##gff-version 3
sequence1	MetaGeneAnnotator	CDS	2598	3794	.	-	0	ID=MGA_2;product=tRNA pseudouridine(13) synthase TruD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496965.1;translation=MYKIKQTDDDFIVNEIINKSKLKNKPDKNHKYVILKLTKSNFTTMDALYKIAKVFLISVKQFGIAGLKDKNGITSQYISLNRYTESMCNIEIDKDIKLEFIGWSENPIKIGDLDNNEFEIRVSCIKQLDLTISKLNLLKKIEIKLGFIPCINYFDSQRFSKNNFKQGILLLNKNFKEFNYNLIKQQSNIDFEMETIDCELNIDDFHNYEKAVVKELQKSNTDHIRALNTINPKILKIFLHSVQSYLYNLISGKLIDILFKTKICTIENINQNIYFFNDFEIEKINKLINLKIPLIGYDPNLLNSFYDDIKKLENEFDVNILDEIKIEIDNFFNEFKINQRSFILNELPQISLEGDYRNLFLKSNNFNYELVDKETLKFKFVLTKGSYATMFIKFIMCN;locus_tag=LOCUS_00010;note=WP_064496965.1 tRNA pseudouridine(13) synthase TruD (Methanocaldococcus jannaschii DSM 2661) [pid:29.4%25%2C q_cov:98.2%25%2C s_cov:96.5%25%2C Eval:1.3e-25],MGA_2
sequence1	MetaGeneAnnotator	CDS	3883	4344	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADFEINPLIFIFLGAIISSISTGIVYIRKDYVFLIFFLIGIGFLTYGLVKRKHYHQYIQKLEKKTKKQIRNIPGINNNLNNKISSKQKYMQTKNNVHHQSKTIFYNNLNNKHQKRNYIILKHCSHCHNHHNENEYICKKCNNRHFYYMTHHK;locus_tag=LOCUS_00020;note=MGA_3
sequence1	MetaGeneAnnotator	CDS	4415	5668	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFKYSHIADCHIGGWKDDKMKNMSLNCFKKAIEISIENNVNFILLAGDLFNSSIPSVDNLKEVVKILRLCLYRNIPVYTIAGSHDFSPSGKTIIEVLDKAGLLINVSRGNIVNDKLELDFTVDKLTNVKITGIVGKRGGLEKNIFNNLNREKLEIENNYKIFMFHTAITEIKPAGLEKMDSTSISTLPKQFNYYAGGHVHYVFKKEMKINNGNSLLTYPGPTYPNNFKELEDLKKGTFWIANVEFNNNEYKTNIELIEIPSPEVKCYNIDIDGKSVNEVNNLLFELFDENINNKIITIRIYGQISSGKISEINFKKLISYLYEKGSYFVTINTNKLKSKEFVKYKIHIKDNIDLEKSIIDEHSDNINIDFLNTDNKSALIKTLINSLNTNKIEGEKINNFEERIFDELTNILEIE;locus_tag=LOCUS_00030;note=WP_010876180.1 double-stranded DNA repair protein Mre11 (Methanothermobacter thermautotrophicus str. Delta H) [pid:31.9%25%2C q_cov:100.0%25%2C s_cov:70.5%25%2C Eval:2.7e-61%2C partial hit],MGA_4
sequence1	MetaGeneAnnotator	CDS	5868	6542	.	+	0	ID=MGA_5;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6MSP5;translation=MKLKEISMGNIIRERIKKDKKLEILVKKKMNAGKLLPDKVMNEIAKKYFKQNKIKDNFIFDGYPRTLLEAKYITKLFDFDHIIELNITNKEVVNRIKKRLICGEFSYIIGKKYKIISKKVKELRKKKGLNSKEIIIKVNSLCPKTGKILEKRKDDMPLKLKTRLNEYNKKTKPILKFFKIYAKMIENNNKIKKNEKKIPKINIINGMGSINKIQKKVYDLIKNG;locus_tag=LOCUS_00040;gene=adk;EC_number=2.7.4.3;note=Q6MSP5 adenylate kinase (Mycoplasma mycoides subsp. mycoides SC str. PG1) [pid:28.8%25%2C q_cov:79.9%25%2C s_cov:76.1%25%2C Eval:9.3e-18],MGA_5
sequence1	MetaGeneAnnotator	CDS	6535	7200	.	+	0	ID=MGA_6;product=NADH dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877737.1;translation=MDENILKRRSCKNYLQIPIEWSKLVNILKAGSLAPSAGNLQNWKFIVIQEKENRQKIANSCLFQTWMNQAPTYIIVCGNFQMAQKYYFERGNMFTIQSCAAAMENMLIEATNQKLGSNWVGAFDEQKLNEILEIEDEWKIYSILTLGYESEKTEMPNKLELKDQVYFEKFKENQYEASLFPISNLKNEINNQINKTKSEIIGQKNKIQKKIEENKKKLLEE;locus_tag=LOCUS_00050;note=WP_010877737.1 NADH dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:36.1%25%2C q_cov:75.1%25%2C s_cov:96.5%25%2C Eval:7.4e-28],MGA_6
sequence1	MetaGeneAnnotator	CDS	7437	7868	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKSKVPIATTFRLLNKLIELKLIEERKISRFTIYKLSKNKEIEFLSKLFKFEIDPIKEFSDLVNAKFAISSIYRQGEKSDKKSNLVILGYDIEANQISEIAKEIKVNYNYLINFIILTPEQFKQMENMGINTNKHHLIYNS;locus_tag=LOCUS_00060;note=MGA_7
sequence1	MetaGeneAnnotator	CDS	8115	9191	.	+	0	ID=MGA_8;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496560.1;translation=MEFVIENALKNAEESMPQNNEIGHANIKVMGTGGAGCNMVNWLHKKGVQGAETIAINTDMQHINMISADRKFLIGKEVTKGLGAGGYPQKGAEAAKESLNEIKEVLKNSDMVFVCAGMGGGSGTGSAPIIARVAQDMGAIVIGTVTMPFKIERARVDKAEYGLDMLKDVCDTVVVIDNNRLVQIAGNLPVQQAFAVANELVSTMIKGIVETIAIPSLVNLDFADVKAVMTQGGIASIGMGISDTNNRVPEAVNAALTNPLLDISYEGSSGAIIQITGGPDLTLDEINMAGELVTENMSENANVIWGARVSENMKGKFSVMTIMTGVNSPYLMGKSQLKERESKTKTFSDELGINLMHH;locus_tag=LOCUS_00070;note=WP_064496560.1 cell division protein FtsZ (Methanocaldococcus jannaschii DSM 2661) [pid:52.6%25%2C q_cov:94.1%25%2C s_cov:92.9%25%2C Eval:2.0e-99],MGA_8
sequence1	MetaGeneAnnotator	CDS	9266	9478	.	-	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKIIIINLLLILFFLTVGIGIAYANNIEINSTELNDDLLFELNKTINTNLQLNLLNFNLKSNYDSCSN;locus_tag=LOCUS_00080;note=MGA_9
sequence1	MetaGeneAnnotator	CDS	9479	10405	.	-	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAQKKLLILTAGILLIFIILVSTFAYVLQNKKIEENYKNLNEDIDLNSDLELKKNLLISKVVEIQNKIARNEDYEKEQLNILDDIEYTQRSNYYNPEEFIEVVSKFENCIQESDRLRDKISDIEENIEFVSRKINSLKSELEDNIFVLSLIINPLQVDNLNNDIEEKQLEVSQFETLIENIQNEILEIESNKNSLEVQIITSERNGEDVSLLNLQLNEIKVKLTSKENELTDVRNNLISTRSDISKLKLQLEMAKKSVLSEIDKDKIRNDIGELEDDIKHYDDKLDDYEKELSEFDRDLKRAERRC;locus_tag=LOCUS_00090;note=MGA_10
sequence1	MetaGeneAnnotator	CDS	10506	11606	.	-	0	ID=MGA_11;product=putative alpha-L-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KPT1;translation=MKAAIISLNGTSSKLIAESMNNYFDKVDMLNIKKFEVLMKAGSMQILYDGESLKKYDCILARGSFKYAQILHAISKTLEQFCYMPMSAESFLIGHDKFLSQIAFNTKNISMPVAYYASSDQATKRTLNNISYPIVMKMPNGTHGKGVMFADSKESAKSILDAMGALKQPFIIQEFIDTGGKDIRAIVVGDKVVACMERKSISGENRSNIHAGGKGYNIELDDITKDMCVRTSKTLGCDISAIDIMMDSKGPLVLELNLSPGLQGIMKATKIDVADHMAKFLFEKTRDLKIKSTKKETGELFQELGLSDKKIKNGFHEMITTLDHRGKRILLPESVSKLGVLNEVDEYVIKVAKNKIIIEKFDLNNV;locus_tag=LOCUS_00100;gene=rimK;EC_number=6.3.2.-;note=Q9KPT1 putative alpha-L-glutamate ligase (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:30.6%25%2C q_cov:80.6%25%2C s_cov:99.7%25%2C Eval:3.8e-37],MGA_11
sequence1	MetaGeneAnnotator	CDS	11608	11937	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIGLVEKVIFNKETQLNARIDTGATMSSIDIKLAHELGFKKKVRQIKVRNAHGRSVRDIVLIQLNISGILIKEEFSLADRSHMRYQVLIGQNILNKGFFLINPKLKN;locus_tag=LOCUS_00110;note=MGA_12
sequence1	MetaGeneAnnotator	CDS	12090	12719	.	+	0	ID=MGA_13;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867351.1;translation=MEQMKTGTTILGIKCKDGVILASDYRMTMGYLRAGKMKKIIPLTDKISAAVAGSVSEAQQSTRYLQAELRLNQLKLKREMQVREAANFACSMLYSNIKYPTSYNFMYCALLIAGYDLHGGHLFAAQPDGSIQECDDYICDGSGMEFALSIIEAEWKKDITCAEAKHLAIKAVNAAISRDIASGDAISVFQFTKDGTKEVFYGQNDLEVK;locus_tag=LOCUS_00120;note=WP_010867351.1 proteasome subunit beta (Pyrococcus abyssi GE5) [pid:39.6%25%2C q_cov:93.8%25%2C s_cov:97.0%25%2C Eval:5.1e-28],MGA_13
sequence1	MetaGeneAnnotator	CDS	12754	14649	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250379.1;translation=MSDILKEIVAKLPERSISHSCFEAANIILYSKDKSIVQGNGSLIKSLVREFKKRIELRPDPELCLNIEETEKIIREIIPEEAVINRILFDEQRSKITIEVEKPGLAIGKNASLLKEIKDKTFWIANITRTPAIPCQIIENIRAVLYENNDERKKFLNRVGHRIYDGWLRGKKQEWIRLSYLGGAREVGRSCIFLQTSESRILIDCGINVANEKEVFPFLEAPEFDINELDAIIISHANLDHACLVPYLFRFGYSGPIYATEPTRDIMALLQFDYIKQIKAEGKEPLYSPDEIKKQIKQCITLSFEEVTDVTPDIRLTFYNSGHVIGSSLVHINIGNGLHNLMFTSNFRMQHTKLLIGAISKFTRLETLMIEATYGGTDCNLPSRVETERQIKTHIKKAIERNGKILMPVSGVGRAQEALLIFEEMFREKTIKEVPVYIDGSVWDITAIHTAYPEYLNNYIKQSIFHKDQNPFLNKNFKNISSRKGRSDLVESEGPAIILATSAMLTTGPSVYYFKELASDQKNMIIFTAFLSNGTLGRRLQAGERTYNFENTAGKNEPIEAKLEIVTIDGFSGNAGRGELMTYLSKLDPKPKRVICSYGETNRVIDLASSIHRKYKIETNTPRNLDTLRLR;locus_tag=LOCUS_00130;note=WP_011250379.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:46.9%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:2.1e-167],MGA_14
sequence1	MetaGeneAnnotator	CDS	14730	15287	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIGEYKGFKLSSLNNEMIIFKETLSNRMRDLDRLYHFQNDNRITGSSNSKSYHIFLNAIDKNWQEIQSLDPSQKNAMSGIMSKIENFSKSYLRCISYKQMIIDAKPQEFTTGDYQHTGKHGMKITLFEHKIQLILSSLYDCSLQGCNIPTLIREVDKKDIPQIKSGLKEPTFEYIKSLFNFKNN;locus_tag=LOCUS_00140;note=MGA_15
sequence1	MetaGeneAnnotator	CDS	15284	16141	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWCFLFIILLFKSGTITGNFIIDKFSINNSILLNLNPIIYLLLIFISILFVIKLDSLESKLDNLDWKTHAKENCWQLHKYDPRMAIKDFDIGYLRRSKKDKKQTPIQKQIAKSISGSEILETNNNKYEKNSYEQLFYTSHASKSGRVFDVNSHTDKNGKLKHYNNLEDGWYIWVIDNDGNFVIGSRSRKKKHRYIIDVYGYKLAHPTLTAGKSVYGAGELFMERGKIKHFNSGTGHFYDRTNIKSFNEQTEDVFLYFSKRAHWKQVSGGATYNKNYDDKEDITNY;locus_tag=LOCUS_00150;note=MGA_16
sequence1	MetaGeneAnnotator	CDS	16255	17493	.	+	0	ID=MGA_17;product=zinc protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016846.1;translation=MKYNSFKLSNGLEIYFIKQKSSIISAEIDVNWAPRDEPKGKEGISHFLEHIIWNSGSVKLDSKKVKEIKRKFGMSNAATAKDRTYYFAQFFKNRFELFLELISELVLNNNFETEIIKKEKERVLREISDKTGNVEYKDINNFRKKFLFNTIHNRRPLGYYDSVVNIDRKDLIEYYKKGYVINNMKLILVGELPSNFKTLVKKYFDKFKSKKVIHKKFEKISLMKKKMISHVSAKELLNKNNIKNSSAHMIIEFFAPELFHKDFAAMDIANTIIGGPNSKLHNKISRDEGLAYSIYSHYICRFGIGHIIINTKVNADKIKKAQKLIFDVINNFEKDLKQLDIDFAKESLIFRKFKSMDSGYGALMSISESLSSGLSYENYLKLIKKVTIEDVKKVVKKYLTKNHAILIRDPLK;locus_tag=LOCUS_00160;EC_number=3.4.99.-;note=WP_011016846.1 zinc protease (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:24.8%25%2C q_cov:94.7%25%2C s_cov:94.4%25%2C Eval:1.3e-28],MGA_17
sequence1	MetaGeneAnnotator	CDS	17498	18616	.	-	0	ID=MGA_18;product=queuine tRNA-ribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RDN0;translation=MKNFEIIHEDNKARIGILKTQYGQIETPIFLAVATRGVGKHYTSMDLIAIDHNSIISNALILNFRPGSQLIEEMGGLHKFMNFNGCIFTDCGGFQASRHFFQGKDNTGLNFLNPYNNQKFKITPKSIMNIQLEIGSDVAMMLDDMAPYGASYDQAKEAMELTHKWGKLSLDFHNKLKIEKNSNQMLFGIVQGNFYEDLRKESAKYISSLNFDGIAIGGVAIGEPKEEMYMAVNSAIVHLPREKPKYIMGLGTPLDILNMIEKGVDVFDSVYPTKVARHNTLFTKDGLIYLNRGKHKNDNNPIEKDCDCIACLNYSRAYINHLSKIEETSALRLKSLHNIRFIKRMIEDAKIAIKEKRFKEFKEEFTKRFEKK;locus_tag=LOCUS_00170;gene=tgt;EC_number=2.4.2.29;note=Q8RDN0 queuine tRNA-ribosyltransferase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:41.1%25%2C q_cov:94.1%25%2C s_cov:93.3%25%2C Eval:2.7e-78],MGA_18
sequence1	MetaGeneAnnotator	CDS	18739	20451	.	+	0	ID=MGA_19;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830004.1;translation=MLIIKNLDKSFEDKPILNDANLVINKGEKIALIGSNGTGKTTLLRLILEFDDDFYGNIENTFKTISYMTQDLDLRNQNKLFNEAVLFDNRIIEIYNRLEEVENLMCDDNTVANIETYQKLLDEYERLNKKFIELGGHKLEEKGKKVLTNLGFKESQFNQLVETLSGGEKTKLKLAKALICESDFLILDEPTNHLDIANIVWLETFLKQYKGSLLIISHDKYLLNKVCNHTCLIINEKIQKYKGNYETFYLKLSDLNKNNKKALKKIEQEIERSKKIIKDYKSCFGGLKKKLKNNLYKLHKKLHSQKIGSLDITEKEVNIKFNSKTFIQREFDSEKYKDLEEENRDSPDFLEQNQKYIKPILEINKLSVQYGERVILDNLNVRIIPGEVIAIIGANGEGKTTLLNAIYHFYKSENIKFYLEFNSTQSRFHQDMDLIYFDQEYKKLNHKKNVMEELEIDYFSEDYEDMRKILSNLLFTPNQLKQKIYTLSGGEKAKLNFAKIMLSNYNVMILDEPTNHLDINTKELLSQALLNYNGTVLFVSHDRDFVKEIADKVLLLKNGKLWPIDKNKLN;locus_tag=LOCUS_00180;note=WP_001830004.1 ABC transporter ATP-binding protein (Staphylococcus epidermidis ATCC 12228) [pid:32.6%25%2C q_cov:98.6%25%2C s_cov:81.1%25%2C Eval:1.2e-81],MGA_19
sequence1	MetaGeneAnnotator	CDS	20443	21300	.	-	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVLVDKLNNAKNKLANGLIGSDLISSFNPFLIKLKEMPISLFLFIIYTLVSGLGYLFWGYLPSLLYENFSHTLVLSSIFPGRFGVFLNFVFFILSLFLIYAMMQKEKWNYQFASGWYIIHAINFIIILIDSLFYNNLKFGTFTIPFSAMIIILNLLVIAFIFNKKELFGVPAEHKNFNLRQAFFITFLIFIVFFSFTLNFKLNQVETDFLNHYNSLKPYQNNKMIIGPSIGYCSNDEICLIALKNLIANQVTDDKVSKYNKIIKICNEIDSFFYRFICNNFDLI;locus_tag=LOCUS_00190;note=MGA_20
sequence1	MetaGeneAnnotator	CDS	21381	22298	.	-	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868073.1;translation=MYLTTKELRKIKVSIGFELHISVNLGLPLEGKNDDLLLFKITSYDSEEFDEHLNKNVIRKIIRSELVDEEFTFGQVNYFDFYYDLNLKADFIYLNIDGHLEKLILYDDKDIPYKLKPTETWPTLLIGPTPMHRSKEVTVKEDTELKLKSISPIQGIALDTCFGAGYTCLLLSEKADEVFSFDINENVLELAKINPFTAELFDNNNIKIQNKNIIVEIVNFNNNFFDRIIHDPPTGNDFTELYNISFYEELYRVLKQDGKLYHYVPRPGINSNKNVLFEKVIKRLNTVGFKNVEYLEETSGIIASK;locus_tag=LOCUS_00200;note=WP_010868073.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:36.9%25%2C q_cov:82.6%25%2C s_cov:88.4%25%2C Eval:7.3e-36],MGA_21
sequence1	MetaGeneAnnotator	CDS	22333	23769	.	-	0	ID=MGA_22;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2U6;translation=MKFTSDIIIGLEVHISLKTQSKLFCSCKNPSFHGKNIKANENVCNICLGYPGSKPHPNKQAVLFALKLANIIGCQIPKKLCFDRKNYFYPDLVKNFQITQDEFPIGMGGKIQIGLNEFVKLHHIHIEEDPGSMVISNNTCLIDYNRSGTPLIELVTNPVMTKPEQAREFLKKLIIILEYLNIFDRYNCTLKADANISIKETNYTRVEIKNINGFKDIEQALEFEINRQKDCVQNNETIKLETRGWDGTKTFFQRSKEEAADYGYYPENDIPPIKITEEIIKESMIDCNKDDIYYNKINNILEDFDINLEDLEIILEDKNLGEFFNEFLNKNCKYENKFNPQLVANYFRNRIIKILNQMEINFSKLNFNINNLTILIKKYLDKIIDNKINNLLLEKVLSESNFDLIKYIEENDLEQSSDDSFITDLAKKAILDNQIAVDAYKNGDLKSINFLVGVIMKNSRGKANPSTAKQILENILNK;locus_tag=LOCUS_00210;gene=gatB;EC_number=6.3.5.-;note=B8E2U6 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B (Dictyoglomus turgidum DSM 6724) [pid:37.2%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:4.9e-78],MGA_22
sequence1	MetaGeneAnnotator	CDS	23766	25118	.	-	0	ID=MGA_23;product=glutamyl-tRNA(Gln) amidotransferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y6D2;translation=MKEVIQEIENINNSFNYLVETIPIDENYDGDFITISIKDAILIKNSQARSSSKILNNYFPVNDSKVIKNTKDYFKNKNIKPIFIGKTIHDEFGFGGYNVNVGIDKKIPKNPYDDKRSCGGSSGGCAGFTAKTKFRHISIAESTGGSISTPASFCGVYGLTPTYGLISRDGLISYANSLDKIGIMAKDILDIAVGLEMIDGYDLNDCTNVKHENKNYVDLLNDDTKYKNNTIKIGLINLDENNQINNNVKDKIDQLKNNLDKSNIKVEIETVDISFINKYSLPVYYILSLSEASTNLSKLCGLRYGVQNIPTNLNYNDYFIKIRSENFSKETKRRIILGTFARMASYRDAYMNKAMRVRKLIIDKYLEIFNNFDFLIGPSTPTIAPLIDEIKNISPYEEMLADTYCCCPNLAGLPHISIPSGKDNNMPTGMMIISNHFTEDKLLWLSNKIK;locus_tag=LOCUS_00220;gene=gatA;EC_number=6.3.5.7;note=Q8Y6D2 glutamyl-tRNA(Gln) amidotransferase subunit A (Listeria monocytogenes EGD-e) [pid:38.4%25%2C q_cov:93.1%25%2C s_cov:83.0%25%2C Eval:9.7e-65],MGA_23
sequence1	MetaGeneAnnotator	CDS	25125	25403	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDDNLLNQICKNARLKLTESENNEFKIQLNEIMDMFNLICEVDTNKINPIYHPIDLNYELREDIANENKVEIKKNTIHIQDGFFIGPKIK;locus_tag=LOCUS_00230;note=MGA_24
sequence1	MetaGeneAnnotator	CDS	25390	26838	.	-	0	ID=MGA_25;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q18CD5;translation=MALQIFDSLKKKKIYFNSIEPNKIKMYTCGPTVYNDIHIGNAKTFIIFDFIKRCLMYIGYEVIHVQNITDVGHLVDDSDDGDDKILKQAKKEKIDPYEIARKYEINYKKDMADLGIIKPDYEPRATDFIQKIIDFIKILIEKDFAYQKNGSVYFRVNKFNEYGKLSGNKLDELKQDASERTIKLDEKEDPRDFSIWKEAESNHLMQWDSPWGSGFPGWHIECSVMAKDLLGETFDIKSGGIDLKFPHHEDEIAQSECCNGKEYANYYMHSEHMLIDGEKMSKSKGTFYTARELIEKYGAGAVRLALISNNYRQQINFSNEFIIQSKKIFDRYIETYNRLQKLNNLNLIENNIEEKIKNEIDNFNKNIIEAINDDFNNSIIISQTTAFLKLVNNSIENNEVNNNIKNIFNHFYIKIDQLMNLLKYNIEIKIPNEIKELAKQRDEARNNKDWPQSDILREKILKLGYAIKDSKEGTIIIKNENR;locus_tag=LOCUS_00240;gene=cysS;EC_number=6.1.1.16;note=Q18CD5 cysteine--tRNA ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:39.3%25%2C q_cov:97.7%25%2C s_cov:98.7%25%2C Eval:7.6e-95],MGA_25
sequence1	MetaGeneAnnotator	CDS	26876	27718	.	-	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAQTHLSNEFRLQSQNLSINQFLEYTDSDNFELEEKVIDNISYFLVNNKINLPGKTKLNSDLELIQMFDHQNKPIFVDKKRLLFYRKDCSSNKRIRKKKILNVNDDFYHRASLCLIINRNMQVLVPLRSENKLYAGCREFSVAETLKIGETYEQGCLRGFEEERDFIFNAKSRERLHFFFSDLINNEYQSEHFNIFIFYKMPKDMFKANNIGIGKNNNSIEAQYYNWMPINKILDINANSGFMALNQYLNFRPDHLNVYIGALSSLSLKNVKKVFKQYK;locus_tag=LOCUS_00250;note=MGA_26
sequence1	MetaGeneAnnotator	CDS	27934	28845	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIVRHGPSSLTISLPMKWIKKHNIKAGDELDIREINSFLTIGNQNQNNDKSILIDVSNIGKSINRVIGSIYRAGYDNVKIKYSNPEEFDEIQDEVEKISKGFEIFKYSSSEIQIKSIYQPNIEDFNNVLQRYFYAIKNIGVDLLDTLKKKNLDFLKTVILQDRAIDRHSNFLRRILNKGLQIEFDRPYCIYYIIEQLEIFADLYKEFAKLYYSNREKKILNDYLIIIEQINELFDIFLKAFFNFTFDKSKALFNKEKEIYSTFEKLKKNPNIDVETYSQLYLIFRCLFEIKCALLTGFLK;locus_tag=LOCUS_00260;note=MGA_27
sequence1	MetaGeneAnnotator	CDS	28898	31117	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKLSAPFSIYFLHGASCSGKSTLQTILIEDIANKLGSKLYKQFLELSNIKFTDRLRRKSEIEKKYIMQKNIVDDETFTRLNDSEEFFMTYSYNGKRYGFSSSALEEQINFSLQNPNSQFQYPIFFDNSSPNLPVITNKKLIDEINDKLSVHELDLKFDIKKILVFSSLDTTRTKFSYRFNESKGIEEYLIERADNDLEENLYFLNKLLKYTHFSCPFLFRDRAKMEEKQADDERLISCLDYSKKIEFLQAGYSRGNFDSMSIMESLNLITDKNEEKFSIIGLMEVLKEYFSPASLYKKHLIKSTKNSKHKNTIGKYSANLKIYYKKIAESFCKKIKKQYETLKKKKTLNPQKNVFFGKKKKKLENKIKEEKYDCLEKLINNYFDPEFDVNNINDNLKRIYNDFIINYATLDFKSNFFGSRQTQEYLSLIEKEKLLKYSLDVYKNLGMESKIIKDLQTLLDDTYERKQIVEGKLNSIFDIDRYEISEKIVIDLKEKLVQIRDEFDSIFNYNKKNRKSNISMKDIQIVIRNISQLYSEQYMRYKRHSNPEFNEPEYRLKGKENISLERWLLKRRIKKKSKKKYTNKSKIKNIRTRDLLPFLKYFETFRENEIVELPILIENRDKVYSDILTVFKEIISQSDLRKSESVHLIKSYTENILNVLFSSTTNTKQSSVNKSILTQNISFIEDLNKILKNYSKLKLCQIENENSDEKESILLETLLNKLYLKNPFNFTSERIIA;locus_tag=LOCUS_00270;note=MGA_28
sequence1	MetaGeneAnnotator	CDS	31464	32711	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLNDLLNSKPKSNQDISEKGQKLKKELIEQAKKVEKKNTKKTTKKTSKKTTKKKTAKKKKNELLNQTHDYSNINNNEYRNHLIDYINKNSDLGFDSISILEHLVEYGVDYNYANELINNVNLSKNISETKIVEKEEREIISKSQNNFRFFIELFIVFIIITILSLMSNGTIYIVAMSFFPTILNLCLIHYYFKNNKNYLLSIPIYLVIISFFSILFNYVQIGEIFLRNIIDIKAIAIYNIILTFIFQLVEFENLNIIFANLSKHFNFHKKENVKDLKITLNKNISILKKKILKINQLIESTYKINKKELNNVLIDLKYLKKLENIDYKNLILKAHNYFEISDLLEKEIKKLENDEKFFNLNKKAGHLKRDKSGRYSILSIIMVNNHDIDLKKLWEEIFFIIDTIKGELYNNSI;locus_tag=LOCUS_00280;note=MGA_29
sequence1	MetaGeneAnnotator	CDS	32713	33360	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEQDNYYNEISDGYNNLYKEEQDDKCKFIFSRYNWNELFKNLELKEKINILDLGCGTGISTLNLIEELNKYKKFKDKKINIILIDPAKLLLEKIILIEKGEMYHDPKMENENYTVIDLNEYELDITISKINMYGENLNDINFECDFLFSLTALQNVSNLNKIIEIIKNKKIKNFILSYLYRGKENELDKVIELFEKLEFKKLLKNNKDIFFVK;locus_tag=LOCUS_00290;note=MGA_30
sequence1	MetaGeneAnnotator	CDS	33405	34481	.	+	0	ID=MGA_31;product=magnesium chelatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545241.1;translation=MPSFNMVHKNLNPEDIISEKFEKILGQNEAKIQLKSAILMDRHVILVGPPGVGKTSFAKNVAELLKSIKAVDCSYHCNPEKPICPECLHKIKNNEKLEIVELNGKDRFIRVQGSPDLTVEDLIGDIDPIKALEYGPLSMQAFTPGKIFKANRGLLFFDEVNRCPEKLQNALLQILEEGKATIGNHDVDIDASFIFIGTMNPTDFAGTQSLSEVFLDRTDLIYVNYPETREIEMQILDENTQELDSIEMPEKISYSIVEFIQKLRQSDKLEKQPSVRASIGLHERSRSYAKLCNCNKVEMKHVEFVIPSVLEHRIKLKPNYKFLMKPKDFLKKEFNDFKKEGNNYAGIAPKREKSSEVP;locus_tag=LOCUS_00300;EC_number=6.6.1.1;note=WP_012545241.1 magnesium chelatase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:27.4%25%2C q_cov:83.2%25%2C s_cov:93.5%25%2C Eval:2.4e-20],MGA_31
sequence1	MetaGeneAnnotator	CDS	34675	35694	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFTPNMMFEKMVSNFRNSKNIYGESMIRATTGYDSEYIDKNIKYPEFQRELEKRMKDKKDEFKKKKLVDSKGNYTQKATELAVLSMYATELDNLEAIDNIHGKKFTRKMDKYGEKQEITNYKKGARFRDIAIRQSIKNLIRHNQKKLSLENMKMYERQSKGVLNIIYAIDTSSSMKGKKLESTKKAGLALAYKAISNKDKVGLIAFAENIITSIEPTDDFSKIVNGLTLLKPKDETDFEKVINEAMRLFPEGDELKHLVIITDAMPTAGNDPVQDTLQAISMARAANITISIVGMQLDEQGESLAQKIVQISEGKLYKVLETENLNQIVLQDYYAYE;locus_tag=LOCUS_00310;note=MGA_32
sequence1	MetaGeneAnnotator	CDS	35719	36261	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNKLVFSLNDKLSEQYECDNFDFTEMKLGILKILNHLPNYKGKKILDLGCGSVSSDFNTSYDNYISACDDDLISKYTFYPWICRGLFELGAHPIGIDYGSLTGEKFEHYDRVNLLLENSLSMIDDNSIDIVHTKLLYNSPQLEMMKGDTEKLKYILVPQIKRVLKTDGILLADWDKTI;locus_tag=LOCUS_00320;note=MGA_33
sequence1	MetaGeneAnnotator	CDS	36329	36886	.	-	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENFKDFDDLEKDDLISLDEEEYVEHNDEFIDEILEPYKKEKKIVDINDNIEFSYKTLLEDGTIVDQKTIEDPMKVKVGSETLLKSFEEKLIGMFEGEKKTFIIENAYGKSNPKLIESIYQSSLPEQFHEVGHTYSFKGKDNKFHYAKVIEIKDGIVKLDFNNPLTDSDLKFEVKILKIHKIEK;locus_tag=LOCUS_00330;note=MGA_34
sequence1	MetaGeneAnnotator	CDS	36879	37493	.	-	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFSIIEIIKIVIGTLVAAFILKDYFKLPIEKTHRFNSYSESYYRDIKSISDPYQLKLIGYTFLILIPSIGLHEIGHKLMGLALGFSAIIDISTQGLFMSLLFKFAFGFTFIVPAFVVTSGVFTYLDNFLISVSGPLLNLIIWKLCQYLLFSKMKLKHSAQITIGNIGRINKFLFFFNIIPLPFFDGWGIWSSLFYMIMGVFNG;locus_tag=LOCUS_00340;note=MGA_35
sequence1	MetaGeneAnnotator	CDS	37629	38513	.	+	0	ID=MGA_36;product=preprotein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870766.1;translation=MGLIDKYINFFEKNYKLLIIIPLLLLFFSFLIIGQNYAKTNSFVQKDVSLKGGISITIDNTNSQITDSIENLEKELESEFDYADFSLQEIINPRSVLIHAADIEEDKVKKFLENKFGEFEKENYNVKIQSSQFGESFFTDTLIAIIIAFLFMGIIVFIYFRKFAPSLGVVLSAFSDIIITVAVINLLEIRLSTAGVAAILMIIGYSVDTNILLSSKILSKSDETFSQKMSYTMNTGLMMTFTTLGALIAGLLFAKAPELIQIFTILLIGLLTDLIMTWIQNAAILKYFSEDKNE;locus_tag=LOCUS_00350;note=WP_010870766.1 preprotein translocase subunit SecF (Methanocaldococcus jannaschii DSM 2661) [pid:35.2%25%2C q_cov:93.9%25%2C s_cov:96.1%25%2C Eval:1.1e-36],MGA_36
sequence1	MetaGeneAnnotator	CDS	38506	40233	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEVWKKALLNWRVLLLIFFIFISIIAIRPSLFEEKGVAVRAISQNSTFANGGLISPNAEISPKDRQVIIEINKLDIISPEQFYSILSRLEIGETFTFKLRDEQIPRSTTIIPYYETKEMLENVTETINITSEEIVNGSLKNITKQVDQISEKLINKSFATNKANLGIKVYEPPMSNIKKGLDLQGGTFALLSPEGNITIEELDLSKNSYEQRLNAFGLSDITVSSTTDLVGNKYIKVEIAGATDEDIVNLLSSQGKFEAKIGSDMLFQGGKDITFVCTTPQCSGINQNVGCQKIGNGWECGYQFSIEITPEASIRQYEVMKQLDIVDSQLSKPIDFYLDNSLASSLPISAGLKGVRTTSLSIQGRGQGPDQLTARDNAILEMKKTQSILQTGSLPVKFNIVSINPVSAKLGNEFFKNAIYVGLLSILVVCLIIFIKYRKLKIALPLLFTSISEVIILLGFYAAFGNNLDLAAIGGIVIAVGTGVDHQIVIIQEILQGTGNRILSWKQKIKNAFKVISASYLTTIVAMIVLMSAGAGLLFGFALTTIVGLTFGILVSRPAFAHIIESLMNEENN;locus_tag=LOCUS_00360;note=WP_010876482.1 preprotein translocase subunit SecD (Methanothermobacter thermautotrophicus str. Delta H) [pid:32.4%25%2C q_cov:67.8%25%2C s_cov:90.3%25%2C Eval:2.6e-52%2C partial hit],MGA_37
sequence1	MetaGeneAnnotator	CDS	40250	41029	.	-	0	ID=MGA_38;product=diphthine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870787.1;translation=MVLNLIGIGINDKLDISLKGLNLIKNSDEVYIEYYTCLIHNSIEELEQLFNKKVNVLYRDDIENKIEDLILNKSKENNISLLVIGDPLSATTHCDLLMRAKELQIETKVVHNASVFTAISKTGLQLYKFGKVTSVPFEQENYKITTPIRIYNQNQSIDAHTLFLLDLDPQNNKFLTANQALNILKNSSNKLLDEEDLDFEINDDTNIIVCARLGADDEVIKFGKIKDLINFDFGKPVHCIIIPSKLHFAEEDFLHQFEI;locus_tag=LOCUS_00370;EC_number=2.1.1.98;note=WP_010870787.1 diphthine synthase (Methanocaldococcus jannaschii DSM 2661) [pid:43.0%25%2C q_cov:97.7%25%2C s_cov:97.3%25%2C Eval:1.1e-52],MGA_38
sequence1	MetaGeneAnnotator	CDS	41079	42944	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEKPKVNFKFHKASDESEDLENNDENIENKETVENTPVKEKSTFIDNYNNNENNNENKNTLKKSLFVISLIILISFIYLFTNPIVDGNSINQTIGNETGLNKSDDGIKDYVLILDDDIERVKITEFIDFQCPACKELNDDLKQFEFNFIEAIEIEYVQFPLAQHEFAKQLAEYFICLGDNELAKQEFKSRMFNNQYDFSEELIQKQLDRIDFDKDKFSKCMESPSLQAELFDHSIKAKNVGVNGTPWILVEGEYVEPNVDTIKEKVLSALNQKNITYKFISQAERLRLIKLAEINLKQQLNKRIDVADLKDIDPLISIVVITTDKCFFCDHESVIKNIEDFYFPNIVVEVIDMESDTAKTMISSMNLKHFPAYIFDKAVEKAANFNVFENFLLKTTDFTYILREQYHNYGLRYEWPLYHYYQNEWGNVSSPLRVYNYFNFECEHCKSFYENVELNLDDNYVNKIHFYDRFLVIDEFKNTKITIPAAKCFVKLGGDFSFFKDELFKLQKTLKKESKRAEAYTDKDKQFSYLMNTLIPEMHFVRAKTNITFEDFNTCLNVTLWENDESNILIQNNLSAIMSAPTILINEQVIHGAPQSVDDFQSLINKYILNEVDYKSVIFD;locus_tag=LOCUS_00380;note=WP_005461015.1 thioredoxin (Vibrio parahaemolyticus RIMD 2210633) [pid:28.3%25%2C q_cov:25.6%25%2C s_cov:61.8%25%2C Eval:6.4e-12%2C partial hit],MGA_39
sequence1	MetaGeneAnnotator	CDS	43082	43993	.	+	0	ID=MGA_40;product=ribosomal large subunit pseudouridine synthase C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P57430;translation=MIDYDNRIIKFKISIYEHNTFLIDLLLKKYEFYSREEWENFIALGNLNIDDKMQLENIAVKLNQGIILKFPNSYEPKVNKNYSIFYEDEFLLIINKPSNLPMHPTGRYHGNTLINLLKKKYDENLWIVNRLDRDTSGLCIIAKEKNVLTNLQEQFLWNKVKKKYNLIVIGEINNKEFTINKRLKDINSKTTNKKTIIDPYGKEAETYFEVVETNKFTIHEGNIKYQYPFTVLNAYPKQGRTHQIRVHISSVGYPILNDKIYSKNFCILNEQMYLKCTYMKFEHPKKGNVEFKIPDFEYTDLQF;locus_tag=LOCUS_00390;gene=rluC;EC_number=5.4.99.24;note=P57430 ribosomal large subunit pseudouridine synthase C (Buchnera aphidicola str. APS (Acyrthosiphon pisum)) [pid:32.4%25%2C q_cov:89.1%25%2C s_cov:87.9%25%2C Eval:2.1e-27],MGA_40
sequence1	MetaGeneAnnotator	CDS	43995	45626	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNNNNNNIDGQIIGGDFTAIKVRQKSKTNFEIGELLICEVENKKIIYRIFDLSFSSQISDQNLELISGLNLEKDIDHNIIENDLRNYITADLQALIVIEGDGKSHVCKVMPSMFNYIRRVCENDFDFFSKESHYDSIKFGNLRTGSKELNVPIYLDGKDVYSHHILITATTGKGKSNLVKNLLFDSLDKTFVSNLVLDPHNEYFGATSLGLKDHNMAKTYLKFYSNNKVNYNINANSLKINLKLIQPLHLRGVITLSDAQWEAIQLIYSNYKENWINEIYHEDSIRAFLLKSKIQEDTYKVIVRKFTNLFSCYYKNDKLYSKGIFSIGEIEGLSFISDIVNHIENNNTIIIDTSSVASAVEILIGSLVVSEIFSKYKSYKMLGELDNKPLVNIILEEAPRVIGNEALKKGSNIFDTIAREGRKFKVGLTAITQLPSLIPKTILANMNTKIIMGTENHGERQAIVDSAAHDLSKDGRSIASLDRGEAILSSNFAKFAIPIKIPFIDTIIKQSKEKIEKEKTNIYTNHKIDEVKKSFSGIDLD;locus_tag=LOCUS_00400;note=WP_048060840.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:36.9%25%2C q_cov:61.9%25%2C s_cov:94.4%25%2C Eval:1.7e-50%2C partial hit],MGA_41
sequence1	MetaGeneAnnotator	CDS	46192	48180	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTDPFTNKPLRNLHPLIKNKKFEYEPLIDERKLYDGEPFFHHGHLATTKDIGKTVVDHGAEKNMISAIENAAKQGARSIELTPNASGQAPGQGIESIGTEHRKQISDFTKLNKMCVTGVHVNPSQVGNLSGFNPQDKTFSEKYRNYQLSEIKKGIDFNSDIQGGGVVFHTNEFARHNWSELDNLGNDIEFVPQGQDKQNSDFIIVDKRTEQAQTVPQNYEFNDIDIKRSNDFKQPFEVKIEKKNWNELKKDFNQKELEKELNKKFQNEEKIIDPSFSQSILFNLKKNEINTINSQLEYTEFKLKQLSTQKNEFKKLHEANLQVETKLTKEENKRMKKIYPDLEFLGEISESEYYNYKLKEATVMLSDTEQKYGESHIQKKRIFEDINNVKSGEEFGFEKSVNSLVDLAKYAKKKTDENKNIEKPIFLAPENIFPDNGFGAHPQEMKKLIIAARQKFTNELLKSGKCKNYKEAFKKAKQHIRSTFDTQHMGMWFANMKDKPNETSKQKIKRFKKWYIDQVKDTSKEDMYGGMHIVDGFTGHTHVDLGQGIHPIKEAVKIISNNTEGFLALNSEAYEGGDMLEKVWDFFAMPMRAPKTGIEADAFAKSASMSTIDSAFAGIQMHNDAKIVKTNSTPTMYNSSKSHPQETDMNQIQNWDGLPLE;locus_tag=LOCUS_00410;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	48235	48675	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLENMLLEKNDIQLFSKEILNFIEEQKIGRISDLNKLIEADKKRYELDKDQHFIELSTSDKKYSIVFNLSYIITDCGVPFELKFNPELNYTITCLKSIYIFDGFNKFNVGGMPMVDESGNFFQSKEIPTIQIPAIKQELELFYQL;locus_tag=LOCUS_00420;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	48802	49374	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKKKVSKRSGRSSRKKAPAKRSSARVSKKAPARKAVSKSSKSRAKPPARKSSKPASPSNGYEVGALALRLGLGVYFLWVGLLLALNNGFQEFFSSVLASLNASPTLFQLAFIVHLVLGFCLILGLFTRYAGLLASIITLVALFTAWDGVTSLLTGAGIVYMIKNLVIIVAGFSLYKTGSKEMSVDYAL;locus_tag=LOCUS_00430;note=MGA_44
sequence1	MetaGeneAnnotator	CDS	49485	50267	.	+	0	ID=MGA_45;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867480.1;translation=MKEDDISWQGMLYDLVRQEEMDPWNIDIAKLCDKFVKNVLKLKETNLMVSGKIVYACALLLKIKSKYLLENGLKGLDNLFDNINGTNETYEEDDSEIDNTNKIRAKEIQKKLFPRTPQPRERRVSIYDLIDALGKTLEVKNKFMHKIIPKVKRVHIPLKKMDISLLIKDVYRKIRNNNDEKLNFSQLLPENEFATKKDKIFTFMPLLHLHNLRKIHLIQKKDQNNDFEVLHLRKGINAPEEEYEIFSEKQQKLKINVTNK;locus_tag=LOCUS_00440;note=WP_010867480.1 segregation/condensation protein A (Pyrococcus abyssi GE5) [pid:26.0%25%2C q_cov:84.2%25%2C s_cov:92.2%25%2C Eval:1.7e-11],MGA_45
sequence1	MetaGeneAnnotator	CDS	50313	51074	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILERILAFCNKIQKNEKSRNFVERIEKDLHTLIYGKGYSKIGAFEEKFISDNYGKHKMLDEFLTNKQTGNQYKKGEYITNRDFTMAEQHIIQYYPEYFKNAESINGVKQADIFLYGDLKLKVSDKFDFGDSISMHKSDGEIILTNEVETEDYITFPNSFLTENLNIVITGARNVSGKVCNPGFIQSTENIDIEITKPFSIEINTYKHEQELDLKGFEYDSLYRVYRPIGEKMVFEVIRLNSDSGKIKVRKSY;locus_tag=LOCUS_00450;note=MGA_46
sequence1	Barrnap:0.8	rRNA	51375	52807	.	+	.	ID=Barrnap_1;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00010;note=Barrnap_1
sequence1	Aragorn:1.2.38	tRNA	52857	52931	.	+	.	ID=Aragorn_1;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	Barrnap:0.8	rRNA	53102	55980	.	+	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	MetaGeneAnnotator	CDS	56114	57115	.	-	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MICLNMAKKLGVLILTILILGSMLITATNAIELELYKSKVLYGSDKKTLIDNLEIDVFPNEKISIETQVKNLFSRNSDIEFNTIDIVFSIPDLNLEQKRNFELENDQRKSFTLDLNIQSNTFEDKYNAELLITATDSLDTLHTDKINFVIKVEEYKHKISILSTKINNDIYFCQEPITIDVNLKNIGKYKEYNIRSELTINDLVLNKNINELDLHNIEKISFEFDKLNFDSNVVLKIYNEFDELFDQKEIFIEKSLCDINLNENQLKQTLDLQNNDIILTKYKTELLKADLEKINTDNYIESNNNIFVLKLLLFIMIFSLISLVSVIFIYGYF;locus_tag=LOCUS_00460;note=MGA_48
sequence1	MetaGeneAnnotator	CDS	57238	57543	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEALESIIKSIKRSPDANFLTTAGLITLIGFDAPPGGLLLTFLGVKQYISGFDGYKIASKYIKSCQKKNLEPNFNRVSKLVGFCEKLGYKYAVKEYYNNKA;locus_tag=LOCUS_00470;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	57569	58105	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKITGKESIGELIQKYPQIVPIIESFGLHCTSCSSSNWETLEQGAKGHGLENNVVEKLITSCNDYIENRTDKITLTQNAINKLKQLMQNESKNNHGLRIEVITGGCSGFKYDLSVEEKPKENDFVYDQENVKIFVAKDSYDVLKGSLIDYIDALQGAGFKVINPNSSKECGCGKSFA;locus_tag=LOCUS_00480;note=O32113 hypothetical protein (Bacillus subtilis subsp. subtilis str. 168) [pid:38.3%25%2C q_cov:60.1%25%2C s_cov:89.2%25%2C Eval:8.2e-20%2C partial hit],MGA_50
sequence1	MetaGeneAnnotator	CDS	58199	58681	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVLQNEIPSNSSNSTEIANTILSRIGLLPRKSGSTKNMNKVLLELYERSKLSNKMQQPHIALMSVEEMAIHAGITRQTFYEYLVRWIELNFIVKQNYVIVKNNTKKILNGYRLNGSNILNAFEKVKTTINENLNQTLNLTKKLQNEIKREKLIKHKHQ;locus_tag=LOCUS_00490;note=MGA_51
sequence1	MetaGeneAnnotator	CDS	58662	58862	.	-	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINEVNNNPYIPLVKSKKRITGIASSKKTNAINEELDLNKKTLPYLVNPKPKFDYTKGNIIDVYA;locus_tag=LOCUS_00500;note=MGA_52
sequence1	MetaGeneAnnotator	CDS	58898	60565	.	-	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMFDGIYVLFGSKEGKRLDSMNEDKLENFGLVFSQRENYDQLFNEYSTFLKECKRVKLKKNLTDSDVFNVFHLYSKIQPELLYMKHYTECQFLLDEHEIELNNLDFDFGRSILLRKLCVDEQSKLPRAFYIESYAQNYLYINLDEELKSMGDDLENVLTSKFEIENSLANLKRNKPSPIEKSVIFHQIQNVYENQAGIAQTYLEDSFSFIGEIESEDKNPFGLVWSLESILNSKLKNVVSDADLIKEEENIFHALNNFYENMRSSITEYKNFVLSFSSDYLDAQNLNKRLLDSNLLSILCRTFDYASENFLYAIVKNELYSKIDAEASNSMRYFAFNLSRIESTDSSEAQSGNNDIVESKSLNDRGIFVKINVPNHKYTGRIARVTDFDGFRTTVKYRSTNGVKKLYLYPNEVEVITTNVPGRDLRKSNINPDLDRGFKSKRLPSNDEIEFIKALKESKQISDNFFMSDIDLDDMNLDMTLFGKNGLLSNFNDFTDYLVSNVDNEKFKAEFLRRTKEFSKSIVDILKFEEPNISSNNVSSENLSSDTIIEIEAN;locus_tag=LOCUS_00510;note=MGA_53
sequence1	MetaGeneAnnotator	CDS	60715	61359	.	+	0	ID=MGA_54;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZN5;translation=MKYNKKVFLKEFIIRLKKQYPNTKCSLNYSNDYELLFATILSAQCTDERVNKVTEKLFKKYTSIIDFANVPIQELEIDIKSTGFFRSKAKSIKESAIKILEDFDGKVPNKMEELLKLRGVARKTANVVLGVYYNIAAGIVVDTHVSRISYRTGLTKNKNIPKIELDLCKIVPKNNWIIFSHLLIDFGREFCSAPNPKCNNCFVNDICPKKLDWR;locus_tag=LOCUS_00520;gene=nth;EC_number=4.2.99.18;note=B8DZN5 endonuclease III (Dictyoglomus turgidum DSM 6724) [pid:54.1%25%2C q_cov:95.8%25%2C s_cov:97.1%25%2C Eval:5.6e-54],MGA_54
sequence1	MetaGeneAnnotator	CDS	61424	61894	.	+	0	ID=MGA_55;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S0G8;translation=MAIQNGDRIGVEYTGTLEDGSVFDSSKNHKKPLVFEVGAGQVIKGFDNSVIGKEKGDKFEVTVSPEEGYGEYKEELKMEFPNENLPENAKEGDMVLLSDGKGQEFPSKILEIKEDKVKLDMNYPLAGKTLKFEILILEHQTKQETDESSEEKVSQE;locus_tag=LOCUS_00530;EC_number=5.2.1.8;note=Q2S0G8 peptidyl-prolyl cis-trans isomerase (Salinibacter ruber DSM 13855) [pid:40.7%25%2C q_cov:85.3%25%2C s_cov:82.6%25%2C Eval:2.0e-23],MGA_55
sequence1	MetaGeneAnnotator	CDS	61939	62661	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTTCKVISFEYQTSDIFVFKVKCNENVEYKPGQFFMLSISGITYDNKLKKDLCMPIKRAYSVSSIRNEKYIEFCVKKENEGTVSLALSKLKIGDTINITGPYGKFVLKENKKDIVLLAIGSGITPIMSMLRSIVKNKIYLNKKITLIYGNKEEITYKDEIIKLCKDKINLIFSLTKINKKVTNCQTIFNRITISTLEDLNIDYTNSNIYMCGKLEFIKNLKDSFKEKGISKENINFEIY;locus_tag=LOCUS_00540;note=WP_011964555.1 flavodoxin reductase (Flavobacterium psychrophilum JIP02/86) [pid:27.5%25%2C q_cov:94.2%25%2C s_cov:63.7%25%2C Eval:2.0e-16%2C partial hit],MGA_56
sequence1	MetaGeneAnnotator	CDS	62642	63082	.	-	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLMEINYQELKQVVENIKFEYYEHFSYNGLGYILFPCEYTEEERLNGDCPFFYINSDLADLDIYFANNFMDPKFNKPILLHEILEASLLNILDGDYSTSLNKAHEIANKFDDKYAREIFDDKTYEDYCSLKKKMDELSSNRSQN;locus_tag=LOCUS_00550;note=MGA_57
sequence1	MetaGeneAnnotator	CDS	63093	64175	.	-	0	ID=MGA_58;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q1WT29;translation=MILMDSFLIINSGSSSIKYEIFDMNLNSLYSGSIKKINSIFSKLKQYNIIACGYRVVHGGKFTKPIIIDNKVISYLESINDLAPLHNPKTISIIKILKKTFNKIKHIAVFDTAFHSTIPKQNYLYGIPYVFFSKYNIRKYGFHGISHKYLSDYGIKLLKKIKKPYSKIITCHLGSGSSICAIKNGKSYDTSLGFSPNDGLIMATRSGDIDPGIIFYMNKKLKYGINKIRDILNNKSGLLGLANSSKMEVLVNSKNQKSKLAIEMFVNHIVNYIGSYYASLGGCDAIIFSGGIGEVEYKVRQMIIKKLNHLGFMIDNNKNKQKLIDSNLISNNKSKPIFVMHTHEELEIAKNLLKFKTKGI;locus_tag=LOCUS_00560;gene=ackA;EC_number=2.7.2.1;note=Q1WT29 acetate kinase (Lactobacillus salivarius UCC118) [pid:37.4%25%2C q_cov:98.1%25%2C s_cov:99.0%25%2C Eval:8.0e-72],MGA_58
sequence1	MetaGeneAnnotator	CDS	64172	66427	.	-	0	ID=MGA_59;product=phosphoketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073372.1;translation=MKQSISNWIKEYCRLTDYISIAQIYLKDNVLLNKPLLKSHIKSRIVGHWGTCPGINYIYGSMNAIICKNDLNVLSVIGPGHGYPAVQANLFVEGSLGEFDNNYKINKKGFENLIKHFSWPYRFPSHVNPKTPGAILEGGELGYSLSTSFGSILDNPKLITMCIVGDGEAETGPLSAAWQSIKFINPKKDGAVLPIVHINGYKISNPTLFSSMSNDELKNYFSGLHYDPIIVEPEEKDESLFNAINSALIQIKQIQKTYSDGDKPKWPVLLLRTPKGWGGIKELNKIPVENSYKSHGVPINPNNSSQEFNALKLWLKSYKIEQLIKNNKIQSNISTYIPKNNYRMGMNTNANPSYKKLILPDLKKHIAVKKNHKYSSLKISAKFISDIFEKNKNNFRLFCPDELESNLLGDVLKKTKRVFVWPIDKKVNKNTSNDGRIMEILSEHTLQGWINGYVLTGRHGIFSSYEAFIEIVSSMADQFVKFLKLSSEVKFRKPIPSLNYLLTSLGWRQDHNGFSHQNPSFISNMIQRHLDFVNVYFPSCPSMTAYYLKKSLESKNKVNIIVAGKRDLIQFLSDDTVEEQVKNGALIWDEYSSKNYDIVLSSAGDYSTQEVIAAIKLLNKEIKELKIRYINVSDLKFLKSKKLNSYFGSTNPIIFNFHGYPELIKALIDDNNILSRININGYIEEGTTTTPFDMQVRNKTSRYHIAIQALELVNTINNSKKSKLILKYKKVLDEHKKYIIKYGCDMPNLDQ;locus_tag=LOCUS_00570;gene=xfp;EC_number=4.1.2.9,4.1.2.22;note=WP_011073372.1 phosphoketolase (Shewanella oneidensis MR-1) [pid:42.7%25%2C q_cov:98.4%25%2C s_cov:97.7%25%2C Eval:3.3e-175],MGA_59
sequence1	MetaGeneAnnotator	CDS	66517	67227	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGNSNLDGALRILCGDNSPEQFYEFSLKSMQLLFDGLVEKKPENLERQNEIFDGVFNSLKIGISQHFRSESIDYEKCLEFISENKSDIIKYGSEKISKKRHLSKFKFIVRTSLDQILPALNDIEIDTLVPIASGGFEPCAIIADYLDRNNRTYETLPVRYSRLSKLDKYVLAPHFLGDSKIKESIRDKNVLIVEDLLHTGESADKTLEFVMRFKPKDVFLSTCVILNEGELNFIH;locus_tag=LOCUS_00580;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	67255	67578	.	-	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878370.1;translation=MANIYITTGNEIPGAKKIQILGVVKGNTVRARNIGRDIMAGFKNIVGGEVKTYTDMATTAREEAYNRMVNQAIEMGANAIIGVRFSTSMIMQGASEMLAYGTAVRIN;locus_tag=LOCUS_00590;note=WP_010878370.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:57.3%25%2C q_cov:96.3%25%2C s_cov:95.4%25%2C Eval:1.9e-28],MGA_61
sequence1	MetaGeneAnnotator	CDS	67580	67771	.	-	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNSRTITGSIFMIIGLFLLIIGFFVWILVLYGLIIFLIGFFIFTNTKEDEIEKINYKKVKK;locus_tag=LOCUS_00600;note=MGA_62
sequence1	MetaGeneAnnotator	CDS	67832	68548	.	+	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHHEIFDRYKLGWDYSKKQTNGKNLYLFCESSHISEELQNSLKNEIFQCVNSHLFDTFFVEEPTEYKNSHSLHYASEKEAIDGMKNNMNWPRSRIQTFYRLSKLKNIDLLGCENLELTKLFFDSMKKINVILEKMGNGEKFVETYNDLIHQNKEFSQAHLEFERTGHYRSLFSLKYVLKKIKEKKISSAGILMGLEHIDHIKMILEANNIGHSVYFPGVDSNEETAKANWDFLINNN;locus_tag=LOCUS_00610;note=MGA_63
sequence1	MetaGeneAnnotator	CDS	68591	69061	.	+	0	ID=MGA_64;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546357.1;translation=MNGDIQIFIGSDHAGFEGKKKVISVLKDLQKNDKKLNFIDLGTDSKIKKVDYPKYAKLVGNKVNKNKNNYGILICGTGTGMNIAANKINGIRAAMGYDLYSAKMSRIDNNANVLCLRSRDFNLNRYTNIIKTFLKTQFSGIERHQKRIDLIHKLEK;locus_tag=LOCUS_00620;gene=rpiB;EC_number=5.3.1.6;note=WP_012546357.1 ribose 5-phosphate isomerase B (Thermodesulfovibrio yellowstonii DSM 11347) [pid:44.7%25%2C q_cov:97.4%25%2C s_cov:96.7%25%2C Eval:1.5e-26],MGA_64
sequence1	MetaGeneAnnotator	CDS	69058	70062	.	+	0	ID=MGA_65;product=glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCE2;translation=MRIAINGFGRIGRVFLRSLLSDKKNKNIKVIAINDRSEASILSHLFKYDSIHGKFNGTVSHTKNSIKVNGNNIQVLNEMDPSKLSWKKLNIDYVIECTGKFLTKELASKHIQAGAKKVILSAPPKDPKIKEVCYGINHKTIKKSDKIISNASCTTNCMAPIVKIIDDKLKINKAYMLTVHAMTNTQKIMDSSNKDPRRSRSAVNNLIPTSTGFTKAIVEIFPKLKGKIDGMAVRAPVIDGSLIDFVVNTKKSTNIEELNKLFLNASKSSMKEILEYSTEELVSTDIIGNSKSCVFDSKLTKVNGNFIKVTAWYDNECGYSNRIIDLIKYIDKLK;locus_tag=LOCUS_00630;gene=gapA;EC_number=1.2.1.-;note=Q8KCE2 glyceraldehyde-3-phosphate dehydrogenase (Chlorobium tepidum TLS) [pid:48.4%25%2C q_cov:96.4%25%2C s_cov:95.5%25%2C Eval:6.0e-87],MGA_65
sequence1	MetaGeneAnnotator	CDS	70059	71096	.	+	0	ID=MGA_66;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E2D3;translation=MKSILDIDIKNKIILLRSSLNVSIKNNKITNDFKLKKSIPTIKYLIKNKCKIIICGHIGRPDKDKNKYSCKIIKTRLEKLIGKKIQFCNNFKEIKTKLNKGNILLLENLRFNKGEINNNKDFSKKLSQLAEIFVQDSYETIHRKHASIIGIPKFIPTYAGLLLNEEYNIIKNSLQKIKKPYTLILGGGKSDKLDIIKYNKNKIDNILIGGGNANRLIDSKKKINHKIILPVDFIYDKENKRRDIGKESIELFCKLLKKSKTIIWCGPMGVFENKKFENGTKKIAQFISKLKSIKIIGGGESSNAIIKYKLQNKMTHVSTGGGATLELLKNKIPPGINAIIKSQKN;locus_tag=LOCUS_00640;gene=pgk;EC_number=2.7.2.3;note=B8E2D3 phosphoglycerate kinase (Dictyoglomus turgidum DSM 6724) [pid:36.5%25%2C q_cov:95.4%25%2C s_cov:95.5%25%2C Eval:5.4e-62],MGA_66
sequence1	MetaGeneAnnotator	CDS	71107	71718	.	-	0	ID=MGA_67;product=SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002720903.1;translation=MGIKYKMKNYILFIYKIWAKVYDNYIDKLFSFNRKKVIEFADIKKGQKVLEVGVGTGLNLPYYSNCTVYGIDFSKEMLNKAKLKKSNAKIILKKMDANSMDFKENSFDRAITTYVLRVSPNPKKILKELSRVCKPNSKLIVLDQFLIKNNLFLYLFQPIKILLGWGKEYYIKELIKNSNWKIIKIIPFGKMKNTKLIILKNDK;locus_tag=LOCUS_00650;gene=PmtA;EC_number=2.1.1.17;note=WP_002720903.1 SAM-dependent methyltransferase (Rhodobacter sphaeroides 2.4.1) [pid:28.7%25%2C q_cov:85.2%25%2C s_cov:88.2%25%2C Eval:4.1e-19],MGA_67
sequence1	MetaGeneAnnotator	CDS	71708	72403	.	-	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEIIQNSIRINILKKLMNYNYLTFTDLLGNEKSSLFNYHLKFLLDKDYIKKDEKRYELTDKGKDTCLFLDDNQLVKQPISVFLLIIHDNKKILRSRSLKEPFKEFWGASFFAKFKFGQSNKDIKNKIISRTGIKVNDYKFRGILNIKTIKNNNLIHHHILHIFETNSFKGELKSITDREHKWFDINDKECNIFPESKLISKEIFDHNNSFYYELERDFETGKINLIDNGN;locus_tag=LOCUS_00660;note=MGA_68
sequence1	MetaGeneAnnotator	CDS	72497	72871	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKEELLYKMIIPAAICAIISSYVINFDKTQSGMFNFAFDYPQEAYENFNTTLRKKIAIETHGGLLTKEKINQYYKKFLTSNQITIDESGYIIYNGKGKRIYFDQLEEILKTYKSNKEAKNDR;locus_tag=LOCUS_00670;note=MGA_69
sequence1	MetaGeneAnnotator	CDS	72861	73295	.	+	0	ID=MGA_70;product=DNA mismatch repair protein MutT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980328.1;translation=MTDDKIKNNISTQKPRLTSSVIVKYNNKYLLGQRNKANMKNKWVFPGGGVEFGETLTMAAIREVKEETGIDICNINLFKHKELINVPGNYHSIVFFFTAEAIGSAIYTKDDISEASFFTIDEIKKLDILPSVKDILTDRGVWQD;locus_tag=LOCUS_00680;note=WP_010980328.1 DNA mismatch repair protein MutT (Sulfolobus tokodaii str. 7) [pid:33.6%25%2C q_cov:80.6%25%2C s_cov:78.1%25%2C Eval:3.3e-13],MGA_70
sequence1	MetaGeneAnnotator	CDS	73292	73690	.	-	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAYFSLWFQSTVSSEGKYEYYGKSFLCSNKEFSQTNSCAFKNFSLSDDEISLVDYFRNLKKEYFDFKFTYINGYVELVRRDKRPTDLSLISDVGMIKDDNSCIEIIRPLSTSELMRFYKGLAEKRSLIED;locus_tag=LOCUS_00690;note=MGA_71
sequence1	MetaGeneAnnotator	CDS	73742	74452	.	-	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMIKNLQKKERYEIFSLFVNKNKLRFNEIEKQIKVRSNILAYHLDQMINDGLLIKIENEYQLTIDSEKYIPIFRHILNNSHTPLPVVLIVLLNNENQILLLKRNIRPYKNYWGLIGGKIKFEENYKDASIRLIKQKTNINGNFLSVNNISNEKVMFNDNVKHSFILFMTKMQTSTNEFIDSRYGELKWFNLDELNENEIIPSDLWLIKNKLNEKININDFEMNENDGNINNFKIN;locus_tag=LOCUS_00700;note=MGA_72
sequence1	MetaGeneAnnotator	CDS	74500	75246	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257299.1;translation=MYFIGIDLAWSPKNNSGVSIIDSNHSLTKYGVCKSDDEIIDFIFSTIKTDNCLIAIDAPLIVPNETGRRPCEAQISNLFRTYHAGAHPSNRNRFLQWSPVVRGEELVKKLESIGIVHDPYIELYEESRKCFEVFPHPSMVVLFNLEKILKYKSKPGRDHEFLCNEFQKYQMHLKKLEKSNPALYLPEELTNKDLSELKGKKLKEYEDILDSVFCGYIALYAWNNPNKCKVFGDMEKGYILTPISNHMR;locus_tag=LOCUS_00710;note=WP_012257299.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:39.4%25%2C q_cov:96.8%25%2C s_cov:91.4%25%2C Eval:7.9e-40],MGA_73
sequence1	MetaGeneAnnotator	CDS	75440	77059	.	+	0	ID=MGA_74;product=DEAD-box ATP-dependent RNA helicase CshA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P96614;translation=MSNTFESLNLDNQLMGAINRLGFKEPTQIQRDSIPLIFKNKDVIGESATGSGKTLAFGAGIIKNAEPGNGIQAIVLVPTRELAEQVKNEITKLAYKKPIKVLAIYGGVSINPQIDGLKKCEIIVATPGRLLDHMSQRTIDTTKVKTLVLDEADRMVEMGFIEDVERIIRACPKNRQTLLFSATMYGPAKEIAKKHMKNPETIHATKMVDPKKLQQTYYDTPSNMKKELLVHLLKKEESDLVIVFCNTRRATDMVGRVLKLNKIKSAPIHGGLTQVKRLKTIELFHKGKFQVLVCTDVAARGLHIEGVTHVYNYDVPNDPSDYVHRIGRTARAGKEGLIINIIAQRDYDNFSKLVSTHRDYKIKKEERPNLKENSDFINDTSSTPRSDNNRGNYGRSNDRSGGYGRSNDRSGGYGRSNDRSGSYGRSNDRSGNYGRSNDRSSSYGRSNDRSGSYGRSNDRSSSYGRSNDRSGGYERSNDRSDSYERSNRRPSNTNNNKGFNKYSRNSGSEKSYGDRTENKSKGKKNFSRKSNDKSRPRNK;locus_tag=LOCUS_00720;gene=cshA;EC_number=3.6.4.13;note=P96614 DEAD-box ATP-dependent RNA helicase CshA (Bacillus subtilis subsp. subtilis str. 168) [pid:41.5%25%2C q_cov:85.3%25%2C s_cov:99.8%25%2C Eval:1.2e-88],MGA_74
sequence1	MetaGeneAnnotator	CDS	77153	78148	.	+	0	ID=MGA_75;product=orotidine 5'-phosphate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7UIA4;translation=MISDDLLKKIDEKQSPCVVGLDPDISKFPEQFLRRTSDFSEIGTAITAFNYGIIDAIHDLVPAVKPQIAFYEQYGAPGILAFENTIAYAKSKGLIVITDAKRNDIGNTSKTYANGHLGKVETSQGMQKSFDADFLTVNPYMGMDSLEPFVDVCKEYHKGLFVLVKTSNKGSGDFQDRLVELTDEEAIVLCDLGFQNSNTLNKKTELYNLVGMKVNQVAQTFIGERGYSSIGAVIGATYPEQAEILRKIMPNNMFLVPGYGAQGGGAKDVIPCFNEDGYGAGINSSRGVLYAHLKHNSPKKFQEYSRQAVLEMNLDIKSALKDANKYPSTWD;locus_tag=LOCUS_00730;gene=pyrF;EC_number=4.1.1.23;note=Q7UIA4 orotidine 5'-phosphate decarboxylase (Rhodopirellula baltica SH 1) [pid:41.5%25%2C q_cov:90.3%25%2C s_cov:93.0%25%2C Eval:5.4e-56],MGA_75
sequence1	MetaGeneAnnotator	CDS	78150	78464	.	+	0	ID=MGA_76;product=nucleotide pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005808431.1;translation=MTLKDIQKEVDDWINQFKIGYWKPHEVLARLTEETGELAREINHIYGPKKKKSTEETKELSNEMADIIFTLCCLANSLDLDLDEAFKRVMDKCYDRDQNRYEKK;locus_tag=LOCUS_00740;note=WP_005808431.1 nucleotide pyrophosphohydrolase (Desulfitobacterium hafniense Y51) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:97.2%25%2C Eval:4.7e-27],MGA_76
sequence1	MetaGeneAnnotator	CDS	78586	78807	.	+	0	ID=MGA_77;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002355121.1;translation=MEGTVKFFNERKGFGFIKTEDGKEYFVHQSALQEGMVLSDNDVVQFDIEDGERGPKAVNVQKSESSNEDNTEE;locus_tag=LOCUS_00750;note=WP_002355121.1 cold-shock protein (Enterococcus faecalis V583) [pid:56.2%25%2C q_cov:84.9%25%2C s_cov:97.0%25%2C Eval:1.8e-13],MGA_77
sequence1	MetaGeneAnnotator	CDS	78867	79436	.	-	0	ID=MGA_78;product=SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001176066.1;translation=MNQFLKQFFKHIKCTGAIAPSSKHLSKFIVDLANLSNKKCIIELGSGTGVFTKEIVKQKNSKSTFFCLEINKEFVSITKKNCPGIIVYNSSADKINKYLLKHNEKYCDCIISGLPWAAFDNSLQINLLNSIYDSLSKNGVFLTFAYIQGSYLPSGMKFKQLLLKKFKSVEKSKIIWKNLPPAFVYICKK;locus_tag=LOCUS_00760;EC_number=2.1.1.-;note=WP_001176066.1 SAM-dependent methyltransferase (Bacillus cereus ATCC 14579) [pid:40.7%25%2C q_cov:98.4%25%2C s_cov:93.8%25%2C Eval:6.6e-34],MGA_78
sequence1	MetaGeneAnnotator	CDS	79460	80530	.	-	0	ID=MGA_79;product=dihydroorotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679913.1;translation=MNFIDGHVHFRDFEEEDKETIKNGLEVARDSGLVAVLDMPNNKPAVMSRVEIENKIRKAKDADVKEVLYRCFMGITSDLEQIKEAVYVCNKYEQVPGIKVYLGHSTGRLGITLEEEQRFLMKTLTNLDYRGLLVAHCEKEDHIHDHIWTPDNPISHCHARPEESEIASVEDLLSMVIEFNFKGRVHVAHISSPTAVDLVYNAKMAGMDITCGSCPHHWIYDWNRMNEPDGLYFKMNPPLRSPESQQGMFEYLRTEKIDMIETDHAPHKENEKNREGGIFMSGIPGLASWPIIVEYLRFNNFSEKLIEKLVFLNPAKLYNLDVNTRKVNYKDRRGDYPYDPYEPMAKQIGWDKRKYI;locus_tag=LOCUS_00770;note=WP_002679913.1 dihydroorotase (Treponema denticola ATCC 35405) [pid:37.4%25%2C q_cov:95.2%25%2C s_cov:93.0%25%2C Eval:2.2e-58],MGA_79
sequence1	MetaGeneAnnotator	CDS	80627	80989	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSEQIVEILNDNGWFIDSNNDSYRINKLYSLKPLKEQSHLVIPSLKISNPCQIKTYGCLKKLNEFRILFDEIKFNHNYTHIEFSYSINGNKEFAQINNTFIIELFKQGFENINTSPYHI;locus_tag=LOCUS_00780;note=MGA_80
sequence1	MetaGeneAnnotator	CDS	81022	81684	.	+	0	ID=MGA_81;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166585.1;translation=MRVKIIPTVFALNKKEFDTKFKKLYNITKELQIDFMDGKFVKNKSVDIKYVPNLKSYNKKYGLKCEAHLMIKNPIKLISKLNQIGFKKILIHFSAFKTEVELINCLNEIKKYKMIPALVINPNIKLNLIEKLIPKFKTIMLMGVYPGAEGQSFVSTNYLKIKKLRQKFPKLNIQIDGGVNLKTIKKIVDSGANILNSGSFISSSDNPKNSLNILKKLANS;locus_tag=LOCUS_00790;gene=rpe;EC_number=5.1.3.1;note=WP_011166585.1 ribulose-phosphate 3-epimerase (Mycoplasma mycoides subsp. mycoides SC str. PG1) [pid:29.3%25%2C q_cov:97.7%25%2C s_cov:98.6%25%2C Eval:1.3e-21],MGA_81
sequence1	MetaGeneAnnotator	CDS	81681	81869	.	-	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRYGGSGGIPVRGIYSIVSGIFLMLVGFFMYFTSFKNSRIMGFGFFIMGIAFTINGLLTLS;locus_tag=LOCUS_00800;note=MGA_82
sequence1	MetaGeneAnnotator	CDS	81875	82501	.	-	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKEELQIFTNNDGLYHMIRKRLNCLNNPVHMRVEGPIHVAGSSVSNYVKANASYFYKHKDFNGSRNAICIGFGLYLDFKKKKPTSKESWPGIKHEVLSELTDEEFLRLIPEDNRGYRLEGSLAYISGVMHEPVVFSDIQTGKIAMEPQGELKPFHKYPFSRLLIPSSFEKTFAQMDMDEYRTVANPDEIENNFIRQFVSWYKKNSLR;locus_tag=LOCUS_00810;note=MGA_83
sequence1	MetaGeneAnnotator	CDS	82546	83949	.	-	0	ID=MGA_84;product=mercuric reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011123134.1;translation=MIYDIIIIGAGSGGLNIAMFMIRIGFKVLLIDKTDKSIGGDCLNHGCVPSKALIHCAKLAHGAKESEHFGLKVSGKIDLKKVMNYIDDKKEYIRVHENASYFRKKGIDVALGEARFVSENEVEVSGKTFKGKKIVIATGSKPRKLNVPGIENVDVINNENVFSMKKLPQKMLFIGGGPISLEISQAFNRLGVECLVIIRGNKFLPKENIEISNILKNRLEKEGIKFLFNSNPMEFTSKNECIINNNGIKTKVSFDNVFVGIGRVLNYNNLDLDKANIKTHEKGIEVNEYLQTTNPNVFLCGDIAGSYQFTHAAELHAGVILSNFFKPGLFWKKLNNDNLNWVTFTQPEIATFGINEKEIKNRKLKYKKLSLDFKDDDRAIVDDYKDGKMLLYVDNKNNLLGGSVIAPNAGEMFQELVLAKANKLKINAFFNKIYSYPTSTRVNKKIIGNLMSEKLTPFIKGLLRFLY;locus_tag=LOCUS_00820;gene=merA;EC_number=1.16.1.1;note=WP_011123134.1 mercuric reductase (Rhodopirellula baltica SH 1) [pid:33.8%25%2C q_cov:99.4%25%2C s_cov:92.5%25%2C Eval:9.9e-76],MGA_84
sequence1	MetaGeneAnnotator	CDS	83964	85016	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKNKFILLFCIIVFGSFILNLFFNSSNDLINENKINGDSKLNNKFWDFNAINNSLNYDIKIDYNGIKYIIDPSKIKKGIAKPGDVKDIIPSIDNPKYQKINEVDWIGDDELVLAIHYKGKKKVYPLQILVWHEIVNDFIDGDPILITYCPLCGSGIAYHRVIDGNAVEFGTSGKLFNSNLVMYDRLTKSYWQQIDGNAIVGELTGFELKEINIDTVVWFDYKNNNDDAIVLTRDTGAQRNYGVDPYGSYYSDSFLIFDVENEDDRIHPKTPIWGVEINGVTKAYKESDVKEVGFIIDNIAGVDIKIEMNDDGTSNIINLNDNTKIVKERDFWFAWYAFNPETKLYNIE;locus_tag=LOCUS_00830;note=WP_012256451.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:36.7%25%2C q_cov:73.1%25%2C s_cov:65.6%25%2C Eval:2.7e-40%2C partial hit],MGA_85
sequence1	MetaGeneAnnotator	CDS	85017	85709	.	-	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSEILQLKFIGSFILGMLTPFGAVCVLPLYPGYLSYLATNLSKKKIVPHAIPKLGFLVALGIITFMSLFGLIFSTFLELSLSKIINIISPIAFTILFIISFLLVFNFDFSKLIPSFSGPIFSNPKLSAFFFGFFFGIIVLPCNPLFIALMFAKQSLVTDFLLNIIEFIFFGLGMSIPIIIFSILPQLKSKIVINGFVKYKNKINVVSGLIMMIISIYYLLFVFNILRLF;locus_tag=LOCUS_00840;note=MGA_86
sequence1	MetaGeneAnnotator	CDS	85703	86281	.	-	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGEINMMKLKQKLNLKVFILFIIFISLFLVACQNNEVDSKTDSLKQISSWQNYELIDLNTNENYKILELGNKPILVESFATWCPTCTKQQKEIKKLHDQLGDDIISVGLNTDPNEDDNIVLNHIKKNNFDWPFSIVPIEMTRELTAKFGNSILSTALAPLILICPDKSEHLLLGGFKSMIKINNLINEKC;locus_tag=LOCUS_00850;note=MGA_87
sequence1	MetaGeneAnnotator	CDS	86393	88039	.	-	0	ID=MGA_88;product=acetolactate synthase large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065098.1;translation=MKASDLFVKCLVNEEVEYIFSVPGEENLDLLESLRKTKIKIIINRHEQVSAFMAATYGRLTGKVGVCMATLGPGATNLITGIAHGQLGGMPMLSITGQKGVRDNLQANFQVLDIVNMFKPITKHSVQIVSPKNIPKEIRNAFKLSTSERQGATHIELPEDIAIENINGFIPQKKIQIRRPIAEKKSINFVVDEIKKAKNPIIIISSRAQRNRVRDSIKSFCNKTNIYAIHTQLGKGVLGDDHKNSLYTFGIHKKDYVNCVVDRSDLLIMVGYNTVEHPPSVWNKNRNKKIIHIDFVSSENDTYYDPIVEVIGDIAESISMISKQLGKYSHDGNYELKIKKKLNEILFMDGTKDNSFPIKPRKLIKDIRTVMGKKDIICLDNGIYKMWFSRHYPAYDIGTVLLDNTLATMGAGMPSALAAKLVNPKKKILAVCGDGGFMMNSQDLATAVKYKINIVVLILNDNAYGFIKWKQKNHGFSDFALDLNNPNFVKYAQSYGAKGFEIKSSAELIPTLKKAFLLNKPVIIDCKIDYSENFEIFTNELNDIKCNY;locus_tag=LOCUS_00860;note=WP_048065098.1 acetolactate synthase large subunit (Methanosarcina acetivorans C2A) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-167],MGA_88
sequence1	MetaGeneAnnotator	CDS	88043	89479	.	-	0	ID=MGA_89;product=aldehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010941769.1;translation=MINKIFVGGKWIKTKNSIDIVNPYNNKKISSVYIADKSILNTAIKSAVNVFEETKSLLTYQRSEALLFISNELNRRRNEIAKTLSKESGKPLKYAFGEVTRAASTFKVASEVINTQGGEVMPLDITPASGNRFGVIKRFPIGPIFGICPFNFPLNLVAHKVAPAIASGNPIIIKPASKVPLTALILADIFDKTKLPKETLQIIPCDRKTADEFISDERIKMISFTGSVPIGWDIKNRSGKKKVVLELGGDAAVYIDESADMDYAVKRCVIGAFAYSGQVCISIQRMFIHEKIYDEFILKFVKEVKKLIIGNPILENTDISSIIDSKNTKRILNWIDDARLNGSNIIYGGKFDKKNNTILPTIIENPSANCLIMKNEAFAPIVNVFKVKDGTVAIKKINASQFGLQAGIFTNSHELIMKAFDDLDVGGLVINDVPTFRVDNMPYGGVKDSGFGREGVKFAIDDMTEIKIMVINQNNVRK;locus_tag=LOCUS_00870;note=WP_010941769.1 aldehyde dehydrogenase (Geobacter sulfurreducens PCA) [pid:43.1%25%2C q_cov:98.1%25%2C s_cov:98.7%25%2C Eval:2.0e-108],MGA_89
sequence1	MetaGeneAnnotator	CDS	89613	90017	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVNKTNNLLDLVKLLEPDFKSPLYTEKLEEFFLFIGKESGIEIMYSVSYHRDVVREEGNFIGISVSSECVGTMCLNEYFLNFNLKRNVPYGQFNGLKFNLDIDIMSAKTYEETYELLTNVKQHIQDYFSSREL;locus_tag=LOCUS_00880;note=MGA_90
sequence1	MetaGeneAnnotator	CDS	90206	91150	.	-	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLTSKIKESYNKYKQLIPKENLRKLTFGFFLTTGLLSLNLASNYINNEKNSILKIIQKYKKSSNNLENLMSERGFFLDSLDYLKEKNKYALVIQGFNFPSGVKNNLKNNGYEVTYLFQPTLDEMKTEFNKLNKKIDDNDNFIFYVSGHGANFEQINFSGIFLKDKGQYGGDFLEPRDLKKMIKGIDAHREIYFIEACNSGIFIDITKGENELVLTSSKDDEDTVSILASELPLDRTLRHLVKFNLGNTSMGNIKAYARDILKYHVKRKEYSYHDQTPLIQHLGFVEEPEFDEQKARGKKKDLMKNMKIVSLKK;locus_tag=LOCUS_00890;note=MGA_91
sequence1	MetaGeneAnnotator	CDS	91190	91906	.	-	0	ID=MGA_92;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583301.1;translation=MSNLLNLNNIDAGYGEFDVLKNINMYLDKHEIVALIGPNGAGKSTILKSIFNISDIKSGKIFFEENDITNKQTYELLNLGISYVPQGRINFATLTVKDNLLIGAELIKDKKKVKDNLNYIYSLFSVLKTKRKHLAYSLSGGEQQMLALGRALMDNPKVLLLDEPSLGLSPKLVKETFETITKLAKTGLSILIVEQNAKQALRMADRTYLLENGQIALEGNKKLLNHPKIKTIYLGGQI;locus_tag=LOCUS_00900;note=WP_012583301.1 ABC transporter ATP-binding protein (Dictyoglomus turgidum DSM 6724) [pid:47.9%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:1.3e-57],MGA_92
sequence1	MetaGeneAnnotator	CDS	91899	92645	.	-	0	ID=MGA_93;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001185996.1;translation=MTLLKIHNLKKSFGGVKALNGCNFNIEKNKITALIGPNGCGKSTLFNVINKLEYQESGTITFLNYNISKIRPYLVSELGISRTFQYPTLFENLTIRDHIEMAMFNDDQKFFKSFFIKLFGLKKNNDKKIIEILNLVGLEKPLNTLGSDLSYGQRKLLDLAIAIAHPHKLIMLDEPVAGINPKLRQKIKEILIKLKEMGETIIVIEHDMNFIMDIADHVYVMESGQNLVEGKPKEIQNNKKVLEAYLGE;locus_tag=LOCUS_00910;gene=livG;note=WP_001185996.1 ABC transporter ATP-binding protein (Streptococcus mitis B6) [pid:37.1%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:8.7e-47],MGA_93
sequence1	MetaGeneAnnotator	CDS	92642	93628	.	-	0	ID=MGA_94;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948215.1;translation=MGTIQKNNIIETLKDSQKAFWLILFVIDIIFIFLCLQGILNEYFAHVLVVINIYLILSISLNLVMGFTGLLNLSHIALFGVGAYTSALMIMNGYSYLLSLLLAMLLPGVFAVLLMFATRKLKSDYLMLVTFGFSFLLYSIFISWTSLTRGPLGLNNIPKISFFDFTIYSTNQFLVFSTIMAIVSIIIIYNITKSSFGRLLQAVRDDEISLKLLGKNIELIKFKAMFISGLFAGLAGSLFAHYSQYIEPNSFWIVDLIFLLTVLIVGGLASNRGAVFGVIIIMILNESLRLLPIPSEILGPTRQIIYALILILILLYRPKGIFGRIDLK;locus_tag=LOCUS_00920;note=WP_011948215.1 branched-chain amino acid ABC transporter permease (Clostridium botulinum A str. ATCC 3502) [pid:33.6%25%2C q_cov:86.9%25%2C s_cov:88.9%25%2C Eval:9.8e-42],MGA_94
sequence1	MetaGeneAnnotator	CDS	93637	94518	.	-	0	ID=MGA_95;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011268693.1;translation=MSFPFMQLLFNSVVAGSIYALVAIGFSLIFQTNRFMHFAHGSAVVFSAYIAFHFFSLSNSLLIAIIATLILSSILGYLMHLLIYYPLQKKKSSSVILLIASFGILFLIDNGLLLYFGSGIKNINYFGPLRGMEFFGALITKPQLIIVLSSLLCLIFIYLLMTKTKLGRNLRAVADNNDLANIMGIESKKYMALSFIIGSVLASVAGVLIALEQTLSINMGTTYMIKGFTGAIIGGVNSVPASILGSYIVGLAENFGVWFLPSQFKEAISFILLFLFLLYKPNGLFGIDKSSRK;locus_tag=LOCUS_00930;note=WP_011268693.1 branched-chain amino acid ABC transporter permease (Pseudomonas syringae pv. syringae B728a) [pid:31.0%25%2C q_cov:96.9%25%2C s_cov:96.4%25%2C Eval:1.8e-39],MGA_95
sequence1	MetaGeneAnnotator	CDS	94540	95727	.	-	0	ID=MGA_96;product=branched chain amino acid ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004200893.1;translation=MAFVLLAGLFISGCSNNQAELSELSDADRASLVDGDNSDKGQGALNREIIFQIGAIQPLTGDGAAYGLPVQRVIDQAVLDLNAKWKEDGKKLQLKIYHEDGKCNGKEARTAAENLVNQKGVNIIYGGMCSGETLGIAPFTEENNVLLFSPLSSSPDITNSGDYVFRNYPSDTAQVATMIPFIVSKGVKTIAILSENTDYAQVLRAGYLKQLPELGVKIVADEIILSSAKDVRTEILKMKSAEPDAVILLPQTIPMTGVFAKQLYESNFDADTLFFSNEIVGLDQAVNEFGDFMKGYFTPEVAFLKENNEFSSKVIADTECDLGYYCASTYDGIFLLGDVLELCGDSDTDCLKKEFDALENWQGIMTTSTTFDENGDVAGDFVISQIIAGTKLRVN;locus_tag=LOCUS_00940;note=WP_004200893.1 branched chain amino acid ABC transporter substrate-binding protein (Burkholderia mallei ATCC 23344) [pid:25.4%25%2C q_cov:83.0%25%2C s_cov:86.3%25%2C Eval:1.4e-19],MGA_96
sequence1	MetaGeneAnnotator	CDS	95955	96881	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878297.1;translation=MKRKIIKLGSSTLVVSLPNHWAKKNELRQGDQINIIEGYNNELFVYNEKNKNDKNEFIIDLNKITKKNIKIILTHIYRLNYNKIKIENIKNKDIEEIKKITQNLLLGFEITSQNKSSCTIENIAEPNKEKYNILFRKTFLIVKEIQNIILDDIEKNKYNNLLTISNLKDQQDKFVFYCKRTMIIQSHSKTLFEWELLKNIMLISHSYYYLYEYLSKNKFENDKNFILHFKELINYFELFYEAYFNKKINNIDQINKLKDELHQKKTIELMNKGKNIVLYSYIRETFRLIQISTSPIQSILLSKTDFEY;locus_tag=LOCUS_00950;note=WP_010878297.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:20.9%25%2C q_cov:84.7%25%2C s_cov:81.8%25%2C Eval:2.9e-08],MGA_97
sequence1	MetaGeneAnnotator	CDS	96859	98334	.	-	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLEQKLDSFVEKLGFEKDGEFIQGNWKIIQPVKRFDGSKLVLKFQNRKDTAQIQYGNRDLSNSDLIYAGTLGGHGRSFANLVFNYLDKVENIPVIVEERVECTLNQLKLNKTEDIFDFIKDITNGINDLHNNVVTSDEKSGWIHADIKPENIGYVKGAYKLTDFEGSQLEDNAIGQIGDIHYRAPELFDENNVATKQCDFYSFGATLYHVITGRKLFEGEFFNEEEAKIKVNSLSEYWDDIIFKKIEHLNSHYSFLLKKLLCKKEKRVKDSKELIDVINKAHKMYESKKPINILKRWGKIGLAASFAIGTFIHNGSYELKLKKVEAKQEFERKKSTVYEFVDGDYGKNINQRLEIAKLKAYTNYFEGDKHMAITAYFNPRTVARSILDTNSKKYEDNKKNFETHIESTYFFVQYDLNPAFDRFIMYMAEETRKKSIENFEKIYEKEKVLKEMLEKRGKPKTMTFKGMEYTVYDKWGLGKSEQSPNIQNPF;locus_tag=LOCUS_00960;note=MGA_98
sequence1	MetaGeneAnnotator	CDS	98371	99021	.	-	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYTLIAPVGDNLKALFFGLKEFPTERVFLITPKSRNKDAHSLKKKLEYLTIETKIISISENIMEETFKVFAKICSTYDSDNILVNVASGDKYSTCAALSASYANGLKAFGIMNNKVMLMPIMKLSYYNELSENKLKLLKYLENEDYVSLQQLSKLSKLSISLLSYHINGNYKYKGLIDFRLVETKEESKNLYVKLSDMGRLLLKGYINRTCELKK;locus_tag=LOCUS_00970;note=MGA_99
sequence1	MetaGeneAnnotator	CDS	99128	99592	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRMYNIKKAFKNVNTLLIGTFSSLVIAFIMFYFTDFELIKINLGIVYATAHMSLEILISVLFGLNIGLLWTKLKYIGGVSKTTTGSTVIGSIMGILVSGCPVCSITLASYLGLASIIATFPLFGLELKIIGLLLLLYSTNDLSKNLYSCSIKK;locus_tag=LOCUS_00980;note=MGA_100
sequence1	MetaGeneAnnotator	CDS	99594	100625	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIIIIGGGFAGAKCAKDLQNKFNVILIDNKNYFEFTPSVLRVLVHPEHANKIESLHKNYLKKAEIIIENVKEIDKEYVYLKNKKIKFDYLIITSGSQYKLPFKQKNCIMNMRSHNLKKYNSKIKDSKKILIIGGGVVGVEIASEIVEKYNNKNITIVQNNNELMPRNNNKTKENIKTYLEKNNIKLIFNNKIIDSKNNTYYFNDGKKINTDLAFYCTGIKPNYDFMKKTFSKYINKNHFVDVNEYLQLKDHKNIFIGGDIANINEEKLAQNAEKHAEIICKNIINLEKNKLLKKYKSKKRIMVISLGEKIGIAEYKKYSLIGKIPAIMKKFIEYKTMKNYK;locus_tag=LOCUS_00990;note=WP_009895268.1 nitrate reductase subunit beta (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:21.2%25%2C q_cov:74.9%25%2C s_cov:65.9%25%2C Eval:1.7e-07%2C partial hit],MGA_101
sequence1	MetaGeneAnnotator	CDS	100626	101213	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIYYVTSKQQKVDSLQNRLNIDGTQLERIDFDFEEDHSLHVKEISKQKVIEAYRKYDLPVICLDAGFYIPALNKYPGSKVKDLMEKGNAWLLERMKKLKPQNRFCYWQHAISYMDELLDEPVVFCDRESGRIATEERGLDREWVWSNLAKLFVPIKTDRTLAELDRDEYYSLNRCDNNPYHVMFKEWYVQNRL;locus_tag=LOCUS_01000;note=MGA_102
sequence1	MetaGeneAnnotator	CDS	101270	101938	.	-	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKNLKFGLLIIIIISLILISIYTPVGDNFSIEKVNLLIKNSGSFGILIFIAIYILVTVLMLPGTPFTILAGALFGTFFGTLWVVIGATIGASIAFFIAKWLGHDFCHNLLKDKFTKLMSYNEQMEHKGLIVTLFLRFIPLFPFNGLNFGLGLTKLKFKDYFLGTLIGIIPGTTIFVYSGTLLTQDFDPLKILFVVVLIIILMSLVPIYNWHKKRKMKVL;locus_tag=LOCUS_01010;note=WP_010941968.1 TVP38/TMEM64 family protein (Geobacter sulfurreducens PCA) [pid:40.5%25%2C q_cov:73.0%25%2C s_cov:72.6%25%2C Eval:1.4e-26%2C partial hit],MGA_103
sequence1	MetaGeneAnnotator	CDS	101935	102606	.	-	0	ID=MGA_104;product=glycosyl transferase family 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460533.1;translation=MNELSIIIPSYNDGQNVIKLINQLNEKNIHCQITIVESANKDYFDKLNDYKNIKTIFGEKGRAKQLNKGAFLSTGNIFLFLHADSDISNIDLDVLKNMDKNTWGCFKLSFDSSKLYFRIIEFTSNIRAKILNLVFGDQAMFITKNLFNDVGGFNENLPFEDLNISLKLKKMMKNKIIDQKIITSSRRFYEHGIIYTHFVMFFIVLTYLIGFTNFSLKLYKLIK;locus_tag=LOCUS_01020;note=WP_011460533.1 glycosyl transferase family 2 (Desulfitobacterium hafniense Y51) [pid:33.2%25%2C q_cov:85.2%25%2C s_cov:84.1%25%2C Eval:3.1e-21],MGA_104
sequence1	MetaGeneAnnotator	CDS	102790	103626	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKTLYRDSRKYFYDNWNLTKDEVLIVFLFFITYIFLIKFLLLNSQSEIIPLISNLLIILFVLIYYTFFKNKNIFTFSLFFALIWTIFSVISPFTLENLVYSYFTMPFLLLVNCFFISGYYLLFKYKTYWKFVYAFLCMFVSIYIFDLIKFLFLKWFDIFSSNNLNSALLIYNPVNIFSNNFEIYLFLSLLLGLPCLMHAKWIKNYFESKPILTYYYIGLAFSLLLVFRNLLGLIILVKDQYLFSQLLFNEFTINLFGFNYLIIFSIFGMLNYFFNN;locus_tag=LOCUS_01030;note=MGA_105
sequence1	MetaGeneAnnotator	CDS	103668	104249	.	-	0	ID=MGA_106;product=superoxide dismutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YKQ3;translation=MFEVKNFNNLLGNVDGISDNQLEAHFGLYAGYVKKLNEITEKLQNVDKSLSNYSFGEFSELKRREAIAFNGVFLHEKYFENLGSSGNASEKLKQMINDSFGSWENFELDLKSSAVSTPGWVVLTLNKQTNKLHTYIMYEHHIGLPVDQEIILALDCWEHAFMIDYGTKKVNYLNAFLLNINWDIVNGRLDKLF;locus_tag=LOCUS_01040;EC_number=1.15.1.1;note=B5YKQ3 superoxide dismutase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:40.8%25%2C q_cov:97.4%25%2C s_cov:98.4%25%2C Eval:1.2e-33],MGA_106
sequence1	MetaGeneAnnotator	CDS	104350	104958	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKNISNKALMKFYKHFIKKSINQLYKSKGKNTRIFFDTCAILKLYNHYGSDILKSNKPHNMPEYIITNQVLEELENQKLSRRKNDKGRLLCPYELMNAVYSRIGEESLLVLPTFVKPEQLNQMKSVADELSNNKRISEADASLIIATRDVFEKGKNQFIISSDSDLLTLMYEQKKNRNIITAGIITPELYRLTSEANGFY;locus_tag=LOCUS_01050;note=MGA_107
sequence1	MetaGeneAnnotator	CDS	104945	105637	.	+	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFIKFPITYHLSFSKITDREDKVLPEKETEEFLEQKLIVQEKFDGTNIGISFQNGDLMVQNRGSYLCLDDLDRLDEYKGFTKWINQRKDSLKATLTSSEILFIEWMYWEHTVKYDSLPDLGIGLDIYKKKNDKFLNTSRVKKILSGKVFTPEILYKGKITPEIIEELLNQNSSYSNQPREGLILRQDSRNYNIQRAKIVSDKFQISSTHWKSVPKTANICKYNINFYDL;locus_tag=LOCUS_01060;note=MGA_108
sequence1	MetaGeneAnnotator	CDS	105708	107663	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWSKNILKTAILSFSLLTSEAKTCYDVEYLGKSKYKVIEFDEIVHRNEIRSKYGFKLYSLKNQICDNSNTETYTKKRKKKIPSVSKRSYSKQNTIGKISDSVHGMNTFLESIFGPQEQIQPIPKKVIRTQQRSPPVRKIGSMATSSPKKEKPIIYTQQTQTQLPQTNIDSILYSNKLNEYSQTKKTVYEGLQKKIESLDPQSKTKLINLVKTINQSNLNVYNEKINLDELLKTYAFFKLNLEYFGEIKKDKLNQLYREHKHIINESYTQASKEQFEKTGYKSNTLLFGNLIEIAINSNNLIRENYQFLESILKPVIDNLNNNTLSELFELDQNQIEISSLFNFANTYDNPETLLLKSDQKDKQEYKKSLEELLESQTGQKPNIKIEETPIIRTNSFDSKEKAIQTLDEKLLNPFRSLVEGKDETQMQIIASQTISPDNPYGRTIKTLIKNIGKTFSKSSDIENIENYYLNVLTQKLEDPQLKNYLEQKLRIKLNSQTIKQEYEVLKNTLTKTFKTIGENTLKQITDKFDGDKLKKKAKGNGIRGWFSTAEAFFNGGENYKPFIQINQIDYKDTNSGQLYGSMVTFEIQTNKGGNEFYLNCPIPLSPGFSDFIYAIKNILKKGKIPQMKFAKLVKKTKEIINLDDTKIANKQ;locus_tag=LOCUS_01070;note=MGA_109
sequence1	MetaGeneAnnotator	CDS	107694	107915	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHKFIHDRENCISCGACAAINGIKWKMNKEDGKADLIIENITNDEFELDMETAESCPVNVIHINDENKKKLI;locus_tag=LOCUS_01080;note=MGA_110
sequence1	MetaGeneAnnotator	CDS	107907	108173	.	-	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKHTSMGYGGKRIESKILKLGEGIDKLEVIMGQDQYLSLMKILSNSNKSSLIGERFHLSDFKGSNVSTESWDYGLLKLSYISKNLN;locus_tag=LOCUS_01090;note=MGA_111
sequence1	MetaGeneAnnotator	CDS	108365	108991	.	+	0	ID=MGA_112;product=N-glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496597.1;translation=MKELIQQVNQLKKTEIKNIIDKRMKEFSDLNKMSNEDWFSELCFCLTTANSSQKTGAKIQNELGFSGYYNLSLKELTIKLKELGHRFYNVRSQFIFEARKNKNIKEILSQFNDDFEKRDWLVNNVKGLGMKESSHFLRNTGHNNLAILDRHIIRALQENKLIPEFKTITKNIYLQSEKVLNKICDKTNLSQGELDLYLWYTKTGEVLK;locus_tag=LOCUS_01100;note=WP_064496597.1 N-glycosylase (Methanocaldococcus jannaschii DSM 2661) [pid:50.5%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:7.5e-56],MGA_112
sequence1	MetaGeneAnnotator	CDS	109026	109454	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METGSTSEQYKKKYKSSPLMNYLFFLSLGLFVNFAIYSIKIQNEISISHIKNDSKLELLLKEVEKEKFVSVLDNSYQMINSPLTSTSDINFQLKKAYLLCPRKEKTQLKEIIKDYMSEYDSKENTKKLHFFISDLKKKYDLN;locus_tag=LOCUS_01110;note=MGA_113
sequence1	MetaGeneAnnotator	CDS	109446	110468	.	-	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHSIRITTYLIILFFLAQLVGLIVIYNYVDISKSIETGTIEQFNTPVGENADLEENEAIYYIIGGIAIGTLLVFVIIYFKLFGFWKLWFFLAVAFCLSIAYGAFLYKSQNIFIGQWLPIILGIFTGAWKVYRPNFIIHNLTEIFLYGGLVQFFIGSINLWTAFAIMIIISIYDIIAVNHSKHMVHLANSQTESGVFAGVMIPYNNDETSFYKNFQMEKKLDAKVDNNIKSSMSIDENQEIIGKGAILGGGDIGFSLLFTGAILFANLQELISIRNAGELLVSFDIASKMLFLKVLIIPACAAIALYMLFIHSKPDKFYPAMPFVTAGCFIGYLLFTLLI;locus_tag=LOCUS_01120;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	110507	111196	.	-	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHNQENNNENIKILEDKKEMDELPKFEDPQKIKIVKDQANISNNGEIKINIKLDDLKKVIEENGELPKSNMMYEETGVKNVYDELKKKYDFLPDFENIDSEFEISILEVNKFFLKNVRRRLIEKTDFFQKIIECYISGEPSIQIASETEELSENDFKKMNEIFKILSYYEKYSLHISLLNDSDEDAKFVKELFDKWLLLKPDLIDICIKLKNSWVEKIKTIKKVNYFN;locus_tag=LOCUS_01130;note=MGA_115
sequence1	MetaGeneAnnotator	CDS	111269	111820	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQESKSEDFKPHEKDENVGELTVRNRGKVDMSKIYTDLHQLIVDLGYKCPSDGTPYIEENYFQEDAQDGKYIKYKWKGNKKHDDIYTSYIELSAEVQKLVDIEKVEDNKKIVSNQADIKIKIKAGIIEKLDKEEISGFWHNFFPSFKKNYTGDQYDLLEEEVFDALMKIHNLAKNLLNLSA;locus_tag=LOCUS_01140;note=MGA_116
sequence1	MetaGeneAnnotator	CDS	111851	113287	.	+	0	ID=MGA_117;product=2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5HYC2;translation=MKLALLILDGFGLPIKYSKYIKKLYENKLSCKLGAAENFVGLPKKVMGNSEIGHLNIGGGREFQHILLKINDTIKKKEFSKINEIQNIKKRLNQNKSNLHIIGMYSESGVHSHLNHLKELIKTFELYNIKLHIITDGRDTDKKSAKKYIDKINNIIKNKKIEFTSISGRFYAMDRDKRWERTKKFYNILFKKGNKLNTYSQIIKESYKKKLLDEFLIPTKLTQTKIEKNDEIIFFNFREDRMRQIVSSFQNKFKEFKTNKIKLNITTMYDYEDKIKFKSLFKKIELKNTLSQIISKNKLKQLKIAESEKYAHVTYFFNGGQEKKFKNENRIIIASPKVKTYDQSPKMSAKQITDHIIKNENKFDIIIANFANADMVGHTGNINATKQAVEYLDVCIKKIVKTLNKKTKILITADHGNCENMKGKWNKSHTLSKVPFILLNTNYKKIKSENASLKNIAPTILKLLNIKKSKEMNTKSLI;locus_tag=LOCUS_01150;gene=gpmI;EC_number=5.4.2.12;note=A5HYC2 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Clostridium botulinum A str. ATCC 3502) [pid:41.9%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:9.4e-98],MGA_117
sequence1	MetaGeneAnnotator	CDS	113284	113592	.	-	0	ID=MGA_118;product=stress response translation initiation inhibitor YciH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875652.1;translation=MEIDPITGLPKELGIIEEISKENLKVKVYMVKRKFGKKYTIIGGIADQGLDVRDITKKLKQKFATGGCFKGSKIELQGDHRSKMKTVLIELGFKSENIEIGS;locus_tag=LOCUS_01160;note=WP_010875652.1 stress response translation initiation inhibitor YciH (Methanothermobacter thermautotrophicus str. Delta H) [pid:50.0%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:6.0e-22],MGA_118
sequence1	MetaGeneAnnotator	CDS	113669	114118	.	-	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDIDDVNNYLNELIEDLNSLEDRHSLLETLIEFGQELKQFDNDKIIIENKVPGCISQVYICVNLIDGKFYFKGYSGSQIVKGYIYILINALNGLNYGNLINNTRDLIENFVQKSQINSNFTASRSDAFANIYAFMIKKAISLKDKVKN;locus_tag=LOCUS_01170;note=WP_011056932.1 hypothetical protein (Thermosynechococcus elongatus BP-1) [pid:29.5%25%2C q_cov:88.6%25%2C s_cov:65.0%25%2C Eval:5.6e-14%2C partial hit],MGA_119
sequence1	MetaGeneAnnotator	CDS	114158	115822	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMRRLKLINLLFIVLIFGLFTGCSNNYEGSFSQAIDVFYIINELGNNFESNQKISNQNVGGKIYQNQTWSGNIIVTEDLIIPKSINVYIKPGTNVQFHSYKGYKNNSLKKSIIVYGTLIADGNQSDMIKFTSNSEIQINGDWSQIKFENSNNNKLNYVILEFGNNVINLINSSANISNSIIRWNNNDGIKSDFSNVIIKNNMIYQNGNDCIHIKESKFSLIENNEIRECATNGLNLEYSNIIINNNLIRNNFNSQILVNNISSNLSNNSILGLNLNCKNSKLNLINNYFNNNITNCNKSILKNELGVGIKTLNFNFSKNDDYFLNYIPGNIVNDKYSYVYPDEDKSRKVEKKIGKNIGIINGIIFNYDTQTIFAVNDNNKLYELNNKNGRIINVWNYSGFDPLGMTYDGLYIWINDIHEKKLYKYTTNGKLIGKINITNKIKRVTGITNDEQFLILSEYNSPFLYRINQDGTFDSKLKLEDDVNGPIVYDRNYFWINCDGICKYDSDGYYVSKINSISEGLTDLALDDNYLWSSQINNFNNDDNKIFKIKILN;locus_tag=LOCUS_01180;note=MGA_120
sequence1	MetaGeneAnnotator	CDS	115950	118595	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFEYLFTPEGTNRFKINKSYLFAEFIPIYSEFGKEFDWKKSKKPRFVSGKTIFEQFPKSIDSIDKIIETVYEKLELQSNLLKYLKSEELFNQFKKQNLVNRNDGNQFISSLKKLFSRTSYVQNGLYSRASGILLLNRLPDVKEIDNKKRSKIDLLYLVPKELQVKVIQGEISDLESLTKHGINKKEIENEERKLNKFLSDNSNIVKEYVDFNQAYQILLKSGAIRTGQKQYTVLYGIQQILKDSDYLKSEDGKEQIKVQALVKLYKSKKSEIVKEIRRIKKTERREYQELKLSEKNKLKEPVIEKVNVELEYKLETEVEKVNVETENKPEYQVEPEVEEVSLETENKPEYQVETEVEEVNVETEIKPKYQVEQEVEEVSLEQKVEPELIPEVPQTLYLVDALSILEKKYKPKLISLERNVEHSIYDIGQLCDLSEEEIQNRISQKKEELSEYELLLEHFVSIDEIKKILKEQKICNEVEELSAMVNLIPMFLDGTKYCKLNGGSNLYKVSGLANLLNENKKQLLNGIQNYLAKKVVKKKVVKKKLKESDSDEEDVYEFEVDKELNEEFVNANIEAGFSIGGIRHNLLDKINGLELIIESKFGDPKKGDEIRTQLIELHQRLVFSVAKKYDHRGLDLEDVFQFGNIGLIEGMDKYNFEKTYKKQIERDQLKPENLNYDSYMKILKSLSEEELKLIPKISTYLISCIINKIKREILNNKSTIRVPIYIQEIKTKIDNMCNQFEFEYGRKPTDPEIIEETGLEQTDLNNVKKYLVGSTSLDGESEDKGSLIHSQEQSLFVLPEEKVESEELKNEIVKSMDVLSDREKYVVSLSFGLNGNEKFSLQKIGDKLGVTRERARQIEAKAIKRLCLGEVSKNLEEFYR;locus_tag=LOCUS_01190;note=P06224 RNA polymerase sigma factor SigA (Bacillus subtilis subsp. subtilis str. 168) [pid:31.9%25%2C q_cov:30.8%25%2C s_cov:64.2%25%2C Eval:9.5e-28%2C partial hit],MGA_121
sequence1	MetaGeneAnnotator	CDS	118597	118956	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFHVQINNEKFRVIEQESNQGYNLILAKDDLIVGSATLEYYPNIDSLYFNRLFVQDEFRGQGLASEILKRVINYSKKTQKKIHNELNPYGDLDLEQLTKFYTDHGFIEIKKGLLYFIP;locus_tag=LOCUS_01200;note=MGA_122
sequence1	MetaGeneAnnotator	CDS	119069	119401	.	+	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVNEFQEKIVTFCKEWEKYRNIKHTDQNTFNHLVEEVGELASQFVNRDKGRKEFNANKFDNAIADIFIHLVCLADLRNLNIEKLLNETIEKDSKRLSIPETQARNKMSK;locus_tag=LOCUS_01210;note=MGA_123
sequence1	MetaGeneAnnotator	CDS	119416	120156	.	-	0	ID=MGA_124;product=fructose-1%2C6-bisphosphatase/inositol-1-monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O33832;translation=MLDITIEAAKEAGKILMKHYGKIQIEFKGEYFDAASILTQADIDSEKKIVEILRKNFPSHNIFSEEEIQENKGSEYTWYIDPLDGTSNFSRNIPLFGISIGLVKGNQSILGVLYFPALNLLVKAEKGKGAFANGEKISVSNRQLKESLYYSGGYHKGKFQLEKSIGDKVGIVKIIDASSYEFAQIAMGDAELYILDNVLHDVAAGVIIVKEAGGRVTDSDGSEWTVESKDIVASNKVIHDDIIKLL;locus_tag=LOCUS_01220;gene=suhB;EC_number=3.1.3.11,3.1.3.25;note=O33832 fructose-1%2C6-bisphosphatase/inositol-1-monophosphatase (Thermotoga maritima MSB8) [pid:38.5%25%2C q_cov:99.6%25%2C s_cov:94.9%25%2C Eval:1.5e-38],MGA_124
sequence1	MetaGeneAnnotator	CDS	120326	120826	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEDTKNSAVLVIPQEENSDYFLTYLTPNHKIFAGRFRLPGGKLQSGENYESTLKRELQEEYGIFLANVVLHYQKPNVLGGTIYLCSAQKHGNPIPKESGVGPVLWMNAKQIFESNMVPNCKIAVCAYLLDKNPNSLKKLIPTIFEDKEFLKIITSEAKSLYEKIN;locus_tag=LOCUS_01230;note=MGA_125
sequence1	MetaGeneAnnotator	CDS	120943	121887	.	-	0	ID=MGA_126;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89UU4;translation=MIQKMKLTKSSVSQILEKYNVGEITSFSLIEKGERNSTYVILTNQGKFILKIYEECNIEKIMVEIQLLEKLSKANIPVPKIVKTVSNDYLLYLYQKGIAMFTFLDGKHIKNESANLKQIKSLGENLGIIHKNTMNFKPKNIELKNIYDYDNKWILNALVSIKKDMPELPNKYEKFVSNILENISIPKLVQGLNHGDFQEDNIMFMGNKVSGIIDFDDCFYGNLLSDVALFIGMWCIDKEIDFDKCKCFIQAYESKRKLTEKEKKYLYDQSKLFMLMHFTYWLWDEENWNDNIKPIKTLNNLQKITKEEFMQKIF;locus_tag=LOCUS_01240;gene=thrB;EC_number=2.7.1.39;note=Q89UU4 homoserine kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:25.9%25%2C q_cov:96.2%25%2C s_cov:92.0%25%2C Eval:9.0e-21],MGA_126
sequence1	MetaGeneAnnotator	CDS	122188	122784	.	+	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTIIFDFAGVIAKTKYFPQLALNLGKQFNIDPKVIEKQLYGNESEYLIGKESTENFWKNSCSKLGIPLDDFIHAFKTWYKLDLELLNFIKELKKHYQIILHSDNFEVVSSNLRENQKLKEVFEQMFFSDEIHMNKRNVEAFKHVICKIDKSPSDCIFTDDKEANLVAPAQIGIKTIKYENLEQFKKELASYSIKFN;locus_tag=LOCUS_01250;note=MGA_127
sequence1	MetaGeneAnnotator	CDS	122820	123548	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFEELGLSYNESRVFTRLTELGKSSASKIAAESGVPYGKIYTVLASLEHKGFVKVIPGKSKSYVINNPDRLKKIIDEKKEKIDSIEKEIDRLKTIYDTQEREPVTIHHGKKGWNTIISSVEKATKSDYCIKYHFSLDPKIIQGAMRIRKEKIKSKCMGQITEENKSNIKGWIKLKDKMKQIPNDGIALEIVDENRMWITLIKSNMTLIIRDKPFVKLFSFLYNYYYDSQELINIQDLKNIN;locus_tag=LOCUS_01260;note=WP_011023089.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:33.3%25%2C q_cov:49.2%25%2C s_cov:41.7%25%2C Eval:1.5e-08%2C partial hit],MGA_128
sequence1	MetaGeneAnnotator	CDS	123644	124315	.	+	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTEETIYILDMDGTIIDSAEALIHAQSEGLERLANQSKRKDEFLDELKSGKSLKNIVTDLTPNNVDSPINNFFNNFYQTPNVELAFQNGQYKLFEDFDEWNKQTSGKKILISNSTKTATQAKANLYDLNFDGVHGEFEEGKSKPSIYMGIKALAELTKKYPSLQLSKLKIINIGDNETDMEFGSNIREFFTNYEIENILVNRKGNTNSKYADRIIESFEEL;locus_tag=LOCUS_01270;note=MGA_129
sequence1	MetaGeneAnnotator	CDS	124315	125328	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELKLIIENKYDIKVNSIEQLNIKTYNKCYKIKSLDKEYFFKHLFNNETKNFKAKLIDQLKIMNFFKNKDIEIMLPIENNKNELLTEHNSEFYLLYEFQKIDNKNPDNWGEIAAKKLAEFHKIGFEFNEEVNTGTYQLNKSIPDITNLFHPNKDKRPSVISRLNDSEFSKRLEKDLPYLKELIIEISHYNHKAELGKKSILHYDLNESNILFSQGEFFSITDFDFSHVGHIETDLIKFARYASYCKKTNTINLNKFINYINIYRQRAKELNFEVIIDNRTFFTYLLFIPLRRLVYAAEQILKGTELEFLYDIDIEFLKNMKSIENEFMQIDFNKKN;locus_tag=LOCUS_01280;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	125355	126347	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQTKKAFYQVNEYLSLWKKALDDNVLNENLKQKVKNASPYTKILDLGTGSGTQIRRNIDENLIANNGLIIGVDVNYDGLLSSKHDYELWAKENDYELIFTKCDSAVLNFKVSKNDFSCLIKLYNVSVYDLKSYRSIGQNFDLVNALSLFEHTDIEKSIKVVKNLMNDGAYLYAPINYNGITQVRPLADDLSEQQDNNLMELFNEILINTQNVGGVDYGQSLCGDILPKIAKGLGFTIIGIEDSNWLITNKSSNYQKNAYEMFLNAIKTELISANNNEQLKIKQKLEINCELIESWYRSALKNFKSGVGTFFCTNKDILIQKKLGVFNDN;locus_tag=LOCUS_01290;note=MGA_131
sequence1	MetaGeneAnnotator	CDS	126337	127326	.	+	0	ID=MGA_132;product=hydroxyindole O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011118446.1;translation=MIIENTNDLCLMGDEYTKSQLLFTALDINIFEKLNNNKLTIDELSSELNLNSNAMGRFVNWFTKLNLLEQNGNTFYNSDFTNKYLVRSSPDNYVEWIIGSKVFQETLWPKLNQALKTGYDQYGTENQEMWDKFYSNKEELLEVMSGFDSLSRTVGRNIIKQYKFKHNSTIVDIGGGSGGLASEIKKQHPSLNCGVADREDTIDLAKKHFPYNINHYGVDFLKQDLPKADYMILSWIIHDWDDVSIKKILSNCHKNLNEGGKIMLIELLPEEDNSFGYWDIMDGHMLLSTSGKERTLDEYKQLMKVNGFEYLDKFSLNNDFRKVMVYEKK;locus_tag=LOCUS_01300;gene=hioM;EC_number=2.1.1.4;note=WP_011118446.1 hydroxyindole O-methyltransferase (Rhodopirellula baltica SH 1) [pid:28.0%25%2C q_cov:88.1%25%2C s_cov:88.5%25%2C Eval:1.9e-32],MGA_132
sequence1	MetaGeneAnnotator	CDS	127323	128174	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKWMIHRSEKPFLQEKEVYKSLNTIIKKQYPEMEFIDNGVLFSIHYKNTIIDFDYGYHDMEKRDFSEYNSVISTGMCAIFNPNLQPGTLFFAKESDFMNIDTNNKELKIKGPRVNKHNEMSLIFKKLISYESTHDTNDLKQTLYDLFGDEFVNLKQLNIHDDAKYVTANGLFKPSELGDYDIKREENNSESNVDNLKEYLEKSYDCLNCETYGLMKNPTVNNLMMFSFGLDKPYSVTELTDDIRAGKDFSKNLPTFNLGLTFYFKTLLLSSVLEDGGNNLK;locus_tag=LOCUS_01310;note=MGA_133
sequence1	MetaGeneAnnotator	CDS	128171	128854	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIILDGMPTVGKTTLGRRLKEELNSKLTDYKIFYFNDDIKNKYNIDIFKIVKDQDLDKFNLNGVTTYLNSIINQLSDIEKKEGKDCIFIIDRFHMSYLPYAKSKIEEFHEFEKSFNEFTFYGILGFDNLNPELLHDRLKGSLNLRKDHGFNSHFERITTDPKKGNTPKERLFTHYEFRNNLFKEFYNKTSLQNKLFIPVDNISLAHEYDDVFQLLYNKILRWTHE;locus_tag=LOCUS_01320;note=MGA_134
sequence1	MetaGeneAnnotator	CDS	128847	129257	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSWYFFSLITLLIWGVGSFLPKISTNYISPKSALMFEVIGTLILGLIVFFFNKESIDFNYIGSNVAIIAGFLGILGSFTFLLALKKGNANTTIAITSLYPLLAILLSSFFFKEALKINHIFGIVFSIIAIYLFSF;locus_tag=LOCUS_01330;note=MGA_135
sequence1	MetaGeneAnnotator	CDS	129384	130166	.	-	0	ID=MGA_136;product=SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962587.1;translation=MQQFIINYILMLFMIKKIILETFQSLLLTLQGSKYACPFCNHSHNKFLPTGFSYNILKEKKIIGGGYRNNAICPFCKSSDRERLVYLFLKSNDLLKLKPKMKLLHIAPEINLKNIIEKKNIKYHSADLHNPLAKIKMDIQNIGFPKNHFDAIICNHVLEHIIDDKKAMSELYRVLKPKGWAILQVPYSPIMKHSFEDLSITNSEERAEIFGQSDHVRIYGLDYPTRLKSVGFSVKKKKIDINLIKKFALNPNEIIFFCKK;locus_tag=LOCUS_01340;note=WP_011962587.1 SAM-dependent methyltransferase (Flavobacterium psychrophilum JIP02/86) [pid:45.2%25%2C q_cov:90.4%25%2C s_cov:88.8%25%2C Eval:1.8e-45],MGA_136
sequence1	MetaGeneAnnotator	CDS	130404	131123	.	+	0	ID=MGA_137;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023449.1;translation=MSQYDKFAKEYIAMRSNMFDQNMNAEFPEMLQLLGDIKSQKLLDLGCGFGDYVKIYSKKGAIVTAVDNSEKEIEHAQKLNIPNAKFIVSDISKKFPFKDSSFDIITSSLVFDHLEDLIYLFQECNRVLKNKGIMVFSVSNPVFYQEKSIVGKIKILGKKIIFGNYFERRKIVRKWGGTATMEHYHKPLEDYFSAFLENGFELLSFKEPQSKTEKITWHCKNPTFLVFKLKKSYIANKPK;locus_tag=LOCUS_01350;note=WP_011023449.1 class I SAM-dependent methyltransferase (Methanosarcina acetivorans C2A) [pid:31.5%25%2C q_cov:96.2%25%2C s_cov:97.1%25%2C Eval:5.7e-24],MGA_137
sequence1	MetaGeneAnnotator	CDS	131272	131499	.	-	0	ID=MGA_138;product=antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496745.1;translation=MWGIYMVQAVINIEKQTNMVLNIVKAKFGLKDKSQAINLVVKEYEEAFLDVQLKPEYKTKLKKIIKGKHFSRAEL;locus_tag=LOCUS_01360;note=WP_064496745.1 antitoxin (Methanocaldococcus jannaschii DSM 2661) [pid:41.3%25%2C q_cov:84.0%25%2C s_cov:77.8%25%2C Eval:5.8e-09],MGA_138
sequence1	MetaGeneAnnotator	CDS	131746	132294	.	-	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053782.1;translation=MQKVIGVIGPIAAGKDSVATYLQDKLKINSYQISSELKDLAKEKGIPITRKNLINLSRELVSTHGDDYLARRILNNNAEELLIIVGMRQVGQIDYLRANYSMALIGIDATPKARFERVKSRQKTGDPITFESFLEIERKDDGESVQKVSDCMKQVDYLIQNDGSTESLYLKVEEIISKEKLI;locus_tag=LOCUS_01370;note=WP_048053782.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:29.8%25%2C q_cov:96.2%25%2C s_cov:97.9%25%2C Eval:3.5e-13],MGA_139
sequence1	MetaGeneAnnotator	CDS	132559	133119	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGETTYIIIDNLEKRIYTGHNQDLNRVMSSLSKNPTSIEEFDQHQKETGSRLYDDGNRPKVPDKLPIETMRLVFGMEEGKFSPQEVEDHWKKTSFYEGPNYKSYKPNDRTKHDIPELTQEIIDEWKQEDPNAEEFLTANDYRRFLCNDGIVVADLRIKKLRYISYGAFKIPKNEYALPSEWEILIE;locus_tag=LOCUS_01380;note=MGA_140
sequence1	MetaGeneAnnotator	CDS	133207	133755	.	-	0	ID=MGA_141;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DYK8;translation=MIFSDVTIKEFIENGKIKILPTFDNKNIRPAGIRLHLGDELLVPVPNQIVDLSNSSDIKYEKIKINEEGYTLKPGEFVLGTTVESIHLSKDIVGKLDGRSTIARLGLLIHCSSDTIDGNHEHSRSITLELKNIGNFNLIIKPNIPIAMVVFHKLTEQIQQKNQTQYNNQTGVQPPNLSGQLQ;locus_tag=LOCUS_01390;gene=dcd;EC_number=3.5.4.13;note=B8DYK8 dCTP deaminase (Dictyoglomus turgidum DSM 6724) [pid:36.1%25%2C q_cov:94.0%25%2C s_cov:91.8%25%2C Eval:2.7e-21],MGA_141
sequence1	MetaGeneAnnotator	CDS	133867	134778	.	-	0	ID=MGA_142;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005648596.1;translation=MKKDIILEQNNIKSKIYTIRGLQIMLDEDLAKLFKIKTKVLNQSIKRNIDRFPQNYMFKLSENDINNLRSQFVTSAETPSSLKIWSSLGGRRYKPIVFTEHGVAMLAGILKSKIAIEISIQIINSFITMKNFIHNNAQIFQRLDNIEYKQIEYQIKTDNTFEKIFKAIEDKNIKPSKGIFFDGQIYDAYKFASDLIKSAKESIILIDNYIDENTLTLLSKKNKSVEIQILTKTISKQLKLDIKKFNDQYNNLEIKEFKLSHDRFLIIDKKEVYHIGASLKDIGNKWFAFSKFNKNVIEILNKI;locus_tag=LOCUS_01400;note=WP_005648596.1 DNA-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:35.3%25%2C q_cov:88.8%25%2C s_cov:86.6%25%2C Eval:1.1e-36],MGA_142
sequence1	MetaGeneAnnotator	CDS	134855	136639	.	-	0	ID=MGA_143;product=aspartate--tRNA(Asp/Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O32038;translation=MMRTHTNNELKKDNIKEEVKLCGWVQSRRDHGGVIFIDLRDKYGLTQIVFDPRHNKNTHAAAEKLRREWVVSVSGKVRDRKEGMVNPKLITGEIEIIVDDIEILNESLTPPFEVENNIETNEDIRHEYRYIDLRRPINQERLLVRHKILTSARAFLNKNNFLEIETPCLIKSTPEGAKDYIVPSSTHNGYAYSLPQSPQLYKQLLMAGGCDRYYQMARCFRDEDNRADRQPEFTQIDLEMSFVDQSDIIELGNNLYKEIFKACGKKLSGKIEIVSYSECMNKWGTDKPDMRFGLEFIDVSDIVNKSDFSVFNDAINNDGVVKCINVKGAAQQMSRKEIDKLIEFVISAGGKGLAWMKYIEGEFQSSVVKFFNEDVLNELKKSVDASNGDLILFIADKLKRTNNVLDQLRCKLGKDLKLYSDDEYRALWVVDYPLFEMTDEGKIEACHHPFSMPKAEDLKLLDKDPLKVTATLYDFVINGYEVHSGSIRIHDPKIQKKVFDIIGMSKEEVENKFGFLLKAFSYGAPPHGGFAAGVERLVMIICGSDNIKDVIAFPKNKNKENPMDHSPSLIEKAALVDLGLDLNNQTKAQLKKKG;locus_tag=LOCUS_01410;gene=aspS;EC_number=6.1.1.23;note=O32038 aspartate--tRNA(Asp/Asn) ligase (Bacillus subtilis subsp. subtilis str. 168) [pid:47.6%25%2C q_cov:98.5%25%2C s_cov:99.3%25%2C Eval:4.4e-156],MGA_143
sequence1	MetaGeneAnnotator	CDS	136656	139514	.	-	0	ID=MGA_144;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879908.1;translation=MNYETKWQKYWIKNKCFMPKIEKSKKTFFLTVPYPYANSILHIGHGRTFTMADIIARFHRAKGENVLYPMGFHVSGTPVLAVSDGICRNDSKEIEKVKESISDFVKDKNEQNKLINSFKDPKEIAKFFSSKIEDTFNSVGLSIDWSRQFTTGDKIYQKFIEWQFKHLHDLGVLVQGKYPILYSPNDKNAVGEDDIKDGDTDKVSIQEMNYILFKCEASDEHFVIATLRPDAIFGTTNLWLSTKIKLVKIKVNNQIWIVAKDALEKIEHQFDGVEVLEAVDAKKYIGKNVIVPIVNRSVIIAKADNIIDSRHGTGVVYSSPAGAPHDYIALVEAKKEGRVSNDLNVINTVITKDKKGNVIKYSGSCPAEDKCNKFKIKNSNDSDFLESAKQELYKEEHYGGVLNELCGEFNGIPIKFVKDKVSQKLSELNLGGIIYETSRRAITRAKNEIIVAVLDEQWFLDYSKPEVKQKAYDLLKNMEYLPSSLKNSQNGYLEWVKMRPCARKRGIGTPLPLDKEWVIESLSDSTIYQMFYLIVNNIIKNKIKSKQLTIEFFDYIFLDKGNLTLICESTKIDKKLILEIKKEINYWKAVDMRYTNPPHMSNHLSFLIYHYALIFPEVHHIKNITVAGLLIRDGKKISKSKGNGLPLIKVKDSFGVDLFRLYVAVGATYEAEMDFRDDELFQLKNKFEKLKELLLASVKNKSKQYSDFSQRNKWLISKFYSHAKSYFEFMDSMRIRDAHINILYDFLNDINYHERICGEKETIDVIRFILKDYLLLLCPVIPHYAEEINSKIDDSDICLSLQTFNFKNIDKYIKKDIEEVEAIIENLVKSISRAIENNKDKDFSKIILVQAQKSKFKLFDDLNELLNKTRDFKTILKSLNEKFPDDKKFISKFVPKTLGDGLDKYFDIKVEKKLIENVKSFLENEFKSTIVIVDSHEKRNNGLPSKPAIVLE;locus_tag=LOCUS_01420;EC_number=6.1.1.4;note=WP_010879908.1 leucine--tRNA ligase (Archaeoglobus fulgidus DSM 4304) [pid:34.1%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:6.4e-155],MGA_144
sequence1	MetaGeneAnnotator	CDS	139673	139942	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDPLTEYILKCRESYFADDLIKQKLINSGNKIEDIDLAFEKLKLSDDEHPLGINDEHTPHISSSKFNIIMTIVILIVLTLLAYFLYWI;locus_tag=LOCUS_01430;note=MGA_145
sequence1	MetaGeneAnnotator	CDS	139973	140191	.	-	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIEVRCKSCGKPVGRHWDAYVEKFEELKKEMDESEARKQALDFVGFERVCCRQVFMGHVDNMTLISEFKRH;locus_tag=LOCUS_01440;note=MGA_146
sequence1	MetaGeneAnnotator	CDS	140199	140594	.	-	0	ID=MGA_147;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250451.1;translation=MKNIQSSGKRKSAIAHATLKKGTGKIRINKVLIDNYEKPLMYKNKIMEPILLAENLVKNYDISIRCNGGGISGQSDAIRLAIARAFVEVDKNLKKVYLDYDRQLIIADIRRNEKSHPNRSKPRAKRQKSYR;locus_tag=LOCUS_01450;note=WP_011250451.1 30S ribosomal protein S9 (Thermococcus kodakarensis KOD1) [pid:49.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-28],MGA_147
sequence1	MetaGeneAnnotator	CDS	140591	141010	.	-	0	ID=MGA_148;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867656.1;translation=MIIVDVTNLIIGRFATKIAKMALNGEEVRIVNSQKCVITGDKKMVFAKYKRKIDMGKPEKGPFVPKQPDRLLKRMIRGMLPHKTSRGREALSRIKCFKGIPVELNGKETISIESASMDKSNSDKYVLLESICKHLGAKL;locus_tag=LOCUS_01460;note=WP_010867656.1 50S ribosomal protein L13 (Pyrococcus abyssi GE5) [pid:44.7%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:3.6e-30],MGA_148
