATTGATGCCCTAAAAAAAAGAGTAAATATGATAAAAATACCAAATTATATTTTTTTATCACATAAAAAAATTAGTATATTTGAAAATGATTATTTAAATAAGCATAATAAAAAACCTGAAATAAAAGAGATAGCAGAAGCTTTAAATATGAGTGAAGAAGAAATATTAAAAGTAAAAAATGCTATAGATATGAATATGATAGATATGAAAGTAGAAACAAGCAAAGAAAGTGATGAACATTATGATATAAAAGATTATAGTACAATAGAAGAAATAGATAAAGATATGGAAAAATTATTAAAACAGAAAAAAATATCTACTTTATTAAAAAAATTAAATAATAGAGAAAAAAAAATAATAGAAATGTATTATGGATTATCTGTAGAAGGTAGATTTACATTTAAAGAAATAGGAAGTGAATTAAATATATCAGCAGAAAGAGTAAGAGTATTAAAAGAAAGAGCTTTAAATAAATTGAAATATGTAGGAGAAAGACTTTGGGAGGAATAATGATACTAAAAGATATAATAAATATATTAGAAAAAAAATATCCTAAGTATTTAGCTGAAGAATGGGATAATGTAGGACTTTTAGTAGGGAATGAAAAAAGAGAAATAAAAAAAATACAAATTTCTTTAGACGTAACAGAAAATACAATAGAAAATGCTATAAGAAATAATGTAGATTTAATAATTTCACATCATCCTTTTATTTTTAATGGAATAAAACAAATAAATACAAATAGTATATTAGGTAATAAAATAATACAACTTATAAAAAATGATATAGCTGTTTATTCTATGCATACAAATTTAGACTCTGCTAAATATGGATTAAATGATTTTATTTGTAAAAAATTAAAAGTAGAAAACAGTAAAATAATTTCGGAAAATATTGTGAATCTATATAAAATAAAATTTGAATATAATGAAAAAATATTAAAAAAATTAGAAAAATATAATTTTTTTAATAAAAAAAATAATGTACAAACTATAGAGATTTTTGATACAATAGAAAATATAAATAAAGTTGTTTCTTTATTAAATTCATTTAGTATAACTTATGAATTATTAAAATTAGAAAACAAGTTAAAATTGAATACTGGATTAGGAAGAATTTATAATTTAAAAAAAGAAATTAGATTATTAGATTATATAGAGATAATTAAAGAAAAACTTGATATAAAAAATGTACGAGTGGTCTATAATGAAAATAAGTTTATAAAAAAAATAGCTATTGTAAATGGAAGTGGAATGTCATTTTTAAAAAAAGCAAAAAAAGAAAAAGTAGATTTATTTATAACAGGAGATATAAAATATCATGAAGCTTTAGATTGTTTTGAAGAAGGATTTTCTCTTGTAGATATAGGTCATTATGAAAGTGAGCATTTTTTTAATGAATTGATTTTAGATGATTTAAAAGAAACGAAGTTAGAGATTATAATATTTAATGATAGAAAAATTTTTAATTATTTATAGAGGAGTCTATTATATGCTAAAGAAGTTGTTTTTTATTTATTTATTATTAATAACAAGTATTTTTGCAAATATTGAAAAAGATGAATTGAATTTTTTTAATGAGAACCAAATAAGTAAAATAAATAAAAAAATAAAAAATATTGAAAAAGAACGAAAAGTTAATATAAAAATTTTTATATTAAAAGAAGAGCCAGAAAATCAATTGATAAAAGATAAAAAAAGTGTTATAATACTTTTGTTTAAAAAAGAAAATGGAAACATAGGTATAAACCTTAAATTTACAAATGATATAAATATAATTGATTATAAAAGTGAGATTGATAATTTATTAGAAGATTTGTCTCCACTTATTATTAATAAAGAGTACGAAGACTTTATATATGAACTTTTAGCTAATATAAGTGATATTTTAATATTTGTAGAAAAAGAGAATAATGATGCAATAGGTACGATAGAAAAAAATAAAGAAAATCAAAAAATAATTTTAAAAAATATATTAAACCTTATATTAATACTATTTTTAATGATAGTATTAGGTTTTGTTATATATACACTTTATTTATTTTATATAAAATCAAGAGATAAAACTAAATGTAAAGATTGTAATATAAATATGCATATAGTAGATAAAATAGAAAATAAAAGTGGAATAATCAAAATATATGAATGTCCAAAATGTAAAAAAATAAAGCAAATAATAGAGAAAAAATAGGTATTAGAGATAATCGCATGAGTAATCATGAGGAACGTCCGGACTCCGTAGGGCAAAGAGGGCAGATAACGTCTGCTAAGAGAAATCTTAAGGAAAGTGCCACAGAAAATAACCGCCAAAGTTAAAGTGTTTAACATGGTAAGGGTGAAAAGGTGGTGTAAGAGACCACCAGTATTTTACGAAAGTAAAATAGCTAGGTAAACCCCCTCTGGAGCAAGACCAAGAATTGAGATATATAGGAAGCTGCCCGTTTCTGTCTCTTATGGTAGGTCGCTTGAACTTATAGGCAACTATAAGTCTAGATAAATGATTATCAAATACAAAATCCGGCGTATACTAATACCTTTTTTAATAAACATAAAACTCCCCTAATTTAGGGGAGTTATTTTTATCTAAAATATAATTTTGTTAAATCTTTTAGTTTGAGAGCTAATTTTTTGTTTAATTGACCTTTTATATATCTCCATTGCCAGTTACCAGCAGCTTTCCCAGGAGTATTCATTCTTGAATCATTTCCTAAACCTAATATATCTTGAAGTGGAGAAATAGCTATATTAGCTACAGAAGCCCATGCTGCTGTAATAAATTCCCAATGAACATCATATCCAGATTTTTTAATGCCAAGATATTTTTTGGCAAATTCTCTATCATCAGGATTTGCATTTGTATACCATCCAATAATGGGCTCATTATCATGAGTACCAGTATAAACACAAGTATTTTTAGAATAGATATGTGGTAAGTGATTACTTTCATCTTTTGAATCAAATGCAAATTGAAGTATTTTCATGCCAGGGAAATTGAAGTAATCTCTAAGTTCTTCTACATCAGGAGTGATTACTCCTAAATCTTCAGCTATAATAGGAAGTTTTCCTAAAGCATCTCTTATTGCTTGGAAAAGTTCTTTTCCTGGAGCAGGAACCCATTCACCATTTATTGCTGTATCTTCATTAGCAGGAACTGCCCAATAAGCTGCAAAACCTCTAAAATGATCTATTCTAATAATATCAGAAAGTTTTAAATTAGCCTTAACTCTATTTATCCACCATTCAAAATTATGTTCTTTTATATAATCCCAATTATATAAAGGATTTCCCCATAATTGTCCTGTAGCACTAAAATAATCAGGTGGAACACCAGCTACTTTAACAGGTTTTCTTTCTTCGTCAAATAAAAACAATTCAGGATGTGACCATGCATCTGAACTGTCAAAAGCAACAAATATAGGGATATCACCAATAATTTTTATTCCATTTCTATTTGCATAAGCTTTTAATTCGCTCCATTGTTTAAAGAAAATATATTGTAAAAATTTTCTATAATTAATTTCATCTTTTAATTCATGTGTATAATGTGCTATTGATTCAGGTTTTCTAAAAACAATATCTTTATCGTCCCATTCAACCCAACATTTACCATCAAAATGATCTTTTACAGCTCGATAAAGAGCATAATCTTCTAACCATTGTTTGTTTTCTTCACAAAAAATTTCAAATTTGCTATTTAATAAAGTATCATTTTTAGATTTAAAATTTTCATATGCTTTTTTTAATAATGGCATTTTAAAATTGATAACTTTACCATAATCAATATAATTATTATCAAAGGTTTCTTCAACTGATAAATCATCATTTGTTAATAATCCTTCTTTTTTTAAGTTATCTAAGCTAATTAATAAAGGATTTCCTGCAAATGCTGAAAAACATTGATAAGGTGAGTCTCCATATCCAGTAGGTCCTAATGGGAACGTTTGCCATAATTTTTGACCTGATAAAATTAAAAAATCTACAAATTCATATGCTTCTTTTCCAAGTTCTCCAATACCATATTTACCTGGTAATGAAGTAGGATGAAGCAAGATACCGCTGCTTCTGCTAAATTCCATCTCTCTGTTTCCTCCTTAAAAATTATATAAAATATATAAACTGCATTAATATTTTAGCATATTTTATATAATTTGTCATTAATTTATCTAAGTTTATATAGAAAAAAATTATTAAAAATGATAAAATAATAAAGTAAGATATAGAAGAATAAAAAAAATATAAATAGAAATAATTTTAATTATAAATAATAATATTAGGAGGAATATTTAATGATTATTATAACAGGAGCAGCAGGATTTATAGGGAGTGCAATAGCATGGCAGCTTAATGAAAATGGAAGAGATGATTTGATATTAGTAGATAAATTAAAAACAGAAGAAAAATGGAAAAATATAGCAAAAAGAGACTATTATGATTGGGTAGATAGAGAAGAGTTATTTGAATATTTAGCAAATGAAGAAATAGCTAAAGAAATTGAAGCAGTAATACATATGGGAGCTTGTTCTGCAACTACAGAAAAAGATATGGATTTTTTAATGAAAAATAATTATGAATATTCAAAAAAACTATGGGAGTTTTGTACACGATATAATATAAAATATATTTATGCTTCATCAGCGGCAACTTATGGCTTGGGAGAACAAGGTTATAATGATGAAATTAATTTAGAAGGACATAAAAAACTTAGACCATTAAATAAATATGGATATTCTAAAAAAATATTTGATATATGGGCATTAAAACAAAAAGAAACACCAAAAAATTGGGTTGGTTTTAAATTTTTTAATGTATATGGTCCAAATGAATATCATAAAGGAAGAATGGCATCAATGGTATTTCATTCATATAATCAAGCTAAAGAAAATGGTTATGTAAAACTTTTTAAATCCCATAACAAAAACTTTAAAGATGGTGAGCAATTAAGAGATTTTGTATATATAAAAGATGTAGTTAGTATAATAGAGTATTTTTTAAATAATAATATAGAAAATGGAGTATATAATTTAGGGACTGGAAAAGAAAGAAGTTTTTATGATTTAGCATATAATACATTAGTAAATGCAAATAAAAATCCTAAAATAGAGTTTGTTGATATGCCAATGGATTTGAGAGGAAGATATCAATATTTTACAAAAGCTGAAATCAATAAATTAAGAAAAATAGGATATACTAAAGAGTTTTATACATTAGAAGAAGGAGTAAAAGATTATGTAAGAAACTATCTAGAAAAAGATGATAAATATTTATAAATAGGGGGAATAAAATGAATGTTTTATTAGTTATAATACTTTCTATAGTAGAAGGGATTACAGAGTTTTTACCAATAAGTAGTACAGGACATATGATACTTGTAAATAATTTTTTGAAAATAGGTAATTTAAGAAAAGAATTTATGGATTCTTTTTTAGTTATAATACAGTTAGGTGCTATTTTATCAGTTGTAGTATATTTTTTTAAAGAATTAAATCCATTTGTTAAAGATAAAGATATATTTAAAGAAAAAATGATACTTTGGAGCAAAATAGTAATAGGAGTATTACCAGCAGTAGTTTTAGGGCTTTTGTTTGATGATATGATAGAAGAATATTTTATGGATAGCAGTCTAATAGTAGCATTAATGCTTATATTATATGGAATAATATTTATGTTTATTGAAAAAGTTATAAAAAAATCAAAAATAAATAAATTTGATAATATAAATTATAGTACAGCATTTATAATAGGAATTTTTCAATGTCTCGCAATGATACCAGGAACATCTAGATCTGGTGCAACAATCATGGGAGGATTATTATTAGGCTTAACAAAAGCTGTAGCAGCAGAATTTTCATTTTTTTTAGCGATACCAACTATGGTTGGAGCAACTTTATTAAAAATAGTGAAAAATGGATTAAATTTTACATTAAATGAATGGGGATTATTGTTATTAGGTTCTTTTCTATCATTTATAATAGCATATTTATCAATTAAATGGCTTATGGATTATTTAAAAAATAAAAGTTTTAAAGTTTTTGGAATATATAGAATAATATTAGGGATTATAGTTTTATTATTATTATTATAAAAGGGTGTGATTAAATTGACTATGTTAGAAATTTTGCAAAAAGCAAGAGAAGAAGGAGCATCAGACATTCATATTATAGCAGGAAGAGCTCCAGTGTATAGAATCAAAGGTAAAATTGAAAGTTTTTCTGAAGAAAGACTTATGCCAGATAATGTAAAAGAACTGATTTATTCAATACTTAATGAAGAACAGAGAGCAAAATTTGAAATGGATAAAGAACTTGATTTTTCATTTGGAATAAAAGGAATGGGAAGATATAGAGCTAATATCCATTATCAAAGAGGTACTATAGCAGCAGCACTTCGTTCGATTAATACAGAAATACCTACTATTGAAGAATTAAATTTACCAGAAACACTTAATAAATTTTGCGAGCTAAAAAATGGGATAGTTCTTGTAACAGGTCCTACGGGAAGTGGAAAAAGTACAACATTAGCAGCTATGATAAATAAAATAAATAAAGAGCAAAAATCACATATTATAACAATTGAAGATCCTATAGAATATTTACATAGACATCAAAATTCAATAATAGAACAAAGAGAAGTAGGAACAGATACGGATAGTTTTTCAAGAGCTCTTAAATATGCACTTAGACAAGATCCGGATGTAATTTTAATAGGAGAACTTAGAGATTTAGAAACAATAGAAGCTGCTTTAACAGCAGCAGAAACAGGACATTTAGTATTTGCTACATTACATACAAGAGATGCTGCATCTACAATAGATAGAATTGTGGATGTGTTTTCACATGATCAACAACAACAGATAAGGTTACAACTTTCAAATTCTTTAAAAGGAGTAATTTCTCAACAACTTATTCCTAAAAAAGATAACTCGGGGATGGCGCTTGCTTATGAATTACTTGTGGGAACACCAGCAATCGCAAATCTTATAAGAGAAGCGAAAACACATCAAATATATTCTATGCTTGAAACTGGTAAAAAATATGGGATGAGAACAATGGAGTCAATACTTCGTGATTTAGTATCAAGAAATATAATAGATGAAACAGAAATGATAAAAAGACTTCGAGATGGAAGCTTTTTAAATTCAAAATCAATGAGTAGTGGTGGATGGAATAATTTTTATTAATGGAATAGAGGATAGTGATGTTTAGTATAAAAAGAAATTTTGAAATAAGAGAAGAATCTATAAAAGAATTTGTTAGAATACTAATTCCAGAACTTCTTGATAAAGAGATAGAGTTTAAATTAAAATATATAGCTGATCATATTTTAATTAATACCAAAATAGATAACAAAGAAATAGAATTTAAATATAAAAATTATGAGAATTATATAGAAGACCAAGTAATTGTGATGGCAAAAATATCTTTATTGTTACTTATGGGAAAAAAATACCCATGGGGAGGACTTATTGGAGTACGTCCTACTAAAAAATTTTATACAATGTATGAAATAATTAAAGATGTTGAATTAGTAAAAAAAATATTAAAAGAACTATATTTATTAAGTGAAGAAAAAATAGAACTTTTAGAAACTATATTTTATAAAGAACAAAATTTATTAGATAGAAAGGATAATAATAAAATAAATGTATATATAGGAATTCCTTTTTGTCCTACAAAATGTAAATATTGTTCATTTGCTTCATATGAAATAAAAAGTTCAATAGGTAAAAGTTATAATGAATTTGTGGATTGTTTATTAAAAGAGATAGAAATATGTAGTGAAACTTTATCTAAAAAGAAAATAGAGAGTATATATATAGGCGGAGGAACTCCAACGACTCTTACTGAAGAAGACTTGGAGAAAATATTAATAAAGATTAATGAAAAAATAGATTTTACTTATTTAAAAGAATTTACTGTAGAAGCAGGAAGGATAGATACTTTATCAATAAAAAAATTAGAGATAATGAAAAAATATAGAGTAGATAGAATAAGTATAAATCCACAAACATTTAAAGAAGAAACTCTTATAAAATTGAATAGATATTATAATAAAGATGAATTTAATAAATATTATAAAATAGCTAAAAAACTAGGATTTGTAATAAATATGGATTTTATTTTAGGATTGCCTGGAGAAACAACACAGGATATATTAAATACATTAGAAAATATAAAAAAATATAATATAGAAAATTTAACTATTCATACATTAGCAATTAAAAGAGCCTCACATCTTTATCAAGAAAATTATAAACATATAGAGCTTGATAAAGTAAAAATAGAAAATAAAATAAATGAAGTATTAGAAGAGAAAAAATTAAAACCTTATTATATGTATAGACAAAAAAATACATATAATTGGGGAGAAAATATAGGATATGCAGTAGAAGGAACAGAGTGTCTTTTTAATATGCGTACTATATCAGAAGATCAAGATACATTTGGATTTGGGGGAGGTGCAATAACTAAAAAAATAGAAAAAATAAAAGAAGGAATATATAAAGTAAACAGAATAATTAATCCTAAAGATCCAAATGCTTATATAAAAGAATTTTTGGATAGATTAGAAAAAAAAATAAATTTTTTCAATAAAAAAAGCTTCCTAAATTAAGGAAGCTAGTTTTTTTTTCTATTTTTTTCCATTTCTAAAAAGTGATATAATGCACCTACTTTTCCAGCATCATTTATAAATTTACTTCTAATTATTTTAGGAAGTTTTATTTTTTGTAAGAAAAAATTTTGAGAAGTAATATAATTTAATCGTTTATTAATTTCTTTAAAAAGTTCTTCTCGAGCACTTATAGCACCACTTATTATAATTATTTCAGGATTAAGTACTACGCTTAAATTAAATATCATAATAGTAATATCCTCATAAAATTGTTCTATAATTTCTAAAGCATCTTTATCGCCTTTTTCGGCTAATTCATATACTAATTTACCAGAAACATCTTCTTCTTTTAGTCCTTTTCTTTCAGCATATTCTAAAATTAATCCACCACGTGTACTAGAAGTCATATTATATAATATGTTTTTTCTTTGATTGATTTGCATACCAAATTCGCCAGCACCAAAGCCATATCCTCTGATCAGAGATCCATTACAAAATATTCCACCACCAATTCCAGTACCTATTGTAAAAGAGATAAAATTATTAGAATTAGTGGCATGACCTCGCCATTTTTCAGCAAGAGCTACACAATTTGCATCATTTTCAACTTCTACAGGAATACCAGTTTTTTCTTCTAAAATTTTTTTAAATTCAAAACCATAAAATTCTTTTATAATACCGCCAGTTATAGAATATCCTTTATCTACATCAATAAAACCAGGTAAACTAAATGCTAAACCAGAAATAGTATATTCTTTTTTATATTTATTAATTATTTTAATTAAATCGGTAAGTATTTTATCACCATCTCTATTTGTGGGAATTTTTGATGTTTCTAAAAAATTTGCATTTTCATCTGATAGAGAATATTTAATAAAAGTTCCACCAACATCAAAAGTTAAAAAATATCTCATTATAAATCCTCTCCGTTTGAATTAATAATTTTTTTATACCAATAAAAACTATCTTTTTTATATCTTTTTAATTCTTTTTGACTTTCTTCATCCCTATCAACAAATACAAAACCATAACGCTTTGAATAACCATTTAACCAAGAAAACAAATCTTGAAATGACCATGTACAATAACCTAAAACGTTACATCCGTCGTTTATTGAGTCTTTTATAGCCGTAATATGTTCTTTTAAATATTCAATTCTATAATCGTCATGAACTTTTCCATCTTCTAACGTATCATAAGCACCTAAGCCATTTTCAGTAATAAGAATAGGTAAATTATATCTAGAAGTAATTCTTCTAAGAGCGATTCTAAGTCCATCAGGGTCTATTACCCAATTCCAATCTGTTAATCTAACAAACTCATTTTTAGCAGGGACAAAAAGTTTATCTGTAAGTAATTCTTTTACATCAGATTGAACTGTATTTCCTTTTTGATTATTTATTTCATTTGCAACTTTTCTAGTAATATGTCTATAAGTAGCAGTAGAATAATAATTTACCCCCATAAAGTCAGGAATACCTTTTTTTAATAATTCTTTATCACCATCTTGGAAATTAATTGTTATCCCAATAGATTTTAATAAATTAATAGTAAGAGGCGAATATTCTCCACGAGCATAAACATCTAACCATAAAAAATTATTAATTTCTTGTGCATTTTCCATAGCTAAAACATCTTTTGGGTGAGCAGATTTAGCATAAGTAGGACCATATGCAAATGATGGTCCTATAAGACCATTTGGTACATGTTTTCTAAATTCTTCAATAGCTTTAGCATTTGCTAAATTAGCAATATGATTTACATTGATAAATGTTTGCATGTTACTCTTTTTAGGTGGATGTAATTTTAGTAAATATCCTAGAGAAGTAAAGATATTTTGTTCGTTTAATGATACCCAATATTTTACCTTATTACCATATTCTTTATATAATATTTTGCAATAATTAGTAAAATCTTCTATTATTTTACGGCTTTCCCAACCACCATATTCATCTTGTAATGCTTGTGGTAAATCCCAATGGTATATTGTAAGAATTGGTTCAATATTATTTTCTATTAATTTATCAATAACTTTATGATAAAATTCTATTCCTTTTGGATTAATTTCACCTTTTCCTTTAGGTAGGATTCTAGGCCAAGAAACAGAAAATCTATAAGCTTTTAGTCCCATTTCTTTCATTAAACTAATATCTTCTTCATATTTATGATAAAAATCTATGGCAACTTCACCAGTTGTATTTTTAAATGTATTACCAGGAATATTTGAATAAATATCCCAAATAGATGGACCTTTTCCATCAATGTTAGCAGCACCTTCTATTTGATAGGCTGCTGAAGCACTACCCCATAAAAAATTTTTTTGGAAATTCATATATGTACCTCCTATTTAAATTAATATTTAAAAAAAGGGAAATATTATCCCCTTTTTTTTAATTATTCTTTTACAGCTCCTATAGTTAATCCGTTTATTATATATTTTGAAAGTACTGAAAATGCAATTAATATAGGTACTACTGATATAGCGATTGCTAAATACATTGCTCCATAATTTGTACGATAAGCACTACCTCTAACTATTGATATAAGAACAGGTAATGGATATTTCTCTCTAGTAAATAATAAAACTAATGGTGAAATATAATTATTCCATGCTCCGACAAAGTTAAATATACTCATTGTAGCTATTGCAGGCATCATAATAGGCAATGAAATTTTGTTAAATATCATAAATTCGCCAGCACCATCAATTCTAGCAGCTTCTACAAGTGATTTAGGTAATGATTGCTCTACATATTGTTTTAAGAAAAATATAGTCATTGTATTAGTAAGAGCTGGAATTATTAAAGGGAAATATGTATCTAATAAGCCTAATTTATTATTAAGTTCAAAATAACCAATAAGTCCTAATTGCTGTGGTATCATCATAGTAGCGAGTATAAATCCAAATAAAAAGTTTTTGTATTTGAAGTTATAAACTGCAAAGCCATATGCAGTAAGAGACCCAAAGTAAGCACTAAGTATAGTAAATGGTACTGCAATAGTTAAACTATTTTTAAAACCTCTCCAAATATCTATTTTATCCAATAAAATATTATAGTTTTTTACAAGGGCTTTACCAGGTAGTAAGCTAAGACCTCTAGTAATTTCAACATTTGATCTTGTAGAGTTTACTATCATTATATAAAAAGGAATAAATGATAAAACAGTTAAAAATACTAATACTCCATAAACATATATTTTTGTTCGTAATTCTTTATTTTTTTTCATAATTAAACCACCTTTTATTTATTTATCGTTTTTCATATATTTAAATATAATAAACGAAAGAACGCTAATTATTGCAAATATACCATAAGCAACAGCCGATGCATAACCGAAGTTTTCATATCTAAATGCTTGATTATATAAGAAAATAATCATAGTCATCAATGAATTTTGTGGAGCACCTATACCATCTGTAAGTACAGCGGGAACATCAAATAATTGCATACCACCAATTAATGATGTAACAGATACATAAAGCATAGTCGGTTTAAGTAATGGTAATGTTATTTTGAAAAATATTTGCATTTTTGTAGCACCATCAACTCTGGCAGCTTCATAATATGTTTCAGGAATAGCAGACATACCAGCAAGTAAAATAATTGTAGTTTGACCAAACCACATCCACCATTGTATAAGTGATACGGTATTTTGTGCATAACTAGGAATATTTAAAAAATTAATAGGATCTTTTATAAAATGTAAAGCTATTAAGATTTGATTTATAGGTCCATGTTGCCAATCTAATAAAACATTAAATAATAAAGCTATTGAAGCAGCAGTAACTAAATTTGGAAAATAAAATACTGCTTTAAAAAAACCTTCACCTTTTACTTTATTTAATGTAAATAATCCAGCAAGAAATAAGGCTACACCAATTTGAGGAATAATATTCCAGAACCAAATTTTACAAGTATTGTAGAGAGAAGTCCAGAAAAAAGGATCTGTAATTAACCTTTTATAATGTGCGAGTCCTGCAAATTCCATATCACTTAATCCATCATAATAGTTAAAACTTAAGAAAAAAGTATATAGTATAGGAAAAAGTGAGAATATTAAAAAAGTGATAAAAAATGGTAGAATAAATAGATAACCATAATTTTCTTTGTTTTTAAAAAATCCTTTCATAATTGTTACCTTCCTTTTTATAAAATTTAGAAAATATATATCAAATAAATGATTTAATTAATATATATTTTCTAAGTAGGAGCTTTTGCTCCTACTTAGTATTAAGGTTTTTAAATTTATTTTACTATTAATCTAGGGAATGCATTTTTAACTTGTTTTTTAAAGTCAGCTATTGCTTCATCTTTAGTCATATCACCATTTACATAATTTAATACAGCATTTCCAAATAAGCTATTTAAATCTAAGTCATAAGAAGTTTCTAATCCACCTTTTATAAATTTAGCTTCTCTTAAGAAAAATTCATAATGATTTTGTCCAGCTAAGAATGGATCACCAGCTTCAGCAGCTAATTTTTCATCAACTTTTGTATTAGACATAAAATCTCCAACTTTTTTAGCATATTGATATTGATAATCTTCATCTATACAAAGCATTTTTATAAATTCCCAAGCTTCTTTTTTAACTTTAGATTTTTTATAAATTCCTAACCAAGTTCCTCCCCAATAATATGGTGCAGGACCTCTAACAATAGCCCAATCTCCAGCAGTATCTCCAGCATTAGGTTTTATTACATAGTGTAATCCCCAAGTAGGTAATACATATCCAAATATTTCTCCATTACTAAATCCAGCAAACCAAGCAGGAGTCCATTGAGAAGTTTTAGCAGTTATATTTTTATCTCTTAATGCTTTTGCAGTATCCATGTATTTTATTAATGCAGGATCAATAACTAATTCTTTATTAGAATTTACCCAACCTTGAGTTCTTCTTCCTTTGGCTATGTTTTCATATTCTCCATATCCAGCAAGTAATTTTACTTTTCCATTAGAAGCATCTCTTAATTTTTCTCCAAAAGCAATAAATTTTTCTGGAGTAGAAATCATTTCTTCTATTTTAGCAGGATCATCTGTACCAAAATATTGTTTAGCTAAAGCTCTTCTATAGAAAAATCCACCAGGTGTTGCTTGCCATGATACTGCTCTTATATGACCTTTATTATCTGAACCAAGTTTTGCAACATATTCAGGAGTTTGATTTTCATATTGAATAATATCTTTTTTAAATTTTTTACTTAAATCTTCCCACATTCCAAGTTCTACCCATTTTCTTACGTAAGCAGCTTCACCAAGAAATATATCAGGTGCACCTTTACCAGTTCTTAAAACAGGTCTTAATTTTGTAGGGTATTCTTCATTTGGTATAATAGTAAATTCTACTTTAATATCAGGATGAGCAGCTTCAAAGTCTTTTGCATAAGTTTTTAATTCATCACTAAAAGCCCAAACTTTAATAACTTTTTGTTTTGCGAATGCTGAAACAAATGTAAATAATAATAATAAACCAACAATTCCAACTCTAAATATTTTTTTCATATTTTCCTCCTTAGATATATAATTCTATATATAATAAACGCATGAAAATGCGTTTATAAACAAAAGCTTTTTTAAACATATATAAACACGTGTTTATATATGTTTAAAAAAGTATTACAGAAATTAATCTGTAATACTTTTTACTGTATTACGTTTAATTAATTTTACTTTAACTTTTTTATCAATTGCAAATTTTTTTTCATCTTTTTCTAAAAAATTTATTAAATTCGTAATGGACTGATTTACTAATTGTTCTATAGACCTTGAAATTGTAGTAAGTCCGCCTGCTAAAAAATGTGTAAAATTACTATTGTCAAATCCAATTATAGAGATGTCTTCAGGAATTCTAAACCCTTTATTTTCTAAAAATTCAATAACTTTTATAGCCATAAAATCATTTGCAACAAATATTGCGGTAGGCATATCATTTTTGTTTTGTTCGTAAAGTTCTTCTATAGCTAAATAACCAGATTCCATAGTAAAATCACCATATGCGATGTATTTATTTTTTAATTTAATATTGTTATCTTCTAAAGCTTTTTTATACCCTCTTAAACGTTCTAAAGCATCAAATTTTTCAAGTTCTCCTGTAATATGAGCTATTTTTTTGTGACCATTTTTAATAAGTTCTTCAGTAGCCATATATCCACCTTCAAAATTTTCAGAAAGTAAATGAAGAACATTTTCATATTTTTTTTCTAAAGGTTCATCAATTAAAACTATTTTATGTCCAAGATTAATAATTTTTTCTAATTCATCTTTTTTAGCGCCACCACCTACAAATATAGCTCCACTAATCATTTTAGAATTAATTAAAGTTCTTATTTTTTCATATTTTTCTCTTTGAGTAACAACAGAGACTAAAATATGATAGTCTTGATCATCTGCTATATCGGTAGCATAACTAATAAACTCTGATAGATAGGGTGAATCATGTATAACATATCTATCTTTTTTTAAATAGTGATCAACTATGAATAAACCAATAACCTTGTTTTTTTTTCCTGCAAGACTCCTACCAGCCGCATCAGGAGTATATCCATATTTATCAATAATTGCTTGTACTTTTTTTCTTGTTTCTTCTGTAACATTGGAATAATTATTTATAACTCTTGAAACAGTACTTCTAGATACACCTGCTAGTTTTGCAATTTTTTTACTGTTCATAAACACCACCTCATAAACACGCGTTCAATAAGTATAATACTATATAATTTACAAAAAGTCAATAGATATTTTAAAGTGAAATAAAAAGAAAAAATTAATTTAAGAATTTATTAATTTTTTTATGACGAGTTTAGCATATTTATCATTATTTTTTCTTGTTTCTTTAATAAATAAAAATTATTGAATTTAAGATTATTATTTAAATTTTTTCAGTTTTTCAAAAAAACTTTTTGTTATAAATAATATGTTTATGCTTATCTATTGAAATATTTTTCTGTGTTTATAATATCGTTTCTATTCTTTTATTAAATTTATTTAAAGCTTGCTGAAGAGATTTTTTTCAGCAAGCTTTTTATTATTTGTATTTTTATCTAATAAATATTTTTATAAATTTTCTTTAACTTTTTTAATTATTCCTTCTTTTGTTAATCCATATTTTTCTAATAGTTCGGCTCCCTTTCCACTTTGACCAAATC
>sequence10
ATTTTCCCTATTTCAAAATAATCTACTCCTACTTTTACACATGTTTCATATACTTTCTTTACAAATTCATCACTAAAATGATAGTTATTTATTAACCCCCCATCTCTTATTGTACAATCAAGTACTTTTACATCATCTCTTACTGTAAGCCAGCTACCTTTCTTATGAATATTTACAATTTTTTCTTTTGTCATAAAACTTCCTCCTAAATTCTACTATTCTACCGTACTACAAATACTATTATACTCTATTCGTATAAATTTTAAAAATTATTTTTTTGAATATTTTTGTATCAATATATTAAGATAATTTTTATAAAAAATCAAGTATTATTTTTTTTACTCTTATTTTACATTTTTAAAATATAATTTTTACGTTCTTATGATATTATTTATTATCAATAAAAATTATTAATAAAAAATTTATTTCGAGGTGAAAAATGAAAAAAAGAAAATTTTTTTTTATACAATATGTAAAAAAAATATATAATTTATTTAGAAAATTTAAATTAAATAATATCAATTTTTCTAAAGATAGCATTAAAACTAAAATAACTATTAGTATCATCCCTATAATTCTTTTAATACTTTTAATTATTAATATTTATAGTTTAAATGCTGTTGAAAATAGTATGTACGAAAAAGCTATTACTAAAACAGAACTAAGTTCAAATAATTTAAGAGAATTATTAAATACTAAAATAAATACAATTAAAAATATTTCTATTCTTCTTCAAAATATAGATAAAAAAAATTTACTTTTAAAATTAGATGCATTGTCAAAACACGATAAAAAAATAGACTATTTCTTTATTGCTGATAAAACTGGTATCGCTTTGTCTACTAAATCAAAAAAATATAATTTTTCAAAAGAAAAATTTTTTTTAGAAGTAATAAAGGGGCAAATGTTTTCTTATGATACTTATAATGATGATGATAATAAAACTCTTATTCTTACATCACCTTATTTTTACCAAAATAAATTAGAAGGTGTTATTGGAATAGCTTTAAATATAAAAAAATTAAATAATATTGTTAATTCTATTATCTTAAGTAATGATGGTTATAATTATATAATCGATCAATATGGTAAAATTTTAATTCACCCAAACAATGATATGATTGGAGTAAATTTAAGAAAAGTTTCTAATAATAGAAATTATAATATAACTCAAAATATTGTTGATGCAATTAATAAGATAATAGATCGAAAAAAATATGTAAAATACAAATTTAATAATGTTTCTAAATATGCTTTTGGAAATAAAATAGAAAATTATGATACTATTCAAGCATCAGATTATAGTTTTTATTTCATCTCTACTATTCCAAGTAGTAGCTTTTATAATAAACTAAATAATTTACGTATAAATATAATTTTATTTACATTATTTTTATCTTTAATTTTATCCAGTATAATATATTTGATAATAAATAAAGTTTCTAATAATATAATAAATGTAAAAAATATGATGAAAGAAATTTCTTTAGGAAATGGCGACCTTAGTAAACGATTAATTATTACTTCAAAAGATGAAATAGGAGAACTAGCAAAATATTTTAATATTTTTATTGAAAAAATAGAAAACATAGTTATTTCTACAAAACAAGAAAGTAAAAAAGTTCATAAAATATCTAAACATTTAAAAGAAGATATGTTTCTTTTATTATCAGAAAATATAGAACATAAAAGTAATAGTTTAAAGTATAAAATGAAAAATATTATAAATAATATAGAAAATCAATCTATATCCGTAAAAAATATACATGGAGAAATTACAAACATTTCAAATATTATTACAGATATAACTAATCAATCCAATTCAAGTCTAAAAATATCTTCTGAAGCTGCTAATAGTGCAACTAAAGGAAGTAAAATATTAACTGAAAGTTTAAATAATATACAAGAAATAGAATTAATTGTAAATGACATGGAAAAAGAGATTTTTTCTCTTAGCAACGAATCTAAAGAAATAGCAAAAATAACAGTACTAATATCACATATATCAGAACAAACAAATTTACTTGCATTAAATGCAGCAATAGAAGCAGCGAGAGCAGGAGAAGCAGGAAAAGGGTTTGCAGTAGTTGCTAATGAAATAAAAAAATTAGCTGCTCTTTCAAAAGAATCTACAAACAATGTTGATTTTTTAATTAAAAATATACAATCAAAAATAGATAATACCGTCAAAATAGCAAAAGAAGGACATATTAAAATAGAAAATAGTAGTAAAACATCGAAAAAATCAGAAAAAATATTAAATGAAATTATTGAAAAAATAAATTTAACTAATAATTCAGTACAAATAATCCACAATAAAACTTATGAACAAAATCTTGCTATAAGTAAAATAATTGAACTTATCAATACTATTAGTAATAATAGTATTGATATAGAAAAAATTTCTAAAGAAGAATTAAAAATTATGGAAACAGTTATCAAAAAAAATATTCATTCTTCTAAAAAATTACTTCACGCTTCTGATAAATTAAAAAAGAATGTTGCTCAATTTAAAATAACTAAATCAAACCAAATAAAAATTGATTCTTTAAAAGAAAACTTTATTCCTGATATTATATATAATAAAGTAACAAAACTCTAAAAGCTGCCAAACTTTGACAGCTTTTAAGTTATTTTCCCCAGTTTTCTGGATCTATATTCCATGTTTTTGCTATATTTAATTCTTCTTCTGTTATAAATTTATCCTCTTTTGCTACTTCTAAAAGAGTTGAAAAATTAGTTATTGTTTCAAAATTTGTATTTATTCTTTTAAAATTATCAAATGCTTTTTTAAATTCATATGAAAATATAGCTGCTACTTCTACTTCACTTGCACCTTCACCTTTACAGGCTTCTACAGCTGTTATACAACTTCCTCCTGTTGAAATAAGATCTTCTATTACTATTACTTTTTTACCTTTGACTTCTGCCCCCTCTATCTGTTTTCCTGCACCATGAGCTTTTTTCTTACTTCTGATATATGCCATAGGTTTATTTATTCTATCTGCTATAAATGAGGCCCAAGGAATTCCTGCTGTTGCAGTCCCCGCTATCACATCATACTCTTTATCTTTTAATAAATCTATAAATGTATTTACTATTTCTCCTCTTTCTTTTGGAAAAGCTATCATTTTTCTATTATCACAGTATATAGGACTTTTTATTCCTGATACAAATATAAATGGTTCTTTTACATTAAGTCTTACCGCTTCTTTTTCTAATAAATGTCTTGCTATATTTTTATTCATTAATATCTACTTCCCTTCCTCTGTTATCATAAAATTCATCATTTTCAAAGATTTTTCTTCCATTTACTATAGTAGTAATTACTTTCCCATATACATCCCATCCATTAAATGATGTATAACCACATTTTGATACTATATTTTCATTCTTTAGTGTATATTTATTTTTTATATCTACTATTATTATATCTGCAAAATATCCTTCTTCTAATCTCCCTCTACATTTTATATCAAATATTTTTGCTGGGTTTTCAGAATACATTTTTATTATTTTTTCAAGTGAAATTTTATTGTTTTTATATGCTGTAATTAAAAGAGCTAATGATGTTTCTACTCCAGGAATTCCAAAAGTAATTTTTTCTTCTTTTTCTTTTAATAAATGCGGTGCATGGTCTGTTCCTATTGTATCAATTACCCCTTCTTCTATTGCTTCCCATAATGCTTTTACATCTTCATCTGTTTTTAATTCAGGTTTCATTATATTTATATAAGTTTTATTCTTTTTTGTTAAAAATAAGTGATGTGGAGTTACTTCACAATAAATATTTTTATATTCTTTTTTATATTTTTTTATGATTTTCAGCTCTTCTTTAGTAGAAATATGACATAAATATAATGGTTTATCATGTTTTATTGCAAGCTTAATAGCCTTTTCCACCATTTCACCTTCTGCATGTACTGATATCTTTTTACTTGTTTTAAATATATTATCAAGAATTTCATCATCTTCTATAAGCATTTTTCCTGTTGATACATTCATAAATATTTTAGTGGAACATATATTTTTAGCTTTTTTTATTTCATTTGAATTATCATTATAACTGCCACCAAAATGAAATCCATAATTTACTATTGATTTTTTTGCAAGTTCTCTTTTTAAATAAAGGCTCTCAATATCAATTGTAGCTGGATTTGTATTTGGCATATCAATAAATGTAGTTATTCCTCCCTTTGCACATGCTTTACTTCCTGTTAAAAAATCTTCTTTCTGCGTAAATCCTGGTTCTCTCATATGAGTATGTACATCTATCATTCCTGGTAAAGTATAATTTCCTTTTGCATCTATTATTTTTGTGTTTTCCCCATATATATTCTCATCAATTTTAATTATTTTTTCATTATTAATAAGAATATCCATTAGATTATTATATCCTATTAATTTTGCATTTTTTATTAGAAGCATTTTTCAACCCCTTTTATTTTTAATTGAAATTATAATTAATTTATCTAAATCCATTTTCATAGTATTTTAATTATTGCTCTACTTCTTAGCATATAAAAAATTCTTATTTAAATTATAGCTTGTTTTATTTCATCAAGTACAAGCTTTGCAGCTTCTTTAGGATTGTCAGATTTTGTTATAGGTCTACCTACTACTATATAATCACAATTATTTTTTATTGCCTCATATGGTGTCATTACTCTTTTTTGATCATTTTTAGCTGCCCACTTTGGTCTTACTCCTGGACATATTGTTTTAAAATTTTTTCCATATTTTTCTTTAACTGATTTTGCTTCAAGCGGCGAACAAACTATTCCATTTAATCCACTTTTATAGGCTAAATCTGCTAATTGACTTACTATTTCTTTAGTAGTTTTAGTAGTTGAAAACATCTCATTAAGGTTACTATCTGTAAGACTTGTAAGTACTGTCACAGCTATAGCTAGTTGACTTTTATTTTTTGTAAGTTCTGCTACTTTTTTCATTGTTTCACTGCCAACACTAGCATGAATATTAAACATAAATACATCTTTTTCTATTGCAAATTTACTTGCAGCAAAAGTAGTATTTGGAATATCATGAAATTTTAAATCTAAAAAAACTTTTTTCTCTAAACTATGTATATAATCTACTGCCTTTCCATAAGAATTTAAAAATAATTCAAGTCCTACTTTAAATATTTCCACTTCATCTTTTAATTCATCTATTGTTTTTTTAGCCGATTCTAAATTATCATAATCAAGTGCTACAATTAATTTTTCTTTATAATTCACTATCTTCCCCCTATTTTATTTTTCTTTATAATTTTGCTATTTATGCAATATTCCTACTATATCAGATATATTCTTTAGTTTTTCTTCTTTACAATATTTATTAAGCCCTTCAATAACTTCTACTGGTAATAATGGATTTGTAAAAATACTAGTTCCCAACGATACAGCAGAAGCTCCTGCCATCATAAATTCTATTGCATCTTTGGTAGAACTAATTCCACCCATTCCTAATATTGGGATATTTACAGCTTTATATACTTGATATACTATTCTAAGAGCTACTGGTTTTACTGCAGGCCCTGAAAAGCCGCCAAATATATTTCCAAGTACAGGTTTTTTCTTCTCTATGTCTATTGCCATTCCAAGTAATGTATTTATTATAGCTATTGCATCAGCACCATTATCTTCTACAAGTTTTGCAATATAAGATATATCTGTTACATTTGGAGATAATTTTACTATTAGCGGTTTTTTAGTTACCTCTCTTACTTTTCTAGTTACTTCGGCAGCAATTTTAGGATTTGCACCAAATGCCATTCCACCGTCTTTTACATTTGGACAAGAAATATTTAATTCTATACCAGCAATCCTATCTATCTTATCTATTTTTTCAGTAAGTTCTACATATTCTTCTATTGTTTTCCCATTTAAATTTACTATTAAATTAGTAGAAATATCTTCTTCCAATTCTTTCATTGTTATATTTTTAAAATGTTCAAATCCCGGATTTTCAAGACCAATCGAATTTAACATACCAGATGGGGTTTCAGCTATTCTAGTTCCTGGATTCCCTTTTCGAGGCTCTAAAGTAAGTCCTTTTAAAACTATTGCTCCTAATACATTTGGATCAAAATAATCACTATATTCTTTTCCCCATCCAAATGTACCTGAAGCAGTCATTATAGGATTTTTCATGTCTATCCCACAAAAATTTGTCTTTAATTTATTCATTATTTTATCACCTCTTTACTATTAAATACAGGCCCATCTTTACATACTTTTTTCATTCCTTTTGTTGTTTCTATAGAACACCCCATACATGCTCCTGTTCCACATCCCATTCTTTCTTCTAATGACACTTCACAATAAATATTATTTTTATGAGCTACTTCCGCTACTTTTTCCATCATTATATGTGGCCCACAAGTAAATATCATATTAATATTTTCTTTTTCTAAAATCTCTTTTAATTTTTCTACTGTATTTTTCTTTTCACCTATACTTCCATCATCACTTACTACTATTGTATTTTTAAAATTAATATTTTTTAATATTTCAAAAGCATATTTATCTCTTCCGCCAGCTATAAAAACAACTTTATTTTCTTTATTTACCTGTTTTATTAGCTCTTTTAATGGTGCTATTCCCATTCCACCACCTATTATAGCTATTTTTTTATCTTTTATATTTATAGAAAATCCTTCCCCCAATGGTCCCTGTATATTTATTATATCTCCAGCTTTAAGAGTAGACAATTCTTTAGTTCCTTTCCCTACTGTTTCATAATAAAATTCTAAAACTCCATTTTCTTTATCAATATTATGAATACTAATAGGTCTTCTAAGTATAAGTGCATTATCTAAAGGTTTTATCATACAAAATTGCCCAGCTTTAATCTCTTTTATTATTTTTTCACTTTTTACTTTTAATAAATAGTATCTACTTCCTAAACAAATATTTTCAATTATTTTTACATCTTCTAAAAAAGCTGCCATTATTCCCCCTTATTTTATTGATAATTTTTCTATTTCTTTTTCTCTTTCACAGTAATTACATCTTGCTGTATTCTCTTTTTCATCTATATAAAATTTTGATTTTACATTTTCATTATTAGTTATACATTTTGGATTTGTACACACTAATATATCTTCTATTGTTTTTGGTAAACTTGGTATTAATTTTTCTTTTACTTTAAAATTCTCTATAATATTCACTGTAATATTATGTGCAATAAGTGTTATTTTTTCTATTTCTTTTTCAGTTAAATATTTATTAGCTATTTTTATAAGTCCCTTTTTTTTTAAAGATTTACTTGGTAGATTAAATGCTAATGTTATAGTATCGTCATATTCTGACAAACTTAATATTTCCATTATTTTTAATGTTTTTTCTGATGGAATATGATCTATTACCGTTCCATTTTCTATAGCTGTTATTTGTAATTCCATTTTAATCCCCCAATTTATCCAATTTATTTAATGATAATGCAAGTAGTGCTTGCCTTACTGGTACTCCATTTTTTGCTTGTTCAAAATATTTCGCATAAATTGTATTATCAAGATCTATATCAATTTCATCTACTCTAGGAAGAGGATGTAATATTCTTAGATTTTTATTATTTGCCTTTTCTATAATTTCTTTATTTATTATATATATTCCTTTTACTTTTTGATATTCTTCATCATCAGGAAATCTCTCTCTTTGAATTCTTGTCATATAAAAAAAGTCAATTTTAGATAAAATTTCATTATAGTTATTCATTGATTCATATTTTATATTTAATTTTTCCAACTCTTTTAAAATATATTTTGGCATTTGAAGATTATCAGGAGCTACAAAATAAAATGTAGTATTAAAATGTGAAAGAGCTCTAGCTAATGAATGTACTGTTCTTCCGTATTTCAAATCTCCTACAAATGCTATTTTTATATTATCTAAATTCCCACGTTCTTTTTTTATTGTGTATAAATCAAGTAATGTTTGAGTTGGGTGTTGATTTGCTCCATCACCAGCATTTATTATAGGTATTTTTGAAATTTCACTTGCTAGTTTTGCAGATCCATCATTTGGATGCCTAATTATTATAATATCTGAATATGCTTCAGCCATTCTTATTGTATCTGCTAATGATTCGCCTTTAGATTTTGACGTTCCTGCAGGTGAATCAAATCCTAATACTTGTGCTCCAAGCCTTTGAGCTGCTGACCAAAATGATAATCTCGTACGAGTTGATGGTTCAAAAAAAAGAGTTGATACTATATATCCTTTTAAAAGTTCATTATTTGGATTATTTTCTATATATTCTGCTGTATCTAAAATATGCTCTATCTCTTCTTTTGTTAAATCATTAAGTGATATTATATCTTTCCTTGATTTATACATTTTACCCCCTATATTCTCTATATTTTTATTTAGTAATAATTATTTGAAATACTATATTTCATTTATATCAAATACCTCTTGAACATTTTTATGTATTTTATTTTCTAATATGTTTATTACTGCATTTAATGTATCCAATGATGTAATTATCTCTATTCCATATTCAATTGCTGTTCTTCTTATTTTAAATCCATCACTTTGTACATTATTTGCTTTTGTTGGAGTATTTATTACTAAATCTATCTCTCTATTTTTTAATTTATCTAAAATATTTGGATATCCCTCAGTAATTTTATTTATTATTTCACTTTCTATTCCATTTTCTTTTAAAAAATTGTGAGTTCCTTCTGTTGCTATTAAATTAAATTTTAATTTTATAAGTCTTTTTGCTATATCTATTAATTCTTGTTTGTCGCTATCTTTTACTGTTACAAGTACATTTTTTCCAATTTTAGTATAATCTTTATTAGACGCTATAAGTCCTTTATATATTGCCTCTTCTACTGTTTTTGCCACTCCAAGTACTTCTCCTGTAGATTTCATCTCAGGTCCTAAACTTACCTCTACATTTGATAACTTCTCTGTAGAAAATACTGGTACTTTTACTGCTACTAAATCTGCTCTTTTGTATATTCCAGTGCCATAAGGTAACTCTTTTAATTTTTTACCAAATATACAATTTGTCGCAATCTCTATCATTGGTACACCTGTTATTTTACTTATATATGGTACTGTTCTACTTGAACGAGGATTAACTTCTATTATATATAATTCTCCTTTAAACTCTATAAATTGTATATTTATCATTCCAATTACGTTTAACTCTTTTGCTATTTTTTTTGTATAATCAAGTATTTTTTCTTCTATTTCTTTTGATATATCTTGGGTTGGATATATTGTTATACTATCACCAGAATGTATCCCTGCTCTTTCTAAATGTTGCATTATTCCTGGAATAAGAATCTCTTCACCATCACATATTGCATCTACTTCAAGCTCAATTCCATTTAAATACTTATCTATTAATATTGGATTTTCAGGATCTCTATCAAATGAATTTTCTAAATATTTTATTAAGTTTACTTTATCATAGCATATTTCCATACCTTGTCCACCAAGTACATATGATGGTCTTACAAGTACTGGATATTCTAATATTTTAGCTGTTTTAATTCCATCTTTTACAGACCATATAGCTTTTCCTTTTGGTCTATTTATACTAAGCCTTTCCATCAAATCTTCAAATCTTTCTCTATCTTCTGCTTCATCTATTTTGTCATAAGAGGTTCCTAATATTTTAATTCCTTTTTCATCTAATATTTTAGCAAGTTTTATTGCTGTTTGCCCACCAAATTGTAATATTACACCAATAGGTTTTTCTTTTTCTATTATATTTAAGACATCCTCTGATACAAGTGGTTCAAAATAAAGTTTATCTGCTATACTAAAATCTGTACTTACAGTTTCAGGATTATTATTTATTATAATTGTTTCATAACCTAATTTTTGTAATGCTTTTATTGAATGTACAGTACAATAATCAAATTCTATTCCTTGTCCTATTCTTATAGGTCCACTTCCTATTACTGCCACACTTTTCTTATCTGTGATTTCTACTTCATCAAATTCATCATAAGTAGAATAATAATACGGTGATATTGCTTCAAATTCTGCCGCACAAGTATCAACCATTTTATAAGTAGGTTTTATTTTATATTCTATTCTTTTATTATATATGTCAAGTTCATCTATTCCCATTAATTCAGCTATACCTTTATCAGAAAATCCTTTTCTTTTTAAATCTTTTAATAACTCAGGAGTTAGATTTTCTAAATTTAATGCTTTTAAATGCTCTTCAAGCTTTACTATCCATTCAAATTTTTCTATAAAAAAAATATCTATTCCTGTAAGTTTTGCTAAATTTCTTTTAAAATATCCTCTTCTTAAAAGCTCTACAAGGTCAAATATTCTTTCATCATCCGGTTTTTGTATTCTTTTTTTCAACTCTTCTATACTTCTTTTAGATGCTAATTTATGTACTAAATTATGTTGTCCTATTTCCAATGAACGTATTCCTTTTAAAAATGCACTTTCAAAATTACTTGAAATTGCCATTATTTCTCCAGTTGCCATCATTTTAGTTCCAAGTATTTTATTTGCTTCTTTAAATTTATCAAATGGCCATTTTGGAATTTTTACTACTACATAGTCAAGTGCTGGTTCAAAACACGCATATGTTTTTCCTGTTACATCATTTTTTATTTCATCTAATGTATAACCGAGGGCTAATTTTGCTCCAACTTTTGCTATAGGATATCCAGTTGCCTTAGATGCTAATGCTGATGATCTACTAACCCTAGGATTAATCTCTATTATTGCATATTCAAATGAATCTGGATTTAATGCAAATTGAACATTACACCCTCCAATTACTCCTATTTCATTTATTATTTTTATAGCCGAAGTTCTAAGCATTTGATATTCTTTATCACTAAGTGTTTGAGAAGGTGCTACTACTATACTATCTCCTGTATGTATTCCAACTGGATCAATATTTTCCATATTGCATACTGTTATACAGTTCCCATTTCCATCTCTCATCACTTCATATTCTATCTCTTTCCATCCCAAAATTGACTTTTCTACAAGTACTTGACCTACTCTACTTAACTTTAATCCTTTTAACAAAATATTTTTTAATTCTTCTGGATTATCTGCTATTCCTCCACCACTTCCTCCAAGTGTATATGCTGGTCTTACAACTACAGGATATCCTATCTCTGCTGCGAATTTTTCCCCTTCTTCAAGCGATTCTACTATTTTACTTTGTATTATTGGTTCTCCAATTTTTTCCATAGCTTGTTTAAATAGATCTCTATCTTCTCCTCTTTTAATTGATTTGATAGAAGTTCCTATTACTTTTACATTATACTTATCTAAAATTCCTTTATCATAAAGTTCTACTGCTATATTTAATCCAGTTTGTCCGCCCATACCAGCTAAAATACTATCTGGTCTCTCTTTCTCGATAATTTTTTCTATAAACTCTACTGTTATTGGCTCTATATATACTTTATCTGCTGTTGTTTTATCTGTCATTATTGTAGCTGGATTACTATTTACAAGTATTACTTCTATTCCTTCTTCTTTTAAAGCATTACATGCTTGCGTTCCTGAATAATCAAATTCTGCTGCTTGTCCAATTACTATTGGTCCAGAACCTATTACAAGTGTTTTTTTTATAGATTTATTTAACAATTTTTATTCCCCCTCTATATTACTTTTGATTTAATAATTTTTAATAAATTTTTCTTTAATCTAACATTTTTAAAAAATCATCGAAAATATAAGCTGTTTCTTCAGGCCCTGGTGCTGCTTCTGGGTGAAATTGTACACTTCTAATATTTAAATTCTCTATTTTCATTCCTTCTACACTATTATCATTTAAATTTATATGCGTAAGTGTAGCTCCTTTGGGAAGTTTATCTACTACATATCCATGATTTTGTGAGGTTATATAAATTTTATTTTTCTCCAAATCCCTTACAGGATGATTTCCGCCTCTATGCCCAAATTTTAATTTTACTGTATTTCCTCCAAGTGCAAGTGATAATAATTGATGTCCAAGGCATATTCCCCAAATTGGTTTTTTACCTGCTAATTTTTTTATGTTTTCTATTATTTCTGGAATATCTTTTGGATCTCCTGGTCCATTTGATAAAAATATAGCTTCTATATCACTATTTAATATCTCTTCTGATTTAGTATATGCAGGAAATACCGTTATATCGCACTCTCTTTTTTTAAATGATTCTATTATATTTTCTTTTATCCCAAAATCTAATATTCCTACTTTTTTACCTATTCCTGAAATTCTATATTTTTCTTTACACGTAACATTTTTTACAGCTTCTTCATTAGTAAAATTATCAAATTTTTCTTTTAATTCTTTTTGAGTAAGTTCTTTTGTTGTAATTATTGCTTTCATAGTTCCTTTATCTCTTATAAGTTTTGTAAGATACCTTGTATCTAGTCCTTTAATTCCCATTATCTTATTTTGTTTTAAAAAAGCTCCTATACTTAATTCACATCTAAAATTATTTGGTAATTTTGCTTCTTCTTTAATAACAAACCCTTTTACTTTTATTCCTTTTGATTGCATATCTTCAAGATTTATCCCATAATTACCTATTAATGGATAAGTTGTAATAACTATTTGTCCATAATATGATGGATCTGTTAAAAGTTCTTGATATCCTGTCATAGATGTATTAAATACTAATTCACCTACTGTTTCTGAAATATAACCAAATGCCTTCCCTTGAAATACTTCTCCTGTTTCAAGAATTAATTTTGCTTTCATTTTTTCCCCCTTACATAAAAAAAGAGCAGTAACTACTAAAATTAATTAGTAGATACTACTCCTATATTTATATTTAAATTATTTAATAACAAAAACTTTATCAAAAACAATATATTAATATCAAAAATATATTGTTTTAAAAAATTAAATTTTTTAAAAACTTTATATTTCATAAATTTCTTTTTAAAAAAACTTTTTTTTATTTTCAGTGGTAATATATTAATTTTATTTTTAAATTTTATAAATTTTTTCATAAATACCACCTCCATACTTGAACTCAAATTGTAGATAGTATAGCAGAAAAATATTTTTTTGTAAAGTTTTTTATGCAATTAATTATACAACATTCCCTAAAAATATTTTTATCATATTATTTATCTTTAATAAATAAAATAATAATGTTATAATTTATTATATTTATTTAAAGAGGTGAATTATGAAAAAACTAACTATTTTATTTTTATTTTTAATAATTTCTATTTTGACTTTTACAAATAAACTAGATGATTATAAAGTATTTTCTACAAATAATTTTGAAATTTTTTATCCTAAGGATTATGAATACAAAGCTATAAAAGTTGCTTATTTTTTAGAGAAATATAGAAATAACACAATAAATTTTGTAGGAAAAGAAAATAATGAAAAAATAAAAATAATTATTAACGATGCAGGCACTTATTCAAACGGATATGCAAACAGTTTAGATAATAGTATTACTATCTATGCAAATACGCCCTCTACTACAACTGAATTTGGATATATGAATGATTGGGAAAGATTAGTATCTGTACATGAATTTACTCACATAGCTCAAATTAATAACATGGATAATAATTATACAATATTAAATAAATTTAATAGTTATATAAAACCAAATATGTTTGTTCCTAATTGGATTATAGAAGGAATTGCTGTAATAAATGAATCTAAAATAGATAGATTTGATGGAAGATTAAATACTGGATATTTTGATGCTCTTATAAATGCTAAAGTCAATTACAATGATTTTCCAAATTTATTAGAAATGAATTATTATCATGATAGTTTCCCTAGTGGTCAATATTATTTATATGGTTCTAAATTTTTAGATTTCTTAGAAAAAAAATATGATAGTAAAACTTTAACCTCTTTTTTCGATAAACAAGGTAAAAATTATTTTGCTACTTCTTTTGGAATATTTTTTCCAATGTTTGGAATTGATAATAGTGCAAAAAAAAGCTTCGGTAAACCTTTTAAAGATTTATATAATGAATGGAAATTATATGAGTATAAAAATGCACAAAAATATAAATTAAATAAAAATAATATTCTAATTAATACAAAAGAAAGTGATAATTATTTTTCTTTAAATCCGTATAAAAAGAAAATATTTTATTTTAAAAGAGAAAAAATATCGAATGAGCCTTTTGACTATCAAAATAGGTATTTTTTAATAGAATATGATACTATAACAAAAAAAGAAAATATTTTAATCAAATTAAATTCAGCTCCGACTACCCAAATGGAAATATATAATAATAAAATATATTTTTCAACTAATGAAATATCAAAAAATTATAAAAATTTTGAAAATAATTCTATTGGCTATAATAAACAATTATTTAGTTATGATTTAAATAATAATAAATTAAAAAAATTATACAAAGGTAACTTTAGAGATTTTACAATTTATAATAACAAAATTTTATTATCAAAAGAAAAAAAAGGAAGTTATGGAAGTGAAATAATTGATATTAATAACAAATTAATATTTTCAACAAATAGATTTATTGATGAAATTTTAATTTATAATAACAAATTTTATTTAGTTAATAAAAAAGAGTTTGGAAGCTATAATATATCAATGTTAGATATAAAAAATAATAAATTAATAGATATAATAAACTCTCCTTGGCATGAAACAAATATAAAAATTTTTAATAATTTCCTTTATTATACTTCAAATAAGAATTCAAAAATTAATAGTTATCGATATAATTTAAAAAATAAGAGTATCGAAATATTATCCAATAATTTATATTCTGCTGAAGGAATAATTTTAGATGATTTTTTGTACTATATTGCTCTTACAAATAATGGTAAAATAATTAATAAAATAAATTTTATACCTGATAATAATAAATCTAAAAACACAATAAAATATTTTGAAAATAAAAAAGAAATATCTGTTTTGAACAATATAAATATTTATAAAAAAAATAAAAATATTAATATAGAAAATAAAAAATATTTATTAAAACCATATTATAATACATTAGGTAATTTAGAACTTGGTACTCAAGATGCTCTCGGAATAAATAAATTTTATTTTAAAAGCAACTACTCTTTTGATTATATAAAAGCTATTTATGAAAATAACTATTTCAATTCTACTAAAATTTATCTTAGCAAAATAATAGATGATGATAATAGCTTAATATTTACACTAAATTACAATCTATATAAAAATTTAAATAATTTTATTAATAATATAACTCTTGTCTATATTACAGACTTTAGTTCAAATATTTTAGGTGATACTATTAGTTTAAATAAAAATAAATACGATCTAACTTTAAAAAATTATTTTAATATTACTAATTATGGAAATAAAAATACTATTAATTTAAATATAAAAAACAAATATTTTACAAATAAGTTATATTTAAATCATTATTACAATTATAATATTACTAATTATTTTAGAGGATATGGCAAAATCAATATAGAAACCAATAAAAATAATAATTATTTTAATAGCTTAGATAATGTATTTAAAATATTTAAAATAAGAAATGGTTTATGGAATCCAAATATTTTTATTGGTGATATTTACGCTAACCTTTTCTTTGACAATTTATTATTAAATAATAACTCTTATTATAGTTATGGATTTGAATTAATCTCTGAATTAGGTATGGCAAACTCTTTATTATTAGCTCCTAAAATAGGATGGGCTAAAAATAATGATAATGAAAAAGAGATCTATTTTGGATTTTATGGTGAATTATAAATATGAATAATAAAAACCTCTCTAAAGAGAGGTTTTTATTATTCATGACGTAAAGCTTCGATAGGATTAAGTTTTGAAGCTTTTATTGCTGGTACTACACCAAATACTATCCCTATAATTGAAGAAACTGATATCGCTATTATAAATATATTTAAGCTAAGTATTGGAACGATTTTAATAAACTTTCCAATTAATTGTGCACCAAAATAACCTATTAATAAACCTAAAATCCCGCCTACTATTGTTAAAATAAGAGCTTCTACTAAAAATTGAAATAATATATCTTTATTTTTAGCACCAATTGCTTTTCTTATTCCTATCTCTCTTGTTCTCTCTGTTACACTTACTAGCATAATATTCATTACTCCTATACCTCCTACAAATAGAGATATTGCAGCAACTGCACTAATAAATAAAGCTGCTAAAGAAAGTATTTTATTAAAACTTTCAAGAGCTTGACTTAATTCTTTACTTATTTTATAAATCCCTTTATTTTTCTTTACTCTCTCTAATAGTTTTAGTGCTTCATTTCCTACTCTAGCTTTTTCATTAATATCTTTTACTCTTATTGAAATATATCCACTTTCTCTAATATTATGATATTTTTTCAATGTTCTATAAGGAATTACTGCCATAAATATATCATCTCTTATTGTTTCAGAAAGTTTTTTCATTATATTTTCAATTACTCCAATAATTATATATGTTTCTTTTCTTCCGTCTGTTATAAAATCTATTTTTTCTCCTATGACATCTACTTTACCAAATTTCTTTTTAGCTAATAGATCATCAATAATTACCACTTTTCTTTTTAACCTATTATCTATTTCAAATATATTTCTTCCATATAATAATTTCATAGAAGATATTCTTAATATATCACTATTTCCACCACTTATCTGAATCCACTTTTTATCCTCACCTAAATCTATTTGAACATACGCATCTTTTATAAGTGATATTGAATCTACTCCATTTATAGTTTTCAAATAATCTATATCCTCTTCTGTAAACATATCTTTTCTTTTTATTTGAACATCTGGATTAGGTTCTATTCTAATATCTATATTATTTTTACTAATTTCATTTAAATTTTTTACAATTCCTTCTTGAAATCCTTTTCCAATAGTTGATATCATTATTACAGAGGATATTCCTATTATTATTCCAAGCATAGTCAAAAAGGAACGCATTTTATTACTTCTCAAAGTATTAAAAGCTGAGAAAATCCCTTCTTTTATATTCACGTTTTCCTCCTAGTTTTCTATTACATTTACTTTCATATTATTTTTTAAATCTAATGATGGATTTTTTACAATTTTAGTATTTTCATCTAATTTTGTTTCTATTATTTCTGTTTCATTTAAATTTTCTATTCCTGTTTTTATTTCTACTTTTTTTAATTTATTATTTTCTACTATATAAATATATTTTTTATTATTATCATAAACTATATCTATACTTGGTACAATTAAAGTATTTTTACTTTTATTTGTAATTATTTCTATATCAACATCATAACCAGGTTTCAATTTTGTATCTTTATCTATTACAAGTATCTCTATTCCAACTACTGTTTCTATATATCCTTGTTCTTGTTTTTGTTCGGCTATATTTGATATTTTTGTTATTTTTCCATTATAATAACCATTTTCTAATATATCTGTTTTTATTCTTACCATGTCTCCTATTTTTATTTTTCCTATATCATATGTGGGAACATCTGTTTTTATTATCATATTAGTAGTATTAGCTAATACTATTAATGGCTTTTCTGTATCTGTCAGCATATTTTTTTCTGCTCGAATAGATAATATAACTCCATCAAATGGACTTATTAATTTACCTTTTATTTTTTCTAAATTTTTCTCTTTTTCTTTTAATTGAATGTTATATTTTTTTAAATTATTTTCAGTGATTTTTATATTATTTTCTCTCTTCTCTAAATCAGTATTATAATTTTTTATTATTATGTCATATATTTTTTTATATAATTCTATTTCCAATTTCCTATTTTCAATTTCTTGATTTTTATTATATATTTCATAATCTTTTGCTGCCATTTCATTTTCTAAATCAATTTTTTGATTTCTCAACTCTGTTAGTTCATCTTTAGATAAACCACCGTCTTTAAATAACTCTTCTTTTTCTTTTAAATTTTTTATAAAAGTATCGTATTTTATACTAAATGCTTTTTTTTGCTTTTCTAAAAGCTCTAAGTTCATTTCTAAATTTTCTAAATTTTTTTCTTTTGTTTCTATTTCATATTTTTTTTGTAAAATTTCTATATTATTTATATCTTTTTTTAATAATTTTAGGTTTATTTTTTCATTTTCTATATCTAGATTTAATAATTTTATTTCATTTAAAAGTCTTTCTTTTTCATTATTATCAAATAATATTAATGTATCATTTTTCTCTACTCTATCTCCTATTTTATATTTTACTTCTTTTACTTTTTGAACTATTGAAGAATAAAGTTCTTTTACCTCTTTTGCATCTACTTTTCCTTTAGCTTTTACTATTTCTTCTATATCTTTTTTTACAATACTATCAACTTTTACATACACATTATTTTTAATTCTTTTATCATCTTTTTTTACAAATTTTACCACAATTATTGCTAATAAAATTATTATAGCTCCTATAAATATCTTCTTTTTCATTATAATTCCTTTCTAAAATTTATATTTATTATATTTTTCTACTTGTAATTCTATTTTTTTAGCTTCAATCAAATAATTGTTAAGTTCTATATCTAAATTATTTAATTCTTCTTCTTTTTTAATAAAATCTATCAAACTAATTTCTCCTGATTCGTATAGTTTATTATATATTTTTAATTCTTGTTTTTTGTATTCTATTTTATCTTTTGTTTTTTCGATATTTAATACAAGCTTATTATAGTTAATTTTTATGTTTTCTATTTCGCTATTTATATCTTTTAAATTGTTTTCATTATTTATTATTATATTTTCATAATCATATTCACTACTTTTTTTATTATAATTAATAATATTAAACTTTTTACTTACTGTCAATCCTACTTTATATCCATTATTTTTAATATCATAATTTGTATAAAAAGATAAATCAGGTATCTCTACTTTTTTATAATACTCTTTTTGTTTTAAAATTAACTCTTTATTTAATTTTAATATTTCTTTTGTTGTATATTTATAATCTGATAAATCTAAAGTATAATTATATTCTAAATTTTCATTAAATTTATTTTCATCCTCTTCTATTCTAATTAAATTATAAAATTCATTTTTTAATATAAATATATCTTTTCTCAATAATTCATAATCCAACTGACTATTTTTATATTCTAATTCATATAAATCTAATTCCAATTTTTTTATTTTTCCAAATTTAAATTTTTTCTCAAGTAAATCTTTTTCTTTCTTTAGATTTTTTAAATATTTTTGTTTGATTTTTATTTCTTTATTTAATTTTACTATATCATAATATTTATTAATAATATTATCTATATAACTGTATTTTTCATTTATTAAATTTAATTTTTCTATTTTATTATCTATTTTTTTATTATTATATAAATATTTTTCATCACTATTATAAAAATCTAATATATTTTTTTCATAACTTATAATATTTGAAGAAATTTCATCTATATCTCTATCAATACTAAGAGAATAACTAAAATCACCATAAGACGCCGTTAAATCAAAATAATGAGAATTTATTCCTTTTATGGTATAATCTTTTGAAAAATAATCACTTAATGATAAATTAAAATTATTATACTTTCTTAATTTCAATTCTTTTTCTTTTAACTCCATTTTTTTTATATTATTATTATATATTGTTTTATTACTCTCTAAATACTTTTGAATATAATAATTGATACTATATTCTTGTGCATAAATATTTAAAGTAATTATAATAAATAATAAAAATTTTTTCACAAAAACACCTCCATTTTAATTATATTACTATTTTAACAAATTTTAATAAATTTTACCTTAAAATTTATTAAAAAAAGAGGCATAAGCCTCTTTTTATAAAAAACCTTTAATTTTTTCTTTTAATATATCTAACGGCTGAGGTCTACATAAATAATATCCTTGAAGAGTCGTACATCCTAATTCTTTTAATACATTTATTTCTTCTTCTTTTTCTATCCCTTCCATTACTACTTCTAATTTTAGTGCTTCTGCTATTTTTACAATATATTTGATGATTTTTTGTAATTCTTCATCATTTAAAAGATTTTGAATAAAACTTCTATCTATTTTTAATTTATTAACAGGAAATTTTCTTAAATATGAAAGCGATGAATATCCTGTACCAAAATCATCAATTGCTAAAGAATATCCTAAATTTTTTAACTCTTTCATTTTTTGAATATTCATATCTAAATTTTCCATTACTGCAGTTTCTGTAATTTCAAGTTCAATATATTTTGATTTTATTCTTGTTTCACCTATTATATCATTTATATTATGAGTAAATTTTGGACTATCAAACTGTTTTGCTGAAAAATTAATACTTAATTTTAAATTATATGCTTCTAATATATCTTTCATTTCATTTATTGCTTTTTTTAATATTAAATTACCTAATGGTATAATATCACCATTTTTTTCCGCAATGGGAATAAATTCCATAGGTGATACAATCCCTTTTTCAGGATGTTTCCATCTAACTAAAGCTTCAAATCCTGTAATTTTTTGGCTTTGACTATTAAATAATGGTTGATAATATATTATAAACTGATCCTCTTCTATCGCTTCTTTTAACTCTCTATCTATTTTTAATTCTCTTAAAATTTCCTTATGATAAATATCTTCATAAAACTGATAACTGTTCCCATGTTTAATCTTTGCTTTTTCAAGTGCTAAATTTGCATATTCCATTATATGATTAATATTTTTTTTATTTTCTTCGAGTATTGCTATTCCAAGACTTGCTGTTACCTTATAACTTTTATTTAATAATATTATCGGTTCCGATATTTTTTCTAACAATCTTTCTGCTATCATTCTTAAATTTACAATAGAATTATAATTATTAAGTAATAAAACAAATTCATCTCCACTTATTCTTCCTAAAATATCTCCTTTTCTAATTGTAAATTTTATTCTTTCTGATATTTTTTTTAATACATAATCACCCATTTTAAAACCAAATAGATTATTTACATTTCTAAAACTATTTAAATTTATAAGAACTACTGCCATATTTTTATTTCTATAATCTTTTGAATAATCTTCTATTAGTTTTAAAATTATATCTCTTTTTAATACTCCTGTTAATTCATCATAATTTAATATTGGATAATAATCATTTAATATTTTAATATTAAATAATAATCCTCTATAATCATTAAATTCATAAATTTTATACACAATTTCTAGTTTTTTGCCATTTTTAAAATAAAATATTTCTATTTTCTCTGTATCATTATAAATTTCATTTTTTAATTTCATAAAAAAAGGCTTTATTCCATCAATTTTTTTATAAAGTTCTTTTATTAAAGAATAAAAAGTATATTTTTTTTCAGGAATATCTAAAACTTTTAAAAAATTACTAGTAATAGTTATTTTTTTCTCTATTATATCATAAAAAATTAAAGCGTTTTTTTCATTAAAGTCATGTTGTTCAATAGTCTTAAAATCATCTTTTACTGATGCATTCATATTAACTTTTAACGTTTTTTTAATATTTTCATCTAAATTTTTCGAAGATTTTTCATTAATAAAATGTTTAAAGTGATGTAAACTTAACTTTAAATTCTTATTATATTTTAACATTATTTCTAAAATTTCTAAATAACCTGAAATATCAAGCAAATGTAAATTTTCCTCAAATTTTTTGTTTAATTCTTTTTTTAATTCCACATAGTCATCTACTGTTAATATCTCTAAATATTCTTTATCCATAGCTTTCCCCTTAATTATTATTTAATTCAAATATTTTTAAAAGAATATCTTCCCTTATATCATCTTCAAGATTTGTATATTCTATTCCATACCTTTTAATATTTTTATGAACTGTATCCATTTCTGACTTTATTATCCCTAATATCCCTTCATATTTATGTTTGCCTAATTGAAAATTCATTATTACTGTTTTTCCTTTTTCTATATTATGAGCTGTATAAAACCCTACTCCTCCACCTCCTATATCAGAACTAATCGCTTTATATATTTCTCCTTCAATTATTACCTCTAGATTTATATGTATATTATGCCTTTCATAATTTCTTCTATTTGTTTTTTCTATATCAGTAGGATATTCTATTATTATATACCTATCAATTACATCAAAATATATTACAGAACTATTAAATACATAAATTCCATCTTTTGTGGGAATTCCCACTTCTAGTTCATCTTTTACTTGGATAAAAGGTAAAGTTCCTTTTCCTACAAATTCTATTTTTAATTTATTTTTTTGTTTTTCATTTTTAACAATTTTTCCTAAAATTTCTCTATCTTCTTTTTTTAATATTAATAAATTAGAATTATTTAACATTATGAATTATTACTCCTTTCTCCAATCTATAAACTTATTCTAAATATTTGTATATTTTCCTTTAATTTTAAACAAAAAATTTTATATATTTTAATTTTAAACAAAAAATAAAAAAAGCCCTCTTAAAATTATTTAAGGGCAGCTATTTTAAATAAAAGTTATTTTGAATATGTATTATAGGCCATAAAAACACCAAAAAATAAAGCAAGGATTTCTAATATAATAGTCATTTTTTATCCCTCCTTTAACGAATATCTGTGTATACACTAATATTATACTATATAATATAATATATGTCAAACAATATATTATATTATATATATTTTTTGAATAAATAATATATATAATATAAATGTTTATCTGAATAATACTAAAAAAGCCCTCGCGGGGGAGCGAGGACTTTTTCTTAGTTAAAATTTAACTAAGGGGGATTATGTTACTATGAAGAAAATTTCAATATGGGATATGTTTTTATTATATCTAATTTTACATTTATTGTCAACATTTTTTTTAATTTTATCTTCTTTTTTCTATGACAATTTTAATAACTCTTTTCTTACTATTTTTTTACATAACATTTATATTTCCCTTTTTGAATTATTTCTAATAAATCATTACTTTCTAGATATTTTATTGCTTTTAATATTTTTTCTGGTTTATATTTTCTAAAATGTCCTGCAATTTTATCTTTTGTTTTAGGAACCATACAATATTTTAATATTTCTATTTTTAATGAATCAATTTTTTCTGGAATACGTTTTTTAGGATAAACTATAGTATAACCTCTATTTCCATCTATAATTTCACCTTTTTTATAGTTAAAATACTCTTTATTCTTTTCTAATAATTTTCGTATGTTTTTTCGTATTTTACCACCACTTCCAGAAGATCCATAGCCATGTATTATTTTTATTGTTTTATTTAAATTATTATTATATTCTCTAATAAAAATTTCTTCTGCCTGAACTACTGTTAATCCATGTAAATCTATTACCTTCATAATTTACCTCTATAATTTTTAATCTAAACCAAATATAATTTCTATTAATCACAATAATATTACTATATTATTAATACTCTACATTCAATAAAAATAATCCATGTGGTGGAACTACAAATCTATGTTCTCCTCTTGATTTTGATTCCAATAAATCTTTTATTTCTTTTATATTTTTTTTATTAGTAGCTATTTGAATAAGAGCTCCCGCTATCATTCTTGCCATATTATATAAAAATCCATTAGCAGTTATATATATTTCTATAAAATCTCCTCTTTTTACAATATTTATAAATTCTATATTTCTTACAGTACTTTTTTTAGTACTTTTTTTTGAAAAAGTTATAAAATCATGTTCCCCAATAAATATTTTACTTGCTTCTTTCATTTTTATTATATCTATTCTTTCATCAATATAATAAGCATACTTTCTCATAAATGGATCTCTTACTGGTGAATTATCAATTCTATACATATATGTCTTTCTTTTAGCATTATATCTTGAATGAAATTTATCATTCACTTTAATAAAAGATAAAACTCTTATATCTTCTGGTAAATATTGATTTAACTGACTTAAAAAATTAGAATCTAATTCTTTATTCGTTTTAAAATTTGCTACTTGATTTAAAGCATGTACTCCTCTATCAGTTCTACCACTTCCTATTATTTCTATATTTTCTTTTAATAATTTTGAAATTGTTAATTCTATTTTCCCTTGAATAGTTTTTTCTTTATTTTTTTGTAATCTTTGCCAACCTAAATACTTTGTTCCATCGTATGTTATCATCATTTTATAATTATTCATAATTCTTCTCCTTAACTCAATTATACCTAAATAATAATACCATATAAAATCTAAAAAAAACAACTAATTTTTATTTATCAATACTAATTTATAATTAATTCTCTTCTTCTATTCATAAATTATATAATTAATTATTGAAATACAAAAATAAAACTGTTATTATAAAAAAGGGAGTGTGATATTATGGTAAAAATAGATTTTTATGATTTAGATATTATTTGCAAATATAAATATGTCGTTTTAGTCGCAAAATATAATAAAAAATTAGTTCTTGTAAAACATAAAAATAGAGAATCATGGGAAATTCCCGGAGGACATATTGAAAAAAACGAAACTCCTCTTGAAGCAGCTAAAAGAGAAATTTACGAAGAAACAGGAGCAATCAAATATAATATAACACCTATCGCCACATATTCTGTAACAATTAAGAATATTATTGATTACGGACAACTTTTTTTTGTTGAAATATTTGAATTTGATAATCTTCCTAATTTTGAAATTGAAAAAATAAATTTATTTGATTCCTTACCTAAAAATCTTACCTATCCAGATATTCAACCTATTTTATTTGATTTTGTAGAAAAAAATATAGAAAGGAATAGTTAAATTAAAATGAAATTAACAAAAGATGAAAAAAATAAAATGATTTATGAAATACAATATTTTTTTGAAAATGAACGAGAAGAAAGCATAGGAATTATTGCTGCTGAAGAAGTTTTAGATTTTTTCTTAGAATCCATTGGAAAAATTATATATAATAAAGGTCTTGATGACGCTAAAATATATTTTGAAAAACGATTAGAAGATCTAGCTTTAGACTATGAATTATTAAAAAAATGATATTAAAATAATATCATTTTTTTATTATTAGTTTTCAAATAAAAAAAGCACTATACAGTGCTTTATAGAAATATTTATTATTATATATGGCTGGGCTGGCTGGATTCGAACCAACGCATGTCAGAGTCAAAGTCTGATGCCTTACCGCTTGGCGACAGCCCATTAATATATTTTTTTATGGTGGAGCTAAGCGGGATCGAACCGCTGACCCCCACAGTGCAAGTGTGGTGCTCTCCCAAACTGAGCTATAGCCCCATTAAAAATGGTCGGAATAGCAGGATTCGAACCTGCGGCCCCCTGCTCCCAAGGCAGGTGCGCTACCGGACTGCGCTATATTCCGAACTTACCTTTATTTCTCAAGGCAAGAATGATTATACTATATTAATCATCAATTGTCAATTATTTTTTTGAATATTTTTTATATCTTTTAAAATTCCATTTTCAAAGTACAAAATTTTATCATCATAAATCCATTCTTCTTTTATACCAAAATCTGTTATTTTCTTAATTTTATTATCTGTTCCTCCTATACTTGCAAGTACATCTTCTTTATACATTCCTACTCTTACATCACCATGTAAAATAATATCTCTCATTTTAGGATCAAGATGTGTTGATTCTCTTAAATACTCTTTTCTTCTGACTTCATCCCAACTAACCTTTCTATATGAGGGTTTAATATATTCTGTGATATTTTCAAATTTTGGTATTGGTTGTGGATTTACTTCTGTTTCATTTTGTATATTTGTTAGTGTAAGTTTTTCAGTTGCTTTTCTTACATTAGTACAACTTATTAATAGTAATGAAATTAAAATTATAAAAATTAGTTTTTTATTCATAATAGAACTCCTATTTTTCTATTTGATTTGAGATTATATCTATAAGATTATATTTTAAATTATATAAATCTTGAGATAAATCTATTTTATATTTATGAGGTTTTATTAATCTTTTTCTTTCTTCAGAAAAAGTTAATAAATTTTGCAAGTAATAATTTCTACAGTTTATTGCATTATTTATTAAGTCTATATTTTTTTGTAAAAATATGCCATTTTCAATAAATGGAATATTTAACTCTTTTACTGTATAAGTATTTTCCTTGAATTTTGTTTTCTTAAACCTATCTCTTTCATCTCTTATTAATATTTCGTCGTTATTCTCTATTTTCTTTACGTCATTATCATTATTTTTTAGACATATTAAATCTGCCTTTGCTTCATTATTTTGATAAATTCTATATACAGTTTTAAATCCAGGATTTGAAATTTTAATAGAATCTTCTGAAAGTTTTATAACTGGTTGATTATCTATCTCAACAATTTTATAAACTCCTCCAAAACAAGGATTTGATTTGCTTACAGCAATTGCATCTCCAACTCCAAAGTAATCTACGGCAGCTTCTTGCTTTAATAAAGTTGATATTAAATCTTCATCTAATCCATTTGTAAGAGTTATTGTTGCTTTTTTTAATCCTGCTTCATCTAAGATTTTTCTACATTTTTTAGATAAATAAGCTAAATCACCTGAATCAATTCTTATTCCATATATTCCATTATAACTATCATCTATTCCATTTTCTTTAAATGATTCTATTGCATTTTTTATCCCTATTTCTAGTGTATTATAAGTGTCTACTAATAATATAAGAGTATTTTTCTTTCTATTTTTTCTTATTTTTATAAATGTATCAAATGCTTTTTTTTCTGCTTCTTTTCCTACTCCAAAAGTTTGAATATATGAATGCGACATTGTCCCTATACTTGGAATATTATATTTATATTCTGTAACTAAATTAGAATGATTAGCACATCCTCCTATAAAAGCTGCTTTATTTCCATTTATACTACTATCAAATCCATGAGCTCTTCTACTTCCAAATGAAGATACCGGAACATTTCCTGCAGCCCTTGTTACTCTAGATGCTTTAGTTGCTACTGCCATTTGATGATTAATAATATTTAGTATTGGTGTTTCTAATATTTTTGCTTCAATTAATGGTGCTTTTATTGTAATTATTGGTTCATTTGGATAAGCTATCTCGCCATCTCTCATAGCATATATACTACCTGTAAATTTTAAATTTGATAAAAATTCTATTAATTTTTCCTCTTCTAATATTTTTGAAAAATACATTTTCTTCTCTTTATAACTTGTATTATTTAAAATTCTAACTAATTCAATAACATCATTTACTCCAGCTACAACTGCAAATCCTCCATCTTCAGTTTTTCTAAAAAAAACGTCAAATGTAGCTATTTTTTCATTTAATCCTTCTTCAAGATATATATCACTTTCTGTATATTGATATCTATCTGAATTAATCACTTTTGCAAAATCAGTTAATATTATTTCTTTTTCCATTGTATTCTCCATTCTTTTTTGTGTTATTATAGTAATTAAATTATATCACTACTTATTTTATTAATCAAGAAAGAAAAAAAACTTCAAAAAAATGAAAGTTTATATTTTTTTACTTGATTTTTTCTAAAAAAAAAGGTAAAACTATATTAGTGCATAAATTATTGAAGGGGGTTTTATTATGGAAACTTTAGCATTAATACTCGCAGGTGGAAGAGGTTCAAGACTAGATATATTATCTGAAAAAAGAGTTAAACCAAGTGTGCCTTTTGCAGGTAAATTTAGAATAATTGATTTCACTCTAAGTAACTGTTCAAATTCTGGAATTTTTGATATTGGTATTCTTACTCAATATTTACCATTATCTCTTAATGAACATATTAGAGTAGGTAAACCTTGGGATTTTGATAGAAGAGATGGAGGAGTTACTCTACTTCAACCACATTCTAAATGGTATAAAGGAACTGCTGATGCTGTAAAATTAAATATTGAATATATAAAAAGACAAAATTCAAAATATGTATTAATTTTATCAGGTGATCATATTTATAAAATGGATTATAGAAAACTTATTAATTTTCATAAAGAAAAAGGAGCAGATCTAACAATAAGTGTACAACCAGTACCTATCGAAGAAGCTAGTAGATTTGGAATACTAGAAGCAGATGAAAACAAAAAAATTCATAAATTTGTTGAAAAACCTGCTGAACCAAAATCAAATTTAGCATCTATGGGTATTTATGTATTTAATACAGATGTATTAATTAAAGCTCTTGAAACAACAGAAGCTGAAGATCTTGATTTTGGAAAACATATTATTCCTAAACTTATTGAAAAATCAAATGTTTTTGCTTATGAGTTTAAAGACTATTGGAAAGATGTTGGTACTTATGATTCTTATTTAGAAGCTAACCTTGATTTAACAAATACTGTTGATAAAATAGAGCTTGATATGTATGACAAAAATTGGGTAATTCATACAAGAAGTGAGGAAAGACCGGCTGTAAAATTTGGAACCAAAGCAAAAGTAACACAATCACTTATATCTAATGGATGTATCATAGCTGGAGAAGTGGATAGATGTGTATTTGGTCCTGGAGTTATTGTCAATCCTGGAGCAGTTGTCAAAAATGCTATTATTTTTAATGATACTGTTATAGAAGAAGGAACTATTATTGATGGGGCTATAATTGATAAAGAAGTAAAAATTGGTAAAAATTGTAAAATAGGGTTTGGAGAGGATTATTCAGCAAATAAAGAAAAACCACATTTATTAAGTAGTGGTTTAAACGTTCTTGGTAAAGGTGTTGAAGTACCTGATGGAACTGTAATAGAAAGAAATTGTAGAATATTTGGAAGAGTTAAAAGTAATGTGTTTGAAGCAAATAATAAATATATAAAAACTGGTAGTACTCTAAAAGTGGAGGAATAGTTATGAAACATTTAAAAATATTATTTTTATCTTCTGAACTTTATCCATTAATAAAAACTGGTGGCCTTGCAGATGTAGCTTTTGCACTTCCTAAAGCATTAAAAAAAAGAGGTCATGATATACGTGTAATTTTACCAAAATATAAATTATTAAACAGTAAATACATCTCAAAAGCAAAATTTATAACTAAAATAGAATTTAAAGATGAAATATTTAATATATTAAAAATAGAACTAGAAGGATTACCAATTTATCTTATTGAAAATAGAGCTTTTTTTGAAAGAGATACACTTTATGAAAATGAAGATAGAGATTTCCAATTTGCAATATATAATGAAATTGCATTAAGGTTTATAAAAGAAATAAATTTTAAAGTTAATATTATTCACTGTAATGATTGGCATACTGGTGTATTACCATATTTTTTAAATACTAAATTTAAAAATGATAAATTTTATCAAAATATAAAAACTGTTTATTCAATACATAATTTAAGATTCCAAGGAGTATTTAGTTCTAGTATATTTAATTATTTAGATTATCCTACTCCTAATCATGAAATTAACTTTATGAAAATGGGAATTAAATATGCTGATAAAATAAATACTGTTAGCAAAACATATGCTGAAGAAATAAAAACTGATTTCTTTGGTGAAGGATTAAATTATGAATTACTCGCTAGAGAAAAAGATTTATATGGTATAGTAAATGGTATTGATACAGATGTATTTAATCCTGAAACAGATAAACATATTTATTTTAATTATAATAAAAAAAGTTTTAATAAAAAATATAAGAATAAAGAAAAACTTCAAAAAGAATTAAAATTACCTCAAAATAAAGATATACCTTTAATTGGAATAGTTTCTAGACTTACTTCTCAAAAAGGCTTAGATTTAATTGAATGTATAATTGAAGAACTTATCCAAACTGAAAATTTTCAAATGGTTGTATTAGGTACTGGAGAAAGCCGATATGAAGAATTGTTCTTAGAACTTCGCCATAAATACCCCGAAAAAATAGCTACAGTTATTGGTTATAATGCTGAATTGGCTAATAAAATTTATGCTGGTAGCGATATGTTTTTGATGCCTTCGCTATTTGAACCATGTGGCCTTGGACAACTAATAGCTCTAAGATATGGAACTATACCAATTGTTAGAGAAACTGGTGGTCTTAATGATACAGTTAAAGCATATAATGAATTTACGGGAGAAGGAAATGGTTTTTCATTTACTCATTATAATGCACATGATATGATGTATACTATTAGAAGAGCAATAAAATTTTATAACGATAAAAAAGTATGGAATACTCTTGTAGAAAGAGCATTATCTGGAGATTATTCATGGAATGCTTCTGCAAAAGAATATGAAGATTTATATAAATCATTAATTTAAATAAAAAGCTGTCGAAATTAATCGACAGCTTTTTATTTTTTTGACTTTTTGTATTTTTCTAATTTTCTTCTTTTATTTTATTTGCCATTTCTATAGCTATTTGTTCTAATTTTTCAAAATCTTCTATTTTTGGTGAACAGAATACATCATGAGGTTCTCCTACTAATTCTATCCCTTTAGAATTTTCTGCAAATTCTTTTATTCCTTTCATTCCGCCACCACTCCAAGCATAAGTACCAAAAGCAGATACATATCTATTTTTTAATCCATATAATTTTAATTTTGACAATAAAGCTTCTATTGCTGGATAAGTAGATGTATTGTACGCACATGATCCTATTATTAAGCCTTTATATCTCCATATTTCACTTAAAATATATGATTGATGAGTCTTAGATGCATCAAATACTTTTATATTTCTTATTCCTTCTTCTGCAAGTTTTCTAGCTATTATATTTGCAGATTTTGCAGTATTTCCATACATAGTTCCATATACAACAACTACTCCTTTATCTTCTGGCTCCAATCTACTCCATTTATCATATTTACTTATTATATTTTTTATTTCATCACGCCAGATTGGTCCATGTGAAGGACAAATATATTCAAATTCTAAATTAGCAAGCTTTTTTAATGCCATTTGTACTTGCATACCATACTTCCCTACTATATTTGAATAATATCTTCTCATTTCATCTTCATAAAAATCTATATTTAATTCATAATCAAATACTCCTCCATCAAGTGCTCCAAAACTTCCGAAAGCATCATTTGAAAAAAGTATTTTATCAGTTTTATCATAAGTAATCATTGATTCTGGCCAATGAACCATTGGAATCATAGCAAAAGTAAGTTTATGTTTACCTAAACTTAATTCTTCTCCCTCTTTTATTTCTAAAAGATTATTTTCAATATTATAAAAACCTTTTAATAATCCTATTGTTTTTTTATTTCCAACTATTTTTATATTTGGATATCTAAAAATTAATTGTTCTATAGCTCCAGAATGATCGGGTTCCATATGATTAACTATTAAATAATCAATATTTTTACCATCTAATATTTCTTCTATTTTTTGCAAATATGCTCCATGTGTACTAAATTCTACAGTATCTATTATAGCTACTTTTTCATCTTTAATACAATAAGAATTATATGAAACACCTTTATCTAAAGGCCACATATTTTCAAATCTGTCACTTCTTCTATCATTTGTCCCTATCCAATATACTGTGTCACTTATTTTCACAATATTATGCATTTAATTATTCCTCCTTAAAAGATAAATTCAAATTATTTTTTATTTGTAATAATATCATTTTTGATATAATTTTACAACTGTTTTATTAAAATTAACTTCCCTTATTTTTAATAAAATTTTAATTTATTATTTTTATTATTTTATGATATAATTATACCTATAAAAATAATATATTTCAATAATTAATTATTATTTTAACAAATTAATGTCTATTTAATAATTATATCAAAAAACTCATTTTAATTAAAGAAAAAAATAATTAAAACATTAAATACACATATTATACAAGGAGTGATAAAATGAATCCTGTTTTTTTAAGATTAGGTCCTTTAGAAATACGATACTACGGTCTTATGTACGCATTATCATTTATTATTGGATTAAAATTGGCTAAGATTAGTGCTAAAGAAAAAAATATAAGTGAAGAATTTATTGAAAAATATGTAATGAATGCAATAATTGCTGGCCTTATTGGTGGTAGACTTTACTATGTTATTTTCAACTATAAATATTATTTTAAATATCCATTAGAAATTCCAGCTGTTTGGCATGGTGGAATGGCTATACATGGCGCTATTATTTTTGGTTTTTTATGGTCTATTGTTTTTGCTAAACTTCATAAAGTTAATTTTTGGATTTTTACTGACATCGCTTCTCCTTTACTTATTTTAGGTCAAGCTATTGGTAGATTTGGTAATTTTATGAATGGGGAAATACATGGCGTTCCTACTTTTACACCATTAAGAATAATATTTTCTATAAAACCTAAATTTTATGAATGGTATAATTACTACAATTCATTATCTTTAAGTGAACAAATGAATTATAAAGAAATTGTTCCGTGGGGAATAGTCTTTCCAAATAATTCACCTGCTGGAATGGAATTCCCAAATACAGCAGTGCATCCAGCTATGCTTTACGAACTTGTTTTAAATTTTTTAGCATTTTTATCTCTTTGGTTTTTCTTTAAAAAGAAAAATTATAAGCCTGGAGTGTTAACAGGAATTTACATCATAGAATATTCATTAATCAGAATTTTTGTAAGTTTCTTTAGAGCAGAAGATCTTATGTTTTTTGACTTTAGAGCTCCACATGTCATTAGTTTTATATTAATTATTTTTGCTACTATTTTAATAATAACAAAATCTAAAAAAATAAAATAAAAATAAAAAAATAGAACATTTAAATTGGCTATTTTCAAAAATTAAAAAATCATTATTGTATTTTTACAATAATGATTTTTTAATATATAATATATAAGGGGAAATTTTTATTTTTTATATTAGAAAGGGGCTCTTAATCATGACTAAAAAAACTCAAAATTTTTTTAATGAAATATTACTTTACTCTGGACAATATGCTTTATTTTATATTATTATGAATTTTAGTAAAGATGGTTTTAAATATTTTAATGATACAGGACACACTATTTTGCTTTTAATATTAATTATTCAAACATTTTTTCTAGTATATTTTGGTAAAAAGCCTATTCCTCGTTTTCTAGGTAGTTTAATTGCACCCTTTTTTTACACTTTAGTTGAATTTAAAATAGATTATTCTTTTGTTTTTAATTTAGCACATCTATTTTTTTGGATATTTTCTATAATTATCGGTAGTTTACAAGCAATACAATTAAATTTAAAAAATATTAAACATAAAAAATTAAATGAATTTTTTATAACCTTTATTAATATTACTATTTTTCTATTTATATATTTTTACTTTGATCTAAAGCTCGAATTATTAAAAGAATTAAATAATGGTGTTATTGATGAAAAAACATTTAGCTTAAAACTACAAATAAATTATTTTAATGAAAATTTGAAAATATTTTTGACTGATCCTGCTCATATTTATATTATAATTGGTGGTATTTTACTTGCGATTTCTATCGCTTTTGGAAGAATAAAAATTCTTAAATTAAATGAAAAAATTAAATACTTATTTGGAATTTATGTAGATTCTAATATTAGAGATAAAATTTTAGAAGATGGTAAAGGCATTTCTGAAAAATTAGAAGCAACAATTTTATTTTCTGATATTCGAAATTTCACTAAAACTAGTGAAAGTGCTTCTCCTGAAAGTATAACCAAAATGCTTAATTTATATTTTTCATATTGGTCAAATATAGCTAAAAAAAATAATGGAATTATTGATAAATATATTGGCGATGCTGTAATGATTGTTTTTAAAAGCAAAACTTCAGAAATAGATGCTGTAAAATCAGCTTTTGAAATGCTTGATTCTTTAGAAAACATTCAAAATATTTTAAAAAAAGAAAAATTACCAAAACTTGAAAATATAGGTATTGGAATACATAAAGGTGAAGTTATTGCAGGTGATATTGGCGGAAATAATAGATTAAATTATACTTATATAGGTGATACTGTTAATATTGCATCTAGATTAGAAAGTTTATGTAAAAAATTTCAAAGCAATATAATTATTAGTAAAATTATTTTTGACTTACTTCCTTTTAAATATAAAAAATTATTTATTTATCATAATAATAAAATTTTATTAAAAGGAAAAAAAGAAAAAATAAAAATTTGTTTGTATAAAATAATTAACTTATCATATCTTAAATATTATAACTGTTTTCATTAAATTTTAAAAATCTAAAAATAAATATAGTATTCTCTATTCTTCTTATTTACATTAATTAATCCATTTTTATATTTAAATAAATTATTCTCATTTTTAGTTTTACAATTCTCCAATTACATTTTAAAATAAAATATTTCTTTATAAAAACTTATTTCAAAAATAATCCACATAAAAAATATTTGGTTTTTAAAAATATTTTATAAAAATTATTTGGTATATTAGCTTAAAAAAATATTTAATTGTTTAAAGTTTTTTTTAACATTTTTGTAAAAAAAATTTGATTTTCTATAATTTTATGAGGTATAGTTTTAATGTAATTATTTTATTGTTTTAAAGTACTTTTTTTCACAAAAAAACATTGAATTATCAAGGAGGGATTCCAATTGAAATGTACTAATCAAGTAAAAGATAGTTGTTTTAGAGAGTTAAAAGACTTTATTGATTCTCTAGAAACTAAGAAAGGTGAATTAATTACCGTACTTCATAAAGCACAAGAGATTTTTGGTTATTTACCTGTAGAAGTTCAAGAATTCGTTAGTGAGGAATTGAATATTCCTTTATCTGAAGTATATGGCGTTATTAGTTTTTATTCATTTTTTACAACTACTCCAAAAGGCGAACATCCTATATCAGTATGTATGGGAACAGCTTGTTATGTTAATGGATCTGAAAAAATTTTAGATGAATTAAAAAGAGAACTTGGGATAAAAGTAGGAGAAACCACTCAAGATGGTAAGTTTTCTCTTGATGTATTAAGATGTGTAGGTGCTTGTGGAATGGCTCCTGTTATGTTAATTGGTAAAAAAACCTATGGACGTGTGACAGCTGACGAGGTAAAAAATATATTAAAAGAATATAAATAATCGTATCAGGAGGTTAAAATGCTAAAAACAATAGAAGATTTAAAACAAATTAAAAATAAATTTTTAGAAAAAAATAATGAAAAAATCCAAATAAAAGTATCTATGGCTACATGTGGTATTACAGCGGGCGCTGATAGTATTTATGAATACTTTAAAGATGAAATTGATAGAATTAATAATAATAAAATAGTACTTATATCTACTGGTTGTATGGGGCTTTGCCATTCTGAACCTACTATAGAAGTTACTCTCCCTGGTCAAAAACCTGAAATTTATGGAAATGTAGATGTTAAAAAAGCTGAAAATATATTTAAAGATATTTTATATAAAAAAGTTAAAGAAAGTGATATTATTATAAGTTCTAAGCAAAAAAAAATAGTACTTCGAAATTGTGGATTTATGGATCCAGAGAATATTGATGATGCAATATCAAAAGATGCGTATTTTGCATTAAATAAAGTCCTTACTAATATGTCTCAAGAAGAGGTAATAAATGAAATCAAAAAATCAGGACTTAGAGGTAGAGGTGGAGGTGGATTCCCTACTGGATTAAAATGGGAGTTCGCTTATAAAAATAAAGCTAATAAAAAATATGTTGTCTGTAATGCTGACGAAGGTGACCCTGGTGCTTTTATGGATAGATCTGTGCTTGAAGGTGACCCTCATTCAGTTCTTGAAGCAATGGCAATATGTGGGTATGCTATTGGTTCTGATGAAGGTATTATCTATATTAGAGCTGAATATCCTTTAGCTATTGAAAGATTGAAAATAGCTATAAAACAAGCTGAAGATTATGGACTTTTAGGAGAAAATATATTCGGTACCAATTTCAAGTTTAAAATCACTTTAAAATATGGAGCTGGTGCTTTTGTATGTGGTGAAGAAACTGCTCTTATTCATTCTATGGAAGGGAAAAGAGGAGAACCAACTTTAAAACCACCATTCCCTGCTGAAGCTGGATATTGGGAAAAACCTACAAATGTGAATAATGTTGAAACTTATGCTAATATTACTGCAATTATAAATAAAGGTTCTGACTGGTTTAGAAGCATTGGAACAGAAAAATCACCTGGAACAAAAGTATTTGCATTAGCTGGTAAAGTAAAAAATGTTGGACTTATAGAAGTACCAATGGGAACAACTTTAAGAGACGTCATATTTGATATAGGTGGTGGAATAGTAGGAAATAAAGCTTTTAAAGCTGTACAAACTGGTGGCCCTTCTGGTGGATGTCTTACAAAAAATGAGCTTGATACTCCTATTGATTTTGATACATTAAAGGAACAAGGATCTATGATGGGATCTGGTGGAATGATAGTAATGGATGAAAACGATTGTATGGTCGCCGTTGCTAAGTTTTATTTAGGCTTTACTGTAGATGAATCATGTGGAAAATGTACTCCTTGTAGAATAGGAAATAAAAGACTTTATGAAATTCTTGAAAAAATAACAGATGGAAAAGGCACTCTCAATGATTTAGATTTATTAAAAGACTTATCGAATACAATTAAAAGAGCATCACTTTGTGGGCTTGGGAAAACAGCCCCAAATCCAGTGCTTTCAACTTTAGATAAATTTTATGATGAATATGAAGCACATGTAAAAGATAAAAAATGTCCTGCAACTGTTTGTACTAATTTAATTAAATTTACAATTACAGACAAATGTATTGGTTGTACAATGTGTGCTAAAGTGTGTCCAACAGATGCAATACTTGGTAGAGTAAAAGAAAAACATTATATCTATCAAGAAAGATGTATCAAATGTGGTTCTTGTTATAACGCTTGTAGATTTAACGCAATTAAGAAAGCATAGGAAACGGGAGGTAAGTAATGGAAACTGTAAAAATTAAAATTAATGGTATAGAAGTAGAGGCGCCTAAAAATTCAACTATCTTGACAGCAGCTAAAAGTATTGGAATAAATATTCCTACATTATGTCATTTAAACATAGGAAGTATCGGATTTATAAATAATCATGCTTCTTGTAGAATGTGTGTTGTAGAAGTAAATGGGAATGAAAATTTATATCCTTCATGTGAAACAAAAGTTCAAGAAGGAATGGAAATAATTACAAATTCAACAGAACTTATGCATGTAAGAAAAACAGTTTTAGAATTATTATTATCAAATCATCCTAAAGAATGTTTAACTTGTTCTAAATCTGGAGAATGCGAACTTCAAACTTTAGCTCAAGAATTTAAAATAAAAGATATTAGATTTGAAGGGGAACAATCGACATATAGAATTGATAATTCTCCTGCTATTATAAGAGATATAGATAAATGTATAATGTGTAGAAGATGTGAAACTATGTGTAATTCTATTCAAACATGTAATATACTTCATGCTGTAAATAGAGGTTTTGAATCCGTTGTTGCGCCTACACATGAAAAAGATCTTGAAGATACAGGATGTACCTTCTGCGGACAATGTGTCGCTGTATGTCCCGTTGGTGCATTACATGAAAGAGATTACACTTGGGATGTTGTAGAAGCTTTAGCTAATAAAAAGAAAAAAGTTATCGTTCAAGTAGCTCCTGCTGTAAGAGTAGCTCTTGGAGAAGAATTTGGATTAGAACCAGGTACTGATGTAACTGGTAAAATAGTTTCTGCTCTTCGTATGATGGGATTTGATTATGTATTTGATACAAATTTTGCTGCAGATCTTACAATAATGGAGGAAGCTACAGAACTTAAAAAGAGAGTAGAAGGATATTTAGCAAAAGACCCTGATGTAAAACTTCCTATACTTACTTCATGTTGTCCTGCTTGGGTTAAATTTATTGAGCATAATTATCCCGATATGCTTGACATACCTTCTTCAGCAAAATCACCTCAACAAATGTTTAGTGTGGTAGCTAAAGAAATATGGGCAAAAGATATGGGGGTAGACAGAAATGATTTGGTTGTTGTATCTGTTATGCCTTGTCTTGCTAAAAAATATGAAGCAAGTAGAGAAGAGTTTTCAAAAAATGGAAATCCTGATACGGATATCTCAATTTCTACAAGAGAATTAGCCGAATTAATAAAACAAAAAGGATTTAACTTTACAAATCTTCCAGATAGTGAATTTGATGCTCCTTATGGTACTTCAAGTGGTGCTGCTGATATATTTGGAAGAACTGGAGGAGTAATTGAAGCTGCTACTAGAACTGCTTATGAATGGATTACAGGTAATGAACTTGAAAAAGTAGATTTTGAACAGCTAAGAGGACTTGAAGGAATAAGAATTGCAGAAGTTCCAGAACTTCAAATTGAAGGTTCAGCATTTAGAATAGGTATAGCTCATGGACTTGGAGCTGCTAGAGAGTTATTAGATAAAATAAAAAGCGGCGAAGAAGTTGTCCATGCTATAGAAATAATGGCTTGTAAAGGTGGTTGTATCGGTGGTGGAGGTCAACCTTATCACCATGGAAACTTTGAAATTATAAAAAAACGTTTTGAAGGTATTCAAGCTATTGATAATGGAAAAGAATTAAGAAAATCTCATGAAAATCCATATATTAAACAGTTATATGAAAAACATTTAGGAGAACCTATGAGTCATAAAGCTCACGAACTTTTACATACAAAATATTTTGCAAGAAAGAAAAATTGAAATAAATATTAAAAGGCGTGTTATATTATAACACGCCTTTTAATATTTATTTTTATCCCTAAAACTACAGTTTTATTTTTTTATATTATATGATAAAATATAATTAAAATAATCTAGCTATATAATCTACAATATTTTAATTAACTTATATATTAAATCTATAGAAAGGATAATGTATAATGAGACTTTATCTGTTTTCGTTATACAAGGTGATAATATGAAAAATATCTTAATAGGGGTAACTGGAGGTATATCCGCTTATAAATCTGCTAATATTATTTCTAAATTAAAGAAAAAAGGATATAATATAAAAGTTATAATGACAAAAAATGCTACTGAAATAATAACTCCTTTAACTCTTGAAACATTAGCAAGAGATAGAGTTGTTATCGATATGTGGGAAAAAAAATCTAATTATGATGTAGAACACATTTCTCTTGCCGAATGGGCTGATCTTATACTTGTTGCTCCTGCTACATATAATATAATAGGAAAAATAGCAAATGGAATAGCTGATGATATGCTTTCGACTGTAATTTCAGCTGCAAAAGCACCTATATATTTTGCTATTGCAATGAATGTAAATATGTATGAAAATCCAATTTTACATGAAAATATAAGCAAATTAAAAAACTATGGTTATAACTTTATTGATTCTGATGAAGGTTTTTTAGCTTGCAATACTACTGGAAAAGGTAGATTAAGAAATGAAGATGAAATAATTAAAATAGTTGAAACTCATTTTAATTATAAAATACTTTCTGGAAAAAAGATACTTATTACCGCTGGTAGAACAGAAGAAAAAATTGATCCTATTAGATATTTATCAAATAAATCAAGTGGTAAAATGGGATATTCTATTGCAAAATATGCAAAGGAACTTGGCGCTGAAGTAATTCTTATTGCTGGACCAAATTCTCAAGAAGATATAAAAGGAATTACTACAATAAAAGTAAATACTGCTCTTCAAATGTATGAAAAAGTATTCGAATATTATAGCAATGTCGATACTGTATTTGCTGTTGCAGCTGTTGCAGATTATAGAGCAAAAGATATTTCTAAAAATAAAATAAAAAAAAATGATGAAAATCTTGTAATTGAATTAGTTAGAAATCCAGATATTTTATTTGAAATGGGTAAACAAAAAGAAAATCAATTATTAATAGGATTTTGTGCTGAAAGCGAAAATTTAATTGAAAATGCTTATAAAAAATTAGAAAAGAAAAACCTTGATTACATTATAGCTAATCATACAACTTATTTTTCTAGTAATAAAAATAAAGTCGTACTAATTGATAAAAATAAAAACAATATTGAGTTTGATGAAGCAAATAAAGAAGAAATTGCAAAAAAATTATTAAATAAAATTTTTAATATTTAGATTTGAGGTAAACAATGTTTAAAAAAGGTGATATTTTTATATACTCTTTTATAATTTTATTTTTTTCTTTTTTAATAACTACAACTTTAAAAATACCAAATTATAAAGCTGAAAAAATAGAAATATATGTAAATAATCAATTAAAATATACTTATAAACTAACAAAAGAACAAAAAATATTTAAAATCCCTACTGATATTGGTGGTGTTAAAGTAGAAATAGTTGATAATAAAGTACGAGTTTTAACTTCAAATTCACCTAAAAAGCTCGTTGTAAAACAAGGATTTATAAGTAAAGCTGGAGAAACATTAATTGGTATTCCCGATAAGTTACTTATTAAAATAACTGGTGAAAGAAAAGATGTTGATTATATTTTACAATAAAATTATAAAAAATATAAGATGAAAATTACATAACTATTAGGAGGAAAATATATGAACTTTAATCAATTATTAAAAGAAAGACGTACAATAAGAGAGTTTGATAAAGAATATTATATAAAAGATGAAGAATTAAAAGAAATTTTAGAAGCAGCAACATTAGCTCCCTCTTGGGCAAATTCTCAAACTTGGAGATTTATTATTTTAAGAGATAAAAATATTATAAGCCAAATAGCTGACACATTTTCTCCAAATAATCCAGCGATAAAATGCACAAAAGATTCAAACTTAGTTTTAGTAGCATGTTTTGAAAAAAATATAGCAGGTATATCTAGAAGAAATGAAATAAATTATAATATTCAAAGTGAATGGGCTATGTTTGATTTAGGATTATCTTGTGAAAATATCTCTTTAAAAATACATGATATGGGACTTGGAAGTGTAATTATAGGAGCTTATGATTATAATAAAGCTAGAGAAATACTAAACATTCCTGAAAACATAGAATTGTGTGCTTTTATTAGTGTAGGTAAACCTATTAAAAAAACTAGGATTATGCCAAAACGAAAAAATATTAACGAAATAATAATAAAAACTCTTTAATTATACCATAAAATATGGTATAATTATACATATATTCTTTACTAAAAAAGTAAATAATTTATCCTGTTAAAAGTGGTGATCAAAATGAAAATAGCGTTTTTTGATACAAAAAAATATGATAAAAAATATTTTGATAAATACAATTCAACACATATAATAAAATATTTTGAAATGAAATTAAATATTGATTCTGTTACTCTTGCAAAAGGATATGATGCTGTTTGTGTATTTGTAAACGATGAAATAACTAAAGAAGTTTTAGAAAAATTAAAAGAGTTTAATATAAATATTGTAGCTCTTAGATGTGCTGGTTTTAATAATGTTAATTTAAAAATAGCTAAAGCTTTAGATATAAAAATTGTTAGAGTTCCTGCTTATTCGCCCTATGCAGTAGCTGAACATACTATTGCTCTTATACTTACTCTAAATAGAAAAATACATAAATCTTATCTGCGTACAAGAGAGGCTAATTTTACTCTTTCTGGTCTTACTGGTTTTGATTTAAATGGTAAAACTGCTGGAATAATAGGAACAGGAAAAATTGCATTAATTGTAATTAAAATCTTAAAAGGTTTTGGAATGAAAGTTCTCGCATACGATCCATATCCAAATCAAGAAAAATCTAAAGAGTTAGATTTTGAATATACAACACTAAATAACTTATATAAAAACTCAAATATTATTTCTCTACATTGTCCACTTACGAAAGATACAAAATATATTATAAATAAAAATAGTATCGATAAAATGAAAGACGGAGTAATGATAGTAAATACTGGTAGAGGTGCTTTAATTAATACTCAAGATTTAATCAATGGCTTAAAAAGTCAAAAAATAGGATATGCTGCTCTTGATGTATACGAAGAAGAAGGAGATTATTTTTTTGAAGATTATTCTGATACTATTATATCTGATGATATTTTAGCTAGACTTCTTTCATTCAACAATGTATTAGTTACCTCACATCAAGCTTTTCTTACAGAAGAAGCTTTATCTAATATAGCTGAAACAACATTAAAAAATTTCTTTGAATTTGAAAATGATTTATCTCTTACAAACGAAGTTATTTTATAAAATAAAAATATTATAAAATCCTAGGCAAATACTATATTTAGTACTTGTCTAGGATCTTTTTGTTACTTAAAATTCCATTTCCCTATTAACGAGGGCTTTTGTAAAGAATTTTCTAAAATATTTAAGTATTCTAATCTATTTATTTCTATAACCCCCATACTTTCTAAATAATCATTTTGTACTTGGCAATCAATTATATCAAAATTTAATTCTTCAAGATTTTTAGCTAAATTAATAAAAGCTACTTTTGACGCATTTTTCTTAATAGAAAACATTGATTCACCAAAAAATATTTTTCCTAATGATTCTCCGTAGAGTCCACCTATTAGATTATTTTCTTCATCCCATACTTCAACAGAATGAGCTATTCCTAAATTAAATAATTTTATATAAGCTTCTTTTATCTCTTTTGTAATCCAGGTTTCTTTTCTAGTAGCACCACATAATGAAATAACTTTTTCAAAACAGGTATCATAAGTTATTCTATATATTTCTTTTTTTAAAAATTTTTTCATAGACTTAGATATATGTATGTCTTTAGGGTATAAAATAGCTCTTTTAGCTGGTGACCACCATAATATAGGTTCATTTTCATTATACCAAGGAAAAATACCTGTAGTATAAGCATTAATAAGTCTTTCTACAGATAAATCTCCTCCTATTGCTATTATTCCTGTTTCATCTGCTAGATTTGGATTTGGAAAATATTTTATATCCTTACTTAATGTATAAATAGCCATTTATATCCTCTCTATTTTTTTATTTTAAAATTAAGTTTATCATTTTCAATATTTATATAAATATTTTGATTTTCCCTTATTTCATTAAATAAAATCTTCTCTACTAACCAATCTTTTATATCTTTATCTATATATCTAATAATTTCTCTAGCACCATATTTTGTATTTAAAGCTTTATTAGATATATGCTCAAAGGTTTCTTCTGATAACTCTATTTTTATTTTTTTATCCGCTAATTTTTTATTTAATTTATCTATCTCTTTTTTAGTTACAAGTATCGCCATATCTTTATTTAAATCATTAAATAAAACTATACTTGACAGTCTATTTCTAAATTCAGGTGAAAAAACTTTATTTATTGCTTTTGAAACAGATGTTTCACCCATAGTTTTTTGGCCAAATCCTACTAAATTTTTGCTCATATCACTAGCGCCTGCATTTGATGTCATTATTAATATTACATTTTTAAAATCAGCTTTTCTTCCATTATTTTCAGTTAATGTCGCATAATCCATTATTTGAAGTAATACATTATATATATCAAAATGCGCTTTTTCTATTTCATCTAATAAAAGAACACAATGTGGATTTTTCTTAATTGCATCTATTAATTGTCCTCCTTCTTCATATCCTACATATCCAGGTGGTGTCCCTATAAGCTTTGCTACACTATGTTTTTCTTGATATTCACTCATATCAAACCGAACAAGTGGTATTTGCATTGTATTTGCTAGTTGTTTAGCCAATTCTGTTTTACCTACTCCTGTATTTCCCACAAATAAAAATGATGCTATTGGTTTATTTTCATCATTAAATCCTACTCTTGATCTTCTTATAGCTTTTACTATTTCTGTTATAGCTTGCTCTTGTCCAAATATTGATTTTTCAAGTTCTTTGTCAAGTGTTCTTAATCTATCTACTTCATTTTCTTCTATTTTTTCTTTAGGTACTCTAGCAAGTTTTGATATTATTTTTTCTATATGTTCTTCTGTTATAGTTATCTTTCTGTTATTTTTTATTCTATAAAATGCAGCTGTTTCATCAATTATATCTATTGCTTTATCTGGCAAATGTCTATCTTGGATATATTTATTTGACAAAGTACATGCTGCTTCTATAGCTTTATCAGTATATTTCACATTATGATATTTTTCATATTTTGATTTTATTCCCATAAGTATTTTTATACTATCTTCTACGCTTGGTTCTTCTACTACAATAGTTTGAAATCTTCTAGCAAAAGCTTTATTTTTTTCAATAAATTTTTTATATTCATCAAAAGTAGTTGAACCAATAAATCTAATATTACTAGAAGTAAGATATGGTTTTAATATGTTTGAAGCATCAAGAGCTGTATTCGTTCCTGCCCCCGCCCCCATTAAAGTATGTATTTCATCTATATATACAATTGGTTTTTCTTCTGTTGATAATTCAAGTAAAATATTCTTTAATCTTTCTTCAAAATCACCTCTATATTTTGTACCTGCTAAAATTGTAGCTATATCAATAGAATATATATTTGTATCTTTTAAATTTTTGGGAACTTTATTTTTAGCTATAAGCTGAGCTAAACCTTCTGTTATCGCTGTTTTCCCTACTCCACTTTCTCCTATATGAAGTGGATTATTTTTAGTTCTTCTTAATAATACTTGCATTGTTCTTTCTAATATTTCTTCACGCCCAATTAAAGGATCTAATTTTTTTTCTTTTGCTAATTCTGTAAGATTTGTTGCGTAAGTTTCTAAATAATTTATATCTTCATCAAATTCATCTTCGCCAAATTCATCTTCATCATAATCTATTGACTTTTCATTATCTATTGAGGTAATATAATTTAAAATATCTATTCTTTTTAGCCCTTGTTTTTTTAAAAAATAACTTATATGTGATTCTTCTTCATCATACATAGATAAAAATATATCATAATATGTAACTATGTCTTTCCCAGCGCTAGCTTTTTGAAGTGTAGCTTTACTTATAATATTATCTAATAAAATAGAATTTATAGGTCCATTTTCTGATTTATAGGTATTTTCATTTAGGTATTTTTCTAAATCTAATTTTAATTCTTGGATATTTACTCCTAAATCCATTAATAATTTTCTCATATTTTTATAGTTTAATGCTGTATACATTACATATTCTGGTGTTAAATATTCATATTTTTCTTCTTCTGCCATTAAATATGACTTACTTAATATTTCATTTGCATATTTATCTAATCTCATTATTTATCCTCCTTTTCTATATCTACCCTTAGAGGAAATCCATTTTGTTTTGCTAGTTTTTTAGTAACACTTACTTTTGTTATTGCTATATCATAGGTATATTTCCCTATAATAGCTTTTCCTTGGTTATGAACTAAAAGCATTAAGTTATTGGCTTCATCTAAACTTTTATGAAAGACTCTCATAAGTATCTCCACTACAAATTCCATCGTAGTATAATCATCATTAAAAAATATTACATTATACATATTAGGTTCTTTAAATTTTATATTATTTTTTTCAATTATTTTCTCTTTTAAACTCATTTTTTCCCTCTCTTTTTATATTTCCAGTTCTTAGTACGTTTAAAGCTAATGCAATTATCATATACATTGTTAAAGTCGAACTTCCTCCATAACTTAAAAATGGTAAAGGAATTCCTGTTGTAGGAAAAAGTCCTGTTACTACGTATAAATTTAAAATAACTTGTGATATTATCATATTTGCTATTCCAAAAACCAAATATTTCCCAAACATATTTTTACTCCTAAATGATATAAGTAGTAAAAAATAATAGAGTACTATATAACTTATTATTATTATTGTAGAAATTAAAAATCCCATCTCTTCACTAATAGTAGCAAAAATAAAATCTGTATGGATTTCAGGTACATAATTATATTTTTGTATCCCATTTCCATAACCTCTACCTAAAAAACCTCCGCTAGCTATGCCGTATATAGATTGAGTTACTTGATCATCCTTATCATATTTATTATGAAAAAGTCTTTCTACATATGAATTTATTCTACGAAATTTATAATCATTATGATTTGAGGTTTTATAAATATATACCCCTCCTAATAATATTGCTCCTATATAAAATATTAAAATAAATGTTTTAAATCCTTTTTTTATCTTTGATATTAAAAACATAGAAAGAAAAATTAAGCTATAATGAATAACCGTTCCTAAATCTTTTTCAAGTAATACTAAAGCTGGAATAATAAAAATTATTATAAAATTATTAATAATTTTTTTTTCTATTAAATCTATAAAACTAATTTGTTTATTATATTTTTCAATTTTTGAAAATATTTTTGCTAATAAGATAATAAAAGTTATTTTTGCAAACTCAGAAGGTTGAATCTTAAATCCTAACGGTATGTCTAACCAACGTTTTGCTCCATTTACTTCTCTACCAAACAATACCCATATTAATAAAATATTTGTAAATAAATAAATAGTAAAAACAATATAAGAATTTTCTAACTTTTTATATGGGGCAATAAAAACTATTAAAAAAACAATTCCTAAACTTAATATTAAAAATATTAGTTGTTTAAAAGCTAATTTAAACCCTATTAAGCTTTTTTCATTTAATACATTATTTAAATTTGAGCTAGCAATATTTATTACACTAAATATAGAAAGTAATATAACAATCGATATAATTACTATAAATATTGCATAATTTGGAATACTTGTTGAAAGTTGATTTTTTTTATCCATATTTCCCCTCACTACTTTTATTTATAGATATTATATCAAAAAAATAACATAATTTATATAATTTAAATTATTTTTTTATACTTAAATTAACAAAACCCAATTTCTAAATAATTTAAATATTTTAGAAATTAGGTTTTATCTTCTATAAATCTTTAATTTTTTAAATTTAATATATCTTTTACTACTTCCGAAGCTATAATAAGTCCGGCCACTGACGGACTAAATGAGATACTTCCTGGTATTTGTCTTTTATTTTTACAATTTATTTCTGTATTAGTGAGACATACACAATTTTCCTTACACGATGTTACTGATATTTGAGGTTTTATTGGTATTTCTTTAGAATAAATAACTTTTAATTTTTTTATTCCTCGTTTTTTTAGCTCTCTTCTCATTACTTTAGCTAATGGACAAACAGATGTTTTATAAATATCTGTTACTTCAAACATAGTTGGATTTATTTTATTCCCTGTTCCCATTGAGCTAATAATAGGTATATTTTCTTTTTTACATTTTTCTACTAATAATAGTTTTGAAGTTACCATATCTATTGCATCTACAACATAATCGAATTTTTCTTTAAAAATTTCATCCTCTGTTTCTTTATTATATAAAATTTTTAATGCCTTTACATTAGCTTTTGGATTTATGTCCAATATTCTTTCTTTCATTATATTTACTTTTAATTTGCCAATTGTTTTAGTAGTCGCATGAATTTGTCTATTAATATTAGTTATACATATATCATCATAGTCAATTAAAGTGAAATTTTCAATTCCTGCTCTGGCTAATGCTTCAACAACAAATGATCCTACTCCACCTATACCAAATATTGCTATATGTTTATTATTTAAAATTTCTAAATTTTTACTTCCAATAATTAATTCCGTTCTGGAAAATCTATGTTGCATTTTGCCTCCTAATTTTATCAGTTTTTATATTTTTAATTATAAAAAATTTTACTCACTATAAAAATAACATCTTATTTTACTATATTTTACATATAAATTCAATAGTAAAATAGTAAATAATATTTTTTTGACATTTTTATATTTTTTTGTATTTGTTTTAAAATTTAAACTTATTTTTTTGATTTTTGATTTTTTTTGTGTTATTCTTATTTTAGAATGAATATTTCTTGACAAATCCAAAGAAATTTGATATCCTTAATTTAACAAAATTATCCTAATGAGATAATACTATTTTAAGAATTTAAAGGAGGACATATTTATGATATTAATTATTAGCTTACCTATTCTTTTATCATTTGTCATAGTCTTATTACTAAATAAAGAAGCTAATAATAATATTAATAAATTGTCGTTGTTTTTATAATACGTTTACGTATTTTAATACAGAATATTTTATATTTTAATATATAAAAACAGCTGACATTTATCAGCTGTTTTTTTTACAAGGGGGAATTTTTATGAGAAGCGATAATATGACAAAAGGTTTGAAAAGAACACCACATTTATCATTATTAAAAGCACTTGGTTTGACTGACGAAGAAATAGGAAAACCAATTATAGGAATAGCTGGTTCTTTTAATGAAATAGTTCCTGGGCATATGCATTTAAGAACTCTTATTGATGCTGTAAAAGCTGGAGTAAGAATGGCTGGTGGAATACCTTTAGAATTTAATACTATTGCAATATGCGATGGTTTAGCTATGAATCACGAAGGAATGAAATATTCTTTAATAACTAGAAGTCTTATAGCTGATTCAATAGAGGCTACTACTATGGCTACTCCATTTGATGCAATGGTCTTTATACCAAGTTGTGATAAAAGTGTACCCGGAATGCTTATGGCTGCAGGAAGACTTAATTTACCTTCTATATTCTTAAGTGGTGGACCTATGCTTGCTGGAAAATTTAGAAATAAAAAAATAGGTCTTAGTAATGTATTTGAGTATGTAGGTGAGTATGAAAAAGGGACTATATCAGAATGTGAACTTAAAGAGGTAGAAAATACAGCTTGTCCTACTTGTGGTTCTTGTTCTGGAATGTATACTGCAAATACAATGAATTGTATGACAGAAGCATTAGGAATAGGACTTCCTGGAAATGGAACAATTCCTGCTGTATACTCTGAAAGAATTAGACTTGCTAAATTAGCAGGAATGCAAATAGTAAAATTATATAATGAAGATATAAAAGCTAGAGATATTTTAACTAAAGAAGCATTTTTAAATGCTGTTGCTGTTGATATGGCATTAGGAGGTTCTAGTAATACTGCTCTTCATATACCAGCTGTTGCTCATGATGCAGGTGTTGATTTAACTTTAGATGATTTTAACAAAATTGCAGAAAAAATAGCTCAAATATGTAAGCTTTCTCCTTCTGGAAATTATTTTATAGAAGATTTAAATGAAGCTGGAGGAATTCCTGCAGTAATGAAAGTATTACATGAAAATAATTTATTAGAAGAAGCTAAGAGTGTTGCATTAAAATCACAAAAAGAAATAGCTGAAAAAGCTGTTATAAAAGATAATGATGTAATAAGAAGTTTTGATAATGCCTATAATAAACGTGGTGGGTTAGCTGTATTAAAAGGTAATATAGCTAAAAATGGTTCTATTGTAAAAGCTGCCGGAGTAAAACCAGAAATGATGGTGCATGAAGGGCCTGCTAGAGTTTTTAACTCAGAAGAAGAAACAGTAGATGCTATTTATAGTGGAAAAATTAAAGCCGGCGATGTTGTAGTTATAAAATATGAAGGACCTAAAGGTGGTCCTGGTATGAGAGAAATGCTTGCTCCTACAGCTGCTATTGCAGGAATGGGACTAGATGGAAGTGTCGCTTTAATTACTGATGGTAGATTTAGCGGTGCCACTAGAGGAGCTTCTATAGGACATATTTCACCGGAAGCCGCAGAAGGAGGAGAGATTGCAATAATTCAAGAAGGAGATATAATCACTATAGATATACCTAATCGAACTCTTAATGTAAAACTTAGTGATGAAGAAATAGAAAATAGAATGAAAAATTTAAAAAAAGTAACAAAAAATGTAAAGGGATTATGTCTAAAAAAATTTGCTCAAAATGTAAGTTCGGCACATAAAGGAGCTATTGAGGAATTATAATTTAAATAAAATAGAAATTTAAGAAGAAAGGTCTGGTAAAATGTTTACTTTAAAGGATTTTACTTTAGCTGAAAATAGACTAAAAAATATAATAAAAGAAACTAGACTAATTTATAGTCCTGCTTTTAGTGAAGAGAGTCAAAATGAAATATTTATAAAACCTGAAAATCTTCAAAAAACAGGTGCTTTTAAAATAAGAGGAGCCTATAATAAAATTGCATTATTATCAGATGAAGAGAAAAAAAGAGGTCTTATAGCTTCATCTGCAGGAAATCATGCTCAAGGAGTTGCTTTTGCTGCACAGCAACTTGGAGTCCCTGCTACTATAGTAATGCCAAAAACAACTCCTCTTATAAAAATAGAAGCTACAAAAAAGTATGGTGCAAAAGTTGTGCTTGCAGGTGATGTCTATGATGAAGCTTATGAAGAAGCAATGAGATTACAAAAAGAAAATAATTATACTTTTATTCATCCATTTAATGATAAAGATATAATAATAGGTCAAGGTACAATAGGATTAGAGATATTTAAAGAACTTCCAGATACAGATGTAGTTTTAGTTCCTGTTGGTGGCGGTGGTCTTATTGCAGGAGTTGCTGCCGCTATAAAACTTGTAAATCCACATATAAAAATTGTTGGAGTAGAACCAGAAGGTGCCGCTAGTATGTTAGAATCATTTAAAAATGATAAAATAACTAAACTAGAAAATACTCACACAATAGCAGATGGAACTGCTGTAAAAGAAGTAGGAGAGTTAACATTTAATCTTTGTAAAAAATATGTTGATGAAATAATTACAGTATCAGATTATGAATTAATGGAAGCTTTTTTAATTCTTGTAGAAAAACATAAAATAATAGCAGAAAATTCTGGTTTATTATCATTAGCTGGAATAAAAAGATTAAATGTAAAAAATAAAAAGATTGTTTGTGTAGTAAGTGGGGGAAACATTGATGTTCTTACTATATCATCTCTTATAACAAAAGGTTTAGTATCTAGAGGAAGAATTTTTAGATTTTCTATAACATTAAATGATAGACCTGGAGAGCTTTTATTAGTTTCAGATATTCTTGCTAAACAAAATGCTAATGTTATAAAATTAGACCATAATCAATTTAAAAATTTAGATAGATTTACTCATGTAGAATTGGAAGTAACAGTTGAAACTAATGGTGAAAGACATATACAAGAGATAATTAAAGCTTTTGCAAAGAAAGGATATAGTATAAACAAAGTAGAGTAAGGAGGTATATTATGAAGAAAATAAATGGAGCCAGAATCATATTAGAAGGATTAAAAAGGCAAGGTGTAGATACAATATTTGGATATCCAGGAGGTAAAGTTATTCCTTTATATAATGAGCTTTATGATTTCTCTGGGATCAATCATATATTAACAAGACACGAACAAGGAGCTGCACATGCTGCTGATGGATATGCCAGAGTTACAGGAAAAGTTGGAGTATGTGTATCAACATCTGGACCAGGAGCAACAAATCTAGTGACAGGTATAATGACCGCATATATGGATTCTATTCCTATGGTTGCAATTACTGGACAAGTAGCAACTTATGAAATAGGAAAAGATGCATTTCAAGAATCAGATATTACTGGGATTACAATGCCTGTTACAAAACACAATTATTTAGTTAAAGATGTAAAAGATTTACCTAGAATTATAAAAGAAGCATTTTATATAGCTAGCACTGGAAGACCAGGGCCTGTGCTTATCGATATACCTTCAAATATTCAACAAGCTGAAATAAATTTTGAAGAATTTGAAATATTACATAATGAACCTATTAGGTTGGATAGCTATAATCCTAATTATGAAGGTCATCCAAAACAAATTAAAAGTGCAATTAGAATGATTAATCAATCAAAAAGACCAGTTATTTTAGCTGGAGCTGGAATAATAAAATCAAAAGCTTCAAAAGAATTTATTAAATTTGTCGAAAGAACTAATATTCCTGTAGGAGTTACTCTTCTTGGACTAGGTTCTATTCCCACAGCACATGATTTATGTTTAGGTATGCTTGGAATGCATGGAACTTATGCAGCTAATTATTCAGTATTTGAATCTGATTTAGTTATTGCTATTGGTATGAGATTTGATGATAGAGTTACGGGTAATTTAGAAACTTTTGCAAAAAATGCTAAAGTAATACATATAGATATTGACCCTGCTGAAATAGGTAAAAATAAAAAAGCAGATATTCCTATTGTCGGTGATGTAAAAAGAGTTCTTGTTAAATTTTTAGAAAAAATGCCTCAAAGAGAAAAAACAGAATGGAATGAAACTGTAACTAAATGGAAAAATGAAAATCCTTTAGTTTATAAAAATTCTAATGAAGAAATCAAACCTCAATATCTAATAGAAAAAATAAGTGAATTAACAAATGGTGAAGCAATAATTGTAACTGATGTTGGTCAGCACCAAATGTGGACTGCTCAATATTACAAATTTAAAAATCCTGATTCACATTGTACATCTGGGGGAGCTGGAACAATGGGATATGCACTTCCTGCAGCTCTTGGAGCAAAAGTTGGACTTCCAAATAAACCAGTGATAGCAATTGTCGGTGATGGTGGAATTCAAATGACTTCGCAAGAATTAATGACTTTAGCTCATTTTAATATTCCTGTTAAAGTAGTTATTGTTAACAACTCTTATTTAGGAATGGTAAGACAATGGCAAGAAATTTTTTATTCTAATAGATACTCTCAAGTAGATTTAGAAATAAGTCCTGATTTTGTAAAATTAGCTGAAGCATATAGTTTAAAAGGAGTAAGAATTGAAACCCCTTCTGAATTAGATGAAAAATTAAATGATTTACTTACATCTAATGAACCTGTTGTTATTGATGTAAAAGTTTCAAAAGAAGAAAATGTATTGCCTATGGTTCCAGCAGGTGGCGATTCTCATAAAATGCTTGGAATAAAGGGGGAATTATAATGAGACATGTAATTTCAGTTATTGTAGAAAACAAACCCGGTGTTCTTACTAGAATATCTGCATTATTTAGTAGACGAGGATTTAATATAGAGAGTTTAACTGTTGGACATACTGAAAATCCAAAATTATCAAGAATGACTATAGTTGTTGAAGGTGATACTGATATATTAGAACAAATTGAAAAACAGTTATATAAACTTATAGATACATTAAAAGTAATAGATTTACCAAAAGATACTTCTGTTAATAGAGAACTTGTACTTATAAAAGTAATAGCTGACAAAAAAAATCGTTCAGAAATTATTCAATTTACTGATATTTATAGAGGTAAAATAGTTGATGTTGGAGAAAATACTCTAACTATAGAAATTACTGGTGATGATGGAAAATTAGAAGCATTTATATCTATGATGAGTAAATTTGGAATAAAAGAATTAGTTAGAACAGGTAAAATAGCTCTTCATAGGGGAGAAAAAACTGTAATGTAAAATGTAACAAAAATAAATTTATAATTAAAATTTATATATATTAAAAATAAAATAGGAGGAAATCAATATGGCAAATATTTATTATGAAAAAGATTGTAATTTTGATTTATTAAAAGACAAAAAAATAGCAGTAGTAGGATATGGAAGTCAAGGTCATGCTCATGCACAAAACCTACATGATAGTGGAGCAAATGTAACAGTAGGACTTAGAAAAGGAAGCTCTTCTTGGGCACAAGTAGAAAAAGATGGATTAAAAGTTGATACTATAGAAAATGCTGTAAAAAATGCTGATGTAGTAATGATACTAATTCCTGATGAAGTACAAAAAGATACTTATGAAAAATCGATAGCTCCTAATCTTAAAAAAGGAGTTTATTTAGGATTTGGACATGGCTTAAACATTCATTATGGATTAATTGTACCACCTACAGATGCAAATGTATTTATGACAGCACCAAAAGGCCCTGGACATATGGTAAGAAGAACATTTACTGAAGGAAGTGGAGTACCATGTTTGGTAGCTGTATACCAAGACGTTGCTGGCGATACAAAAGATATAGCTATGGCTTGGGCATATGGTGTAGGAGGTGCTAGAACTGGAATATTAGAAACTACATTTAAACAAGAAACAGAAACTGATTTATTTGGTGAACAAGCTGTTCTTTGTGGTGGAGTAACAGAACTTATGAAAGTTGGATTTGAAACTTTAGTAGAAGCTGGTTATGATCCAATGAATGCATATTTTGAATGTGTACATGAAATGAAGCTTATAGTTGATTTAATATATGAAAAAGGATTTGAAGGTATGAGATATTCTATATCAAATACTGCTGAATATGGAGATTATATAACTGGTCCTAAAATAATTACTGCTGAAACTAAAGAAGCTATGAAAGGTGTTCTTGCTGATATTCAATCTGGTAAATTTACTAAAGATTTTATGGATGATTATAATAATGGACAAAAATTCCTTAAATCAAAAAGAGCTAGTGAAGCTGAACATCAAGTAGAAGTAGTAGGTAAAAAGCTTAGATCTATGATGGATTTTGGATTTAAAAAATAATTTTTATATAAAAAAGAAGCTAAAATTAGCTTCTTTTTTTAATTCTATAATAAATTTAATATTTAAAGAAATTTAGATCTGTTTTTAATTTTTCTAAAAGTTCATCTAGAGATTCAAGTAATTCTTGATTTTCTTTTATATGTTCTGTTACTGTTTCTGAAATATCTTTAGTTTCGATACTCAATGATTCTATTTCTGTTGAACTATCAGTAATATTACTTATCGCTGTTGTTATTTCTTTTGCTGCATGTGCTTGTTCTTCTATTGAATTACTTACATCTTCTATTTGAATAGCATTTTGATTATTATGCTCTATTATTATATCCATATTTTCTTTTGCACTATTTGTCATTTTTAATCCTTCTTCTACTTTTTCTTTTACTTCTGTAGCACTAATTTTTACATCTTCTACTTCTAGTTGAATTGTTTTTATTAGATTATCTATTTCATTTGTTTCTTTGTTTGTTTGTTCTGCTAATTTTCTTATCTCTTCTGCTACCACACTAAATCCTCTTCCTGCTTCTCCTGCTCTTGCTGCTTCTATTGCTGCATTTAGTGCAAGTAAATTAGTTTGCTCTGCTATTGCATTTATTGCTACTGTTATATCCCCTATTTTATTTGATAAATCTTTTAGTTTATCTATATCTTTATTTGTTTGTTCTGTACTAATATTTATATTTTTCATATTTTCAGTAAGTTTATTCATATCAACTGCACTATTTTTAGCTATTTCTAAAGTTTTATTAAATGAATTATTTACAACTTTGATATTTTCGTTTGCATTATCACTTGTTGCGCTTATTTCCTGAAGTGCTGCTAAACTTTCTTCTGAAGAAGCTGTTTGATTTCGTACATTATCCAATACAGTTTCAATTGCATTATTCAACTGCATTATTCCTTTATCTATAGAATTTTTTAATTCTGTATATGATGGACTATTTTCACCATTTATTAAATTATCCATTGATTTATTAATCATTATATTTACTGATACAATATTTTTTGCTATATCATTTATTTGAGAAATAGTTGATTTTAATTTATTTGTAAAATTATTAAAATCTTTTGTAAGTTCTGCTATTTCATCTTTTGTTGATACTTTTAAATTAGAATTCAAATCCCCTTCAGATAATTTTTTAAATTCGGCTATCATCATTTTTATAGGTTTTGAAATAGAATTTCCTATAATTTTAGAAAGAATTAATCCTAAAACAATAACTACTATTACTACTTTTAATAATAATTTTTGAAGATTTAATAATGTTTCTAACATCTCATTAACTTCTGGTGCTCCCCCAAGTATCCATCCATTTTTTAATACTTTGTAGATAAATAATTTATCTTTCCCTTGAAATTTATATCTAAATATTCCTGATGTTTTACCACTATCTATCATCTCTTTTTTAAATAAGTCTCCCAACTCTTGACCAGCATCATAAATACTTTTTAATTTTTCATTTGGATGATAAAGTAAATTTAAGTTCTGATCCATTAAAACTACATACCCTGTTTTAAAAAGTTTTACCTTTTTCAACTCTTCTTGTAAATGATTTAAATAAAACTCACTTCCTACTACGCCTATTACTTTCCCATTTTTTTCAAATTTTTTACCATAACTTACAAGTATTGTTCCTTTTCCCCATGGATCCCATTTATATGGTTTTGACCAGTTACTTCCATTTTGTAATGGTTTTACCCACCAGTCATCTTTTTCGCTACTGCTGCCTATTACATTCCATTTTGCATTTCTTATCATCTTTCCATCTTTTTCTCTTACTGATATATGCATAATAGATTTAGTTACATTAGTATTTCCTTGAAACCAAACATTTTTATCTGCTGATAAACGTCCTATTCCATAAAACATATTTAAAATACTATTTTCATAATTATCTGTATACTCTTGGCTTTCTTGTATTTTATCTAAATCTATTGTATTTTCAAGTATATTTATTGCATTATCTACTGTCATCATTGTAGTATGAATTTGGGTATTCATATCATTTGCTATGCCTGCCAATATTCCCATAACTATATTCTCTGCATCTTTTTGTATATCTTTACTTGTATAAATAAGAATATTTCCTAATATTAAAATAGTTGTAACCAATACAGTTCCAACAATACTAAGTCCAATTTTATTACTTATTTTCATATAAATCCCTCCTAAATTTAATTCTCTTAAAAAGAGTATACTGACTTTACATTTAATTTCCTTTTAAAAAGATGAAAAATTTTATAAAAATATTTTATAATATTAAAAAAAGCAAAATATTTTTATTAAATAGTCAAATATGACATTTTTCATGTTTTTATATAAAAAAAAGAACTATAATATAAATAAAAACTATGAGGTGATATTATGAATGATGTAATCAAAATAATAAAAAACAAAAATTTATCATTTGAACAAAAAGTAATAGAACTTGCAAGATATGCAGAAAATAGTATAGCTCCTATCGAGTTATCAAATGAAACAAAAGAGATGATTGATAAAGGAATAATTTGTGATTTATTTGAGGGGAATGCACCTTATAGACCAAGATATATTATAGTTGATTTTAATAAATTTATGAAAAAAGGTTCAACATTTTTAGAACTTTCTCCGCCTAAAACTTTATTAGAAGCAGTCAATAATTTACTTATTTTTTATAAACATATACCTTCTATTACTACAATGCCAGTATATATAGGAAATATTGATTATATTTTAGAACCCTTTATAAAAGGTGATGAAGACTATGAAGTAATAAAATTATTTTTAAACCATATAGATAAAACAATAACTGATTCTTTTTGTCATGCAAATATTGGACCTAAATATACAAAAGCTGGTGAATTAATTTTAAAAGCTTCAAAAGAATTACAAAATCCCACACCAAATATTACTTTAAAATATGATGAAAATATAACTCCAATAGAATTTGCAAAATTAGCAATAGAAACTTCTTTAATTACAGCAAAACCAAGTTTTGCAAATGATAAAATTTTTAGAGCAGATTTTAATGGTGATTATGCAATAGCTAGTTGTTATAATGGACTTAAGATCGGCGGTGGTAGTCATACTCTAGTAAGAAGTAGACTTTTTAGATTGGCTAAAGAATCAAAAAATATTGATGATTTTTTAAATAATCAACTTGTTAAATTAGTTAATAACATGACTGATTATATGGATAAAAGAATTAAATTTATTGTAGAAGAAAGCGGATTTTTCGAATCAAATTTTTTAGTAAAAGAAGAATTTATTAAAATAGATAATTTTACTGCAATGTTTGGAATAGTCGGTCTTGCTGAAGCAGTTAATTATTTATTAAAATTAGAAGGTAAAAAAGATAGATTTGGACATAGTAAAATTGCTAATGAATTGGGATATAAAATTATAGAAACTATTGATAATTTAGTAAAAAAACATAAAGGTATTTATTGTAATTTTAGTAATAATAAATATTTGTTACACGCACAAGTAGGAATTGATAGTGATACTGATTGTACCCCTGGATGTAGAATTCCTATAGGAGAAGAACCCGAAATATTTGAGCATATTATTCAATCAGCACCATTTCATAAATTTTTCCCTTCAGGTATAGGTGATGTATTTAGATTTGATAAAACTACTAGAAATAATTTGGAATCTATACTTGATATAATAAAAGGTGGATTTAAACAAGGACTTAGATATATCTCTTTTTATGAAGATAATGCAGATGTAGTAAGAATTACAGGCTATTTAGTAAAAAGAAGTGAAATAGAAAAATTGGATAATAATCAAGTTGTCCTACGAGATACTACTGTTCTTGGAAAAGGTGCCCGAGATAATATGAAAGTACTTGAAAGAAAGTTAAGGAAATAATGGTGACTTATGGATAATAAAGTTTTGATAAATAAAATAATCCCTTTTTCTTCTGTTGATGGACCCGGCAACAGAACAGCTATTTTTTTACAAGGTTGTAACTTTAATTGTAAATATTGTCATAATCCAGAAACTATAAACATATGCAATAATTGTGGTGAATGTGTTAAATTTTGTAAATTTAATGCTTTAAAATTAAAAAATAATAAAATTAATTACAATCAAAATAATTGTGTAAATTGTGATGAATGTATAAAACATTGTAAATATAATAGTTCTCCAAAAGTAATAGAATATACTGTATCTACTTTAGTAAATGAAATTTTAAAATACAAAAATTTTATTAGAGGAATTACTTTTAGTGGCGGTGAATGTAGTATAAATCATTTATTTATCACTCAATTTGCTAAAGAGATTAAACAATATAATTTGGATGTATATGTAGACACTAATGGTTATATTGACTTTACTAGTTTGAACGATTTTGTTAATATTGTAGATAAATTTATGCTTGATGTAAAGGCATTTGATAGAAACATTCATAAAAAATTAACAGGAAAAACAAATGAAACAGTCTTAAAAAATTTGAAATTTTTAATAAAAAATAATAAAATATATGAAATAAGAACCGTACTAATTAAAGAAATAGATTATTTTGATACTATTAATTATGTAGTACCTTTGATCAAAGATACTAATATTAGATATAAATTAATAAAATATAGAAAATACGGTGTTCGCAAAAAATATAAAAATTTATCAGCTATTTCTGATGACGAAATTAAAAAAATTATACAATTATTTCCAAAATATTTTAATTTTATTACTGTATAAAAAAATACCCTTAAATTGAGGGTATTTTTATTTTATATACTTTTCAACTCTAATTTTTTTACAAATCTTTCTATTCTGTCTATTGCTTCTTTTATTAACTCTATCTCTGTAGCATAAGAACATCTAATATATCCTTTAAATTTATCTCCAAAAGCACTTCCTGGAACAACTGCTACATTTTCTTCTTCTAAAAGTTTTATTGCAAAATCTTCATCACTTAATCCATATTTTTCAATATTTGGGAAAATATACATTGCACCTTTTGGTTCTATTACATCAAATCCTATATCTTTAAATCCGTGATAAATAAGCCTTCTCCTTCTAGAAAAAGAGTCTTTCATTTTTTTTACTTCTTTATTACAATTTCTAAGTCCTTCTATTGCACCATATTGGCTAAATATTGGTGCACAAAGAATTGCATATTGATGTATTTTAATGATTTGAGTTACAAGCCACTCCGGTCCACATAAGTATCCTATACGCCATCCAGTCATAGCAAATGCTTTTGAAAAGCCATTTAAATAAATAGTTTGTTCTTTCATACCTTCAAATGAAGCAATTGAGAAATGTTCTCCATCATAACTAAGTTCTGAATAAATCTCATCACTTATTACCCAAATTTGATGTTTTTTTATAACTTTTGCAATAGCCTCCAATTCCTCTTTTGACATTATTGCCCCTGTAGGATTATTTGGATAACATAAAATAATAGCTTTTGTTTTAGATGTAATCTTTTTTTCAAGCTCTTCTGGTGTTATTTTAAAATTTGTTTTAGATGTATCTATTTCTACTGCAACTCCATTCATAAACTCTACCATTGGCCTATATGGCACATAGACAGGCTCTGGAACTATTATTTCATCACCTGGATTAATAATAGCTCTAAGTGCTAAATCTATTCCCTCGCTTCCTCCTACTGTAGCAATTATCTCTTTTTCATTATACTGTAAATTGTATTTTTTTAAATAATTTGCAACTTCTAATCGAAATTCTAAAAGTCCATAATTTGATGTATAATGAGTGTGTCCTTTTTTCATATGATAATAAGCACTGTCAATAATACTCCATGGTGTTATAAAATCAGGTTCTCCAACTCCCAAAGAAATTACATCTTTTTTTGTTTGTACTAAATCAAAAAATCTTCTTATTCCAGAAGGTTTTAATTTTTTTAAATTATTAGATATCTTATCTTTCATTTCATTATTCATTATGGCATCACAGCCAATCTATTATCTACTTTTTCTTTATCTTCCATTACTACATCATTTTCTTTATATTTTTTTAACATAAAATGAGTAGCTGTACTATTGATATAATCAAGTGTTGATAATTTTTCTGATACAAATAATGCAACCTCTTTTAATGATTGGCCTTCTATAACAATTAAAAAATCAAAGCCTCCTGACATTAAAAATAATGATTTAACTTGTGGAAATTTGTATATTCTTTCAGCAATTGCATCAAACCCCATTTCTCTTTCAGGGGATACTTTTACTTCTATAAAAGCTTGAACTTTTTCATCTTCCCATTTTTCTTCATTTATTATAGTTGTATATTTTAATATTATATTATCTTTTTCAAGTTGTTTTATTTTTTCTTTTACTTCTTCTTCTGATATTCCTAACATAATTGCTATATCTTTTGGAGTTGCTCTTGAATCCTCTTTTAATATTTCTATTATTTTTTCCATACCTGCTCCGTTGCCAAAACCTTATAAACTTTATAAAATCTATTTAACCCTTATCCATGTATCCCATTTTTCAAATAGCTTAATTTTAGATACAAGAAATTTAATTCCATAAAACTTATATTTCAGTTGTCTTTTAGACACATGCAACCCTTTCTGTGCTATAGATTTGGATAAATCAAAAATTGTTTAACTACTCTTAAAGTTTGATTTTCACAATCTTAATAGTTGCTTAATATAAATGATTATTCCTAATATTAGATAATTTCCTATAAAATAATCTAATGTATTTTTCAGGTTTTATAATGTTATTGGTTTTGACGAACTTCCTCCCTTCTTTTTATTTATTTTGATTTCTAGATATTTTGCATTACAATCTACGCAATATTTTTTCTAATTTTTTACTAATATTATTTTATTTATATTATTAAAAATCTTCTGTTTTTTAAATATTATCTATTATTTCAATAGCAATTCCATATTTATTATTTTCTATAAGTTCCTAACTAAATCTTATTAATCCATATTTATATAAAATTAATATTTTGTTAGCTATTATTTTACATTCTATTTTCATAATAAAAACATTTATATAAACCTAATTGTATAATACAATAATTTAGTTGTCAATTAATTTTTGTTTTATATTTTTTTTGATAAAATTAATGCTTCCATTTAAATAATAAACCCTATTCTCCAACATTTAGAAAATAGGGTTTATTATAAATATTATTTATCATTTACACCTTTAATTGCAGTATCTATTTTATTTACTGCTTTATCAATATTTGTTTTTGCTCCCTCTAACGAATTTATAGCTTCTTTTAAGGCAATATTATCTTTTTCTATTTTTTCTTTTTCTATTTTTACTTTTTCTACTGCAACTTCTTTATTTTTTATATTTTTATTAGCTATTTCAAGATCATATTTCACAGCTGATAAATCTTCTTTTAAAGCTTCGTTCTCTTCTTTTAATGCATTATAATTAACTTTTGTTGATTCTAATTCTTCCATAGTTGTTTTTAATTTTAATTCAACATCTGTAAGATTTTTTTCGGCTAGTTCTAATTTTTTTTGAGTTTCTGATAATTTTTCTTGAACTGCATTGTCTACTTCTGGAGTAGCTTTATTCGAACAAGCAGTTACTAATAATAATAATCCAAATATCAAAATTTTAAGTTTCTTCATTCATTTCCTCCCTTATATTTATATTGATAATTTTTTATTAATTATAGTATACAAAAAATACCTTTTGTTTTCAAGGTATTTTTAAATCTCAATTTTTTTTAGTAATTTAAAAACAATATTTTACTATACTTTTAAAGAAAATTTAAAATAAATATTTTGCGATTTCAAATATATCTGGATCAATAGATTTTCCTACCATAGTCTTCTCCATTATTTCTAATGCTTTTTTAAATGTAAGTGGTTTTCTATAAGGTCTATTCGATGTAAGGGCATCTAAAATATCTGCAAATGTTATAATTCTAGTTTCTGTTGGAATATCTTTTGCTAAAAGTCCAAATGGATATCCTTTTCCATCTAGTCTTTCATGATGTAATGCTCCATAACTAATATTTTTTAATTGTGGAGAATCTTGAAGAATTTTATATGAATATAGTGCATGATCCTTTATTTTTTCAAATTCATAATTAGTTAATTTGTCAGGTTTATCCAAAATACCTACATCTACAACAAGCTTTCCGATATCATGTAAATAAGCTGCATATCTAATTTCTGAAAGTTTTTCTTTATCATATCCCATTTCTTTTCCTAATACATAACTATATGTAGCAACTCTTTTAGTATGCCCGCCTGTATACTGGTGTCCACTATCTATAATAGAAGCAATAACTGATAAAAATTGCTCCTCTTCTACATTATCTAATTTTATTTTATAAACATTATTTTTCTTTAAAGTATAAGTAAAGAAATTATCAATATAGTCATTATTATCTAACATAATTTTAACATAATCTTTTTCTACTATTTGTTGTAATCCTTTAATAACTATACTCTCATAACCTACTTCTGGAACTTTATTAGTTGAAATGTATTCATCAATAATTGCTACAATTTGTGATTCTATTGATATATCTGTTTTTTGATAAAACCCTGTCCCATCTATTTTTTCATTACTATCAAGAATAATATCTGCTATTTCATATTGAAGTGGTATAATTTCAGGCATTATACGAATAAGTTCAGCTGAAGCATAATTGGATTTATGATTAATATCAGAATTTCTCATATCACCAATATCTTTTAACATAGCCGCAATTGTTACTGTAAAACTGCTTTCATCGTTTATTAAATCTACTAATTTTTTTACTAAAACAACTCTTCTTTTTAATATTTTATATTTTTCAATATTAGTATATTTCAAAGAATTAAGTACAGCTCCAATTATATCTAAGGTTACTATATCCATAATTTTCTCCTACTTTAAATTCAAATTATAATTTGTTTTATCCATTCCTCTATAATCTTATTATTATTTTCTTTATTTTTTATACAACTTTTTATTCCTAGTGTAGATATTATACTATTTTTATCAATAAATTCCTCAAATTTTTTAAAAGTTTTTCCACTATTCCCATCAAAACAAGCAAAAATATATATTTTTTTATTTTTAAGATTTTCTTGTTCTTTAACTAAAAAACTTCTTATTGCTGGTGTAAAATTCCCTGCCCAAACAGGTGTACCTATTATTATTGTATTATAATTATTAATTGTTTTATTATAATCATTTAACTCAGGCATCTTTTTCATAAACACCTGTGAGCCACCCCAAAAATACTTTAGAAGACCTTTTTCTGTTATATCTTTTTTAGGACTTAACTTAATAATATCAAAATTATTTTTTTCCAATAGTTTATTTACAACATATTCTGTATTTCCATCTAATGAATAATATACAATAAGACCTTTTTTTCCCAAAATAATCCCTCCTATTTTTTTTCAATATGATGTGAAATTCCTGTTTGAAGTAATTCATAAATATGTTCGTCATCTAATGAATAAAATACACTTTTACCTTTTTTATATGATTTTACTATTTTATAGTTTCTAAGTAATCTAAGCTGATGTGAAATAGCTGATTGAGTCATTCCTAAAACTTCTGCTATATCACATACACAAAGTTCAGTATTTAAAAGAGCATAAATAATTTTCAATCTAGTCGGATCCGAAAAAATTTTATAAAAATTAGCTAAATCTATTAATAATTTTTCATTATACATTTTTTCTTTTATATTTTTAATTATATCTTTATGTATATCTTGGCATTCGCAAATCAAACCTTTTTTTTCCATAAAACTCCTTTCATTCTCTCTAATTATATAATACATTTTTTAAGAAAAAAAAGCAAAAAAAAATAAAAAAAGCACTATATAGTGCTTTATAAAAATATTTATTATTATATATGGCTGGGCTGGCTGGATTCGAACCAACGCATGTCAGAGTCAAAGTCTGATGCCTTACCGCTTGGCGACAGCCCATTAATATATTTTTTATGGTGGAGCTAAGCGGGATCGAACCGCTGACCCCCACAGTGCAAGTGTGGTGCTCTCCCAAACTGAGCTATAGCCCCATTAAAAATGGTCGGAATAGCAGGATTCGAACCTGCGGCCCCCTGCTCCCAAGGCAGGTGCGCTACCGGACTGCGCTATATTCCGAACTTACCTTTATTTCTCAAGGCAAGAATAATTATACTATATTAACCATCAATTGTCAATTATTTTTTTGAATATTTTTTACTTTTGAAAATTGCAAGTTTAATTGCACACATCTACCCCTATGCTAATTTAACTAATTTTTCTTCATAAACTTCATTTGGACTTTTAAATCCAAACATT
>sequence11
TATAAAATAGAGCCATTATTAAGATTTATAGAAGAAGAAGAAGCAGAAATGAAGGAAAAGTTAAAATGGGGATATAACACAGCGTATATGCTAACAGGACAATTAAATGAACACCCAAGAGCAGCAATAAATTTTGTAAAAGAAGAAAGAAAAGATTATACAAAGTTTTATGAAGAAGTGATATAAAAAGGACTCGCAATAAGCGAGTCCAAAATATTATAATTTAAATAATAAATCTTCGTAAGTTGGGAATGGCCAAGTTTTTCTATCAACTAATTTTTCTAAAGCATCAGAAGCTTCTCTAATTTCAGCCATTTTTGCTTTTACTTTATCTCTATAGAATTTAGCTAATTCATGATTAGATTCTATAGAAGGAACTTCTTCAAGAAGTTTTTCTAATTCTATTTCTTTTTGTTTTAATACTTTACAATTTTCAAGTATTGATTTCAAAATTCTTTTTTGAGGTAATGTAAGTATTTCGCTTTCAGGCATAGCTTCTTTTACTTGATTAATAGTTTCAGCTAATTTTAAAGCATAATCATTACAAGCAGGGAAGATATAAGATTTAACCATATCTAACATTACTGTAGCTTCTATATTAAGATTTTTAGCATATGTTTCACAGTAAATATCAAATCTTGAATCTAATTCATCTTTTGATAGTACTTTTTGACTTTCAAATAATTCATAAGCTAAATCAGTAACTCCTATTTCTAATGCTGAAACTGTATCTTTAAGGTTCAATAATCCTCTTTTTTCAGCTTCAACTTTCCATTCTTCGCTATATCCATCACCATTAAAGACAATTCTATTATTTTCTTTATAAGAATCTATAACTAATTTTTGGATCGCTGAAATTTTATCATCAGCTTTTTCTAATTTATCAGCAAATTTATTTAATACTTCAGCAACTGCTGTATTTAATATAACATTTGGTCCTGCCAATGATTGATTTGAACCAACCATTCTAAATTCAAATTTATTTCCAGTAAATGCAAAAGGAGAAGTTCTGTTTCTATCTGTTAAATCTTTAGGTAATTTAGGTAGCGCATCTACTCCTATTTCTAATAATTGACCTTCTTTTGCTTCGTTAGTTTGTCCTTTTACTAAGTTTTCTAAAATTTCTGCTAATTGGTCTCCTAAGAACATAGAGATTATAGCAGGTGGAGCTTCATGCCCTCCTAATCTATGATCATTTCCAGCACTAGCAGCACTCATTCTTAGTAACCCTTGATATTTATTCACAGCTTCAATAATAGCAGTTAAGAATACTAAAAATTGAGCATTTTCATGAGGATTTTTACCAGGTTCTAATAAGTTTATTCCATCATCTGTAGCTAATGACCAGTTATTATGTTTACCAGAACCATTAACTCCAGCAAATGGTTTTTCATGTAATAAAGCAACTAATCCGTGTCTTAAAGCTACTTTTTCTATTGTTTCCATTGTTATTTGATTTTGATCTGTTGCTTGGTTTACAGTACTAAATACTAAAGCAACTTCAAATTGATTTGGAGCAACTTCATTATGTTTTGTTTTAGATGCTACTCCAAGTTTCCATAATTCATAATCAAGTTCTCTCATAAAAGCAGCAACTCTTTCTTTAATTCTTCCAAAATAATGGTCACTTAATTCTTGACCTTTTGAAGGCATAGCTCCTAAAACTGTTCTTCCTGACAACATTAAATCAGGTCTTTTAAAGAAGAAATCTCTATCAACTAAAAAATATTCTTGTTCTGGTCCAACAGTAGGAACAACTTTTTTTGAAGTAGTATTTCCTAAAGCTTTTAATACTCTAAGAGCAGCTTTTCCAACAGCATCCATTGATCTAAGTAATGGAACTTTTTTATCTAATGCTTCACCAGTATATGAAACAAAAGCAGTTGGTATATATAAAGTAGTTCCTTTTTCATCTTCTTTTAAAAATGCAGGTGAAGTAGTATCCCATGCAGTATATCCTCTAGCTTCAAATGTAGCTCTTAGTCCACCATTTGGAAATGATGAAGCATCTGGTTCTCCTTGTACTAATTCTTTTCCAGAAAATTCCATAATTACTTGACCATCAAAAGTAGGCGAAATAAAAGAATCATGTTTTTCAGCAGTTGAACCAGTTAATGGTTGAAACCAGTGAGTATAATGAGTGGCTCCTTTTTCTAAAGCCCAATCCTTCATTGCGTTTGCTATAACTTCTGCCACAGCAAGATCAAGAGTTTTTTCTCCATTTTGTACTTCTTTAAATTCTTTGTAAATTGATTTTGGAACTCTTTTTCTAAGAACTGAGTCACTAAAACAATTTTCTCCGTATAATTCACTAACAGATTTTTCTTTAAAATTAAATTCTGCCAATTTAATCCCCCCTATTTTTATTTTATATTTCTATTTATGTTTATTATACAATTTTTTTAATTTTAATCAAATATATAGTTTTAATATAAAGAATATATTAAATATATAAAATGAAATTTTGAATTTTTTTAAATCATAGAGTATATTTATTAGTAAGAAATGTTTGATAAAAATTTACAAAACATATAATTTATAAAAAATATATATAATACAGGCTTATAAAAAGAAAGGTAATATTTGAGAAAGAAGGGGTATTATAATGAAAAGTGATATTGAATATTTAAAATTATTATCAACACAGTATGAAAATATTGAAAAAGTTAGTTCTGAAATTATTAATTTAAGAGCCATACTAAATTTGCCAAAAGGAACAGAACATTTTTTAACAGATTTACATGGTGAATATAAAGCGTTTAGACATGCGTTAAAAAGTGCATCTGGAGTATTAAAATTTAAAATAGATGAGATATTTATATCTGAACTTATGGAAAAAGAAAAAATAGAATTACAAGGAATAATATATTATCCAGAAAAAAAATTAAAAATTTTAAAGAAAAAAGAAATATTAACAAAAGATTGGTATAAAGTTATACTATATAGATTGATAAGAGTATGTAAAGTAGTATCATCAAAATATAGTAGATCAAAAGTAAGAAAAGCACTTCCTGAAAATTTTAGATATATAATTGAAGAACTTTTACATTTGAAAGAAGAAGATCTTAATAAAAAAGATTATTATAATGAAATAATAGAAACAATTATTAATATAGGACAGGGCGAAAATTTTATTATTACAATAGCAAACCTTATCCAAAGATTGATTGTAGATAAACTACATATAGTAGGAGATATATTTGATAGGGGAGCATATCCACATAAAATTTTAGATTTGCTATTAGAGCATCACAATTGTGATATACAATGGGGAAATCATGATATTTTATGGATGGGGGCAGCTATGGGAAATAGAGCACTTATAGCTACAGCAATAAGAATATCATTGAGATATGGTAATTTAAGTTTATTAGAAGAGGGGTATGGATTTAATATGAGACCTCTTGCAAATTTTGTCCAAGAAGTGTACAAAGAAGAAAAAAATAATATATTTAATCCAATACTATTAAAAGATGAACTTAAAGAGGAAGAGAAAAAATTAATTTCGAAAATGCATAAGGCTATTGCAATAATTCAATTTAAATTAGAAGAAGAAATAATAAAAAATAGAAAAGAACTTCAAATGGAAAATGAACTATATTTATCGAGAATTAATTTTGATAAATATACAATAAATATAGCTGGGAAAGATTATAAATTAGTAGATAAGTACTTTCCAACAATAGATAAAATTGCTCCTGAAAAACTAACAGATAGAGAAGAAGAAATAATCTCTTATTTTGTGGACAGTTTTTTATCAAATGAAAAACTACAAAAGCATTTAAAATTTCTAATAAATAAAGGTTCTATATATTTGAAATATAATAACAATTTGCTTTTTCATGGATGTATACCTCTAGATGAAAATGGAGAATTGAAGTCTTTTAAATTTAAAGATAAAGAGTATAAAGGAAAAAAATTATTAGATTTCTTTGATCACATTGTAAGAAAATCCTATAATTTTAAAAACGAAAAAGAAGATTATAGAGACTATATGTGGTATTTATGGCGAGGAAAATGTTCACCGCTTTTTGGAAAACAAAAAATGACAACTTTTCTTAATTATTTTATAAATGATAAAGAAACAATAATAGAAGTTAAAAACCCTTATTATAAGTTAAGAGAAAAAGAAGAGACTTGTAAAAAGATTTTAATTGATTTTGAAATGAATCCGGAAACTGCTCATATAGTAAATGGACATACACCAGTATTAGAAAAAAGAGGAGAAAGTCCAATAAAAGCAAAAGGGAAATTATTTGTTATTGATGGTGGTTTTTCTCAAGCATATCAATCAAAAACAGGAATTGCAGGGTATACTTTAGTATATAATTCTTATGGACTTCGTATAATATCACATAAGCCTTTTATATCTGTAAAAAAAGTATTAGAAGAAGGAGATGATGTGGTTTTAGCAAATGAAATTATAGAAAGACAAGAAAGACAAAAAGTAAAAGATACAGATATAGGAAAAGAATTAGAAAGAAAAATTGAGGACTTATTAGATTTATTAAAAGCATATAATCAAGGCTGTATAAAGGAAAAAATCTAGTTTTATACTAGATTTTTCCCATTTGTATATATATTTTTGATAAAAATAAAGTTACATAAAAAGGGTTTTGCTCAATTGGAAAGTTTAATTGACAAAAGAGAATAGCTTCAAGTGCTTCAAAATCATCTTCGCTCTCAGCTTTTTCACAAATATTAAATATACTTTTCTTAATAGTAATTAAATTTTCTTTTTTTGAAAAATAATATTTAACTCCATTTTCAATAATATCATTAATATTTGCATCTATTCCATATTTTCCAATCCGTTCTTTTACTTGTTTAGCATAAAGTGTTATAGAATCATCGGCTTCAAAAATATTAAAATAATTTGGATGAAGTTGTAAAAATTCTTGCATTTTTTCAAGCAAATGATCAATATCTTCAATTGAAAAAACTTCTAAAAGCTTTTCATAAGTTCTATTAAAATTAATATCAATTTCGTCATTTGTATCATTTAAAATATCAATAAAATGGTCATTTGCGAGATTTAATATAGCTGAACGAATTATTTGTTTATCCATATTGATTTTATCAGCTAAATCAGTATAATTTAATTTATAATTTGTAAATTTTGATGTAGGAGGAATAAGCGTTTTTAAAATATTAAAAAAAGCAATTTCTTTAATAGTATTTTTTTTCATATCATAATATCTCCTTTTCTACTAAATAATAGAGTATTTTTTCTAAAAAATAATATAGTTTTATTACTTTTTATACTAAAAAAAAACAGTTTTCCTTTTTTTATTATAAATTTTTTATTAGTTTTAACAAATTGTCAATATAATTGTTTTTTTCATAATATTTAATTAACTGATAAATTAATGTACTTGATTTAGATATATATTCTTTATGTATAAAATCTAAAACTATTTTTTCAATAAATAATATATTTTCAAAATCATTTTGAGAAATAGAATCTTTTAAAAATAATTCTGTGATCTCTAATACATTATTATTAAATATAAAATTATTTTTAATTAAATTTTTATAAAAAAAATCTACTTCAGAATAATTATTGAGTTTTGAAAATAATTTTATTACTTCACAATAAACCTCTTGTTTTGTTAAATAGTTGTTATTTAAGTTATTAATATTTTCTTTTATATAATTTATACATTCATCTTTATTATTTAAATAATTTAGCTCATAATTAATAAAACATAGTCCTATTCTTCCTAAAATATTTAGATTAGGATATTTAGATTCTATTAATTCAGAATAAAATTCTGAAGCTAAAGAATAATTTTTTAAATAATAATGAGATTCAGCAAGAAAATTTTTTGAAATAAGAGAAAATATATTATTATATTGAGTTAAGAAATTATATTTTTCAATATCATTTATGCATTTTTTATACATTTTTTTTTGAATATAGACACTTCTTCTTATATTTAATAATAAAAACATATTTGTATAATCTAAAGTCTGAATTTTTGGTTCAATTAAAGAAAAAATAGTTAAAAATTCTTCATAATGTCTAAGATTATAAAGTGATAAAAGAAAATTGAAAATATATTGATAAAGTATTTTATCGTCACTATTATTTATAATGAAATCTAATGATTTTGAGTAATATAAAATAGCTTTAAAAAATTTTTGTTGATTAAAATAATAGTTAGCTATTTTGTTGTAAAGATTTATTTTTTCTATTGAATCGTATTTATCAATAAGAAAATTATCAATTTCTATAATAACATTTTCAGAATAATCAGATTTTTCTAGTAATAAATTATATTCTTTGATAATATTTTTTACTTGACTTTCAACCGATTCTAATAAATAATCTAAAGATATTTTATCTTTAAGACCTCTTTTTTTTAAAATATCATTTATTTTATCAACAATTATTTTAGCCGTCTTTTCGGTTAAATTATTTTTTCCAGTTTCTATCATGCTAATAGTATTTCTTTTTATTATATTACCTGTTATTTCAGATTGTTTTAATCCATATTTTTTTCTAATTAATTTTAATTTTTCATTTGGAGTTATTATTTTTTTCATAAAATCCACCTTAATATATAATAAAATTGATATAAATAATAATTATACTATATCATTAAATTTTATATAAAACAAGTATTATTAAATAAAAAAGCTCTATTTTTTATTTGAAAAAATAGAGCTTTTTTATTATTTGTTTTGTGTGTGTAATTTTTTAAATTCTTCTCTTTCTTTCATTAATTCTGTAATTAAATCAATAAATTTCCATGATTTAGAAGTAGGTGTAACTACTGCAAAAAGAGGTCTTTGTAAATTTAATAATTTAAATTTTGAAATAAATTCATTTAATTCTTTATCTGAAACAGCGTTAAAGACAATAGCTTTTTCATTGATTTTAGATATTGAAGTAGAATTATCTAGATTATTTATTACTAATTCTTCTAAAGTATGATGTGTTTTTTCAGTAGGGATATGAATAAAATGTTCTATTCCTATTTTTTTTGAAAATTCATTTATAATTGAATTTTCTTCTTGAGAATACCCATATGCTAAAATGCAATTTTTTCCTTCGGGTCTTTCTATACTATTTTCATCTATTTTTGTAAAAGACATATTAACCTCCTAATAATTTTGAGTATAAAACTATTTTATAGTAATATTATAATTGGTTTAATAAAAAATATCAAGAAAAAGTTTAAAATATTATTTTAATCAATAAAATAGCTGAAAAAATTTGAACTATTTCTATTAATAATTCTAATAAAATTAATTTCTTTCCTTTTTCTATTAATGCAGAAAAATTTATTTTTAATCCAACTGCAGCCATAGAAAATACTAATAACCATTTTCCAATTCTATTAATAAAATTTATGATATATATAGGGAATATATTTATTGATGAAATTATACTTAAAACAAAAAATCCTATAATAAAATATGGAATTTTTATGATATTAAATTTAGAATTTTTATTTTCTAGCTTAATTTTTTCTTTTGACATTATTAAGTCTAATATAATTATAACAATTCCTAAACTTAGTACTCTTCCCATTTTAATTGCTGTTGCTATGGCTCCAACATTATTATTTACAGAAAATCCAGAAGCTACAACTTGACCAACAGCTTGTAATGTACCTCCAATTAATGTACCTTTTTGTAAATCACTAAAACCGACGATTGAACCGATAATAGGCATAAAAAATATTCCAAATGTTCCCATTAAATTTACTGCAGCAATAGATAAACCAATACTTTCATCATCTGCTTCTAAAATAGGTGCAGTAGCTGCTATTGCTGATGAACCACAAACTGCATTTCCAGTACCTAAAAGTAACCCAAACTTTTTATTAAAGCCAAAGAATCTACTTATAAATGCTCCTGTTAAAATAGTAATAGTTATCATTAAAGTTATAAAAATAAGAGATTTTAATCCTAATTTCATTAAGATAGTAAAATTTAATTCAGTTCCTAAAAGCATTATAGCAATTGGTAAAAGTTTTTTTTCAGTTAAATTTACTCCTTTTATAAAAGATTGATTTTTTAAAAATAAATTTCTTACTAAAATTCCTAAAAAAATAGCAATAGCTACACTTCCTATTCCTGGAATAAAAAAAGAAAAAATTGTTGCTAAAATTCCTAAAAAAATAGATAACAAAATTCCATAAATCATTTACTTACCTCCATATTTTGTAGTATATTTATTTTAAATTTTTTAAAAAATAGCTAAAAAAATTATTATGATTATATATTTTTTACTAGTATAACATTATATTTATTAAAATATCTAGTATTAAAAATTATTATTATATTTTGTTTATAAAAATATATCGATTGTTTATTAATTTATAACATAATTCTAAGCCTTTCAAATGTGTATTAAAAAGATTATTAAGTTGCATATTATAAAGTATTTTTAATATTTTTCCATAATATTTTTGATTAAGATTAGGATAATATTTTAATAAATCTTTTCCTTGAATAATAGGAGATAAATCAGATTTTTTCATATTATAATTATTTAGTATTTTTTTTATTTTTATATTATTTGAATTAATATTATTAATAGCAGAATATAGAGTTAAAAGATTGTCAAAATTAGTAGAAATAACAATTCTTTTTAGTTTTGTTAAGTCAAAATTATTATATAAAGAATTAAAATGTGAGTAATAAAAAGTTAAAGAGTAAATATTATTAAAAAGAGTTTTATTATTAGTAATTTTTTTTAAATTGTTTTTTAGTATTTTTTTATCTGTATAAAAAAATAAAATAGCTAAAATTATTGAGGTGTTTTTCTTTTTTAGTCTATTTAAAGAAAATAAAATATTATTTTTAAAATTAAAATCAGAAAATAAAACATTAAAAATTTTTAAATCATTTAAATATTTTATAGCTTTTGAAATATTATCTACATTATTAAAAATTTTTTCAAATTCATTAAATATTCTTTCTTTTTTTTCTGTTTTTATTAATTGAACAGAGTTTTTTATAGTTTTAGCGGTTTTAGAGTCAATATGAAAATTGTATTTTGAATATAAATAAACAGCTCTAAAAATTCGAATAGGGTCTTTTTTTATATTATCTAAATTATTTAATTTGATTATTTTGTTTTTTAAATCTATAAGGCCATTGGAAAAATCAATAAATTTATTTGTTTTAAGATTGTAATAAATACTATTAATTGAAAAATCTCTTCTATTAATAGAATTATAAATATTATTATTTGTAGATATTTCTATATTATCTAATAAAATAATAGGATATTTTTTTCCAACAATTTTTGTTTTTGGATATAATGATTTTAAGAGAGAATAAAGGTCATTAAATGTGATGTTATAGACTTCAATATCATAATCTTTTTCTTTAATTTCTAAAAAATAATCTCGAATATATCCACCAGTAAGAAAAGGAATTCCATTATTTTCTATAATTAAGTTTATAATTTTATTAAATTTCAAATTATTAATTTTTAAATTATTCATAAGCTCACCTATAATAAACCCTCTTGGCAAGCAAGAGGGTTTGTGTATTATTTATTTAATTTTTCTCTAATAAGATTAAAAATATATTCTCTATCTTTTAAATTGTCTCTAGGATCAAGTTTATCCATATCTAAAATTATTAAATCAGATAAATTATAGCTATTAAAATATTCTTCATAATGTTTATTTAAACTTTCCCAATAGCTTCTATCTACAATAAGTTCATAATCTCTACCACGTTCTTTTATTTTTTTTATTGCATTATCTACACTAGTTTTCATATATATCATAAGTTTTGGTTTTTCTATATATCTAAGCATGTTTGATAAAAGTTCCTCATAAACAGCAAAATTTTCTATACTCATTTCTCCATCTTCCATAAGCATTCTAGAAAAAATAACATCGCCATATATACTTCTATCCATTATACAATCATCAAGCTTTGAAGCTTCTTTAATCATAGAAAATCGTTTATTTAAAAAAAATACTTGTAAAGGAAAAGAATATCTTTTTTTATCATGATAAAATTTATCTAAAAAAGGATTATTAATAACAGGTTCTCTAAAAAATTTTATTCCAAATTCTTCTGATAATAATTCTCCTAAAGTACTTTTCCCAACACCAACAACACCATCTAAACATACTGCTCCACTCATAGTTTTTTCTCCTAAGTCTAAATTGTTAAAAAAATTTTTGTAATAACTTTTCATAATAACCTCACATAATTTTATGGTTTCCGTGTAATTATAACTTATTTTATAATTTTGTTCAAGTAATATAAAACTAATCTTTTTTATATTGATAAATATATTCCTCAGTTTTTTCTTTTATTTTTTTAAAATTAAGTTTTTCTAATAAATTTATTGAAGGTGTGTTATCTTTATGTACATTAGCCATTATTCTATAATTACCTTTAGAAAATATCCAATCAATACAAGAAATAACAACTTCTGAAATATAGCCTTTTTTTTGATAATTGGGATTAATTGTATACCCTAACCAAAATGATTTTTTTTCTTGTAATAAAAAAATATCTCCAATGAGAGTATTAGTTTCCTTGTTAATTATTGCTAATTGAACTCCAAATTTTAAATGTTTTTTTGGGAGTAAATCTTTTATATATTGTTCTTTTGTAAGACCTTTATAATCTTGATATTTCATCCATTCAAGATTATTTCTATATTTTATAAATTCATCGATATCTTTTTCAATAAAATTTCTTACAATACATCTTTTTGATTCAAAAATAAAATTATTTTTATTCAAAATTATCACTCCATTTTTGTTTTAAATATAGGAAATTTTAGCATAAATTAAAGAAAAACACAAAAAAATATGTTTTTCACATTTTCTTCACAAATAAATTATATTATCTATATGGACAGTATAATTTAATAAATGAAAGGAGAAACAAATGAAAAAAGTTATTATGTTAATTTTTATAATTAGTAGTTTATCCTATGCAACAGAACTAACATTAAATAAATCATTAGAGATAGCTATTAAAAATAATTTAAGCATTAGATCATTAAAAGTTGACAATAAAAATCTCGAAAAAGATTTAGAAATAACAGAAAATAATAAGTATGGTGATATAAAATATAATGTAAATGCATCAACAGATATATCCAAAACATCGTATTCAACATCGATATTGTATTCACAACCTATTTTTACTGGAGGAAAAATAACAGAGAAAATAAATATAGCTAAATATAATGTGAGAAAAGGAGAAATAACAGAAAATAATATTATTTCTCAAATTTCAACGAATGTAATTGATAAATATATAGAAGCTCTAAATTATAAGAAGAAAATAGATTATTATGAAAACAGTATAGAAGAATTAAAGAACGAATATAAAAAAATAAAATTAAAATATGAAAATAAAAAAGCAACTAAAATGGATCTTCTTCAAATAGAAGCCAATATTTTAAGTAAAGAAAGTGAACTTATAGATATATCAAATCAATATGAAATATCTATTCAAAATATAAAAAATTTATTAAATATTGAAAATGATTTTGATGTAACAGATTTTGATGTAGAGATAAATAATATTGATTATGAAAATGATTTAAATAAAATAATAAATACAAATGAAGTAAAAACAAAAGAAATAGAATTAAAAATAGCAGAAAGCAATCTTAAAATAGATAAAGCAGCCTATTTACCAGAGGTTAATCTTGATTTAAGTTACGGTGGAAATGGAAATAATATAACAGATTCTGTAAAAAATGCAGAGGTTAATATAGGAGTTAGTATAAGTGGAACTTTATTTGATTTTAATGAAACAAAAAACAATATATATATAGCCAAGAAGGATATAGAAAAAATAAATATTGAAAAAGAAAAAGAGATAGATGATTTGCAACTGACATTAAAAACATCATATTTAAATATAAAAAGAATAAATAAATCAATTATTTCAAAAGAGAAAGAAATAGAATTAAAAACAGAAATATTTAAATTGAATAAAATAAAATATGAAAATAATCAATTAACATTAGAAGATTATTTAAATAGTGAAAATGATTTATTATTATCACAACTTAAACTAGTAGAATTAAAAACAACTCTTTATACAGAATATCAAAACTATTTAGATACAATAAATTAGGAGGGGAAAATGAAAAAAAGTATAATAGGATTATTAATAATAGTATTGGGGATTTCAGGATATTATTTTTTGTTGAATGGGAATAAGAAAAATGAAAAAGAAGTAAAAGATAATAAAGTAATAGTAATACCTGTAAGAGAAACAGAATTTAAGAATTCTATAACAGCAGATGGAAAAGTGGAATTGAAAAATGAAGAAGAAATATTTATAAATAAAGCTTTGAGAGTAGAAAAAGTTAATTTTGAAGAAGATGATACAGTAAAAGCTGGAGATATACTTATTACATTTGATGAAGAGGAAAGAAATGATTTGATTAGAGAAATTGAAAGCAAAAAAATTCAAATAAAAGAACAAAATTTAATTATTGAAAATAATAAATTTGAAACAAGTAATATTGATATAGAAAGCCAAAAATTAGAAATGGAAAATATTAAAAAAGATATAGAGAATATAAAAAATAATCTTATTTTAGCTAAACTATCTCTTGAAAATTTAAATAAAGAGTTAGAAGATGCTAAAAAAGAATACGAAGTAAATAAAGAACTTTTTGAAATAGAAGGAGTAACTATAACAGAATTAAATAATAGTAAAAATACAGTAAATAGTTTAAGTGAATCAATTAAGCAAAAAGAAAATGAAATTAATAGCTATAAAAAAGAATTAATTCAAAAAAATGATGAATATGAATTATCTAATAAAAAATTAATAAAATTACAATATGATTATAAGAAAGCGGAAACTGTAAGAAAAAATACAATAAAGGAAGCAAACTATGCTATACAACGATTAGAGCTAGATATAGCAACACTTGAAGAAGATCTTGAGAAAACTGTAAAATATATAGCTAGTCCTGTAGATGGAACTATAACAGAAAATAACGCAACTGAAAATTTTATGGCTAGTACAGATACATATCTTATGAAAATAGCGGATATTAATTCACAAATAATAACAGCAGAGGTATCAGCAGAAGACATAGACAATGTAAAAGTAGGACAAGATGTAATAATAACATTTAATGATAAAAAAACATTAGGAAAAGTAAGTAAAATATCATCAGTAGCTACTACAGTATCAGGAAATGGTTATGAAGATGTATATGTAGAAATAGAAGTAACATATGACTCAAAAACAGCTGGATTTAGACCAGGATATAGTGTAGAATTAGAAATAGTTACCAGTAAAATAGAAAATGCAAAAGTAGTATCATCTTTTGCAATAAAAAAAGATGGTAAGAATAATTATGTATTAGTATATAATAATGGAGAAGCCCAAAGAAAAAATATTAAAATAATAGAGAAAACTAAAAAAATATCAGTAATAGAAGGATTAGAAATAGGAGATAAAGTAATAGTAAATTCGGCTAATATTAAAGCAGGAGATAAAGTAGTATTGACAGATAAAATAATAAGTGAAATTCCAAAAAATACATCACAAGATGATAACGAAGAACCAGGACCAGGGCCAGGATTAGGTGGTGGGAAAAGACCAAATTAATAAAAGGAGATAAAGATATGATTATTTTAGAAAACATTAATAAAATATATAAAACAGGAGATATTGAAGTACATGCTTTAAAAAATATAAATTTACACATAAAAATGAAGGAATTTACAGCAATTATAGGGAGCAGTGGTAGTGGTAAATCTACAATGATGAATATATTAGGGTGTCTTGACACTGCTACTTCTGGAAAATATTTATTAAACGGATTAGACATTTCGCAAATAAAAGAAGATAAAATAGCTGAAGTAAGAAATAAACAAATAGGGTTTGTATTTCAATCTTTTAATTTGTTACCAAAACTTACAGCGGTACAAAATGTAGAATTACCTATGATGTATGCGGGGATTCATGCACATGAAAGACATGAAAGAGCTAAAAAGGCATTAGAGAGAGTAGGATTAGAAGATAGAATTCACCATAGACCAAATGAACTATCAGGAGGACAAAGACAAAGAGTAGCAATTGCTAGATCTCTTGTAAATAATCCTGCAATAATTTTAGCGGATGAGCCTACAGGAAATTTAGATAGTAAATCAGAAAAAGAGATAATCGAGATTTTTAAAGAGTTAAACAAAGAGGGAGTAACAATAGTAATGGTTACTCATGAACCTGAAATAGCAGCTAATTGTAAAAGAGCAATAACTTTTAAAGATGGGGAGATTATCTCTGATAAGATAAATTATTAGGAGGTATCTAATGAATATAAATGAAACTTTGAAATCAGCATTTCAAAGTCTTGTAAGTAATAAAATTCGTTCAAGTTTAACCATGCTTGGAATAATTATAGGGATTTCATCAGTTATCATGATATCGATGATTGGGAAAGGAAGTCAACAATCAATAACAGGTGATTTAAAAGATGTAATGGATAGAACGGTGACAATATCTGTCCAATCTGATGATGAAGTATTGAGTAAAAAAGATTATATTACAAAAGATGATTTGGAAGAAATATCAAAAATTAATGGAATAGAAGGAATAACACCAGATATAGCCTCTAGAGGCGGTGTAATGTTAAATGAAAAAAGAAAATTTAGTAAAATAACAGGGACTAATGAAAATGGTTTGTATGTAAATGGATATGACCTTTTATATGGAAGAGAGTTTACAGAAGAAGAAGTAGAAAAAGCGGATAGAGTAGTGCTTATAGATGATGTATATGCTATGAAAAGATTTGGAAGAATAGATGTAGTAGGAGAAGAATTAAAGATTGATGTAGGGGGAGGGAAAAGTTATAATTTTATAATAGTGGGGATATTTGAAAATCCTATGAAAAGTTTATTAAGTACATTAGGTGGAAGAGAGATGTATTTTCCATTTTTACCATATACTACCTTTCAAAAATATGTAAATGATACTCAAATATCACAAATAAAATTTAAGATAAATGATATAAATCAAAAAGACAGTATAGCTGATAAAGTAGTAAGTTATTTAGAAAAATCACATAATAAAAAAGATATCTATGAAATAGGAAGTAGTAGTTCACCATTAGATTCATTCAACAATATACTTTCTACAGTATCGTTATTACTTACATCAGTAGCAGCTATATCATTACTTGTAGGTGGTATAGGGGTGATGAATATAATGCTTGTAACAGTAACAGAAAGAACAAGAGAGATAGGAATAAGAAAAGCAATTGGAGCTAAAAATAAAGATATATTAACTCAATTTTTAATAGAATCAGTTACACTTACATTAGTTGGCGGATTATTAGGAATAGTATTAGGATATAGTATTAGTACGATAGTAGGGAATATTATGAATATTCAACCAATATTAAGTATATGGATGTTAATGTTAGCAGTATTTGTATCAGGAGGAATTGGAGTAATTTTTGGAACGTTTCCAGCAAAAAAAGCAGCAGAGCTTAATCCGATAGATGCACTTAGACATGAATAAAATTAAATAACTTTAATAAGATTCCCATTTCAAAAAAATAGATGGGAATTTTATTATATATTGACATAGGATAATAGTTTTAATATAATGAAGTATATTTATATAATATTAGAAAAACAAAAAATAATATAATGAGGTGCAAAATGTTATTAACTGAGCTTAAACGAGGTGAACAAGCAAAAATAATAAAAATAGGTGATATAGGGGAGTTAAAAAAAAGACTTATTGACATGGGAGTAACTAGCGGTGAAATTATTAGTTTTAAAAGAAATGCTCCTTTAGGAGATCCAAAACAATATGTGATAAGAAATACTAATATAGCAATCAGAAAGAAAGACGCAAAAAAAATAATTATTGAAAAAATATAAATTTTTTTAATAATAAAAAAGTGTAAGCACTGACACTTTATAATAATAAGGTTACTAAAAAATAGATTTTGAATAAAAAAATATGAAATATAGAAAAATTATATTGAGCTAATAGTGAAAGGAAATAAGTATGAAGGAAAATATAAAAAAAACAGGAATTTGTCCTATATGCAATAATGTCATGAGTAAAAATAATAGAACAGGAGAATATTTTTGTGAAATATGTAATGAAGCTTATGTAAAAAGAGCTACTTGTAATAAATGTGGAAAAGAAGTAGAATTATTATCAGCTTGTGGGGCTTTACAATTTTTTTGTAATACATGTAACGAATTAAAGTCTAAAAAAAGTGTAAATTTATTTTTTAAGAAAAAATAATAAAAAAATAGAGGAAATTCCTCTATTTTTTTAATATTATAAATAGAAAAAGTTTTAAGAAAATTTTAAGAAAATTGTGGGGAGAAGAAATGGAGTTAGATTATAAAAAATTATTAAATGACCTTATAAAAATCGCAATATCGTTATCTGCAGAAAGAGATATAGAGAAATTATTAAATATAATCTTAAAAGAAAGTATGAGAATAACCTGTAGTGACGGTGGAAGCATATATGTAAAAGAAACAGATGAGAAAGGTAAAGATTATTTAAGATTTGCAATAACTCATAATGTCTCAAGAAAAATAGATTTTAATGAATTTACTCTTCCTTTAGACAGGAACAGTATAGCGGGATATGTTGGGTTTAGTAAAAAAACTCTAATATTAAAAAATGTAAATAATATTGATGAAAATATTGGATTAAAATATAATTCTAGTTTTGATGAAAAAATAAATTATCAAACAGTAAATATGCTTGTAATACCGATGTTAGATTATAATCATGAGCTTGTGGGAGTATTACAACTTATAAATAAAAAATCAGATTATAATTTGATTTTAGAAAAAAAAGAAGAGATACGAAAACAAATTTTAGAGTATAATAAAATTGAAGCACAAATCATCAGTTCTTTAGCATCTCAAGCAGCTATTCTTATTGAAAGAACAAAACTTTACAATTCTATTGAAAATCTTTTACAATCGTTTATTGAATCTATGGTTATGACTTTAGAAAAAAGAGATAATACTACTTCTGGTCATTCAAGACGTTTAGCAGGATATGCATTAAAATTTTTAGAAACAGTAAGTAAAGTAAATTATGGAAAATATGCTTATACAAAATATGATAAAAATCAAATAAAGGAGATATATTATGCAGCACTTCTTCATGATATAGGTAAAATAGGAGTTAAAGAATATATTTTACAAAAAAGAGATAGACTTACTGAAGATAGAATTAATGTAATTAAATATAGATATAAATATTTTAGAGAAATATTATCTCAAAATGGAGAAATTGAAAAAATAAAAAAATATGATGAATATATAAAGTTTATAGAAGAAACTAATAAAAAAGGTTATTTACAAGAAGAAGAAGAGGAAAAATTAAAAGAAATATATAATGAAAAAATAAAAATAAATGAGAAAGAAGAAAAAATTATAGATGAATTTGAATATAAAAATTTATCAATCAAAAGAGGAAATTTAACTGATAAAGAGAGAGAAGAAATGATAGAACATGTAGTATATTCAAAAGAGATTTTAGATGGAATAAAATGGACAAAACAATTAAAAAACGTACCAATAATAGCAGGAGGACATCATGAAAAAATAGATGGTTCAGGATATCCGCTAGGATTAAAAGGCGATGAAATAACGACACAAGCAAAAATATTAGCTATTTTAGATATTTTTGAAGCTCTTACAGCAAGAGATAGACCATATAAACCTCCTATGTCAGTAGATAAAGCTATAAGTATTTTAAAAAAAGAAGTTGAAGCAAATCATTTGGAAAAAGATTTATTAGATATATTTTTAAAAGAAAAAATATATGAATTGTATAAAGAAGAATTGGATAAAATAATAAAATTGTAATATAAATTTATTGAAAAGTCATTTATTATAAAAATTATGATAAATAATAGGAGGGAAATTAATGGCGGATGATATAAAAATAAAATTTTGGGGAGTACGAGGTAGTCATAATGTGTTTGGTGACCAATATAAAAAATATGGTGGGAATACTACATGTTTATCTATTGAAATTGGTAAAAAAATAATGATATTTGATGCAGGAACAGGGATAATCAATTATGGTAAAGATATATTGAAAAATAAAAAAAATACAGAAATTAATATATTTTTTACGCATACACATATAGATCATATACAAGGTTTGATGTACTTTACACCTATTTATATGAAAAAATATTTTTTTAATTTTATAGGTTCAGCAGTATTTACAGCAAGTTTTAGTGATATTTTAACTAATATAATGAGTCATCAATATTTTCCAGTAAAATTTAGACAAACAGGAAGTTATAAAAGAATATATGAAACCCATGATAATCAAATTATTATAATTAGAAAAGATAGTAACAATATAGAAATTTATAACAAAAATTATGAAACATATGAAATAGAAAAAGAAGATATAGTAGTTACTTGTATGCATGCAATTAATCATCCAGTTGGGGGAGTAAATATATACAAAGTAGAATATAAAAATAAAAAAATTGTATTTGCAACGGATGTTGAAAGTTATGTAGGTGGAGATGAAAAATTAATTGAATTTAGTAAAAATGTAGATATTTTGATACATGATAGTGCTTATTTAAATGATGAATACAAATTAAAACAAGGATGGGGGCATAGTACTCCTGAAATGGCAGCAGTAAATGCAAAGAAGGCGGAAGTAAAAAAACTTTATTTAACGCATCATAGTCCAGATGATACAGATGAAATTGTAGATAAAAAAGTAGAAATAGCAAGAAAAATATTTAAAGAAAGTTATTTAGCATATGAAACTTTGGAAATAAAATTATAGTTTGGGGGAGAATTTATGAAAAAAGTTTTTTTAGGAATGTTTTTTATTTATAGCACTATTTTTGCTATAGAAAACTTAGAAACAAGTAATAATCAAAAATTAAACAAAGTAGAAGGGCTCGACTTAATAGCAATATTAGTAGAAAATGAAAATTATAATTTGGCTAATGATTTATTAAAAAATTTATCTGTTGAAGAAAAACAAGGGGAAAAATATTATAAAAATTTAGCAAAAATAAAAAATGGTCTTTCTGAAAAGGATGAAGCAATAAAATATTATAAATATATTTTAGAAAATTTTGATAATATTGATAAATTATATTACAATTTTGAATTATTAAAAATATATGTAACTGATGAAAAATATAATAATGAAGTTATAAAAACTATAAAAAAAATCAAAAAATTTAAACTAGATAAAAAAAGTAAAAATAAATTAAAAGAACTTGAAAGAATTTATAAGAAAAAAGCTAATATTGAATATCTAAAAAATATAGAGTTAGGATTAGGATATAATGACAATTTATATACATTAAAAGAAAATAAAATTGGAGATATGTATACAAATATGAACTTTACTCTAATGGGAGTTAATAAAATATCAGACAATTATAATCTTACTTTTTTTACCTCTTATAGAAATCAACTTTATTCAAAAGAAACTACTAAAACAAATCATAATATATTTATAGGAGGACAACCTCAATATTTTATTAATGATACATTAAATATATCAGCGCCTAGTATGTTTAAATTAACATTTGAAAATGGGAAATATAGTGAATTTGGGATAAATATAGGGGTATTATCATTTAAAACTATAAATGATAAATCAAATATTAATTTTGGAATAGATATAGGATATAAAAATAATAAAATAGATAATTATAAAGGAACTACGATGACTCTTTATTCAACTTATAATTATTTAGATCAAAAAGAAATATTAAATACAATTAATTTTATAACTGGAAAAGAGAAATATAATGAAAGTACTTATGATAATAATTATATAAATATAGGAATAAATAGAACTCAAAAATTTAAAGAAAAATATAATATGAATTATGGATATATATTGTCTTATAAATTGAATAGTTTAGAAATTGATGGAGTTAAGAAAAAAGATATATCACATAACATAGCTGGAAATATTAGTGGGAAAACAATATGGGAAATGAATTGGAGCGTTGGGTATACATTTATATATGGAAATTCAAATATCAATTCATATGATTATATAAATAATATTATATCAACTACACTTAGTAGAGAGTTTTAGGAGGGAAATTATGAAAAAGACAATTTTAATGATATTTTATATAATGATTTTTAATATTATATTTAGTGCCTCTGAATTAGATTCTCTACTTCAAGATGATACAGAAAAATTCAAAGACTTATTAACTGAAGATACTATAAATGAAGTACCTAAAAAAGCTTTTGTATCAAAATTAAATGGGCAAGCATTTTTAAAACTGGATAATGATGATAGTTGGTATCAACTAGTTGAAAATGCAGAAATAGAAGAAAAAATGACTATTTTAACTACAGAAAAAACAACACTTTCACTTAAAATGGAAGATGGAAGCTTTGTAAATATAGGAGAAAAAACAAAAGTTTATATAGAGTCACTAAAAGGAAGACCACAAACAGAAGAAATAACAGAAACAGGGTTAAATCTATTATGGGGGAAAATATATTCAAATGTAAAGAAAAAAGTAGAAACAGGTGCAAAATACGAAGTAAAAACAGGAAGTGTAGTTGCCGGTGTTAGAGGAACAAAATTTACAGTATCGGCGGCTAAAAATGGTCGTTCTGATATTACAGTTTTTTCAGGAATTGTAAGTGTAAAAAAGATAGGTAGTGATTTAGAAATACTTGTAAACAAAAATCAAAAGGTAAAAGTAGATAGAAAAGGTAGTATAGGAGAAATAGAGCAACATCAAGAAACACCACCAGAAGAAGAAATAAACCCAGAAGAAACTATAGCAATTGTTGCTGAAAAAATAGAAGAAGTAAAAGAAACAAAAGAAGAATCTGAAGAAATAAAAACTCTAAAAGAAAAAGCAATAGAAAAAAAAGAGACTATAAAAGAAAAATCAAAAGAAGTAGTTTCAGAAGTAAAAGATGGGGTAAAAGAGGAAACAGTTAATACAAACCCAGAAGTAATATCATTAAAAAACAATTTAACTATGATTGATAATTTTGTTAATCAAACTGTAGATCAAGCAAATGCAGTAGAAATAATTAAGAAAATACAAGAAATAGAAGAAGATAAAACAAATAAATTAATAATACAGATTAAGTAAGATTAAAAAGGGGTAAAATAAATGAAAAAAGTAATTATGAGTGTCTTATTATTAATGATAGTTGGTTGTATTAATTATCAAGAAGAAAAGCCAAAAGGTGAATTAAAATTTATGATAAATTGGCCTAAAAAAGAGATAAATACAAATGTTAGTACAAATATATTACCAGAAACAAAAAAAATATCAATATATTTATTTAAATATGATGGAAATAATTATAATAATTCTATAGAAATAAAAAAGGAAATAATTAGAAATGGTGAAAGTGAATATTTAATTACAATTGATGATTTGGAAGTTGGGAATTGGTCTATTGATATGAAAGCATATAATAGTTTAGATAAAGAATTAAATTTTATATATGATGATATCGTTATAAACGAAGGGACAAATGCTTATACAGTATTTTTTGGTGGGCCTAACAACATATATGGTATTTCTTTGGATACTACGACAAATCTTAGTGATTTTACTGGAATAGAATTTGAATCTATGGGATCAAATTATAGCCATATTAATGTAGATTCTTCAACATACTCACAATATGATCATATTACTTATACATTATATGTAAGTACAAATTCAGATATGTCTAATGCTGTGCAAATATCAGAAGTAAGTTCTACTTATAGCGGAGAAATTATAAAATTCAATTATCCAATTGATTTTCCTTCATATGAGTTTACTCCAGGTCAAAAATATTATTTTAAAATTAGAGGTGAAAATACTATAGGTTATAAAGATAGCAATATATTTACTATTAGTTTTCAATAATAGTAAATATGAAAAATAGGATTAAAGCATTTTATATTAAAAAATTAAGGAGGAAAATAAATGAAAAAAATAGGGATAATATTAATATTATTTACACTTTTGGGATGTTTTAATAATAGTAATGATGTAAAAGAACAGGTGAAAAATGCTACTGATATAACAAAAGGTGATGGTGAGTTTGTATTTAATGTAAAATGGCCTAAGAAAAATATAGTACAAAATTCTAATATAATGGCAAATATACTTCCTGAAACTCAGACTATTGAAATTAATTTAAATCATGCCACTTTACAACAATCAAAATCTGTATCAATAGTTTATCCGGCTACATCAGCTAGTATTGATAATCTTTTAGCTGGACAATGGAATATCGATATTTCTGGTAAAGATAATCAAAATAATCCATTAAATGTTATATATGATTATTTAAATATTGGACCAGGAGTTAATTCTTATACTGCTATCTTTGGAGCGCCTAATATTATTTATAATACAAGTGTTGAAGGGAAAACTGTCTACCCATATGATAATAAATCAAATGTAAATGCGGGAGATATTATATATGTAGATATTTCAAGCTTTAGTGGAATACAATTTGATTCTGTAGAATCAAATTGTAATTCTGATTTTGTTAGCCCATCATCGATAGATAATAATATTAATTATCAATTATATTTTGGAACAGCACCAACTTCATTATCTTTACAATCTGCAACAAAAAATTCAACAAGTTCAAATATACAATTACACTTTGATTATCCAAGTGATTTTACTACTACAGTTACAGCGCCAAATGATTATTATTATAAAATAGTTGCATCAAATAGTCATGGAAGTACACATTCGCATATATTTAAAATAAAAATGTACGATAAAGGCATAGTAATAAATGATTATATAGAAAAATATAAAAATTTTGCATTTGAACTTTGGAAATATTTTTATTTTGCACAAGCTTCTACACAGGCAGCTATTTCTACAGAATATGTTGATTTAATGGATAGTAATAATAGTACAACAGGTGGATTATTAATAACAGCAGATGAGTATGGACGTGCAACACAAGTAGAAAAATTATTTAGTAATTCAACAAATTCAAATATACAATATTTAGATTATAATGAGGCACAATTAATATCTCTTCATGATGATAGTAATAAATTTGAAGCATTATTAAAATATGATACGAACGGAAATATTGAAGCTGTTGAAGTGTATGAAGACAAAGATGGTAATAATAATATAGATTATAATACAGAACTAATAGAAAAATTTTATAATATAAATTATGACACAAATAATCATTTACAATCATTTAAATATGATAAATATTCATATAGTACAAATACATCACCATCGTATATAGATGTAAATAAAACTTATGATGCAAATGTTACTTATTTAGGAGATCATTTTACAAGTTTAAAATATTATTATAATAGTAGTAATGTAGCTGAAATACAGTATGATTTTACTACAACACCTGGAGTAGTAACAGTAGATTATCACAGATATAGTAATGAAACATCTGATGAACATTTTAGAAATGATGAGAAAGAGATTTATACTAGTGAAAGTAGTGTAACAATGACAATAGATTAGGAGAAAAATGATGTTACGAAAAAATATAATTAAAAGTGGGTATATTATACTCACTTTTATGATTTTTATTTATATAATATACACAAATCTTGGAATGACTTTTTTTGAAATTTTTGAAGTAAAAACATATGATATGAGATATAAAGCAATGGATATATTTGAGAAAAAAAATCGCGAATATGATGTAGTGATAGCTGGTGTTGATGAAAAAAGTTTAATTGAAATAGGTAAATGGCCTTGGGAAAGAAGTATACATGGCAAACTAGTTACAGCTTTAACTGAATATGGGGTAAAAAGTATAGGATTTGATGTATCTTTTACAGAAGAAGGTGTATCAAAAGATAAAATAGATTATAAAAAAAATATGAAAACAATAGTGGCTACTAAATATAAGCAAGGAATTATACCAGAACAAGATGCTATTGAACTTTTAAAAGAAATAAATAAACTTGATACAGACCAAGACTATGAATTTGCTTTAGCATTAAAGAAAGCAAAAAATACTGTAATAGGAACTTATAATATTATGGATATAGCAGAAGATATATCTAGATTTGAGTATAATAAAATATATTATCAAAAAAGCCGTTTTTATAAAATAAATGGAATATTAGACGAAATAAAAGAAGTAGGAAGAACAGGAGAAAGACGTGTAAAACCGTTTGAAATATATAAAATAATTCCTCCTATAGATATTATTGCAAAATTTGCATATGGAATAGCACCTTATGATGTAGGTAGACCAGATATAGATGGAGTTCTTAGAGGAATTGTTACTGTTACAAAAGAAAATTTATCAAATTTGTATTTTCCACCATTGTACTTATTAGTGTACTTAAAATCAGAAAATTTAAGTATAAAGGATAATGTAGTATTAGATTTAAAAAATTCTAAAATAGATATTTTTAAAGATGAAAAACTATACAAAACTATACCAACAAATATAAATGGTTATCAAAGGCTTTTCTTTTATGGGAAAGGGCATACATTTAAATATATATCATATACAGATATTATTAATAAAAGAGTAGATAAAAAAGAACTTGAAAACAAAATAGTATTAGTAGGATATACAGATAGTGCAAAAGGACTATATGATTTAAGGGTAACACCTCTTGATCCTAACACACCAGGAGTAGAGCTTCATGCAACAGCTATTCAAAATCTTATTGATAATAAATTTATGAAAAGAATAGAGGTAAAAGGAGAAGTACCACTTTTATTTTTATTTGGAAGTTTAATTATATTTATATTGTCAATAAAGGATATAAATTTAGCACTTTCAAATATTTTAACTAATAGTGTTATAGTGACGTACTTGATTTTATCTTATATTTTATTTAGAAAAGGTCTGTGGATAGAAGTTTTTTATCCAATTGTCGTTTTTATCTTAATATATTTAATTTTAACAATAGAAAATTATTTTTTAGAAGGTAAAGAAAAAAAATATATAAGGAATGTATTTGGGCATTATATTTCACCGATACTTGTAGAAGAGTTAGTAAAAAAACCGGAAATGTTGAAACTTGGAGGAGAAAAAAGAGAGCTTACTGCATTTTTTTCGGATATACAAGGATTTACTTCTATTTCTGAAAAAATGAGTCCAGAAGAATTAGTTGAATTTTTAAATGATTATTTATCAGTTTCAACTAATATTATATTAGAATATAAAGGAACTATTGATAAATATATAGGAGATGCGGTAATGGCTATCTTTGGAGCACCAATCCAATTAGAGAATAATGCTTTAAATGCATGTTTTGCAGCACTAGAATACCAAGAAAAATTAGTAGAATTTAGAGAAAAATATAAAGAGAGTGGATATCCGCCGATATATGCAAGAATTGGTATAAACAGTGGAGAAATGGTAGTAGGGAATATGGGATGTAATATAGGTGAAAATAAAAAGTTTAATTACACTATAATAGGCGATGAAGTAAATTTAGCCTCAAGGCTTGAAGGTGCTAATAAAATGTATGGAACTTATATAATGATAAGTGAAAATACATATAAAAAAGTAAAAGAAGACGTAGAAGCAAGACTTTTAGATTTAGCAAGAGTTAAAGGTAAAAAAGTAGCAGTAAAAACTTATGAACTAATGGCTAAAAAAGGAGAATTATCTCAAGAAAAATTAAAATTAAAAGAATTATATGAAAAAGGCTTAGATTTTTATTTTAATAAAGAATGGAAAAAATCAAAAGAGATGTTTTTAAAAGCAATTGAAGTAGATGAAAATGATGGACCGAGTAAGCTTTATATAAAAAGAATAGAAGAATATATAAAAAATCCTCCACCAGAAGACTGGGATGGAGTATATACATTTACTACAAAATAAAAAGTGAGTTTTTCTCACTTTTTATTTTATATAAAAAAAGTTTTTATGCCAAGAATTATAAGAACAAAAGCACCAAAAAATTCTGCCTTTGTGGTTAAAAATTTATTTGCTTTATTTCCAATATACACTCCACTAAAACAAATAATAAAAGTAATAAATCCTATGATAGCAACTGAAAATATAATATTTAAATGTTTTGTAAAAGCTAAAGAAAATCCAGCGGCTAGCGCATCTATGCTTGTAGCAATAGCAAGAAGAATAAGGTTATAGTTTAACATTTACCATTTCTTTCGCATTGTTCCTCTTTGTATGCTTCATGTAGCATTTTAAGACCTATTCCAATTAATAAAACAGATCCAATTATATTATTATAATTATGAACTAAATTATAAATACTTTTTCCTAAAAAAAATCCTAATAATGGCATGAATGCCTGAAAAATAGAAAAAGTAAGTGCTACAGTAAGTGCTTGGTTTATTTTTAATCTTTTAACAGCAACACCTTGAGATATAGATACTGCAAAAGCATCCATTGCTAATCCGATACTTAATAAAATCAATGTAAAAATAGTCATAAATTCTCTACCCCTTTATAAAATTTTTATTAATTTTTTTTATCTAAAATAAAGCTTAGCATATCATCTACATTTTGTTTATAGTACATATTACCACAATGACCACCATATGGATAAATAAAACTACGTCCTTTGAAAGTGTCTTTTAACCATTTAACTTCTTCAGGAAGTAAAATAGATTCATCTTCATTTATGGCAACATACATATTTTTTTTATTTTTTAAATAATCTGTAATACTCATCATATTGGCCATATCTATAAGTTTTTCTTTTGTTAAAGTAGGGTCATCTTTTTTTAAATTTTCAAGAACATATTCATTGAAATACTTTATATAACTCATATTATTAGCTTTTTTGTAATATTTAGTAATAGAATCAAATTTAGACAATTTAGTATCTTTAGGAACTATTTTTCCAAGATTATTTTTAATATCACTAATAAATGATATATTAGTTATAGAATTTCTAAAAGAAAGACCAATAAATATTTTAAATTTTTCTTCAGTAAGTCCAAGTCCTTCTAAGTTATAAGAGTTATCTTTGATTATATTTAAATCAAGATTTATATGATCATGTGGATAAATATTAAAAAATAAATTTTCTGTATTTGAAATAAAATTATTAACATCAGAAATTTTATTTGGGAAATATTTTTCAACTAAATCATCAAGAATGATAGATGAAGTATATAAGTTTACAGCAGGATTAATTATAAATATTTTTTTAAAATTAAAATAATGTTCTTTGTCATCAAGTTTTGACACAAAAGCAGCATGAGTTCCTCCTAAACTATAACTTACTAAATATATATCAGTATATTTAATTTGTTTTTTTATTATTTCATGAGCTTTTTTCATTACTTTGTATAAATCTTTTGAATCTTTTTCTATAATTCCAGTATATCCATAAGAAGATGAATTTATTAAAAATGATGGATGACTAGGGGATGTGAGAGAAACTACATGAAATCCATTATTATAAAAAACATCTCTTAAAAATTTTGTTTTTGGAGCATTATAGTAACCTCCTGTACCCGAAAAAATATATACAAGAGGGGCCTTTTTTTTCTGTTTTGCTAATGAAAAAATGTTTTTTTTAGCAAACCAAAATATTTCAGGGATATTATTTGTTTTATTTATTTGTAGTTTATATAATGAAACAACAGGTTTTTTTTTGATTTTATACTGCAATCTAGGAGGAGTTCCTATTGCGGTACTTGTAAATCTATTTTTAAATGGAAATTTATAATTTTCTTCATTATATATTTTTGTATTACAAAATGTTAAACTTATGTTTAATAAAAACAAAAGAAATATTAATTTTTTCATAGGTTTCTCTCCTTTATTACTTTGGCATTATTAATAGTTTAACATAAAAATTAAAAGAGGTAAACTATTTCTATATTTAAATTAAAAACTATTATTATTTTAAAGAAATAATAATTTTTAAAAAAAATTTTGACAAATTTAATAAAAAAACTTTACAAAACTACTTTTTTATTGTATACTTCTATTAAGTCAAAACTGAACAAAAACTCATCAAGAGAAGTGGAGGGAACGGCCCTTAGAAACTTCAGCAACCTACCTTATGGTGTGGTGCTAATTCCGTGAAATAATTGATTTAAAAATTTAAATCAAAATTCGAAGATGAGAGAGATAAAATTAAGATTTTAACTCTTCTCATTAGAGAAGAGTTTTTTTTATAAATATTATTTACTAAAAGAATAAACAAAAAATAAATAGAGAATAAAGATAAATAATTATGTAGATAATAAGTTTATAAAAATAATAATTTATAAAAAGTAAAATAAAAAAACTAAGGGGGAATTAAATATGAGTAAAAATTTAAAATTTGAAACATTACAATTACATGCAGGACAAAAACCAGATAGTGAAACTGGTTCTAGAGCAGTACCTATTTATCAAACAACATCTTATGTATTTAAAGACACAGATCATGCTGCAAATTTATTTGCTTTAAAAGAAGCTGGAAACATTTATACAAGAATAGGGAATCCAACAACAGCAGTACTTGAAGAAAGATTAGCAGCACTTGATGGTGGAGTAGGAGCTTTAGCGGTGGCTTCTGGTTCTGCAGCAATAACATATGCTTTACTTACAGTGGCAAAAGCTGGTGATGAAATTGTAGCGGCAAGAAATCTTTATGGTGGAACATTTAATTTACTTTCAAATACAATTAATGATTTTGGGATTACAACGAAATTTGTTGATCCTGATGATTTAGAAGGATTTAGAAATGCTATTACAGAAAAAACAAAAGCAATATATATAGAAACAATAGGAAATCCAAATTGTACTCTTGTTGATGTAGAAGCAGTTGCTAATATAGCACATGAAAATGGGTTACCATTAATAATAGATAATACTTTTGCGACACCATATCTTTTTAAACCGCTAGAGCATGGAGCAGACATTGTAGTTTATTCAGCTACAAAATTTTTAGGGGGGCATGGTACAAGTATTGGTGGAATAATTGTAGATGGTGGAAAATTTGATTGGGCAAAAAGTGGAAGATTTGATAATTTTACAACGCCAGATCCAGGGTATCATGGATTAAAATATTCAGATTTAGGGGCACCTGCATTTATATTAAAAGCCAGAGTAAAACTCCTTAGAGATACAGGAGCAGCAATTAGTCCATTTAATGCATTTTTAATATTACAAGGGATAGAAACACTTAGTCTTAGATTAGAAAGACATATAAAAAATGCTAGAAAAATAGTAGAATATTTAAATAATCATGAGTTAGTAAAATGGGTAAGTTATCCTGAATTAGATGAAAATGAAAATAAAGCTTTAGCAGGAAAATATTTTCCTAAAGGTGTAGGTTCGATATTTACATTTGGAATAAAAGGTGGCGTAGAGGCAGGTAAAAAGTTCATTGATAGTGTAGAATTATTTTCACACTTAGCAAACGTTGCAGATGCAAAATCATTAATTATTCATCCAGCAAGTACTACTCATGGACAACTTTCAGAAGAAAAATTAAAAGAAGTAGGGATAAAACCTGAAACTATTAGATTGTCGATAGGATTAGAAAATGTAGATGATTTAATAGCGGATTTAGAACAAGCTTTTAATAAAATTAAATAAAAAAAGAGGCTCTTATTATAAGAGCTTCTTTTTTATAATTATTTAAATTTTATTCCTATCAGAGTAATATCATCTCGTTGAGTTTCTTTACCTTTCCATTTCTTTAAATTTTCAATAATAATTTTTTTTTGTTCATCTAATGGTTTGTGAGCTATTTGATCTAAATCATTTATTAATCGTTTTTTTGAATAACCAAAATTTTTTGGACCACCATTTTGGTCAGTATATCCATCAGTAGATAGATAGATTATTGTATCTGAAGTTGCATCAAATTTATATTCTGTATAATCGTAATGATCTTTTGATTTTATATATCCAATACTTTGGCGATCACCTTTAAATGTTTTAATAACTCCATTTTTTGATAAATACATTGAAAGCTTTGTTCCTACAAAGATAGATTTTTTACTAACTGAATTATATTTTATAAGAGAAATATCAAGTCCATCATCTGATATTTTTTGACTATTTTTATTGAAATATGTCTTTATTCTATGATTTAATCCATTTAATATTTCAGAAGGTGATATCTCTTTTGTAATTAATTCATTTAAAAATGAACTTGTAGCCATTGTCATAAAAGCACCAGGGACACCATGCCCAGTACAATCAATAACAGCGAAATAAATAATTTCTTCTATTTTTTTTCCAAAATAAAAATCTCCACCAACCACATCTTTTGGTTGCCAAATAATAAAAAAGTCTTTAAAATTTTCTTTTAAAAATTTTTTTGAAGGTAAAATATAGTTTTGAATTTTTCTAGCGTATCTTACAGATGAAACAATTTTTTCGTTTTTAATTCTAATTTCTTTTGTACGTTCTTTTACTTTTTCTTCCAATGTTAAATTGTATTCTTCAATTCTTTTATTTTGTTCTTTTATTTGATTAAAACTATCATTTAATTTAGCAGTCATAATATTAAATGTTTTTGCAAAATCTCCAATTTCATCATTACTTTTTATATCTGCTTTAATATTAAAATTTCCATTTGATAATTCATGAGAAATAAATTTTAATTTTTTTAAAGAATGTGTTACAAAAAAGCTTATAATAGAAATAATAAATATAGAAATAATAACAGAAATAGTTATTGCAAAATATGTAAATTGATTTAATTCTTTTAAACGTTTATTTATAAAAGATTTATCGTATTGTATAGCTATTATTTTACTATGATCAGATATATTGAATCCCGTATTTAAATTGATATAAATAATATTTTCTATATATTCATTATCTTCTTTAGTATATTTAGTATATTTTTTAGCTAATTCAACAATTTCTTTACTTTTTTTGGTAGGAGCATAATTTTGCCCGTTACTTACAAATTGATATCCAAAAACATCATATATTTTTATATCTTTTATAATTGGATTAATTTTTTTTAGTTTATCAATGATGTTTAAGGGATCAAGGTCATTAATAAAATCTTTTAACCCATTAGCAGTATATCCAAGTTCAAATAAATATTTTTTATCGGGTGTAGATTTATATACCCAAGTACTTAAAAAACCACTCATTACATTTGTTCGAAGCCTTTCATTATAAATTTTTCCATTTTTTCTAATAAAGTCAATATTTTCTCCAAGTTTTTTATTAAATTTCTTAAAATTAAAATTTAATGCTTTATTTTCTGTACTTTTTATTACAGTTGTATTTTCATCTATTATATAAAAATCATATTTATTTTTAAAATATTTACTAACTTCTATTAAATTAATTTTAGAGATATCTTTAGAACTTTTATTGTATTCATTTACAAATTTAAGGATATCTTTATTTAATTCTTCATTTAATTTTTTTTCAAACATTTTGTAAGCAGAGTCAATTAAATAAATATATGAAATAATTTCATTTTCTGTTTGATTTTGTGTTACTCTGTATTCTTCGAGAAGATATTTTTTTGTATTTTTTGCATGATAAAATGATAATAAATAAATACTTATTATCAAGATAGGTAATATAGAAAAGAGTAATTTTTTTCGTAGACTATTAAAAATATACATAAAACCTCCAATTATTCCAATTTTTCAATGGGAATATATTTTGTAGGGATAAGATCTTTTGGTATAAAGCCCCCTTTATTATGATTTGCTAAATTATAGATAACTTTATAAAATCCATTAGATATAAATGGATCTCTCATCTTATTATCGCATTTTGAACCTATAACCAAAATTTTTTCTCCTTTAGATAAGTTAACTACTTCTACATTAGATAAAGGACCTTCATTTGTTACATAAGAAATAGTATCAGGAGCCATTCCCCATAAATTACATTTGTGTGTTGATTTGTATTTATTTATTTTTTTTGTTTCATGTAAGCTAGAAAGTAAATTTTCATTTTCAAAAAAAATATGCATCTCTTGGTTTTCATTTTTTATGATAATAGTACCAAAATCAAAACCTTTTTTATCAATACTTCCAGGGATATACTCAACAAATTCACCTTTAAATATTTTTATAGGTTTTATTCCACCAAAAAAAGTAGTCAATTCTTTTTTATTATTATAAAATAGGTTATAGATATATTGTACTAAATTTCTATCATTATTTTCAATAAAATTTTTACCAATTTTATAAATTAATGATAAAGTATTTTGAATAGTAGAATCAGCTAATTTATTTAGTTCAGATTTTTTAAATGGATAGAATGATATACCACATAAACATTCAAAAATATTACTACTAAGAATGTTTCTAGCAATACTTTCTAATATTTCCGCATCAGATATATCAGAAGATAACAAATCATTTATTTTTTCGCTATCAATAGTTATATTTAAATGAGAATTTATGTAATTATTTAAATTATCATTTGATAATACAGCAGGGGCAATTTTTATATCTTTACTATAAGTAGTAAGTTGTAATTGAGGTACTGCACGTCTTGAACCATCTGCATCAAGAACAAAAAGATTATCAAGTTGAGCAGCAGTAAGGATAGGAATAAGGCTATTAACAGCCCCTATTTCAATAGGAAGTGTAAAATTAAAATTTTCATTCATATGTTTACTGAGTGTATTAAAGGCTCTAGAAGGAGCAGAGTAATCGTTGTCTTTTTTTAATGCAAGAGGTGAACCCATCATTGCAACTACAGCACCAGAATTTAAAGAGTTATCATTGACAGTAGTTATATTAATTTCTTTCCCTTGATTTATATATTCTAGAATTTTATTTTGGATTATAATAGCTTCATTTTTGCCACCACCACCACCAGCGCCTAAAAATAATCCACCTAAAATAATTGCTTCTAAATCTTGTTTTGAATTAATTTTTTTCATTTTAACCCCCATATATTATTATATTAATTTATAGTTATTTTCTTAATGGACGTATCTCTATTTTATTATTTATATATACAAATTCTACATGTTTCATTATTTTAGTAACGACATATTTATATTTATTTAACCATATCTCTACTCCAGGATAGCATATTTTATATACTTTAACTAAGCTTCCTTCAGTTGGATGGACATTTTTTAGATTATTAGCTATATCTTTAACCATAGATTTTACTTCATATTCAATAGCTAATTTTTCATTAAGAAGTCTGTTAAATTGCTTCTTCTTTTCTTCATCAAATGATTCTGGGTGAGCAAAACGCAAGTTTTCCATATATTCTAAACTTTTTTCAATATTAATTAATCTTTTTTTATTTTCTGATTTATATTCATCTATTTTATCGACAGCTTCTTTTACAGATATAGATTTTCCAGTTTTTATAATAGTTTTTAAGCCATTTTTAGAACCAAGTATTTTTGTAGATAACCCCTCTATTGCAATGATTTCTCCTCCCATTATTATACCTTTACCTTGAATAGCTTCAACAGACTTACCAGCTAAAATTTGACAGTTTACAGCACTATCTGTAATTATTATATTTTCTTTTGCTTCTAAGTAAGCAAATTCTAAATCTCTAATTTTTATACTATGATTTGCAATAATTTTACCTACTTCAGAACCGATAAAATTTTTTTCAATAATTACATTTTTTCCAGCCTCTAAAATAGCACCTTCAATTACTCCTTTTATTCGAATATCATTATCAGCTTTTATTCGATATCCCAAATCTACATTTCCATTTACTAATACGGTTCCTTCAAAATCTATATTTCCAGTTTTTATATTTACATCGTTAACAATTAATATATTTTTTACTGAAATAGTATCACCATTAATATCAACAAGCCCAGATATTGCAGCAACTAAAGTGAGGCCATTATGAATTAATTGTGTATTTTCACCTCTTTTTAAAACTTTATCTTGACCAGGAATAGCTGGAATAATATTTCCAAAAATATCAATTCCATCTGTACCTTGAGTAGCAGGAGTTTTTTCAGCTAAAATTTGATCTTTTTTTACAGGGATAAAAAGATCATTTCTTTCTTTATAGTCAATTTTGTTATTAGGATTATCTTCATCTTTATTTTTTTTAGGCATAAATTTATAATGAATCATAGCATCTTTTCCTTTTATAGGTGGAGTTCCTTCTGCAAAGAGAACAAATTTTCCTCTATAATCATATTTTATCATACCTAATAAAACTTTTTTATTTATACCATATGAAATGCCTATATCATAAGCTTTTTCTAATAAATATTTTAAAGATAAAAATTCTATAAAACCAGTATTTTTTATTTTTAAATAAGCTTTCATTTTATCATCACTTATTTTTATTTCAATATCAGGAATTTTTTTAAGATTTTCAATATTATCTGATATTTTTACTTCAACACCTCTTTCGAAATAAGCTTGTTTTACAGCTTCCAAATCAAAAGTATCTAATTCTGTTTGATTTAAAAATGCAAGTACACTAGAGATACTCATAGGTTCATTTTTTATTTTAATATATACACCATCGGGAGCAACTCTTAAAATAACTTTATTAAACTTCTCACTCATTTTTGTTCCTCCTTTGTTTATTTAAAATTTTTTTATTCAATATATTATTACTAAAAAAATAAAAAAAACCTTTAAAAAAGTTTGAAATTTAAAAAAAATATAATAAAATTAAAGTAGGATACAATAAAAGAAATATAAGGAGGGAAGATATGTGGGTGGAATATGCAAAAAAAGAAATTAAAAATATTTTAGATATAAAAAAACTCTTGGAAAATAATGGCTTCAAAGTAAAAGAATATTATAAAGAAAATAATTTATATTTATTTGCATTATATATAAATAATTATAAAGAGGAAGAAGAAGTTGTAAAAATAATAGAATTTAAGATTCAAAATAAAAAATTATATCGTTTAGTAGAAAAAAATAATTTATTTTTAGAAATTTGTTATTGTAATGAAAAAAATAATAACATTGTTTATTATTTAAAACAATTAGGGTATGAATCAAAAATTTTAAAAGAAAAAAAAGATGAATTTGTTGTAGCAATAGAAGATGATGAAGGATTAATTAGAATAGAGTATCTAAAAAAAGAAGGAAATATGGTATATAGATACATAAAATAGGCAGATTATAAAAAATCTGCCTATTTTATGTAAAAATTTTAAAAGTTAATTTTACTTTTTAAATAAATTGTAGGTGTTTGCCAATTTTTATTACTTATATTAATTTGGTTTAATATCCCAATTCCTAAATTTACAGGGATATGAGTAAAAATAAATCCATTTCCTGTTACATTAGTATTTAATACTAAATTTTGAGTAAGCCCGCTTGATAATATATGATACGTATCTAGATTGAATTTATAATTTTTCAAACTATATGTCCCAGAAGGAACTCCTCTATTTATAGATATAGTTTTATTAAAATTAAGTTTACTTATTAATAGATATCTAGAATATATATTATAAATAATACTATTTGATGATTTATTTGATATATCAAAATATTCATTATTATCTAGTATATCATTAAAATAAAATGCTTTTTTAGCAAGGCTTGCTTTAACTTTTATATATTTTGTTTTTAAATATCCACTAGCAACAATATTATCGCTATATAATGTTAGAATTGAACCTATTTTTTTATCATAATTTAAATCAAAATCATATTTTTTATTACTATCAAAACTTAAATCTAAATTAAACCAATTTATATTATTAAAAGATTTTAAAGGGTAATGATATTTAAATTTTGCATAACTATAAGTAGTAGAATTACTTAAATAAATATTTAAAGATGTATTATCAAAATAATTAAAAAATATTCCAGTTTGATTATTTTTGTACATGTTTTTAAAAAATATTCCAGTACTACTGTTATTATATTTTCCATTATTTATATTTTCACTAATTCCTAATTTAAAAAATCGTGTTTTAAAAACATTTGAAAAAGTAGCTGAATAAGTATCAAATACAGAACCAAAGCTATCAATTGTTAAATTAGTATTTTGAAATACAAAATTATCTCTAAATTCTTTAATTTCTAAATCATCAATATTTAAAGTTCTATCAACTTCTTCAATAATATTTTCTTGTGGTTGAGTATATCTATCATACATATCTGTTTTTATTAATTTAGAATAAGAATTATTTAAATTTAGTTTATTTAAGGTATATCCATTTGAAGTATAATTTGAAAAATAAAGGTTTTCATTGATTACAATAGGTTCAAAAGCTCCATACAGTACATTGGTTAATTGTAATATTTTATTATTTTCAAAGTTATAAGAAAATATATTATATGTTCCATTTATTGAATTTACAAAATATAAGTAATCTCCTTCTATAAATGGTGAATAACCTTCAGTTATAAAATTAATTTCATTATTTTCAAGGTTTAATTCATATATTTTTGGAGTTTTTTCATCTATTTTTACAGCTGAAAAATATAATTTATAATTAAGTGAATCATAATAAAATTTTTCAAATAAAAAATTTTCGTCAAAATTTATTAATATTTTACCATTATCTAAAACTAACTTTTGTTTTCCAGATTTATTTATTATATAAGCAATTTTACCGTCAATATTAATATAATTAATAGCTCTTTCTATTGATATTTTCTTAATATTTTTACTTTTTTTATAAGAAAAAGAATAATAGGTATTTTCTTTATTGTTATAATTAACTTTTGAAAAATATATATTATTATCACCTAAAGTATAATTTAGGATAGCTTTATTATAGACTCTATTATAATTATTATTAATAATATTATATGAATATATATTATTATTACTTATAAAAAATAAATTTCTATTTTTAACTTGTAAATTTTTAATTGTATTAAAATACAATTGACTTATTGTTTTTCCAGAAACTAAATTATTTTTATTTGAAATATTAAATGTTGTTTTTAAATAATTTTTATAGTATTGTAAAAATAATATCTCATCATTAACTCCAGATATTTTTAAGAAGCCATCATATGGTTGAAATAATTGATGATTTGATATATAAGATATAGCTTCTTTTAATTTGTTTTCACCGTATGTATCTACAAAGAATTTAATAAAATAATAGCCATATTCGTTTTCTTGATTATTATTATAATAACCATTTGAGAGTTCAAAACCATTAAATTTATTTTCTAAAATATTTGCTTTTAATTGCATTTTAAATTTATTAGATATAGGATTACCAGTTATACCTTTTTCTAAAATAATAGAGCTCACATATGTCGCTAATCCATTTACGTACCATTTAGGTAAAAATTTTTTTTGCGCAGTATACTTTGAAAATGGTAATCTTCCAAACCAACCATTTACATTTTTATAGATAACAGTTTTTGTTAAATTAATAGAAAAACTATATAGAAACCAGTTATCATAATTTTTTTCTTGGTCAAATAATGATGGAGAAGTAGCTGAAATATAGACTTCGTCATTATCGCTATATGTGTATGAATAGTCATAGTTATCATTTAAGATAACAGTAATTTTATTTTGTGGATAATAATTAAAAAACTCAAATATTTTATTTGCGATATTTTCGCTATTTTTCAATAATTCTAAAGCATTATCCTCTAATTCATTTTCGTATATAAAATTAAAATATTTTGTATTTAATGTTTTGATTTCTGCAAAAGTAAATATGTGTAGAGCTATAAAAAAAATGATTATATATTTTTTCATGATTCCTCCTTGTATAAATAACGTATATATATATTAACGTAATATTTCTATAAAAGTTTTAATATATTTTTATAAATTTGTCAAAAATAAAATTTTGTTTTTCAATAATTAAAAATATTTGATTTTTTTCTTCTATATGATAAAATATTATAACTTTAAAAGTATGGGGTGGCAAAAATGTTTAGAACAATTATAAATTTTTATGCTATGGGAAGTTTTTTAGCTCTTATTTCTACATTTTATATAGTATATAAATATAAAAAATTATTTAAAAAATCTGAATATACAGAAAAACATTATGTTGTTCTATTTTTTATTATGAGTTTGTCATCTTGGTATTTTTTTTACTTGTTTTTTGAAGACTTAAAAGAACATAGTGATGATATAGAAGATATTATTATTGAGATAAAAAGACAAATTGATATGTTTTTAGATGAATTATAAAAAGGGGTGGAATATGGAAGAACAACAAAGATTGAGTAGAGAAGAACTTGAAAAAGAGGTAAAAGATTTTAGAAAAGAAAAAGAGAGAGTTAGAAAGATAATAGGACAAATTGGAGGGAAAAGAAACCTTCAAAATGATAAATATATAAATATATTATTTTTAATAATTGTTTTAATTGTTTTTATATTAGGAGGTATTTTTCATACAATTCCTATAACTCTTTCACTTGAAATAGGGGTTTTTTTAGTATCATTAAAAGTAGCATATATGATAAACTCTCAAGAAAAAGTAAATCATTTTCAATTCTGGATATTAACGTCACTTGAGTTTAGATTAAATGAAATATCTAAAAATTTAAAAAAAGTAGAAAAAAGATTAGAAAAAATTGATTTTGAAAAAATTGATAAGGGGGAATAAATATGCAAAAAATTCATACAAATAATGCTCCAAAAGCAGTTGGAGCTTATTCTCAAGGAATAAAAGTAGAAAATTTTTTATTTGTTTCAGGACAAATACCTATTGATCCAAAAACAGGTGAATTTGTATCAAATAATATAAAAGAACAAACATTACAATCTCTTAAAAATATTGAAGCAATTGTAAAAGAAGCTGGAGGAACAATAGAAAACATAGTAAAAGTTGGAGTGTTTTTAGATGATATAAATGATTTTGCAGATATGAACAGAGTTTATGAAGAGTTTTTTGGAAGCCATAAACCTGCAAGAGCTGCAGTTGAAGTAGCTAAACTTCCAAAAGATGCAAAAATAGAGATAGAAGCAATAGCATATATAAAATAAAGTTATTTAGAGTAAGTTAAAATGACTTACTCTTTTTTTATAGAATAATTATTTTTATTAAAAACTTTAAAATTATATAATTATTTGATAAAATAAAAAGGATAATAGCTATTTCTATTGAAATATATATTAGATTATAAATTGTGGAGTTGGTAAGTATGCTTTTATTAGCTGAAGATGATATCTATAATTTTGTGTATACAAAACAAAAAGATTTTTTTATTCAAATAAAGGGAAATCTAGAGATATTATTTGTAAATCAAAGTTTTTGTAATGCATTTTCGATAGATGAAACACAAATTGTAGGTAGAAATTTAGGGGAATATTTAAATGAAAAATTGAAAAATGAAATAGTTAAAGAAATAAGATATTTAAATAAATTTAAACCTTATTCAAAGGCTAATTATAAAATAAAATTTGGAAATTCTAAAAGCGTGTGGTACGAATGGGAATATTATGCAATTTTAAATGAAGAACACATTGTAGAAAAATATAATATTTTAGCAAGAGAGATAAAATCAGATAAAACTATTGAAAATATGTTTTTCTTTCAAAATGATATCTTAAAAAAATTAAGTGAAATCAAAACATTTGGTGAATCATTAAAAATATTAGTAGATAAATTTAAATCAATAGAAGCATTTGATTCTGGAATACTATATTTATATAATAAAGAAAAAAATATTTTTTATTTAAAAGACTATATTAATATAAGTGAGGTATTTTTATCAAATAAAAATTTTTATAATAAAATACATGTTGATGCAAAATCGAGTTTAGACAAAGTTGTATACGTAGAGCAAATAGATGAGTTTAAAAAAGAAAATATAATGTCAATTGCTAAAATTCCATTAAAAACAGATGAGAATAGTTTTGGACTTATTGTTTTAGTATCCCATAAAAATATGATTATACCAAAAGCATTAAAATTGATTATAGAATCTATGAGATATCAAATAAGCAACATAATGTCTAAATTAAAATATATAGATGAACTCAATAATACTAATAATATGATTGAAAAATTATATGATATTGAGGGCGTTAATTTTTATATATTTAATAAATCTGGAGAAATTTATCCTTTAAAGGAAACATTGAAATTTGAAGAATTACCTATTCCAGATGATATTATTAGTATGGTAAAGAATAGTAATGATGTTATTAATATAAATGAATATAAAGATTTTAATTATTCTATGTTAATAAATGGAAATAATAATTATTTTGAATTAAGACTTTTTAGAGTATCAAAATTAGAATATATTATTAGAATTCAAGATAAAAGTATTTTAGAAGAAAAAAATAATCAAATAAGAGTACAAAATGAATTATTAAAATATATTGTAGATGTAGGAAACGTAGGAATTATTGAGATATCAGAAAATAAAGTAGCTTTTAATGAAAGTATTTTAACAATTTTAAAGTATCCTAAAGAAAATAATATTATTAGTTTTGAAACTTTTAAAAAACTTATTCATATAAATGATTTAGAAAAATTTAATTTTTATTATTTAGATTTTAACAATAGTAAGAATGGATATTTTGAGTATAAATTTAGGATTAAAAGATATGATAATAATTATATATGGTTAATGTTAAAAGCAAAAAAAGAAAAAGAAGAAAAAACTTATAAATTTATAGCTTATGATGTAACAAAATTTAAAACAGAAGAGAACGATATAAAAGAGTTATTAATAAAAGATAATATAACAAAGCTTTATAATAAAACATTCTTTTTAAAAGAATTAGATAATGAATTTAAAAAACTTCGTTCAAATATTAATCTTTTTTCAGTAGTTATGATATACGTAGAAAATTTAAATGATATATTAGAAAATTATGGAATTGATATACGAGATTATGTATTAGAAAAATTTGCAAAACATTTAAAAGATAATCTTAGAGAAGAAGATTTAATAGCTAGATATTCAGAAGATAAATTTGTAATGATACTTAAAAATATTGTAAATAATAATTCTGAAAGTGTAGTTAAAAGAATACTTGATTCTTTTAATATAGAACAAATTGAAGAGGGTTTAAAATGTAAAATTTTATTTTTTGATACAGAAATTTTAGATCAAAATATAAATCTAGAAAAAATTATAGATAATATGGTTGATAAAATATCAACTATTAAAAATAATTTTGAGCATATAAAACCGATAAATAATTAAATTTGAATCTAACTACTGGAGTATTATCTATATATAGCATAAGAAAAATTGTAAGTTTTATATGAATGGTTATGGAGAAAGTAATTTAGAAAAATATATAAAGTTTTTCATATATTAAAGTCCTAATTTTAACATGAACAAGTGTAGAGATAGTTTAGTGATATTTAATAAAACCAAAAAGCTATCATTTTGATAGCTTTTTTATTGTAATAGTAAAATAGTAAAAAAATAAAAATCATAACAAATAAAATTTTATAGCAAAAAAGAAAGGGGAGAAGATGAAAATACTACATTGTTCAGATATACATCTAGGGAAAAGACCTGTCGGAGGGATTGGAGAGTATTCAAATAAAAGGTATGAAGATTATTTTAAATCATTTGAATATATTATAGAGTCTGCTTGTAAAGAAAAAATAGATATTTTTATTATTGCTGGAGACTTTTTTGATAAAAGAGTTATTAATCCGGAAATACTAGAAAAAACAGAGAAAATATTAGAAAAATTAAAGGAAAATGGTATAAAAGTACTTATTATTGAAGGGAATCATGATAATATTATAAAGGGAAATGAAGAAAACTCGTGGATAGTTTACTTAGAAAAAAAAGGTTTATTTAAAAGATTAACTTTTAGTGTAACTTATATAGGAGAAGAGAAAAAATTTGATTTTGATGTTATAAAAATAGGAGATGTTAATTTTTATGGACTTGGATATCCAGGAATATTAGTAAATGAGGCTATGGAAGAACTGTCTAAAAGAGTTAATCCATTAGAAAAAAATATAGTGATAGTACATACAGCTATATCATCTGGAGATTTTTTGCCTGGAACTATTGAAAAGGAAATTATTGATAAATTTCAAGGGAAAGTTATATATATTGCAGGAGGACATTTTCATACACATATAACTTATCCAAAAGAAAATCCTATATTTTTTATACCGGGTGCTAGTGAGTATTGGAATATAAAAAGTGAAATAAACAGAAAAAAAGGATTTATTATTTTTGATACAGAAACAAAAGAATATAAATTTTATGATAGTAAAACTAGAGATATTGTTATTTTAAATATAGAAAATATAAAAGAAGAAGAAGAAGTTTTTCTTAAAATAAATAAAGAAAAAAATAATATAAATATTATTGAAAATGAATCATTATTATTTATAAATATTTCATTAGAAAAAAATATATTTTTAAATACAAATGAAATAGAAAAATTATTTGAAAAAGAAAAACCATTAAAAATATTTATAAATACTAAATATAAAAATAGTTTAAATAATAGAAGTATTAATAGAGAAAATATATCAAATATATATGAAATAGAAAAAGAAGTTATAAAAAATAGCTGGGATAAATTTAGAGATGCTTCAGAAATAGTTGTAGAAACATTAAATAATTTAAAAATACATCAACAAGAGAAAGATAAAGAAAGATTTTTTGAAGTATTTGACCATTTTGTAAATAAAATAATATCAGGTGATAATAATGAAAATAAATAAAATATATTTAGAAAATTATAGAATACATGATAAAAAAGAGATAAATTTTTCTAATGGAGTAAATTTATTACTAGGGAAAAATGGTGCAGGTAAAAGCTCAATATTGGAAGCAATAGGACACACTTTGTTTTCTTCAAAGTTACGGGATAATTCTGCTAAAAATTGTATAAAATATGGAAGGAATAAAGCTATAGTTGAAATAGAGTTTGAAGGAAATGATGGAATAGAATATGTTATAAAAAAAACTATAAAAGTAGTAGGAAATGATACTTATAGTTTTTATGAAAAAAATAATCCGGAAAAGTCAGTTGCAACTAGAAAAGAGATAGACGAAAAAATTTATAAAATATGTGGACTTATTAAACAGTCAAATAATATATATGATAATATAGTTTCAATAAAACAAAATAGTTTTGTAGATATATTTTTGTTAAAACCTAGTGATAGGGAAAAAATGTTTAACGAAATATTTAATACAGAAATATATAGAGAGATGTTTGAGAAATATTTAAAAGAAGTAAAAGATGAATATGATAGAAAAAAAATAGATATTGAAATGGAATTAAAATTATTGAATGAAAATAATATTGATATAAATAAAGTTAATTTAGATATGAAAAATGAAAAAGAAGTTAATAAAAATTTATTAGAAAAAGAAAAAAAAATTCGTATAAAAAAAGATGAATTAAAAAAAGAAAAAGAAAAGTTACTAGAGTTAGAAAATGAAATTAAACTAATAAAATCTAGCATAGAAAATATTGATAGTTTTATAAATAATATAGAAAATCAAATAAAATCACAAGAAAAAGAATTTGAGATTATCAAAAAAGCTAAAGTTTTATTAAAAGAAAATGAAAAAGAGTATAATGAGTATAATAAAAATAAAAAAGAATTAGGTGAGCTTGAAGAAAAATTAAAAAATTATGAAGAAATTAAAAGTTGGTGCGAAAAACAAGAAAAAATCAAAGAAAAAATTAAACTAGAAATAGAGGAAAAAAATTGGAAAATAGGAAATATTAAAACAAAACAAGAAAATATAAATAATAGAGTTCAAGAAATAAAAGATGATTTAATAAAAATAAAAAATGAATTATCTAAAAAACAAATTCAAGAACAAGAAATTTTAAAAAATATTGAAAATAAGGAAAAAGAAAAGAAAAAAATAAAAAAGTTATATGATGAATATGAAAAATTAAAAGAAGAAAAACGATTTTTAGAAAAAAGTTTAGAAGAAATAAAAGAGAAATTTTCTATTGATAAACAAGAGATAATAGAAAAAAATTTAAATCAATATGAAAAAGAAAAGAAAAAATTTTTAGAATTAAAAAAAGAAAAAGAAAAATTAAAAAATAAAGAAATTAATATTAGATTACTGATAGATCAAAATAAAAAAGCAGAAGAGCAATTATCAACAGGATTTTGTCCAATTTTACAAGAAAATTGTAAAAATATAGAGGGAAATAGTCCAAATAATTATTTCATAAATAAATCAAAAGAGTTAAAAAAAGAATATGAATTAATAATAAATAAGTTGAATAAATATAATAATGTAGAAATCAAACTAAATGAAATAGAAAAAGAAATAAATTTAAATAAAGAAAAAATTAAAGAATTTAATATTAAAAAAAATGAAAAGCATGGAAAAAAATTATTAATAAAAGAATTAGAGTTAGAGTTAGAAAAAAAATATATACAAGTAAGAGATATTTTAAAATTAGAAAAAAATGAAAATATAAAAGAAGTTGTGTCAAAATTAGAAAAAGAATATATAACTCTCCAAAATAAACAAGAAAATTTAAATATAAAAAAAGATATTGAAATAAAAAAAGAGTTAGAATTAAAATTAAAAAATAAAGAATTAGAAAACAAAGAATTAGAAAATGAAGCTAAAATATTATCTGAAGAAATTAAAAGAAAGCAAACTAGATTAAAAGAATTAACAAAACAACTTTCAATAGGAGCTGATAAATTAAAAAATTTAAATCCATATAAAGATAAATATGATGACTTAAAAGAAAAAAATAAAGAATTAGAAAACAAAAAAAATATTTATATAGAAAATAAAAAAACAGCAGATAATTATGATAGTTGTTTGGATAAATTGGAAAAATTGAAACAAGAAAAAGAGGTGAAATCAGAAGAAAAAAATACTAAAAATAAGAAAAAAATAGAATTAAAGAAAAAAATATCAGAGATAGATAAAGAAAAATTAGAGAAAGAGATAGTTGAAATTGAAGAATATATAATAGATATAAATGAGAAGATAGGAATATCAAATACTATGATAAAAACGCTTAAAGAAAAAGAAGAAGAATATAATAAAAATATAAAAGAGATTAAAAAATTAGAAAAAAGGTTAAATAAAATAAAATTAAAATCTAATATTGCAGATGATTTTAGAAAAAATATAAATAATATGGGGAAAATGGTATCAAAATATTTAATAGAAGACATTTCTATAAAAGCTACAGAGAATTTTAGAGAAATTACCGGAAGAACAGAGATTATTAAATGGATAAATGATGAAAACAATACATATCAAGTGTTATTAAAAGATGAAGAAGGAACTAGAGTATTTGAACAGCTATCTGGAGGAGAGCAAATAGCTGTAGCATTAGCTATACGTACAGCATTAGCTGAAATTCTTAGTTCTACGAACTTTATAATTTTTGATGAACCTACAAATAATCTTGATGAAGAAAGAAGAAAATCACTTGCGGATTCCATGTCAAAAATTCTTAGCAGTATAAATCAAAGCATAATAGTAACACATGATGATACATTTGAAGAAATGGCAAATAAAATTATATATATTTAAAAAACTAGACTTTAGTTTATACTAAAGTCTAGTTTTATTTTTAGTTTTTTTTATAATTATTTTTCTATATCAGCCCAATAAAATTCTTTTTCTGCTCCAACACTTGAAAGAGTTAAATTTTTTACTCTAGATTTTATTAAGATGTTTTTAGCATTGAATACTAAAGGAACAATTGGCATTTCTTTTATTAATATTTTTTCAGCAGCAGCCATTGCGTCCATTCTTTTAGATTTATCAGCTGTATTATAAGCGATATCTATATATTTATCATAATCTGTATTTCCCCAAGCAGTATGGTTATTTCCACCACCAGTTACAAATAGATCCATATAAGTCATAGGGTCAAAATAGTCAGCCCCCCATCTTGTTAATTGGAAATCAAAATCCATTTGTCTCATTCTTTGTAATCTTATTTGATATGTAACGTTTTCTATATTTACTTGAATACCTAATTTACTTCTTAATTGTTCTTGAACAAATTGAGCATCACCTTTAGCAGTAGGTTTACTTCCAATTAAAAGATTTAAAGTAAGTGGTTCTGTAAATCCTAATTCTTTTTTAGCCATTTCATAATATTTTTTAGCTAATTCTATATTTTCTTCGAATAAATTTAGTCCGTAATCTTCTCTAAAAGATTTATTTTTACCAGGGAATCCTTCAGGTGTAAATGAACGAGCTGGTTTAGAACCATCTTTTCTCACTGTTGTAACTAAATCATTTCTATCAATTGCATAAGCAATAGCTTTTCTTAAATTTTCATTTTTAAAATATTTATTATTTGTATTAAATTCTAAATACCATACAAAACTATCATCTAAATTAATAAGTTCTTTACTATCTTTGAAATCAGGTAATTGATCGCCAGTAATATTAATTACATCAATTTCATCATTTTTGTACATATTTGCTAAAGTATTTACATCTTGTACCATAAGTACATGTAATTCATCAATTTTTATAGTATCTTTATCCCAAAAATTCTCATTTTTTGTTAAAATTATTTTACTATCATGTTCCCATTCTTTAATTTTCCAAGGTCCATTATAAATAAGGTTTTCTTTTTCTAAAGCAAAATCATCACCTTGAGATTTATAAAATTTTTCATTTAATGGAAAGTAAGTAGGAAATGCAAGCACAGATGGGAAATAAGCTACAGGTTTATCGAGAGTTATTTCTAAAGTATAATCATCTATTACTTTTACTCCAACTTGAGAAAAATCTTTAATTTCTCCAGTATTATACGCTTCACTATTTTTTATATAATAAAGCATATATGAATATGGAGCAGCTACTTCTGGCTCTAATCCATGTCTTATTCCATAATAATAATCATTTGCTGTGACAGGTTCTCCATTTGACCATTTTGCATTTTTTCTTAAATGGAAAGTCCACACATTACCATTTATATCCCAAGATTCAGCCCCAGCTGGTATAGGATTTCCATTTGGATCCAATCTTGTAAGTCCTTCATATACTTCATTAGCAATAAGTATCGATGTACCGTCAGTTAAAACTTGAGGATCAAGTGACGCAGGCTCACCTTCAACACTAAGTTTTACTATTTTTTTATTTTCTTTATTTTTTTTAAAGAAAAGTCCACTATAACTTGTAACTGACATAACAAGTGAAAATACTAAAGTAAATATTAATATTAATCTTTTTTTCATAAAAATTCCTCCTTTTATTTTACTTATAATAGAATTGTATTACAAAAGTAGTATAAAAGTAAAATATATAAAATTTATAGATGTATTTATTATATATATATAAAGAATAGTAATGTTTTATAAAATTTATATTATATAAATAATAAGTAGAAAAAATTTGTATAATAACAAATTCATCTATTAAAAAACAAAAAAATATTGAAAAAAGTTTAAAAATTTAATATAATAATTAGGAAATTTTTTTGGGAAATAGAAAAGAGGGGAAAAATATGTACTTTAATATTAATAATAGATTTTATAATGACTTAGAATTAATAAAAGAAAAAAAAGAAAAAAAAGAAATTGAAACAGAAAATAAGACAACAATTCAAAATAAAGAAACAAAATTTGAAAAAATATTAAAAGAAGAGATAGAAGAAACTAAAGAAGATAAACTTGATATAGAAGAAGAAAATAAGAAAGAAATAAATGTATCAACAATAATAGCAAAAACAAATTCTCTTGAGTATACAAATGGCTTAGCTGCAAATTATATTAGAAGTTATATTTTAAATAAATATAAAAATACTAAAGAATAACTTATTAAAAGTAAAAAATATGGAACATTGTATAATTAATTGCACAAATAAATAAAAAAAAAGACACATCTAATAAGAATCTATGCTAAAATGTTGAATCACTAAAAACAATATT
>sequence12
TACACCCAGTTACATTCCGAACCTGGAAGTTAAGCCCTTAAACGCCGAAAGTACTGAATTGGAGACGATTTGGGAGGATAGGTATTTGCCAAGCTAGATAAAATTTATAAATATAAATTTTATCTAATATAATTGTGTTCCCTGATAGCTCAGTTGGTAGAGCGCACGGCTGTTAACCGTGTTGTCGCTGGTTCGAGCCCGGCTCGGGGAGCCATTTTTTTATTTTTTGTAAAATTTATTAAAATTAATTATTACTAATTGTATTTGTATTTTTAATGAATAAGTGGTAAGATATAATGTGAAGTATAATTAAACTAAAGGAGTAGAAAATGAATAAAAATATTTCTGATATACTAGAAAAAAATCCTATAATAGCAGCTATAAATTCAGAAGCTGATTTAAATGCAGTACTTAAAAGTGATATTAATATTGTTTTTATATTGACTTCTAATATATTAGAAATTTCTAATGTTATTAAACGTTTAAAAGAAGCTAACAAATTTGTATTTGTTCATATTGATCGTATAGAGGGATTATCTTCAAGATCTACTCTTATAATTGATTATCTTATAGCTAATACTGAGTTAAATGGTATTATTAGTACTAAACATAACATGATAAAATATGCTAAAAATAAAGATATCTTAGCAATTCAAAGATTTTTTATTTTAGATTCATTATCTTTTAAAAATAGTTTAAAAAATGTAGAAGATACAAAACCTGATGCAATAGAAATTTTACCAGGGTTAATGCCCAAAATAATAAAAAAAATAACTAAAGAAATAAAAATACCTGTGATAGCAGGGGGACTTATACAGGATAAACAAGATATAATTGGAGTAATAGAAGCAGGTGCTTATGGAGTTTCCTCTACAAATAAAGATATTTGGAATATGTAAAAAAATAGTATTTAAAAAGTGAAAAAAATACTTTTTAGAATGCTATTGACTTTAAAAAAAAAATAAGATATATTTATAGTACAGTAAGTTCGGGAAAAGTACTTTTTGCGTCATGTCAATTAAATAAGGTGTATTTGGAGAAAAAGGAGAAAATACATGTTCTTTTAAATTTTAAGGAGAACCATGTATTTTTTTATTTTGCAAAATTATTTTAGGAGGTGATATTTTAAATCTAATTTTAAGGATATTGATATTGTCTAAGTGTTTTTATTGAAAAGGTTGTCTGATTGTCTGAGTATTATTGTTATTTAAATTTAAGGAGGAGCTATTATTATGGGAATTTATTTTGCTGAATTTATTGGTACAATGATTTTGATTCTTTTAGGAAATGGTGTAGTTGCGAATGTGGTTTTAGGTAAAACTAAAGGAAATAATTCTGGTTGGATAGTTATAACAACAGGTTGGGGATTTGCTGTTGCAATAGCAGTTTATATAACTGGTTGGATAAGTGGAGCGCATATAAATCCTGCAGTAACAATAGGACTAGCTAGTATTGGGAAATTTTCATGGTCTTTGGTACCAGGGTATATAATTGCTCAAATTTTAGGTGCTTTTACAGGTGCAGTGTTAGTATTTTTTAGTTATAAACAACATTATGATGAAAGTGACGATGCTGATGGTAAATTGGCTACATTTTCAACAGGACCGGCTATTAGAAATTTATTTTGGAACTCAATTAGCGAAATTATTGGAACTGCAATGTTAGTTATAGGGATATTAGGTATAGGACAATCTCAAAATAATCTTGGTGGAATGGGAGCTTTTATGGTAGGAGTATTAGTTTGGGCAATAGGACTTAGTCTTGGAGGATCTACTGGATATGCAATAAATCCAGCTAGAGATTTAGGACCAAGAATAGCACATGCTTTACTTCCAATTAAAGGCAAAAGAGATTCTGATTGGGGATATGCATTAATTCCAGTATTAGCCCCTATTGTTGGCGGGGTTATAGGTGCTTATATATTTCAATTTGCTACTTTAATCTGGAGTTAAGGTTAAAATTAATAAAAAATACTTGTTATTTGAATTTATTTAAAAAATAAAAAAATTGGAGGGAATTACTCATGGAAAAAAAATATGTAATAGCACTTGATGCAGGTACTACAAGTAATAGAGCAATAATATTTGATAAAGAAGAAAATATCGTAGCAGTAGCGCAAAGAGAATTTACTCAAATATATCCTAAAGCTGGTTGGGTAGAACATGATCCAATGGAAATATGGGCAACTCAAAGTTCTGTACTTACAGAAGTAATGGCAAAAGCTAATATAAAAAGTGAAGAAATTGCAGCAATAGGAATAACAAATCAAAGAGAAACAACAATTGTTTGGGATAAAAATACAGGAGAACCGGTATATAATGCTATAGTATGGCAATGTAGAAGAACAGCGCCTATATGTGAACAGCTAAAAAGAGACGGACACGAAGAATATATAAGAAAATCTACAGGGCTTGTAGTTGATGCATATTTTTCAGGAACAAAAGTTAAATGGATATTGGATAATGTAGAAGGAGCAAGAGAAAAAGCTGAAAAAGGTGAATTATTATTTGGTACAGTAGATACATGGCTTGTATGGAAATTGACTCAAGGAGAAGTACATGTAACTGATTATACAAATGCTTCAAGAACATTATTATTTAATATAAAAGAACTTAAATGGGATGAAAAAATATTGAAAATGCTAGATATCCCAAAAAAAATGTTACCAGAAGTAAAAAATTCTAGTGAAATATATGGATATACAAATCTTGGAGGAGTAAATGATATAAAAATACCAATTGCAGGAATGGCAGGAGATCAACAAGCAGCACTTTTTGGACAAGCATGTTTTAATAAAGGAGAAGCAAAAAATACATATGGTACAGGTTGTTTTTTATTAATGAATACAGGCGAAAAAGCTGTTGAATCAAAGAATGGACTTCTTACAACAATAGCAGTAGGTATTGATAATAAAGTAGAATATGCTTTAGAAGGAAGTATATTTATAGGTGGAGCTGTAGTACAATGGCTTAGAGATGAATTAAAATTAATAAATGATGCAGCAGATACAGAATATTTTGCTAAAAAAGTAAAAGATACTAATGGAGCATATGTAGTACCAGCATTTGTTGGATTAGGATCACCATATTGGGATATGTATGCTAGAGGAACAATAGTAGGATTAACAAGAGGAGTAAATAGAAATCATATAATAAGAGCTGCATTAGAATCAATAGGATATCAAAGTAGAGATCTTATAGAAGCAATGCAAGAAGATTCGGGAATAGAATTAAAAGCATTAAAAGTAGATGGTGGAGCAGTAAAAAATAATTTTTTAATGCAATTTCAATCAGATATACTAGGAACTGTAGTGCTTAGACCAGAAGTAACAGAAACTACAGCACTTGGAGCAGCATATCTTGCTGGATTAGCAGTAGGATTTTGGAAAGATAAAGAAGAAATAAGTAATAGTTGGAAATTAGATAAAAAGTTTTTACCAGAATTTGATAATGATAAAAAAGAAAAACTTTATAAAGGATGGAAAAAAGCTGTATCAAGAGCACTTTCATGGGAAGAAGAATAAAGATATTGACTTTAAAGACAAAATAGATTATAGTTAAATTAGAAGATAAAATTAAATATTGGCTATAGAAGATGGAGAAGCTGAGTAGACATAACAATAGTTATGTTTATTCAGCTTTTTTGATTTTTAAATTATTATAAAATAGATTATTATGTTAAAAGATATAAAAAATTAAATTAATTTAAATTAATTAAATATTGAAAATAATATTAAAGTAGGAGTGATTGTTATGTATGATGTAGTAATAATTGGAGCTGGTGTATCAGGTGCTTCTATAGCAAGAGAATTAGCAAAATATAAATTAAAAATTGCAGTTTTAGAAAAAGAAAATGATGTAGCAGATGGGACCACTAAAGCTAACTCTGCAATAATTCATGCTGGATATGATGCTAAAGAGGGGACACTTATGGCAAAATATAATGCACTTGGGAATCAAATGTATGACAAAATAGCAGAAGAATTAGATATACCTTTTAAAAGAATAGGCTCTTTAGTTTTAGCATTTTCTGATAAAGAAAAAGAGCATTTAAAAATGCTTTATGAAAGAGGATTAAAAAATGGTATTCCAGATATGAAAATACTTAATTTTTCTGAAATAAAAGAAATGGAACCAAATATAAATAAAAAAGTTGTAGCAGCGCTATATGCTAAAACTGCTGGAATAATAGGACCATGGGAACTAACTATTGGAATGTTAGAAAATGCAGTAGATAATGGAGTAGAACTTTATTTAAATAATGAAGTAATTAATATTGAAAAAACAGATAATGAATTTAAAATTACAACAAAAGAAAAAGATTTTAAAACAAAAGTAGTAATAAATTGTGCAGGAGTATATGCAGATCAAATACATAACTTAATAGCAAAACCAAGTTATAAAATAACACCTAGAAGAGGGCAATATTTTGTAATGGATAAAATGGAAGGTGAAAAAGTTAATAGAGTAATATTTCAATGTCCCACTGAAGTTGGGAAAGGAGTTTTAGTTACGCCTACTGTACATGGAAATTTACTTTTAGGACCTGATTCACAAGAAGTAAATAATAAAGAAGATACTTCAACAACTACAGAACAGCTTGCATTTGTTAGAGAAAAAGCTTTGAAATCAATAGAAAATCTTAATCTAAGAGAAGTTATTAGAAGTTTTGCTGGTTTAAGAGCTGAAGCGGATAGAGGAGATTTTATAATTGAAGAAGCTAATGATATAAAAGGATTTATTGATGTTGGAGGAATAAAATCTCCAGGACTTTCGGCAGCACCAGCATTTGCAGTAGATGTAGCTAAAATGGTAGTAGAGATTTTAAATAGAAATGGAAAAATTGAAGAAAATAAAAAGTTTAATCCAATAAGAAAAAAACAAATTAGATTTATGGAATTATCAAATGAAGAAAAATCAGAAATTATAAAAAAAGATTCGAAATATGGAAGAGTAATATGTAGATGTGAAACAATAACAGAAGGTGAAATAGTAGATATTATTCATCGTAGTGTAGGAGCTAGAACTGTAGATGGAGTAAAAAAGAGATGTAGACCTGGAATGGGGAGATGTCAAGGAGGGTTTTGTGGACCTAGAATACAAGAGATATTAGCAAGAGAATTAAACTTAACACTTGAAGAAATTGTATTGGATAAAAAAAATTCATATATATTAACAGAAGAAACTAAAAAATAAGAGGTGAAATTATGAAATATGATATAGTAGTAATAGGCGGAGGACCAGCAGGACTTGCAGCAGCTATAGAAGCATATAAAGTAGGAATAAAAAATATTTTAATAATAGAAAGAGATAAAGAATTAGGCGGGATATTACAGCAATGTATCCATAATGGATTTGGACTTCATGAATTTAGAGAAGAATTAACAGGGCCAGAATACGCGCAAAGGTTTATAACACAATTAAAAAAAATAGGGATAGATTATAAATTAGATAGTATGGTATTAACTGTAACTCAAGAAAAAAAAATACAAATGATAAATACAGAAGATGGATTTGTAGAAATAGAAGCAAAATCAATAGTATTAGCTATGGGATGTAGAGAAAGAACTAGGGGGGCTATTTCTATACCAGGAGATAGACCAGCAGGAATATTTACAGCTGGTACAGCGCAAAGATTTATAAATATGGAAGGATATATGGTAGGTAAAAAAGTAGTAATACTTGGTTCTGGAGATATAGGACTTATTATGGCAAGAAGAATGACTCTAGAAGGTGCAGAAGTAAAAGCTGTAGTAGAGCTATTACCTTATTCTGGAGGACTTAATAGAAATATAGTACAATGTCTTGATGATTATGATATACCTCTTTTACTTAGCCATACAGTAACAAATATAAAAGGAAAAGATAGAGTAGAGGAAGTAACTATTGCAAAAGTAGATGAAAATAGAAAGCCGATAAAAGGAACAGAACAAACTTTTGAAGTAGATACTCTTCTTTTATCAGTAGGACTTATTCCGGAAAATGAACTTAGTTTAAGAGCTGGAATAGATTTGGATCAAAGAACATCAGGTCCTATTGTAAATGAAGCGATGGAAACAAGTGTAAAAGGAATATTTGCTTGTGGAAACGTAGTACATGTACATGATCTAGTAGATTTTGTTACCGCTGAAAGTAGAAGAGCAGGTAAAAATTCTGCAAAATACGTACTTGGAGAATTAGATGAAAGTGAAAATTATATGAGAATAAAAGCAGAAAAAGGAATAAGATATACAGTACCCCAAAAAGTAAGAGTAAAAAATATAGATAAGTTTTTAGAAGTGTTTTTTAGGGTAACAGATGTATACAGAAATGTTAAAATATCAATTGATGCAGAAGGAGAAAATTTATTTTCAATAAAAAAAGAACATTTAGCACCTGGAGAAATGGAAAAAATAAATATACCATTAGCTATGCTAGAAAAATATAGAGATAAAGATATTAGTATATCTGTAGTGGAAGGTGATAAATAATGGTAAAGAAATTAATATGTATAGTATGTCCAAAAGGATGTCATTTAAAAGTAGATACAGATAATGATTATAAAGTAACAGGTAATCAATGTCAGAGAGGAGTAGATTATGGAGTAAAAGAACTAACTAATCCTACAAGAATAATAACTTCAACAATAAAAATAAAAGGAGGAATACATAAGAGAGTACCTGTAAAAACAGATAAAGCTATTCCAAAAGATATGAATTTTAAATGTATGGAGATAATCAATACATTAGAAGTTGAATCACCTGTAAAAATGGGTCAAATTGTAGCAGAAAATATATTAGATACTGGAGCAAATATAGTAATAACAAGAGATATGTAATTTAAAAAAATTTATTCAAAACACTTTATTTGTCTGTAAAAAAGAAGAGGTTTAAAAATAAAAGGAAAATAAATAACAAATTAAAAAATAGTTAAAAATGTTTAGAATAAAAAAGTAAGTATTGAATTTGTTGACAAAAAAAACTCCTTATGATATAATAACAAGGCTTGATAAAAACTGATATTCCGCTTTATAAAATTTATAAATGAATATCTATGAAAATAGGAGGAAAATAATGAAAGAAAAATTAATTGAGTTAGTAGAAAAAGACCAATTAAGAGAAATGCCAGAATTTAAAGCCGGAGATACTATTGCTGTACACTACAGAGTAAAAGAAGGAAACAAAGAAAGAATCCAAATTTTTGAAGGTGTAGTAATTAGAGTAAATGGTGGAGGAATAGCTAAAAACTTTACTATAAGAAAAGTATCATCAGGTATAGGAGTAGAAAGAATTATTCCTTTAAATTCACCATTAATTGATAAAATTGAAGTTAAGAAAATCGGAAAAGTTAGAAGAGCTAGACTTTACTACCTTAGAGGATTATCTGGAAAAGCAGCAAGAATCAAAGAAATTAGAAGATAAGTTTTTAAAGCTACCAAATATTGGTAGCTTTTTTTATTAATAATTTCCACTAAAGTTATATCCAATTTCTAATGAAATTCTTGAAACAGAAAAATCATAATTGTTTGGTAAAATTTTAAATTCACCTTTAGAAATTTCATAAGTTACTTCAATTAAAAAGTCATTAATATTTGCTCCAATTCCACCACTATAATATAAACCAGGTTTAATTAAATCAGTTGAATTTAAATCTTTTCCTTTAGTATAAAATGAATATCCTATATTACCTTTGATATAAGGCATCCAACTTCCATATCCAATAGTAGCATATCTTGCAGATAGATATACTGGAATAGCTGCATCTATATAAGAAAGTTTAGTAGTAGTAATATCATGTTTACCTATACTTTGATAAGCTGCTCCATACCCTATAGAAAAGCCTTCATTAGCAATATAAAATTCACCTCTAGCTGTATATCCAGCATCTAAATCAAAAGGAGAACCAGAGAAAGTCTTAATGTCATCAGAACCATTAAAATATGTTCCACCTTTAATTTCAAAACCGGCAAATGCTAACATTGATGTTATTAAAAAACAAGCAATAAATAATAATTTTTTCATATTTTGAAACACCTCCTAAAAATAAATTACAATGTGATTTATTCTCACATTATATATATCGACAATTTATTAAAAAAAATTATTTAAATAATCAAAAAATAAAAAAAGTAGATATACCTATAAAGTATCTACTTTTAATTATTTTTTGAAGCTGCCAATTCAAGTAATTTTTCATAATCTTTTTTACTGATAATCATTAAATCTTCTTTTTTTAAATGAAATAAATCCATTCCACCTAAAATTCTCTTTTCTTTAACAGTTTTTTCTGCATTAACTAAATTTTCATTAATATTAGTTATTAAACTATTCATATTAACCCCTCCTTTACGATCTTAATCTTAATTTAATTATACTACACAAAACTTTTTTTGTCAAATGTTTTTTCTTTTTTTTGGAGTTTATTTCCAAAGGTGCAAATTATTAAAAATAAATAGATTTTTCACAAATTAAAATTTAATACTTAATTAATTGTTGCATAAACAATTAAAATAAAATGGAATTCCAAAATAAAAATTTTTATAAAATAATTATTAAATATTAGTTAAAGAATTTAATAATATAAATTAATTGATAAATTTTAAAATAAATGATAAAATAACTAAAAAATTTTATGGGAGGTAAGAGATGTCAATATTAGTTTTCGGACATAAAAATCCAGATACAGATTCTATTTGTTCTGCGATAGCTATGGCAGAGTTACAAACAAAATTAGGAAAAGATATAAAAGCAGTTAGATTAGGAAATCTTAATAAAGAAACAGAGTATATCTTGAATTATTTTAATATTGAATTACCTGAATTAATTGAAAAAGTAAAAGATGAACAAGAGGTTATTTTAGTAGATCATAATGAAAAAGGGCAATCAGTAGATAATAGAGATAATAGTAAAATATTACTTATAGTAGACCATCATAAAATTGATTTATCAACAGCAGATCCTATTAATTTGAGATTTGAAACAGTCGGATGTACGTCTACTATTATCGCAAAATTATTTAAAGAAAATAATCTTGTACCAAGTAAAGAAATAGCGGGACTTATGCTAAGTGCTATAATTTCTGATACTCTTTTATTTAAATCACCTACTTGCACAGATGAAGATATAAAACAAGCAAAATATTTAGCAGAAATAGCAGAGATTGATTATGAAAAATATGGAATGGATATGTTGATAGCTGGTACGTCAGTAGATGACAAAACTGCTGAAGAAATATATAATATGGATATGAAGCCATTTAGCTTTGGAGATCAAACTGCCACAGTTGCTCAAGTAAATACAGTAAATATAAATGATATATTAAAAAGAAAAAATGAATTGATAAAAGTGATGCAAGAAAAAATAAAAAATGATAAACTTTCTTTTGCACTTCTTATGATAACTGATATAGTAAATAAGGGGACAGAACTTTTAGTAGTAGGTGATAAAACATTAGCAAATAAAACTTTTGGATTAGATATGTCTAAAGATACAGTTTATTTAGAAGGAGTAGTATCAAGAAAGAAACAGATTGTACCACCTCTTACAAATGCAGCTAATTAATAAATTATTAGAGGATAACCATTAGGTTAGCCTCTTTTTTAAATATTAAAAAGGGGAAAATTATGATTAGAAAAGTAAAATTAAGTGATGCAAAACAGATAGTAGATATCTATAATTATTATATAAAAGATACTATAATTACTTTTGAAAAAGATTTAATTGATAAAAAAGAAATGGAAAAAAGGATAAAAAAAATTTTAGAAGATTATTTTTGGATAGTATATGAAGAAAATAATAAAATTTTAGGATATGCATACGTCGGAAAGTGGCGAGAAAGAACCGCATATAAATTTACAGTAGAGAGTTCTATATATTTAGATAAAAATTATACAGGAAAAGGGATAGGAGAAAAATTATATAGAGAGCTTATAAAAACAAGTAAAAATAAAGGGTTAAAAGCTATAATGGGTGTAATATCTATTCCTAATGAATCTAGTATAAAACTTCATGAAAAATTAGGTTTTTATAAAGCGGGATATTTTAAAGAAGTAGGGATAAAATTTGATAAATGGATAGATGTAGCTTATTATCAATTAAATTTATAAAATTATTTATTATCAAGATATATACGTAATAAAACGTATATATCTTGTATATATTAAGTGGTTCTTATTTTATAAATTTTATTTGTTATATAGTATATTTTTTATTTAGAAATTATATTTTCATATCTCCAAATTTAATTAACTCTTTTTTTCTCATCCATTCACTTACTAAAAATGATATAAGTCCTGGTAAAATAAAATGAAGTAAAATAATAGGTAAAATAGCAGAATTTCCCATAACTTTAAGTGTAGCAATTTGTCCAACTAATCCACTAGTTCCCATTCCGCCGCCAATTTTATTATTTTCCATATGAAATACAGTAGTAGCAATAGGACCAAGAATTACTGAAGAAATTACAGGAGGAATTAATATTAATGGATTTTTAATGATATTACCTATTTGTAGCATAGATGTACCAAGTCCTTGAGATATTAATCCACCAGTTTTATTCTCTTTATAACTACTAATAGCAAATCCTATCATATGTGAAGCACAACCTACAGTAGCAGCTCCAGCAGCAAGACCAGATAATCCTAGAGATATTGAAAGAGCAGCACTACTAATAGGAAGTGTAAGGATAATCCCCATAACAGCTGAAACTAGTATCCCCATTGGGATAGGATGTAGTTTTGTAAGAGTATTTATAAAAAGACCTAATTCTTTCATAAATGTAGCAATATAAGGAGCTACAAAACTACCAGCTATACCACCTAAAATTATTGTAGTAATTGGTATAACGATAATGTTTAATTTTGTTTTGTTATTTACATATTTTGATAATTCAGCCCCGACTAAAGAAGCTATAAGAGCTCCAACTGGCTCACCAATTTTTATGATTAAACTACCGTTTACATGTGATATACTACCAGCTCCAATAGCACCAGTAATAATAGAAGCAAATATTCCAAGAGGTGGCGCACCTACACTATAAGCTACTCCGGCCCCAATAGCTGGTCCCATCATATATTGAGCTATTTGACCATAAAAAATGATATTTTTTAAGTTTAAATAAGTACCTATTTGTTTTATTATTAATCCTATAATAAGTGAAGCAAATAATCCTAAAGCCATTCCATTTAATACTTTAATTAAATAATTATTAAAATTTTTAAATAAATTTTTTATTTTCATAATTATTTTCCTCCTTTTAATTTTTTTGATTAATTTAAATTAAAGTGGTTTTAAATAATTCTCTTTAATTTACAAGTTATAATTCTTTACTTTAAATAGTCAAGAATTATAACTTATTATAAATAATAAATAAAAAATAATCAAGTATTTTGTCTTGTCAGTTTTTTTAATAAAAATTATATATTTCACCGTTGAATCTATTGACAAAAAACATAAAATGTGGTAACATTAATCGTTAATTTACACATTACTTGTGTTTTAAGTGTGGTGGCCTATGGCTTTCTTAAAATCTAGAGTAATGGAAGTAGAAACCAAAAATTAAGGAGGAAACAAATGGCAGTAGTAACTATGAAACAATTATTAGAAGCAGGAGTTCATTTTGGACATCAAGCAAAAAGATGGAATCCAAAAATGAAAAAATACATTTTTACAGAAAGAAATGGTATTCATATTATTGATTTACACAAATCATTAAAAAGCATTGAAAAAGCTTATGGATATGTAAGAGAAGTAGTAGCTAATGGTGGAGAAGTACTTTTTGTAGGTACAAAAAAACAAGCTCAAGAAGGTATAAAAAACGAAGCAAAAAGAGCAGGAATGTACTATGTAAATAATAGATGGTTAGGTGGAATGTTAACTAACTTTAAAACTATAAAAGGAAGAATTAATAGATTAAAAGAGTTAGAAAAAATGGAAGAAGATGGAACTATGGATCTTTTACCTAAAAAAGAAGCAGCTCTTTTAAGAAAAGAATTAGTAAAATTATCTAAAAACTTAGGTGGAATAAAAGATATGAAATCTATTCCTCAAGTTATGATTGTTGTAGATGTAAAAAAAGAAGCATTAGCAATAACTGAAGCTAATAAATTAGGAATAACAGTAATTGGAGTTATAGATACAAATGTTGATCCTGATGGAGTAGATTTACCAATCCCTGCAAATGATGATGCTATTAGATCTATAAACTTAATTACTTCTGTAATGGCAAATGCTGTAATAGAAGGAAAACAAGGAGTAGAAGAAGCAGCAGAAGAAACTGCAAATGTAGAAGAAGTAACTGAATAATAAAATTAATGTAGGAGGGAAAAAATGGCTATAACAGCAGCTCAAGTAAAAGAATTAAGAGAAAGAACAGGAGCAGGAATGCTTGATTGTAAAAAAGCATTACAAGAAACTGATGGAAATATAGAAAAAGCAATAGATTATTTAAGAGAAAAAGGAATAGCTAAAGCAGCTAAAAAAGCTGGAAGAACAGCAGCAGAAGGATTAATATTCACTACAGAATCTGCTGATAAAAAATCTGCAGCTATGTTAGAATTTAATTCTGAAACTGATTTTGTTGCTAAAAACGATGAATTTAAAAATTTTGGTTCTAAATTAGTTAATATTGTATTAAATAATAATATAAATACTATTGAAGAATTAAAATCTTTTGAAGTAGAAGGAAAAACTGTAGAAACATTAATCACTGAATTAATAGCTAAAATCGGTGAAAATATGAATTTAAGAAGAGTAGAAAAAGTAACAACAGAAGGATTTGTTACTACTTATAATCATTTAGGTGGTAAAATAGGAGTTATAGTTAATATGACAGGAGAAGCTACAGAAGAAAATTTAGTAAAAGCTAATGATGTAGCTATGCATATAGCAGCTATGGACCCTAAATATTTAACTCCAGAAGAAGTAACAACAGATGATTTAGATAGAGAAAAAGAAATAGCTAGAAAACAATTGGAAGAAGAAGGAAAACCAGCTAATATTATTGAAAAAATATTAGAAGGAAAAATGAGAAAATTCTATGAAGAAAATACTTTAGTAAAACAAAAATTTGTTAAAGATGATAAATTAAGTGTAGAAAAATATTTAGGAGATATCAAGGTAGTAGGATTCTCTAGATATAAAGTTGGAGAAGGAATCGAAAAAGAAGAAGTAGATTTCGCAGCAGAAGTAGCAGCACAACTTAAATAATATTTATTAAAATATAAGGGAGGCCGGAGGTTGCTTCTCTTTTTTTTATAAAAAACTAGGAGGGAAATATGAAACCTGTATATAAAAGAATGTTATTAAAACTAAGTGGCGAAGCATTGATGGGAGATAAAGAATTTGGAATATCTTCTGATGCAATTAGAATTTATGCTAAACAAATAAAAGAAATATATGATACAGGAATGGAGTTAGCTATAGTTATTGGTGGAGGTAATATTTTTAGAGGTTTATCAGGAAAAGATCAAGGGGTAGATAGAGTGACAGGGGATCATATGGGAATGCTAGCTACAGTAATAAACTCTTTGGCACTCCAAAATGCTATAGAACAATTAGGAATACCAACTAGAGTATTAACAGCTATAGAAATGCCTAAAATTGCAGAGCCATATATAAAAAGAAGAGCTACTAGACATTTAGAAAAAGGAAGAGTTGTTATATTTGGTGCGGGAACAGGTAATCCATATTTTACTACTGATACAGCTGCAGCTCTTCGTGCTATAGAAATAAATGCTGATTTAGTAGCAAAAGCTACAAAAGTAGATGGAATATATGATAAAGATCCTATAAAACATGATGATGCAATAAAATATGATAGAGTAACTTATGATGAAGTACTTGCAAAAGATTTAAAAGTAATGGATGCTACAGCGATATCTCTTTGTAGAGAAAATAAACTTCCAATTTTAGTATTTAATTTACTTCAAGAAGGAAACATGAAAAAAGTAATATATGGTGAAAATATTGGGACAACAGTTGTAGAAAAAATATAAAAAAATATTGACAGATAGTATTATTACAGTTATATTATAATATGTGATAAAAAATAAGAAGGAGTGAGAATATATGCCTCAAAGTGTTATTACAGATGCAAGAGAAAAAATGGACAAAGCTGTAGAAGCTACAAAACATAAATTTGCTTCTATTAGAGCTGGAAGAGCTAATGTATCTATGTTAGACGGAATAAAAGTAAATCAATATGGTTCAGAGATGCCATTAAACCAAGTAGCAAATTTATCAGCACCAGAAGCTAGATTACTAGTAATAGATCCTTGGGATAAATCAATTATAAAAGATATAGAAAAAGTTATAGTAAACTCTAATCTTGGATTAACTCCAAATAATGACGGAAAAGTTATTAGATTACAAATCCCAGAATTAACAGCAGAAAGAAGAAAAGAATATGCTAAATTGGCTAAAAAAGAAGCTGAAGAAGGAAAAGTAGCCATAAGAAATGTAAGAAAAGATACTAATAATAAACTTAGAAGATTAGAAAAAGATTCTGAAATTACAGAAGATGATCTAAAAAGATATGAAAATGAAGTTCAAAAATTAACTGATGAATATATTAAAAAAATAGATGATTTATACGCTAAAAAAGAAAAAGAGATAACAACTGTATAGATTATATCAAACTACCTTTTAGAATAAAGGTAGTTTTTTTATATTTTCATTATGAAAAAAATATTTAAAAAAAAAAGAAAAAATGATACATCAAACAAAGAAGAATGTTTAAAAATAAGTAGTGATTAGGAGTTTGGTAAATTTATAGAAGAAAAAAGAAAAGATAAATATTTACCAAAAGTAATAGCAAAAGAAATAAAAACAAAAAATAAATTCAAGATAAAAGTGAATTAGAAAATAATTTATAATTATATAGATAAAAGAATATTATTAGATAAATTGAGAAAAATTAACTTACGGTAATTATAGATCTAATAAAAAGATAAAAAAGAAGATAGTGTTATTAGACGGAAATAAAAAAAAGAAGAAGGAAAAGTTTTATTAGTTTTAACAGAAAGAGTGAGTAGAAACGAAATAATAGAACTACTAGCAAATAAAACATAAAAATTGCTAATAAAAGCATTAGATAGATTAGAAAGAAAAGTAGGAGTAAAAAACTTTAGAAAAGAATTTAAAATAATAATAATAGATAATGGAAGTGAATTTTTTAAATTATGAAAAGATAGAGAAATCATATAAAGGAAGTAGTAAATGGATAAGAAGATTTCTAAAAAGGGGAAGATGTTTTAAAGATCTAAGAAAAGAAGAGGTAAATAAAATAGGAAGTTAAGTAAATAATTCTCTAAAAAAATATTTGTATTTTATTAAAAATATGGTAATATACTACTGTAGGTGAGATGAATAATTATTAAAAGAAGATGTTTGGATTTAAAACTTCAAAAGAAGCTCTATGAAGAAAAATTAATTAAATTAATGTAAGAGGAAATGTATGTAATTAAACTTTTAATTTATATATATGTTCAGGTTAATAAATTGATATGATATAGAAGTGTAAAAAGATTATAATCTAATTATTCTATTTCTACGAATTCTTATTTATAATAAAACTCTCAATTCTGTTTGTTTTTTTATGTAATCTAATAGATAAAAATATCACTTTTATAAAAAAATAATGAGCAACAAAACTAATTATATATATAATTGAAAAAATCTCAACATTTAGAAATGAATTAGAAGGCATAATTACGGAACATAAGGTTTATGACACTTTAAATAGAATTTGATTATAAAAGGGAGGGATCACATGCGTTTTTCTTTAAGATTAAAGGCTTTGGATAAAAATGTTGATCTTGATTATAGGAGAAAGTTTTTATCAATGTTTAAAACAGCATTATCAGATTACGATAGTGATATTTTTGATAAATATTATCATGAAAAAGATCCAATAAGAAAGCAGATGACATTTTCACCTTACTTTAGAAACAGTAAGATTAAAGATGGAAAGTTATTATTGAATAATGATGATTTCATATTGAATCTATCTGTTTATGAAAATGAGATGGGAATACATTTTTATAACTCTTTATTGAATATGAAAAATAAAGAGTTTAGAGATCTTTTTCAAATAGAGAAAATATCACTGCAAAGAGAGAAAAAATTTAGGAATGAAGTTATTTTCAAAACAAAATCCCCTATTATCGCTAAAGAACATAATCGTGAGACAAATAAAGACAGTTACTACAGTTTTGAAGATGATAAATTTATAGAGGTATTAAAAAATAATTTATATAACAATATGAGAGATTGTTTTGAGTGGGATGTAAGAGATGATATTGACAAGCTTGAGATAGAAATCTTATCAGCTAAAAAAATAGTAGTGAAAAATTATGGAATAACAATACCATGTACTTTGGGGCAGTTTAGATTAAAAGGAGAAAACTACTTATTAGATTATTTTTATAAGGCAGGATTTTCTGCTAAATCGTCACAGGGATTTGGATATGTAGATGTGGAGTAGGAGGTGAGAGAGTGGAAGATAATAAAATAAAAATAGAGTTATCTGATTGGCTTTATAATGCTGGAGTAGTAGGATTATATAATATATTAGAGCATAATGGAGATAAAGTACAGATAAAAGATAATTTTTTAGAATTTGAGATTAATTCATTAGAAAATTTTGAAGAGAAATATTTTAAATATTTTATTGAAAAGTATGAAAAATTTACCTCATGGTATAAGATTATAAGTTTTCAGAATAAAATAGAGTACTGGGAAGAAGATGGATTTCAAAATTTTAATGAAAAATCATTAGAAGAATTAAACTCTTATATTAGAGATGTATTGAAAAAATATTTAAAAAGTAATAGTTATATCGCAGCTTATGATTTAATAAATAATGATTTTGATATTAAATTAGCTGAAAAAGAAATTTCTACAATTAATTTGAAAAAAAATCAAGAATTTCAAGATATTTTAAATAATATAAAATTAATGATAGAAAAAATAATAAAAATTATTAATTATTTTAAAGAGGACGAATCAAAAAAATACTTAGCAGGAAAAAATGTAATGTACAACATTATAAAAAATGGATGGAATGGAGTATGTTTTTTAAATGCTCGAACCAAAGAAAAAGATATGTATATTGATTATAAAAAATATTTTGTAGATTCAACAATAGAATATAATAAGGTAAAAAAAGATAAATTTAAATATAATTGTTTTTTATGTGATAGAGAAATGAAAGATTTAAATAATGATTTGAGTTTTTTAAATGCGACAGGATTTGATACAAAGAGAAAATCATCTCATGTATGGAATTTTACTAATGATGTAGCAGTTTGTCCAATTTGCAAATTGATTTATTCTTGTGTTCCTGCTGGAATAAATTATGTATATTCAAAGGGAATATTTATAAATGATAATTCAAATATTGATTCGCTTATAAATATAAATCAAAAAGTACGAGATGAAATTTTAAAAGAACACGAAACAAATAATTCTCTTACATATAGAGCTATGATTATAGCCTTAGAGGAAGAAATAAATGATAAGGTAAAATATGAATTGTCTGATATTCAACTTGTAAGATATGATGAAGAAAAATATAGATTTAATATTTTATCTAAAAAATTACTAGAAGTATTAAGAAGCTCAAGAGATGATTTGAATAAACTAATTAAAACTGGATTTAATGAAATAAATACCTATTTTAATATTTATGAAGAAGTTCTAAAAAAAATAATGAATGGAGAAAATTTATTTTTATTCATTCATAAATTACTAAGTTTAAAATTGTCAAAACCTGTGGATGCTCATTATAAAATGAGTCATTTAAAAAGTATGATGTATATCAATATTAAATTTTTAAAAGGAGTGGGATTTGTGGAAAATATAGAAAAAGATATTATTGATAGTGCAAATAAGCAAGGATATTTTTTAAGAACAGAATATGAAAATAGAAATTCTGAAAATAAAATAGGTGGAATTTGTTATAGATTATTAAATGGTTTGAAAACAAATAATAAAGATATGTTTATGGATGTAATAATGAATTGTTATCTATATATAGGGAAAACGGTTCCTAAAATATTTATAGAAGCCTTGAAATCGGATGAGAATTTTAAAACGATTGGCTATGCTTTTGTAAGTGGATTAATAAATGAAAAAGATAAAAATAATGGGGGGAGTAAATAATGAAAAATAAAGGATTAATTTTATCGATGATATTTGAAGCGGAAAGTGCAAATTATGGTGAAGGGATAGGGAATGTAGCTTCTTTAAAAAAAATGGCAAGAGGAAGAGGGGAGCAATATACTTATATTTCAAGACAGGCAATAAGATATAATATTATAGAGCAGTTAGGAGAGGAAAAAGCAAAAGTAAAGGTTGAAAAAAAAGTAGTTCAATTTCATCCTGATTCTACAATTAAAGATTATCCTGAAATAGATTTTTTTGGATATATGAAAACAGTAAAAGGTTCAGATGGAAAAACAAGGTCAGCAAGAGTGAGATTATCAAATGCAATTTCATTAGAAACTTTTAAGGGGGATTTAGATTTTTTAACTAATAAAGGTTTAGCTGATAGAAATGAAGATGGAATGAAAGGAATGAATATAGCTCAATCTGAAATTCATCATTCTTATTATAAATATACAATTACAGCAGATTTGGAAAAAATAGGAATAGATGAAAATGATAATATAAGTCTTGATAATAAAGAAAAAGCAAGAAGAGTAAATAAACTACTTGATACAATAGCTTTATTATATAGAGATATAAGAGGAAGAAGAGAAGATTTAAAACCTTTATTTGTAATAGGTGGAGTATATAATGTAAAAAATCCTGTTTTTCAAAATATACTAGATATAAAAAATAATAGAATATTAGTAAATTCTATAAAAGAGGTGTTATTTGACAGTATAAAAAATGATACTTATTGTGGATTAATTGAAGGGAAATTTGATAATGATGAAGAGATAAAAAAAGAATTAAAGGCAAAATCTATGCCTGAATTTTTCTCTACAATAAAAGGAAAAGTAAGTGAGTATTATGAAAGCAATTAGAATTAAACTATATCAAAATATGGTAAATTATAAGATTCCTTCAAGTTTTCAGTTAAAAGAAACTTATCCTTTACCACCTTATTCCACAGTAATAGGAATGGTACATAATTTATGTGGATACAAAGAGTATCAAGAGATGAAAATAAGTATTCAGGGAAAATATCATTCAAAAGTAAATGATTTATATACAAGATATGAGTTTAAAAATGGAATGGAATTTGATAAGGGCAGACATCAATTACAAGCAGATAAATTTGGAATATGTAGAGGTATTTCTACAGTAGAACTTTTAACAGATGTAGAATTGTTAATTCATATAATTCCTGAAAATCAGGATTTAATTGAAGAAATAAAAAATAGTTTAGACTTTCCTAAAATATTTCCAGCTTTGGGTAGGTGGGAAGATTTGGCGGTAATAGGAGAGGTAAAAATAGTTGAGATTTTTGAAGAAGAGTTAGAAGAAGATTTATCTCTAGGTGACAATTACTCTGTGTATATTCCATTAAAAATGATAAAAGATGGAAAGATAATGCTGTTAGGAAATGGTAATAAAACAAGTAATCAAGGGACAAGATATAAATTAAATAAAAATTACAAAAAAAAAGATTATGGAAGAAATAGAGTTATCAGGAAATGGAATAAAGTAGAGGTAGTCTACTCTTCAAGAGTATTAGCCGTGGAAAATGAAAAGATACTATTAGATAGTGATAAAAAAATCGTCTTTGCAGTATAAGGGGGAGATATGCTTTATTTAGCAAAATCAAATCCTAGAGAAACAATACAGGAACATACAGATAAATTATTAGAAAACTATAATATACTAAAAGATATATATCCCAATTTAGAAATAAATTGGGATATTTTAAAATTAGCCTGTATTTATCATGATTTAGGAAAAATGAATTCAAAATTTCAAAAAAAACTAAAAACAGGGAAAAGAGATAAAGATGAGGTAGCACACAATATTTTAAGTATAGGATTTGTTGATACCAAGAGATTAAAAGATATATTCCAAATAGATGAGATAAGGGTATTACTACAAGCAATAGCTTATCATCATGAAAGAGGAGAGTATGATTTAGAAAAATTTGAAGAAGAGCTTGATTTAATGAAAGAAGAGATAAAGAATTTTGTTTATGATAAAATTCAAATTGAAAGTTTAAAAAAACCAAGTATTAAATATTTTAATAATAGCAGAATTCGTGAGAAAGAAAATGAAGAACTATTTTATAAATATATTATGATAAAAGGACTTTTAAATCGGATAGATTATGCTGCAAGTTCTGATATAAAAGTTGAGATTGAAAATGTTTTTTTAAATAAATCTTTAGATAGCTGGAGAGAGAAAAAACAAGTGAAATGGAATGAATTACAGGTATTTATGGGAAAAAATCAAAATGAAAATGTAATAGTAGTAGCACAAACAGGAATGGGAAAAACAGAGGCAGGATTAAGATGGATAGGGAATAATAAAGGATTTTTTACATTACCTCTTAAAACTGCAATTAATAAAATATATGAAAGAATAAAAGATGAGATTATAGAAGAGTCTTATTCAGAGAAAATAGGAGTTTTACACTCTGATACATATAGTGAATATGTAAATTTAAATGAAGATGATTTGGATATTGAAAATTATTATACTAAGACAAAACAACTATCAATGCCATTGACAATTTCTACATTAGACCAGTTATTTAATTTTGTATTTAGATATAGAGGATTTGAACCAATCTTAGCCACTTTATCATATTCTAAAATAGTAATAGATGAGATACAGATGTATTCTTATGACTTAATAGCTTATTTAGTCTTGGGATTGTACTATATAAGTAGATTAGGTGGGAAATTTGCAATCTTAACAGCTACATTGCCTGAATTTTTACTTGATATTATGAAAGAAGAGAAAATAAGTTTTAAAAGAGCAGAAAGAGACTTTATAAATGAGAAAGTTAGACATAGTATAAAAATAGAAGAAAAAGAGATAAATGCAGAGGATATAATAGAAAAATATAATAAGAATAAGATTTTAGTAATTTGTAATACTGTAAAAAAAGCACAAGAGATGTATCAAAAATTAATAGATAATAATATAGAAAAAGTAGAACTTTTACATAGTAGATTTATTAAAAAAGATAGAAAAGTCAAAGAGAAGAGAATAACAGAGCTTGGGAAGATAGAAAGTAAAGATTATGGAATATGGGTTAGTACTCAGATTGTAGAAGCTTCTTTGGATATTGATTATGATTTGCTATTTACAGAACTCTCTGATTTGAATAGTTTATTTCAAAGGATGGGAAGGTGTTATAGAAAAAGAGAGTTTAAAGAAGAGACTTATAATTGTTTTGTATTTAATGGTGGAGAAAAAAAGTGCAGTGGAGTAGGGCAAGTAATAGATAGAGATATATTTCAATTTTCTAAGGATATTTTAAAAGAAGTTGATGGAAAAATAGATGAAAAAAAGAAATTGGAATTAATAAATAGAGTGTATTCTACTGAAAAAATAAAAGATACAAAATATTATGAATTAATTAAAAAAAATATTTCATATGTAAAGAAGATAGATGATTATGAAAAAAGTAAAACAGAAGTAAGAAATATGTTTAGAAATATAGAGAGTGTAACAATAATTCCAAAAAAAATCTATAGAGAGAATAAAATAGAGATAGATGAAAATTTAGAAATTTTAGAAAAAGTAAATCAAAAAGATAATAGTGCAGAAGAGAGAAAAGCATTGAGAAGAGAGAAAGAGCTGGCTAAAATAGAGATATTAAAATTCTCAGTTTCTATACCATATTATGCTTTTAAAAATGGAACTTACGATGAAATGATAAAAATAAATAAGTATGAAATATTGTATATATTTGATTGTGAGTATAGTAAGGATGTAGGAGTAAGTTTTAAAAATAAAAAAAATAAAATTGATCCTTTCGATTGTTAGTCAGGTGATGGTATGAAACAAAATTTAAAGATAACAGGAATAATGTTTTATTATTATTTCATATGTAAAAGAAAACTCTGGTATTTTAGAAATGAGATACAGATGGAGAGTAACAGTGAAGCTGTGGAAATAGGAAAACTTATAGATGAAAAAAGCTATAAAAGAGATAGAAAACATATAATGATAAATGAGACTATTAATATTGATTTTATGAGGAATCGTAAAGTGATACATGAAATAAAGAAATCAGATAGTATGGAAGAGGCTTCTATATGGCAGGTAAAGTATTATATATATTATCTGAAAAAACATGGAGTGGAAGATATTAAGGCAATACTTGATTATCCTAAATTAAAAAAGAGAGTAGACGTAGAACTAAATAAAGATGATGAAGAAGAGATAGAAAAAATATTACTGGAAATAGAGAAAATAGTAAGAGATCAAAAGATGCCAAGTATCATTGACAGTAAGATATGTAAAAAATGCTCTTACTATGAATTATGTTACATCTAAAATAAATCTAAAGAATGGTGATTAATATGAAAAATACATATTATCTACTGAAAAATGGTGAGCTTCGAAGAAAAGATAATAATTTGATAGTAAAAGCCTGTGATGGAAGTGAAAAAGTAATTCCTATTGAAACAGTAAAAGAGATTTATATTATGGGAGAGGTGAATGTTAACTCTAAATTGATGACGTTTTTATCACAAAATAGTATAATTTTACATTTTTTCAATTATTACGGATTTTATTCAGGCTCATATTATCCTAAAGAAAAGTTAGTATCAGGTTCTTTATTGGTAAAACAGGTAGAACATTATAGAAGTAAAGAAAAAAGAGTAGAACTGGCAAGAGAAGTTTTAAAATCTGCAAGTTATAATATAAAGAGAAACCTAAGATATTATAATGAGAGAGGAAGAGACTTAGAAGATGAGATAAAGACAATTAAGAATTTAAGAAAACATCTTGATAGGCAAAATGAGATTAATGAATTAATGGGAGTAGAGGGGAATATCCGTGAAGGCTATTATAGAGCTTGGAATAAGATAGTAAATCAGGATATAAATTTTGAAAAGAGAGTAAAACATCCACCGGATAATATGATTAATTCTCTATTGTCGTATGTAAATTCACTGGTTTATACAACAGTATTAAGTGAGATATATCATACTCAGCTTAATCCTACAATTAGTTTTTTACATGAACCAAGCACTAAGAGATTTTCATTAAGTCTTGATATAGCGGAGATATTTAAACCTATATTAGGAGAAAGAATGATATTTTCGTTACTAAATAAAAATATGATAAATGAAGATAGTTTTGAAAAGGAGATGAATTCTCTTTATTTGAAAGATAGTGCTAGAAAAGTGATATTACAAAAGTATGACAGTAGATTGAAACAGAGAATAAGACACAAAGTGTTAAAGAAAAATGTGTCTTATAGATACCTTATACGTTTAGAATGTTATAAGATAATAAAACATATATTAGGCGAAAAAAATTATGAAGGATTTAAAATATGGTGGTGATATAATTGTATGTTATTTTAGTGTATGATGTAAAGTTAGATAGTGCTATTGGACAGAAAGTATTGAGAAATGTATATAAGATATGTAAAAAATACATGTATCATATACAAAACTCTACTTTTGAAGGAGAGTTGTCAAGAGCTCAAATAGTGAAATTGAGATATGAACTAGATGAATATATAAGAAAAGATAAGGATTCTATAATAATATTTAAAAGTAGAAATGAAAGATGGCTTGATAAGGAGTTTTGGGGATTAGAAGATGATAAGACATCGAATTTTTTTTAAAACTGTCGATCTGTAATAGTGTAAAAAACATAGGGGAACGACAGTTTTTATTTGAAGCAATAAAATTAATACTTTGTGTTTAGAATGTGAAAATGAGACACAAAAAAATAGTTAAGAATTATATAAAAAGTTAGAGAACGATAGAAATAGGGTTGCAAAGTTAATAAAAATATAGTATAAAATATATATGGATTTTAATAAGACCATAGTGGAATGTAAATAAAAAGAAAAGATACTTTGGAAAATATTTTTTGGAACAATTTTAATAAGACCATAGTGGAATGTAAATCAATTTTACCATCTATGTTTGAAAATGAAATTGGAGAATTTTAATAAGACCATAGTGGAATGTAAATTATAAAAGGTCTAAGGCAAAGAACGCAACATTGAAATTTTAATAAGACCATAGTGGAATGTAAATGATATCAGCACATTAAAAACAGAAAACTGGTATCGGGATTTTAATAAGACCATAGTGGAATGTAAATGATATCAGCACATTAAAAACAGAAAACTGGTATCGGGGATTTTAATAAGACCATAGTGGAATGTAAATGATTTAACAATATTAAAAGAAAGGATCAAATCAGAGAATTTTAATAAGACCATAGTGGAATGTAAATTATATATGTCAATAGTTTTTTAAAAAATTATACTGTAATTTTAATAAGACCATAGTGGAATGTAAATGAAGACTGGTTTCGGGAAGTTGTCCCAAATTGGGACAATTTTAATAAGACCATAGTGGAATGTAAATTCATTTAATTTACTCGCCTCTGTCAATCGAGACAGCCAATTTTAATAAGACCATAGTGGAATGTAAATTTTCTGGAAAATTATTGTCATATTCTATATAATTGTTATTTTAATAAGACCATAGTGGAATGTAAATTGAGATTAAGAGTACAATCCTTAATCTCGATGAGGGGTTATTTTAATAAGACCATAGTGGAATGTAAATGATTTAAGTGCATTAAAAAAAATAATTAAATCAGAGATCATTTTAATAAGACCATAGTGGAATGTAAATCTCAAGGAATGAATCGTTTGTATTCAACAATTCTTGCATTTTAATAAGACCATAGTGGAATGTAAATCATTCCGGATCGACGAAGTAGACGAAGAGGAGGGGGCATTTTAATAAGACCATAGTGGAATGTAAATTTTATATAATAATTTATCATTGCTCCTATACCATCATTTTAATAAGACCATAGTGGAATGTAAATGATATCAGCGCATTAAAAACAGAAGACTGGTATCGGGATTTTAATAAGACCATAGTGGAATGTAAATACATATCTTCAGTTTTCCATGTATACATTATTATTTTATTTTAATAAGACCATAGTGGAATGTAAATACATATCTTCAGTTTTCCATGTATACATTATTATTTTATTTTAATAAGACCATAGTGGAATGTAAATGTGTGTGTCAGAATCTTTTAAAATAAACAATTAATAATATTTTAATAAGACCATAGTGGAATGTAAATGCTTCGTATATTATTAAAAATAAAAATGAGGATTATGCGATTTTAATAAGACCATAGTGGAATGTAAATAAGTACCTTTTCTTTTTCGGTGTACGTCAATGTGTCCCATTTTAATAAGACCATAGTGGAATGTAAATTATATATGTCAATAGTTTTTTAAAAATTCAAATTTAATTTTAATAAGACCATAGTGGAATGTAAATATTAAATTACTTAGGTATTGAAATTAGATTAGATGAATTTTAATAAGACCATAGTGGAATGTAAATTTCTAAGAATGAATCGTTTGTATCCAACAATTCTTGCGATTTTAATAAGACCATAGTGGAATGTAAATCTTGACGAATTTTTGGAATACGAACCAGATATCAGTCTATTTTAATAAGACCATAGTGGAATGTAAATACTTCGTATATTATTAAAAATAAAAATGAAGATTATATTTTAATAAGACCATAGTGGAATGTAAATATCTTGAACATTTTGACGATACCAGCTCTCTGATTTGAATTTTAATAAGACCATAGTGGAATGTAAATTTTTTTATTTTTTTAAAAAAAACTGTTGACATATAATTTTAATAAGACCATAGTGGAATGTAAATAATTGGGACATTTTACCGGACGAAGAAAAAGAAGACAATTTTAATAAGACCATAGTGGAATGTAAATTCTTTTTTAACTATTCTAGCAGGTGCAAAATCAATGATTTTAATAAGACCATAGTGGAATGTAAATTTTTACCAAGTCTTGATTTTAATTTTTTTACATCTGTGATTTTAATAAGACCATAGTGGAATGTAAATTTCTACCCCCAAATCCTCTATCCATCCTAAAGACAGATTTTAATAAGACCATAGTGGAATGTAAATTTTTTTTATTTCTTCGTCTACTCGTTTTTAAAACATCGAGATTTTAATAAGACCATAGTGGAATGTAAATATTCAGCCAATTCATCTTCAAGTTCCTCATCTTTAAATTTTAATAAGACCATAGTGGAATGTAAATTCTTTTTTAACTATTCTAGCAGGTGCAAAATCAATGATTTTAATAAGACCATAGTGGAATGTAAATTAATTGATATTATCAAAGACTGTATATATACCATCTATTTTAATAAGACCATAGTGGAATGTAAATGTTACGTACATTGTTAAAAATAAAAATAAAAATTACGATTTTAATAAGACCATAGTGGAATGTAAATACAATCGAAGAGTTGGAAGTGATTTCAATTAAAGAATATTTTAATAAGACCATAGTGGAATGTAAATAAGCTAAACACATTGAAAGAAAAAATCAAATCAGAGAGATTTTAATAAGACCATAGTGGAATGTAAATTACACTCCTCTTCATCATCTTCTTCCATTCGAAACATTTTAATAAGACCATAGTGGAATGTAAATGAACTAAACACATTGAAAGAAAAAATCAAATCAGAATTTTAATAAGACCATAGTGGAATGTAAATAAATATTTGTACGTCCTTTTAACGTCATTTTCTTCTTTTATTTTAATAAGACCATAGTGGAATGTAAATAAGCTAAACACATTGAAAGAAAAAATCAAATCAGAGATTTTAATAAGACCATAGTGGAATGTAAATATATTTTCAATTTCTTTTGGAAATTATAGATCTAATGAAAAGATAAAAAAGAAGATAGTGTTATTAGATGGAAATTAAAAAAAAGAAGAAGGAAAAGTTTTATTAGTTTTAACAGAAAGAACAAGCAGAAAAGAAATAATAGAAATATTGCCTAATAAAACACAAAACTCGGTAATAAAAGCATTAGATAGATTAGAAAGAAAAATAGGAGTAAAAAACTTTAGAGAAGAATTTAAAACAATAACA
>sequence13
AAACTAAAAAAAAGTTATGCTATAGATAATATAACATAACTAAAAAAAAAAAACAATTTTTAAATTTATTCAACAGTAACAGATTTAGCTAAGTTACGAGGTTTATCTACATCAAGCCCTCTTAATATTGATACGTAATATGCTAATAATTGTAATGGCACTATTGCCGTTATTCCTGCTATCAGATCATCTGTTTCCGGTATAAATATTACTTCATCTGCTACTTCTTCTATTGTTCTATTACTTATTTGAGTTACTCCTATTACATAGGCACCTCTTGCTTTTACTTCCTTAATATTTGATAATGATTTTTCAAATAAATTATCTTGTGTTGCTATTGCAACTACTGGTACATTTTCTTCTATTAATGCTATTGTACCATGTTTTAATTCTCCTGAAGCAAATGCTTCTGTATGCATATACGCAACTTCTTTCATTTTTAATGATGCTTCTGTAGCTATACTATAATCTAAACCTCTTCCTAAAAAGAATCCATTAGTATTATCTTTGATTTTTTCTGCTATTTTTTTAATTTTTTCTTCTGTTTCAATAATAGATTGTACTTTATCCGGTATAGCTAACAATTCATCTACTATATGAGAATAATTTTCTTTAGAAATATTTTCTTTAATATCAGCTAAATAAAGAGCTAACATATAGAATACGACAACTTGAGTAGTATAAGCTTTAGTTGATGCAACAGCTATTTCAGGGCCAGCCCAAGTATAGATAACATTATCAGCTTCTCTAGCGATAGATGAACCGATAACATTAGTAATAGCAAGTGTAGTAGCACCTTTAGATTTAGCTTCTCTTAAAGCGGCTAATGTATCTAAAGTTTCACCAGATTGACTTACTAAGATAACTAAAGTGTTTTCATCAATAAAAGGATCAGAATATCTAAATTCCGAAGCTATATCAGCATCAGCTTTAATTCCAGCAATTTTTTGCAGAGCAAATTTACCTTGTAATCCCGCGTTATAAGCAGTACCGCAAGCGATAATATAGATATTAGTGATAGAATCGATATTAGATTTATCAAGATTAATATCATCAAACATAATTTGGTTATTTTCATCTAATCTTCTATTAAGAGTTTCTCTGATACCTTGAGGCTGCTCATGAATTTCTTTAAGCATAAAATGAGGATAGCCAGCTTTAGTAGCTTGATCCATAGACCATTCGATAGTATGAAGATCTCTATTAATAACATTTTTATCAAGATCAAAAATTTCAATAGAATCTTTAGTGATAACTCCGATTTCTTCATTTTCTAAGAAATAGACCTCTTTAGTATATTTTAAAAGGGCAGGAACATCGGAAGCGATAAAGTTTTCATTAGTTCCTTTACCAATAACTAAAGGACTGTCTTTTCTAGCACAGAAAATAGTATCGGGATTTTTAGTATTTAGGATACCTAAAGCATAAGCACCTTTAACTTTTTTAAGAGTTTTTTGTATAGCACTAAAGAAATCATCAGATTGTTTAGAATAGAAATCTAAAAGATGAGGAATAACTTCAGTATCAGTTTCAGAAAAGAAGTTATAGCCTAATTGAGTAAGTTCTTTTTTAATATCCATATAATTCTCGATAATCCCATTATGAACAACAGCAATAGATTTATCCAAGTTAAAATGAGGATGAGAATTCTCATCGGAAGGAGCACCATGAGTAGCCCATCTGGTGTGTCCAATAGCAATATTTCCTGCAATAGGATTAGATTTAAGATCTTCATCTAAGACTTTAAGTCTCCCCTCTTTTTTTCTGATAATAAGCTCTTGATTATAGTTAACAGCAATCCCGGCTGAATCATAACCGCGATATTCAAGCTTCTCTAAACCATCAAGAATAATTTCACTAGCATTATTATCACCAATATAACCTACAATTCCACACATAAAAATTCCTCCTGTAATTTTTAGATTTTAGAAGGAAACGCTGCTTGAATACTTTTGTCCTATAAGTCACCTTATAGATTTGTGTATTTCTAAGGCTGCAGCAACCGTAGAAGCATCCGCCGAAAATTCGATAACTTCTCTCCTCGTCAACTAAGATAAAAAAATTTAATTAAAGTAAAACTTTGTATTTTTAACTTAGTTCTGGCGCTAAATCTTTTTTTTATTTCCTTCTAATTGATATAAGTTGAGATATTCATAACAAGGTGTTAAACTTAAAATATATAAGAAATCTTCAACTTATATGAAATATAAAATTTTAAATGTACGAACATAAGAATTATAGCAAAAAAAACATAGAAAGCATAGGGAAAATAATGCATTTTCAGGTATAAATTCTTTCATAAAAATTCGAAAGAATTTATTTCGAATAAAACAGAATTATTTGATGTTGTATTTATATTGGAAAAATAATACAATATATAGACGAAAATAGTTAATAATTAACACTTTGTAAAAAAACAATTAAATCTTTCGGGGGTTAAAATGAGAAAGAGAATATATAAAAGAGTAGCTAATTTAATAAGTAAAATCATATTAGAGAATATTCCATTTTTTATTCTGCTTGGAATTTTGAGTTTTTTCGGTTTGGAATATTCAATGTTAAATGATTTTAAAGATATAATGCATAAATATGTTATACCAGTAGTAGTAACATATACCGCAGGGAGAACAATAGAGAATAAATTTGGTGGAATAACAGCAGTAATAGTAATGGGAGGAGTATTATCAAAATATAGTTTTCAATCATTTTTAGGCCCAATATTGATAGGAGTAATAGCAGGTATAGTAATTAGAAAATATAGAGAACAGATAAAAAAGATACCATATCCCGGATATGAGATGATACTAAATAATTTAGGAACAGTCTTTATAAGTCTTCTTTTAATTATGCTATTTGTATATATTTTACCAGTTTATGGATATGTACAGGTGAAATTTCTAAATAGATTTAAAGAAACTATATTTAATATAACTTATTTTCCGTTATTTTCCGTTATAATAGAACCGGCAAAAGTGTTTTTTTTGAATAATCTGATAAATCATGGGGTATTATCAGTATTAGGATTAGCGGAACTTAACGAAAAAGGAAAATCGATATTTTTTTTATTAGAAACAAATCCTGGTCCAGGACTTGGTGTATTGCTAGCATATTATTTTTATGAAAAAAAGAAACAGAATCATGTTAAAACAAAGGATATAGCCTCAAATATTTTTATACAGTTTATAGGAGGGATACATGAAGTGTATTTTCCATATGTGTTAAGAAGATTGACTCTTATACCGGCGTTAATAATGGGAGGAGTAACAGCAGTATATATATTTCAAAGATTTGATGCAGGTCTTGTAGGGGTAGCTTCTCCTGGTAGTATAATAATGTTATTAGTATTAGCACCGGTAAAAGATAAAATTATTGTATTTTTTGGAGTAATGATATCAACGGTAGTAACATTTTTAATATCATATTATATATTAAATAGAAAAGAAATAATGAATGGAAAAAAAGAGATAGATAATATGTTTAATAGAATTTATGTAAATGAAAAAATAAAATATAGAGAAAAAATAAATATATATGTAGTATGTGATGCGGGAATGGGTTCAAGTGCAATGGGAGCAACACTGTTGGAAAGAAAGATAAAAAAAGCAGGAATAAGGAATATAAAAGTAGATAATAGTTCGGTAGATAGAATACCTGAAAATGGAGATATAATAATAGTGCATAAGCAGTTATTAAATAGAATAGATGTAAATGAGAGTGAAAAAAATATAATAACAATAGATGATTTTATGGATTCGAAATTTTATGATATATTGGTAGAAAAATTAAAAAACACTATAGATTCAGATATAGTATTGGGAAAAGAAAGAAAAAATATAATAAATATAGAAAAAATAGTAAGAGAGGAAAAACTAACAGAAGAAATAAATAAAAAATATAAAACTAAAAGATCTGAATTGATGAAAGATAAAAAAGAATTAAACATTGAAAAAGAAAATAAAGAGCAAAAAGAAAACAGAATAGAAAATATAGTAAAAAATAAAAAAATACTATATAGAGAAAACATACAAATCGGATTAAAAAGGACAGAAAAAGAAAAAGCATTAAAAAATATCGGGAAAGAATTATTCGAGAAAGGTTATGTAACAGAGGAATATATAGAGACTATATTAGAACGAGAAAAAGTATCAAGTACATATCTTAGTTATGGGATAGCTATTCCTCATGGATCAGCAAAAGGAACACCATATATAAAACAAAGTGGAATAGTAATACATCAATATCCTTACGGTATAGATTATGGAGATGGAAAAATAGTATATATAATAATAGGGATAGCAGCATTAAAAGATAAACATATACAAATAATATCAAAATTAGCAGAATTAATAGATAATGAAAAAATATCAGAACAGCTTTCAACTGCCATAGATATTGAAGAAATATATCAAATATTTTTAGATTTGGAGGAAGAAATTTGTTAAATAAAAGATGTCTGGGAATAATTAAATATATGATAGATAATAATAAATCGGTTTCTTTGAAAGAGATATCGAATATATTTGATGTAAGTGAAAGAAGTATTAGATATGATATTGATAATATCAACTATTTTCTGGCTAAAAATGGACTTAATCAAATAGAAAAAATGTCAAAAGGTTTATTTAAGATAAATGAAACAGACGAAAATCTGTATAAAATAATAGAGATATTAAACACCAGATTTTATACATTTTCAAAGCACGAAAGAAAAGAATATATAAAATCATTGGCATTATTTTCAATAGATGCAATAAGACTGCATGAAATTTCAGAAACTCTTTCTGTAAGTATAAGCACTATAAAGCTTGATTTGAAAGAGGTAAAAATATTTCTTAATGAGAGTAAATTAAAACTAAAATTTTTATCAAAAATAGGGCTTGTATTAAAAGGTAATGAAGAAAAAATAAGAAAAGCACAACTTAAATTCTTAATGGAATATCTTGATATATCAAAAGATACACTGATTAGTAAAATAAGAAAAGATGAAACTTTAGGATATAAACTTATAAGAAATGAATTAAAATTATATTTTGAAAATTTTCCTATAAGAGATGTAAGAATATTTATAAAACGAATAGAAAGAGAGCTGCAGACAGTTATATCAGATGAAGCGTATAGAGTATTACAATTTTATCTGATGATAGCCCTTACAAGATTAAAAGAGGGAAAAACGATAGTAAGCAGAGAAGAAAATGAAAAATTTTTAAAAAGTACAAAAGAATACAATGTATTGATAAAAGAGCTTGTTCATTTTGAACAGAATTTTAATGTAGAATTTAATGAATATGAAATACTATTTTTAACGGAACTGTTTTTAGGAAGTCATTCATATAATTTTAATACATCATTTTATGAAAACTGGATAGAGATAGAGATATCAATAAATGAAATTATAAAGGATGTAGGAAAAGCATTGGGAATAGATTTGTCTAATGATAAGATACTATTTGATGGATTACTTAATCATCTGAAACCAGCGATATATAGAATAAAAAATGATATAGTATTAGAAAATGAGATATCGAATGAAGTTAAGGAATTGTATGATGAGTTGTTTGATATTGTAAAAAAGGTATGTGAAGATAAACTGCAGATATATATAAATAAACAGGTCCCAGATGAAGAGATAGCATTTCTAACAATACATTTTAAAACAGCAATAGATAGAAAAGCTAATAATCAAAAAGAAACTAAAAATGTAATGATAGTATGTGGATTTGGATATGGAAGCTCAAAGCTATTAGCTCAAAAGCTATTGGAAAGATATGATGTAAATGTATTGGATACATTACCGTATCATAAATTTTTGGAAATAGAAAACTATAATGATATAGATCTTATAATATCAACATTAGATGTAGATGATAAAATAGGATATCCGTTTCCAATAGTAAAAGTAAATCCTATATTTTCTAAAACAGATAGAAAAAAACTTGAAGAATATGGATTAACAGAAGTGAGAAAGAAAATATCATTAGTAAAATTAATGGAAGTAATAAAAGGGGAATGTGAAATAGAGAATGAAGCAGTTCTTGCAGATAAACTTAAAACATTTCTAAGAGGAAAACTATTTGATGATAGGGATAAATTAGGTAAGAAAAATTTAAATATGTTATTACCAATAAAGAACATTAAATTGGATTGTAAAGCCGATAATTGGGAAGATGCAATAAGACAAGCAGGAAAAATATTAGTAAAAAATGGTTCTATAAAGCCTGGATATATAGATGAAATGATAGAGGCGGTAAATAAGAATGGAAGCTATATGGTAGTGGCAGGTAAAATAGCTCTACCTCATGCAAGATTAACGAATTCAGTGTTAAAAACAGATATGAGTTTAATTAAGTTAAAAGAGGTTGTAGATTTTCCTGAAAATAAAAAAGTAAAAATGATACTAGCATTTTCAAGTGTAGACCAAAATGAACATATAGAAGCATTAACAGAACTTGTTACATTAGTAGAAGATTATGAGTTTATAGAATTTATAGAAGAAATAGATGATCCGGTAGAGATAAAGAAATTTATAACGGAAAAAAGCTAAAAATCGGTTACTAAAAATCGGTTAGCAGATAGGAATTGGCGATTGTAAAGGATAAAAAAATAGAATCCAATTATTTTGAAGGAATAAAAAAACAATTGGAAAAGAAATTTAAAGATATAATTAATATAAAAACATAGAGAGAATTGGAATGAATAAATGAATACTGTATTGCTAGTGAAATATATTATAAAAATGAGAAATAAAGTAAATATTTCCTATGTAAATGCAGGGTATATTTTTGATAAAGATTCTTTTAGTTCAGTTTAATAATGTAATAAAAAAATCGGGAAATGAAGATATTAAACCGGGTTGGTCAAATAAAGTGATAGAGTTATGTTTTTTATTTTAAATGCAAGAATAACGAGAGAAACGTATATTTATAAATTAAATGAATATTTTAAAAGTTTTAATATAAATAATGGAAAATACAATAAAAATCAGAAAAATATTTATGAAATTTTAATGATATATGGAGATCAGTAAAAAGCTGTTTCGTAATAGATTTAAAAATCCATATTTAAAAGATGAAGTAAAAAGAGTAGGAAGATAATAGTTTAGAAAATTAAGTTTTAATGATAGATTAATAAAACCTTTAAGAGAAAGTCTAGATATGGTATAAGTAATGAAAATCTTATGGGATAGCAGCAGCATTAAAATATGAAAACATAGAAGATGAAATAGAATTATGTGAGGGCAAGTTTTTCTTGCTCTTTTTTAATTTACTGTATAAAAGTTAAATTAAACTGTTAAAGTGGACAAATTGTTGTTTTTTTAAAAAAAGAATCAAGTTCACTCGTAATGAAATTAAAAAAAATAAAATTTTTCAAAAAAAAAAGAATTTTTTTGTTTCTTTTAAAAACGAAAACCTTTATTTCGGATACAGTTGAAACGTTTGAACATTGAACGAAATGAATTATAAAAGTATAATTTGAACATACAAAGTACTTATAGCTAATATAGAGACAGAAACAAAGTCAATTTGCCATGACTATAAAGTTTTACTGTTAATTTAGTATTAAGTTTAGGTTTTAAATTAAAAGGAGGAAAATTAAATGAGTCAATCTAATTTATCAGAAAATCTAGGTGAACAAAATTTAAAAGTAAAAGTTCAAGCTTTTGGAAGATTTTTAAGTTCGATGGTAATGCCAAATATAGGAGCATTTATAGCCTGGGGATTAATTACGGCATTATTTATTCCTGTAGGATGGATGCCAAATGCAACATTATCAAAATTAGTAGGACCAATGATAACTTACCTGTTACCTCTATTAATAGGATATACAGGTGGTAAAGTTATAGGTGGAGAAAGAGGGGCAGTAGTAGGAGCAATAGCAACATCAGGCGTAATAATAGGAACAAATATTCCAATGTTTATGGGTGCAATGATAGCAGGGCCTGTAGGTGGATATTGTATCAAGAAATTTGATGAAGCAATACAGGGGAAAATAAAAGCTGGATTCGAAATGTTAGTAAATAACTTCTCATCGGGGATAATAGGAATGATACTTGCTTTATTCTTCTTTAAAGTAATGGGACCTGCAGTTGAAGTAGCAAGTACAGGTCTTGGAAATGCGGTTCAAGTGTTAGTAAAAATGAACTTATTACCATTAACATCAATTCTTGTTGAACCAGCAAAAATATTATTTCTAAATAATGCAATAAACCACGGAGTATTTACACCGTTAGGAGTTCAACAATCAACAGAAATAGGAAAATCATTATTCTTCTTTATTGAAGCTAATCCTGGTCCAGGACTTGGAATATTATTAGCTTATTGGTTTTTTGGAAAAGGATCAGCAAAAGAATCAGCACCAGGTGCAATAATAATTCATTTCTTAGGTGGAATACATGAAATATATTTTCCATATGTATTAATGAATCCATTATTAATAATAGCAGCTATTTTAGGGGGAATGTCTGGAGTATTTACAAACGTAATCTTAAAAGGTGGATTAATAGCACCGGCAGCTCCTGGAAGTATATTTGCTGCATTAGCAATGACACCAAAAGATGGGTTTTTAGCAACAATATCAGCAGTAGTGGTAGCTGCAGCAGTTTCGTTCTTTGTAGGAATAATTATTCTTAATAAAGAAGGACAAGCAGAAGAAGACCTTGAAGCAGCCGAAGTTAAAATGAAAGCAATGAAAAATAAACCATCTACTTCAGCAAATAATTCATTAGATGCAGTAACTGGTGTATCTAGAATAGTAGTAGCTTGTGATGCAGGAATGGGATCAAGTGCAATGGGAGCAAGTCTTTTAAGAAAAAAAGTTAAAAATGCAGGATTAAATATAGATGTAACAAATTTAGCAATTAATAATCTTACAGAAGATATTGATATTGTTATAACTCATAAAGATTTAACACCGAGAGCAAAAACAGTAGTAAAAAGTCCTATACATATGTCTATAAGTAACTTTATGGATGGAGATTTCTACGATAATTTAGTAGAAGAGTTAAAAAAAAAACAAATAAATAAAGGGACGGTTAAAATTGAAACTAAAGCCAATGATAGAGATGAGGCTAAAAGTGATATATTAGTTAAAGAGGGTATTACTTTAGGATTACCCTCAATATCTAAAATAGAAGCAATAAAAGAAATAGGAATAAAAATGGCAAATATGGGGTATGTAGCGAAAGATTACTATAAGTACATGTTAGAAAGAGAAGAAAAATCATCGGTATATATTGGAAATGGTGTTGCTATTCCACATGGAACACTTGAAGGAAAAGCAGAAGTTCTAAAAACAGGGATTGTAATAAATCAATACCCAGAAGGAATAGATTTTGATGGAGAAAAAGCCTATTTATTAATAGGTATAGCTGGTAAAAACAATGAACATATAGACATTATTTCAAATATAGCAGATATAATAGAGGATGAAGACAAAGTCGTAGAACTTGGAAAAACTAAAAATATAGATGATATTTATAATTCTTTCATAATATAAAACAATAAATATAATATATGTTTAATTATAACAAAGTTTGTTGTAGAGAGAGTGCCTTGATATGAAAATTTAATGGCAAAAGAAACGAATAAAATATTTTTTTAGTTTACATAAAGATGGCACTCTCTATTTATATATTCTAAAATAAGTTTTGTTTTTTAAGAAAAATAAAAAATAATTTAAAAAATTAAAAAGAGTTAGGATGAAGAAAGGCGGTTATTGAAAAATGAAGATAGCTATACAATTTGGTGCGGGAAATATTGGAAGAGGATTTATTGGAAAACTGCTTTCACAATCTGGATACAAAGTATATTTTACTGATATAAATGAATCAATAATAAATGAAATGAAAAATAAAAACCAGTATATTGTAGAAATAGTAGGAGAAAAAAAAGAAGAAAATATAGTAAAAAATATAGATGGAGTATTATCTAATGATAAATCATTAATAGATATAATTGCAGAAGCTGAAATAATTACTACTGCGGTAGGGCCTACAGTTTTATCAATTATTGCCAAAACATTAGCAGAAGGAATAGAAAAAAGAAAAGCATTAGGAAATACAAGTTTTTTAAATATAATAGCATGTGAAAATATGATAAAAGCTTCTACATTCTTGAAAGAAGAAATTGAAAAATATATTTCTAACGACACAGCTGAATTTATTGAAAAATATATTGGTTTTCCTAATTCAGCAGTAGATAGAATAGTACCACCAATGGAAGATAGCACTGATCTATTAAGAGTGAGAGTTGAAGAGTTTAAAGAGTGGATAGTTGATAAAACACTATTTAAAGGAACAATTCCTGAAATAGAAGGAATGCAATTGACAAATAATTTAATGGCGTTTGTAGAAAGAAAATTATTTACTTTAAATACAGGACATGCAATTACTGCATATATAGGTGTATTAAAAGGATATAAGACTATAAAAGAAAGTATAGAGAATGAAGAAATTCAAAACATAGTAAAAAATGCTATGAAAGAGAGTGGAGAAGTACTTATAAAGAGATATGGATTTGAAAGAGAAAAACATTATAAATATATAGATAAAATATTAAATAGATTTAAAAATCCATATTTAAAAGATGAAGTAAAAAGAGTAGGAAGACAACCACTCAGAAAATTAAGTTTTAATGATAGATTAATAAAACCTTTAAGAGGAACTTTAGAATATGGTACAAGTAATGAAAATCTTATATATGGGATAGCAGCAGCATTAAAATATGAAAATGCAGAAGATGAACAAGCTAAAGAATTGCAAGAAAAAATAGCAGCTAATAATATAAAGGATGTAATAAAAGAGATAACTTCATTAGAAGAAGAAATTATAGTAGAAAAAATAGCAGCTAAATATCTTTCTTTATAAAAAATAATATAAATACTTTAAAATTAGTTTTAAACTTTGAAGAAAGAAAATAGAAAAAGTTATATACTATTATATATATAAATATGGATAGAATAAAAATTAATTTTTTTAGACACTCATAGGTAAAGTAAAACTTTAGTTTAGGATTCCCTTAAATTTGTATATATAACAATCCTGTTTTTCTTTCTTCATTTTTTAATAAATGTTTTTTCAAAATTATAATCATAGTTAAAAATATACATGATTATAATTTTCTCTCACTTTAAAGGAGTGACTATAAATTAATTAGTCGCCCAGATTCTAGACAATAACTATTGGTAAAAAACTAACTTTACTAATGGTTATTGTTTTTTTATTAGAGAAACTTATATCGTTATCCTATTGTTATACAAAATATTTTTGTTTGAAAATAAAAATTGTTTGAAAATAAAAAAATATAAATTTTAAAAACCAAGAAAGAAAAATGAAAAAAACATAAATTATTATCGATTATATAAAAGAATTATATAACGTTAATTTAAAAAATATAAATTATTCAAATGTTAATAATTAGGATAGAAACTTAAATGAAAGTTATTTTCAAAAAAAATTTTTGAAAATAAAAATATTATATTTAATAGTAATAAAGTTGAGAAATTATTAAAAAATTAAAATTGAAATCAGAAATCATGGAAAAATATGTAAATTAAATATATATATAATAAGAATACTACAAAGATGCGGTATTACTCTTAAAACAATAGGAGACGAAAATCCAGTATCATTTATAGAAGGGGTTGACATTGATGTAGTTAATGGTGGAATTTAATTTAAAAATTAAAAACCATGATAATAATTTATGTTTTCATTAGTAATCCTAACTGTATCAAAATAAGAATTCTCTTAAAAAATTATTAATACTATATCTTTAGGAGATAGCATTACAATAAATGATTATAATTAAAATAGTTCTAGTGTTTCTTTAATACTTTATACACAAGAAAACATAATATTATCAAATAAAAAAACATGAGATTACGTTAATATAGAAATTGATTTGATAGCTAAACATGTGGGAGAATTATTAAATTTCGAAGATGACAACAACTCAACATTAGATAATAATTCTATGGAGGATCTATTGAAAAAAATGGGTTCTATTAAGGAGAGAAAATCAAGATTGATAAACTTATAAATTAAATAAAAGGTGACAAAATAATAAAAAATATAAAAATTAAACAAATGAATATTAATACAAAATTAATTTTAAGAATAGAAATTTTATTTAAGTTTTGTATAGAAATGATAATTGTAAAATAAAAGGATAAAATATTTAAAAAATTAATAAGAAATTTATAGTTAATGAGAATATAAAGTACGTGCCTCAATGAAAAATTTTCAAATCAAATAAAAAATGATATTTAAGATTTAACTAAAAAAAATTAAAATATAAAACTATTAGGATTAATTAATAGATGATTTAGAGAATAAATTTTTACAATTAATAAGCAAATGATTAATGTATAATTATATATTATGCAAGTTGGATTTAGTGAGAATGTATTAAATAAAAAATTAGAAACAATATGAAAGGTTTGAGATGTGTTATAGTATTTATAGAGTATATAATAATATAAAAATAACATTAATAGGGCCTTATATTAAAAATTAGAAGAATTTAATAATAAATTAATATAATAAAATTAATTTTTAAAGAATTAAGAATAATATTTGTAGTAAAAAAAGAAAGAAATTTATAAATAAAAAAACTAAATATAGAATAAAATAAATTTTGTTGAGAGTTTGTAAAAAATAGAAAATAGAAACTAGTTAAATAAAGTAAAAGAAAATTTTTTGTAGATAATAGAAATAAAGATATCATATTAAACAAATATAAGTCCTATAATTAAATAAAAGAAATGTATATATATTGATAATAAATTTTATTTTATTAAAAATAATAATTTTAGAAAATTAAGTTGTTATTAACAATATTTGGAGTTTTTTTAATAAACAATATAAAAAAAGTTCATCTGAAATAAAAAATAAAGAATTAAATACTTTCTATGGAAAATATATTTTTTGATTTTAATTATATTAGTTATTTTGAAACTATTAGTATCGAATATTTATGTCCTATAATCATAAATATGTAATATAATTTTATTATTAAAAAAACAATTACATTAAAATAATGTAATCTATTTCACCTATATAATAATAAAGAAACTAAATCATATTAAATAAAATCCGATAATTTATTTTATGTATATTAAAATAATAAAATAAATTATATCCATTTGATACTGCATCTAAAAGAAACCGTATCAAATGTATTATTAAATAAAATGAATAAAAGAATTAATAAAACTAATTAAAAATTATTTATATAATAAAAAAAGATAAAAAATATAATTTTATCTTTTTTATACTAATTTATTTATAGATTTTTTAAGTTCTTTATTATTTATAATTTTTGAATAAAGATTTAAAAAGTTATGAAACTCATCAGAAGTAATTTCTAATTTTTCTTTTAAATATATTTCGATATTCTCTTTATCTTCTGGTAATAAAGTTTTTTTATTCTTTCTATTTATTTCATCTATAGTACCTTGACCTTTTAAATATTTTATAACTTTTTTCCAATTTTTTTCGGGAGTTACTTTCCTTAAAAGCATAATAGCACTATAATTTAATTCTGGGATATCATTATATCCGTTATCATTTAAAAAAGTAAGAATTTTAGGGTTATTCTTACTTTCAATTATTAATTCTCCCGCTTTTTTAGTGTTCATAATTTTAGGAGTTTTGCTAGTATAATTACGTACTTTTAAAAACTTAGATAAAGGGATATCACGCGTTTCAAGGTAAAATTCAACAGCAAATTCATTAAACGCTTTATTTTTAGGCGTTTTAGAGCTATTAATATAATTTATCATATTTTCGATTTTTGAAACGTTCATTATTATTTACACCTCCAAATTCAATAAAACTCAAATTAAAAAAATAAAAAATAATAATTATTCCGAATAAAAATTATCTTATATTTTATAATAACAGATAATAAATATAATGTCAATTATATTTATTATCTGTTTTTTTATTTATTTTTACTTACATTTTTTTTTACTTCAATTAATTTTTTTGCCTTTACTTAAGCGCTACTTCATGTAGCGCTCTACTTCTTTTCCTTCGTATATCTTTTTCCCTTCTTTATCATATATTTTTCCTTCTCCTTCTGGGGAT
>sequence14
CCTTTTTTTATTTCTCCTTCATATCTTAAAATTCCATTTATATATATTTTTCCTCTTCCTTCTGGATAGCCATTTTTAAATTCTCCTTCATATACTAGCTGCCCTTTTTTGTTATATATTTTACCTTCTCCATTTGGGATACCATATTTTATTTCTCCAGAATACATTAATTCTCCAGTATTATAATATATTTCATTTGAAAATATATTTATAGAAATAAATAATATTAATAATACAAATATTTTTTTAAACATGATAGTTTCTCTCTACTTTCTTATTTTAGGTAATCTATTTAATGCTTTTTTCTCTAAAATTCCTTTAGCATTAATATATATTTCTGTAACTTTTGTATCTGAGTGTCCTAAAAAATCTCTTATTTCCAATACATCTGCTCCTTGAAGAGATAATTCAGTTGCAACTGAATGTCGAATATTATGTGGACTAATATTTTTATTTGCTAATTTCCCTATATCTTTAATTATTTTATATAGATTATTATAACTCATTTTTTTGTTAGTTATAAAATTTGTAGGAAATATATAATATTCATTCATTTCATCTTCTTTTAAATTATATATATTTTTTATATATTTTTTATATTTCATAATTTCATTATAACAATCTTCAAATAATGGTTTGTACTGTATTTTCCCGCTTTTAGTTTTTTCAAGCTTTAAAACTTTTTCATTATTTCTAGTAATTATATTATTATATTTAAGATTTAATAATTCACTACTACGCATCCCTGTATAAAATAAAGTATAAAGAATAGTATAATTTCTATAACTAATATCATCTTTTTTTTCAAAATTGATAAGTATTGTTTGAATTTCTTCAAAAGATATTTTTAATATATTGTCTAAATTATATGCATTATGTTTCATAGAAGGAATAAATTTAAATGGATTATTTGCACCTTTTTTTTCGAGTTCTTTATAAAGACTTTTTAAAGAAAAAATTATTTTATTAATAGAACTATTTTTTAATTTTTTTTCAACAACTAAATGTTTGATATATTCTTCTACATCATCTTTATCAACGTTTACCATTAATTCAATAATTTCATTTTGAGAATTAAAATTTACATTTTCATATGTAAATTCTAAAAATTTTTTTAAATAAAACATATAATCTTTTATAGTTTTTTCAGATTTATATATTGAAAAAAGAGAACTATCTATTTTTTCATTATTTTTTTTTTTCTTTTTACGTAGTATAATATTATTTTCAACATTTATTATTTCCATGATTCACCTCTATTTATGCAAATTTATAAATTCCTCTACTTTATTTATAGATGTATTAATTATCATTTTAGTATTTAAATTAACTTTATTAATTATTTTATATACTTCTTGAAAATTCCCTAAAAAACTTGAATGATGGGCATCGCTTCCCAAAGAAATAAACGTGTTATATTTTTTACATAATTCAGCTATTTCATAACAATTTTTTTCTGAACCTAATCTACTTGTAGTAAGAGAACTATTATTAAATTCAATTGCTACATTGTATTCAGAAGCTATTTTTATCACCTCTTCATAATGTACTTTATAACTTGGGTTTCCTAAATGCGATATGATGGTTAATTCTTTATTTTTTATAGCATTTATTAGAGCTATTGTATTTTTTTCTATATTTTTACCATCACCATAAGGAGTTCCTTTATGAAATCCACATAATTTTATTTCTATTAAATCGTAATATTTTTTAGGTAAATCAGTATCTCCGTTTTCACTTATTATATTCGCTTCAATACCTTTAAATAATCGAATTCCATTAATATATTTATCAAAAATTTTTAAATTTCCAAAATGATAATCATGAGGACTATCCGGAGCCATACTTCCATGATTAGTTAAAGCAAATCCTAATAATTTTTTATCTTTAGCAGTTTGAATTAATTCATTTAAAGTACTATACGCATGTGTCGATACATTTGAATGAACATGTAAATCTATTAAATATTTCATTTTTCACCTCTTTTATACATTATACAATATAATTCTTATATATAAAAGAAAAAAAGATAGCTTTTGCTATCTTTTTACTAACCTAAATATGCTTCTCTTACTGCTTCATCATGAAGAAGGTTTTTTGCATTTCCACTTTTTATAATATTACCAGTTTCTAAAATATATGCTCTATCTGATATTTTTAAAGCCATATTAGCATTTTGTTCTACTATTAGTATTGTTATTCCCATTTCTTTATTTATTTCTTGAACAATATTAAAAACTTCTTGAATTAATAACGGTGCTAATCCCATTGAAGGTTCATCTAAAAGTAAAAGCTTTGGTGATGCCATTAATGCTCTTCCCATTGCAAGCATTTGTTGTTCACCACCACTTAAAGTTCCAGCTAATTGAGTTTTTCTTTCATATAATCTAGGAAATCTATTAAAAACTTTCTCCATATCTTTTTCAACTTCTTTTTTATTTGTTTTTAAATATGCACCTAATTCTAAATTTTCTAATACTGTAAGATTTGCAAAAACTCTTCTTCCTTCTGGAACCTGTATAAGACCTCGTTTTACAATTTCAGTTGTTGATAAATTTGTAATCTCTTCTCCTTCAAAAAACATTTTTCCACTAGAAGGGATAATTAATTTAGATATTGAATGTAATGTAGAAGTTTTCCCAGCACCATTTGCTCCTATTAAACAAATAATCTCTCCTTTATTTATTTCAATATTTAAATCTTTTATTGCATGTATATTTCCATAATGAACATTTAAATTTTCTACTTTTAACATATTAATCCTCCTCAACTTCACCCAAGTATGCTTCAATAACTTTTTTATTATTTTTAATTTTTTCTGGAGTATCTAAAGCAATTATTTTACCATAATCTAAAACTGCGATTCTTTCACATAATGACATAACAAATTTCATATCATGTTCAATTAAAAGAATTGATATATCAAAATCATTTTTTACTTTTTTAATTAAATCCATTAATTCTGTAGTTTCTTGTGGATTCATTCCAGCTGCAGGTTCATCTAAAAGTAATAATTTAGGATTAGTTGCAAGCGCTCTTACAATTTCTAGTTTTCTTTGTTCACCATACGGTAAACTATGAGCGGGTAAATCCATTTTTTTTAGTAACCCAAATCTATCTAATAATTCTTCTGCTTCTTTTCTTACTCTTATTTCTTCTTTATAAAATTTTTTAGTTCTAAATATCGAATCAAAAATACCATAATCGGTATTAAAAATTTTTGCTACTCTAACATTATCTAGTACACTCAAATCTTTAAAGAGTCTAATATTTTGAAATGTTCTTGCCATTCCTTTTTCTGTAATTCTATAAGGTTTTTGTCCTGTAATATCTTCTCCTAATAATTTTATATATCCTGATGTAGGTTCATATACACCTGTTAATAAATTAAAAAAAGTAGTTTTCCCTGCACCGTTTGGTCCAATCAAACCGATAAGTTCATCTTTTTTTATATTTAAATTAATTGTATCAACAGCAGTTAATCCTCCGAATTGTTTTGTCACTTCATGTACTTCTAATAACAATTTAAACACCTCTTTTCTTTTTGAAAGAAATGAAATCAGTGATTTCTTTTTTTCCTAAAATACCATTTGGTCTAACTAACATTAAAATAATTAACATTAACGGATAAACTAACATTCTATATTCAGAAAATTCTCTTAATAATTCTGATATAGAAGTTAAAGCAATGGCTGCTAAAATAGAGCCTGTGATACTTCCACTTCCACCTAAAACAACCATTAATAATATATCAACAGTTTTATATAAATTAAAATTATCTGGTTTTACATATTGAATAAGATGAGCATACAATCCTCCAGCTAATCCTGCAAAAAGTGAACCAATTATAAAAGCTTTTATTTTATATCTTGTAATATTAACTCCCATTGATTCTGCAGCAATTTCATTTTCTCTAATAGAAAGTAATGCTCTACCTTCTGCAGATAATGCTATATTTGTAATAACTATTACTGTTACAATTGCAAAACCTAATCCTATTAAAAAGCCATTTAACCCTTTAATACCTGGTATTCCAGGATATCCTTTTGCACCTCCAGTAATTGTCATGTTTAATATTATAATTCTTATTATTTCTCCAAATCCTAATGTAACAATTGCTAAATAATCTCCCTTTAATCTTAAAGTTGGAAATCCTATTAAAAATCCAAAAAATCCAGCCAAGATAGCTCCGATTATAACAGATATAAATATTGGAAAATTATATTGAGTAGTTAAAATAGCACTTGTATATGCTCCGATTGCCATAAATCCTGCATGTCCTAAAGATAAATATCCCATTAATCCATTAATCACATTTAAACTAACTGCTAATATTATATTTATAGTAATTAATGTCATTATAAGTAATATGTATTGTTCCATAATACCCTCCTATACTTTTTCTTTTACATTTTTTCCAAAAATTCCACTTGGTTTTATTAATAATATTACAATTAAAATAGCAAATGCAATAGCATCTCTATAAGTCGAAGAAATATAACCAACAACTAAAGATTCAGATATTCCCATTATTAATCCTCCAATAACAGCCCCCGGAATACTTCCGATTCCACCTAAAACAGCTGCTACAAATGCTTTAATTCCAGGCATCATTCCCATTAATGGATCAATTTTATTAAATCTCATTCCTATTAAAATCCCTGCTGCTGCTGCTAATGCAGAACCAATCGCAAATGTAAAAGAAATTATTTTATTTACATCTATCCCCATTAATTCAGCAGTGCTTTTATCAAAAGAAACTGCTCTCATTGCTTTTCCTACTTTTGTATAATGAACTATTATTTCTAATAAAATCATTAATATGATTGAAACAAAAATAATAATAATTTGATGATTTGAAATTAAAATATTATCAGTAATATTATAAAATTTACTTGGAATTAATTGAGGGAAAGCTTTTGGATCACCACCAAATATTTTTATACCAGCATTTTGAATAAAAATAGAAACTCCAAGTGCTGTTAATAATACAGAAATTCTTGAAGCATTTCTTAAAGGCTTATATGCTAGTTTTTCTATAATAATACCAACTAATGCAGTTAAAAACATAGATACAATTAATAATAATAAAAATATTATAATAGAATTCGAATTTATAAACTCACTCATATGTTTTAATCCTTTTGCTTGTTCAACAGCAACATTTGTAATTGATTTTCTAAAATTGCTATCTTTAATAATACCAAACTCATTAAAATTATTTGCAATATATTTCATTAATAATTTTGGATTTTGACTTATTATTTCTTGTTTATCTAAAAAGTTTACTGCTATTTTAGAATTTACAGCATATTTTTTTGCAAGTCCTAAAACAAATGTCATTCTAAAAAAATAATAACCAATATAAGTACCAATCATATAAATTTCACCATGAGCAAAATTTATTAATTTTAATATACCATAAACCATTGTGTACCCTAATGCAATTAGTGCATAAATAGAACCTAAAGAAAGTCCATTTATTAATTGTTGTATAAACATAATACCTCCTTAAATCTCTTAAATAAATTAAACGCACCACAAAGTTAACTGTGGTGCGAAACTTTATAAATTAAAATGAATTATTTTGGATCTACAGTAGTTTCATATATGAAAGCACCATTTTCAGCTTTTAAAATAAACGCTGATTTTTTTGCATTTCTATTCTCATCTAACGAAATTACTCCAGTTACACCTTTATAATTTTTAGTAGAATTAATTGCATTTTTTATTTTTACTTTATCTAAAGAGCCCGCTTTTTTAATTGCTTCAGCCATAATATAAGCAGCATCATATCCTAAAGCTGATAATGGACTTGGATCTTCAAAAAATTCATTAAAATAATTATTTATAAAATTTTGTACTTGTTTATCTTCACTTTCTTTTGAAAAATGTGTTGATACATATGAACCATTTACGCTTGTACCACCAATTTCAAATAATTTAGAATTATCCCATCCATCTCCACCTAAAAATACAGCTTTAATTCCTAAATCTCTAGCTTGTTTTACTATCAATGCAACTTCATTATAATATCCAGGTAAAAATATAACATCTGTATCCATATTTTTAATTTTAGTTAATTGTGAACTAAAATCTATATCCCCAGTAACATAATTGATTACATCTACTACTTTCCCACCGTTTTCATTAAAAGTTTTTTCAAATTCAAGAGCTAAACCTTCACTATAATCATCAGCTGCATTTTTCATTATAATAGATTTTTTTGCTTTTAGGTTATCATAAGCAAAATTAGCCATAACTTCACCTTGGAAAGGGTCTATAAAACAAGTTCTGGAAATATAATCTCCAAACGTAGTAACTTTTATATTTGTAGCAGTTGGTGTTAACATTGGTATTTTATATTCTTGTGCAATCGGAGCAATAGCCATAGTGTTTCCGCTTGTTACTCCACCTAATATTACATCTACTTTATTAACAGTTATTAATTTTTTAATAGCTGCTACTGATTCAGCTGAATCTCCCTTGTTATCTTCTTTTATTAAAACAAGTTTCATTCCATTTATTCCACCTTTTGCATTTATTTCTTTTACTGCTAAATCATATCCATTAACAGTTGTTTGCCCATAAAGTGCTAAAGGACCAGATAATGGTGCTATAACTCCTATTTTAATATCTTTACCAAAACTCATAACTGACAATATTAGTCCTAATACAATCAACATCAATTTTTTCATAAATTTATTCCTCCTTTATATTTTATTATGAAATAATTGTACCACTTTATTGATACTAAGTCAATGAAATTATATCAATGATAATTATATATTATATATATATTGTCGTTTATTT
>sequence15
ATCTCGCGTCAAGGGAATTGACGAAAAGGACATTACAAATTGAATAGAGAAAGAAGCGGGAAACTGATATTAATACATATCAATTCCATAAGTTAATTTGAGTGTGTAACCTTTTTAGGTTAATATATATTTTGTATGAAGAGTTTGATCCTGGCTCAGGATGAACGCTGACAGAATGCTTTACACATGCAAGTCTACTCAAACAGTTCTTCGGAACTTATTAGGGTGGCGGACGGGTGAGTAACGCGTAAAGAACTTGCCTCATAGTCTGGGACAACAGTTGGAAACGACTGCTAATACTAGATATTATGAATGATTGGCATCTTTTATTCATGAAAGCTATATGCGCTATGAGAGAGCTTTGCGTCCTATTAGCTAGTTGGTGAGGTAACGGCTCACCAAGGCGACGATAGGTAGCCGGCCTGAGAGGGTGAACGGCCACAAGGGGACTGAGACACGGCCCTTACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGACCAAAAGTCTGATCCAGCAATTCTGTGTGCACGATGAAGGTCTTCGGATTGTAAAGTGCTTTCAGTAGGGAAGAAGAATGTGACGGTACCTACAGAAGAAGCGACGGCTAAATACGTGCCAGCAGCCGCGGTAATACGTATGTCGCAAGCGTTATCCGGAATTATTGGGCATAAAGGGCGTCTAGGTGGTTTATTAAGTCTGATGTGAAAATGCGGAGCTCAACTCCGTATTGCGTTGGAAACTGATTTACTAGAGTCTTGGAGAGGTGGGCGGAACTACAAGTGTAGAGGTGAAATTCGTAGATATTTGTAGGAATGCCGATGACGAAGGTAGCTCACTGGACAAGTACTGACACTAAAGCGCGAAAGCTAGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCTAGCTGTAAACGATGATCACTGGGTGTGGGGGGTCGAACCTCTGTGCCGAAGTTAATGCGATAAGTGATCCGCCTGGGGAGTACGCTCGCAAGAGTGAAACTCAAAGGAATTGACGGGGACCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGACGCAACGCGAGGAACCTTACCAGTCCTTGACATCCTAAGAACTTAGCAGAGATGCTTTGGTGCCTCTTCGGAGGAACTTAGTGACAGGTGGTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCCTATTGCTAGTTACCATCATTAAGTTGGGGACTCTAGCGAGACTGCCTGCGACGAGCAGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGGACTGGGCTACACACGTGCTACAATGGGCGGTACAAAGAGAAGCAAGCTGGTGACAGTAAGCAAATCTCAAAAATCCGCTCTCAGTTCGGATTGTAGTCTGCAACTCGACTACATGAAGTTGGAATCGCTAGTAATCGCGAATCAGCAATGTCGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCACGAGAGTTTGTTGCACCTGAAGTAAACGGCCTAACCTTCGGGAGGGAGTTTCCTAAGGTGTGATAGATGATTGGGGTGAAGTCGTAACAAGGTATCCGTACCGGAAGGTGTGGATGGATCACCTCCTTTCTAAGGAGTTTTGCTTCTTTCTCTATTTTATTTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATGTTAGGACATTAAAAAATGAATATAGCAGACAAAATCACTATAGAGTTAGTTGTATGATTTATCATCATGTTAGGTTAAGAAATTAAGAGCATACGGTGGATGCCTAGACAATAAGAGCCGATGAAGGACGTGTTAAGCTGCGATAAGCCAAGGTTAGCTGCAATAGAGCGTTTATCCTTGGATCTCCGAATGGGACAACCTAGTTATTTGAAGAATAACTGTGAAAACGGGAACCGGGTGAACTGAAACATCTAAGTAACCCGAGGAAGAGAAAGTAAAAACGATTCTCCTAGTAGCGGCGAGCGAACGGGGAAAAGCCTAAACCATATAAGTGTCAAGGATGCAGCCGTTGCTTGTATGGGGTAGTGGGAAGTATAACAGAAGAACTGCAAGGTATTCGATATATTTATTAAGCTACTAGAATGACATGGAAAGGTCAACCGTAGAAGGTGAAAGTCCTGTATAGGGAATTTAATAAATGTATTTTATACTCTCCCGAGTAGCACCGAACACGTGAAATTCGGTGTGAATCTGCGTGGACCATATCACGTAAGGCTAAATACTCTTATTGATCGATAGCGCATAGTACCGTGAGGGAAAGGTGAAAAGAACCCCGGGAGGGGAGTGAAATAGAATCTGAAACCGTATGCTTACAAGCGGTCGGAGCACCATATGTGTGTGACGGCGTGCCTTTTGGAGAATGATCCTGCGAGTTACGATTATTGGCAAGGTTAAGAAAACGGAGCCGAAGGGAAACCGAGTCTGAATAGGGCGTTAAGTCGATAGTTGTAGACGCGAAACCTGGTGATCTATACCTGTCCAGGATGAAGCTGTGGTAAGACACAGTGGAGGTCCGAACCCACCGTCGTTGAAAAGCCGGGGGATGAGGTAGGTATAGGGGTGAAAAGCCAATCGAACCAGGAGATAGCTCGTTCTCTCCGAAATGCATTTAGGTGCAGCCTTAAGTGTTTATCTGCGGGGGTAGAGCACTGGATGACCTAGGGGGCATACTGCTTACCGAAGTTAACCAACCTCCGAATACCGTAGATTTATAGCTTAGGAGTGAGACTATGGGTAATAAGGTCCATAGTCGAGAGGGAAACAGCCCAGACCACCAGCTAAGGTCCCTAATTATATCTAAGTGGGAAAGGAAGTGAAGACTCCTAAACAACCAGGATGTTGGCTTAGAAGCAGCCATTCATTTAAAGAGTGCGTAATAGCTCACTGGTCGAGAGTCTTTGCGCCGACAATGTAACGGGGCTAAGATATAAACCGAAGCTGTGGAACGTTTTAAACGTTGGTAGGAGAGCGTTCTGTAGGCCGTTGAAGGTATACCGTAAGGAGTACTGGAGGTATCAGAAGTGAGAATGCAGGAATGAGTAGCGAGAAAGAGGGTGAGAAACCCTCTCGCCGGAAGTCCAAGGGTTCCAGGGTAAAGCTTGTCTTCCCTGGGGAAGTCGGGACCTAAGCTGAGGCTAAGTAGCGTAGGCGAATGGAAAGTAGGTTAATATTCCTACACCACTTATATTTTGTGATGGAGGGACGCAGGAAGGTAGATGCGCCAGGCGACGGTTGTCCTGGTACAAGCATGTAGGATGGTTTAATAGGCAAATCCGTTAAACTATATCTGAGGTGTGATGTGGAAAAGGCATTGATCCTACACTGCCAAGAAAAGCTTCTAACGTTAAAATATAAGTGCCCGTACCGTAAACCGACACAGGTGGACAGGATGAGAAATCTAAGGCGTACAGGCTAACTCTCGCTAAGGAACTCTGCAAAATGACCCCGTAACTTCGGGAGAAGGGGTGCCTTTTTTGGTGAAGGAATTTACATCTGGAGCTAAAAAAGGCCGCAGTGAAGAGGCTCGAGCGACTGTTTAACAAAAACACAGGTCTATGCTAAGCTGAAAGGCGATGTATATGGGCTGACACCTGCCCAGTGCCGGAAGGTTAAGAGGAGGAGTGAGAGCTCCGAATTGAAGCCCCGGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGTGTAACGATTCGAGCGCTGTCTTGGCGGGAGGCCTGGTGAAATTGTATTACCGGTGAAGATACCGGTTACCTGCAGTAGGACGGAAAGACCCCATGGAGCTTTACTGTAGTTTGGTATTGGGTTTTGATGTTATGTGTATAGGATAGTTGGGAGACATTGATTACATGCCGCCAGGTGTGTATGAGTCGTTGGTGGAATACCAACCATATAACATTGGAATTCTAATCTGAGATGTGTAGTCTTGGAGACAGTGCTAGGTGGGCAGTTTGACTGGGGCGGTCGCCTCCGAAAGAGTAACGGAGGCGCCCAAAGGTTCCCTCAGGTTGGATGGAAATCAACCGCAGAGTGTAAAGGTATAAGGGAGCTTGACTGTAAGACAGACATGTCGAGCAGGTGCGAAAGCAGGGCTTAGTGATCCGGCGGTACCGAATGGAAGGGCCGTCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTGATCCTGCCCAAGAGTCCATATCGACGGCAGGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGGAGAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGTGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCACTGCAGGCGTAAGAGTATTGAGAAGATCTGTCCTTAGTACGAGAGGACCGGGATGGACAAACCTCTGATGTACCAGTTGTCACGCCAGTGGCACAGCTGGGTAGTCACGTTTGGAATGGATAACCGCTGAAAGCATCTAAGTGGGAAACCAACTTCGAGATAAGTACTCTCTGGCATTAGCCAATAAGTCACCTTCGAGACTAGGAGGTTGATAGGCTGGAGGTGTAAGTGTAGTAATACATTTAGCTGACCAGTACTAATTAGACGAACTCTTATCCTAACAAATGCTATATTCATTTTTAAATGTCTTAAAAATTAAATATATGTTGCTTGGTAAAGATAGCTAAGGGGGTACACCCAGTTACATTCCGAACCTGGAAGTTAAGCCCTTAAACGCCGAAAGTACTGAATTGGAGACGAT
>sequence16
TGTGTTCCCTGATAGCTCAGTTGGTAGAGCGCACGGCTGTTAACCGTGTTGTCGCTGGTTCGAGCCCGGCTCGGGGAGCCATTTTTTTATTTTTTAAAATTATTTCAATTAATTTTTATTTTTTAATTCCATAATTTAACTAAAATAAAAATTAAATTTTATCTTGATTAATTAATCAAAAAATTTTTTTAAAGAGAAATAAAAGAGAATAAAAAAGAATAAAGAGATATTTTAAATAGGAGTATAAGAATTAAAATATAATTTAAACCTTTGAAAATAAGTCCTATAATTAAAAAAAGGAAAAATTAACTTTAAAAAATATTATAACTTCTTCTTTTTCTTGGTCAACGTATAAATCTATAATATTACTATATTTTTTAATAAACATATATCTTATTTTTACATTTTTAAAATTATCGGAATTTAATATTTTAGCCTCTAAATTTCCTTCAAACAATAAGTCAAAAAAATTTTTTTTTATTAATGTATTTAATCTAATTTGAATATTATCTATTTTATTAAAAATATTTTCAAAATATATATTTTCTTTTTTATAAAAATTAATTTCTTTTCTTTTAATCAAAATTTTTTTGAGTTCCAAATTATATTCTTCAAATTCAATTGACAAAATATTTATATAAAAAACAAAAAAACATAATATTAATAAAAAAAAATTTTTTTTCATTATGTTTGTATCTCCTTTTTTTATTAATCTTAATATTTATTATATTCAAAAAATAAAAAAAACACCTCTTAAAATAAAAGATGCCTTAAACAACTTAAATGGCGGGAGTGACGGGGATCGAACCCGCGACCTCATGCGTGACAGGCATGCGCTCTAACCAAACTGAGCTACACCCCCTAGTTATGGTGGTCACAACTGGACTTGAACCAGTGACCCCCTGCTTGTAAGGCAGGTGCTCTCCCAACTGAGCTATGCGACCTTTAATGGTGCCCAGAGGCGGAATCGAACCACCGACACGGGGATTTTCAGTCCCCTGCTCTACCGACTGAGCTATCTAGGCTTTGGCGGAGAAACTGGGACTCGAACCCAGACACCTTTCGGTTTCACCGGTTTTCAAGACCGGCCCCTTAGCCAATTCGGACATTTCTCCTAAATAAAAAAATGGTACTCCGTAGGGGAATCGAACCCCTGCCGCCAGGATGAAAACCTGGAATCCTGACCTCTAGACGAACGGAGCAGATGGTGGATCTAGTTGGATTCGAACCAACGACCACTCGGTTATGAGCCGAGTGCTCTAACCAACTGAGCTATAGATCCTTATATTTTAAATTATGGCGTGCCCGAAGAGATTCGAACTCCTGACCCACGGCTTAGAAGGCCGTTGCTCTATCCAACTGAGCTACGGGCACAAATGGTGCGTCATACAGGAATCGAACCTGTGACAACACGATTAAAAGTCGTGTGCTCTACCAACTGAGCTAATGACGCATTTGGAGCGGGAAACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACGCTCTACCAACTGAGCTATTCCCGCAATTTGGTAGCGGGGATAGGATTTGAACCTATGACCTTCGGGTTATGAGCCCGACGAGCTACCAGACTGCTCTACCCCGCGTTAAATTGGTGCCTGGGGCGGGAATCGAACCCGCACGGACAAAATGTCCACAGGATTTTAAGTCCTGTGCGTCTACCTATTCCGCCACCCAGGCATTTTTCTTAAAGTGACCGAATAAAATATTATCATATTTTGTTTTTTATGTCAATATTTAAATTATTATTTTAAATAATCAACTAAAGTTTTTTCTATAAATTCCATTTCTTCATTCATGTTTAAAAAATAATTACGTTTTTTTATTTTTTCTAATTTTTTTAATGCATTTAATTTAATTTCGTTTTGTTTTTTTTCATTTAAATTTATATAAATTTCTAAATATTTATTTTTTTCTATCTCTTCATCATTTACTTTTTTATCAATATCTTCTATTTGTTTTCTAGTTAAATAACTGGATTTATGAATACTATTGTCTTTTTTTATATTAAAAACATATTTTATTTTATACGAATTTTCAAATTGAACAACTTCATATTTTTCCAAATATCCTAATTCAACTAAATCTTTAAATGCAATCTCTAATTTTTCTAAAACTTTTTTCTTTTTACTGACTTTATATTCTTTAATATTTCCATGCTTATCAGTTTTTCTTATTATCGAATATAAACTTAAAGGAATTATTGAAGCTAATGTTTCTATCTTAAATTCACCATTATTTTTAGTAAATCTTTTCATGCTAATAAATTGAAATATTCTTTCAGACATTTTATTTTTATTTCTCAATTCTTTTAATAATTCTTTATCAAATATAGAATAATGTTTTATTTCTAATTCTTGAATTAATCTATCGTCAAGTTCTACTTCATAAAAAATTTTTTTTGATTTCTTTAAAACATTATTTTCCTTAACTTTTTTATATCTTATTAAATTTAAAGGTTTTTCATAAACTTCTCTAATTATATTTCCTGCTTTTTTTTGATTTTTTATTTTTATTTTATATGTCGTTTCTTGTAAATTAAATAAAGCTTCTTCTACTTTTTTATAATAAGATGAATGAAATTTTAATCCTAAATACTCAATTAATTCTGTTATTTTAAAATTTATAATTCTGGTTTTCTCTTTTTTATTTAGTATTTTTCTTTGAACTTTCCACATTATAAAATCTAATACATTTTTTTCAAATTCCCCTGGCTGTTTGTTAGAAAATTTTTCTAAAGTATCATTAGATAAATATGATGCAAACTTTATTCCAGCATTTTCTATTTCATAAATTAAATTTAATCCTCTTTGTTTAGGCGGAGAAAAAAATGGCAATAATATAAATATAAATGGTCTATTTATTATATCATTATATACATTAGAATCTAAAAATATTGATACTGTCTTAGTTTCTAATCTTCTTTTATGAAAACTTTTCATCATTATTGAAAAGTCTTCTAATTCTCCAACTTCTAATACTTCAAAATTTTCATCTTTTTTCATCTTTTTCCCTTTTCTTTTAAACTTTCATTACTTTTTTTATAGTACATTGGTAAATTATAAAATTTTTTTATCTTTTTTTATTATAACCTTTTTCTCCCTTATTTTCATTACTTTTTTTATGGTACATGGGTAAATTATAAAATTTTTT
>sequence17
TTTTGATTATTTAATGATTTTAGAAACAACTCCTGATGCTACTGTTCTTCCACCTTCTCTTATCGCAAATCTTAATCCTTCTTCCATTGCTATTGGGTGAATTAATTCTACTGTCATTTCTATGTTATCTCCTGGCATTACCATTTCTACTCCTTCTGGTAAGTTTACTGCTCCTGTTATATCTGTTGTTCTGAAGTAGAATTGTGGTCTGTATCCACTAAAGAATGGAGTATGTCTTCCTCCTTCTTCTTTTGTTAATACATATACTTCTCCGCTGAAGTTTGTATGAGGTGTTATTGATCCTGGTTTTGCTAATACTTGTCCTCTTTCTACTTCTTCTTTTTTTATTCCTCTTAATAATGCTCCTATATTATCTCCTGCTTCTCCTTGATCTAGTAGTTTTCTAAACATTTCTACTCCTGTACAAGTAGTTGTTGTTGTTTCTTTTATCCCTACTATTTCTATTTCTTCTCCTACTTTGATGATTCCTCTTTCTACTCTTCCTGTTACTACTGTTCCTCTTCCTGTTATTGTGAATACATCTTCTATTGGCATTAAGAATGGTTGATCTACTGGTCTTTCTGGAGTTGGTATATATTCATCTACTGCATCCATTAATTCCATTATTTTTTCTACCCATTGTTGCTCTCCATTTAATGCTCCTAATGATGATCCTGTTATTACTGGTACATCATCTCCTGGGAATCCATACTCTGTTAATAATTCTCTTACTTCCATTTCTACTAATTCTAATAATTCTTCGTCATCTACCATATCTGCTTTGTTTAAGTACACTACTATATAAGGTACTCCTACTTGTCTTGATAATAAGATGTGTTCTCTTGTTTGTGGCATTGGACCATCTGCTGCTGATACAACTAAAATTGCTCCATCCATTTGTGCTGCTCCTGTGATCATGTTTTTTACATAATCCGCATGTCCTGGACAATCTACGTGAGCATAATGTCTTTTTTCTGTTTCATACTCTATATGCGCTGTGTTGATTGTTATTCCTCTTTCTCTTTCTTCAGGTGCTTGGTCGATATTTTCAAAATCTACTTTTTGCGCTAACCCTTTTTCCGCTAATACTTTTGATATTGCTGCTGTTGTTGTTGTTTTACCATGGTCAACGTGTCCTATTGTTCCAACGTTTACATGTGGTTTACTTCTTTCAAATTTTTCTTTAGCCATTTTTTGCCTCCT