sequence1	MetaGeneAnnotator	CDS	141015	141368	.	-	0	ID=MGA_149;product=50S ribosomal protein L18e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980141.1;translation=MAKKVLKKEIGTILLVDKLKKIGRTEKLYAVLAKYLSRPKQKQISINLHKLSRKTKENQTVVIPGKILSVGNVGHKLTVYVHKVSFTAMEKLTKAGCKVHSFEKLMDDKPKNTILIG;locus_tag=LOCUS_01470;note=WP_010980141.1 50S ribosomal protein L18e (Sulfolobus tokodaii str. 7) [pid:37.2%25%2C q_cov:80.3%25%2C s_cov:78.0%25%2C Eval:5.7e-12],MGA_149
sequence1	MetaGeneAnnotator	CDS	141385	142074	.	-	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRLIDNSKPLINVYLFKQIDISLCNAIRRTIIRSIPVLAVEDVEIYTNESAHYDETVAHRLGLIPLVTDVDVYDEIRVSEELGSAKNEVEFSLEVSGPCIVTSEDLKFKDPSIKPVSGKDPITLLKENQTLKATGKACVNNGNEHAKWAPAHVFYSYKPQWVDSTKQDGDCPIFGKNIDTQDTVIKENDDIVFTVESWGQIEPNVLLDKALDHINSQCNELLKEIKN;locus_tag=LOCUS_01480;note=WP_010867654.1 DNA-directed RNA polymerase subunit D (Pyrococcus abyssi GE5) [pid:39.0%25%2C q_cov:69.4%25%2C s_cov:59.5%25%2C Eval:7.3e-26%2C partial hit],MGA_150
sequence1	MetaGeneAnnotator	CDS	142076	142639	.	-	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEENNKTESKAEVKTEAKAEVKTEAKTETKTEKTEVKKEIKKEVKTDSKPNTFVKKRKEILWANCHIYSSHNNTIIHITDVTGTETISKASGGMVVKVHRLEPSPNAAMMAAKKVAEEAREKGINGLHVRIKAPGGHNGPSNPGPGAQAAIRSLSRMGFKIGTIVDLTPVPHDGCRKKGGRRGRRP;locus_tag=LOCUS_01490;note=WP_011250455.1 30S ribosomal protein S11 (Thermococcus kodakarensis KOD1) [pid:58.5%25%2C q_cov:65.8%25%2C s_cov:87.1%25%2C Eval:3.4e-35%2C partial hit],MGA_151
sequence1	MetaGeneAnnotator	CDS	142632	143282	.	-	0	ID=MGA_152;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869685.1;translation=MGDPKKRKKTYQKPKHPWNKDRISSEHDLVKEFGLKNKKELWKMQAKLSSFKRQAKQLVIDNSNQGELEKNNLMGKVKRLGLLSETQNLVDILALTVRDILQRRLQSIIVKSGLSRTMKQSRQFIVHRHVSVNEIKVDVPSFLVSVTDEEKISFSPRSNLSDENHPERKIEIVVEEVEETEKESKSKNDEAKVEIKTETVKADSEVKSVEEVVKNE;locus_tag=LOCUS_01500;note=WP_010869685.1 30S ribosomal protein S4 (Methanocaldococcus jannaschii DSM 2661) [pid:47.1%25%2C q_cov:77.8%25%2C s_cov:90.9%25%2C Eval:1.5e-41],MGA_152
sequence1	MetaGeneAnnotator	CDS	143289	143696	.	-	0	ID=MGA_153;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867651.1;translation=MNTDLKGEKALKISLMRIKGIGKNLANILCRVANLNPLMKAGALTDDQIKMIEGKIKTISDHIPTWLLNRQKDYETGENKHLVLGDINYIQGNDKTRLGRIRSYRGLRLAQKLPVRGQRTKCNFRKRKTVVIKKR;locus_tag=LOCUS_01510;note=WP_010867651.1 30S ribosomal protein S13 (Pyrococcus abyssi GE5) [pid:49.6%25%2C q_cov:97.8%25%2C s_cov:89.9%25%2C Eval:7.8e-30],MGA_153
sequence1	MetaGeneAnnotator	CDS	143927	144883	.	-	0	ID=MGA_154;product=magnesium and cobalt transport protein CorA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249460.1;translation=MIQIFVASKTSFHSYVNPRKIDLPKINERIWIVLKNPTAADFDKLKLYNIHKLTLEDLKSKRTKIKYEEFTTYTYFSQHGLTPTKEGYKEFPIHNVDGSRFLITVHYNNNDIIDGLILRPDLIKELLIKGVDYILHKLLDRLVDNFVIIKDKSFIVLENLEKQIFASSSQKNLMDLFEHERKILKVKQLASANEEICIKLTRTGVKDIRSDLLPYFKDIHDHISKVEESLEYILTQINNLRDNFMAITSNKINNIMKILTLFTVFLLPLTFVTSYFGMNINLPLSLSDNMLYANGIIIISFIVMLILMWSFFKKKDLI;locus_tag=LOCUS_01520;note=WP_011249460.1 magnesium and cobalt transport protein CorA (Thermococcus kodakarensis KOD1) [pid:24.6%25%2C q_cov:85.5%25%2C s_cov:83.4%25%2C Eval:4.6e-20],MGA_154
sequence1	MetaGeneAnnotator	CDS	145389	145745	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFFKFIERGKVRNLGEFFGVMILFIFFVILMFSGIYHYYSTDNSTLINSNQNLESNGLVNAFYFSGVTFLAIGYGDIVPIGGFIIISILEGILGSVIIFSFVAIGAASIFDIERKRI;locus_tag=LOCUS_01530;note=MGA_155
sequence1	MetaGeneAnnotator	CDS	145747	148119	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGIFLIFIVILLISFVNAEVLVNIKTYADDNFSDQKTVFKEGDFVYVSADNGVSCCESTIANLIYEGFPQINVDLYDNGDNFDDDEDDGFFRGRFQLGLNSNNPNNFYVNVADNKQLLIYIALTSLSTGNLNIETDYTKPTTVSLSGNLNDNNNIELNFDISTDNYGIDNYIIYRSNQVLNEQNKNNAEKFYTNANFYLDGNTVGGNTYYYGISAVDNTGNIGLISNIFEVLTEDDIAPNSVSNIYIETKKSGEIYLNWNNVSDNIGVEEYIIYKHTQPILDHDQVPEYIRTDKTNFSDINSNDGIIYYYAISAIDAFNNKGEIIESPYAIVDINPPETINDFSAEIKSGGNIDFKWSLVNDAKSYVLYYSPSSSNLFNGNKIVLNENQTSYTFNANQTNYYAIVGVDIVGNAADLSNNLYLIPDASGPNSITDLRIEVYENLLMKLLWTKSNSSDVSYYQIYRSNGGNFNLIDSTDKLYYKDEDIVNEKSYVYYIVGVDEVGNKGPISTNISAIAIDSQINLEITYPATGSTINKDITVVSGITEIGSEVEIINKVDGSTNIAFVDNSGNFLGHSNLYLGLNKIEVIARDKNKNFKNLSLLIRKKYDNSSIVNGSKSQLNNIIDEMNKKNIQLEDELSKQNSIVNKSNFLKLSDDQKNRMEYLIKGNLKYETDLIRIADGVSERLLDEFDLPFEQYELLRLEVLETITQLYSINNPQVRDKLQRIDEFFKLIDENKNNNLINFANNNTSFLFVMFVVLILVGILYYVKRDNKQKKLRDFHPKRFKLR;locus_tag=LOCUS_01540;note=MGA_156
sequence1	MetaGeneAnnotator	CDS	148140	148706	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIIFIKESYIKQNKLYKNMGIFKIISKLFFFITLVSFIIIGIIIYYGNGLQNASIDKFEINTLNDSSNNMIIETKIHINNPSKLSLNIKSLKYNISLKENNQVIGNSDIPEFTISKNNISKLRFETVINWMPSQEFMIENKDKEEILIVINGKTKINLFDLTEYEIPFSKEMDIKDSIDSKIKSIN;locus_tag=LOCUS_01550;note=MGA_157
sequence1	MetaGeneAnnotator	CDS	148739	149287	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNKNKIITIIVILGILLLINTYMYKIDEDKYIEIISKQQGTCFLENGDCLHGERSHFNLFFEILISLLLFIIAIYLYFYNEEELNIAKENAKTSKIIAEIKEKDVTNTAFEAFLSTFNSDEKKILKAIKENEGVQQSTLRFKTDMSKATLSLILKSLEERNYIKKEPYKKTNKIYLIKKF;locus_tag=LOCUS_01560;note=MGA_158
sequence1	MetaGeneAnnotator	CDS	149270	149734	.	-	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKQIKAKTEKNNKIILFISIFIFSFLLNFVWESLHGSTLYKDHNMLAIDYVKMVSYVSFMDGLLIILIYLIISICLKNINWIKKNNMFNYASFFLIGLIIAVIIEILNVYIYNRWSYNSNMITLFGIGISPLFQLAITGIISLLLIRNLKFFN;locus_tag=LOCUS_01570;note=MGA_159
sequence1	MetaGeneAnnotator	CDS	149901	150092	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKGVHCKSCKMLIEDVLSDINVKLISWKLNGNEATIQVDGNSSFEEIKKLIESEGDYKVEK;locus_tag=LOCUS_01580;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	150089	150994	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKLYSPDIECDSCIKVLTRAFNNLQGIENFHFNKNEIEVEFDESLITKDNIVSAIQNKGYRVFDDVFNKKSIKQRTKDFIINKSKYKVEYKMIKYIILSFVFLSIINLSILKYTNTFDTHLSWIFYLTISIAFLSGAMWHYKTYHTQFTCMLGMMIGMTIGMQTGMMIGAIIGITNGFFYGATIGMILGSLVGVYTGNCCGIMGVIEGLMAGIMGGTMGAMITVMMFYDNIYIFMPIYFILNLIILIGFSYMLYEEVVENNNNLTVKNINFSNYFSWTLALNIILILIIYIAPKSIYMG;locus_tag=LOCUS_01590;note=MGA_161
sequence1	MetaGeneAnnotator	CDS	150999	153149	.	+	0	ID=MGA_162;product=copper-translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001003185.1;translation=MKKIELKIEGMHCSSCVNIIERALNKNDGIIKATVNFATEKAMCEFDEKQLNVKKIIKLIKSKGYSAKIAGDKINDKKEINRLKFLLIISSIFAIPAFLIAMVLPWLGIKVMYEHIFVWILATPVQFFVGATFYKGSWQALKNKSANMDTLIALGTSAAYFYSVYLVLFTNSNQQYFETSAVLITFIVLGKFLEAIAKGKTSEAIKKLMEFGAKTATVIRNKKEIKIPVDQVVIGDIIIVKPGEKIPVDGKIISGYSTIDESMITGESIPVEKKLNDKVIGSTINKTGSFKFKAEHVGSETTLSQIIKLIENAQTQKAPIQRFADIVSAYFVPIVILISIITFLIWYFIINSGLTVALISSVAVLVIACPCALGLATPTAIMVGTGIGARKGILIKGAESLEQAEKIKYVVFDKTGTITQGKPKLTDIVSYDKRNQKTLLEIAASIENLSEHPLAEAIVNESKNKKIKLKKVSNFKAIPGYGIAASIGKNKYYFGNDKLMEKNKIKINKIKTDLNKLEDEGKTAMILSDNKKVIGIIAVADVIKETSKKAVNKLQKMGLKVYMITGDNQRTANAIGKVAGINNIFSQVLPEQKANHIKNLQKKGKVAMVGDGINDAPALAQSDIGIVMSSGTDVAMESGNIVLMKNDLMDVVKSIKLSRITMVKIRQNMFWALFYNCVGIPVAAMGLLNPMIAGAAMAFSSVSVLTNSLLLKMKKL;locus_tag=LOCUS_01600;EC_number=3.6.3.-;note=WP_001003185.1 copper-translocating P-type ATPase (Bacillus cereus ATCC 14579) [pid:51.0%25%2C q_cov:99.7%25%2C s_cov:90.7%25%2C Eval:1.9e-193],MGA_162
sequence1	MetaGeneAnnotator	CDS	153158	153553	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIIPFLVILFAFSVIGFNYNLFESSPSIKNENKFDLNNNIQNENEQVVIMKMVRGKYYFKPDTIKANIPVVIKNDGSLRGCGVFVKQPQLGLDMNFGMKNEYRFTPKKKGTFKFSCSMAMFDGELKII;locus_tag=LOCUS_01610;note=MGA_163
sequence1	MetaGeneAnnotator	CDS	153581	154312	.	-	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMIFNKLVKKYKANSLQIKRLKTEFEVIKLRIDFSFYMAKKNNLKLSDSLVKYTGADRLFKYLTKLNRNNLMSKLRRLRNKDSIFELLILNSKTVKDIFKKNKSKKCFWFTIYNGNIAILHFANNIIPKNPLKGDELLKRKKELKEIAKDIKKNYPQIIEIAGVSWIRNLEMYRKLLPKETKYSEYKKQIIYSMGCYGQFYTYDGGLNEKRVKQFRKNWKFPLKEIVGESSIKDFFKMYLSK;locus_tag=LOCUS_01620;note=MGA_164
sequence1	MetaGeneAnnotator	CDS	154344	155012	.	-	0	ID=MGA_165;product=endonuclease III domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022247.1;translation=MNLFEHYKKLLSKYGAQGWWPLIELHKNNINPTKTGSMNGYHPNDHSYPKNNKQIFEICLGAILTQNTSWTNVEKAVMNLNDLNVIDPYKIIDESEDKIKLAIKPSGYFNQKYKKIIEFCKFFIKLKENQIPTREELLELWGIGFETADSILLYAYRIPVFIVDTYTKRFLISLDLIQKDWDYNKIQELIENDLGKNIKDDQKVIIYQEFHALIVEYNKRIK;locus_tag=LOCUS_01630;note=WP_011022247.1 endonuclease III domain-containing protein (Methanosarcina acetivorans C2A) [pid:48.8%25%2C q_cov:96.4%25%2C s_cov:83.5%25%2C Eval:3.0e-53],MGA_165
sequence1	Aragorn:1.2.38	tRNA	155069	155143	.	-	.	ID=Aragorn_2;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	155229	155720	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKWTYLPEFVYGSIDGIITTFAIISGSLGANFSVSVILILGFANLFADGFSMGISNYLSEKSKIKKLKKNPFKTALATFLSFVIIGFIPLSAFLLSKFSGFFYLNQIILSIVFTAAALILVGYIKGILLNKNKFYSIMQILLLGIGASLIAYGIGYIAKLYI;locus_tag=LOCUS_01640;note=WP_010947293.1 membrane protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:49.4%25%2C q_cov:48.5%25%2C s_cov:31.2%25%2C Eval:3.7e-15%2C partial hit],MGA_166
sequence1	MetaGeneAnnotator	CDS	155751	156389	.	+	0	ID=MGA_167;product=LmbE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012061513.1;translation=MTILIFAAHPDDEVLGVGGTILKFKNNGEKVISIITSYGEFSHPWMKEKYTKDLRRKECLNVKKFLGVDETIFLGILEGKFNSELKKKEQKLLNIIKKEKIKKIFSHSPSDPHPDHNACYNFIHNVIKKNDLDVEFLCFDIWNPLIIKKRHMPKVYYDISKYMHKKNEAVNMYESQKHAMILMGLKPLMWIKAFLNGLKINKRFAEGFLKIK;locus_tag=LOCUS_01650;note=WP_012061513.1 LmbE family protein (Sinorhizobium medicae WSM419) [pid:26.9%25%2C q_cov:98.6%25%2C s_cov:93.9%25%2C Eval:2.9e-10],MGA_167
sequence1	MetaGeneAnnotator	CDS	156386	157540	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460346.1;translation=MKKLLIITDTYLPRYDGVGRFLSETLKKIHNFDIEIIAPDYRFGTNFKYEQKVTLFKPMNLSISDYHPVIPNLKILKKKIKEADLVFSHTLGLIGIFGSYYAKKHNKVLISFVHSVDWELISKALNTNNFIQKIVLKIIIFIAKWIYNKCNLILVPSKETENILVKQNINTPKRILHLGTNTNEFIPNKNIKKQKIKMKYDKNDFIIGYCGRISYEKDLLTLFEAYKDIKDSYPDHSIKLLIVGGGDKQLIEKIKQKDIFITGFVNNVIDYYQIMDIFVLPSLTETSSISTMEAMSCEIPVITTRVGFLNTYIKDGENGLHFKTKDKFELIEKLRLLIEDEKYRKKLSKNGRKTIVESYSWKETTSKLNRILNTIIQNIHEKAK;locus_tag=LOCUS_01660;note=WP_011460346.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:24.9%25%2C q_cov:95.8%25%2C s_cov:95.6%25%2C Eval:5.0e-19],MGA_168
sequence1	MetaGeneAnnotator	CDS	157533	158366	.	-	0	ID=MGA_169;product=phosphatidylserine decarboxylase proenzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9PP76;translation=MLRQLYSDLVFYFSIKHKNNLIFKILFSFIKLFNSNLNKVNLKKYMTLMDWFLRIDTKLNQSNKSGFYSPANGKIINCGSIRKNLIFYSSNKKINCSINQLLNSNDYSKYIDGEFCNIYLSPLNYHYFISPMEMEVKNIKYISGDIKTVSELKQNKDKSLFIKNERYIVKCKSKNFEFILIPIGAIGVSAIYLKCFKDSINNIVKRTILFKKLKQNFISKKVIDMFGSKVIKIKYNVFEKLGLFLFGSTIIILTQKNTIKFNKQLIGKKVNLGQKLI;locus_tag=LOCUS_01670;gene=psd;EC_number=4.1.1.65;note=Q9PP76 phosphatidylserine decarboxylase proenzyme (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:29.2%25%2C q_cov:96.0%25%2C s_cov:94.7%25%2C Eval:5.2e-22],MGA_169
sequence1	MetaGeneAnnotator	CDS	158440	158979	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNRLNDYLTNYKNQLKKGIAIVGSTLLLSYTLNYFFKDHLEIQNSESQIQFSNITHDCNILAFTKVEDDQLKVFFYHTDEFKFNSPYEPGKSINQFKRLEEEIDLKNQEYKFGILLYNTEKHRDLLTLNLNLKGIQMVFNPIKVGILGDDYKIVIDLKGVTKTEEETKGDYYKNNSI;locus_tag=LOCUS_01680;note=MGA_170
sequence1	MetaGeneAnnotator	CDS	158982	160172	.	-	0	ID=MGA_171;product=translation-associated GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978424.1;translation=MLIGIVGKPSTGKSTTFKALTRSNIEIANYPFTTIKPNHAMGYVKIKDAAGDFGKVSNPREGYVIDNWRFVPIELLDVAGLVPGAHEGQGMGNAFLEDLRQADCLIHVIDISGSVNEKGESVNTGEYDPEQDILFLEHELDMWYYQVLKKGWDKFARQAMQTKTQIHIAIAKQLSAFKVTEDIAEDTIRKLSLNNINAVDWNEDQLKKLATEFRHITKPMIIFCNKIDIDTSENNFNRLKDKFSNYIFVAGSSMAENALRDLSEQEKIKYIPGENKFEIIGELEDKDKQILDFIKNNLFTKWNSTGCQEVLNKATFELLKMIPIFPGSSKGLTDSQGRVMPDCFLMPPNSTALDFAYKLHTDFGKNFIKAIDVRKNLPIGKDHKLNFSDVIEIMAK;locus_tag=LOCUS_01690;gene=ychF;note=WP_010978424.1 translation-associated GTPase (Sulfolobus tokodaii str. 7) [pid:43.8%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:2.0e-90],MGA_171
sequence1	MetaGeneAnnotator	CDS	160220	160768	.	-	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFEDIINIGNTSSGAVLSEVYLDEFSDYRVSFYEIQKPVSFQCIEDLLKSIKQESFFIGLSLESDCEKNSYFSFSKYNLENGNFKEIIRLLNTNDLNLNYFSTRLHFSRTCDILPVDKIENNNKCFASFYLMKTKTGVSIYKGIIPKDQFSLFGLEKDVSDFIICEFKPESHYCMVYFDN;locus_tag=LOCUS_01700;note=MGA_172
sequence1	MetaGeneAnnotator	CDS	160832	164338	.	-	0	ID=MGA_173;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053701.1;translation=MTKINKLEMKGFKSFAKRSELIFGDNFNCVIGPNGSGKSNILDALCFVLGRSSAKGLRSEKSANLIYNGGKLKNPAKEGEVSIYLDNSNKLFPCETPEVKVSRIVKHNGTGVYKINDKKCTKVEVQNMLAYGKITSEGFNIILQGDIVKFIDMKLEDRRKIIEEVAGINVYEEKRQKTLNELNKVEERLKEADIILKEREGYLTELKTERDQALKYNELKKNIDFNHGAYLFKKIEGRKSKVDLIEKNILKNQEEINKFNEKILEIETDVKNKKNNINLINKEIEDKGEKEQVQLQKQIENIKVELATNNSRINSIDKELKRVEERKSQLDEQNQEMKSKMDIAQNEIEGLKKKKNTIEKELDIIKKSILKFRDKNKLNDDLDSVYGQIDKHDEEEEILQKEINLLRTQQQEITRRKDKYEILIESLSEKYEKLAIAKKENAKQLKDLENKRDEFKKITQELNILLNNDSNFVAQIKNARDNVNVYSEKAAKLQAKQNSLVQNAAGDNAINYVLDMKSKNPQIHGMVSELGEVNEEYSLALEICAGGRIKDIIVEEDKVASNIISELKSKQIGACRFLPLNKIKSKPIEASQQIFAKKDGAIDFAINLVKFDNRFKNAMSHVFSNTLIVKNLDVARKIGIGKIRMVTLDGDLIEASGAMIGGYRKKLKHGSGGFAKKELNDEIKKVEKQFSDSSSVLSLLESKRHDNMDKIDRLRSFKSELDGDIKSLEKRLNIDSDELGEYDVQKETLTKQVDEMDTENDQVITKISQINSQMAKIKIEKTSLKNKVAATRSPKVLAELNTFEDKKKELEQDLIKVDTQIQSLNSQIKNIMNLEDSQTIKIIKSMEKEIIDFKEEKIKLVEVNKKFDDDLKLKEKQAEKFYLQFKELFQKRSELESNVNELNLKITQLNLKLKDFDNFKNNSNIEKAKFNAELMGLESEFEPFKDNDYSNVQKDESVLKSEITRWENEIVKIGNVNLRALEMYDIVEKEFNELLDKIKQLQEEKESVLLMLNEIETVKKEIFMKTFDKINHNFKEIFLNLNSKGEAFLELENEEMPFEGGLSVKVRLSGNKFLDIKSLSGGEKTMTTLAFIFAIQEYDPHSFYILDEIDAALDKHNSETLAKYVESYSKKAQYIVISHNDAVISDANYLYGISMNEHGMSTITTLKI;locus_tag=LOCUS_01710;note=WP_048053701.1 chromosome segregation protein SMC (Thermococcus kodakarensis KOD1) [pid:29.4%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.1e-154],MGA_173
sequence1	MetaGeneAnnotator	CDS	164393	165661	.	-	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METVSLEGEIKLEFIRRLNFANPKLPLSIEHKKNSYVLKKIGDKTKSSPRYIKKAKGCLEKHSPNFVAFLEFDYQKYYFQRCNPGFQTLRENLKEGYFIPEDAIDLVQNLTNVLFNLYKSEKLINTNINLDNILIQKEDEDSEYLVIDNLEHFTSKHSKLEPISCEDYDGAFQAPELMEGIWSDKSMTYSLCSILKNMIDPDILKQDTKTGNILTNLLYYGTNENPYRRLSLEEFSQDLDHLSNEDSSFILNSYLAKRKHFNEIFDTKMSEVPVLDVAKYYVKFGFKMLSCDFLKGLGNNFLTGLKNGLKFPFNLGSIFKEDENKNPFYFPKTMFGSKIIGGILGLSPYGVGGYYFYKNHNFFTYESIGMWSLIVGTNLFYSMHRNHLKGVLENKINQELESEKDLHLSKNSFKNVLDFDKK;locus_tag=LOCUS_01720;note=MGA_174
sequence1	MetaGeneAnnotator	CDS	165759	165953	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYSQNKIYNSGKEPELNDFLALFGKTLIYGTITGIVLSGSIIGSKKVINEYLIKPTYSYMSKK;locus_tag=LOCUS_01730;note=MGA_175
sequence1	MetaGeneAnnotator	CDS	165989	166189	.	+	0	ID=MGA_176;product=30S ribosomal protein S17e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846873.1;translation=MGRIKTKLIKRISREILEKYKDQISTDFKETNHKLLSFAEVRSKKLKNIIAGYLVRLRKNMKDYEL;locus_tag=LOCUS_01740;note=WP_052846873.1 30S ribosomal protein S17e (Sulfolobus tokodaii str. 7) [pid:47.5%25%2C q_cov:89.4%25%2C s_cov:75.6%25%2C Eval:2.6e-09],MGA_176
sequence1	MetaGeneAnnotator	CDS	166224	166520	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEQQADNIIYVGAKRFMNYVTGVVMQFTNENNAEVIVMARGKHISKAVDIAQVAEKKFLNGQIHIENVKISSEEYENKEGKQVRVSTIAIILKRNTE;locus_tag=LOCUS_01750;note=MGA_177
sequence1	Aragorn:1.2.38	tRNA	166586	166661	.	+	.	ID=Aragorn_3;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	MetaGeneAnnotator	CDS	166861	167559	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLFKDVFSLKKFISKQTKGVEFIVKSARSYLNYLEETNQNSKEYLDKWREVLKYKRQYQDHYIPSDEDVMKNFEIIKSHDVLKILYLVLATSGIRLVEAIEFLKSYEQDKFTAHDGFVSYNISSIRGTKCTNNIYLPLWVYKQLKHITNSYQSLRMRVNKKGCIFPLKYLRKWHYNMMLFNGVPESVVDFIQGRTNNSISSRHYLGKVQQANYWFCKLLGSEIKVMNGFD;locus_tag=LOCUS_01760;note=WP_011249336.1 integrase (Thermococcus kodakarensis KOD1) [pid:28.7%25%2C q_cov:88.8%25%2C s_cov:72.1%25%2C Eval:8.3e-17%2C partial hit],MGA_178
sequence1	MetaGeneAnnotator	CDS	167502	168452	.	-	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSINDQIKKMKYAQQVLDYVAKNGHRGVTIREIEKKINTNRKQIERILKKLLLYQYIVINSVEKKYYHEQEADTIIKINEQSTRKVSHKLLLSNYRYKDIHMINLEDKTAYDDQIRIHGINETNIDLLNSKINKKQLFEKDTEDIKLSSLIKKTMLILNYKIKQTTYVNISELVKNQIKDKNNYPNLNNLFRNNIILLKKLIADINLYEFEIDSYFLYLETDESPLFNSANKFYYNHKISLTKEYVDKAKNDDHPKIIQKVFTKKKYSAEFRFFLHKISKKLNKNKTYLSNDYLLLAQSKPFITLISDPSNLQNQ;locus_tag=LOCUS_01770;note=MGA_179
sequence1	MetaGeneAnnotator	CDS	168526	168687	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRKIYSIIFPGQLIKETEKIRKMYGSSFSSLVRLALENYVKYFTGGKKNGQK;locus_tag=LOCUS_01780;note=MGA_180
sequence1	MetaGeneAnnotator	CDS	168674	169018	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNDTLDWQAFGKEFVKISSDEQIDMTLSNWQTITKDYQGKSTVYLDFDCMEENGLPCNKKYQTSSKRLARLFKPIIEEAKEKNETTIRVRLLKMGEGISSKFSLNRIYSGDN;locus_tag=LOCUS_01790;note=MGA_181
sequence1	MetaGeneAnnotator	CDS	169036	169479	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVVDTREQKPYSDKFNTSISFVFKTLSTGDYSIDGYENKFAIERKSKDDFISSITYDRNRFEKEVKRSKNLDFFAVLIDCDFADFANRNYYSQHVTPNQILGTLYAWSIKYNIHFHFVGSRTNGAYVVEKLAYNYLKYRGAESVN;locus_tag=LOCUS_01800;note=MGA_182
sequence1	MetaGeneAnnotator	CDS	169469	171559	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTEVNVSNTSNDSDNSNSFFNFYFKLRDSAFSLVNLQEKEFYEPAIIQLMYALLGLPLRKYPIVIGDEKYGTRMHCLIAIRSGNGKNSFIQAIKKFCDKFNYTYAPIASLHEEQLIGKLKINEKKETFESPGYFRFDFIVLNDSLLLLNEKKYEKIREYFIRGCDESFSNEIMKKQVDMADKIGLRYNPEFVCFLFVQDKLILKSNVDTGFVRKVPMLAIDPPTVDYDMLMSRTKKQDSNKSNFIYSLTGMIRNIGNIKWNFDEMDEIKKNITFLLKNKYIFGTPSGALTIDSNKATKGGGIGRFFESKDRELTENQIKILTYLKLHEGISNTSPMSEELELSENIIFSAFKTLKNLKHIRQLSNGLYVISGLKGEENIKLEKLKVFDNLKDYLIGSPDQIENKTSLINHLAEELKLSRSIIKFYFNQILTDKLIYRTEKQNYKLNTALQQNETKNKAVIEYILNNGKTKFISLKQRFQNFDMLVPSQNYGIEQTNLEKYLEEMCIANLIFKYNQEEYFICSKGEAKKECVNVLRSAFPQKLKNYNTLEKVFENSFLKNEYSFLEFESAVNHLVQNGELFYLYNGLYTGNKTLCSSDALTKNTNKIKKTHIQIDSKNLQFQALTKFPGLNQMLELVLARPNQTANFKELEFCYNQHKNKRGYTFDEAIRYLKGLEILKSIGMGNLTINPILVKNI;locus_tag=LOCUS_01810;note=MGA_183
sequence1	MetaGeneAnnotator	CDS	171642	172052	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFELEIRKYQKRLILKPNDNEMDFDILRSTHPKHTQKLDFSFLSNIILHERYSLLILPKKKIKPFKKMLIYLYNLDVEKEKKSHNRDGFQISYGIIKYTLGCEGLYQEGINFVPSNLRNAVFKQGIELLLTHKYP;locus_tag=LOCUS_01820;note=MGA_184
sequence1	MetaGeneAnnotator	CDS	172115	172705	.	-	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHLYAYFMRPEIKELHNQAPGIFTSITDENRDKKAEYLQACEDIGVIPGRRLNIHLGNNLHFSRVNMDPSSFVMSYELRSTLGDLTDDDGKKILSKGRPVISYSRIVLDRVDIREVREQLKQIPDLKYYEDIIYSLGHEQLLWAESVNDFFRGNIIPKVLDSGFKLEDHQFSKCGDNIFIGIPWSNYNPRDNLRK;locus_tag=LOCUS_01830;note=MGA_185
sequence1	MetaGeneAnnotator	CDS	172756	173511	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKHIFLILCGEDEHKRPRSLKLLRHIKELKLDESQYKIIVSGLSSFNLHPHMPEYLSLSRFLINHEINPNNIIVEKESLDTLGNMVFSHDIIVKLLKTNFQNKPITISLITENFHMSRSKELFLKIFKDIKHEFRVDFNYISANTFGLSSYYFHRKLNVLCQKFLRKNRLKEDIKDLYEKSASHFKRNLLDFFLMDVILTDIDFYRLHTIYEFKDYLFSLPVYNTKYNPIHRKNINFSLYAKLINLHIKK;locus_tag=LOCUS_01840;note=MGA_186
sequence1	MetaGeneAnnotator	CDS	173519	173911	.	-	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNDNKTSQLMIRIGLGIFFFIFGLLKLTQSDWFANNAYKMFYGTVFSTTLIMIIGILQVLIAISFFVNKYTKWSAWIASVFLLSTIIATMPKLLTTFQLPPAAAPPGFLFVAAIPLLFMALSQALKEE;locus_tag=LOCUS_01850;note=MGA_187
sequence1	MetaGeneAnnotator	CDS	174043	175377	.	+	0	ID=MGA_188;product=glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867693.1;translation=MTIKKKSISKSNKSKQIKSKENSLFDSAKINFLNAAKSLKLEQDVMNILSNPKEILQVNIPIKLHDGKIKIFKGFRVHYNDTLGPTKGGIRYHPNVSLNEVETLSFWMTFKCSVLNLPFGGAKGGIIVNPKELNPDELEKLSRGYIRAIYDFIGPDVDIPAPDVYTNPTIMGWMNDEYNKIARAHVPSMITGKPVHLMGSKGRDDATARGAYYIIKEYVKKWKKKPSEIKVAVQGFGNAGYHISRLLHNDGFKIVAVSDSKGGVFVKKGTLDPESLYNFKNKNKTLKAVYCKESICNIVKHEKITNEALLKLNVDILIPAALENQITKNNVNQIKAKLICEIANGPISHDAHEFLIKKKIEVIPDILANAGGVTVSYFEWLQNKSGDYWDLEKIHEELKTRILKSYNEVECAVKKYKVDMRSAAYIVGARRLSESIEARGSNHL;locus_tag=LOCUS_01860;note=WP_010867693.1 glutamate dehydrogenase (Pyrococcus abyssi GE5) [pid:47.5%25%2C q_cov:94.6%25%2C s_cov:98.6%25%2C Eval:3.1e-108],MGA_188
sequence1	MetaGeneAnnotator	CDS	175507	176280	.	+	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNNTFYERDLLIKRSPNFEEDHQYIVMGDKTYTSVTELCERFFEEFNADQIIGKFYKRWQSNRHHKYYEMSKTQIKEFWEKEKTNGAKRGSIFHSNIEDNFKEIESLEKPDPELWQGFLNFLEDHPGIKPQRLEWAIFDEDFKVAGSLDALMSYNGKLILLDWKQNKNITQQGFNGKKAKSPIQQLDHCDLTKYQIQINIYRHILESKYDIPISAQDIVWFNASHQRGYRKFETPRLETEIKSVLECNRIKNLEL;locus_tag=LOCUS_01870;note=MGA_189
sequence1	MetaGeneAnnotator	CDS	176293	176487	.	-	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLLIITLIIGIFFIAGCSSTESNVIENIETEGETDLTDESTIEEIDSVLVDENDEVEIGELI;locus_tag=LOCUS_01880;note=MGA_190
sequence1	MetaGeneAnnotator	CDS	176484	177575	.	-	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYTMMMMLLLVFSIAPAAIAEENTTEDNSLENTNIEVTNLEDVESTDNNLTDLNNVTIETISIENNETDQEIPEDDSVDEETENELRAMDGLRGREMRLLQLEKSISVSILKAQSIVDAVNELNISSQELELILNELSEIKNEVVSANISSEDSVQNFVDLKKDARELVQNFRKTVHEVIPKEDLKELKLMVEKVDKSELKELRDRIKEKRDEYNANKLSHFFGKLGLEKKELIQGIKEGKLNLKEARQEIKSRMGEMTKEEKRQAFSDIKKERVKAKLDVKSKFNKLKENIKERKQERKDRRVEKLDKDGKRGLKSKQVRNSKSVKPTKKVKSNVNDKRAISKSKTSDVKSNNRGGKNK;locus_tag=LOCUS_01890;note=MGA_191
sequence1	MetaGeneAnnotator	CDS	177669	178382	.	-	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRYMVIKKYIITLFILIFTFSLVSAIDYQADIIFDISETGLVEISGNSNHPLLQNHISQNYTSKKGEFWIINFSIDETFSEYIFELKFPQNTNINYIKIPNILNIDNSDNRIIITSTAQSAELKFLAQYSYSKTNEDNYSLVFLITLTILIIYLIYYIKYRKNKKNKYNTNALTDRQKQIFDLIIKNKGSVTQAYLQKVINIPKASLSRNIDSLIRKNIIIKESKGMTNLISLKK;locus_tag=LOCUS_01900;note=MGA_192
sequence1	MetaGeneAnnotator	CDS	178493	178879	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEPKVFEISDYLKNYNRLDYLNKFYALLKEKVLTEDPVQKTEEGLVQIIETRRFHSYGMELYNLNNSILVLEYSGMWTGYAHENKFPPELKDANISGLRLTIHNSNEELEKQIKETIKYFSKNYKK;locus_tag=LOCUS_01910;note=MGA_193
sequence1	MetaGeneAnnotator	CDS	178930	180078	.	+	0	ID=MGA_194;product=RNA-splicing ligase RtcB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72DS6;translation=MKIIKNFAINLDSKTREQFDNCCEETFVHKASLMPDAHYGYVAPIGSVLITIDHIVPSWVGYDIGCGMIACKFVKENIVNEINLNSKIIFDKVNVQIPMGKGKVRSNKSVSRKTQDEFDKILKQFKNGPYAKDVLNMIESKSLLHLGTLGSGNHFIELGFDSNNKNVLWLIIHSGSRGVGHTVATHYMKKAADKNKEFEKTFSLETNSLKGKEYLNVLNFGLEFALLNRLEMAYKVRNVLRNVLEDEKLDFELWVNKNHNHIAFENGEYIHRKGATPAKLKERGVIPANMRDGSFLVEGLGNEEFLNSSSHGAGRRLSRSQAKTEISMKDFEKSMKGIVGKIDHTTLDEAPEAYKNIYDVMEAQKESVKAIAQIKPIINWKG;locus_tag=LOCUS_01920;gene=rtcB;EC_number=6.5.1.-;note=Q72DS6 RNA-splicing ligase RtcB (Desulfovibrio vulgaris str. Hildenborough) [pid:35.4%25%2C q_cov:97.4%25%2C s_cov:83.2%25%2C Eval:2.4e-53],MGA_194
sequence1	MetaGeneAnnotator	CDS	180096	180659	.	-	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYTIIGSRSVGKTTISKLLAKKLNFQSYECDKLMDHVLKEEGGLDYCIKNNKKELIYSLGTKLIEDLLEKENAVLDVPGGSISSKTELGQKYSQIIRSILPQKSFVIGLLPYQNDNMSIEFLFEREKNREHFKDLNQNDLLEKTKIDYFKTKPHLIDVSNILIYVENKSKNEIIDQIVKKLSISNT;locus_tag=LOCUS_01930;note=MGA_195
sequence1	MetaGeneAnnotator	CDS	180656	181015	.	-	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFFNKYSKYSNSILRIGIGLVFLYFGLNQIFNSESFIGYLPNWVLLNGISNSLIILTGIFNLIVSISFLLGYKLRIFAILASLHLFFVIISIGYVDSAVRDFGILIATIVIGLNNKK;locus_tag=LOCUS_01940;note=MGA_196
sequence1	MetaGeneAnnotator	CDS	181008	181400	.	-	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIMFLIMSLSLLLIGCSSETIQVESNNKNLEFDLENAKELTMDASNWKFEASDVTINKGDSVRLIVNGKQGNHGLAIPELGIATGRIEEGGQQVIEFVAKKSGNYKYFCNVPCGHGHRDMKGFLKIE;locus_tag=LOCUS_01950;note=MGA_197
sequence1	MetaGeneAnnotator	CDS	181456	181971	.	-	0	ID=MGA_198;product=sulfurtransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011730499.1;translation=MNLLKPNDIANKSEFILIDVRSPAEFESEHISNSINIPLEYIEKINSVIENKNVVIICKSGMRSNMACQKLSKKDINILQGGIENWKKEYKTIVGTQKWDIQRQVRFVAGSFVLIGSLLTFLNKWFIIIPIFFGAGLTFSAITNSCTMGLLLSKLPYNKLNYNLEKEINKI;locus_tag=LOCUS_01960;note=WP_011730499.1 sulfurtransferase (Mycobacterium smegmatis str. MC2 155) [pid:41.2%25%2C q_cov:83.6%25%2C s_cov:76.9%25%2C Eval:5.4e-26],MGA_198
sequence1	MetaGeneAnnotator	CDS	182234	182956	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKKMKTIIKGEGKPIIGIIGALHGDEIIGVNVIEQLKDLKLNKGTIKYIIANQEAIIKNTRCIDQDLNRSFPGEKNGNNEQNLAYQIMDLIKDCDYIIDIHSTDSLIESFIVLTKDNKFIRDELENVLLNKVVIMGFKGKEKSLIEHSKFGFSLEFNKSVDENQVTEIVKNYLKYLNIIDGKSKTMSKEYYYVYEKLSNYNGKLNNFELVNVNGEEFYPILANEKNYEFNCFKAKKLN;locus_tag=LOCUS_01970;note=WP_011962397.1 succinylglutamate desuccinylase (Flavobacterium psychrophilum JIP02/86) [pid:31.4%25%2C q_cov:77.9%25%2C s_cov:62.5%25%2C Eval:1.8e-09%2C partial hit],MGA_199
sequence1	MetaGeneAnnotator	CDS	183108	183398	.	-	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKKKELSLLWPFYFGTMVTTLSNMIVPFMMLYFLNIGLTFFQISIIYAANSATIFLFELITGGFADEYSRKYSVLLGFFLSGSTAIIIYTPTFI;locus_tag=LOCUS_01980;note=MGA_200
sequence1	MetaGeneAnnotator	CDS	183552	184028	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDDFLYKAALKIALEQYFDIVCRKEMNIAKIYDKFKLDMSEAADMCFPEHNVEVNLWSKEKGYFLHDDVLVDDYDEYMENGTVPEGVPENFLKHYKDDYDTYHGYIHCDEEFYNNALKGCTEKVRPDLAELVNVGKFTRGKEIYRATLTANGYLNPK;locus_tag=LOCUS_01990;note=MGA_201
sequence1	MetaGeneAnnotator	CDS	184038	184196	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDLGNFMMKEYDGILSIDKRSNFIDISEIKKEMEKRKEEVYLTNMQLKSLN;locus_tag=LOCUS_02000;note=MGA_202
sequence1	Aragorn:1.2.38	tRNA	184306	184377	.	-	.	ID=Aragorn_4;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	MetaGeneAnnotator	CDS	184509	186158	.	+	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKPKRLALPSLYNLRSKTHQNKCPNLVTLVQGIYPTFDIQIENCCDSEYGEFSTEFDLLPIEKRHGSLHGLYLINGNIADSEILFSYKSKYYELDLKNGQLSETQKKADKIILQLEKVKDCYLNPRTKTRKLKVPFLKLKENPEETPLVLAYENGEEISYRSLHMKRSRVYTSEINLGNVKKSLDETTMGFFNREEEVIYEEDCKEHNLKSNNGYLKIKPEKVNLNEPSQIYNFLRQFVVGQDDALKTVSIGVSEFINRDADQYSPHNILIAGMSGSGKTHIINSLEKLLPNIPFFKTQASGKSAEGYIGSSFTEIFREIYDQTGESEPVAILLIDEICKVRAKDSSSMSESVSDILIGALDQNGKYSFGGETIYFKNMLFISAGAFMGQGSNDSLEAIIKKRKKKENKIGFNETKEKKNLDEREEPIVDDFIEYGMKPELMGRFPHFARTYCLNPEELMEILNKKNISPLEEKRKSLKKRGYTLSIEQKVLKILVENADKKTGARSLRNSINRAFKEILFEPKEFASKGKKITINETLIRKLLET;locus_tag=LOCUS_02010;note=B5YI39 ATP-dependent Clp protease ATP-binding subunit ClpX (Thermodesulfovibrio yellowstonii DSM 11347) [pid:30.8%25%2C q_cov:58.5%25%2C s_cov:82.6%25%2C Eval:1.4e-26%2C partial hit],MGA_203
sequence1	MetaGeneAnnotator	CDS	186147	187262	.	-	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVHLKETRIEMLDKLLPRNFKVYSRMPDTGVTSLFGSHSNYSQCFGKMTYNIFIASLKENDRPPICLLPCKIKGESDYKTLKTIISDHILNADSLDGLFYDKEKTQQIEFNKYLLASSYGDVGAFFGFDRLVKGKYFLTNALLDILKVISSTRTNKKLGLLLKKNDIYKVKIPSVYKPEDVFFHKDACDDVVDWLDVSNISYYDNFSFKHKGILIRENRDFHFVNVSDGTQLDVAKKYIESELIQQEYKSGIRPVLNGKKINLKSIIIASPFSIDGHIIDDDLSYLGGVEKTRTAQEARDQKMPEQEFLKTFYFSRLPFYLGCKQSPPINFLLSTEISPRIKLDKFPYLSEQRFFGIEQKHVYRPLAPSSF;locus_tag=LOCUS_02020;note=MGA_204
sequence1	MetaGeneAnnotator	CDS	187263	188288	.	-	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEHFLEKGPWTQLKHNLLKTVLSASLEGTLNSNFTYIDGFAGSNTFDDGAFGSPSIAMDTIIDYLNNNSRKKSLLVNSIFFELKEDMFLQLEGSIQKYLGINDRLKIILKNYDFYSGNQQASLMSCNGSGLIFIDPFGIRDYSTKPIEFCSTINSNFDVLINFPFYPMKRVVGQGTNSRFQGSRDRLETALELDYDKDNGKLFDSYINLLKLKYPSVNVIDLNRGDSQLYKLILCTKNLAPLIAFNDYKSGTQPSLLSAYFSNTINSKLSKNSGIQYRRLFIELLNENFGMISSSLIKNHITKLFESGSLCAKKSSNGHYTYTPKDFKVKELEYLQLVV;locus_tag=LOCUS_02030;note=MGA_205
sequence1	MetaGeneAnnotator	CDS	188435	190192	.	+	0	ID=MGA_206;product=helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001100021.1;translation=MKKIILETKLEKKPKELISQRQFSLNVIANKISVIEQVKKLIGMSEYKDKIQILKHQTDTALRVINNFPNRALLSDEVGLGKTIEAGMIIKEYIVRKYSKKILILTPASLAYQWQEEMRSKFNEYFHIPKDSEDYDHDKIIISIDTAKTDKHSQIIKGIYWDLLIIDEAHKLKNKETLNYKFVKTIQKERCLMLTATPLQNNIFELWALVDLLHPGFFQTLNKFQEKYVENEEGLQIKNPIELKQKLEKIMIRNLRRNVDIKFVERNINTHILDFSKEEMRFYTEAVSFIKKRYQEIKKIEKIEEEKQKEMSEEELKEMANKYRQKGLLTFRLIMLTRQITSSIQTAINALERYKEAVEDDKELIQLNYIIDMAKDIKKDTKLEALLKIVKKEKKKFIIFTSFVHTQKILQTELAINGFSTVIFNGKMNAKEKEVAIENFRNEKQVLICTDAGSEGRNLQFSNILINFDLPWNPMRVEQRIGRVHRIGQTLDVQIHNMAIKDTVESYILNRLYEKIKLFEVSVGEMDLILSQLKSKKNIENEIFESYIDEENKELNKDLMQAKTSAEDIKKLDGNIFDKNGLGHN;locus_tag=LOCUS_02040;note=WP_001100021.1 helicase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:37.9%25%2C q_cov:88.5%25%2C s_cov:87.1%25%2C Eval:4.6e-89],MGA_206
sequence1	MetaGeneAnnotator	CDS	190206	191336	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLKENKIEYEFKNKIYTVKFKKEDKQIYGTEIKCTFDKKTSEDNKINLIENGNFLLDNMIEKYNEKLFFSNLIVENQKEFIDDLDNKRNEIGKQNLSFSTEEKTEEFEYYLYEILLNSTSGREKIVKSLIYNKNICVDADGIEISHLKENKEVLEIKFQEEAGDELNNIIKNKITLFEKKHFEKINELSKIIVEHSEERYKELQQKEDKIRKDINKLREEIIRASTFNKKQTLTDKQKQLHKKLENLINKNKTKKAQLKKEHDFEQLALKSRDYSIHAKIIGVAKIKMPIFYTKYSDKSKYVYFPALNKIFNSKGQNVESEKEIIKKEKEIKREFKTPKVNYEKINQKLNKKVEFKKEITVEKKKISKPSMSNFI;locus_tag=LOCUS_02050;note=WP_011016450.1 exonuclease SbcC (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:23.6%25%2C q_cov:95.5%25%2C s_cov:39.8%25%2C Eval:6.0e-09%2C partial hit],MGA_207
sequence1	MetaGeneAnnotator	CDS	191333	192451	.	-	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAQINHTFAYISAIVLIAITAILLISGINIILNKSNDLEISKFSNNIIKDVSKHSKLFGAETDINYDVPNSIDKIYFIDTKRVTFLNCNISKYANIPFRIRQLIIKECFDKINHNERHTLFFSGVDYFDQLRAGNIFLSGETILILPVNKKLGLHFEGRGGKTEVNTIDSDQASYSIPRGTLSSDYTLSSKSNSIELILTAGNSINFASGLENIISLDSVISKYTSSWVGVKNNKRQKIIFKSDIFNLRPFDVNFLSNGKLKLKYNFDLDDSEHDRIKLFIDGLNEWKEVDSPIVFDEDKNIAEFEINKLGSYVIALISNEPPALASCENSDCVNKGGFCCENTKGIGNLLEEYSNIGISGKRCFEACLD;locus_tag=LOCUS_02060;note=MGA_208
sequence1	MetaGeneAnnotator	CDS	192542	195037	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIIIFEKLKKFIANDKADELQVKLNSSKKNIKKLKKSNSKRNNKIKNDKLLDGVDKERNKIEENNKLLNQKEIKINKLKESTQNYIQKEHEKLLHFKSRIFHKIDHLKSEQKIEVEKINSKYEIQKNKLNEKINELSKLGKEVNSKIKNKKSEYAIVINRLKQEVNKLEKELIIKRSLINQELKNTINKEKKAFEERKKVILKQINDEIKKKELVNSQTHTQIENLKKEKLAYKKEIDKLNVEKNTVSNIKEKIEEKNKEQKNLIVKINKSKSELFELNKRNQFIANVRETKTQELKKETSQFIEQKKEFDNKLNELNIAKKSNKSLCVEIELNLQKIEYAKKENDQLLNKISEDKNTILKKENNIEQKINESEKIMSKKIDGLKKLISRKENIEQDIYKKQKESVVFSDSLEIQKNKVIGLIQKAEEEKQKNVDILNRIERKEIVYHNLNDRIKQRETIIDIENKKIKQEREEIITLRKKINSYRGVILSLEGMNDKINKLNEVRQIKKNEINELNLIIAKDLGNINKIHEAIEDFKIQQKLMEEKAENFTKAEIQIKEKQFKIVEKEKQIRSFEKILMKKINAYDKLVNKIQMNKELKVNISLLNRNLRQLKSEYNSYEKKYDGLKDELLAKKMYLDDYNRNLQQKESKIIKQRELLNSENEIIEKQKMELEFKLKNINSFKFKQYIEEQLNNKVSEVEKENNKLNIQKEIESTNKIDNKLISEIDAKLKKIGSTTIIEENERLHPQSNNKIINKMTKNIDEKTLLKDLLKRVEMAKEFIGENEINNAQKAIQELKNQYSKAELNESEKNLIKNYIKELDLDIKLNAL;locus_tag=LOCUS_02070;note=WP_011948849.1 hypothetical protein (Clostridium botulinum A str. ATCC 3502) [pid:24.6%25%2C q_cov:75.2%25%2C s_cov:72.2%25%2C Eval:1.2e-27%2C partial hit],MGA_209
sequence1	MetaGeneAnnotator	CDS	195023	196804	.	-	0	ID=MGA_210;product=excinuclease ABC subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023256.1;translation=MNKLLENAPTNPGVYIFKNKSKKIIYIGKAKNIKNRISNYFQKNIENKKTKKLSNQIDSVDFIITNNEMEALILENNLINIHKPKYNIDLKDNIRHAYIQITKHEYPKLLISRKKNNKDIFFGPIPIGFSRNEVIKVIRTIFKIRNCNVLPKKVCLQYHINQCSGPCQNFISKSNYDLDVKNAIKFLKGDKDEVILDFENKMNEFSKIKNFEMAKLYRDRIYALKNISLDQIVQKTNKFDSDFINYYIAGELIYIVVMRMKKGIIIKKDNFHFDLIDGVLEHFLLDYYNKNEIPGFIYISKESKEFNINFKLYETLFSNKSKHKIKIVLPERGDNLKILNLVKENVLLNIQNKNIVLVELQKQLKLKSYPDIIDCFDISTLQGNFNVGACVRFIDTNPYKSAYRKFIIKSLKQGEQNDFQAIKEVISRRYSRLKNEQIHLNQIDENKRKQVLMPDLIIIDGGKQQLNMAILALNDLNLKIPIISLAKKEEEIYFPGIPIPLKFNKNLNFMKLITYTRDSVHNYVINFHRKKRNEQFTKSILSEISGLGQKTLFNLLNEFNDINTLKKTSILKINLIVKNKILSKKIFDYLKGI;locus_tag=LOCUS_02080;note=WP_011023256.1 excinuclease ABC subunit C (Methanosarcina acetivorans C2A) [pid:37.8%25%2C q_cov:90.1%25%2C s_cov:99.4%25%2C Eval:1.1e-101],MGA_210
sequence1	MetaGeneAnnotator	CDS	196880	198139	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAEQISQIYNKINGKIVNYDDSIKGLTNIAFRHFRDGKYKDSYSSFIAARQMSLENIVHDREKREITKFDIDYDSIHSLPIEFDSIDDEENTSLDTSKLYFLRGCLAFIEKDYKRAFRNFKIANNKNNNKNGQYDYLLNLETVNVLDKLYDLDIINEREYLENKVKSLKILNEINPNNIEHMYNLGITNIHLYTDEKGNILIKSEMPPDFYESLNLLVEAYESDTSNPLYFYDAYRMVAPSSRNISNDILDSFLGIYFEKNSTIIKHLIKDKQITRGIVSLLYSIGDEMAIEWGKSTKYQTKEISDSLLEKIKKIKESQFFQKSQILENWSVKNIPKMINLTYLEKIRVISNISIDILNKFRFFFTEEEYNNAMSSSKLFLETNMNALNQLSIVQEEQIEDTILEVWRSENPKSEDIN;locus_tag=LOCUS_02090;note=MGA_211
sequence1	MetaGeneAnnotator	CDS	198132	199226	.	-	0	ID=MGA_212;product=dual-specificity RNA methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74E53;translation=MNKINILDLDFEGLKSFLNSLKISQIHAKSIYYNIYKNNSLDFNINSNITNDKKNKDNNKLRNLMSKNDIEILKQNSNIGNLVENKSQVSKDGTIKKIFKTYDNQFIESVIIPHTKDKYTFCISSQIGCAMSCKFCVTGLHGLKRNLTAGEIIEQVLLLSKIVKPTAIVFMGQGEPINNYKNVKISIMNLKDHHGFNFSAKKITVSTSGLIPGLIKLQKETGIKMAYSLNATNQNDRTRIMDVNKIIDFESGLSLLKSYLTELNKNSKRNKLMIEYVMFDGFNDNDSNLEKLIAIAKDLKYVFINLIPYNEHEFAYADFELKKSEKCSYFFKKLMDNDIQAFIRYEHGSDIYAACGMLKHKLVN;locus_tag=LOCUS_02100;gene=rlmN;EC_number=2.1.1.192;note=Q74E53 dual-specificity RNA methyltransferase RlmN (Geobacter sulfurreducens PCA) [pid:34.3%25%2C q_cov:98.6%25%2C s_cov:92.8%25%2C Eval:1.5e-49],MGA_212
sequence1	MetaGeneAnnotator	CDS	199308	200585	.	+	0	ID=MGA_213;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948259.1;translation=MININFLRENIELVKKNIKNKFKEDKIILIDKALDLDSKKKKVMNENQKLRAERNNISKEISKLKKEKKDISQILKKAKDIPEKIKELTEKENNLDKKLKEVLIKIPNIMHKDVPIGKNESENVEIKKYLKPKKFNFDVKAHQEIADNLGLADFDSSSETSGSGFYYLEGDLALLNQALVRYTIEQMVKKDFTYVETPYLLRGDIISGVVDLHDQKNMIYKIDEEDLYLIGTSEHSLIGRFLKKDIDVKKLPIKQTSFSMCFRKEKGSHGLDERGLFRTHQFNKVEMVVICDPEDSMKYFKEMKKITNEIFNSIGIPTRDLAICSGDLGDLKHIQYDVEGWSPRRNDYIELGSCSNLTDAQSLLLDIRVKTGSKKYYPHILNNTAIATSRALVLIIENFQDKDGNVVIPKILVPYMFGKKIIKKI;locus_tag=LOCUS_02110;gene=serS;EC_number=6.1.1.11;note=WP_011948259.1 serine--tRNA ligase (Clostridium botulinum A str. ATCC 3502) [pid:42.4%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:2.1e-98],MGA_213
sequence1	MetaGeneAnnotator	CDS	200572	201300	.	-	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPLFVGVIIAFLYIFITHIFANAYIHNFKYETIRSINSFAIGISTSYLVLILIPETLITFDGKIANFSGIAPIVMLLMFTFQFIIHRVLAHQVKKKSIKERVLHLVTASVYHFFLGMLFLTFSKSLNYYELFLFFTPIFIHGAFSHLTRHNKNLLKNNVENNVLVKELKVFNIVAVLAGVFMGSIFNLEFIDISILIAIVAGNYIYSIFLENMVNKEVIKNRWLLGGQVFYILIYVLTRFF;locus_tag=LOCUS_02120;note=MGA_214
sequence1	MetaGeneAnnotator	CDS	201346	202239	.	-	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELDYASRVKLLIDLKKKPGFRFPGVGSEPIYEGRIVLTDSSTKHGQLELHYTGTLECENAMGEDFNEPYVFPKKEPHSNSKGKEFGFSTSDLLALKRIHERERASRFGLRDSSPFIEKQDSPFENERPSDRFSKKLFSFIDQQDSKLDEGSKSDYLSSLRDRYFPRITHFEGELLGDRFPSRRPFSLMDQHGSKFEEGSKPDYLFSLRENDCLKPTKFEEEFNIRNNRSFDPFTSELLPERRVSSELLEIKKYLEDYDYKPNPFSDLSFDNPFVFPKKEKPKRSYTLILHVEEEF;locus_tag=LOCUS_02130;note=MGA_215
sequence1	MetaGeneAnnotator	CDS	202334	202834	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLIIDERKVLAGCIILNKTCDEILLLYREDMGHYETPGGKVKLSDCLDPKNPLLIDCERAAEREIYEEIGPHLKMGKFCYFGMVPFQISESKKFYAHKFLTKILDGEPKIMEPETFQKLEYIPIAKLDDYPISPDLKLFKERLQTEDIKNMVHQLGFKTLQFQK;locus_tag=LOCUS_02140;note=MGA_216
sequence1	MetaGeneAnnotator	CDS	202843	203541	.	-	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCEELNSEELDRLEEYYQRTLYVKSEVLKNPQILTNVKNIFDYLAAAQNNTCDQMYNLVNPEIKCPKEVLFLGSGQIHRVYNIGSIPHPINSTNQLHIALKLRKIDTSYYICDDVDDEINDMMIEQISEYANVFCRQKLFLSSTNSRVEKGKEVLAPYFIGAIQYGEIGAMLMEDVSEGLSLELSAIDYKHFLRTNSDGSQSLYYLDPQETGEMDASHIKKYLSKEARFEI;locus_tag=LOCUS_02150;note=MGA_217
sequence1	MetaGeneAnnotator	CDS	203670	205436	.	+	0	ID=MGA_218;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868842.1;translation=MEQKVDYKLKFNEFFNEIIEWIKNNDFDKAKLAKRKIELSKKYKLKKIPSDIEIFLNSDEKDSKLLSCLQTKPIRSLSGVSVVAIMGKPIACSHGKCIMCPGGPKSKFGDVPMSYTGIEPATRRAIRNDYDSYLQTFNRLEQYIASGHHPQKIEMIIMGGTFPSFHPAYQNEFMYFAYKAMNDFGDLFMSEGKVNWKKYKDFFEMPGDFQEKDREERVKQKILDLKNKDANANELEKQKEINENGQVRLIGLTFETRPDFALEEHINDMLNFGVTRVELGVQTTKDDVLEYINRDHDSKSSKNSIALLKDAGFKINFHMMPGLPLTTKEEDINIFKQIFEEEEYKPDMLKIYPCTVIIGTLLYDLYTEGKFNPITTEEAAEIIAKAMKYVPKYTRIMRVQRDIPSTRITAGPSRTNLRQYVIEKQRKFNIKSNDIRAREPGHQKKDIVAFPRGENESKFEICVDEYNSSNGKEYFISYEDVNNELLYGFIRLRFFGNRCFREEIDPINDAIIRELHVYGDTLNIGIKGVQNKGDIQHIGIGKQLLKKAEEICIENNKKKLLVISGIGVKQYYKKQGYINDGPYVSKTL;locus_tag=LOCUS_02160;note=WP_010868842.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Pyrococcus abyssi GE5) [pid:41.7%25%2C q_cov:98.5%25%2C s_cov:96.4%25%2C Eval:9.3e-114],MGA_218
sequence1	MetaGeneAnnotator	CDS	205433	206389	.	+	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIINQIINIYLCEIKKIYDGFEDNTIINIILFEMANFNYKEKNFYFHLINSNDKYKEIKNQLILFNDKTKIMSHIYKEENGQLFEDLIKNKFSKQLIKKIKDHLRHIYFMFQTKHYNKINTLFETFKNELINNQEIKLNNLLSVHSSTYERKNFYEEFYNKINEFVNLNECESIMDLGCGFNPFSYTYFNLNNKKLYLNELNTNDLNILKRLSQVYKLKFNTNTKIIEKNIFEIEKFEKVDICFLLKILQTLEYTKRNFTKKLIENINAKYLIVSFSTQSLSGRKIYSNREWFEKIINKYKYETFEIFNEIIYIITK;locus_tag=LOCUS_02170;note=MGA_219
sequence1	MetaGeneAnnotator	CDS	206390	207028	.	-	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLTYRQYGNKKSKKVIFMLHGFGDDEESYVDLAENINSNYNYYCIRAPIPLYMGGYSWHYIPEGNDVISSEYDKVIDDITKSILDLNETIKEIIEMDLLVDKELILFGFSQGCFMCFSMMNSFNFSKIFGICGYAKKSDIIKIDNKIKIYYFFDEKDPVINKKLLGAETLFGDELYQELKNKNYDLEYIKTNSGHSIDQNSFNLIKKYMDY;locus_tag=LOCUS_02180;note=MGA_220
sequence1	MetaGeneAnnotator	CDS	207030	209039	.	-	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFLLLFLITFLCAFFSSAEESGITEELDPDLINELVNLESMLLNIKTSTNIDLIIEGDNPKLELLEINQSFIPLNSDFQEIKQFSLFPNNIETSFDDKSAIFKIKGIKKTNYQVGIDSVVKTNFIQPRIRSKIPFPFVVTNPDILKYTRETKNIDSNDESIKKKANELVKGEDDLFIVVSKIATWVEENIEYSLNSLTEKTTQKSSWVLKNGNGVCDELTSLFIAMLRSQGVPARYISGMAYTNFNDLNNWGPHAWAEVYFDKYGWVPFDITYHEFGFLDATHIKFKESVDSSESTSNFKWLNNNVELKIDPMTIQVDSSDKGNIVIDGVSVTANAMEQNVGLNSYNLIEVDVKNNDNFYRTYDVYLTYSDILNLTDGNHRAVILKPLEQKKVYFMIKTQSGLDEDYIYKIPLVVYTQLNDKAEILITAKSSFSNIEKSKVIDRISSNSVETSNNGKLELYCYSQKYDYKDSDDIKINCDISSKLESPVLTFCTENNCKSILYPENKLQEKTFNFENSNPGRKQINFFIKNNGDISKDTVYLNIGESPKLYVKEKVNYDLNNNLITFQINKLSENNPKNVQIKLYNLNWNKNNYLNKWDFETYDKNQKMNLYINGNEILHGENKLLLLIDYEDADGKKYQVKDEVVISVEKGLFTRIVDTFLRLFSFF;locus_tag=LOCUS_02190;note=WP_011202992.1 cysteine protease (Bacteroides fragilis YCH46) [pid:30.5%25%2C q_cov:25.9%25%2C s_cov:38.3%25%2C Eval:1.2e-11%2C partial hit],MGA_221
sequence1	MetaGeneAnnotator	CDS	209078	210172	.	-	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIVNFVKSKILKLKRDEKISYYNLSNNYNKNLVNNLFDLDNNDGINNNINSQNKDCFFIDGGLGLLFESNSVYIYAIRVSCVKFIGNKFIKKENHNFKLVTYLDKNSNGRLRIYNKIFCEEHTQKLFNYDFDLFNDQKLFNIENYDFFDFNNLKLSGSVILKLLELIYVQKLSNKNSIIVRDGSFEMKNKIDQDIICNFNINSTIFGISKNSSFVDQDGNNLSMRLFDLLGEKFNQIKNSNLILSDFFGYQNILSNNYECIKVYLVKLNTNSNNFFRIDVMSHKEKTNDINIALNIIKQNSIDNAILGYPYGLILVDQLARISNRESEFEKISLFYSDKKLKSILEHNSYNKDFHKILDNLQY;locus_tag=LOCUS_02200;note=MGA_222
sequence1	MetaGeneAnnotator	CDS	210225	211289	.	-	0	ID=MGA_223;product=adenosine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108486.1;translation=MDELRSFLSRPIKSDELDLLVLGEAMVDVYHEPISTAEFKQLGIDSGGWYLFDPNCENSLKLCEKIRKIPITKKIPGGCPSNVAVNIRQLGASAGMITALGGDNNGNLFFDHLEDNNIEKFAQYFNSKTNPFLHVLFDETGERTFFAYTGATPQINLDFPVPKSKILFTSGYEVGKIGLPVVDFASKFDGIVAFDVASAELAKDNLDLFRKMLNYTDILFTSKLEETYLFGDRPDVNYELSCHVKKHGDKGAIISYNEGVFSINADPILTAQAGVSCEDGYFQNTNGAGDGFAAGFLYGLLNGFTYEDSGSLASKLASTVIMYEEPFMKKRSLRVDVHKYDLEQKYKKELEKAS;locus_tag=LOCUS_02210;note=WP_011108486.1 adenosine kinase (Bacteroides thetaiotaomicron VPI-5482) [pid:27.0%25%2C q_cov:85.6%25%2C s_cov:91.5%25%2C Eval:6.3e-21],MGA_223
sequence1	MetaGeneAnnotator	CDS	211365	211994	.	-	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYLLFLFILMISLFSINAESIDKNYQATNITNNDVFEVSINSDLYIIKIEYIDNVITYYLASPDGKKYEKIQYIDIGEMTEDPALIMADEMKLNFFRAGRDIVLNLDSNSPFNIERKKDRVDIVNFNEYISDYFCSYGFYCESAKGIYFQNVNVEQNNNIDMVEKLEASNKEESYLDNFTNAINNNSKIFYIIIIFIVFFILFKIFF;locus_tag=LOCUS_02220;note=MGA_224
sequence1	MetaGeneAnnotator	CDS	212109	212708	.	-	0	ID=MGA_225;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867744.1;translation=MVEIKLFGKWSVDGIKVSDIGLKPYINLSPRFVIKTGGRNAKSRFHKSYYNIVERLMNKLMIPGHRSKKHKLTSGRCTGKAVKVYNIVERALELVEKKTNMNPIGILVKAIENSATREEVITIEYGGAKYPKAVECAPQRRIDLTLRIMTQNSYQKSFNSKKSIEKTLADEIVFAYEKNSNSAAIQKKLEIERQADSSR;locus_tag=LOCUS_02230;note=WP_010867744.1 30S ribosomal protein S7 (Pyrococcus abyssi GE5) [pid:42.9%25%2C q_cov:99.0%25%2C s_cov:94.0%25%2C Eval:1.1e-40],MGA_225
sequence1	MetaGeneAnnotator	CDS	212715	213152	.	-	0	ID=MGA_226;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876681.1;translation=MSKKSQGMNAAKKLMKKRAVSRLKNKNFKRKFYGLRIKSDPLKGSSQAKAIVIEKIQREAKQPNSAMRKCAKVQLVKNGKQVTAYLPGDGATKVIDEHDEVLIECIGGKMGRSKGDISGVRLTVIKVNDQSLLGLRTGKIQKARK;locus_tag=LOCUS_02240;note=WP_010876681.1 30S ribosomal protein S12 (Methanothermobacter thermautotrophicus str. Delta H) [pid:58.8%25%2C q_cov:93.8%25%2C s_cov:96.5%25%2C Eval:1.4e-38],MGA_226
sequence1	MetaGeneAnnotator	CDS	213145	213585	.	-	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLDPFILKKLSIFSSVSKIVPKDCFESNGTLVFMVNKGDIGRAVGKKAGNIPILAKKLNVEKIRVIEFDDELIQFIKNVIHPNKVNEIVKNDEIIILKTDSYKVRGYLIGKDVSSLRLSEEIIKRYFDIKELKVQQIEVKNE;locus_tag=LOCUS_02250;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	213582	213857	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIDLFKGELKKSVESNKLNIGSKTTKKLIQNSLIEKVYMSKNIDLNIKSDIEHFCKIGNINFENLDIDSSELGILCKKNFNITVISFKK;locus_tag=LOCUS_02260;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	213902	215038	.	-	0	ID=MGA_229;product=DNA-directed RNA polymerase subunit A'';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867740.1;translation=MEDLIKKYEKKLSGKIISDIKLNVPKNIDKKKLEEIFKRAVTVFENAQIDTSEACGLIASSSFGEQSTQMTLNEKHGGGTSTIQLSSGLPRIIEIFDGRKELSTPMMEIFFKKKKLSENEVKNYAMHIKETKLIEFIEEFQLDFINQVVKCYLNKDKLKKEKYSQEAIAKALQKNMKGIIVEEEEEYISVKKKIKDEKIMDLYKLKDKLKNVFVSGIKNISQVVIVQEDDGSYKILTRGSSLKHVLELDFIDPYKTTTNDIWQICNHLGIEAARAAIIKETDKVLEVQGLNINIRHSMLIADTMSLSGIIKGITRFGILLDKDSVISKASFETPMKHIFNAAISGQKDKLKSVMENVMVNQPIPIGTGMGRLLAKEDS;locus_tag=LOCUS_02270;EC_number=2.7.7.6;note=WP_010867740.1 DNA-directed RNA polymerase subunit A'' (Pyrococcus abyssi GE5) [pid:38.1%25%2C q_cov:98.9%25%2C s_cov:93.2%25%2C Eval:3.1e-66],MGA_229
sequence1	MetaGeneAnnotator	CDS	215040	217610	.	-	0	ID=MGA_230;product=DNA-directed RNA polymerase subunit A';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879381.1;translation=MNEPTNYTFKKIASIEFGFFSPKLIQEVSVAKVVTPELYDKESYPVDGGLMDVRLGVIDPGLTCRTCGNKFKECPGHFGHIELARPVLHIEGIALIFSLLKTTCHNCGRVLVSDEKLNLIKDKLKEVESLRGYENKLKEIRKLLIKLKTIIKCPHCSAKQKPLKLEKPYTFYEDEQKLSPIQIRARLERIPDKDIELYGINPEATRPEWLVLTRMLIPPVTMRTSLTLESGERAEDDLTHKLADIVKINQRLFENINAGAPEIIIDEFWELLQYHVTTFFKNSVTQIPPARHRTGQPLRTIYERINSKEGRIRNNLAGKRTNFCARSVISPDPMIEIDEVGIPELVAKKLTIPEKVTKYNEKFLKSLVEKGKKSYPGANFVIRPDGLKKTITDETKEQILEEIQPGYVVQRHLQNGDVCIFNRQPSLHKMSILCHKIKVIPGKTFRINPAVCFPYNADFDGDEMNLHIPQTEESRAEAELLMSVKNVLVSPCNGLTIVGCVQDAISGNYLLTKKENFTKKEAIELLYSVDHKDFTKLPKGDEVDGKDIISALLPKGFTFYGKSRSGDVIIENGYLKEGVLDSSSLGNGAGLLLRSMLQKYGEDLVSDFIGKMFKLGLKMLLQSGLTTSVSDIDTDSKFQNKIAKYFIDADSEILKISDKLYKKDFHPTKDQMIEAETEIMKILGNAQNEAMKCVSDYFNEETGTTIMINSGARGSKTNLTALAGFVGQQNSRGGRIKVGYRKRTLSCFKKYDIGSEQGGFIKSTYKKGLKPHEFFFRAITSRDAYMDIALRTPKSGYLYRRLANALQDVRVEADSTVRDIDSKIIQFKYGEDGIDVSKSEKGSIDIKKIIREVAGN;locus_tag=LOCUS_02280;EC_number=2.7.7.6;note=WP_010879381.1 DNA-directed RNA polymerase subunit A' (Archaeoglobus fulgidus DSM 4304) [pid:46.7%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:2.7e-229],MGA_230
sequence1	MetaGeneAnnotator	CDS	217623	219425	.	-	0	ID=MGA_231;product=DNA-directed RNA polymerase subunit B';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876676.1;translation=MTDVFFDNKFIGTVDDGNKFVDSLRISRQEGKINSYFNLMFEEESDSVFLYASEGRVQRPLIVVKDGKSILTDDVLEKLKSNQLSWSDLIKKGIIEYLDASEEENCFIAFEAGDLTSNHTHLEVSPLSMFAFVGSLVPHGNLTPAMRTYLGAKNQKQAIGLYAMNYLMRIDTDVNLLEQPQIPILKTIMHDISDYSRHPAGQNVIMAIMSYEGYNMDDAIIMNKSSVERGLGRSYFFKPESAEEIRYAGGLKDNICIPDLEIKGYRSEHDYRLLEDDGIIALDQQCGEDDVVIGRTSPPRFLNSSEEYSLTQNVQRESSIVMKHEEKGKVDMVLLTQNEDGNNLVQIRLRDQRIPEVGDKYASRSGQKGVIGALYEQADLPFTASGLIPDIIFSPHSIPTRETFSHLTELIAQKVGVLSGRYVDGTMFNSEEEFDLRNQLSELGFREDGTEVMYNGFTGEKMDARIFVGSIFYLKIKHMVANKIQARATGRVTLLTRQPTEGRSKEGGLRIGEMEKDCIVAHGTSLLLKERFDVDKTTVPVCERSGLIAFYDRFKKRTISPLYGTNSKINYVDMAYAFKLFLDELMSYGIYPKIALVTKY;locus_tag=LOCUS_02290;EC_number=2.7.7.6;note=WP_010876676.1 DNA-directed RNA polymerase subunit B' (Methanothermobacter thermautotrophicus str. Delta H) [pid:46.7%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:3.7e-166],MGA_231
sequence1	MetaGeneAnnotator	CDS	219434	220945	.	-	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKKQEILIRKYFQENNFASSNIASYNNFIENELANIISELQEIKPTIIPHDIDEFEIKFDKIWVEPVDKHTDDKGPTIVEADGSKRKIFPNEARLRKLSYVTPVYANISAHINGVQRESFTTELCQIPVMLRSKYCHLNGFNKDDLVNVNEDPYELGGYFIIAGTEKTLVAVEDLAPDKLMVDGAGSAAVGKLYSEFSNYRIPHTVELSKDGILTISFARYKKIPLVPILKSLGFLKDSEIAEIIDLGKDNDTMFINLYEFVELKTEEDALDFLSKKMGINQTRETRLIRAQDILDKALLPHLGTSPQARIFKAYNISKYIKRYIDLANKKYDNYSKDHYANKKLKLAGPLLGDLFRFNLKVLINDLLFNFQRIVKRGKFPSIKVIIRNKLLTKRINSAMATGNWVAGRKGISQRIQRINYHDYVSSLQRVVSLLSTTQENFDARSLHCTHMGRLCPIETPEGTNVGLKKNLSILARISNKVSNKEELLSHMREAGLKTIF;locus_tag=LOCUS_02300;note=WP_011250034.1 DNA-directed RNA polymerase subunit B (Thermococcus kodakarensis KOD1) [pid:38.1%25%2C q_cov:95.6%25%2C s_cov:42.7%25%2C Eval:8.8e-94%2C partial hit],frameshifted%2C insertion/deletion at around 219445,MGA_232
sequence1	MetaGeneAnnotator	CDS	220938	221171	.	-	0	ID=MGA_233;product=DNA-directed RNA polymerase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879378.1;translation=MAKKTKHFLIPEHILLSDDEKKKMFDEFNIGFSQLPSINFNDPALEDLGANPGDVIKIVRESKTDGISLYYRGVSNE;locus_tag=LOCUS_02310;EC_number=2.7.7.6;note=WP_010879378.1 DNA-directed RNA polymerase subunit H (Archaeoglobus fulgidus DSM 4304) [pid:42.9%25%2C q_cov:90.9%25%2C s_cov:92.1%25%2C Eval:1.6e-11],MGA_233
sequence1	Aragorn:1.2.38	tRNA	221192	221267	.	-	.	ID=Aragorn_5;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	221371	221826	.	-	0	ID=MGA_234;product=histidine triad protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166682.1;translation=MFMEENNNNLQNNGNCDNNNLNSDCVFCKIIRGETPCFKIYENEHVLAFLDIRPVSQGHTIIIPKKHIKNYFDIEGELFSKINNSLKIVKNKLQIFNKKNICQFIIGFDIDHAHIHLVPANDMIELNNFKNQDIPMVELENTYKKIMEDEI;locus_tag=LOCUS_02320;gene=hit;note=WP_011166682.1 histidine triad protein (Mycoplasma mycoides subsp. mycoides SC str. PG1) [pid:39.7%25%2C q_cov:82.8%25%2C s_cov:99.2%25%2C Eval:2.5e-20],MGA_234
sequence1	MetaGeneAnnotator	CDS	221942	222193	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFTSWSIKFIISIILDIADFFIGRIPIAGSIWDAILGFIGLLLWKKVGGIQFLELLDFTDQIDGFIPSLTISAIFSIKEIWD;locus_tag=LOCUS_02330;note=MGA_235
sequence1	MetaGeneAnnotator	CDS	222262	222747	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHLKLVVNNTEKNKKKSQKRNSSQSVLDCDPFSELNLAYYDKDYKRLINMQPETSGLLVLEKLNAPVQLYQIHDILEGTLNQICINDLQREFAGENRTYCPFFTEFKQHSVFDLYKDANNEFGLPNKFFMFIKDNNLDVYEIYGHMHRAGKVMQRLFPDR;locus_tag=LOCUS_02340;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	222719	223633	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVLKSYSNIWGGTVDSKKFHEHEISKIAAVFRNVKHQNKIYTLEYNYYLALLQYEHLNNENAKRAAKQILNLIVEDNDFYILSDDFNRLKRYAEELRKSRDKYNNKLYVIIKDFYNKCNNNKKIKHSKSEELNEFKEELKNLSQLLPEKLVDHFVFETNISSIAILLNKLINVVELKQLNNRNSYPEIERSKHINNLIDLCHKRSIFLFNKFDIKDSNIKLDIEKQVKSRIIFLIGEINRILKTPILLSEKVENILSLKHKTIEHDIDYVSKLIKENLYGIKSKSAYLLHLLYKTSDLEKVAA;locus_tag=LOCUS_02350;note=MGA_237
sequence1	MetaGeneAnnotator	CDS	223678	224241	.	-	0	ID=MGA_238;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761950.1;translation=MVEINKLAPNFNIKAFYNNEIKNISLSDFKGKWVVLFFYPADFTFICPTELGELADSYQKLKEMNTEVISLSTDTAFVHKAWFDNSPTIQKIRFFMGADPTGQVCRDYGTYIDDEGLSWRGSFIIDPDGILKAYELHENSIGRDINELIRKIQAAQYVREHKGEVAPCQWKPGDKTLKPGLDLVGKI;locus_tag=LOCUS_02360;note=WP_008761950.1 peroxiredoxin (Bacteroides thetaiotaomicron VPI-5482) [pid:53.8%25%2C q_cov:98.4%25%2C s_cov:97.9%25%2C Eval:5.2e-60],MGA_238
sequence1	MetaGeneAnnotator	CDS	224284	224835	.	-	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRFEDIINPLLNADKTLALILLTGLGFFIILYIMYLISNEKYPGLKNIKKSHIMTLIIILVTVFVLPSIAFKDDNLYYQSGFLSGVVNPSIFLINFLGGIFETAILFGVALLVLSYLLNNRKITSSTYANYAKIFVLIFLALALFYGMVLLEQKNYSYVMYYVTSITFLFLLFYFIKKWVFD;locus_tag=LOCUS_02370;note=MGA_239
sequence1	MetaGeneAnnotator	CDS	224838	225446	.	-	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNDIVCDSNSLYKEWICYFTKEWGLLHFFIPFFLFYIIPYVLISNMKLWKIEDNDTNKAEKEKAYGRFTTIISVIIALVGTVPNFVFSTNGKGVFVEGFLTGVINPVHVVMNSLPAISLAVIIALFSLIVIKGTTNFDLNATKVKGFNTWEIVGWFMVAFVVLVFLRATNIVGNINEFVNIFGSILGLIVIYYVFKYIFFD;locus_tag=LOCUS_02380;note=MGA_240
sequence1	MetaGeneAnnotator	CDS	225446	226114	.	-	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGFENFNLQNFIRNDLIGDYGLFDLFIPLFLIYIIFYTLLTFIEIPKVTEGDLSGKNAKKFRTVVSLCFALLLVIPHVIWGNNANTVASVEFQTGFLAGFPDVVSVVYLFLPQVSLVLIMSVLALIAIQSATSGNNNNVVKTIMDSPWYAGFIALTLTYIFYTSVIGKTVDSSKYLTQEFIGGILFLAFIGWMFYLMFFDGETNTPPTATTPPAGAPGGNV;locus_tag=LOCUS_02390;note=MGA_241
sequence1	MetaGeneAnnotator	CDS	226187	226759	.	-	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDVAPTAFGQVISFLDGLGFFNVVLPFLIVFAITFAILEKTSVLGEKKDNLNAIVAFCIGFFVIASASLVGILEEVLAKTILLVIAGIAFMMTAGIFSKESTWFDFELDEHGKYKDNRAKYIIWIIFFIIGLIFLGAITISTAEGQASVLSIIWNELFYQYQTGLVSGIILIVLIVASVAWMNGAWDKE;locus_tag=LOCUS_02400;note=MGA_242
sequence1	MetaGeneAnnotator	CDS	226815	227060	.	-	0	ID=MGA_243;product=elongation factor 1-beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869959.1;translation=MPESPETNLTNVQDQIKQILNKYDAKGEQFQIEPIAFGLHAIIINFLIDEDNGSTDPIEQDISNIEDVRGVEITGVSRALG;locus_tag=LOCUS_02410;note=WP_010869959.1 elongation factor 1-beta (Methanocaldococcus jannaschii DSM 2661) [pid:40.5%25%2C q_cov:97.5%25%2C s_cov:88.8%25%2C Eval:5.4e-10],MGA_243
sequence1	MetaGeneAnnotator	CDS	227093	227278	.	-	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKVEQSNMYRAELSNDHAAVTMVCPKCNTGKITRTGMQRSFGTIKECPNCGLKIPIDDE;locus_tag=LOCUS_02420;note=MGA_244
sequence1	MetaGeneAnnotator	CDS	227377	228243	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENIKVAIYTLLSILFFSITSYLIPYKFSSYINPLIDTNLLIRIFLIFFFSISIIIFIKVNKKYNSIIKLNIKEATLLMQFYKIFCNLEYKIRVNAKALIDNYIIKILTFKANNLDAFLYDEMDGFYNFLYKIKPKNNTELKYMDNGLQITREIEEMKNNYIFLNNNKMNSFEKIFLYSTGILSIILINLLLSLNFEIIIFKVMTSTVILYIMWYLNSLDNLTINTNLFKFEIYEKVLEQLSLLRYYPEHYENEYQIPKEIKKYRLGTLNLETKEITIKQIESEENA;locus_tag=LOCUS_02430;note=MGA_245
sequence1	MetaGeneAnnotator	CDS	228236	229471	.	+	0	ID=MGA_246;product=tRNA (guanine(26)-N(2)/guanine(27)-N(2))-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67010;translation=MLKKITESNTNIIIDENSFNTISKDLNIFYNPLMEINRTISILFLRSIEKHFQLKNKLNICLPLCASGVRGIRILKECNNINSVKFNDMSKNAINILIDNLKLNNIDYIQNKEFENNYINNENKVEYRKNKNIVFNMEANKFLHNTFYSDYIDIDPFGSPVKFIDSSLQKLNKNGFLAVTATDTASITGSSKTASMRRYGSHIFNCENKKELSLRVLATHIIKQAAKLDLKLTPIISYTVKHYARIYFKSEPGKKKVDKHLEKINSFYFCNKCRNYSIELNKCNTCQNELMSFGPLYSEKLSDIKLIKIMLSEFELLKKEINNLNFQKEIEFILNNQIEYNSVNLPFGYSISKIIKYKNINFELNKPDGRTPKLDDIINLIKEKGYDAYCVDKKYLLIKTNMPFKEFYELF;locus_tag=LOCUS_02440;gene=trm1;EC_number=2.1.1.215;note=O67010 tRNA (guanine(26)-N(2)/guanine(27)-N(2))-dimethyltransferase (Aquifex aeolicus VF5) [pid:33.1%25%2C q_cov:80.3%25%2C s_cov:78.6%25%2C Eval:3.5e-42],MGA_246
sequence1	MetaGeneAnnotator	CDS	229463	230731	.	-	0	ID=MGA_247;product=histidine--tRNA ligase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81B71;translation=MELNNAKGTTDFSGATMAKRKQLINMLESVFKLYSYEELDTPIIERYDVLTYKYGDDAPILNEIFKLKDQGDRDLCLRYDLTVPFSRFIGMNTTLKMPYKRFAVGKVYRDGPVKLGRTREFIQCDFDMVGSKKIDCEIEVLSILFRAFDKIGIDINIEINNVIFLKALIRYCGIPDQDIPKFVSIIDKVKKISKKQFETELVEQGFDKNKVDELIQKLNFKTNKEKFGFLTKILTDDENIKLNEFKLLLDAFGDKNLVFNLGLARGFNYYTGPVFEVYDNSKTISSSLAGGGRFDEMIGNYLDGKREFPAVGGSFGLEPIMVLIEKLDDQIVNENKLFIIPINNYIKSLEIAEQFRDSGINTGIDLTGRNVGKNMDYANSKKYEYVIVIGENELSSNKFKLKNMETGEEREVSIKQAIKILK;locus_tag=LOCUS_02450;gene=hisS-1;EC_number=6.1.1.21;note=Q81B71 histidine--tRNA ligase 1 (Bacillus cereus ATCC 14579) [pid:35.9%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:4.1e-78],MGA_247
sequence1	MetaGeneAnnotator	CDS	230825	231436	.	+	0	ID=MGA_248;product=O-sialoglycoprotein endopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868707.1;translation=MKTIYQGAESTIYLTNSNTIKKIRNKKSYRIEEIDSKLIKSRTKREINLLTKAKQLDISVPNIIDSNINEGIIEMDYIDGIKLKTYLEENLDDYKNIAKLIANNISILHNNKIIHGDLTTSNMILKDNKLYFIDFGLGFTSQKFEDFAVDLHLLKEALESTHYKISNELFEFIINDYKKNTNNAKLVLNKLKEVELRGRNKHK;locus_tag=LOCUS_02460;note=WP_010868707.1 O-sialoglycoprotein endopeptidase (Pyrococcus abyssi GE5) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:3.3e-37],MGA_248
sequence1	MetaGeneAnnotator	CDS	231720	232220	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEINELYQKIKESDEYKELVQNNLYLTNIFIMLDDSNNLIDRIQFGFYNKEKDKIITLSIHENKIIKSLEQEIAKKSDQKLEELNIENLNINLNEIEEMCVKEIKKINDKIKINRKMFLIQNQEKPIFLNTFLAEDGNIFSLKIDISTKEMLEFKKFNVKDLINN;locus_tag=LOCUS_02470;note=MGA_249
sequence1	MetaGeneAnnotator	CDS	232287	233930	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVRNSFNSETRSLDNNINERVKFHSENIKKAQEYKQHVIDNWNSIDHKVKNPNEWINYYNSVISSNQQKINNLKPQNKKKPVFVFTLIVAILFFSYFILPQNQLTGSLIGDEINSPLENQIEFEILNPQSYPITGRTWQVNFKTKGTADLFIKASNGTTWSKNNETEDLLFLKIQCGSEILPYEWVDGGILIKNYSCNQTSHETVKVITDGKHTIEFRFGNLIAYANNNATNAPVIHAINLTTSYNSGENGTNENITVNIFSNDTEVPDNEVKDIIDWRLSGESIAILNMPFEGESNVTFTKDYGDYQSNGTVNGATNQTNTGFDGQGAYSFDGIDDFINISGFTTENEVVRSIGFWFKPTVDYDTTKGFVSLVNGDDYEIAINAGKMFFNFSGDTVYSTIDNWTSGNFFHIMTTVDINLKLYVNATLDNSTSVTPAYIIQNDTSSNVALFYSSGDIVLSGSCFTNSCGDPGVSPFIIQNATSHNTSFVNQTGGFCITDNNCNDQDLSCGSPNDGSFLIKDEVGTIVSYIDANGTLCLTGNLVQNN;locus_tag=LOCUS_02480;note=MGA_250
sequence1	MetaGeneAnnotator	CDS	233940	235106	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKIKITKLAYLIFVFIIVNTIIISAANVIVKNGEITANDLVIDTSTVSVDPTNNRVGIGTTSAQTTLEVADTSWSSGAPYGNILQIAGKETFFNDNWGHLLITDSNSSTGNGGMISFGIGRTIGVDVAPFATIKSSYDGSNNGSLIFMTRGAGVNVTERMRINSAGEIGIGLTAATSNALEIGGNGQGGAIGGGYATVIRGLTAIDVNSGSTALTVEQANVGNIATFNDAGTPKVVILDGGNVGINTSAPSEFLEINGRLKVNLLAAATANTLCYNNTGVLSSCTSSIKYKEDVQNLTNGLNHLNQMRSVNYKWKGRDERDIGFIAEEMNEIDPIYVTLDKNGDVQGVKYNLLTAVLAKAIQEQQKQINQLKEIVCLDHPEQEICN;locus_tag=LOCUS_02490;note=MGA_251
sequence1	MetaGeneAnnotator	CDS	235115	235813	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKKILGFSILIILFLTPSINSLLVGGTSEGYYNGILDDLTIFNRELFPDQITYFFNNQTNILANDQTLTGQSWSACATPNDGFVDGNQNCTISMTILGITTVLQMGIANADVTFVVTHTQNTNSSPMVLSNQGTADIDVTLCANAPLFPTIGLNTSNFQANVITPAGVTVNSINANHNLLNCTTPVQIINNLSAGVGQLINVTFYVFGNKSESAGVYNTSVLFMASAAAG;locus_tag=LOCUS_02500;note=MGA_252
sequence1	MetaGeneAnnotator	CDS	235814	236800	.	-	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVKKIFYKLYKLGQYWEFEKVKYKTEYIMFVFSNKSTIFYNGPINNKKKKLFIKFNGIGGNISDSPHFLDEFRKDYNIIYLDLPGFGMSFNKNSNNQKNYSKDFWNKLMLILKDQNINNFHIISNCFGSNLIINSLYNILINARKNNNVDIILKLKKMINHIFILTPTEKKLIKFRRRLLFLSYFMMLFKSIPSLRKILLSLFEYKKYPLLNFHSLKNKKIQIINKRFYTLPFTLDPLMDVAVANSAVNFYNSLKMQFSEKSIQKKILFLEQYFKMRTFYFLGDGLLKNNFEKNLIIKYEIEPDIFHFTFNRDGIFFKEKIIDKLK;locus_tag=LOCUS_02510;note=MGA_253
sequence1	MetaGeneAnnotator	CDS	236797	237894	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIFYFVTGEGLGHATRSIPIINYLKKHHNIIPFSSNRSFKILKTHFSNAKKVIDFELIYIKDKINLKKTILYNLKKLYSIFKIFKKLKYYIKKEKPDLIISDFSIWPKLIKTFLGINFITIDNNHFGVKAKIKKLNFYEWFKLNIYTKFFVSNNELNVILSFCDIKHNKKTILINPIVRDKLIELKKKLKNRQIIKKNHILVYQTSNTYPNLIKKLKLLDHNFIVYGMDKNDRRNIKRLNIFEDKKIKFKSFNETEFFNDLATSKAIITNGGFSLISEAIFLNKAIMSVPVKNQYEQLLNSYYLNKNNLGFFSKSINKKQFNLFLNKIEFYEKKLKANNTYEVQTSLILINKIITDIIKKNKK;locus_tag=LOCUS_02520;note=WP_010876517.1 teichoic acid biosynthesis protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:31.4%25%2C q_cov:92.1%25%2C s_cov:55.4%25%2C Eval:3.7e-48%2C partial hit],MGA_254
sequence1	MetaGeneAnnotator	CDS	238056	240896	.	+	0	ID=MGA_255;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O51773;translation=MNIESQEKKLVEFWQKNKIFEKSVEQRPKDKQYIFYDGPPFATGLPHYGHILGLTGKDLFPRFWTMKGHRVERRWGWDCHGLPIENIAEKELKIKKKNEIEEMGVAKFNEFCKSKVLFFANEWKKTVDRMGKWIEFDNSYKTMDNSYLETIWYIFKKLFDTDYIYEGKKVLLYCPRCETPLSNSEIAMDQSYKDVTEKSAIAKFKLKDEENTFILAWTTTPWTLIGNVALAVNEKLNYVKIKLNDEFLILAKDRLVDIKDKYEIVDTFKGKKLLKKEYEPLYHIESDKKGHYIINGGKDVVAEEGTGVVHMAIYGEFDYEMIKKFDLPIIQHVSTQGKLVHGPKEWINLWFKKADKNVIEDLEDRKLLFTSKDYTHPYPFCYRCETPLFYNAVDSWFVNIQKIKSRLIEKNEEINWYPNHLKHGRFKYILETAPDWSISRNRFWATAIPVWKCDSCNNIEVVGSIKELQEKAIEAVSDDVDLHKHVVDNIHLKCKCKSQMTRISEVFDCWFESGSMPYAAKHYPFENKEWFKDNFPADFISEYVAQVRAWFYYMHVISVMLFDKAPFRNVAVSGNVLASDGTKMSKSKKNFPDPNLIFEKYGADALRYYLMASPLMRAQDLNFQEDGVREIYRKVIVLLNNVNSFYNLFKDDNAELNKPSQKNILDKWIVSKTHLLIRNVTNALDDYDTIIPCSQLVEFIDDLSTWYVRRSRDRFKSQNKSEKEDAVKTLAFVLDKLAKLLAPITPFISETIYQSLKENNDKLLESVHLEKWPDYDNEIIDQTIIENMKKTREIVSKSLDKRVNVKIPIRQALNKLTIHGPELSEEYLELIKDELNVKKVEIKKSEELSIDLDTKITHKLLLEGISRDIIRKINGYRKELKLTIKDRIELFIESDNKEINESLKTFENEISVSVQADKIEKKIYGIDSKEINVNESTIKLAIKIIN;locus_tag=LOCUS_02530;gene=ileS;EC_number=6.1.1.5;note=O51773 isoleucine--tRNA ligase (Borrelia burgdorferi B31) [pid:41.6%25%2C q_cov:97.6%25%2C s_cov:91.2%25%2C Eval:2.6e-212],MGA_255
sequence1	MetaGeneAnnotator	CDS	240907	241137	.	-	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIQLKVLLSFIVILPFSDFIKLFLFIISEVLKFNHMINRAKEVMSYDLAEYIEEKDHTKPNPFLNIFLNAFRNK;locus_tag=LOCUS_02540;note=MGA_256
sequence1	MetaGeneAnnotator	CDS	241145	241786	.	+	0	ID=MGA_257;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMF8;translation=MKLKQIIFEGPEACGKSTQLQLLSEYLDSSKIKYSITKEPGSGGILAAKIRNMLLDPETGKITEDAELLLINAARAELYKMHRSEEYRYHLQLKDRSFASTRAYQGFGREMDLDYIQTITDHIVGDDLPKILFLFDIDPITGLKRAGARGKLDRFESEKLEFHKRVRRGYLSLTEHEKYKSITHLIDATRDINDIHKEICQKVKQTFPEYNYK;locus_tag=LOCUS_02550;gene=tmk;EC_number=2.7.4.9;note=Q2RMF8 thymidylate kinase (Moorella thermoacetica ATCC 39073) [pid:40.2%25%2C q_cov:91.1%25%2C s_cov:91.8%25%2C Eval:2.0e-27],MGA_257
sequence1	MetaGeneAnnotator	CDS	241906	242577	.	+	0	ID=MGA_258;product=phage antirepressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962647.1;translation=MKEKNKIIVFQDKNIRKMWHNDEWYFSVVDIISVLTDSPTPRQYWGKIKDREFKAFELSPIWVQLKLISQDSKSYSTDCINTKNAFRLIQSVPSKKAEPFKQWLAQVGHERIEEIENPELGQNRVKEYYKLKGYPKEWIDKRLRGISIRQELTDEWKNKNIKTQNEFAILTNEISKASFGKTISEYKKFKNIKNNKQNLRDHMTDWELILNMIGEKATTDITK;locus_tag=LOCUS_02560;note=WP_011962647.1 phage antirepressor (Flavobacterium psychrophilum JIP02/86) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:81.2%25%2C Eval:8.2e-59],internal stop codon at [242575:242577](+),MGA_258
sequence1	MetaGeneAnnotator	CDS	242593	242736	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEECKDSANKGGNIAKRTRKDLEKNIGKQIVSKENFLPKQKNKKKLN;locus_tag=LOCUS_02570;note=MGA_259
sequence1	MetaGeneAnnotator	CDS	242773	243660	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867130.1;translation=MNILLFFAKDNIASKNLFNLINNKYEFNLIETKNNSELYNVKELNCHAINFDSNMINWDHIKDEFKLDYDLILVASSHKAESGTKSLTLHFTGNFNEIMGSGNAKELSYAPAFICSKGIQILNERNDKNFLNFEISLETTHHGPTSLNIPLVFIEVGSSENEWNDINAIKTLSEAIIDIIIYFSNEKNYKEELNKDSYIGFGGGHYAQEFSKIALMGINFGHIAPKHYIDSLDNNMLNQMIKKTIPKPKGIIIDWKSLNTQTREKIVPFFEKNNYIILKSDKLKKELRNEIIIKE;locus_tag=LOCUS_02580;note=WP_010867130.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:31.1%25%2C q_cov:88.5%25%2C s_cov:93.4%25%2C Eval:6.5e-26],MGA_260
sequence1	MetaGeneAnnotator	CDS	243708	244088	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLNEYKIILIPILASLICQLIKIILIILKQKKINLKQAMWAVGMPSSHSAFFTSLLITIGIVEGINSAVFAVALLFSLAYVYDMILVFNVINDNIKELKNQLGHSSLEVIVGIIIGIIIALILN;locus_tag=LOCUS_02590;note=WP_003428407.1 membrane protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:32.7%25%2C q_cov:63.5%25%2C s_cov:67.6%25%2C Eval:4.2e-07%2C partial hit],MGA_261
sequence1	MetaGeneAnnotator	CDS	244094	244573	.	-	0	ID=MGA_262;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869872.1;translation=MAKESIEVLIEGGKATAAPPLGPKLGPLKVNIGQVVSDINKKTSDFKGMQVPVTVIVDTDTKEFTIKIGTPPASQLIKQEAGIKSGSAVPQSDFVADFTIDQVKKVANMKADGLLGATIKTKSLEILGTMNAMGVTCNGLKAIKMIKEIKEGKHDTAFN;locus_tag=LOCUS_02600;note=WP_010869872.1 50S ribosomal protein L11 (Methanocaldococcus jannaschii DSM 2661) [pid:48.1%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:1.9e-37],MGA_262
sequence1	MetaGeneAnnotator	CDS	244615	245229	.	-	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYTKLSIVESLPHGKSHEICDLSPDFYEPLISSQESNLYLLELKKKGKKLFNAMFSLDFKDPDYLSKIESLNVALQLGSVCHDDFDSYSDYLDSFKLLNSVEFGTLQFDGESFVHFNKFRQIPDDNFDNLKKMFELYGHNRFNKNLFSSDLKQKEFDMDELKNGLALLETYRCKVIESEPSLYSQFTEKFSSDLENELSNLL;locus_tag=LOCUS_02610;note=MGA_263
sequence1	MetaGeneAnnotator	CDS	245315	246787	.	-	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFINMDLSEISSDVSSTQHIVNKNFEENDSELKKLGVILRSQSDQISRYLHSENKMDFSMSKLSGDVLDQNRGVISTPRNNFSKQIYSIFFVLNKIGEILDSVSKAILIIDSEEIEFLTEHFAPGNSFESNQNFIKKDLNKDIIARGNNIVTEINIEFNKCELNMIQLEKEIYILSKLIEEYNLQIVKFSNSNNNNIKDRAKINFQLVENLNSGLNLFKDNLDKIKDSIEFDRKINIYLKKLHAEIRHEGYNVESTILGRMWNSLSVMPSAVKLIRAHRLDQNVYFLIYLDLMLRYYKLMEMNYQKLYMAKPNNVAFENLFNEAMRDHDKIFLEKLKPLSVKVIDIPFRTETKGSGYLDLLLILKHAYDRQGEPDYNKIFKSSKTTKVIASLIINNFHFILNRKIPASEDMLRISKFIRDMETKLKLQHNQNIAINENKIGLAILDVDKSVKNLNRPYFELLSKFSSISIFLEEFFKSEIRSLDKNQIN;locus_tag=LOCUS_02620;note=MGA_264
sequence1	MetaGeneAnnotator	CDS	246804	248264	.	-	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFPQINLSSDLSSEKINISNFYEVQTKKALDLFFSLGDSLDNNLIFIKSQNPSIDFKDYVTSIKRISSNSLDEFKSNISSIYFFGSIQQSKNEYDLCEIINGIAMGESDIDINIELNSDYFENNKLLLKQLKKEMDIYFSLLFSREYDINFSPTLKNSNQYIFFSKPYQSYAEKIIRYTIETGSKLYERPLVLDKNNLEQSFSIFKGNQNNSVSGDLKQIYELSSLSILSKSRVEKLYKYSASAINYRLNFLFDSKTNFEWILPNDLNEKEMRFEIFLNALRFLIIDNENYLNSFFKFESQTELNMLYENIISGCDKDLSKFIMNIQGKDNSDSNFIDYLDDYINENFDSKKLKEKLMKSPLGRFLSIENYKQGASEFMQHYSDDNFRKMQFNDFYNYQMFIFSNYFKYSKRYFEHKGFEFDLKDYTNFILNSELDFCKQEKTFLWYVSNLSLEMLRADSKHATKFEQIGLDFNVMRSLISKLDS;locus_tag=LOCUS_02630;note=MGA_265
sequence1	MetaGeneAnnotator	CDS	248323	249918	.	-	0	ID=MGA_266;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878948.1;translation=MTNENIISENTQRKEGRDAQRNNILAAKLVAQTIKSTLGPKGMDKMLVDSLGDIIVTNDGVTILREMQIEHPTAKMIVEIAKTQESEVGDGTTTAVIFAGEFLKNAEELLYKKIHPTILVKGFNLAQKKSNQILNEMSFDISINDTDKLINICQTAMTGKGAEFSKEHLSKILVNCVKNIVENDECDIDINAIKFQKKVGGSIEDTQLIDGILLDKNKLLHSMPNKVNEAKILIMSCPLEHKDIEFDAKIQITDPSQIQSFLNQEETIIKNKVDKIISSGANVVFVQKGIDDYAQHLLSENNIFAVRRITKDDIEKLSLATGAKIVNNIDAINNSSLGYANIVEQKKISDHEMIFVSGCKNPKSSTILIRGGTEHVLSEIERALDDSLRDIIVSLKYKKVVCGAGSVEIKLADELKKYANTLSGREQLAVLSYANAIEIIPSILSENAGLDPIDIIADMKSKLYSGLTWPGVNVENGSIIDAKEHGILEPLKVKLQALKSATEVAIMILRTDDVIAANRLKGNESDLSNNF;locus_tag=LOCUS_02640;note=WP_010878948.1 thermosome subunit (Archaeoglobus fulgidus DSM 4304) [pid:54.4%25%2C q_cov:97.2%25%2C s_cov:95.0%25%2C Eval:3.3e-163],MGA_266
sequence1	MetaGeneAnnotator	CDS	249920	250468	.	-	0	ID=MGA_267;product=RNA-processing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496497.1;translation=MDFEFRNDIKIPKARIAILIGVGGSVKEKIEDNLNVKLDIDSKEGDVAISSNDALDILTAQNIIKSIGRGFNPDISLNLLKPDFSLEILYLSDYGSTSPSQFMRLKGRVIGKDGKSRTTIESLADCNINVYGKTISILGRLENVSIARRAVESLLTGSPHSSVYKWLEKKRRELLQKERNFM;locus_tag=LOCUS_02650;note=WP_064496497.1 RNA-processing protein (Methanocaldococcus jannaschii DSM 2661) [pid:48.2%25%2C q_cov:91.2%25%2C s_cov:75.3%25%2C Eval:5.4e-38],MGA_267
sequence1	MetaGeneAnnotator	CDS	250562	251947	.	-	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250361.1;translation=MAKISPISTKYNIHAKITVEGSVDRPDVIGAIFGQTEGLLGSDLELRELQRSGKIGRIEVDLESKFGKATGVIILPSSLDKAETAIVGAALEVIQRIGPCNSEIKVQKIEDVRITKRQAVVTRAKDILKNLIESHMPDSQELADEVAQSVRVMELTNYGPEKLDCGPGVLDSDEIIIVEGRADVINLLKHGFKNAISMNGSSVPKSLIELSSQKEVTVFCDGDRGGDLNIKTLIQLCDIDFLVKASDGKEVEELTKKELHKSLRGKLAVEAWLNEYGNSTWSVKTKEAPRSSYNQRKPILQRNNNVHQRSPIVKNTAFNQFSRSSPNTNTNVKKTTKTVAVKKTISSSASPVQASKSKEVSKMDLTDGQKSKFKKYLEDLIGSRAAILLDKSLKEVKRVPFLELPNALKSFSSSAEIAIFDGGVNAQLIKLAEKNGMKKLVCMSSKLKSTDSVQIITSENL;locus_tag=LOCUS_02660;note=WP_011250361.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:43.1%25%2C q_cov:94.1%25%2C s_cov:88.6%25%2C Eval:5.5e-95],MGA_268
sequence1	MetaGeneAnnotator	CDS	252376	252678	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELGGNISLEGFKDVDNSEMTIIKKIVGNSTKKINDYCKSFEKFKVVLKNIHSTEGSKKFELNVSVLNAGQLTTSQVVDRNLFIGLSSAIRKIETQLNK;locus_tag=LOCUS_02670;note=MGA_269
sequence1	MetaGeneAnnotator	CDS	252749	253129	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVWETEDTIDIILSVVITALGLIPLLNNYNIISFALPAIFSNTILVYAITLIAIYLIITGFRYYSDSVMKWPTLLVGGIVFLLGLANILGKFDVLNFAGEANFAIFMNIIYTLVGIFLLLTAFTYK;locus_tag=LOCUS_02680;note=MGA_270
sequence1	MetaGeneAnnotator	CDS	253134	254321	.	-	0	ID=MGA_271;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496851.1;translation=MILDFFKLSINNLRKKKVRSWLTIIGIVLGTLTIVALIALGQGMQNAVEDQVLKIAGNKLRVVPGSLQGPPIGREDITIKDVEQIKRIPGVDYVSEFLINNAIIEFSKEEKSIGVVGVNPKIIKKDDEDLNIKLLSGRHIVPSDNNVAIIGYYVANDFFEKKINSKNSIIIGGKKYKVIGIYKKTGSQILDNSIRIPLLTAQRQFDQKNIVSLITVKANKGILYDDLAESIIKKLKRTRDDENFEVYTAQSIMNQINNILDIIKAILISIASISLFVGALGIMNSMFTSVYERTKEIGIMKALGAKNINIFTIILIDSGIMGLIGGVIGVIFGYLFAFLISFGAKLGGFNLLTITFDYPLLFYTIIGTFIVGMIAGLIPAIRAVKLKIVECLRYE;locus_tag=LOCUS_02690;note=WP_064496851.1 ABC transporter permease (Methanocaldococcus jannaschii DSM 2661) [pid:30.6%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:8.6e-54],MGA_271
sequence1	MetaGeneAnnotator	CDS	254318	255505	.	-	0	ID=MGA_272;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496851.1;translation=MILDFLKIAIKNISKRKLRTFLTILGIVVAISAILSLLLLSNGLENSIESEFDKIGSNRIFLTSEGGLESNLAVSSLSEKDIKVVERTPGIDSVVKMLVSTEEVNYKNEKNIIQIRGLDYENWERLFVNDYGISLTDGRYLSNKDNYNVIIGWATSNTAFNKKINVGNSIEFLKNKFKVVGIFERVGADQDDKVIYVSMNLLRELINKPDKISFADIIVNPNSDVLKISEKIDRRLEKSRGKTDYSLITPDQLLEQTNNVLGIIKTVIIGIAIISLLVGSIGITNSMYTAVSERKYEIGIFKSLGAQKKDILKLFLIESSIIGLLGGIVGTILGISIAKLIEYIVSIYSPIGIIINLDVNLIIFSILFAMFFGILSGLSPAYSASKLKPVEALQK;locus_tag=LOCUS_02700;note=WP_064496851.1 ABC transporter permease (Methanocaldococcus jannaschii DSM 2661) [pid:32.5%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:5.5e-61],MGA_272
sequence1	MetaGeneAnnotator	CDS	255517	256842	.	-	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKNNKKIILLLVLVIIFSAFTGANTFRNKFGLQLDLISQDPEIVKPGDTVDLKFRLQNTGKDTINNVKIRLEDSNILTFIGEKEFDFGDLYLDIIGSESILFYTTAQVSPNVNSGDHPISVNIISGISKHLWDSFQLKVEKVTSDIAVRGVTYSNEQLKPGDISKIKIQFHNGNEEGLYNFDVSLNLDNLKIAPYGSTGRKTIDYIEPNTDFEIEYELIIDPNIESKVYKIPFTYNYKNFDRKEFTENGVFAAVVSNPPSFILNLKETNGLVEENLGSIILDISNTGISELKFLNIKIEESEYYDIGKSQNEYIGNLDSDDLDSAEFFIKPNRDGDMSIKFNLFFKDDFNKVYNEQKEINVEVYNRDDAYTLGIIEKKQNWLFVNLTIFAVCFSFWLFMLINLLNNIKLNKREKYIWIFLLIAGNVVGAIIYYFIAKKT;locus_tag=LOCUS_02710;note=MGA_273
sequence1	MetaGeneAnnotator	CDS	256888	257577	.	-	0	ID=MGA_274;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023108.1;translation=MDEVIKLVNVYKEYKMGKVSVSALKGISLDIKKGEFVSIIGPSGSGKSTCINMIGCLDTPNKGIVYLDGKNIAMLDESNLAQIRGKKIGFIFQNFNLIKTLSALDNVSLPMIFQNIDIATRHKIAKKYLSLVGLEKRMHHMPSEMSGGEQQRVAIARSLVNDPEVLLCDEPTGNLDSKNGKNIIDFLLKLNREQNKTIIIVTHDNEIAKITDIELLLKDGQLIKKRKKR;locus_tag=LOCUS_02720;note=WP_011023108.1 ABC transporter ATP-binding protein (Methanosarcina acetivorans C2A) [pid:52.9%25%2C q_cov:96.5%25%2C s_cov:80.7%25%2C Eval:3.3e-63],MGA_274
sequence1	MetaGeneAnnotator	CDS	257629	258447	.	-	0	ID=MGA_275;product=septum site-determining protein MinD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496413.1;translation=MGAKVFGIISIKGGVGKTTTVASLGHILSKSFNKKVLIVDGNFSAPNLGLHFGLINPEITLHHVLNGYSKYKDSIYTHNLGFDIIPANLLNKKVNPYKLKKIINRAKKDYDLIILDSSPNLNNEIMGVVESSDFLFLITTPDYPTLSTTMQAVKVAKSSNIPIAGLILNKVRNKKYELSINDIQNSTQTPVLASIRDDHKVLEALSKLVPITQLYPNSDVSKEYKKIAGVLAGVKFNEKNFVSKVKDLLIRSVDKEELNRDILMSKLKELRQ;locus_tag=LOCUS_02730;note=WP_064496413.1 septum site-determining protein MinD (Methanocaldococcus jannaschii DSM 2661) [pid:31.6%25%2C q_cov:89.7%25%2C s_cov:98.1%25%2C Eval:7.7e-31],MGA_275
sequence1	MetaGeneAnnotator	CDS	258521	259843	.	-	0	ID=MGA_276;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020262.1;translation=MIDIVVGRSSSDKKKWGKKGTVYIGKSYIKMGHDVSLANPVYLDVSRAHQIFVVGKRGTGKSYTMGVIAEGMIDLEPEISQNLSIIMLDTMGIYWTMKYPNKKEESILKEWGVSAKPLNVNIYCPIGFYNDYKKRGIPVDVPFAIKPKEMEITDWAMLFKIDQYGPIGIVFENVLNKIHKITSDYDLSEIIKYVKKEEDIEKNTKLALTNLLENAINWGIFDKNGTDLISLSKGGQVSILDVSAYATVKNGWEIKSMVIGLVAKKLFNYRMISRKYEEFEAINQSMHYFTQKDASKKKQEMPMVWLIIDEAHEFLPVHGKTLATDSLITILREGRQPGISMILATQQPGKIHTDVLTQSDTVISHRITAKIDTDALGTLMQSYMRSGLDGYLNELPKKKGASIIFDDNNERMYPMQFRPRFTWHGGEDPVAIKKEKKYFE;locus_tag=LOCUS_02740;note=WP_011020262.1 nucleotidyltransferase (Methanosarcina acetivorans C2A) [pid:36.1%25%2C q_cov:95.2%25%2C s_cov:90.3%25%2C Eval:3.5e-75],MGA_276
sequence1	MetaGeneAnnotator	CDS	260146	260319	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNFLKVQCKECNNEQNIFGYAKSIVKCVVCKNVLAKPTGGKAKLEKAELKEELEC;locus_tag=LOCUS_02750;note=WP_012981369.1 30S ribosomal protein S27e (Methanocaldococcus jannaschii DSM 2661) [pid:57.9%25%2C q_cov:66.7%25%2C s_cov:62.3%25%2C Eval:1.1e-07%2C partial hit],MGA_277
sequence1	MetaGeneAnnotator	CDS	260313	261116	.	+	0	ID=MGA_278;product=translation initiation factor IF-2 subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878034.1;translation=MLIKREGLPDLSEIVICTVKSISNAIVFVNLDEYENKQGLIHISEISPGRIRNIRDYVKEGKKIVCKILTVNKEKNQIDLSLRRVNESARREKVDELKHEKIAESIIDSSAKELKLKTIELYKIIWKKINKNYDYFYPLFEETVVEGESKLEKLKIDENQIKVLCKYIKQRIKPPVIEIDGKYNIFSYRPNGAECIKEIFKKAIKKVKDDEVVFKYIGSGIYSFKVKAKTYQDGENIIKKFHPLFENEFNDDPMTTYSFDRQKKSNK;locus_tag=LOCUS_02760;note=WP_010878034.1 translation initiation factor IF-2 subunit alpha (Archaeoglobus fulgidus DSM 4304) [pid:36.1%25%2C q_cov:89.9%25%2C s_cov:89.5%25%2C Eval:1.1e-37],MGA_278
sequence1	MetaGeneAnnotator	CDS	261119	261298	.	+	0	ID=MGA_279;product=ribosome biogenesis protein Nop10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867970.1;translation=MAKSINKCHECNIYSIKDSCPNCNNKISEEKPGKFSVEDKYGEYRRKAKKEILKEKNLY;locus_tag=LOCUS_02770;note=WP_010867970.1 ribosome biogenesis protein Nop10 (Pyrococcus abyssi GE5) [pid:49.0%25%2C q_cov:83.1%25%2C s_cov:81.7%25%2C Eval:4.6e-09],MGA_279
sequence1	MetaGeneAnnotator	CDS	261295	261729	.	-	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEIIIILIVLFLLIFIYKILKFLFKWALIVAIVFIVFYFLSFLTPSFDSYILENSTSKKELDQINIDQNNLIILKSGVVFNEKINILFYDLNEGKIIINQTEDVLIGAFSNEYNISNITVGEYELKIIGDDYQYTNRFLAMD;locus_tag=LOCUS_02780;note=MGA_280
sequence1	MetaGeneAnnotator	CDS	261726	262439	.	-	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKYEDIINPKKNKRVAELLEKDKTREIPSNDKIKISSSNNFDQKFDENLTNNLNFDGNFKLDFLKVCQNISEDKSKKLKQNLSNSVSESGSYIDGLKLKDKNFSGGLFFEKGDLKLKNSNKDSKFQNLFGKIFKKDTNFVHINDLNTEQSSISEQMEQKEVELNSSEINNSIDKNDVIFQLKNRFDIKNISESDNEVEDKEELNEVEENDLESIENKSDLKSNILDEFKKIFSKE;locus_tag=LOCUS_02790;note=MGA_281
sequence1	MetaGeneAnnotator	CDS	262491	263384	.	-	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIKIFRFFLSLILISMFLINFSSANQIELIGNSDNIIQINDDFLLNLKVKLPDNISKNDFNFYLLIKKDGKLLDKIDNLNIILNKDNLISLDYSFDKKGIYIIEWNLENSKEKYKFEEIIVMFDNISLINELDLEKLNNYIEKNEFFQDFDESDIFLIDNLLSEISNTNYKENYNLPEYNNNNSITKIENDLTGGFNLNLSDFSSNSLYAFFAIALVLCAFVVFDFNKVKKSNNNDNLNTNRSKFGLKSYLNHKKELYKRNHKSEIFNKSKKVKSLIDKHKKFIHKMSYNDINDDD;locus_tag=LOCUS_02800;note=MGA_282
sequence1	MetaGeneAnnotator	CDS	263440	264033	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKSWYSNCTLENLDALKTGLRHAYDPINSFKYAAWIVDAWTGGDIFSTDLRKRLDEKQKFKFLYRQTEFDYVDSGHKLHLMTREGMVGVFIDDKTYSDLLTTLNVVGERIPLIGTKLISHFNEDTLVDLDTKKRLVTLEFNERLNKGNLSDMIESVGVIGEMSLLKESDVNVGAHIYELKSNGLRFYSSHNLLK;locus_tag=LOCUS_02810;note=MGA_283
sequence1	MetaGeneAnnotator	CDS	264196	264786	.	-	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNYELSKKEEWFSGFNSREEFERSVGNLKIGDAYKIQAYGAFIVDVWNKGPLLDYDTSLELKKQTNHFKFLHGDTDVDLFSGWNMHLITRDGMVFVNLNESIFKNLLGVVGSEDPSSLLKRRLGVYTSEQTFTDLDTRENLLTLEYKKSDQDKNLDTLIKNAGNIINLFSDKIPVHFYRLNNKGLLFYSTQDLS;locus_tag=LOCUS_02820;note=MGA_284
sequence1	Aragorn:1.2.38	tRNA	264840	264911	.	-	.	ID=Aragorn_6;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	264927	265012	.	-	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	265109	265453	.	+	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQIIEQTNNRIENIETESKDTSIYFNQLENSFENFINISKKKLKLLNEDLFEYKKKLNRIKIESQVIIKSIQNKGKFEDLNKLKSLIEKLQIESLATIKDLDKKIDDIKKGYQ;locus_tag=LOCUS_02830;note=MGA_285
sequence1	MetaGeneAnnotator	CDS	265486	266034	.	+	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877436.1;translation=MTQETTPETMGEQTCPMCLKPSLSLCEFSKDIPFFGVTYFFSMNCDNCQYYKSDLESAEEKEPSKYTININKDDLNIRIVRSSYSTVKIPTLKMDIKPGPSSNGYISNIEGIINRFTKILEQIRDGSEDKSARKSVKNQLKKISDFKFGTQELKIIIEDPTGNSMIISPKAVKEKLKVKKTK;locus_tag=LOCUS_02840;note=WP_010877436.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.9%25%2C q_cov:85.2%25%2C s_cov:79.6%25%2C Eval:2.3e-25],MGA_286
sequence1	MetaGeneAnnotator	CDS	266027	266548	.	-	0	ID=MGA_287;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870047.1;translation=MAKLRKFVTYRRLERPYTRKSKFRNKSFVRANPHNKVIRYVMGNQKKEFLYIVKLVSETDLQIRHNAIEAARQSCNKYLEVNAGREEYKFHIRLYAHHILRENRLASGAGADRTSSGMKHSFGKSLSRAAQVKKGKVVAEVRTSSNNIVFAKTALKRFSHKLPNSWKIEVRAI;locus_tag=LOCUS_02850;note=WP_010870047.1 50S ribosomal protein L16 (Methanocaldococcus jannaschii DSM 2661) [pid:45.6%25%2C q_cov:98.3%25%2C s_cov:94.8%25%2C Eval:2.7e-33],MGA_287
sequence1	MetaGeneAnnotator	CDS	266621	267277	.	-	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSGSDNIRVLITSLFLTISIFALGLVAAHGLDFIRLNVLDDNFNNHVMNSDFLILEKEFLNTFDTDFCFDINNKLINLSTDMRDIGREMTSFGALTLFKKDEFDLLKRNFFLLELNYYSQILELNEKCDGGYLPIIFFFKADDQISERQGFIIQELMETHKQVVAINLDIDFKDEYLINYLIDYYNITQAPSLILNETIKLEGLQYQNDLLQLIVSQ;locus_tag=LOCUS_02860;note=MGA_288
sequence1	MetaGeneAnnotator	CDS	267274	267903	.	-	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKERHFFSIILIFLLVFFICGIFIGRYSVTIEFDEYDKLIKKIELDSQSYNVEQNLIKSLIKEDCSKMNTRVDLLFNELFKLGSFLDQKEKTNEFDDNFYLLKKRYNLMQIKAYLTIYNIKQECNYDSPIIIFFYADNSVSKKQGFVLDEIVNNYGAKVFAIEYGYAEELIFFETFYDVEDTPSLVINYNTVLNGFSEYEIIESNLK;locus_tag=LOCUS_02870;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	267897	269132	.	-	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYLILIIIFISLYLSIVWLSFYLISLDKKKKDILEWPGITICIPVYNEEDSIKKTITSVNDLDYPKDKLEIIIVNDGSTDNSLNIVKKIILELKNKNIKLVNKSNGGKSSALNLALRTSKFEYFSCVDADSLVSKNSLKEIISNFNDETIGSVISSIKVNKPNTFYEKIQWIEYLLSIFARKIMSDIGTLVIGHGVLSVYKKNLLKKIGGFDSNSMTEDFEIAMRLKYYGFKTIIEKNAITYTNVPNNFYNIWKQRIRWFRGFIICNWKYKNMFLNKKYSAFGLFQMPVNIIGIFLLVFGVGWIIFNLIFNLYEFVLRVYLIDNYIFNYIFSSVSLKNFLLNQDLFLVIPLLFATLITLITIYLAHKMNSEKALYYPLSFMIYIFVYPYITFIHWVAAIFYEVFKFKKKW;locus_tag=LOCUS_02880;note=WP_052279165.1 glucosaminyltransferase (Methanosarcina acetivorans C2A) [pid:30.7%25%2C q_cov:63.5%25%2C s_cov:62.6%25%2C Eval:3.5e-34%2C partial hit],MGA_290
sequence1	MetaGeneAnnotator	CDS	269281	269706	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFFDSLKDKVSQTFKGNPNKDDYELSGESTPDEYLEVGGGFEEHEKSTSNVIIRPFILVDFEDIKDILQSLREGNTICLINIKPLKEKDMIELKRAINKLRKTCDAIGGDIAGFGDENWVVVTPKMAEIYKSKQMEYFEE;locus_tag=LOCUS_02890;note=MGA_291
sequence1	MetaGeneAnnotator	CDS	269775	269939	.	+	0	ID=MGA_292;product=DUF1931 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903690.1;translation=MENLINKSKIKETTDLNVASDFYEHLNKVLHELIQKASERAKANGRKTLKPMDL;locus_tag=LOCUS_02900;note=WP_010903690.1 DUF1931 domain-containing protein (Halobacterium salinarum NRC-1) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-08],MGA_292
sequence1	MetaGeneAnnotator	CDS	269956	270429	.	-	0	ID=MGA_293;product=lipoprotein signal peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RH46;translation=MNLDILKSNIKKIFQIKFFIYFIFLVLIDRVIKIFTENKILNLINTNIFEFNIFYVKNTGISFGLFGGYINLFIIITIIFFLIQILFYDYIKEYGFWLLILNAGAMGNLLDRIFFGYVMDMFSLKVFFYTFNIFNFADILITISVIVILYKEIIKKN;locus_tag=LOCUS_02910;gene=lspA;EC_number=3.4.23.36;note=Q8RH46 lipoprotein signal peptidase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:32.2%25%2C q_cov:86.6%25%2C s_cov:85.5%25%2C Eval:2.7e-12],MGA_293
sequence1	MetaGeneAnnotator	CDS	270410	270877	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFVDKLKFWKKEDDFDELNFGSDDLNKDYHNENNEMQNDNVHNNNQHDDQYSNNLNNVDGHNTNNQNFNDNLNSHDEINNQNDVDMNGPIRNDANKNFFSGSNHIKNQQDDHMNFQTINMKLDAMRAYLDLINSKLDKLENDLKKNKGNEFRYT;locus_tag=LOCUS_02920;note=MGA_294
sequence1	MetaGeneAnnotator	CDS	270879	271577	.	-	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKHVRKFFGHVVKGLEKKDKFFKTVFKEDKQQSLTKPSDWNLVKKELKDIYDGVQTNKFNLEILQESNNNIESEIEKINQFEQNLAQVLGKIEIKDIEHNEKYKTDIIRKLNSNILNVDNHVNNIKKIREHKASGLQNRLDKLENLMLQIIDNHNKVITETKVRKHRINHIEKKMSKHLGNEDFKIIELKDKIENLEQLYKNAVKGYADPNILTKIRAKINLFKKTIEDY;locus_tag=LOCUS_02930;note=MGA_295
sequence1	MetaGeneAnnotator	CDS	271582	272238	.	-	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNDDYEFISRDSLNQLHSEIKNLKTDGTQDVVNHDEELHKSIKSLTSTLKGLIDVFHDASLEMKLEDNENQVLKKRLDPIESKVDVLIEQNKKIAQGLIAITEAVQAKFDEIENAMGLTQNGPQDLNQNQGQYDQMQNNQMPDGQMEQMGGVPPSNNFDMPPLPPEQPNGMPQGSPQFNDGGQNLPQGGMSMPPDMEPHNDDQLKNTFGSYSQNQH;locus_tag=LOCUS_02940;note=MGA_296
sequence1	MetaGeneAnnotator	CDS	272306	272743	.	-	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYMNKYLYKFTGYSLLGIIIFETIFFLYLDLTGSSDSSNIFGNLFLSLFYLIIVYFPAKYFIDISNNQSKHTKLANCSLICSMISLFIIILTIILVLFAAMTMFKDNPPASLILVGLLMYGLMISLFFFLVSYIFMIIDRIRRK;locus_tag=LOCUS_02950;note=MGA_297
sequence1	MetaGeneAnnotator	CDS	272781	273005	.	-	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLWGIFNAVYYGGKKNYFNPFELKARFQFMMFFWPAFFGRKTNFPLEFYYNLKVVKWCLLAIIILMFIAAII;locus_tag=LOCUS_02960;note=MGA_298
sequence1	MetaGeneAnnotator	CDS	273126	273500	.	-	0	ID=MGA_299;product=30S ribosomal protein S8e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868249.1;translation=MAYLKTRSKRKISGGRFFNYTPRRKSQLGSNPSLTKIGETKLKIVRIMGGNKKKLLLRAEFCNLAKKDGTFSKIKINSVVENPANRHFVRRNIITKGSIISTEQGNAVVTSRPGQVGVINAKLV;locus_tag=LOCUS_02970;note=WP_010868249.1 30S ribosomal protein S8e (Pyrococcus abyssi GE5) [pid:54.4%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:1.3e-27],MGA_299
sequence1	MetaGeneAnnotator	CDS	273615	273977	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFQINTISKKLENFNIIFNNYNETEYSQKILINLIEIIGDCILELKKQVKISDNLQKILNEISNTIEEYKKSPMVFKKKDKLIIANKEYKLCALTKDIVKNYYDNLIREIKTFVENGKR;locus_tag=LOCUS_02980;note=MGA_300
sequence1	MetaGeneAnnotator	CDS	273964	274458	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDSEEYSNNNYYLAKEDFKRVDHIIYVSLKYTKTVDMMRNGIDRMISTMYYLREYLLCLAYEKNLIENIPKIEVYKGNLLKKLINLEEFDEFISFYRKIRKIVKSDFTKHCEFRKHMCMMIEDDEYGTVKVGTEEVLNFFEKLNGYMKLIKKIEEENFFITQ;locus_tag=LOCUS_02990;note=MGA_301
sequence1	MetaGeneAnnotator	CDS	274498	274995	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEINPATIKIKFSMTYNLIRVTLKNIKNVDNILNTLNSVLETYKEIREFIISDLIEKELMDNLEKYEIKRENKLNEFLKNDKISEYIYQFRKIRQLLIKNEFETINLFRKHFTIIFKDDHNEKFEFTQKKLEFVYNDLEDFYKLVQELIELDYNLKTIEAENLE;locus_tag=LOCUS_03000;note=MGA_302
sequence1	MetaGeneAnnotator	CDS	275027	275728	.	+	0	ID=MGA_303;product=septum site-determining protein MinD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877442.1;translation=MTRFLGIVGSKGGIGKTTISLNLANSLTKMKISTIAIDGDLNSPDFSMYFNNNNKHINQVNEGKESIFEIINQTESGLNYITSSFKLDHLHSPNISKFNNSISKLMNKFEFVIVDTGSSLSKESMIVTNACSELLLITEPNSLSVKEALRTKNIFEHFNKNFMGFIINKQTDSKFELKSDEIKQILQLPLFGTIKKDKIINDCLHNNILSTDYSLHIDSSKSFLKIAKRLSKK;locus_tag=LOCUS_03010;note=WP_010877442.1 septum site-determining protein MinD (Methanothermobacter thermautotrophicus str. Delta H) [pid:26.1%25%2C q_cov:84.5%25%2C s_cov:76.8%25%2C Eval:1.5e-21],MGA_303
sequence1	Aragorn:1.2.38	tRNA	275782	275856	.	+	.	ID=Aragorn_8;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	MetaGeneAnnotator	CDS	276070	276315	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKKDKKTKKVKKYPSKVEETVKKIQNIEAPEVEEFKIENENKIDRFRTFRNPKDRLPLKEIGARDKKGTRRKLKSQLKK;locus_tag=LOCUS_03020;note=MGA_304
sequence1	MetaGeneAnnotator	CDS	276327	276845	.	-	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKLYKKLKQKKWSEEEILKTANIIKRNKQKSINLEFQYFLILLLCIIGNLLASILVIPILIKFNNNFAFVYVFITIIAFVFGVLINYALGELEIIDDKYSTLVLIFVSFIIIFNSVNVLDFSNTITQNILLSLGRESIMLEPFAIGLIYFIAYLIPYSSFRYSNRNRLAL;locus_tag=LOCUS_03030;note=MGA_305
sequence1	MetaGeneAnnotator	CDS	276887	278635	.	-	0	ID=MGA_306;product=translation initiation factor aIF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878271.1;translation=MIRKPIVSIMGHVDHGKTSILDSIRKTNLVSREAGSITQHIGATEISFDLIKEQCGDSIKNTIGENFPGLLFIDTPGHAAFTSLRKRGGNLADIAILVIDINEGFKPQTIEAIEILKSYKTPFIIACNKIDLIPGWNLKKGSDIISSINSQIDSVVKIFETKMYEIVGKLYEMGFKAERFDRVSNFSDELALVPISAKHNFGLNTLLMMVGGLAQKFLEKSLEVHLDAPAEGIVLEVKEEQGLGTIMNVLIFDGTIKKNDILIIGDVEETKVSKVKSLLIPKTVGDIRDKKTKFISVNSVQAAAGIKISGSDLNGVLSGMPFKAAKNELEIESIKDEISSQIEEVFLDVNKDGCIIKADTIGSLEALLMLCKEHNINVRKASIGNINQKDIIEAGIDTDLINRTILGFNIKCDVSHDDVKLILSDVIYSIIDQMEEHKNWAKIKDEQGKLKGLNVPSKIELLPQFVFRTRDPVIVGVKILDGKLTLGTKLMKSDGSVIGEVKGIKKGKESIKFAIAGDEVAVSMTGFTLGRQVLDDDVLFTSLNEETFLKYKELKKYVPSEYKSALSEIAKIMREKNPVWGI;locus_tag=LOCUS_03040;note=WP_010878271.1 translation initiation factor aIF-2 (Archaeoglobus fulgidus DSM 4304) [pid:41.6%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:2.2e-136],MGA_306
sequence1	MetaGeneAnnotator	CDS	278766	279146	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRQQIPDILEENQLPYELVKVRSLSVCKKELEESPDEYLGLYYEPAEYMLNLDRIPRELLSDILKIKPIILYTTFEPKENSLNYVGLFKLEEGKHYSHYLCKFQRPIIQNFIESLEKLKEYNKKN;locus_tag=LOCUS_03050;note=MGA_307
sequence1	MetaGeneAnnotator	CDS	279154	279414	.	-	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPEHVHGPDCNHDNDDNTEDFSTEELVFAANDKVDILVDLLVKKGLITEDEYEQELNRYYKELEAEENNDSNNSENNNQSDSSQE;locus_tag=LOCUS_03060;note=MGA_308
sequence1	MetaGeneAnnotator	CDS	279495	281894	.	-	0	ID=MGA_309;product=Hef nuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020155.1;translation=MIKPRKYQLSIINTAYNKNTLVVLPTGLGKTLIAFLLSRIFLNKYKNKKILFFAPTRPLVLQHEKNCNEILSEFKSISFTGSIKSDKRSELFKQNDIIFSTPQGFENDIISNKINLSDVSLIIFDEAHRSVGNYSYNYISNQFNKKNKDGRLLALTASPGSNIETIGEVCKNLFIGEIEYRSAYDHDVREYVQDSAVIELKIKFPDELKTIQSLLNSCLKSKLKDIKDRNYLNFDLNVITKTKLLMLQSKLSREIINGDKNMDLLMSVSLCAQALKCSHAVELLETQTLHSLNDYFDSLFEDSKKTKVKATINLVKDSNFITARNLTKQLLSKQFIHPKLGKLNDLLKNKFSNNKKFKCIIFNQYRDSAISVYNHINGIENVNPILFFGQAKKKGMGHSQVEQKRIIEDFRNSKYNVLIATSVAEEGLDIPLVKAVIFFEPVPSAIRTIQRRGRTARDDYGETYVLINEGTRDEAYKWSSFHKEKRMYRILKDLKNELSLVKVNKNDKQLEFDKIKTLAKSINMDDEHIEKNKLDLDFNKNIKVSDFENDPLLEDDEITLDVGNNLQLNLNSFVSKNKTELKKEKNDFLIIVDHREKASNLIKEFEIHNIKINLKSLNCADYILSENVAIEYKLDDDFIQSIFDGRLFTQAKELSSLYLKPIMVIESNNGIFNTNNISNSQIFGAITSLLLDYNIPVIFTRNKKETVDFFISIIKREQGDNFKYFNPHTSNKPKDTIDQIEYVISALPSIGFSLAKVLLYHFKSLKNIANAKMSDLLKVEKIGESKAKYIFDIFNKKVK;locus_tag=LOCUS_03070;note=WP_011020155.1 Hef nuclease (Methanosarcina acetivorans C2A) [pid:35.0%25%2C q_cov:99.9%25%2C s_cov:98.7%25%2C Eval:4.1e-131],MGA_309
sequence1	MetaGeneAnnotator	CDS	281961	282263	.	+	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNRNFMIYDLLYKILILLDILSLTSTIMIIFQIHYWKFVMLHGFLLLVKDYYFFGDFITNIELFFAIYLLLAPLGFINEVLNVLCLFFFAYKIAISIL;locus_tag=LOCUS_03080;note=MGA_310
sequence1	MetaGeneAnnotator	CDS	282336	282602	.	+	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKMKKISETFDMRVFTDTGEYFGDLEESIITSNKIYGWRVRASKNSYLAKILGAAKGVVIPHSFIKAIGDIMIISKNAIPTQEEGEN;locus_tag=LOCUS_03090;note=WP_010879029.1 photosystem reaction center subunit H (Archaeoglobus fulgidus DSM 4304) [pid:44.3%25%2C q_cov:79.5%25%2C s_cov:65.7%25%2C Eval:7.0e-07%2C partial hit],MGA_311
sequence1	MetaGeneAnnotator	CDS	282670	283512	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSIKEVFLSIKENFDVKKSEIKDLLLISLLLGIGISFTNFNQVDGFVNSIYYLFYHIAIVFITFTFYITGIKVFSSILYYKAKFNVQLIGAFIFFVILWLTNGSLVLGSIIYILIMVIESLIVMRFVEVKNKLLKDFRSNKRKIFAYCFNFSPIIDKRINKEKRSKFSDIGWNYFFGFLFVLILYTIILKSPFYNTGNEYVIANYFILWFIIYNLIPYPPQAGIYILFSGRSRYIFILSLITIYLLLIHFLSTFSVILISILISLLILYFYFHHFEIHY;locus_tag=LOCUS_03100;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	283561	284250	.	+	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIKINSNEIVLLGTSHISPKSVKDINNFVQKNNPDIICIELDKNRAIGLFQKGKRKYPLSLIKRIGFSGYVFALIGSYIEKKIASKIGTKVGDDMKAGILSANKHKIPVAFIDQNIEITLRRFSKLFTFKQKLKLFWFIIKSFFTKQEKIAFDITGVPEQDQIDKIIEMLKPNVPVFYNVLIEERNVFMVNKILRICKKEQDKLILCIIGAGHKKGMAELLKKYNKN;locus_tag=LOCUS_03110;note=WP_002656981.1 pheromone shutdown protein (Borrelia burgdorferi B31) [pid:36.4%25%2C q_cov:100.0%25%2C s_cov:56.2%25%2C Eval:9.2e-29%2C partial hit],MGA_313
sequence1	MetaGeneAnnotator	CDS	284227	284913	.	-	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023081.1;translation=MSSLDFEIKRKSVHLVSLTYLFLFTFVEFYFNYKIAIYFLTFLLIIHFFYEEIRLRKARNFFEKYFKKYTTKLNQFHRLHEQNSMSGSFYMLLGIVISLSIFNYNIAIAVILMAIFGDLFAALVGKKFGKTKFLSKTLEGTTAGFLVNLIIAFIFLRGSFEIFGNSTLWNVLNNIFTNFNLLELNLYLIFAAAFFASFAELYFENIDDNLSIPVFSGFFTFLIFIIFF;locus_tag=LOCUS_03120;note=WP_011023081.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:30.7%25%2C q_cov:91.7%25%2C s_cov:88.4%25%2C Eval:2.3e-19],MGA_314
sequence1	MetaGeneAnnotator	CDS	284953	285108	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDHKKKEKNVVSLIEILSDSEYKCTILKDHRGEFDIIDSDDLMIVIDKDD;locus_tag=LOCUS_03130;note=MGA_315
sequence1	MetaGeneAnnotator	CDS	285317	286078	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLNKITLVASLTGLLATNPVYSVDFKDVPKDHRAYKDVKNLVSKGIFDDDYIFRGKHNVTRYEFSMGLSRLANYCETKDDPTYRNVTRLVTEFSNELALLGADVDALRAKTMENEKRLDSDDSTNSNGDYNLDLLAPLFGNQIKILDLKNTMDSESQIGYFINSFEFYNKNKSFDGYVWFSFNGNERNRDRLVSQFDDEKTLNFFSRWFSPKRKVTLYTSLEDLSENESDADYFCKASQRGFVFSCDSAKW;locus_tag=LOCUS_03140;note=MGA_316
sequence1	MetaGeneAnnotator	CDS	286132	287166	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFNYIKPLSLSFLLMNSGCGLVNDKPVYEKPESYQSSKIISKSIEKTIDDFFKNSNSKQLNVNFKQDDYQLELNHKFLQVDSKPKSLDSEKYNISFYCSPKNDSFFKLNLLDGDNKIKETIKLQAYVFGDNISLSNSDDNNIYPYSNIFESELNNLNDFLKNVNIDDYSNLLENQKLLFSFFEPSKYNYFYFYLKNNTNPDSDLYKSFSQYTSFTFDQNLSFNYELEGRHKKTGDYFGFRFNANTNSSNSYDVLIDSYYNFDNFFRFEGVFNKELTPMNFDEFWIEIDSSKYNSLLWIDREGSVNEGFGVTFSFEEFKNDYMTLIEEPLQTFSDLTSFNPL;locus_tag=LOCUS_03150;note=MGA_317
sequence1	MetaGeneAnnotator	CDS	287271	287621	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVGRICIKISGREAGKTCVIIEKNDDNFVTIIGEVKKRKCNIKHLDPTKTVLDGDLEKEFEKLGFTLFSSKPKQETIKPKKERNAKTNKPAKKEKKETKVVKKTTKKIVNKEENN;locus_tag=LOCUS_03160;note=WP_010870162.1 50S ribosomal protein L14e (Methanocaldococcus jannaschii DSM 2661) [pid:59.3%25%2C q_cov:46.6%25%2C s_cov:67.5%25%2C Eval:1.8e-13%2C partial hit],MGA_318
sequence1	MetaGeneAnnotator	CDS	287734	287997	.	-	0	ID=MGA_319;product=50S ribosomal protein L34e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875671.1;translation=MTAPNKRSRTYARVKVKLPGGNTVTRYKLRKPNNHKCGSCGSVLHGIPRERPCNFAKLSKTQKRPERPYGGVLCSPCMRLKIKSMTR;locus_tag=LOCUS_03170;note=WP_010875671.1 50S ribosomal protein L34e (Methanothermobacter thermautotrophicus str. Delta H) [pid:54.3%25%2C q_cov:93.1%25%2C s_cov:92.0%25%2C Eval:3.9e-21],MGA_319
sequence1	MetaGeneAnnotator	CDS	288038	289420	.	-	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAESVIKDNAHIIEYYSREDIINELLKQSKNKEVGICFNMKYYGQRPDVLSNAQDIITLAKAGATSFHISQETWSDPFLLQTNNSKKEMDQIRTGWDLIFDIDTDDIEYSKICAHFIIKKLNEFGISSTAKFSGGNGVHIGVVYESFPKIFNGQKMNFLFPEVPRIIINFIREDMRAEFTNYFLKNYDIEKIVNNIKENLFNDLKDFSKVENKLKLNYYKNGFFDPFSIIKVDTVLVASRHLYRMLYSVNEKTGLVSIPIDINNILNFDKNMAKIENIELNNILFLNRNVKEGCAINLLVQSYDFQIKNMIAEEEKRKTLINRQRNIPKIPEEYFSPCMKCILKGMSDGKKRSLFIMQNYLSNIGWTKEDTELLFNDWNDKHDEPLRPTYIKTHLNYHDKQKDKKLPPNCDNKTYYVDMGICKPDNLCQKIKNPVSYTIRKANTFIEEFEKKSKKNKTQK;locus_tag=LOCUS_03180;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	289734	290705	.	+	0	ID=MGA_321;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879418.1;translation=MPKTNAPRHGSMQFWPRKKAKKQSAPRLRNLQLNENIGLPIFAGYKAGMTHIQYLDNKKTSPLKGEIVNVPVTVIECPPIKIANVRFHKTDDYGTHCIGQFNNKVEKEMSKRFPLQKKESKKLEDFNDFDKVTITVYTQPKLTGIGKKAPDLMEVELNGKDNNEKIEWIKNNLSKEIKINEVFKEKIQVDIHGITRGRGYEGTTRRYNTPERQAKSEKHKRGVGSLGPWLPLVRHTVLFPSRWGSHLRTEHNKQLVKISNESDLVNPEGGFLKYGLVKNDYILVHGSVPGKANKLIVLSNAKRENKYMNMIDNVKYISKKSKQ;locus_tag=LOCUS_03190;note=WP_010879418.1 50S ribosomal protein L3 (Archaeoglobus fulgidus DSM 4304) [pid:40.8%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:1.1e-58],MGA_321
sequence1	MetaGeneAnnotator	CDS	290760	291569	.	+	0	ID=MGA_322;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875645.1;translation=MNSLKIYDTNGKEIGKIEMPEQFNQQIKYTLIKKCVLALRANARQKYGADPLAGQKCVANMSHRRRKFNTAYGSGQSRIPRMRFSRKGTQFHRRGAFISSTIGGRRAHPPKAEKNWTQKINKKENRTAIRSALSASLNKTIVEKRGHKLGSLYPFILDDSFKDIKKTKQVKESLLKLDLNDELKRVETRKIRAGHGKVRGRRYVTKSGPLIVVDNDCDLKKSARNILGIEIVKVNQINAKLLAPGSQPGRLTLFTKSAIETMQKNKLFM;locus_tag=LOCUS_03200;note=WP_010875645.1 50S ribosomal protein L4 (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.4%25%2C q_cov:97.0%25%2C s_cov:98.0%25%2C Eval:3.8e-54],MGA_322
sequence1	MetaGeneAnnotator	CDS	291571	291831	.	+	0	ID=MGA_323;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978400.1;translation=MKSNQILKNVIPTEKGVLLVESTNALVFKVDKKANKKTIKESVEKALDVKVDAVRTQNTCHNYKKAYVKLHKDHMAIDVMTKLGLM;locus_tag=LOCUS_03210;note=WP_010978400.1 50S ribosomal protein L23 (Sulfolobus tokodaii str. 7) [pid:45.7%25%2C q_cov:94.2%25%2C s_cov:98.8%25%2C Eval:1.1e-12],MGA_323
sequence1	MetaGeneAnnotator	CDS	291833	292549	.	+	0	ID=MGA_324;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875647.1;translation=MGKRIISQRRGKGTPRYTAPSFNFKVDVKHPNPKHKISGEIQDIFRCRAHTAPVMSVKLDNGKEVQMIAPNNVLVNQKIEFNTDKVENANTCMLKYIPEGTSIFNIELNPGDGGKLVKTTGTSATIVAKLDKKVIVLLPSKKKKTINWDCRANIGVIAGGGRVDKPLLKAGNNMKKFKARGKLYPIVSANSMNATDHPFGNSRSSYKSKSKPAPKNAPPGRKVGSIRPRSQGRKKGRG;locus_tag=LOCUS_03220;note=WP_010875647.1 50S ribosomal protein L2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.3%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:3.0e-49],MGA_324
sequence1	MetaGeneAnnotator	CDS	292552	292896	.	+	0	ID=MGA_325;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021105.1;translation=MAKIFVLRGLSVEEIKKLSLAEFMPLIGSRERRTLKRGFTSEQKIFMEDVKKGRSKLKTHCRDLVITPPLLDKRIQVHNGKEFVEININPEMLGHRLGEFALTRKKVTHTAKKK;locus_tag=LOCUS_03230;note=WP_011021105.1 30S ribosomal protein S19 (Methanosarcina acetivorans C2A) [pid:51.4%25%2C q_cov:92.1%25%2C s_cov:76.5%25%2C Eval:1.4e-26],MGA_325
sequence1	MetaGeneAnnotator	CDS	292908	293372	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMLSMKNYNKENMARVLATNLRISTKYSIEMSNYLRGKTITRAQYLLDKVIEKQMAMPVKRFTDGAGHKKGKIGPGKFPQKIALEFKKLLNSITKNAQTKSIDTNNLEIIHISVNKGREQYRATRHRGRTMKLTHIEIVAHPKKKEKKSEDKK;locus_tag=LOCUS_03240;note=WP_064496502.1 50S ribosomal protein L22 (Methanocaldococcus jannaschii DSM 2661) [pid:35.1%25%2C q_cov:70.8%25%2C s_cov:72.5%25%2C Eval:5.8e-12%2C partial hit],MGA_326
sequence1	MetaGeneAnnotator	CDS	293369	294139	.	+	0	ID=MGA_327;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867458.1;translation=MIERQFIKKNINKFLIEEYLLSTLPGIGLANFKLKKTPLGDKVILTVLKPGIVIGKKGETIKRLTKELEKKFNLEKPEIELKDIEDPFLNASVVAERVKTALTKLGSKKFKAIAHRELSNIMKAGALGCEIVLTGRIPAQRSKRWRYRDGYLKKSGQIAVDGVRTSIVNAILNVGSIGIQVRIMPNTLKLPDYVKIYDEPIDISKLETKIKTLFKKDDKKEDKKSKDKKKVAKKKTTKKVAKKTTKKVEKISNEEK;locus_tag=LOCUS_03250;note=WP_010867458.1 30S ribosomal protein S3 (Pyrococcus abyssi GE5) [pid:39.8%25%2C q_cov:78.5%25%2C s_cov:94.8%25%2C Eval:2.5e-36],MGA_327
sequence1	MetaGeneAnnotator	CDS	294136	294399	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFRDLKSISDADLGVKIVELEKELLKVNGQIAQGSGIKNTSQRRELKRSIAKIMTLTNQRKKSDSKISKKTAENKIKTVKETKNKN;locus_tag=LOCUS_03260;note=MGA_328
sequence1	MetaGeneAnnotator	CDS	294396	294635	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGNYIHIKEAKNASLNDKKGFVIDITKNSILLAEQNEINSKIKKAFETKKFDLFLKVLNEQDYKKIKKTRILNGQIK;locus_tag=LOCUS_03270;note=MGA_329
sequence1	MetaGeneAnnotator	CDS	294632	294898	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKITMRGKTLNGHVVKFKAAKTATVEWEIVVRNKKYQRNYKKRNKISVHVPENIEIAEGDLVEIQECRPISKSKKFIITKKIEKKK;locus_tag=LOCUS_03280;note=MGA_330
sequence1	MetaGeneAnnotator	CDS	294895	295296	.	+	0	ID=MGA_331;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875655.1;translation=MKEVKSKITRGLPFGARIEACDNSGAKLIRLFSVKNMKTRKGRLQAAGIGDLIKCTVKKGKPDMRKKVVWAVIVRTKKSFRRANGKRIKFEDNAVVVLKDEKGTPKGTIIKGPIAKEVALRWPTIAKIANSIL;locus_tag=LOCUS_03290;note=WP_010875655.1 50S ribosomal protein L14 (Methanothermobacter thermautotrophicus str. Delta H) [pid:50.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-32],MGA_331
sequence1	MetaGeneAnnotator	CDS	295298	295669	.	+	0	ID=MGA_332;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867452.1;translation=MKTTFSKTWKSSSKPRKQRKYRFNAPIQIKRKLLASPLSKELKELHKKNAVPIRIGDKVKIINGNFKGKEGEVEKIYIKKMKIGISKIEVEKKDGSKSKIPVDPSNCVIVSLKKDKKRLENKK;locus_tag=LOCUS_03300;note=WP_010867452.1 50S ribosomal protein L24 (Pyrococcus abyssi GE5) [pid:43.1%25%2C q_cov:82.9%25%2C s_cov:84.3%25%2C Eval:2.7e-22],MGA_332
sequence1	MetaGeneAnnotator	CDS	295666	296364	.	+	0	ID=MGA_333;product=30S ribosomal protein S4e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869968.1;translation=MIKRHIKRLVFPNTWNVLRKENTFSIKPNPSGHNKENSIPISILIRDISNMTKNTKETKQLINDRVVLVDGKKVKTIKRPVGFMDVVSFEKINENYIVNLQKNGKLNLSETKNPKQKICKITKKWMSQGKNISYSTHDGRTFITKNNEYKIGDSLLVEIPNQKILKCLKLEKDCIGMFLGGGNKGKELVLTNIVETGNRQEDYLEFEIENIKYKSPKKLFFVLGNNKKSELV;locus_tag=LOCUS_03310;note=WP_010869968.1 30S ribosomal protein S4e (Methanocaldococcus jannaschii DSM 2661) [pid:35.2%25%2C q_cov:97.0%25%2C s_cov:95.5%25%2C Eval:1.0e-35],MGA_333
sequence1	MetaGeneAnnotator	CDS	296366	296878	.	+	0	ID=MGA_334;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875658.1;translation=MNVNKEIKIEKVTLNIGSGKDQSKLERGLILLEKIANKKPVRCKTDKRIQTWSIRKGLPIGTKVTIRGDEVKEILNNLLHARDFILKPTQIDQGGNLSFGIHEYIDIKGIDYIQEVGVMGLECTVTLFRNGYRIKNRKRNIRKVGKSHRITKEEALDFFKENFKINFGEE;locus_tag=LOCUS_03320;note=WP_010875658.1 50S ribosomal protein L5 (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.2%25%2C q_cov:97.1%25%2C s_cov:98.2%25%2C Eval:1.3e-29],MGA_334
sequence1	MetaGeneAnnotator	CDS	296880	297110	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTASDPKKMLKQIEHKTAKANKFRKHNLGKKRTCGFTTKKCQRCGRIKGHLDQYRLDLCRQCFRDVAIKIGFKKYN;locus_tag=LOCUS_03330;note=WP_013295326.1 30S ribosomal protein S14 (Methanothermobacter thermautotrophicus str. Delta H) [pid:55.6%25%2C q_cov:59.2%25%2C s_cov:95.7%25%2C Eval:8.4e-08%2C partial hit],MGA_335
sequence1	MetaGeneAnnotator	CDS	297107	297514	.	+	0	ID=MGA_336;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869971.1;translation=MRKSKKMMNDTIAGNLSNILNYEKTGKSEIEIRFNSKLFRLILEIMNEKGYVGKYKIIENNIGNKLIIDLIGKINNCGSIKPRFPVKVSEYTKFEKRFLPAHNFGILIVSTNKGLMTHDKAKELKLGGKLIAFVY;locus_tag=LOCUS_03340;note=WP_010869971.1 30S ribosomal protein S8 (Methanocaldococcus jannaschii DSM 2661) [pid:50.8%25%2C q_cov:93.3%25%2C s_cov:96.9%25%2C Eval:3.7e-32],MGA_336
sequence1	MetaGeneAnnotator	CDS	297516	298067	.	+	0	ID=MGA_337;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869972.1;translation=MKSKKKPLIKKIEIEQSINVEVNNNAVTIKGEKGEISRKFNSKSIIIKTEENKIIVDSIKEKKKEKKMVNTIVAHLKNMIKGVTKGFEYELSAVFKHFPMTLEVKNNKVLIKNFLGEKVPRECEIVEGVNVNLTGQKFILSGIDKEKVGSMASRLELITRVTKMDRRIFQDGIFITRKDNKII;locus_tag=LOCUS_03350;note=WP_010869972.1 50S ribosomal protein L6 (Methanocaldococcus jannaschii DSM 2661) [pid:46.6%25%2C q_cov:95.1%25%2C s_cov:95.6%25%2C Eval:3.1e-41],MGA_337
sequence1	MetaGeneAnnotator	CDS	298069	298593	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLLKIKIEQNKKRPNFLAQDSHKLKRIKNKWRKGRGSDSKVRHKLKGRKMRVEDGYRTPRKVRGLTLTGLKKLYISNIDQLNNASLENVCIVINKTVGMRKKIEIIKLCINKKLKILGCKKPEELIKNQEDKFKNKKETNVKEKKVKTENKSEEKAKEVNKKEIKEENNTEK;locus_tag=LOCUS_03360;note=MGA_338
sequence1	MetaGeneAnnotator	CDS	298590	299042	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLRTQKRLASTVLKCSPKRVKFNLESLEKIKAAIRKFDIKGLIKEKSIIKIQKKGVSRVRANKIKSQKSKGRRKGDGSAKGVRRNLNSNKRAWINKIRSQRELIKRVRENEICSKETCRDLYRKAGGGFFRNTRHIKLYIKDHNLITKK;locus_tag=LOCUS_03370;note=MGA_339
sequence1	MetaGeneAnnotator	CDS	299039	299605	.	+	0	ID=MGA_340;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869975.1;translation=MKKNYTVKNRRKREQKTDYAKRLKLLKSKIPRFVVRISNNDVTIQIIDFNPKGDTVHLTINGSTLTKQGYKGSKSNMCSAYLLGLLAAKMALKKNISKVCVDTGLKLMNKGNKIYATIKGAIEGGLNVPCKEEMLPSEERINGKHIEEYSNLLKEKSQVKFSKIVKNGLNPSDYSKHIESVKTKILSL;locus_tag=LOCUS_03380;note=WP_010869975.1 50S ribosomal protein L18 (Methanocaldococcus jannaschii DSM 2661) [pid:44.7%25%2C q_cov:97.9%25%2C s_cov:96.4%25%2C Eval:1.2e-38],MGA_340
sequence1	MetaGeneAnnotator	CDS	299620	300375	.	+	0	ID=MGA_341;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763044.1;translation=MAEMVYQERQTREEKLKKESEEKLLNWVPKTELGKLVKEGKITDIDQIFSLRYKIKEPEILDYLCPNSTLELLNIGQVKGKFGGGKRRTFRQTQKKTKEGNKPSFSTYAVFGNENGYVGLGYGKSRETIPAREKAYRNAKINLIKIRRGSGSWEDDSIEPHSIPFKISGQCSSVHVELLPAPLGTGLVCHKEVAKVLKAAGIKNIRSNIRGNSSSAINLLKALEKALMMLTKTKINESHIEKLGIVDGIIK;locus_tag=LOCUS_03390;note=WP_011763044.1 30S ribosomal protein S5 (Pyrobaculum islandicum DSM 4184) [pid:44.3%25%2C q_cov:80.1%25%2C s_cov:92.1%25%2C Eval:1.6e-40],MGA_341
sequence1	MetaGeneAnnotator	CDS	300372	300746	.	+	0	ID=MGA_342;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875666.1;translation=MKIALIRIRGQTGIRKDIKDTLTMLNLHKNNYCSIIELSDSNKNMVKKVENFITWGEIDTETEKLLSEKKLEKDGRDPSKNKKYFRLNPPVGGFERKGIKKHFTIGGALGYRNNKINDLIKKMI;locus_tag=LOCUS_03400;note=WP_010875666.1 50S ribosomal protein L30 (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.5%25%2C q_cov:97.6%25%2C s_cov:98.7%25%2C Eval:2.2e-19],MGA_342
sequence1	MetaGeneAnnotator	CDS	300751	301239	.	+	0	ID=MGA_343;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250470.1;translation=MARKEKRKSNKMRARTTHGWGSMKKHRGAGNRGGRGNAGSTKQRAQLYLGKGLNKKGFKNLNSSKKEFITINTLELNSLYERMLKSGKIKQSDNIINIDLNLLGIEKLLAKGTVDKKFNINVLIASKKAIEKIESVGGKVNLLSTKNTEEEEDNSQEEVSEK;locus_tag=LOCUS_03410;note=WP_011250470.1 50S ribosomal protein L15 (Thermococcus kodakarensis KOD1) [pid:28.3%25%2C q_cov:85.8%25%2C s_cov:98.0%25%2C Eval:8.7e-12],MGA_343
sequence1	MetaGeneAnnotator	CDS	301215	301802	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYDIRRNLRYSFNIKGFLAGDDIRGVMKFNSIGGMDSIENICANFIFGRETNCLTLFDSSLYFYGTFNQLEKNYRRGTPFKPCELEQMKDKDHKFKYGGVNVNMTEFGFFKIPLYKLNLSKNQKQLIDILFLENSSNLFDLTSGLEQVEIDFKHQGFNTMFSHFPKFLTESILKTKSYFTKQDTIKNYFSETSS;locus_tag=LOCUS_03420;note=MGA_344
sequence1	MetaGeneAnnotator	CDS	301834	302673	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKMNKLIFLIVILLSVALISIYLMPINDIDIKSILLNNTKQLESYSLNVNLEYEITINNESVSYNNKIFSHIDMDLINKLMFIDSSVISLSSGQQKNIKTKTYVDGNLVYSKINGIWESFPITSDIWNNNDQIIDLISDIESSEIKRLSDEKLNGVYYYAFSLYPNMDLVKDKLIRDLGGDSNIVESEILNYEKNILIDKDTFNIVNVDENVLIKFFPKDVRSINKIETLIVNYKNKLNFYNINNDIIFDLPSDLKLTLNGSDISDSPLVANVFAEIK;locus_tag=LOCUS_03430;note=MGA_345
sequence1	MetaGeneAnnotator	CDS	302715	303464	.	-	0	ID=MGA_346;product=glycerophosphoryl diester phosphodiesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001832720.1;translation=MTLPIIVAHRGNSNYFVENSFEAIFTAIHNKVEYIEIDLRQTKDGQIIISHDNSLRRIFKKKGVISSLTHKEILDLCSDGTEVLTLDYIIKLLNGKTKFFFEIKNTCNEFLVLKKLEELNCKDYIIGSFFIEKLKNIRKQNRFVNLCHMSLIPKLDLISDFKKYNIKYVSIGDSFLFTKKTHQKYVDNNIKDIVFTINSLKKCNKYIKFGVFGITTDIPFEIADHYKKLNADSLLINNLKPQKKIITKN;locus_tag=LOCUS_03440;note=WP_001832720.1 glycerophosphoryl diester phosphodiesterase (Staphylococcus epidermidis ATCC 12228) [pid:28.4%25%2C q_cov:87.1%25%2C s_cov:94.4%25%2C Eval:1.9e-14],MGA_346
sequence1	MetaGeneAnnotator	CDS	303556	305055	.	+	0	ID=MGA_347;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875668.1;translation=MGLLDGLISLIPEVSKPMEKKLSFKKKLYWTLAILIGFFILGTLPLYGLGEDRLAQFETLSIIIGASFGSLMTLGIGPIVTASIVLSLLQGSGIINFDTSTEVGKKRYHGISRLLGLGFVLFEAIVYVKLGALAPATVIDGIAMNFGAQKVIESLLILQLIIGGFVVLLMDDVINKWGFGSGISLFIVAGVAQQLVMRIFNPFNDTGSWALGLDIVNWQATGFFWSSISTAMSANWQGFFLAFLPILSTVLVFSICVFVQSMKIEIPLQIARYGGFSYRHPLNFLYTSNIPVIFIAALLANVQLLSTVMNNWVNSGSEFISQNIIGQSIGWFTNNVIGQIGAGSSIAGTGISGWATAPNVLNSVITQKTLLLGTDFYLWILGYTILLVIGSMIFAMFWVQTSGADAHSLSKSLFKSGLQIPGTRSDPRILERHLSRYIMPLTIMGGIAVGLLAAFADLMGAATSGTGILLAVMIIYKMYEDIAKEHMGDFNPAFKKMIA;locus_tag=LOCUS_03450;note=WP_010875668.1 preprotein translocase subunit SecY (Methanothermobacter thermautotrophicus str. Delta H) [pid:35.1%25%2C q_cov:98.6%25%2C s_cov:97.4%25%2C Eval:1.8e-78],MGA_347
sequence1	MetaGeneAnnotator	CDS	305057	305779	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIDNIILPLFNYNLSVGMAIVALIATLFSTVVYKYTTDQLLLKRIKRETKELQEKSKSFKDNQEKLMQINKEIMSKSFEQMKITFKSSMYTMLPLLIVFIYLAGNFTYEPIKPNEQFELNIYSNNKSIEYQLPKKIKLIEVNNIEEDKNYITNLKLISNNTGLVIIPIENTKHRILISDKIEYEDPIQEISNSKITKIETVHKELTFINLFGWEIGYLGTYIIFSIIFSIILRKLLNVQ;locus_tag=LOCUS_03460;note=MGA_348
sequence1	MetaGeneAnnotator	CDS	305859	306608	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEVHNKKEFKNLSFIGALPGIGNVGKLAIDYMIEKLNAKKIQTLTFPDTLNSVIVTKSNTLALPTVEIYHKKIKGKNIILLTGELNTEDKVEIKNVLQHTMSFLSKNNCQKIITIAGIGMEHVPENPEIYVTGNTKTFYKNFKLPKTVKKNASELVRNINGFSGILPTLAKSEKIHSCCLLTETYNSPFFLGYKSAKEIIKVLSKQFDFKICFKKLDQEIEAFDLLLEIGEDSSKDIDSDKELNYFN;locus_tag=LOCUS_03470;note=MGA_349
sequence1	MetaGeneAnnotator	CDS	306601	308556	.	-	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDINFLIKNIFNKIDLKETNANKFISLSNILFEHTSFEEFSVLYYSIKLSKFKEVICKKNKEVQINYYGFDDEVVRSIIFNVNSNFSFKNKTELNFYLEGDFEGCRCFDECKFNYKADCMFSRFFSFLTVKSTEIISDEKMELLNLIKEITKNYVFQLDLSKVIINQDKKLKKLNREIELGKSIRDELSKEINLKSSMTRFCQLLKDHLFLSKVEICLYKDDSIPVRIGIGFSKDKMDLLNKSGILMRAMDRIKKNPKPYYVSNTSSGDNRNISIMNDVKSYINYPLIFKNKIIGHIHAARSFSQRPLSKHSLYLVGVMANAAVRAFRDSMYVDKIHNFNKILKDEVENRTYELKEANEKLKKLDELKSDFVNVVSHELRTPLTSIKGYINLLFMYGVEKLDVQQKDFLQIIKDEANRLGRLVNDMLDINKIESGNLLVNKRKITQLELIQHLNTLNYILEQKDIKLIKDFNFQSIYVDPDRFFQILTNLISNGIKFSSSGNQIICKIDGVDLNKEHYFKSINEYFFKQFKGDDDLEVNFSDFNTFSDFLNVQKSDEIQISYEYFLKKALKNHYIISVKDYGNGIDEKNIPLLFNKFCQISTDVRDAVGGTGLGLVISKYLVNLHGGEIFVESKINEFTEFYFLIPKEVN;locus_tag=LOCUS_03480;note=Q7NDM3 histidine kinase (Gloeobacter violaceus PCC 7421) [pid:39.4%25%2C q_cov:21.7%25%2C s_cov:20.7%25%2C Eval:2.1e-21%2C partial hit],MGA_350
sequence1	MetaGeneAnnotator	CDS	308553	308921	.	-	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKKILVVDDEPHILKLIELTLKLKEFEVITASVGHEALTLAETHLPNLIILDVMMPGLNGFEAAKIIKENELTKHIPILFLTSKSQFSDELKGYEAGAVEYLKKPIDPQFLLNKVDQYVQ;locus_tag=LOCUS_03490;note=WP_005764073.1 two-component system response regulator ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:41.3%25%2C q_cov:85.2%25%2C s_cov:14.8%25%2C Eval:1.1e-20%2C partial hit],MGA_351
sequence1	MetaGeneAnnotator	CDS	308998	309891	.	-	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFFYLRILKIVNFFMEFYIKLNFKFNKIKKVDHLVFFDIESSGLDIKNHEVIELAWVVCTIDGNIVEKKNYLIKKDKKFNNFAKHINNISEAELLNGFDEKFVLNEFNKIYKNYKNTVFLAHNCNFDISFLNNLNYKFNNIIVKDTLQIFKFILPNNLSCSLDDLKVNYNLKSTGHRALQDSIDLLKVFFIILKKYNMNVVDFLNLSYTIKFNKGIFERFFYYLKEKKIIIIYNILNHLNKNNNFDGEIKFWYKSRGVKLIFGKYSSHDFKSVYIKMKRDEKRLFLFERINNLFI;locus_tag=LOCUS_03500;note=WP_000525078.1 ATP-dependent helicase DinG (Staphylococcus aureus subsp. aureus N315) [pid:23.2%25%2C q_cov:62.0%25%2C s_cov:20.8%25%2C Eval:1.9e-09%2C partial hit],MGA_352
sequence1	MetaGeneAnnotator	CDS	309884	310870	.	-	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLGQIIKKDFKSFFRFKSNLLLFVFYPLLVLIIFFLVFSMNQTSLVNVGYMSQDVVFDIKDSNLNLIKYESLKTCSKDLVLGNIQACLNDNMVIYDNTKSNLYYYLSSVLPEQFVLKSYTNKQDLFLANFIAIIIMFLTIFFASSNLVVEKNSNTLIRNKITGTSEFTFLLGRIFSTTLIVLIQLLIIFILISIFIRTNLFSNIYFYIILIFTSILFTLIGLLIGYLSSSFQNSAIFSIIVSLLTYMGSFEFLSRIYEISTSFVLISPYSITYRLFRNLLLANYFNLNLFFILILHILIFGLIVWFVMHMMSSKILHFKKREVLDD;locus_tag=LOCUS_03510;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	310863	311792	.	-	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDKVLKKKTDLLNLENINLKISDLYSLKNISFNIHNLDFVCIGGDENCDFLMKIMAGFISPDSGKISFNKTPLFGGVNLTQIYRHFSYVDNNNTLYGHLTILENLEYFGTLHDMQGHILDKNISKLLKMVEVGKYKNMKVCDLPLTLIKKANILCSLINNPKILFVNNFTNDLDHESRKEIFSLLKKLKNHGMTVIVSDMDYEPFSKLFDHLIIIQRGKLTYDSKNKKGDFKMLYKITFKSDPGDYGNFLKVLEDHKQISSVQIIGDKCILSLKDDANLMLGLSRLLKDYSEKLISFNYEKIEVKNE;locus_tag=LOCUS_03520;note=WP_009902391.1 antibiotic ABC transporter ATP-binding protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:28.2%25%2C q_cov:68.0%25%2C s_cov:67.8%25%2C Eval:2.2e-16%2C partial hit],MGA_354
sequence1	MetaGeneAnnotator	CDS	311910	312926	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTILFLLIIITITSFVSSANYLFESNDLDDLLTSDNVEYTYVETNSNLDKDLDDLIKSFDKIIEDYESDETSCESANNESKCIKIERENTAEKIIDWFDGNDDDNLVPFLKNIFETQIDLLKDSLLSKRNYVKGLETSDFFESNSKWDDIMDDLSDIKSDLDPQNKSDFVQFKNDITDKVSNQLKKYIFEDLKFDYWVMQNKIHIEESRQKLKFFEELEKTYDDIEIDIKTLGIKNSKIDDFTDKLKVFKDNNEDLENLFEDYESANDNFIDEVDDSRDKFDLDDTIYPKIDRNLEIENDYNDWTDKKDLFKKKYKDQIEIMGKLREEVSDLLSNI;locus_tag=LOCUS_03530;note=MGA_355
sequence1	MetaGeneAnnotator	CDS	312938	313408	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIILILIIALTFVFTGCSSDGDPEIDNIVQEIISENENTQVISDNQEIQPATDIEELNKTNIEEEKEEAIEEPVEEEEKEETTSIVSSKLDLERALIKARTEKKLERLGEIESTLQLSDYKIEKDFAESDELKDLFDFLDDEFEYKIESKVFED;locus_tag=LOCUS_03540;note=MGA_356
sequence1	MetaGeneAnnotator	CDS	313430	313819	.	-	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRYYYPPNNEDFAIQFHSYLKLYSGIIEEFEVTRKLFDSLNGVLNTEENLNPIILEKLGGSLDSMVLYENYFEMMTNVSYLVDFNDGYIVLSFDEQTAKNLLECEEKNGDLIDGLDEFTQKVIENYKQ;locus_tag=LOCUS_03550;note=MGA_357
sequence1	MetaGeneAnnotator	CDS	313892	314860	.	+	0	ID=MGA_358;product=thiamine biosynthesis protein ThiF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980351.1;translation=MRYSRHLNLDRPKINRKDLDINLIIIGCGGIGNNIAYLCASLGIKNIYLIDGDIIEISNLNRQTLFFEKDILKSKSKVLCEKLKKINSQINIKYSSKTVDQLNIDNILNINNKDKTIIIDATDNMNTRFLLNDYCIKNKIKFISSSTIMTTGYVYSHIPSLNNACLNCFLENKKSNASCGIEGVLNGSLFMCASIMISEIIKIINKEYNTKNIPKLIKFNSYDYKIQLININKNKKCNTCKNKKFIHLDNKKEMQFCSKNFQKKFNKKDYEKVKKRIKSKKKINDLNIGFSFENIIVFKMGKILIKESTKQRANIKFNQYFT;locus_tag=LOCUS_03560;note=WP_010980351.1 thiamine biosynthesis protein ThiF (Sulfolobus tokodaii str. 7) [pid:29.1%25%2C q_cov:79.5%25%2C s_cov:86.4%25%2C Eval:2.0e-23],MGA_358
sequence1	MetaGeneAnnotator	CDS	314896	316827	.	+	0	ID=MGA_359;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000435143.1;translation=MIKIKLSDGTEKKVKEGITVFELVSEIDSKLSTSCIGAIITQKDNSTLIDNITPINFNCSIKFITNQNNEAYEIIRHSCAHLLAHAVSELFPYAKTTIGPTTHNGFYYDFDHEPFSEEDLKKIEIKMKEIAKSNLEIKREEISKKEALELFKDNEFKIEIIKELPENEPITIYKQGDWFDLCRGPHIQNTRKLVGFKLDKSTGAYWRGDSKNKQLQRIYGFAFFDKKELNTYLLELEQAKKRDHKKIAKDLNLYMIDELVGKGLPMWLPKGQILKNEIEKLANEIENEENYLQVSTPHLAKEELFLKSGHLPHYKEGMYPSMEMDDGTYYLKAMNCPFHHLIFSHKPKSYKELPIKLAEYGTCYRNELSGALSGLLRVRMLSMNDAHIYCTKNQIEAEIKKVILMVKKYYELFKFENYYFRLSTWDSKNKEKYIDEPKNWNYTQKILRNILKKLKVEYTEVSDEAAFYGPKIDIQFKTVLGREETMSTIQLDFAAKKKFDLKYTDKNGELNNEVFVIHRAPLSTHERFSAFLIEHYEGRFPLWLNPNQIKICPVSDIFLKYSQKIYKKIKKLDFRVELDKTSDGISKKIRNAQLEKYNYMIVIGEKEIESKTITIRDRTGKNNSNIELKEFLKSIKKEREFRE;locus_tag=LOCUS_03570;gene=thrS;note=WP_000435143.1 threonine--tRNA ligase (Staphylococcus aureus subsp. aureus N315) [pid:44.1%25%2C q_cov:99.1%25%2C s_cov:98.4%25%2C Eval:8.9e-158],MGA_359
sequence1	MetaGeneAnnotator	CDS	316870	318765	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYKKFTLDKFQVDAIDSIEKGNSVVVSASTGTGKTLIADYIIDKYIKKNRRIIYTAPIKALSSQKYRDFKEEYGEDKIGLMTGDIVINPQAPIIVMTTEIYRNMLITKDPCIDYISYVIFDEIHFINDIERGTIWEESIIFSPPHIRFLCLSATIPNKVEFADWICKIKNHTVDVVENVKRAVPLNHSIYDPEKGLTDINLLIKEKKRRKKKYGRTDEDQLVHIDLIDILFEKKLLPAIYFNFSRKQCEYKAKELSKNIDFLNSNEKKEVIGKINEIVPNNLKVLKSFSLLKKTLTKGIGFHHAGIVPKFKELVEILFGNGLVKVLYATETFAVGINMPAKTVCFASLLKYDGVNTRYLNSKEYFQLAGRAGRRGIDKIGNAIAVIDNNNLDLERIKKFTTRDIDPIISQFKLSINTVLNLVYYHKEDEIKTILKNNFDYYLKQKSNKKTNIINSYNNRLKLLKKLEFIDQDNILTNKGIFARHIYSNEILIGEIFNSQNINNLNEKELLVLIGLIVYEPKRSNRFKISRKYKNHLIVFNKLKSNNYFFKNCNQTHLAYMDFIIRNWINNYNISELLNHCNLQEGDIIRLFRQIIDVMRQIKKANVDQNLQNKLTKAIEIINQDIIKVEF;locus_tag=LOCUS_03580;note=WP_041272843.1 helicase (Desulfitobacterium hafniense Y51) [pid:45.2%25%2C q_cov:69.3%25%2C s_cov:58.3%25%2C Eval:2.8e-108%2C partial hit],MGA_360
sequence1	MetaGeneAnnotator	CDS	318762	320021	.	-	0	ID=MGA_361;product=amino acid transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066482.1;translation=MVKLKRSLSLWKVTISGIGIILGAGIYALIGKAAFLAGNAMWISFLIAALVAVFSGLSFAELSSMFPKSSAEYIYTKKAFGLKFAFLIGWLAIFGGIISSSTVASGFGGYFSSIFNTSIIVPAIILLLIICYLLFKGINFSTNIAVVFTLIEAAGLIMIIFIGLPKFDMVNINYFDMPSLSGLFTSAALIFFAYMGFEDIVRLSEETKKPKTNIPRAIIYSVIFTTIIYVLVAISAVSVMSPEALGVSNAPLSDVAQTALGDNASLILAIIALFATANTSLLLLLSTSRIIYGMSKSKSLPNIFSKVHKINRTPWVSIIIICLISISFLFFNDILLVANLTNFTLFFIFIVINLSLIVLRYTKPNLKRPFKVPFNFGKFPIIPFFGILVCLFLLFSMPIKIILYGFLLIIIGLIFSFIF;locus_tag=LOCUS_03590;note=WP_048066482.1 amino acid transporter (Methanosarcina acetivorans C2A) [pid:45.0%25%2C q_cov:93.3%25%2C s_cov:90.9%25%2C Eval:6.7e-97],MGA_361
sequence1	MetaGeneAnnotator	CDS	320123	320515	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFFFEEKSDYSTTFIRLALGIIMTLAGFGKVMKGNEGITSMATSMGFPVILMWAAALIELIGGILILVGFYTRTSAFLIACVMLVATIVVINGGAPFMGGSSFWAWPLVNFLMAVSLLFSGTKVISVDK;locus_tag=LOCUS_03600;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	320562	321038	.	-	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIINAKNANSEMSKRIKITKEMLGEGKTVIQIANYFGLSVDTIKKYITHLQISGDNVNLDNFNDELSNYDNKKFNTKSKKVLSQKIDTSNLGSLNSQNQKQLKKDEEFIESEKRGGYTCRLCNSYKKLNSVIKWKKNVYVCKSCFACLDKNKLNKLK;locus_tag=LOCUS_03610;note=MGA_363
sequence1	MetaGeneAnnotator	CDS	321249	322775	.	+	0	ID=MGA_364;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011460094.1;translation=MFTINNLSKTYGNDYIIINGKIVINTHDKCALVGKNGSGKTTIMNIINGNTDYEGNLEKNDITICKFNQIEEIQDTAQNYLIDYQNYDYEKENIIHQLIDMFELDSNILLKQFNTLSGGQKSIIRLIKTLSSKSDLLLLDEPTNHLDFKSINILINWLKKFEKSYVIISHDRFFLNEISNKVIEIENKLINSYNCNYDEYIKRKKKRIENEEENYQKNIKEKKRLNTIKQEQDKFKNKLNTKLSKLKLIHGPNKAAACSARQKGEKSQIRYGKNISVTDQKIENLNLIKPNIDNNRLRIELFQTNKSNYEVIELDECSKSIEDNLILNKINLEILRNDKIFISGNSGSGKTTLINSIINKKFDNGNLKLGDNIIIGQISQEKFHLQKEIKIIDYFKKKYSKIDLGIMRNYLAAFLFKKNEINKKLNELSGGELMRIDLLDCLIKGSNLLIFDEPTNNLDLESIEALEKAIIEFEGTIIVISHDKKLIENCANKKYELKCGKLIKKVTF;locus_tag=LOCUS_03620;note=WP_011460094.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense Y51) [pid:28.9%25%2C q_cov:98.0%25%2C s_cov:81.8%25%2C Eval:2.0e-61],MGA_364
sequence1	MetaGeneAnnotator	CDS	322765	324675	.	-	0	ID=MGA_365;product=ATP-dependent protease LonB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250215.1;translation=MAFKLKNKKINDFKTTSEISVGSKIIDQVIGQERAKDIVMKAAKQRRNVLLIGEPGTGKSMLGQAISEILPSENLVDVLAYENVNDSNKPLIRITKAGEGQKLRQGQTLIGGMNNFQMVVFIILLAISIFLPWYALDHYSKTLASTVAGAIMFFTFSIGTLFMFFMFFVYINFNKRIKIKVGNTPKIIIDRSLEKNAPFIDATGAHSGALFGDVLHDPLQSGGLGTPAHERVIGGMIHKAHKGVLFIDEIATLSIESQQQLLTVMQEKKFSITGQSEKSAGSMVSTEPVPCDFILVASGNLDGLKNLHPALRSRIRGYGYEVYMDDTIKETPAIKYAIAQFIAQEIKNDGKIPHFSKAAVEKIIDIARMYANRKNHITLRFRELSGVVRSSGDIAVENGDKLVEVSHIDKALKIAKPLEGQIAEKIVERKKEYSLIQNKGSLTGRVNGLAVIGHGTTLSGIILPIESEITSGGKSREILATGKLGEIAKESIINVSAIMKKYFGDDLKNKDIFVQFLQTYEGVEGDSASIAVATALISSVKNIPIKQNCAMTGSLSLKGEVLPIGGVSAKIKAAISANMDFVIIPQSNYDDIVLSKEEKSKIKIVSVKTILDVVEHAFDWTGKKAILSKFKKDFRK;locus_tag=LOCUS_03630;note=WP_011250215.1 ATP-dependent protease LonB (Thermococcus kodakarensis KOD1) [pid:53.9%25%2C q_cov:97.6%25%2C s_cov:95.1%25%2C Eval:4.5e-178],MGA_365
sequence1	MetaGeneAnnotator	CDS	324716	325246	.	-	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFIETYNKLFVNEYIIAVLLILIGYVIAKFSYKIINIFLKTIKIDDLLKKLDINISFSIYFSYFIELIIYLFFIIKAMDEISLNLAPYVFDILGIIILIVVFISILFTIKDFFPNLYASYNINKNIKIGSLIKCNGVEGYVQTIGLIETIIKSKNGDFVYIPNSYLMNSIIIKSK;locus_tag=LOCUS_03640;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	325282	325596	.	-	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGRPKGSKIRQNVINILYFYSPLTGYDIFKKYIKIYGRVTSRSIYYHLKYGTNIGDFEINKIINEKGNFSWGESSQKIYYNLTGGAIADIDDNIKDYYNNDKQ;locus_tag=LOCUS_03650;note=MGA_367
sequence1	Aragorn:1.2.38	tRNA	325608	325681	.	-	.	ID=Aragorn_9;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence1	Aragorn:1.2.38	tRNA	325686	325760	.	-	.	ID=Aragorn_10;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	MetaGeneAnnotator	CDS	325940	326191	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENMYNKLLLLYSTSHLNSTDKVKFYYALKGRDGKSGIVKQLNIRQLAKSVLLVDHHHQEDITSFFNHWECPTELNHIMIKK;locus_tag=LOCUS_03660;note=MGA_368
sequence1	MetaGeneAnnotator	CDS	326218	330531	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITSIIINANNSYNIYIEKELSKQTEFYNKYELNKLQFNNDFHTIINNDSLKKFNFNELIILSQVDSLTGLNDIIEKANQINYVDERKFEITINSLENQIINLEHNKIIILSEESEFFNNKLNDIFTNVSIEKEQIKIELENCQTCYEIKDSYQWLEIDFNNIDEKYVIAYLDKLKDFKRSAKSDISCKRNNLKECTLQKLIINFEEKTKNNLIDHLKNGKKKIPEYTKFNKEINKINKIIDELEQNKNIIKQILDKINDKQVFDDNLLNKLKSISKKKVNNSNLIEIKNQAKEYIQLLETPLNIELKQNKQLDFNFESNIQRIMDQLKRNNELRLNQISFLNIILNSFYFYESENELEKIYYELINEILLKYTKKNENKKSIKKNVINDIQILKYNYVSIKKTLNDEKKPNYYDKKTIKKIIESYNNLLKEMLTKIDEDKNYDLTYYNTEDNEKQFIIKTNKIKDIIDQISSALNKLKANENLIFEQKEDYYTVGIEDNFYKKVLNWLGIYIQKNNIDRLKKSNEKYLLINSEDKFSKQQLLNINQSEIIEISKDKISLINKLQREINEFDIKYEYKQDEIEELLNLIDYYFFINYLIENDINSFLTKINIDFKFNEYLNNIAYNKLSKFKSENKQNFVKNTYNSLIANRLNLNSHFIKEIQKEFNQKETIEIINEFTNESNILNINIFEKAKWDITPINNNNISKNKVLLDKKNFEILKYAIMSINKEFEQTKLNKEIKEPYNFKIENINNNDKYSKLTYHNNLDFHNRLSENKNNLTYADIVIFLKDRINIAIINKILQSNINKINNTQTYNDIISEISELKYAELSLLINSEFDSYSNDPFNNNYLNLVNKKGVDPLINYLNSLIQKEYFYKYSREHGLTQLYSIKKTNKVNDNNIELLQKLFNNRKNGYIISQNEEEIILKKALNETINKIINKNIFTSHSNYNETYKIRRQEFLDLLDVHFKLKLILEAIEFHGFEINILYDEINTENEKIIKQYLTKDNYNLAIEYNIIKSNIISKYKLIKSEQKENEDILYLEFNQIIKDLIYKLDNYKNLQIDDVVYNLENADSKIISLIEIAKETNDIKKETILSDIHDIIIKINSNIIRLQKINDNIKTDLITISIFPTIIEKEIKNTNSIEIIKVDRTIQNSKNIINEINSNNKINIYEIKQFAKIINYLNISNKDSCLKSIRELNNININENNINLIQNYIVQCQTYLNSIFNEKMSEDQIEKHFYLINKINTNYYIYLQNNELFSSYLKSLKNNREVLLILKSNFDKYKFKEKSMFEKISEWIGASKKQISNFNEEEYIINNILNSINNIEKDIISNKKFKTELNKKQFEYKIFDLISKQIRFINKLTNIKINEYSKGKNLFYFDLNSYSTNAIEEIVKIENYRIDHYDENEKKWLTYNPENKEHSDFDQFTNNNYYVITIN;locus_tag=LOCUS_03670;note=WP_010889758.1 membrane protein (Borrelia burgdorferi B31) [pid:20.9%25%2C q_cov:79.8%25%2C s_cov:55.2%25%2C Eval:4.0e-18%2C partial hit],MGA_369
sequence1	MetaGeneAnnotator	CDS	330524	332110	.	-	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKHIIIFLFLLLLFLILLFRPLIFQNVEIPELSKDTLNDIGLIVPDFDLTYSGSNHNYDGETYSFLASSIIDYDGDGMDEIFIGSSRGQTDKILDYDELSLKFNEIDIDLNNDSATFGSVSIDIDNDLDVDLIVAREDGVFFYINENNIFIEKKVNINFDDNSIPMSFAITDLNNDGYFDIYVNTFIKFDLFKSGTFNDESHKTKNIMLLNNRDNTFTDVTNKYGLNYNQNTFLSYFIDLDGDRLQDLVISPNTDKIVLFKNLGNSFQKIDLSDIGYWMGSVPADFDNDGDFDLFFSNIGNSIPNFIAKGDLLDEQILQNEWVYYENLGNFNFKQRIDDIRLDNYEFGWGANSNDFNMDGKMDLIVSENYLNLFSNKITKAPGRLLLMGDDNKFIPSTMASKVSNFYYGQNVLSGFFNDDNIPDVVYVNMDGPVRIFLNKDLNYNYLMLNVPDTLRFNGAIIELIGNKFNQSRIITFGAGLMSDSSNQISFGIGDNDNIEQLKINFLNGDVKVFNDISINQKLTIN;locus_tag=LOCUS_03680;note=MGA_370
sequence1	MetaGeneAnnotator	CDS	332233	333408	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021968.1;translation=MLFEILLSITFGILAGIITGLIPGIHINLICSILLIILPKYNLDIKLSICFIISMAITHTFLDTIPSIFLGAPDPNVCELILPAHKMLLKGNGFFAYILTCTGSLISLLFCIFSLYFFIKIIKIIDISIKNYIWIILILIIIFIIFSNKNKIECIKIYLISGILGLICFNINLEQPLFHLLSGLFGISGLLISIYSKNEIPEQNNECNFKKIIKPSTFATIMGFIAAFLPGFGTSQAAFLINKLTKINDEFYLILIGALSTSNMIFSTLTLLELNKARNGAILAVKEIAGQINFNIFLLMILVIIISGSIACIIGINISKKISNYIKKINYTKLIISIIILIIIISFILDNFMGVLIIIISTAIGIYCNLKSVPRNLMLGCINLQVILFFL;locus_tag=LOCUS_03690;note=WP_011021968.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:25.4%25%2C q_cov:99.7%25%2C s_cov:98.9%25%2C Eval:5.9e-31],MGA_371
sequence1	MetaGeneAnnotator	CDS	333441	334223	.	+	0	ID=MGA_372;product=metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003568187.1;translation=MNMEVCVISSGSKGNCYLLNVNNKNILIDCGINYKELEKRLNKINKSAKSIDAVFITHEHTDHISGCKTLSNKINNIKFFFNKETYHNCKFTIPENQIEFFKNGIFHYNNIEINALSKNHDAANPVSFSFKFDNKKSSFITDIGSVCNNVINQIKNSNILIFEFNHDESMLFGGSYPEYLKQRIGSNKGHLSNIEAVNCLSQNIDINLKHLFLSHISSKNNNKNLAKLMIEKELKQKRKDIKDINILIAHEYENSEVVKV;locus_tag=LOCUS_03700;note=WP_003568187.1 metallo-hydrolase (Lactobacillus paracasei ATCC 334) [pid:33.1%25%2C q_cov:90.4%25%2C s_cov:87.9%25%2C Eval:8.2e-35],MGA_372
sequence1	MetaGeneAnnotator	CDS	334220	334933	.	-	0	ID=MGA_373;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257202.1;translation=MDKLSILMPAYNEEKTIHLILNKIRDCNVSLKKEIIIVDDGSRDNSYEVIQEYAKNNPELGIKVFKKENGGKGSAVKYAIKEATGDICIVQDADLEYDPCDYQACIDPILNGKTNVVYGSRRLKNNVQYSGLSFFLGGLLVTLVGNILFFKWITDEPTCYKTFKTDLIKKIPIEGNHFEWEPEVTAKLWRIGETILEVPINYYPRTVAEGKHINWKDGVEAVWTFLKWRFKSFKLIN;locus_tag=LOCUS_03710;note=WP_012257202.1 glycosyl transferase (Chloroflexus aurantiacus J-10-fl) [pid:41.4%25%2C q_cov:95.8%25%2C s_cov:94.5%25%2C Eval:9.2e-43],MGA_373
sequence1	MetaGeneAnnotator	CDS	334994	335323	.	-	0	ID=MGA_374;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965797.1;translation=MAVANSLIIFLVIFGSFIGAIAAFMLKKSTNKKHFINKYTILGYGLYGFGALANIWALKYLDVTVVFPLTSTTYIWSLMLAKVYLNEKITLKKILGLSLIIFGVVFLII;locus_tag=LOCUS_03720;note=WP_010965797.1 permease (Clostridium acetobutylicum ATCC 824) [pid:40.2%25%2C q_cov:94.5%25%2C s_cov:95.5%25%2C Eval:4.5e-17],MGA_374
sequence1	MetaGeneAnnotator	CDS	335307	335642	.	-	0	ID=MGA_375;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015944750.1;translation=MNKGIILILICTILTALGQIMWKLGMQEFNIYIIYLNYSLIIGCLLYVAGAFFLTYALKFSDLSKIHPFLSLGYVWVFLIGIIFLGELFTISKLIGIFLIIMGVIFIGSSK;locus_tag=LOCUS_03730;note=WP_015944750.1 transporter (Desulfitobacterium hafniense Y51) [pid:29.8%25%2C q_cov:92.8%25%2C s_cov:96.6%25%2C Eval:2.2e-08],MGA_375
sequence1	MetaGeneAnnotator	CDS	335635	337482	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKLKEYKYEILLLIIILVYIFFLSGITGQLKSPPGPILGGDLYHQQGAIYHVMESNISTIFDSSNTLDGRPSYFYTYSIINGFLGNLLDKTPFESMIISSYLILIFSLIISYLLFYKIFNNKLISLFGIVVLISFQNFPVFKYSPFFKLFFIPLILFLFYIRKQNYKYSIIFGIIGGIFCLSHGAAFPIFILLLFGFELFYYLFESISYKDNTLKIKKIKLDKKRLINLFIVFILMFLISLIWWYEPIFIHHGKTLSLSEQWSFPDFTLWENKINFLMDFFNKYLFNFSSVYKIIFSILNIAGLIYLFKSKKEKIEQFLLSYFLISFTLTYSYFITEPLLGVVLIPFKMNEFLLSTCFILLSVYAVYKISFLSYFQKNKKLFNIILILLIIFLLNFNISGKYESFEKSQWTPGGKVELTEPYNSLNKYLLENTNVNDVVLSTNELSFALNGVSGRKLLVTRRAQTDPFMDMEERQAAAAIILYGNNTEVKKQLIKKFKIKYLYWDVNWFSSEFQVQNNQIVGIYDPLILIDDGEGNEIQLDENGVIYEKLNYWLDPSGRGDKYKKMDLFLITYNNYRNSPQPWKEDLNELMSEVWSYDMNENKVAILYKIQNE;locus_tag=LOCUS_03740;note=MGA_376
sequence1	MetaGeneAnnotator	CDS	337610	339022	.	+	0	ID=MGA_377;product=bifunctional protein HldE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O25529;translation=MNFKILVIGEAMVDKYIHGIVDRISPEAPVPVVLFNKNTENLGGSANICQNLANLDADVHLISIVGKDEHEPILTKLCQNNNINLIPIYLNRPTIVKQRIVANNQQIMRVDFENNNNLDSEEEKIVIEQIKKVSKEYDAIILSDYKKGLFTKNIIETIFNHFNNNFILADSKPDKIDLFKRANIIKSNFKEFKDYCKQKNIEVSNDDSSIENTYNKFIYNFNSFLLTRSEKGMSFLSKDKFEHIPTNAKRVYDVTGAGDSVTAAYIIKYLETKKEEISMSFANKVAGIVVSKPGCVAIEKEDLKLKNENKKIINSYEKIESIVNKLKKDKKKIVFTNGCFDLLHSGHADYLKKAKEMGDILIVGLNSDESIKKIKGENRPIVDQNSRLELISSLESVNYCILFEEDNPINILSYIKPDIHVKGSDYKNKYMIERDMVEINGGQIGFIEIKTNENNKISTSDIIEKIKNEH;locus_tag=LOCUS_03750;gene=hldE;EC_number=2.7.1.167,2.7.7.70;note=O25529 bifunctional protein HldE (Helicobacter pylori 26695) [pid:40.5%25%2C q_cov:98.7%25%2C s_cov:98.5%25%2C Eval:2.7e-81],MGA_377
sequence1	MetaGeneAnnotator	CDS	339114	340175	.	+	0	ID=MGA_378;product=O-antigen-related heptosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011205410.1;translation=MISFIRMIDKYIGNLILFLLPQNKKLNNGKNILIIRLWTLGESLLTLPMIKKLKEEGYNINILVTDRSKSVFENVNFIDDIINLKNIFSIIKNLNKYDIAIDTEPYLKISSIISWWLSKFSIGWDNRKYSINLKYNDKIHTVNNFCRLIEPLNIKYEPKELIPLNYKNENKIKVNDLIKDIKNQNKKIIGIHAGMAESSPWRSWKNFPELINNLNEKYNIILTGSNEEKKINKSIILTLNNINNISDFSGNTNLLDLSYLLTQIDLFISNDTGPMHLSAAMKCKTIGLFGPNLPERFGLYGENNISIYEGKKLGCSPCINVHKGSFPNCPINGKCMDLIKVNDVLKKIEEALS;locus_tag=LOCUS_03760;note=WP_011205410.1 O-antigen-related heptosyltransferase (Burkholderia pseudomallei K96243) [pid:24.8%25%2C q_cov:90.9%25%2C s_cov:96.9%25%2C Eval:3.1e-20],MGA_378
sequence1	MetaGeneAnnotator	CDS	340172	341134	.	+	0	ID=MGA_379;product=ADP-heptose--LPS heptosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880036.1;translation=MKILLFKIGALGDILMTTPLIRQLRKKYPDAQIDYLCGKSFSQIIINNKNLNNSITFDENIIYNKKIFKCLNLIKKIKLKKYNKIYVLDKHWIFSLFSFLSKIKERIGFYRDFPSKIFLTKHIKYKTVKHEIYYYLSLLNKYNKTDTKLDFYISNNDEKKIKKYLKNKQINKFIVFINSGGDNPGEKNNIRKLSNREFLNELEKINYKNNNIILVGGKNDKKYYDEMLKRIKNNQLKNKIFNVAGKFNLRESTAIMKYAKNIKTTDCGAMHLASTVNKKLSCYFKPTNPKRKAPLIKNIKIIWKNKNKYNEKYDLYGKIN;locus_tag=LOCUS_03770;gene=rfaC2;note=WP_010880036.1 ADP-heptose--LPS heptosyltransferase (Aquifex aeolicus VF5) [pid:26.7%25%2C q_cov:90.6%25%2C s_cov:83.0%25%2C Eval:1.5e-15],MGA_379
sequence1	MetaGeneAnnotator	CDS	341181	342194	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGAEISGQIMYDIFKKTKLIHILTPNYDKFKLSIKNNIIKYPSFRYFLYKNKTKSTKLRQKNKKIFSKLQNVFFIISAIEMSIWIFFIKIIYNKNIIHGNNFESNLAVLLSPVNSKKYIHLRDTIFFDKKRSLLRKLIKTLFKWQSNKYFCISEYIKKQYIKILKDKKNKYIIRYNNTDKTQISDLNKYESRKILKLPENKNIILYVGSLTEEKGIDYVFENLINKFPSSLFLICGDGYLKEKLTKYKKKYNNFILKGNIKNEKLKYYYKASDITIVPSKWNEPYGRVSIESQINQTYTIVSDKGGLPETIISKKTGICTKLHNFEKIIKLKLKKF;locus_tag=LOCUS_03780;note=WP_011476096.1 glycosyl transferase (Lactobacillus salivarius UCC118) [pid:24.1%25%2C q_cov:64.4%25%2C s_cov:60.6%25%2C Eval:2.8e-07%2C partial hit],MGA_380
sequence1	MetaGeneAnnotator	CDS	342180	343190	.	-	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTADIAYVYVFKYAHKTSLSFAKSVTNVFYGLYYNLDKPNLFLFEFLKLIYYSIKIPKHKVYLVCNSFSLLCVCFKKIFSFRKIVIIHRVNDNIYEEKMHSILKNMIFSLAYKNVDLFISCSPFISGIIKKKNVNSKICEVNEFLSDKRYLNLNPNYKSSNFLLIGSIEKNDCKGTLLSAKSIYSAYKKLTKNLNFFILGPVLNKNIEFKLNKFDFVKIKGFQDPKKYVSLCKYYIQPGLFDAASNSIIEAMASGLIVITNERVGNSFMVCKVSKKLVSSKNTIEDIANIIIWLNSLSEDKIKKLSEKSKKIASYYSEERQVNLFRDEVFHYLKFF;locus_tag=LOCUS_03790;note=MGA_381
sequence1	MetaGeneAnnotator	CDS	343244	345001	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKSQITIIAPHPDDEWIGCGCTILNNINSKNIKIIYVTNRLENRTVLAKENSKEFGYEIIFLKHNEKNININDLKKQLIKEVGINDIVYIPTIDTHPDHQLINIISREVLKNKKYEYAIYNNSNNIFIKIKNAIKQKITGINTASFSKGKSIVIKGDIKKKIQIIKKYGEIPRNYDIIRESKSKLLMGPYNIVFLTKDYNIKTVDAGFTAIIDLSIEFKKLGHNPILISNKGGSFWEPAANKKHEIFKGIDIYRPYGITFLNDGNTLFNPGIIFNKFFSHGFGLNYVKNKNKIKFDFIHGSSSSPILFFNVLFSKIFSWNSKLVHTIRSESIYKNAYDKIFCKIINLSDLIIVNLNTLKLKLIKGGVDFRKIKLILSGVKRENFSKRIVNHTLKNKLGIKENEKVVLYYGKGGKNKGVEYLINATNLISKKEKIKFVLIHPVVWLPHIIKKVNESKNKDKIILKTGKIKVSEFLSLASVLVLPYLTLKGTEGNPLCLIEGMINKVPIVTTNQPELREIVKNESEVLMAQPGNSKSLLENIKKILNNKKLAKKLTQNCEKIIKKFSIENIANQHIYEYHILKNK;locus_tag=LOCUS_03800;note=WP_011023661.1 mannosyltransferase (Methanosarcina acetivorans C2A) [pid:26.2%25%2C q_cov:33.3%25%2C s_cov:55.6%25%2C Eval:6.8e-08%2C partial hit],MGA_382
sequence1	MetaGeneAnnotator	CDS	345057	345851	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRTLLKIIKKIVPKKFYFYLLEIYFFLRHFKYLGKGFKCSFCQKSFKTFLTSGIDVPVLKLKKVIGGELNKNCLCPKCNSSDRERLIHVFIKKNKHLEKIKNKKILHIAPEKNLLKFFKHQNPKEYIDADLNKIRATHEMNLTNIIFKDNYFDIIICNHVLEHIENDGKAIKELYRVLKPNGWAILQVPISENLKNTFENNKIKSKKERLKFFGQSDHVRIYAKDYKKRLTQKGFKVNLKKLSKREINKYNLNKKEYIYFCKK;locus_tag=LOCUS_03810;note=WP_001260413.1 glycosyl transferase (Bacillus cereus ATCC 14579) [pid:38.9%25%2C q_cov:85.2%25%2C s_cov:26.7%25%2C Eval:3.1e-37%2C partial hit],MGA_383
sequence1	MetaGeneAnnotator	CDS	345925	346770	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKETLKNKVKEHWNNNPMDYDNIKSKKYSKEYYDEINKQFRNVHFFAQKKKKKLFSKIINYKNIKNKTVLIIGCGCGTLTTEMVKSGAKVTAIDITPTAIKNTKRQLKENKLKAIVFEADAEQLPFKNESFDFVWSWGVIHHTPNTKKAAQEILRVLKKGCHAKVMIYHKNSIFYYILIMFIRGILQGKLLFQKPQELLNKYTDHSHKGGTPLGKTYTSNQAKKLFSGSKNIKTQVYGLRNELYFIPHIRNMCYKLPDLIPKLILEKLRLGWFLVLKIKK;locus_tag=LOCUS_03820;note=WP_003891430.1 methyltransferase (Mycobacterium smegmatis str. MC2 155) [pid:33.7%25%2C q_cov:35.6%25%2C s_cov:42.6%25%2C Eval:4.8e-07%2C partial hit],MGA_384
sequence1	MetaGeneAnnotator	CDS	346771	348561	.	-	0	ID=MGA_385;product=asparagine synthetase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003022291.1;translation=MCGIVGFNWIDKKLIVKMLNSLHHRGPDQSGYKFYTNLTFGHKRLSIQDLSECGKQPMELDDYSIVFNGEIFNFIELKHELNKRNIKFKSNTDTEVILYYYKYYGEKCLDYFNGQFSFAIYDKKKQTIFIARDRMGIKPLYYYLDGETFIFASELKAILEFKNINKKINNYSLKHYLLFGYCPLEFSIFENIRKLMPSHYLIYNLKSKEVMEYKKYWDNIINRDNKVNLKNNIHSHLEKSIAYRTISDRPVGVLLSGGIDSSLLVCLLKNKIKNLKTFTISFDNSNYDESQYAKLVSKKFNTMHYEKKFTSKDIIKLLPEIINQFDEPLGDNSIIPNYLVSKLASEHVTVVLSGAGGDELFCGYKRYFHFNILKYLVKLPSFFKNLIKIIIRPFNSFKYFSKLNYLLYDSDSYFKIYSKLFNLYDKRVICNSKDFKNNLNKYFKSGSVDDAILFDQSEYLPNDLLYKEDMCCMAHSIEGRFPFLDHNFVKYINSTSLSNFSNFNKGKIILKSILSRFMGSKFVNRKKQGFVFPLSEYIKNDLKDIFYNEIFNFNGYNYYDKKIIKTCWDEHQLNKKDYSDLFFKIFMFNNWYKNWA;locus_tag=LOCUS_03830;gene=wbtH;EC_number=6.3.5.4;note=WP_003022291.1 asparagine synthetase B (Francisella tularensis subsp. tularensis SCHU S4) [pid:33.9%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:9.2e-93],MGA_385
sequence1	MetaGeneAnnotator	CDS	348687	349319	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKESKKYRRASKNLHNTIIKLAEKYKPKRIIDLGSGYGGVPLKLVKEGFQVTSTDINPKINRAQNINCIKVDLNKKIKIKNKYDMVICTEVIEHLYNTKKLLNDAHNILNKEGLFIFSTPNNQNWFSRLFFLFTGKFPSFLGIPHGKDRDWFEPHITPIFTWQINLLIKDLFKIKEITFNRSVTPIIHINLPIKNLFFGQNLIMVLKKIN;locus_tag=LOCUS_03840;note=MGA_386
sequence1	MetaGeneAnnotator	CDS	349312	350835	.	-	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHNNIIWIATEGNRFFKSNDGYGRLKIYDELPFEFLNFKTAIASATSTLMSTSSFFTGMFSHDLYYDHSALKDFETHSYFDELKKNGYTINSTFFCREGSEFYKKKLNVFRTDNEYKSGNGTVWNSFKHIMEKKFNFNGPNFLYIHFAPTNDQNNMVENTLKYLKEKNLYENSFIIISSDHGYTDFGSYKPIGWLMKPRNHSIYSTEDCYRANLALKLPFENKNSSKININAQVGLFDIFETIFDYLNFKYGRENKRAISFKKLLENPTDLNINSKFNERLIRIDNRFIGQDYKITVIRNNNYELIINNQKYTLYKRDNSELNWKKSLKPHFDEYNFLALKNFYEETQIFAKTNIQSLLIEKVDYSDLFKLNNKKIIMYNYGNSFLLNFCFDILSKTNFVKIMDYKLIKKNIDNFDLVLAIKSNDLNYSLDKIYHINKSKFKLFDVNFNFVNYKKHSIIDKSKSDWRAYVGKNIYEKMVVFLILSWLQILDYYLLWKTKENYLKTN;locus_tag=LOCUS_03850;note=MGA_387
sequence1	MetaGeneAnnotator	CDS	350967	352265	.	+	0	ID=MGA_388;product=phosphoenolpyruvate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202933.1;translation=MKKVYVGMSADLLHTGHLNIISEAAKLGELTVGILTDEAISSYKRLPHLPFEDRKKIVESIKGVHEVIPQETLDYVPNLEKIKPDFVVHGDDWKTGIQKSTRERVLNTIQNWGGRLIEPKYTSNISSTKLNQALKEIGTTPEIRLKRLRRLLNAKSIVRVLEAHNGLTGLIVENAEVIKNEVKKEFDCMWLSSLTDSTAKGKPDIELVDITSRLNTINDILEVTTKPIIYDGDTGGKPEHFPFFVKSLERLGISAVIIEDKIGLKKNSLFGTDVEQQQDTPENFAKKINIGKKAQITEDFMIIARIESLILKQGLDDAIERAKIYIDAGADGIMIHSKETDPNEILMFCHKFKSFEKKVPLVVVPSTYNEITEQELIDAGVNIVIYANHLLRSAYPAMINTAKIILENDRSLEANNSCMPIKEILNLIPGGK;locus_tag=LOCUS_03860;note=WP_011202933.1 phosphoenolpyruvate mutase (Bacteroides fragilis YCH46) [pid:68.0%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:1.7e-167],MGA_388
sequence1	MetaGeneAnnotator	CDS	352262	353377	.	+	0	ID=MGA_389;product=phosphonopyruvate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005817136.1;translation=MINVINFINFLKNQGIDYYTGVPDSLMKNFCDYINSNKEINNIVNHNEGGAIAFAAGNYLTNKKPCLVYLQNSGQGNCINPLISLTHPKVYSIPMLLLIGWRGEPEIKDEPQHMKQGEITEELLQLCDIPFEILDIENWKSQIEKANNFMIENKSPFAILVKKNTFEKTNIVKKENNFNLVRENVLKKIIQNTNDDQIIFSTTGKISREIYEVRKELNKESDLDFYNVGAMGHVSQIALGASFKTNKKILCIDGDGSLIMHMGTLATIGSYQPNNFVHILINNEAHESVGGQKTASSEINFLEIAKGCNYKYIKSIINEQELDDFLKNSELKYPAFIEIKVKLMSRDNLKRPEDTTLERKEKFLNKLENAN;locus_tag=LOCUS_03870;note=WP_005817136.1 phosphonopyruvate decarboxylase (Bacteroides fragilis YCH46) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:7.7e-86],MGA_389
sequence1	MetaGeneAnnotator	CDS	353367	354506	.	+	0	ID=MGA_390;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202931.1;translation=MQINEFIGIDCLNQITEIIKSENIQNIFLVTGKKSFENSGAKEKLDELIKNLNITHYFDFEVNPKFEDVLKGIDLFKQNNCELIISCGGGSAMDIAKSISILSSQKETNLRETVIKNSIIEDNKYTHIAIPTTAGSGSEVTHFGVIYVNNKKYSLTHKSMKPNFYFLDPSLLMSNSEYQKATSGIDAFSQAIESFWSVNSNTESIEYSIKAIELLWHNLEDAVKTPTIENLQKIFLGSNYAGKAINIAKTTASHSISYPITTFFKISHGHAVYLTIPEMFYFNSNITEKDCNDKRGVNYVKEKMKKLQQMFGGNSFLEAKQNLELFGKNLNLENLLSNLGINRENINLIIQNGFNPQRVKNNPRYLNEENLKTILEKIY;locus_tag=LOCUS_03880;note=WP_011202931.1 alcohol dehydrogenase (Bacteroides fragilis YCH46) [pid:34.5%25%2C q_cov:99.7%25%2C s_cov:98.1%25%2C Eval:2.2e-59],MGA_390
sequence1	MetaGeneAnnotator	CDS	354515	355954	.	-	0	ID=MGA_391;product=polysaccharide biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002292875.1;translation=MIKNLFIKGSIFYIIGAIFSLFFSYLFRIILASNLSLEEYGLFYSMLNFILFFLVFRNLGFNQGVVKFGSDFLSKKNFNALRSLLCFVISSQFIISTIFVFIFIFISDFLAQNYFNLLYSSFLFKVFSIYFVTSLLSLLLRPIFRIFYMSKQINTFEPLKNLLIVILFLIFNYFFDSLISAILALVVTPIFVFLIFIPSLSKLISKFTNVGANDYTIIPNFLFFSFPLILSDLGGRFINYFDTFMLTSMKSLIDVGIYNVLLPSASVLLLLASPIILFIVPYLRKNIKNNFLKANIFYKKIINGFLLLSLPIFIFVAFFGIKYLGFLFDIKYLSGQYVFIVLVFGVLLNSLNLINFQFIYSYYNTKIILFVNIISALVNVLLNFFLIPTYGILGAAISTFISYLLIFFLSSHFIKNKFDVYNLFNFNVFLTIFFSLFLIVMLYSFINSIIYLGIIFSFFYFMYLYCIYTKYGKEIDVLI;locus_tag=LOCUS_03890;gene=cpsL;note=WP_002292875.1 polysaccharide biosynthesis protein (Enterococcus faecium DO) [pid:23.5%25%2C q_cov:96.0%25%2C s_cov:95.8%25%2C Eval:7.4e-18],MGA_391
sequence1	MetaGeneAnnotator	CDS	355951	358995	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKEFKLDFSNWKNYLLDPFNDNPKYRFSKFIQKYIWIFLLLTLLFVNFDVRTQNLNVDISEEWAEQSIRQNFLNSQLNEINSQFPNVDSQGKQQLAQKRWIEFSEQNKQVIDQQTEILSDRIKAEFQNEDGETYLVAIDPYYYYRQARNLLNNGHVGEILIEGQSIDKFRLAPNNNEQPLTNSLHPYFAVYSYKILNFFIDISLYKTFFILPIIGIGIAIIFAFLIGRQITNTLGGFIFSYLVGFHTSIFQRTVGGFSDTDMYVIFFPLIILYFIINVFQLKKIKWKITNLIFASFFTGLFSFAWGGYWYFFLILLISLFLYLIILVIKEYKLKKSFNLFKYDVEIKNTFYYSFSYFVLGSIFVVLIKGVGSLISLFKGPFGFLLLKETTKGISIWPNVYTTVAELNPSNFLNTFSSLSGGGSLSKGILLTILGFIGLIILFVERKNSNFNIKLSILGFVWFIVLFWTTFSGVRFIMVTVLPFAFIISIFFGKISKYLSEFSNKEFKLSLITSNLCIFVLVFLLLNLIFPLNTVYAFGSQSLPSLNDAWVSDLNKIKTETHNDSIITSWWDFGHQFITVSNRGATFDGGSQLGELAHWVGRSLLTNNESEAKNILRMLHCSNHRFGKELEKKYDNYDTLRLIETVIFSSKENAKQILLNENYSVEEVDVFLGMTHCTPQDGIFITSQDMVSKAAVWAHFGGWNFDRAYAWKSTNDLLYDDQIKILNEKNIKNPDKLIDSMNVNAYDEESANYWISGFPNYVGNYPCQKNENEIICNVNTPQGALIYTHNLKNNQGSFQNNQKPHSFNYLNSDYEFESINYENASINFALTLYENDGRLLVSISHPDLAGSMFSRLFYLNGLGLKNFKFFDEQRSQSGFKISSWLIDWDSNEMTKPKNYLYNVSHILIGHSEVPQLNINRTKEEALKFTNDVLNNLTIHNFKEKAIEFSEDPSVVVNGGNMGLGDLNGFVLEFSDAAKELNVGEISKPIESQFGYHIILLNNKTLSFSDFIIK;locus_tag=LOCUS_03900;note=WP_010871049.1 membrane protein (Methanocaldococcus jannaschii DSM 2661) [pid:26.8%25%2C q_cov:44.1%25%2C s_cov:43.3%25%2C Eval:2.2e-23%2C partial hit],MGA_392
sequence1	MetaGeneAnnotator	CDS	359053	359760	.	-	0	ID=MGA_393;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015776105.1;translation=MNKNSIYFVIPAYNEEKIIGSVLKKLNKNGYFKIIVINDNSSDNTHKISKKYAYVINHKKNRGQGAALRHGINYCLKQSKCKYIVTFDADGQHRIEDLNNMLKPVIDKKCEITLGSRFLCKKSNMPFIKWFLLKLSLVFTLLISHINLTDTHNGYRVMNRYAAKCIEIKENCMAHASEIIDEIGIKKIKYKEIPVIINYNPYVIKKHNFYALIKRSIFVAFKMIIRKFRLLFNNN;locus_tag=LOCUS_03910;note=WP_015776105.1 glycosyl transferase (Brachybacterium faecium DSM 4810) [pid:34.4%25%2C q_cov:93.6%25%2C s_cov:90.8%25%2C Eval:3.6e-31],MGA_393
sequence1	MetaGeneAnnotator	CDS	359855	361120	.	+	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIKQIFEEFNKNKINYSIIRNYEFLVQNKEYYDGKDIDILVKKSDYKKLENLILKNNFFKIDLNYGTNHKAFVNTKNKQIISLHIHLGGISGTSTIYLNEKILINKKLKNSFYTLDEKDQFIALILHIILDGKEWRETYKTQAIELIEKSNKLYTYFSKNIANEIIEKIKNKEFDNFNVKKYKLNYKLNNPSFTFSKISYMIKSFIWVLKRIFKGGNLIAVVGLDGTGKTTLTDNVNNYYKKSLIRTKLIYFGRGKNNIIPIKKISAPFIKKKEKIHENSPTVGKTKKTSILFTLGSIVFFIDLILRYFFTIKISKIKYDLVLTDRFATDLILMNGVPFWLRKMYFYLIPKPNIMIYLYNDINTLNIRKKHPIDDLKRQEEIYSYLIKKYNFFKIKSENIEQVKTESLIKINELLNYKK;locus_tag=LOCUS_03920;note=MGA_394
sequence1	MetaGeneAnnotator	CDS	361117	361917	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNITESKFIKKYEEECPSFKLIDIKSIKKTIRLDNIKSVELEKYKIKLEKIKKNLYSYNADFNITSTLPYLDGKFFIQGEPSFDTVELLDPNSNEIILDMCAAPGSKTTHTSNLMKNKGTIVAIENNANRFKKLKFNLEKSKCENIICIQEDATIFESKVKFDKILIDAPCSGNYTVEKDWFEKRTDFDIENKARVQKKLIKNACNLIKKNGILIYSTCSLEKKEDEEIVEYAKKLGFKVLYEKKYWPHIENTIGFYMAKLEYIGS;locus_tag=LOCUS_03930;note=WP_010868893.1 proliferating-cell nucleolar antigen P120 (Pyrococcus abyssi GE5) [pid:38.6%25%2C q_cov:72.2%25%2C s_cov:53.5%25%2C Eval:2.1e-33%2C partial hit],MGA_395
sequence1	Barrnap:0.8	rRNA	361952	362044	.	+	.	ID=Barrnap_3;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 78 percent of the 5S ribosomal RNA,Barrnap_3;locus_tag=LOCUS_r00030
sequence1	MetaGeneAnnotator	CDS	362108	363160	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSYQIYNLIKEIQLIKESRINNISLCEDYSILIELYSASIKKKYLHIKVPNFLFLRNEKCDIIQANSFTKTLREKLLGSIIKEIIQCGADRIIEFKLSNDKKLIIELFLRGNIIILDNDNKIELIMDKKKFENKKSNIGEEYNIVNPAFEYKKITYEKINKLIENNKGDTIGLFIATKLNLAKEISEFLCNELNFDKNKFMNELKKEEKENLIKKIKEILKIKPSININKNSLLTIPDNNKSQFDTISEGFKKINEQLKEKITNTKYTNQINKIKNIIKKQNKLLEINKKKEEEYNLVANKLYENFENNEAILNKIKDDNKIIENNTFIKKNNILKINKKNKTLIIKIQ;locus_tag=LOCUS_03940;note=MGA_396
sequence1	MetaGeneAnnotator	CDS	363161	363514	.	-	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTNLKKENLNSFLTNRLTFSDNPKVTDDFTSEDKYMQVIKVLGIGLFGLFVLSFTGEYTNIFDFFSANLFTGAFSLTGIETSNVSNYFMIGVLFLFSIFSFGVVKRHRIIVRKRK;locus_tag=LOCUS_03950;note=MGA_397
sequence1	MetaGeneAnnotator	CDS	363549	366356	.	-	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKELLKISLFLWSILLVVQGVSLFENSFTGDLISQNNQVGTIQISFSLNIVGLTSNNITSNSVELNWSNSINSTTVIFYGADLNLSMNETNSSSLLAHNYLLDGLNSSTLYYYKIQSNDSASVKNSSIKNFTTLPAVDLLAPQFQYFIPSVPNGSKYLRQNYNFTVNFTESDDIDYITIKINETTYNLTDLGNEFFLELNDFNASDYIFNITAADRAGNINSINYSYSILKNDDTNISFIGSDLFIISIFNNTKYNFSIDINTTENNYSLRILSNSQEVFDLGSFVNATYVKLNATNDNNSYIDNNDIYLDLSIGSYQIELITKGDDNYDSQTINFPLVISNSSQNIIVVNSSYFYEYNTPININISFLGDNTVTSILDSSPEFIVNGTNIVNASLLDPGYYQVNFTTTNDAGYETDFTISVQVKDTALPNISNIDLFSNLSYYINSNRYLFFNSTDGSNINQSTLLIGQRTIFAELNPKENSSVSEINGTNQKYLFNLSILNVSNYVYVINSKDDSGNINTKTGTINISKNNVYNLSFALNGVSASAFTINEDTSFNFIANSTYDAPFDIFLYKTSSTSIATDVTNYSTSYSIADPGDYEIRLIVDDSNYEGGSLNTSLTISDVVESSSSSSSSSSGGGGGGSSNSQAFNKAKAEKEAAEAEMNKECVSAWDCSSWTTCQSSLQSRTCDEVSSCGGSSPSIQRSCTEVSIQEQVLYEEKICEEDYNCDDWSVCSNNIQTRSCSQTTSCDSSSLKPVEQKKCGEIVDAIIGYSDEYDARVVDYGEIDDNTRSAIIEQSDVLLIEYENKDYEISISDAKNDIIIGKIESTGQEIIFKKGISNYIDLDLDGVADVVFSLVGVSGTKLNIKTTTKIEEQTAKEIITDTNFIKNTKNVALFITIILILLIFISIYKFSKDDVGSFVKKTKILLDNKK;locus_tag=LOCUS_03960;note=MGA_398
sequence1	MetaGeneAnnotator	CDS	366353	366778	.	-	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNKNKFYFILLICIVILIASFFLIEKPKVKYFEYDAYIIKSEEYGFNADNDKIHFGSMYVNDSHVRKRWFTISNDFDKNCIVNILVEGPLAKSIFIDNNNFILNKSEQKELEMGLAISANEFPLGKYEGKVKFEYDCIK;locus_tag=LOCUS_03970;note=MGA_399
sequence1	MetaGeneAnnotator	CDS	366765	368258	.	-	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVIFFLIFVFLFSTFSNSVSLSPPKDTLVLDHDFNGKIKFMVGQLANYDVIQFDFSAPFFKEKRKIVNVTGDTMFFTFDLNVPFDSISPGEHKYHIVIQPLGKNQGMAQAAVAYSLFIIKHFNIQYMTVGLDQKQYTKNDYSGIKFKVISLGNKTINNFDAILNIYDIDGNKLDTLKHEGFELNLYDEKPLIFDWDVNKRRPDIYKYDVSVFYGEDKNSFSKGDFKLGDVFVDVVNITNEFVTNIINEMDVEIDSRWNGDLTNVRANYILKKNGKTVSESNSPTIELKSWFKGNLKGFIDLKNVLNGKYNLTVDLKYVYKGVEKQTLKTFEVNVIDITESIAYKNANANGGYFYFGLIILILAIILFCYEFFGKKHKRHLTHSKKIISNNKNINNNIVYANSSNNHINTNINLRQKPSGVPILNKTNKFNNDKQFNINTAKSKMSWNDIKSNFESVNNVINNNNNKISSNSDDYDNYFNRHFKNAKKRDILDDFK;locus_tag=LOCUS_03980;note=MGA_400
sequence1	MetaGeneAnnotator	CDS	368324	369004	.	-	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEDISNRTLAALLAVTIVVSLGGTFFVLNNPAQLSGLLVTENNQSGTVNVTLSSLISLQIVKSGIIMTNLTAGVTTVSTSGIDGGSAAANAANQIVLINNGTGNIALGAYHSSNNDLQSPWTLTSSSCSIYETAAAGDCRYINESAIWEYGLYVSGSNCTAVNGQTYPIWNSSAVALNTSRMIGDDCGYLSTTKGINVVANMTVPVGQAAVSNRILNVTFIASAS;locus_tag=LOCUS_03990;note=MGA_401
sequence1	MetaGeneAnnotator	CDS	368982	369236	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGDLSRQTLAVLVAVVLVLSVVGTWMVMSGYTTDTELRVNEPEAVGTLEISMSAPETDSITGQVVVSFNDNKGDEKYGGRYFK;locus_tag=LOCUS_04000;note=MGA_402
sequence1	MetaGeneAnnotator	CDS	369356	369760	.	+	0	ID=MGA_403;product=translation initiation factor IF-2 subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877371.1;translation=MESYENLLKKAISEIPESASNKERFESPKIISIIQGNKTIIQNFTQICDQLSRKPLHLQKYLLRELAAPGEVFKSSLKIGSTIKKEKLEQKLESYINTFVLCNECNRPDTKLEKDEKGIIRKKCMACGTIVVVK;locus_tag=LOCUS_04010;note=WP_010877371.1 translation initiation factor IF-2 subunit beta (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.8%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:1.4e-26],MGA_403
sequence1	MetaGeneAnnotator	CDS	369826	370113	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYNLHETENGILLTLCDKELLGLKLKSEFMEIKISSQIYGGKNFNENTINNIEFDSINAIGKKSVSVLKKKGLLKNNETVFIQNNPYVHIEKQF;locus_tag=LOCUS_04020;note=MGA_404
sequence1	MetaGeneAnnotator	CDS	370122	371021	.	-	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLESIVKLDKKSTKPFDLFYVGLLFATVGVLLSLWTFKTNPSIILVFFTTMIGIPLIYKLLRSEEVNELNYKSEGDILRFHEKAVLMYFFLFLGITLAFFMWYYILPDNLSSQMFTVQNQTIHDLNKNTFNGKMVQIFGGFNLNTGNFLKQNYDTFLKIVSNNIRVLIFSLIFSLIFGVGALFILVWNGSVLAAAFSSFFNKYYMIYMVKDYSTIAATFMSFYQSTLRYLIHGLPELFSYLLAGFAGGILSAAIVNGDYKTEKFDKILYDFIVLVVIAIAILLISGLLEVYVTPNFFK;locus_tag=LOCUS_04030;note=MGA_405
sequence1	MetaGeneAnnotator	CDS	371082	371963	.	-	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESNIKREIAYKIRISDLHISNYVKQDGWLPNYVQLNDNRKVSRVSIIGTVIDTNIDGEFSQDTIILDDGSAGIEIRDFESVYLKKIIKGNIILVIGKVKEYNNIKYILPEIVKVLNDPKWIIYRNLENELFEKQNDFDKKYLDNANTTNNNNNANINTTSEVFNENNSNESNQLNQMEFEEDDLSLNKTKNDYEPKFVNNLSDNKLEENNNVSELKSNEIKTDNSNDEEVTELSEDSIQIKIINFIRKNDTGSGCLIQLIENEFNGSDDILENLLKEGEVFEIKPGVLKVLE;locus_tag=LOCUS_04040;note=MGA_406
sequence1	MetaGeneAnnotator	CDS	372009	372944	.	-	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGSWSLEAGAMVLANNGFCFIDEMDKMTTEDRSAMHECLEQQTVTIAKANIQATLRCETTVLAAANPKFGRFDPYAPINDQIDLPPALISRFDLIFPIKDVPDRFKDDLLADFILKIHQTNTFDAPPIETELIRKFVAYSRKTCNPQLSVEALAEIKKYYVEMRSSGISEDGSVRGVAITTRQLEGLLRLAEASAKTRLSETVDFSDARIAIDLLHHCLSEIALDKETGKIDIDKISSVGMSQSQRSKIMNLNKIIKELEDEVGKVIPIDDILKKAEKLGLDVSEIEEGLEKLKRTGDIYEPKRGFYSRL;locus_tag=LOCUS_04050;note=WP_012289456.1 DNA helicase mcm (intein-containing) (Halobacterium salinarum NRC-1) [pid:46.0%25%2C q_cov:96.1%25%2C s_cov:36.2%25%2C Eval:3.9e-77%2C partial hit],MGA_407
sequence1	MetaGeneAnnotator	CDS	373007	374035	.	-	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGAELVLEFGKFFEKNYSKDIMDSFNEVYHTISVDFEKLAKFNIKASEDLLEQPDTTIKAAELAIQNMGLPDGIEEVKVRFFNLPDSVEIKISHARTRHISKLLKFKGIVKTKSEIRPKCVLANFECPSCGNIIELAQLEKKFNEPSMCSSCGRKGKFKLADKKLIDAQILDLEEGHEDIGGSTQPKKLKMILFSDLVSPFNDKKTNPGMKIEVVGILKEVPIEGKSGAKTVNYDLLIEGNNYISLSEDFDDIKITKEEEKKIKELANDKDVFEKITNSLCPTIYGYDRVKQALVLQLFGGSRKMRPDGVSTRGDMHILLIGDPGAGKTQIMRRMAVVAPK;locus_tag=LOCUS_04060;note=WP_011020726.1 ATPase AAA (Methanosarcina acetivorans C2A) [pid:35.9%25%2C q_cov:96.8%25%2C s_cov:47.4%25%2C Eval:4.8e-55%2C partial hit],frameshifted%2C insertion/deletion at around 373009,MGA_408
sequence1	MetaGeneAnnotator	CDS	374177	374746	.	-	0	ID=MGA_409;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868091.1;translation=MAFDHKKETKITNIVVSSSLEHDVPLEKMAATLPNTEYNPEQFPGLVLRIDKPVSTALIFSSGKIVSTGTTSLEDVKRSIARLIEIVESIGIKIPVRDPAFEVVNMVAKGNIGIDLNLNQLALQLENTEYEPEQFPGLVFRLPDESDRKGATFLLFRNGKIVCTGTKDEAQVERSIEKLLVILKGINKK;locus_tag=LOCUS_04070;note=WP_010868091.1 transcription factor (Pyrococcus abyssi GE5) [pid:46.8%25%2C q_cov:90.5%25%2C s_cov:86.9%25%2C Eval:9.9e-38],MGA_409
sequence1	MetaGeneAnnotator	CDS	374901	375641	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILFLIQIITYVIFGTLITYNDIKYAKIYNKHIILLFFLSIAMNFGELFTVDFYLINIISFIVFYLLYKLKLIGAGDSKLLIVSILYFSNLIVELNQIIEFLKYPIILFVIWNFILFLKKFKNFEVDIQEFLFKCLLYILGSIIYLKYFNLGWEHFLIYILIIGIFYSQIKKYLIKKFEYSQIYFLLSLISIILFFILSIGFIELLYRISFILLILLSEQIILHNSENIKFGPYIILGVLIYAIS;locus_tag=LOCUS_04080;note=MGA_410
sequence1	MetaGeneAnnotator	CDS	375628	376380	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSHKIRADLKEKFKIKNLFLLKKGNDYFIFRSGFEIYSVYFNIEDFNSVKERLEKLDKNFEEYDLKLIIISIEKEGLLNYIKKKLISDYFIIKFVKLIKKIHNKYNTKLENFNYITQIRYDCKLDDENFVNENLDKIQNLLLNIKTVNAIIEINNKKIQLFNIKYKKEKIHKNYKTYLNDKFGIESELDNPNLYLSILNLNNVVFGNECHIIDYNNLGLMSKEDGFKILKKLLGKKYKLFEKEYNKNEK;locus_tag=LOCUS_04090;note=MGA_411
sequence1	MetaGeneAnnotator	CDS	376370	376690	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNIDYYQIKENRIFLKINTSVYSFEVIISTLYPYLEDNYIILDGDRNSTVNVEIKPKRKIDLDEFANEIFNRLFLYNIHEMSQNKNRDIIDNIMKNTLNKFNKK;locus_tag=LOCUS_04100;note=MGA_412
sequence1	MetaGeneAnnotator	CDS	376687	376908	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKKIYKKSNIIESNLKFKDQFSIIEKDQHFEIEFKDNMVHENIKKRMLYEFANYIFEIQIEKGDFDRNSC;locus_tag=LOCUS_04110;note=MGA_413
sequence1	MetaGeneAnnotator	CDS	376889	378301	.	+	0	ID=MGA_414;product=His-Xaa-Ser system radical SAM maturase HxsB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005479204.1;translation=MIETVVDFPLKDFVFNRFRFKKYLGNYLVIGNDGGSIFLTENEFKDMLEKRIIHGSELYNKLINSRIIIDGSNLGQLEKGIINRYHFIKGYPTLNIVVISNRCTHKCVYCHAASAQAAKEEFDLSLENAKKTCDTILSNPSKNILIEFQGGEPLINFEAIQFIVEYARKNANGKKINFALVTNLELMDDLKFEYLIKNNISICTSLDGNEEVHNFNRKSENKEFNSFLNIVKWIEKIKKVQKPAALVTVTKKGIENYKEIIDTYIKLGFESIFLRPLHFLGTAKSTISSIGYTGSEFIEFYKKSLNYIIEKNKQGIKLVEMNALYKMHKITDRPDPCLSELMSPSGSCIGQIAYNHDGRVFSCDDGRNESSSDGFFQIGVAGEDINTILSRDKVKLIVESSINDKYDCDLCVYKPFCGFSTPQNYGKLNTIVPINIEDSRCKIAMGEFDFLFEKMKNNKEDWNVLYSWIN;locus_tag=LOCUS_04120;note=WP_005479204.1 His-Xaa-Ser system radical SAM maturase HxsB (Vibrio parahaemolyticus RIMD 2210633) [pid:27.6%25%2C q_cov:84.5%25%2C s_cov:86.5%25%2C Eval:3.7e-38],MGA_414
sequence1	MetaGeneAnnotator	CDS	378298	378795	.	-	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIPKIKKKISSFLKNNNFISNQDGNVKSKNVVNIALLVLLMDSVSAAQSKDIPTLNHELLFGKCYGMEIVEGGILDLSTNGEFSTNPYELNKPAQYTDHHGSQQSVIDNPKYIDSKNYFFHSNNLAIDNIFDDAILKHHNCLQVVKKTWSYVNHSNEESGGFFG;locus_tag=LOCUS_04130;note=MGA_415
sequence1	MetaGeneAnnotator	CDS	378911	383698	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIVYLIIFILIFNYPSIFAKPIQSSSYEPLRTIDFRTRDFSLTNPEKSGIFGIILVGENGQYFEFEKKYSTNMDENTDEDSYLKNLNTKALPKIIRDKTEREIAEANNAVKLNEYYPYFNDKFYFYTKPYYFYNDVDGKNEVIELENGGANYFSKSQISQGINVFNSEYGRITYDYFNSIKPDFSSRAPKFQSISGLLDNSNIENFEFDKRYNPNNIKLLKDTPKVYVANTNIFCENKNFNIDFYDEKFCTNKKQNGGCQPNDETWVYQDNFCCGNSKINVNGLTYIADAGLPRISGGIIMDPVCIYEEVAGKKAFGFKRMTYNEIFQFKGGNFEHSVIQSNDFNRNIKFNFCKTKKAYELDQKLEPTGENWNKYETNEQINQNTNIVIINKQYDEEKEEIICKDNSYTTARYLRCLDEFDNDLNLKPHAGGDENNLKQGESIYKETWNLDDSDYIDVKDNTAISLKENNFIDSKNITLSFDFIGDEIGAPQLEIEAYSYEFENQNIDPIIIQIKPEKYYPNKKTKINQFIEIENFTKFHIECTSPEAKELCKIKNIRVYTDKEFNKIKNICSNNRSFISINNLKNLDQDESLSTSQTICEKSSDHNKYIINGSNELGTYRTCCIPDKNDYFLGKNGACISGNYIDNENYNNINNDNVFTSTGFLLVYKEIDGSEKTKFISNIYANSNYKIEKTPLNNITRVHIENLDELYYNISKNENNEIIELKNYYPNIIYSDKVYTCGIDNSHFNSAFKSIYDEKLKTNINKLSLFPELTEDGSKLDYPDNNYCKNIGEFFCNIDGTFKIADTSLLQFHNFTNDKSYIYPDNISELVTTPTEISGLTKDSEINLETDKQNLACCPGNSCYDGNECIENQAQFPSVDFEYSNYINLEKGQKYKRETNKNGMPYKFDSIEKPKICAGKFLEKKYEVDEVADGWIDYEEIVDWTGNYKGSCMPKQCLTPIFLLDKQSKDYIKESSENQLINFRSTLQDKQFVCVDHGFFTKDHICSYKNETETKGVWSTRTSVIIKELAKKVNKTIEESPDKYNYMIHCDNTSNILINNIDLDHGSVCILRISTEPINELVGINDENVEFTWATTINNPNNISNFENWINKLDLEPGSTCIEKYKNIDETKTKCGVYKNNDISFNVILDNKYKTIYFEETELSTIEQIDLFILDDFVKTLINFFSFEETEIIETLQKAPSFSINKYFKSETKNAGEDKKNIEIYSYDLIEMAIESGKYKSDTGIKSMKIKMNNLKSAESLKYKIKKKVEEKGLITSSGIQRWKKFESDQIEGCVKDNIEYLESNKLIKCKYIWKVFEEDSDAYEPRPTSYSVAIEGSTYTDDTKEYIKNKENTLCETKEEIFISEKLPLWKTKTSFAYGTMNFKCTSKWEFKNIEKGELCPLTEDIYNNLICKKGELKWQVIQKRDFEVKPFVEDGVTYIMAKRDNTIEFIDVSIDDLKNSDQYSSDLKHYISNSIKNCQNKNEIKIKEYADSDNKGKLTDIKFECKEELLWEETTTKNIDLNNIEGSYCMSNQLNINLFYDDTQYVCTGEDVPGELEIFASNIATVHDWNNKENLFSNLFNEIIDGIRIK;locus_tag=LOCUS_04140;note=MGA_416
sequence1	MetaGeneAnnotator	CDS	383695	387987	.	+	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGQVSIFIILGLVLFVIIGIILYAVTIINKQTVAAEERILRVESAEEPVEKIISQCLRESADNATYLIAKQGGYLRKGQPGYSDKLESINQKINLRGIEEGITQLLVFNKRDFKLGYGIEPAYPCPTVLDVTNSCSFQKHDFCFFQSSDSTFCDFGQNKLPSLINGKKSIRTQLMNFTLNQTKECILKQIKSDEFKFGGKTGDFKLNNITDKELIDLNVIIENRGTFFNLDFPIKRKIKGKENSIEKFTYSTKPRIKKIYDIIKTSLISENSKLNNDFKSKLKETTKHISNIEYDVIENINNNKDTLVIIKDEFAKFDNQPFEFIFILENRPPVLDTIQSNELNSLLKRNRNVDFYLTVGDTLTINPIGNDPDEDKLEYKYSGWKAEYDDEYNITIGCTNPSIWVNKKEQNSNCQVGGNVILNPEKKPIGGNKWESSDLFKSNKKSASIELGIKDIGWHEFRVTVSDGLHKDYQDIRVVVGPKPFPVVKLNNLYNDEEDLVSVESPFYFTSKDSISSGFSIDRRTWILNENKLNQKEGQVDFMLPDYVDGGELINSIIFKETQNRDQKYTKTEYEKLEKYIKNIKNENKEIQFGENELILQIGLKNSFNDIETLFKFKGEACIINDVSIAPWPFNLIEKPAITTIFNNGNEKAYSNSNSIINQEYLSPFKTDSACCNEGAVSNSYKQNSELCFNYEYETTPLYFPNDVYFAMKKNQDENTVNNKIKSKLGQNHIYDDLANDVVKLKITNKCNGERGNICSGDFEWDTRFKNLIGDTPTQISPNDDNYNLVTSCDGDTTPFTTSDNKNIFRTESNVDFITYNNKPSPVLGEIKGARCRGSIDQNGDPTNICRKYTGTTFEQIVYIHRGDIFNDLIDITSKNNICSKGEVVSGCYYKHNGVTTKFRTPSTGKTKTYAINSELTCENGWCRKPADIKTCTSGTVCTYKPDGNLNSKRRIYTGYCNDGNDFSSQKPCEFSTDNKIKNVDTSDSNNPIKTNSIIKWKYKNKEGYNQEYKYLQHCEPTINTNGKTQNNGLYEGENIKKLCDYPSKPLFNHDTGQCWNPCDNIENLNSFQSYFEQIDQNNQINFSTNTMLGSKQIPSDISSSFKTDLINNCFYTQLTPQGGRCIYRITNGNNCDTTSDILAVEGDNGDYKTINTGICKITIDGQFNCFADLKQYNYKENNDICQFNDECKSGFCKSKLDSQNSICTPKSHINYFDNTCTGVNRILSLADFETFKTKIPNPNKVNENDPDEIQSEFGKNEGHYRIPYILSKNYCFYTKKKINSVMTNKLSVENNIINWDNKQERDVYNPKQKSCISNETLFLKDKWDDGTGNIDFELLSERITDYCKNVCSWTSEYVINRYVWNNGNDNDKFNSVCGIILNSPTIDQAAINIEDNYEDNIILSGLIDSTDTKTFFRIKRKDEVVIN;locus_tag=LOCUS_04150;note=MGA_417
sequence1	MetaGeneAnnotator	CDS	387980	391618	.	-	0	ID=MGA_418;product=DNA polymerase II large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496881.1;translation=MKNKHGVVCSQKMEEYFDGLFNETNNAFEIASEARLKNFDNENFVEVKLAKNKAERVVGLISIVAPQIVGCGVVERIIELEKKYGSNDWRVSLIIALEIAKQKYCKFDDELNAMEVGIRTGFAYNTDGVVSSPIEGFTKLILKDRRDGKGKYFALNFSGPIRNAGGTGASTCVIIADYVRKNMNYETYDPDEKEIARLFSENSDYHERVANLQYFPSRIETDFLISHLPVEIDGDPTDRIEVSNYKDLPRIATNFLRGGYCLIMSSCIPLKAEKLWKQLDKWGDELGMGHWSFLKEYISIKKKAKAKNTSTKNEGPKPRITPDYTFVADIVAGRPVYGYPLSNGSFRMRLGRSRVTGLSAQGMSPATMGVLNSFIACGTQLKMERPGKAASFCSVDTIEGPVIKLKNGDVVYVTSLEQGNKLYDSIEEIIYLGDILCCYGDFLNRAHSLIPLGYCEEWWIQDLKHDIESINKKIDFDKISKQTKLEINRLKDLFENFMTTFPNFNESFILAKTYNSYLHPKHTYHFNSNTFEKTIEFLIWLKDGQINGEGKLVLPLQKNWNEIETEKRYLELIGIEHTVVQNEFVVLNIEKTNALLVSFGLYNNFNKKKIDEIINVFNSTQKEKKETDDIYSFNILNAITKISNVKLRDKSGVFVGARMGRPEKAKMRKIPGSPHGLFPVGKEGGRMKTFASALDVGFVNYPVKYFFCTTCNEQVLYSSCHKCGNKTEVKDLCRFCGSESGCEHFQNKTEEEIEAIKVPYKKTKINFREYFKSALKNLNTNQFADLIKGQEDLKNKSKYVERLEKAVLRAKHNIYVNKDGTIRYDASEVPITHFRPKEIKVPWKKLKEIGYDKDIYGNELNNDDQVLEIYPQDILIPCYKDSSFEGADSILFRTSKFIDELLVNLYGMEPYYNCKTPLDLVGKHTIVLAPHVSAGILTRIIGFTETQGLFAHPYVHCATRRDCDGDEAAFFLLMDAFLNFSKTYLPAHRGSTMDAPFVLTSILNPAEVDDMVFDMDISWNYPRELYLAGLDFKMPWDIKIETIKDHLGAEKQFEKSGFTHDTIDLNDCVPCSAYKYLPSMIDKLEGQLDLAKKIRAVKTEDVAELVVEKHFVKDLKGNLRGFSQQQFRCVKCNHIFRRPPLDNKCSNCPEGKIIFTIAEGSVIKYLGASINIMNTYACSSYQKENIELLRRAMDSVFGREKEIQKGLSGWFN;locus_tag=LOCUS_04160;note=WP_064496881.1 DNA polymerase II large subunit (Methanocaldococcus jannaschii DSM 2661) [pid:39.6%25%2C q_cov:99.4%25%2C s_cov:99.5%25%2C Eval:5.3e-234],MGA_418
sequence1	MetaGeneAnnotator	CDS	391608	393131	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDTIDKKNIISFLLEKEVLIEEDVMNLINSSIDHIDLYDYILKKNSNDLILNKNILIEYLDDIENKKTSQKLNEIEINDRKTIITWEYEENTEKKKYADFVKMYKNRYDEISSILKKRLELSNSISISRLQYKPDNEKVALVVSIYEISLTKNGALIFDVDDPTGKSKLIVSKKNEKMFNLASELCHDDIIGIVGTKLNDVVFPNDIILPDVPLTKELKKSPIEEYVAFMSDIHVGSDKFLKNEFELMIDFLCGNYGTDEHKEISKKIKYIFVTGDLVEGVGVFPGMENRLTILSLKEQFDEFARYMKKIPKDKTIIICPGNHDGVRLAEPQPKLHEDYAEELYKMENVIMTTNPAYVNVGRTKKFSGIDILMYHGWSLVYYANKVPTLLKAGGVENISHVMKYLLQRRHLSPFHKANQKVINSEYDPMIIRKIPDIFVTGHVHKCSIQSYRNVTLLCGSAWEDLTEMNEKFGFVPEPCRLPLINLKTRQVKVLKFGDIKSDEDEK;locus_tag=LOCUS_04170;note=WP_048066045.1 DNA polymerase II (Methanosarcina acetivorans C2A) [pid:33.4%25%2C q_cov:79.1%25%2C s_cov:62.0%25%2C Eval:1.6e-66%2C partial hit],MGA_419
sequence1	MetaGeneAnnotator	CDS	393243	394451	.	-	0	ID=MGA_420;product=cell division control protein Cdc6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146489.1;translation=MSQNKLKDIFSSFINKKPLFNNKKVLQANYTPENIPHRNDLIEQIGKILAPCLRNELPSNLFIYGKTGSGKTLSVKSVTNLIEKTAVEQKINIKIVYVNCKLKRVADTEYRLIAQLAREFGQSIPPTGLPTDEVYKLFFNIIDIEKQLVILVLDEIDQLVKKAGDEILYNLTRINSELKNAQINLIGISNDLVFVNNLDPRVKSSLSEEEILFPPYNAMQLQSILQERAKLAFEENIIETGVIEKCAAYAAREHGDARRALELLRVAGELAEREGETTIKIENIDQAESKIERDRILDIVKTQPKQFQIVLFSIFSISLQNMNNIQTGTVYENYKNLCPKTGLRPLTQRRVSDIIAELDMLGIINAKLINLGRYGRTKEITLATPPSTTPKLLKILRESLNF;locus_tag=LOCUS_04180;note=WP_048146489.1 cell division control protein Cdc6 (Pyrococcus abyssi GE5) [pid:51.0%25%2C q_cov:95.5%25%2C s_cov:91.9%25%2C Eval:1.7e-110],MGA_420
sequence1	MetaGeneAnnotator	CDS	394706	394891	.	-	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIVKIQINKELIGFEIKKQINFNSFFTKKKFKEKKQIIYFLYRNILYIIYNILLYIYIYI;locus_tag=LOCUS_04190;note=MGA_421
sequence1	MetaGeneAnnotator	CDS	395056	396060	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIHIKFTWFLLLIILILFAYIVYIDNQISETNLKLLNINNDLSNNINDLDKNINSFIESQNNINKNITNATITNNNNIVDNFNILNYDINKVGEQIEYYNLKSNKRLDELGEENDAIQNSVDEISTSIVSLKKKTSSDFTDIIEDVVPATISINTPIGVGSGAIISKEYAITNFHVVSSNGEPLDDIRIRTYDDDYFGAKIIAYNPLIDLALLKLDEDMDYTFDFVKLNDIELGQKVMAIGSPRGLSFTVTEGIISQLNRQIDSSNINYIQTSVAINPGNSGGPLISTDGKLIGLNTLKVLESEGLGFAIPSEIISSFIDSVESENNINIK;locus_tag=LOCUS_04200;note=O34358 serine protease Do-like HtrA (Bacillus subtilis subsp. subtilis str. 168) [pid:37.5%25%2C q_cov:61.1%25%2C s_cov:52.6%25%2C Eval:1.5e-32%2C partial hit],MGA_422
sequence1	MetaGeneAnnotator	CDS	396076	396402	.	-	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNLTSGDITFAVTVGAVVGIIWALKYLIRLEQKLLNVEVHVEHIVDQLRYNELNILDEQYKIEEKLGINTAKKNSKSVKKPVKKKVVKKTAKKVTKKSSRSVKRKRR;locus_tag=LOCUS_04210;note=MGA_423
sequence1	MetaGeneAnnotator	CDS	396557	397345	.	+	0	ID=MGA_424;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249426.1;translation=MIKNDIVSRLKEFGLNNYEAKLWISLLSRGIAGASELSEIANVPRSRAYDVLESLEKKGFIMIKVGKPIKYMPISPANVLENLKKKLKSEHKEQLDQISNYKDSNVFEELNLLHDNGIDSSDFSDMSASLKGQNNLNNHIELCLKKAKDYIYLMTTDIGLKRKYDKFFDVFKKLKSRGVKINICAPLDGIDKSILTKLSTVANLKNIQKPISRFIVVDGTELTFMLNDDNKIKAKFDTGIWVNTPFFSNGLSKMFETVFDKN;locus_tag=LOCUS_04220;note=WP_011249426.1 transcriptional regulator (Thermococcus kodakarensis KOD1) [pid:27.5%25%2C q_cov:92.4%25%2C s_cov:91.3%25%2C Eval:1.1e-15],MGA_424
sequence1	MetaGeneAnnotator	CDS	397342	397881	.	-	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIEVEIRSFISKEKFEELIEFFKKEGNLIEIETDETEYYADQGGVRLWKNNDYAKIILKSGNIHDDCREEYEIKFDKINFNHLQKMFEKLNIPKQIKWFRKKYTFEWQNITIQVGHSLGYGYILELEKLCKEEEKEKTLNLLKEKILNLNIEITPKEIFEEKYNYYKNNWKELTKNGF;locus_tag=LOCUS_04230;note=MGA_425
sequence1	MetaGeneAnnotator	CDS	397953	398192	.	-	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGDVVKRFSTGAINATVFKNTTKNTEGNDAEFNTVNFSRRFKDKEGNWKSSSSLYAKDLPKAMIVLSKAYEYLTIKE;locus_tag=LOCUS_04240;note=MGA_426
sequence1	MetaGeneAnnotator	CDS	398358	399299	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELYISNKLIYETVEAACGSDILPLVEFIKNKENISETDISEKLEIPINIIRQMFYRLSDFNLVRFKKKKDKKKGWYIYYWTFLSRNISYAILALKKRRYEGLKSRITREEENIYFICNDNHFKMDFDSATEYEFKCPECGELLFQIDSQKIIDNLRVEMDELNEYIQHPPSIFKYEEEPVQTLEIITAEDELRAKKRTTKKAVKKVVKKAAKKKTVKKPAKKKVVKKVVKKPVKKKVVKKVVKKPVKKKVDKKVVKKKVAKKVIKKAVKKKVIKKLVKKKSAKRPTKKKEVFSSRKKKKLVNNILKKRKKK;locus_tag=LOCUS_04250;note=WP_010877276.1 transcription factor (Methanothermobacter thermautotrophicus str. Delta H) [pid:30.2%25%2C q_cov:51.8%25%2C s_cov:88.8%25%2C Eval:4.0e-21%2C partial hit],MGA_427
sequence1	MetaGeneAnnotator	CDS	399300	399695	.	-	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTKSKGSKAERELIHLFWKNNWAALRSAGSGSTKYPSPDILASNNIRKIAIEAKSVKNNYIYINKKQIFELIEFSRMFGCEYYIGAKFEKKGWYFLSIDDLKETEKSFCVNFKEHKEAGFSFNELIGNW;locus_tag=LOCUS_04260;note=MGA_428
sequence1	MetaGeneAnnotator	CDS	399771	400454	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQIQLYSNDSLEKLVELFPQQEIDWENIYNMFISLDSKNSQMHLLSNIIGYFGEIYTGLTIQKILSEHNLGGKFNPLNDKKITKSYRFIKILPYGTEINLHIPSKFKIQSQIDNSVLLEDIFVAFEVKCGKKVKGGGKRHPSPYSTTSIQRKIRPIFDLYDKIGYVVVSLKDVYLNKDGRSNTGVNFEKVGGFKTFIPFEHSEFLEKLENILQDNNFEYTNDFYN;locus_tag=LOCUS_04270;note=MGA_429
sequence1	MetaGeneAnnotator	CDS	400537	401427	.	+	0	ID=MGA_430;product=ribonuclease Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061333.1;translation=MELTFLGTSTMAPTKDRNNTAIYLQTEKYGILFDCAEGTQRQFKIGKINFNKLDFILISHHHGDHTLGICGLIQTLATNNYKKKLTIFGPKDTKKYIKNAMNSCIFTSKIDLDIIEISNGKIFENENIVIESLEMTHSVPCVAYSLIQKGHRRFDLEKMKKLNVKEGPLWNELQKGKSITVNNKTIKPSDVTFLSSDKKVTYCIDTSLNKNTYKISKDADILICESTFDEDLKDKAQDYGHMSVDEACDIANKSKVKQLILTHFSARYKTTDGILKHAKEYFKNVICAYDFFKVKI;locus_tag=LOCUS_04280;note=WP_048061333.1 ribonuclease Z (Methanothermobacter thermautotrophicus str. Delta H) [pid:37.8%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:7.2e-49],MGA_430
sequence1	MetaGeneAnnotator	CDS	401424	401948	.	+	0	ID=MGA_431;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251165.1;translation=MKFKTNLINGKIFSQENNKAHTLFDKSNMGSIFKQGIIELNLYEAMYLLEKRKIDLFFKNELLTDDQIINKFVKLDKQFLNNYCVYKDLRSKGYILKSGFKYGSNFIVYPKGKKPNKTHSKWICFVKKESDKLNLYEFASKHRIAHSTKKNILIAIILNDNNSILYYESNWIKP;locus_tag=LOCUS_04290;EC_number=3.1.27.9;note=WP_011251165.1 tRNA-intron lyase (Thermococcus kodakarensis KOD1) [pid:34.1%25%2C q_cov:96.0%25%2C s_cov:96.4%25%2C Eval:2.2e-22],MGA_431
sequence1	MetaGeneAnnotator	CDS	401945	402706	.	+	0	ID=MGA_432;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YHX0;translation=MIVVPYNPIAFSIFNIEIRWYGIIYALSLLLIYFSFHILSKKNKVKLNEDDIDNYFILFLLANLIGARLFDFIFYYPSKLFADPLSVLYIWNGGLSFHGGLIGILIATYFYSKYKKVNLWPILDLIALIVPLILAIGRIGNFINHELVGKIWQSDYCFNFATISGCRYPSQLFESFYSTILFIIMIYVYKKKLPDGLTFFIGFTLYGLFRFIFNFFRDDTLILLNLSMGQILSLLMFIFGLIIIIKKYYSDDD;locus_tag=LOCUS_04300;gene=lgt;EC_number=2.4.99.-;note=B5YHX0 prolipoprotein diacylglyceryl transferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.9%25%2C q_cov:94.5%25%2C s_cov:96.5%25%2C Eval:3.8e-37],MGA_432
sequence1	MetaGeneAnnotator	CDS	402829	403932	.	+	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDRVLDFVKANGPVIPTAVSKNLKIDSILAGAFLSSLISLKLMKVSDLKVGSSPLYYTEGQEKKLQDFSSNLNEKDFKTYLTLKENQVLRDSQCDALTRVSLSTLRDFAIPLNITYNGEAIKIWKWYLLKDNQLTQKITELLNIDTDSQKTNQNSDESKQEINNEPKVENKTQLSDQKAPDFKILKTQLEKTEQNNNKRIEELERLVKTIINKTTNSNLPESNVISETNDETDAKFVDQTESLPKNFKHLNSLLNQKNIKLNTDDDIYIKVNDFISKNNCQILNFKILRKSNEADFLINQNNFFGSQKYYLKFKNKKIISDSDLQITLEGGNLINLTPILISTSDLNKKGISYLNNNDGKIFFSKL;locus_tag=LOCUS_04310;note=MGA_433
sequence1	MetaGeneAnnotator	CDS	403984	404181	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVYIEKDNKNIELEFNGKIIDLAKSLNVNIETVICVLNESVVNENTNIKNSDNIQFLSVISGG;locus_tag=LOCUS_04320;note=MGA_434
sequence1	MetaGeneAnnotator	CDS	404182	405111	.	+	0	ID=MGA_435;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250772.1;translation=MKCKKCNNGVLINDLCNDHFIEYFENIVKKTIKEYNLIEKDDKIIVATSGGKDSITILYLLNKFYNNVEALCIDEGIKGYRSKTLLTLKQFCKEYNIKLNVYSYKKEFGHSLDYFMDLISKYNKIKKLNIKPCTICGIFRRYMINKYSTGFDKSATGHNLDDESQAILMNLLKNQIPILARFGPLTGISNENLFVPRIKPLYFLSEKEILTYSYLKKFDLFYTECPYVPQAFRAEVRDNLNEISKSKTNEIKLNIVNNFLEISKKLKSKYKDTIQINYCTICNIATNKKICNKCELIEKINMVKKECKL;locus_tag=LOCUS_04330;note=WP_011250772.1 tRNA lysidine(34) synthetase TilS (Thermococcus kodakarensis KOD1) [pid:37.0%25%2C q_cov:99.0%25%2C s_cov:97.5%25%2C Eval:4.3e-52],MGA_435
sequence1	MetaGeneAnnotator	CDS	405099	405614	.	+	0	ID=MGA_436;product=kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870563.1;translation=MQIIAFTGTPGTGKTTLSKEFCKLYNGNYINILDIIKENKLYDTFDKKDDTLDVDINKFINFMIDFIVKKQNLNIECSEFDYLVIDSHLSHFIPNEYIDFVIVCVCDLKILNARLIERNYSKQKIKDNLDSEIFDTIVEEVKEIGHKFTVLNTSKNYIKNSIDQIKDLLKF;locus_tag=LOCUS_04340;note=WP_010870563.1 kinase (Methanocaldococcus jannaschii DSM 2661) [pid:32.9%25%2C q_cov:97.7%25%2C s_cov:85.3%25%2C Eval:1.0e-16],MGA_436
sequence1	MetaGeneAnnotator	CDS	405603	406184	.	-	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNMEIINKINKSNILNYIEIANKLNIKKLGFNINNFEKIDDLIELIQKYKIDELFEYEIILQIDIKDLQKVKTKIKNKKVKYLYKAEKEEFVSNFKFIIKNYNYICNLECIEKWDYFNQIRSGTNENILRNFNENNITIIVEFNNLMPYIHRIQQNYNLAKKFNIDFQICSFAKNEYELLDENDKYAILKF;locus_tag=LOCUS_04350;note=MGA_437
sequence1	MetaGeneAnnotator	CDS	406274	418981	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKGVFFNLLVLILLVLPLIQGAEYYSVPDNFDFFNRTDVKFNPDLISSATYTCADINGNLCERFPDDSCELFINSNELEKSGTNLCSNNAGCVFLNPPKGYGGEGTPLSHLCNVENYDYYNQPLLSLMAQCVTANDGVDCDLNSTFQGYDSQMCNIVLCSINKENEINGTISVPQGLNVGIGDITVNFIASLAVSNSPGYKGIVELKDNKLFYRIQGLPDNLPNGVLSISADSKFNLQKEIKKNVEINTINNIDLLFTIDVNVNLDLTFKSNGVEILNPKGYVTVISEIDLREETKDFSDDLMNFPDLPARNVTVFSYIDGYEFKKTKFELTEDINIKEIDLKVLTSPKHITLTVKNFNDVDLPDVNIYFKSTGNSPFSGFNKTDTTGNSGFNLPVGAAGYFLFKKFGYVEKIVNYDSTNFNSNIQLDAWVSRKCSEFGGDLYLRKTLLSENKYCSSSGYINMYKNNISFSEGNVPLDENNIDDYVCCTEIVTTNLPFKDTDYDGVFDHVDVCPKNALIQTKNDPLYSETESPSKSHEDISFCQDGVDNDCDGAIDNLDDDCNNVCSINNCNINDKEYCFDNDGTPETKTINKDTSGIAILDDTLFEYCSQCQSIDSAFCQDKLLGQVDYECCNNVCETPEDIFNLNVEDSICSANQNVCKSGTCVLLDSCVQNTFFGKINILDANAENSCVCGSTIVDYNNQDESSACCINGNYYSDCNGILNTFKIKLSFYDQKGQDLFLPFSEQVQLLIIPRETSNIKPFRFDQTGSNGIITGLLSSDYTLIVTAVDRNPEFVEITKSDFEKAVDNSHEINKRVEFKTNLNLECANKEPNVNFKVSSIKSEPNSNITWTNPCSEYNESNLITHYLIKRTKLNYFDFRTKDLVTDYTNLISNSFGVGIDYRDDGFLPSDYASEFVALIPNNKYEIDSNSDCTDESNSECALKDEFGRIIHKENWTYVDELDKWGIELDGNKNSYLYEMRAYYVGNRHSKFSIPDLVLDYRINLVNNNEFLQIDHLSNRFSENNFYSNEMTYIGDSNTITNVNKILSLTNLGVDSQKSTRMKFLSELKNSIFNSGHEICTYYKGEFCAEYINDDYASQNVGLLDDNIFTGNLDPNDLKQLISEYSQADKFNSNDLLQNVPSVRVECNQFNFPKRIENTAESICFSESGVSGERYPFVCSITSNPNKTQCIKYPDLLNSGSTEFQKFRHDILKDTDLGFGFNSQNEYNEPLQQEDPISKLSLITQINVKSNLYTSFDRGDSVYDTWQSCTDALIPLNKDETYRESGCYGYRSKNACLDNPCNFGYEGKCEYYDSGFSENGDEISKGFCYDSKPIVNHCDLVNTDDLYQFGNITENICSNLGQCYLGKDQNSDNDFVCLECTQATTCSDYKSETACTSSDVCQLNNCLWNLTEEKCSVDKNLDGISNDGTSNENYKINSFLNLNNNNEYELLFRSYPNDEHKKISADIDSFYANEKYKLTSTAFKLQNGDWIKLNSDEFQTNATLFNENPTDEQFSFVLETSGDVNSAKTQLLNTEFEQLDSNAIIVNLSYFTLDNNGLQHNKKTRNVLIDNLKPNISIVFSELERLDDKHDILVLRSADELIFDSNGKRNKCDDKFELFNFETNAFVEIPSISPKNNVYFTNNKYQFLTEFSFSELDDGLYKFSSKCKDLAGNVNEKSLSFILNAGVIIKNVYPLVGEVVAGPQQDFSAELYREAKQCKYELYFNGARVNVTNKNNFKNDFNSKFKFGQKIPDYDINENKYIISDNAITFDDLCSQPDDEFNSRSCRTSSGTFSLNSTFSSGNVSFGFDFSNNIKMLNSFQTGSVFINASCLVQNGTDFEEFVPKNFSITQFYIDRLPPKTEILTIPSIATSKNTWLNYEDLKGSGTNVGFTFSCTDYPNIDGTNAGCDETKLAEYYIVNYGTNCIGNAPYEFAPSLTASSSSSISKSSTLCYRSIDTLGNKEDVNSINFLIDTEFPAFELNGISKPALDKENIANDKKQTINNYIEDYKTKLYFNTSDKITNISKIKLYKKSDNSYSLIDIYDFNTETSGLISIDSKSLDNKNVHFSFVLPVDDNITNIKIEVEDFAGNINSYKYYLFYDLIKPELYIDFLDKGFDYLSPINFEVSLDDNKYIADEGYNFISNTVFTKINIIPDKLHNFNISDGNFKNKQILKNKLDFLNTYFDALIYNQYHNYEEFGLDSKTANKLHNFDFETKQLTGEKLYGLNNFIPGTYNITLFYEDNYGNGDNYTFKLYINPIELLTPESFEVNLYENSKIIQIVNRTTNAEFEISSNQLITDIISFSSREDSTSNTHIAYKTDTPDYSLSFDPNLKIKSDYNLPVTFQNSNIEFSKDGTMLNINNAKFHILVKDIFGTEYDTTIGNDIAVDFKGPENYELKPNLKQTIDIFTLDYMEIPNRYQFYDSSLYDEYGLITNKENFYISGTVNTRADKPKLYSKNKTNLIYNTHFIDVSEYHETIGEFTVDYVNFDPYKKSELMTTANEIYLTNKFMKSNEYMTGNFVNHEKILSSELDTETLGTKITFANLIQDKTQAIFELYEKESYPLSFFKIYDLEELHGSALPEAPTKYNFDLKVYDHFNNDGNFKSNNKLVNNIGFNVTYDGIAPSYDIIFPKERDYIIEDDSLFNLNMNDDIKIESIHLNIVRKKIDGTELIISETFNNPVNLFNKIYANNDIGINADGNYFYNFTIKDVAGNLNKSKNIDFFVLRGAPQLVSKSIGGNKVEGDRNEYINTIKKPNLVFNFSFNDEDFEWGFNVSNFYLERYENGNWIIIKEYDNYNLDFNSIKPHKLEYDPSNRLLHRNYTNFTFFIEDDIFNAKETGELDENKYRLHFNATKGKREHLTYINFDYAPIKFEAEYYFYFVIDNTDPDIDFNMPSATNLLNFDFTGFNNEINLFNVSPLPKLDFVKFSNNDAGAFNGNAKLEQMENDNQEIILNYGIKLTDKALNEKTYNDFSILYDRKIPDTTWTIESLENNIMHNELGKHFSNNDQFTIRVSTSENVNSNLIVEQKINDEFVILKVFSQFTSISDTDILNGKFINLNEIPISFFPLKDTHLKFTITGTDYVNNNFENSTEIIIDKTPPKILDFKPLSASQIKPNFKFKTNEFANCNLFYENIDSNNLITTKRLSQINIIDHSFIPNEDITTIQRALAIKKPIPVNLSIECEDKRGNFGITKLKYYIDYSIPNFVFEDSDNTCTETDCIKYKTYFVEEGDYENNVSTINLLAHELSEESFCYYIKLDNLTNYNYSNDDFNIINEDFDNIYSKDFDLNDPNTKLSVTEFNKILNTLTNKRIIPNNTWTKLKLNEITQNYYDTLILNESQRHIFVGTCLDKSNNSGYSQVLEYNIDFDGPVSILFDEYNKLTNKKNHIINFYTRRDAICDVDGDNVIYTERKNGLYEYNYEVELSEGNNEFDINCNALNERGIANSKMYDIVLDITPPNLIIHSDNEIMTDDYKYELSIESNELFDLNINNLLYGYYDIKINDIEKNKKQNYTLSLNPALNIFVINISDKAGNIAGNLINIVRLTTSNDVSDSFVGFPGDGAIINKLNRTAAVFSNTRESHSPINLNKSILYLESLNNPTKLVYGNLSTKVCKFQPPESLENKNDNDLEYINITTENETLYLKKPILVHSAQQKGFSLHNNIIGDFAKFNNTLFNYSIKFDSYKLNNINIIDGLKILNHKVEYFLMTRISDTIFLEFFFLDEFGNKHSFVLSDAFDNKFTEASSNNAKFKTKFDISIIGDDIHLNKIDYVFELTKAIYLYKDQRLSQELSINYLRNGISSGLLSNWWDFIYRGTDSAYSGSLGEDDLFANRYRTSKELLSFENVIGGLLTSDNFSYSFGFYTLDCENIDVNNVKLNNEFDKQKKEINFENIPNDKYLISAVPVNNQNFAGVASFIYFDVNSNVPQINRVKPDSNLLNDINQQFEHNILLNSNENSLSEVNYKFKGQTNNLNPIRLNDEYTTLMDLRLDSGIKNIFELTVLSTNDDFATTGKETYMVNERGFNDPNLIVSEIHKTFDLNDDCNLKCRLKGFSENSCKLTCNNINDDKLNILLSKHGFSKGSSELFGTKDNSFKRESEIKNFLKTWYVAPLNITITDFIDFSDYTFISLISLDNGVNTLIQQAEDLLSYEADRSSINIEIKSIIENNGNIDVSYILKDGIRIISMSDHLKLNNGVYYFNDFKTYSDLESDNKYLNSGVNNIFNHRIKYNETFAIKN;locus_tag=LOCUS_04360;note=MGA_438
sequence1	MetaGeneAnnotator	CDS	418956	422876	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLQLKINNFLCILFILITLFSFNFVNAEVDFKINYVSHTTPLITVDFPLYDNIILDGVEIYKTKNNILFKFDKTNGINNFKYVEQEGNINFIKIKSDNAILPGEYFVTIYGIDSYGNKQNYTELLIVDLISPILDTFVPDKSHFKFDKGQLNLMFNFSEGVIFNLFLDDQLVIQQNPKSKSSNGINIINDTYSLVFENNKYFLYGQLPNGDHKLKIEFWDYALNGKVIEEIDFFSFDGNFDLIPLNFPFYFINKSPAILKYNTFVNVDCKISKTGTLQQCPLSGEPAILTGDKTHSFNIIHNKLFFNTDTFKLCYYCMTSDDDLYTKENIYTLDNTKPVLSSVEYKPASKIVILKNEKDEFSFELNINTDDSSICNSYDVSTSKQGLTLDFYLNHDSNTISNLFKSIHNIKFNNLDDKKTYTKYIKCMNKAGLISNTLRVDFKVDSSVVLDFEINSPKEFVNKQLIDIQLTSSMESNCIYATDSGTTIKLNTENNFIHASSVSLGTKNEYNFTFTCQTSTQEKIKKLKLRFDNRPPKIHNVFFYDSDIVENGTITKLNKLTKNNIDFKINFTDNVFSNNILISHFLVNVPTNITKIISNSDFKNYNKNQKYEISTQDLENDMVYYIGLLAKDPANNSALTPFFKPIMFVNKPFIMPPKTCIDIDKDGFGRNCPKGPDCNDRDASLTNNCISTCLDKDGDGFGLGLTCTGLDCDDTNKSLNIACTNGCTIDMDGDQYGINCNLGDDCDDTNNLTHENCLTNCFSDIDGDGYGLGCILGDDCDETNILIHKNCANGCFSDNDVDTYGEGCDAGLDCDDTNNLIHENCPNGCIQDADGDGNGLNCTAGDDCNGKNPLLAEVCIESGCVIDSDGDKYGWECTLGPDCNDLNPTIHYGCTNLCVYDFDADGLGLGCKNGPDCDEGNINFFANSCQKDCKFDADCDGIDDSWESIFGSNPNVKDQDKIILGFDKKNIDIYRNYPITPPEPGTELKNQTIKNQTVVQPLVEEEFNPIWYILIIVLLFIILGAGGYMIYRKQNPPEIKQTYSDTQNVPNLNNKTSTNSINKIFNEKPIFSIPNILEGDKLKSKWEEEILTEQKEKYKSKLENRKQLFSKFVNRLEEELESVKKEKKVDFNKEFDEGYLDLKDLVSGKKKKSDLKLPKSAFMSLDKMVQKHGSKINFKDLNKISSENKKVILDLMKMDSKNEFVKIDDIKKESDYTLDNLQKAIDGAGIKLKTNPVKKLSKIINKNNVKFDKSSVKNILNKSNPNLKNTDYNKILFELKNIVNSDISINKKSINKNKKKVVKK;locus_tag=LOCUS_04370;note=MGA_439
sequence1	MetaGeneAnnotator	CDS	422873	423412	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGQINLVFASIMGVIIIGLLFALAYRGIATILDESDNKRIPILVSDIKGQVKSHAYDYGSTTKKGFIFPNSIQKMYLVDYNAISNCGGIDTSLPFQISNMIKSECNAQIENHKKKSLILNGDGFFKGFDIGELELGDIELSIDYAEKFGDGILSIDLKKQIELEFEGISSKTKITIK;locus_tag=LOCUS_04380;note=MGA_440
sequence1	MetaGeneAnnotator	CDS	423409	424443	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKGQVAQAAKWIFVVIIGVFLLGLFFNMIFKNVEDSKNENERLILSYLNTFITNTRINPNFQIQRDLDKNVQFEVDYNDLLIGKNSRSISDVVLYSPKNFDTKNIMGNSIPFKSPFYLTNILTMFDQNKQYVIVYDFPKNGRLFSLFNNTIPSFLNVKIYYEDDFDNEELNLFDSEFSEILFFTQKEQYIPNYPNIADYKYKTYTKFAFGDDRNFKFAKVSFYDDTKIIPLIDKSMFIGSIASDDYNEFLKQTSKLMPFMKRIFVLQYNKTNELINTNGRCFLNYQNIQNELLKLHDKINTYQDSVLFDNQNIIDLIYSIQEIDVIVKRENDEIKGRCSRVY;locus_tag=LOCUS_04390;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	424443	424919	.	+	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKGQFQMMESVMFLVIFIILAAFLVVLYFTFSIDSQKAEIEIAVDKDSIDKSQIIFNLPEIKCSEKYSNVNNCIDLLKLKYLEPILKSNRAYYYNIFGNVKIEWEYIYPDLPGVNVLFDSEPENYLRKRPTELPVNIYNVNTNTMSLALLKITYYN;locus_tag=LOCUS_04400;note=MGA_442
sequence1	MetaGeneAnnotator	CDS	424921	425442	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGQTEIVGLIFIVLFVIIIGSVFLLVFLKSGDDTFSRSEIKTSILANKFLATLIETEIEECSRKSIKSIIKDFYEGDTQCLVPPYDTSVNSKEYLEDNVFPIILTKIFSDKGRAYNFSITYVKGGVEEPPFYSSQGNFDKQYSTIRKAAPFIIPMDNPQNKIIFNLITKTN;locus_tag=LOCUS_04410;note=MGA_443
sequence1	MetaGeneAnnotator	CDS	425496	425975	.	+	0	ID=MGA_444;product=TIGR00270 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496550.1;translation=MACDMCGKAGNFEEFRLEGANLKLCSNCNKGGTKIKKNFANLKSNSKGYNNNNNTNSYSNFVIRKSVVPNFSNLIRNKRNSLNLNIEEFASLVNEKATFIQKLESSKLTPSIEIAQKLQKTLKLKLLDEDGSDNEDNVFVSKNDDDSNDLTLGDFIKFR;locus_tag=LOCUS_04420;note=WP_064496550.1 TIGR00270 family protein (Methanocaldococcus jannaschii DSM 2661) [pid:26.9%25%2C q_cov:98.7%25%2C s_cov:97.6%25%2C Eval:1.9e-08],MGA_444
sequence1	MetaGeneAnnotator	CDS	425979	427013	.	+	0	ID=MGA_445;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250232.1;translation=MGVKIFDLVSNKNLEVKDLKNKIVGIDAFNVLYQFLSSIRGSDGALLQDSNGRVTSHLYGLFSRTMNLITAGVKPVYVFDGKAPDLKYLEQKRRSDLKKEALNKYEIAKQSGDLDEMKKYASRTSRLTQEMIEDAKLLIDSMGVPIVQAPSEGEAQATFMCKQKDVYAVASQDGDSLLFGAPILIKNLTLNNKRKVSGTQSYVDIKIEQIELKTVLSELEISQDQLIVLGILIGTDFNQGGIKGIGPKKALNLIKKHNENFEALFEEVNWNNFYDFSYKEVINIFKNIKVNSEYSLKFNKPNKQKIIEILVDKHNFSMDRINSTFEKYEKKQGELSQQNLGAWT;locus_tag=LOCUS_04430;note=WP_011250232.1 endonuclease (Thermococcus kodakarensis KOD1) [pid:48.1%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:7.5e-88],MGA_445
sequence1	MetaGeneAnnotator	CDS	427015	428127	.	+	0	ID=MGA_446;product=tRNA (guanine-N1)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867861.1;translation=MNDYNGIKTKLLHANYLKDYLKNNNLLNLKYLSEKENNSIIFPIIKNFNLNNLDFDCSFVKCNFKAKIMKKTYKDLVLQIIPSELSFKFNKAYDIFGNIAIVEIESELIPYETEIAKILIESNDKIKSVYKKSGAFEGEFRIQNYIYLAGIENELAEHCENNVKLNFNIGDLYFSSRLSNERKRIANLVKLNESVLIMFSGCGPYTYTIAKNSFANKIISIEKNPKACYWANINLDKNKLSSDFIKEKYLKKKEHFDKIKFKGPLHVENHCGDVREIIPLLKKEHDYFDRIIMPLPHIANNFLDIALLVAKKGTMFHLYDFMDLSELENIKLKIKKECKIHGFDIEIKNIEICGEFSPNIKRICIDFLII;locus_tag=LOCUS_04440;note=WP_010867861.1 tRNA (guanine-N1)-methyltransferase (Pyrococcus abyssi GE5) [pid:27.7%25%2C q_cov:91.6%25%2C s_cov:90.9%25%2C Eval:7.8e-30],MGA_446
sequence1	MetaGeneAnnotator	CDS	428223	428480	.	-	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQKYRIDIDKIDKKIILLLKKRKLISQKMLKYKNKIEDKSREKEIFEKLNQLANEHNLRPEFLNKLYKIILKESHKYQKEIKNK;locus_tag=LOCUS_04450;note=MGA_447
sequence1	MetaGeneAnnotator	CDS	428505	429638	.	-	0	ID=MGA_448;product=proteasome-activating nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879468.1;translation=MTEEIKKAIYSYNIENSKLEDETKLLKETILHLKKEIDRLRQAPLLVAEIKEVLGDTAILHLKTGNEFYVNISKDVIGLQPGDAVLVEQKNLNIVKKINGSSSFGVEKFVIMEKPNIDWSDVGGLKDTIRELQEVIELPLTKPELFEKVGIQPPKGILLHGPPGTGKTLLAKAVASATKSTFIEIVGSELVQKFIGEGAKIVKEIFQLAKQKAPAIVFIDEIDALASKRIEQGTSGEREVQRTFMQLLAELDGFKPLGNVKLIATTNRKDILDPAIIRPGRLDRLIHVKNPDFEGIKQIFKIHTKKMNLDKKIDFEKIYKLIQKEEFSGAEIHSIATESGYNAIRKKRSKIIEKDLVEAIKKVKEDEEKEKRHEMFF;locus_tag=LOCUS_04460;note=WP_010879468.1 proteasome-activating nucleotidase (Archaeoglobus fulgidus DSM 4304) [pid:52.7%25%2C q_cov:91.0%25%2C s_cov:88.2%25%2C Eval:1.0e-96],MGA_448
sequence1	MetaGeneAnnotator	CDS	429735	430574	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISFYNSKHSKIYLLLFFILASFLFSLDISYDENLIAYSAQNLFAKINYDDVLNGNFIVEVSKDLEDSNIIKVPINFKSDDFDEEYYFFRDNIFYKSKVNGFFSATETNEWRRFYTPIKDEQTVVLNVPRDDLTGKSYLTIGTYFCKWQSGDWLCSWKYFNLNYNLEELESFNKNLLNLNSKQIWKSSNDDWDVVYCHENTKYDGSKICDWPEAQDLTGTDCSDYELGLIVKTSYEVGDNFECVNNENYSELNIEIEENYNELDVEIEEMDMDNLPNIK;locus_tag=LOCUS_04470;note=MGA_449
sequence1	MetaGeneAnnotator	CDS	430650	431135	.	+	0	ID=MGA_450;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889535.1;translation=MMGKTHIMWGVFCALVFYYLYSDLFLIFRLYELILIFIFVIFGSVLPDIDHGKSIVGRKIKIIAILFEHRGFFHSILAIVMWYFLFLLLLNKIYVYAILFGYISHLFIDCFNHYGISPFAPFNKFKIKGPFYTNGFVEKIFFLILNIFNILLLFLLVFLNI;locus_tag=LOCUS_04480;note=WP_009889535.1 membrane protein (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:32.7%25%2C q_cov:86.3%25%2C s_cov:87.6%25%2C Eval:3.8e-12],MGA_450
sequence1	MetaGeneAnnotator	CDS	431181	432020	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLYGIQQSSEDFIPLDINSEFSLFSLDERTKNLFSNYLHSGKTDFFSEHTLKLKNWVCGMDLLNSYLLIDISKKRYDCVLFDSLDDSILTENSLKSMVFPSDEYSLLNDNFNNFLNSENKISKDELKKYLFMFKRTIREITNETDLDYKDQRVLLQTFEELNFSKFFNSDTHKLFVCYFSQRKPKKLNLLIPTNVYSANARKKELENINLELEHNLKFYAPQYFKNMPKSSVLEQRRYFGGLEFVRAIRGGTAIATLGIKTRTNHELIHYSYSLNKL;locus_tag=LOCUS_04490;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	431999	433654	.	-	0	ID=MGA_452;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868500.1;translation=MPTIIIDRKEFEKKLGLKLSEDKLKEKIALFGTDLDKMDKDEIHVEVFPNRPDMLSIDGFIRSFRQFLELDSGLKKYNVKKSNYKLIVDKSVKKVRPYTACAVVKNLNFTDSKIKEIIQLQEKLHVSWGRNRKKVAIGIYPLEKINFPITYLAKKKEQIKFQPLESKKEMSAKDMLKNHSKCKEFAHLLKDLNEYPLFVDSKNKILSMPPLINSQDIGCVEIGTTDIFIECSGFDFDICSKTLNLVLTTLSDMGGQIYEMEITDNKKIISPNFKPQEMKLDLNYVNKITGLNLKESEVKKLLEFMGHDVKKDKVLIPPYRTDILHQIDLVEDIIKKYGTDNFESKIPNIATIGQESKFELFKRKVAKILIGLQLIETKTFDIVNSKSQNENSLNNYDIILLKNNLTEEFDALRYWLSPCLLEVYQKNQDKEYPQNIFGIEKVYHKNNKIIETNIEEFEKLAISICDTQISFTQIKQIFDYLILQLNIKNAKIEKSNHKSFLNGRCGKIIINNEEIGIIGEIEPKVLINFKLEMPVAICEINLNKVYNLFKE;locus_tag=LOCUS_04500;EC_number=6.1.1.20;note=WP_010868500.1 phenylalanine--tRNA ligase subunit beta (Pyrococcus abyssi GE5) [pid:35.4%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.7e-98],MGA_452
sequence1	MetaGeneAnnotator	CDS	433661	435205	.	-	0	ID=MGA_453;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876381.1;translation=MSKSNKIDQIINSLHPLEKKVALFLKKDINFEELIIKSKLKDVEVMRALQWLSNKGVLSLNKTFENIIILEKYGKQYVKTDLPEYIFLKSLTNKFEDVNKLVKKIKFDPVEVNTTIGQLKKLNFVEIQKGKNGIEIKANEAGLKNKQNPYIKLLKKIEIDQNEDSLNKDELNLIKDLLKRKQILKKEVKRTEIITISEIGFELIKKDLSKIKLEENLNSDMLKKGDWKDKTFRHYDVSLNVPKISGGKEHFVNQAIEYCKKIWTDLGFEELEGTCVDTAFWDLDSLFVPQDHPARTMQDTFYIDNPSKGTLPKDISKKVKEVHENGANTGSIGWRYNWSEKEASKLMLRTHTTILSAKKLSELKKEDLPKKYFSVNKVFRNETLDWKHLFEFFQVEGIVVDPNANFQNLLGYLKEFYKKMGYDKIRIRPAYFPYTSPSIEIEVFVKEKNSWIELGGAGIFRPEVTKTLLGFECPVLAWGQGFERIITSYFNITDLRDIYKNDLEQIKNMRTFIK;locus_tag=LOCUS_04510;EC_number=6.1.1.20;note=WP_010876381.1 phenylalanine--tRNA ligase subunit alpha (Methanothermobacter thermautotrophicus str. Delta H) [pid:37.3%25%2C q_cov:97.9%25%2C s_cov:97.8%25%2C Eval:8.7e-89],MGA_453
sequence1	MetaGeneAnnotator	CDS	435302	436177	.	-	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNKKKLGGRFIMVKNQELLIDRDLMQDLQKEFSINEYEVKLWTALLSRGVSTAGELSDIGNVPRSRAYDVLETLAKKGFVIKKVGKPLKFVAIAPSNVIERLKRQVVKESESSINKLEGLKKSKVIKELNLLHTQGVETINPSEVSLAITGQKNILDHLSEQIMSAKSSVNLFTSSTGLIKKSEELKKALKVAKQNNVKVRIAAPINKSCEDAVASLSKYAEVKDSKDFNARFSVIDGKAITYMVLDNDQVHPKNDIGIHSNSPYFAKAMDKMFTQNFKGMKTAKAALK;locus_tag=LOCUS_04520;note=MGA_454
sequence1	MetaGeneAnnotator	CDS	436401	437462	.	-	0	ID=MGA_455;product=mRNA surveillance protein Pelota;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867805.1;translation=MKILNKDKNYFKIQVTSDEDFWYLSQIISEEDYIMASTYRKINLSNDSNGDAKSKIVKKKYHIKIKVKNINIEKNTHFLKINGIICESKYNEIPNGTYQSINLEINDIFELLKLKIWDYQKEKIHEATKPDTDNILICLLDRETAKLCIIGKNNIENITNLTGEVAKKDKRLINIKSTFYEDINKSLEDIKKNRKITHIIIGCSKIFANEIKKQLGESINKITTFTTTNSITQNGVYEILKNPELKGILKNKNIAENVKLIEEFLLRLSKENKVCYGYKDVKLAAESGAIETLIISDNLIFKYQEKEKYNLINDILKKVSNTKGNIKIINSKEQNGKKIDAIGGICALLKFNI;locus_tag=LOCUS_04530;note=WP_010867805.1 mRNA surveillance protein Pelota (Pyrococcus abyssi GE5) [pid:23.6%25%2C q_cov:96.9%25%2C s_cov:96.1%25%2C Eval:1.5e-30],MGA_455
sequence1	MetaGeneAnnotator	CDS	437560	438750	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKGTAGMAASLVGLLALLMLMYLFVIPPEFRQALLENNQAPIDGDGIDGNINRPNFGNGVIVSKFIGELDFTADDFVGHFFPSINLIEKKEIEIFSQASSALIRRSIFSNEPRYFTFNLDNPKSVEDIKLGFAISINKGTLNIIFNGQSISVINDGQSKLIDIPPELLSEKNVVEFQVSSPGIFFWSTNEYLIDNFKIIGNVVNSEGLEAHSNFILQKAEFNKLEESALSFYVDCAKVDSPLEIEVNGNNIYSSIPSCGGSLGKIEFEPNFLKENSNELKFKTKSGNYFIDRIQIRNKLEESDRVIFYFDLTKDELEFILDNAIAIARAEYTDDFEDKDIAVYLNGHLFDLNTRTDFSEYDVTRLLSVGINSVEIVPQKDGINMKKFEIYIANE;locus_tag=LOCUS_04540;note=MGA_456
sequence1	MetaGeneAnnotator	CDS	438754	440298	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYDYTYGGGRRPNSDTTLIFIILFIIIIIFSFYSFISQPGTFSQKTIGVMTSTINFFVDIPIKLSKLFSDASDSAKRNIANVDVNLATGKEQIEGTADVLKDAKYIGQFKTEKVKIPLGFEIEAKSDRVTSVDGSLEYNVRPIFPSYIIDKFINEPIYFSCKPLNAKTSQKFHACQSKVDGEDLVLVDNYNKPFDFRCNFFDLTKGLKSFYMKFDFPMSQFGYKVLRIVNDPKGLMNRKNDIEDYVNKDLLEDSIPKFSLAKNSAGPLDIQFDIPNILSFDINQDGNFLELSNKVEIKLMNFPKGNLIGAELSFPKDSYIKDFKNFILKVPTYAKLNCGDKQTIKTYVKTENNQKLNFYEMNMDYIIDNGNGIIKQDHVSISCKLFVEKSYLIENNYNVHLNLPILFETDYQYFLTRSEKFNVIYDLDGESKKERKFYRDILFSIGRGGIENTNVELTKDQIKFKNYLIEKEYENVDNRVSCISINDFNSEIKSAKGLFEDFKKEPVDGGELT;locus_tag=LOCUS_04550;note=MGA_457
sequence1	MetaGeneAnnotator	CDS	440295	441260	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNYYILLLLFSTLFLYGCSGFFDSTEQKQAIDFDKNLKPILVELDLSKNELNSFNDITTLKLNIENNRNDNSLVYITIPDVPIMSKSKNFKNEYEVNLYGKTDENYIPLFEYGERIEDLTFGSLAFGIGEYMDDLDTDLIAHVCTKYKDEIYAFVCVNEDVCGKSSISNFKQKIGGPIDIKNIEFINHFSSSTTGVLEISMHFENNANGFVFTSNNYKNACRNNVLENSDFKRHEYNIDSIELEGVELDCKKTLFTDIKGISKIMCLLDHSLLINDIKQNIDQRLLTIKFNYNYKQAFKEKIKYKNEQLISDFNFEVIE;locus_tag=LOCUS_04560;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	441260	442159	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLFILLLMTFSLILSGCSFFGSSSEMSGVNLILEKTKFNANIDEDINVNFKLINNNEASYSAANTLLYFHGVGNSDYIKISPFEYRNNQIMGIIENDVDFDENYFTLNFKLPGERKFKLNRCDFIEQKKNFILCVDSANELCSFSQPNIESDNLPLKLKSFKYDVIESGTSRKVRVMFDFKKTSKYSVIKRPSSSESNSILSNKPNLGSQNNICLNYENGKYLNHGVWFDVKLFRTEGGSFENLNCRVNFFDFGESSTNSKPIYCDFNIDQSDKKIRIQIDYSAFVISQNELTFNINN;locus_tag=LOCUS_04570;note=MGA_459
sequence1	MetaGeneAnnotator	CDS	442256	443284	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTKRLILLVLILFISVLYGCTETTSENTNIEAQKRFVGGSSGVVTSVSTDKSNNLVGVGESFSYMVDVKNTGEYDLQANDYIVKLLIPQDPGVFEGGTYGELTLNNENVASGTGLNPDGSTIPNGEFEIKTIPLKWASVTKPVDYDLSYRYCYKYETRADSILCKKSDLQGRISDDEKNTGCSYPEFGSSISQTTHNSNGPVQFSNLVQTIQNADSMRFTFDLSIIGGGNVGLADQGRDELTRCEWRPNDVTSDKVTVTIKSEAGLVECDNLKQSTHSTEGNLDVLVGIVEFNDESSTSKKISCKYKPENIGNAHDNLELKATYDYAKTETLSEQIKFLK;locus_tag=LOCUS_04580;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	443304	444536	.	-	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNTHKDLANEIEKKEMDQYKEVEKEIEEIEKRFLNEGEKIEKEEIEDMFADKEESEIKEILNSKNSNILNKIKEIIPNIKKLEIIKKQKEKEDIENEHNIKNYINKLNDTINLDKEEEKQYNIIINKIEEKYFEIKNQLISELNTNQELRKKLSKIQNNAEIIDLMEKKEEYSAQEINKSKEETETEQKENEELVIKNKDLMYKFENFLNKNKELNENNKELNEKVIEFKKINEIMSQDLEIEKRQKSILEQKFHNYENNEITLNVQIQEGLRENENLKKEFDVEIDNHEKTIKIIELLKEENKILKDKIRGLNTHISKLSESVHQLLKNNDDKDKYYPALFESSQIKKNDEIKKINIDLDGKDLQIQMKNNLISDLEDEIKLLKNQLDEKENYTANAIEKIIEKKLT;locus_tag=LOCUS_04590;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	444618	445262	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFVLYGRKASGKNIISDILKTILKNDHKILDFGSFSRDQVKTNGEFSDYLKNNFAKTDDDGQPNFFDDINFRMKAVELFYNIGGFSDDTINIGLPRSVDQLKEILKLRLNPQDTFYIFLNVHDQIQKKRLIERYNDEGMRICETNVQKTLDLDNMFLKYSKEFKNYVISNDLPYIELNTSVQIDQNDFENISFNNLKQKLIDKLSVFDFIDLK;locus_tag=LOCUS_04600;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	445293	445706	.	+	0	ID=MGA_463;product=low molecular weight protein arginine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000697334.1;translation=MKILFVCLGNYCRSPIAHAIAKHIFPNWTIDSCALSHCHEGEQMHINSRKILKKHEMFYDVISKHISKVNIKNFDLVLCMDFSNYVKLNGLGIKCEYVTFLKDNSEVEDPYGENVEFYEQTYKKIYNSILELKNYKN;locus_tag=LOCUS_04610;note=WP_000697334.1 low molecular weight protein arginine phosphatase (Staphylococcus aureus subsp. aureus N315) [pid:32.4%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:2.0e-14],MGA_463
sequence1	MetaGeneAnnotator	CDS	445703	446665	.	-	0	ID=MGA_464;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879552.1;translation=MGENKHTIWVEKHRPESFEDVKGQENTISKIKAFVKNKTMPHLLFSGPAGVGKTTTSLIIAKKLFENNWNYNFLELNASDERGIDVIRTKVKDFARTKAINNVPFKIIYLDECDALTKEAQQALRRTMETYALTCRFILSCNYVSKIIEPIQSRCTIFKFQPLEKENIFELIDVISKKENLEINEEEKEALFEISNGDARKLENIMQTISSVENKFSKETIYSMANLAKPKELNELLSFAIQANFYEAKRVLLDIMLKTGLSGNDIIKQIQKEVLKLEIDKMKILKIIDKCGETEFRLNEGSDQYIQLNALLAYMGYICN;locus_tag=LOCUS_04620;note=WP_010879552.1 ATPase AAA (Archaeoglobus fulgidus DSM 4304) [pid:49.7%25%2C q_cov:96.2%25%2C s_cov:96.6%25%2C Eval:1.8e-85],MGA_464
sequence1	MetaGeneAnnotator	CDS	446702	447121	.	-	0	ID=MGA_465;product=deoxyuridine 5'-triphosphate nucleotidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O66592;translation=MRIKTLDPNMPDLKYHSEHAAAIDLLAGEKTIIEPGQHTLIDTKVCFEIPNGHVGLIWDKSGVANKRKLTLMGGVIDADYRGEIKVGLINIGLETQTFEKYEKIAQILIQKVERVEIEMVEELNETGRSDGGFGSTGRF;locus_tag=LOCUS_04630;gene=dut;EC_number=3.6.1.23;note=O66592 deoxyuridine 5'-triphosphate nucleotidohydrolase (Aquifex aeolicus VF5) [pid:45.8%25%2C q_cov:98.6%25%2C s_cov:95.3%25%2C Eval:1.0e-24],MGA_465
sequence1	MetaGeneAnnotator	CDS	447222	447482	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDEKRLSKSLLGKTVVSETGKIFGDVGDLVFETSSGEIMHVVLSNPATHALKLDLEKDKSGNILIPFTAVLAIADYLVIREEDII;locus_tag=LOCUS_04640;note=MGA_466
sequence1	MetaGeneAnnotator	CDS	447490	448485	.	-	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDKYIEKICAEKNISKEEVEKKIEKKIEDLDGLISKEGAIFIIANSLGVELNRSALITDKIIPGMKNININLRILNMYDTIEFNKEENKGRVKSLWCANNNIKTRVVLWNEVIDSIEDIKEGDIISIQNAYAKENRNNSVEIHCSNYSTITKTEDESIPPFEELKNKSSNYKQVNISQIKEENQKVQIKANIVNIFPIKFFEICPECNKRAKLVQDKFQCEVHGEVKPKIAYVITTILDDGTETIRATFFREQVCKLIGKTDEEIVNLKEDIDAITYELETIKGDLVEVKANSKLNSFTNQIEVNVNNINKNIDIDNEIKNLKEKIITYN;locus_tag=LOCUS_04650;note=WP_010870672.1 replication protein A (Methanocaldococcus jannaschii DSM 2661) [pid:26.1%25%2C q_cov:61.0%25%2C s_cov:29.3%25%2C Eval:4.7e-15%2C partial hit],MGA_467
sequence1	MetaGeneAnnotator	CDS	448666	449748	.	+	0	ID=MGA_468;product=DNA repair and recombination protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023460.1;translation=MTKAKKNFDDDTIMNNLINNDNNTEDDNSLNEESNKEFNEGSEIIKKKTNSIPTIFELPGVGPATAEKLEASGFSDVMSIAVATPSQIVDATGIGEAAARKIIKSARDLLDMGFESGLVVLEKRKSVEKISLGCSSFDNLLEGGFETGSIVECFGEFGSSKTQIGHLLAVNCQKLADDAVAIYIDTENTFRPERIIQFAKGSGLDPDKVLANIRVAKAYNSDHQMLLAEKVSDLIKDKNLNVKVVIIDSLMAHFRAEFIGRGSLSERQQKLNKHMSVLSKLADTHNCCVYVTNQVMSKPDTFFGDPTQAVGGHIVAHASTFRLYLRKGRKGARVAKLIDAPNLPDSECSYFVEESGLRDA;locus_tag=LOCUS_04660;gene=radA;note=WP_011023460.1 DNA repair and recombination protein RadA (Methanosarcina acetivorans C2A) [pid:55.2%25%2C q_cov:84.2%25%2C s_cov:97.5%25%2C Eval:5.3e-92],MGA_468
sequence1	MetaGeneAnnotator	CDS	449777	450403	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENELYYLTQLKGLENYLFLRNEIKELITNERDVMKKIGILEDEEASQLNFSLGQNIDRYKLHLFGVNSKLIGKSIKQTREDSEFNICDLAEYLHSQAQSFQTMTLESTKSKLRLFETSPSTYNSILKMRMKKGGGEYQEFVNATNRLADYLTSINNHQLTGAVLYLIHDFQPRFTWPNSEVEPFKLDKKKEDCAFPEELCQKALLDN;locus_tag=LOCUS_04670;note=MGA_469
sequence1	MetaGeneAnnotator	CDS	450470	451075	.	-	0	ID=MGA_470;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250447.1;translation=MTEGTENYLINTETYLQTGIHIGTTFKTKAMKPYIHKIRPEGLAVLNLDKIDERIKLGAKLLAQFEPKEIYVVCRRESGWKGLNLLSKVTGMNIITGRYPPGLLTNTNLKNYTESKIIFTSDTWLDKNIINDAYKNGILIMGLIDSNNTHNKLDFAIPCNNKGRKSLNLVYFLIARQYMIEKKLIEKEEDFKYKIEDFVDL;locus_tag=LOCUS_04680;note=WP_011250447.1 30S ribosomal protein S2 (Thermococcus kodakarensis KOD1) [pid:42.0%25%2C q_cov:96.0%25%2C s_cov:96.0%25%2C Eval:1.7e-41],MGA_470
sequence1	MetaGeneAnnotator	CDS	451184	452320	.	+	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYLLFILLIIFCFSFANGKFIVDESIYFDQNLDESFYAFGNNVDIYSNISGSLIIAGGTVNINDGSYIKNKHTTILADNVKIDGDLSGDVFIIASSVYISKNAFFNSDVRITAANVYFSGDARHLSVNTNKLTLDGRVRGDLFVNTKSIESDKNTLVEGTFTLSADYYNKNAGTFRNGILGFNKNKKFDIGLQGLKNAISLLIFGLFIIWFASKTKKSLQKIYDYDLTRSFLYGMITLIALPIVILLLFFTGLSSILSLLFSGIFLLLLIIGYFLGTLRLGYEFLKRTNVVSNDVFNLFIGVLILFLFSIIPFIGGIVSIIVIICGIGIAKKILLNVYYGTPIFVNKKKTIKKIVKKKVSKKVKKTKVKSKKSKIN;locus_tag=LOCUS_04690;note=MGA_471
sequence1	MetaGeneAnnotator	CDS	452317	453120	.	-	0	ID=MGA_472;product=DNA repair protein RadB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869752.1;translation=MELIDLKNLKQEKLNTGNILLNNFLGGGIEKDIITTFYGPSGSGKTNFCLMLLNQVINNGQKVIYVDTEGGLSLERLKQINSENYETILSNTYLFKPTSFNMQNNVFSNINDMISKLKEKNIGIILVDSIVYLYRLEMAKNKNIPLINQMLAKQIGILTDIARILNIPVVLTNQVYANFEKKETVNMVGGDILKYTSKALMELKIVKPIDDYEHLNRIRKVSIIKNRFIPEGKSEYFEICNKGIKEIDSSSLEYYDIKRKISKSDFY;locus_tag=LOCUS_04700;note=WP_010869752.1 DNA repair protein RadB (Methanocaldococcus jannaschii DSM 2661) [pid:39.3%25%2C q_cov:85.8%25%2C s_cov:100.0%25%2C Eval:3.1e-32],MGA_472
sequence1	MetaGeneAnnotator	CDS	453245	454648	.	+	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFSYGIFGFNDDFSYKTVFNIEQIISDPLNMQFNLYYYLLSFFYYLFPFFLTLKIINNIIAVLIILLNYKIAKYITNEENSSLLVALISGFIPIFVIETFNSLNSFNLFLFLFVFQIYNFISFKNKYNIHFYLFILITIILPFVSPLSILLAFSLLLFLALAFIEGLDVVKHKVDLIIFTSIYLIWAQFLIYKNLFLNFGPDVIYQNIPNSLIENYFIDTSLRSMIFEIGFIPLVFGIFIIYFFIFKKQRFLLSLFPFFLVFLFLIFFRLISLKIGLILIGELFVLIFMFFFKLALDWIKNSKFDRVWYVFLLCFFFIFLFSSYIPIQSQLIEISHDKEIENNEYLYEFIKENLKGKKILADYKYGFFIQSVGAISMLDQDFYKLKNSQKILTDIKIFYSFTSSVSSLRILEKYDVDYFLINKNILKSYGQESFKIENDLCFKDTKSFVKIYDDGFNQIYKGNCLL;locus_tag=LOCUS_04710;note=MGA_473
sequence1	MetaGeneAnnotator	CDS	454645	456204	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKIFRFLNMDYSKLSKKTILLVSYTILLMVLIFWFNFKGVDNIIINSESTLNNFESVKLIGEDSLTFGSKYYGFGLENLFNSYISKYIDNYLILIIYFLIFGLTLFILYDFLIKNYVSKDIIFLFFTFFSISPIVLYNLFSLNESIISFFLFSLILYLDNLYRNTNSIWYLILYFLLLIFILPFLTLFNSLIFYLFYLCYLFSLRDQKKLFYIFYILSIVIFLYVLSEYIVFFGLANLFVFHNISFFEFLQSLISDFGAKFGVNIFFFILSFVGIYKLWIIKYKLRFMYVFFVFLILFHIFFNPFNNFYSSLFICLFGAVGYIIFKNRHWSNLNIKSFTLLLLFCGLLFSTISFYVRLPSFDINEDQIAFLKGIDEIEYINIEDGNIKNSFLNKKDGIFSDATILSHPKYSNFIKFYNGKVLADLNDIRIKSIDSADDQIDLLMTQNINFALKLIKKYDIDFVLVSKDMENGDLWYYRTDGLQLFFNEKFRGEKLFDLVWFNADYKLYRVEKLFFLE;locus_tag=LOCUS_04720;note=MGA_474
sequence1	MetaGeneAnnotator	CDS	456345	457319	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLIEFTRATIILLVVFFLLLGLMYQFSTLAEKQSKIEKCKYIISQMRSIAESSFGFEKMTNSLLRTLIDISNIMKDSCVTYESELGEPLIEDKKYYDKLDDSFSNCANIYYNNKNPFFKLPTKLSYVTDGKKDIYGSTFCIVCEDINLPKEIEFDHLDYYKHRDSLSSKSKGVSKNFNYIGKFHENKYTSDFLSIQPITFTQIKRIYDNENDVKSNLNLLDQKVLNSWTIKNLNFFNDEFSKQSFNEKDSISLVLLFSDFNLDASNDAPIMAVLPKRKTYYRYLPSSDYKEKLIDNIDLQNSQIESDLYVPCTRFKTESLN;locus_tag=LOCUS_04730;note=MGA_475
sequence1	MetaGeneAnnotator	CDS	457325	458176	.	+	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEKQRLIGIILSIVFLVLTTFLITNTFNEFNKIDDNLICKQSILLNSKLEKLTGREVKYECKSEINDVTKLNQEETFDFISNEMKQCNSLFDYGKSNIFPNAPSGKTICAICSYNKINLNHDYSKFDDFVFKNNRFKNIFGIEHYNNNKQLNFFNLKLKDENMAMIVKFTKVSDDFADVAGEGVLNYVSKNVAVKSLIGAFPGLVLMTFSALSPDPISKLALSGEVALIGAGAISGAGYGIIQSIDNIVNSKEIFFTTIFIGDLDISKLSSKEIGCDKVIF;locus_tag=LOCUS_04740;note=MGA_476
sequence1	MetaGeneAnnotator	CDS	458173	458322	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGDFEINTLGMWILAIIFLFIGLSLTVVLLKENGSNLILNFFSIFGG;locus_tag=LOCUS_04750;note=MGA_477
sequence1	MetaGeneAnnotator	CDS	458323	458676	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLGKIASIILVILALFATFGIFYSFYNPLKIECIGGEFRDECKSKEEIIALDGENSKETITSYTDIFKSDGRPIMPETDKEIERNVDDFCNQLKKEGKELHPSCDDENKGKSKIFK;locus_tag=LOCUS_04760;note=MGA_478
sequence1	MetaGeneAnnotator	CDS	458731	458997	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGQGLSMNMIVIAIIAILVLVIISVIFTGNLGKTKAKLADCSTKGGQCMTKSECNELQGISDPTTACSVDTAVCCLGGNEPASESQ;locus_tag=LOCUS_04770;note=MGA_479
sequence1	MetaGeneAnnotator	CDS	459014	459283	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKASGMSIELVAISILVLLALAVMAWIFVSQSSGTSKTLTSISNSTGINVCVKYPLPKIPKCQECLEKKVEEQKKCLEDLGNYHISQ;locus_tag=LOCUS_04780;note=MGA_480
sequence1	MetaGeneAnnotator	CDS	459318	459908	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKSLGLIIGIIIAIFGLTFVLYKIVFPLFSTTNVNLNYIVDQFDEAIESDLLLHGCSLQIPLYNEESILLFTKTMNKIIYGDGNVIAKPSKFMNKNIICACDDVSVDIVCQNSLLCREIEYVPKPFQNTKYYDPKAKYYFSSKTELSKKHDLFPFVNMMYYLRLQDSELEIYPIFGLSSNKIQEVYDLDRCIIN;locus_tag=LOCUS_04790;note=MGA_481
sequence1	MetaGeneAnnotator	CDS	459951	460649	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKGDGEILSLQVILLLVLVIGISVYLFFLFNSLNNLNYIYDEMDFENNFLAIHMLSSQNDGFFVLDYNRKSNYSFNNEYFTKRSAAITNRPLFFNSKINNFDFSMDNIKLLFKSQKILNFNSDECQRDFFPQNVKLLFDFDDSDWSKQFMDNIKKLFENKDIIIDESSNFKINFIFSDNNEVKINSNTNKYFCDIYTVKEQNYNIVFNLKNNDDSSYAKILEFMEEIRIE;locus_tag=LOCUS_04800;note=MGA_482
sequence1	MetaGeneAnnotator	CDS	460642	461130	.	+	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKGEGYNPIFWMIIIIFTIIVVTLSNILLFNMKNISLDMTKSEVNVIEFKLLNSFLMTDSNNLNYNNFNQNYMNTYFNIDERNDFSAKIILKIMKNNELLETKILYFNKDKYDRDIIRIDSSGSGSKKIISKKRQIPIENYKFGNFMGLVEMQFLVNNYE;locus_tag=LOCUS_04810;note=MGA_483
sequence1	MetaGeneAnnotator	CDS	461123	461740	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKGVLEYFTWGVYLLIIFIIFLSASIILTFVIEDEQKIIKKSDSLYFNDVINEWNRAYSDFGNTNYDDVNAYLSKAYINSDIDMSKKMQDNIFYEYENEINIDNIKNEFNNYFSAIDFNYTLIVNVPDFSAIAKNKNINERKRSVLFCFILESENFRCSPFVKQSYLNGVENIIYSKTVKHYVLFENDPIEYEVIYEIIEKKS;locus_tag=LOCUS_04820;note=MGA_484
sequence1	MetaGeneAnnotator	CDS	461715	464297	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLKRKADGNFYYVFLTVFFILSVLFAFTTLLNNINEIQKTEYLPFVNSAKLLLDKYNNNKFEKTNVININSQNSILDFYTNEIYLNNCDKIDYAIIGEYCDFNNNLNFYYRNKLSNFGNIKQNEENLIIDSFLDKPTVQVIGGSDDIKTFILDPKNNIKPRMISKLKSFNKKLKNSDDFDKLNRFLLMVKNELLKNPIDGFDEYDIMGLISQESDFRSNIYRCEKSILDKYKSGSYSSLINNCDSCEKQISEFKLSLIKSGGLKDCPAIASSGGLTQVLLPTARGYDKSFEFEDFFIPSKSIAIGITALKSMKKSVGVDDKNSVFVAYNGGPTRLRNLKSKFNGEFKLNNYFNEYTNTFKLTLPISYAIRVSLQSLMIKDLFENGKLESFDYYLDLFLNTNNNLKMSKMSDGNISYFYNNQLSNEIVDLSKKFNFNNNCQIDGSEEKIKDCIKKIDNFNVYSYELNDNIDFYNNYYSNLNNCYFDFNINNENLQKYNINTGLYELIINEPSFIEPNLKYSVNRIYFESTDGGSRKLYIKDGVPRIINSDDNLIKCNSFSNFVLLNGTFKHSFNSFNIKKKFKGYVDLGKSSSNYGLEIDIMNVKGTNKYGAIRFDLFDDLPHSIQLKSNKKSADFKLNDFEYINYNDLKNTLKNNFPFFNNGLIYFNNNIKVDYDDTIFVYLDENKLYYNLADDYYYLIFNLNDYNLNNIEKLFLNFKNINDEVKPITEFILSNVGVTSILKQVLVEEIIIDGHINYRFLLNLGSNSWDNNQVYGDVNSIEMVKRNFNTVEMPDLFKKINSKINDLINLENELIETKKVNFNKIQDGVYEVILKDFNYNSAIGFKIDNNPYIFMFDFR;locus_tag=LOCUS_04830;note=MGA_485
sequence1	MetaGeneAnnotator	CDS	464339	466024	.	+	0	ID=MGA_486;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q73P28;translation=MDYKIKIVELLKNCGFDINVDLITIPPNKKFGDFSCPMFSFAKELKKSPNQIAQDLCSKLSDSNFEKIVSEGPYLNFYINRKEFIKDAINKILNRQFDYLIREDLKKIMVEYISPNSNKPLHIGHLRNLLLGQLYSKLLKKVGNEVVETCLINDRGLHICKSMVAYKKFGNDIEPDIKGDHFVGNYYIEFEKQLKEDPDLIEEANQMLIDWENDNLEVKQLWRKMNDWSESGQKETWQKFGINFNQIYYESQMYKFGKEIVEEGIKKGVFKEDDGVIIADLSDYNLDIIVAIRANGTSLYLVQDLYLAILKVKEYSIDSSVYVIGKEQDHYMRQLFKILELLGFDWAKNLYHLSYGHIELKSGRMKSREGKIVETDDLLKEITDLISVQLVERNSNYSSDELDYLSKNIAMAAIRYYILKFDNKKDFTYDEESSLRFDGDTGVYLLYTYARINSIIDKINCEFNFDNINLNLFEHDIEFELIEKLSNIDEVVKEATKKHKLSYLCNYFMDLAQTFNTYYSQVQILDGNDDRQKTKYVFLKCILIVFEELFDLLSIKPLKNI;locus_tag=LOCUS_04840;gene=argS;EC_number=6.1.1.19;note=Q73P28 arginine--tRNA ligase (Treponema denticola ATCC 35405) [pid:39.4%25%2C q_cov:95.0%25%2C s_cov:93.4%25%2C Eval:8.7e-114],MGA_486
sequence1	MetaGeneAnnotator	CDS	466011	466337	.	-	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLNNQTIICKNSKNVLQNAIGLMFQINPRPILFNNIKTYDLVHMFFVFYKINIIFLDKENKIIEQKILYPFISFKKIPKNTNKIIEIPLYKKYRQFKKIKSIKYF;locus_tag=LOCUS_04850;note=MGA_487
sequence1	MetaGeneAnnotator	CDS	466441	467589	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFIFFIILTASFVFSFYFQNEVTLDSDFEILDVFFCPHDYCGKKLISFINMANKSLYCAFYDIDDKYIINSIINKSNEIDVSILVDKSNDIEFFKKIDQNGLMHHKFCLIDDEYVFVGSYNPTINGAYKNNNNIIILKGKSAYDEYYNEFLRLNGLDYKYKSKFIKFNRHIYETLYNKIKSANKSIKIAAFTFTDPDLADLIIEKHLSGIDVKILLEKRQISKWSQYERFLKYDIVKKDFNKNNMHNKFFIIDDKLVITGSYNPTRNAKNRNSENIIIIDDQKYINDFISEFNFLYNPNNYGVNYTLLKNKNYILYIDINFNKTIIKKIILNDKYNYTRVYFENDFFLIKNNKNYFDLIDSNNYVIKRISKKEYYELI;locus_tag=LOCUS_04860;note=WP_011228500.1 hypothetical protein (Thermus thermophilus HB8) [pid:30.8%25%2C q_cov:47.6%25%2C s_cov:52.4%25%2C Eval:5.9e-20%2C partial hit],MGA_488
sequence1	MetaGeneAnnotator	CDS	467586	468122	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNIIGQEDNKIVNSNNLKNHIYKRVKKTIKDKTKLLYLKTDFKIDDYATDLIKKIIINNKKSELKIIGKNELNKTKEKIIYPLSAFYKDIILLSHFILNKKIEFDNIIFLFENVSNKELELQNVNIDELDKIFMNNFKIKKSDFEILKTFLEKLENKYPGIELATKKSQDIINEMI;locus_tag=LOCUS_04870;note=MGA_489
sequence1	MetaGeneAnnotator	CDS	468372	469391	.	+	0	ID=MGA_490;product=peptidase M42;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007331752.1;translation=MRLILEKLKEYLDIPAVTNFSEPFLKYLYKDFSKFSDYELILSKNLLVVRKKENRSNKFFSAHIDRLGLVLSSKGVEHSNFWGKREYNIKIETGLEIFDRMAIAFNEEHFIPYNEIYDELRKYTNVKVKYVKTDFVKYFMEFIFYNNNDNFKGKKNLAFMLENNFFFDGKFIGGQIDNAISVACLYKLIKDGFDGTVLFTCREEIGLSWKYIEEYFKEENLNVKNLIVLDTTPYPSSSDFENGKIIFRRADSNGKFNIAFIDKLKAYAKDQEIPYAIKVPRGKTELGRLVEFTNGNFNGATIQIPSTNYHSNKEMTNVKCLKNYYKFIKLISNKEELFH;locus_tag=LOCUS_04880;note=WP_007331752.1 peptidase M42 (Rhodopirellula baltica SH 1) [pid:25.9%25%2C q_cov:95.6%25%2C s_cov:94.6%25%2C Eval:9.4e-27],MGA_490
sequence1	MetaGeneAnnotator	CDS	469442	470179	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALHILDSNPSDDYLNPGIKPCFEHNLDELKKMYDPTQGRDNVKSILDSDPYKNIIAMGVRVFPLMEAFYDVKCDEPLEFFKTNLFGFMISKISRGKFNFDLHSNVNDTDSGLIGKLLTNHIKDWLVENKGGYFSAPAPRLTELVIPDDKDEASKIFQSLETNHLLLSSHAYGTFRGWISSAGIYGMNVDEESHNPRRIEFCSLSSTNLIIDSRMGIYAGSGRSFDAKYEVRLYKYPEVEKTVDY;locus_tag=LOCUS_04890;note=MGA_491
sequence1	MetaGeneAnnotator	CDS	470214	470732	.	+	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNKTLINLGLLFCLYSTPNSNDDNNPFNVPENHYYDKITIRSNHKIQNFCYVDFNIDTGEYDAVAPLSLNGLKGPLMQVDFNLCINYKSIRNNGFGYSVVRENYNWHKKMRPRHSTTLINLPFTVFNNILKFSTSTITNIGYYSLDMAVGNTFKVADFTTNTVGGIINLK;locus_tag=LOCUS_04900;note=MGA_492
sequence1	MetaGeneAnnotator	CDS	470729	471184	.	+	0	ID=MGA_493;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065176.1;translation=MMIAIFETNVGTFKIELFDKTMPLTIGNFKRLVDQGFYDGLIFHRIIKDFMIQGGCPIGDGTGDPGYTIPDEFTPNNRNIKGTISMANAGPNTGGSQFFINVVDNNYLDGNHPVFGKVIDGADIVDKISKIEVDSSDRPINKVIINKITIE;locus_tag=LOCUS_04910;note=WP_048065176.1 peptidyl-prolyl cis-trans isomerase (Methanosarcina acetivorans C2A) [pid:65.0%25%2C q_cov:94.7%25%2C s_cov:91.6%25%2C Eval:8.7e-50],MGA_493
sequence1	MetaGeneAnnotator	CDS	471240	473483	.	+	0	ID=MGA_494;product=phosphoenolpyruvate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250243.1;translation=MNKLVLWAKDVNKSMVDIVGGKSANLGELYNIDIPIPDCFFLTAQSYEYFIKENNLWPRIKNILDLIDYSSPKSLDVASNNISKLILNTPVPINIKKTIIKNYNLMSEKFVAVRSSATAEDLPEASFAGQQATFLNVKGELEVVDAVLNCWASLFTARAIYYRHKNNFDHSKVYIAVVVQNMVNSRRSGICFTNNPANSNSQEIVVEAGFGLGETIVSGSVSPDTYVLNGNSFEILSKHIGNQEYALIRNDDGGNDKLNLNDKEKNSQKLLDEEIVNLAELAKKIERHYGKPQDIEFAFNDKQLYIVQSRAITTIKKNKTDVENKINAESILKGLATSPGIVSGRVVFVKNLDDLEKIKKGDVLVTKMTTPDMVPAMEKSVGIVTDEGGLTCHAAIVSRELGVPSVVGTKNATSILKENDLITIDGNTGLIYMGNFVKDIDANKNKNETERIIGKTKTKIKLIVDIPSTAKTKSKLLSDGVGLIRAEFFISQSGVHPIHYIKSGLDKYSQIIYSGLKEIAEAFKPRPVWFRTSDLRSDEYRGLKDGDKIHTEDNPMMGEHGIRFSLAHPDLLKAEFIGIKKLIDEGYKNIGVMLPFIIRSEEFTASKKIAESIGLKPNVDFKLGIMCETPGSVWIMEDIIRQGASFISFGTNDLTQLTLGIDRNNQNIAQLFNELHPAVVGQIEKVIKIANNYGVETSICGQAGSNPEMAEKLVKLGINSISVNSDSFYKVKNTVFKVEQKINDSNK;locus_tag=LOCUS_04920;EC_number=2.7.9.2;note=WP_011250243.1 phosphoenolpyruvate synthase (Thermococcus kodakarensis KOD1) [pid:47.4%25%2C q_cov:99.1%25%2C s_cov:97.2%25%2C Eval:5.9e-193],MGA_494
sequence1	MetaGeneAnnotator	CDS	473521	474111	.	+	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIFNSNYKFSQLHFRSLGSENIEKKISVISDVSWLNIFGDSFNGLDYFANRERSSYDLNEFENHKGESCGLGDVIISPFKTDLPDLSLKLTTRETESFDFKISYLDYRKLLFFSDSNVLLDLVLKPVISYIFQNDVLAVLYDRRVELLNKLDKLELGFKETEKINNFESSSEYWIRDLSSKSFIRCGGDKPFNDF;locus_tag=LOCUS_04930;note=MGA_495
sequence1	MetaGeneAnnotator	CDS	474209	476638	.	+	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIQFVPYDSFTKVIDNKTCFFITAKTLDRKRLILNIDMNPYFFLCVNDEHMNSFENLILPNLKKFSQIIDGIEFNIVDVKKTDFKNNCGVNYTTFKIEINRLLKLNKFSNLILDYLKDKGVDSSIIFENIKLKDIIFNEKNIIPFKLYEGDCEVIDDLKFKLFRCDFVLNLKNCDLIRNLDNSEIDYAINILYLDFVFKNATIFDQNNPLLLISCHIRKFTKIFQWKIPNLKNCDFCESESNMFEQFSDFLNKIKPDIIIINDNDNKLNLFNNRSDRYGQKYSFYYDLNDSNFKINNKKGLILLDSKRFHNKLHLFSNVNYKNLYYKFFRVKFDPISKEYISSMLLNKRDENIFYIIEENNKSHYNFFINFYLQIVKDLCEEILCGLDFLSFSDRGTILKYYLNNKYRQNKYILNNLNVIADSDNLFYDFAQKNGIKNNLFQLDLSFIYSKLIADNNISFNNDNNISLNKIILDNLFNDIKTIYSDEFSTFLFSNAMSSFFNLKFETFNYGRPIFFKYLTKLFLYNNVGKFIYSLIEDKDEFDCALIDFIRTFLSKISGSNFELISFNKTLMYLQNSSLIELNESAKDTYLKLNEFLLDISILLKEINIIHLFCNFNFFITNYIFDNNRIFGLDFDLLLYGNIKKNIKILEVINKRIAFILLDYDYYNEINSYFNNMDFYKEHNFSIDFKKSEKLNSINFYKNTILTQMNNNKIDFNLLLSKRKINMSSSDFLIDFKNNKLSDFYDGESIIYLVMFEKTETGLISKKIIINDPFEFKEKLNPNYNINIHYYYIIVNKYFDSVINLLK;locus_tag=LOCUS_04940;note=MGA_496
sequence1	MetaGeneAnnotator	CDS	476667	477431	.	-	0	ID=MGA_497;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878001.1;translation=MSYNKKYINNLLNQNARFDGRGPVEFREVKVEYDVIETAMGSAKVNIGKTQVIAGIKLTPVEPYSDSPDEGTLMVNVELIPLSGEDYEMGPPKFKAIELARVVDRGIREGKAIDTKKLVLKNGKVWQVSIDIVSINDSGNLMDACGLAAIAAIKNCRFPVINGDDIDFDAKSDIGLPINVEPVPVTVVRIGNYYITDPTKEEEEALDDRLTVGILPDQKICSVQKGGNSSITLDDIDKMFDIAIMKSEELRKAL;locus_tag=LOCUS_04950;note=WP_010878001.1 RNA-binding protein (Archaeoglobus fulgidus DSM 4304) [pid:44.6%25%2C q_cov:97.6%25%2C s_cov:94.2%25%2C Eval:2.2e-53],MGA_497
sequence1	MetaGeneAnnotator	CDS	477428	478135	.	-	0	ID=MGA_498;product=exosome complex exonuclease Rrp41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867734.1;translation=MTARPSGRKADELRSCEAKVNVVPNANGSAMFKIGKTVAIAAVYGPKNLHLKFLQNPKEAVLRCNYNMMPFSGSGSDRIRPGGNRRSKEISEVTSQALHKVVNLKKFPGTVIDVFIEIIQADAGTRCAGLCAASMALAEAGLDMLDLPVAVGVGKYKDKLIVDLDYIEDSDEHGVDVPCAILPSTGEITLLQVDGVISKDELMEALTKVKPAAEHIKEIMVKAIKERYEVAGNKK;locus_tag=LOCUS_04960;note=WP_010867734.1 exosome complex exonuclease Rrp41 (Pyrococcus abyssi GE5) [pid:49.1%25%2C q_cov:95.7%25%2C s_cov:89.2%25%2C Eval:1.2e-50],MGA_498
sequence1	MetaGeneAnnotator	CDS	478137	478865	.	-	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLTEDKKIAVPGEVLAEGDEYIASYGTRKMDDKVLANRVGIVNLHDKTIKLIHINGKYFPKIGDTIICQITEILISGWRVQTNSAYSAVLSLKEATNEFIPKGADLKAILNTGDYIACKVVNLVGQNLVDISLKGPGLRRLHNGRIIKVGSFKVPRIIGKGGSMIQLIKQYTNCRLIVGQNGIVWIQGEAENELIASQAIRKIEEESHTQGLTERIKEHFVSIYGELKSKENEEEIKEEQ;locus_tag=LOCUS_04970;note=WP_010876323.1 RNA-binding protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.9%25%2C q_cov:90.1%25%2C s_cov:68.8%25%2C Eval:2.1e-42%2C partial hit],MGA_499
sequence1	MetaGeneAnnotator	CDS	478867	479565	.	-	0	ID=MGA_500;product=ribosome assembly factor SBDS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021781.1;translation=MVSVDKAIIAKLKKNGDCFEVLVDCQNALKLRQGDNVDLADIIADYKIFSDAKKGFLATESKFVETFGTSNIEEIAIEIIKKGDIQITANHKKTLLEEKTNKIIGTIVSNSIDGQTKLPIPRQRIELCFKELNIKINEHETDEIQIEQIIKKIKTLIPIKFEIFEVEIRIAHQYSSKAIGIIKNNYPNASQLWDDQGNVLIKVKVPAGKSEELHSKLNELTHGSVSYEIKEK;locus_tag=LOCUS_04980;note=WP_011021781.1 ribosome assembly factor SBDS (Methanosarcina acetivorans C2A) [pid:35.4%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:6.1e-36],MGA_500
sequence1	MetaGeneAnnotator	CDS	479566	480282	.	-	0	ID=MGA_501;product=proteasome endopeptidase complex%2Csubunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877997.1;translation=MQPLQHQIMGYDRAITTFSPEGRLLQVEYADKCVKNGTSAIGLLCKDGIVIVADKRVVDKLKISSSVDKIHEIDTHIMAATAGITSDGRVLIERSQMKAQQNKLTYDTDIDILNIVKDTANLKQYTTQSGGIRPFGISIIYGGIDSTGARLFITEPSGIYNEYKACVIGEGEQTIKEFLTKEYKENISINEGIKLGIKAMKLFLEKEFSLERMEVGIVEKENKKFVLMGKNDLKKIGF;locus_tag=LOCUS_04990;EC_number=3.4.25.1;note=WP_010877997.1 proteasome endopeptidase complex%2Csubunit alpha (Archaeoglobus fulgidus DSM 4304) [pid:46.9%25%2C q_cov:95.0%25%2C s_cov:91.5%25%2C Eval:5.0e-57],MGA_501
sequence1	MetaGeneAnnotator	CDS	480300	480668	.	-	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIKILKPSLRIKKRYILFKILSKNKINLDQIIIEFKNSILKIIGLFGLNMSGFQIIKKLSDKSNIVVKTNTKYLNFIKTIASTIKKVNSEPIIIHSTKTSGVLNKILTDLKKENVSKNIK;locus_tag=LOCUS_05000;note=MGA_502
sequence1	MetaGeneAnnotator	CDS	480797	482014	.	-	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLINIFKNGEEEKIPKQLGYILGNHVLKSFIDQGLLKSDSGNLNLKKQIAKNGFDFVLKAGKAYMSNSPEYRIYPSPNQTIEEIIESSGGFSKINLDGTLEIPNNRIVYCQLDISVDSQITDPKEKKFHGPKYLIFSGKSGFARSFIQVEALADYSGQLDFVSFENKDENKKKIWVKIHSKDFNTIIYPTLNVTQGFLGHNILSPMDLFELNKLYQSEDWIKKKMEDDITDPRSIEQPNNVLTYVDLRGNEGETVALRARREEALTVDLFKIYNSDGFQYQSSDYFEELKIENGKFRAKFPDSLLMRGCEFFDFPNYLMGFLSRYPNKVFGTSGVNSATAFHTTFCGQPMHEIDVFENKLFQPGVYVISDMKLFYVLTDQLETEKVGSYIGQKGIKASKWFKSQ;locus_tag=LOCUS_05010;note=MGA_503
sequence1	MetaGeneAnnotator	CDS	482127	483902	.	+	0	ID=MGA_504;product=ribosome biogenesis/translation initiation ATPase RLI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146933.1;translation=MVRIAIVDKEKCRAPTDCNYICMPVCPINKTGGECITKDALTNKINIVEETCIGCNICVHKCPFNAIQIINLPEMINNIPIHRYSENGFALFGLPVPSFGKVIGVLGKNGIGKSTAIKILSGLIKPNLGEVGTEAEVSKIINYFKGTPAHKYFEDLNSSKVTVSYKPQQVELIPDQFDGTVIDLLNKVNENDKLNLLIDKLDLTNILNRTLKQISGGELQRVAIAATLLKKANVYIFDEPTSYLDIKQRIKVSDLIRDLCTEDIAILVIEHDLIALDYMTDLIYIMYGTSSAYGILSSVKSTKEGINVYLSGYIKENNMRFRDHSIKFENSAQEGLPKLGNVIDWDNIDIELGDFKLKAESGEILKSNLYGILGENGIGKSTFMRALVGDVKLSKGKINGKIKVSYKPQYLNSDSSINVLELLTDQIEQFGSQEWEYNYEIPLDLKSLYDKKLNELSGGELQRLSISICLAKDADIYLLDEPSSYLDVEQRLVTSRLIKDRLISMGKTVLVIDHDLLFVDYLCKSIIIFDGIPSKQGEIQSPLFMSEGMNEFLKILDITFRRDEENNRPRINKRNSVLDKKQRAEGNFYFI;locus_tag=LOCUS_05020;note=WP_048146933.1 ribosome biogenesis/translation initiation ATPase RLI (Pyrococcus abyssi GE5) [pid:45.4%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:8.6e-152],MGA_504
sequence1	MetaGeneAnnotator	CDS	484267	484485	.	-	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSLIKCKANTENMSIETSRVNPNIKIIKKDFGHKFRELNEIHKNTIFDFSSNIIYTRHSNEVQNFLIEIID;locus_tag=LOCUS_05030;note=MGA_505
sequence1	MetaGeneAnnotator	CDS	484524	485267	.	+	0	ID=MGA_506;product=SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895359.1;translation=MFYKKVLFDKKTDKRWLVSNLDSEYSCSHGSVSIEDLNKSSGLIKTNTGYELFIWDANFYDNFSKLKRGPALIISKDIGAIVIHTLPKQNGVIVDGGSGCGALACSMGYLFPNANIFSYDNREEHIKIANKNKQQLDISNVEFIHGDLQSDIKQNEIDLLTVDMPNPELILNSASKKLNTGCFMVCYLPCITQVQTLVESLNDFDCFYHQKTIELTEREWNVEGKKVRPKPVSIGHTAFLVFIKKIK;locus_tag=LOCUS_05040;note=WP_003895359.1 SAM-dependent methyltransferase (Mycobacterium smegmatis str. MC2 155) [pid:27.6%25%2C q_cov:97.2%25%2C s_cov:86.9%25%2C Eval:5.3e-20],MGA_506
sequence1	MetaGeneAnnotator	CDS	485264	485773	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNVINKKKYNPCIMTGYNCFGCCSVNLTNIKEVECGIDKNTKEYSEFKNNNKGFRDRYGKDELDKSGICLNLIRKNDINENGVCAIYPKDNTDDLRFGYCSTTFECVTFIKIQNWNEKKVSLFNFFIKELFEQNKLNKLSFSNEMYNNTIIDKFELWLKINNERDGI;locus_tag=LOCUS_05050;note=MGA_507
sequence1	Aragorn:1.2.38	tRNA	485755	485837	.	-	.	ID=Aragorn_11;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	485932	486642	.	+	0	ID=MGA_508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVTNIELIKIDCLIRHSLINYSKFHDRRLEFGLFNTMQYTPDGPYTAKTTVPVSFDGKNIGDMNIIGFSPFDGTGNDSSYNLNQIDFGKFKTDNYDLNSLIPRSKQDIICEGYFPLFSIKQNGDHFFHLTQLKELLLKKNGDEKYSIIPNFMLGPDKKTLDLILSGARSPKPRVYFTTVDINGIGRFGDPHSVCRTSSLEKYLQVGGFLSIKDKCNPLLKLAKEKWILPKMKRMR;locus_tag=LOCUS_05060;note=MGA_508
sequence1	MetaGeneAnnotator	CDS	486643	487065	.	-	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSDYYVGIEDHQLLRRNILESTKGTIKILQRIELIKSKRSQKITKIIELKKLVEDINYLIENLKKELPKIETHFQYNEKRKTTKQEDKHTIRKKPISKRATKKNTEAQLNIHESKKTNLNDLENELDDIESKLKNLGR;locus_tag=LOCUS_05070;note=MGA_509
sequence1	MetaGeneAnnotator	CDS	487068	487286	.	-	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDVPIYVKIDDYKDIVDIISVIRSKLDQAKSTIDQINNLKAEEDSEIELWLSEIEEIEEKVETSESILFNN;locus_tag=LOCUS_05080;note=MGA_510
sequence1	MetaGeneAnnotator	CDS	487292	487846	.	-	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEAPVLSSNSNESKNNFHFGKIGLEKVEPDINNIENRNKELIQDFNHTNTNQDLNSFKHNTQNIVNNEPIHNQIPVNHDIPQKSINNNEQLFSKIEENIKLKEREKKYNRNNVEPIFIETKDHEKMIKDLESINKNVAVIESKFNSIIHIKDQEDSKINKLASTCEELQKKLLYIDKVVFEIR;locus_tag=LOCUS_05090;note=MGA_511
sequence1	MetaGeneAnnotator	CDS	488030	489205	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINHMKLKIILIMVAIFLSFLHINALNISSSNFTILNNKLILDDFEFENLNLIIKNNTFLFVETCTYAPRINETFICIKNKNISIRYFNLTETIVNNTNITYNNNLSNDNISNNIQINVSNNSNLTNISINKTNILMNEYYDFNNKIVYEINISNNTIDKNGIYINLSIINYFDINKNIDLIYYFYRHSQKYSKVYDKSFIVNSRNITKISFNLFPESIKNDNFNLKIKLKKSELKTFKEFKYDIFFINNSIKENDIDELVNVYIQNDSNENKIQINDINEIKIINNSNNYSELSSFFEEYGENIEFMDGNKIKLKNNDILLNEFNQVMPLLMQKFEIDDKLNSKINLMDLVESKKNIQSFISYKVIIVGSFLILLLNFFGLFKKKFFDF;locus_tag=LOCUS_05100;note=MGA_512
sequence1	MetaGeneAnnotator	CDS	489281	489742	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDRLDKDTIENYYSKGYLHIRSTVTIIGRPKEHIEDTLSKYLEKLFEDNSIVSVQVDLFEAKESETNDGFYECFAEFEALFETLDKVTQFVMNYLPGTIEFIYPQKLEFSNLDVNTMFTNLLLKFHQVDRALKVQILENKKLKKEANIEEQN;locus_tag=LOCUS_05110;note=MGA_513
sequence1	MetaGeneAnnotator	CDS	489726	490544	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIEAILFARGKIVSIDELKLLLDSDARQINKVISQLQKEYDARDTSLQILKYQNGFKLSVKSDYFDLVKNLMPETEMPKAVIETLAIVAWKHPKITQSEIIHIRSSNAYDHLKYLEKKGFIKREPEGKSKRIILTSKFFNYFDIDDLKAFQENLNKYDELEDAYNKKINEVKDEELKIKTYNNLVKKVLNEESKKIDNLKNKDMDDVLDKEEEDLKLKGVQVKLDDSKSIDSEFLSKKINEELEKEYVELEIKKKELQKEFDELDEKKE;locus_tag=LOCUS_05120;note=WP_048065962.1 SMC-Scp complex subunit ScpB (Methanosarcina acetivorans C2A) [pid:31.6%25%2C q_cov:56.2%25%2C s_cov:41.2%25%2C Eval:4.0e-19%2C partial hit],MGA_514
sequence1	MetaGeneAnnotator	CDS	490555	493272	.	+	0	ID=MGA_515;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5HXQ3;translation=MEEPFAKEILECDINHEVKTAFMSYAMSVIVSRALPDFRDGLKPVHRRIIYSMNQNNLLYNKSFTKCARIIGEVMGHYHPHGDMAIYDSLVRMAQEFSLRYMLVDGQGNFGSVDGDSAAAYRYTEARLKKITSNLIEDLNKNTVDFKFNYDGKEKEPVVLPAKFPNLLFNGSTGIAVGMATNIPPHNSTEILNALIALIENPDLDVEKLFEIVKGPDFPTGGIICGVSGIRSYFLTGKGKVIIRSKTRIEEKNGREIIIVDEIPYMVNKANMLMAIVDLIKDKRIDGISDIRDESNRNGVRIIIEIKKGAEAAVVLNKLFLLSRLQVSFSVNMLGLKDQIPCVLNLPQVLMNFNNFRFEVVTRRTQFELDECLAKLHLVRGLKIAVDDIDAVIELIKSSSNYNDALVKLMDKYGLDEIQTKAILDMKISKLTGLEVEKLQRELEELEILSEKLRFILEHKEEIYKIIKEEYLEILNKFGDERKSEISYEELGDFLDEDLIKKEKVVITISKSGYVKRIPLNTYKIQKRGGKGVIGATTREEDVIDQMYVCNSNDNLLLFTDTGKIHWLKAFHVPEATRTAKGRAVVNLVRLAPNEIVTSSIMVSDFDPNKNLIFSTKSGLLKKTSLKYYSKPRSGGITAINLMPNDSVVKVLLTDGSDKLLLASRNGLAVKCKESDVRSVGRNSKGVRGIRLNSHDYVVDFMKVSDDQDILTITENGYGKRTKSTDYRLINRGGKGVINIVTSPRNGNVCAVRPINGDESILLISKNGILIGVKASDVSTIGRNTQGVRIMKLSQGDVCISVTSFKNEDENMDENLNIDDTNVEFSSESEDTNVDVEVKDNELELDENDKIVRDEDFNQHHAHSENIESGDKKSDDSETSSDDQNYSAEDEESFDESNMDRENER;locus_tag=LOCUS_05130;gene=gyrA;EC_number=5.99.1.3;note=A5HXQ3 DNA gyrase subunit A (Clostridium botulinum A str. ATCC 3502) [pid:47.6%25%2C q_cov:90.7%25%2C s_cov:98.1%25%2C Eval:8.6e-226],MGA_515
sequence1	MetaGeneAnnotator	CDS	493354	494694	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKHTGPVLHRDYNSTVNFLSSLYGTDLFGLNIGQINSLSELYEQNPLAKSSILKFNGLRGKIIKPISLEDQLSVSEVDFKHFVDNSNGLYDFLEILESEYDHELTNNCGTSNLMSYSKLSDLIKPKNSKIVFSILGYLHNLNRTGHDFTVDPFVIISSLDSHLREFEPVKEKYYDLLIELKIEKQHKNLELPEYKKVLQFDGKSKNINLFFDQITSLGYIVNRCVNVFENVCEVLDPKYLSLLNVLNQTNFDLSTTKTPSRFTNSAFRFLKYMGDIDGFENFLTKLSDYSFVDTNYAFDGLNITSFENMNFEKTIEFCEIAKSLNSKPISFKTLFENNKNISRFVDEQDLIKEIFSVFEYDDNLNNFILNYMGFICDDFQNYKTMLFEIRDKTGKKIKMDFIRNSNVSTFFQDYDSGDQNAKDELIENFKHFYSDDIAHEDLSLN;locus_tag=LOCUS_05140;note=MGA_516
sequence1	MetaGeneAnnotator	CDS	494756	496171	.	+	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLETEVVSSETLGGTFNQTYSFLEKTYGKGVSKLRVDNILKIDSLYNRYPQLKKKITKINGLKGLMAEPFSLDDHLLREGESIDNFNCFFENIYGFLEKIESDYKDVIDNSKNPVSIMDNPFNFAHSNAKERSDIIFSVLDYVKKVNKDGHNFKINLSTLVSDFNSLVALNDRKEQIYNTIIELGVSKEYNIFYLGDYNKLLTYKDKAEKISTFISHAKSLDYKIESCFDTLDDVYGIVDSNCIPLLTTLRGCDIGISEDRSDSDSRDMNKNFFYVLKKMTQKQGFESLLSYMQKLPFLKTDMTFSRVNGEGWLESFNVEATLDFCKFAEQYGAKNLSFKSLFFYNGFVEVFSEHKNNIIKMLDCYDFDKNLSGYLQSAECLNYTFGIYDDDKFNYEKSLGFIIRDICKKTNRKFKSKFGSGMTMFLNFIDEFSPFTKNYEVEEFIDFLNKNAEKEGVITYNDVDSFKKH;locus_tag=LOCUS_05150;note=MGA_517
sequence1	MetaGeneAnnotator	CDS	496168	497307	.	-	0	ID=MGA_518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAFGIISNGMERFAIDEIKSLLNTDKIETLNNCLIFKVENYKQIIKLIYLSKSFFKIGLVLTKIKLSDFENSFEINDSEFSIIKKLNLETQSMATKFISKNENYKKQDLEREIGTKICTKYNIKVNLSNPTINFYGYIDKTIFMVGIDFSEIDLSKREYKLHNSINSLKGNIAYAAYQILIENEKKISNKTILDPFCDTGITLIESALSQKEMSTNYYRKNIFGILKIKELFDFNILEYIISLDNLKELKTKFIGHDSAIKNVLYSQKNAKVMGLKPIKFTKILFNDIDIKYEEHLFDYIITQPNISFKKTESDKIGKKIENFWIRIDYLLKKNKQSKLVLILKSDRYYLEPIGFKIESKHEIIIGKETNTIIKYKRV;locus_tag=LOCUS_05160;note=MGA_518
sequence1	MetaGeneAnnotator	CDS	497308	499518	.	-	0	ID=MGA_519;product=DNA topoisomerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496891.1;translation=MTELIIAEKPSVAQKIAGAISGGKAKKENFKGTPYYRLKIKDKEIIVAAAAGHLYVLNSQVKNKYPIFDCDWKPIYEINKDADYTRKYIETVKKLAKEADEFTIATDYDVEGEIIGYNVLKYACKKKDAERMKYSAITAPTLKKSYENKEKTLNWGQAEQGLARHFLDWFYGINISRALTSSIKAATGKHIQMSSGRVQGPTLKILNEREKEISVFIPEPYHEIKIQGEINKNNIELEHKEKKFKEEKRAKEIFNKVNKKDGKVTDITRKKFKVKPPVPFDFTQLQLEVNKVFAIPPKDTLKIAQELYSNGWISYPRTSSQKYPKDLDLKEILNALARSKQYLELTKKVLSTDLKPTEGKKDDPAHPAIYPTGILPGTEDKRLLKVYDLIVKRFFAVFGSDATRETMTVTVDFEKEPFILKGTRTVEEGWYELYRPHLKLEEVTLPDIKKNEIVINKKTIKEDKETKPPKRYTEASIISALEKNNIGTKQTRSVILQQLFQRKYLDSKSIEVTKLGQKIVETLEKYCPEILSIEMTRKLEEDMQKIYDKKIQYESVLDETKKIIKKVCEEFIKKEKEIGKEIYQANIIALNEKNTYGLCPKCQMGQLSLRKGKFGEFIACNSYPECKTTISIPSGKKIISTDKVCEHDNYPLIKLANKKGRKIEQILCINKECPGKEESEENEKDEIEGSACNKCKDGIMIKRKGIYGTFYGCNNYPKCKNIMKSNNNNNRNEILA;locus_tag=LOCUS_05170;note=WP_064496891.1 DNA topoisomerase I (Methanocaldococcus jannaschii DSM 2661) [pid:44.2%25%2C q_cov:97.8%25%2C s_cov:92.9%25%2C Eval:2.8e-163],MGA_519
sequence1	MetaGeneAnnotator	CDS	499615	501978	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLRKICFFLILIFACNFVYADESVNLLAVTEIGLNNQSIGTLAKMKLNVNNGTGNIFFNTYPFSRVDTQISSRIANSVACKYISDCNHFDYYYTIDIDSSSIGGPSAGAAITILTMSKLLNHDIHDDFAITGTINSGGIIGPVGGIEEKVKAAINSGMKKIVIPFGENKIKKFNETMPKLYFDNVKVFFKSYENFLFFKSKLENDSLFVLNNSKLDNFKKSFNYTDVTIVYLNHVEPIFKIDFKTEVKETDQFISFFKKNYKALIEDSIIEYKDVKFDFYVYNDSVSFNNISNLNDLRNDFDYTFDLIKFANESGADLRTYVNILDAYEFATDLNILNDTLFNLSISNKYSDILNILADDLCGEFNNNFNDFNFDNLDYEKYSKIDFIFKDRMDLLKNNSLKLNELLNLKKYYTAASICFSNSIALEYIKSIINYSNGLNEYSYYFNESDILLKNYTNYKIEIDNLKINSLIDIQTIGIIKNRLIEVKTYLDFLTQDSFNKTPDVYLYNLAFAKYRFKTSKAWKVFYNTDKNLNLDDSVLQTSCNSILVEVQERFSYISTISNFPLNDLKKEVDNLNKYYFSGDYVQCIYESAVLKARLDNVLTSGGFSTDDLIGFYEIKKSIVKNNLNAQLNRGYFPILGYSYLEYADYLKNDSIGQALHFLSLSLELNNIDIYLPSDLKSNGFLKPAINGTFIMDNGDLNNSLYFSIFLILTLLTFSFFRRNTINLKLNNEQKKQLEEKNNILVVKPEHDNLLFNEKLNKKINTFSNDLFDDSFRKKLFKKLKK;locus_tag=LOCUS_05180;note=WP_064496789.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:27.2%25%2C q_cov:29.2%25%2C s_cov:42.9%25%2C Eval:1.1e-16%2C partial hit],MGA_520
sequence1	MetaGeneAnnotator	CDS	501979	502623	.	-	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSYKKICAFKQQITEPTKFQTLCSLFNPKETVDDLKNIAVYTVPFYLLYLTGLTDVYAAVSTGLGTNYGNKITLTSAIDTSFAELEDEQLLNQNQQDKMSEIVNLQNQEKIKLEGYGLRTVIGFGIMEYLQNQNISSGTEILYNLGVDGLLLISSFLVSAFFNIPNSHKFYTENIKPIKQAKNKDHDNLENMAWDDDRKTIILEKHEFTKIIE;locus_tag=LOCUS_05190;note=MGA_521
sequence1	MetaGeneAnnotator	CDS	502674	504101	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNKIKEYILKNKEFLILYIISTIFFILYHYIYMGWDFAAYVINAKYWLGLEQYFETYRAPLMPFTLMIFGASKFAEYIYIFLISSLFAIACYKFSKTVKLNEILFYAFMLNPFTLLMGLIEGTELLSLTLLLFSITLILNNKNSGYMFGLAFLCKYTNLYNAIFIFFDRKKNIIKNIITFAIIIAPWFIFNYINYGNFFTSIANGYALNVKFRDYLPFVWGWSNFLILFNIIFPFLIYGIYKRIKQIKIKPLQKIDWILIIYTIIQLYIYFSVPVKVERYLFNLILPVVYYSTYGINELIKNKSNINVNKYIAIISIIIILIISISTTIKIDNNSGNSNPTSLKIINIAKSENITHCALKTNTWVEVNYLSDINVAPTINLDHIDMHIKEGYIMILAQNISHKYKFYSKNGYSAIGKKKNCKLNKNHKHDMTYLERIQIDIKRRYNETENIEPCHIIFNNQILKKICEKINFQ;locus_tag=LOCUS_05200;note=MGA_522
sequence1	MetaGeneAnnotator	CDS	504098	505027	.	-	0	ID=MGA_523;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251195.1;translation=METRKLVKTGADTYTVSIPKKWIKANNLKKGDLIFLKPNKNCLELSTTENVDREEVKEISFNVDKKNINYLRRATISAYINNYNVFRFHGTELNEKLDDIRKILQNFLALEVTEQTNSCLVARDYLNLNEFSIANTLRRMDMIARSMIIDLKNDDLTTLKSLEFRDYEVDKLYFLVSRLIRSILENPNNPHKLSSVETISVWWMAKNLENVADFVKKIAKEIDSKKKKTKQLQDTFLKIEEYYLKTMKAYFTNNKELANTIMGERDEINEMIINNKNTPESTIHMVQMVDHIRNIAKIMLDSVEDKNKK;locus_tag=LOCUS_05210;note=WP_011251195.1 transcriptional regulator (Thermococcus kodakarensis KOD1) [pid:27.6%25%2C q_cov:84.5%25%2C s_cov:89.8%25%2C Eval:4.1e-18],MGA_523
sequence1	MetaGeneAnnotator	CDS	505109	505513	.	+	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLDWAEDYFRHRDLILCQIETIVKNKDNLIIRHNDGIVKKIYITDYINNFDFSLDGDVNNIFVLNNKKNLNFLINHWDELSKHKNLSFYFINPDSSIDKLWIISPYIHSKICEPDNIERSLNSLFSSVCEIK;locus_tag=LOCUS_05220;note=MGA_524
sequence1	MetaGeneAnnotator	CDS	505506	506405	.	-	0	ID=MGA_525;product=agmatinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005771798.1;translation=MELKNNFNGKYFVGNRKNSKYEESKIIIFPIGYEGTVSYNKGTINGPEAIINASQYLENYDEEFEIELNNIHTFKISKFDENIKIETALDFVYENSKKILNDNKFPLMIGGEHSLTLGLVRALKEKYNEFTIIQIDAHTDLDESYNNNKYSHASVMKRINEIENINIIQLGIRSITKEIHQFVKNNNQICTIFSHEIKQMPISKLIEKLIPNIKKNVFITIDVDGFDPHIFPNTGTPEPNGLEWQYTINLFKQILKEKNIIGLDFMEFSSNKQEHYSDFSAAKLIFKLLCLIESNKKTI;locus_tag=LOCUS_05230;EC_number=3.5.3.11;note=WP_005771798.1 agmatinase (Coxiella burnetii RSA 493) [pid:35.7%25%2C q_cov:93.6%25%2C s_cov:95.9%25%2C Eval:1.9e-41],MGA_525
sequence1	MetaGeneAnnotator	CDS	506407	507444	.	-	0	ID=MGA_526;product=pyridoxal-dependent decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861341.1;translation=MAEFLLSKSKLIEEYNKLKNLNVIVSYSHKTNEEVGILLEKLTDCKFNIHSLNSLKQIKDKTRVWYFPFAHSKEEIINLLNNNINKFVIDNETDLNNLIECINKTNKKIKLLIRMKLKENTVKTGKYFVFGLNTKKVNELIQKHSNNNLIEKIGIHVHRKTQNVAEWSLVEDIVNSLTKENYKKIKIINIGGGIPSTYKNTNTRTIERIKNKIKELVEYCKKENSTIEIHIEPGRALAAPCVKLKAQIIAIEEKNITIDCSVYNTSIDTLIADMKLIIQNEIENYKPEEQYLIKGKTPCSMDIFRYRIGLNNPKKGNYIIFENAGAYNYSSDFCNLEKIKTIIVD;locus_tag=LOCUS_05240;EC_number=4.1.1.20;note=WP_011861341.1 pyridoxal-dependent decarboxylase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:22.6%25%2C q_cov:94.8%25%2C s_cov:90.1%25%2C Eval:1.5e-08],MGA_526
sequence1	MetaGeneAnnotator	CDS	507446	508384	.	-	0	ID=MGA_527;product=deoxyhypusine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903042.1;translation=MEYIKDLKWKKGINVKDLVEQLGNVGFQSIELKRASNVFEKMKMAGAKIFFTFTSNMVTSGLRGFFAQLINLKMANVIVTTVGGIEEDIMKAHGEKFQMGRFDLDDLELKEKGLNRIGNLLIDNQSYLILEDMLNEMLKKCYEKQKRWTPSELFREIGLMLNDENSILYQAAKNNVPIFCPAITDGAFGFHLYMFQQKHPDFMIDVIQDFKNIVLCTSHDEKKGIISLGGSISKHHAILAGLINGGMEFAVYMTTAEQKSGSMSGATTREAKSWGKIKDESDAATVIGDVSILFPLAMIHALENLIENKIIN;locus_tag=LOCUS_05250;EC_number=2.5.1.46;note=WP_010903042.1 deoxyhypusine synthase (Halobacterium salinarum NRC-1) [pid:37.7%25%2C q_cov:92.3%25%2C s_cov:88.2%25%2C Eval:2.1e-54],MGA_527
sequence1	MetaGeneAnnotator	CDS	508536	509087	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIVIILIIQIYKLFYVFKFMTKRAVKFNSVLNSLTSCLRQRGYSVVSGLESEFVRYKRENDLFSAEFGLTDSFKEEFDQNRNLININLDYELKSEFPKIYFDFIIPADHMMSMFFRSLNTDRFVKRFPNDCGKSYLNPNFDIEFEKKINDEKIKSVLVTVIDYLYNHSFTNFQMLYNTRNFE;locus_tag=LOCUS_05260;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	509129	509941	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNFWSNVNKVITDSDLVMMVLDARIPELTLNHEIEKKIMKLNKNIIFIINKCDLIDKKHAEEIKKSIPNSVFISTKKHFGATILKKKIMHFASKKQSNDDVEIRNRSLIVAVVGYPNTGKSSVINMLAGKGKTKTSSYAGYTKGLQKVRISPKVMLFDSPGVISFENKDKIKQVILGSLNPANLEDIDLYAYELIKYLNEIIQIHYFDSFDKNLDDENLLIKISEKFNYKKKGNEFDINKASEKLILDWQKGKINMVVCDVLDKSEDF;locus_tag=LOCUS_05270;note=WP_064496836.1 GTP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:36.4%25%2C q_cov:96.7%25%2C s_cov:69.0%25%2C Eval:1.2e-36%2C partial hit],MGA_529
sequence1	MetaGeneAnnotator	CDS	509964	511025	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTVLVNISDIEKNNELMNLLDEATNVYNKNFNGKTWYGRCIFISWYCSVGDCTFCFRTTQKHKIKHPKFSRRSMGSILLEALFSKLFNWRIEFITGGYGIMSNVDLLEVVKNVSFVYGEKVWVNLGALTNEQIELFRPYMKGICASMETLHPELHKEVCPSKPIEPYDKMFSKITGFKKSIAVIVGLGDTFDDMKYLFDFVEKHDLDRVTIYALKPITGGAYKEGPTTEQYITWIAKLRIRFPKLEIIAGTNFRRCDEINWLMKAGANAITKFPATKQFASKKAYEITQLIKDEKREFTSNLTELKNQDMGEIDWNYEIDKLNIKQDYKDQMKEKLQNYLNTFKKNHLKVEN;locus_tag=LOCUS_05280;note=MGA_530
sequence1	MetaGeneAnnotator	CDS	511022	511519	.	-	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKRKIFTKKIEYSGLLDLKDLHKVIKDFFESKQYGYDDPEYEETAKEDSKSFKMKIEFEKDLSDYLKHIFKIKFEANEIKNVEVERAEHKVLMQDAKIKIEIEGIIETDYGDAWNFNKNWFFIKTVFNKIVMSKELEPDNELMIQVGNELLSRIKGFLNLYQY;locus_tag=LOCUS_05290;note=MGA_531
sequence1	MetaGeneAnnotator	CDS	511551	512009	.	-	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTIIFVGLFDIDEIIKYCQGFGPSHTFLSSPKSSIRKGKENKYEMSGFRKVNPYTKIEYTIKLFWQMQNPVDIKQGEKIKTICRGKLRITMEIDKETDYVDKFENTKKGNLDKKVFENSIEDQLSEMDERMDEMICEWRDNVKNILNTII;locus_tag=LOCUS_05300;note=MGA_532
sequence1	MetaGeneAnnotator	CDS	512042	512953	.	+	0	ID=MGA_533;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010943726.1;translation=MGYKYFYKYPFIVKFMVKKYIGGQALLGGVMMKGREFVAAVVENDKKYSYYIKRIKPLPNIFEIPFIRGFIHLIEMMIIGLKTLIWSGNQQLEEDEQESMSNSHIFFLILTSFIFAIGLFVILPLFLTKIFISDGSLLFNLIDGLIRVIIFILYIVIIGKMDDISEVYKYHGAEHKTVNCYEANKKLTVKNVKSFSTVHPRCGTTFIFIVLIISILLFSVIKSNDWFVQFAIRVLFIPLIAGISFEILRFTANHCNNFFIKIIMKPGLMLQSLTTKEPEDDKIKVAILAINKVIELEKKYKIN;locus_tag=LOCUS_05310;note=WP_010943726.1 membrane protein (Geobacter sulfurreducens PCA) [pid:37.8%25%2C q_cov:92.7%25%2C s_cov:91.8%25%2C Eval:1.6e-51],MGA_533
sequence1	MetaGeneAnnotator	CDS	512946	514736	.	-	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEANMEEKLSKIKKKLDKFSKKILDQFDKYIISIALLPPPNLDQEMKLDQNNAQEMKQKIDELKNKHNIVVVVDDSDSKEAESIELNKKINTIINKIGQEIDKDFSIQTILISELWQSCLEGRREFVDILAVSAVIYDKWLLNTLKVTNLHKYLVLQKFEKYIVSYVLSGSLVTGKANKKSDIDIWIIVDDTDVKRMPRYELKEKLSVIIHQMSFEAAEKTGVKTPINIQTYLLSDFWEGLRDANPIYFTLLRDGISLYDRGLFLPWKQLLKKGKIKPSKEAIEQLMHVGQGFLDRAENKLKEIAVEDFFWAIHSPSQAALMLMGLTPPAPSETVKLMEEIFVKKEKLLEKKYLDTLKNVLKIRKSIEHGEIKKVSGQEIQKLLNDSKEYLERIKLLYKEIENIKEKENITDLFDTTTSLTRDILKLSGIKKIKEEDILKTFEEELINTGQIKKNLFTKLKYIFENKNRTLTADIISKIKNNFSDLFKEFIDFIEKKKGKDLDQIKINVISKNKSGVINIFDQNIFILFLEDNKNQTVLKAKLNKNGGFDKTEKSNIEEYEKQVDSFQIKNKPKINKEFIESLEKLFGENTQIYFN;locus_tag=LOCUS_05320;note=MGA_534
sequence1	MetaGeneAnnotator	CDS	514936	515109	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRKKKSQLTGSAGVFFKRISPKKQKLAEPERDEIKVEIIVQEEKLWKKTPEWRPLI;locus_tag=LOCUS_05330;note=MGA_535
sequence1	MetaGeneAnnotator	CDS	515106	515402	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFKLFILVLVLALVVLLGAYFNINSIDFVREHENGFEYSNNFEIETIDIVENTDIENPCLCPERYDPVCGRDGITYPNICFAECKNIPIVRQEICN;locus_tag=LOCUS_05340;note=MGA_536
sequence1	MetaGeneAnnotator	CDS	515399	515890	.	-	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQTKITTIKNDSEIEEFEQANNHTITSMEFETFSFIRYCLPEFLKTENDYLPIVVNLLTKRNLDGMLPLKLKNYLDVNGYCDGAFGFLYSPEINLFIDEIKKIKNKNKKLKNFISKKYDEPRLIKKFHKLIDEQKILNKLINNMSKTQNGDIMICSLNKINN;locus_tag=LOCUS_05350;note=MGA_537
sequence1	MetaGeneAnnotator	CDS	515887	516258	.	-	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKITKHLIFIFLGLILLTLIMYNLNKPESASQELISFAKCLTENNVIMYGTEWCPHCKRQKEMFKSAIEHITFIDCDKSRDLCARAEVSSYPQWVKDNDLSSKLLGTQSLTNLAEFSGCTFR;locus_tag=LOCUS_05360;note=WP_011124275.1 thioredoxin (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:32.6%25%2C q_cov:72.4%25%2C s_cov:30.4%25%2C Eval:8.9e-10%2C partial hit],MGA_538
sequence1	MetaGeneAnnotator	CDS	516293	517300	.	-	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870925.1;translation=MEFDKLQIIRPLQEIFDLALKKIKKNRSIIKKKIDKLGYISKLKKLNDYKIKTINGDFKKYLKNIVESFPNIDQLHLFYRELIILELDYNKLKKSLGAVKWSFETIEKITFEKLMQLGRKKNREELNLIFKSYLGRINSIIKQTKKEFEYIEKCRFHMKKFPAVKTKLFTICISGFPNVGKSTLLYKITKSKPEIKNYAFTTKKINAGIIDSIYGKIQFVDTPGTLIRPNKANKIEIHANLALEYLANQVLFIFDLTESSYSIEDQFKLLEKNEEYSKNITAYTSKQDLIENQTIEDFKKLYKSKKIKYKLITEFEDLKKFIQSNLKKWVLDNQN;locus_tag=LOCUS_05370;note=WP_010870925.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:34.2%25%2C q_cov:88.1%25%2C s_cov:83.1%25%2C Eval:3.9e-41],MGA_539
sequence1	MetaGeneAnnotator	CDS	517338	517730	.	-	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTINFNSNEITNIIDIIFQLETQRKVVKVLIEYLKNKKYVSKKEISHFADLLNTGKLNLLGNEYYEIKNKIKFNIKELKYNRKQFYSRILKVMINMGLVNLGLYDKKYRLSIEFIDNMNKICDLWKKELE;locus_tag=LOCUS_05380;note=MGA_540
sequence1	MetaGeneAnnotator	CDS	517767	518642	.	-	0	ID=MGA_541;product=phosphoribosylpyrophosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946758.1;translation=MIITSLKNSSKTANLIAKKLKCKYIETEIKTFPDGDIYLRYKSEIKNKKLIIVESFQPNSNEALYNIVFAGKTAKDLGAKQIILVAPYLAFMRQDKRFNSGEAINAKIMSELINNSVDKIITVDPHLHRIRKMSDIFKIKSKRLTANQAIGNFIEKNFKNEVIMGPDWESYQWADEIAKIAKTQSTCLEKTRHSYRDVDVKLVKEIPIKGKNVIIVDDIISTGNTMIKAAIKAKKLGAKSVSCVGIHGLFVENALKKMKKHFNNIFTVNTIEHNTNKIDITDTLIKEIKKK;locus_tag=LOCUS_05390;EC_number=2.7.6.1;note=WP_010946758.1 phosphoribosylpyrophosphate synthetase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:34.5%25%2C q_cov:97.6%25%2C s_cov:93.7%25%2C Eval:9.2e-49],MGA_541
sequence1	MetaGeneAnnotator	CDS	518720	519139	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNLIKSKSEEYYSLGNFEKPYDDDFYKKINNKHAILIAKYTMEKIPFEVGSLTTETLNFFTKSEDLTDVLYHHLMFSVDFTKKVDLNRPVNRFLRYNRYYLDKNPGEVDDFELVQFEPCILDKIKFLPDYIRDVVGL;locus_tag=LOCUS_05400;note=MGA_542
sequence1	MetaGeneAnnotator	CDS	519166	520725	.	-	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDNSEKHKETHENKVHHEHHHKHDHSNENHETKKDLKKDVLTWQIVSAVLLIALLFVTFNPINPASIENTNNNNNNQAVFEGKIKIIEYSDFECPYCASFAPTAKRIREELGDQVEFEYKHFPLDIHPNARSAALASECAREQNKFWEYHDALFENQRSLGSELYIELASNFELNMEDFNSCIETEKYSNKVDADFSEAQLVGVSGTPSFTINGQLSVGNLPYEEMLQKINAAKGQEVVEPKQITDDPQLSMKLLTIENCYVCDTEQIETALLELFPTLEIERVDSQTSQQLLNELGIETVPAMLFDQNLVDTSNYQKLSQVFDQNGEYYVFALDRVGAPLQILNEIDISEYPVLGDENAPITILEFSDFECPFCSKAYNEVVKDIKTNLIETGKAKLAFGDFPLVQIHPNAFKASEAAQCARDQNKFWEFHDVLFETKRLSINDLKQHAVDLGLDTELFNTCLSSSEKAKYVNDGMTNGAKLGVSGTPAFFVNGVLISGAVPYEVFENLITEMGLN;locus_tag=LOCUS_05410;note=WP_000651714.1 oxidoreductase (Leptospira interrogans serovar Lai str. 56601) [pid:38.1%25%2C q_cov:39.9%25%2C s_cov:58.6%25%2C Eval:6.5e-31%2C partial hit],MGA_543
sequence1	Aragorn:1.2.38	tRNA	520937	521021	.	-	.	ID=Aragorn_12;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	521039	521113	.	-	.	ID=Aragorn_13;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	MetaGeneAnnotator	CDS	521175	521483	.	-	0	ID=MGA_544;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249262.1;translation=MQQKARIKLTCTEIAKINQTCSYILEIAEKTGVSMKGPIPLPTRKIKVTTRKCTAGRGKASFDNFEMRVHKRLIDIGLEERALRMIMRVPIPEGLNIEIEMI;locus_tag=LOCUS_05420;note=WP_011249262.1 30S ribosomal protein S10 (Thermococcus kodakarensis KOD1) [pid:59.0%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:6.7e-29],MGA_544
sequence1	MetaGeneAnnotator	CDS	521625	522425	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEETGLPLADFDKPTLESIAKIENSQNQFNKKRSDLIQHLSEQFQSLYFSSTYNWKALKKDTIFFAVEEESRLDGLKNFGAEEILGEAKYKFIKDNMYRLKGENRNVSPITIPAYGYFIGLVKQNDLFDEGVKYSNLNLTKSHAALIFMGEGIRVFPIVSARSILTLEKNPDFTTFIKKDTRDDFYYKSSTPDSWPPSSDVFSWDKQFTSDASYIRHSKLVFNDLIKRVVGGNDRVFPNPELVMAHNKRFSIRLEKLECYFKEYLS;locus_tag=LOCUS_05430;note=MGA_545
sequence1	MetaGeneAnnotator	CDS	522495	523787	.	-	0	ID=MGA_546;product=elongation factor 1-alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869821.1;translation=MAKELEHINVVFIGHVDHGKSTSVGRLVFDAGAFDAQKMEKLKKLAQEKGKAGFEFAYVMDNLKEEQERGVTIDLSHMEFKTDKFRYTIIDAPGHKDFIKNMITGASQADAAVLVVAANDGINAQTKEHAFLAKVQGIDQVVVLVNKMDLQQYSQDRFNAVKDEVTKLLKGSGFRDEQIKGFIPTVSLQGQNIVNKSENMSWYDGKTLLQTLDSFDVPEKPVDLPLRIPVQDAYNITGIGCVPVGKIETGILKVGQKVTAVPGREGKGVHGEIKSIEMHHQNMPQAVPGDNVGISIRGFNKRDVARGDVLGDASNVPTIAEEFTAMITVINHPSVLTVGYTPVCHIHTSQVACQFLEIQAKLDPASGQVVEEKPDMLRNGDTAIVRLKPTTPTVIETKDTVPQLSKFAIRDSGATVAAGVCLKIDKKVEL;locus_tag=LOCUS_05440;EC_number=3.6.5.3;note=WP_010869821.1 elongation factor 1-alpha (Methanocaldococcus jannaschii DSM 2661) [pid:59.2%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:3.0e-148],MGA_546
sequence1	MetaGeneAnnotator	CDS	523875	526031	.	-	0	ID=MGA_547;product=elongation factor EF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060960.1;translation=MAEKMVDKVTRIMKDPDNIRNIAICAHIDHGKTTLSDNLLSGAGMMSEHLAGQARALDFKEDEAERGITIDSASVSMVHEIEGKEHLINLIDTPGHVDFGGDVTRAMRAVDGAVVLSCAVEGIMPQTETVLRQALKERVKPILFINKVDRLIQELQLKPEDLLPRLAKIIDLVNKLIISIAGEEYGNKWQLDATKGSVCFGSAFHNWALSIPYMTKKGITFKDIYEAYTQDTRKELAKKIPLHDCLLGAVIEHLPSPNASSKYRIDKLWTGDLDSEMGKELVNCDPNGKPVFVITKVVVDKQAGEISTGRVFAGTIKKGEQVRLQLAQQDCRVQQVFIYNGAKREIVDNVPAGNIIGISGLKGVPGDTMAIGEVSPFEELKHIFDPVVTKSIEAANPGDLKKLLEVLRAVGKEDPSIKIEINEETGEHLMSGMGELHLEIIENRIISEKGVKIKMGAPVVVYRESILNSTPNAAEGKSPNKHNRLYFNVEPMSDELKEAFKEGNIHSGRIKKKDQKVLDSLKAAGFDNDTAKKVRDIFNNCIFVDGTRGEVHLNEIIEMVLDMFEDVMKAGAIAKEPCTYMIITLTETKLHEDAIHRGPGQLYPAVREGIRTAILDARPVLLEPIQKIQFEAPSDYMGEISRLISNKRGQLLNMETEESTLTALADMPVSELIIGFSSDLRSATGGRGSSFVLDQRFEMLPFELQDATVAKIKQRKGL;locus_tag=LOCUS_05450;note=WP_048060960.1 elongation factor EF-2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:54.7%25%2C q_cov:99.6%25%2C s_cov:97.7%25%2C Eval:2.1e-219],MGA_547
sequence1	MetaGeneAnnotator	CDS	526041	526529	.	-	0	ID=MGA_548;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O51419;translation=MIQNTLILIKPDGVQRSLSGEIIKRLERTGLKIIGMKMVWVQKEHAENHYNDIGEKHGQRVLDGLTKYLSEGPVIAVCLKGVDSINVVRKLIGSTYPNESTPGTIRGDFCHISKHYANTNERIVANLIHASADENDAKRELTLWFDKNELHDYQTVYEKYVI;locus_tag=LOCUS_05460;gene=ndk;EC_number=2.7.4.6;note=O51419 nucleoside diphosphate kinase (Borrelia burgdorferi B31) [pid:45.5%25%2C q_cov:95.1%25%2C s_cov:93.4%25%2C Eval:9.5e-35],MGA_548
sequence1	MetaGeneAnnotator	CDS	526539	526742	.	-	0	ID=MGA_549;product=50S ribosomal protein L24e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878269.1;translation=MDKCNFCGKEIEPGTGVQFIKKDSKIFNFCSRRCEKNMLELKRKPRRTKWTEEYKKEKAVRVAAMKK;locus_tag=LOCUS_05470;note=WP_010878269.1 50S ribosomal protein L24e (Archaeoglobus fulgidus DSM 4304) [pid:58.5%25%2C q_cov:79.1%25%2C s_cov:91.4%25%2C Eval:2.9e-16],MGA_549
sequence1	MetaGeneAnnotator	CDS	526744	526986	.	-	0	ID=MGA_550;product=30S ribosomal protein S28e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762341.1;translation=MAKPEQKRSSGVEFSHAVPAVVREVVGRTGSKGEAIQVRCEVLEGRDQKKVLRRNVRGPIRIGDIIMLRETEIEARKLNK;locus_tag=LOCUS_05480;note=WP_011762341.1 30S ribosomal protein S28e (Pyrobaculum islandicum DSM 4184) [pid:54.8%25%2C q_cov:87.5%25%2C s_cov:94.8%25%2C Eval:3.8e-16],MGA_550
sequence1	MetaGeneAnnotator	CDS	526996	527337	.	-	0	ID=MGA_551;product=50S ribosomal protein L7ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061194.1;translation=MEVPKELLDKVYEAIELARATGKIKKGCNEVTKTIETGKAQLVIASSDANPKEIILHLPVLSKEKNVIYLEVSSKTELGAAAGIDVGTIAVSIVEAGEAKNIIEEIKTSLSQM;locus_tag=LOCUS_05490;note=WP_048061194.1 50S ribosomal protein L7ae (Methanothermobacter thermautotrophicus str. Delta H) [pid:52.7%25%2C q_cov:99.1%25%2C s_cov:91.1%25%2C Eval:3.0e-29],MGA_551
sequence1	MetaGeneAnnotator	CDS	527547	528410	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKRSLMDYPIGYKDYDKLGRESYKFSDSISLEHLSEFDLNAWNAGDWQTPMFKDMELSENLLFLTQVFYGDLTSKSYLISLDRPVSFHSEFRTTYPFKIEEDKLKFKIPVISKFQLLDTDLTSRPATSEHDMMDYENFTKSRIHSSILDGAYGVIFAPLSFGKDKDTKSGYHTKREILPFLFDDVISGSHVSSDVRNAFNYMASLDLIGRILGEETMVDNTIPNSPLISRVHHSLDRETKELFLAAKCSYNDFKENKPFEQTSGLINGLGYDNLREYLTIIGRPE;locus_tag=LOCUS_05500;note=MGA_552
sequence1	MetaGeneAnnotator	CDS	528460	530151	.	+	0	ID=MGA_553;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867608.1;translation=MKEKIKFQILSNYIRNNGKIVDKAVMGVLLKENPDLKKDIKNLMSEIKEEIKIIESLSEKEILNLVKKEKIEISKKEKSNEKELIKVPGLIKGKVKTRMAPEPSKVNHIGHALSFLINYKYAKDYDGISVLRFEDTNPDNATSEFVESMKDDLLNYIGLKPDEIIIVSDHMEKYYEMAKQLIEKGHAYMDFSKQEELKKQREKLLPSIFRDKSVKENLSDWNTFISGKFNEGECILRLKIKPDHKNEVMRDPVLFRMMKKTHWKHSNKYCVWPLYDFENAIEDGLMGITHVFRSNEFGNKRIELQDHIRSLFNLKNPLVIQYGRFNIKGGVSKGREIKEMIDSGDYSGWDDPRLITLKALKRRGIQKEVYEKLLIEIGLSPTQTNIDFRTLSSINRQILDPISPKYFYVDNSIEIEIKNAPNLEIKFDTFPKKNDKSRIVNTKNKFLIAKNDLDNFKDGDVVRLIDTLNFKIVNIKKKIFEFHSIDFVSFQKEKNKSNKIHFVVKTESIKVKIINEDNTQTEGYLENSASKLKEGDIIQAERFGFIKLEKKNKTFYQFIFCHK;locus_tag=LOCUS_05510;EC_number=6.1.1.17;note=WP_010867608.1 glutamate--tRNA ligase (Pyrococcus abyssi GE5) [pid:35.2%25%2C q_cov:98.4%25%2C s_cov:98.1%25%2C Eval:8.0e-91],MGA_553
sequence1	MetaGeneAnnotator	CDS	530256	530726	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQNNLPIISHGFLKQYRFLYYNDCDRPVFDYINSSSIFLKKGAKVKLSAGLIDKFNLDFESIKVGVHFLPKWKENLVEPIESSIVNSQIDFYLKTIKPSGDKIYLGSINGPSYNGFENYQKHFIDFAKSCLKNKELLDHLIEQYKFKQELDKPFN;locus_tag=LOCUS_05520;note=MGA_554
sequence1	MetaGeneAnnotator	CDS	530833	531486	.	+	0	ID=MGA_555;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147206.1;translation=MNPEKLLNVIKQAREGAKKRNFTQSFDLIVHLKELDLKKPEQQIEFFLKLPNSKGRTNKVCAFVGPELLDEAKKCCDGVYREMDFASYVKDKKGAKKISMQYDVFIAQANLMGKVAAAFGRILGPRGKMPSPKSGAVIPPKGNVKAVVENMKNTIKFSAKQRLTSHVPIGSESMKDEQVKENIENFYKTLVNVLPGRENNVKLITLKLTMGKSIQIE;locus_tag=LOCUS_05530;note=WP_048147206.1 50S ribosomal protein L1 (Pyrococcus abyssi GE5) [pid:33.0%25%2C q_cov:98.6%25%2C s_cov:97.2%25%2C Eval:2.7e-35],MGA_555
sequence1	MetaGeneAnnotator	CDS	531489	532337	.	+	0	ID=MGA_556;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877288.1;translation=MVTEQKSQVVNKLKDLTEKYSIVASLDLFGLPAKQLQNMREELRCNCEILMTKHRLMTIALNESSKKGIGKLSESFRGMPALIFTNDNPFKLFKKLEKSKSPIAAKAGQVAPKDIIVPAGSTNFSPGPIIGELKSAGIDAGIINGKIEIKSDSTVLKKGETFTESLSSLLARLDIKPMEVGLNLVSAYENGLVFDADVLKIDETAFAAKLASAISGGFNLSVEVVYFNKQNINLILNNAISQSRNLAINECLVNSQIIEDILARATANANGLKSELQTNGFA;locus_tag=LOCUS_05540;note=WP_010877288.1 50S ribosomal protein L10 (Methanothermobacter thermautotrophicus str. Delta H) [pid:43.7%25%2C q_cov:94.3%25%2C s_cov:79.8%25%2C Eval:2.8e-55],MGA_556
sequence1	MetaGeneAnnotator	CDS	532370	532672	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYVYAALLLHKSGKTVDEASVKKVLEAAGVSVDESRVKALIASLEGVNIDEAMEKSVAAPVAAAPTTNATAAPEAKQEAKKEEKKEPASAAAGLGALFG;locus_tag=LOCUS_05550;note=WP_010878989.1 50S ribosomal protein P1 (Archaeoglobus fulgidus DSM 4304) [pid:73.7%25%2C q_cov:57.0%25%2C s_cov:53.8%25%2C Eval:4.5e-17%2C partial hit],MGA_557
sequence1	MetaGeneAnnotator	CDS	532715	533614	.	+	0	ID=MGA_558;product=phosphoserine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010902245.1;translation=MVEEQKRRILTDLKDVRESLNVIRDDLNSLNEQKESAFKEKSEIRKEIIKLITEVKKYKDERDQCTSKVKALKKQRDEVNITIKNLIEKHQKVLKDNPDLAKKADFKPSKKINAVKIKKTIEELEFKLETSVMSFEKEKLMTKEIKDLRNELKNDTSSDDSVSEKEIFNLSREISKNKKIAKDLHKNVTELATKSQENHDIIINISKKIDDFKEREQKILDNFNDFKKKYSSKRKEKSGFEKKIKEIRENLDGEKEENKQVSEENKKEIIKEKVGEVENKLKTGKKLSTEDLLAFQMGK;locus_tag=LOCUS_05560;note=WP_010902245.1 phosphoserine phosphatase (Halobacterium salinarum NRC-1) [pid:25.6%25%2C q_cov:91.3%25%2C s_cov:86.0%25%2C Eval:1.7e-21],MGA_558
sequence1	MetaGeneAnnotator	CDS	533652	533864	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKGGKKDDGKKQVKNKVPSNKYKAYKVTGDTLERIQKTCPKCGPGVFMAAHKNRNYCGKCEFTEFKN;locus_tag=LOCUS_05570;note=WP_010869892.1 30S ribosomal protein S27 (Methanocaldococcus jannaschii DSM 2661) [pid:63.0%25%2C q_cov:65.7%25%2C s_cov:76.7%25%2C Eval:1.2e-12%2C partial hit],MGA_559
sequence1	MetaGeneAnnotator	CDS	533865	534239	.	-	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKVNNTIEQKLLNRKLINGIINYDGATPSKTDIKTKIASQLKAKTEDIVVDNVKVVFGTNSAKFEARIYDDEDSLKKIELKYIFKKNNAEKKEENKTETKEVKEEVAQVKKEEPVEEKKEEN;locus_tag=LOCUS_05580;note=MGA_560
sequence1	MetaGeneAnnotator	CDS	534241	534429	.	-	0	ID=MGA_561;product=DNA-directed RNA polymerase subunit E'';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878612.1;translation=MKKLACKNCNYLYSGTDPCPNCKSQNPTDDWKGKVIIVNSEKSDISKYLKKTKNGEFSIKVR;locus_tag=LOCUS_05590;note=WP_010878612.1 DNA-directed RNA polymerase subunit E'' (Archaeoglobus fulgidus DSM 4304) [pid:42.6%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.0e-08],MGA_561
sequence1	MetaGeneAnnotator	CDS	534426	534962	.	-	0	ID=MGA_562;product=DNA-directed RNA polymerase subunit E';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869896.1;translation=MFYKFTIKDHIRVSPEQFEMDKKTALLQKIKEKFDGMISKDMGFIIDCTKLIDVGQGRIITGDGAIYHPCTFELVSYLPENNELLHCQVREITDFGAFLNLGPIDGMVHLTQTMDDFVSFSKDKVLQGKESKNVLKIADKCRAKIIAVSYKDLSHPKIGLTMRQKNLGNVEWKEKVKK;locus_tag=LOCUS_05600;note=WP_010869896.1 DNA-directed RNA polymerase subunit E' (Methanocaldococcus jannaschii DSM 2661) [pid:42.1%25%2C q_cov:100.0%25%2C s_cov:97.9%25%2C Eval:1.8e-38],MGA_562
sequence1	MetaGeneAnnotator	CDS	534965	535372	.	-	0	ID=MGA_563;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023598.1;translation=MIEIIIDTNFWTIPFVFRVDILEQIDQIMHEPYNINVLEDSLKELNQLKNKGSGKDSNAAKMALSWIDDLIKRKALKILKVPSNLLVDDQIIKIASTENVYVATQDKELSNKLKKIGTKLIKLRQKNRLEIINKE;locus_tag=LOCUS_05610;note=WP_011023598.1 DNA-binding protein (Methanosarcina acetivorans C2A) [pid:30.5%25%2C q_cov:97.0%25%2C s_cov:100.0%25%2C Eval:4.5e-09],MGA_563
sequence1	MetaGeneAnnotator	CDS	535433	536461	.	+	0	ID=MGA_564;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869888.1;translation=MDLQNKFNLIVRNLGEIVGEDKIKDILKKRNLKVYWGTAPTGKPHIAYFLPIVKIADLLKSDCEVIILFANIHAYLDNMKSSWDILDYRTQYYEIIIKEMLKSIGVNIKKLKFVMGSDFQLKKEYTLDVYKLSAISNLNDCTRAGAEVVKQVKSPKLSGLLYPILQSLDEIYLGVDAQFGGIDQRKIFMYAREFLPKIKHSSQIHLMNPMIAGLTGNKMSSSDNNSKIDILDSPDLIKKKFNKANCVEGDKNNNAILDLTKYIIFPLLDYKLTSFKIERPEKFGGNLEFNCYEDLECSFVSKELHPSDLKQAVSNFFIELTNPIRDCFNNSKNKLILKKAYE;locus_tag=LOCUS_05620;EC_number=6.1.1.1;note=WP_010869888.1 tyrosine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:40.8%25%2C q_cov:93.9%25%2C s_cov:98.7%25%2C Eval:8.5e-60],MGA_564
sequence1	MetaGeneAnnotator	CDS	536454	536762	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250146.1;translation=MNKMVDNLISDEKLNRYFFLTKSALDKLKLAVPKKTHLHNAAKDCLDMATRYFNDAEHFRKEGKYVESFAALNYSHGWLDCSARLGLFDVEYDDFLFTVDKD;locus_tag=LOCUS_05630;note=WP_011250146.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:50.6%25%2C q_cov:87.3%25%2C s_cov:92.6%25%2C Eval:6.3e-19],MGA_565
sequence1	MetaGeneAnnotator	CDS	536801	537436	.	+	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNKNLIDYIKKIKLKGYSDIQIRSFLLKYGYKLKVINEALNDKSTNPAIPNIVNETNTNHSSKYINGNTIKSNNINTKANINSKTNLPILIKMSGIFNYILGITILVFGSFFYNLIFDLSGILKYLFISFSIIISILFFVSGYYILKLKTNSKIISSIPNFILILFCIIMIYKETYGTNLFGMLYYFIILIFPLLIVYVLFDKKFTKYFT;locus_tag=LOCUS_05640;note=MGA_566
sequence1	MetaGeneAnnotator	CDS	537467	538720	.	+	0	ID=MGA_567;product=tRNA CCA-pyrophosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870623.1;translation=MNLINKYKTKKSDIDFVNNLLINLNNNLKNQNIDADAFLGGSFAKKTYLEIKDFDIFIRFNSKKYKTENISIILINFVKNYYKNYTILHGSRDYIQLIINKKLVELVPILKVNSYKDAKNITDMSPLHVKYVNDNLKNIDEVKLLKLFLKCNKLYGAESYIGGFSGYICELLIIKYKTFANLIKNVALWDEKTIIDIMNYYKNNLKLMQNKLTQSKFNSPLIFIDPVQDIRNASNALSKENYNKFIFLCNNYLNSKTKKEFFILNEFKFSNIEKLAKKSKTHLFYFKYLAKKGLEDVIGGKVKKAYNNIKKIIVNNDFTIFESGFNFNKNWSEKNNKELGYIYFLLNETELPLLKKHFGPKLFVKEAVESFKKKYNTVNIENDLIFVYKKRIITNLKQLKKTILIDKIIKNNFKKLI;locus_tag=LOCUS_05650;EC_number=2.7.7.21;note=WP_010870623.1 tRNA CCA-pyrophosphorylase (Methanocaldococcus jannaschii DSM 2661) [pid:30.8%25%2C q_cov:93.3%25%2C s_cov:86.2%25%2C Eval:9.2e-38],MGA_567
sequence1	MetaGeneAnnotator	CDS	538772	539275	.	+	0	ID=MGA_568;product=ligand-binding protein SH3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249640.1;translation=MFDLWIQLVILALISMLPFGEGRLAIILGVLSTNIDIFGYEIGGFGLSPIFVFFYTLFFNIIGIIIGYFFFKYIIDYFLHIKWIEKLHDYYVEKKLKKVKPYIDKFGFMGLMLFVGIPLPGSGVWTSALIANVLEVDFKKYFYPCFLGIIVALFITVILTVKTLSFF;locus_tag=LOCUS_05660;note=WP_011249640.1 ligand-binding protein SH3 (Thermococcus kodakarensis KOD1) [pid:32.5%25%2C q_cov:86.8%25%2C s_cov:89.5%25%2C Eval:9.9e-14],MGA_568
sequence1	MetaGeneAnnotator	CDS	539434	539847	.	+	0	ID=MGA_569;product=30S ribosomal protein S19e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867943.1;translation=MATFHEIDGTTLNYRVGEKLKELLKMPEWAHYVKTGHHNETFPEQVDWWYVRGAAILRMVALRGPLGVSRLRKKFGNKKNRGHKPEKKFISGGKIIRTLLQQLTSTGYIVNAEKGSRKGKILTPKGESFLNSVAKEL;locus_tag=LOCUS_05670;note=WP_010867943.1 30S ribosomal protein S19e (Pyrococcus abyssi GE5) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:90.7%25%2C Eval:4.2e-36],MGA_569
sequence1	MetaGeneAnnotator	CDS	539856	540038	.	+	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRVKSSSKKKRLAKANRLTNWAPVWTILKVFGAGQAKKTHPSQLTDRKRNWRRGRKLKV;locus_tag=LOCUS_05680;note=MGA_570
sequence1	MetaGeneAnnotator	CDS	540047	540583	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIKRSYNIPLRREFLKVPKYRRANKSISAIKKFLIKHMKCPNISIGEKLNSKIWQHGIKNPPHHVLVDVLKTVDDKVYCELQGFEIKVYKKKEPEKAKTLKDKIEEKFEGKSKKKVIVKKSKDAEETKTKKVVKKIVKAEEEKLSDEVKEPVLEKKSELESKPEDINSNKEDKKAE;locus_tag=LOCUS_05690;note=WP_010877220.1 50S ribosomal protein L31e (Methanothermobacter thermautotrophicus str. Delta H) [pid:34.6%25%2C q_cov:45.5%25%2C s_cov:98.8%25%2C Eval:4.2e-08%2C partial hit],MGA_571
sequence1	MetaGeneAnnotator	CDS	540605	541018	.	+	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKNIDLKHKYMQLEEIENQIKSFNEKINSIQDDLLRLNDVKENLISLKEQKNDQNSLISVLEGIYIKANIIDFSNLYINIGSDIIAKKSYTEVFELIELQRKTLNQTTESLKNSILELDSQALKLEKELESEVKE;locus_tag=LOCUS_05700;note=MGA_572
sequence1	MetaGeneAnnotator	CDS	541053	543233	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGFFKDKLKDIVTKFSKTVEEEVVEDDFNSEEYYEKELKVKDEEKQSEDKKKPIETKKEIKQEIKQDTKKEEIKQEIKQDTKKEEIKQEIKQDTKKEEIKQDTKKEEIKQEIKQDTKKEEIKQEIKKEEKIEVKNKEIKTKKPEFVEKPKVEDKSKEDSDQENKQKIKDKIKQEFRDQIYKKYNILSGDKKNNSKDNEDIIEIKDTDLGDNKSDIIETKKEHEIKTLNIDIDENLKDEISNEAKEELKQEIKGDDALNEKIDNFDENLFDSVDEGKHISYDENKSFFDKIKEKLFTSKKENILETNSVEKEKEILENNLLKEKEQSESKKLEIEHEFEELEQKIEKQPEIQEETQEVKEEIKEIIEEKKIEDKQQIHDEIKPELKEEKLEVKENIQKEIKEEKVEPIIEEKIETVIKQKVEHVQVKKEEPGFFNKIKDVFVKKTLSDDKFEELFFSLELALLENNVALSVIDKIKLDLKTRLVDKKLNRFQIDKTISISLKESISDLFNIPTINIMEEIKNKKNETGEPYIISFVGINGVGKTTNLAKLANYFKKNGFSVIMVAGDTFRVAAIEQIEEHANNLDIKLIKHDYGSDPAAVCFDAIKHAKSKNIDVVLIDTAGRSNANINLMNELKKVIRISKSDLKIFVGDSLSGNDAVEQAENFNESVGIDGVILAKSDADEKGGTAISIGWVLKKPILFLGTGQSYDDLKEFSSNLILDNLGLN;locus_tag=LOCUS_05710;note=WP_011249604.1 signal recognition particle-docking protein FtsY (Thermococcus kodakarensis KOD1) [pid:47.7%25%2C q_cov:41.6%25%2C s_cov:86.8%25%2C Eval:3.5e-73%2C partial hit],MGA_573
sequence1	MetaGeneAnnotator	CDS	543230	544591	.	-	0	ID=MGA_574;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250437.1;translation=MVLDKLTVSLKSTLNKITGGIFIDKNVINEIVKDIQRALLSSDVNVKLVLEISKKIKERALNEKSPTGITKKEFLIKIIYEELVQFLGGDSEQIKIEKKPFIFMLVGLFGNGKTTSAIKLSKFYKKRGKKVCCISTDTWRPAAFTQLKQGCSQLDVPVFGNPELKDPVQIFNQFKDKLYEYDIVIVDTAGRDALSDELIQELNNISSQIHSDYNLLVIGADQGQNAQKQAQTFHDTCGVNGVLITKLDGTAKGGGALSACATTGANVKFIGIGEKPDDLEIFEPKRFVSRLLGMGDIEGLLEKVQDAFKETDVEDMGKKLLKGEFNLLDLFEQMSSLKKMGSVSKIMDLIPGMSNVNIPKEALDMGEKNMDKWKFALDSMTKAELEDPSTITQERIERISKGSGRNNGEVKELLQQFKKSKKMIRLMKGGQGTGKMAGLANKMKGMMGGKLPF;locus_tag=LOCUS_05720;note=WP_011250437.1 signal recognition particle protein (Thermococcus kodakarensis KOD1) [pid:46.6%25%2C q_cov:97.6%25%2C s_cov:98.2%25%2C Eval:1.2e-110],MGA_574
sequence1	MetaGeneAnnotator	CDS	544656	544997	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAARKTAKRTTKRKAAPKRKVAKRSTRSVKRKAPARKAAAKRKAPARKAAKRKAPARKAAKRKAPARKAAAKRKAPARKAAKRKAPARKAAAKRKAPARKAAKRKAPAKRKRR;locus_tag=LOCUS_05730;note=MGA_575
sequence1	MetaGeneAnnotator	CDS	545160	545795	.	-	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFKKASKSVLNWKKKKWFEVNAPDFFNNKELGKTITSDNELLIGRKLSSNLMMLTRDPKKQNIIIDFEIVKTTGQKCDTRVCRYEIMSNSMRKYVRREKTKIDDSFLVESKDNIKVRIKPLIVTQYLASKAIQCELRKSVKQWIEKKINESTYNETIKNIILGKFQKEMKDSIKKITSVKTSEIRIIKIEEGKKQFKFEENLDKTKVEA;locus_tag=LOCUS_05740;note=MGA_576
sequence1	MetaGeneAnnotator	CDS	545870	547207	.	-	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDHLELEIDEHKYDLRLKDPSIFLPHNSIQEFLISDFKNKKAIILSRIDTQIKNLNIGIKILKNSNKIIKIWLDNSIYMSSNVDFFDELKNKIKFSKNELIKVDKLKKTVEKYLKFLKTLYNQSIDNYGIGKSRFSKILKKSKYINQNINELLKLGQNELKKYKSEMKKIANKNNCTIEQFFKKIDKKIIKKDKLIEITKKITLDSKKFIIKNKLFEINHKEKLIVMKTPKQLEKQFPAAAYVPPRMDDKKQIGRYFITTPRTKEELAHMNLHELKLTSVHEAFPGHHLQMSTIHNTKFKNNILRQFLASITFVEGWGLYCEKLMVDTGFSKTDYDKFLMYKMRALRACRIIIDINTNCNNWTYKKAWKFLKKHTMIPESRAKGECFWYSQRPTYPMSYLIGAHIIEKARDENVLKNKMDYITFHKKILSYGNLPAQIIANYL;locus_tag=LOCUS_05750;note=WP_013224838.1 hypothetical protein (Amycolatopsis mediterranei U32) [pid:31.2%25%2C q_cov:49.4%25%2C s_cov:9.8%25%2C Eval:1.3e-21%2C partial hit],MGA_577
sequence1	MetaGeneAnnotator	CDS	547471	549036	.	-	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPTHKIAINTIKKQKQGIVFNSSKSSSEKCAEDISKLIYFDGEKQVKPELKNEPFSLNEKKVFEYLSQQITKDLSQPTKQCIRLAKCIKKGIAFHHSGLTSKQRKLVEDNFRNGNIKIISATTSLAAGLDMPAFRVILRSLKRFTGREYDWIPVLEYLQMSGRAGRPGKEDYGESIAISNNEKEYEDIYNKFLIGKPESIYSKLAVEPTLRMYILSLLSTQIVKNYKDLIDFFSKTFWAFQFGDMDRLKFTIDKILNYLNDWKFIEFEKDEFSSANKSNSFFDNINITKLGIRVSQLYIDPLTANELIENINKINSEKEILPITLLNIISNTIEMRPLLRVKNSEFEKIMTIFESNKENIIMDVPDIYDPEYKEYLNSFKTSLCLEEWINEAGENKILLNYNSTPGDLRVKIEKSMWLLYCISEISKIVNNMKIIKDINKLSMRIKYGVKEELLPLLKLKYIGRVRARVMHNNGIKNVLDIKKTDFNILSKLIGSAIAKNIREQIGIKENNISHTINDF;locus_tag=LOCUS_05760;note=WP_010868004.1 ATP-dependent DNA helicase (Pyrococcus abyssi GE5) [pid:33.3%25%2C q_cov:96.4%25%2C s_cov:65.5%25%2C Eval:6.4e-71%2C partial hit],MGA_578
sequence1	MetaGeneAnnotator	CDS	549110	550057	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKIKTNDGSYTLYNSKFDENYHSISGAVQESYHKFIFPCKILFSKQKISILDIGFGLGLNCFCTLFYISKISTEKKKVIFYSFENDIDLFNNLNEELYLNNDKNDNFDLSFIEFFLSKLKNKLNDINIKNNINDDENSFYIEYSYQNIDVKHYFFIGDVRKFNFENLNYDICYHDPFSFHNNLELWTYDFLKKIIKNLNFFFLTYSFSLPFLNSVNNLKLDLFEIDPIGRKTPSILAIKKSNFLNCFKFNLSVYKPLNDIYYKYLKSKSAICYFDKKFDLNNDQIKENRVELVSNSNLESLSKIKKTCKLSPK;locus_tag=LOCUS_05770;note=WP_064496577.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:28.1%25%2C q_cov:91.1%25%2C s_cov:71.1%25%2C Eval:1.2e-17%2C partial hit],MGA_579
sequence1	MetaGeneAnnotator	CDS	550098	551039	.	+	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLKKLQKDNENLKVLEDNDLINDKELFKINDFEEKDSNQNNNSSNNNQSNDEFIDYNSNLNDNSFNGVNNTNNDANSVIADINNNLNNDLGVDENNLHNENKIEINELNNQNNQISQNNQMNHNTQMNHNDINANSENINSNDNVNNNDNNKNNVNINTTNDRIVNMLGSEFNPAFEPNTGQKSNSDINLKNVNLNETPTANIQPNVNSNLRTGINNTDLDELKSNLQKMHKFIMDFQKLKNVEIKTLYSKFEQVLVRLDVIEDKLKGVNNKQSVSNATNNSNVNAKPNDNSESKDSDPYVDLSSFFYAGK;locus_tag=LOCUS_05780;note=MGA_580
sequence1	MetaGeneAnnotator	CDS	551039	553072	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTIGKIINNLGVEQKNDLNFLDKFLLKHFVCFGGSGSGKTYLLKKLIEEITLKKIPGIIIDTQGDFSSLNILNKNNSNSNDWNDVEVRIFTPLRNNGIELSFSPFFKIDCEYDNSELVNVISNCSDSFTNLLGYNIYSEDGKTTSACLYLVFEYFYNNKKEINFDSLIDFFSKSNDLSLKINEFLSAAKLVQLIKRIKLLNIGKNKLIYDGKIKFDLDILFKRPALNIINITGIENEDVRFNIINLIISNLYNWMIKNPSNKLSSFLVIDEISSYIPAGVKKPFTKDLLQLLFKQARKYGVSCLIATQNPGDIDYKALSQFSTWSIGRLNTKQDFKKIESAINSVNSNFNFSTELPSLKTGEFLLYSPDAFDNCVLFKTNELLTEHKTISLKNIKNDELTIKKIELDFNSKNNLDDDIINTNNGNSKTDSENLVKGFPINVEEKDLSNLIKKNKKRFLMFFSELEQVEKIELKYFPIYYCSLKIKESKFLGLSHSISEYNVFFDAENLNPLQFNHFDFESINGFNNFINLNDDEIKIFKEIFLNKKITPAEISLKLDLSNRIISDCINNLVENNIIIKKNDGKLKLFSLMVDINIPFKLKKFSAMEDYSFYNMSINKKEINNIDRLKSILNIWFCDCTIQNSQLVYMPYYNIILSDKKNTRSLKINASSGNIINF;locus_tag=LOCUS_05790;note=WP_010932772.1 hypothetical protein (Chlorobium tepidum TLS) [pid:22.7%25%2C q_cov:54.5%25%2C s_cov:50.4%25%2C Eval:1.3e-21%2C partial hit],MGA_581
sequence1	MetaGeneAnnotator	CDS	553062	553406	.	-	0	ID=MGA_582;product=NagC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869778.1;translation=MFPGLNPKDMAKAMKQMGIKQDEIKVNQVIFKMDEGEIIFENPSVQEIEMGSEKNYQISGENRFEANEEIIEITDEDIKTVSEQCNINEEKAEELLMDAEGDIAQAILNFQSKN;locus_tag=LOCUS_05800;note=WP_010869778.1 NagC family transcriptional regulator (Methanocaldococcus jannaschii DSM 2661) [pid:37.1%25%2C q_cov:99.1%25%2C s_cov:96.9%25%2C Eval:2.6e-17],MGA_582
sequence1	MetaGeneAnnotator	CDS	553408	553581	.	-	0	ID=MGA_583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNKGFSMPTGGGLVNFGKEISSKIIIDPKAVIVVIVLVIIFQFLLYNYGINILGL;locus_tag=LOCUS_05810;note=MGA_583
sequence1	MetaGeneAnnotator	CDS	553587	553811	.	-	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPINLLFSFVNSITTLLPFEAFRVSNGFVISIKITYNIDINNESTYNQLLKLSFYKIKIKYSNLQDKFIKKNKK;locus_tag=LOCUS_05820;note=MGA_584
sequence1	MetaGeneAnnotator	CDS	553717	553947	.	+	0	ID=MGA_585;product=small nuclear ribonucleoprotein (Sm);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762828.1;translation=MEMTKPFDTLNASKGKRVVIELTKEKRRLIGTLKAFDQHINVVLEETEEYLDGELKSKLGSVFLRGAAILYISPAN;locus_tag=LOCUS_05830;note=WP_011762828.1 small nuclear ribonucleoprotein (Sm) (Pyrobaculum islandicum DSM 4184) [pid:36.7%25%2C q_cov:98.7%25%2C s_cov:96.2%25%2C Eval:1.7e-08],MGA_585
sequence1	MetaGeneAnnotator	CDS	553953	554123	.	+	0	ID=MGA_586;product=50S ribosomal protein L37e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876286.1;translation=MKGTPSKGKGARSLSHTYCRRCGSRSYHIRTSICSSCGYGNSTRFRPSQSRKVKQK;locus_tag=LOCUS_05840;note=WP_010876286.1 50S ribosomal protein L37e (Methanothermobacter thermautotrophicus str. Delta H) [pid:56.5%25%2C q_cov:82.1%25%2C s_cov:75.0%25%2C Eval:1.2e-09],MGA_586
sequence1	Aragorn:1.2.38	tRNA	554138	554222	.	+	.	ID=Aragorn_14;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	MetaGeneAnnotator	CDS	554242	554943	.	+	0	ID=MGA_587;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DYK5;translation=MKLIKYLIQCGIGSRRKCISYVDEKKIKINNEIAESIFQEITQTDKVKFNDKLLKSETFDYYVLNKPKNYICSNDDKFYNKLVINLLPKNKRLFTVGRLDKNTTGLILITNDGNFANDILHPSKKVIKSYEVIIEGKLNFNEIKFFKNHVKHIGKIWFQVEDLIFSDNHTKLIFKIIEGKKHIVKNFFTYNGVKILDLKRMSIGNLNLNELQINDGEYKKTTKTYLLDSIFKN;locus_tag=LOCUS_05850;gene=rsuA;EC_number=5.4.99.-;note=Q8DYK5 pseudouridine synthase (Streptococcus agalactiae 2603V/R) [pid:36.1%25%2C q_cov:95.3%25%2C s_cov:95.0%25%2C Eval:1.1e-29],MGA_587
sequence1	MetaGeneAnnotator	CDS	555297	558140	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVMTKIKKFATAGASIALLGTSMVSGAAAASFADYPAPFVKDGKYDANAFIVMGANAATMDVIGALDVAASLQAVSVVESTVQVSSTCGGVTGLSVLGDAAKFEVSNDILAYGESIGDVRSQFIGKIGGVGDLLAFSNAGKGPNEVNGNQYSEYLYFEDKESGTDTLASTSVSFTKADGDDFFAHNDESIVDSYLVFNKGGTTINQSLFEYEMDFSSDNNWEIQLPSDSYTYAGDSLSILGTDFHVVRGALDSTDTQLTLEFLGTLPDEGSMVIYETDPIEAAAFATELDLPNNRVTEPFMVGIYNVVVELRAATAGADARFNVRYTNTVTGEEKYESNIKVIEEGAVEEVGDEEELFMYVETINSLGDNTDEIHFLIGSDHIKLVDNFTDDTFVADVTVDGEKLNNGFVRMKGSYDSSAEELALRTIEYRLNDLDEDVYVPSGHGLREYLSDDCDIESLTCESDSDYQYFNGMLGQNWDIKFLGMTDAARSNITLSGSSGNLDLSIVEQGSGGKASKLQIINYDKNEPMAWRTDDGDIGTRYDGDFEAFIFTEGWYNTTNGNITNSNGTTPCTGANHETCQLIYDEDVFVVSHKATRDDDVRSHILEYSSIDTNNNKIKFNSVAQGVGDIERSYALVAGNDNVLGEAKLNARGDEYQFYVLDNETLNYPIVVDLNKDGVIDNSVSLLANEFGVVMEFEKQATPPYLTASSDSETVNFNLSYVDDMFEDRSSDLLVQIPITLVNSSAETMSVGTVTDNDGSGTNILQTQKNAEDTQFGADIYGTTFMAVESGDGDDETITMSTPSTQLSAQVFVVFGDSEVSSGGSSGSGEAVTQSVNRARLGMGVLDSEASRYVDADGSFSKNMIVIGGPCANSVAAALEGKSADACGEGYEPGQSFLKMVESGENVAVLAFGYDAAGTLKATDKLSGLASSDNANLGTEVPLN;locus_tag=LOCUS_05860;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	558342	558782	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFISSNIFFDSNNQNPLSLSATIEKNSPSNWINEDDLIIENDGIKIKLNNYIIARFSNTNSMDPFLDENSNAIEIKPENADQINVGDIVSYRVKGEVNPIIHRIIDIDYDENGYYYILKGDNNNLPDPYKVRFNQIGYVLVGILY;locus_tag=LOCUS_05870;note=WP_010877058.1 S26 family signal peptidase (Methanothermobacter thermautotrophicus str. Delta H) [pid:37.3%25%2C q_cov:50.7%25%2C s_cov:52.1%25%2C Eval:1.7e-07%2C partial hit],MGA_589
sequence1	MetaGeneAnnotator	CDS	558832	559596	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKFYLFLAIILLFGVFVSAQNNLLNTTVYMPSDEYFSESKSGTYLTWNKIHYIYLKNNNSANLLSKKINFCMDLFFNSNLKYERVEGDFCNRIYFFKPQKSMVFYYNFSLIYIILLIGIYFVYRKYYRGKIILEKKIKFLEKSFHGIKKIRVEILISNKTKNNFSNVRISDLIPNILDISESGLGTIKPEIVNSISGKELIFDVGTVEVGERLMVYYDLKSKIDLSEDFTLEDTYLIYDTYFGQKRIKINIL;locus_tag=LOCUS_05880;note=MGA_590
sequence1	MetaGeneAnnotator	CDS	559583	561490	.	-	0	ID=MGA_591;product=GTP pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000508136.1;translation=MDKQFEELKELLEDKKNIDLVQKAYEFSKKFFENEKRISGENYFNHPYRVAKTCAENKMDNDSIIVSLLHGICLIDKSKEKEIKEKFGESIFNLQNEINKINLINKSIVSLDFAEELRKMILSSSKDIRVIFIKLADKLDNMRTLGSLDKKQQKEIAKLTLEIYAPIANRLGLGKIKSELEDLSLKHLDPDAFYKIKEFLPQKKKEREIIIDNTKKKLISLIEKEKIKYQMLGRPKNIYSIYKKSSTKKLEEINDLLAFRIIVENIKDCYEVLRLIHTTYKPILNRLKDYIASPKENNYRSIHTTVFDENHNVLEIQIRTGDMDKQAEEGIAAHFIYKGFEGNEKYDKKMSWIKEIINNDNNIETDIVDIVKFEFFSEKIYCITPAGKVINLPKNATAIDFAYAIHSNIGDKSIGVRINGKYKTLRSELSNGDLVEIITQKNHMPSREWLKFAKTHKARSKIRKALNEVSQIPHPKYSKSINKIEEKINSKLIYVNKMQDYNIKFAKCCNPMPGDEIIGININGFTINIHNKNCEKLKKQNIRKDRILKSHWQENTKGEIELKISCSERKGLMVDLLNTISRLTNKINSANAKIIDKEKVSLSFKIEVENLEHINNILNAIKKIKSVKKIMITKC;locus_tag=LOCUS_05890;gene=spoT;note=WP_000508136.1 GTP pyrophosphokinase (Leptospira interrogans serovar Lai str. 56601) [pid:34.8%25%2C q_cov:95.6%25%2C s_cov:94.7%25%2C Eval:1.3e-105],MGA_591
sequence1	MetaGeneAnnotator	CDS	561522	561998	.	-	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNRIDNLKKLGEYRPTVSVILINKNNKILIVNSTRDKKSWYFPQGGIKKSEKISETIKRELKEELNVNYNEYKITNTQVYEDKLDINFTNNRGRGYSKGKAFFFVSGKYLGNGNLIPKEDEILNYKWVTYDECKQLFNKNNIKKNQILKNSLKNLAQ;locus_tag=LOCUS_05900;note=MGA_592
sequence1	MetaGeneAnnotator	CDS	562104	563174	.	+	0	ID=MGA_593;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877207.1;translation=MGRFNNFLSSDETVFKNHVALDYDFVPKVIKFRESEQQSIANCVKPMLHGRSGRNLIISGTPGIGKTVAVKKIFEEIEEDTDQIIPIYVNCWKVNTTYKIMIEICHQLGYRFTQNKKTTELIQIAINLMNKSSIVFAFDEIDKAEDFDFLYIILESVYRRTMFLLTNYSDWITSLDMRIRSRLVAESLNFKSYSKQEVNDILKERVDLGFYDGVYNSDSFEFVVDRAFLFKDIRTGLYLLKESANCAEDRSSRIVELDDSKKALDKMDDFKTKKINNLNDDLKMVLELVKDNTGKKIGEVFDIGIKRGLKISYKTFQRRIKKLTDSGFIKSEIIYGGSEGNSSFLYYNNQPTLDDF;locus_tag=LOCUS_05910;note=WP_010877207.1 ATPase AAA (Methanothermobacter thermautotrophicus str. Delta H) [pid:27.9%25%2C q_cov:95.5%25%2C s_cov:93.4%25%2C Eval:3.0e-31],MGA_593
sequence1	MetaGeneAnnotator	CDS	563196	564410	.	+	0	ID=MGA_594;product=putative MFS-type transporter YxaM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P42112;translation=MAFYFLIVANNKNQTRINGLNNNIQLYIFTEIFRRLSRTWYPILFLFYIFIQLDLKLFGYLVAVTSITVLIFEVPSGVFADQYGRKLSYMIGQIILILTSFVFILSNNFVYLIIAAFLYGLSNSFLSGADKALIFDSFYELKRSNEFRLYNGKLYAYTMVVAAISTFISGFIAEYNWNILFFIGIIFGLINLILISKFYEPKIHEKTSHKLHFKKSVLELINSRTLLFLVILFIFINSLLESLSDYHQVFAMEVGWTVSSFAMLFSISFMLSGISAYIIETIEKYIKKDFALYAVPVLMGLVYFFMGYLNNYYGILLFIFEGLLIGYYYVVLEDIINHNVSSRRRATIWSLSSFVEQIFVGLSSIFIAYFSTFFGFQFSYIFVGLFIGLGGFICAKLSLRFMKK;locus_tag=LOCUS_05920;gene=yxaM;note=P42112 putative MFS-type transporter YxaM (Bacillus subtilis subsp. subtilis str. 168) [pid:24.9%25%2C q_cov:85.6%25%2C s_cov:88.2%25%2C Eval:5.0e-17],MGA_594
sequence1	MetaGeneAnnotator	CDS	564514	565104	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKTKFDLLADKLEKATLGSNYKAHKIIPRELLKLINKDALILDLGVGTGLSSRLFIDKKFSVVGMDFSKELLKVVSKYNYEQLIKQDLNKKLKVKKNNFDLVISFGVFDFFEDLNHIFNEVKRVLNINGYFAFTVIKSQKPSDSSQTYKHTKKEVRALVKKYNYKIVNELEFLEYEKKDYMAIYYGFILKKNCN;locus_tag=LOCUS_05930;note=MGA_595
sequence1	MetaGeneAnnotator	CDS	565580	566026	.	-	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLERIQDIRFQFDILEPKDEFMHLRNLISKKIEEEKGNVAFWAKLLVKVNNTVDEILNVLDNEHKNETKSHIEIIKRIINNFIFSKKIKYLAVNFVLISNSYKELNLYFLKNKKELDKHFYEFEVNFLRAILVELSKTEFNIERRL;locus_tag=LOCUS_05940;note=MGA_596
sequence1	MetaGeneAnnotator	CDS	566013	566597	.	-	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHIQIEDNPINLHILNDLIKFNNNSIGHIVPDEGFFIKEFQKKVNSTKIPINEDEGYDIGSYSLSEKGELELKILKQKILKEYTEESSYSSKICNYFNLNNPSKILNLNTDIKNITENYTSNFLMESKMHFDQIDFLSWIEKRISKEQQLINKWISTNTKNTFTNHIILKQKLHNKKISDFLQKRRGNNNDIT;locus_tag=LOCUS_05950;note=MGA_597
sequence1	MetaGeneAnnotator	CDS	566742	567884	.	+	0	ID=MGA_598;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762209.1;translation=MVKQIVNPYEVKGSIDYDKLVDEFGVSKINNKLLNEIEKNVGELHFLLRRGYFFSHRDLDKLLKRYSKGEKFVLYTGRGPSGSTTIGHLLSWVFTKWLADKFDVKTYFQITDDEKFLFNPNLNLTETNKLAYEAALDFIALGFKEENLDVIVNTNAADILYPVAIRIAKKLTLSSVKASMGFNDSSNIGINFYTAMQSVPVFLESIRQKKNVPVLIPYGIDQDNHFRLTRDVAEKLGFLKPFTINCKFMPGLKSNDGKMNASDPNSAIYTTDDEKTVINKIKKAQTGGRETITEQKKLGGRPKECNVYSYYDLFFEPDDNKLKTIYSNCVGGSLLCGECKLMLANKVNVFLKKHQIERHKAKSKLKNYFLKKDFDTIRID;locus_tag=LOCUS_05960;note=WP_011762209.1 tryptophan--tRNA ligase (Pyrobaculum islandicum DSM 4184) [pid:49.5%25%2C q_cov:95.8%25%2C s_cov:95.5%25%2C Eval:2.7e-102],MGA_598
sequence1	MetaGeneAnnotator	CDS	568024	569319	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIIRKIDGMNTKVKEGFVKVRHDISSVVNKQSEFIDFFSKKIADVERNSLSKKEVSKVDVKVNDVHTQISDLQEAVDQLNIESELREMKNLVLDKKTLDSEYANISELNKLEAELNKLTDAIESLKEKLSKSENFVTKDNLKEISESIMIEVGDKFNPLKEQNENLLTTVQDLKNNFETFKENNKDSSSISLLKDDMDLLKNKVSDFDDLNENLEQLNSLKSDFETFKSDNDDSLANLKNNVMNDIRNEMSSLRSELEILKENSVNSQFEDQFRDSVADINNSIGELKHNLDDVKLSNDDSNASQRLEVLEGTVKNVEFDTQKELLNFSSTFSNYITKDHLDSQLLLFRQSMTEAMGEIIDERSNGESFYDSIDEKESKKNVVKKSIKKETPKVLKEEVNSNDNVAEVKEEKKSTWNKIVDFFIDDDDE;locus_tag=LOCUS_05970;note=MGA_599
sequence1	MetaGeneAnnotator	CDS	569297	569812	.	-	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKLNDNDIKKINIFLKDYSLYVDNIDLKNNILIKIKKDIFLISNELYKHLNEFNNNNVKFAGLYMGDIDGKFSPSFNFLDLICDKVKNKKTINKTKEFLFLCGRDLTDDSFSGKTDGRFLVLNNKGNILGIVKKIKNDKKQKNFTKIFFKNILDKGIILRREFTHRHRQ;locus_tag=LOCUS_05980;note=MGA_600
sequence1	MetaGeneAnnotator	CDS	569843	571096	.	-	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKELEEKLIKERLYGDQIINKQKEKQKFNEEIFDDIDKKVIKLDINKVNAFLEEQRDKIYLFMEKKINTAYKIIGEQVKIIQNEIKIINTKEVPENDMKILRDKRKLITELTLINNKFITPKTRGLKRVKLYYENISIALKEYETTLSVMNEANYVENFKIITKSINIIKNNAEHLKEVFSLKTVEIINELQQKLQDTFTKMQLKDKVIREIERRKSYLNRIEEYKEKMDLQKEKIKNSDQFKEYKEKNAQLKNLKEELKKLSNRINELFIKNKDDIFAESEIYILSPILKLYIKDVHETLKNDLNHELINFLKKQMEINKKINIEQVQILLNQLKQYKEKNEELKKVLNKINLNTITQDEMDIEYKETHIEENSKKIEEELEKLQNAHQKLNIVIEKYELSKVISENFNINFLIS;locus_tag=LOCUS_05990;note=MGA_601
sequence2	MetaGeneAnnotator	CDS	4912	7557	.	+	0	ID=MGA_604;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020572.1;translation=MEDDNLNYNNLDEKRILDSNKISIDNYNGIKLTPAMKQYVAAKEQYPDCILLFRMGDFYETFFDDAVDCANILDITLTSRGKGDTKAPLAGIPYHALDPYLAKLVLAGRKVAICEQLENPKLAEGIVKRGVIRVVTPGTIIESDILSASSNNYICSIYQKLDKYGISICDMSTGEFLIGDFNEKDLFICLSKYSPKECIIPESLIINKKLTEELKKVNCFIYPQQNNYFNSRNSNHILNNHFGSIDSFSNINLNSSGSLITYLIKSSFNKLSYIKNIKNISISNSLILDGSTIKNLELLKNIHDGSKNGTLISVIDKTKTAMGSRLLKKWIVSPLTDINKINLRLDSIKELISDQLKLEELYELLIMIADLERITARINFGNANPKEIIAIRESLINLEKIILILDTYESVLLNNIKSFGIENIDIDSFEKKDFDYCEEINSIIELINNSIKDDPNSSVRNGNMIKSGFSSELDNLHSIINNSKNWLNNLEIELRQKTGINSLKVGFNKVFGYYIEVTSKNKDQIPDYFIRKQTLANAERFITPDLKEKESIILNAENKINDLEFDIFNSVLIKLKGFSNIINNISNKLAYLDILIGFGLCSIDNSYSCPIMCDGDNLSLSDCRHPVIEISEKYFIKNDCNFDEDTRTMIITGPNMAGKSTFMRQIALIQIMAQIGCFVPASSAKLSIADRIFTRIGAYDDLVSGKSTFMVEMSEVANILHNFSSRSLIILDEIGRGTSTFDGISIAWAVVESIARKNSKCLFATHYHQLNKLSDYFSNVKNFHITVKETFDDIVFLRKIVEGGTDKSYGIQVAKLAGVPNDVIDRSKQIMIQLEMDDEITAKIHSNLKKQKVSSNKLEKKKVDPLNESHYSQENLVDFYD;locus_tag=LOCUS_06000;note=WP_011020572.1 DNA mismatch repair protein MutS (Methanosarcina acetivorans C2A) [pid:43.4%25%2C q_cov:95.7%25%2C s_cov:95.6%25%2C Eval:1.9e-193],MGA_604
sequence2	MetaGeneAnnotator	CDS	7630	8088	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQTKYLFSSNGVAKFNPDHYYYVCELIALYSKIKQTDNAFGKKFFKCRKVMLGKKFLQLGIPYNSLTSAISQVHETLNFEESFGDFLFVDKLLRNFSSKIDSTLENSFGKKFEYLFNKTQYSRNCGSVQKVYSNNCGILLFGELEETDKV;locus_tag=LOCUS_06010;note=MGA_605
sequence2	MetaGeneAnnotator	CDS	8106	8288	.	-	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATSKKKDILKNRGRNRTVRPKTFKNEENAKKYGDSLKNKYEIDKIGSNSRPKYRVKLSN;locus_tag=LOCUS_06020;note=MGA_606
sequence2	MetaGeneAnnotator	CDS	8387	8632	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVYIYYMTKIILLYTSSDINLKIIKGEKESFIQILKKLAFSNKKKNLISFAGMWSSDENAKKIYDKILSERSNIKLKLIS;locus_tag=LOCUS_06030;note=MGA_607
sequence2	MetaGeneAnnotator	CDS	8615	9322	.	-	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKSSIKNTISKYFVESTAISLEANLAFAIHETQFSGMSNEVSINARLIASTIGYLGLAKGLSWGRKKSQELFKITEETSEKIKIIHDIGYLAAFNVVFSPILYYCSGSRDIKEIAIGTVGSILFGAANGPALGYSTDIFNDLVGTEKNNRFLHSINSLSSSIKNNKISNYLNNISKKYENLSQNYKKKLAALLGIGLIGLTSGVYAMNVDTENSKPPESFKISLESKLSTNQF;locus_tag=LOCUS_06040;note=MGA_608
sequence2	MetaGeneAnnotator	CDS	9570	10430	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKLTAQGPNDRKSYTVTLPIEWIKSEKLNDSKVVNLDVIGTKIIISSSLDGNKSLSIDTDYYKNSLIKLLQSIYRGGFDEVKLIYSDPKYLERIVEIIDERLIGYEIVEQKNNFILIKYITKESSEDFKIVLRRIFLLLLQMLKSESFVQAKLIDKNIKKLSNYCQRILIKQGHIEFDKVPNYYLLLDRLEKIGDEIRWTLNFQFNDNLEIPEFEEIKLILRSAYELFFKFNKVDYDLNSDKVYFLTRNIRKNINKMNTYMVHCYNLSRLLNSLYGDILLINLK;locus_tag=LOCUS_06050;note=MGA_609
sequence2	MetaGeneAnnotator	CDS	10482	11342	.	-	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKLIHIILIIIGILIISSFVSAAGNIISCSDLNSKDSIETKILLLEENVKNLEKSPAYGSNAELVKKLQLETMNGNLQACRNLICNKDNLDFFNLEKNECSCSEGNEFVASSPEVQISCCDVNTQIVHPISGKCITCTAGRISKIIDKSSTGFPITICECPEGMKLNSQGVCADENEDNINLNKISGLEKDLEELNKEIEEKKLLLEEKVDLINENELNKETLKNDFNIAKEELNILKTQINESKISVNQSNKESEDFRFLSIVLGSLLAIVILVNLFRAFTRH;locus_tag=LOCUS_06060;note=MGA_610
sequence2	MetaGeneAnnotator	CDS	11424	11735	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENIIYWNIYEIKTQFSSINGVMLRGKIRKLCLENKRNVLVENTEDIEKSVRFAIPINDDPFLIKEYLNSILSDVNINLVLENVPNPVLSKLKVNIEDRYKL;locus_tag=LOCUS_06070;note=MGA_611
sequence2	MetaGeneAnnotator	CDS	11739	11963	.	-	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLNYVKLTNDMFKEEKKHYITIFLVCDYESGELEIKEPHKCAAMDWFEWNKLPEPLFLPIKNLLKQGFNPFN;locus_tag=LOCUS_06080;note=WP_003114423.1 NUDIX domain-containing protein (Pseudomonas aeruginosa PAO1) [pid:38.7%25%2C q_cov:100.0%25%2C s_cov:53.7%25%2C Eval:6.3e-11%2C partial hit],internal stop codon at [12024:12026](-),MGA_612
sequence2	MetaGeneAnnotator	CDS	12153	13142	.	-	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRILIIFIVLFTIFSFNLVNSQECSNIAYSCTEFSGCSDNKQIRQCGIMDFCNNKYNIDPSFEIINPINEEIHCNDFDINLVKKNQTIYFDIQNSNAIINIIDNFNFDLHIKNNPIKIKILDIKKNYTIINIDNFNYIVYNDKTKLFDLNGDSIDDTEFSIYGQKENKKILSIKLLEYDNKFGKSDQLKDKQIIELEKVNDNLEEENTLVLNVMIIFLILICVILFIRLFYNKENQIESELLKRKDLVKINNKNPVENKLTKDQKRKLVLVSRKTYYKNIDQIIEMLKNKLNKVKRNNKIIENIERKNKGLLISKKTKKKSKKKNKK;locus_tag=LOCUS_06090;note=MGA_613
sequence2	MetaGeneAnnotator	CDS	13215	13658	.	-	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQELVDLTIINFKHPLNLEETEKLFEYVSNTMLADVRYKTEYFKNFLYDLETNSSEKDIGTLSISGQILKKESPFTFAHFNTEHSFKCDGKIILLKFDLIPGYDSLREYENQTKELWAETKKKINSFFLTEYKMIIENKPELKSN;locus_tag=LOCUS_06100;note=MGA_614
sequence2	MetaGeneAnnotator	CDS	13780	16608	.	-	0	ID=MGA_615;product=DNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E4C3;translation=MYKGFILQTFLKLHNKIPYCYIIGKDIQNKTFLIKSKYFPYFYIKNSKKSNFVKQINNINKISKEFLDSKDEIINNIFIKFNNHFDKINNEKYNTNYLNKERNTTIKDLKKELKNWLSDNEIYFINKVEEFNSHKNTNNKEDSKILNTIDSYEIKIIQKQFNKFYNLIKENLTLDEFNIILKESIEFINIFFENTKLNDFNDHNVIKIVYLNDSKLDVFSKLFNDIEKNEKDINLMVKFLTDHRIKSKLCIDSKPCEKKIRDNINSNFHSYEWNEFQKIDNYFLNPKISACSEILNMQKYINTLSIDIETVEDKIISISFYDKNNKIVIFNHEKAKLKQKQNFEIIIVNDEKKLLNKFIEIIHKLDPDIITGWAVIDFDFNFIYKRMKFNKISCNLGRVPLSTRIIIQDNFLKTSTCYVPGRIIIDGIAILKDNFVKFNDYKLDTVAKEFLGEQKIASGSDVQKLYDSNHDKLLEYNLIDSKLVYDIIVGKDFIKIAIARSEITGMTIDRLDKAIATLDYLYLITAKNKKIVIPDGKEFNRQDPIEGGYVRDPIPGIYDNILVFDFKSLYPSIMATLNIDKYTYLGNIENEKKHKPFDKEDFFNQKIKQDIVISPTGAMFELKDAILPELLLELLKVRDIAKEENDDIKSYAIKVIMVSFYGSLASPYYRFYSTDIAGSVTAFARTIIKKTAELLQEKDFEIIYGDTDSIFVNAKITDDKKILDLGDNIINEINKYLDKLIKNKFNRKNYIELEFEKVYRKFILPKVRGQLGGAKKRYAGIKRKRNGKEKIDVVGLEAVRRDWVEAAKEFQLGLLDIIFNNKNPQQKLINFTKKTIDDIKSGKFDDKLQYRKGLRKSVDSYTKMTPPHVKAAKLLDKIENDIIIYYLTIDGPQPIQKLNSKIDYEHYIEKQIKPIAESIFLFFDLTFDDVLKGSNQKKLFGY;locus_tag=LOCUS_06110;gene=polB;EC_number=2.7.7.7;note=Q5E4C3 DNA polymerase (Vibrio fischeri ES114) [pid:34.1%25%2C q_cov:79.5%25%2C s_cov:92.3%25%2C Eval:2.8e-102],MGA_615
sequence2	MetaGeneAnnotator	CDS	16674	17009	.	-	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAIFLLIVAFSLLLVGCAAPESVESPSDNEEGSEGSEGSDSEEGSEGSDSEEGSEGSDAEEGSEGSDAEEGSEGSDAEEGSEGSDAEEGSEGSDAAEGEDTAPPQLPEE;locus_tag=LOCUS_06120;note=MGA_616
sequence2	MetaGeneAnnotator	CDS	17220	17558	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLYGTSFASDYSIFDISPRSEYKLNISTHDRLEINNYQSLSPIEKLLYIHNKEQKLQMNIEFNLDEKNKKKRKSKLENLNIIKFFKDLHTPINRNNRIKFRGTELLYKKSF;locus_tag=LOCUS_06130;note=MGA_617
sequence2	MetaGeneAnnotator	CDS	17535	18590	.	-	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFNIETNTNVNNSNQTNTTLQCFDKQIINYENGDLHWYTCLDKQKLPLLSAEYDINGNLISTIPYINGKIDGQVIKKSNNRTIIQNHKNGNLHGLSYIIVDNKTIQSSNFFNGILHGDTILNLNEEYELLQYYNGKLHGKNILKINNTTILEINYNNGNYDGEFIVNNQNENILNCSFNNGKLIECKNSKYKSNDCLNDPICFSQNLKICQNTKFHFGLNQKEQIITLNKKNNEICQATHNFTIPYKTEPAYYACPIPIKGIEAKNINPGLNLEIYDLWIDLYLETNCNGTVVNNIIEKKENFFNRFSRIDKLDKSNEKCLFSNMCGENFHCKEQKCVSNYQVLERFLIK;locus_tag=LOCUS_06140;note=MGA_618
sequence2	MetaGeneAnnotator	CDS	18675	18992	.	-	0	ID=MGA_619;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J6B4;translation=MDIVNDKNFDAEVKKSNVPVIIDCFADWCGPCKNFAPIFEDVSKNYKNQVKFVKLNVDDSSNTGAELSIRSIPTVIFFNNGVEVSRRMGAVDKAGLKEFIDDCLN;locus_tag=LOCUS_06150;gene=trxA;note=Q3J6B4 thioredoxin (Rhodobacter sphaeroides 2.4.1) [pid:46.5%25%2C q_cov:96.2%25%2C s_cov:95.3%25%2C Eval:5.4e-23],MGA_619
sequence2	MetaGeneAnnotator	CDS	19060	19299	.	-	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDIFGYIGLSLILLAYILNSIELLDNHSIYFFIINIFGSVLLTYYAFLLNSLPFLILNVVWVLFSIVELIKNFHIKHS;locus_tag=LOCUS_06160;note=MGA_620
sequence2	MetaGeneAnnotator	CDS	19334	20476	.	-	0	ID=MGA_621;product=DNA topoisomerase VI subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869868.1;translation=MVKINVSLSQTNEDLSKIDIKKLPKDNQSVILRLKELSKDVYSRILKRIFPELSIPIRSLSNVEYDQKEGYFKNLGKTKIKKLNANSVKSFSQMLLLMNQAKEIALKNETVSKREAYYNAKSWGDARFKEENEAFDLLDDMEAMVGFNREKLGYIPQNRGGSVAGKLIIEDSGDVIDCTKFGSGAYSIPPRVEELVFKTKAKFILMLETEALFSRLHKHKFWESHNCIIIAMGGVPTRATRRFARRLSDSCKLDVHVFTDGDFYGYMNIYRTLKVGSGNSAHINEFFCVPSAKFLGVTPQDIIDYNLPTHPLEPQDIKRGKDAIKNDPFVHNYKEWEKAINHLIKLGVRAEQQAFAAQGLNYVLDTYLPNKLKNRKTWLP;locus_tag=LOCUS_06170;EC_number=5.99.1.3;note=WP_010869868.1 DNA topoisomerase VI subunit A (Methanocaldococcus jannaschii DSM 2661) [pid:48.8%25%2C q_cov:95.0%25%2C s_cov:98.4%25%2C Eval:8.8e-101],MGA_621
sequence2	MetaGeneAnnotator	CDS	20487	22067	.	-	0	ID=MGA_622;product=DNA topoisomerase VI subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021597.1;translation=MTKQELTKAEELAKSHKQISIAEFFEKNKHLLGFDNKRKALMTTIKEAVDNSLDACEEARVLPEINVEIIDMGSDRFRVIVEDNGPGIVKKSIPNIFARLLYGSKFHALKQTRGQQGIGISAAALYGRLTTGKSIKIISRISSKHKAYEMELYIDTENNEPVITKESEKEWHKDNGTRLEIDLVGSYIKGAQSIDTYLKYTSIANPHCTIIYTNPSAEQFIYPRITDELPPEAMEIKPHPYGVEFGTLLKMFKSSEEKNMRDFFTNSFSRVSKNIADQILSEAGIIAKTSPSEINHAQAERLIESIPKVKIMAPPTNCIFPIGEDLIRKGMEKEIPAEFYASSSRPVSIYTGNPFIIEVGVAWGGGLKNDEPAQILRFANRVPLLYSKGACAFTQCVQSMNWKNYGLQQSSNAVPVGPIAFFICISSVWTPYTSEAKEAIAPYPEIIKEVKLSLQDVGRKLGAYIKKKKRLSEQIRKKSYIEKYLPFVSDGLQLLLDLKKDERDKVNDVLIDMLEESRPGKTKIID;locus_tag=LOCUS_06180;EC_number=5.99.1.3;note=WP_011021597.1 DNA topoisomerase VI subunit B (Methanosarcina acetivorans C2A) [pid:48.4%25%2C q_cov:91.6%25%2C s_cov:77.8%25%2C Eval:7.5e-136],MGA_622
sequence2	MetaGeneAnnotator	CDS	22173	23216	.	-	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKALNSIILGGLLTFSSFGSECPEYTESLNVLIKNNNILKESQKDLNIIGGVQTVILKYLKSFENINDYLTDLGLNDFETEDKINTLKEMYKSVEELGEKYLTSRKTFQDLDKSGGSFLRLEQKLCKDENLSEEDKVFHDNYKSDLYNLDKSEFDIIDTYESILDIYTFAKNNLIEPIGYNLAYNFPKIGNLAVIDKSSLLTKLDIEILSKFYKQFEKLTKNKIPDNQDSLEDGLLKKLESDLELAAVTEYQLQAEFQKKINNRFYGKRKINQFGIELISDEEQKELNQIDQVDIMYDLGFSENNPWLRSFNRTREMDSLLKVYELAWDSNKEGLLRLQKQNKSSY;locus_tag=LOCUS_06190;note=MGA_623
sequence2	MetaGeneAnnotator	CDS	23304	23585	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKCKAMLINRKKNRADDMEYVHITLYSKNNPTISGEMPILDLEFTEVKKAHMFNLTLNFLTEGNDIEVNNLEEINIDVKNDMVLIEGKQNI;locus_tag=LOCUS_06200;note=MGA_624
sequence2	MetaGeneAnnotator	CDS	23587	23754	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCKICNSAINTTFLNKIIGTHVKDKDGHKHLVCFECQSEYSKKFDELKLKLSDN;locus_tag=LOCUS_06210;note=MGA_625
sequence2	MetaGeneAnnotator	CDS	23846	24652	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLLNFVSNNLNGPIDIRYGTLPDVELNRNKIFSNLDLDQNNLIKLNVQNKSEVLFLINENRDEWQKHMGVWQRGNGLKCDAIITNIKNLILECNPGDCGIYTLFHNNYNLMAMVHSGRQGSIEKILKKTIEKMAKYVKVDIKDFTKQLCVDMSPAIKGKNYIIDYLILDRFEITNWMDFLGCESLDLIDYPNSSKVKLVFSEVNKKIKFDFIGFNKKLLLNLGVDETNIKISEICTYEHKDFPSYYKYLKGLDNDGRFMVLSSMIDK;locus_tag=LOCUS_06220;note=MGA_626
sequence2	MetaGeneAnnotator	CDS	24694	25272	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISNYDAFLKSLSELFELVSLESNIKTQPNLSYSKIKLNLIKNIYKFILNETKLLDKNCKLIINYFNKHKDDDELHNKLNSYSKKLNTSIFELKLHSNSFSSIINQLFEIEYIENEFIHDRDLNEKQYLIYLNSVNDILYIIDNILKQLMILSSKDCFSKISGSINMINESLKLINEKFMGLKLKIAVNHN;locus_tag=LOCUS_06230;note=MGA_627
sequence2	MetaGeneAnnotator	CDS	25232	25654	.	-	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTNIIDYKGKNFQEYEIFRPRGIHLYHLANMNGNRVGIANLEYSKCFDWFFFNRLFIDDDFRGQGFANLILKKVIGKANEHQYKIYNQAVPYDESLNLEQLMTFYKKHGFKTIKENLMIFEPEIKKPNYDLQQSLTLNP;locus_tag=LOCUS_06240;note=MGA_628
sequence2	MetaGeneAnnotator	CDS	25717	25959	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKCLFLILLIILILFAYNIDFNKEEEIDSCITLYEPVCGKIQVQCITTPCNPVEQTFSNMCEANKVNAFDIKQGECSIN;locus_tag=LOCUS_06250;note=MGA_629
sequence2	MetaGeneAnnotator	CDS	26013	27362	.	+	0	ID=MGA_630;product=sodium:solute symport protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003100479.1;translation=MELILIDYIFMIIYLLILIAIGYYSSRKQSDESFLISERKLGILSGIATINATKTGAILLVFTALLYLYGFSAMWYFIGVILGFLIFLPFSNILYNKSEKKYYTLSDYFYHNYGKTSSYFASLITIITMLGFLISNLIAASKVLEYFTGLSYASSAILVSIIVLIYLLMAGFKAVVKTDVLQYIAIVFVLATFLIVLSNGVSIPASEWNLFGAGTTNIVGFLLIGMLFPFASPDLWQRVFAFPDNKTLRKSLFGSIFVFLIVAVILAIVGLLIKVQLPNLDPDVALLHGFSQLLPSGLTGLAIVVFFAAFMSSIDTYVYTASSSFVQNFLRKANKSKIVSKIRLTIFAMTAIATYLAITIANLIEASFIFAAYVVVLAIPVLATWIKKSIQPMTLNITFLIGLATLTIFVIIDFNNNILTPAIVLKGIAGTLLGLIIGSIVSYFKRNKN;locus_tag=LOCUS_06260;note=WP_003100479.1 sodium:solute symport protein (Pseudomonas aeruginosa PAO1) [pid:23.7%25%2C q_cov:88.2%25%2C s_cov:89.2%25%2C Eval:1.6e-22],MGA_630
sequence2	MetaGeneAnnotator	CDS	27359	29128	.	-	0	ID=MGA_631;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010883056.1;translation=MFNLNNPIPFLFREMWKFSQDRKKYVVLVYFLSTMSNVLGLILPLIIANIFNIIQETGVNSNNIKTILFYISLILIIEIVKWLFHGPSRIIERTNAFHIKNNYRKFMFNGIISLPQKWHTDNHSGNTIDKIDKGCDALKKFSAETYLIIDSLFNMIGAYLIILYFNIHASYTVLIFLFLIWIIIDKYDKKLISLQKERMIKENQISAKLYDSISNITTIIILRLEKLISKSLFLKFMSPYKVSVADFKINEYKWFFVGILVRSFMVIILATYVLSSYYGTGIIMAGTLFALWSYVEKINNQFFRFSMYYSKWVTQKASIENGKVISDQFENIKQPKQIDMHNWKELEIKNLNFGYDNKVNLKNISLTIKRNEKVAFIGESGSGKTTFLKILRDLYPIESGHIFLDNKKLKYNFGQIKNSISLIPQEPEIFDSTILNNITLGISHKLSYIRQLAKVARFDSVAMRLPNQYKSKIREKGVNLSGGEKQRLALVRGILASVDKQIVLLDEPTSSVDSVNESMIYQTLFSKFKNKTIISSIHRLHLLPMFDRIIYFEAGKIIANGTLDELIKQSPKFKKQWNLYLKSVKKHLD;locus_tag=LOCUS_06270;gene=msbA;note=WP_010883056.1 ABC transporter ATP-binding protein (Chlamydophila pneumoniae CWL029) [pid:27.3%25%2C q_cov:88.5%25%2C s_cov:78.3%25%2C Eval:4.4e-47],MGA_631
sequence2	MetaGeneAnnotator	CDS	29175	29726	.	-	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYITFELYNKQIEDIKQSDLFRLNGVLFDLDKKVGELIDNNQYDSHEFLIKNVMHIVYYSELEGMIKQKELPEDFSEIHPIRSLCKYGSSLLFGNLDLVSTQQKKVLEQNKLFFKSAYIIQQALQLEKAKGKFDEPYINNLENTLSEIKSKYKNQIEIQKNEIDKLKIWMNKPPSTSNVIVLN;locus_tag=LOCUS_06280;note=MGA_632
sequence2	MetaGeneAnnotator	CDS	29820	30170	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLFKIKDSGKRVKLKSGLVREAFDHKIDYTLCDMDMLTRWAELMTRGINKYGRTSWKKSHSQEELDKFKSSAFRHFIQWINEVEDGEDHGAAVFFNIATVEMIKKKLNKNKKYF;locus_tag=LOCUS_06290;note=MGA_633
sequence2	MetaGeneAnnotator	CDS	30216	30875	.	+	0	ID=MGA_634;product=phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011962231.1;translation=MNKELIIEKSINYVKETLNNSSSSHDWWHIYRVWNLAKQISQNENSDLFIVELGALFHDIAEAKFYNGDETIGPIKAKEFLTSLNIENNIIDHVIKIIENISFKNTFNDSQNQFKSIELDIVQDADRLDGMGAIGIARTFTFSGYKGNPIHDPNIKPNLNKTKDEYKHADCTTINHFYEKLLLLKDKINTKTGKIMAEHRHRIMEEYLEEFYKEWEGRF;locus_tag=LOCUS_06300;note=WP_011962231.1 phosphohydrolase (Flavobacterium psychrophilum JIP02/86) [pid:55.2%25%2C q_cov:96.8%25%2C s_cov:97.7%25%2C Eval:1.1e-63],MGA_634
sequence2	MetaGeneAnnotator	CDS	30923	31672	.	-	0	ID=MGA_635;product=flavodoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013225375.1;translation=MVNLNKKQLEMCKNSKTDYSDLKAVFINCTLKKSPEKSHTDGLVEISRAIMEKNGISVEEIRAVDHDIAPGVWPDMKEHGWKKDEWPKLFENIIKADILILTSSIWLGEKTSICTKVIERLYGNSGLLNKEGQYAYYGRVGGCLITGNEDGAKHCAMNILYSLQHLGYVIPPQADAAWLGGVGPGPSYLDKGSGGPENDFTNRNTTFMTWNLMHLARMLKDNKGIPAHGNQRSKWDAGCRFDFKNPEYR;locus_tag=LOCUS_06310;note=WP_013225375.1 flavodoxin (Amycolatopsis mediterranei U32) [pid:74.9%25%2C q_cov:92.8%25%2C s_cov:98.7%25%2C Eval:6.7e-108],MGA_635
sequence2	MetaGeneAnnotator	CDS	31707	32276	.	-	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDNKSFISYLKNTYNKLYDKINPRKENLLELTDNCLGLTYKKLAQKWEENTKYKKDDLESLLYLGGAIGFGFNATYDGSLDIVTGICSGVLAGLAVRTHNRKKDQEFSLENEILSSNSIRNEMASINVLCSVFASIFLVTSGVDLAQGIISGNEMYYMNFMHLVTSGMAVLSGSSALYVSRIYLEKK;locus_tag=LOCUS_06320;note=MGA_636
sequence2	MetaGeneAnnotator	CDS	32369	32668	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNQKCYDLLILIPKGKVTTYKEIARALNSKAYRAVGNAMNKNENAPKVPCHRVVGSNGNLVGYAYGIENKIKLLEKEGVKIINNKIDLKKYFFSFNK;locus_tag=LOCUS_06330;note=Q0PA54 methylated-DNA--protein-cysteine methyltransferase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:53.0%25%2C q_cov:82.8%25%2C s_cov:54.7%25%2C Eval:1.1e-15%2C partial hit],MGA_637
sequence2	MetaGeneAnnotator	CDS	32700	33551	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEWTLLIILSAILVSISDIVRKKKSKDIKSYHLLFYTIAFAVFFFLILFHDKLIYQFPINLWILFIFKGLLLTIAGILMFQAIKQFELSYISPMRNLSIIATIILSYFILSESITIKQGFGIFILIISSYLMELDPATHKFEGFKNGFYLIFAWFFFVALLPIIDKYLLTQLSIYNAWFFPMVITLIALILIIFIQKEFSIIKHSLKKNWMIFSTLGGLFLFDTFLWFTAIAKPNALISLAIPLRRTSNFFNTIFGGRIFHEKHLVYRGLICFLMIIGIFLII;locus_tag=LOCUS_06340;note=MGA_638
sequence2	MetaGeneAnnotator	CDS	33540	34025	.	-	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDQILDYANFHELLKDESLRIIYQIKSNIREISDAQLIQSLIEKNDYYWKHELSLIKGFANKYQISILKLNEIYNKYIQIENILLTEFKKLEKLGLSSIVLGPRSINANLKNNLHLSIEIYITKQKLCIIIEPQNYGEEISNLDYVNNLRQKIEQFLNN;locus_tag=LOCUS_06350;note=MGA_639
sequence2	MetaGeneAnnotator	CDS	34066	34893	.	-	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQIFVNALEFLVNMGLLDIILPFIIIYMFTFYSLNHSQVFGNADNLEGKEKKKKLEYYKKINTIISFSIAFIFISSVVHSLILLKVISLLALSTIMAFMFVLVFNFSSHKYYERLRNSKLFIFIPLLIITTIFYFALDLFRIIPLNTISDFFFNSAFGILLLFIFGYLLMHDTSQSTPTQTNNNDIIRESANDTITPSLRAQDKNLANSMTSPYNSPYDDDLLFYHPEKKKEGILEKISKKQHDELKKQEENKAQETSQTHGNTNGRTTYSNNH;locus_tag=LOCUS_06360;note=MGA_640
sequence2	MetaGeneAnnotator	CDS	34992	35603	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIEKLYFKNFLEEKMFRKITGQHINPYDPEGKDQLAFGSQIWGQLNENYLDSDIRGLIKTINELDFLYTKGMSCSGSIKDHFGFTSGFLEKPLDCGEYINALNEYGIDKSGFQGYIMLRADTNNPKFLKFEKGLKLFRKTELNQSSLEDDDNKIQMQEGIKNLALQVWVPKEIYNNSLHLQYRTYMSDIWMKIHNFTKTFL;locus_tag=LOCUS_06370;note=MGA_641
sequence2	MetaGeneAnnotator	CDS	35644	36354	.	+	0	ID=MGA_642;product=proteasome assembly chaperone family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011024294.1;translation=MEFKLNKKIINPIIIQGFPGFGLVGSVATEYLIEFLKAEYVGRFCSEKLPPVAAVHNNSIVMPLGIYYSKKYNLLIVHGVSGVQGLEWEIAKTIIDLSVKTKAKEIIALESVGSQDSKSNTMYYFSNVKTSIKKFESLKLSNLKEGVIMGVTGTLMVESRMKPNFSAIFAETHTQLPDSMAASKVLEVLNNYLKLKMNLSKLKQAAQKFEDKLKGLISAQAQTFEQSDEKHLSYMG;locus_tag=LOCUS_06380;note=WP_011024294.1 proteasome assembly chaperone family protein (Methanosarcina acetivorans C2A) [pid:29.0%25%2C q_cov:92.4%25%2C s_cov:86.1%25%2C Eval:4.0e-22],MGA_642
sequence2	MetaGeneAnnotator	CDS	36361	40038	.	-	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYDWLYNEDFLTRLQSGQLTQEETQKLRNLKTENNQKKQFSEEELKELDEIVKRPYKTNKELLESFSDSYDISTFNQPIGNSKLEELIEGHKIDNEQRIGSNQEPFRYNILDLFDQLSPEDQNQLSQTNPQLIGEKIEYEQTKNVSQMQKNELDADYLEKLGTYNHGDFIDLLVEENKKKIENKFKNDYIKILDQELEGSNEGLSINPETNEIESTDKVKNKKLKQIKKELNEQKEKELEQITKENIETTPGIHLEQLYANNQIIEENKSLLELIENETYVPKQSLKDAYESAMITTYSQLKRLPSSETNSEKAKEIKYKNLIIELYGRSTFEDSISELNKKSFENILKSIYTNLESDNEKLKYIISHIRQQPHDIEKLVQYEGNINLDEDTLSDSRIDFLEKQKINDLISGTFYKLDDLRNIIGVDDKNLISLLDEIENEDSEIKRASKIDFIYNKLFKTLDKEKKEKIKLKNKLSRYHLNGKSFEETLEEYNKDPKAFDEKFNIELQLALVDLKNRDDKYSIWDKVIWDFERELKNNGSTHLRKYHVEDTVKKGIRPERVDHRAENTFNILQLSDIHLYQESHFEVVGEYKDGSKKVNRTSREIRFDILDGLIEDIIKPAIKDGVNIDAIVFNGDFTEGKLLLDHLVKNTLDETFAIMGENYVNKELMSGDAKSLFNHYKKYIESEQIINSIYQHEFGFGKFNLKEHKQIMKSIEDAKEKNFQPSEYEKLYSQTFNEKLRVLFEKNNPKQPYRNVELAKIKQKFPEQTEGLYDALEIKINELEFHYNQIEKINENHEGLKERKLNLVDLIKFKQNSQQALIAKKLNEIAKKVFNEYQIESLLTLGNHDSTIVDQYLSHVVNLDKIPAHILKKNGKSLKIVGGGNFGINTSLPIDGNNHMAAPQQDSDKVDLLNERYPELFEKLETLEGQEKLMALFELHNLGASYSGFDPDRKRLEGVFSEHDKEGHFVHAIHNPATIGKKNKMKLLENFYDRPLSPWMSTAGHSSIEDDFTKNGGTITQLAGHIHTDHNELHYFNGEKVDIGTTTAPKPKIFGIDSESGAMESNIDLNYTDGLGNFVNRYQREKVPSVFFYNNFEEAYGLYKSAQSEKEKDEILNRFHMRDIHSIAWLEDYKKNGFNSKQEYKSHLESQLMTLEEIKTSTTPKSYEQIKDFTNGISTKRENLFAEIKQLQLDYSEYIKFDAKRKLDDLSEKPDEEYQLAA;locus_tag=LOCUS_06390;note=MGA_643
sequence2	MetaGeneAnnotator	CDS	40349	40756	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVYGPTHSGPYRIANPGDFSDIGSTEPAGLRYNSNETKKIEDTDDKRETINKSTLNSFLDKYKLQNQLEKKDYKNSNYKKLIDNLPYQLVKSDSLEGKIINNFLSKLDINKLKETQELIALAKIDGTVEYKTI;locus_tag=LOCUS_06400;note=MGA_644
sequence2	MetaGeneAnnotator	CDS	40753	41847	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKAQELEQAALKENNPNKKLEFLLLASEIYLKESKNDSENQSKYLAKAIQLYDEYESINANSIKYLDKEVNNKKGVKTFDDIGGLEELKDEIKLKIIEPLLHPEVFSAYGKKIGGGILMYGPPGCGKSLIAEATAGEANAHFIHVKPSDLKSKYVGETEKNISKLFEVARANAPTIIFFDEFESFGRERSKTDVHTKNHISQLLSEMDGVGTKDKAILLLAATNTPWEIDPALIRHGRFGINIFVKEPDEKARKEIIKLNLENKPIDDSVNIDFLAKVTKGFSGADLSEICDRGADIAIKEYFKTKVSRKINIKDFISILKEKKSIVKSWYKLAKEQIVINGCEDYYTEIANYHDEKSHSFN;locus_tag=LOCUS_06410;note=WP_010878793.1 ATPase AAA (Archaeoglobus fulgidus DSM 4304) [pid:41.2%25%2C q_cov:82.1%25%2C s_cov:40.2%25%2C Eval:7.6e-54%2C partial hit],MGA_645
sequence2	MetaGeneAnnotator	CDS	41819	42814	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKATLLISSVCNHKCDFCLNIWHNSNINETFETFMSFEKIKESIDKLSNANITNITICGGEPLLHPDFNKIIDYIYNKKLNIRLQTNGVFLNKEKIDFFKNKISEIEISLHGTKEIHNEISHSNSFEKIIKNVNDIIKNNILLTTNFVINKNNFMDIENYIYLLNKLNVKAGYFTILYKAGLANRNNLELTKQQLSEFIGKINDYSLISKTKLIFQGCYPPCELNVKNIEFISPCGAGKDEIAIQPNGTITLCPAHPKAITNIFTINQTKFNKLINNTQSYLLNESLPKKECNSCSLLKACRGGCVINRQGGTENILKEKNNLFKLINY;locus_tag=LOCUS_06420;note=WP_012546061.1 radical SAM/SPASM domain-containing protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:24.9%25%2C q_cov:90.9%25%2C s_cov:69.6%25%2C Eval:3.6e-15%2C partial hit],MGA_646
sequence2	MetaGeneAnnotator	CDS	42934	43854	.	-	0	ID=MGA_647;product=thioredoxin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KE48;translation=MEELVIIGSGISGYTAGIYAARAKLNPIIVDGLEKGGQLTLTTIVENIPGFPQGIDGNEFVNNCRAQAEKFGTRFITDNVVKVEKEDNHFKVHLANGDLIETIAIIISSGASARWLNIESEKEFKGKGVSTCATCDGFFYKGKDVIIVGGGDSACEEAHYLSKLCNKVNIIVRKDKMRASHIMRERVEKINNINILYNSKIEEILGDNTGVTGVKLINNQNNETSNIDVHGVFLAIGHVPNTKFVEGLVDLDEHGFVKTNRDLSTNVKGIWAAGDVQDPKYKQAITAAGTGCQAALEAQKYIESKE;locus_tag=LOCUS_06430;gene=trxB;EC_number=1.8.1.9;note=Q8KE48 thioredoxin reductase (Chlorobium tepidum TLS) [pid:45.9%25%2C q_cov:99.3%25%2C s_cov:98.1%25%2C Eval:8.2e-80],MGA_647
sequence2	MetaGeneAnnotator	CDS	44026	48936	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFEKSIYVVIMLIVISTICFSLFIILNHNSNLNKILKTNNLKQNDNLENVKELLNISIDNNFSNLINSANQRFSNIKQERELIDKKIKEIELNKSKRLELIKKIRLESKIRDEVKRQTKEKEKINIIIDLDNENEKDNLIEKLNEQNIQINNDLGNAIAVTIDSNKINNISENDQIKNIHLDREYSILSFEQFDKFNISNIRESNNISGDNIKVAIIDTGIDESVFNNIISKSFVSNNVNDNIGHGTQIASIIKNIAPDSILYNAKVVTDNGLTSTSSIIQGIKWAINNSVDIISLSLGSKFHETDQLLNEELQNAIDNDIIVVVASGNCGPCSNVCGDFKGVTNPADYESVISVGAVDINNNYACFSSGQEYENYIKPDLTALGVNINVTSINNKNKIVNGTSFSAPMISGLIALKLEQEELNHNQIKRLLEYNAIDLGQSGKDIEYGSGVIDIDKLFKINSVIIDPIIIDDNDTSNESNIESNEIKINDIIINTNDKLILNDIGEFKFNNAEDDYVVYDNNGNTAIVEIREFNSSEDLIKYLKLGFNFTIDDYENETIDSFNYYDNILWFKNSSVYILSKPINSKANLTIIRDEYIKKIGSDIQNLIQNNNNNNKPNRNYELSSTPDYDGEINIGDTRYVSLNGGSTFKYKLTTNYNGIILFSLTDVGRYEDFDITLLDYEDEFMQESNAGSGEDELIIQNKETDDVWDLYIVVSNFKDDPGDVTFKVSTGCTPSSSYSCSGNIVYKKTIDGSCEEDNDIFLNCNYEKKISYGDLYCSNNDVHQTKSYTTGECKVTSSNGYCKDVDKTTNRKVEDCGSGTCSNGACYECQNNNDCSSGEYCDNSNKCQTYEYGHKKNPIIFDWKASRSVNLESGNVEWYKTSTPNGGKLIFSIYSVQGDENFGLSVYDENGNNLLGSNSTGKGKDQHVNIIKPNTNLETFMIKVESYTGRSVSLTAGDIKCEEKDLTYCDSYSNKVYLETINPLCGSNVQLVFDCNNEFDIIEDGKEYYCGIDNNLDVIFSKDYYQEGYCTNSDLSQCFYEKKYRPVIESVKGGQKYCTLAEGLCTCKENEGICKENSQCEGNLECESGNCKSNCIDSDNDGHYSNCSPIDCDDNDPERNAGLAEVCDGKDNNCNGNVDETFDLISDPNNCGGCNIKCTDQQVCSNSQCKNNYECGDGVCTIDVETSSTCSQDCYADFKVLNIKNVNPSIATENSQVSITAEVINNGTYYGSSFIEAGISPRSWNSYFLNSFNLFSYELQSYIDNPNPVCPNNDYYDSKAVELDSKETEEITFNLISQTKQSVDSCDINSRSAWSDTFDIVVGFYENLNGGAYTHFKLEENYNIDECSFPYGNSEYCSCENNKFSCGDGYTCNQGTCELCTNPDGSSSDCSCRVDNDCQEGYECDTSSRYGVCNEIDVVNECAVKDNYECKNGDVYLCEDTPYGRKLKISDYCVDRELCPINVAEVNRCITNDDYNLIIEYASSGVKVFKQYRDILTIRLNLKENVGYELEYDDSVFESLTSDCTNNNFKIGLNICKFEIVGFGDHVFKYGQDIEPIEIILNPTNIYVTNIKKLHQRYDDQESVAVLLEKTYQQANLNNGIVYDLEDYIIDVPHTFNYNFLNYNEPLACVLE;locus_tag=LOCUS_06440;note=P16396 minor extracellular protease Epr (Bacillus subtilis subsp. subtilis str. 168) [pid:29.3%25%2C q_cov:18.2%25%2C s_cov:48.5%25%2C Eval:3.0e-30%2C partial hit],MGA_648
sequence2	MetaGeneAnnotator	CDS	48938	51013	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTKKTNKIFSIILLVLIALVPFTTAVNVCQNFNNDYAIAASSFVKEKCYDCQNVIIIGDDYVVPSYRRNLLFANNPLTSQTSNYISDTIITDSSYIPRTTKLFSEFDNMFKLDNKYQGKDVVIILPNRDDAQKFEFDVNETKKVLEVEGYKPNFKQDIYGTHVTCDRSSFYGRQLVDKTLIIIGTEETNNALKCYNLFSTDDTTDSILMEKNQWDLEEDAFIIYTDDVDLLKSANNLIADKEIKKLKGYSAYVIKVTSQVVSNVAFTIALAAFMASGAGLVTVAVAGTITAVASTVDAIDDGTQVVNDCFVNKDGIGNCAFSISLIFLPGIIDEGAKGIKRALGPEFSTRFTKYVGTLSSRAIRNAEFLRDEYFPKDVFKKIYFYGTEDFIKGLENIFGDTLLDIDRFTRKVRVSNKLNPELISLHQKVTQSRFIVLAGRLNQNIVRQFLSEFSMSFIEKIKFTRYWDIVEFYWANVKASITFNDLKKNQLLTLIKNYKYSRIKNSEPDKIMGNFGESIVNFHANQRGLSNILDGKKLDYNKNPYKDNMDHIFYDSKNKQYVIVETKYSSTPDRKIIELKDKNLGVDKEGNFQLSNNWIDFNIKKMKDSGIPEYEQVADILEKNKNNIRKEYYLVHGNKKISGNTFNDDLVKKNLDTTISGKHYTKDQTPGVDRVNIIELGYEVFENDIK;locus_tag=LOCUS_06450;note=MGA_649
sequence2	MetaGeneAnnotator	CDS	51000	53978	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNKKLFFILFFVLLFQLTQVSSINYETAAVSRIVGDKPEDLINQLENKDLKIDHATYYSDINFKTPQYKYLFDEIFDSNEFYPIYNYNWINTDNLKKNQLFIIETHGDVNKDKVYSSGIINTLKPNEKWVSDFSKAEPLFIFNTDYAGLSIPKKDTYVNKLARYSSIIAPNGNKNKEFNFVLLCSLLDSKNLGELYRDARNKFSTRQYAFQNELNSETLMSYHLYANPLNEYRVSNYNHEVQDSMCNQGFHFGDYEPLSFESLSIKENKINDLVFYDVIIENDGYLDIINISGADYIENPKGSSLPLIISEYEIPKKSNNISVKGDLTFFNNYNLNLLYNETECLNSSKSINYFETLDKYKKIVTVVINPIQTNNCLTKSYSVYNGGEIEINFNPNEDIFITDIQTPDFILPNKKDNVIINFDKYVGNDLGNLSIYENGDIIFTTQLNINDTYLNISIDGKEKESLSEYKIYYEKNNESEIINSFNIYTKLLDINTKLTQINSTDAKIIYDIFNYDNKTIPLFVISKVYHNNDIFHIAQSQMLIRPDFNYIDHNSFKLNYEDNGSYKSEHKFEYGDNIRSGNDILIRNKPPMIKLNNYDETKDYIEVTEGEEYKIDFEIIDDSDNFDFDVSTLHGTFSLETNNYKSDVGRIIPNEYYTDKINITVNDSEFKTSKSLNIKINKFDLITNFNFKEINGNYIPLDNRKNFSFLIFNNIVNLTPGWTLIASDGKLAYQNINESCPNSIVYFYNGDWHKNNFTIPADMGFWILAKDKCQIDLNRYDVRTSNLDRWGPGFSKQKITQQEYNLLTLPEIDEEENTTYAFPDNEYKNGWHLISLNKLIKDGQIDEWGICKNYINKIWIYDKKKWVSILSLEDNYTFDRNVGVWVLCGNKNMNSFTIENPYDFPISFDFHTSVKKTSINGEKTGNFLNYDIYDILDYYYNFYLKQNELIYFADIIKDLKVNESYSEADLIIILSNEDGVPYLTKSGIIK;locus_tag=LOCUS_06460;note=MGA_650
sequence2	MetaGeneAnnotator	CDS	54033	54419	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005771586.1;translation=MDITLFFAQFWGLYMLIIGLLIFFNKSLMKEMIKLTSDKVFLFVSGFLSLILGLFTVLLHNLWVSDWRVIITIFGWLALLKGILILGCPDFTKRISKHYNKNLSTANVQITIMVIVALYVTLKGFGLY;locus_tag=LOCUS_06470;note=WP_005771586.1 hypothetical protein (Coxiella burnetii RSA 493) [pid:36.2%25%2C q_cov:98.4%25%2C s_cov:97.7%25%2C Eval:1.5e-17],MGA_651
sequence2	MetaGeneAnnotator	CDS	54590	55126	.	-	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDEKHLGLGNRLNFLEKNIRQSFKNLRLELEDHLDSINDNTNEVEYISELLCDFDNRLLKLEDSIEFIKNNLGSTKPINKNITPLLNERETDIFLSIFRDENNTKPLSLISQEISIPENTIKKLISNIVKKGIPILQTNTAEGKFFYIDNDFKEKQLKQNVLNISTNLTLDIFDQKI;locus_tag=LOCUS_06480;note=MGA_652
sequence2	MetaGeneAnnotator	CDS	55195	55623	.	-	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYTLKFNLYAINQFNPISVLCRIAQENNHESIDFDNGECLVKLSDKFFKKYKSNPELVNSLFSGVYLLPSFMCKKIELNHLTQLEESTPFKVKKIIFNGDTNIIYVPRDDYICMDPRLLNVMSILNKYDLNKFMSDLYRWS;locus_tag=LOCUS_06490;note=MGA_653
sequence2	MetaGeneAnnotator	CDS	56006	56416	.	-	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSENSFFQEFLGNLPYIGNLILYNCFSVPTTEEQFFEIMSKKDYDSLTIGLKEKTGFFNSDTSESYAIFPIMTSNELYLELFDRKKTDILPLNGSDRLAMVERRKKTANEKLEGLSTRCSLANYEVKILTDIIGEN;locus_tag=LOCUS_06500;note=MGA_654
sequence2	MetaGeneAnnotator	CDS	56525	57052	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYHFYLKDQADKQSRFAFFSRAELSDTFQSKRQLTSLFDLRLREPILTQELYQNGEYHPILLSKSDTNGSPFTLGRNSNLYLLTGTVCTLFPEEKITEGERTFDSEKSLLLFSKQKLENEGNNLTLDVVLEQAKKYGGSLNLMRPTLKKLSNLEVPERVLNNETIYWFELREY;locus_tag=LOCUS_06510;note=MGA_655
sequence2	MetaGeneAnnotator	CDS	57055	57648	.	-	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNRLIFYFFIILCMSFYLVIAEPRLTLKDDIGNISQFGQNSIDIYKDKPITITGENLNNLIFHNLELSFKSTEGNFNKYIPLINKLLSSNKLPLLVRDNDYFKLNIDGDFQFNNEESYTLNLPLRPLVTEKFEGLLEAEYTDNSGNLKQYSQGFILIVHTDAITEILIEENSFGGGMVNLIVDGIESLALTALNN;locus_tag=LOCUS_06520;note=MGA_656
sequence2	MetaGeneAnnotator	CDS	57819	58121	.	-	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQFNFLTNKYEDIKTPNKNDTTILVFVLFTKIIPDIADINAIKILQSVFVDPSKFNLNNFLDVKKPKLVIKNAIVIVIKNPNQAIILFLFFDLLIFVFY;locus_tag=LOCUS_06530;note=MGA_657
sequence2	MetaGeneAnnotator	CDS	58223	58570	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVESIIYFIVLYLIHLFSLNYISKRFEIDININFNLLISIIFPLTFLISKSLISGQYLGFSFWISFYLILFYMSIKKQFDLENKQIIKLSLGNLIISLIILIIILIIVFLLFG;locus_tag=LOCUS_06540;note=MGA_658
sequence2	MetaGeneAnnotator	CDS	58613	59452	.	+	0	ID=MGA_659;product=ribonuclease HIII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q835V5;translation=MRVFEKVIEANLIKLKRLGYDSIQTKTQYEKFRYKGDTTITLYTSGKLTIAGKKENEEKAVKFLIAEKIIKIIKQDYEYDFDSNDIYIGCDESLKGDTFGGICLSIFCANKKIRKDLVEIGVKDSKKIIDEKIIYMAKDIMKKYPDNYLTKSIEPYEYNILTQSHNVTQLLNSVYKNMILKLTSKFKINKIYVDKYPGAKIIGIENIIYLEKGESKIIEIAAASIISRYYALKQIEKLNKKVNFYIPKGSTHVKVALTELKNKKLSKINFVKLHFRNTQ;locus_tag=LOCUS_06550;gene=rnhC;EC_number=3.1.26.4;note=Q835V5 ribonuclease HIII (Enterococcus faecalis V583) [pid:27.4%25%2C q_cov:87.5%25%2C s_cov:85.2%25%2C Eval:4.0e-14],MGA_659
sequence2	MetaGeneAnnotator	CDS	59453	59617	.	-	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYNNMTIKKLIFHIILIYLLIGIIGTLYYNGEFIEIFTWGIDFIRGFRETVN;locus_tag=LOCUS_06560;note=MGA_660
sequence2	MetaGeneAnnotator	CDS	59651	59986	.	+	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLASHHQHLRKRKKDKVHPYPHKDPKYQLLDRTIAFVSFVSPFSALPQIYNIWFMKDVQGVSLITWSLLLILGIPLFLYAIVHKDRNLQIMFGLWCVVYLVAVVGLVMYA;locus_tag=LOCUS_06570;note=MGA_661
sequence2	MetaGeneAnnotator	CDS	59979	60596	.	+	0	ID=MGA_662;product=methyltransferase related protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868858.1;translation=MPKMNKKQIEIEISKLLDFSEPKFNLEQYTTPSSIAMEILWDAYNDNLIEDKIIMDLGVGTGILSIACGLLGAKKLICVDIEKQNEFETNMSTYDLKYEFIQNDLSENIELPHVDLVIMNPPFGVKNKGIDISFLKNSMNCSNNIYSFHKASTKEYVQKFIEKNKFSIIKTFNFKFPLRNKMAHHTSKLKYIDVICFKIKKRIKL;locus_tag=LOCUS_06580;note=WP_010868858.1 methyltransferase related protein (Pyrococcus abyssi GE5) [pid:37.7%25%2C q_cov:95.1%25%2C s_cov:94.7%25%2C Eval:2.3e-30],MGA_662
sequence2	MetaGeneAnnotator	CDS	60619	61059	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRFYLLFALIIISAIIGNVFSNDSPLSGMAIIKADSNPYDFDQALELAQVDETIMIMKYLVFGVLLSVGLIYRRDVVTSITKKTNNISNIINEKRKLKQKMDRDNKNLSLDKQIKQRKDNLKDISNDIDKIKKDFYKNKKNNIY;locus_tag=LOCUS_06590;note=MGA_663
sequence2	MetaGeneAnnotator	CDS	61060	61722	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNYKIRKFEPKDTKAIKNICADTGFLGEKIDTLFSDRELFTQLIRNYYLKHEPEHILIAESKGKVVGYLFGSLKPNAHFYILLNQIIVMIKILFSFLIGKYKKYPQNKKFIKYLLTKAPFELVKTPKNYAHAHFNIIKKYRHKGIGTDLIKTALKQLSNKIKKYKIKGLYGEVFSYAHKSEAYFEKAGFKIYDKKKTNFLKDKIKGNVYVLCITKKLF;locus_tag=LOCUS_06600;note=MGA_664
sequence2	MetaGeneAnnotator	CDS	61719	63059	.	-	0	ID=MGA_665;product=threonylcarbamoyladenosine tRNA methylthiotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251014.1;translation=MTLIYIQTQGCSANQDDSSIISNKIIENGYDLTSNEDEIQYSDLLIFNTCTVKNPTEDKFVSLLKKYKNENKKIIVTGCIAQSLKPLIKKNSKLISIRGMEKDEKKLNDIFENISLVGVNQIDNIINAIENEFNNKHVQLLEDKQLIKSNINRDAKVIQTVQILTGCLGAPCTYCKTIFARGKLVSFPLNDIKKRVEFLVNNGTKIIYLTSQDNAVYGMDINSNLPTLLNELLSIPGDFKIRLGMGNPDHYMLYKKELVEIFKNDKMFKFFHIPIQSGSNKILTHMRRGYTIEHFNEIYDEIKLEIPDLVFATDIICGFPYEDENDFNQTLEIVNKCKFDVINISKFYPRLGTLAAEYEQLHNDIKKERSKELSLLHNKIAFENKLKYMDKELNVIVEAKNGNDLICRTDNYTQVIVKDNSEIKIGESFKVKIIETSTWHLIGVLI;locus_tag=LOCUS_06610;note=WP_011251014.1 threonylcarbamoyladenosine tRNA methylthiotransferase (Thermococcus kodakarensis KOD1) [pid:35.8%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:9.0e-71],MGA_665
sequence2	MetaGeneAnnotator	CDS	63156	64565	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKPILMSVLGSLVLNYSNIANNNNILPPLDIKIEQKKSILDYTIDSIRNTLHNKTGSIRGKDPRSRLLRQTYATKNLDYLQSTLMGQSHALTNSNNIKTLDEIVGTGPKSNIIFSLNQLILLNKLYTQLDEDTKIVETDPMIQFTQSIENQYETLDLFQKGNAEELNAFIIPLVKHIFESENILGPQQTYSIEEVKKLFLHLYNLQKKGIGKYVDSVEINDRFGKNKKSDCDDGAFITNILISELLQGTGYVKPIKIQGMFTKFDSGILHYRQFVSIDHHNKYAGFFIENTTTPQSQDYFSLVSHEEQKKIKKGFSKKTLSPAKNIVVDSLLNHKELQLTYLIRQNPSVSFPTNYLETLQLFKQNLDKSKIKTKDKEKYEFHINYQMFKTITNIVQDSTFYAGHDIKKIYNVLQLAKRKFGEKFVTLRNNSLYQSHRYQIEETLHEGVKIFKDLERKIQLSLHKTRI;locus_tag=LOCUS_06620;note=MGA_666
sequence2	MetaGeneAnnotator	CDS	64545	64958	.	-	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLFKKNNYFESVKIIEDVKDIHNKLSNPSCWSNSIDTFLNILSHSKRISDIEFSKKNYSKALKLYLSRLNNGAINLNEDKSFLYLKIGNLFRLLNEDEKAIVSYKSALEINPDLDSSISCFSVLIDRKRSNSSFM;locus_tag=LOCUS_06630;note=MGA_667
sequence2	MetaGeneAnnotator	CDS	65183	66106	.	+	0	ID=MGA_668;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878796.1;translation=MQEYKIRCPECNSKNLYHSKDSINCKDCGLVLEDNLIDFGQDWRSFDNQTEDKQRRTGAPMKWSQHDQGLSTEVGTKSDLNVLGNKDKSKFMRLRKWQYRISTAMERNLKLALAELKRVSSFLKLPLAVDEEASRIYTLAVQKGLVRGRSMESVVCGALYAACRKHDVPRTLDELSEASGIEKKEIGRTYRFITRELQISILPSNPADYIPRFASALKISPEAQSKAVEILDQAQTAELTSGRGPTGIAAAALYVASLLNNEKRTQREVADVAGVTEVTIRNRYKELLDRLGLEDTIKQIKKKESNN;locus_tag=LOCUS_06640;gene=tfb;note=WP_010878796.1 transcription initiation factor IIB (Archaeoglobus fulgidus DSM 4304) [pid:57.1%25%2C q_cov:93.5%25%2C s_cov:90.2%25%2C Eval:1.3e-88],MGA_668
sequence2	MetaGeneAnnotator	CDS	66112	66456	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTNITELLPPGIDIVSIPYFSYLQELLNSLEILIGGIFGLYLIYLIFVGYQTYKLSTTFRQLNRTLAMIRDDLETKNNKGSKKKKSNNKKFHSKDKNLKSKFIKKVKTIFERI;locus_tag=LOCUS_06650;note=MGA_669
sequence2	MetaGeneAnnotator	CDS	66507	67244	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVIHMYTKAKIDVNKVLDNLKPHLNKLPKKIGLATTIQFIDYLDQVKQFLIDNEKEVFIGNSNINKGQLLGCNTNTISDIYSKVDGLLYFGDGIFHPKGLTVHMRKPLFCFDPFSYEFKLFENEDFDKIIGRIKGAALKFFDSKNVGILVSTKSGQSHLARAEKFAKYCESQGKKAFILLNETLDFNSLQDFNFIEVFVNTMCARIGYDDTVKIFAPTINFDDLLNFLDDYEDKNAYNLMQIKM;locus_tag=LOCUS_06660;note=WP_011020763.1 diphthamide biosynthesis enzyme Dph2 (Methanosarcina acetivorans C2A) [pid:30.9%25%2C q_cov:88.6%25%2C s_cov:63.3%25%2C Eval:6.1e-21%2C partial hit],MGA_670
sequence2	MetaGeneAnnotator	CDS	67245	67598	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLDFLKTNINGIYENGFFKPEDKLSVVIFYEHFLGLHYFKSVSEYISTLSLRFTAGKINEIASDEIFNNPNLKKEAKNLFEDGYLVEHMNGFGISNKGIDKCKELFQKYELNRFI;locus_tag=LOCUS_06670;note=MGA_671
sequence2	MetaGeneAnnotator	CDS	67599	68177	.	-	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLENLVSTVFPNVSFEAINCQINSVFNNLFYIRHALGKDGEIVNIPKFRTMVFNADELLFDEIEKNGIGSYGKPDNDSRVTPIGKILRKYWIDELPQLYSLIRGDLSLVGIRPGGKNDWKLFPDELKERTLKFKPGFLGVLYASEKPLIFSQIIDFYNDYLDQREINPIQTQLKYGTKIIYNILIKGARGK;locus_tag=LOCUS_06680;note=WP_011101325.1 multidrug MFS transporter (Lactobacillus plantarum WCFS1) [pid:36.8%25%2C q_cov:78.1%25%2C s_cov:67.1%25%2C Eval:1.0e-16%2C partial hit],MGA_672
sequence2	MetaGeneAnnotator	CDS	68289	69707	.	+	0	ID=MGA_673;product=inosine-5'-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9X168;translation=MIPALSYDDVLLIPRRSGVKSRKDVNLTTKLTKNIKINNPIVAANMDTVCGSKMAIAMAKLGCVGVIHRFNTVQEQVEEVRKVKRYRNAIIEDPLKMGPELTLKEAKKIMDKHGISSTLIVDQYNELIGILTSRDIRFRPSDDVLISELMTPREKLITATPLITAPEAKDLLMENRIEKLPLVNEDWTLAGLITGKDLHKRTLYPNDSLDRKNRLLVGAAIGVKSDSIDRAEELIDAGVDFLVIDIAHGHSDIVIDTIFKLKEKWPDTDIIAGNVCTPEGTRDLIKAGADAIKIGVGPGANCSTRIVTGSGYPQVSAIIECSKIAEEYNIPIIADGGVKNSGDMMKAISAGTDTIMIGSLISGTRETPGNVIVKDGHKYKLYRGMASKSAKDSKDNKDKKKQDDEYVPEGVESIIPYRGTVKEIIIQLLGGVKSGMSYCGAHTISEAKGLRNFVKITAAGMKESIPHNQYKQ;locus_tag=LOCUS_06690;gene=guaB;EC_number=1.1.1.205;note=Q9X168 inosine-5'-monophosphate dehydrogenase (Thermotoga maritima MSB8) [pid:48.8%25%2C q_cov:99.2%25%2C s_cov:97.1%25%2C Eval:3.5e-129],MGA_673
sequence2	MetaGeneAnnotator	CDS	69745	70440	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLYRNIFAEQGLKPEINDQSVSLRNDNVCFLYLPENHSLSIKDFYRSHLLVNRISEKGSIIVKLNSEVLIPEFFYRHLNKQLKEFEKDVRETIDYNTKLKYNLISVDIDYNVIENFISRSEINTKYRELAIYKHNCPNLNEIEIKKIKSCFDRHKIKFDTKLFNKLKLLFHHDQDILSSMEGANLEYQNGNFSITLNEKQLNFSLNENKMQFDDLLFLNTALFRQKSLSR;locus_tag=LOCUS_06700;note=MGA_674
sequence2	MetaGeneAnnotator	CDS	70482	71249	.	+	0	ID=MGA_675;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949043.1;translation=MTKIISWNVNGIRAIEKKGFFEWLHKESPDVLCIQETKADKSQLSETILNQQGYESHWSSCRIKKGYSGVAVYTKIKPNKIEYGIGIEEFDQEGRFIILHFDAYILFNIYFPNGSSGNKRVPYKMSFYDAFYKHCQTLLNEGKKIIVTGDVNTAHTEIDLSRPKNNEKNTGFLPEEREWVSKFIELGFIDTFRMFNEKGENYTWWDYKTRARERNVGWRIDYFFVSNNMKEQINSSIILNQIMGSDHCPIKLELK;locus_tag=LOCUS_06710;gene=exoA;EC_number=3.1.11.2;note=WP_011949043.1 exodeoxyribonuclease III (Clostridium botulinum A str. ATCC 3502) [pid:55.3%25%2C q_cov:99.2%25%2C s_cov:99.6%25%2C Eval:2.9e-85],MGA_675
sequence2	MetaGeneAnnotator	CDS	71250	71642	.	-	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKQTPDLQKAKSLQIMAKITLERLNKTDIEKYPSNTLLDYYDIIHKLMDAILLKDGIKIKGDGSHKELIDQMFKKNYINQQLKIFLQQMREYRNRISYEGFMINLNYIELNKKYIKEIINSLFNKLNL;locus_tag=LOCUS_06720;note=MGA_676
sequence2	MetaGeneAnnotator	CDS	71639	72178	.	-	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQKSNMIKIMDLYFDNPNEIYCLKDISIKIKLAHTSVKNNLNNLIKLNLISEIIEKRGKRKFPFYKANVDFDLFKKYKIIYNISKILNSKLIDFLNDNLMPKSIILFGSFQHGEDLVNSDIDLFIECKSNNIDLKIFEKKLNRKIQLHFNKKFNNYSKELKNNIINGIVLSGYLEVFN;locus_tag=LOCUS_06730;note=MGA_677
sequence2	MetaGeneAnnotator	CDS	72239	72406	.	-	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGKLVEAIARLFKNKFICKNCKTSIRTTNLKVIKKEVTCRSCGGHKFRPVRLKK;locus_tag=LOCUS_06740;note=MGA_678
sequence2	MetaGeneAnnotator	CDS	72421	72831	.	-	0	ID=MGA_679;product=translation initiation factor IF-5A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249829.1;translation=MGVKLVAVGQLTKGKYVVLDGAPCRVKSTSTSRPGKHGHSKVRLEGVGLLDGKTRVIVMPAHDNIEAPIVEKLTAQVLSVNGDMANVMDNETYETFDLKIDDDVEGEVVEGCLVLYWDLMGTKVMKQVKTQQEQDI;locus_tag=LOCUS_06750;note=WP_011249829.1 translation initiation factor IF-5A (Thermococcus kodakarensis KOD1) [pid:39.8%25%2C q_cov:91.2%25%2C s_cov:94.1%25%2C Eval:4.0e-26],MGA_679
sequence2	MetaGeneAnnotator	CDS	72904	73665	.	-	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVNKNIYFKLVIANIIFFIFVLIMSVLINDNLNEATVDFDSKLYSLEKLDQITESQYEYLENYLSSKINLILFFIITYPVLLILIWGGFNAIENNIMHKRKTNLFKLKSWIFQCGLILLFIFILLLILLMFSSLITFINTFLLNIIFNQGLVDFFIITLTIIFFIIMVFYIKLYYLITINENFSNAFNSVFNKKIFTLKNILKLFVLLITFFIVIIFLFLINDDNLFYFSLAIFLSLFFAYFKLLLYTLIYE;locus_tag=LOCUS_06760;note=MGA_680
sequence2	MetaGeneAnnotator	CDS	73667	76285	.	-	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKYLILILIILFSLSSVIATYNPFLDEEVIPQKVQDAVDHDSDVVELQEDKKKTIETKIKIKKDTKNEESKPVEFDNEFYKQLEDKNFQTTVNKQCATVKTWERNQFKDSKQCIEFFTLNSELIPTAPNTITQDTINTLIKQDKEFKALQTLYGKTDDESKKKFNTDKTKFCGETGNAYPLLCVTNKEDIENAMLGCRIGSGDSIQKFSQSQNYCNDGVIETCLNGQMIQTNFCGNNGCQNVNKNAICNGDQLYTCKKEGDIACFPNSGEFKFCKEEGKTNFWATANCRPGYQCNKHNAGTGCCKLVFDDKKPKYECYDINKDGTFESEMTPVDDIDNIHKPIDPGISALWRKSSIGQSYNNLIDEIFENSFFKNLNPEYLICNSKANKLKQFGKTVGNVQQFLSTKNFNVHWDGSYSPLYQEVSLYTLTWSIKANEVPKNLESNKKINGAVCYSDEECLSNDCNLYVGAGEKSNSGFCQGTQETIKTKINQAVVFLLGDLDVELLQTVANYINNPSKKLPADYGDIPLKIIEFDNQKVFSADLDKPLLGTVEFESDGRWNFVCLWFIPSHVNNQINTKIIKPGLLGCQPIVNRDLDPKIETSSTSTFSNSDQLYFNQNNKLFNPLNSVSRVIDVNDFLINENSNKPKVVETINTISKHRTFFSNGRMIGWPMSYNTNKEIIKTFNDDFEKAQLIPNPISLADVVNNYFYFAVKGRSGTVSINSEQLSGLTAEQVNTISNPDMILRIEQKDLQTDASKLKLKYDLSFSKKAGFNPMDIKIQLYCTKEYLSGHFNCPKEDIAISKNIYQKTLNPGESLVETSLIIEDVKSNQMFNQAKLIIDGQVEQTSEIISMSLPPFECIKNQDNLFTC;locus_tag=LOCUS_06770;note=MGA_681
sequence2	MetaGeneAnnotator	CDS	76275	79817	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKLILIIFVLIFTVSLVSAELTSQKYKLSISGFDEIDGVYKEQDEIKINAIFEFNDDDILFNLGSSSQELKDFFNSIELRSTATTVSQIPHSWNGYHFDPDTDCSIIAGTNNLECTISNQLNNRPEEMIISLYGTAGLIIESKGVLDNHIPILEISDMDEITKINLTIDDLFEGTCSGLKNITFSAYNINLDFTNSKCNENIIFDIKDYIDSSNLQGEFSFDTDIIVSDVFGNSITEHISKFIDFCEICVKNNLVYSKTKLDFINIQTKPEIVNLCVNTSAFSGIKAVYYNAQDTKLEAENKGVNIYCTHEVNFLQTASLSFSIVSNDPNIATLEYNADYSIDFARAGPVITSIDIGQVITETIAQSELSPTNQPDTFPEKNIFFEGLSYYSSNFPNTIKVKIDWDVSKLDINSIGIKPSEGITFTKDECIEVYISPNNKSGYFECYFDVNLPQNLPESFAVMIDENTKNKENIKLNDQSIRKIYTLDNNQPELIKYEQKDKNKNNRYISQYSQFILETLISDIDVGLSPNSIYVDFSNLTIDPLNPVLVNGNCDTSINPYKCNFEFQSEVESGYYNVTLHAYDKLNNKKSFPIEITVFEYVNETDWFYYDIDKMVPQAFDRAKLHKSSPSIFLFGSIKSTRPDGEIIETEIGSPENSRCWANINNLDLYKFIDEPKIKLLDEDEFGNKRFQLTVRAKTTKEPTPDTITIMCPIRIRGVSGTQVISDTQSEYDKLTFTISFVNKRSAKFSETVADKIIAAGNNKFITNKWIGKFSSMLNKFEKICKIAQIGQKVYDTLTKLRAAVYIVAKALDLVGVGEPLWIGFNKGIEAVRCSLSGVQPSQQGGIFGFFRKACTHLNCNGKSNLATKAFDKINKNIYDSSKSITSSVSNVVSKIEKSDKNIIQSELVPTQTDASNSLIGAIGSFCIPDIIKGLERKRVIECNYINCLWDVGLLGGNMAQCDAFKSYANCKYVMGEITGLLPSLNLFDNLKNNVMRRLKEIPERFLQDKLGGLLGQFQICDQVLSVSGYTTGSNNQFAKCLGGKPAPSLKNGPKVHQLILCGVLESKLQGKDLKEIFLPVDEIKDSFKSVDDNPDLEKFCQNATTYINEAKDIKAYINDNFKATQSVSIASDNAAEDQEFKLNLFQQTSQPLTEVNNESPTSSSSGENSGGIVSEN;locus_tag=LOCUS_06780;note=MGA_682
sequence2	MetaGeneAnnotator	CDS	79814	82129	.	-	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKAQVSVFIIMGLILLVLSSITLYVINTNNKTNLNKGIELPEESIVADTFIPIQVFVKECLNNIAYNGIISAGLHGGYVDLKDRKIYGTGSDGGIYNELSRTDIDDSTESSRLIKDGFDIPYWSYNKNPNQVDRIRLSNKLVPKLKRNYQSNNLDLTIQEYQKDHSIEAQLDRYVYHNLNLCLNDFNVFKEQGFEISYDENFRPLVTINDGYINLFLDLKLNINNGELNQKLDYFIDEIDVDFKDAYEIAYDINTQLFNNKPFLSEYTMQMIFENSGLETDQLPPIYEVSTNQRPVKWSIPFIKNIFEYNLMSSIQDLNFPRTKNYINVSQSNIIEDTGHTAQLISQFENAAHELNTYDILRDDYSHLGVNMFYLGWPTYFKIDQAWANKFLTGVTYDNYIDFAKLQETIYDFSYSFSYPVIVEIDDDDAFVNSKVGKKGFTFTTAYEVNVKSNNVEINLPQTLISVESDEEDQIITQFCDETQHILKTKINVFDDDELLLDKVPEFIYSCDGGIDDISCYIDQETNGFHYFPTCMNAKITFVDENYENRKFDIGDMLFGNFNEELNFTLAKVRKFNYDFKKILHGSLDLVIDQGHSMSTLLLNVEPDEMAEVRLERIQDNLNDPEFFESIYTGPDDRSLQEIKLIPGFYKVDGNYIKLIPALYEKNGETDYTFKLIVGDFTDEDIKRKEEEGHIVLTEIPYGILDAVLNVKKNMHLANTDSTLFIFPTFAFPPRSIKDIPKFSSIFYEKNKLMSGTGLTPKWVYEGAIK;locus_tag=LOCUS_06790;note=MGA_683
sequence2	MetaGeneAnnotator	CDS	82609	82878	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLENYPNFKKWTFYAIVIWIFSIIAYSFCFGNVSGWGQLGCTYFLFPTIPILIDIEVSLPLELINLIVLILLGGLIGFIKDKRSLSKN;locus_tag=LOCUS_06800;note=MGA_684
sequence2	MetaGeneAnnotator	CDS	82886	83368	.	-	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITIKEASKDNFEELMFFRLLLLKHDSHLDSGVHYTIENIQNSVKFMKEYLKKNDNKYFIAYHNSLPIGYLHVTHDDKENKQNSYLSELYVLDIYRSFGIGKELTLFQWKYLKKMKITNNTLTTTMYKNKRTIDFYKKSGYVLIKENKIENIVYLSREL;locus_tag=LOCUS_06810;note=MGA_685
sequence2	MetaGeneAnnotator	CDS	83424	84677	.	-	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGFYSTIILLLLFLSLFSSFSSSVELTINAGWNLLDFNISKERLVSPGNLSQDLLYYFNSPFNTSYALLSYEYDGGNNTYNNYFSNLSTQGINATNYMPTRACWVFSATSFSTNISILSKQDQEKRSSILNESYSLTEGWNLISINNLMINRNLSNFQGDCQVAQSYYYDSANQEWIRQRSITSDLLGLGLAVRVNADCNFTMPVDTYDIAVPVYFYPSALWDNLTNIEILIINPNSGPGTSPDANYVTKVQEHSDKELYGYIFTSYGARDIDVVKANISLYNDFYNITNIFLDEVPSGWDTYYQNLSDYINGTIILNPGVYPDEEYMNVSDIILSFEDDYDAYTSVTEPAWVSNYTKYRFWHIVHNATSFSNVTNISDDLNVNYLFITDDVMPNPYNTLPSYWDEEVSFANDLD;locus_tag=LOCUS_06820;note=MGA_686
sequence2	MetaGeneAnnotator	CDS	84712	84948	.	-	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSSIFLLILIFVLLLSYLVSIKNDYREFSLDKDMCENYFNDCNCFGELIIMESYPQQYICNGFDYCNDINITECTK;locus_tag=LOCUS_06830;note=MGA_687
sequence2	MetaGeneAnnotator	CDS	84950	85957	.	-	0	ID=MGA_688;product=lactate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880437.1;translation=MKKLKIAFFGLKDNEQNYFKKKLKQFTLKFFNESISLDNVSKIKNFDIISIFINCKVDKKILRQLPNLKLITTRSTGYDHIDIKECKKRKITVCNVPIYGENTVAEHTFALILSLSRNVHKSYIRSLKCDYSIDGLQGFDLRNKTIGVIGAGHIGHHVIKIAHGFGMDILVNDSHPDNFLLEVFDFKFVKLNELLKKSDIITIHCPLNKNTKHLINKQNMKLVKKGAILINTSRGGIVSTDALIYGLNKKILSGVALDVIEGEQLIKEEKELLHDNTSNLALKELLKDHDLLSRNNVVYTPHIAFYSKEAVERIDNATIENILGFVNKNNINIID;locus_tag=LOCUS_06840;gene=ldhA;note=WP_010880437.1 lactate dehydrogenase (Aquifex aeolicus VF5) [pid:35.2%25%2C q_cov:96.4%25%2C s_cov:95.2%25%2C Eval:1.8e-51],MGA_688
sequence2	MetaGeneAnnotator	CDS	85957	86466	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLYLFLILVFSIFLIGCSNQEVSPINETVVDEANEIIDDKTDILSEEEQIEKELIKQEMIEKEALENREAEVIEVKFEKEEKPEVVIDFDTSIGSEDTEEGETIRNLTYETCSNYCCGDKDFCGTCIWPEYGTCWNDCNDNSPDADCDAICWQGNNDFMANTMETC;locus_tag=LOCUS_06850;note=MGA_689
sequence2	MetaGeneAnnotator	CDS	86566	87228	.	+	0	ID=MGA_690;product=translation initiation factor 6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868639.1;translation=MNARKMSFHSNSNIGLFAYVNEKFCLIGNVITEEQKKEIEETLEVPVYEILIAGTPLIGIFVNGNEDKIIIPSITKKEELEKLDELQIEYQIVDSKYTALGNNILIGNNQAFVNQNLEKEAIKQIEDFLKIKLHNIDLGELDTLGSIGVIHNDTGVIGEFIGQNKLNNLNKISDIKFSLGTINQGSDYIKSGIFKNSKGFVIGEMTSGVEIINIEQELFR;locus_tag=LOCUS_06860;note=WP_010868639.1 translation initiation factor 6 (Pyrococcus abyssi GE5) [pid:29.9%25%2C q_cov:99.1%25%2C s_cov:98.7%25%2C Eval:1.5e-25],MGA_690
sequence2	MetaGeneAnnotator	CDS	87225	87911	.	+	0	ID=MGA_691;product=TIGR00289 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251230.1;translation=MKVAILFSGGKDSVFSTYWAHHQSWDIKCLLTIKSKNQHSYMFHTPNIDRVKLQAEALDLPLIEQETEGKKEEELNDLKILIQKAKDEYNIYGVVVGAIASEYQRIRINQVCMDLNIKVLAPIWHRNEINYMNDLIKSNFDIKLISISAYPLNEKYLMKKINKEFLNELIKLNEKYGLNICGEGGEYESFVIDCPIYKKKIKIIDYQIEQDTENSAKIVINELKLINK;locus_tag=LOCUS_06870;note=WP_011251230.1 TIGR00289 family protein (Thermococcus kodakarensis KOD1) [pid:44.3%25%2C q_cov:88.2%25%2C s_cov:86.0%25%2C Eval:3.1e-48],MGA_691
sequence2	MetaGeneAnnotator	CDS	87962	88108	.	+	0	ID=MGA_692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIILISGGTGVGTSKIALELAKYLDIPHIIGTDIIRESIRSTVYR;locus_tag=LOCUS_06880;note=MGA_692
sequence2	MetaGeneAnnotator	CDS	88584	89189	.	-	0	ID=MGA_693;product=phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439458.1;translation=MSNNIMITIYLLRHGKTELNKKSVIMGQIDSPLLKTSLESPKKLFKYLKDIKFDYIISSDLGRAFITAFLFAKELNLTHKLSFSKDLREINYGIYANKKKEEVKKNCPEYKADKKYIFSEGESFLKVQKRAIKFIQNLDEKSYKKNKNILLISHAGVIRTIQAYFNEDELNDVLDVKISHSYIGKIVINNSKLIDYKILNN;locus_tag=LOCUS_06890;note=WP_003439458.1 phosphoglycerate mutase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:30.3%25%2C q_cov:84.6%25%2C s_cov:80.3%25%2C Eval:3.2e-16],MGA_693
sequence2	MetaGeneAnnotator	CDS	89338	89658	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNQTQELISIIENTNVESNKLNDVLDPQTLKQYPLDKILDVARVKGLTLENGYFKSNTIIVGEEEYQLSVDQLDYLKRNGISVSTGILPSEKERFYQTYGKYLK;locus_tag=LOCUS_06900;note=MGA_694
sequence2	MetaGeneAnnotator	CDS	89659	90366	.	-	0	ID=MGA_695;product=UPF0758 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I683;translation=MTIKGVEEVDSPREKLIDHGIEVLQSHELLALILRNGTKDQNVLNLSRSILMNWSLNELFESDINDLINISGIGIAKATQIRAIGRIFELLNENDVDSVVNVRKVKNTKKVIDIIKNQYKKYYCDIINNEMETESLIVIYIDKNMNLINTSFLTSHLKKKIFLSNSFLLKECILNKAHYTIIVHNHLKDKLSFSKSDKNSYEKINNLLEKIEIKLIDYVIFNRNGYLSIRNDEKK;locus_tag=LOCUS_06910;note=A5I683 UPF0758 protein (Clostridium botulinum A str. ATCC 3502) [pid:30.9%25%2C q_cov:97.0%25%2C s_cov:95.2%25%2C Eval:3.4e-18],MGA_695
sequence2	MetaGeneAnnotator	CDS	90459	90674	.	-	0	ID=MGA_696;product=histone;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877303.1;translation=MVRSESKILPLAAMEKLLKRSGAERVSEEAKVALRDLIEEISDEICAKAVKLAMHTGRKTVKASDVELASK;locus_tag=LOCUS_06920;note=WP_010877303.1 histone (Methanothermobacter thermautotrophicus str. Delta H) [pid:54.0%25%2C q_cov:88.7%25%2C s_cov:92.6%25%2C Eval:1.4e-13],MGA_696
sequence2	MetaGeneAnnotator	CDS	90871	92250	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLIFFLAVNAFLAIDILKEFSVKLDVDNTIISKIYENNKAIEIISKLKINKNKDIYTDTINFINIENAEAIYSDGTISKIKISLRNNYIFLNNQETVNLRLLLIGIDNNKQIEGIRFKLLSSVNTYYDQISNDNNILYINLEELNNEFEKNKNDLSFKIKNLLNNNQLIELAQLNSQGNILGYSSLFSNNIIYYISDDILYLINLKTGDINEVKSLDSIFSNNIKQNKINDNIMTNYNNELFIISDLGFISKYNPTSNTILKFSNNIIKPVSNSRNILSYDNNIISNFDEILIINEILHDASNNRGNEYRIIFENEILDMYEYEDTLYIIEDSNNNNIHIINLKQLLSKLKHSDKNIHEIKQFNKIDEIIKLNIDGISHIDAENVYANQNNKILKFNKNFEEGQKENYLHIKNNIKIFQNRIEFNDINKDIDVKKLISNDNGAFIIDNNNKLFFLKNE;locus_tag=LOCUS_06930;note=MGA_697
sequence2	MetaGeneAnnotator	CDS	92243	94333	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKGQVATFIIIGIVLLLITSLTLFAIKFKISNVPDTYSDPVNAINDYIKQCLKSSTQSSIAELLDNGGYTNLDNFVIPRLEYAGDELKKIPLWIKKNKVNRPTISKMQMELTTYINEDIKGCINSLDIFNEQFDIEKLNIKTLDGEKEFEAHAEIFENNVISNLYIPLRIFPKGSNTYTQLENFEIKENTKLLRLYKLASEVLNLQLKTNFLENYTMETVQLSPLPSEGMRFDCSAPITYTYDEAVNGLLKPALKANMDLIRFKNTNYLDDNLYKLKVNGLNQDAKNIPLEIDGQVQIDSGGNVLYETIDNYFPYYDNLYSTKTSNNLFEDIKIRTIVDQNSLISTDFHASPNKNNYIIQEDTLKSKSQKGIGKIMGGFMSLIPMFKNCIKVQHHFYSFNYNTIFELAADNGEVFRFALPINIHRNEPKETTSVGFVSDIDDEMSRQQMHEFYCAGERLVKKRLGAEKDFGSTTKSLDNVNISYDCAGVVCEIGTIKKNQVNNLAISSLQFPVCENGKIIFEKEGYQTKERYTNTHILNPNQDDDDMLIIEVLTKLKKFQFKDKLFSNFLVIDKELNKRQLSENESIVITISSEDFSREYFYPLFEDEENAFIELIDKKEDYDLDIKLLKDGEFSGAYFGKLNYDPVYHGNKEEIIFYIFESDEKLNSAESFSNFYNNIVVPQANTFKPIMLDK;locus_tag=LOCUS_06940;note=MGA_698
sequence2	MetaGeneAnnotator	CDS	94335	99761	.	+	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLNMMNSKLIILIIILIFSFSLINAKFSNVHIKKSLNSEIEITLNTPNNLKVEIEVFEAQTSERIDQKESSPKTNHYLLLRGLTLNKDYILLLKTYDDSGRQIDHLNNLKFKFVSNYDYSNENEYEGYIEGELFLQNEEIIEEETNEVEENNEEPNNQEPNTNEVDQNENIIDPSSENNPDENIQTNENMILKNFNFISQINKINLTFETNHNSRIIITYKNEFSSPENKLVQNKVAYNYVLDQLLSGTKYEITIKACKMSDLNNCNEHIQNITTLSSSTNSNIQSDIKTNIKNGKVGQYLIINGTVDKNSIIKIYRNKNFNFALPEKLTQSTQLKINESGNVYGFYENTNDGPITYTILIENNGETKVIEYNAEINLEGPGLHITPIPGVVAPEFSLWGYVSKSSQIIYRVNNETINTSNENSVFNNVLSLGKYKTDEDRATIQIIAKDDYDNIEVEEFIAIIDDTAPEIQFDEDLKDIMSGNKEYHFPVLQLKGYAGEPNVRLYAVNFGNGQNSIAEFVVDARPTNPLAQIELKDGTFQEVIDKGMFDIAVKNLKGGNVAEDVIAKLKEHVDENRESFSHTDQISMYSMIDISLANSLKSLFTPIIDNNLNIYEVTADENGNFDFPIVMLQSGTEESDVHINNIGILAIDRVGNLKMFQYNVKYDPGEGAWTIGRKSKFPNSVYAMDWVETDMPVVLSYEFLYTGPGKNKIEDVAISVNKENNEFSDLWTIDSKRIRKKYDSNKGILKTEIPLKLNKLPPNTNVLDLPEGLDLEMEVTITSTLNDDVLSNDLKEQAAFGRRHIKQTVVIEIPETKWLNPKLVEKLIGVFDKVHKNLQKAIDVTKKVSVYTTALCGGLSFFSSLPFLGQTIDKSVLFGVCDRIACPYIPRNCQATNINEDGDTRTFSDEETGANVKYKFSDGSENCKPYGTDFNLIETESTYLNVDSNSDFRGGGLPLASGNIYSTQKTSYCLKMNQEEFASDSEGLFNVAPPGQNSCFSAGDPQYDDLKCLGDNNYFGEPASNLISSLRCGCVSGVLGNLQKYDNTIDAINSCLRQTQLGKFSGKYCEKLIAQSTCDILASAMRNVKNNQHKYGIPKIAGTTFRSTNPIGIIAQSKSSQKSIGEFFNDRYSNSAVSSKFTLGSQEMVHSLCIAAITGNYDDLTAFFESTVNINTPPQIMPIAGDSRIIYKSELAGEMDIKYTINSMIIGGGNTVEYKLQLQCDRNERGGEWCPQDRIELKTIAEGVINKNQRLDRGFVYVDQGAQWWYNKAVLEYKYNFNDKETVRSVSTGIMKRGDVSTQCNFNLHQGFDCITVDGFDVGTVRIIPSITEGLTIYPKNTNVIYPGDLLQGKISIEKINYNETDLWLNIKQKIPEDYIGPRISLMTEADILSINENAKRKKNTLMIPLIKKDGKPNLEKINDYTYIFPILKIPENTKAREEITFDKYQFFTKSQILDNNFKHSKLFQNSNDIEDSDLVKSITIKSTNLKIGKFSAFDKNKNEKQNANHIKNKELKIEFDNNKIQFANFVLNLENIVLVDSTKNLDLDFSINICKPVTIPPATPECKSYEISKNIDVSVETTQGYNSGELIFNITLAKNVNGGNIEFDDGDKPIIYSEDGREKVQNKIIRINLKDEPLSEDSCRTLKPELEIIKPIKNGYLCRDEDKKDNYNKIQAIIHHKCTSYFNANLDNYNFNIEVTLAGKNYISKDIKFILNTPNQNYDSSTGIITINKLFAEQFRESNSESYNKLNTIMNEINQNDLVNKDHYVKLKIKKKKNDNPEQWNKVTEKRQTWAFARNTNLCS;locus_tag=LOCUS_06950;note=MGA_699
sequence2	MetaGeneAnnotator	CDS	99763	101133	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867549.1;translation=MNLCNKKCQKNNSCIYKQCPYNLFKSINTNIINKNNYSGPLVNTFIGSFNYPNVNMSVIANYKKDFNDIDDVTEWKNKKLNINDILLRRIHAINSSKQNNVKSVKTNDQKSLRTFNINKPINKNKKYEIEKQCINNSLLVKNSFEIDKIQNKDFMQNIQLLSLSNKNIEGEINFSSRIQSKIQFDSYTKPFGPKVNLKNFSIEENVHVPTVVDKIINDDLNANEALIKLNKKNFDSYYLTKIFSTGNLGKNKRIVPTKWSITAVDDSLSIQNLKNIKQFDIGNDYMIYTDNYLGNHYIILFMPNQFSYQLNEIMIDNTMDLFDSHLKKVREINLNYNYDYENFYGRKNYATNTAGAYYAARYSISQKLMELKRQYKVAIFRFISNEYYVPLGVWVVREGILKTLQTKPIIFQDEELVKNYILQLSKKKYRVNINNIFKESKIFNEKEEQKNILLFT;locus_tag=LOCUS_06960;note=WP_010867549.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:29.7%25%2C q_cov:81.4%25%2C s_cov:77.6%25%2C Eval:7.9e-46],MGA_700
sequence2	MetaGeneAnnotator	CDS	101165	101833	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNELKLLLFEPKKFFKLKKNESSHFTILLNLFIFVIINSILYNLLEIFTSNKYGFNPFIFIIFIIIMIIFILIFSIIQTLFSSYLESAFNHLFVMLFKTKYTFLETFKPTTYSKIVTILYTIILLPFIYMIKPFIESKQFNNTFFILITLIFIILISTLIHSFYVKAIGISHYHKLSFAKSLWSAILGNLCILVITLGLLFLIGMIFVIIFGSKIPNVIF;locus_tag=LOCUS_06970;note=MGA_701
sequence2	MetaGeneAnnotator	CDS	101848	102012	.	-	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MACNSVETEYIQVQTEIPSINSNSNSGKVNISFDGRGPNETINDTQEIINESIN;locus_tag=LOCUS_06980;note=MGA_702
sequence2	MetaGeneAnnotator	CDS	102255	102989	.	-	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLELPNQNFIEFQVHGVRNKIPVIYCVGFGESKDDLHNLEFVRNISKDFFVVSFDYRNTGKSSGSIENLKTSEMVSDLNSLLDYCKVKFSDKNWNDVAIVGWSHGSIVALIFSSKKKVKNLILIGYDGFFEHESDFSKAWKKLGILPDLKSFQKGKLLPNRRLPIKYGYHIDLMKYNKRDIIPKSKAEHVLILQGSEDEFNKTKRDFLLLKQNYKVKKIPKTGHELNIQQVIPQIKKFISLNS;locus_tag=LOCUS_06990;note=MGA_703
sequence2	MetaGeneAnnotator	CDS	103787	104602	.	+	0	ID=MGA_704;product=integrase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964234.1;translation=MNSKVNIILKFNEITKLKGFSKDTIKAYKFWIEKYIKFCNQFSFNHNIESVKRYFLIKDQIGFNSMRQRYAAIKFLFCQILKIKKFYVEIPNVKRPKQIPKVISKNKILTMINNCKNIKHRLVIKLLYSSGIRLSELINLKKQDIDFDQNTILIKSGKGNKDRITIFANSIKIDLLKYFSNTEFKTKYLFEGRSGKYTKKSIQLILEKYSKVINQKVTPHMLRHSFATHLLESGTDIRLIQELLGHESVRTTQIYTKVAKTNILKIKNPLD;locus_tag=LOCUS_07000;note=WP_011964234.1 integrase (Flavobacterium psychrophilum JIP02/86) [pid:38.6%25%2C q_cov:97.4%25%2C s_cov:78.1%25%2C Eval:3.5e-44],MGA_704
sequence2	MetaGeneAnnotator	CDS	104665	104904	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLCMKFQIYQCNNCGNIQASTSKKTFKCFNCAKSIKILIKNKSGSNLKILFSTNDSSEAPFMVRELKRLKYEGKFFV;locus_tag=LOCUS_07010;note=MGA_705
sequence2	MetaGeneAnnotator	CDS	104946	105341	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIKGWKPIPISLKIIFVLFILWIFGSIMSISMRYELGLPFFGNYISGFIAALIVFLLDILGPILFLYGLWNRKSWTNMIAYIFISIFVLNSVFALIYFRELLGIMPIVIPALVYLVFMIIINLNKNYFE;locus_tag=LOCUS_07020;note=MGA_706
sequence2	MetaGeneAnnotator	CDS	105408	105959	.	+	0	ID=MGA_707;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022624.1;translation=MATYWTIIAIIAAIVLYIIIMYNGLIRLRNEVKNSFANIDVQLKRRTDLIPNLINTVKGYAKHEKEVLTAVTEARKLSMDANTIEQKQKAANVMSDTLKSLFAVSENYPDLKASANFIQLQEELTGTENKIGYSRNNYNDMVLLLNSKVESFPSNIIANMFGFRQEKSFEINEAERKNVKVEF;locus_tag=LOCUS_07030;note=WP_011022624.1 LemA family protein (Methanosarcina acetivorans C2A) [pid:53.6%25%2C q_cov:91.8%25%2C s_cov:92.3%25%2C Eval:1.7e-47],MGA_707
sequence2	MetaGeneAnnotator	CDS	105966	106868	.	+	0	ID=MGA_708;product=protease HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E160;translation=MINVHDQIRRNKRNTIFLISTFLVVIYALSWILGAVWGNPYMGMIFVIPITILYVLFAWFSGSNMILATMGAKPVKKSEFPHLFHTVEGLAIAAGVPTPKAYVIDDTALNAFATGRDPEHGIICVTTGLMNKLNRQELEGVIAHEMAHIKNYDIRYMMLVTILIGIITLLSDFLLRTFLYSSMGGDRRENNQMTIVFIVIGIVLAILAPFIGHLIRLAVSRQREYLADATGARLTKYPQGLADALKKIKGDPDPLVDKANKASAHLFISTPFRKKAGSFFSGMFSTHPPIDDRIQKLERM;locus_tag=LOCUS_07040;gene=htpX;EC_number=3.4.24.-;note=B8E160 protease HtpX (Dictyoglomus turgidum DSM 6724) [pid:41.9%25%2C q_cov:98.7%25%2C s_cov:94.4%25%2C Eval:3.6e-64],MGA_708
sequence2	MetaGeneAnnotator	CDS	106872	108119	.	-	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_083774553.1;translation=MIIMKEIIKQKILDFKLKESKQRDIKINLKTNSIITLIGPRRSGKTFLFFNMISKLNKYVYINFEDDRLNIKEPDEVLDAIMEIYYDQDLKKFHFFFDEIHMLNNWEKFIRRINDEVTNNIYLTGSSAKLLSTEISTSLRGRSISYQVLPLSFKEYINFKNIDYSKITSQKKSEILSEFNKYLMNGGYPELINYDKYTREKQLKSYLDVMIFRDLIERFNIKNITATKYFINKNINSVSTFSSVAKTFNQLQSLGVKVSKDFLYELADHVQDIFLFFYLEKYDKSISKRKIADKKIYCIDNGFINLISAKEDYGRLLENIVFIELKRLEKEVFYHKDKYECDFIILEKGKIIQAIQVTKSISEDNWEREINGLLESMNKFNLKEGFILTSDFEDKKKINGKKIIIIPVWKWLLNI;locus_tag=LOCUS_07050;note=WP_083774553.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:37.5%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:1.8e-65],MGA_709
sequence2	MetaGeneAnnotator	CDS	108229	108975	.	-	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYDYTSSAKHYDILEAEPSIDVFNKLLNKLLKKNKVKSVFDITCGTGAQAIFLDKNGYDVTASDYSSGMIKIAKQKYSKLKFSQGDMRKVRKGKFDSVISIFNAIGHLSKSDFEIAIKNIANNLKSNGLYIFDILNYDFMKNNFITHEFIDTCRDVDGVKYVRFNNNKLNRTKQIMSMNQKIYIQNGFNKLNISKKAWDMQIYSSNQLKKILDKNGFEVLEFLSMDGKKFDKDKSLFILTIARKKN;locus_tag=LOCUS_07060;note=MGA_710
sequence2	MetaGeneAnnotator	CDS	108972	112232	.	-	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFLFVLFVNSVTASCYNASADPIPLCSCEDLNLTRVDDTADYQLQNNIDCSNTSVISHSLNYGGAGWLAVGSNADRFPGTLDGDGYNISNLWINRSSTDYQGLFGVLTTGSEVKNLGLVNFTINGSIRTGGLAGANWGGTINNSFSTGYIEGNYFIGGLVGHNTGTINHSYSSVDAYGYRGNPAYIGSLIGYTDGGKVEYSYATGNVVSTNSRVGGLAGEIYQGYIKNSYAIGNVTGSSTTGGLVGISTSATISTSYALGNVTSSGSSIGGLVGFMQSSAIVNNSFARGNVSATSSTGGLVGYKQISSVIENSYSTGTTGDDGFMGQDSGGSCDNNFWDNQTSGVTTDSNNCATGKITSDMKNIETFTDLLTVGLTTAWDFLNNPNNDSANLDFWHIDPSINDGYPFLLGFGFANLLGDIYSPTITINIPNDNSFSTDTNLDINFTVTDAVGVDSCWYSNDTMSVNNSLASCANITLVTWSEGQHNVTIWANDTSNNIGSDTVSFSIDNVVPLVGFNNPSDDDIVSNSLIINVTVNDSISGVDTVYFNITNSSDQIAWLQSTNISEEWNYTYDLTSLPSGYYNITVYANDTVGNLNNSISINFIVDNTTPLVGFNNPSEGESVSDSLIINITANDTYSDIDTVYFNITNSSGQISWLQATNISNEWNYTYDLTNLSNGYYNITAYANDTLGNLNDSILINFYVNNTDGDGDGVIDALDTLLYNESNVVTSGITTLNITVGGNSTVGSFLNVQKLLFYDESDLIINFSHNFSSSNFDLNQTIISKTSNSILVNLSGQLQNSYNKTLYLDDNSFVGLCVKNEEISSIDQISSNCDGSNEIDFDTCIGNSTGVTISGVTCTDQGSIIKVENLRYSAVLGIQASPSVSSSGGGGSRAGSIVKNMAVYIKSVCVDEPINLIVEGINSNNLYSAKYFVYDGNDIYNDNLILKKVMYRNKSISDFSLIENFNLDNVGTYTILVRSYGFYDVKHTFNISECIKINVNNEIKFNEEELIIESNENKEDILNISLENKIKNESQLEINKSNDFNFGWKLFILVLVILIIIRFKINSDKININKRINRGYKKKFKK;locus_tag=LOCUS_07070;note=WP_011405576.1 hypothetical protein (Salinibacter ruber DSM 13855) [pid:30.3%25%2C q_cov:29.0%25%2C s_cov:43.8%25%2C Eval:1.7e-26%2C partial hit],MGA_711
sequence2	MetaGeneAnnotator	CDS	112400	114310	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFETLCNYFEKLSNTSKRLEKIEIISQILLATPNDLIERIVILLQGKVLPIWDNRKLGISSRQIINIIKTMCSKSVLDIENEWKKTGDLGLVAMNLLKSKNQQTLFSKKHNLKEIFDTIVKLTETVGENSTKRKQAMIANIYSNINSIEAKYLTRILLENMQMGVGPGTIKDSIIWAFLPKIYLINYNLNKDFVKENKKNKDKIKEKLVESGLNIIDIDNFDQFEKNYINADNQNLFYSKDEKLLREIYNFYSNKIENAYQLTNQYSIIINTIKEKGFFKITKLNSKVMNPIKAMLFLKAKNIEHAFENVGKPAAFEFKYDGFRVQLHKKQNEIKLYTRQFEDVTNAFPDVIKDAKEHIKANEIICDCEIVGIDINNPEKILPFQKISKRIKRKHNIDQIIKEVPVRLFVFDIMLIDQNSLLNISFENRRKILEENIIDSNKIQKSKMLISENINEVEQFYKKALDLGNEGIMAKKLNGIYKPGNRVGFGMKIKPTMEPLDFVITGATWGEGKRANWMTSFTLSCKDDESDELLEMGKVGTGFKEITSEEENDTDISFEQMTELLKPHIKKENGKEIEIIPTIVIEVNYEEIQKSENYNSGYALRFPRLSRLKSDRDPYDISPLSFITDLYDQQN;locus_tag=LOCUS_07080;note=WP_010867667.1 DNA ligase (Pyrococcus abyssi GE5) [pid:41.8%25%2C q_cov:61.8%25%2C s_cov:68.9%25%2C Eval:4.4e-85%2C partial hit],MGA_712
sequence2	MetaGeneAnnotator	CDS	114307	115173	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLNISEFNSQSIMSLVSETFVNLETYFRIINDGECLAPEEFYETKDFLFGESSNLIPHFFIENIEDLDLVKKKKIDNIIFSFDFLTAHLFLKKLKSSSEKNSGVKNSILNYKKILDLYNPNVKLRLNISDVCLYYEMKSEIELNLDKKFVLPYVVSQNMDRGLLKERLPNLKDDNSNLLYIGSEVLYANKMGFLSAFVEKPFGVDINNLSSHLGGITLNLNGLGEDAKSYFLINDRKQYLTCVKKLILNGFLPPKNEYYGNLENSVLDSIRFEHMKLRMNMRAHNS;locus_tag=LOCUS_07090;note=MGA_713
sequence2	MetaGeneAnnotator	CDS	115490	116077	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKKIKNLFYDKKKDENELFYANEKTIDNIIIKKENEINKIKNQLLIKENPLSTFTIRKYEQPLKLKPRDLIKRFILSIGMLSPGESRDVIVDILYVMLQIKKRKKNLTSKEITNKVIINRKKHKLEMQGIAESNIRRQIKRLRDIFIIEKIKNEYRITENMPIEQIFHGKIKPYLLNEILMRVSDYTKEVDKI;locus_tag=LOCUS_07100;note=MGA_714
sequence2	MetaGeneAnnotator	CDS	116099	116998	.	-	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKLIVRPILEKWNLSVTDEFWFFLSLGILSLVYTFKDPGIFGPLIFFVGAIVTLVLNNSIFFRRKFFTSSQVIINSFLSKLSQKELHDVLDFIKGHELDSKQIRLLLNSNFKDNYTLYEYIYRYQNFQSDLILFIANRDLYKIMGIDLFLKYIFKVSDFVSLKDYKKLKAIFKNELKVLKAINIMYPMYLKDNDRFKLYASINIGIRNTLNFGSFNIIAFLFSLFLIAKLVIFDYNTYLDPLGYIGIYYVLEIISKFAIFFILVTILSYLIIYLVNFLVNLYTKILFIYSPLDSKIIK;locus_tag=LOCUS_07110;note=MGA_715
sequence2	MetaGeneAnnotator	CDS	117149	117559	.	-	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000553178.1;translation=MDFNVNIISIIVATIVSMFIGMVWYGPLFGKVWMKLVGMSKKEIEKAKKSGMAGTFIMAGVSTLLFVYVFSILLKNLAITDLLSGLLWAILLWLGFVCTTLLQPILWENKSPKLFFLNSFHKLVEIIFITLILVSF;locus_tag=LOCUS_07120;note=WP_000553178.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:28.1%25%2C q_cov:97.1%25%2C s_cov:95.2%25%2C Eval:2.5e-12],MGA_716
sequence2	MetaGeneAnnotator	CDS	117648	117887	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEIVNDINNSTYNNNSKTHHNKFKFKLYKMNGFKAILLLITIFYILIKIGWNILISLFDPILIILIIITIIVWKFF;locus_tag=LOCUS_07130;note=MGA_717
sequence2	MetaGeneAnnotator	CDS	117865	118587	.	-	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEPLLNGKSKIDFSINGDFIDILPTFDERLLPRIIQFNPRLPTINEGSFLAYSNSVESSNSPKRAKTQLILEFFLDDFFNRLVKSENFDSIEYIQAPYQTNGCNIEFCDTGSYIKGSCNGSDQPINLTRLITIEKDGHKQVIIANPTVSKKLKRDLSLERELASAIIGDKNYDLFHLYAITSDSFDELLMPGRKRNNFKKEFCSVVEYLKEPTNLLLVYNFEYGSLMAKSQWFKKTSKQ;locus_tag=LOCUS_07140;note=MGA_718
sequence2	MetaGeneAnnotator	CDS	118684	120375	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNPNRVEKENYLQISDISPREIYSLSDLDMSDEYNSVLSKILPNEVSGSLILGVLSYYLDVELLPEQRFVAQGHFHSSTDYKRRDIRHLMKKVGDTFGYFVKELVELVGEAGEADFEYKKPELHVIQGDLSKPKPKKTSVPLETILESKPSTTIKKDSNTKYVKVPKPVNKKKTTRTKKTEYINKKLEQTPIYDSNDSDLYDDIPELDESKNATEFVEVSADYFDLDSPNSLRQIKPVYGIGEGTEIDSETIVKQITANDVKNAYTKGMDASVDKSSNSYLSDIKNEDTVKNYLLEIGKIPLLSVEEEIALAKLIEKGDKVAKSKMIESNLRLVVSTAKKYTKRGLHFLDLIQEGNGGLIRAVDKFKYKKGFKFSTYAIWWVRQAITRAIADQARTIRIPVHMVETINMVRKVQRMLTQKNNCNPKPNEIAEELGLTVDKVNEIITYSLDIASLNQKVQMGDSEATLESFIPDDNKPVDNDVNKLFLKEKVGEVLKTLTEREQKVIIHRYGIEDGWEKTLEEVGKMFGVTRERIRQIQCKAERKLRHPSRSAKLKHFYLDSE;locus_tag=LOCUS_07150;note=WP_001283055.1 RNA polymerase sigma factor RpoD (Staphylococcus aureus subsp. aureus Mu50) [pid:54.4%25%2C q_cov:55.4%25%2C s_cov:86.4%25%2C Eval:5.2e-82%2C partial hit],MGA_719
sequence2	MetaGeneAnnotator	CDS	120376	122730	.	-	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGILSDNSLANKRGWVSIFKKYGAELNTCFSKSELLDILDCADINNFDLDPFFTNDVDEIELAMIVENLKSNIPEIVGAAQVIIEDHKIKKKEIKKSDLKVKLSKKEGNSDFNFSSFRSYDSKANEPVYGLSNLIMGSNLLNFNIEKKPLTQIAEPFKLFNQSKISIKIEPVLESKHYIKPVEPKLEALVSSSDVSKTVSIISTPITVESSDVLEPQSIIPTPIKVESSSDILEPPSIVEIPKPLDSSDEIYDCDNFKKEVDLSKISFTLNEVGDILKHSGSFFLAKSLLKKVFKKKGVPHFKEDGVIKYHLDVIVRFFKQHEGKILNEVKRKLNIGESEPDTNVDKNIDADKNLEQKLGESKKLNLRQTKKTHSTDLDPTKNYNITNIDKVNSLDELLSSKVIARDLYLLVSFDDNFDMDFIRFSNNLSKKLKFTDGYYLGESIFSKKLYRDKKGKLEQLFSDYKQFVEKEKDILNLYLNQGVSLNLLKELKFLDSDADFLKLPRIKFAEKDRYKGDPNASSLVSILISRYPKQRNEILTYVRNVIKERNLYESKKKSLNKDTIPDENDEMQMFTLPNIYAIHERSLVENSIPFDTLNARIKACHGDGENGLYSEDVLKEFCGESYSYAIDEEEIFQKQFESVLKNKVSLSEVYEFVCSTKAYKLPKDVLQIWLGGSVNGSGDDSMYSLSLVAQVFPEMRDAIMDGTFKLNLEQDLNSGLDSKSIVESPLDDVYLSAGGLIEKGFDEDKTWDVLDNHEKDIPVQDGEDVLYNLNKFKQFYDGI;locus_tag=LOCUS_07160;note=MGA_720
sequence2	MetaGeneAnnotator	CDS	122815	123903	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKRLDYVDIFRGIALLIMVTIQIFDFLSVSSIYTTPPYYVEMIHSVTWFPPSLLFTFVSGMSVFLLLRKRMSGSQPRSKLKVLKEIFKRYGKYILISLPFTIIMWNIFIYLRWEEAIQGIGLTAIFTAGFILMFYKILKKMRLSSYLFLFSIIILFAFLQSQMYYIVDSTIVGEIGPRQPDLSSPFSVIWSVILNSLFRGWFSIFNLFPIMLGGVILINLIMQGIDSKKLVFYSALYFILTFVIHFLGLPINYYGRSFMLTHYAVSQSALICSIALWFYNNFTDRITSSILNFLKQIGYAAFFLYVSHYLLILKVLEISGYKDLLPDLHAWILTIPLVGIMYILSKWYLKIRSKLPKVLQL;locus_tag=LOCUS_07170;note=MGA_721
sequence2	MetaGeneAnnotator	CDS	123900	124655	.	-	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKKLNCFIFLLLIILIFIIIFNNINNSSYCDGGVISFTFDDGTIDQYINAYPIFSKYNITGTNYIIAGLVGNKFENKTLMNWSHIKELQNSNWELASHTLTHNDMTKMNDSQIEFEFSESKRILNNNGFNIISVSIPYGHYNDQIKLIAKKYYNSIRPSTWGYNDINNFDKYNISSIWITNRTQMSFLKKIVDNTLINNTWTVFMLHLVTTNNSYEYSIHPNILENLINYIKAKQIEIKTVSEIIMCDR;locus_tag=LOCUS_07180;note=WP_005810758.1 polysaccharide deacetylase (Desulfitobacterium hafniense Y51) [pid:33.9%25%2C q_cov:43.0%25%2C s_cov:32.2%25%2C Eval:3.2e-12%2C partial hit],MGA_722
sequence2	MetaGeneAnnotator	CDS	124652	125140	.	-	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSINGNELVRKLFKDKSYRPTAVCIIKNDKNEFLLVRSSRNNNHWYFPQGGIHFDETIQDAFFRELYEELSIMNLELSTPEINLHYGELTIRNYDLGEFNHGKAYFFVFSNYYGPGRFYLKKDEVNKYKWADSKLTKKLFSQSMKAKADLNIEAMNKALKK;locus_tag=LOCUS_07190;note=MGA_723
sequence2	MetaGeneAnnotator	CDS	125233	126069	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINNVILVYKKSSYELKRYNSRYEQHVKLAHKRQKDTLNAVINFLKLKKIKHQIFYRAELNKILNADLIISVGGDGTFLEVSHYVLNSPILGINSDAQSSTGFFCHANKNNFKEIIENIEKEPKTKLTRMQLSLNDKKIKQLVVNDILIAHKNPAATTKYEAILNYNKNIIKLKNKDSGLLLSTGSGSSAFMYNEGGKKFDIDKDYFIAYARANRNSEFFYFEDAKIESSSYLGRIYIDGPHLNYSFKLNSILKITKGIKLNVIGDLNNKRKKIEE;locus_tag=LOCUS_07200;note=MGA_724
sequence2	MetaGeneAnnotator	CDS	126069	126752	.	+	0	ID=MGA_725;product=tRNA (guanine-N(7)-)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7VDU8;translation=MENKKNLEYLDKYYSLKSIGNSIDYLSKKIKRIRAHVNPFKFLDKHQFEGFKNNNPIIIDIGCAKAEFIFELYKKLKNYNFIGFEVRPLMIKYLEQEFEKYKNIIFFSGNAQNNLINIIEPNLKKNIKIEYIFINFPDPWIKTKHIKRRIINKEFLNQIYQLFEKYNVKTKIIIQTDVDFMFNDIKEQIINSKYEKYTLFDKPIFNIQTKWEIDSIKKKKTIYRLLI;locus_tag=LOCUS_07210;gene=trmB;EC_number=2.1.1.33;note=Q7VDU8 tRNA (guanine-N(7)-)-methyltransferase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:30.2%25%2C q_cov:85.5%25%2C s_cov:95.8%25%2C Eval:3.4e-15],MGA_725
sequence2	MetaGeneAnnotator	CDS	126788	127534	.	+	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYYYIFLSSIIVSLISLIIILPFLKLFNNKKILLALLSLSVGILFGNVFIHILPEIIELYGYNSNIAISIILGFFIMFLIEKFIHHHHNCKNIKKEKQIGHQHAYHLGTMNLIGDGVHNLIDGMIIASSYLINIPLGIATTISIIFHEIPQEIADFSILIYSGWEKKKAILFNLLSGLMSIFGAFIAIILNNSFNNFLYFIMPFAAGTFLYIATCNLVPELHRHCDYKNTLIHIISISIGIIIMFII;locus_tag=LOCUS_07220;note=WP_010881181.1 ZIP family metal transporter (Aquifex aeolicus VF5) [pid:24.7%25%2C q_cov:75.0%25%2C s_cov:74.9%25%2C Eval:3.6e-08%2C partial hit],MGA_726
sequence2	MetaGeneAnnotator	CDS	127531	129177	.	-	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDDLKKKDICKEIERIKSSPRFERKNVRHKDLKVNSRIKKFLGSLKSSEIEDFLGKPIKKYPVTWIKFSQSIEHIYYIMLGIYRDDFGIKDIKKTLDTYTGSEISQVGNQLGQKQGIFQDRITNLLTGIGRMSREMFPILRNIRVIEERLAFYDSYFKLDENWETADLNLKNIWNSFVLGGVQSPQSIFGMAQQIQFTTLPTLFMNNHKPPHMSVKKFLESFGFKKKNPQYSVLLLNALAEKVSAYYNWLDNSYHELMQRKKFLIQDLRRHYNVLKLNIDWLLPYLKVERRLGSKTQRLSDPEILSFIDQMLMEMEIVARIDRPDDKKIHDKKEYKGFYFVSHFDFRTRPQATQGGQVTHVGRTELIFNLYEWTDEQYEAYLLLNDVKNFELVGGFVDQLNDIFNNYKEELELVLASKGEDIDIPGTDYIKEDKLVEQAGLKNDDEDKKDEKKDSIIEPFIGVFKGGFELINAMAGGNLDKETLKKTMSKLSGKTKKEEEEKEINDNQQSDFQDESRDKAYAQFNIMTELYKKKIGLISWAEIVLRD;locus_tag=LOCUS_07230;note=MGA_727
sequence2	MetaGeneAnnotator	CDS	129192	129572	.	-	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKKTKKNVSTNNKKSTIKKIALDSKPKIDNYDTNSKYLILNEIERMNLNLLRTNSLLSKTVMLYFVIIVLSVILFILKYFDENQFKFLAIIGLLTLALGIFPIMINIWQQRQQFNDFLKLFLKK;locus_tag=LOCUS_07240;note=MGA_728
sequence2	MetaGeneAnnotator	CDS	129574	130005	.	-	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGVNKLIYRSIGIIILIGILFLINYLIKSGIEKFDPCQSAVDFKITNKYQEQVGDNIMFNITIKNEGIAIGNFAYQVVNEDEFGVGLADINQSLEVDMIKSFSYSFSKSVLKNKPIYKIQILPVLKSQLKCTKKKKIIYFED;locus_tag=LOCUS_07250;note=MGA_729
sequence2	MetaGeneAnnotator	CDS	130070	130753	.	-	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKLKQFYRYIVYDESLTSLVLSTVISLLFIIFIFYPLLGWSLNSNFPIVAIQSGSMHHEGSFENWWGSKADCSNTFCKQSEYYTNINITKNDFLNYDYSNGFNKGDVMVIMGKDNYQIGDVIVFQTNDPTPIIHRVIKKKIVNNNTIYQTKGDFNEKSIFLQTRFYTLIDEFNINEKNIYGKAVFRIPYLGWIKIIAWQIFVTPIYLIAIIILIGIYYYFKNKLF;locus_tag=LOCUS_07260;note=MGA_730
sequence2	MetaGeneAnnotator	CDS	130805	131491	.	-	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNELSGEDKKKLFEKLDKVIENHKHAKINSNENISLDKSNENLDATDDYYFNENNKSKKKIFKHNFNFDFNSNKFFKRIVENFDKISFLQSIAYAFFITIIYLLLTFIFFKFVLVKSTIETFNMWVSIFWIALLAFDLPLFPVILSSFWAMAKPKKMGLIYSMSNSVIYFILIFSVFLVFGLTKNSLFEGPGIFFIILIFITCLIRGFLGFILGEWYKNRLDNSKKK;locus_tag=LOCUS_07270;note=MGA_731
sequence2	MetaGeneAnnotator	CDS	131674	131943	.	+	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDEFTGEEASENEDVQEESSESTDEDDENKIEKAYQDDYETEKSGNDPFELENDDIVGEKSEKEEETEDSDEDNEEDDSEEKSEEKSK;locus_tag=LOCUS_07280;note=MGA_732
sequence2	MetaGeneAnnotator	CDS	131958	132590	.	+	0	ID=MGA_733;product=phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963951.1;translation=MKAVIFDRDGVIIDSETLHIDSVIKAFDTFNIKITEEEKKLIIGRHPEDYKKFFINKNNFQYDKFREIQRKEFRELFKSASLFKETITLIKKLYELKIPLALTTSAGIKSTLEVVENANIKNMFNFIITSEDYNQRKPHPEPYLITAKKLKLNPKDCIVIEDSYVGVESAKNAGMKCIAISNKLTNQDLSKADLIVNSAKEINIDLLNQL;locus_tag=LOCUS_07290;note=WP_010963951.1 phosphatase (Clostridium acetobutylicum ATCC 824) [pid:35.6%25%2C q_cov:97.1%25%2C s_cov:98.1%25%2C Eval:1.8e-28],MGA_733
sequence2	MetaGeneAnnotator	CDS	132632	133888	.	+	0	ID=MGA_734;product=enolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875683.1;translation=MIIKNIILSKILNSRSQWTICAKIECDKNILGIASAPSGASTGKHEVKMYKLNDIDKSIYYFEKNIKKFNWKFDSLSDLKNIEKKILKNNNINQVGGNLIIAIEYAILDAWSKYKKIDLFKLIRKDKLTKEICIDTKLLIRPIGNVIGGGAHSGGNNTDFQEFLIICPDVSYEKSLEIIIQVHKEVKKELLKRDKSFSGSKTDEGAWASTLTNYECLIILNKVIKNLSQKYKTSIRIGLDVAASEFFKNGFYNYDKFESSPKIKHNCIKKKLHRDAHIDYILYLVEKFNIYYLEDPVEQNDSEGFEIMKNHLAHKDTLIVGDDLICTNPQLLKKYKDSINSIIVKPNQVGSLLKTIEVLKKCKEYNIKPVFSHRSGETTDSILADLAAGFNVSIIKCGETTGERIVKLNRLLEIDRIN;locus_tag=LOCUS_07300;EC_number=4.2.1.11;note=WP_010875683.1 enolase (Methanothermobacter thermautotrophicus str. Delta H) [pid:33.3%25%2C q_cov:98.3%25%2C s_cov:95.4%25%2C Eval:3.7e-55],MGA_734
sequence2	MetaGeneAnnotator	CDS	133945	134670	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTISASTHNKYILIFDADSTLVKIEGINELAKYCKKYDEVYQMTDTAMNGTSTIPFQELYKRRLDIIKPTLSQIKDLGQIYLNNKVAGVDELFAKINQRKIQNHICSGGILQALSPLANSLNTNSVFGVKLHFNEDGSFSHFDPSSETSQDYGKNKIVKQLKERHPNKEVIFIGDGQSDMETKFNPITKQIDSNYSNYFIAFTQVEPREKIMEQADFVATDMFHLESILNREFGLELGKRF;locus_tag=LOCUS_07310;note=WP_003020703.1 hydrolase (Francisella tularensis subsp. tularensis SCHU S4) [pid:30.5%25%2C q_cov:71.8%25%2C s_cov:36.7%25%2C Eval:6.8e-09%2C partial hit],MGA_735
sequence2	MetaGeneAnnotator	CDS	134725	135522	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001208285.1;translation=MKEKIKALCKDIEKKYNIKILFAIENGSRAWRMHSMDSDYDIRFVFIRPVDNYLKINSEKDVINICFDKNFKDCKPEGALIDISGFDIFKFFSLLHKSNPTTIEWLISDIVYHGKQIKSLVDYAKNKFNQATLFYHYQSLCKKNYLGYLKSNKMRTHKKYLYTYRGLINALWVKEKNSIPPIKFVKAIDGVKDYLPKLIINKLKEIIKLKSQGKEKDLVDKSFPLDQFAEQFLKKEYKFEKKDSEVLKNNLDFLNKEIQKLLFQK;locus_tag=LOCUS_07320;note=WP_001208285.1 hypothetical protein ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:33.8%25%2C q_cov:99.6%25%2C s_cov:97.3%25%2C Eval:1.5e-36],MGA_736
sequence2	MetaGeneAnnotator	CDS	135574	136917	.	-	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKSMLGLVENENTAVNYLETVYGLAVKGEDNLNRLEIVDEILKINLSSYAFTSLKLKVLEDEADFAKQNHLFGYFDKYVLQLIDVLMEGKDFPKLKRKLTKWNSKKFTDYSIESILTKTLNLDFDHLSSNIKLLTCGVNIVDTFISDSDERKTILLEKLHGVNQKGLSDAEEANRNGSSYNIFLYKSSFAKSFENLGGLDNLMKSLEVYGSIGEVINASRVESKISTEKSHELLTDAARVCLKKGKIQDEHGHYNPNFYHSGVILEKFVILQDKFTEHASKIDFDKTSNFYEIGFLKHLSKLNLERAASNFVGKYAQHIQNKEKTMERFVIINLEIKLAKMYEIIDFNEEARKIYHSASELATEYVWADSEMILRCMDSAIRLAGDNQSYVEEVLSFKESFYKNQDNTVGLARLALDRGDVEKSRQYMVLQNLKDKSEALTIWPL;locus_tag=LOCUS_07330;note=MGA_737
sequence2	MetaGeneAnnotator	CDS	137105	137683	.	+	0	ID=MGA_738;product=hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026183791.1;translation=MEERIHKILSFLQEIEKYKTVERKMYSSNLKRTESDAEHSWHVAMFLFLFEKELPNLDMNKMLKLALMHDLVEIYAGDTFAFDKKNQATKKEREFESSKKLFSQLPEDLNNEFTDLFNEYEDVKTSEAKIVKSFDKIQPILQNLCSEGKSWKEHGITFSDINDYKRKHMEHNNFILEIYEKLLNDAKKRKLI;locus_tag=LOCUS_07340;note=WP_026183791.1 hydrolase (Desulfitobacterium hafniense Y51) [pid:34.5%25%2C q_cov:100.0%25%2C s_cov:98.5%25%2C Eval:3.2e-31],MGA_738
sequence2	MetaGeneAnnotator	CDS	137765	138358	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTGLTPKPKPLDDYTTRSIKALDKFLDDEKKYGAFEISNPHEVENFLQRIPKGYMNLHTEDPGNFQFNGFENNGRLMHIVNSSWAIGQPVKLFGYRFNDTLGNFFILNYKAVDPTNKKPFTHIEEKRSEDEDGHEIVTYEPEFATPNHETDILFLLKKSPFNHQQFENPNHYKNLMKDKHNSFLYKLIEQQSGGLK;locus_tag=LOCUS_07350;note=MGA_739
sequence2	MetaGeneAnnotator	CDS	138361	141258	.	-	0	ID=MGA_740;product=excinuclease ABC subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023257.1;translation=MTITNKEVAKLGFKDKIIIKGAREHNLANFDLELPRNKMIVITGLSGSGKSSLAFDTIFAEGQRRYIESLSSYARQFLGMIKKPDVDSIDGLSPAISIEQKTTSRNPRSTVGTVTEIYDYLRLLFARLGTPYCPETGIKLISQTKEQIFNELKKLNGFKAMILSPIIIAKKGTYEKLFETYKKKGYTKVRVNGIIYDIDETPELERYKKHNIDIIIDRLKLNSDTRLFEAVESSLKLSDGIVYIIFEDTTVKTNAEKIKLEDGKIQLNFSTHLYCAKLNKSYRKLEPRDFSFNSPYGACEHCHGLGSNVEFDPDLIINDDEKSIAHGGIEIIKTQNGGDNYLATLISNVAKHYDIDLSIPIREMSSKNLDILLYGTGEVIKFKYTTKAKGHDFHWTKKWDGLIPRLNEKIQSDESGERKIERYNKYIRDVSCGFCSGKRLKSQVLFQKISNKNIMDVCDMPIEEFQKWFDELNFNKNEEIFNPLQKEIKSRIGFLVNVGLGYLNLSRNAGTLSGGEAQRIRLATQIGTHLMGCMYILDEPSIGLHQKDNNKLISTMLQLRDIGNTIIVVEHDADTILNADYVIDIGPGAGVHGGQIIVAGSPSEIIKSKNSLTGKYLSGSMDIDKKDSIRESDGFIEINGACKFNLKNIDIKIPTHVMNCITGVSGSGKSTLMGDILIDGIKQCFLRRKPKSKWFKSFVNNSDVDKLIIIDQSPIGRTPRSNPATYIKVFDDIRLLFSSTKDSKMNGYGPGRFSFNVRGGRCSNCEGDGMIKIEMNFLPDVYVQCDQCKGKRYNEKTLEIKYKDKNIADILNMSVEESVSFFENVPNIHRKLKTLSDVGLDYIKLGQSATTLSGGEAQRIKLTRELAKRKLGHTLYILDEPTTGLHFDDVKKLLEVLNSLVDKNNTMVIIEHNLDVIKNCDHIIDLGPDGGARGGEVIIQGTPEFIAKSGVGYTSKYLKKEMKKN;locus_tag=LOCUS_07360;note=WP_011023257.1 excinuclease ABC subunit A (Methanosarcina acetivorans C2A) [pid:56.1%25%2C q_cov:98.0%25%2C s_cov:93.7%25%2C Eval:4.6e-302],MGA_740
sequence2	MetaGeneAnnotator	CDS	141353	141499	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKEVMAWGAIIVGILMALTKFMSWNESLHYLWAVLVLLWGVLRLQE;locus_tag=LOCUS_07370;note=MGA_741
sequence2	MetaGeneAnnotator	CDS	141587	142174	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTVLDIETTGFSPINSKIIEVYAHTFGKKEKEFHELVNPNRPIPKSITRLTGINNNMVYNKPTIETIMPKLNKFISKSTLIVGHNISFDMRFLNYYNMKINNQIFNNNSLCTLKLVRRLLYNKQVTNHRLNTICDYFNINSNNFHRAKADTLATKELFLKIKGKLENNGFNIDDLSNLQNTPCQKAFKIMHNLI;locus_tag=LOCUS_07380;note=Q18BG8 DNA polymerase III PolC-type (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:38.7%25%2C q_cov:91.3%25%2C s_cov:12.4%25%2C Eval:7.4e-23%2C partial hit],MGA_742
sequence2	MetaGeneAnnotator	CDS	142249	144090	.	+	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSKKTNPDNVEQEIVDEKKKEILEKAGIDENQLKEIEKKIKEIDSKIKLFSDKIVKKFSKYIYSVGLLPPLKKDQTELNTIIIIDDRDSKKLSKEDLKNKLLDSFNEISKEIDKNIVCKIYLLTQIYSTCDEGKFEILDEIKHAKVFHDTGIMDAIKVSAVHRDLALSKFERYIVSYVCAGTVFTGQANEKSDIDAFVIIDDTDVKNISRFELRDKLTNMMYQMVYEAHAHTGVKRKLHVQTYLLTDFWEYLRDGSSPVIMTFLRDGLPFYDKGIYIPWKQLLKMGRIKPSPESIKMHKETGGHFAARAKKKLIEAFCEDCFYATLNPSQGLLMTQGYPATTPKETIRLMRKVYVEDLKLLDKKWIDILEKAVGNWKKYEYGEMKDVAPKEVQEMLSNVFKFVEEIEKVYEKAEIKSHEKIINDLYNQVFLITKEAFNLHNLKINEKELLKLFKKHLIDTDILEKKFYEILKDIVTLKQNPKKLKTESFTIEKFNKDVRSYLSCLNSYINRNKLENSKKSKINLLVEEKDSEIIFFKQKIFIIEDIKDKEKIIKADLQKNQNLINIEKSNIDELKKYEKEGNYSEVLNLNAEFFSKLEEIFGTSNIKVKLY;locus_tag=LOCUS_07390;note=MGA_743
sequence2	MetaGeneAnnotator	CDS	144263	148450	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKGLILLFILIFILSLSSINAINTSGVYLDDNYAISDEDWRYGFINTLVNITRGNDTGGVNIGAYQVNITNSSDTVLWSYLFDNMSIVSDNFTINATFLAIDNIEENYTVSLYLYNSTGNILFENYSQSDTVFVNITGIDLDSIDDFNDAEGNLSFLINFTRATNQTNIDYYEVEIFNSSNDELSILTFTNTSKAYHEYNFLGLLGTTAENFTANVFAVHNATHTDPVGDSENFVDESGSQINTTGMAIDNSFADTDASEGSVSGFINFTRAMNESNILYYEIEIENSSLDLVWETNFTNLSINSDNFSATANFEATTGNGNYTIYISAYDAETGIVGDNLTFEDYINITYNTSGMSLDVFSDDNQNNNQIYGLINFSRATNESNINFYTLEIETQNQVVWNYTFDNDTIVSDNFSVNVNFSNDNSGANYTLNLKVSSDIAETTFATQQFTDYSESCGEFNGNETACFNREFCEWSYHENTCLDSGSSSNLDCGIKTNETACHESGFCEWDSGVQQCFNFFHQSGVQCWAEFYDPNQDQFEVDKNTSVYIVVPIPDETSNCVNFDLASRQPYLDLWGMWDDDFEDDDCESVGPDGFCQKEPKFTCSAYEQGELNADNSSWIFNVSGLAPDNYELSVQVPFGCEEAFGSIGLIQELDGDEVLNLTFGGVTSATGLVVEEDGNPMAYPNIDAYSKEGGSGYAWADGGADGNFTLYGLGVGNYTLSISDQNWSRWYETQIEILNDSVDLGNITFGAGAGVNGYVKLSNNPQQYVWVSLRSKAEGINFNDPNYWHSVKFYGGSTDSNGYYSISGVEAGEYLIEVWPSYGSDATPFEGTVTVDSENKTEYNISLSAGNLIYGRVINDTGHGVEGMSVNTFVEMDWDKMNYEDCQYCGPGYWGWEMTNSTGHYRISGLKPAEFVVEVMPNTWFDESLKSYKTDRRKVELESGEVEANFTLETGIALSGFIFNSSNDPITCGWINAWVQEDDGNEHSRPTDWAWSNINNDGSYSLNGVKTSTEYEIYIEPCYQLNLGGKNDRFTISENTEINYTLTQGGSIKGLVVNSDNEPVSGATVQTWLPHGGGWGHSRTEQDGTFKIKGLSSSTSSEKYELEVFSNDYSFFRITDIEVNDGQETDIGTIKLGGGSTLSGVVKYANDTVIENAFVNVWCESSFGHGYDETNSTGHYEIEGLPNCEYKLFMDVPSTYEHFFNDSVTIADDLEYNITLQSFDLVNINGKIKSTDGTNLSNAFISVFNPTLHSGGYNETDENGTYYISNIPEGEGYEFSIMRFDYEGNYSDNETINSTNLEFNFSLAPINLSAVFNITGEIFNSANNVTIVAINDIDSLITKHSSSNSTYKISDLPHGNYKVYAVKGETEIEYPTLVNQGASSGVDFDFE;locus_tag=LOCUS_07400;note=MGA_744
sequence2	MetaGeneAnnotator	CDS	148461	150878	.	+	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLIFILIFSLNMVHAVPTANAGNQQTVNVGESVSFSATTSSCSSCSITTYVWNLQDGNSKNGVTTTHTYTTAGVYDVSLVVVDNQGEIDSDTVRITVENQDLVSPTLTHTNITSGTAGKIMTVTATITDNIGLSSVKLFYAGLSELTYTELSMSASGDSYQGNIPAAKVNASGIKYYMTAEDSSQNTARYPTQQSTFVNVSDIDTNDSLPPSTIIVSIAGDTKTPYYDADNSDSKSNVIINGESGMSCRWDTNDTSYGNMLNSRVCTVSSAQATCNVTTQTILPSGDGSGEYYVSCIDNSQNENEQNGTTNLDVNFTLDTTVPNIAEFNASLLAFGNIQLQWDVNDSTSDVKSITLFRSTNSTLYGAASQIADSGLVETDLVYGLKYYYRISILDNAGNIKNSSIISITDNSTLTLNKTKTVVGNVSTFTTGTISKYINKIEGLTGVDNVSVFLKTADDLNLTITNATKTFDALRITPNNDSFSGNATIVFFIPEDSFEANGANSSYVYIDHYDNGTFVERIKANFMAAPSGSNGYKFNFTTTNFSDFVPSYVAPTSSSSSSSSSSSSSSGSSSGGGGGGSSLTSSIEIKTYEKSIVLGDNVVNKISIYTTYLKKIEINVKEAVNGKLKTKISTDVPEGANKHSNKVFRYFDIELGIDNNLIESSNLKFRVTNKWLEENKLEKENVVLAVYENSGWTELETELIGEGSTYVEFNSNVPHYSIFAVTVKNAKPSEKTEETSEEEKSVEAENNLDGEVLNEDNNVDFEEEKSSSSTTWLWTFIILLIAIGIGTWHYINHKQN;locus_tag=LOCUS_07410;note=WP_010943516.1 cytochrome c (Geobacter sulfurreducens PCA) [pid:33.0%25%2C q_cov:22.7%25%2C s_cov:20.5%25%2C Eval:6.4e-15%2C partial hit],MGA_745
sequence2	MetaGeneAnnotator	CDS	151084	152973	.	-	0	ID=MGA_746;product=DNA gyrase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RMJ2;translation=MTDYNAANIQVLEGLDAVKKRPGMYIGTTGILGMHHLVYEISDNAIDESLAGHCNNIKITIESNDTMIIEDDGRGIPAGIHPKYNKSAIEVVFTVLHAGGKFDKDVYKVSGGLHGVGASVVNALSRNLEVWVKQNGKLHYQKFENGKKVEDVKEIGEASGQGTKVKFSVNFDIMEKNSFSYEILAKRYRELAYLNKGLKILLEDKRTEEKEEFHYEGGLVEFVEHLNDSKILLHKTIYFEKEKNGTSVEIALAYNDSYSENVLSYVNNINTIEGGTHLIGFRFALLRSVNKFIKVQKLNKDERVTSDDIKEGLTAIVSAKVMEPQFEGQTKSKLGNSEVKGIVEGIVSEKLDLFFEENPNVGKNIVQKILMAAKAREAAKKARELTRRKTVLESNSLPGKLSDCTIKDPTKAEIFIVEGDSAGGSAKLGRDRYFQAILPLRGKILNVEKVRLAKMLNNEVLKTLILALGCGIGDDFNLDKLRYHKLVIMTDADVDGSHIKVLLLTFLFRYMKPLLENGYIYSAKPPLYKIWKGKKIVYAYNDEEKEAIIKKEFDSQSGINMQRYKGLGEMTPNQLWETTMDSKVRIMDKINLFDGAEADRTFSILMGDQVEPRRNFIDKNAKYVKELDI;locus_tag=LOCUS_07420;gene=gyrB;EC_number=5.99.1.3;note=Q2RMJ2 DNA gyrase subunit B (Moorella thermoacetica ATCC 39073) [pid:56.5%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:3.7e-209],MGA_746
sequence2	Aragorn:1.2.38	tRNA	153147	153222	.	+	.	ID=Aragorn_15;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence2	MetaGeneAnnotator	CDS	153257	153781	.	-	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNINKKLNKTLCDALEQSVSKFSDYFMVCPSVETESLESQFDNETIVNINHKYLPITITGEILYFNGGCHLELGFEKISEYNNGNLLFCLGTADEILIEQLKKRTDSDFFEDPIKYNQLLLDMRKKVHEGGYKQFEDFENSLLEPLKIMYNIPVRNIEELKKTISDFELKEFL;locus_tag=LOCUS_07430;note=MGA_747
sequence2	MetaGeneAnnotator	CDS	153890	154639	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILKKIGLTENEIKIYLDLLKSGSSTAYEISKRINIYRVHVYDKLEQLINKGLVTYIYKSSKKHFQATNPSKIKDHLEEKKKEIENQEKDVDKILPELNNMLKIKKEDTYVEIFKGIEGLKYFLKDIIKTEKEVLITGIDDKKYQDNLPLFMKQYFRDLKLKKIKERIITENKKNIFLFDKKLAPTTNYRYLKNNEFNPTNTFIYGNKVVLVTWGNPVTSVMIKNDLIAKTYKSHFEHLWKIASKKLI;locus_tag=LOCUS_07440;note=WP_011020345.1 transcriptional regulator (Methanosarcina acetivorans C2A) [pid:29.0%25%2C q_cov:63.5%25%2C s_cov:56.0%25%2C Eval:6.1e-08%2C partial hit],MGA_748
sequence2	Aragorn:1.2.38	tRNA	154966	155037	.	+	.	ID=Aragorn_16;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence2	Aragorn:1.2.38	tRNA	155072	155142	.	+	.	ID=Aragorn_17;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence2	MetaGeneAnnotator	CDS	155158	155475	.	+	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METERINLTKLLHQDLNFSFSQTETTTLSKAIKDENFYYMWAHNKPEVDIVTLSSEYDPNSLNLYRIHMLNLRPNMQLKNLSPYKKGEEALKFLMGYIGQKNTLN;locus_tag=LOCUS_07450;note=MGA_749
sequence2	MetaGeneAnnotator	CDS	155472	156389	.	-	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEGKLEKNSLVEKISNILFIPLAGLVVYNGIVMNLNNGFTNKKIDPLSVPDTIELKLKIDFKEFKFGVPKELYLRKKNQLRKRDSETKLSDYVTSPELNKIFALIDTYENGNTFPQKVKNFMSNNFTYQNDTTPFFEKLGIYRGYTKYPIETLIENGGDCEDHTVFLASALDYKKDRKFLFVYEPQHVTLGIEKKSGEHKKQLITLTDDMLKLRDQISKKLAEEKGVEPGKITVGEINNALENYKQADKDITKQVYFNHQGVDYELFESTKKGLNIGNIERSDFNITNIVQYEPVKKNQFTKN;locus_tag=LOCUS_07460;note=MGA_750
sequence2	MetaGeneAnnotator	CDS	156537	157151	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLASIALNGLLIPSERKIKVPKKIKDLNRKLKNSPINYELITSINKFYDNLKPKHLPERSNSIYGAINLEEKLDETDLLFEDIVTYIKINFKKFAYVSDQNLGGLIFNLHQSEINLLTEKKLPLDLLKSTEKYALEYWSRVISLEEFEKNYRFHPLERLSNNSWIKREESTNKKLPKYFLYPEIIFPESIPRKYIDIIHSNIIN;locus_tag=LOCUS_07470;note=MGA_751
sequence2	MetaGeneAnnotator	CDS	157406	158062	.	-	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQIITTIGIGLLGLISPKIDGIEITPGYVGYDQSLISNDKKRSRFISNHKIDFNGFELNHHGYNEFFDFKESSYFGRHRFHTPLLKIKDNKIFWDIKLHAEADLYFDEHGIFDERYGLRVYGPASQLGNLFNGGYGYSEITGNSDIIRFTNYSGIKIDDKFGLEFFNAIDYKKNGSVGEYYDVLLSNNVGNNTDVFINGIRNSKNKTIFGGFRINF;locus_tag=LOCUS_07480;note=MGA_752
sequence2	MetaGeneAnnotator	CDS	158184	159737	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMNFLEELGLTKSEIKVYLSLLEIGESSTGKIVDKAKVSSSKIYEIMDKLIQKGLVSYIIKSGVKYFESAQPNRLLDYISEKEKKLEIQKEKIKKILPELELKKKLSNYKSQATIYKGYKGLETAFFESLDLLKANEELLVIGIPNRSEISNRFFVKFAKERQRRKIKSRATINEIARGELQTLKKNLYSLKLKYIQQTMPAAINIFKDRIIIFPEEKDEIILFVIDNKEIAESFRVQFELLWNQDVSTYHGHNAVESIYDSIIENTNKKNEILIYASKPNDKRSSEYNIEWQKKIAKKAKNVKLLYYGQNEINNERLKKVNQTGCISKIYPTSQNLPISTIITKNEVINTIWSNKPTAIKIENKIVANSLKENFNILWNQNTFVVKGIKAIENIFMDMLNYKQIDFIGARGYLIDKSPKFISKWEKLAIEKGFKMRNIVDKEIKGHKITRFPFAKTKYTIPKEYAKLSVIWIYGNKIAISNWTKKEPFAIIINNKEIYDMYKSQFEIIWNMKKFK;locus_tag=LOCUS_07490;note=MGA_753
sequence2	MetaGeneAnnotator	CDS	159986	160348	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQTLFQNVKSLLNTISKFFVNDIGNNISKKINNMNENLQNQFNIFMNSLMRQLMIFLFSIITFIFLLTSGTFYLIEYHNLNYTISFFYIGIILILITFFLHHNNLKRQLEVQNGKKNK;locus_tag=LOCUS_07500;note=MGA_754
sequence2	MetaGeneAnnotator	CDS	160329	160604	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKISRKKVSIKKRASKTVKKAKKNVSSAQKRLESVAKRKLQTAKKKIIQTEKKIKHFIHLHPEKATAVAVGLGAAIGSITTMIFGRKKR;locus_tag=LOCUS_07510;note=MGA_755
sequence2	MetaGeneAnnotator	CDS	160716	162962	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMDIEYSNDVFKQYITSIDGIELNEEISDQPPDLEDSIIFANHISDDSISLAIMSGGSTHKGIPIRNILVPDLDYYTYTKNRSFEDSAIRRDEEKKTEIDLEILNDKEHLEFKKLKEELDNNKFYFESKRYQLGFHYFYVLEDSTFQPYFSSKPVFMDTMFEHLGSDNRHKSKDQLVTNYTTDKNLTKILLREHGIPVARDRIITRKNISKLEKIIKDFTFKTQSKSLVFKANNGSCGDEVIITHPNETKKIKQFVNKHLEYGIVLLEERLIPRKFKVNRQKLDANMRILAILTDHCEYVGGVVRMQSWGNKPVNLSGAANRYNLEDYAKEVNFTINELAEFTRKAGQPLADIRQEHHPIMLGLDITLTDNEFHVIEINSSGSAGYHSLGLTTNHNQPRVKYMVSKLCEVGYQNFTKRKKEKIHFTKRKESYDIRFLRAINCFKNEDYELAEKFLKSLANLIPEEDEYKNLTSEEIKCWIGVGFCKQGIKNEAREYLKDALQYNEMDFIGAFIDSAKDIYEINKGFELLLPKAEKGTRLYKVVQENYLETLFRLNEREKAISLIEKLKPEKEFRTTIFNKLIKNLELDYAKTLLEDLPDTRKGEINKLFYYLETNQYKKSIDLLENNKHIEYGKEGFLFSAKLKEDFKIEKVLNRDYQNQGNNEYSIFLLGMARYLSGQKVQSLILFRNLTKNLSYQPFIFKNIIEFYKSQNDQKFKDLYLNYCSKNELPRTQRLIKEAKQSKNNNL;locus_tag=LOCUS_07520;note=MGA_756
sequence2	MetaGeneAnnotator	CDS	162985	163824	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLILDLFEPFEKMMKCGSEFQEDENSVDELNHILKSGEYLSLAYLEKKLSPHLNPQLEQINGKKIILYRIIDKKESEDFFPTPQIKKELYEITNNLTDYIYDNNINNIMLIDCSARPLYIAIRKLWKNKFPKLKQPQIYFTNPEAYQTSMSFETQDHNNHYLKKFENTYKKLAKKKEEKLLLFDMCAHTGDTLRPIINLLKYNEYNVVVGIAQKNPLFEEIVFDFIALNRECRLKCSPFGIEHMVSKNGFKMLSSPNQNKGNAIQLRKQISKIIDEFS;locus_tag=LOCUS_07530;note=MGA_757
sequence2	MetaGeneAnnotator	CDS	163865	165166	.	+	0	ID=MGA_758;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249710.1;translation=MEENKFLSIQEAMQNESQEVSIRGWIYRERKSKKLAFIILRDSTNIIQCVFEKSNFSQEQWDQIDKTQIETCMTITGNIKKDDRAPSGYEIQANNFQIIGECDKFPITKDQSPEFLLDNRHLWIRSRKMTAIMKIRHTVIGAIHEFFRNKGFYEFTSPILQPNQCEGGSTLFEVNYYQDKIHLAQTWQLYAEAGIFGLEKIYNVSPTFRAEKSKTSRHLSEFWMAEMEAAWFDLNDVTQCAKEEIAFIVQKVLENNKPELEILQRDVSKLENIKLPFETITYTKALELLKEKKDMNIEWGKDLRTIEEEKLMELFDKPIVVTHYPKEIMAFYKPKDPNNDKTALCFDMLAPDGYGEIVGGSQRDTDIEEIINALKKDGENPEDYKFYLDLRKYGSVPHSGYGVGVERIISWICGLDNIKDAIPFPRTMLRKEP;locus_tag=LOCUS_07540;EC_number=6.1.1.22;note=WP_011249710.1 asparagine--tRNA ligase (Thermococcus kodakarensis KOD1) [pid:47.7%25%2C q_cov:96.5%25%2C s_cov:96.8%25%2C Eval:4.9e-114],MGA_758
sequence2	MetaGeneAnnotator	CDS	165510	166121	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELDNKTANHYKEIIWRFCNGNIQIMTALYKGINETPLPFQIDYFSAIRFYTNSWELRCQKDENFLELLEKRKLSKIIEFPLRKNVYFSEDETKKEIVQTYEEVKNEFNKNKRPLLNMMPLEFQMESKEELQLKINQFLINDKENDYKKSKEFLEQLKEPTKIYLSSDETESHSKVLGSNNKYELFQNISNIVIDHLRQSIN;locus_tag=LOCUS_07550;note=MGA_759
sequence2	MetaGeneAnnotator	CDS	166162	168261	.	+	0	ID=MGA_760;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O33925;translation=MKYYITTPIYYVNDKPHIGTAYTTIAADVLARWNRLLGKKVIFLTGTDEHGQKVEQSAKKVNQTPKEYCDKVAEEFKNTWRKLKINYDRFIRTTDKDHEEVSIEITKKVFNNDDIYLDKYAGWYSVHDETFFKEEELIEGKAPSGHDVKWVEEEAYFFRLSKYQNKLLELYESNKEFISPSYRREEFINRVKEGLHDLCISRTTFDWGIPFPCDPTNKHIIYVWFDALTNYLSGIDYLNNKDKFNLYWPADLQIIGKDIGWFHVVIWPAMLMSAEIEMPKKIYIHGFLTKDGQKMSKSKGNFVNPLDILDYGVDIVRYYLLKQIPFGQDGDFSTSDFYNRLNVDLANDLGNLISRTTSMVKKYSEFKLNRYYQEQFEKDLNKCDTKIKKLTEDLIESSKIFEKFNMEIQKLNFHIALSILWEYISKINKYVNETEPWNLKKNNQEKEIEIVLQTLVESIRIVNNYISPILIEGSEKINKIFNFQINNKFKFNIEHNGIEINESDLLYKKFDMVEFNKKEKLKKEEFESKQNPFEKLDLRIAHIESVHNHPDADKLYLLQLDVGTLGKRQICAGIKEFLKPEELEGQNIIIVSNLKPKKLRGELSHGMMLVCEKSKKNYTQLGLLTANGEPGTLIQLENEKIDAKNISKNHKQEIEYKDFTKVELLGKDGHVIEKNSNKKLITITENKITIIGLSDGIIC;locus_tag=LOCUS_07560;gene=metG;EC_number=6.1.1.10;note=O33925 methionine--tRNA ligase (Thermotoga maritima MSB8) [pid:44.8%25%2C q_cov:90.7%25%2C s_cov:99.8%25%2C Eval:5.4e-148],MGA_760
sequence2	MetaGeneAnnotator	CDS	168262	168537	.	-	0	ID=MGA_761;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873528.1;translation=MAKIHFIPDNYTVECKDGEDLQDICENNGIDLPFSCKNGVCGTCLCRVKEGTENLNPKTEQEEITLDTLGADNEQRLACQCKVLGDIKIDF;locus_tag=LOCUS_07570;gene=fer;note=WP_009873528.1 ferredoxin (Chlamydia trachomatis 434/Bu) [pid:41.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-12],MGA_761
sequence2	MetaGeneAnnotator	CDS	168781	168972	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQNGKIGTWLIIIIGLLYLLNGLGVQQVSFMDQLNGFGVLFLAWGLGCLMNCSSGGSARRKK;locus_tag=LOCUS_07580;note=MGA_762
sequence2	MetaGeneAnnotator	CDS	169129	170511	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKSILLLAILCFSTFFALNVSNDSINGLLSLKQSNYKELCIDTDGKDYYKIGFVDRDITSFSDTCNNDNVLTENVCNGQFANQITHTCIFSCDKSKCLKSYQGDYAIPEILINKFELIYSDEYNPKDINGEIKLKNNNVLKTEYGYINSVGELIYKNSGTSIKIFILNFKNEIDIKNYVRNVNLKDNFKLLNKENKLLVIDAIFEDRKLIYDFLIENTIFEKLNLEQSEVVFSNKVIENNNIINRVRQVWKPSSNSLMPKACDKLINENGNSACDHPSGQNIENIDCSEFKLNQQVKTIRNSAENNYMCKKINILSLKQNKWHLLGSIDPELNNKLKECNGKTTYSFNDGAWIKDSKKIELGKGFWIKLKESCSLEIESNNVINYKMESGWNLVSLKSILKDSYLRDNICLNGVEKILITNKYNENSNNFKEIDLVSKKINDEILKSNEILGAWVNCN;locus_tag=LOCUS_07590;note=MGA_763
sequence2	MetaGeneAnnotator	CDS	170515	171612	.	-	0	ID=MGA_764;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CP18;translation=MAKDYYEVLGVSKDSTTAEIKKAYKKLAKKYHPDVSSSNNTEEKFKEINEAFSVLGNEKKKNNYDRFGSAEGGFGGQGFGGQSHGFGGFDFNDVEDIFSSFFGGGRKRKSHGPQRGSDLQYNLNVSFEDAALGAEHQVSIEKTTKCKSCKGKGAKKPDDVENCSTCDGSGTVTRQTRTPFGYFSQSGVCGTCRGEGKKIKNPCSTCNGIGIVNDDVKIDIKIPEGIRDGTTLKLGGHGDAGIKDGPSGDLYIRIQVSEGELFTRIDDDLYIDAKINFAQAAIGDEIKVPTLKGKVKLKIPSGTQTHTNFRIKDNGIKHLNSTNKGDLYVRVIIETPNKLTKHEKEFYKEYIGKQENKGFFKSLFE;locus_tag=LOCUS_07600;gene=dnaJ;note=Q8CP18 chaperone protein DnaJ (Staphylococcus epidermidis ATCC 12228) [pid:43.6%25%2C q_cov:95.3%25%2C s_cov:92.2%25%2C Eval:7.6e-86],MGA_764
sequence2	MetaGeneAnnotator	CDS	171622	172845	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFEKIKNRFEKEIKNSSLKYKIIDENSLKDFLNIIEHLINNPQSNIMLLHDKDADGITSGNIFYYMLKQLGLERIKHLHLKGISYSNEREITKKLINTDVIFSLDLPFSNIEQLDGILSNQRLKKIVIIDHHPTDNLKHPNVILLKSNTVFACDNPARYCTAKLAYDLANLIMDVSEKDWYAIIGIIGDVAYPMWGDFIFNIFKKYNIELSENNNKCLYDSKFGLATELVSCGNAFYPDRVKDIFNALKNSNNLDEFEKKLPFCREVLDEINNCVKNFFNNSVAYDDNIFFYELKSSYHILSQISTIMSINNMDKTIIVVKHVNNNTTFSVRRSDYTINVGSAVNFAASKIKSASGGGHIPAAGAKCDKKDYETFLDLIIHEINSNKYKLSEMDRNKLNENNIKI;locus_tag=LOCUS_07610;note=WP_010870491.1 single-stranded DNA exonuclease (Methanocaldococcus jannaschii DSM 2661) [pid:29.0%25%2C q_cov:37.6%25%2C s_cov:32.8%25%2C Eval:1.1e-08%2C partial hit],MGA_765
sequence2	MetaGeneAnnotator	CDS	172950	174812	.	-	0	ID=MGA_766;product=chaperone protein DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P30721;translation=MSKTIGIDLGTTFSCVSVMEGGKPIVITNSEGHRTTPSVVAITKDGERLVGELARRQAITNPDHTVRSIKRHMGEDHKTNLNGKDYTPQEISAMILQKLKADAESYLGTKVDKAVITVPAYFTDSQRQATKDAGVIAGLEVLRIINEPTAASLAYGLDKETNEHNILVFDLGGGTFDVSILELDDNTFEVKATEGNNHLGGDDFDEIIINWLADEFKKDNGIDLRNDSVAHQRLKEAAEKAKIELSSSATTNINLPFVTADQNGPKHLVKDLTRAKFEELTSDLIEKTIEPTKKAIKESGLDIEKIHKIILVGGSTRIPAVQEAIKKLTGKDVNKSVNPDEAVGMGAAIQAGVLSGDVKDVLLLDVTPLSLGLETLGGVMTKLIEKNTTIPTKKSQVFSTAADSQPAVSVHVLQGERSMATDNKTLGRFDLQGIAPAPRGVPQIEVTFDIDSNGIVDVSAKDLGTGKEQSVKITASTNLNDEEIEKMKKEAEANAESDKERKEEVETINQAESIVFQYENQLKEFKDKVDKQLIETVTKKIDDLKELLKPEKKDIPALKKSIEELNVEMQKIGQEVYKDAQAAQAAQANQPDAGAEDVKPDAKSDKKPEKVVDAEYKVED;locus_tag=LOCUS_07620;gene=dnaK;note=P30721 chaperone protein DnaK (Clostridium acetobutylicum ATCC 824) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.9e-222],MGA_766
sequence2	MetaGeneAnnotator	CDS	174834	175346	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKAQKSEIIAILSLYRKELSRLIEFNFPSGQLLNEFVKKQENYETENSFGYFIAIKNNEIVGAILIDKCDIEVYKHHGIVNLKHLAVANNYRSLTIGTQLMEFAENKIKEYMSQKKLTSCKIIYEISEEISNSITFLQKCGYIHEGMISDYHVNDVKTYFMGKSLRN;locus_tag=LOCUS_07630;note=MGA_767
sequence2	MetaGeneAnnotator	CDS	175359	175883	.	-	0	ID=MGA_768;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005816478.1;translation=MENDENIQNSMNENNNINGEVEMDTSNSELSNEDKLILENKDLINTLQRLQAEFDNYRKRSENEKKDFANYALRNTILDLLPILDNFSLALMNIKENDEFTKGVELIYAQFFTTLEKIGLKKIDTKDKMFDPNYHEVLMNEESDKEKDIILEEFQIGYMLGDKVLRPSKVKIAK;locus_tag=LOCUS_07640;note=WP_005816478.1 nucleotide exchange factor GrpE (Desulfitobacterium hafniense Y51) [pid:42.5%25%2C q_cov:83.9%25%2C s_cov:75.1%25%2C Eval:1.9e-26],MGA_768
sequence2	MetaGeneAnnotator	CDS	176078	177199	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSNRNYKKVKKKFDKVNLNDINKINLEKLQKDTLLPFEKKDKNNIITIINTNENSQINNNQNNNNNNNDNDNNNNEQIKQYSIQELLNKGVICLDKPKGPSSHQVSAYVQQILKIKKSGHSGTLDPKVSGILPIALNSGTKVLQALLKSGKEYICICRLHKKIDENQIKETLSRFIGKINQLPPIKSAVKRRFRTREIYYINIIEIEDQNILFRVGCQAGTYIRKLCTDIGEILDCGAHMASLRRTKAGPFNEETNKVTLQDLIDAIEFYKKDNNEKFLRHCIQPIEKSIEHLPKIWIQNDAVKTISHGASLKIPGIIKFENNFEKDQMIAIMTPKNELVCIAKSEINSNEIKNKKKGLVCKSVRVLIEPE;locus_tag=LOCUS_07650;note=WP_010867646.1 tRNA pseudouridine(55) synthase TruB (Pyrococcus abyssi GE5) [pid:49.5%25%2C q_cov:74.8%25%2C s_cov:83.5%25%2C Eval:9.2e-79%2C partial hit],MGA_769
sequence2	MetaGeneAnnotator	CDS	177292	180669	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVIKRHFIRLFYIVLLAVALITTIYAGEIISNNILLNSTQADNETPLEFSNTLIPNQNVFFYANYTNSSNNQVITDANCTFNFVGNSTLLNYTYNATKKLYQINLTNGLEENIYEYNTTCYATDFPLLTILDNVTVEHPNSVVINLNRTSSDTFTFDATPHIFRANITDNAGIQKVEFRIYNVSNYLTHWFANSTTYEPDILAMAVSSQQRNSFIGKTNQTWLDKCIDTVIYCGISPQIYSHQESLGNITTFLNVNVTAKVTAESVSGQCTDNLSQIVGYQLNVGNIVASSQNITNALNACPSEVSDAYINMSSVNNSIINASSIVDSNRINITNTSAIYQLNFTNYLSDLTTSTIDYVYVWNAQNIHNSSNTTTIGILNVTTGTPPALTPTRLELLSLNKNNNTELNLSTQFIFNFSNPLDVNNNRQIILKVNNQEIEYSEEFESNILTIISLEDFEENSNISLIINHTVNDTYSSDFNRTAEYNFTTPFRDSDNNGTIDSNDNDLDGDDLNNTVDFIFGNETNIHTNYVNISIEINNTTPDNKSYNSTELVQIYNGSLELIRFNYNFSDNNTLDFRNISIIKQKNNQSYYTIINGINTSSKTIVFEHNVTINTDICIIDNESVNITEFSTTCSNDNEVFVECDGTTQSGYTCTYENNLFNISGLNNTGLKVQCSESWSTGSFGACSGSTQTRTVTDTNDCGTIFSKPTTSQSCSTGGSGSSSSSSSTTTTTTTTTVVTEEEEDIIEDEIINEEDQDEEKENNDKEDGNNEDKEKNPDSDINSESNDQRSVSEEYCSKNNINFNKISNCNFKKIIEGKFQINEYASIKINQGSIYYDKSLEIDYIPKETIFLFKNSNSKYQPTFIFESSDNEIESKANELLGEISGNNLILIVKEGSVSIKKENKVQIIESGNAFITNTISGKTVKSAFDSTADVYNVLGEIKTQLKESDGDLDFIILQDAKKNTGVEIIHKIIFFILIGSSVISFALVRSEDIRFYVEKKLYTPHGIINKQISNTIELNHNQDNKNSNNPIKEKITNTENIIKEAKQINKEKIIENNEPKVSKLIKYFKNPTTIIKLKPNEIKNKKIHDKIDNLFLNKKITKSKYKELLKQLIDVETNVKIN;locus_tag=LOCUS_07660;note=MGA_770
sequence2	MetaGeneAnnotator	CDS	180728	189979	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKHKFILIVLVLIILNSSFITSLPYETPVKYMFSQTHANFNNPSGAYYNNQRSAGDTCVEDSDCNSGACKRELYVHSIDLCKGWNIPFNEEGCMSAIFSCVRDDFQCSKWSSKNYYGFNTGYTESGIYCAGNNLVGVKKNYGKECTENYECRYACANSIDDDKKYCIKDSTSKCSGKDVVGYELNKQLNEYTCLKIGDTSDLNSYYDGILQANNGESCSTNIDCKSNNCLKEIDSENSFCAESGKQCSNQGETGFTIGEKLVVSDSEYYGCTGLSESKLVTENGFACNTNEECGSNNCVKEIDSENSFCADIGKQCSNQGENGFDIGERLTISDTEYYKCTGLSESKLVTENGFACNTNEECGSNNCVKEIDSENLFCADTGKECSKQNENGYEQGNILNGYQCIGLSQSGLASGYDCNSDSDCLTQSCIIDIFDQSQTGKVCELINLASIGVSLSLDEAEGNSYLYENEIGEKIKWYDWSLRNVYGKKTYFYLKNIENIENFDSANLYIKPNNREIEKTYIANKISDTEYRVHIPYNDCYRRNNCLTDYPIDRVENYSYYWILRDKAGKLNKLKTEIFEVTKEEAITPAISIENKLIYTNSKKYDNAVFSDNTITSNYDFKIEINHNGKKEIYDGIRDFYYRPNELGTYTFNLSNNPESEWRFTGYSEKITMEFTKPPYPQLFNYGYMNNQIIFPNKEKPQITQIHEGYQIFNETINLKLILDGQIIDLIKNKEIINDGLNMYFIYDGNKWKQGEYGSSISQQIIINYTDEFEPGKHEIYFSVTDPFGQTTNTPRRTVTVEKKTYDFDIILDGDQLFGAHPLDYSEIIIKKNQDNSVSYKIDIINQNKNLIFTKEISNGIDAKIYYEFPEDGTYTINVTSPETNNYQYINKQQIITVYSIIPSAFIHNQIINYNNPFGQLDDHLFYFEYNTANLIENDKLKSDCSDLRIFEKDTEILINHAIENNCNTVNTKIWMRDDLVGGLNQYILASGNPFVKNSGEKSSLSTEDNFFIQLSKHDSFEKYENDRTNFTMVAIDKVNNIDTTTAKFFFKTPASIYDFNEHTPDYDSLTNSFKYKRVLGPGEYSYYWKIKNDLGHTIESSINTFTVEKNVPNLNLKINENNIENINNIITYDNTKIDYNLIDTEGNIKIQIYDSNNNLFKTLNEFNTITEVFNFTKQGTYNIVYSFDGNNDYSQFSNSFLINVKPERISPEITIQKLETDLIEIEPNKFKYDPNKKIKFIINVTDFSGIKKTIMTINNEETEILVNSNNFETEVIYETNLDAGNYDYYWRAYDNSGNIVNGAGKLFEIEKADYELVTAISTSPEEIINKKVTDKVLIESQIFPQTNYNMKISLNGAEIENKQSISFSQELDLENEGTYTIEFSSIENNNYNPTSKIITINVEKETVPPEISSKNINAPEKYDKETNTVISINANDDYGLKDNALLILNNKEYLVPNNNGIYKFEKVLNASLYTYKWKVLDVFDNFVETEQKTFTIEKRNTHIISNIDGDNANNLNIGLSDQVIINANIMPPYLEYNMKLKYGEEEKINENENNFAEEYIFNNEGLYELNFNYIGDKNHLSNSSIHNIEVAKETEPPTITSNTFTSPNSYDSNTNTIITLSASDNYGIKNKIELILNDIIHEVNLKNENEGVYTFEFNKLLNAGNYNYKWKVLDKFDNLIETELKTFTITKKDPLLNLLINDEFLNKEIIELENIKVISKMVEPVDNYKFIIINKQDDSTYFEYDGEYEQFIAFPQSNEYDIKIVYSGNENYNEKEKKLTVTVTKEKNAPIITRNEFVYNAEYSQDKSIFIVNASDDKGIKSIAELILDQKTINVNRDANELFNYSTILSAGPHSYYWKVYDLNNNLVVTKLETFEILKKTPNIQISIDDSNVDKTIKTFEFFNIKANTIEPNNNDFNYNIYKDNQLISSGVKNNLNDLISNNQVGNYKYEIEYLGNINYSGLKKSMNLNTINEQDKPKINLIEQSSPDTYNSDKSIISLTSSDISGIKSAILNLNNELIEMELLNIEENIFKHKFEKILSAGKYNYNIIIKDNSGNEFLSETKEFIIKKAKAEFNLKLNGQNTDVNIEVGNKLNIKTDIINPSGEEYDMFIFDQNRGIIQEYTYSEYNEIEIDILNENDQYINLTFDGNENYTKSSIEYVVFFNEDITPPRINYDNLEIAMPNSPSKYEIGGKIKFEINASDFSGLKNIAKLNISNTLFDVEYNNGKYSYEIQLQSGEYKYNWIIEDNKNNKVISDTNTHKIQKNSINVTLSFKDNIIKQNTSEKIEAFVNISGNEGLPYEIFFDNEIKKYTQKEKFNITKLKSGVYNLDFKFNETENFYEKIINKTVIFVDDILPLGVKNLNEYNYSNTSTVITFETIETEDFESYEIYVNNELINTSKDINERFYKLYDFVIGTKYTAKVVTKDVNGNKVEQKIDFVFAKDYKPIKVKEIKKEIKNNLEYYIVEFNNEISEIKKENLHIKQGEKEFDKAVLFDGRILKIYPIGEIKQNEDITIRIDSGIKDKYNQTFLGIEHNIKTSISDIDGDLISDITDDDKDGDGLNDEIDNVYGTIPKHNFEVINTYIENFADINNKNYVDVKNIKFKMNENTLVSFNHNFSENKLDLTDILILQDNLNGNKIIVKNINQTGTKDISFKKINDKNNDICILDKHNATITQTTNKCTNKNEIFVQCDGKIQNNYICNIVNGWFVVMGLKNSAVQEFCSENWKYTEWSTCANSIQTREAEDLNECETIFKREELMRSCTEKIEKTKTTKSTSSSGGGSGSNKKSIFKSKLPPLITSTKNETVASKQNTNQTNVKKIIKQNNVNNNNKTSISKNISQVLKKPDSEIENKVKEIITQQPINEIQNTKSNWKLFIQIFIIILISGIFIEFSIIAFVKPKVKTKYSTNYYQPVKYSQPIVQRQSMNYIEKPRFRQINPYIKKTNLMQKVKQAIYSESESNENLKQYNQIKKENSKKNAVEIVSEIINGSNNKKNKSNQNNDGNKNTYEILNKAFDKIKLINNKSKNDIKKKNTNLINNKLTNNKINKKKNSKTILSNIIDSMNEIKNSKKKKKSNKKIK;locus_tag=LOCUS_07670;note=MGA_771
sequence2	MetaGeneAnnotator	CDS	190076	190249	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRYKPVNLPENLIKEIDFYVNRSNLHTSRAGLIKYILVNWVQDKEKQIFKKIFTS;locus_tag=LOCUS_07680;note=MGA_772
sequence2	MetaGeneAnnotator	CDS	190293	192365	.	+	0	ID=MGA_773;product=excinuclease ABC subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023255.1;translation=MLFKLKSNFKPCGDQPKVIEEITNNIKNSQKEIQKNANSIKKVYKDKIIKEKLKLDSINKSFNTIVGVTGSGKTFVMANIIKNLNRPCIILAQNKTLAAQLYNEFKSFFPNNAVEYFISYYDYYQPESYIPNKDLFIEKELKINKEIEKLRLKATASLMSRRDVIIISSISCIYGLGNPENYENFAISLKVKDKINRNEFLLNLINLQYNRTEIDLIQGKFRIKGDVIDIFPSYMDNLIRVEFFDDEIESIKILDKVSLNLIEKIDQFKLFPAKHFVISGEELEKAISKIEIELDERKKEIDSIEAHRLSQRTKYDIEMIKELGYCNGIENYSVYFDERKRGEPPYCLLDFFDKDFIFFIDESHVTIPQIKGMYKGDFSRKKNLIDHGFRLPSAYDNRPLKFEEVEKYFKTTICVSATPSEYELKNSDKISELIIRPTGLIDPPLEIYPSKNQIDKLIEEINITIKKEFRTLVTTLTKRMAEDLTEYLSKAGIKVRYLHSDIDVIERSEILRQLRLGSFDVLVGINLLREGLDLPEVALVAILDADKEGFLRDTKSLIQISGRAARNTQSKVILFADKKTNSISNTIIEMNRRRKIQLEYNKKNKIIPKTIIKEIPDEITTLKSFKSYAKNEIPIIIDKLNIEMKEASQDLNFELAIQLRDQIEQLNKELSEKINPKKKKKAVKKKKIIN;locus_tag=LOCUS_07690;note=WP_011023255.1 excinuclease ABC subunit B (Methanosarcina acetivorans C2A) [pid:52.7%25%2C q_cov:96.8%25%2C s_cov:95.2%25%2C Eval:3.2e-201],MGA_773
sequence2	MetaGeneAnnotator	CDS	192430	193512	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILGIESTAHTFGVGIIDSNGNILANKKALFTTESGGMTPRIVADHHIEKFDSIIKDALNEAKIKINDIKLISFSQSPGIGNCLKIGAIIARSVSKLLNCPLIGINHCIAHLEIGKLCGFDENNNLSKDPILLYASGANTQIIGFSGEKYRIFGETLDIGIGNFIDTFARYINIGFPGGPKIELLAKKSKKFIDLGYLVKGMDINFSGILTKLKNLYDLGHSKYDLAFSLQETSFSMLIEVAERALAHTGKNELLLGGGVACNKRLKEMAIKMCNDRGAKCYFVDNSLNVDNGVMIAWAGLLKFLGELNLKFNNIEELKNINFEILIKKYNNSNMKSDYIWSKVNPYLRTDEVEIKYLK;locus_tag=LOCUS_07700;note=WP_010870641.1 serine/threonine protein kinase (Methanocaldococcus jannaschii DSM 2661) [pid:45.8%25%2C q_cov:100.0%25%2C s_cov:60.7%25%2C Eval:3.4e-83%2C partial hit],MGA_774
sequence2	MetaGeneAnnotator	CDS	193533	193940	.	-	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQVLVKCGIKRQSGYLYFLDKKGNVARCQMARKGVRTSKKQEVLVKCGVKRESGFLYFIDKNGNVARTKMARGSSKRKSTKKKVAKKPAKKKVAKKAAKKPAKRKAVKKKAVKKKAAKKPAKKKVAKKPAKKKR;locus_tag=LOCUS_07710;note=MGA_775
sequence2	MetaGeneAnnotator	CDS	194027	194200	.	-	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNNNNKILLKIINIILIITLILNMTFFALGYIDGWVFWLTVGFIFLFSKRQLMFK;locus_tag=LOCUS_07720;note=MGA_776
sequence2	MetaGeneAnnotator	CDS	194231	194635	.	-	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDKLLNLYKKFERAIIGDNEELNSLLNPTSKQSFSDFIKHIRYNNDLDTSSNMGLDFREELKNRELEENFANFLANPSSFYDGCLSSSKITIENNPFYSTPAQKESSKQLEKKHDEYLSSDNCSEYMRTKKD;locus_tag=LOCUS_07730;note=MGA_777
sequence2	MetaGeneAnnotator	CDS	194771	196303	.	+	0	ID=MGA_778;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97EB7;translation=MNMAEKISQYRADRIRKLKDLREKGVNPYPYKYEINAKSIELKKKYDAISPEEHVDNEYSLAGRIMQIRNMGKACFLNLQDEVGKIQIYIQVDTVGKDNFKLLKKLDIGDIFGVKGNIFKTKTEEVTINVKEFTILTKSIEQLPEKHHGLVDKEIKFRKRYLDLIVNPEVKEVFKKRSLMISTIRKFLDKRNYMEVETPLLQTQYGGANARPFETHINAWDMKMFLSISPELYLKRLIVGGFEKVYTICKNFRNEGVDHSHNPEFTMIEIYEAYKDYKDMMKLIEDCYEFVCLKINGTTNVLKNVRDHETGVIKEVKLNFKAPWKRITMVDSIKEHLDIDVNEMSIEELKKYLIKKKIELKKKDMSWGDCIIEIFDELIEPKIIQPTHIYNRPKESTPLCKELRGDDRFVEQCEPICCGMEIGNMYSELNDPLKQNELLEEQAKLLRAGGDESHPMDEDFINAIDVGLPPTGGIGWGIDRMAIILLNQDSIRDVLLFPTMKNETNEEEKH;locus_tag=LOCUS_07740;gene=lysS;EC_number=6.1.1.6;note=Q97EB7 lysine--tRNA ligase (Clostridium acetobutylicum ATCC 824) [pid:46.0%25%2C q_cov:98.4%25%2C s_cov:95.3%25%2C Eval:3.3e-128],MGA_778
sequence2	MetaGeneAnnotator	CDS	196314	197279	.	-	0	ID=MGA_779;product=tRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878356.1;translation=MSDLEKSHERILNSNGIKFKDKFVEAYKIIMGDNYDKFIDYSLKRNKISIRINTLKIDIESCIKRIKKKNWNLSHIPWCKEGFWIESDRRDVGNLLEHQLGYIYVQESMSMIPPIVMEIKENQKILDMCASPGSKTTQIAQYMKNTGLLISNDVKGSRLSCLGLNTTRMGLRNNVITLQDAKTLKLDNNFDRVLCDAPCSGTGTISKSLKTLKIWNSNMIKRLSRTQKKLIEIAFNSLKPGGIMIYSTCSLEPDENECVVSDLLNKFENAETMNIKLDLNSTKPFEKWADKELNIGVKNCLRIHPYDNDTDGFFICKIKKL;locus_tag=LOCUS_07750;note=WP_010878356.1 tRNA methyltransferase (Archaeoglobus fulgidus DSM 4304) [pid:41.2%25%2C q_cov:91.3%25%2C s_cov:91.2%25%2C Eval:2.1e-65],MGA_779
sequence2	MetaGeneAnnotator	CDS	197341	198234	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIDECKNIAKKLTKKENCMFLSSADDCFKQLFENLNDNIKTIYIPNEGGWLFYLKAKKFGYEVVKYDTLNGIVDIDNLNIENNTLIIVNSSPGYLINQNLKKIHEITKKKNCILINDACGSIGSPYAKIGDVIIFSCGKHKIINNFYGGFICYNNKLKNIIETQSNENKINKVKIINLKEFMSNIKKRIEFLLNKKKELFEKIQNDNILNKYNIIFSDNVDFKKYGVNLFLQLDDNCFMEKEIIIKNKKIKKLELCDKIKNHINEKYSEFEYTLCPRYIRLNKLGISFEIKRLKN;locus_tag=LOCUS_07760;note=MGA_780
sequence2	MetaGeneAnnotator	CDS	198240	199040	.	-	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRLQSPSSINLYKQCPRRYYYRYIEKKPSMPNRYTIIGNSVHSVLENFFKINISHINETNYEKELTVFILELMNKEFENTKHQLSKINLLNESSELYDEFNFMINLWIKNFCTRIQIQLSKSKTFAQSFLFIKPNTEIKLISQEHKVQGFVDAIFKRKKGDILVDYKTSKKDIMTEDYITQLSIYALLYYQNYKKLPNKVGVDFLKHGKMHFIDVDQDLLKKAKLECELIKINTQSINIGDYPKKITPLCKWHSGQCDFYDICFK;locus_tag=LOCUS_07770;note=WP_010891938.1 hypothetical protein (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:27.2%25%2C q_cov:69.9%25%2C s_cov:20.8%25%2C Eval:2.3e-08%2C partial hit],MGA_781
sequence2	MetaGeneAnnotator	CDS	199135	199833	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLKDIESKNISKLTHKFFTRFGKGTFEKEICKITNSKKEIKFNTGYEYSAFLIEFISNNLNEDCEIDGKFISLDNNEDVFLKFNELEIIKSNKQFTKVEFKGKFSSERFKDFVQAIILNGIILINLKSQNINLKMKRAIPKPGKLMENFCSLKLNLTFSNKLKEEFFPEAPDVFKKGTCQHFYIIESIDIPDEYKNDFALAKIHAKRIGQIKRITNFDGIEKESKIKFNA;locus_tag=LOCUS_07780;note=MGA_782
sequence2	MetaGeneAnnotator	CDS	200215	200565	.	-	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILIANLSSGKGTWGHVSRLIQDGNFDKVLLVTNQFGQDTFKKDDKSEFILIEQNGSVNEICDLLVPIFKSLDGDIKLNLISGTGKEHMAILHSLNLVKKDYTFTALTKEGVTEF;locus_tag=LOCUS_07790;note=MGA_783
sequence2	MetaGeneAnnotator	CDS	200574	201182	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTNVLTLIIFVLFVLLAIILLRFFVPESIISNSDKDIVEFNDFVFFKNSAGLWDFDVKNMNSNELYTVTLRKLPTDVEYIETVGDVSTFYKHKNNINLVFNPELSSTQKSSFGLSMIETTLTLSRVFSVNISSACRTYDSSCKQMAEECNSAKVPLIEFIYSDKPKIELVNNNCLLVHGDEETIFDSTEKLIYTWYKILE;locus_tag=LOCUS_07800;note=MGA_784
sequence2	MetaGeneAnnotator	CDS	201179	201796	.	-	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASKFKKFRVSENTKKKVYSLILIILMVTSAIAFIAVYYATDTVSANYKGYNIVQNPNSYGYILLDYNLELVNHPSSLGFDNLNMSEDDTFILVNSIKSSKTIASTYNLTSIDLPFIEEFNFGLTKWSLDIFDGTQFNYGSNDINNVNYINCNENENYNMIFNIQQNNNTYLNLDGKCLNIYYKDSFELNMVLENILLYRIGVLK;locus_tag=LOCUS_07810;note=MGA_785
sequence2	MetaGeneAnnotator	CDS	201830	202315	.	-	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKNKKLNYKKFFTFILILSFLGMVFSGLATTERNNFLENKDYKSALCVEGEFASCSSVLTSPYSQILGVSVSSIGFITYLFVFLLSLLALFNLKDNYVETYFNIIYFFGFIFLFVTFIFSYISAMILNQFCTLCLLTYFVNISIFVYAFIFNIVKSTCA;locus_tag=LOCUS_07820;note=MGA_786
sequence2	MetaGeneAnnotator	CDS	202350	203057	.	-	0	ID=MGA_787;product=serine/threonine protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060945.1;translation=MAIPREKFKTYNNVFDNFTNRLLFKLEAAGYFERIVSTIAIGKEANVFCAIKKDGTYVAVKIYRLEVCDFNKMYYYLSSDPRYLNIKRRKREIIFTWAQREYKNLLKFRAIGIRVPTPIYITNNVLLLEFIGDNGFASRQVRNDLTNMHEFFNKLVDYLKLLNNNNLVHGDLSEFNILNNNGDPVVIDCSQSTSLKDSFYNELWERDIKNISRFFSKNGIDVDIEKLKQLIEYKN;locus_tag=LOCUS_07830;note=WP_048060945.1 serine/threonine protein kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.6%25%2C q_cov:94.9%25%2C s_cov:83.3%25%2C Eval:2.2e-41],MGA_787
sequence2	MetaGeneAnnotator	CDS	203075	203920	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDLSVIKYNNINELKKTNNNLDYYLDEVIADFYENNNKKSIIYAQILLKKKEFENKISDNQALFLIFSDILMQNKLNSFNIANEEYNDFKLIYNNSDKLKAKEYYFFNKYYNFDKLDINNKQNKLISNKLIKYYTNYNELNNNEIFLFQILVSNEKIANDIYSDLLKNKNFKQIYNNYKINNIFSNFGFLGKINLNSLDKNYLKEIQNINFNKIHEPFKTDLGWIIFLKSKDISFDQFKLYLNESIVDQLKFDLIIDYKQNLINSQNIIYKTNITASFIN;locus_tag=LOCUS_07840;note=MGA_788
sequence2	MetaGeneAnnotator	CDS	204287	205246	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKGLLAVVTILMVIFAAALGYALYVVSQPAEVLVENVGTTNENTNVDQTNQLIQNLQRQIDAEIKANEEAVKLYENQIKDLESRYKEELEKTKTDLENQKNNLDSTSSNTNNVKNSAKFFSDEYLVNYNLRSCSADLSRVEDFIDSDYDDYEKDFKKESRSTETNIKAVKDKITAVRALLNKTTTTYTLNEGTTLAQFTIEFNNIDTMLENLEDDIDDIANEMDVDELKVLGSWEKLYKKINEDTQNEISDAQDDYRDAEDDLSETSVNYRGLDDSLNDVIEDLKDSEEDINDVEKDFDDLEREAKNFRTQLKSVCGN;locus_tag=LOCUS_07850;note=MGA_789
sequence2	MetaGeneAnnotator	CDS	205262	206509	.	-	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIILFSVNVLSIESNIISNKNVIEDGSPINIIYQFNNTDPGYEPISGFLIFINESLNCSYLMNGNFNFNISSNLCSALIKNVNINLLDINNFSESYGFAYGYGSGYGYGSNPYFKNSSPYSILNFDFINMPITNNKIKTIDVYSILSNKSLIGKSSITFNITKSNLNDSIKQYDDSLNSIKKLKRDENIISTSVKLINFYEGETKSIIFTKIDLPITKIKITTNADKLTSKVSAALLKEKPEDILSVKSNIIDYLELDVSIPKNYINDAVICFKVEKSDLNKYNIDQNDINLFRYVDDEWEQLDTFIDKIFTDSNIYCSVTLGFSYFAIGQNIDKYNDNQLTTIDNSENKFKPKILIKSENKIIENLNARNTDDINFEKTEINNNNNFIEILIILILIFIVCKIFYKKKDIKKI;locus_tag=LOCUS_07860;note=WP_052279162.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:29.2%25%2C q_cov:40.7%25%2C s_cov:16.8%25%2C Eval:5.8e-08%2C partial hit],MGA_790
sequence2	MetaGeneAnnotator	CDS	206648	207151	.	+	0	ID=MGA_791;product=SET domain-containing protein-lysine N-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010929825.1;translation=MEKTKSIYVKEKKSKIHGTGIYATRDIPKNTYVLEYVGEKVTKKQSDQIAQDLLDKYEKNKKKYAGVFLFTLNSRFDINGNVKWNTARFINHSCDPNSEAVIDKGHIWIETIKNVKKGDEITYNYGYDVENYEDHPCWCGTKKCVSYIVAEKQWTKLKKLLKKKLSK;locus_tag=LOCUS_07870;note=WP_010929825.1 SET domain-containing protein-lysine N-methyltransferase (Bordetella pertussis Tohama I) [pid:32.0%25%2C q_cov:83.2%25%2C s_cov:82.8%25%2C Eval:1.7e-18],MGA_791
sequence2	MetaGeneAnnotator	CDS	207140	207361	.	-	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDLIIKLIALVLLIGGLSYFLHKRWVEYRRVLTLTKKPTDREFKSILKVTAIGVLIIGLIGFLVKFMELLFR;locus_tag=LOCUS_07880;note=MGA_792
sequence2	MetaGeneAnnotator	CDS	207448	208884	.	+	0	ID=MGA_793;product=aminoacyl-histidine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986708.1;translation=MTVNQLNPQIVWNYFNQLSKIPRKSKYEQKVREWLIEWATKNSFEYKVDKIGNLIVYTKGSLGYENYSNVLLQSHMDMVCISDGEFDFINNSITTYIDEDWVKAKNTTLGADNGIGLCISMAIATDSSIKHPPLELLFTVDEETGLTGAAELDIDLIKSNYMLNIDSEENDTITIASAGGNEIHCELNLNVIENHYDSSIKITLLQMQGGHSGMEINKNQGNAIKVIFSILNKLEEFSLSYVNGGVATNAIPKECEMSLSYYDKDFELIKKIINDEFEKIKNQLDMPSAEINIEKTSKKEKIFNKETTQKLISTINKIPTGVIKMSENIDGLVKTSNNLGTIETNENKIIMNCMFRSSSILDLEELEIKLKEILKKFNKVEAKGKYPGWESDPKKSKLLELAKQKFESHYNKKPEIVALHAGLECGIIIGKAKRNIDCISIGPDILEAHTPRERVSIKGVADFYEYLKTLIEELKFKI;locus_tag=LOCUS_07890;note=WP_011986708.1 aminoacyl-histidine dipeptidase (Clostridium botulinum A str. ATCC 3502) [pid:34.5%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:1.5e-82],MGA_793
sequence2	MetaGeneAnnotator	CDS	208881	209282	.	-	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKKYPNRFLRHLFSGPLIWSILIPSVILDIWIEIYHRICFPLCGIDYVPRSRYIKIDRYKLSYLDFLEKIECTYCGYINGLFQYWTMIAAESEIYWCAIRHKKSNDFKEPSHHKKFVDYGSKKKFERKYPN;locus_tag=LOCUS_07900;note=MGA_794
sequence2	MetaGeneAnnotator	CDS	209325	210695	.	-	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKFELILFIFVFLFIAIFLIFLFKDVDNNKENKFNINNVSSDEILNNDKANLNDKLLNGSSKLNEIEKKTENDTEEDEEESNDEDQDDIEKGNDTEEAEEETNTDDQEDIDEEDDINEEENDTEEAEEETNTEDQDDIEEEENNIEEDEEESNDEDQDDIEDNEELNNLVEIDYDIKKNIDENTYINLQREDYDRILSGEIFSSQIWSGNILIEGDLMMMPWVEINILPGTRIEFTKSKDKTPSIHHIELGPDGFNDLDSSRLKPYTDKHISVFFNGKINANGTKDNPILFTSNVEDKYYNDWSSLVVNTDDAYFNNVIIEYCQACLVVVDPSENIIVENSIVRHGFWGCFSIANSNGVYRNNIAKDCGHEGFDIKGNSKLINNEVKDSHFSFFILGGNPTFENNRAQNYANDINDNEIRDGIELIEEWNCKETDFWRYEDYIIPCMGEPFLLN;locus_tag=LOCUS_07910;note=MGA_795
sequence2	MetaGeneAnnotator	CDS	210739	211488	.	-	0	ID=MGA_796;product=DNA polymerase III sliding clamp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249490.1;translation=MKLTLAESKYLKEGISIISELVNEGKFRINENAMELIAMDPASVALVNFKLLSSAFSVFEINEPIEMAINLGNLRQILKRAKPTDIVSLTLEENTNKLIIEFKSKSKRTFTLPIIDLDEKEQKVPDLSFDASIKMSSETFTEIVEDAEIVAESLCFIVNNEKFVASATGDLSDSNSDFESGDLVEIAVDEGITLKSKFSIEYLKKIVKGSKLSGTVNLKLKADYPMQADFKVVDRLLLSFILAPRVDAN;locus_tag=LOCUS_07920;note=WP_011249490.1 DNA polymerase III sliding clamp (Thermococcus kodakarensis KOD1) [pid:33.5%25%2C q_cov:96.4%25%2C s_cov:96.0%25%2C Eval:1.9e-33],MGA_796
sequence2	MetaGeneAnnotator	CDS	211604	212923	.	-	0	ID=MGA_797;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146740.1;translation=MVLKIKAIGGYGEFGKNMTYIEVNGKIILLDIGIHLDNYITFMEDHEGLAPTVEELIEVGAVPDVFLFKERFNDVIAIIPSHAHFDHVFAAPYLIKFFPNAKVYASPYTTQFILNMFRQENKEIPTIITQDCNSRFKINKDITIEFIYVTHSIPHTVMICVETKEGRFLYTNDYKFDDAPVIGPKSNIKRLEELSPFKAIIVDSTRAVFPGTTKTEVEVREMLFNEVEKINNDARSIFILTFSSQLQRLKTIKDVAKRVGREAVFLGRSLAKYIYAAHDIKLTKIAPKQNIAQFPNKIRRILKMVSENPKKYIIVTTGHQGEPTANLCKIVDGILDYPLKNDDWIIFSCTVIPNPVSVQNRKILESKLAQKKVNILKDIHASGHASHDEIKKLIEVTKPEFIFPSAADKPFEQEVAKIAKSINYNNSIILEIGKEHIFE;locus_tag=LOCUS_07930;note=WP_048146740.1 ribonuclease J (Pyrococcus abyssi GE5) [pid:34.7%25%2C q_cov:98.9%25%2C s_cov:96.0%25%2C Eval:7.5e-70],MGA_797
sequence2	Aragorn:1.2.38	tRNA	212953	213026	.	-	.	ID=Aragorn_18;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence2	Aragorn:1.2.38	tRNA	213042	213118	.	-	.	ID=Aragorn_19;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence2	MetaGeneAnnotator	CDS	213171	215318	.	-	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNILLLVIVLSLFSVNALPPNPETFSGNIFIGSALLNYSDIEIRDLNDIVIYNFSNNNSNYFAKINFKNFDDNTPNNYFIPGEQFYWYVNGLKVSKPSIDIAQPGLNNINYDLYIEESCYDEIKNNDESDIDCGGNCQECNIGKYCSSNSDCNEICINNMCSLKQRPSLDDFNIINDNGLIINFSIINDDGYNLDQKILIESNRKSSVFNLIDNKIDKNNLKEFENLKLNISLVLSDVLNDYLDSFKLEYYYETKSNIKNQSENLDLDETDPNIEILDSNIILKLQSKPSQIPFSLKLVNNENQEENHFDNISKFWLYTLKPGSYSLFLLSDDFNIYYDKLNFTSNETKEIVLKFINSYELDHEFNFGLEINNDGHFCPKKGSFYQCKNECNSVIKINECIVSNDSIFQITKLNTEEKKYQIGFFANNDLEKKTEAIIIEKNAEFDISTKSFSRLLIILIFVIFAYLLLETFFSNKRDEFEKNVGKFKQNVQKNINNKIQIKEIKFSGEDYIEIQNSNKKNISRINVEKRKLPFFELLTKKFNKLINSLVSNIKVNSVEIKELEKDKIDPKHILKITKGDHVESGLKVSELQKYYLELKLFFEKYKHLKEEALVSHIKKSKLNKHFLIQLYNLANNSRFNGKLAKKFIPEMEINKLKVIIYPKVETAFKIMIFYYYINKMKNTFTRTRILEFVFYNFNDIELIYNVISNLNHN;locus_tag=LOCUS_07940;note=MGA_798
sequence2	MetaGeneAnnotator	CDS	215387	216397	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGFLISKRNVSMSEFELFNLLNYFKLNYKLIKKIRNFYIFEIENIENKNNLIKKKLKKIIELSGFIKKIDLIYEYFSSIKKIKTFDWNNIIKKEYKIKAININRKKKSTNTENNPKIIKSAIDSIWYTLNNPKVNMKSDFTINLYYDYKYYIFTNNLYENSIIESKINSPHSIKDYLTKFMITSSLNDINNNPIDVKIMDPFCGTGKIVYFSKKLGFNAKGYDIDKKIINTSKELYGNLNIENKNSFELKKLNKCIITDPPYFKNTKGDIKNYKQFYFDFLKLLNKDEVESIVFILIKNFKLDFKLLNKFKLVKKIEIFIHKSMIRVLYIFKKK;locus_tag=LOCUS_07950;note=MGA_799
sequence2	MetaGeneAnnotator	CDS	216402	216944	.	-	0	ID=MGA_800;product=CDP-diglyceride synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964114.1;translation=MNKILIEIFIFILPFAFVNIFASLSRLFKFKFLEYPLDFNIKLNNKRIFGNNKTFRGAFFGIVFGIICMYILFNFKTKLSDYLLFDFNLYSPLFYGIVGGLGVILGDAIESFFKRRLNIKPGKPLHFFDQTDWVIGLLVLTYSFTNLTINHIILILIIIPIFHYLFNYFSYLIGLQKNKF;locus_tag=LOCUS_07960;note=WP_010964114.1 CDP-diglyceride synthetase (Clostridium acetobutylicum ATCC 824) [pid:27.9%25%2C q_cov:97.8%25%2C s_cov:99.0%25%2C Eval:2.4e-11],MGA_800
sequence2	MetaGeneAnnotator	CDS	216953	217606	.	-	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATVHLGSSKKKKFKVKGNVKNKIQKKSENFKIINKTDKLICSNKFKLIDLITIISGLSGFGAIFMAFQTAITSKLLYLEYAIVFILFSIALDIVDGRTARYFSKESLLGKELDSLSDLISFVIAPVTLILMYSYLMLGIHNSLLIGAGLLYIACGVMRLAKFNVNEFEGYYIGLPTTLSAFLIVIIFYFKLNALLWTPILVIFGILMISPIKIKKP;locus_tag=LOCUS_07970;note=YP_001252742.1 CDP-diacylglycerol--serine O-phosphatidyltransferase (Clostridium botulinum A str. ATCC 3502) [pid:37.3%25%2C q_cov:63.1%25%2C s_cov:80.3%25%2C Eval:7.9e-19%2C partial hit],MGA_801
sequence2	Aragorn:1.2.38	tRNA	217764	217840	.	+	.	ID=Aragorn_20;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence2	MetaGeneAnnotator	CDS	217883	218101	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKTGISKTYGGRYGKTNLAKIDLLAKKRKESSKCPSCLSDTVKREALGIWVCKKCNTKFASRAFETSIN;locus_tag=LOCUS_07980;note=MGA_802
sequence2	MetaGeneAnnotator	CDS	218237	218473	.	+	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYKVNLIIPFAIKNIIEPEILDYKKNFKRVEVNFLKEDPLEIEIKASDSVSLRAVLNTISKLCTIYEKSLDLVNKNE;locus_tag=LOCUS_07990;note=MGA_803
sequence2	MetaGeneAnnotator	CDS	218466	218798	.	+	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEQLQKEISKLQFLEQNYNQLMLRKQNLNIKLNEISNAKNQLGTSDESYTVIGNIMIKKSKEELISELENKEKTFSSQVETISKQEKDLFEKKGQMQKELFERIKEENK;locus_tag=LOCUS_08000;note=MGA_804
sequence2	MetaGeneAnnotator	CDS	218800	219045	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSEFQPLIDHINSIIVEKTTSKGVREKLKVVLEILKDETESDVAINKSLAILEEFESDPNIDSYTRTQIYSIVSVLGQFE;locus_tag=LOCUS_08010;note=MGA_805
sequence2	MetaGeneAnnotator	CDS	219033	219329	.	-	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNDIMNENHLILISKFVFIIGIIFLIVFLFFNEIEINKVEKGKLILFGTLIKVDNYYITLNTNIKLKLNEKINGFYLNKNITLMALNNCENFEFYSN;locus_tag=LOCUS_08020;note=MGA_806
sequence2	MetaGeneAnnotator	CDS	219438	220535	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFSHLFGFDNNKSAYRLALNHLNSEIQYIKHSLENYIEKYPEKLKLINNKQWNLLIKFIDDEINNFGRNQKNILSAINKSRKDLFSQSHLDYIEEEYGQKEKEELEKLLLSLKKLHINLISQLDWLNTNNQKKLSDKEILKIKLLVKEEGNLIYNLSHTQCETLLKNTNEILLLEELKQKLEHISSLLPEERANAYKEFLKSKNKESIQFIISNRKEISQKRKIILNKIEEALISFQKKYSFVKGLILFGSFTRGKASPNDIDFFLVIDYKQGNFHYKIEENKKTLNNLSIEMAECITKYTNIPSETNKYTNPPLNPVDCSNEKVLFKTIQNHIKNIYWHFIGDESIKYKIKGILKQLKEKIE;locus_tag=LOCUS_08030;note=MGA_807
sequence2	MetaGeneAnnotator	CDS	220587	221738	.	+	0	ID=MGA_808;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496792.1;translation=MAIVVKGKKKKEEGEKSVKEKLSSEDEIKELETKISKTKYNKKTQFAIGQMKAKLAKLKEKQASRSSGKGGHGFSVKKSGDGTVALLGFPSVGKSTLMNKLTGSKSSTGSYAFTTLDVIPSLLKHRGAQIQILDIPGIVKGAASGSGRGREVLAALRSADLILILLDVLHLNHLKVLKKEIFEAGIRENKIKPDVKLMKKDKGGVNIATTVKLTKINNDTIKIILKEFGYVNADIVIRDNIDSDDLIDVINGNRVYTKSMIVINKADLIDVKKLNNLKKEINASIAVSAETGYHIDKLKDHLFDKLEFIKIYCKEKGKEADMSEPLILLKGSTVKEMCIKLHKDFLKKFRFAKIWGPSSKFPGQTKMLEHKLMDNDIVEISTN;locus_tag=LOCUS_08040;note=WP_064496792.1 GTP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:51.4%25%2C q_cov:93.0%25%2C s_cov:98.1%25%2C Eval:8.6e-104],MGA_808
sequence2	MetaGeneAnnotator	CDS	221859	222287	.	+	0	ID=MGA_809;product=30S ribosomal protein S6e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878018.1;translation=MVELKIVIADQKEGRSYQKVITEDDSKNLYGKKIKDTFNGEMIDLPGYELKITGGSDISGFPMRWDIDMSGKRKILAVSGVGLKLTRKGMKKRKTVSGNTIYDKISQINVIPVKFGDKSLKDIFGAKEEATEAKSETPEKTE;locus_tag=LOCUS_08050;note=WP_010878018.1 30S ribosomal protein S6e (Archaeoglobus fulgidus DSM 4304) [pid:46.8%25%2C q_cov:86.6%25%2C s_cov:96.1%25%2C Eval:2.1e-25],MGA_809
sequence2	MetaGeneAnnotator	CDS	222300	223538	.	+	0	ID=MGA_810;product=translation initiation factor IF-2 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496772.1;translation=MSEEYEFLKPKEDGQPSINIGFVGHVDHGKTTLTKALSGKWTDEHSEEIKRGITIRLGYADCIFYKNKQDKYTIQKKDEKGNKNTFVRKISLVDSPGHETLMATMLSGSTIIDGALLLVSANEVCPQPQTKEHIQALEILGIKNIIIVQNKIDTVPEKIVKKNYEQIKEFLSNTSFKNSPIIPISALHDVNIDVLIQVIEEVITTPKRKINSQPKMFVARSFDVNKPGSSPDKMIGGVLGGALIEGILKVGDNIEIAPGRKIESHGKVTYEPIETTITGIKTGGKSVETVYPGGSIALLTNLDPSIIKSDQIGGATIGHKDKLPPTLYELNIDANLLKQTIDNLNIGPLAMREPLLLNVNSSKTVCTVNKVKKNKANLILKIPVCANEGDLVTISRRFGTRWRLIGSATIEK;locus_tag=LOCUS_08060;note=WP_064496772.1 translation initiation factor IF-2 subunit gamma (Methanocaldococcus jannaschii DSM 2661) [pid:52.5%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:6.3e-116],MGA_810
sequence2	MetaGeneAnnotator	CDS	223561	224802	.	-	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLSNFMFVTISNLIVFVLLFIFLNYSGYSKLLIFTIMGFLIIINGPLTLKQKIAGLKLFIFIQSLALIFSLYYFIISFFLVENYKLLIISFISLILILFSKDIIIKLRKKRLKKLYSNDFIKKENMVNELNSFHNIKYKDEIPTKRKKNVVIGVDNIVKTKSVLTNNVNFIKPNISNNKINTAKGKSTIKEKKIIKKPIVKKQVIKESVIKKINIKKPIVKKQVIKESVIKKINIKKPIKVSEINKKTLSKITKTQVSSTNQPKVVKTVIDDKKHNENKKGLKIQEISNNIKGIKVQYESEVSDVDKSIELDKNLIVPIPNINSEDKNISLSYDKKKLNNIELDLSKGEKNMVNIEERIFDTGFSYDFNSKNATFIRISGPNTIKEKSGKKKRIKKFKKQEINQGTFTQFF;locus_tag=LOCUS_08070;note=MGA_811
sequence2	MetaGeneAnnotator	CDS	224941	225303	.	+	0	ID=MGA_812;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869944.1;translation=MRPKTTSRNKTYRKKNTETTEIVRVRLPKEAERELLAVVDQRLGGSRLRVRCFDGLTRIARIPGKYKRRLWIREGDTVIIIPWEFGGDEKADLIFKYTPNQVGFLKRKGMLSILEDGEEF;locus_tag=LOCUS_08080;note=WP_010869944.1 translation initiation factor IF-1 (Methanocaldococcus jannaschii DSM 2661) [pid:56.5%25%2C q_cov:76.7%25%2C s_cov:90.2%25%2C Eval:1.2e-27],MGA_812
sequence2	MetaGeneAnnotator	CDS	225347	226261	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGNIKKIFFVIIFIIITLLISLIINFVTSDFNIELSDNVNVALIKINGPIMYGENGGIFSGDQRDAAAISKEINSASEDESIDVILLDINSPGGTVVASKEISNAVKRSDKLVISLIKEVGASGAYWIASQSDYIIADSMSITGSIGVIASYLEFGGLLDEYGISYEKMIGGKYKDMGSPFRNLTLEERNLFQSKIDQIHEEFKFAVMKNRNLTQEEIDELGQGQFFLGIEAKENKLIDELGDKYLFEELLKKKYNVTEIKYTQFEKEMTLIDAFFGKVESSFYNVGQGIADSFKTEQRLKIK;locus_tag=LOCUS_08090;note=WP_010876441.1 signal peptide peptidase SppA (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.4%25%2C q_cov:70.1%25%2C s_cov:73.2%25%2C Eval:6.8e-34%2C partial hit],MGA_813
sequence2	MetaGeneAnnotator	CDS	226262	226762	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKWLSKCECFIDKSIPYLLIILLFIIIAEIFFHDFAQNYITLFHILDNIIISFFIIDLCFKYYRLRNFKSFLKHYWLEIIAVFPFFLILRLLEEFYLIAEFGQNTQKYLHSVVEVQKESRLIIEEAEKVVARGSRSRYFMRFLRPIARVPRFFMAFSFYEKPIRK;locus_tag=LOCUS_08100;note=MGA_814
sequence2	MetaGeneAnnotator	CDS	226813	227340	.	-	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYENKDQNYNGNNSNNGSTVRQLPVEKTGFAFGTSSQSAKKSEKKSPDYSLTDSIPSLNFLNKPFYRLTEKESVLEGNVCSEVANLNKIIINGDISQYLAGVIVESDLGAAVDQLSEIQLMIYRRHPNHTMGRRKEDRVVKRVFDYFTNLEKELKLKSKKYEEIIARTRFLRVA;locus_tag=LOCUS_08110;note=MGA_815
sequence2	MetaGeneAnnotator	CDS	227479	229221	.	+	0	ID=MGA_816;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942518.1;translation=MEEKLKEVYKCQEWDLSELNKQNIKDYFKSIEQLANKIESYKDNLNEDTTIGQINEILQKKEELKIQISTLLSYHNLKTYENSTDQDSNTKLSQICDYLSDISNRLLFFNFWFKGIKEEKANELISQSTKYKYLLQSIRKNIPYTLSEEEEKLINIKDNNGTEAVFQIYEILTSQFTYDWNGEEINQSQLLKYVKSSKREERKKAYTLLMEKYKNYKDVIAEVYKNRVLDWHNENIKLRGHKNPISVRNNINDVPDQVVEVLLKVIKKNSILFQKYFKIKQKLLGLKNFDRFDIYTPLKTDEDKYEYDSAIQMILSAFEKFDIKFKQNALKIIESNHIHAPIIKNKRGGAFCYSPSTKIIPYVLTNFSGNIRDVSTIAHELGHGIHSLLANDKGEFGFHATLPLAETASIFSEMLLLDYLVEKYPEKRTELIVNLMDDSFGSILRQYDFVNFEIKAHDMIKDGKTYDEISEEYLNDLKSQYKIKIDDNFKYEWMYVNHIFDRPFYVYAYAFGKLLTLALYELYLENKDKFKPKIIKLLSEGGSKSPIEITKEIGIDITDEKFWQKGFDFLNEYLKELENN;locus_tag=LOCUS_08120;gene=pepF;note=WP_010942518.1 oligoendopeptidase F (Geobacter sulfurreducens PCA) [pid:30.5%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:3.2e-82],MGA_816
sequence2	MetaGeneAnnotator	CDS	229218	229955	.	-	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKEEKLLLENKINIIQELINQIYQEHFPNRRLPQVKVVFSNHLSDYNANIKHIPMFCKYEIKLNKNWLDSNELIIKGLLEYLIFKINKIKKKTFTQDLYDKFISNVHIAVEKNKIDPFLQELFEKNNKELFEEAIEQTNLVWGEVSKRTLGTYNYQNDTITISSILKNAPLHLIRFVVYHEMLHKKHKFYKAKTNTVHHSKDFRAEEKLFPNFINIDRELNDFLRYKRTVKTKKFNWKNLFNRF;locus_tag=LOCUS_08130;note=MGA_817
sequence2	MetaGeneAnnotator	CDS	230049	230597	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNTIKLKLTGLQQNILRLLFIKSGKSLNQRGIAKILSVSPPAIMKAIPNLEKNNYIRIKQDKESKRWSIELNRDNYKIMYLKRVDNLKQIYESKLLECLEQEFAGSTIILFGSYSRGEDTENSDTDIAIIGRKEKNINLNKYEKLLDRRINLNFYESFSKIHKNLKENLFNGIVLSGGIEL;locus_tag=LOCUS_08140;note=MGA_818
sequence2	MetaGeneAnnotator	CDS	230594	231049	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIKNFKEFLKEGIVKKQSPDKSRAKFLIKESENSNKSLLELIEKIKLSDVNANMFIRLCYDILMELIRSKMLLDGYNASGQGAHEAEVSYLRLLNFKENQIQFFNSLRYFRNGIIYYGKIMDKEYAQKVIDFTIDNYKHIKKTLDNDIQ;locus_tag=LOCUS_08150;note=MGA_819
sequence2	MetaGeneAnnotator	CDS	231081	232199	.	+	0	ID=MGA_820;product=dihydroorotate dehydrogenase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122453.1;translation=MELIIKVRNSIIEFLYLNILKPIFFLIDPQIMHHKANFVGSIIGSNFIFRFINKLFFSYSNSKLIQKINGIKYNNPVGIPGGFDKNGIMIKGFESTGFGFCEIGSITALSYRGNKGRHLWRLVKLKSLVVNYGLKNEGAKKIYRRIKKKKINIPLGINVARSNRKEVSGLEDSIKDYIKTVKVFSKKAKYFCINISCPNAETGYMFLIKKNLKLLLNEIDKLKLKQPIYLKLSADLTKKEIDSIIEVSKKHNVHGFICTNLTKNRTNLNIKKHNIPKVGSLSGVLVKEKSDEVIKYIYKKTKGKYTIIGTGGIFSAKDAYQKIKYGASLVQVFTGMIYNGPQLISQINQGIVEYLEEDGYTHVNQAIGSYHN;locus_tag=LOCUS_08160;EC_number=1.3.3.1;note=WP_011122453.1 dihydroorotate dehydrogenase 2 (Rhodopirellula baltica SH 1) [pid:32.4%25%2C q_cov:96.2%25%2C s_cov:99.5%25%2C Eval:1.0e-53],MGA_820
sequence2	MetaGeneAnnotator	CDS	232237	233397	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSHNSHFIHFLKNKEMNLLYLAIFFITLGDALISVFVPIYLYQLGYQVTQILYFYLLVSIFFVTFSILGAKITSRFGEKHSMIISTPFAILFYIGLIFMNSKSFLLFYFLPLFMAFRALLFNYGFHLNFINHSNKNKTGNQFAFIQTIALLSTVVSPYIGSLIAELNFAFLFIISAIIMTIGIIPLLLTQDKCEKIDFDSNSIFKTIKSKKNRGNIISFCAYSMEASIGRIIWPIFLIIIIGELSKTGFIVSASMFISLMAFYVIGKITDKINKIKLIRFGTLLYFFGWIGRIFANTGFKIFFIDSYKNLSEKLVSIPFFSHSYDMAKKRKKYFEFVVYREIVFNLIRIIMIPILIVIFYINFQPFILSFLIASIFTAGYIFMD;locus_tag=LOCUS_08170;note=MGA_821
sequence2	MetaGeneAnnotator	CDS	233404	234066	.	-	0	ID=MGA_822;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q73NZ9;translation=MDYHKKIAKFGLDIGAVKVRPTKPFNWVAGDIMPVYNDNRLFLEHPSYRRLFAECFAKIISDENIACDVIAGTANSGIPFSTTLADLLEKPLIYVRKNSKGHGMENQIEGIDSESDLLRDKNVILIKDLISTGETSMNAINAIRNKNGNCNYCFSIFDYEFPVSKNDFESLNPPCQVRSLLTYDQLFEVAKNSDYFNKQEIQLLEEWRKDPFNWSKKYNF;locus_tag=LOCUS_08180;gene=pyrE;EC_number=2.4.2.10;note=Q73NZ9 orotate phosphoribosyltransferase (Treponema denticola ATCC 35405) [pid:41.7%25%2C q_cov:99.1%25%2C s_cov:92.7%25%2C Eval:2.6e-49],MGA_822
sequence2	MetaGeneAnnotator	CDS	234085	234753	.	-	0	ID=MGA_823;product=orotate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q73NZ9;translation=MDYQKKIAKFGLEIGAIKLRPSDPFKWASGYFMPIYNDNRMFLWYSEYRRLFAEGFAKIVKDENIDCDIIAGTSTAGVSPCVTLSDLLMKPLVYVRNKPNTHGMEKQMEGMNVKPSGKKVLLIEDLISTGGSSIAAVNAVRAEGADCNYCFSIFNYGLEKAESAFQNLEPLCQTRSLLTYKILLDAAKEENYFNKKEFELLEEWESDPFGWGKKHFPQKYNN;locus_tag=LOCUS_08190;gene=pyrE;EC_number=2.4.2.10;note=Q73NZ9 orotate phosphoribosyltransferase (Treponema denticola ATCC 35405) [pid:49.3%25%2C q_cov:97.3%25%2C s_cov:93.6%25%2C Eval:5.5e-55],MGA_823
sequence2	MetaGeneAnnotator	CDS	234846	235181	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIKQKNHKDFKTIQCKKVDPIKDFKMDNSCYLLIKIEDKKIHIGICNYDHEILLEFIGDKSQDIYYSIINYEKENNIEFFTKKEHLCYLGKELKKAEYAIENNAEYVQE;locus_tag=LOCUS_08200;note=MGA_824
sequence2	MetaGeneAnnotator	CDS	235185	236042	.	-	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYELKTEEDIKPNIFKLRGINVILDRNLAKLYEIKPFRLREQVKRNKSRFPSDFMFQVTKEELDFLVSQNAIPSKKYTGGFLPLVFTEQGVAMISGILKSNIAVIVNIEIMRAFVKMRKFIFKNEHLFYRMDLLEKKQIKHDIKFDKIFNAIEDKTISLEQGIFYNGQIYDAYKFIINIIKKAKKSIVLIDNYVDTNTLAILSEKNKKVSIEIKTLTISKQLEFAKNKFNEQYGKLKITKFDKSHDRFIIIDDIELYFIGASLKDLGKKIFAFSKIDRDLLKI;locus_tag=LOCUS_08210;note=WP_005648596.1 DNA-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:44.1%25%2C q_cov:56.5%25%2C s_cov:56.9%25%2C Eval:1.2e-32%2C partial hit],MGA_825
sequence2	MetaGeneAnnotator	CDS	236150	236740	.	-	0	ID=MGA_826;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879766.1;translation=MTDFENLKNVCSSCTKCELSKTRTNVVFGRGSSNPDLLFIGEAPGKNEDEQGIPFCGRAGDNLNKLLEENNVDINKIFIANILKCRPPENRDPKNEEMELCTPYLIEQIKLLKPKIICTLGNFSSKFVLANGNIKEMKKIEGITQIHGKLIEINFQGVDVKVVPIYHPAAIIYRRHLKDDFFSDFKIINNLLKEEN;locus_tag=LOCUS_08220;note=WP_010879766.1 uracil-DNA glycosylase (Archaeoglobus fulgidus DSM 4304) [pid:40.8%25%2C q_cov:97.4%25%2C s_cov:94.0%25%2C Eval:2.3e-40],MGA_826
sequence2	MetaGeneAnnotator	CDS	236744	238009	.	-	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRLDVQPLDETMPFLLGLVHNKSIELLIEAESFTSSNKTDLKKSISGFELSSRVFEHNKRHGSKFRYTFSKSHNLNEKWSENYSLGVSKQINLEPIIRDGFHLSDKKSDLNKKLISDFNTYTTLVVDGVIRELMELGLSIEKSGYIALAFAYEHDHIFKSPEKCDEKAHSIIYNLRKDVLGYANSLFRLNGRAFLYKEKNTEVNYNYDTIVSELSDELDNYQKAEVINTLEFFQKKYFSFYFNFLEHFKTENSELEILIDCNFNKLSDFILDNFCDLGYEKIGGKPFLGYDLILDRRDLLEDNIKKNKIKFYFNMDGNNFNDNDLVNVLKFNHDYSMTLSRKGKGTSIKFSHELNCQPTEYNYGVYSYILNSFFQSIDDLYNNVMGLEDKDGCKVLFKLNNMTYGIGTVDNKFYKTFKKP;locus_tag=LOCUS_08230;note=MGA_827
sequence2	MetaGeneAnnotator	CDS	238094	238903	.	+	0	ID=MGA_828;product=deoxyribonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435866.1;translation=MIKNLIDCHAHVDFKFDLNKLKDDDPFKKLAKTFNTKKIIDNAIKNNVVAIINNGTNPETNKNCLKLSKEFPIIKSALGMYPTDGLEFSETEIDKEIEFIKKNKKNIIAIGEIGLDNYLIDMNKKQKKKMNDNFLKMLELASSIKKPVIIHSRKAEKEVIDILSSFDIKAQMHCYGGKLKLAKQAIEQGIIFSIPPNIVKNQAFEKLVEITPINQLLTETDTPFLSPHKDKLNEPSNVIYSIKKIAEIKDLDEQETANLIFSNYQNIFL;locus_tag=LOCUS_08240;note=WP_003435866.1 deoxyribonuclease (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:31.6%25%2C q_cov:81.0%25%2C s_cov:86.3%25%2C Eval:2.5e-29],MGA_828
sequence2	MetaGeneAnnotator	CDS	238900	240297	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQQQFNYLHLASVAYKHSLYGKVGTYSSNLFEGALWLNKENGGSVNVIEPQAEIQLESSDPFDPKTTIGKTERVYIQDKRLAYESKRLLESNFGQYTGNVDCLLRVIFDKKPILSPTESIFKKDSDYGRTPLEFRPLVNLEHLDEEETRKLIFFGGGDVLKSNEFFNNNLNLETLMNYYQFGHSHLFAESASIYAFTNFVIPFNEIFKVYNSNNKEVGLLTNDWRMVEHEIKEYISVISESIEISKKMDANDFLKYLNRTNYNEKNNFKINVFSTIKNMSTKEEIEYEIKKHLIHEYLSSNKLIQMSDDLLDRDLFSRINQFMYHIEENYEDPDSFNIRELNGVPYVILGSNYNPESNVAIFPHGYFDDFGLISQELSQQTSDLPHLVKASQKDGIKPGLNFIDLKDGTAVRMAANKYGESFSGVINPDRKLISIVGSNGKVIRTNDEWTQFDYFDLDKMRINI;locus_tag=LOCUS_08250;note=MGA_829
sequence2	MetaGeneAnnotator	CDS	240422	241411	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERLNRILTQEERDHLYTANLEFKASPKERQALFNELLNSIEKLKRNLILTSDDIKSEANFGLKDHKILENAMKHINQTWQNISQINKKTHMDSIPAEGPLREFSHELHSFDRNLHAHWTNLNRNDNLIRKIIYRTQAIEKHFSNIYKSLLALEQLMVKMKNNAFDDVKDFSYQISSVYCNLRSSINDIEELFKLKIDNSDIEGIIDSLIILITKLPKKELIKKTGIIFKTNYIEFKEEDAQKLREELADLREYFSKLSNLEAFKKLHDMDSKLKKDSIQTFESYKNILILLDNLLYMHFKGGRGLRQMIDDFKSKTNELLNTKIFSPI;locus_tag=LOCUS_08260;note=MGA_830
sequence2	MetaGeneAnnotator	CDS	241408	242613	.	+	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNELVYQPQEDTHLLLDSIIKNIKNQKLNILEIGCGSGYVSINLLKEYNNLKITCTDINKNAIKLSKENAKENNIKIKFIESNLFENIKQEYDIIIFNPPYLPQDKLSSKHSIDTALYGGKKGYEITHQFIEQVYNNLKPNGKIFLLLCSLSKPKTSLELLNKFNYEYKLIKQIKIFPEELFVYEIEFNEFLKEMKNKKIKTIEFISKGKKGNIYSGNLKNKKIKIKQLIENKNNQSFVTIQNEVNLLNKLKKQSFVQKIIENTDNYFISSFIEGITFESWLEKNKSKNNFKKIILKILEICQILDIQKIDKKEMVNPYKHILIDKKENVYFIDFERSSICKNPKNITQVINYFCSKKINDYFKKFNINLNIKILNQLCKKYKKDYDEKKFKDIINNLF;locus_tag=LOCUS_08270;note=WP_010870442.1 methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:38.3%25%2C q_cov:46.1%25%2C s_cov:92.4%25%2C Eval:1.3e-25%2C partial hit],MGA_831
sequence2	MetaGeneAnnotator	CDS	242605	242967	.	-	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIDKFSKNSVLNFFYGLIFQKKNLETISNSKISFEDDLSKLTRTYFFIKKIEPELYKIINSCDSQINEDYYKSGFTFKQIDDYVDSSRKYPELFEKYGELNNNLLNLYLKLHSFKNNSK;locus_tag=LOCUS_08280;note=MGA_832
sequence2	MetaGeneAnnotator	CDS	243287	244936	.	+	0	ID=MGA_833;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496746.1;translation=MEKFRKEDVKIIVVTGGVLSGLGKGVVCSSIINLIKYQGYNATGIKIDPYLNVDAGTMRPTEHGEVFVTDDGGETDQDLGNYERFGDIKLSKKNSITTGQVFLSVLNRERNLEYDGKCVEVIPHIPQEIEERIFKSIFDNNCEFGIIEVGGTVGDYQNILFLEALKEIKRKYNNVVFTHVGYLPILTGGEMKSKPLQHSIRMLNSVGIQPDIIIGRSENEIDDVRREKIATLCCVKEENIISAPNVDNIYKVPLIFDKQLFMHQIFQKFNLIYDSTKNLEWKKFIERIGKIEKKIKIGMIGKYFDIGSYFLSDSYISVIEAIKHAGYNNNVHIELTWLNSKEYELNKEKINELSKYDAIIIPGGYGSSGVEGIISSIKFIRENNIPLLGLCYGFQLMCIEFARNKCNLQNAHSTEIDNETEDPIIDLQKDQKENLLNKNMGGTNRLGAYFAKLKKDSQVYSLYHEEVISERHRHRYEVNSQYIKILESNGLCFSGKSPDGNLMEFLEYADNNYFIGTQAHPEFKSRPLKPSPLFDGLIKAALKRKSTLN;locus_tag=LOCUS_08290;note=WP_064496746.1 CTP synthase (Methanocaldococcus jannaschii DSM 2661) [pid:47.9%25%2C q_cov:96.0%25%2C s_cov:97.8%25%2C Eval:3.9e-135],MGA_833
sequence2	MetaGeneAnnotator	CDS	244923	245510	.	-	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKGSIELSMNAIVVIILSITIMVFGFFIIGKIFQLEKTIDISREKTTFDFDGILGVKQNRFEVTLADPVIVNFGIVNQIKNENINLELKLNNIYSLLTADSTNPTETFPTFNEEFQTLFSSTGTQKQIIEINDLKFREKRYIVFAINNVKDFKKHIDSLTGGQDNKFFILEFALYRNKIIEDNRKYNVYINLK;locus_tag=LOCUS_08300;note=MGA_834
sequence2	MetaGeneAnnotator	CDS	245507	245770	.	-	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVKRKVRPKSSKKQLSRQEEFDIMKLVLDKFLWFGFAIMAYGLFLTLQDPYQGFNLGMKFIVSGAIILLLFMVLIVKEYEFIVNK;locus_tag=LOCUS_08310;note=MGA_835
sequence2	MetaGeneAnnotator	CDS	245816	246376	.	-	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKGSLELSMNSIVIIILAVVFVSLVLVFMQTIFQEQETKLLTIVSDFPDIDPPTKDSPLKVRPKSVIIEKSGQEFFDINYFHPRDEEYCQVTVDGHKTIGDKLIFTLVNDPQKLSFGKGIAAKVIMTVNENYDKTGPQPSMFVKVCCASIVAGATKPTDLTDDEGNCKSSDKQNSVPLEITIKR;locus_tag=LOCUS_08320;note=MGA_836
sequence2	MetaGeneAnnotator	CDS	246382	246954	.	-	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKGGLEMSMNSIVIIILAVVFVSLVLVFFQNVFGEQQKNVLNVIDQFPSVNPPTSVNPLKVQAEDPVSINIGESSARTIPVEYLHLGDKQECGASISEATITDTKVKFILPSSTVQLDDGGKVAFSITAMGQTVGTTVYQIEVCCKTGATPLITKSIPNIKGESVDRLVCDSDNVIRSVQKAFVVKR;locus_tag=LOCUS_08330;note=MGA_837
sequence2	MetaGeneAnnotator	CDS	246976	248580	.	-	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGRFSLSLFLSSLFLFTLMPFVSAAEEGFSDFLMSFISGSGDVIETLIAIPGLMIGLTIVILSIFFYFVLYLIAQITFLHHFDHPEKIKSIKALIGAFSFLLVGGIFILGKTNIIDIESTLTKFSLGSLSFVLFGVVLVMIISMVKSLRSSLVEKHPENHISNFFLYIFGPLAIGNLIFTTMFEFLKSLIEIKDFTLNPLVEYMASGTLFNIFVSFIVLGLVFTFFSNKKNQSTSYFKDFITDAETTLKTRFGETGGSKVASEENNVMIHDSSKAFDLSSLNIPLPRNLPSNVETAIEQNINSKGEEEINELVQTEKVFEHKVITYVESLKKEVKFIYENYNDLKDVINQSAKDLKFSFDALVEHDPHLNDVLKTNFESSYGNVKKEIDVFNSNRLAFNQNSLNLIESNLTKIESTLKNSEEKVIASKNDKHLLVKEIINEDKTLIEFFDLIVKDVNYLNKEYHDIANLKESFIKLSDRLIKMLETAKGNSDASEKEVIDHLIKEISNYKLVIRSKVHSLDVSVKNIRKIHF;locus_tag=LOCUS_08340;note=MGA_838
sequence2	MetaGeneAnnotator	CDS	248637	250007	.	-	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKLLLMLFTFIPFVSATEGDFTTFISEFLTGFNTSFTQFLSTDGFIIFILIIVFTIFLYKALLLIVSSVNSNFYSSHENTVNKLLTALSVILVLTFMVIGRDNVADVEKAFTNFSFFTISYVLLFLCVLFSYDVYTKLRDFFRDNLTHSAGEYYVLSISMAVITLYVVFKSLLMGVISLIANVSIEDGVITSGGDEFGGLIISYVLNQSFFFYLPLIIIVITLIVVWFGKTSSNLNYNYMDGFSNIPPKQAVGNLKKHENEISSKINELIRDKKSIADEFQEHMMGLSKLHNITLTGSHSSEVSFNNTIDGLTSVIHNLRSSSKKYFDFLNSIEKKLASNLKKTIISEDHLLDSGVDENLKDVCNKIFNKFLNNEIHDYREIANHEHKFISDLNSLVHHLENLEIYCIDPSISEDSITLCDKNKSSLAKLIAPKIKMLKRKIVQLGHMELPRKL;locus_tag=LOCUS_08350;note=MGA_839
sequence2	MetaGeneAnnotator	CDS	250175	251800	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKDKILEYSTRASKFLNSSKKALVLTLGLLANNSNTFSIYHPEGPRESYVKNFSIENIKDMREQYEKIRQKIKNSENKYDFENVITNTYDKIKNQNIDPRQALEQTLEEFESDELIGNSLTGFRKKQSLFFKDGFKVNDYLKVVETAYKLIPVFAESLELYLDDLNKQDQDNSNVKVSENHINEFYNGIMNSLYSSFGTKEDNMFGSNTYNFVTGHVKDFYKEPVFKFSNLKFEDIEEKSDKSGESFLMAHIIQELTDIVYGESIKLVYENEKDKLKELANRQKDYGFKELSSILPKEEVIQFVKITPVQSSQSVKVSPVNTQVQEDVSYLLGNPQNPVNQFIPQSNSNALILTELKEIKDTVKTLEYTTIQNQDMIQNNLKLINQNQGAMILSGELTAENTRGIQTVQAAAVVSGEVIAENTRGLETVQGVVIQSGQRPKKTKPKTHIPIEVPPKRKSRRNSRRNTCIYPEKFINHPKKKQILEIMKDDYNLGNKRGDILRKDFQFPDGYLDAYKMICDKPKPSLVQAKSFLYNLSKK;locus_tag=LOCUS_08360;note=MGA_840
sequence2	MetaGeneAnnotator	CDS	251810	253378	.	+	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYIIPLIATANIHFSYANFFKPIQNYKEQRVNYSDPSFKHTSFNYQNILNYLKNSKSKLSRTFKQNKQQLKQIYLDKLFDQDGNLENRFNNNNPEFEFNQFRKEIPTLIFLNEFNDFNQLTRTINNRQLLRNKLIQAYEQFEDKLKQAEQTYTSPRAMNVYETRLQNALEVLAATKTYSEANQNQIRSLIKINSGDQNDFDKLSFIIQYGIKPLGHRLAKFNDLQLTRLMLYIPGLQIAESGLETDNNNRVINRVDNDGGIGGLSVYQTPNIARFGYDRTTQEFATEVLSDKKINGKTYRKIIESFKQGKTAFVPISQVVNGGRDLATLEQKLLMGEIQTENKSHFFSAKSFYQNIKDKSIFKKAKKKFEELVKDKYRFKGLEQLLNRDLKSLADSRRLEHEQENPTASANISTFITTDSIIRESKINDNPLNIYLSWNLGVSSAERLNAYVNAFKHYVKGKISKQQLKKKYDRVNGVKQIKIIGNPKSRVNSVIRNYGLRLFHLMDTYIYNLKIRKNKN;locus_tag=LOCUS_08370;note=MGA_841
sequence2	MetaGeneAnnotator	CDS	253375	253632	.	-	0	ID=MGA_842;product=50S ribosomal protein L35ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867507.1;translation=MEGIIVSYRRAKHSYTGNQMVVLVSGYENREKASELIDKKVVYKTESGKEITGIVKRPHGNSGKVLVHFEKGMPGQAVSKKVVFN;locus_tag=LOCUS_08380;note=WP_010867507.1 50S ribosomal protein L35ae (Pyrococcus abyssi GE5) [pid:41.5%25%2C q_cov:96.5%25%2C s_cov:94.3%25%2C Eval:3.9e-13],MGA_842
sequence2	MetaGeneAnnotator	CDS	253641	254216	.	-	0	ID=MGA_843;product=50S ribosomal protein L15e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867981.1;translation=MGMYKYLRKIFNKPEGDAIKIAKDRLIAFRRENVTVKISKPTKLHRARSLGYKAKEGYILVRQAVKKGGHSRPDIKGGRSTKKGRKFQIVAKSYRQVAEERANKKFKNLEVLNSYLVDDDGKTAWYEIIMVDVAHPAIKNDKKINWILNHQGRAFRGLTSAGKKSRGLRNKGSGAEKARPSNRAKGRKANN;locus_tag=LOCUS_08390;note=WP_010867981.1 50S ribosomal protein L15e (Pyrococcus abyssi GE5) [pid:55.2%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:1.5e-52],MGA_843
sequence2	MetaGeneAnnotator	CDS	254330	254605	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKIIKKSTIKKKDELKISKELYNKVKEEVEKKYELKKKMAKIKSSAFNLLGVLLLIAIPFSALDWFTGVILAIFCFWVSRSIKQYYLLI;locus_tag=LOCUS_08400;note=MGA_844
sequence2	MetaGeneAnnotator	CDS	254646	256109	.	-	0	ID=MGA_845;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YKK9;translation=MEAGGFVIISGMSFGDEGKIKESYGIMNSKSLFEMQLLKNNPYPQFDITFKCNGGANAGGTYYIDGKKCEIHQLPPGLEYKHLQFGIGSGCVVEPIGLTEEILNLKQIGVSLEGRLNIYGGCPLITPLELFLDAKSGGKIGTTGKGIGPAYSKRALRTDGTYQLSISISEYMGDKDFCMKQIKGTLSEFLIMNNTHLKKHEVDDKIEEFDEAVKFISQYVFDDMLYFQNQVDSGKNVLIINSNGACLDNHYGLMPNVTSSRTISSTAPAGANLNFHNCKGIIGIVKAIDSRVGNGPFVGEMGGIIAEEMYRKTKGYTGDLDKNGVNPYQLLESNDEALIGRGIRILTGEYGVTTGRPRAIGYLDLVRLKTMAKISGTTQLFINKIDCLQLFSHTKKNKIPVITHYRIGDDVTDQLPITNKKIRAVEPVFEYLDTFSSDITDCKFWDNLPKQAREFVDFVEEYVGIPVAGIGTGPANEQLLFNSKYYK;locus_tag=LOCUS_08410;gene=purA;EC_number=6.3.4.4;note=B5YKK9 adenylosuccinate synthetase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:28.9%25%2C q_cov:97.3%25%2C s_cov:97.9%25%2C Eval:8.3e-49],MGA_845
sequence2	MetaGeneAnnotator	CDS	256194	256751	.	-	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESEYKNSVLLLDPRIAQLRKPLSKGSSLFRVHYGETEILENNGLYKVSKTIGPYNIIANASRYRANILKINLNEPMCYVGQKPVEENLFKGHLVIYKDSIFKTLDFDGNEKDVPGIHFLVKSDIWRSSQNPDSDLDHLLFNNLRGENGIKRVEDIIRGIKFQKKNVYPEIYDIYIPLDELMNK;locus_tag=LOCUS_08420;note=MGA_846
sequence2	MetaGeneAnnotator	CDS	256851	257309	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METYGLFEVVKRSGKPNLKTSLEENEEAISRIGRSKCIYTMYSSIPIITALENIKIILNREKPNISSIDDEYKILFQSRELLGMRDNTISFTLFNRERDYQNIPKKNKPKNNTVIELKSDYPHILTTYLGLFLYLHDFEKYKLVHHKLIEKN;locus_tag=LOCUS_08430;note=MGA_847
sequence2	MetaGeneAnnotator	CDS	257345	257794	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLKLFKQSNGYCGPACLKMILSFYEINKSEKYLAKITKTSRIKGCKEKNIIKAAKEFGLKGYIKQNSSIHELKQLIKKKNPVIINWFSPEEAGHYSVVIGFKNDKIFLADPHFGKIKKHKIEWFEQRWFDLPFHPKGPVLKEIIVLK;locus_tag=LOCUS_08440;note=WP_008759963.1 ABC transporter ATP-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:32.2%25%2C q_cov:79.2%25%2C s_cov:14.7%25%2C Eval:8.7e-07%2C partial hit],MGA_848
sequence2	MetaGeneAnnotator	CDS	257786	258256	.	-	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTDYVIHLKGLLAKQDLTHAKVNSMFPEVFSTIDLMLDEFEPRFTKDVIVELGSCIETYLHTGSFAQISPHIICKADFLKKEYGIHIITFESAMNKIYKKFEVDKVTNQCDDVSQRGYKRLKNSTLLYKNESKLTEFLKAHTSVKILVDFKESF;locus_tag=LOCUS_08450;note=MGA_849
sequence2	MetaGeneAnnotator	CDS	258732	258998	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDISITKMSSKGQIVIPVEMRRNIKEGEKLIIIQNKDQIIMKKASSLDQTFNEELEFAKRTEEAVKRIESNKGIKMEFDDFINEMKKW;locus_tag=LOCUS_08460;note=MGA_850
sequence2	MetaGeneAnnotator	CDS	258992	259234	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVIFDQNFKKYFKKIKNSSIKEKIIKQISKIKDNPEIGKPMKYSRKGTRELYIKPYRISYKVEKNTIFIFDLYHKDDQ;locus_tag=LOCUS_08470;note=MGA_851
sequence2	MetaGeneAnnotator	CDS	259278	259913	.	-	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYDILSLYKSLIDVKTFDSFPDSWELENPYINYWDRFEFFIDKFYSDFKQEESRNLIIGLNPGRMGCNKTGIAFTDENTLVNKLGYKSLSGVLETEGTATKIFSMIQELYEFDDFFSKYFLTNVFPFGVVEDGRRNVKFRDIMKHEGAYEFSKEFIKKSIDMFNPKGVICIGRGSESFMRKNFSELPIAYLHHPAYTFPEEQKENYRQSL;locus_tag=LOCUS_08480;note=MGA_852
sequence2	Aragorn:1.2.38	tRNA	259965	260035	.	-	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence2	MetaGeneAnnotator	CDS	260113	261159	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPENIIEDFRNKINESKKPLVFFHDDADGLCAFLQFIKFSTAKTKGVMLKTRPQLAKSYADIINDYNPDHVFVFDIALFEEELLEKINIPITWLDHHDILHTKKINYINPKMYEPKDNWPVSYWMYQITKIDPWLAMVGSLADGMLPPIEKELLLKYPELKIEKNEHKEKRLNYLYHSKIGWIYKLINNLLKGSGKELMQHIKLLKQINSPYELTEQSTVIAKYLIEQNQKIENEYEKLKDELNKLNYNKSLIPFIYETKGLSFTKEIANELCHKYPNKLIIVGKKKNGLIKMSLRWNKDIRPVLKKALLGFDNAWGGGHSFACGCCVKEKDYQKFEENLFDQIISY;locus_tag=LOCUS_08490;note=MGA_853
sequence2	MetaGeneAnnotator	CDS	261160	261603	.	-	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVSNNLFKKKFDGFYLNSDSSKKNETEVIVEKEEYKPDGKIIKEKIIPTTNKKVNLELSGPQKVSHNSNSDFSNINSRNISNHSTPLAPQASPTSHQPSDYKVSGTFTPSSNYSSGNGPSSSGNYGACCNMARSGGIRRCMTCPNK;locus_tag=LOCUS_08500;note=MGA_854
sequence2	MetaGeneAnnotator	CDS	261712	262152	.	-	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLLKETKIDFSNFGFYQICLCEESRDFNGLDSLFFQEVTREEKVIIAENFPKYYGIHDDIVKNFMQYLTRSLFPGRLWSNHGMSPNGNKHYSFLGETKEKTTHFDMLIMNYTRLLNINSLSRVDGIITPHDYPIESGSLILKNK;locus_tag=LOCUS_08510;note=MGA_855
sequence2	MetaGeneAnnotator	CDS	262226	264244	.	-	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGINYFSQSTDKYDYEEPERELIEVPMFTTRDLGSTIVDGKGQGTIINSVGAALRNGTTSIEFTPQASGEPGIGTESIGTESRKQVRDLLRLNDAKIHSIHVPPEKVGNVTGWSGEKGFNEAQLDFTKQEIKKHVDLAADLQGGAIVFHTNEFPRKTWKTFGHEKKQHGGGEFFPLLETGKTGEEDYREGIIFVDKKNGKVALNFDKNQKIEVIKNDGKSWVDKYSEALKDGKTDEMKYDVVPKIEKRDIFWYENESDKDKDKFKKKYKDVLNNYSKIFNMPEYEITEDRINPERAMLIDAFEPQFRASKANVERYDHELRQMIVRRDILKKQIPLYEEAEESAKNNPQLSESLKVEDQLNPEVKIWQSEELKRELSKLNGTISLHGDQVEQAIREAHNRFEQFNNLETVQEHGFNTATETLSELGYYAYKKTKEKMDSGQALERPIYMAPENIFPQGGYGSHLEEMKDLVLTSRKKLIEKLKGGGMNESKAAKIASHSIRSTLDTQHLGMWRAHFKPKKNESDEAYKKRFDRWYMDQVKRLAEADVIGNMHIVDGFNGHTHVAIGEGTLQVVNAVKAVKGLTKGPLSLNTEAYEDKVGNLSAQQMNMWRAFDAPMRSIDNADAGLKYIDSKNTWVTYGMERFTSRSTTFNTPKSINETEEYKSWDGLPLE;locus_tag=LOCUS_08520;note=MGA_856
sequence2	MetaGeneAnnotator	CDS	264420	265091	.	+	0	ID=MGA_857;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021954.1;translation=MILGIDEAGRGPVIGPMVMAGILINESDEIKLKELEITDSKLVNKKKRKIIYDIITKQFKHQIELITPEQIDDKSKYNLNDLEAITIAKLIYSLKPTIVYADCPSINPKSFNEQLLKILKEMSKDDKDFLIPKIVCEHKADINYISSSAASILAKVKRDEIIEGYKKEYNIDCGSGYPADKYTVEFLKNNINDPKLRKIIRMSWGTSKKLLNPDKEIQNKLIL;locus_tag=LOCUS_08530;EC_number=3.1.26.4;note=WP_011021954.1 ribonuclease HII (Methanosarcina acetivorans C2A) [pid:42.5%25%2C q_cov:94.2%25%2C s_cov:95.1%25%2C Eval:2.4e-34],MGA_857
sequence2	MetaGeneAnnotator	CDS	265114	265815	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELFYWTFLALLIYILIGHITKHMRVYCDDGSHWDIHLHSFASGVLFAALFFKFFFKIYTNSNVILNIFIAIITFTIFYGLNHFLIYHKYTIKKFHKIAVEFKILRFLLDFFQHFVIGGIFGHIVITNNIDAIFLIIPLLFVKLISSIEKADILIKNKKTKETFEEYFMSFITLAGFIIISQINILEIYFYFALAFVTGGIFYSIISQIFSKRKVNIFYMIVGEIIYASLMFI;locus_tag=LOCUS_08540;note=MGA_858
sequence2	MetaGeneAnnotator	CDS	265861	266574	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNISQINKTIYQDKINSERLTKTNKNRFDLINKITIETINKLNENNLNIVDIGCRDCSYFDNISNINTNKLIGIDNVKKFIELGKKKGYDIIEHDLEKPLPLKNKSIDIINCQQVIEHLLDTQEFIREIHRKLKMNGYLLIGIPNFNSFASRIRFLFGYRPLQYSPVLQWSFGNHKSMFNLNDIKKLLIDNNFKIEKIYGLDLFLSLKKYNKGINLNWLAKLFPSLAQKIIIIAKKV;locus_tag=LOCUS_08550;note=MGA_859
sequence2	MetaGeneAnnotator	CDS	266571	267173	.	-	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILDYFKSKFSFNSNNGYQSYSRPSLDEVLETVSTLFRPREFYGFFATECSGFSKNKLHYKIKSTLAGKAKSFKVEKHYKIYQCEGDSQLLHSEFFKGDTWASFGTSIKKDSGLYFHVASRINDKIYLSIHKKNGSASKSCLSELTFEIPDEYKLENLFYNNLLPREQIQWISNKGRLNLTDFHKAIEFSNYLMGKKLD;locus_tag=LOCUS_08560;note=MGA_860
sequence2	MetaGeneAnnotator	CDS	267227	267820	.	-	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEQLLKFALNSTKFIDRPSLENIYLENLGTQVFEANDNFRKVYFPESHDYFRVTQNMNYCRFLNNLEKLNFLKSTIIGIESEETSPNRLDFCVNNNDWILIGQQIISDGCINISYALRTEDTIEMSLIKSPFSKGNLNPDQNMTVELNLPKRYSLDYVFDTIPNGFKESRVKDLKELKNTMSYSIGLFLVGDIRFF;locus_tag=LOCUS_08570;note=MGA_861
sequence2	MetaGeneAnnotator	CDS	267938	268165	.	+	0	ID=MGA_862;product=BolA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000150944.1;translation=MITIEEIKNKLENSMPNAIIEISNPQEDGRHFFAKIIWDEFENKTLVEQHQFVYEILKEEMKEQIHALGLDTKSK;locus_tag=LOCUS_08580;gene=bolA;note=WP_000150944.1 BolA family transcriptional regulator (Leptospira interrogans serovar Lai str. 56601) [pid:48.6%25%2C q_cov:96.0%25%2C s_cov:96.0%25%2C Eval:4.9e-16],MGA_862
sequence2	MetaGeneAnnotator	CDS	268178	268486	.	+	0	ID=MGA_863;product=glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F4D2;translation=MDEQVKTKIEELIKSKKVFLFMKGTPEEPDCGFSARVIEVLNHFNIEYLSFDILENEEIRQGIKEYSNWPTIPQLYIDGKFVGGCDIIEEMARSGELSKLLN;locus_tag=LOCUS_08590;note=Q8F4D2 glutaredoxin (Leptospira interrogans serovar Lai str. 56601) [pid:62.6%25%2C q_cov:97.1%25%2C s_cov:92.5%25%2C Eval:1.2e-30],MGA_863
sequence2	MetaGeneAnnotator	CDS	268536	269009	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILWKNLFKKRNNNSISTIIKNVDLFNELSKKQIKEIINLGHVRNYKENEIIFNKNEQSFGMFIILKGQVEIYINKNNKKQIIDNYKQSEYFGEISLIDKNIRKVNAIAKKETKLFYVFGEDFKELLNKNKDISILFYKNLTKNLIEKLNYLEKLL;locus_tag=LOCUS_08600;note=MGA_864
sequence2	MetaGeneAnnotator	CDS	269006	270064	.	+	0	ID=MGA_865;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404861.1;translation=MNPINLNKKIWLNLFLILVFITILGYIFFQFISIFGYVLIGVILSYILNPIVKKVEALGFSKKHAFSIIITISLIFIITAMTIAIPLINQEVNSLSNKWPEIKSKINNQILTEKINNKNESTYYFPLLNIEIAKSNIDGFLLDYSSQINIFAKNLISVIFKLILIVPIVTYFLIIKRRKIKKKIFQLIPNKYFEIIFAMVKEINKSIENYISAKIIQAVIISVSASIGFIIINLNFPIFLGIFVGLANIIPYIGPLIGAIPAILIAYLFFDTKIIIFVLILLLIVQLIDNFIIQPIILPKLVNEHPIVVIVITLIGAELFGPLGMIMALPIFIIIKIILLKSYIALDFLYSK;locus_tag=LOCUS_08610;note=WP_011404861.1 AI-2E family transporter (Salinibacter ruber DSM 13855) [pid:25.5%25%2C q_cov:89.8%25%2C s_cov:77.5%25%2C Eval:9.6e-30],MGA_865
sequence2	MetaGeneAnnotator	CDS	270124	270402	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDKWYNSGISNYISQGVAYSLIFGTLILGGGSCYRQNVIAEAEAERIKSGSYIIRQGDFNKNGKREEFIEIRNKKFFSMIDGIDLESKLKE;locus_tag=LOCUS_08620;note=MGA_866
sequence2	MetaGeneAnnotator	CDS	270565	271554	.	-	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQVNNSKLQKNSNLIYFKNLNIFSQGLIVGLIIVVIIVFFDLLYGTFFGTPYEAGLHNLVVGIAFFIIIFVSIYQAYRLQDVPFDEKKKIKTSLKLFFSRVMIFFLFIMIMAMILSIYFQNTIIERLIKLSLINLGALMFVLGPIILVLGPIFILLIFIIANAISSFFIKNLGEILIKEKNIKKIIFGLTILFIVIYFLNINFSFGIELSEGFNKKYFGIYHYDNILSNADIKTFEVLEYGYAKDKNHVYSYSNLISEADSETFQVVGGFFAKDKKNVFFKENKVNDADPMSFELIKNTKGFYGKYGKDKHSIFLETERISDVESLDE;locus_tag=LOCUS_08630;note=MGA_867
sequence2	MetaGeneAnnotator	CDS	271744	272247	.	-	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINIEEINSGNRHKYMDVAKQIFEPEYYVDIEASFDTWIKEKNGMNYFIRDNHEVIGITGYYLFKIDDTENAGIRFHGLLPEHQNKGISKKVIDLIVNDLKNKYSNLKAIYEQISSRNEVSLNYFKKMGFRETTNKKTLVHFNRKNSQPENKKLELIILEVPINNL;locus_tag=LOCUS_08640;note=MGA_868
sequence2	MetaGeneAnnotator	CDS	272409	272789	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELLLPQEVEVHYIIPTIRKYFAHYLNQNGMNQTEISKIFGITKSAVSQYFSKKRGNKITFQKDFVKEIEIATKQITDKYTFMYQMQKLLLKLKNDYSICTIHEQINPNLNNCNPELVGCHFRKTK;locus_tag=LOCUS_08650;note=MGA_869
sequence2	MetaGeneAnnotator	CDS	272786	274180	.	+	0	ID=MGA_870;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966563.1;translation=MSKLDFEPNREVYDKKVNFKKNIETSPGLSEDIVRLISKQKEEPEWMLKKRLEALELFEKTELPKWGPSLDILDFDQIKFYVDPNTKETNSWDEVPDEIKETFERLGIPEAERKGLAGVGAQFDSSMVYHNLEKALKDKGVIFENMDVAVKKYPELVKKYFMKQCIPINDHKFIMLHAAVWSGGTFIYVPENTKVELPLQAYFRMNEIMGGQFEHTLIILEKNAELHYIEGCSSPKYSKQSLHAGCVEIIVNEGAKMRYSSIENWSKNVYNLNTKRAIVHKNAKINWVNGNMGSCKTMLYPCSILIGEGASSDNLGIAFAGKNQDQDTGSKVIHAAKNTSSTIKAKSISNFGGISSYRGLVEVNKNAINTKSSVECDALIIDDKSSSNTYPFMKINNNKINISHEASVGKIGDEQIYYLMSRGLSKEQAIQLIVGGFIEPISKQLPLEYAIELNKLIELEIEGM;locus_tag=LOCUS_08660;note=WP_010966563.1 Fe-S cluster assembly protein SufB (Clostridium acetobutylicum ATCC 824) [pid:57.0%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:6.8e-154],MGA_870
sequence2	MetaGeneAnnotator	CDS	274181	275293	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDQIKLNAENYYNSTKFETIKYGIGINVNLNKLNIDKLKFNNSKNKIDIIANKSVKIIDFSKLKTEINYINKLIKEDENKIISLHFSRFNSGKLIIIPKDTIITEPIIINSDSQDETDLYNIIIIAEESSKANIIEISKSNNKTKLKSNIIQIFANKNSNIKYNYINLNDKKTNCFNIKRSEIKKDANIDFLDVNLGSNFNQNSNKTYLKESGANTNNYAIYFTNEKQNYDIDIENIHDGSNTNSNIISKAILDDESKIIYRSNINVNKNCKRCNGHQKENTLLISKDSKIDAVPMLEINNEDVNISHGVTISDIEEEKLYYLKSRGLDEEQSKEIIIRGFINELIDKIEDKNILQLVEKEINKKLKK;locus_tag=LOCUS_08670;note=WP_010966563.1 Fe-S cluster assembly protein SufB (Clostridium acetobutylicum ATCC 824) [pid:24.5%25%2C q_cov:77.3%25%2C s_cov:63.9%25%2C Eval:7.8e-30%2C partial hit],MGA_871
sequence2	MetaGeneAnnotator	CDS	275290	276483	.	+	0	ID=MGA_872;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001006450.1;translation=MNEKDFPILKRKINGHNLVYLDNAATTQKPNQVIDSQIDYYKNYNSNVHRGIHQLSEESSKMYHDARQTTADFINAKFNEVVFTAGTTDGINMIANSLKSQLKKGDEIILSEMEHHSNIAPWIKIAKKKKLILKYIPLKDFELDYKKAKDLISEKTKIIAISHISNVLGTINDISKIKTMIKNKNIIFILDAAQSVPHIKIDVKKLDIDFLVFSSHKMCGPTGIGVLYGKEELLDKLEPNQYGGGAVEIVNKDNFTLTESPFKFEAGTPKIAQAIGFASAIKYLNHIGMDKIEKYEHELYEYAHKKIKEIKNITLYAPKKNRSCLISFSIKNIHPHDISEILNQKGIAVRSGNHCAQPLTQAINVNNTTRASFYFYNNKNDVDKLIEGINYAIKILS;locus_tag=LOCUS_08680;note=WP_001006450.1 cysteine desulfurase (Staphylococcus aureus subsp. aureus N315) [pid:49.5%25%2C q_cov:99.2%25%2C s_cov:95.7%25%2C Eval:4.1e-112],MGA_872
sequence2	MetaGeneAnnotator	CDS	276485	277234	.	+	0	ID=MGA_873;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287679.1;translation=MDLEIKNLCVEVEGKEVLKNINMKFEKGKTYAIMGPNGSGKSSLANTICANPKYKITKGKIILNGKDITKTTPDKRARLGLFLSFQYPEEIPGASLTNFLRMAYNNLHEEKLNPMKFLKLLKEKMAELKMADTFRRRYLNQGFSGGEKKRCEILQLSILEPKFAILDEIDSGLDVDALKIVCDMINKIRNNKKEMTTTLITHYNKILQYIHPDKIYILYNGKIIKEGQKELAIEIENNGFENIIKENDK;locus_tag=LOCUS_08690;gene=sufC;note=WP_002287679.1 ABC transporter ATP-binding protein (Enterococcus faecium DO) [pid:49.6%25%2C q_cov:98.0%25%2C s_cov:94.9%25%2C Eval:3.9e-63],MGA_873
sequence2	MetaGeneAnnotator	CDS	277224	277514	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKKELIEIFEDVIDPEINIDIWTMGLIYDYKIEKDRVWIKMTFTTPTCPFGPELIEEIKSKVLNKGLEFCDIDITFEPPWKPSEDLKEMLGIVD;locus_tag=LOCUS_08700;note=WP_010868774.1 dTDP-4-keto-l-rhamnose reductase related (Pyrococcus abyssi GE5) [pid:40.4%25%2C q_cov:97.9%25%2C s_cov:56.2%25%2C Eval:6.4e-16%2C partial hit],MGA_874
sequence2	Aragorn:1.2.38	tRNA	277693	277769	.	-	.	ID=Aragorn_22;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence2	MetaGeneAnnotator	CDS	277969	278922	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKKTLTNLVLSSLISLTAFSYNPMDTGYIDNYNFYTKSDAREYIVKEEAALLKHRAKTTKNENYNLIAEKLLDNIELMSKQAFRDFEKIQLPGVQIILSSKNFESRVQNAYLKLNENFQLDPELNQAINNFNTYEIKKYIENQNLSKRKDLNSAQLELLNKYSKTINSFLSENYETFSQKSLSLLSNYDFNTLEFKQFNDIQYNTVDLMYKKSIGAYNDTIDKLSQSPFESKIFNQVIGLSNSMFGFFNKLDKKYGVTDNFKFIINKIETYVNDQNKKRKEKIQLEFIDEKAQYNGGDLKYKFHIDRDSIFQKMF;locus_tag=LOCUS_08710;note=MGA_875
sequence2	Aragorn:1.2.38	tRNA	278970	279052	.	+	.	ID=Aragorn_23;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence2	MetaGeneAnnotator	CDS	279243	279515	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTSLYKNAIECSNALDEKLKEFELKLINPKDHFGRDLTSFEKGKLAYISHLPNQELNILNMGPPKKFYERFKYNLGQLFASFVDSYNID;locus_tag=LOCUS_08720;note=MGA_876
sequence2	MetaGeneAnnotator	CDS	279532	281616	.	-	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIESNEISPFTLFVNKTMGKETPVEKDSVETQSKISLETFLLRASSRNIDDVKKDIETEDKVKKEKRKIKSKPVVQIPIVEAPIALETLVESKDVKSEVVKESPKEEEKTFFNTYHPKHELYAIFNEVTDKPISSFTPLIRFGKKNKEGDYLGSLLFKHRDLTGKKKDVEAAIERRDTFLKEYETVLSKKLTRRYVRKIVMDAINITERNFKSHFQSISSEIFKDEYEQRVFTLHGFIDYHWDKRHAIIESLEKNTFESEKLDEFYKQTHNKYTLFAIYNQILDKDRLQFTKSFDLDNLFKKDGNYFGVSLRECFDLVGKEKAILSSIENRDNFYETNNDQLNNSYLKEDLKTILLMKSTITRKEFHRIFESIDIKPDENEQYVLKDFMDYFWYDRDKILDGQKQFLKDKVESENKKKGLVSIISDEVVDNNIENGIKDLAAIVLDGATQKEIESENKEINSNEYVLTDKDYLDFLKEPHSKTHLLVLQTYFGTLNWSSFFTVLEGQKKYRQGQRYTGLVLTKFTGGTQESIKNALTEYGQFILDNQDELNTILTEKEFYSVIDVHGKKKEEKAKKAVTYEGALIPLNGMSDPLFNPAKFIDKYWEQRDKIIERIKEINSQETYLTQQQLSRAYKIGLPQSQMIISKYNIDSKDDKYLVRDFKSAFVDFKLKEKEETLLEQSRKIKEYNNKKNL;locus_tag=LOCUS_08730;note=MGA_877
sequence2	MetaGeneAnnotator	CDS	281694	283574	.	-	0	ID=MGA_878;product=glutamyl-tRNA(Gln) amidotransferase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869511.1;translation=MDYNKLNLKIGIEIHQQLNTNKLFCNCPSILRDDEPDFIITRKMHASSGESGDMDVAAKVEMQKNLIYNYQGYYDTTCSVELDEEPPHDLNKDALNVVLVFSKLVNAKIVKRIEVMRKIIANGSVTSGFQRTSLIASDGILKNEIGNVNIDSILLEEDACKDIAKNNNSIDYRLDRQGIPLIEISTDASIKTPEHAKQIASQIGMLLRSTNKVKRGLGTIRQDLNISIHGGNRVELKGAQDLKNLQIIIDSEILRQINLNKIKHELSKMFNGHQELVEYDNINDFEDVEIFDLSDIFKNSDSKVINSALDNNGVVYGIKLNCFKGFLGCEIQDNRRLGSELSDYAKVESGVGGIFHSDELPKYGIENFQVNHIIDELNCKEKDAFIICADKKEKVILALFAAYRRARMAIKIGVIDEVRAVVKTFTSVYMRPIPGSSRMYPETDVKSIIPDISNIELPELIDDKINRYKSLGLGEDLARDISKDYSNNIFEELIKDNKNLKSSSIAEKFLSIPKELRRKDNLEFNWDLDMARFIFELWNENKIDHACIYDIILEFLNTNSTIEIISKKYKLLDDGEAIKKIKEIIDFEMKSDSNINRGKLMGILMGKLKGKVNPTIVSKEVSKIFN;locus_tag=LOCUS_08740;note=WP_010869511.1 glutamyl-tRNA(Gln) amidotransferase subunit E (Methanocaldococcus jannaschii DSM 2661) [pid:43.9%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:3.2e-128],MGA_878
sequence2	MetaGeneAnnotator	CDS	283580	284878	.	-	0	ID=MGA_879;product=glutamyl-tRNA(Gln) amidotransferase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869512.1;translation=MAEFKDFIQIENDGKLYEGIFIKQDGDFIVLKLSSGYNISLPASSKLEIIKKNSQNNSKEIENLFSHSSDKKNILILHTGGTIASKVDYATGGVISKITPEELLNMFSLMHKYCNFDTKLLAAMWSEDMRFDHYNLIAEEIKLAVENHYDGVIITHGTDTLHYTSAALSFMFEDLTIPVVIVGAQRSSDRGSSDAYINMAAASKFLSTYDKSGIFICMHKNESDNICHILKGVNVRKMHTTFRGAFRQINSIELASVNVIEDKISKTYEFEKYNYYKKIENKLIKLNSNLKIGILYIHPNMHIDEFEMYNNFDALIICSVGIGNMPINEIDNFTINHNKFYDWIKNMSQKIPIIFTAQTIYGRINQNVYSTGRKLSELNIAGHLMDTTIETAFCKIAYLLSKNIDLSQILELYNKNLKGEIDNHINKDSFLR;locus_tag=LOCUS_08750;note=WP_010869512.1 glutamyl-tRNA(Gln) amidotransferase subunit D (Methanocaldococcus jannaschii DSM 2661) [pid:34.2%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:9.6e-62],MGA_879
sequence2	MetaGeneAnnotator	CDS	284926	285909	.	-	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVGIKQQIITTLNHAREFMIECYFEDSLKCYSRAFYKVLEHELINGEDYHTNLKFNIENEINDLIYTYPIFQRGEQALYLYRRSKSCSNDEDPLSEIKHLHLSYIFHGQKNSELEKNILLSLGKAYLELDGNMFPNHLRESNDFYEKASQIYKEDSRINFEHAKFIFELTKKFEGGLFSDKNYIDDFIQDNNSENYGTCLVSKMEHTFRSLMIGHSNMELINADTFDLIMDFYEDNNLSEHGTFYFAVGCFYSMMNTKYDIHSVLYKNDFGANTDFLDHRLKNMIDRCKKYAESDDITQRLAFEDFYNYLLDLDKLSGYDTSLLLN;locus_tag=LOCUS_08760;note=MGA_880
sequence2	MetaGeneAnnotator	CDS	285932	286498	.	-	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFNKKNNLKKKYSGKFIDIYSWKEKMYDGKVGYFETAVTADGVQILAIKDNKICIPYETQPSMNNWVHGCFGGRIDNGETPLQAAKRELKEESGFVSNDWKLFKVFNKDGKIKWNCHFYIAKNCIKKYDQSLDNGEKIKVIECNWNEFLKYVTDFKFRFHYLSQYILKLHYDKKLTEFKNKLFSKPL;locus_tag=LOCUS_08770;note=MGA_881
sequence2	MetaGeneAnnotator	CDS	286532	287155	.	-	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFDLNDNSKKLIFFDIDEVLVHLLPDFCNFWNEYHGLVGNDRLLFENLKSADITTHTNHDSKYVISIFQKYIKNGAYTNLIPIAHAQNCINDLSEYFRIQCLTSRLMDTYGDTENYIRLHFPSVEKVLFATKYYHGYGPTKPELIKINNGLFIVEDSERYALECANEGIPVYLKNYKWNRHIEHELIKKFNCNSDLLEMVLKDFKK;locus_tag=LOCUS_08780;note=MGA_882
sequence2	MetaGeneAnnotator	CDS	287223	289511	.	-	0	ID=MGA_883;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061106.1;translation=MSKEIQLDVIASIEDDVNKGIVRIDYNLMKQIDIEVGDIVEIEGTRKTVAIVDRAYPGDIGRPVIRIDGIVRRNARTSLGESVKVRKADVKSAEKVVIAPARKNIIIDAPANLFKQGLLGRPIYKGDVVSIGGSKRRRKTLSGSPHYNEIYRLIDDMQNKFLFHSDMKYFIISTKPNNKPVIITNDTIIEFQSQGVDEVEDSSHIHDISYEDIGGLEDEVKKIREMVEVPLKHPELFDHLGIEAPKAVLLHGPPGTGKTLLARAVAAETNASFYLINGPEIMSKFYGESEKNLRGIFEEAEKNAPSIIFIDEIDAIATKREESKGEVERRVVAQLLTLMDGLNKRGKVIVVAASNLVNSLDPALRRPGRFDREIHIGAPNANSRLHILKIHTRNMPLTNPDILKTIADQTYGFTGADLSSLVKESAMIVLRRLLPEIKLNEDEPISESVLKKLVVSEDDLKDALKVVRPSALREIFIEVPKVSWENIGGLNDVKNDLKEAVEWPLKHPKSFSRIGINPPRGILLYGSPGTGKTLLAKAVANESKANFILVKGSDVISKWVGESEKTIKKLFNKARETSPSILFFDEIDAIAPKRTNTTDSKVTERIVNTLLTEMDGLEELHDVVIIAATNRPDIIDNGLLRPGRFDRIILVGTPDYEARLNILKVHTKNMKLSEDVDLEFIATETEYYVGADLQSLCRESGISALRKNMDSESVTMDDFNDALKRVGPSSNDEIEKAYEEIKDKFKFSNAREIKNNIKSYFG;locus_tag=LOCUS_08790;note=WP_048061106.1 ATPase (Methanothermobacter thermautotrophicus str. Delta H) [pid:56.5%25%2C q_cov:96.6%25%2C s_cov:99.5%25%2C Eval:3.8e-227],MGA_883
sequence2	MetaGeneAnnotator	CDS	289669	290124	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALMGFAFTKFDATRLSSPKGKITINHDIKIEDLKYANVQGHGQTNNGLLVEFSYTISYKPSIGKIRLEGNFIDIIDNSKEVADEYKKNKEMPLELREQYYNLINSKSLVKSIFLSEQVGLPSPINMPKLKFNKPEESDDKASESPKSTKK;locus_tag=LOCUS_08800;note=MGA_884
sequence2	MetaGeneAnnotator	CDS	290352	291008	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNEGDFVKLNYTGYLKSNNFCIDTTIEEIAKKQNIFSKEFKYGPVTVCIGKNNILNGIDKNLSDKDEKESFELELEPKEAFGEKNNNLASVPFNQFKANKVNVQIGDQIMYNEKPAFVKFVNNRIVMLDFNHPYAGEIINYKIELLGKVEDKKNQFIALVINRLNFNEEMFSVELNDNIINFTINEKELPKQFQDEFEKYVKESIEIEKINYSFKK;locus_tag=LOCUS_08810;note=WP_010867875.1 peptidyl-prolyl cis-trans isomerase (Pyrococcus abyssi GE5) [pid:30.7%25%2C q_cov:90.8%25%2C s_cov:73.7%25%2C Eval:3.1e-23%2C partial hit],MGA_885
sequence2	MetaGeneAnnotator	CDS	291104	292261	.	+	0	ID=MGA_886;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064630.1;translation=MDSFISSAKAQIEQQVEEDQNQTELLNKSIQTEPKYDTSIDDELATILKRQQAKIKVVGIGGGGNNTINRISEVGIYGIQTIAINTDAQDLLYTTAEKKILIGKEIARGLGAGSVPKVGEEAARESENELKEITSGSDMIFITCGMGGGTGTGAAPVIAEFAKKAGALTVGVVTVPFLMEGSRRHENAIMGLEKMEHYVDTLIVIPNNKLLELAPDLPLQTAFKVADEILTNSVKGIAELVTKAGLVNLDFADIRTVMGNGGIALIGVGESDNENRAQEAVDKAINNPLLDVDISGASGALINVSGGPDMTLDEARKVVETISQKLDEDARIIWGAQISKDLESTLRVMLIVVGVNSSQIFGNKVRKSTTKKHDMEKELGIDFIE;locus_tag=LOCUS_08820;note=WP_048064630.1 cell division protein FtsZ (Archaeoglobus fulgidus DSM 4304) [pid:51.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.8e-107],MGA_886
sequence2	MetaGeneAnnotator	CDS	292276	292932	.	-	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTLVFSDRDGTINLDKNFYLGSSSNWREQVSFLDGVVDGIKLINQIPNSRFFILTNQSGVALEGGNFDNLTFERMHEVNRYILDKLRDEEALVDHYYACPFVDSNYVKKALEKGRRVDQKYIRENCLDLKPNIGMIEKALTDLNVKKEDCKIYMIGDRFSDVQMGLNIGGTGILVESYKTRELGDRQKVEQLKGDIFIAKDFLDAAKYIYNNSKNNI;locus_tag=LOCUS_08830;note=B8DZR9 phosphoheptose isomerase (Dictyoglomus turgidum DSM 6724) [pid:32.7%25%2C q_cov:94.5%25%2C s_cov:44.1%25%2C Eval:1.2e-14%2C partial hit],MGA_887
sequence2	MetaGeneAnnotator	CDS	293002	293676	.	-	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGYDDEFENFSVDDLSNELDKADSDGKSSTIVIKNNNEKKSEPQGPLAGKEVYQEPKDNSNNQNNENNSKEVENVINNPIFALKCTANREETVADFLTANAKRKELNIFSIIIPHGIKSFIFIEASDKYEVDKAAFRIPYARNVLPTPISEKEVLHLISTEKKEVDIRKGDIVEIIAGPFKKERAKITRVDLFKEEVVIELLDAAVPIPMTRRIEDINVIRRD;locus_tag=LOCUS_08840;note=WP_010869871.1 transcription elongation factor Spt5 (Methanocaldococcus jannaschii DSM 2661) [pid:38.5%25%2C q_cov:63.8%25%2C s_cov:97.3%25%2C Eval:2.4e-26%2C partial hit],MGA_888
sequence2	MetaGeneAnnotator	CDS	293754	293981	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MININHLRRKCIGCNACVEEAPNLFIIDEKDGKSNLIDSKQNKDFFNKVETEDEYESAKNAELSCPVNIIKVSKN;locus_tag=LOCUS_08850;note=MGA_889
sequence2	MetaGeneAnnotator	CDS	293974	295203	.	-	0	ID=MGA_890;product=collagenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008761719.1;translation=MKYEIMAPVGSWENLNAALNAGADSIYFGIEQLNMRARSSINFTIEDLKKIAQQCKIKNVKTYLTLNTIVYSHDIVLMKEIVSCAKNSGIDSVIASDLAVINYANEIGLSVHISTQANVTNFETVKFFSKFADVIVLSRECTIKQVKEICDLIKKENICGPNGNLVGIEIFVHGALCMAVSGKCYLSLHTANSSANRGACKQNCRRTYTVKDEEGNELKIDNEYIMSPKDLCTIDFLDKIINAGVTVLKIEGRGKSADYVKVTTECYKEALNSILDGTFNIEKIDNWKKRLSGVYNRGFWDGYYLGRHLGQWHNQRGSIATKKKILIGICTNYFKKTNIAEFKIHSDSISKDDNIMITGQTTGVIENKVNELMLNEKFVDIVNKGDVFTTHINEIIRPNDKLFKVINID;locus_tag=LOCUS_08860;note=WP_008761719.1 collagenase (Bacteroides thetaiotaomicron VPI-5482) [pid:55.9%25%2C q_cov:99.5%25%2C s_cov:95.3%25%2C Eval:1.0e-129],MGA_890
sequence2	MetaGeneAnnotator	CDS	295246	295527	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKREKLQVIFDILKSIMDKGGKIKPTHLMYKSNLSHTMMKEYLNELMSKGFISEEFQKRGKNYILTDKGYKYLTEYKVVLSFLENFGLGQN;locus_tag=LOCUS_08870;note=MGA_891
sequence2	MetaGeneAnnotator	CDS	295822	296478	.	+	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYTSLGPAWFETYGIIFEIIFILITGLIALRSYRAYKLIKKKELLTFTLSFGLFCLAFFTQFIINLLIVLNKQSKDHLLSPLNTLNTVITSNFQLSSMCYFFFSLFTICGLLLFIYLTFEIRNRRLLLLLFVLVVLAQITAINKIVLFYVFSTIFYGFIVEFYYRKKIKVAFLGFVFLLISNISFLFIPLSEFAFVIGNFLTLVGYLILAKLLKKNN;locus_tag=LOCUS_08880;note=MGA_892
sequence2	MetaGeneAnnotator	CDS	296557	297009	.	+	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENIIKQRIIQHTLSHADEYRGYLTHSGLFHLTNNLELIGKYPSGRLFQGFLVDILANEIKPISNTNKSPFLSYQVKKLKPNNFESLILSGKYTLSYDPEKKMVYLKSREIEKVENMNALRNEEFYRLSAGMMGYKNDINPMIKILFEE;locus_tag=LOCUS_08890;note=MGA_893
sequence2	MetaGeneAnnotator	CDS	297094	298854	.	+	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYQMKNFSTEQTELLRSFLFTAPHSNVSLIYPQQLVAGEELAPLISAYSRSNQPLQERVLEFVDKQKNTEAKALLPHLPELMKTFRNEDGSLKISKKTRNFSKKWVLAHGHSSIKEMNSIFGCVEGISDICGKLITGHPLAHPQVKSSRYISFEDTLDMALVDPDIQNLSCSNEIIEHLKELNTEYLNATKYLANAVFKSEETDQIREFLTRDSVLDMHGEKLFNRAKKKDPELVKTDTLIEELKSQAYENINSDEYVMGQLEKFVLDRSRVYLPGSTRTSLGFMIDGRTCEEIITTLLTSPLIEAQSFGNQIWTETKKISPVLLGDQSHIKKDEWKYELDTDFRKELATRLDYIVMHSEQKFGRVYSPSFVHSRGEDTRSAVMAAYKYSDFSFDDLIEQLKEKDVKWILDRTHEHRNKFDQLHESGGHGGMLTEMTMPYHGYRDMFRHRKGARSNQLYTTVHGFENVEIFNHFDINSRYELLMNKNNELFRKAAKENPHAAQKVVAFGQLCRAAHSWSLEQIGYIARIRANIETGNISYVKTVHQIVDGVKRLSPQLASKINYNQEMFPEHIWKEGYDLFRSKK;locus_tag=LOCUS_08900;note=MGA_894
sequence2	MetaGeneAnnotator	CDS	298887	299516	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSIYSEIPMHQVIEEVRKSPMLKSDTQFPYKNANISLRNVGMGEINPTSLYALKANLDFQKNLREYILNRFGFDTLRLSSGLILENKDGERQTLIPPIVEVSEREVKFIPQKDELSYENSYKIKIPCLLDGIHRALCAKELGIDLNVIFIYDSDTNYPVYAHPNEWDLVKICDSIPKEKSQKKMYLRDDHSSLYKSFAHLGSSGLRK;locus_tag=LOCUS_08910;note=MGA_895
sequence2	MetaGeneAnnotator	CDS	299513	300670	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNLVLVEGISGAGKSTAINFIQSYLSTFNIQSHTFNEPGHMRDEIKKYHNREDRDLQLEFDHYVLSRKVDLHHKVMPTIKNHPKDTILIDRSWISTMVYQQTEQCPMINIRDYHSFYPKHNLALLLICDPETAYQRILKRKETQGIELSTSENPKRIAELRKSYIEAFDLVDYSVIINTDGSENAVNCILKSYMNKLLGIKEKKIVFLDKDGTLVDNSKYPEVIPTDEILFADTLEGLYKLKSAGYEFHMISSQPWVAKGQLSLDQTNEIFESVIEQYKKYGIEFTGYGFCEHHRSDNCPDKKPNTGLLEQIATQQNIDISQSFFIGDMESDIECGYNFGLQTGLVTKYSNAKTIDNLSQQRFKRTPNYTAINLNEIANQIIEN;locus_tag=LOCUS_08920;note=Q8RDP8 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:29.2%25%2C q_cov:47.3%25%2C s_cov:31.0%25%2C Eval:4.0e-16%2C partial hit],MGA_896
sequence2	MetaGeneAnnotator	CDS	300975	301424	.	+	0	ID=MGA_897;product=transcriptional repressor NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8R605;translation=MKCPHCNSDDLKVNETRETESNSFRRRRECNNCEERFTTYEKIQELLISVKKESGKLENYTKEKLEKSFLIACNKRPITRIQILKIIENIENKIRNNFKNEISSKTLGEYVMEELKILDPISYIRYASVYKDFDDLDKFNQELILLKVN;locus_tag=LOCUS_08930;gene=nrdR;note=Q8R605 transcriptional repressor NrdR (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:43.9%25%2C q_cov:93.3%25%2C s_cov:93.3%25%2C Eval:1.1e-28],MGA_897
sequence2	MetaGeneAnnotator	CDS	301425	305966	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQSIETKRTGIKVKKVFCSDNISPFETVEFENRSSVIKNRDGSILFEINNIHAPKKWSQVAVDIMAQKYFRKSGVPQYDENQNEIKDEFSNIITGSETDITQPIKRLTGCWRHWGEKYNYFDTQQDAINFEQEIQYMLLHQIAAPNSPQWFNTGLKWAYNISGSAQGHYYAEHETGEIKLSEDAYSRPQPHACADYYTQVYTDKGTMYIGDIVENNLTNIKVFDGEKYVKVLAIKNNGKKEVFKIQLKNGNYIKLTQDHLVLSSQKRKKNGGNYNWNYVKDVKLGHKLQQPLILDIKEKNVFSDDLAKARLAGWIVGDGSVGIYENVMRLEIISIKEEEFESIINDIQEVFGQEVNFWISKFKTKNENLDGKRIHLAGKKIHKLIEDYDLLKSSFNAEVPQKIINGSPQEKREFLKALFQADGCVRIRKDENRNSGDVCLTTISENLSFGVLQLLNSLGIYCRINKYSDKRENRKDVNQVIVSYGSAREQFQEQISFICSQKTEKLELLNKIITKSKTLPLIREETIISIESEGIKDVYDIQTESSKFLGNGIVIHNCFIQSVKDDLVNQGGIFDLCTREARIFKYGSGTGSNFSQLRGQSEKLSGGGRSSGMMSFLKIFDVAAGAIKSGGTTRRAAKMVCLDLDHPEIIEFIDWKANEEKKVANLITGSKNSKYHLQKILKEASSNSNIEKNPKLKSAIKEAIEQNISLNYIDRVLKLANQGITEFETPEFDNHFEGEAYSTVSGQNSNNSIRIPNSFYEAVHKDLDWNLKNRTDGKISKTVRAKWLYDKIGQAAWACADPGVQFDTTINEWHTCPKDGRINASNPCSEYMFLDDTACNLASINLIHFINDSGHFNEEKFAHACELMTIVLEISVTMAQFPSDEIAKRSWEYRTLGLGFANLGTLLMVKGISYDSDEARSIAGGISAIMCGTAYETSAKLAKHLGPFNRYEHNKDDMLRVIRNHRRAAYNVSNEEYEKLEITPVGIDENLCPNNILQKARNSWDNALELGQEYGFRNAQVTVIAPTGTIGLLMDCDTTGVEPDFAIVKYKKLAGGGYFKIVNHSVIKALRTLGYEKDQIIDIKKYCIGHQTLVGCPTINHKILKDKGFDEEKLELIEKQLETAFDLSFVMNKNILSEEFLKKLGFSDEQLNSEMFDLLEELKFTKEQVDIANEYVFGTMTVEDAPYLLEEHYSVFDCANKCGKKGNRYIDTYGHINMMAAVQPFISGAISKTINMDSEVSVKDILDAYEASWKLMLKANALYRDGCKLSQPLNTAVFESEYNLNLSEEDIDETVDSAAIQQQIQTMKANQLPRKRGGFVQEATVAGHKIYLRTGEYNDGKLGEIFIDMYKEGAAFKALINCFAVAISKSLQFGVPLEEFVEQFTFTRFEPAGLVTGHEYIKNSTSILDYVFRVLGYEYLGRDDLIHVKPKRKPLDIIEHEDDPRDKHKTLDSFSNRKNVEETRNEMLFKKINTAKSRGYTGEACGSCGSMRVKRNGSCTLCEDCGSTSGCS;locus_tag=LOCUS_08940;note=WP_010932265.1 transcriptional regulator (Chlorobium tepidum TLS) [pid:58.4%25%2C q_cov:63.3%25%2C s_cov:86.3%25%2C Eval:0.0e+00%2C partial hit],MGA_898
sequence2	MetaGeneAnnotator	CDS	306069	306392	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYLSIEMIFDSINKTYKMRSEVKDEMIEEFISDFMRSGIVESTPNGDVIERNEYKVILQLHFGPVDDYRIQTNTNNRDLTMGIICGALGYLKSNPKIDTKLYKLN;locus_tag=LOCUS_08950;note=MGA_899
sequence2	MetaGeneAnnotator	CDS	306411	306923	.	-	0	ID=MGA_900;product=flavoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007328411.1;translation=MKVLIISTSLNKDSKSRILAKYVKSRLDCDIEFIDLFHFDLPMCDAGKCYEFTNVIELKKQIENADGVIFALPIYNYNINSSAKNVIELAGKSLSEKLIGILCSAGGSSSYMAPLSFVNSLMLDFRCIILPRFVYSTYNDISGSEIINDQIIERLELFCTEFNYLCNKLN;locus_tag=LOCUS_08960;note=WP_007328411.1 flavoprotein (Rhodopirellula baltica SH 1) [pid:40.6%25%2C q_cov:98.2%25%2C s_cov:96.0%25%2C Eval:8.4e-32],MGA_900
sequence2	MetaGeneAnnotator	CDS	306953	307735	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYAISFSKEILPELENFIKTIVVFGSYSKYDVKKISENNWSINHDSQSDIDILIVVDDVKYALTAEFIQTYRVVVANILRKLNFKIHLQTLKLSNFWDYAKKGHPILVNILRTGYPVYDLGMFETLQYLLEDGKIKGTEEMINEFYKKSCAAMHNSSIKIINAVVDLYWACYDSSQAALMKIGEMPGLPQLIPDLLQVRFVNLNKLDGKHVHFFSHLYDITKKLEKGEIDNISGHDYENIKANAIEFQKVMKELIYKNK;locus_tag=LOCUS_08970;note=MGA_901
sequence2	MetaGeneAnnotator	CDS	307844	309781	.	-	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIINKLLVLIFFISISLISVNGVFENGMDYTVELPTTIYVNEPFNFTLNTLTQSGFNLDYSIVDFGTNELKHYNLNNINHVYHNSGIHNITFILKNSLGQYKIKQETINVIDRPNDSNEIIYSELISRYINSGMNFLWNALILNSNDDFTYEKFGLNKDDWNVYPFYQGGDKKLTIILNDGDLINYQNKNLYLHVLFQKNDSNNIPNGKIYTIVTNKTHSDFLSLNNNITINLNEEDLSSFNLYEQFLDLTNSNFIVNYKWKFNGLEVNDIIFNPQLNYGENSFQLELTNVLNEVITIDGKINVNPKNPLEFEFVKLHRNDKKERFDNSGRAYDDDFKVGDQISAEVKICNVKNTDLENIRLYGEMFRIDIDEEELDIVKNDCETIDIDFDESIIPFDNKEERSNFNLYASVLDNESYFHEANFTIRVKIKKDREELIIDNLFYTKEIDLCSFNGIKINGDLVNVGSRDIEDLTLQLTDDDIELNKEFSLDEGDDQSFSFNYNINNKLGERDIILQAFNKNNNELLKKSISINVIKCLNDNSNIVDNSKDVNNMNNELKNKIDKINLEMESKRNEMEKKLLNLNLELNNININSNEDSLNSNIIVNEIQNSTNSKMVNIIWYIFIFFSIFILGSGIFIFNKYNN;locus_tag=LOCUS_08980;note=MGA_902
sequence2	MetaGeneAnnotator	CDS	309793	311859	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTHLFAFLIIFATLVSAFSNAVPNFDKESIELSDLSNGLRTSKVNSQFKITNLDSTNVNIALSGLVLSNANGEFLAIELNGVNAQLGNFDANGQKSVDFFIDLSNNPTYGKYNGTIIATDSKSEQTLLPISLDISRNTQFDVKAITKKIVKGKTNTIEFEFISQSNYDTQVEINFNNLLKTSSFFPLDVEKKIILLNKSEVKNLSFEVFISNDLVSGLYKYDLNVDQSEFNFNKNYQISNIEVREKIQELTIIPNEIQINISGLESEFDFNFTVKNTGESNLENIGLDISSFDSFIEYSNFETNFALNELENKTFNIHASSSRPIDIDLLGEIKLSFNGKVIEADIKPIQRKMLRIDRVKVIVNDKSDRIRNSGERYSKDIKPGQDFSVEIKVCNDYDSNSDINIEDIAISAIIKDIDDGSDLDDDEKSDFTLSEDECEVRSVKFDKDHIPYDAEDKTFNMFINIEGRDDLDYFQEDNFTVKLKVDRKNHDLLFKKFLVTPTVVQNCFDNKAISLSALIFNIGDNDENGHVRFYSEQFNFESIKDFDIDYKNDNEFSAFTNFNFPNSASIGQYKFFAEVYRDNYIVDYKELDISLNDCSNNIQTDQDLYEKNLKLLNELNGVENNNDDFISEYKKLLLENQNINLDNDLQDNLNKSEQKKQTILLIIAIGVVLMLIFGLILLVYI;locus_tag=LOCUS_08990;note=MGA_903
sequence2	MetaGeneAnnotator	CDS	312012	312521	.	-	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKLDFNKREILNGYFVQALNQTSFADEEECKDFSERIFVGFNGGLAYKLFFGNQLNLRLNLSAKVRLDSFDNVVSVNSFFEDLKQYIGDMQGVARAYDLDLVSIDDKSVITPAKLDSDYIYNFSLGSPNIENLDVFRSFMKMANYTFYEKKPELSSIMEKLNQLPQ;locus_tag=LOCUS_09000;note=MGA_904
sequence2	MetaGeneAnnotator	CDS	312584	312931	.	-	0	ID=MGA_905;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251250.1;translation=MTEYKQAIIVISSLKLPKGKLAAQVAHGAVEAVLRSNDKIVKPWRQSGMKKVVVKVNDEKDLYRLKATADEYGIKTAIITDAGRTVVEPGTVTCMGLGPDTEENIDRVIKGLSLM;locus_tag=LOCUS_09010;EC_number=3.1.1.29;note=WP_011251250.1 peptidyl-tRNA hydrolase (Thermococcus kodakarensis KOD1) [pid:44.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-21],MGA_905
sequence2	MetaGeneAnnotator	CDS	312975	314579	.	-	0	ID=MGA_906;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867223.1;translation=MYTILDFYTDEPAGLGVPPFLGTYPRYIAGAIIKNKINPNYLTVDDLRYYKKTIELKKEISEEKKNHKTDISIYNRTRSLDEIEKIIKNTKVLIIICGIHVPGKYLSAIPGNIHEVERLASYFNCFKIFAGPAASEHGTQLEGGKKIDKKIYDFIDSFDFVLHVNKEPYLIELIKKIESNGDINNGDQFLQRYNFDDYREVSLLGSKIVEQHPLFPKRVIVEIETGKGCSTGKCSFCTEPLKNRTEHRVKKDIYDEVVEFYKLGIRSFRLGKQSDFFMYQGGNKDEIESLLKDIWSACPDIENFHIDNVSPRTIVKHKWGRDITKLAVKYFTEGNITAFGAETFDPKIIEINNLNSEQKITMKAIEIVNEYGSERGPNGMPKLLPGLNLLFGLPGETKKTHEINMKCLKKIYDDGLMLRRINIRRVVDYGGTKLSEMKKEMSKTKRNQKYYWKWRNDIRQNIDNPMLKRIAPEGLILKNLITEIYDGNITFARHLGTYPLIVGIKGRIPLNKKVDVKITKHQLRSLTGEVVKIH;locus_tag=LOCUS_09020;note=WP_010867223.1 radical SAM protein (Pyrococcus abyssi GE5) [pid:41.3%25%2C q_cov:99.3%25%2C s_cov:89.8%25%2C Eval:1.6e-112],MGA_906
sequence2	MetaGeneAnnotator	CDS	314614	314871	.	-	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFEYFNFINYKGLFFMMEDIDLNKKVKLLYTNYRGETSIRNIIPKKIVFISNEWHKEEQWCILAYDLNKQADRTFACKDIKKWY;locus_tag=LOCUS_09030;note=MGA_907
sequence2	MetaGeneAnnotator	CDS	314872	315471	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYIDNMIRITNEITLEFEKNIIKKKINYNNINTEKLLILSNEMIHDSSIYQKNIILKFSTLIYCIAKMIKEQKNKKSNNLETIFCKYYNNLKLMYTYLKKNNINKFENKIVEIFNLILKNNNKFNIYIQDIINSTTIKKGSKLVDHGISIETVSKMTGLNQWELYNYLGKTNFEIVLDEKIQKTQKRLDHAKKIFNIK;locus_tag=LOCUS_09040;note=MGA_908
sequence2	MetaGeneAnnotator	CDS	315468	316166	.	+	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLIFDAGIIINLSLNNLLWILPKLKKQFNGEFIIPNAVEYEIITKPLQIKRFKLEAIQVFNQVQNKTLTISNDKNIKQIYDQIDQLANTSFSCNGQIIKIIHSGEISVIAHAINQNATAAIDERAMRELLENPNGFLKHLKKKLKRNIQMDKEKIKKLKSLTKNIQIIRSSEIVTIAYDLGLFNFYIEKGIEKILKQPKKQLLDSLLWGTKLRGCSITDKEIEYIEKKEV;locus_tag=LOCUS_09050;note=MGA_909
sequence2	MetaGeneAnnotator	CDS	316168	317118	.	-	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKMLIKKKSKKVLKNNTKNVKESKKLIKNSKNEFNDDLVNENSNIKENKPKKLLKIGNLMDLLNIFSSNSNSNNQNQPNYEFDFKTQSENEHKSNYIDYNKKFNLIEKAKRFIFKKKYKDNEIVENKNKNFEKNKNIDSIEILKEESIEHEEIKQKNIEVDAPIKLIKIDMDGFKPNIDEVVQVNEVGEDIHLRSDIIKKLTDSGIDKNLVNNFVSKSEYESSGSIDLKKGFYNSSQENSFMYSANKLKNIYDNAEGDSPSFGIPKIKEMYTANQDNKFPGWGVMKNTNDGENIIERFQFNEKKPKTKKFDRPDI;locus_tag=LOCUS_09060;note=MGA_910
sequence2	MetaGeneAnnotator	CDS	317242	319884	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVIFLNYSPSLTGNLVYDSKALFNEFLDVEILIGDKINKLTDHIEIIFDDDIVFKGSVQNLFDVKVIVGSNNLSSFEEIKDYTFKNNLKGNILIKPDLIITLNITGNKTTALDQNNLTLTNITYFLNYNGSQLNLEENEFQIIENYKNLNSNLTINEYLNQTNNTLNEQILNIVNQNEFSLSNQSNSFNIIVPASIIQQKYNNIINISENSNLNNLVNVSIDEYDWNITKLSHTIESNNDNIILGNLKIQEIYFDSVNPSIVFNNNTININENKISAEFILTLDDVQLKFANLKNIENTVNYSNDIISNLLENNLNWYEISQINGEFISEDTNLDYEVQKINDFDYIINGTKDTLFFDFSNLSINTREFDYKSNSDTLGKKNFTLKVTIDKNTKQYDYTIDLATSCQENWVCKPGTCLADNTQKNNCIDENGCGTQFLKPVETKACVYSCTQNWNCTEFSQCNELNFQFRVCTDKNNCQKYNNTATKLIEKEKLSEIQSCKDNCNEDWRCTSWSSCSKDQIYRSCTDKNTCGSEILKPKVEASCNEIVDDQYLKIYEKFLESENYVNLLNPKKNEKTAKNTLIEKKEEKKETKTENRLVGFSIKEEDNSTSSGKIIIFVLIAMGVLSFTFNERGNIKQFVGESNKKEYFKNYLNIKKQKVLQLFNRNNDENNQNNQENNQFNNLSYNYSNNIQSSNMDNNVNNNDTNNNSDNQNNFNQNIKINNYNPNNQSQQLNSYLNYYQKLGYNDYQIKSFLMQKGYNLSQINGSFNSQLGQNNNENNNIKKEFHFATAESNKKTHQITVNKNIFNNALGLLKNDFGIAKAPTSLVAKRNFSFTISLIEKNVDENTIIEILKKKDISESNALELIDRAKEKLNKF;locus_tag=LOCUS_09070;note=MGA_911
sequence2	MetaGeneAnnotator	CDS	319881	320597	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496742.1;translation=MRIIYAITDMHVEIDAMKTAGKLIKKYGAEVCLCCGDYSWFGQGSKESLKILNDYSVKTYIIHGNHEMLNTAKNDIKDFKNLIFIHKKSVIFKDLFIIGYGGGGFAQKDAEFLKFANLEIKKNKKKLYEVLMIHGPPFGTLLDIKITNYVGNKDFSNFISNNNIEISFSGHIHEGEELHDQLKNSIVTNPGYRGLIYILNSKKLSMFDFEIEVNNLKQFKNSKKIFLNKNVCLIAIWN;locus_tag=LOCUS_09080;note=WP_064496742.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:27.1%25%2C q_cov:86.1%25%2C s_cov:96.7%25%2C Eval:5.1e-09],MGA_912
sequence2	MetaGeneAnnotator	CDS	320616	320945	.	-	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNGKKVKIVTGLISASIFTHLTFNYLIEDFIYKLVEKTIVYSIKEIIEYKKNDISINDLIESKKLNQESNNSDLNKSLNEILDHYSNVKSKNSTNNDFSYYSDKPYK;locus_tag=LOCUS_09090;note=MGA_913
sequence2	MetaGeneAnnotator	CDS	320929	321411	.	-	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQKKLKLLALLRKNNREKLTNLSRKTHVPVSTIFESLRNNFSKFILKHTCIVDFSYIGFNIKAMLLIKFKPENKNEGLNYLTKSIFVNSLSRINNGYDVTLEIICKDMNALEDFIEKLELNTKIKKKEVFYLMGDIKKEDFFSNPDLISGLLIENEVKW;locus_tag=LOCUS_09100;note=MGA_914
sequence2	MetaGeneAnnotator	CDS	321527	322195	.	+	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIMLEEFNDQIPFYNYLDIIKEYYDNDFEKEFVNKKSKELNKLYGTKKIELPLNLIKQNKLYIFQNSNLELIFLELLKNHLNKVKIVVEINKQEIAYLQGFLSNYSIEKICKILSFGDELQYSRVLDLAKYGHFPQINLVIDLDYSKVVDFFKIINLLYLLGANTSFGFYEDKKKIAIIDYSYTLIFNTDFFNKNILNKVINNIKNKIPKFPINLFGHEE;locus_tag=LOCUS_09110;note=MGA_915
sequence2	MetaGeneAnnotator	CDS	322197	322826	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIHIGSNNNNLAKDFIEIDSTFERLSPINYYKKIINSNPNKKFIIKANKEITHFNFIKNLSFVDSQEEIILDKKGPSSILLHKFKQICDLFNDKLLFILFKFPYGFKNTFQNREFLFKLNKIFNTPIAFEFENKEFENYYNEFNQLNIIIVNKNSNICGNFIQNLDIHNMNYKTNLNNLYLMINSQEELNIATKIIEKYKNQSTISNF;locus_tag=LOCUS_09120;note=MGA_916
sequence2	Aragorn:1.2.38	tRNA	322885	322958	.	+	.	ID=Aragorn_24;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence2	MetaGeneAnnotator	CDS	323084	324583	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLYSAIFAVSRSTNLDTILDSTRRWIANSPHNNITIDRLKDLGRDDFFVEDEIDDRTITITSQNIMSDQEYYTSSKQRVANSVGTYTSELTLKESYGLDTIVSLQIYFEGNVIKPFFKPSLLPYFILKDSKKAFDGKILNIQGEYHLSKKGSEKFLAEVLNNESENKLPVIYVSKNDQNEWELNPTYLAKTLSGLAHVICEDDKDSKFILKELCDGNNCYDGAVGVYNPNGMRLFFLKDNDYSHILGDVTKELNFEDKIIHYINSLSKYKTTPTNLTYSAVNRIQQAERINFLKNELANRKGNEKNENIFEELCVLLEKDKEVLIRDNDATLDELQERLDECQSLRSKIEFLSQQQNQNGTPSEFFGNMSDIQRLHPEEFNDYIISLVKKDYESIKTQDDTRKIQFTKRFLEENPRSGNTPLEEIRKSLSQINGKTIAKSDLNFLNQFGFIVGQGSNHYKITIPGYSGFWTMPSTPSDKRSLKNNLSGFINKFFLSK;locus_tag=LOCUS_09130;note=MGA_917
sequence2	MetaGeneAnnotator	CDS	324604	325299	.	-	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRDLILYSHRFEDETVGMMVDSLVMVPKLDGSVEKYITPCARIAKDLVIKGITDETLERNNLQLLSSHNGLNSYSLVGKTKNVKDFDDLLGEQEIDSFMMNFPGLDSSAILNEHFVLGSLKYRSTPGDIYLVSTEGGQLLFSLAKSVKKSTAAIEILNTYRSNMRKDVNPVFTGVCNNSGLNEIMEKGTEGDLEVSFLGGCSFPYHALAKGSSIFYDKNLRDFEIIKNND;locus_tag=LOCUS_09140;note=MGA_918
sequence2	MetaGeneAnnotator	CDS	325439	326869	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTNIGISTFNDMDISLESKETRENSNLEATLEQVEVNELDSQKEIEEYKQEITNFLPQLYEILFENGRIKDSMKSFNEIELSDLENELNSREIDPQKESRRSLTLKQLVNYTRSNLKVDYKDEYNQKNVIIIDYFGTKIALDDSFLKIFQKNKSKLKIKDLNQKNIEDLKKQISEIEKKYEHLKPESKKKESKINFKKLATIAATTATICMGSYLTLYGIIHYNSINEEQRIISQNELFLSPRKNFQRSIKNKKTKIDNFLLYETTDFGQLSNSKLRELDNIDFNQMFSIDKNKYQNIPERLLEKKIKEFSQYENEFVLAIKNICKKIAKSIDEFNNQYKNNTFKIEKQLAQKISEDVKQNNRSLPSIMYTFLTEKNVSLYIKNRVKNKNSEILNYKRVTNPNKLQINYLMEMTLNSYFTNGIETAIKTQLGVDSYLDYLDSKNQDEIKLKAPKTLTHLIQKINQFIIHKNKNF;locus_tag=LOCUS_09150;note=MGA_919
sequence2	MetaGeneAnnotator	CDS	326892	327953	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKICPKCQKNETNNKFCNFCYSNLLNIILKEKYDLEKCNDCKSIFITNKQYKQINEKTFIELLLGQIRFNNQYNLDVENVDAAYYNYDRKDIEFEIENIKFVILDIDLIIDIKEFENIEQKINLKKKIEYKIVNNKCKECQKFDSEYFEGILQVRFDKKEFNNDYQNIKEKIKEIIIDYRAQINKMVELENGIDFYVLNKKLLPNMGNLILNKIVGEEKISATLFSRNNQTSKDIYRLKYLTKLKNLFLFDYIEYNGEVYQIIKIKKKNLIAKNIINNQNTNLYNNIADINKINEFLEAEVIRIQPNIQILDPIDFSVKNIINESEQIKQKLNYDSKVNIIRLEDKIYIVDQN;locus_tag=LOCUS_09160;note=MGA_920
sequence2	MetaGeneAnnotator	CDS	328046	328207	.	+	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYGIFYDQIKIDRIKNMKQEENHNFKIPLSKYFIYILIYIILIILINILFK;locus_tag=LOCUS_09170;note=MGA_921
sequence2	MetaGeneAnnotator	CDS	328196	329698	.	-	0	ID=MGA_922;product=thymidine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870172.1;translation=MMYFKIKKIKIKTGGPLVVYLTKYDCAKLNIPPKSRMGIRFNKKELIAMVDIIDSDFLKNGQVGVLDEVREKLNLKHNDIVRLFHINEPITLNYIKKKLQGERLNKDQFTKIINDIKDNILTEVEITYFVSACYCNPLNLDETIALTKSMVETGKIIKFGSKNVIDKHCIGGVAGNRTTMIVVPILAVAGYVVPKTSSRSITSPAGTADTFEVFTNVDLDISKMKKVVKKTGACITWGGALDLAPADDIIINVEHPLSLDPRGQLIASVLSKKRSVSSNKVLIDIPYGMGSKISSKKDALSLKSDFEKVGHSIGLNVHAVLTDGKNPIGCGLGPVLEAIDVYDVLKNQHDHLKDLIDKSIKLAGNMLELGGLYKKGQGEIVARDILYSNKAFDKFNEIIVAQGGKKINGTNNLKNKLSKCIYEVKSNKSGIVKQIDNKIISKIAKMAGAPSHKGCGVYLLKKQNDKVKKNEILFRVYSYTNIKLNQINNFLKLADPYSFK;locus_tag=LOCUS_09180;EC_number=2.4.2.4;note=WP_010870172.1 thymidine phosphorylase (Methanocaldococcus jannaschii DSM 2661) [pid:40.9%25%2C q_cov:95.8%25%2C s_cov:94.2%25%2C Eval:1.5e-98],MGA_922
sequence2	MetaGeneAnnotator	CDS	329695	330762	.	-	0	ID=MGA_923;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001290820.1;translation=MNIDRKKSVNLLLIVFLVLSIWLFSSFLAAIVFGAFLTFIFSPLQDRFTFIKDKDYRSAFITFLTIFIILLIIYFITQSFFFKIDNSINTIQKYARGEITTCEGDFLCDIVIKFDALRDDITAQRYLSDIFNSKNKSGSGFLENSFNIFSKFILLLPDLMLFLFLTFLSMWYFLSKKLEIYKAICKLSPLNSKDTKNLFKEFHNLLKGFTFGFLLTAFIQAIIAGFAYYLANIEYPIVFGILTGLLGSIPFLGTGLIWMPLLIFKVLFGMSTGIPYFSDAIIIFIGGVIVGSIDNIIKPKVMANLVLIDVYFIILGVLGGLSIFGLSGLIIGPFIVIITYNLMKIYFKMNKANGK;locus_tag=LOCUS_09190;note=WP_001290820.1 AI-2E family transporter (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:24.0%25%2C q_cov:95.5%25%2C s_cov:93.9%25%2C Eval:2.9e-18],MGA_923
sequence2	Aragorn:1.2.38	tRNA	330776	330847	.	-	.	ID=Aragorn_25;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_25
sequence2	Aragorn:1.2.38	tRNA	330898	330982	.	-	.	ID=Aragorn_26;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_26
sequence2	MetaGeneAnnotator	CDS	331076	332542	.	-	0	ID=MGA_924;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868093.1;translation=MAKDIMQKIMVSKESDFSEWFTQLMQKAELADIRYNIKGFPVYLPWAVKSIKKITNMWETELENTGHEPLLMPVLIPESNFTREAEHIDGFTPEVFWVTGAGDKTFDEKLALRPTSETALYDMYGKWINSYNDLPFKRYQTCSVYRYETKMTRPFLRTRELYWSEAHNVFATREDSLNQVKQDMEITHKLLYKKLSLPHIFFERPQWDKFAGAESTFAADVLLPSGKVLQLPSTHLIGKKFSEAFNVKFKDKDESEKLGWITCYGPCHSRNYGALITFHGDDTGLKLPWDIAPLQIIIIPIYFKNKFDIVDSRVELIKNQLEKLNYSVKIDDRKEFSPGYKYNHWELKGVPIRIEVGPRDVENNQIIIFRRDISEKNTVSMNDLIPHINSIKETFTQNMISQADEVFDKTVIDVQNKNDIKKNIDDGKMIRTSFCSIDMDGAECAGVIEKETKAEVRGVWFNKNEEVFCNCIVCGKPAKHVVYIAKSH;locus_tag=LOCUS_09200;EC_number=6.1.1.15;note=WP_010868093.1 proline--tRNA ligase (Pyrococcus abyssi GE5) [pid:39.3%25%2C q_cov:96.9%25%2C s_cov:98.1%25%2C Eval:7.0e-96],MGA_924
sequence2	MetaGeneAnnotator	CDS	332618	333292	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILNILLIVLIGLLLTACGETIENKNNGENNNINNNESKNNILLTIEDEKEMVKQNMFDLLEENNNMLIRDISGKLILRCNLLDCGISSKVEHDELFSGSSPEVEIMTHITFNKIIENQNSLDAYNQNIKNVNLNLYFPEQKSENIRVQTSFYDLKDNLRFTSFENGVLKGSLEFDIETLTLYIQDSKDDSCITGDMMGICYEDFPITGKYKLNIEFKELELN;locus_tag=LOCUS_09210;note=MGA_925
sequence2	MetaGeneAnnotator	CDS	333270	333734	.	-	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINMKFKEILIYLLNKFEVFGDIPFFFLILVYSYFFNIKYSNVLFLSFIFSLSLIITFRLLVKKKRPNNNYNKINPFYLIDKNSFPSGHSTLATLLFLYSLSIVNSIFLIYFNLLVLLLVFLSRKLLKKHTLIDIISGILIAYLFWNISLILIL;locus_tag=LOCUS_09220;note=MGA_926
sequence2	MetaGeneAnnotator	CDS	333833	334156	.	+	0	ID=MGA_927;product=DNA-directed RNA polymerase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878730.1;translation=MEFCPEDGSLMVPKNEDGKIVTACPVCNYQSKSKDSNLIKEKLEKTEILKIHKSSEELEALPKVDAECPECGHKKAAYWQEQTRSSDEPPTKFFKCIKCKKTWRSYN;locus_tag=LOCUS_09230;note=WP_010878730.1 DNA-directed RNA polymerase subunit M (Archaeoglobus fulgidus DSM 4304) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-17],MGA_927
sequence2	MetaGeneAnnotator	CDS	334153	334389	.	-	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFANKEFLELKIKPNSNESKIIEYDEINNLIYIKVKSQPINNKANIEVLNLLKKLTKNQYEIISGKNSKKKILKKLN;locus_tag=LOCUS_09240;note=MGA_928
sequence2	MetaGeneAnnotator	CDS	334386	335876	.	-	0	ID=MGA_929;product=asparagine synthase (glutamine-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496729.1;translation=MCGILANFNYNVKINKKHLKLIENRGLDNFGITDFNEIKNYFKVDKIHEVPNNFIFHNLHAIVSQVNQPILKKYFYFATNCEIYNYKNLKQNANSDSLVLFDLLTSSLLPLKLNDRDELIKQSLNALKIELNKVDGVFSFILYNKRDNLVFIAKDFFGIKLMKYAFENNNLLICSEGKVIEKIFDDNNINNLDGNKIICFDLNNNKMCDEEIDSNLYEVNGKYIKDENKILNELDNLMVSSIKKRVPKNIKFGVLFSGGIDSTLIVMILKHLGYNFVCYNSCFASDDMRVSPDFTFAQTFCKENNIEFKSNFCTMFNLKKNIKTVASIIEDVDPIKLGVALPFYFVSQLAKKDSVDVLFSGLGSEECFAGYSRHLDILNAGGDVNKECIEGFKNIQFRDLYRDDLILMSNNIELRLPFLDKDLVKYSFLIDSSLKINDEQKKIILRKYARKYIKDELFINRKKLGAQYGSNFDKAIIKLAKEKGFKSKKEFVNSLK;locus_tag=LOCUS_09250;note=WP_064496729.1 asparagine synthase (glutamine-hydrolyzing) (Methanocaldococcus jannaschii DSM 2661) [pid:27.4%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.2e-45],MGA_929
sequence2	MetaGeneAnnotator	CDS	335976	336818	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFIEIILIIVIFLMFIGTIFDFIKREVPDTISYSIIGISILFKIFESFYYKDIYIIFYAALFGIISFSICYYLTYKNIWGGADSKFLIGICILLSGPINNIEHLFLNYITSFFIIGFIFSTLYLIIKSIIYYKKIKKEIQSIFFNKINIAFILILILTLIFTQKIEFIFLLIMILALLILIFNKNNFENLEKKIFIKNANPKTITEGDILINSITVNNKTINNKPMGLSYNDVKLIKKHSKNKILIRWGIPFIPVFLISFIFLLTKINLLKIIIYFLIF;locus_tag=LOCUS_09260;note=MGA_930
sequence2	MetaGeneAnnotator	CDS	336796	337701	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIELDYTQDLANNANIYFEKSKKLKQKNVKILDILKKADKDLDKLNKLNDVEIKKLNDLDQNTKKNINIKKNWYNQFRMMITSSKNIILMGSDINTNEILISKYTTENDIVFHTMLAGSGYAVLNNKNFDVGIDFELNSNNFNDIMNDKKILDEICLFTAIFSKSAKSGLLNPEVFWIKRKQMLKTSPEGIKLPRGSYYIKGKKTTINYMDQQSGIGLFNDLILWGPLSVFENLNIDYIIFKSGNKKSSIVAKEIITAFKSLGNNITFGVDEVIKYIPYKKLDIDNYFLKRLITKKSRNK;locus_tag=LOCUS_09270;note=WP_011020698.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:23.7%25%2C q_cov:94.7%25%2C s_cov:34.1%25%2C Eval:2.2e-16%2C partial hit],MGA_931
sequence2	MetaGeneAnnotator	CDS	337691	337963	.	-	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLDDIKKTAHNLKPILHIGKKGITRPLIDEIRSLINKKKLIKIKLNKSISSLRDRKELANEIVSKCDCILINVIGNNIVLLSKGKNGN;locus_tag=LOCUS_09280;note=MGA_932
sequence2	MetaGeneAnnotator	CDS	337998	338960	.	-	0	ID=MGA_933;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251195.1;translation=MFMKLRKIIAFGKSSFIISLPKKWLKNNNLTSGNYVSVIENDTSISIESIEKNKKIKKICNLNVEDLPISAIKKLILSAYVKGAEIIEIKCSNIIKKNSEIKTFISKLNGLNIIESGKDKIIIEDLLDYSKLSINNMIKRCEIIIKYIFSILSEVHSKADLQSINERYEEVNSIQYLINRIINLSCNNNEFNIDINNHDKLNFFLILKKFKLILKNCLRTADTIFHYSLSDYLDKNFIEYIKNINNLFSDLMNSYHSKNFMLANDSFEDLKKLEKDVYDKFGVSKNIYLNKIYVELLLIIIEIKYLSNIIMNEQVNIIEN;locus_tag=LOCUS_09290;note=WP_011251195.1 transcriptional regulator (Thermococcus kodakarensis KOD1) [pid:24.9%25%2C q_cov:85.9%25%2C s_cov:89.8%25%2C Eval:2.0e-15],MGA_933
sequence2	MetaGeneAnnotator	CDS	339166	339345	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRQFDVDLDVLNTMPVTEMNADLDDEASFDQQLENFVQSDVNEDSSESIFDELLDFE;locus_tag=LOCUS_09300;note=MGA_934
sequence2	MetaGeneAnnotator	CDS	339400	340683	.	+	0	ID=MGA_935;product=N-ethylammeline chlorohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871065.1;translation=MLLKNIRFILTNEHIIENCDILIENNKIKSIKKNISTIDKEVIDCSNKIILPGLINLHLHGGMNILRGISDDLELNEWLNTKIWPAEKKLNEKDIYYASLISYFENLFSGTTTIVDAYFEIDSMKKAAENSNIRAFLSPAIFNQNDIEKVKKNNFFLQKNNSKIKPFIFLHSIYATDKKTLNDTIDFCNKNNIIKAIHISETRNELIEIKNNTKLMPINYLLENNFFEKKSLLIHCIWLTKNEINLIKEKNTSIVHCPSSNMKLASGATLPLIECFNNNINIGLGTDSAVSNNCLDLFNELKLTALLQKHHRWDATVAKTNQIINMPFENGAKALGIDNLGSIKENNLADLISLNLNDFNLLDTDKNTLISNIIYSANRSNVCDVIVDGKILIKNKNLQTPILDFNGNEISLEKLKDIVNEIKNKIL;locus_tag=LOCUS_09310;note=WP_010871065.1 N-ethylammeline chlorohydrolase (Methanocaldococcus jannaschii DSM 2661) [pid:38.8%25%2C q_cov:84.3%25%2C s_cov:86.7%25%2C Eval:2.7e-64],MGA_935
sequence2	MetaGeneAnnotator	CDS	340678	340953	.	-	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIFKVLTEDNNSIEFELPKFDHGFSKLLVDMLWKEKNVIAAAYNKSHPLVGIVKVFLQTNGKVKPRDVLQTVLKLIIDKNLNLKKQISKL;locus_tag=LOCUS_09320;note=MGA_936
sequence2	MetaGeneAnnotator	CDS	341158	341436	.	+	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENTQIFNVFFREKPAMMLVSLRNAKGAVYASSLAKLIDCTYSHVVKILQEMEKSELISFEKNGRLKLLTLTEKGSKIADSIENIRANLNCN;locus_tag=LOCUS_09330;note=MGA_937
sequence2	MetaGeneAnnotator	CDS	341795	342544	.	+	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIILFICIFTLLSSFSIASNNTKILIETNLGEMQLELYDNKAQITVNNFLNLTKEGFYDGLTFHRVIKNFMIQGGDPLGNGLGGPGYNIQDEFRVDLRHDKLGILSMANKGIKNTGGSQFFITLAPTPWLDGKHTIFGKVIDGYNTLRRIGNIKVDEKNSKPIQDVIIKKIKILNPENNQVESESNNWIKYLIILIIVIIIAIIIYYKIRGKKVDSEKEYVDFETLQAKKDIEEKKVEEKNPFEEFK;locus_tag=LOCUS_09340;note=Q8F376 peptidyl-prolyl cis-trans isomerase (Leptospira interrogans serovar Lai str. 56601) [pid:49.0%25%2C q_cov:59.8%25%2C s_cov:96.1%25%2C Eval:1.2e-32%2C partial hit],MGA_938
sequence2	MetaGeneAnnotator	CDS	342548	343561	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLMLNNMVFLLAYLKNQSDFEFRSKFEFKPLDAMKYSITDGILRFDEDLNSKLKEFEINAPEFLEYIENPSKYTLELKEKEFGKKLNKKQKKAFEKKIDELETKCEDFKKYSEDKIGYIEENLQKKYESTLLKIEKDGNNVVEGLDSLIEKQALNSYDETNPNLYGGVRPKREEDFKKENWRVSEPNSYFHLESVKDNFFELYDDSNKNRDLFTGKHYDVDNHKKNNFSKESKQLELEVIKTKEITAEAKTKALTQIEYGLKSSSQALTESGMTEIEKRSVQLPFGFSQVKDTNDLGLTYDHLVEGKETPEDYKKKLYGFVNQGIADEQNYTEIYK;locus_tag=LOCUS_09350;note=MGA_939
sequence2	MetaGeneAnnotator	CDS	343625	345004	.	-	0	ID=MGA_940;product=single-stranded DNA exonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870491.1;translation=MNDYESFFSFLEKNQPYFNMDDILVVSHLDTDGVTSLSLFKKFYEDKNPHLKIIQQLDDECIDEISNMPQKNVIILDSGSLKLNSIKKKLSNKNRVIIIDHHEIEDDCQLPENIIFINPFLFGINGSKEISTAGISYLILKELNPEIKKFIYLSLIGAFGDYQYQNNFLYLNRILQQEAVDNKIVIVRKELNIFRLNSQPLSFTLTFSGDFKIPKLYRKESYVYEFLKKLNIDGKKTFSQIDGNQQKKLVNAIKKITPFHLRKYLFSYHILIHPNLLNDEGKLYEAKEISTYLNGLSRLFNVKLGIDFCLDLCNNLTEVKIENKKYKSQISNAMKIYYDMRANGTVFENDLIIYINYKDKLNPNLVGILSSMLTKGGIEQTKKIVIISAYQKNNFKLSFRVHNKSNYNLNNLARKLVENYGGEAGGHKQASGAVTKKEHEEEIIKKIKQIDENILNSNF;locus_tag=LOCUS_09360;note=WP_010870491.1 single-stranded DNA exonuclease (Methanocaldococcus jannaschii DSM 2661) [pid:24.9%25%2C q_cov:89.5%25%2C s_cov:91.7%25%2C Eval:1.0e-24],MGA_940
sequence2	MetaGeneAnnotator	CDS	345034	345489	.	-	0	ID=MGA_941;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250202.1;translation=MSRMFSRDKGKSKSKKPFGMENPKWVNYSKEELEALILKFTKEGISPSQVGLVLRDTYGIPCVKTIIGMPIVKFLLNNNTAGEIPEDLLCLLKKIVFLKKHLEKNKKDQPAKRGLRLTESKIARLVTYYKNKKRLSSDWTYDIDKIRFLTE;locus_tag=LOCUS_09370;note=WP_011250202.1 30S ribosomal protein S15 (Thermococcus kodakarensis KOD1) [pid:49.0%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:5.5e-36],MGA_941
sequence2	MetaGeneAnnotator	CDS	345792	347738	.	-	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFKSADKLNKDTKIGTENNMNKFLFPFDNLRTCQTDFMNTYFDALKNKKNLIISAPTGVGKTVAALSPAITYALENKKKVFFLTSRTTQHKAVIDTIKLIQNKFGKKIIVLDLIGKKWMCNQPNAQIMNNGEFSNFCKLHRETGSCKYFTNLKNKSEFSNLTKNALTELKQKSPLDVNESIKIIYGYNLCNYEVSTLLGSDANVVIGDYFHLFNPSICSKLLKKSKIDIDDLLVIVDEAHNLPSRIKDLGSFSLNGLSLSRLQKILAQKLFNSELELVDNIFTGLQNYMEHNLIRHRIEELEITKNDLYDLIEKSTKLSYDQIIDTLIELDKKFDEPKHKSVLQNLIDFLLEWEIDKQGYIRILNYSELGSKKLFKFSFACLDSSIICKELINSVHSTLMMSATLNPTSMYKDLLGFSDDVILKEYETTFSNNNRLNLIIPETSSRYTMRTETNFKKIGEHISNLLNNIPGNVSIFFPSYKFKDMVAPYFQYKNNKTIFNEFPGMTKVDRSDLIKNFISYKEIGAVLLAVSNGSFAEGIDLPGDQLQGVIIVGLPLGTPNLITKRTIDFYQKKYGQGWNYGYIYPAMSKTIQSAGRCIRTESDRGVIIFIDERYIHSNYYSCFPNDWHIKISKEYTELVNSFFKIK;locus_tag=LOCUS_09380;note=WP_010964979.1 ATP-dependent helicase (Clostridium acetobutylicum ATCC 824) [pid:27.9%25%2C q_cov:95.8%25%2C s_cov:74.5%25%2C Eval:2.1e-61%2C partial hit],MGA_942
sequence2	MetaGeneAnnotator	CDS	347811	350363	.	-	0	ID=MGA_943;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870068.1;translation=MLSDKELKNKLKPFYKDNYGQFYPAKFLTSEGYHRNICIKTGLPFWSTDPNRKISGDPQAGVISEFIGKKNTKENLSFIDVWNNFKTIFEQKNYTAINRYPTVARWNPTMEFTNSSIAAFQPYVISGEVKPPANPLIIPQFCVRFPDLDNVGISGQHCTGFIMIGQHQFVKANEWNQEKVFEDIYDYLTKGLGIDKTEIIFHEDAWAGGGNVGCCVEFFSKGVELGNQVYMLSEQTEKGVQDLKIKVLDMGMGMERIAWFSQATPTIYDAIYPEVINFLCEKANYKIDKELQMKYVPFSSKLNLDEVDDIELVWDEVSSLSGIEKNKLKSEIIKMSGIYSIADHTRTLLFVLSDGGLPSNSGGSYMLRVILRRSLDFIEKYNWNIKLNEIIDLHAKILEPLFPELKNNLEIVHKIINIEIEKYNQNKIKANSIIKRLIDSGQINFLGEDKLIELYDSNGISPSLIQHIAKQYGHSIEIPSDFFFKVSQKNEIVKQIHSTKTDINLDLTNINHTEILYYDDYKTLTFQSKILKIIDNYIILDKTYFYPTSGGQLHDLGSIEDKNVIDVMKFEKYIIHKLDNVYNLNVGDVVDCNIDKDRRMQLAQNHSGAHVLNAAAKKILGSHINQAGAKKTVEKAHLDITHFKALTKEEENNIENLANEIIKQNIYVESIFLNRNDAENKFGMEIYQGGAVPGDVLRLVNINGIDIEACGGTHVHNTSEIENIKILKTNKIQDGIVRITFITGNLAKNIDSKNDQLVNDICDLFDCSVDLIISRCEELFIKWKKVKKNFNNKKLDLDLFILNSTHQSNDDPVSKISELYRVSHDKIINTAKRFMLDLVEMEGKNKEKFN;locus_tag=LOCUS_09390;EC_number=6.1.1.7;note=WP_010870068.1 alanine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:38.8%25%2C q_cov:88.0%25%2C s_cov:84.6%25%2C Eval:7.4e-155],MGA_943
sequence2	MetaGeneAnnotator	CDS	350468	352546	.	+	0	ID=MGA_944;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000516269.1;translation=MGKIEVLDKNLINQIAAGEVIERPSSVIKELVENSIDSGANNIIIEIENAGKDKISIMDNGCGMSIEDAKKSIIKHATSKIKTNEDLFNIYTMGFRGEALASIASISKLQIITKDNNHTGIKLYIEDSKIKNSEEFPRENGTSIIVKDLFYNTPARLKYMRDNYLENSSIIKIIQNYVLIHPEINFELKINNKEIIKAPKNNFKNNLLSIFDLDIAKQFLIINYNDEEKKLKIDGCISKPNINRNNKNEIYIYFNKRPVKNSIVYRAIMDAYHNLLFNKKYPICILNIEIDNELIDVNVHPQKKEIRVKNENELYELVYTSIRNKLEKSNLTQDLDEEKEKNQLRMDGTKIKTKNYEKYTYESINKDFDLSNEKGSEIKKENLQDSLKLKKNIKERFNPELHNTQEELSYNTFEEEEDFEYEFQSENKFSDNNTDKNYIVGQNDHLYSKLQNDEEFEKEFIKYINTNNKLKNKENYNFQKGIKVIGQFHNSFILAQDEKGLLVIDQHVAEERYYYEQFMEKYFNKNIEVQEILNPIAINLTPEEYNFTINNIENFEKLGMNIEEFGNNQIKVRTLPIIFNRLQDTNFFFSLLENLQKENIFKINRKKHKHIFNEEIENNENYNIIDEIKEKIITKMACMTSLKAGEQLTISKMQSIVDKWALTKNKNTCPHGRPIQIRLNFAHIWKQFKRDG;locus_tag=LOCUS_09400;gene=mutL;note=WP_000516269.1 DNA mismatch repair endonuclease MutL (Staphylococcus aureus subsp. aureus N315) [pid:32.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.2e-102],MGA_944
sequence2	MetaGeneAnnotator	CDS	352578	353066	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_081423255.1;translation=MIRNLKKLNSKEKKNILNLLKENYGFNKDLNEYTFFINKNDKINLINTETYELIDFDDYRVDSIGVYFGELINNTIRLSIEGSQLIGPSCNRNIIELNENQLNLWIRGKDVEIDKEGNDFFLIKYKEDYIACGKLKNKILLNFVSKARTISAKIEDECKAKI;locus_tag=LOCUS_09410;note=WP_081423255.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:31.2%25%2C q_cov:84.6%25%2C s_cov:85.3%25%2C Eval:8.7e-12],MGA_945
sequence2	MetaGeneAnnotator	CDS	353063	353503	.	-	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLLTLSKKEIKKINLENNLNINLKSLVKLIDDFYLSVDNNILFFKYNNNFIPSLKSDLMNLKTVTIDMPAVPFICKGADLMKPGIVELDDFEKDEFVAIIDEKNKKAISICIALFSSNDIKNMSSGKVLKNIHHIGDKIWSFNN;locus_tag=LOCUS_09420;note=WP_010870950.1 RNA-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:40.5%25%2C q_cov:79.5%25%2C s_cov:74.7%25%2C Eval:1.9e-19%2C partial hit],MGA_946
sequence2	MetaGeneAnnotator	CDS	353562	353957	.	-	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYIFTCIGNPNILATNQRVIKFVTKDFVSLDETSILGLKATFEFEKLKEFLNYNLMNVILICDDVEDSFMCNINPYFISKDVLTFRKSYFESDNTFGTFSEKAASDINKKLILKIKNTSAKLKIILRGIK;locus_tag=LOCUS_09430;note=MGA_947
sequence2	MetaGeneAnnotator	CDS	354012	355382	.	-	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISMKVKVISKFDLEKIKLIKFCDGNKNFDLICRNNNLFNEIKLEEFYDIKYDGRNLSFAKITSFLEYNKIINKNIKYNEHFVLKHEHLNLLQKRFETFFNVVLTNLIEGRNIFIKHDNDCDGFSSGVQFEIVLNSLKKKYDESNSQKITRSLMMDPYYTIEDAFFDVSKNNRFCNPLVLVLDHGSSEQDLLAIKYLKQFNCIIGVIDHHCFIGENEVDKIVDCHINPYLEGGDSSLCTGVLTYELIKKMGYNKLDHVPAIPAMADKCPAEIINFYNTFGDDLEIYSKGVDYFTYLTRSNTNSIFFNDFFIKPKKYLTIFKMVLDEQNKKKLFVKEKLKSYIKEEEFNNFNFVYLNTLNIMPKKLGFGASKIASLIRDEMTSKKSIVVCKGANGFTFRVSEEINFSINEFFEQIKLKFPNGFFMGGGHPKAGTYSFSENFEDDILNELRKQLKSI;locus_tag=LOCUS_09440;note=WP_010878834.1 phosphoesterase (Archaeoglobus fulgidus DSM 4304) [pid:22.9%25%2C q_cov:82.0%25%2C s_cov:55.9%25%2C Eval:6.1e-22%2C partial hit],MGA_948
sequence2	MetaGeneAnnotator	CDS	355367	355621	.	-	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDLELDNLKEQLKLKKPRRILVHLPCGLKPNSMEIKKAIEEVSDAKIVFWSGSNYGACDVPFFTQKLGVDLIITFGHSEWVYQ;locus_tag=LOCUS_09450;note=MGA_949
sequence2	MetaGeneAnnotator	CDS	355674	356432	.	+	0	ID=MGA_950;product=UDP diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875871.1;translation=MIDLLKKIYELKKCHNIPKHIAIIMDGNRRYAINNNLNKIEGHGIAIKMMQNVLFPTIFDKLKIPVKEFSFFALSYDNYYKRTKEEIEILMNHIKNFIPNFAKSELVKKCGIKINIIGDIELLDEDIQKVLKSAEEETQNNNNYILNFLIMYDGQEEIVNATKKIVKDSIKNKIKIEDINSDLIRSYCVTSRTSKPDLIIRTSNEKRLSGFFLFDSYYSEFIFLEKNWPEVNASDLIDCIIEYTKREIRNGK;locus_tag=LOCUS_09460;note=WP_010875871.1 UDP diphosphate synthase (Methanothermobacter thermautotrophicus str. Delta H) [pid:37.2%25%2C q_cov:98.0%25%2C s_cov:97.3%25%2C Eval:4.0e-39],MGA_950
sequence2	MetaGeneAnnotator	CDS	356483	358411	.	+	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWLTKALVSLYCIFPTFGQNCKIYEGNSKNIYNNILKVKKPYEIKDAFSDIKKCQIKSEEKLKGIATYFLEEKKTENPFSILSILNYRQGASNYQKLNDRIVKSVMNFITALNYYDTSNHNLESQILTTDVNLTVEESENAKWQNSEFNLQEEAKKIPEKLIDIVNSFESEERLIFIQTLSALRTYFCDFYNTRQSNTNNINFENNSELSGTIINLNYIQNNFGNNNILFYSLSNLYQGLSILRQSDMNLNSDEVYSTTGNKLKDFYSELLLTDLKGLEELSKEFDHIYKESAKEYMKTLSLLETSKNKFQTRHAKQINKKFSQLKGNELFNLYGQNNSKTKDILFTDASQISDYVAVSSVILNILNDFEVFDRLITSSIRFRVHYDQSKYTSIDIDTNDLSKLFLNNDILKIKQSNLLFQKGVKVLEKFVKEKKLENILGEDEKLNNPREYLNAIKEYNKYNLRLKNQRLNWRDTIFKSLIQMPKNYIKSIFGLAQIPNEILRVLRGKQNLTNGIINSLNKYFNFQMNRAYLQTPEKLLLNTSIHRAIESDKNPLKDHFQNDILSTILNMTLPIYSQINFDIKQTVNQIRSNFSKLIKNPKKESKRILPILYNSFLVKQSITDNNSNIKDQIDSDIERFK;locus_tag=LOCUS_09470;note=MGA_951
sequence2	MetaGeneAnnotator	CDS	358510	360378	.	+	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEENTQITKSQETSQLPGILKSFGKRFKGMESQLMNSGIREILSRDNTLLKLFLTEYETSDRFAPQGVETLENVDFLKAILAQTILPGFETLYIKRPVQSKSNESNLERVLSVDYGTCFSIHKTNSQSENNQNGQLKQLYKFDNNSGELNDIIPSIVNASFESQLNILDLFLDNYKLQMKSIEGGLLSFKSKDQTPEQDALEDFVSENLIGNVSFDKKYNNNIQKIIDAIDSKLEDIYSITESLNQALNLDPYKLNELFASKDESALNTGETLKSILNKNSFVFNEENEHLQIGEYQTILAEQIKETIKGYKSDLEKIESKFESRKKDYEVLRESLNQSSQNKKNTAYFVSLGLAATLGCSFLYHQNSQTQDAQETLSDQVIILGDNANDAANNAGNAAKYARDAANNADKSLIAANNIYVDSQKQMTIASNVLGQGKTLVENSNTQTKEAKRIAKAAEEKVKLAIKLAKLAEDNAKKERQDRIKAQKLYKSSLKDLNDSRSQNQSTVTSLNNLFERLKNYRIQNESSSFQTNYGSQEEPIYQSEETAPIYSPQPQAQSGDLLTGKWITGPTNIYKNSLSSFVKGKLYTCSKEQNGGAEEVTIFRINKILEACGSQPIKIK;locus_tag=LOCUS_09480;note=MGA_952
sequence2	MetaGeneAnnotator	CDS	360406	362916	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFNFFSENLKKLKNLYFSLNQKEELLMPNKIYFNNTRKTNAHLEEMLSSGISAKLIEGPQLYVVPKPLNYFSEEIQTYGSALTQSIGIVSDIQQFCNIAKKLEKIFVKREDMITIEDTIDIEPNLELVSESDYDIVKYLQNVLKTSQNYAEDKIVEFFFPNYKSEKKSPEKLLEEKVKEYESLPVDYDKTKNIIRELSNTSNIFLFGRNLLQSSKYNKLDEKEKKIVKNKFYNHIPNLLKFLKSPKEYLVNELNINEKYVNENFNSKINSENLKQNLAEYFNLQNIRMSLFGEREREKKSEIVVENKNHEQNKLSKNEWKEILLDFSYFILGEEYGSSECVSENLKSIANVQAESSMLLQAIYKTFEGGEEINPTLLNIFWPKYISELGNKNSSGNKIINLNKESNVGDEFINSIINEYKSAKKRSITLSDLVKTIPESNIEKKDEYKQLIYQTSMTVLYGSLLELKRRNITIESNYMITNYINTILQSSGLPLLYEITNKNGTGETNTEIEKKQAILDKINENLKILFCESKTNNHHGRISRSTIDYIFINGVKSDHNQMESLRTLPQNAYTSSQKNNTEIFKLLFNSDLSTVIFNFIRFLSKYKNNALEKLKDEVKKKKYERFYKLNEHLALATLNSKFLNEQLFTIEDNSEEFNEFKSLFKIDENETPYVRDGLINGQIIDLIRRPLTKEDLIVKNILNTDKNFIGIDVNDDEYKKLLKEGTLGLLQTTFPQTHFIKKSQLEEISKRKISQSEIEKLKRKNKKINLSAVKKNIKKKKKEQKKATQELKEENNIAESQNILKRLSKLTDSEKVLLEMGKSETQNLITFNQQN;locus_tag=LOCUS_09490;note=MGA_953
sequence2	MetaGeneAnnotator	CDS	363079	363501	.	+	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKSLLALCTYTLISSSNLYTKEEAIVDYKTPITNAQTESIKFKLPLFYGLNPNTNRNLYGSNINNVGRSTEEHKNSIGDFLKKHEKSIYTGLGVAALFCLKNKCWKTKTVKPPINESEILTETGSGPDFVPTGTHRF;locus_tag=LOCUS_09500;note=MGA_954
sequence2	MetaGeneAnnotator	CDS	363563	365647	.	+	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYKMRTKKTLIFALLLIVCLGLVNAIQYNFEVRDQITNDLIQDEIKVLTFECLNSDCSQTIQHNIVKHFFTGQVEYKFPITPLGNKKFKLKILNKNYLPENLDITIRNDVDLGLDISIDRKNGPVLLKNALNCYAPVIRLDEINSLGKGAPLIIKYQTNIQSDIGSPFEFTKKLSDAELQSNDYLEYLKSKVDLTLQINRNGQEVKEFETVLEMIPDEISEFEFAYTPQTAGIYTFEMQSHIENSGICLSTSQSNHESTVSIEENAPEENSCSSRIHNLQFTRPVIGADNTVIVSGEVYSRKSTGDNLETNFVPVPTQVTLTTPGSNNPLIVNLDENENNLLQTITFPNSLNDIEIYNLEVVAEPNDVSCIRKTSQTKSLDVKRDISLVSTTNGLIFKSIPDAIISITNPNYIVDLTERTVDFEGDIVTYKATATGFNYEKFELKLENNNLIISLKNSNDYFDSYLTNVQVTANDGTNKVTRTFRVRTPSARGDTVAIAKFPNKIYEGVPAIFDASETITRTGIQITEYEWDFGDNTPIQRGRTVVHTYEDSGFKILKLTVRDSARNIDIAQYPINILDSFENVDIEPMDFEVNKFIFRNQEVKPGNKISTILSFTNDAEKDLDNIRIVLIIKELGLHKTIGPISIDNKETWTRQVDLDVPKNTMPGEYYASLIISNGEFSRHKYNFVRLLEN;locus_tag=LOCUS_09510;note=MGA_955
sequence2	MetaGeneAnnotator	CDS	365721	366992	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKKMLLLTMLVFVTLLASISFASAAVIPVSDVRVEINDHDVSKKGESEIVLNLKRDRTIEVEVEFEADENADDVRIRAEIVGYEHDRRDRLVDMTNYFNLRENNRYVRTLQLNLPTLMDKGDYTIDVQLLKRNADTKTFSFPVVIDTQDDAMEIRDVIFTPGNSIKAGTSFITNVRLRNIGNEEQDNVKVTVAIPELGRVDAIYIDEIEEEEYKTSEGLVINVPLCADEKKYEVLVLVDYNAFEQEEQKHFITVTKNDACNADSSLTGVKSFNAQAVVGSANSIAGNKVSFPVILSNPSDNSKTVILSPQGADDLGNVKVSPNWVVDLAPFSTMTAYVEVTPANNVAEGEHSFTISATDGTNTKLLNFAVNVKPGSASTASSSSNWVLISVVIVAVLLIIIIIIVLFNKMNNDDEDEEDYY;locus_tag=LOCUS_09520;note=MGA_956
sequence2	MetaGeneAnnotator	CDS	367042	368241	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKYLILLMIVICINLISAYSIEYQSQEYEMCNIVKGNFTIFNSDLENSEFEIINNNDKIKIAKNHNIKNNKTINFEYEPICEFTGEVRINVLIKNNENTKQLTFPIKLISKSKESISFNNQKSETNNLKLNLCNTTNLKFDFNNDNNYDTAYLIEIKDTDFENLNRSQVIKINAENSEEFNFELNNQTKRTQFKLEHTNVLTNQLEEIYFNVNINSNQNCTSELINLSPREFNYYGYGLLILIFILLLISLFGNHKSKINLRKNKKEPVLILNKPEKHKFLKYQNKIEQINNINEKLKELKQTLSKQVKEIEKIKSNEDKKPDIKIKPSEILDKYKEKKIIEKPKKTIKKIVKKVNKKIVKKTIKTKPVIKKSAKIVKKTNKKVVKKAIKKKSNKKK;locus_tag=LOCUS_09530;note=MGA_957
sequence2	MetaGeneAnnotator	CDS	368289	368561	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIMDYAQNLLNYAKEMSRLDQKLAKKYIKSAITLLKKKTINVPNEWKIYYCKKCFYVLNPNNTKFRTHNKKLTIKCNNCGNIKRKILKK;locus_tag=LOCUS_09540;note=WP_010877623.1 ribonuclease P (Archaeoglobus fulgidus DSM 4304) [pid:31.6%25%2C q_cov:84.4%25%2C s_cov:71.0%25%2C Eval:3.8e-08%2C partial hit],MGA_958
sequence2	MetaGeneAnnotator	CDS	368615	369163	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIFTLLVLFTLINGVNAYNSPWSFSYEEAEGDYFDNFGNQKYQYRQNEQYGYGIVNSNYDYSDDYIDYSKQYNQGYGRYQDYYNRNINRFLPQTICLDFCNKPKYEKTTYNKDLTREQLNQETIFGSNNDLSFNKLGFYTRQRKTVSSGLGYNSRPIIQNKFEIYNIKKNNGYINSFYLK;locus_tag=LOCUS_09550;note=MGA_959
sequence2	MetaGeneAnnotator	CDS	369160	369798	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKYIIIIALMALLLINNSYAYNLERNSPWSYSNTFSNSQYENAWGTQSSSYNYDNKYAYGDYSRKINYEDNYRQSGLNYKAGYGNYGSYDDNRYLRGDNRYYDCKNCITRDRYDGFYWDYINSYSDYHLDEKSIYYQETDNYKKYIKPHQTYTGPGVFYKYTYNRNYNSGLNENYEYQYSRDNNNFYNTNLFVRPFGQSYREYNNWLWN;locus_tag=LOCUS_09560;note=MGA_960
sequence2	MetaGeneAnnotator	CDS	369836	370948	.	+	0	ID=MGA_961;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250190.1;translation=MEKKIQKLDPTTKVKLKKLLKQLDSIRARHTELITVYIPAGYEITKKIQHLQDEQGTATNIKSSSTRKNVINAIEKMIQALKIVGRTPANGLAIFAGNISEKEGFEDYKVFSYEPTIPMNQNLYRCDKIFITDVLHDFIDDDELFGLVVLDRRDATIALLKGKSIQVLKKTHSDIPGKTKAGGQSAMRFQRLRVDATDQHYKKIAEYMKNEFLFKENLKGILVGGPGVTINDFLTKGFITGDVQKKIIGTADLSYTDEWGLKELLEKSQDILSNEIIIEEKKLVDEILTLLRDQFNKVAYGIDDVKKALEMGAVARLLILESIDENLSEELENICLNFKGEVKYITDDTEHGAQLKALGGVVAKLRYPIE;locus_tag=LOCUS_09570;note=WP_011250190.1 peptide chain release factor 1 (Thermococcus kodakarensis KOD1) [pid:39.8%25%2C q_cov:95.9%25%2C s_cov:97.6%25%2C Eval:8.3e-80],MGA_961
sequence2	MetaGeneAnnotator	CDS	370950	372239	.	-	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIEIIDNLINKTCKEIVKFSNEDGSFIFNKDPNINIPPFFDHTLVRTSEAIRILIYSQNIDYLPHINKSLLYCLNFNFSADTEINFLCSKLKVIRFLDNSFVKKRQKKIIDLILDKQCIGGYWGVFPDTYNLLNFSIVDPLYLYNSQKINASLLKLVKWFYMNRAKDKLGWGYNQNSEKSQNSYTANVLFSILRTNQNYNWEIIDEALDFLISNQNSDGGFSSSDTTINDQSTVYATSLSLICLLVLKADPFNSNVKKAFNFLIKHSLKSGGWGLIKSDKKIQIYTSYYATYALKLYKYFSENYFKSKFDFVDKTKDFNIFLFFEFENEINNGFKNSLVKFILNSNIYGSSLEATKRRKKIVDIFYKNGILEVGDVINLIKKYPKYKNITKKYHITLIKSDLDHLNKIGILVKHKNKYCLLGNFNIK;locus_tag=LOCUS_09580;note=MGA_962
sequence2	MetaGeneAnnotator	CDS	372338	372553	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDTKLTKYEKTKIISARALAISEGAVPKVELTEEDLKRINYSPVKIALLEFEKDVIPIIIEKTWPERKSY;locus_tag=LOCUS_09590;note=MGA_963
sequence2	MetaGeneAnnotator	CDS	372557	373210	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPWRDNYNQIKFDFLLFHNKKININEIISNLNKNSKEYILNCNIKINECENNKLNELFNEKKLITKLKIETIFNKKTFELSPESYYYLEYIDEFLYNIKEKYNIKIFDLIQSKEIEINKLKPNFPNFKNRIEIHKIKKKDRYQLHTHGLNKFSIPDLQINNIKKEEINDFKKIIIETATNLLISNKTKLKILNKYIILEFMSNSKEHFDKPQLKIIY;locus_tag=LOCUS_09600;note=MGA_964
sequence2	MetaGeneAnnotator	CDS	373214	374428	.	+	0	ID=MGA_965;product=radical SAM protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867675.1;translation=MIKTNIKEYSFQEINNKIRVIFKQNNYFEIDKDFTDIEYEIKDNQLCFNTENEKKIKKIMHKILSYAEYKNIFTNKKIYYINEQSQIPLIGSIAYGLIDRGSNIIEIRPNTGCNMNCPFCSVDEGLSSKKKVEYYVEPHYLAKEFQKLCELKNTDYIEAHIGPQGEPVAYDDLELFISLIKKIPNVKIISINTNGTLITKELADKLIKAGLNRVNLSLHTMDTLNSKKMFGSGKYDIEQIKEISQYLANKIELVIAPVLVKGYNEEDLIEVINFAKKISKNIKFPKICIQNFLRYKFGRNPVKEIKWDEFYKQLDYYEKSTNTNMKITESDFNIKPCNSPEKTIKKNEILKVKIVLPGRLQGEKIAMAKKRSISIFNAENLQIGKEYKIKIIKDKHNLYTAVPN;locus_tag=LOCUS_09610;note=WP_010867675.1 radical SAM protein (Pyrococcus abyssi GE5) [pid:35.8%25%2C q_cov:99.3%25%2C s_cov:94.3%25%2C Eval:1.3e-70],MGA_965
sequence2	MetaGeneAnnotator	CDS	374444	375589	.	-	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNIFIVLLLLCSVFASSLLYIDETSIVINNDEQSVENNEKYNEVIRSGQKLFFEINICNDFAEDLEDVEIFANIPNLDDGSSFKLEDNEKIDIKKNDCETLELIFENDNRAPYELNSGDYKLNITAKGEYGVNRTFVNSEPFIVNLKFNQNRKDVLIKDARMDSKIIQCNENSVKVFYTIMNNGESDLDAAEVRITNRILNIFGVAYHSIKGDNGYTDSGFIELELPRDKLFDGSFIFEVTPSPLKSRAGIKTDRTEKLLLKREGCGINYKDWLAKKESGELDVNDNSDDDVIENDIVETVDDLNPIDNDSDILIETTDDKNDVNNNVDSNNKSLSFDVDKIVENRTVDDGSSIFKNILWFLLIIFIIVIIYFIFNLLF;locus_tag=LOCUS_09620;note=MGA_966
sequence2	MetaGeneAnnotator	CDS	375675	376355	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNIISFSYLYDILRKEKVNNGLTKLEYDLFDNIEDYLKIKKEILQNAKNSNNNKKIEQIEEELKTIIDIVKQVYKTRLSKTIELAKNALEYDNINEEVLENLSKFEKEYFLSIIKIFSKQKKWLFDQFLFNEKEIETKNIDNIEKSQNIDSNINTNIENIQENKKDEENEIIEEIDLIEVIFNKDVPKFIGLDLKFKGPFKKGDKVKMDKKQTNFLLKKGIITLN;locus_tag=LOCUS_09630;note=MGA_967
sequence2	MetaGeneAnnotator	CDS	376404	376709	.	+	0	ID=MGA_968;product=50S ribosomal protein L44e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012289179.1;translation=MKKPKIMRKFCPNCKTHTEHKISSTKKKNKNVLSRGSKSRVKKRGSMGMGNHGRISRPPVAKRKRVGAKLAKRTDIRYECSECKKQWCQRFGIKTKRLEFI;locus_tag=LOCUS_09640;note=WP_012289179.1 50S ribosomal protein L44e (Halobacterium salinarum NRC-1) [pid:36.1%25%2C q_cov:82.2%25%2C s_cov:80.6%25%2C Eval:2.6e-09],MGA_968
sequence2	MetaGeneAnnotator	CDS	376706	378229	.	+	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIIYPPFSNPFGPSLGPAFLKSYIEANSDFNINFYDFNIKLHNKIVNEELSEIAEKLKNKNIKSNYFRKYSNTYYKRLQNIYTKYNKKIIELFKKNQFDYFDKEFKEIFDMVEKNNIKVIGFSHLFNQQIFMSRYLAVRLKQKYNITTVFGGHPIAHAKKEYINKDEIDFIIFQDGEEAFLQLLNHIKKNNYNLKKIIEDKQIEHIPNLIYKKQNEIKINQAEKFNLDKQIIPDYSDINFDEYLSPEPVINLVLGRGCFWNKCTFCTSPINSEEFRIRQIDDFVNEIKYLQKKYNINYFTFEDEMIMPSIMKLIANKLIEQKINIKYAFLAKPSHKKMWDFKLLKKSGCVNIYWGVETGNQMISNLMDKGTNIPEVKQILKNSHDAGISNCVFIMFGFPGETKKSFEDTIELIKQDYIDFISCSTFGLQKDTRIEKNPEQFKIKKIIKKRTILSDNYSFENLDNNSLSKTELEQIKLKYSPLLNAKNKWTDKINFYRNHILVLNE;locus_tag=LOCUS_09650;note=WP_011963528.1 radical SAM protein (Flavobacterium psychrophilum JIP02/86) [pid:25.1%25%2C q_cov:48.7%25%2C s_cov:35.0%25%2C Eval:3.1e-22%2C partial hit],MGA_969
sequence2	MetaGeneAnnotator	CDS	378231	378896	.	-	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLESIKNIVHKNVYDHLINRGIEILRPSQTKSIEAGLLEGKNLLVCTPTASGKTLIAELVMLNSIYNYKGRAIYIVPLKALANEKFDEFKKCYPDLKIGIATSDMDESGDKFSDCDILFCTSEKLDSMIRHGFSWLKYIATIIIDEIHLLNDTSRGPTLEVLITLLKIKLPGIQLIGLSATIGNAKELSDWLDANLVSDNWRPVKLHKGIYLDGKVDFFD;locus_tag=LOCUS_09660;note=WP_010868004.1 ATP-dependent DNA helicase (Pyrococcus abyssi GE5) [pid:49.3%25%2C q_cov:95.9%25%2C s_cov:29.4%25%2C Eval:9.5e-52%2C partial hit],MGA_970
sequence2	MetaGeneAnnotator	CDS	378997	380646	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMNKKEVSFTSIENIKKEIDKATSKQGISDEINDISKIIDIDTWVKIQDNFATAINLPVFLIEESGTEIAVSNDFPYFCKLINSKEKGRKACINCRKKNYKELKEEDTNIKYFECHAGLFNIMTPIKINNKMVGAINCSSILKSSRNIAKVIRVAEELNIESVELIDAVNELPIKQREDLVFNGTLLYVLSQTIPGLVNEHKTNIEKINELEIINKFSNEIQSTLQLNETLKIILNKIVKLTNAIESSITIYKEDKDNKILERYTNSKNDLQLFQNIEKQIINKITNEKNLKKIYEFEKIEDEFNIKTTFIKKIKTIPLLMRQKIIGFIFIYLDNIEKDKNLELLQIISSQSAFGIINAQQFKEINTLAIMDKLTNLYNRRYIMEKLDDELKRAQRTERFLSIILMDIDHFSNYNNNNGHPEGDKLLTKISALIKENTREIDIIGRYGGEEIIVLLPDANINEALPVAERIRKAIENYPFANREKQPLGKVTTCIGLVSHRGKNKTKDDLIKLSDDLLYKSKKAGRNKTSYRIIDEKSSEILQSQTHQ;locus_tag=LOCUS_09670;note=WP_010942515.1 GGDEF domain-containing protein (Geobacter sulfurreducens PCA) [pid:29.4%25%2C q_cov:59.4%25%2C s_cov:94.6%25%2C Eval:1.6e-35%2C partial hit],MGA_971
sequence2	MetaGeneAnnotator	CDS	380649	381143	.	-	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDQKFVKLGFNNKKFLTGCLENTRCSFQKDTFRRLSVGDQGGLFYSLFKHDDWRQIPHLKISTNETIASLEEYVKGLKDYMGVANQFVKDNSVLSLYELTAGIFVPFVDNSDYYFSAIGRGSFESLGDVEHFLTLILNNEQKFMDGYGAVMSSLEKYKKLLPD;locus_tag=LOCUS_09680;note=MGA_972
sequence2	MetaGeneAnnotator	CDS	381218	381826	.	+	0	ID=MGA_973;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846295.1;translation=MEHYFIQDPKSESKENKIEIKIFDKKLEFYTNSGVFSKTKLDDRSELLIKNCIIQPNWKILDYGCGWGPIGIILLKKYNINCTFIDTNQRAIELTKKNIELNNIKNKFQILKCDIEDNTINNNKIKFDSILLNPPLKSGLKNCKRMFLNAYNNLKLNGILQIVYRNKVEGNEFEKYINKIFGNFNVITQKSRIKVTICRKLE;locus_tag=LOCUS_09690;note=WP_052846295.1 methyltransferase (Sulfolobus tokodaii str. 7) [pid:32.9%25%2C q_cov:76.2%25%2C s_cov:83.2%25%2C Eval:1.3e-17],MGA_973
sequence2	MetaGeneAnnotator	CDS	381887	382507	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQVLDLSLIQYFLPILLFLIIWAVLYSLLKNKQYISDKDSINSLIAFIASLLIVIESNSVLFLGTLLPIFLFIAVATIFFLLIFSFIGWESKSLNEEVESNSIITWVVVVIGFLIVAYSAGQIFGQQLLESRNPDGVPSDIKNEYGLNEKNNIINSNNNEIKSTGTGDFFSNLTNTLFNPKVLGMLLILIVGALVIIMLSIPEDD;locus_tag=LOCUS_09700;note=MGA_974
sequence2	MetaGeneAnnotator	CDS	382542	382781	.	-	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPAPYIKNVNIKTTNTAKTKNGIKFVMKLLTEVACSVIIDSVSAIILFKLELSVKYFDFCNNANINDHKNMIKIIGAK;locus_tag=LOCUS_09710;note=MGA_975
sequence2	MetaGeneAnnotator	CDS	382762	383043	.	+	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGAGIKKLQIENYPTTIWIIIIVFALIILWVGGNVWGNTLIEDDEGGLIKNRLTNTTDFNTNIINTLFNPKVAGAILLIAAIALIIVFIKED;locus_tag=LOCUS_09720;note=MGA_976
sequence2	MetaGeneAnnotator	CDS	383063	383797	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLPIEQLIKLKKQGLENQVIFQMLMKQGFKPEQISEALRRIELNEQVGNMVNQPNMNMGSMPPNVPPSGAPNMPPPMQQRQQNVYQNSSIQISQIAEAIIEEKWKALLDNVNKIITWKESMEIKINKIENDLNVVQHDFEKIHNALTDRMHDSESAVKNVGVDLKALTTVFEKILPGFIDNMHSLDRITKELSQIKNSSTKSEIKSVKKVDDNKPVKKKEVKNKNDDIFSQNDSDESIDNMF;locus_tag=LOCUS_09730;note=MGA_977
sequence2	MetaGeneAnnotator	CDS	383790	384182	.	-	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKISLDSNPTDMVSLLRRIRILEERYSNLRKKSLVIEQNQILHKKSISNELKSVEMEMISIKKEFININDKLSLVNKELKSLADENEIRYLTKYLEFFNPVNFVTVSEMNNRFDNMFVNARLEKVEDE;locus_tag=LOCUS_09740;note=MGA_978
sequence2	MetaGeneAnnotator	CDS	384304	386631	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADFNFDINKASNKIQKVNNYPFEIIREGEEVIVRIDYEKAPFTPSIEDSSDCMANVIEILAGVKNATKILFFQKRDYEYDYQTVHYLTQVASVHNNIQKNKELFSYNNLGQKKEASDFYNQWFYNIQKIINSKIKSDPVGAYVELIRLLRQEETIYVNRIGIRNTIFNQNYKYLLNYIKKELEKTDLIQSCQKKLAGYDPKSRTFYREIFKPTIKPDFMFSKLMGNYPKDGIEVENYIIDKNIDVSIFQFEDSIKYLYHITPPEFKLDEDKYDLLDVARKIMAEHKPTKDDFVQPERLREVFSNIGMDLIEELAKYKKIKLKEGETKLLSEILIRYSVGFGLLEVLLKDPNIQDIAVNSPLGNLPIFLVHSKFDECETNIIPMKNEADNWASKLRMISGRPLDESNPILDTELELPGVSTRVSVISQPIDPTGLAFSLRKHRPKPWTLPLFVENGMLTSLAAGFLSFCIDGTRSMFICGTRGSGKTSLLNSIITEMTRRNRIITIEDTLELPFTSYRKLGYNIVQMKVSSALSQNKGGEFTATEGIRSTLRLGDSSLIVGEVRSKEAVALFEAMRVGAGANVTAGTFHADNPFGVFDRVVNALKIPPSSFKALDLIVIANPIKSADGMKKVRRVTQITEVRKDWYSDPLKEGGFVDLFKYDSKLDKLIPTDDLLNGNSEILKTIASKISDFVGNWDLMWENIQLRSKTKETLVNYSKKINDKSILEADFVIESNDKLHKVIQEVKLKKGIIDSELVFVTWENWLRKKIRLKYIK;locus_tag=LOCUS_09750;note=WP_083755986.1 type VI secretion protein (Methanosarcina acetivorans C2A) [pid:34.0%25%2C q_cov:76.4%25%2C s_cov:63.9%25%2C Eval:1.6e-92%2C partial hit],MGA_979
sequence2	MetaGeneAnnotator	CDS	386631	388868	.	+	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGISVEELMQKYKSKLDSNLTNEEQNQKSEYIKSVDYETFKKDNIPKSFSYYEKACNFAKKILPIGVDKKTQEKYEKAIHTAHLNLDSTGIVSLSLLIPFLVLLLIIPIGFLLNDIIFFTFAALLCASVIYFLLNKLIFNLARNWRQEAGNQMVLSVFYMVTYMRQNSNFENALYFAATHIEGPLALDFKKIIWDVQSGKYFTLNQSMDAYLETWRDYNMEFIESVQLIQSSLLETDESRRVLILEKSLSVILEETYEKMLHYAHDLQGPIQILNMLGIVLPIMGLVILPLVVSFFENVQWYYLAFGYNILIPFGVYILGNRLFEKRPVGYGSQDYSKYLDATPDKVSFLKIFKNISLVGICVFVLFSGIIFTLMPQIIHTTTLVGAQDPDTGVEGVTIWRNEFGEVENDDIELYPSNNIKKTGIYLLEYKSSTSTPPKLVGPYGLGASIFSFGLPIGLALAIGIFFYFKTRYVVKIRDNAKVVEKEFSSALFQLGNRLGDGIPLEIAFAKVSNNMRGTISGKLFQTIATNASVRGQDIKTAIFDRKTGAIKEFPSNIIESSLKVLVESVRKGPKIASIAIMNISTYIKEIHKVHERLRDLLTEVISGMKSQTKFLAPVIASIVVGITSMINAIISQLNNSFQEFKGEGTSSFGAAGQGDAISTFIKDGLPTYYFQVIVGIYVVQLIFILSDIISQIEDGSDTISRQYNIGQNLIKGGITYTVLSSTMIIIFNIVAIIVISQVG;locus_tag=LOCUS_09760;note=MGA_980
sequence2	MetaGeneAnnotator	CDS	388869	389351	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLYHVSKISGLKVLKPFSHNAMDGEKAVFATNDIMFALSMAYGTGNDIAVGYHCNTKTKEKEFYIDELEKGKLKLLDNVASIYIVEETNFVNDDRLLKEEFISKKEVKVIKEIIVKSALKELEKLKANIIKYDDVLVSMKQRNKNPKKPKKKKKSDRFL;locus_tag=LOCUS_09770;note=MGA_981
sequence2	Aragorn:1.2.38	tRNA	389402	389477	.	-	.	ID=Aragorn_27;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_27
sequence2	MetaGeneAnnotator	CDS	389556	390122	.	-	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYEGRIETSKECGIFEGVDFTSICEFKKLYMMFESNIKGNGLWWKIKQYNPKKVTTISLLDEDMVDEIFLLTDYAQKGIEFESMTRRLKYMGFSANNDLSQIDEHINHLCKMIKKDDFVNIICGTPSREQLDYKVKFLETINGNSNCFLTSFYGTNNAKLALDKSLRDFDNSNFVQNSFLPYLVWR;locus_tag=LOCUS_09780;note=MGA_982
sequence2	MetaGeneAnnotator	CDS	390190	390945	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQLIESLKSAGLNNREAITYLDLQEYGESQTGNICKRTKIPSSQIYTILNNLLEKGLVNYKIINNIKMYRASNPDTLAILFEEKENRIEEEKNKLLNFISKLKQKPEGISKYSDYKYFYGIRGIKSLYTEIINSWKKGDEYYIASAPLESFSKLEGFFLEIVHKKRIKDKVKLKILLNKNSKKWGDIRKKMPLTQVKYLESETKTEYGVVNEYFFIISYGKQPYGLLIKDKNFSETYKALFEMLWNNAKK;locus_tag=LOCUS_09790;note=MGA_983
sequence2	MetaGeneAnnotator	CDS	390963	391307	.	-	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNELKDKAPIDFIELEVVEKEEPREFHSGRLCNCTGKDDTGSVKITLWNDDVDKVNVGDVIKIEKGWCSAFNNQLQISAGKFGILTIEKKGQAGSSSDSSKSDDLVQEEDMR;locus_tag=LOCUS_09800;note=MGA_984
sequence2	MetaGeneAnnotator	CDS	391304	392815	.	-	0	ID=MGA_985;product=glycine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869726.1;translation=MEQKQLINYMSSRGFVWGPSPELYGGVAGFYEYGPNGKLLKNNIEAKIRKTFSFSDFWEVECPIVSPESVWVASGHAGNFSDPLIVTKNSKSNFRVDKLIEENFPDVNAGNMSDDELIDFIKKNKIVAPNGEELILEIKRHILMMKTTLGVSQLAYNRPETATSTYLPFLNYLEHFRNKLPFGVFQIGKAFRNEISPRQHLLRMREFTQAEGQLFIEANNKINFDKFNSISKNKLPFWSADDQINKKAVSLLTINSVLKNNNIKSQAYAWALYVAYDLFLSFGFDSDKIRLRQHLDNEKAFYANDAWDIEIFTNTHGWIEVCGIHDRGNYDLNQHSKHSGRKLEAVCDDGKKIVPHIIEIAFGIDRPIYCLLDNYLTFNNKNEGKNILKIPYDIAPIKIAILPLMNKDSIINLSKEIYSQLKNDYICYYDKGGSIGKRYLRQDEIGTPFCITIDFDSVEKNSITIRDRDSESQIKIPIGKMSEILDFLINKKKSFKDYGEYLI;locus_tag=LOCUS_09810;EC_number=6.1.1.14;note=WP_010869726.1 glycine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:35.2%25%2C q_cov:97.4%25%2C s_cov:98.8%25%2C Eval:2.1e-87],MGA_985
sequence2	MetaGeneAnnotator	CDS	392922	394127	.	+	0	ID=MGA_986;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870398.1;translation=MTWSVKYKLKEIEDIVGQDLIVEKLKDYIKNFSVHKGKAILLYGPTGSGKTSIVHALANHFNNELFEINSSDIRNKEKIEELVGAAATQMSLFGTKKIILLDEVDNLSGTKDRGGAIAIAKIIPKSVFPIIMTANDAYASKLKEVRKKSLVLELEEINYNIIKNIFKKILEKEKIEYEETAISQLARSSSGDIRSAINDLESIAIMHKKITQKTIYSIFERERKKSIENALMKVFKTTDINISLNSFNNIDENLDETILWLEYNLPKEYEKIGDLYRAYESLSKSDLFNSRIRRRQNWRYLVYVNFYQTVGISLSKKEKYKKVNEYKRTTRLLKMWQANISNAKRKAFSSRMKTYFHVSSKKFNFEYTPYFKYLYNKDEIFCQRSNEFYEINEDEIKFLKK;locus_tag=LOCUS_09820;note=WP_010870398.1 ATPase AAA (Methanocaldococcus jannaschii DSM 2661) [pid:35.4%25%2C q_cov:99.5%25%2C s_cov:77.1%25%2C Eval:6.0e-63],MGA_986
sequence2	MetaGeneAnnotator	CDS	394124	394714	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNNNNKLKKHKFNIKTINEEIEEYEESHYEKYKHIYGISITILLIIIIIFSFVLSPNISLKFASNILSGNLKNNTFTVNSTLKIILSENIKKELIQSYKQNKPYEIKLCLIGQIINGDYIINKIFHPKIIEQSVVHVISQGCPETTLIDIHSHPFDNCLFSNTDFNTYKRAKKTNEKLLMGVMCSENKFLFVNE;locus_tag=LOCUS_09830;note=MGA_987
sequence2	MetaGeneAnnotator	CDS	394788	397238	.	+	0	ID=MGA_988;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN6;translation=MKEFAKKYQPHEIEIKWQKFWQDEKIFEFDINKEGKIYSVDTPPPTMSGKMHIGHFGSYAQQDFIVRYKRQKGFNVLFPFGTDDNGLPTEKLVEKEKKISSAHMPRADFIKKCNEYINENRNEFTNDWINAGISCDFNSSYSTISPYCQKQSQLSFIELYNKNLIYQKEAPAVWCPKCTTAIAQAEMNDIQKESKFNNIIFKVENQENLIIGTTRPELLFACVTLFVNPKDKRYKKYIGLEAEIPLFKRKIKIMADESAQMDKGTGVLMICTFGDYSDVEAVQKHNLEPIDAITKDGKLTENAKEFANLKVNEGREKILEKLKKENLLVDQKNIIHNTNVHERCGTPIEFYTHKQWFISVKKNKKKLIDAGEKINWYPEYMKKRYNSWVNGLQWDWCISRQRHFGVPFPIWYSKKTGEIILPDIDQLPVDPQKDFPNKLPKNHTKNDIEYEKDVFDTWMTSSVTPLIISKYKEDNKFFNSVYENSMRPQAHDIIRTWAFYTIVKSLYQTNKIPWKNIVISGHVLDSKGEKMSKSKGNVILPQNTISKFSSDSLRYWTASVSLGNDIRYREEEIKLGSKVVVKLWNASKFTHMMLEDYKDKTTVLTSIDKWLITKFKKTLKEYEKAFDNYDFNKAKMIIEKFFMVYYCDYYLEIVKERLYKPEIHGLKKKQAAQFTIYRVLNGILKLFAPFIPHITEEIYSYYYKEIENEKSIHISKWPKLNEGFINEEDELSGDLLIEALSGVRKFKTENKLSLNTQIKSIIIKFIDKNKQEKYKESLLNVIEDLKIVSKAEEVKFKGKTSIPLNNFGMEIHIELN;locus_tag=LOCUS_09840;gene=valS;EC_number=6.1.1.9;note=Q9ZCN6 valine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:43.0%25%2C q_cov:97.9%25%2C s_cov:98.5%25%2C Eval:3.3e-184],MGA_988
sequence3	MetaGeneAnnotator	misc_feature	1	2940	.	+	.	ID=MGA_990;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010906062.1:peptidase,WP_010906062.1 peptidase (Lactococcus lactis subsp. lactis Il1403) [pid:20.4%25%2C q_cov:64.1%25%2C s_cov:57.0%25%2C Eval:2.6e-10%2C partial hit],MGA_990;locus_tag=LOCUS_09850
sequence3	MetaGeneAnnotator	CDS	2940	3752	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFNFFHNDEAEFKKTIEKVYLDIKQNKRISYDTNVYIILAKHESHDNSKLILDQIAKSNNHFLTTGTQIELEGLVHGNKFDNKITKILRHFLNHCKIRPIPDKSKFKMMKDNLLKYIVILPREIAYESVGHIYIEILNKVIREEIDKAKAFKQLTNKVEIYEKAKKLVQYKYLFFKRQLRVNFNKFENNYMRECLRFIEIAINDLRHEYAHQISMEQIILNIEQKLKKSYDKDCQYVIETLMHGIIPHSNDSDVIWLKNILFSKEQKVA;locus_tag=LOCUS_09860;note=MGA_991
sequence3	MetaGeneAnnotator	CDS	3754	4485	.	-	0	ID=MGA_992;product=fibrillarin-like rRNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867184.1;translation=MKPKKNIKKHVRFTNTRFKKIEFSRAIESISNLIINKNKILTLSFNPGKRVYDENTISIKNQEYREWDPNKSKLCAAIFNGLNNISLNDNMNILYLGSSTGTTVSHLSDININGKIFALDFAPRVHRELLFLAKDRKNIFPLMADVTQPLTYFSAIEQADLIFQDIAQKDQLTPFVNNIKLYLKKNGIAIISVKARSIDVVKRPSDIFKDFTLNLGKYVNIMEKRLLDPYEKDHCLFVVKQKK;locus_tag=LOCUS_09870;note=WP_010867184.1 fibrillarin-like rRNA methylase (Pyrococcus abyssi GE5) [pid:47.1%25%2C q_cov:83.5%25%2C s_cov:89.9%25%2C Eval:3.3e-51],MGA_992
sequence3	MetaGeneAnnotator	CDS	4619	5293	.	-	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAKINGKLLQTVNFELHKNESIYAQTGSFSWMSDNIEMDTNAKGGFFKSLGRIFTGESFFLTTFRCTSSKGILTLSNRFPGKIIEINLKKGEELIIQKTAFLAATHGVELSLHFTKRFGAGLFGGEGFILQKVKGEGKIWLELSGEVSEIVLEKDQELKIDTSLIGIFEPSISYNVKFIKGFKNLLFGAEGLFFATLKGPGKMWLQSTTINNLAKELSRRITK;locus_tag=LOCUS_09880;note=WP_012256184.1 hypothetical protein (Chloroflexus aurantiacus J-10-fl) [pid:45.6%25%2C q_cov:96.9%25%2C s_cov:68.9%25%2C Eval:1.5e-55%2C partial hit],MGA_993
sequence3	MetaGeneAnnotator	CDS	5296	6285	.	-	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979285.1;translation=MEYLLIKLEGAFLFDDKFGLKNKILFKNENYDVLKQIQNNSYDFDKIKSKLNSKNAIVLNEANKFILSDTVPKEFEDIVKNFKNIMIECETKISDILKQSDYIEVSQSQIKDSFTKDNLIIQVFNNIDEMKRSFNLFSKRLREYFELTGPEISKMFSDSKEFTELIINNTREELFKKYNIKKTSGVDFDKADYKIVLNIAKQNLSLIKFIEQQEKYLEELLNSYAPNLIAIAGTTVSAQLISHVGSLKKLAFLPSSTIQILGAEKSLFRHLRGNGRCPKHGYLFNNAMVQSSSNKGKMARQLACKISICARVDLNHGNFIADKLIKEIK;locus_tag=LOCUS_09890;note=WP_010979285.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:30.5%25%2C q_cov:99.4%25%2C s_cov:89.0%25%2C Eval:2.1e-36],MGA_994
sequence3	MetaGeneAnnotator	CDS	6359	6799	.	+	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMPNFKLIISKQREDSKNGLNQQLQFLGKSLGLFSDRDKDNSCFRVFIELIQFSRSNIPVSSDQLAYKTNLSRGTIIHHIHKLAESGLVIQVDNKYILRVARLSKLIKEIKKDIERILKDVELVAEKIDETLGVDNYKDLYNVHK;locus_tag=LOCUS_09900;note=MGA_995
sequence3	MetaGeneAnnotator	CDS	6769	7074	.	-	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSEVEIYKTKLSKLNSCMDLYSYKGITSFTLGVLTRLAIGKDAYHSVGGAVGAGLLFSSHFNQASSTQNNTLLNIIDCEIGYFAGVAFTDYLCTLYRSL;locus_tag=LOCUS_09910;note=MGA_996
sequence3	MetaGeneAnnotator	CDS	7159	7530	.	+	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEEETLNETLENIDKKLSNMSYQLSSIDSNTDGCIFPIIKYGLLASIFIMSCNRPTYDQTKDIVREEIDIAAGDNKRLYTEVYKNCKGLEQIQQQLFSMYKKQTGKNYLVENPETKLIECR;locus_tag=LOCUS_09920;note=MGA_997
sequence3	MetaGeneAnnotator	CDS	7513	8031	.	-	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLSSIIGSILILLFTVCILLNSFDYNSYQINNWAETNDFFNYNLNEFDNFNELENSHMQDVRDLFLIFYIVLFICIISLFFIDVNLNYSFYILFFLFIICIFFALIDFNLFFDIIHKPFFKDNYSFSSDSNIKIAYPNEYFINFGISVVVFIILFFIILKLIKKLSTLN;locus_tag=LOCUS_09930;note=MGA_998
sequence3	MetaGeneAnnotator	CDS	8066	8377	.	-	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKTGDIIKIDNKNYQILDSFEDIDFFDSKENKTIGEHILFKLHKCGDESIQATHILKIYKDKKLLFKVKQPDLTKDLKKTKSRGMVTELIEEKEINKIEKI;locus_tag=LOCUS_09940;note=MGA_999
sequence3	MetaGeneAnnotator	CDS	8418	8861	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKTNNQNSDTHFSNNENKTILERAFFGKNNCLKISLNKNKDCYFQFGMKKESSWQWKNVKFSDIELGQLYKFIQKSNYENNNSNNNSISFYHKYNDKSTQIWVNRYNDNIIIKTNDISKSLSEGEQMVLSILIERIILQKSFVW;locus_tag=LOCUS_09950;note=MGA_1000
sequence3	MetaGeneAnnotator	CDS	8923	9429	.	-	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIQRYLPKDRKKLDIFGDQEYIFTYHFLWYMQDNKIGIRGNPSTEAEQFFGGLLVVDEELIINSYLDGFGIKRLNNPFGVIQGIDAGIKETVRLVEFMNNHELMHMYVSFLGKNNYARLLTFSSTEPSSELYDKGNILPVTFNNKPVYKNSELEELIEKVKTTTFAF;locus_tag=LOCUS_09960;note=MGA_1001
sequence3	MetaGeneAnnotator	CDS	9532	9774	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLLSILEIQGNETSVDLFKDKESKKYGYAIIHNKDKYGRPIISCEPIYDSRKKALAMGTELMENIKTFDLKAYRKKFN;locus_tag=LOCUS_09970;note=MGA_1002
sequence3	MetaGeneAnnotator	CDS	9853	10479	.	-	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELEKAVENSHFKRINVSPLVWPGKNLKLQPGDLSQFVPYGESLYGYQENNYKPIIDDPRREPSGGIIYFDNSVSKEDFEGFLRMTNVKYNSKDYAAFIQESYNPVAERYFTQMRLVSKFGLKHLFGALDQNEYDTFKDQDFSIGDALWEFMNVEKNKYGTFFGNPNIDGKMGGDGDWAREQLSFGFMLENEYNSIYRIWSKAWLVTK;locus_tag=LOCUS_09980;note=MGA_1003
sequence3	MetaGeneAnnotator	CDS	10629	10913	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSTLYTKSVIHFPKLDTVLMVEDFIKDHSGEFKKKKIWESLPRGVMYQTFCIIFNYLIESKKIARDSENKIAWIWNPKLVEKYLSKPNLMWKK;locus_tag=LOCUS_09990;note=MGA_1004
sequence3	MetaGeneAnnotator	CDS	10910	11239	.	+	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKIVFADEKIQKALEKLKNSKTEDKKLYQWIIRAFEDLEENAFCGIQIPKKLFPKSYTAKHDPDNLWKYNLPNAWRLIYTVANDKVCVLSIVLEWMSHKDYERRFKY;locus_tag=LOCUS_10000;note=MGA_1005
sequence3	MetaGeneAnnotator	CDS	11236	11670	.	-	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966724.1;translation=MKEPIEIRAHHILCMPRFYRGGYNTNFAINMKNTCQHIRNNPNTKIKVIVAELDVLCLQCPHKSNNKCVQSKKIGKWVEEQDRKVANFLDLKANSIHTAKDIFNLGMNKVNSKTMEQVCQDCIFLKNCMEVGVNNSFKKDLNKN;locus_tag=LOCUS_10010;note=WP_010966724.1 hypothetical protein (Clostridium acetobutylicum ATCC 824) [pid:33.1%25%2C q_cov:85.4%25%2C s_cov:91.5%25%2C Eval:4.8e-12],MGA_1006
sequence3	MetaGeneAnnotator	CDS	11843	12418	.	+	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEYIIVILVSAFLGASMKIADLLDEHNFRWFKYSDLLFGLFWGISGAYLITINQILATIWISVLFCFIVRYRLDYLNHGIAAAIWFITMLYTNYSIWTNLISFVYFASLFTITGLIHDYFQYKNQNIRGIMKLIFIDFKLYWYIIALGYSLYSWDIHPILTIWTFEYVYDYFSSRNAESLLNKLGMKKIF;locus_tag=LOCUS_10020;note=MGA_1007
sequence3	MetaGeneAnnotator	CDS	12449	13222	.	-	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADKNTIIIGSGIGGGRNILAALIENGYNAILVRSMWPRDNFVYHMNKYVKGVRGLAPASLTTNPFGEGGKILTGDDYLLITNFAYGQNGIQLNIEKPTSYQKKEILIEAGKKHFPNSRIHVLPSSDQLGSSNSHIDMYASLIPSKKLLLVDTRFGSQSNYNDFEEIAEKESLKFIKFDGSQDKVWNSLNILVLEDTVVLDNKSISLIKLLEDEGVKTIGVEMPQHSYPSGKIRCQTNVYSENSDILLDELLGLNYF;locus_tag=LOCUS_10030;note=MGA_1008
sequence3	MetaGeneAnnotator	CDS	13278	13448	.	-	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNGIKKSFKKVKKDIENLTNSLNSWTSYINGKIEKLEAENKYLEKRISLIENKL;locus_tag=LOCUS_10040;note=MGA_1009
sequence3	MetaGeneAnnotator	CDS	13544	14305	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAILETNKRIELANEICEYYKPLSKGIILTGSVAYSPNHLVNPKSDLDLLVISEDIRKFLPHLGIEKNKIEKIGLMHLDAYLYKTNKNNIDVSIHFLSKSIFDIIPIALRVNLKAFRTTPKDSQYILHNFHGETYSFNTRSKPIKGMSKESTKVLPISFCLEEKMYIGIHRDKLLSNPQILYEDQKYVTNQIETLWEKMTLFLKNESLYFLGKVDLNQINILNALHRKENMTPEVIQSIKDKTKFYLERKS;locus_tag=LOCUS_10050;note=MGA_1010
sequence3	MetaGeneAnnotator	CDS	14302	15162	.	-	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKVLFSSDLHGNLSQYKKLFSHALKNDINAIIIGGDIAPKNLKSRTIEGQKLFFKNELFPLIKNFNSKNKNCLIYLMMGNDDFKSNKILLKEYENLNYFKLIDDSVFELYNGIKILGYVYVPLTPFIYKDWEKFDLNDKDEYFNRTNFIMEGIRSKNDKILKFKFDLNDRRDTIENDLNNLTKDLDISKLVLVTHSPPYDTNLDLIFSGEHVGSLAVKQFIEKQQPLMTLHGHIHETVDKSGDFKEIIGKTISVCSGNDHIGLDLAIIEFNLNDIKNSLNRKII;locus_tag=LOCUS_10060;note=WP_053240558.1 metallophosphoesterase (Pyrobaculum islandicum DSM 4184) [pid:41.8%25%2C q_cov:31.8%25%2C s_cov:40.5%25%2C Eval:3.7e-10%2C partial hit],MGA_1011
sequence3	MetaGeneAnnotator	CDS	15214	16146	.	+	0	ID=MGA_1012;product=type II methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879334.1;translation=MIKNTEYMIYQLSEDQIEKYKKAGFIANTVLHKASKLIKPGVKYLEIAKFVDEEIKKHDAIPAFPVTIGRNEIAAHDIPMHEDQREFTDEDVIKLDVGVAVDGYVGDNAMTVDLTKNYTELVQATRDAVHAAIKIIGPGTLISDIGKEIQDAIKSHGYNPITNLSGHGLAQFKVHTYPTIPNYQTGSNAKLEENMAIAIEPFATDGNGSIREIQPSGIFSLLKTKSTRSAFVKEVQTSMTKFNGLPFSRRWLDEKHGLGKVNLAIREFQLAKTIISHGPLVEKSEGMVSQHEHSVIVKDKPIVTTLHNKF;locus_tag=LOCUS_10070;EC_number=3.4.11.18;note=WP_010879334.1 type II methionyl aminopeptidase (Archaeoglobus fulgidus DSM 4304) [pid:40.3%25%2C q_cov:92.3%25%2C s_cov:96.9%25%2C Eval:5.1e-53],MGA_1012
sequence3	MetaGeneAnnotator	CDS	16190	16870	.	+	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKYEFIEDILKNLKPVHYVNFENIKSLEIFDLSKYTEFQKFVINQRLNIMIFMKIIELYCNDSKFIFAFEEINRLYDEFEVYEDITKRKTIAKNVISKTKFTKNEIFENFISNFGFSQLIQEPEIENFDLEYYNKEKIEKYIESDTFENQLIISLNPFIIFYNNKIIFDNKLKNEIEAIIKDLNQKFELFLKKETEQGVPHEKYIEFLLNIFPGKIKVRSIECK;locus_tag=LOCUS_10080;note=MGA_1013
sequence3	MetaGeneAnnotator	CDS	16885	17574	.	+	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNSIIKNIKKHYNINFEELEFREIYESENRNKFKSYNINQSGIIQSRINKFIQIEIIKQLCKKSEFIFGSKRIEIYENINSKKAKLIAKDIISVKQINFNQIINQLLAEFSLTDIKNKKEIDIDQLDYFVKGNIENYKNPKYNLASESDYFHVDPMKISLNPLIIFSRNEIVFDINLKTQIEKIIKKIKNKYENFIRNEIEFGVSHKRYIEFLQDLFPEFIKIKKL;locus_tag=LOCUS_10090;note=MGA_1014
sequence3	MetaGeneAnnotator	CDS	17569	18297	.	-	0	ID=MGA_1015;product=rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496840.1;translation=MKINIILIEPENSGNLGAICRIMSNFALEHLFVVNPKCEINDIEAIKRSKHAKYILDNIKTIDFNEIKKNDLLIGTTAMTGSQNNIIRAPILINEFVKKLEEVNDNNYSVGIVFGREGEGLHNDELELMDYTITIPSNREYKTLNISHSVAIICYELFKVFGKNNLDYNIKGIEYMDRIQKEHLLKKFEFILNECKESDSPESQIIEQNKLKIFKKIINKSNLTKKEGYSLFGILKSIEKKL;locus_tag=LOCUS_10100;note=WP_064496840.1 rRNA methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:37.1%25%2C q_cov:96.7%25%2C s_cov:99.6%25%2C Eval:3.1e-33],MGA_1015
sequence3	MetaGeneAnnotator	CDS	18404	19774	.	+	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSKQLLSTGLLFGTLFFTGCFNSNHSDKIKKMFEKQNSKTKTYQTQKPKESKEPKKKNIPVQRQVLQKENHKQILNLEQKIQTLNHELRTKTKDYQNLKTQFNSLISLNEDQTEFEVEKKEFISKKLIDQYLNGLKKSSIYRIGRLGQNHEFNVKLRLNEFLKNGEKKYYLITNGTKGKHRNKKFGIYTSHDFRIQRLEQTDTHSLIKLIHSLEFGVLNHLSWKKKNPKTIFSKKELTDHELVNSMSYEKEYTLEGKKKTNSLNYQYNITQESQPELKTIDSFSFRQILNNSHTQLLAYFLSRDTNLQQKLKSKTHMKKKEIQSKSKQISQFTLNGELNDYFGMLAKLETMSQEFNCTFETNPNSPNYNNSFDDFLFQNNLENPKLFYINDENQCTFQYRPELIKKPIFIIINENGESSNSITKQLKFNSNDTVYVASEKRVNARVGAALYKAK;locus_tag=LOCUS_10110;note=MGA_1016
sequence3	MetaGeneAnnotator	CDS	19767	20759	.	-	0	ID=MGA_1017;product=4-demethylwyosine synthase TYW1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903569.1;translation=MNDAYKKILEKQQYMFSGKHTAVKVCGWTKKALKGEGTCYKQRFYGIQSHKCVQMAPSINFCNFDCTFCWRDRYNEPYESVDDPKEIIDKSIDAQLKLINGFGGNDNVNKKVFDDAQDVAHFAISLTGEPTSYPKISKFIENLNKRKISSMIVSNGSFPKVLKKMEMPTQLYISLDAPDKKTFIEIDRPDKVDSWEDLMETIEWLPTIRDKTRIALRLTLLRNCNMDNIEKWAELLNKANVHFIEVKGYMFVGASQSRLSHDHQPSHEELKEFCKELEKHTDYKIVDEQKVSRVFLMMKDSDKHMRFLDEIYKNRNELKKERSDAKINFI;locus_tag=LOCUS_10120;note=WP_010903569.1 4-demethylwyosine synthase TYW1 (Halobacterium salinarum NRC-1) [pid:43.6%25%2C q_cov:85.8%25%2C s_cov:87.4%25%2C Eval:8.9e-67],MGA_1017
sequence3	MetaGeneAnnotator	CDS	20818	21210	.	-	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAGFENEMLLTMIYGFLPLVIGLILAFYIYNAIALMTIAKKTNTPNAWMAWLPVFDFYLVTQVGKLSGYWTLSYLTIFIPIIGSLFFLGAYIYAWVHMCTARNKPGWLAIFLIIPFGREIIAGILAWAD;locus_tag=LOCUS_10130;note=MGA_1018
sequence3	MetaGeneAnnotator	CDS	21321	22997	.	+	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKATKKVAKKSSQSNSNNKLSIPQKKWLNDETLSWKKDNIINDYIRNKILDKYNVNSNKPKEKTDMDLVKLFYIFGSLILGFGFIILVAANWNYFPNMFKSILLLITSIVVLLLGYYFKFENKNYFKLGCALIFSSCLIYGSTIFQVANWFSLSANNSTLIAIWIFTSLLVAYFLKSTSSFILCSILLIIWNFYFQLDIYKLNYFYPLILGLIFIPLSKFELPKLIPNLIGLIIVSLGAIFYSDNHLLLVLNAILLLIYSLIIKYKYNDTNIFNLFFTLTSVIFTFWMIVFSFEFQQQKFLNLLYLIPFLLLIYLSIKFKSKVNIYVNLVSLLIWFNLFLTISFPDDSVNAPLMIIFNSLFGISCIVKSFYYEKYKIYKMFLPTVKPMKIIGTIITIFSLFILSNSKILSEFNQYSQYTFSYILIIFILALFISSIFLLFQKLKNNDKNILIIILILLIALLLSFTITKYIYALLILFNALSLISILFLIYYFVKIKNPSLFNLSLGLFVLWMLIKYFDLFWSMTNKGLFFIIGGILILGITIFIEKKGKKNIENE;locus_tag=LOCUS_10140;note=WP_011022044.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:29.6%25%2C q_cov:29.0%25%2C s_cov:41.5%25%2C Eval:3.1e-18%2C partial hit],MGA_1019
sequence3	MetaGeneAnnotator	CDS	22990	23502	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022045.1;translation=MNKRYSILIIILIWVFIISFMIMYHNYKLETGTKVLLKTQPVDPWDLFRGNYVTLSYDISRLDFSSEIHKYKPGDTVYIILKQDGKYHRFLSVRKTIPDKLFIKGIVQSHYSNNLRVKYGIESYFIEEKTGRYYENNMDRTDIEIVLDDNGFALINKLIVNEQEEIDSIN;locus_tag=LOCUS_10150;note=WP_011022045.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:34.0%25%2C q_cov:96.5%25%2C s_cov:98.4%25%2C Eval:2.1e-22],MGA_1020
sequence3	MetaGeneAnnotator	CDS	23603	24022	.	+	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLIKNNWRKSKNFNSAFIASMIVSFFFGKYISILLNYNLPKWTYGWEKSSILGVFVVFLLYVAYKTYEKYYGAKDLIDMQNFYDNFFISLIVVIVSTLMILYNSYFPKTIYWLGTLIIILIIYFPLNGLYIKCRPKK;locus_tag=LOCUS_10160;note=MGA_1021
sequence3	MetaGeneAnnotator	CDS	24258	24812	.	+	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSELIIFCNPKQVYSGKLEQEVARDYTKMAIEDYDKLISFDKKYMTFVETPDYETVVGQKNGRNLLLILFANQPMIRIGSINNRFKSSSYLFNPESENEEVLLPDLDIVQIDGVSQVRSAANTIKQFYDKFGWQTYIFDGKITDKQEINPTSDRYNHSIQIMNPELLRNIAKEKVDYNPKDLCF;locus_tag=LOCUS_10170;note=MGA_1022
sequence3	MetaGeneAnnotator	CDS	25008	25253	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSCIKLGTISEYLFHTSSIPSSKLFLNIEDNDELSAPQVLGNLLIKISNNSDPKGGELGSTFDNPLLAPAPNNIMFFILSL;locus_tag=LOCUS_10180;note=MGA_1023
sequence3	MetaGeneAnnotator	CDS	25171	25920	.	+	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNNFEEGMEEVWNKYSEIVPNLMQDMACFFAEFRLSDHNNLYSQLMNSLIDSNKINEYVFSTVNYDSLIEHSLLIAQRKMCYFPKYSEAKDTSILWKLHGSCNFIVKGIQAPKGAVKYLSGATFHGNGIKLINNEDVPKYCRENALYPCMSLYAPNKPNQMARAMIEFIQKSWQEFIKNAEKIILIGIAPHIPDSHIWDVLAKTKGHIYYIGNKKKFEEWIESSDIKKYTFINNRFQEGFSELNKIL;locus_tag=LOCUS_10190;note=MGA_1024
sequence3	MetaGeneAnnotator	CDS	26063	26857	.	-	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDINSIFLELKYEISKIELANAILDSVLFIFLLKLLDLFFGFSAFSLVMFTLIFFGINLFIRIKQIDLRNVEKKNPVIKDILRTANDYKNYFVKNSKSSEEDILVKGLYNDFKFLMHRVKTETFIDINLFFKKVSLAVLLSFLLVFASFISIDVSEFLNDVDRQVEEATKLKTTQSVEEDALSTYNDLFGEETDLINLDEGNFDISVTGQQMDMDVSKKTGFTLQEFEGYEEFYEDNDINSDEQFREEISNIDRELVKAYFKD;locus_tag=LOCUS_10200;note=MGA_1025
sequence3	MetaGeneAnnotator	CDS	26854	27363	.	-	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSALNKNVNAILLLLTVFLILTVAALPIYFDYQLSELKDDYVSSRVMVDNLTKLLDDSKGSAQFYKKEYDSIEKEYNTLRNSFSQYDDLYSETQSELNETKESFSNQKSILENTVQNLKSDINENEELLSTCIEERKDFLEDKNKYEEMYDSCSDDLEDAEDEIKRLK;locus_tag=LOCUS_10210;note=MGA_1026
sequence3	MetaGeneAnnotator	CDS	27374	29875	.	-	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDFTYFELLYSIPILLLINYIFIKFNFVKLNPHDPDYKTRTEKRIKQQRMLLLFRSILIVLMVLAISDPIIKTHTDLETDPYIKIIVDKSSSMELFSENKINDLITEIGVKVDNLKILSFGNDISPGLFLSTNANQGEHILFITDGWDNINGDLSNSINYVKSLNSTVHTLQLHQQKKDSPISILGPSKVIEDIDNAFKVKILGKNNIKISVDNNEIFKGEIEDSHDLKLSFLDGSHTIKAEILKKDYFSQNNIFYKTVHTIKKPKIAMVGPANVLYNTLSKKYDITKFSSIPNDLTNYHLVIVYDKNIDELGDTSSLESFIIDGGGVIVFGGSNSYDRGGYEGSNFEKLLPVSVASAQRKRSPSNIALIVDVSESGKDFSGAGISVLDLQKSVAHEFVKNTAGYHNLGLIVFAYRPYSVSEMSTLVEKKQSILSDITKLQAIGGGTYIAPSLRMAKQFFVNAKGDKNIVLISDGKQFLRNSDGAVREMIKVAGDLRETGIKIHVIQTGEISFESLRKSLEQNLKNAKSDPENYGSAQIEYLESVTDREIREKVDLYKGLFDDSMKAISEITNGYYFKLNDRKKLNILFSDPDGEDFEPQNIATFIDSNHFISRDLSLNAKLPGFNNVVSKSSGRVIATLDTGEPVITTRRYGLGRSVSVTAFNPPSGLGELINHKEVIGRMINYGIGDPNRLESFVIEVKDGFANTTNTITVKSDIPPTHKKLVFSSIKPNVYESSIMHDSIGVFNIFNKPYSINYNPEYLNLGYNEDFISQIRLFGGTEFDYDADQIIEYLRSINIAKQTKTIYVFKYFIMLAILIYLSEIFIRRYLSKT;locus_tag=LOCUS_10220;note=MGA_1027
sequence3	MetaGeneAnnotator	CDS	29879	31687	.	-	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANFLLNYFHEPINLVWLLALIPIVIFYLIKSRPKKLNLPTTRFLFKDGNSKNFKSFFSKFQFDPIILLQFLALFFAIFAISIPHFPIERELVAGHTVFVIDNSASMDVDDNFKKVIKTAKNNLGSENSIITISPNPKLHVNNVNADEAEKILDGIKISHGGSFYKDSINFASQIIKNKEKSKIVVLGDLIDSSFEIDYKLLTTNLESKGNFIDYVQIGGRGDNVGFVDVLFGESKTTLYIKNFGKKKNIIVTVGETKYPLKIDSSSVKTLVYDNLKNNHVVEILTEDDFLVDNKLYISGQKVDEMKILYVTNNPSDSLLKALSVNKFITVEVVKLPVFPTIDHDVIIIDKITKDLFYDARVSEIKKAVEGGKSLIIIPNKEMFDIDWQGLWDAKLINISDDNELISPASPINFISSTEFGNIKSPYLIEHSKNSLILAATPSSSIITLDKIKKGNVVYYGMNDENSDFKYTFHYPIFFKNLIDFLSGKESLSNLNFKTGSKLPFKGDVEVRTSLGTTKLSNPQFDKVGFYTVNKKTIGVNLLNERESQIVFDRDEYINNKAGNVNIEHRGTVDTNIYWYLLIILASILLIELFIVKFRGDL;locus_tag=LOCUS_10230;note=MGA_1028
sequence3	MetaGeneAnnotator	CDS	31759	32610	.	-	0	ID=MGA_1029;product=DUF58 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023085.1;translation=MIDLKFLRELEKFNLILQNKVSSNYSGQRISTHGGTGLIFKDFTTYSRGDDFRKIDWKLYARTEKYYLRRYEEERNLTLHIVLDASSSMSFGTLSSKFEYASKLALGYAFIAFKNNEKFVLSTFSDDLTLFKPSKGTNQLINILDHLNGLKIKGQSNFLNSLLLYKKRIFSKSLIVILSDFLFNIDDIDQVLALYKNNEIVLVQILDKTEARLDIDGEYLLTDEESNTSVKTYVSNRLKKRYKNNLQHFQKDLSDICDKYGIKFLKVSNEKDIFDVFYELFHG;locus_tag=LOCUS_10240;note=WP_011023085.1 DUF58 domain-containing protein (Methanosarcina acetivorans C2A) [pid:34.9%25%2C q_cov:97.9%25%2C s_cov:94.9%25%2C Eval:5.0e-52],MGA_1029
sequence3	MetaGeneAnnotator	CDS	32617	33561	.	-	0	ID=MGA_1030;product=MoxR family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023086.1;translation=MASALNTLNQVKEVFVKLKEELGKIIVGQEHIIEHVLISILTNQNALLESYPGLGKTLLIKSISEILDLDFKRIQNTPDLMPSDVIGTYIIDESRGKKQFVFQKGPVFANLVLADEINRATPKTQAALLEAMAEKQVTVGNEKFELEAPFFILATQNPIDQEGTYPLPEAQIDRFLLKIVLDYPNVKEEIEILNRFASNFKVPKLKPIIKKDSLLILQKLTRQVPISEDIKIRVAKIINKTRTNKELIAYGASPRATIGLILASKARALIHGRKFVSNDDVNEMALPVLRHRIILNFKAERSGLTIDDVIKKLL;locus_tag=LOCUS_10250;note=WP_011023086.1 MoxR family ATPase (Methanosarcina acetivorans C2A) [pid:61.0%25%2C q_cov:98.1%25%2C s_cov:94.8%25%2C Eval:2.9e-104],MGA_1030
sequence3	MetaGeneAnnotator	CDS	33649	35079	.	-	0	ID=MGA_1031;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8NMH5;translation=MVNNNILSQRYVTDSINDIFSEEGKTLMERRIWLTVLKSQFELGLGGITKEIINKYESNLNVIDLKRIGEIETITKHDVKAKIQAFNESAQISGNEEQIHRGMTSRDLTDNVEQYQILCASKIIMGKKTSLLNKLLDLADKYEKTYIVARTHHQPAQLTTFGKRISFIAEELLYHIKKFDFFIEQYPLRGIKGPVGTQVDMLNLLGSDKKVYDLEKMVAHELGFEQVLDSVGQIYPRSLDFDLVSNLVGLSSASENFTNTIRLMAGYNLLTEGFKPGQVGSAAMPHKQNTRTSERVDGFSNTLKGYLTMASIQSGNQWEEGDVSCSVARRVFIADAFYAIDGQLESTLNIVNNLGIFPEVIKNEISDWLPFLASTLFLTYLTETGFGREEAHLLIKEISVQEALYVRDGKKNNLINSLAENSKIKGAGIKLFDLYSLINLKDDMIGTTYSQIERVREKSMPMIKKYGSDYNSRDIL;locus_tag=LOCUS_10260;EC_number=4.3.2.2;note=Q8NMH5 adenylosuccinate lyase (Corynebacterium glutamicum ATCC 13032) [pid:44.1%25%2C q_cov:99.2%25%2C s_cov:98.3%25%2C Eval:5.5e-106],MGA_1031
sequence3	MetaGeneAnnotator	CDS	35219	35806	.	-	0	ID=MGA_1032;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876938.1;translation=MKGIKMIDQKKIQKSKEENVIVLDFLPHGNSQTKKSFKQIPLIQAIGTNRFSLLEIVPKPDVQVMPGDILYVGEGKRDKVHHISGKLDYEKLTGNSQQELTYAVEKIVGDNEKNFVEFYNKAQAIGLRRHALELLPGLGKRYMWDIIEEREEKEFESFDNIKERIKAIPSPKQAIIKRIIHELKEEEKFYLFVDK;locus_tag=LOCUS_10270;note=WP_010876938.1 DNA-binding protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.6%25%2C q_cov:87.2%25%2C s_cov:88.6%25%2C Eval:2.5e-39],MGA_1032
sequence3	MetaGeneAnnotator	CDS	35914	36270	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEFDLIEKTPVSLSELKETLDEIKERDGELNFRGNRTVDYLNNVPVMSKENRNKFFDELKALDYSRLKVEIISKLADFLPQNEDELDLVMKSFSTVTLTKEQLLKLLEICKNYSFE;locus_tag=LOCUS_10280;note=MGA_1033
sequence3	MetaGeneAnnotator	CDS	36285	36578	.	-	0	ID=MGA_1034;product=50S ribosomal protein L21e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762332.1;translation=MVKRVGGLRRKTRHLLRNDVKSRGKLSLVKFFQKFNDGDKVILKLQPNCQNGMFHRRYQGNVATVSGTQGSCYTVKLPYLGKEKELIVHPIHLFLQN;locus_tag=LOCUS_10290;note=WP_011762332.1 50S ribosomal protein L21e (Pyrobaculum islandicum DSM 4184) [pid:42.6%25%2C q_cov:95.9%25%2C s_cov:93.0%25%2C Eval:3.9e-13],MGA_1034
sequence3	MetaGeneAnnotator	CDS	36741	42521	.	+	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVYKRGFDRLFVVLIITLIITLLFSFSINAETINISNFIEYRQITVNSPGTIENFSMSINIDSRNLIARNLLNSNCSNIQITKSDKITLINSWSETINAQPWVAAFKRRTGCNGNQGMDVWFKVNLTTGDNTFFVYYGNANKSYSSNANNIFHYYNSSFSLNTTANNVISANISNLTVNLNLDGSQNYKVNMYARRAYKGSVDFKIQSGNDLQHIMFDPSFSKQNFDYTENTNLLLQTTSYNESCKSKYEFFHWKVCTDTGESYWNSYGSKYHSTEKCIGSTICPNGFTYYKQSYYDPNPSDSLIIYGEFCRSTNQKTECKLDSGKAEFEVRELFIYSNNLSITHSFSDPIKIENKIFYAPNSAPLNYSDIVSFRDSINIYANTEGVSNPSCTVEFKNNGTRYSMDYNQIKHNFTLTNGLRNESTYVDVDCAHDLGAINLSMTINVTGNKVYNCSEMRFNIRKNRNVELQNNIDCSGDPFPADWHGSAGGITTYYEKEFNGNGKVITSMNISQSAGNKIGLIPLFKGKIYNLTLSKFIVNNPTKNYVGSLFGDENYKTKRECKSTKNSIWSAGILSCTNTIIDAESPSVSNIVINGNVTGDNYVGGISGLNSYHILNVSLDGKTIGNSYVGGVSGFANGRLNKNIASFIYLNSTINGTNYTGGLFGKSQGTIGNSFFNGTVNVYSGNYTGTLSGYLQYGDIFESYSHGTLNVNDSNYVGGLIGYMGGPSSIKDSYIQTTVDINNSNFYGGVTGYGETSVAYLGSVYNVDIKNVYSTINTSIGTNTIVGTVIGYDKKHSRKFRYHTKRSKVTLLNSYVLDPAKKNNQTGREYGKTTTHSKNLTELQTQATYQGWDFTNIWEYAGAYPFLRVNPLLLSSAKVSSNLSLKVNRNNIDLTTYVGEAILINSETISPVKDSFTGNKHILSVFNPQGEIVYQRTNSTISERFLLKNVGVYKIKAEYLKNSKVNYSSKVINVTTTFPFPVAIGVINNVNNCSDLKNKIIANVDINITGNIDCSGTDFTDWSSDEVGYTKTNKSFNGNNYVIKNIYINSPDKDNVALFPIIDAGGSIINAVFKNITVIGRDNVSVIAGKTASANPDVSDYIAKKISILNSTITGRHRVGGIGGYISGYIKNSFVNITITAQDYVGGLVGHAQNVAAKDVHVRVDITADDKVGGIAGYANKASALQVFVEGKIGGELDVGGLVGQIKKVQIPEYSDIDREKYPTQYEEVVNQTKELVESLYYIEGVFFEEMTNTKNANQSLTALGNWKKAEISELIDKHNIQNPISELSFENFNGLNSTEILEKELFESDGFDVNNPWTVKDGSDRPRMCGLLYDRETNANECDSIVISLSLGYGIRGKNQITKYGFTTFNISVGDDYNNGISPFYREAKTVTIRDEGTKIIEFDHNFGSKTLNMKNTIINKTVDSLHIKNLNLIPNTKTLYTQINQTSTICLKDSQFNSIGNITDDCSAADEYIFEKESCRKIEIIARNNKENLECYLDSTDKFIIYGVENSGVVGSRATSEIGHTFTDLGQVNEDIIFKSNYRNNFKRDLISGATCTLNIQGETEVSMSEDLDDFTYTLDNGKSTNGTYTYNVSCAATGENTVFVNNTFEVGFIDADEDGTYDGIDKLKGKVTDIKGTGFTNRILAIGSHRSNNNNVAASYTGVKQIQVLDGPVSIISYLHNFSKNHIKLSDINVTKTANAVLVRGVDLLAEFNKTITAPISANTICVKNKETTSITDISSACDQAGEIIFTKDECIQATSKIEGTDIIKCTYDTSRSAYVVSGLRYSLVSGLETQLETTDNVSGDAFLNEEIQFRANYTNSTSGNTITGATCNIEFHGNGSEYSMTYNSPYYIYNHTGFSTAQTVLHNVTCSASGYVTLTAEDSVSIYTPPVPEFEDIALMITILGSICISGYIRKQNITT;locus_tag=LOCUS_10300;note=WP_011461428.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:27.0%25%2C q_cov:9.2%25%2C s_cov:6.0%25%2C Eval:4.1e-10%2C partial hit],MGA_1035
sequence3	MetaGeneAnnotator	CDS	42565	43356	.	+	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNIVFSQEFADKVIQNYPNYKRLNRFIAGQIKTLYSSTNGLKDSHHYLDEENNDQRLKNVRFGLKNYKGLSHPDSILETITAEYMLLSNQIFEKESNLFLYFKNDPKQGYQFEKLKAKITPIQLDMVRDFILERPKTIMLQTILDFAKQDINYNKALDPNSKIEESEELLLLTDEEILGFAERVIENSNELLKEIYSTKKSNQSNDEEKTREYNSNGMIIYDSSGEVVSINGIPCKINENQKDKKRNYYPAHEVIKDITPQN;locus_tag=LOCUS_10310;note=MGA_1036
sequence3	MetaGeneAnnotator	CDS	43353	45833	.	-	0	ID=MGA_1037;product=double-stranded DNA repair protein Rad50;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876179.1;translation=MIINYIYLKNIRSYKESKIFFPKGSTVLSGDIGSGKSSVLIALEFALFGFQSKRLSGSHLLRKGENEGIVEISLIIDGKDFIIKRILKKTKDGVVQTAGNLIDNGQEMDLTVTEIKSRVFDKLGYPKEHLSKSKNFIYRYTVYTPQEELKQILYEDSESRIESIRNIFQIDKYKNVKNNTLILIKKLKEKVLELKGRTFDLDEIKLKFNKVKLNLNNERKVLGMELGYVDNEKEKLSNILMEINKFKNIKNELFAINTKLEQSYDSKDNFNIKLNELSNKIMELENTNKVNKENELSTVYNENTLDNENELRAEIFKIQEQIAKSKSLKEIEFSKRENLNELNNIFNELNEEQNSLNVKIDSNRSKILKFDNLLKEKEIIDLKLLKEEKLFDEINEYYIKRKTELETLQNSTSKIMILNNCPTCLQFVSIDHKKSISANNNKQIIELKNTIIDLESKKQENFNDIKKLKIELNQFEEIKSNFSSLKNENVILIDRYKLNNNKKEDILNKIENLKSKLEISIDTSENKLSDFEKSIQEKNQLLETVIKNKQNKIKKLHLRELFELNLKLINENKNEYSKMEMDLKNINKLINELELKKNNLNLDLVNYEQIETEKNKIENDISNLNKSIAVCKNNVNTHTINLDELDHNIKDKENIKKRLEKFNLIISFLNIDFINLTDNIEKHLFNTIQLYFDEYFSYWFKILIEDDNLLASIDDTFTPRIIQNGHIIDFTNLSGGEKTAICLAYRLALNKVINNLVSNIKTKNIIILDEPTEGFSSFQIDKIRDVLDELDLEQVIIVSHENKIESFVENVIYVKKQNHISEVSLD;locus_tag=LOCUS_10320;note=WP_010876179.1 double-stranded DNA repair protein Rad50 (Methanothermobacter thermautotrophicus str. Delta H) [pid:27.2%25%2C q_cov:99.4%25%2C s_cov:99.3%25%2C Eval:2.4e-78],MGA_1037
sequence3	MetaGeneAnnotator	CDS	45946	46953	.	+	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILEKAQVNCKNIIEKNLNIDKNQNVILIYDDKCDLSKLLFKSYSNVLKEYNLKSIKFDETKQDELKEFLYNLNKGDYVILIQSGSFRLSNYRIRLDLNNRGIFVIEHARLSFFNNIESYINSLTYDFDRYKKISNYITNEIKNTNQIKIISNDGSELIYEGGFEDAKSNIGDFSNKLGSLFPIGEVFSEPKKLESVNGTISIIGIPSLEHKTIFVSPFKVNIKNGTIIGQDGNKDFEKIINLIKSENEDGIVWIREMGFGMNKNISKENPLEDISAHERYCGYHISLGLKHNIYRKKIDKKVNQKFHIDIFCDLKEIWFDDKIIFKKKDYVIF;locus_tag=LOCUS_10330;note=MGA_1038
sequence3	MetaGeneAnnotator	CDS	47013	47462	.	+	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESKVSVWKKTIAVNNKSIDSYYKLGKYYLEKEKLGPAKECFDHVLKIEPELSTGWSPKRLEDTYICLSIIAEKKDDFSESLNKLKQLIKIAPKGEYMIIVSELLIKLKKYDAALDLLNKAILKYMEKDLETKAKKLIVKIMTIKGQI;locus_tag=LOCUS_10340;note=MGA_1039
sequence3	MetaGeneAnnotator	CDS	47555	48274	.	+	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQIYIIQMTIIYKHNFSQYNKMSSIKEQFDSMKKQCPFCKIISKELESNIIWQDEICTAFLEINPATKGHMTIVPNEHYSLFSATPPKVLNHMFKISHKLIEIIKKSMGKTSYNIFIPIGQISGQMVQHAALQIMPVDNEEYIKEFDVDSKTFDQDKWKESHEKFKQIYPMMIANIGKKKEPIPEDQIIKIVKENLQLIEMYNTDPEGFKLQATILNAQLRNLFEGQDIDKIMIKANE;locus_tag=LOCUS_10350;note=WP_010870381.1 hydrolase (Methanocaldococcus jannaschii DSM 2661) [pid:40.6%25%2C q_cov:42.3%25%2C s_cov:77.5%25%2C Eval:2.5e-16%2C partial hit],MGA_1040
sequence3	MetaGeneAnnotator	CDS	48267	48932	.	+	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKENIIFEDGNFYAIHLKDNANSIGHIRIYPQKEITNLEDLGEELFTIMFTMASLAATLIWENSYNDEGRGTTILMKSGSNASKEKKGYFELILREPEDGLNTKFETKQPEFHEFLDKLKNEAFIVSETEKENKDNLIKIEKDEKKEIKNQKIPEKKIEDDKPIEKDKENNNEEKKIDNHKNENHEKKDEDENNLLLTKQEKYKLKLLKNYKLAQIEKSP;locus_tag=LOCUS_10360;note=MGA_1041
sequence3	MetaGeneAnnotator	CDS	48934	49872	.	+	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDLKRTLIPRKYKDLLIKSRMNCFKFSLKIFLMFSVILILLNVPNVINMSYEIENFINSVDNVYFKLNYKNDSNLFITKEQITKTIENKSYISNIYKYNFEVLSGDIEFNEITEKINSSSLKNINQISKNKINNFIYGIFLLISPGILIILITQAFFIVYTTILLTFIVLMTLSQLFKLNNMNVKKALKISLLASPILSLIILLDFLLRLDYIKFGIIIYWILIIFIVIELITLKSQQRQFNTTDKERQNFLELNLVRYYDPKKLNEVSKKNKVWYKKAINEVLKYYEFKKYSRKDKNWINYKKDHKEEE;locus_tag=LOCUS_10370;note=MGA_1042
sequence3	MetaGeneAnnotator	CDS	49854	50861	.	-	0	ID=MGA_1043;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q81J71;translation=MLKIGKVKLSSPVVLAPMAGLCNVPFRTICSRYGAGLTVSEMINVNSILSNKTRALNQCITSDEERPLSMQIFGIDLNKISDACKFLQKKKIIDFNDKKLSVGGPDIFDFNFGCPVKHITDQGFGAAYMRDPNKIYDIIKTMSESTKIPISAKMRTGINSNSVNCIECAKKMEEAGASMIALHARTQQQMYSGKANWDMIKKVKKVVSIPVIGNGDIKSGVDVENMMAQTDCDGVMIARAAIGNPFIFKHINHYLKNNEVLDFPSIKEKVDCYMEFVELAKKYNYFNFSYLKLQAINFTKGLSGSKLIRDKIVKCKNFDQLINILNDYKNHSSSL;locus_tag=LOCUS_10380;EC_number=1.3.1.-;note=Q81J71 tRNA-dihydrouridine synthase (Bacillus cereus ATCC 14579) [pid:37.3%25%2C q_cov:97.9%25%2C s_cov:95.8%25%2C Eval:1.2e-61],MGA_1043
sequence3	MetaGeneAnnotator	CDS	50945	51193	.	-	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEIQKAEQIGVHKGALATLAKEREELAKMIGVVEQIIQMHVKALKELGVDLEAQAKEMAEKAKSESNTEPKSSANSLEDQL;locus_tag=LOCUS_10390;note=MGA_1044
sequence3	MetaGeneAnnotator	CDS	51300	52001	.	-	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQYSTYVSRNENLNQIKPVLDKALESFLGVKIDKISNEILEKLVKNNLNIDFLDSWSLEEAKFNFKKDYLIKVLREFNGNISKASTISGIDRRTIHRLIIQFNIDIEEFRNLPYHFSKKKIDDYIKFVAGDVLKQYSLTEKKSELIYGLPTDELVKVIKKPFPKMEDAYDFFEYKFLVAVILKNDKVLKDVCKQLKIARETLSRKISKHKINIKDLNMDFKENNIKLEELI;locus_tag=LOCUS_10400;note=MGA_1045
sequence3	MetaGeneAnnotator	CDS	52056	54818	.	-	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNILSFGQCFIDLYGSKLDQNYVSLNYNLRLGGGSGIFAIACSRFGHNCGLVSTFSTDSFGQFLINMFHKEKVDLKYTDMTEQRTPLEFVESSKSFTDYKFYDKNPSPFKINENKIDFNIFNKIKVFYFTSFILTDNDNYDILLKCINCAKKNNVLIYFNLDFRSRIHKTDNFYKRVIEILKQTDFVISNITDFQQLFKNNNEKILTNKLINFGLKKIIYTYGKKGAHLINCDGSEYKTKIVYDLPAKDRTGAGDIFAAKFICNYMDGFSDENNLNICHKIAAFSTMKYGAIESIPKDDELELLNKINSDDDLLFDDTNFLLNLIDKNKNKLFFSNFLKEKHSNDSLIITQKTYSKIKKYINKASSNIIYMTNSPKNKQSYLPTRLEQLFFIINLFSIKHKGGFILIECLDFLLKHNSLTKVIYFLRQIADLSIMTNIRFALLVDYTKLSDDVIYELKNYQNKFKKAQHHREDSSLIDFKGKFLKSNLEGNLVDVKDKDELFKRIKDTLRDIYDYSFVNIFLFDGNVLVNTNKHAKRRFIHLNSDNIFKKCVDDNREIVINSLNDDLYYKNKKIGDDLETVSTIYFGSDFIPTVIVPVGKEQLLGVVELSKNKKIKLDSEEYNEILYFIKNSFFLAEIFILKEHATKTSKRLKESDELKNNFISMISHELRTPLTSIRGYTSILKTNKNNNFNKNQEDILTIIEKETSNLTSIINDLLDVSKIESGKLDLFLDNENLKDIIKDAIKIMEGFAFEKGVSLEFEKVFKVIVNVDCSRIHQIFTNLLNNAIKFSYPGTSIKINMSLHKLTGKTIKSLQKKFDSDDNNFDVKLLNISNEEVKDFVCVEIGDTGIGIENKNISLLFDKFFQVSNHLTRSTTGTGLGLSIVKYLIELHNGFIDVESEINKGSQFKVYFPLIDEN;locus_tag=LOCUS_10410;note=B5YFV1 histidine kinase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:35.7%25%2C q_cov:29.5%25%2C s_cov:27.8%25%2C Eval:5.2e-37%2C partial hit],MGA_1046
sequence3	MetaGeneAnnotator	CDS	54815	55180	.	-	0	ID=MGA_1047;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081498.1;translation=MKKKILIVEDDDNILNLLNIILSEDYETKLARNGKEALDCLNDFYPDLIILDIMMEVMDGITALQKIKENENTKSIKVVMLSAKCQKSDMIVAKEYGAVDFITKPFDPVQLKEMVKDLILK;locus_tag=LOCUS_10420;note=WP_004081498.1 response regulator (Thermotoga maritima MSB8) [pid:44.2%25%2C q_cov:98.3%25%2C s_cov:98.4%25%2C Eval:2.8e-19],MGA_1047
sequence3	MetaGeneAnnotator	CDS	55284	56456	.	-	0	ID=MGA_1048;product=membrane-associated Zn-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061033.1;translation=MTLIKAASAFSIFFQNNWGVILFYLFVVLIIYSYRRKFDVHLGFIALFRTKWGLKSMDKYAKKYPKLLRFIGDLGIVVGFSGMVLMFWFLADGVYKFFLNPKADAVVAVVIPGLNIAGSPLNGLSLGMGLLIIFLVASFHEFGHGVISRLYNIKVRASGIVFFGPILGAFVEPDQKDLAKVSDNAKLAMYSAGPFFNVIMTLFVLLLISSMSFFGMTWTAYQPAYIGEVVPNSTLYYAGIEKGETITAINNNKIENIDSLIHELNDISVNDTIFIETDKGIKETNVLSRPSMPDVPFLGIEFTRTNFISKLLHKIFTFLMYLAMISLGIGTANLLPFGPLDGGRMLHNRLFHWFGKKNESAALKCFSIISSIVLLMLLVTIFGPLFGLFM;locus_tag=LOCUS_10430;note=WP_048061033.1 membrane-associated Zn-dependent protease (Methanothermobacter thermautotrophicus str. Delta H) [pid:28.6%25%2C q_cov:95.1%25%2C s_cov:97.4%25%2C Eval:1.6e-36],MGA_1048
sequence3	MetaGeneAnnotator	CDS	56510	57460	.	+	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENNKNRTNNKNINNSENKNLTKNILKILALTFTLITTFYLRNLNFTYIPYLRTNYIDYKLASLGFQNFFTNIFLYIFIILIFSFISKKDFKFKLKYIKLDYYLIVFTIIIFIISLFLVNKILINIFTLIFFILLCINFYGIHHIKKRYGDFILSASLSLVIIFIVSVGNLLWFHIANFMANISQMILTFLGYNITIDLTNLAPSIYIENFGVSITALCSGTDSLILFSSLFFIFLSLDFDLLNKKKVIVYYFIGIIGIFVIILLRILILLIIGVYNSSLSLGLFHTNAGWVLFLLYFTIFWSIAYPKLLIKKKE;locus_tag=LOCUS_10440;note=MGA_1049
##FASTA
>sequence1
TACTAATAATATTAATAATGAAATTTTAATTGATTATGTAGAAGATGGTCAAAATGTATTTTATATAAATAATAATATTGTTTATAATATTACAAAAAATGCAGATAATATAATTTTTAATAATTATACTCAAAAATATCCATCACAATTAAATTCATATTTACAAGAACAAATAAATGTTAAAAAAGCAACAACAGATAAATTAATACTTAATAGTATTGAAAATTTTGATTTAGTTGAATACGATTTAAATAATGTAAAATATTCAAATGGAACACACATAGTTGATGTAAATACATTTGATTTTGCAAACTGGGATTATGATTTTACACCACATATAAATAATGAACGTACATTTTTATACTTGCATAAAAATAATAAGCAATTTTGGTTAAATAATAATACAGTATATAATGTAACTGATTTTAATGCTGATATTGATAATAGTATTGAAAGTGCATATGAAGAAAAATATCCTTCTGAACTTTTTGTTTGGTTACAAGAACAAATAAATATTAAAAAAGCTACAACAAATAAATTAATACTTAATAGTATTGAAAATTTTGATTTAATTGAATACAATGCTAATTATGCAAAATATTCAAATGGAACTGAAATAGTTGAAATTAGTATAGTTGAATATACTGACCTAGATGATTTAAAAAATAAATTTAGTCAGTTTGAAATATTAGTTAATACTGAAAATGAAAATGAAACATATGTTGATAATAATAATAATATAATTTGGATTCATAATAATACAATATATAATATTTCAAGTTCAGGAATTGTATTTGATAATTATATTCAAAATTATAATTCAAATTTAAAATTAGTATTAAAAAAAGAAATTGATTTTAATAAAAGAACTCAAATTGTTAACTCAATTGATTTAACTTTTATTGAACAAAGTTCAATTGAACCAACAGTTATTAATGAAGATTTTAATTATACTATAAATGATGATGAATTTTCATATATTAATAATAATTACGACATGACAATATTAGAATTTAATACAAATAAAATTGGAAATTATACTATTTTTATGAATCAATTAGATTTTGATATTGATTTAATTTTATTTAGAGAAAATGAAAAAATAATTTCTCAATATAAATTTAATGAAGCTGAAAATTTTAATTTTGAAAAAAATAATAATGATGGTGAAAAAATTTATATTGTTTTAATAAAATATGAAAGATATTTTTCACCCCCAACAATGGAAGAATTACCACAACTCCCTTTAGCAACAATTAATATCAAGAGAAATGGTATTGGTTGTTTTAGTCAAGTTAGTAATGTGTGTCATACAGATGGAAATATTTGGTGGAAAAATAGTTGTAATGAATTAGAAGAAATTAAAAATTCATGTTCATATGGTTGTACAATTGATAATGATCAAAATATTTGTTTACAATGTACACAAGACTCACAATGTTCAGTTGGTAGTGTTTGTCAAAGTAATACTTGTGTTCAAGTGGAAGAGGTTGAACAAGTATCAAGTTGTTCTGAATTTAAAGACGCTATTGAAAATGATATAAATATTAATATTACAAATGATATTGATTGTCAAGATTTTGAAAAAAATAAATGGAATATTCCAAGTTATTCAAAAACTATTGAAGGTAATGGTTTTACAATAAGTAATTTAGTACATAATTATAGATCTCGAAATTCAAAGGAAAGATCAGGAATTATATTGAATTCAGATAATGCAAAAATGCAAAATGTTAATTTCAAAAATTATCATGTCTATTGTAGAAGTTCAAATTGTGGTTTAATTTCAGAAGGAAAAATAAATTTAGAAAATGTTAATTTAACAGGATCAGTTAGTGGAGGCAATAATGTTGGCTCAGTAATTGGTTCTGGTTCTTTAATTGCAAATAATGTACAATTTCAAGGAACAGTAAAAGGAAATGATAATGTTGGTGGAATTGTTGGAAGAATGAATCCATATGAAGAAAACAATATTGAAAAAATAAAAGTTGATGCTACAATTAATGGAAATGAATATGTAGGTGGGCTATTTGGTTCATCTTCAGCTGGTGGAACAAATGTAGCGAATTGTGTAGATACACATATTAATAATTCATACATTAATGTAAATATAAATTCAAATGCATATTCTGGAGGAGTATTTGGTAAATGGGCTTGTAAAAATGGAATTATTGAAAATGTTTATGTAGATGGAAGTATAAATGCACGTAATTTTTATACAGGTGGTTTTAGTGGAGAGTTCGGATATTTCAGTGCATTTTTAAAAGGAGATTTTTTATTTGGAAAAATAAAAAATTCATTTACAAAAGCATCCGTAGGAAATAAGTATATCAAAAAATATAAAAAATCAGGAGTTCGTTGGGGTTCATTTGGACCAGTACATCACTTTATATCATCATGGAATCATAAGTGGAAAACTTTAAATCAAGATGCAAATGATTGTTATTTTATTGGAAATGATATTAGTGCAGATGGATTGTGTAAAGGATTAAATGAAAGTGAATTAATTAATGTCAATTCATTTCAAAATTGGGACTTTGAAAATACATGGAATATGACTAATGAAGGACCAAAATTATTAGCATTTAATTAATTTGTTAATTACACATAATAAATTTAATAAACATAGTTGCATAACTACCCTTAGTTAATACAAATTTAAATTTTAATGTTTCTTTATCAACTAATTCATAATTAAAATTATTTGATTTTAAAAATAAATTTCTGTAATCACCTTCTAAACTAATTTGAGGAAGTTCATTTAAAATAAAACTTCTTTGATTAATTTTAAATTCATTAAAAAAATTATCAATTTCAATTTTTATTTCATCCAAAATATTTACATCAAATTCATTCTCCAATTTTTTTATATCATCATAAAATGAATTTAATAAATTTGGATCATAACCAATTAATGGAATTTTTAAATTAATCAATTTATTTATTTTCTCTATTTCAAAGTCATTAAAAAAATAAATATTTTGATTGATATTTTCAATAGTACAAATTTTTGTTTTAAATAAAATATCAATTAATTTTCCCGAAATTAAATTATATAAATAACTTTGAACTGAATGTAAAAATATCTTTAATATTTTTGGATTAATTGTATTTAATGCACGAATATGATCAGTATTACTTTTTTGTAATTCTTTAACTACAGCTTTTTCATAATTGTGAAAATCATCAATATTTAATTCACAATCAATAGTTTCCATTTCAAAATCAATATTAGACTGTTGTTTTATTAAATTATAATTAAATTCTTTAAAATTTTTATTCAATAATAAAATACCTTGCTTGAAATTATTTTTTGAAAATCTTTGAGAATCAAAATAATTAATACAAGGTATAAAACCTAATTTAATTTCTATCTTCTTTAATAAATTTAATTTAGAAATTGTTAAATCCAATTGTTTTATACAACTTACTCGAATTTCAAATTCATTATTATCTAAATCACCAATTTTTATTGGATTTTCACTCCAACCAATAAATTCTAATTTTATATCTTTATCAATTTCAATATTACACATAGATTCAGTATATCTATTTAAAGAAATGTACTGACTTGTAATACCATTTTTATCTTTAAGACCTGCAATACCAAATTGTTTTACACTAATTAAAAATACTTTTGCAATTTTATATAGTGCATCCATTGTAGTAAAATTTGATTTTGTTAATTTTAAAATTACATATTTATGATTTTTATCAGGTTTATTTTTTAATTTTGATTTATTTATAATTTCATTTACAATAAAATCATCATCAGTTTGTTTTATTTTATACATAATTAATAGAAAATTAAGCTATTTAAATGCTTTTTTAATATTTAGAATAATTTATAAATGAAAAAACATTATTTCTAATGAGGGGTATATGGCAGATTTTGAAATTAATCCACTAATTTTTATATTTTTAGGGGCAATCATATCATCAATTTCAACAGGAATTGTATATATACGAAAGGATTATGTTTTTTTAATATTTTTTCTAATTGGAATTGGATTTTTAACTTATGGATTAGTTAAAAGAAAACACTATCATCAATATATACAAAAATTAGAAAAGAAAACAAAAAAACAAATAAGAAATATACCTGGAATTAATAATAATTTAAATAATAAAATAAGCTCAAAACAAAAATATATGCAAACAAAAAATAATGTACATCATCAGTCTAAAACAATATTTTATAATAATTTAAATAATAAACATCAAAAAAGAAATTATATAATATTAAAACATTGTTCACATTGTCATAATCATCATAATGAAAATGAATATATATGTAAAAAATGTAATAATAGGCATTTTTATTATATGACACACCATAAATAAACATATATAATTACAATTATTATTTCTAATATTTCAAAAACTTAATAAAATATGGAATTTCAAAAATCTCATGAACAATTTTAAATATTCTCACATAGCAGACTGCCACATAGGTGGATGGAAAGATGATAAAATGAAAAATATGTCATTAAATTGTTTTAAAAAAGCAATTGAAATAAGTATAGAAAATAATGTTAATTTTATATTATTGGCAGGAGATTTATTTAATTCATCAATACCTTCAGTTGATAATTTGAAAGAAGTTGTTAAAATATTAAGATTATGTCTATATCGAAATATTCCAGTATATACAATTGCAGGAAGCCATGATTTTTCACCATCAGGAAAAACAATAATAGAAGTATTAGATAAAGCTGGTCTTTTAATTAATGTATCTCGTGGAAATATAGTTAATGATAAATTAGAACTTGATTTTACTGTTGACAAATTAACAAATGTAAAAATAACAGGCATTGTTGGTAAAAGAGGCGGACTTGAAAAAAATATTTTTAATAATTTAAATAGAGAAAAATTAGAAATAGAAAATAATTATAAAATTTTTATGTTTCATACAGCAATTACAGAAATAAAACCAGCTGGATTGGAAAAAATGGATTCAACATCAATATCAACATTACCTAAACAATTTAATTATTATGCAGGTGGACATGTACATTATGTGTTTAAAAAAGAAATGAAAATAAATAATGGTAATTCATTATTGACATACCCAGGTCCAACATACCCAAATAATTTTAAAGAATTGGAAGATTTAAAAAAAGGCACATTTTGGATTGCTAATGTTGAATTCAATAATAATGAATATAAAACTAATATTGAACTAATCGAAATACCAAGCCCAGAAGTTAAATGTTATAATATAGATATTGATGGAAAATCAGTAAATGAAGTTAATAATTTACTATTTGAATTATTTGATGAAAATATAAATAATAAAATTATTACAATTAGAATTTATGGACAAATAAGCTCTGGAAAAATATCGGAAATAAATTTTAAAAAATTAATATCATATTTATATGAAAAAGGTTCATATTTTGTTACAATTAACACAAACAAATTAAAAAGCAAAGAATTTGTAAAATATAAAATTCATATTAAAGACAATATTGATCTTGAAAAAAGTATTATAGATGAACATTCTGATAATATAAATATAGATTTCTTAAATACAGACAATAAAAGTGCTTTAATTAAAACATTAATTAATTCTTTAAATACTAATAAAATCGAAGGGGAAAAAATAAATAATTTTGAAGAAAGAATATTTGATGAATTAACCAATATATTAGAAATTGAATAATAAATAAAAATAATATATATAATTCAAATAAAACAAACAAATTCAAGTATGTATATACTTATAATTTAAATACTTTACAAAACATATTATTATTGTCAAAACACACATAAATACATATTAGGTGATTTAAATTAAAATTATAATTACAGGAAAACCAGCCTCAGGAAAAGGAACAGTTGGAAATTTTATTGCAAAAAAAATGAAATTAAAAGAAATAAGTATGGGTAATATTATTAGAGAAAGAATAAAAAAAGATAAAAAGTTAGAAATTCTTGTTAAAAAAAAAATGAATGCTGGAAAATTATTACCAGACAAAGTAATGAATGAAATTGCAAAAAAATATTTTAAACAAAATAAAATCAAAGATAATTTTATTTTTGATGGCTATCCAAGAACATTATTAGAAGCAAAATATATTACAAAATTATTTGATTTTGATCATATAATAGAATTAAATATTACAAATAAAGAAGTTGTAAATAGAATCAAGAAAAGATTAATTTGTGGAGAATTTTCATATATAATTGGAAAAAAATATAAAATAATTTCAAAAAAAGTTAAAGAGTTAAGAAAAAAAAAAGGATTAAATAGCAAAGAAATAATAATTAAAGTAAATAGCTTATGTCCAAAAACTGGAAAAATATTAGAAAAACGTAAAGATGATATGCCATTGAAATTAAAAACAAGATTAAATGAATATAATAAAAAAACAAAACCAATATTAAAATTTTTTAAAATATATGCAAAAATGATTGAAAATAATAATAAAATAAAAAAAAATGAAAAAAAAATTCCAAAAATTAATATAATAAATGGAATGGGTTCAATTAATAAAATACAAAAAAAGGTTTATGATTTAATAAAAAATGGATGAAAATATATTAAAAAGAAGATCATGTAAAAATTATTTACAAATTCCAATTGAATGGAGTAAATTAGTGAATATTTTAAAAGCAGGAAGTTTGGCCCCTAGTGCGGGAAATTTACAAAATTGGAAATTTATAGTTATTCAAGAAAAAGAAAATAGACAAAAAATAGCTAATTCATGTTTATTTCAAACATGGATGAATCAAGCACCAACATATATTATTGTTTGTGGTAATTTTCAAATGGCACAAAAATATTATTTTGAAAGAGGAAATATGTTTACAATACAATCATGTGCTGCTGCAATGGAAAATATGCTTATTGAAGCGACCAATCAAAAATTAGGATCTAATTGGGTAGGTGCATTTGATGAACAAAAATTAAATGAAATTTTAGAAATTGAAGATGAATGGAAAATATATAGTATTTTAACATTAGGATATGAATCTGAAAAAACTGAAATGCCAAATAAATTAGAATTAAAAGATCAAGTTTATTTTGAAAAATTTAAAGAAAATCAATATGAAGCATCATTATTTCCAATTTCAAATTTAAAAAATGAAATTAATAATCAAATAAATAAAACAAAATCAGAAATAATTGGACAAAAAAATAAAATTCAAAAAAAAATAGAAGAAAATAAAAAAAAATTATTAGAAGAATAACAACCAATAAAGCATTAAAATTGAACGTATATCAATAATGAAATTTCAAAATCAAAGATGAAACTAAAAACCAGAATTGAATTTTAAAATTCAAATATGATATTTTTATATATAATAATAAAATATTATTTTTTATGGATGGTGTAGAAGTTCTTTAAAAATTAATTGAAAAAAAGTTATTATTATTAATAAAAACAATATTATCTGAACCCAATAAAGAATTTTACCTCCAAGAATTGTCTGAAAAATCAAAAGTACCAATTGCTACCACTTTTAGACTATTAAATAAGCTAATTGAACTTAAATTAATAGAAGAAAGAAAGATTAGTAGATTTACAATATATAAGTTATCAAAGAACAAAGAAATAGAATTCTTAAGCAAATTGTTCAAATTTGAGATTGATCCAATAAAAGAATTCTCCGACCTTGTAAATGCAAAATTTGCCATTTCTTCAATATATCGACAAGGTGAAAAATCAGACAAAAAATCTAATTTAGTCATATTAGGTTATGATATAGAAGCTAATCAAATTTCGGAAATTGCAAAAGAAATAAAGGTTAATTATAATTATTTAATTAATTTCATAATACTTACACCAGAACAATTTAAACAAATGGAAAATATGGGAATAAATACAAACAAACATCATTTAATATATAATAGTTAATTTAGTTTCAATTAAACTCCAAAAGAAAAAAATAAAACTAGTTTTCATAACAATAAAAAAACAATAAAAAACCTTATAAATGAAAAGGCCATAAAATTAAGTATAGGCTTTAAATGTTTGATGTTATAGTAAAAGAGGTTATCAAAAGTAAAATTGAATATTGTTTATTGAAATGAACAATTTTTGATTGAGAATAATATTCAACACCTAATTATAGGTCTAAAAAATAAAAAGGTAGGCGATAAAATGGAATTTGTGATTGAAAATGCTTTGAAAAATGCAGAAGAGAGTATGCCACAAAATAATGAGATTGGGCATGCAAATATAAAAGTAATGGGCACCGGCGGTGCAGGATGTAACATGGTTAATTGGTTACATAAAAAAGGTGTGCAAGGCGCAGAAACAATCGCAATAAACACTGATATGCAACATATTAATATGATATCAGCAGATAGAAAATTCTTAATAGGTAAAGAAGTAACTAAAGGATTAGGTGCAGGTGGATATCCCCAAAAAGGAGCAGAAGCAGCTAAAGAATCACTAAATGAAATTAAAGAAGTTTTAAAAAATTCCGATATGGTTTTTGTATGTGCAGGAATGGGAGGAGGTTCAGGAACTGGATCAGCACCTATAATTGCAAGAGTTGCTCAAGATATGGGAGCAATAGTTATTGGAACAGTTACAATGCCATTTAAAATCGAAAGAGCAAGAGTTGACAAAGCAGAATATGGTCTGGACATGTTAAAAGACGTATGTGATACTGTTGTTGTAATAGATAATAATAGATTAGTTCAAATTGCAGGAAACTTACCTGTACAACAAGCATTTGCTGTAGCAAATGAATTAGTTTCTACAATGATTAAAGGTATTGTTGAAACAATTGCAATTCCATCATTAGTTAATTTAGATTTTGCTGATGTAAAAGCAGTTATGACACAAGGTGGTATTGCATCAATTGGAATGGGAATTTCAGACACAAATAACAGAGTACCTGAAGCAGTAAATGCAGCACTTACAAATCCATTATTAGATATTAGTTATGAAGGATCAAGTGGAGCAATTATACAAATTACAGGTGGACCAGATTTAACATTAGATGAAATTAATATGGCAGGTGAATTAGTTACAGAAAACATGTCAGAAAATGCAAATGTTATCTGGGGTGCACGAGTAAGTGAAAATATGAAAGGAAAATTTTCAGTTATGACTATCATGACCGGTGTAAATTCACCATATTTAATGGGAAAATCCCAATTAAAAGAAAGAGAATCAAAAACTAAAACTTTCTCTGATGAATTAGGTATTAACCTGATGCATCATTAAATGCCTTAATTTTTGCCCCCACAAAAAAATGGCTTAATCTTTTCAAGGGATTCAATCCCTTGAAATTTTTTTATTTAATTAGAACAAGAATCATAATTAGATTTCAAATTAAAATTTAATAGATTTAATTGAAGATTAGTATTAATAGTTTTATTTAATTCAAATAATAAGTCATCATTTAATTCAGTAGAATTAATTTCAATATTATTTGCATAAGCAATTCCAATACCAACAGTTAAAAAAAATAATATTAACAATAAATTAATTATAATTATTTTGAATTTCAATTAACACCTTCTTTCAGCTCTTTTCAAATCACGATCAAATTCACTTAATTCTTTTTCATAATCATCCAATTTATCATCATAATGTTTAATATCATCTTCAAGTTCTCCAATATCATTTCGTATTTTATCTTTATCAATTTCAGATAATACAGATTTTTTTGCCATTTCCAATTGTAATTTCAATTTAGAAATATCAGATCTTGTGCTAATTAAATTATTTCTTACATCAGTTAACTCATTTTCTTTTGAAGTTAACTTAACTTTTATTTCATTCAATTGTAAATTTAATAAAGATACATCTTCACCATTACGTTCACTAGTAATTATTTGAACTTCAAGTGAATTTTTATTTGATTCAATTTCTAAAATTTCATTTTGAATATTTTCAATTAAGGTTTCAAATTGACTAACTTCTAATTGTTTCTCTTCAATATCATTATTTAAATTATCAACCTGTAAAGGATTAATTATTAAAGATAAGACAAAAATGTTATCTTCCAATTCAGATTTTAAAGAATTAATTTTTCTACTTACAAATTCTATATTTTCTTCAATATCAGAAATTTTATCTCTCAATCTATCAGATTCTTGAATACAATTTTCAAATTTTGAAACTACTTCAATAAATTCTTCAGGATTATAATAATTAGATCTTTGAGTATATTCAATATCATCTAATATGTTCAATTGCTCTTTTTCATAATCTTCATTTCTTGCAATTTTATTTTGAATTTCCACTACCTTAGAAATTAATAAATTTTTTTTTAATTCAAGATCTGAATTTAAATCAATATCTTCATTTAAATTTTTATAATTTTCTTCTATTTTTTTATTTTGTAAAACATATGCAAAAGTAGATACTAATATAATAAAAATTAACAAAATACCAGCAGTTAAAATTAATAGTTTTTTTTGAGCTATATTCACATATAAAAATTAAAAAATATTTTTATAAATATTACATTAGTAAAAAGATTAGTTCATAAAATGAATAATGGGAAATAGATTATTGAACACAATAATAAAATTAAACATTATTTAAATCAAATTTTTCAATAATAATTTTATTTTTGGCAACTTTAATTACATATTCATCAACTTCATTTAAAACACCAAGTTTACTTACACTTTCAGGAAGTAATATTCGCTTACCCCTATGATCTAATGTAGTAATCATTTCATGAAAACCATTTTTTATTTTTTTATCAGATAAACCCAATTCTTGAAATAATTCACCAGTTTCTTTTTTTGTAGATTTAATTTTTAAATCACGAGTTTTTTCAAATAAAAATTTTGCCATATGATCAGCAACATCAATCTTAGTAGCTTTCATTATACCTTGTAAACCTGGGCTTAAATTTAATTCCAAAACTAAAGGACCTTTTGAATCCATCATTATATCAATAGCACTAATATCACAACCCAAAGTTTTTGATGTTCTAACACACATATCTTTTGTAATATCATCAAGTTCAATATTATAACCCTTACCACCTGCATGAATATTACTTCTATTTTCACCAGATATACTTTTTCTTTCCATACATGCTACAACTTTATCACCAACAACAATAGCTCTAATATCCTTACCACCAGTATCAATAAATTCTTGAATAATAAATGGTTGTTTTAATGCACCCATAGCATCTAAAATACTTTTTGCACTTTCTTTACTATCTGCAAACATCACACCCTTACCATGAGTACCATTTGGCATTTTCATAACAATTGGATAACTAATATTATTTAGAGTTCTTTTTGTAGCTTGATCAGAACTTGCATAATATGCTACAGGCATAGAAATATTTTTCGTATTAAAAGCAATTTGACTTAAAAATTTATCATGACCTATTAAAAAACTTTCAGCAGACATAGGCATATAACAAAATTGTTCTAATGTTTTAGAAATTGCATGAAGTATTTGAGCATATTTAAAAGAACCTCTTGCAAGAATACAATCATATTTTTTTAAACTTTCACCATCATATAATATTTGCATAGAACCTGCTTTCATCAATACTTCAAATTTTTTTATATTTAACATATCAACTTTATCAAAATAATTATTCATAGATTCAGCAATTAATTTTGAAGAAGTACCATTTAAAGATATTATCGCAGCTTTCATTTTAATTTTTTAATTTAGGATTGATTAGAAAAAATCCCTTATTTAATATATTTTGACCTATAAGTACTTGATATCTCATATGAGATCTATCTGCAAGAGAAAATTCTTCTTTAATTAAAATTCCACTAATATTTAATTGAATTAAAACTATATCACGCACACTTCTCCCATGAGCATTTCTAACTTTAATTTGTCTTACTTTTTTTTTAAAACCAAGCTCATGTGCTAATTTAATGTCTATTGAAGACATGGTAGCACCAGTATCAATACGAGCATTTAATTGCGTTTCTTTATTGAAAATTACTTTTTCTACTAAACCAATTATTGACATCTTTTGTAAATCCATAATACTTTTTCAAATATATTTTTTAAAAACTTTTGGTTTTAAAACAATTATATTGAATTTGAAAAAACTTATAAATAAAACCAATAATCTTTCAATAAGGTAAATTCTAGTATAATTTTCACATTTAGAGGTGTTTAATGGAACAAATGAAGACAGGTACAACAATTTTAGGAATTAAATGTAAAGATGGAGTAATTCTTGCATCCGATTATAGAATGACAATGGGCTACTTAAGAGCCGGAAAAATGAAAAAAATAATACCACTTACAGATAAAATATCTGCAGCTGTTGCAGGTTCAGTAAGTGAAGCTCAACAATCCACAAGATATTTACAAGCTGAGTTAAGATTAAATCAATTAAAATTAAAAAGAGAAATGCAAGTAAGAGAAGCTGCAAATTTTGCATGTTCAATGTTATATTCAAATATTAAATATCCAACATCATACAATTTTATGTATTGTGCACTTTTAATTGCAGGATATGATTTACATGGTGGTCACCTTTTTGCAGCACAACCTGATGGAAGTATACAAGAATGTGATGATTATATTTGTGATGGTTCTGGAATGGAATTTGCACTTTCAATAATAGAAGCTGAATGGAAAAAAGACATAACATGTGCAGAAGCAAAACATTTAGCAATTAAAGCAGTAAATGCAGCAATATCAAGAGACATTGCATCAGGTGATGCCATTTCAGTATTTCAATTTACTAAAGATGGAACAAAAGAAGTATTTTATGGTCAAAATGATTTAGAAGTTAAATGATTTTTAAATAAAAATAATTAAATGAGTAAAAAAAATGTCTGATATATTAAAAGAAATAGTAGCAAAATTACCTGAAAGGTCAATATCTCATTCATGTTTTGAAGCTGCTAATATAATATTATATTCTAAAGACAAATCTATTGTTCAAGGAAATGGAAGTTTAATTAAAAGTTTAGTAAGAGAATTTAAAAAAAGAATTGAATTAAGACCAGATCCAGAACTTTGTTTGAATATAGAAGAAACTGAAAAAATAATTAGAGAAATTATTCCAGAGGAAGCAGTCATTAATAGAATTTTATTTGATGAGCAAAGATCAAAAATAACAATTGAAGTTGAAAAGCCAGGATTAGCAATTGGAAAAAATGCATCACTATTAAAAGAAATTAAAGATAAAACATTTTGGATTGCAAATATAACACGAACACCTGCAATACCATGTCAAATTATAGAAAATATTAGAGCTGTATTATATGAAAATAATGATGAGCGAAAAAAATTTCTAAATAGAGTTGGACACCGAATTTATGATGGTTGGTTAAGAGGAAAAAAACAAGAGTGGATTAGATTATCATATTTAGGTGGAGCAAGAGAAGTTGGACGGAGTTGTATTTTTTTACAAACTAGTGAATCTAGAATTTTAATTGATTGTGGAATTAATGTTGCAAATGAAAAAGAAGTATTTCCATTTTTAGAAGCACCAGAATTTGATATTAATGAATTAGATGCAATTATAATATCCCATGCAAATTTAGATCATGCATGTTTAGTTCCTTATTTATTTAGATTTGGATATAGTGGTCCTATTTATGCAACAGAACCTACAAGAGATATTATGGCACTTTTACAATTTGATTATATTAAACAAATAAAAGCAGAAGGTAAAGAACCATTATATTCACCAGATGAAATTAAAAAACAAATTAAACAATGTATTACTTTATCATTTGAAGAAGTTACTGACGTTACTCCAGATATTAGATTAACGTTTTACAATAGTGGACATGTTATTGGAAGTTCATTAGTTCATATTAACATTGGTAATGGCCTTCATAATTTAATGTTTACAAGTAATTTTAGAATGCAACATACAAAATTATTAATTGGTGCAATTAGTAAATTTACACGATTAGAAACTTTAATGATAGAAGCAACTTATGGAGGAACGGATTGTAATTTACCATCGCGAGTTGAAACTGAAAGACAAATAAAAACACACATTAAAAAAGCAATTGAGCGGAATGGAAAAATATTAATGCCAGTAAGTGGAGTTGGACGTGCTCAAGAAGCACTTTTAATTTTCGAAGAAATGTTTAGAGAAAAAACAATTAAAGAAGTACCTGTTTACATAGATGGTTCTGTTTGGGATATTACTGCAATTCATACAGCATATCCAGAATATTTAAACAATTATATTAAACAATCAATTTTTCATAAAGATCAAAATCCTTTCTTAAATAAAAATTTTAAAAATATATCAAGTCGAAAAGGAAGAAGTGATTTAGTAGAATCTGAAGGGCCAGCAATTATTCTTGCAACAAGTGCAATGCTTACAACAGGACCGAGTGTTTATTATTTTAAAGAACTTGCAAGTGATCAAAAAAATATGATTATTTTTACAGCATTTTTATCAAATGGAACTTTAGGAAGAAGATTACAAGCTGGAGAAAGAACTTATAATTTTGAAAATACTGCAGGAAAAAATGAACCTATTGAAGCAAAATTAGAAATTGTTACAATTGATGGTTTTAGTGGTAATGCAGGAAGGGGAGAGTTAATGACATATTTGTCAAAACTCGATCCAAAACCAAAAAGAGTTATTTGTAGTTATGGTGAAACCAATAGAGTTATTGATCTAGCGAGTAGTATTCATAGAAAGTATAAAATTGAAACAAATACTCCAAGAAATTTAGATACGTTAAGATTAAGATAATTCTTTTAATTTAATAATTTTAAAAACTCTTTATAAATAATATAAAACAAATTTATAAATAATAAATAAGTCGTTTCCACATGGACATTGGAGAATATAAAGGTTTTAAATTAAGTTCTTTAAACAACGAAATGATTATATTTAAAGAAACCTTATCTAATCGTATGAGAGATTTAGATAGACTCTATCATTTTCAAAACGACAATCGAATTACAGGTTCTTCAAATTCTAAATCATATCATATTTTTCTAAATGCAATTGATAAAAACTGGCAAGAAATACAATCACTCGATCCATCTCAAAAAAATGCAATGAGTGGCATAATGTCAAAAATTGAAAACTTTTCAAAATCATATTTAAGATGCATTTCCTATAAACAAATGATAATTGATGCTAAACCTCAGGAATTTACAACAGGTGATTATCAACACACTGGAAAACATGGAATGAAAATTACTTTATTTGAACATAAAATACAATTAATTTTATCTTCTTTATACGACTGTAGTTTACAAGGATGTAATATACCAACATTAATTAGGGAAGTAGATAAAAAAGATATACCTCAAATAAAATCTGGATTAAAAGAACCTACTTTTGAATATATTAAATCTCTTTTTAATTTTAAAAATAATTAATAATTAGTTATATCTTCTTTATCGTCATAATTTTTATTATAAGTTGCTCCACCAGAAACTTGTTTCCAATGTGCCCTTTTTGAAAAATATAAAAATACATCTTCAGTCTGTTCATTGAAAGATTTTATATTTGTTCTATCATAAAAATGACCAGTTCCTGAATTAAAATGTTTTATTTTTCCACGTTCCATAAATAATTCACCTGCACCATAAACTGATTTTCCAGCAGTTAATGTTGGATGTGCAAGTTTATAACCATAAACATCAATAATATATCTATGTTTTTTCTTTCGACTTCTAGAACCAATTACAAAATTTCCATCATTATCAATTACCCAAATATACCAACCATCTTCTAAATTATTATAATGTTTAAGTTTACCATTTTTATCAGTATGTGAATTAACATCAAAAACTCTTCCACTTTTTGAAGCATGAGAAGTATAAAATAATTGTTCATATGAATTTTTTTCATACTTATTATTATTTGTTTCTAAAATTTCACTACCAGAAATACTTTTTGCAATTTGTTTTTGTATAGGGGTTTGCTTTTTATCCTTTTTTGATCTTCTTAAATAACCTATATCGAAATCTTTAATTGCCATCCTAGGATCATATTTATGTAATTGCCAACAATTTTCTTTTGCATGTGTTTTCCAATCTAAATTATCTAATTTTGACTCTAAAGAATCAAGTTTAATTACAAATAAAATAGAAATAAAAATTAATAATAAATAAATTATTGGATTTAAATTTAATAATATTGAATTGTTAATTGAAAATTTATCAATTATGAAATTTCCAGTAATAGTGCCAGATTTGAATAATAATATTATAAATAAAAAACACCACAATATAATCAACAATTTATAAAAATTTAATCTCACAAAATAAAAATCTCTTTTTATAATTATAATTGTTTGGATTATTACAATAACTTTTTATACTCATTTTTATTAAAATATTTATGAAATATAATAGTTTTAAACTTTCAAATGGATTAGAAATATATTTTATTAAACAAAAATCTAGTATAATTTCTGCAGAAATTGATGTAAACTGGGCACCAAGAGATGAACCAAAAGGTAAAGAAGGAATATCACATTTTTTAGAACATATTATTTGGAATTCAGGTTCTGTTAAATTAGATAGTAAAAAAGTTAAAGAAATTAAAAGAAAATTTGGTATGTCGAATGCAGCAACAGCAAAAGACAGAACTTATTATTTTGCACAATTTTTTAAAAATAGATTTGAATTATTTTTAGAATTAATTAGTGAATTAGTTTTAAATAATAATTTTGAAACTGAAATAATAAAGAAAGAAAAAGAAAGAGTTCTAAGAGAAATATCAGATAAAACCGGAAATGTAGAATATAAGGATATTAATAATTTTAGAAAAAAGTTTTTATTTAATACAATACATAATCGCAGACCACTAGGATATTATGATTCAGTTGTCAATATAGATAGAAAAGATTTAATTGAATATTACAAAAAAGGATATGTAATAAATAATATGAAATTAATATTAGTCGGAGAACTACCTTCAAATTTTAAAACATTAGTTAAAAAATATTTTGATAAATTTAAATCAAAAAAAGTAATACATAAAAAGTTTGAAAAAATTTCTTTGATGAAAAAAAAAATGATTAGTCATGTCAGTGCAAAAGAATTATTAAATAAAAATAATATAAAAAATAGTAGCGCACATATGATAATTGAATTCTTTGCGCCAGAATTATTTCATAAAGATTTTGCTGCAATGGATATTGCAAATACTATTATTGGTGGCCCTAATTCAAAGTTACATAATAAAATTAGTCGTGATGAAGGATTAGCTTATAGTATTTATTCTCATTATATTTGTAGATTTGGAATTGGACATATAATAATTAATACTAAAGTTAATGCAGATAAAATCAAAAAAGCACAAAAATTAATATTTGATGTTATAAATAATTTTGAAAAGGATTTAAAACAATTAGATATTGATTTTGCAAAAGAGTCTTTAATATTTAGAAAATTTAAATCAATGGATTCTGGATATGGAGCTTTAATGTCCATTAGTGAATCTCTGTCAAGTGGATTAAGTTATGAAAATTATTTAAAATTAATTAAAAAAGTTACAATTGAAGACGTAAAAAAAGTAGTTAAAAAATATTTAACTAAAAATCATGCAATTTTAATACGAGATCCTTTAAAATAATTATTTATTTTTTTTCAAATCTTTTTGTAAACTCCTCTTTAAATTCTTTAAAACGTTTTTCTTTTATTGCAATTTTTGCATCTTCAATCATTCGTTTAATAAATCTAATATTGTGTAAACTTTTTAATCTAAGTGCAGATGTTTCCTCTATTTTTGATAAATGATTAATATATGCACGAGAATAATTTAAACATGCAATACAATCACAATCTTTTTCTATTGGATTATTATCATTTTTATGTTTACCACGATTTAAATAAATTAATCCGTCTTTTGTGAAAAGAGTATTATGTCTTGCAACTTTTGTTGGATAAACTGAATCAAATACGTCAACTCCTTTTTCAATCATATTTAATATATCAAGAGGTGTTCCTAAACCCATAATATATTTAGGTTTTTCTCTTGGTAAATGAACTATTGCAGAATTAACAGCCATATACATTTCTTCTTTTGGTTCACCAATTGCAACACCACCAATTGCAATTCCATCAAAATTTAAACTAGAGATATATTTTGCAGATTCTTTTCTTAAATCTTCATAAAAATTACCTTGTACTATTCCAAATAACATTTGATTGGAATTTTTTTCAATTTTTAATTTATTGTGAAAATCTAAACTTAATTTACCCCATTTATGTGTCAATTCCATTGCTTCTTTTGCTTGATCATAACTCGCACCATATGGTGCCATATCATCTAACATCATTGCTACATCACTACCAATTTCTAATTGTATATTCATAATTGATTTTGGTGTTATTTTAAATTTTTGATTATTATATGGATTTAAAAAATTTAAACCAGTATTATCTTTACCTTGAAAAAAATGTCTACTTGCTTGAAAACCACCACAATCTGTAAATATACATCCATTAAAATTCATAAATTTATGAAGTCCACCCATTTCTTCTATTAATTGACTACCAGGTCTGAAATTTAATATTAATGCATTTGAAATTATTGAATTATGATCAATTGCAATCAAATCCATAGAAGTATAATGTTTACCAACACCACGAGTTGCCACAGCTAAAAATATTGGAGTTTCAATTTGACCATATTGAGTCTTTAAAATTCCAATTCTAGCTTTATTATCCTCGTGTATTATTTCAAAATTTTTCATAATTGAAAGATTTTGAATTTATTTATAACACTTATTAAAAATTATATTTGTTCCTTTAAAAAACAAATAATAATTACAATTGATTCAATTAACTTTTTAAATATATTATTTGTCAGTTAATTATGTTAATTATAAAAAACTTAGATAAGAGTTTTGAAGATAAACCTATACTCAATGATGCAAATTTAGTAATAAATAAAGGAGAGAAAATTGCTTTAATTGGATCAAATGGAACTGGTAAAACTACACTTTTAAGATTAATTTTAGAATTTGATGATGATTTTTATGGCAATATAGAAAATACATTCAAAACTATTTCATATATGACTCAAGATTTGGATTTGAGAAATCAAAATAAATTATTTAATGAAGCTGTATTATTTGATAATAGAATTATTGAAATATATAATAGATTAGAAGAAGTTGAAAATTTAATGTGTGATGATAATACTGTAGCAAATATTGAAACTTATCAAAAATTATTAGATGAATATGAAAGGTTAAATAAAAAGTTCATTGAACTTGGCGGACATAAATTAGAAGAAAAAGGAAAAAAAGTTTTAACTAATTTAGGATTTAAAGAATCACAATTTAACCAACTTGTTGAGACTCTTTCAGGAGGAGAAAAAACTAAATTAAAATTAGCTAAGGCACTTATATGTGAAAGTGATTTTTTAATTTTAGATGAACCTACTAATCATTTGGATATTGCAAATATTGTTTGGCTGGAAACATTTTTAAAACAATATAAAGGAAGTTTATTAATTATATCTCATGATAAATATTTATTAAATAAAGTTTGTAATCATACTTGCTTAATTATTAATGAAAAAATACAAAAATATAAGGGGAATTATGAAACATTTTATTTAAAATTAAGTGACTTAAATAAAAATAATAAAAAAGCCTTAAAAAAAATTGAACAAGAAATTGAAAGATCTAAAAAAATAATCAAAGACTATAAATCATGCTTTGGTGGATTAAAAAAAAAATTAAAAAATAATTTATATAAATTACATAAAAAATTACATTCACAAAAAATTGGATCTTTAGATATTACTGAAAAAGAAGTAAATATAAAATTTAATTCTAAAACTTTTATCCAAAGAGAATTTGATTCTGAAAAATATAAAGATTTGGAGGAAGAAAATAGAGATTCACCAGATTTTTTAGAACAAAATCAAAAATATATAAAACCAATTTTAGAAATTAATAAATTGAGTGTTCAATATGGAGAAAGAGTAATATTAGATAATTTAAATGTCAGAATAATACCAGGAGAAGTAATTGCTATAATTGGAGCAAATGGAGAGGGAAAAACTACTTTATTAAATGCCATCTATCATTTTTATAAATCTGAAAATATTAAATTTTATTTAGAATTTAATAGTACTCAAAGTAGATTCCACCAAGATATGGATTTAATTTATTTCGATCAAGAATATAAAAAATTAAATCACAAAAAAAATGTAATGGAAGAATTAGAAATTGATTATTTTTCAGAGGATTATGAAGACATGAGGAAAATATTATCAAATCTATTATTCACACCAAATCAATTAAAACAAAAAATATATACATTATCAGGTGGAGAAAAAGCAAAATTAAATTTTGCAAAAATAATGTTATCTAATTATAATGTAATGATATTAGATGAACCTACAAATCATTTAGATATTAATACAAAAGAATTATTATCTCAAGCATTATTAAATTATAATGGAACTGTTCTATTTGTAAGTCATGATAGAGATTTTGTTAAAGAAATAGCTGACAAAGTACTATTATTAAAAAATGGAAAATTATGGCCAATTGATAAAAATAAATTAAATTAAATCAAAATTATTACAAATAAATCTATAGAAAAAACTATCAATTTCATTACAAATTTTTATTATTTTATTATATTTACTAACTTTATCATCAGTAACTTGATTGGCGATTAAATTTTTTAAAGCAATTAAACAAATTTCATCATTAGAACAATAGCCAATTGATGGACCTATTATCATTTTGTTATTTTGATATGGTTTTAAGGAATTATAATGATTTAAAAAATCTGTTTCAACTTGATTTAATTTAAAATTTAATGTAAATGAAAAGAAAACTATAAAAATTAAAAATGTAATAAAAAATGCTTGACGTAAATTAAAATTTTTATGTTCTGCTGGAACACCAAATAATTCTTTTTTATTGAAAATAAATGCAATTACAAGTAAATTTAATATAATAATCATTGCTGAAAATGGAATTGTAAAAGTTCCAAATTTTAAATTATTATAAAATAAAGAATCAATTAATATAATAATAAAATTAATAGCGTGAATAATATACCAACCAGAAGCAAATTGATAATTCCATTTTTCTTTTTGCATCATTGCATATATTAAAAATAAGGATAAAATAAAAAATACAAAATTTAAAAAAACTCCAAATCTTCCTGGAAAAATAGAAGATAATACTAAAGTATGTGAGAAATTTTCATATAATAAACTTGGTAAATAACCCCAGAAAAGATAACCTAAACCAGAAACTAATGTATAAATAATAAATAAAAATAAACTAATTGGCATTTCTTTTAATTTAATTAAAAAAGGATTAAATGAACTTATCAGATCACTACCAATTAAGCCATTAGCTAACTTATTTTTTGCATTATTTAACTTATCTACTAGAACTGCCATTTCTCCTCTATTTTAAAATAAGTATAATAATTTTATAAATATAGTGGAGAATTTATAATAAAAAATATTTATTTCCAAATTTATTTAGATGCAATTATACCAGAGGTTTCTTCTAAATATTCTACGTTTTTAAATCCAACAGTATTTAATCTTTTAATTACTTTTTCAAATAAGACATTTTTATTAGAATTAATACCAGGACGTGGAACATAATGATATAATTTACCATCTTGTTTTAAAACCCTATATAATTCTTCATAAAAACTAATATTATATAATTCTGTAAAATCATTTCCCGTAGGAGGATCATGTATAATTCTATCAAAAAAATTATTGTTAAAATTAACAATTTCAACTATTATATTTTTATTTTGTATTTTAATATTATTATTATCAAATAATTCGGCTGTAAATGGATTAATTTTAGCTAATTCTAAAACATTTTCATTAATATCAAAGCTAAATACTTCATCCGCTTTTTCACTTAATAATAAACAAGTATATCCAGCACCAAAACAAGTGTCTAATGCTATTCCCTGAATTGGAGAAATAGATTTTAATTTTAATTCTGTATCTTCTTTTACAGTAACTTCTTTACTTCTATGCATTGGGGTAGGACCAATTAATAAAGTTGGCCAAGTTTCAGTTGGTTTTAATTTATACGGTATATCTTTATCATCATATAAAATTAATTTTTCTAAATGTCCATCAATATTTAAATATATAAAATCCGCTTTTAAGTTTAAATCATAATAAAAATCAAAATAATTAACTTGACCAAAAGTAAATTCTTCGTCAACCAATTCAGATCTAATAATTTTTCGAATTACATTTTTATTTAAATGTTCATCAAATTCTTCAGAATCATATGAGGTTATTTTAAATAAAAGTAAATCATCATTTTTGCCTTCTAGAGGTAATCCCAGATTAACACTAATATGTAATTCAAAGCCAATACTTACTTTTATTTTTCTTAATTCTTTTGTAGTTAAATACATAGAAAAACCTATTTATATTTTTTTATAAGTTTAATCATTTATTTAAAATATTCTCTAATATTTGTTTAGCAGTAGATGGGTTTGCTTTTCCTCTACTATTTTTCATAATAACACCAACTAAAAAATTAATTGATTTTAAATCTCCATTTTTATATGCATCCACAGCTATTTGATTATCTAATATTGCTTTTTTGGCTAAATCTGTAATAAAACTATCATCACTACTTTGCTCTAAATCATTTTCTTCAATATATTTGATTAAATCAAAATTAGATTCAGATAATACTTTCTCTAAAAGTAAATTATTTATTTTATTATCAATAATTTTATCTAAATATTTTTTAATTAATATAGTTAAATTGTTTATATTGAAATTTAATTTACTAAAATTAATTTCCATTTGATTTAATATTTTAATAATCCTATTTCTAAAATAATTGGCAACTAACTGAGGATTAAATTTATTTTCATATTTACAATTCTTATTTAAAAATTCATTAAAAAATTCACCTAAATTTTTATCTTCTAAAATAATTTCTAAATCTTCTAAATTTATATCAAAATCTTCTAATATATTATTAATTTTATTATAATAAATATCATCTTTATTACAATCTATCATTGACTCTTTTATTATTTCCTCAGTTATTTTAATTGGAGGAATATCATTTTCAGGATAATAACCATAATCTGCAGCTTCTTCTTTACTTCTTTGAAAAAAAGTTTTAGTTCCATCCCAACCACGAGTTTCTAATTTTATTGTTTCATTATTTTGAACACAATCTTTTTGTCTATTAATTTCAAATTCTAATGCTTGTTCAATATCTTTAAATCCATTTATATTTTTAATTTCAACTCTAGTATAATTTGTCTCTTTAATACTTATATTTGCATCCGCTTTTAATGTACAATTATATCTATCAAAAATATTTAAATATTCTAATATAATAATTAATTTTTTTAAAAACTCTCTAGCTTGTTCAGGTTTTGTCATAACTGGGTTCGTAACTAATTCAATTAATGGAGTTCCACTTCTATTGTAATCAATTAAACAAGTATTATTTGAAATAACCATACTCCCAGGATCTTCTTCAATATGAATATGATGTAATTTTACAAATTCATTTAAACCAATTTGAATTTTTCCACCCATACCAATTGGAAATTCATCTTGTGTAATTTGAAAATTTTTAACCAAGTCAGGATAAAAATAATTTTTTCTATCAAAACATAATTTTTTAGGTATTTGACAACCAATAATATTAGCAAGTTTTAATGCAAATAATACTGCTTGTTTATTTGGATGTGGTTTAGAACCAGGATAACCCAAACAAATATTGCAAACATTTTCATTTGCTTTAATATTTTTACCATGAAATGATGGATTTTTACAACTACAAAATAATTTTGATTGAGTTTTTAAACTAATGTGAACTTCCAAACCTATAATAATATCACTTGTAAATTTCATTTTATTTTATTTGACAGCCACAATAATTTATCTTCAGTAAAATGATTTGAAATTATCATCATACCTGTTGGCATATTATTATCTTTACCTGATGGAATTGATATGTGAGGTAATCCTGCTAAATTAGGACAACAACAATATGTATCAGCTAACATTTCTTCATATGGTGAAATGTTTTTTATTTCATCAATTAAAGGTGCAATCGTTGGTGTACTTGGCCCAATTAAAAAATCAAAATTATTAAAAATTTCTAAATACTTATCAATAATTAATTTTCTCACTCTCATTGCTTTATTCATATATGCATCTCTGTATGATGCCATTCTTGCAAAAGTCCCTAAGATTATTCTTCGCTTTGTTTCTTTTGAAAAATTTTCACTTCTTATTTTTATAAAATAATCATTATAATTTAAATTAGTTGGAATATTTTGAACACCATAACGAAGCCCACAAAGTTTTGATAAATTTGTACTAGCTTCACTTAAACTTAATATATAATAAACAGGTAAACTATATTTATTGATAAAAGAAATATCTACAGTTTCAATTTCTACTTTAATATTTGATTTATCTAAATTGTTTTTTAATTGATCGATCTTATCTTTTACATTATTATTAATTTGATTATTTTCATCTAAATTAATTAATCCAATTTTAATCGTATTATTTTTATACTTAGTATCATCGTTTAATAAATCAACATAATTTTTATTTTCATGTTTTACATTAGTACAATCATTCAAATCATATCCATCAATCATTTCAAGACCTACTGCAATATCTAAAATATCTTTTGCCATAATACCAATTTTATCTAAAGAATTTGCATAACTAATAAGCCCATCTCTACTTATTAGACCATAAGTTGGAGTTAATCCATAAACACCACAAAAACTTGCAGGAGTACTAATTGATCCACCAGTACTTTCTGCTATACTAATATGACGAAATTTTGTTTTAGCTGTAAAACCAGCACAACCACCTGAACTTCCACCACAACTTCTTTTATCATCATAAGGATTTTTAGGAATTTTTTTATCAATCCCTACATTTACATTATACCCACCAAAACCAAATTCATCATGTATTGTTTTTCCTATAAAAATTGGTTTTATATTTTTATTTTTAAAATAATCTTTTGTGTTTTTAATTACTTTCGAATCATTTACAGGAAAATAATTATTTAAAATTTTACTTGATGATCTTGCTTGAGAATTTTTAATTAAAATTGCATCTTTAATAGAAATAGTAATAAAATCCCCATCATAATTTTCATCAATGGGTATTGTTTCCACTAAATAATTAAAACTATTATTAATATTTTCTATTTCTTGAATGACCTCTTTCATTTTAAATTATTTTATTTTAGGACCAATAAAAAAACCATCTTGTATATGTATTGTATTTTTTTTTATTTCAACTTTATTTTCATTAGCAATATCTTCTCTTAATTCATAATTCAAATCAATAGGGTGATATATTGGATTAATTTTATTTGTATCCACTTCACAGATTAAATTAAACATATCCATAATTTCATTTAATTGAATTTTAAATTCATTATTTTCAGATTCAGTTAATTTTAATCTAGCATTTTTACAAATTTGATTTAATAAATTATCATCGATTTTCATTTTTAATAATTATAGTTCCCTCTTTTGAGTCTTTAATTGCATAACCTAATTTTAATATTTTTTCTCTTAAAATATCTGATTGTGGCCAATCTTTATTATTTCTTGCTTCATCTCTTTGTTTAGCTAATTCTTTAATTTCATTTGGAATTTTAATTTCAATATTATATTTTAATAAATTCATTAATTGATCAATTTTAATATAAAAATGATTAAATATATTTTTTATATTATTATTAACTTCATTATTTTCAATACTATTATTTACTAATTTTAAAAATGCTGTAGTTTGACTTATTATAATTGAATTATTAAAATCATCATTTATAGCTTCAATTATATTTTTATTAAAATTATCAATTTCATTTTTTATTTTTTCTTCAATATTATTTTCAATTAAATTTAAATTGTTTAATTTTTGTAATCTATTATATGTTTCAATATACCGATCAAATATTTTTTTTGATTGTATAATAAATTCATTTGAAAAATTAATTTGTTGTCTATAATTATTAGAAATTAAAGCTAATCTGACAGCTCCTGCACCATATTTTTCAATTAATTCTCTTGCCGTATAAAAAGTGCCTTTTGATTTAGACATTTTTTCTCCGTCAATTAACATATGTTCTGAATGCATATAGTAATTTGCATATTCTTTTCCATTACAACATTCAGATTGTGCGATTTCATCTTCATGATGTGGAAATTTTAAATCAATACCTCCACTTTTAATATCGAAAGTTTCACCTAAAAGATCTTTTGCCATAACACTACATTCAATATGCCAGCCTGGAAAACCACTACCCCATGGACTGTCCCATTGCATTAAATGATTAGATTCTGCTTCTTTCCAAATAGAAAAATCTCTTGGATCTTCTTTTTCATCTAATTTAATTGTTCTTTCACTTGCATCTTGTTTTAATTCATCTAATTTATTTCCAGATAATTTACCATATTCGTTAAATTTATTTACTCTAAAATAAACCGAACCATTTTTTTGATATGCAAAATCTTTTTCTATTAAAATTTTAATAAAATCAATTATTTTTTGAATAAAATCAGTAGCTCTTGGTTCATAATCAGGTTTAATTATACCTAAATCCGCCATATCTTTTTTATAATTTATTTCATACTTTCTTGCTATTTCATAAGGATCAATTTTTTCTTTTTTGGCTTGTTTTAATATTTTATCATCACCATCATCAGAATCATCAACCAAATGACCAACATCCGTTATATTCTGTACATGAATTACTTCATAACCAATATACATTAAACATCTTTTAATAAAATCAAATATAATGAAAGTTTTTGCATTACCAATGTGAATATCATTATATACTGTCGGCCCACAAGTATACATTTTAATTTTATTAGGCTCAATAGAATTAAAATATATTTTCTTTTTCTTTAAACTATCAAATATTTGTAAAGCCACAAGTAAAACATAATAGAATTAATTTATAATTATTTTGTTATTTATATTGTTTAAATACTTTTTTTACATTTTTTAAACTAAGAGAACTTAATGCGCCAATATATACATTCAAATGATCTGGCCTAAAATTTAAATATTGATTTAAAGCCATAAAACCACTATTTGCATTTATATCTAAAATCTTATTTATAGGCATCCAATTATAATATTGGGCCTCAATACTATTATTGTTTTTTCCAATTCCAATATTATTTGCTTTAAACATATCTTTTGGCATTTTATAGAAAATAAAAATATTAAAATGTTCACTTTGATATTCATTATTTATAAGATCCGAAAAAAAAAAATGTAATCGTTCCCTTGATTTTGCATTAAAAATAAAATCTCTTTCTTCTTCAAATCCCCTTAAGCAACCTTGTTCATAAGTTTCTCCAATTTTTAATGTTTCAGCAACACTAAATTCTCTGCATCCTGCATATAATTTATTTTCAGATCTTAAAGGAACTAATACTTGCATATTTCTATTTATTATTAAACATAAAGAAGCTCTATGATAAAAATCATCATTTACATTTAATATTTTTTTTTTCCTTATTCTTTTATTACTACTACAATCTTTTCTATAAAATAATAATCTTTTTTTATCTACAAAAATAGGTTTATTTTGATGATCAAACATTTGAATTAATTCTAAATCTGAATTTAATTTAGTTTTTCCAGGTAAATTAATTTTATTATTTACTAAAAAATAACTTATATTATCTATAACTTTTTCTTCTAATTCAAAATTGTCTGAATCAGTATATTCGAGAAATTGATTTATTGATAAATTTTGACTCTGTAATCGAAATTCATTACTTAAATGCGTTTGTGCAGGCATAAAAAATTGTTCAAGTGCTATTATATAATAATTTATCTAATAAAAACATTATTTTTTATTTTCACAATCATTTAAAAATTCATAAACTTTATTCCATTTTATTGAAATTTTATTAAAAAATGAGTCTATCATGTATATACACAGGTAATACATTTATATATATGTTTTGATAACACAATATACACACATAACCATATGGTTATATTTATTTAAAAATGAAACGAAAAATTGTTAGACATGGCCCAAGTTCCCTTACTATTTCACTTCCAATGAAATGGATAAAAAAACATAATATTAAAGCTGGAGATGAATTAGACATTAGAGAAATTAATTCATTTTTAACTATTGGAAATCAAAATCAAAATAATGATAAATCCATATTAATTGATGTTTCTAATATTGGAAAATCTATAAATCGGGTTATAGGATCAATCTACAGAGCAGGATATGATAATGTAAAAATTAAATATTCTAATCCGGAAGAATTTGATGAAATACAAGATGAAGTAGAAAAAATATCAAAAGGATTTGAAATTTTTAAATATAGTTCATCTGAAATACAAATTAAGTCAATTTATCAACCAAATATAGAAGATTTTAATAATGTCCTTCAGAGATATTTTTATGCAATTAAAAATATAGGTGTTGATTTATTAGATACTTTAAAAAAAAAAAATTTAGATTTTTTAAAAACTGTTATATTACAAGATAGAGCAATTGATAGACACAGTAATTTTTTAAGAAGAATTTTAAATAAAGGTTTACAAATTGAATTTGATCGACCCTATTGCATTTATTATATAATAGAGCAATTAGAAATTTTTGCAGATTTATATAAAGAATTTGCAAAATTATATTATTCAAATAGAGAAAAAAAGATTTTGAATGATTACTTAATAATTATAGAACAAATAAATGAATTATTTGATATTTTTTTAAAAGCATTTTTTAATTTTACTTTTGATAAATCAAAAGCATTATTCAATAAAGAAAAAGAAATATATTCTACATTCGAAAAATTAAAAAAAAATCCCAATATAGATGTAGAAACATATAGTCAATTATATTTAATATTTAGATGTTTATTTGAAATTAAATGTGCATTACTTACTGGTTTTTTAAAATAAGATTTTTTTCATTTAGTAAGTTTTATAAGTATATTTTTATGTGTAAAGTTTTGTGGAAAGTAAATTATCAGCACCTTTTTCAATATATTTTCTTCATGGTGCATCATGCTCGGGAAAAAGTACATTACAAACCATTTTAATAGAAGATATTGCTAACAAATTAGGTTCCAAATTATATAAACAATTTTTAGAATTATCTAATATCAAATTTACTGATAGATTAAGAAGAAAAAGTGAAATTGAAAAAAAATATATTATGCAAAAAAATATAGTTGATGATGAAACATTTACCAGATTAAATGATTCTGAAGAATTTTTTATGACATATTCTTATAATGGTAAAAGGTATGGATTTTCAAGTTCTGCCCTAGAAGAACAAATTAATTTTTCACTTCAAAATCCAAATTCACAGTTTCAATATCCCATTTTTTTTGATAATAGTTCTCCAAATTTACCAGTTATTACAAATAAAAAATTAATTGATGAAATTAATGACAAATTATCAGTTCATGAATTAGATCTGAAATTTGATATTAAAAAAATTTTAGTTTTTTCATCACTTGATACAACTCGAACTAAATTTTCATATAGATTTAATGAATCTAAAGGTATTGAAGAATATCTAATAGAACGAGCAGATAATGACTTAGAAGAAAATTTATATTTTTTAAATAAATTATTAAAATATACTCATTTTAGTTGTCCATTTTTATTTAGAGATAGAGCTAAAATGGAAGAAAAACAAGCGGATGATGAAAGATTAATTAGTTGTTTAGACTATTCAAAAAAAATAGAATTTTTACAGGCAGGATACTCAAGAGGAAATTTTGATTCTATGTCCATAATGGAATCGCTTAATTTAATTACTGATAAAAATGAAGAAAAATTTTCAATAATAGGTCTTATGGAAGTATTAAAAGAATATTTTAGTCCTGCTAGTTTATATAAAAAACATTTAATTAAATCAACAAAAAATTCTAAACATAAAAACACTATTGGAAAATATAGTGCAAATTTAAAAATTTATTATAAAAAAATTGCAGAATCATTTTGTAAAAAAATTAAAAAACAATATGAAACATTAAAAAAAAAAAAAACATTAAATCCACAAAAAAATGTTTTTTTTGGTAAGAAAAAAAAAAAATTAGAAAACAAAATTAAAGAAGAAAAATATGATTGTCTTGAAAAATTAATAAATAATTATTTTGACCCAGAATTTGACGTTAATAATATTAATGATAATCTTAAAAGAATATACAATGATTTTATTATTAATTATGCAACATTAGATTTTAAAAGTAATTTTTTTGGAAGTAGACAAACACAAGAATATTTATCTTTAATAGAAAAAGAAAAACTTTTAAAATATAGTTTAGATGTTTATAAAAATTTAGGAATGGAATCAAAAATTATTAAAGATTTGCAAACATTATTAGATGACACTTATGAAAGAAAACAAATTGTGGAAGGCAAGTTAAATAGTATTTTTGATATTGATCGATATGAAATAAGTGAAAAAATAGTTATTGATCTTAAAGAAAAATTAGTTCAAATAAGAGATGAGTTTGATTCTATTTTTAATTATAATAAAAAAAATAGAAAAAGTAATATTAGTATGAAAGATATTCAAATAGTAATCCGAAATATATCTCAATTATATTCAGAGCAGTATATGAGATATAAAAGACATTCGAATCCTGAATTTAATGAACCTGAATATAGATTAAAAGGAAAAGAAAATATTTCTTTAGAAAGGTGGCTTTTAAAAAGAAGAATTAAAAAAAAATCCAAAAAAAAATATACAAATAAATCCAAAATTAAAAATATTAGGACTAGAGATCTTTTACCATTTTTAAAATATTTTGAAACATTTAGAGAAAATGAAATAGTTGAACTTCCAATCTTAATAGAAAATAGAGATAAAGTTTATTCAGACATATTAACTGTTTTTAAAGAAATCATAAGTCAAAGTGATCTTAGAAAATCCGAATCAGTTCATTTAATAAAATCATATACTGAAAATATTTTAAATGTATTATTTAGTTCAACTACAAATACTAAACAATCTTCAGTGAATAAATCTATATTAACACAAAATATTTCATTTATTGAAGACTTAAATAAAATACTAAAAAATTATTCTAAATTAAAACTTTGTCAAATAGAAAATGAAAATTCAGATGAAAAAGAAAGTATTTTATTAGAAACATTATTGAATAAATTATATTTGAAAAATCCATTTAATTTTACTTCTGAAAGAATTATTGCATAAAAATAAAAGGCCAATTCTATGAATTGGCGCCTTTGTATGGAAACATCAAACCCCCAGCAAGGTTTTAAAATTTAATTCCGAATTTTACTTTGGTAATTAAATCCTATATTAAGAGTGTTCAAATTTATATTTAATGATTGCTTGATATAAAAACCCCATACGCACATACAAATAATTAAAATACACATAATAACCACAACACACTATAAATAAATTCATAAAAAATATAACAATTCATATAGTAAAAAAATATAAACTTGTATTTATATAAAATTTCTAAAATTCATTAATAAATTAATTTTATAAAGAAAAAAAAGAAAAAGAATGTGTGGTAAATAACTTTCTTATGAATAATTTGAATGATTTATTAAATTCTAAACCTAAAAGTAATCAAGATATTAGTGAAAAAGGTCAAAAACTAAAAAAAGAATTGATAGAACAAGCAAAAAAAGTAGAAAAAAAAAATACTAAAAAAACTACAAAGAAAACTAGTAAGAAGACTACTAAAAAAAAAACAGCTAAAAAAAAGAAAAATGAATTATTAAATCAAACCCATGATTATTCAAATATTAATAATAATGAATATAGAAATCATTTAATTGATTATATTAATAAAAATTCAGATTTGGGTTTTGACTCTATATCAATTCTAGAACATTTAGTTGAATATGGAGTAGACTATAATTATGCAAATGAATTAATTAATAATGTTAATTTAAGTAAAAATATATCAGAAACTAAAATTGTTGAAAAAGAAGAAAGAGAAATAATTTCAAAATCTCAAAATAATTTTAGATTTTTTATTGAACTATTTATAGTATTTATTATTATTACAATTTTATCATTAATGAGCAATGGAACAATCTATATCGTTGCCATGAGCTTTTTCCCTACAATATTAAATTTATGTTTAATACATTATTATTTTAAAAATAATAAAAATTATTTATTATCAATACCAATTTATTTAGTAATAATTTCATTTTTTTCAATATTATTTAATTATGTACAAATTGGAGAAATATTTTTAAGAAATATTATTGATATAAAGGCAATTGCAATATATAATATAATATTAACTTTTATTTTTCAATTAGTTGAATTTGAAAATTTAAATATAATATTTGCAAATTTATCAAAACATTTCAATTTTCATAAAAAAGAAAATGTAAAAGATCTTAAAATAACATTAAATAAAAATATAAGTATATTAAAAAAGAAAATATTAAAAATAAATCAATTAATTGAATCTACATACAAAATTAATAAAAAAGAATTAAATAATGTATTAATTGATTTAAAATATTTAAAAAAATTAGAAAATATAGACTATAAAAATTTAATATTAAAAGCACATAATTATTTTGAAATATCTGATTTATTAGAAAAAGAAATCAAAAAATTAGAAAATGATGAAAAATTTTTTAATTTAAATAAAAAAGCAGGACACTTAAAAAGAGATAAATCAGGTAGATATTCTATTCTTAGTATCATAATGGTAAACAATCATGATATTGATTTAAAAAAATTATGGGAAGAAATTTTTTTCATAATAGATACTATTAAAGGAGAATTATATAATAATAGTATTTAAAATGAAAATTGAACAAGATAATTATTATAATGAAATTAGTGATGGATATAATAATTTATACAAAGAAGAACAAGATGATAAATGTAAATTTATATTTTCAAGATATAATTGGAACGAATTATTTAAAAATCTTGAATTAAAAGAAAAAATAAATATTTTAGATCTTGGTTGTGGAACTGGAATAAGTACATTAAATCTAATTGAAGAATTAAATAAATATAAAAAATTTAAAGATAAAAAAATAAATATAATCTTAATTGATCCAGCAAAATTATTATTAGAAAAAATAATTTTAATTGAAAAAGGTGAAATGTATCATGATCCTAAAATGGAAAATGAAAATTATACTGTAATAGATTTAAATGAATATGAATTAGATATTACTATTTCTAAAATTAATATGTATGGAGAAAATTTAAATGATATAAATTTTGAATGTGATTTTTTATTTTCATTAACTGCATTACAAAATGTAAGTAATTTAAATAAAATAATTGAAATAATAAAAAATAAAAAAATTAAGAATTTTATTTTATCATATCTTTATCGAGGAAAAGAAAACGAACTTGACAAAGTTATAGAGTTATTTGAAAAATTAGAATTTAAAAAATTATTAAAAAACAATAAAGACATTTTTTTTGTAAAGTGATGATAATTATAATGCAAAATAAATACATTTATAAATAAAACTTAATGCCCTCATTTAATATGGTTCATAAAAATTTAAATCCAGAAGATATTATATCTGAAAAATTTGAAAAAATTCTAGGTCAAAACGAAGCTAAAATTCAATTAAAGTCTGCTATATTAATGGACAGACATGTAATCTTGGTAGGTCCTCCAGGAGTTGGTAAAACAAGTTTTGCAAAAAATGTTGCAGAATTATTAAAATCAATTAAAGCAGTTGATTGTTCTTATCATTGCAATCCAGAAAAACCTATTTGTCCTGAATGTTTACATAAAATAAAAAATAATGAAAAATTAGAAATAGTTGAATTAAATGGTAAAGATAGATTCATTAGGGTACAAGGTTCACCAGATTTAACTGTAGAAGATTTAATTGGTGATATTGATCCAATTAAGGCATTAGAATATGGACCATTATCCATGCAAGCATTTACACCAGGTAAGATATTTAAAGCAAATAGAGGATTATTATTTTTTGATGAAGTTAATAGATGTCCTGAAAAATTACAAAATGCATTATTACAAATATTAGAAGAAGGAAAAGCAACTATTGGAAATCATGATGTAGATATTGATGCAAGCTTTATTTTTATTGGAACAATGAATCCTACTGACTTTGCTGGAACACAATCATTATCTGAAGTTTTTTTAGATAGAACAGATTTAATATATGTAAATTATCCAGAAACTAGAGAAATTGAAATGCAAATCTTAGATGAAAATACTCAAGAATTAGATTCAATTGAAATGCCAGAAAAAATATCTTATTCAATTGTTGAATTTATACAAAAATTAAGACAAAGTGATAAATTAGAAAAACAACCAAGTGTAAGAGCAAGTATTGGATTACATGAGAGAAGTCGATCATATGCAAAATTATGTAATTGTAATAAAGTTGAAATGAAACATGTTGAGTTTGTAATACCTTCTGTTTTAGAACATAGAATTAAATTAAAACCAAATTATAAATTTTTAATGAAGCCAAAAGATTTTTTAAAAAAAGAATTTAATGACTTTAAAAAAGAAGGAAATAATTATGCAGGAATAGCACCTAAAAGAGAGAAGAGTTCTGAAGTTCCCTGAAAATAATGATTCTAAATTAGAGAAAGATAAACACGAAAGACAAACAACAACTAGTGATTTAACTAAAGGATCTGAACAAGAAAATGAAACATTTAGTGATTCTGATAAAAAAGGTCTTGCAAAGAGTTTAATCGATGATGATGGAGGTTCTTTAGAAGATGCAACATTAATTAATAGTGCAATAAATCAAGGTATGGGGGCTTTCACACCTAATATGATGTTTGAAAAAATGGTTAGTAATTTTAGAAATTCTAAAAATATATATGGAGAAAGTATGATTAGGGCAACTACTGGCTATGACAGTGAATATATTGATAAAAATATTAAATATCCAGAATTTCAAAGAGAATTAGAAAAAAGAATGAAGGATAAAAAAGATGAATTTAAGAAAAAGAAATTAGTTGATAGTAAAGGAAATTATACACAAAAAGCAACTGAGTTAGCAGTTTTATCTATGTATGCAACAGAGTTAGATAATTTAGAAGCAATTGATAATATCCATGGAAAAAAATTCACAAGAAAAATGGATAAGTATGGAGAAAAACAAGAAATTACAAATTATAAAAAGGGTGCGAGATTTAGAGATATTGCAATAAGACAATCTATTAAAAATCTAATTAGACATAATCAAAAAAAATTAAGTCTTGAAAATATGAAAATGTATGAAAGACAATCTAAAGGAGTCTTAAATATAATTTATGCTATTGATACAAGTAGTTCTATGAAAGGTAAGAAGTTAGAATCAACAAAAAAGGCAGGATTAGCACTTGCGTATAAAGCAATATCAAATAAAGATAAAGTTGGATTAATTGCATTTGCAGAAAATATTATTACAAGTATTGAACCTACAGATGATTTTTCAAAAATTGTAAATGGTTTGACATTATTAAAACCAAAAGATGAAACTGATTTTGAAAAAGTTATTAATGAAGCAATGAGATTATTTCCAGAAGGAGATGAATTAAAACATTTAGTTATTATAACAGATGCAATGCCTACAGCAGGAAATGATCCCGTTCAAGACACATTACAGGCAATTTCAATGGCAAGAGCTGCAAATATTACTATTAGTATAGTTGGAATGCAATTAGATGAACAAGGTGAAAGTTTAGCTCAAAAAATAGTTCAAATCAGTGAAGGAAAATTATACAAAGTTCTTGAAACTGAAAATTTAAATCAAATTGTATTGCAAGATTATTATGCATATGAATAATTTTTTTATATTATAATTAATATTTTAAATAGTTTTATCCCAATCTGCTAAAAGAATACCATCTGTTTTTAATACTCTTTTAATTTGAGGAACTAAAATATATTTTAATTTTTCCGTATCACCTTTCATCATTTCTAATTGAGGTGAATTATAAAGTAATTTAGTATGGACAATGTCAATAGAATTATCATCTATCATAGAAAGTGAATTTTCTAAAAGTAAATTAACTCTATCATAATGTTCAAATTTTTCACCCGTTAAAGAACCATAGTCAATCCCTATTGGATGAGCACCTAATTCAAAAAGACCTCTACAAATCCAAGGATAAAAAGTATATTTAGAAATTAAATCATCATCACATGCAGAAATATAATTATCATAAGAAGTATTAAAATCACTTGATACTGAACCACAACCTAAATCAAGAATTTTTTTACCTTTATAGTTTGGTAAATGATTTAAAATCTTTAAAATCCCAAGCTTCATCTCTGTAAAATCAAAATTATCACATTCATATTGTTCAGATAATTTATCATTTAATGAAAATACTAATTTGTTTAATTCCATTAAGGACCTGCACATAGAAAATTTATAAAAGTTCCTAAAAAATTAATAAATATACTATAAAATAAAATTATTTTTCAATTTTATGAATTTTTAAAATTTTAACTTCAAATTTTAAATCAGAATCAGTTAAAGGATTATTAAAATCTAATTTAACTATACCATCTTTTATTTCAATTACTTTAGCATAATGAAATTTATTATCTTTACCCTTAAATGAATAAGTATGACCTACTTCATGAAATTGTTCAGGTAAGCTACTTTGATATATAGACTCAATTAATTTAGGATTAGATTTACCATAAGCATTTTCAATAATAAATGTTTTTTTTTCACCTTCAAACATTCCAATTAATTTTTCTTCAAATGATTTTAAAAGAGTCTCTGAACCAACTTTTACTTTCATTGGATCCTCAATCGTTTTTTGATCCACAATAGTTCCATCTTCAAGTAAAGTTTTATATGAAAATTCAATATTATCATTTATATCAACAATTTTTTTTTCTTTTTTATATGGTTCTAATATTTCATCAATAAATTCATCATTATGCTCAACATATTCTTCTTCATCTAATGAAATTAAATCATCTTTTTCTAAATCATCAAAATCTTTAAAATTTTCATCCATTAAAAACACCCATTATCATATAAAATAAACTAGACCAAATTCCCCACCCATCAAAAAATGGTAGTGGAATTATATTAAAGAAAAATAAAAATTTATTTATTCTGCCAATATTTCCAATAGTAATTTGAGCTGAATGTTTTAATTTCATCTTACTAAATAATAAATATTGACATAATTTCCATATAATTAAATTTAATAAAGGACCAGACACACTAATTAAAAAATTATCCAAATATGTGAATACACCACTAGTAACTACAAAAGCAGGAACTATAAATGTAAAACCAAATGCAAATTTAAATAATAAAGACATAAATAAACCCTGAGTACTAATATCTATTATGGCACTAAAACCTAATGCTAAACCCATTAGTTTATGACCAATTTCATGAAGTCCAATTGATGGAATTAGAATTAAAAAGGTATAACCTATTAATTTTAATTGATATGGATCTGAAATAGATTTAATGTCTCTATAATAACTTTCAGAATATGAATTAAATCTATGAGTTTTCTCAATCGGTAATTTAAAATAATCTTTTAATATAAAAGCAGCAACTAAAGTTCCAATTACTATTTTTATAATTTCAATAATACTAAATACCATAACTTAACTGTTTTTTTTGTATTAATAAAATTATTTATTAAAATGACAAAAATAACTCAATTTATAAAAAAATGTCATTTAAAAAAGAAATAATTATAAAGCAAATAGATTTTTTGAAATATTGTTGAGAGTAATATGGGATTGATAGATAAATACATTAATTTTTTTGAAAAAAATTACAAACTATTAATTATAATTCCATTATTATTATTATTTTTCTCATTTTTAATTATTGGACAAAATTATGCCAAAACTAATAGTTTTGTACAAAAAGATGTAAGTTTAAAGGGTGGTATTAGTATAACTATAGATAATACTAATTCACAAATAACCGATTCTATTGAAAATCTAGAAAAAGAGTTAGAATCAGAATTTGATTATGCAGATTTTAGCTTACAAGAAATAATAAATCCAAGAAGTGTCTTAATTCATGCCGCAGATATTGAAGAAGATAAAGTTAAAAAATTTTTAGAAAATAAATTTGGAGAATTTGAAAAAGAAAATTATAATGTAAAAATTCAATCATCACAATTTGGAGAATCATTTTTTACTGATACATTAATTGCAATAATAATTGCATTTTTATTTATGGGTATAATTGTATTTATTTATTTTAGAAAATTTGCTCCATCATTAGGTGTTGTACTTTCGGCATTTTCAGATATAATTATTACAGTTGCAGTAATAAACTTATTAGAAATAAGATTATCAACAGCAGGTGTTGCAGCTATTTTAATGATTATTGGTTATTCAGTGGATACTAATATTTTATTATCAAGTAAAATTTTATCAAAATCTGATGAAACTTTTTCACAAAAAATGTCATATACTATGAATACTGGTTTAATGATGACATTTACAACACTAGGGGCTTTAATTGCAGGATTATTATTTGCAAAGGCTCCAGAACTAATACAAATATTTACAATTCTATTAATTGGATTATTAACTGATCTAATCATGACTTGGATTCAAAATGCAGCAATATTAAAATATTTTTCAGAGGATAAAAATGAATAAAGAAGTTTGGAAAAAAGCATTATTAAATTGGAGAGTATTATTATTAATATTTTTTATTTTTATTAGTATAATTGCTATAAGACCAAGTTTATTCGAAGAAAAAGGAGTTGCAGTAAGAGCGATTTCACAAAATTCAACTTTTGCTAATGGTGGTTTGATTTCACCAAATGCTGAAATAAGTCCAAAAGATAGACAAGTTATTATTGAAATAAATAAATTAGATATTATTTCACCTGAACAATTTTATTCAATTTTATCAAGACTTGAAATTGGAGAAACATTTACATTTAAATTAAGAGATGAACAAATTCCTAGAAGTACAACTATAATTCCATATTATGAAACTAAAGAAATGTTAGAAAATGTTACTGAAACAATTAATATTACAAGTGAAGAAATTGTAAATGGAAGTTTAAAAAATATAACTAAACAAGTTGATCAAATTAGTGAAAAATTAATTAATAAATCATTTGCAACAAATAAAGCAAATTTAGGAATAAAAGTATATGAACCTCCTATGAGTAATATTAAAAAAGGTTTAGATTTACAAGGTGGAACATTTGCATTATTATCGCCTGAAGGAAATATTACAATTGAAGAATTAGATTTATCAAAAAATTCATATGAACAAAGATTAAATGCATTTGGTCTTTCAGATATTACAGTTTCAAGTACTACAGATTTAGTGGGTAATAAATATATTAAAGTTGAAATTGCTGGTGCAACTGATGAAGATATAGTAAATTTACTTTCAAGTCAAGGTAAGTTTGAAGCAAAAATTGGTAGTGATATGTTATTTCAAGGTGGAAAAGATATTACATTTGTTTGTACAACACCACAATGTTCTGGAATTAATCAAAATGTAGGTTGTCAAAAAATTGGAAATGGTTGGGAATGTGGTTATCAGTTTTCTATTGAAATTACTCCTGAAGCAAGTATTAGACAATATGAAGTTATGAAACAATTAGATATTGTAGATTCACAATTATCAAAACCAATTGATTTTTATTTAGATAATAGTTTAGCTAGTAGTTTACCAATATCAGCTGGATTAAAAGGTGTAAGAACAACAAGTCTTTCAATACAAGGTCGTGGACAAGGACCAGATCAATTAACTGCCAGAGATAATGCAATTTTAGAAATGAAAAAAACTCAATCTATTTTACAAACGGGTTCATTACCTGTAAAATTTAATATTGTAAGTATTAATCCAGTGTCTGCAAAACTTGGAAATGAATTTTTTAAAAATGCAATTTATGTAGGTTTACTTTCAATATTGGTTGTTTGTTTAATTATCTTTATCAAATATAGAAAATTAAAAATTGCACTTCCATTATTGTTTACTTCTATTTCTGAAGTAATTATATTATTAGGATTTTATGCAGCATTTGGAAATAATTTAGATTTAGCTGCAATTGGTGGTATAGTTATTGCAGTTGGTACTGGAGTGGATCATCAAATTGTTATTATTCAAGAAATTTTACAAGGTACTGGAAATAGAATATTATCATGGAAACAAAAAATTAAAAATGCATTTAAAGTAATTAGTGCAAGTTATTTAACTACAATTGTTGCAATGATTGTATTAATGAGTGCTGGTGCAGGATTATTATTTGGTTTTGCATTAACAACTATTGTAGGATTAACATTCGGAATTTTAGTAAGCAGACCCGCTTTTGCACACATTATTGAAAGTTTAATGAATGAAGAGAATAATTAATATTTTTTAATAAAAATTAAATTTCAAATTGATGTAAAAAATCTTCTTCGGCAAAATGTAATTTAGAAGGTATAATAATACAATGAACGGGTTTTCCAAAATCAAAATTAATTAAATCTTTAATTTTACCAAATTTAATAACTTCATCATCCGCACCTAATCTTGCACAAACAATTATATTAGTATCATCATTAATTTCAAAATCTAAATCTTCTTCATCTAATAGTTTATTACTAGAATTTTTTAAAATATTTAATGCCTGATTTGCTGTTAAAAATTTATTATTTTGTGGATCTAAATCTAATAAAAATAAAGTATGTGCATCAATTGATTGATTTTGATTATATATTCTTATTGGAGTTGTTATTTTATAATTTTCTTGTTCAAATGGAACTGAAGTTACTTTTCCAAATTTATACAATTGTAAACCTGTTTTAGAAATTGCAGTAAAAACACTTGCATTATGAACTACTTTAGTTTCAATTTGTAATTCTTTTGCCCTCATTAACAAATCACAATGTGTTGTTGCAGATAATGGATCTCCAATAACTAAAAGAGAAATATTATTTTCTTTTGATTTATTTAATATTAAATCTTCAATTTTATTTTCAATATCATCCCTATACAAAACATTTACTTTTTTATTAAATAATTGTTCTAATTCTTCAATTGAATTATGAATTAAACAAGTATAATATTCTATGTATACCTCATCACTATTTTTAATTAAATTTAACCCTTTTAGACTAATATCTAATTTATCATTAATTCCAATACCTATTAAATTTAATACCATAAATCAATCAAAAAAGTGTTATTTAAAAATATATTTAAAATAAAAAAAATTAATCAAAAATTACTGATTTGTAGTCCACTTCATTTAATATGTATTTATTAATTAAAGATTGAAAATCATCAACTGATTGTGGTGCACCATGAATAACTTGTTCATTTATTAAAATTGTAGGTGCAGACATAATAGCACTAAGATTATTTTGAATTAATATATTAGATTCATCATTTTCCCACAAGGTTACATTTAAACAAGTATTAAAATCTTCAAAAGTAATATTAGTTTTTGCACGCACAAAATGCATTTCAGGTATTAATGTATTCATTAAATAACTAAATTGTTTATCCTTATCAGTATATGCCTCAGCTCTTTTACTTTCTTTCTTTAATGTTTTTTGTAATTTAAATAATTCATCTTTAAAAAAACTAAAATCCCCACCTAATTTAACAAAACATTTTGCTGCTGGAATCGTAATTTTTGTATTTTTGAATTCATCAATAACTAAAAATCTATCATAAAAATGTATTTTATTGACATAATTATCATCTAAATTTAATTCAACATTTTCATAAAAACTTTTACAATGTTCACATTCAAAATTAAAATAATTATATACCCTTAATGGACTAGATACATTTCCCCATTCATTTTGATAATAATGATACAAAGGCCATTCATATCTTAATCCATAATTATGATATTGTTCTCTTAAAATATATGTGAAATCTGTAGTTTTCAACAGGAAATTTTCAAATACATTAAAATTTGCAGCTTTCTCTACAGCTTTATCAAAAATATATGCAGGAAAATGTTTTAAATTCATACTACTAATCATAGTTTTTGCTGTATCTGATTCCATATCAATTACTTCAACAACTATATTTGGAAAATAAAAATCTTCAATATTTTTAATTACAGATTCATGATCACAAAAAAAACATTTATCAGTTGTAATTACTACTATAGATATTAAAGGATCTATATCTTTTAAATCCGCAACATCTATTCTTTTATTTAATTGTTGTTTTAAATTAATTTCTGCCAATTTTATTAATCTTAAACGTTCTGCTTGTGAAATAAATTTATATGTTATATTTTTTTGATTTAATGCACTCAATACTTTTTCTTTAATAGTATCAACATTAGGTTCAACATATTCACCTTCTACTAAAATCCAAGGAGTTCCATTAACACCCACATTTTTAGCTTTAATTGAATGATCAAATAATTCTGCTTGCAGTGATGGAGATTCCATACATTTACTAAATTTATCTTTATCAAAATCAATTCTATCTAATTGTTTTTGAATTAATTCTTCACTAAAATCATATTGATTATTAAACATTCTAGATTTAAATTCTTGTTTTGCAAGTTCATTATCTCCTAAACAAATAAAATATTCAGCTAATTGTTTTGCAAATTCATGTTGAGCTAAAGGAAATTGAACATATTCTATTTCAATTGCTTCAATAAAATTAAATTCAAATTGTTTTAAATCATCATTTAATTCTTTACATGCAGGACATTGAAAGTCAATAAATTCAGTTATTTTAACTCTTTCAATATCATCATCTAAAATTAATACATAATCTTTAATCCCATCATCAGATTTATTTAGACCAGTTTCATTTCCAATAGTTTGATTAATTGAATTTCCATCAACAATTGGATTTGTAAATAAATAAATAAAACTAATCAAAATTATAAGAGAAATTACAAATAAACTTTTTTTTAATGTATTTTTATTTTCATTATTGTTTTCATTATTATTATAATTATCAATAAATGTACTTTTTTCTTTTACTGGCGTATTTTCTACAGTTTCCTTATTTTCTATATTTTCATCATTATTCTCTAAATCTTCAGATTCATCACTTGCTTTATGAAATTTAAAATTTACTTTTGGTTTCTCAGTCATAATATACCTCTTATATCTTAAATAATGATTTATATAAATTATTTAAGAGACTTTCTATTTTATCCAAACTAAAAAATATATTTTAAAGTCAATAATAATAGCAAATTGTTTATAAATTAATTATAATGTAAAAAAACATGATAGATTATGATAATAGAATAATCAAATTTAAAATTTCTATTTATGAACATAATACTTTTTTAATTGATTTATTATTAAAAAAATATGAATTTTATTCAAGGGAAGAATGGGAAAATTTTATTGCATTAGGTAATTTGAATATTGATGATAAAATGCAATTAGAAAATATTGCTGTAAAATTAAATCAAGGAATAATATTAAAATTTCCAAATTCATATGAACCTAAAGTAAATAAAAATTATTCGATTTTTTATGAAGATGAATTTCTTTTAATAATTAATAAACCAAGTAATTTACCAATGCATCCAACTGGAAGATATCATGGTAATACATTAATTAATTTATTAAAAAAAAAATATGATGAAAATTTATGGATTGTAAATAGATTAGATAGAGATACTAGTGGACTTTGTATTATTGCAAAAGAAAAAAATGTTTTAACAAATTTACAAGAACAGTTTTTATGGAATAAAGTTAAAAAAAAATATAATTTAATTGTAATTGGAGAAATTAATAATAAAGAATTTACAATTAATAAAAGATTAAAAGATATAAATTCAAAAACAACTAATAAAAAAACTATTATTGATCCCTATGGAAAAGAAGCTGAAACATATTTTGAAGTTGTTGAAACTAATAAATTTACAATACATGAAGGAAATATTAAATATCAATATCCATTTACTGTATTAAATGCATATCCTAAACAAGGGCGAACTCATCAAATTCGCGTTCACATTAGTTCCGTTGGTTATCCAATATTAAATGATAAAATTTATTCTAAAAATTTTTGTATATTAAATGAACAAATGTATTTAAAATGTACATATATGAAATTTGAACATCCAAAAAAAGGAAATGTTGAATTTAAAATTCCTGATTTTGAATATACAGACTTACAATTTTAAAATGGAAAATAATAATAATAATAATAATATAGACGGACAAATAATAGGTGGAGATTTTACTGCAATTAAAGTTAGACAAAAATCAAAAACTAATTTTGAAATTGGTGAGCTATTAATTTGTGAAGTTGAAAATAAAAAAATAATATATAGAATTTTTGATTTATCATTTAGTTCACAAATTAGTGATCAAAATTTAGAATTAATATCAGGACTTAATTTAGAAAAAGATATTGATCATAATATTATTGAAAATGATTTGCGGAATTATATTACAGCAGATCTTCAAGCATTAATTGTTATAGAAGGTGATGGGAAATCACATGTTTGTAAAGTAATGCCATCAATGTTTAATTATATAAGACGTGTTTGTGAAAATGATTTTGATTTTTTTTCAAAAGAATCACATTATGATTCAATTAAATTTGGAAATTTAAGAACTGGATCTAAAGAATTAAATGTACCAATTTATTTAGATGGTAAAGATGTTTATTCACATCACATTTTAATAACAGCAACAACTGGAAAAGGTAAAAGTAATTTAGTTAAAAATTTATTATTTGATTCCTTAGATAAAACATTTGTTTCAAATTTAGTTTTAGATCCACACAATGAATACTTTGGTGCAACATCACTAGGCCTAAAAGATCATAATATGGCTAAAACTTATTTGAAATTTTATTCTAATAATAAAGTAAATTATAATATAAATGCAAATAGCCTGAAAATAAATTTAAAATTAATACAACCATTACATCTAAGAGGAGTAATTACTTTATCAGATGCACAATGGGAAGCAATTCAATTAATTTATTCTAATTACAAAGAAAACTGGATTAATGAAATCTATCACGAAGATTCAATAAGGGCATTTTTATTAAAAAGTAAAATTCAAGAAGATACATACAAAGTAATTGTAAGAAAGTTTACCAATTTATTTTCATGTTATTATAAAAATGATAAATTATATTCTAAAGGAATTTTTAGTATTGGAGAAATTGAAGGCTTAAGTTTTATTTCAGATATAGTTAATCACATTGAAAATAATAATACAATTATTATTGACACATCTTCAGTTGCAAGTGCAGTTGAAATATTAATAGGTTCTTTAGTGGTTAGTGAAATATTTTCCAAATACAAATCATATAAAATGTTAGGGGAATTAGACAATAAACCATTAGTAAATATTATCCTTGAAGAAGCTCCAAGAGTAATTGGTAATGAAGCATTAAAAAAAGGATCTAATATTTTTGATACAATTGCAAGAGAAGGAAGAAAATTTAAAGTTGGATTAACTGCAATCACTCAATTACCAAGTTTAATTCCAAAAACAATTTTAGCAAATATGAATACTAAAATTATAATGGGAACTGAAAATCATGGAGAAAGACAAGCTATTGTTGATTCTGCAGCTCATGATTTAAGTAAAGATGGAAGAAGTATAGCATCATTAGATAGAGGTGAAGCAATCTTATCAAGTAATTTTGCAAAATTTGCAATTCCCATTAAAATTCCATTTATTGATACAATAATCAAACAATCCAAAGAAAAAATAGAAAAAGAAAAAACAAATATATATACTAATCATAAAATAGATGAAGTCAAAAAGAGTTTCTCCGGTATTGATTTAGATTAGTATAGATGCAATACCTAATAATTTATTATTAAAACCAAATTAAAACGTTAAATTTGATAAAAACCATTAAAAAATAAATACCCAACGTTATAACATTTCATTAAAAATATAATAATATACAGACTAATTACATTTACTAGGAAATAAAAAAAACTAGAGCATAAAACAATATATTAAGGACTCGATTGATGTCATCGTAATCGGATATCAAAGTAAAGAAAAGTAAGCAATATATATCAAGGGAAGTGCTAGGATATAAAATTGTTATAGGTTCTGAAAAGAGCACAGCCAAAAAATTTAACATAGATAGTATGTTAAAAACTTAACGTCAGAACTTGAGGAAGAGCGATCGAAAATCGAACCCTATTTTTTATTTTTTTTATCTTTTTTTTATAAAAGATAATTTATAATCAAACATTTGAAGAGATTAAGGCATTCTATGGCCCCTAAAGGGGTCATATTCTTTTTCTTATTGACCAATATGTGACAGAAATAAAGATTAAATCAATTATTATTTTATTAAACAAAAAAATATTAATTATTATATATACTTAAATGTCACAAAATGAAAACTGATCCTTTTACAAATAAACCGTTAAGAAATTTACATCCATTAATTAAAAATAAAAAATTTGAATATGAACCATTAATTGATGAAAGAAAATTATATGATGGTGAACCTTTTTTTCACCATGGACATTTAGCAACTACAAAAGATATTGGTAAAACAGTAGTTGATCACGGTGCTGAAAAAAATATGATTTCTGCTATCGAAAATGCAGCAAAACAAGGTGCAAGATCAATAGAATTAACACCGAATGCTTCAGGACAAGCACCAGGTCAAGGAATTGAATCAATAGGAACTGAACATAGAAAACAAATATCAGATTTTACAAAATTAAATAAAATGTGTGTAACGGGAGTTCATGTAAATCCATCACAAGTTGGAAATTTATCTGGTTTTAATCCACAAGATAAAACATTTAGTGAAAAATATAGAAATTATCAATTAAGCGAAATAAAAAAAGGTATTGATTTTAATTCCGACATTCAAGGAGGAGGAGTTGTTTTTCATACAAATGAATTTGCAAGACATAATTGGTCTGAACTTGACAATTTAGGAAATGATATAGAATTTGTACCACAAGGTCAAGATAAACAAAATTCAGATTTTATAATTGTAGATAAAAGAACAGAACAAGCACAAACAGTTCCACAGAATTATGAATTTAATGATATAGATATAAAAAGATCAAATGATTTTAAACAACCATTTGAAGTAAAAATAGAAAAAAAAAATTGGAATGAATTAAAAAAAGATTTTAATCAAAAAGAATTAGAAAAAGAATTAAATAAAAAATTCCAGAATGAAGAAAAAATAATTGATCCAAGTTTTTCACAATCCATATTATTTAATTTGAAAAAAAATGAAATCAATACTATCAATTCTCAATTAGAATATACAGAATTTAAATTAAAACAATTAAGTACACAAAAAAATGAATTTAAAAAATTACATGAAGCAAATTTACAAGTTGAAACAAAATTAACTAAAGAAGAAAATAAAAGAATGAAAAAAATATATCCTGATTTAGAATTTCTAGGAGAAATTAGTGAATCTGAATATTATAATTATAAATTAAAAGAAGCAACAGTAATGTTATCAGATACTGAACAAAAATATGGCGAGTCACATATACAAAAAAAAAGAATTTTTGAAGATATAAATAATGTAAAAAGTGGAGAAGAATTTGGATTTGAAAAGTCAGTAAATTCTTTAGTGGATTTAGCAAAATATGCAAAGAAAAAAACTGATGAAAATAAAAATATTGAAAAACCAATTTTTTTAGCACCAGAAAATATTTTTCCAGATAATGGTTTTGGGGCACACCCTCAAGAAATGAAAAAATTGATTATTGCAGCAAGACAAAAATTTACAAATGAATTATTAAAATCAGGTAAATGTAAAAATTATAAGGAAGCATTCAAAAAAGCAAAACAACATATTCGTTCAACATTCGATACACAACATATGGGTATGTGGTTTGCAAATATGAAAGATAAACCAAATGAAACATCAAAACAGAAAATTAAACGTTTTAAAAAATGGTATATTGATCAAGTAAAAGATACAAGTAAAGAAGATATGTATGGGGGGATGCACATTGTTGACGGTTTTACGGGACATACACATGTAGATTTAGGACAAGGAATTCACCCAATAAAAGAAGCAGTAAAAATAATTTCAAATAATACAGAAGGTTTTCTAGCATTAAATAGTGAAGCATATGAAGGTGGAGATATGCTAGAAAAAGTTTGGGATTTTTTTGCAATGCCAATGAGAGCACCAAAAACTGGAATTGAAGCAGATGCATTTGCTAAATCAGCATCCATGTCTACAATAGATTCTGCGTTTGCAGGAATTCAAATGCATAATGATGCAAAAATTGTAAAAACAAATTCAACACCAACAATGTATAATTCGAGTAAATCACATCCTCAAGAAACTGATATGAATCAAATTCAAAATTGGGATGGACTTCCATTAGAATAATAATATAGTTTAAACCACATATATTTTTAAATAAAAATTAAAAAAAAATCAATTATGTTATTAGAAAATATGTTATTAGAAAAAAATGATATTCAGTTATTTTCAAAAGAAATATTAAATTTTATTGAAGAACAAAAAATAGGTAGAATCTCAGATTTAAACAAATTGATAGAAGCAGATAAAAAACGCTATGAATTGGATAAAGATCAACATTTTATAGAATTATCAACATCAGATAAAAAATATTCAATAGTATTTAACCTTTCTTATATAATTACAGATTGTGGAGTACCATTTGAATTAAAATTTAATCCTGAATTAAACTATACCATTACTTGTCTAAAATCAATTTATATTTTTGATGGTTTTAATAAATTTAATGTGGGTGGAATGCCAATGGTAGATGAATCTGGAAATTTCTTTCAATCAAAAGAAATACCTACAATTCAAATTCCAGCAATTAAACAAGAGTTAGAACTTTTTTACCAATTATAGTATCATTAGAATAATTATTATCTAATATTCATATAACATACGATATGTTTATAAAACAAATTTACTCATTCTATAATAAGAAAGTATGCAATTAGCATTATTCTAATTATGAAAAAGAGGATTAAAATGGCTGTTAAAAAAAAAGTTTCGAAAAGATCAGGCAGATCAAGTAGAAAAAAAGCACCAGCGAAAAGAAGTTCAGCTAGGGTTTCAAAAAAAGCTCCAGCAAGAAAAGCTGTGTCAAAAAGTTCAAAATCAAGAGCTAAACCACCTGCAAGAAAAAGCAGTAAACCGGCTTCACCAAGTAATGGATATGAAGTAGGAGCATTAGCACTAAGATTAGGTTTAGGAGTTTACTTTTTATGGGTAGGCCTTTTATTAGCATTAAATAATGGATTTCAAGAATTCTTTAGTTCAGTTCTTGCAAGTTTAAATGCGTCACCAACATTATTTCAATTAGCATTTATCGTACACTTAGTATTAGGGTTTTGTTTAATTCTTGGATTATTTACAAGATATGCAGGTTTATTGGCATCAATAATAACCTTAGTGGCATTATTTACTGCTTGGGACGGTGTGACTTCACTTTTAACAGGTGCAGGCATTGTTTACATGATTAAAAATCTTGTAATAATCGTTGCTGGTTTTAGTTTATATAAAACAGGTAGTAAAGAAATGAGCGTTGACTACGCTCTTTAATTTTTTATTTTTTTTTACAATTAACTAATTCTAAAATATATATAGAAAAACATTATAAAGATCATTATAATTAACTAAATATGATACAAGAGCAAGTATATGAGCTAATTATGAAAGAAGATGATATATCTTGGCAAGGTATGTTATATGATTTAGTTAGACAAGAGGAAATGGATCCTTGGAATATTGATATAGCAAAATTATGTGATAAATTTGTTAAAAATGTATTAAAATTAAAAGAAACAAATTTAATGGTTTCTGGAAAAATTGTTTATGCTTGTGCACTTTTACTTAAAATTAAATCAAAATATTTACTTGAAAACGGCCTTAAAGGATTAGATAATTTATTTGACAATATTAATGGAACAAATGAAACATATGAAGAAGATGATTCAGAAATTGATAATACAAATAAAATAAGAGCAAAAGAAATTCAAAAAAAATTATTTCCAAGAACTCCACAACCAAGAGAAAGAAGAGTTAGTATTTATGATCTAATTGATGCACTTGGTAAAACTTTAGAAGTTAAAAATAAATTTATGCATAAAATAATTCCAAAAGTTAAAAGAGTACATATTCCATTAAAAAAAATGGATATTTCATTATTAATAAAAGATGTTTATAGAAAAATAAGAAATAATAATGATGAAAAATTAAACTTTTCACAATTATTACCAGAAAATGAATTTGCAACTAAAAAAGATAAAATATTTACATTCATGCCATTATTACATTTACATAATTTAAGAAAAATACATTTGATTCAAAAAAAAGATCAAAATAATGATTTTGAAGTTTTACATTTAAGAAAAGGAATTAATGCACCTGAAGAAGAATATGAAATATTTAGTGAAAAACAACAAAAATTAAAAATAAATGTAACTAATAAGTAATAACAAAAACAAACAATTATAAATATTAATTGAATTCTACACCGTATGATATTAGAAAGAATTTTAGCGTTTTGTAACAAAATTCAAAAAAATGAAAAATCCAGAAATTTTGTCGAAAGAATAGAAAAAGATCTGCACACATTAATTTATGGTAAAGGCTATTCTAAAATAGGAGCTTTCGAGGAAAAATTTATATCAGATAATTATGGTAAACATAAAATGTTAGATGAATTTTTAACAAATAAACAAACTGGGAATCAATATAAAAAAGGTGAATATATTACTAATAGAGATTTTACAATGGCAGAACAACATATTATACAATATTATCCAGAATATTTTAAAAATGCAGAATCAATTAATGGAGTAAAACAAGCAGATATATTTTTATATGGAGATTTAAAATTAAAAGTTTCAGATAAATTTGACTTTGGAGATTCAATTTCAATGCATAAGTCAGACGGTGAAATAATTTTAACTAATGAAGTTGAAACTGAAGATTATATTACATTTCCAAATAGTTTTCTAACTGAAAATTTAAACATTGTAATTACTGGAGCTAGAAACGTAAGTGGAAAAGTATGCAATCCAGGATTTATACAATCAACAGAAAATATAGATATTGAAATAACTAAACCATTTAGTATAGAAATAAATACATATAAACATGAACAAGAATTAGACCTAAAAGGATTTGAATATGATTCATTATATAGAGTATATAGACCAATAGGTGAAAAAATGGTATTTGAAGTTATTCGATTAAATAGTGATAGTGGTAAAATTAAAGTTAGAAAATCATATTAATAATTAAAATAATTATTCAAACGAAAAGTTTTATAAACAGGAGGATTTCTCAAAACTATACCAATTGCCTCCAACACTAAATGTGTTATTTAAATAAAATAAATATTTACTATTTATTTGTATTAAAAATATTCAATTTTTAATTTGTAAGTGAATGATATAAAACAGAATCTTTGTGATGACGTTTTATATTGTGCAAAGTCAATTCTAATAAGTTAAAATAATGCGATTGTACTTCAAGGATCTTTAAAAAATTAGTACTCGTTGATCCTGCGAGAGATTGCTGCTTTTCGAGTTCTACTAAGCCATGCAAGTCAAGGGGGTTTTTCGGAACCACCGGCGTCATGCTCAGTAACATGTTGATAACCTGCACTTAGGTAGGGGATAGCCTTGGGAAACTGAGGGTAATACCCTATAGGAAATTTATTCTGGAATGATTAATTTCTCAAAGTTTTTCGCCTAAGTATGGGTCAGCACCCGATTAGCTTGATGGTGGGGTAAAGGCCCACCATGGCGACGATCGGTAAGGGCCTTGAGAGAGGTTGCCCTGAGAGGATCACTGAAACACTGGATCCAGCCCTACGGGGTGCAGCAGGCGAGAATTCTTTACAATGCACGAAAGTGTGATAAGGGGACTCGAAGTGCTCATGTAATGCATGGGCTTTTTACAAAGGTAAATTCTTTGTAGAATAAGTGGTGGGCAAGACTGGTGCCAGCAGCCGCGGTTATACCAGCGCCACTAGTGGCAATCAGTATTATTGGGCCTAAAGCGTCCGTAGCTGGTTTAGTAAATCCTTTGTGAAATTGATGGACTTAATTCATCGAATTGCTTAGGACACTACTTTACTAGGGAGTGGGAGGAGCTAGAAGTATTATGGGGGGAGCGGTAAAATGTGATAATCCTCGTAAGACTACCTGTGGCGAAAGCGTCTAGCTAGAACACATCCGACAGTCAGGGACGAAAGCCAGGGGAGCGAACCGGATTAGATACCCGAGTAGTCCTGGCCGTAAACGCTGTGAGTTTGGTGTTGCATATCTCAAGAGGATATGCAGTTTCTTAGCGAAGGCGTTAAACTCACCGCCTGGGAAGTACGGTCGCAAGACTGAAACTTAAAGGAATTGGCGGGGAAGCGCTACCAGGGGGGAAATGTGCTATTTAATCCAAATCCACGCGGAGAATCTCACCAGGGGCGATGGCAAGATGAAAGTCAAGTTAAAGTCTTTACTCGATGGGCCAAGAGGTAGTGCATGTCCATCGTCAGCTCGTGCCGTAAGGTGTCCAGTTAAGTCTGTAAACGAGCAAGACCTATATCTCCACTTGCTAACGCGGGATACGTCCTGAGCGAGCACAGTGGAGAGACTGCTGTGGAAACGCAGAGGAAGGTGTAGGCAACGATAGGCCTGTATGCTCCGAATCTCCTGGGCTATAAGTGCATTGCAATGGCATGGACAGAAGGATGCAACACCGAAAGGTGAAGCTAATCCCATAAACCATGTCTCAGTACGGATTGTGGTTTGTAACTCAGCCACATGAAGGTGGAATCCCTAGTAATCGGATTTTATCATATTCCGGTGAATACGTCAACGCTTCTTGCACACACCGCCCGTCACATCATCCGAATTGGGTTTGGGTGAAATTCAGTTTTTTTGACTAAATTGAACTCAGGCTTAGTGAGGAGGGTTAAGTCGTCACAAGGTAGCCGTAGGGGAACCTGCGGCTGGATCACCTCCTTTTTTTTTATTTTATATCATTCACTTACTTTTTTCATTTATATTCAGAACGGGGTCGTAGCTCAGCCTGGTAGAGCATCTGCCTTGCAAGCAGGGGGCCTCGGGTTCGAATCCCGACGACTCCACTTTCAAATTAAAAAAATAATATTCAACAAATTACAAAATTATCATATGGCAAAAGATATGGTAAGAATGACGAGGTATAAATATTTATTATTTTCATACTGATGAAATCGATGCATAGGTAATGTCTTTGAACTAGAACAATCTAGGTTAAATAAAATATGATCCTTACGCCAATAGAGGGATGGATTGGCTCGAGAGTCTATGAAGAATGTGACAAGCTGCATTAAGTTCCGGCGAGCTGCACGTAAGTTTTGAACCGGAAATATTTGAATGGGATTCCCATTAAATGCCGAAAGGCAAGAGAACGTAGGGAATTGAAGCGTCTTAGTACCTACAGGAAAAGAAAGCAAAAGCGATTCTGTAAGTAAGAGCGACTGAAAGCAGAACAGCGCAACCTGAATGGGATATGGAAACATATCGCGGATGTGGGTGGCTGTACTTGGCCGTAGTTGAGTAAATTAAAATTTTCTGGAAAGTTATGCGATACAGGGTGATAGCCCCGTAAATGTGAATCAACCGGCCGTTTAGAACAGTCATAGAGTAGCGGTAATTGGAAATTTGCCGTGAATGTGGGAAGCAACAATTCCTAACGCTAAATACTCCTCGAGACCGATAGCGTATAGTACCGTGAGGGAATTCTGAAAAGTACACGTAATAGTGTGTGAAAAGACCTGAAATCTATTGGTTATAGTGGGATGCGGCCCTAAGGGGTTGCATCGTGCGTTTTGAAAAACGCGCCAACGAGTGTATCTTTATGGCAAGAATAATCTGTAAAAGAGTATTCGAAGGGAAACCGAAATCATTGCAACGCAAGTGAGAATGGAGGTATTAAAGTGCCTATAGTCATGAGGATACGACCCGAAGCCGGTCGAGCTATGCCTGAGTAAGGTGAAGCGAACAATTTTGTTCGTGGAGGCCTGAAGAGTTGTTACGAGCACGTACTCTTATAACTTGGGTATAGGGGTGAAAAGCCAATCGAGACCGGTTATAGCTGGTTCCTAGCGAAATTGGCCTTAGTCAAGTGCAATCCGAGGTAGTGGTGTCGGTAAAGATACGGATTTGAGATTTAGGGGGCGAGAGCCTTCGGTTTTTTGTCCAACTCTAAATGGCATTACGCCGTAGACGATTGTAAACGGGGGATGGGGGTAAGCCTCATTCCCGAGAGGGGAACAACCCACACTTTAGTTAAGGTCCCTAAATATCAGTTAAGTGTTAAAGGGTGAAAGGTGTCCATAAACATAGACAGTGAGGAGGTTGGCTTAGAAGCAGCCATCCTTTAAAGATAGCGTAACAGCTCACTCATCAAGTTTATGGGTCCTGAAAACGGACGGGGCTAAACTGATTACCGATACTAAAGGCAATAATTAATGTAATTATTGTGGTAGCTAGGTGTATTGCTTGGGCAGAAGCTTCTTTGTGAAAAGGGGTGGACCGAGTAATAATAAGAATGTTGGCGATAGTAGGATCAGAGTGATGTGAGAATCATCATCATCGAAAGGGCAAGGGTTCCATTGCACTGTAAATCAGCAGTGGGTTAGTCGATCCTAAGCAGATTCCTAACTGGATATACTGCGAAAGGGAAACAGGTTAATATTCCTGTACTTATTAAGTATGCGTGGCAACACAAGTCTAATTTCAGACGGTTGGGGCTAGATGCGAAACTGATCAAGGTTTTTAAACAAATTAAGTCTTTGGAGTGTTACAATGACGAGAAAAAGATTAAGTTTGTGAACAGTATTACTTCAGTAATATTGTGTTGATGCCTCGATCCCATGAAAATGGAATTAGAAAAAATCTTAATAATTCGTACCAAGAACCGACACAGGTGCCCCTAGGTGAGAAGCCTAAGATGTGAAGGGAATAATCATTGTAAGGGAATTCGGCAATATTGGCCCTGTACCTTCGGTATAAGGGGTCCCTGATTTTGTGTGCTTATGTATGCATTTTCAGGGCGCAGTGACTAAGGAGGTCCGACTGTTTAACAAAAACTTAACCGGCTGCTAGCGTGTAAACGTGTGTATAGCCGGTGACGTCTGCCCAGTGCCAGTACTTTAAGTCCTGTTTCAACGGGATGAAGAGCTGGTAAACGGCGGGGGTAACTATAACTCTCTTAAGGTAGCGAAATGCCTTGCCGTTTGATTGACGGCCTGCATGAATGGCGTAACGAGACTTCCGCTGTCCCTACAATGAACCCTCCGAACATTTGTTCTGGTGCAAAGGCCAGAGACTTCTGGTGGGAAGTAAAGACCCCGTGAAACTTTACTGTAGCCTGTAGTTGTGGTGTGAAAGGTGTTGTGCAGGGTAAAAAGTAGCTGTTTGAGGTGAGTATCGCAAGGTATTCGTTTAGGCGTCCATGAGACACTTTTTTACAACTTTTACATCGCTAACCAATTTATTGGGACATCTATTGGTGGACAGTTTGGCTGGGACGGCACACCGTCGAAAAGATATCGACGGTGCCCTATGGTAAGCTCAATCCGGTCGGAAATCGGATGTAGAGTGCAAAAGCAAAAGCTTGCCTTAGTGGATTTCAAACAGAACGAAATCCATTCACGAAAGTGTGGTTTAGAGAACTCCCGCAGCTTCTTGTTGAGGCTCGGGAACTACTGAAAAGTTACTCCGGGGATAACAGAGTTGTCTCGCCCGAGAGTTCGTATCGACGGCGAGGCTTGCTACATCGACGTCGGCTCTCTCTATCCTGGCCGTGCAGAAGCGGCCAAGGGTGGGGGTGTTCACCCATTAAAAGGGATGTTAGCTGGGTTCACAACGCTGTGAAGCAGTTGGTTTAATATCTACCAGAAGTGTGGGATCTCTGAGATTAAGGGAGCTCCAGTACGAAAGGAACGAGTTGCCGATGCCTCTGGTGTATCAGTTGTCTGACAAGGCATGCTGAGCAGCTACGCATTAGTTGATAAGTGCTGAAAGCATCTAAGCACGAAGCAATGACCGAAAAGAGAGATCATAGGAGCGGGAAGAAGACCCGTTTGATGGGATGGGTGTCCAATTACCAAGCTTTTGCGAGGTATTTAGCATGCCATTACCAATATCCATTTTCATATTTTATTCAAAGACATTACTAATTGCATCGATTTTCATTTTTTTTTATTAAAAAAATTAAGAATTGTTACTAAGGTAGACTAATCTATCATAAACATATTTTTATTAATTTTAAAAAAATTTAATTAAAAATATCCATAAATAAAAATAACACTAACTAAAGAAATTAAACTAAATATCATAATAAATAATAATAATTTTAAAACAAATATATTATTATTTGATTCGATATAATTATCAGTATTAATTTTTTCCAAATCTGCTTTTAATAATTCAGTTTTATATTTAGTTAAAATAATATCATTATTTTGTAAATCTAATGTTTGTTTTAATTGATTTTCATTTAAATTAATATCACATAAACTTTTTTCAATAAAAATTTCTTTCTGATCAAATAATTCATCAAATTCATTATAAATTTTTAAAACTACATTTGAATCAAAATTTAATTTATCAAATTCAAAACTTATTTTTTCTATATTATGTAAATCAAGTTCATTGATATTTTTATTTAATACTAAATCATTAATTGTTAATTCAGATCTAATATTGTATTCTTTATACTTTCCAATATTTTTTAAATTAACATCAATAGTAATTGGCTCTTGACAAAAGTAAATATCATTATTAATTTTTGTAGATAAAATTGATATTTTATGTTTATATTCCTCTACCTTAATTACAAAATTAATTTTGTCTGTATGTAAAGTATCCAAACTATCAGTAGCTGTTATTAATAATTCAGCATTATATTTATCTTCAAAAGTATTTGATTGAATATTTAAATCTAAAGTAAAACTTTTTCTTTGATCATTTTCCAATTCAAAATTTCTTTTTTGTTCTAAATTTAAATCAGGTATCGAAAAAACAATATCTATAGTATTAAATTCAATATCACTATTTCTACTAAATAAATTTTTAACCTGAGTTTCAATGCTAATTTTTTCATTTGGAAAAACATCAATTTCTAAATTATCAATTAATGTTTTTTTATCACTACCGTATAGAACTTTAGATTTATACAATTCTAATTCTATAGCATTTGTTGCTGTGATTAACATTGAACCCAGTATTAAAATTGTTAATATTAATACACCTAATTTTTTAGCCATATTTAGACAAATCATTTAGCCTTTATAATAATTACCATTTTGTAATCACTTAGCAATAGTTACAACACACAGTGAATTATATACACTAAAATCCTTAGGTGAGATATTATTATAAATGAACCAATTTCTAATTTGACATGGAAGCATTAGAAAGTATAATTAAATCAATAAAAAGGTCCCCAGATGCGAATTTCTTAACTACTGCAGGCCTAATTACACTAATTGGTTTTGATGCACCACCTGGTGGATTATTATTAACTTTTTTAGGTGTTAAACAATATATTTCTGGTTTTGATGGATATAAAATTGCTTCAAAATATATTAAAAGTTGTCAAAAAAAAAATCTTGAACCTAATTTTAATAGAGTTTCCAAATTAGTTGGATTTTGTGAAAAATTAGGATATAAATATGCAGTTAAAGAATATTACAACAATAAAGCTTAATAAATAATTAGAATAACCTAATAATATGACTAAAATAACTGGAAAAGAATCTATTGGAGAATTAATTCAAAAGTATCCACAAATTGTACCAATTATAGAATCATTTGGATTACATTGTACTTCTTGTTCTTCGTCTAATTGGGAAACTTTAGAACAAGGTGCAAAAGGTCATGGATTAGAAAATAATGTTGTTGAAAAATTAATTACTTCTTGTAATGATTATATAGAAAATAGAACTGATAAAATTACATTAACTCAAAATGCAATTAATAAATTAAAACAATTAATGCAAAATGAAAGTAAAAATAATCATGGTTTAAGAATTGAAGTTATTACAGGCGGTTGTAGTGGATTTAAATATGATTTATCTGTTGAAGAAAAACCAAAAGAAAATGATTTTGTTTATGATCAAGAAAATGTGAAAATTTTTGTAGCTAAAGATAGTTATGATGTATTAAAGGGAAGTTTAATTGATTATATTGATGCACTTCAAGGTGCTGGTTTTAAAGTTATTAATCCAAATTCATCTAAAGAATGCGGTTGTGGAAAAAGTTTTGCTTAATAATAATTATATATTATAATCTTTAATCAAAAAATACAAATGTAAATACTAACCTTAGATTTAATTATTATAATACAAACACATTCTAATTATATGAAAATAGTTTTACAAAATGAAATTCCATCCAATAGTTCTAATAGTACTGAAATTGCAAATACAATTCTATCTCGAATTGGATTACTTCCAAGAAAAAGTGGATCAACAAAAAATATGAATAAAGTTTTATTAGAATTATATGAACGAAGTAAATTATCAAACAAAATGCAACAACCACATATTGCTTTAATGAGTGTAGAAGAAATGGCAATACATGCTGGCATTACAAGACAAACTTTTTATGAATATTTAGTTAGATGGATTGAATTAAATTTTATTGTAAAACAAAATTATGTAATAGTAAAAAATAATACTAAAAAAATACTAAATGGATATAGACTTAATGGATCTAATATATTAAATGCATTTGAAAAAGTTAAAACAACAATTAATGAAAATTTAAATCAAACATTAAACTTAACAAAAAAATTACAAAATGAAATTAAACGTGAAAAATTAATTAAGCATAAACATCAATAATATTTCCTTTTGTATAATCAAATTTAGGTTTTGGATTAACTAAATATGGTAAAGTTTTTTTATTTAAATCTAATTCTTCATTAATTGCATTCGTTTTTTTTGAACTTGCAATACCAGTAATTCTTTTTTTACTCTTAACTAATGGAATATACGGATTATTATTTACTTCATTTATATACATGCAAGTTAGAATTATTTAAAATTTATAAATTTGACTTAATTCGCTTCAATTTCAATTATAGTATCACTTGAAAGATTCTCACTTGAAACATTATTACTTGAAATATTAGGTTCTTCAAATTTTAAAATATCAACAATAGATTTAGAAAATTCTTTAGTTCTTCTTAAAAATTCAGCTTTGAATTTTTCATTATCAACATTTGAAACTAAATAATCAGTAAAATCATTAAAGTTACTTAATAAGCCATTTTTACCAAACAATGTCATATCTAAATTCATATCATCCAAATCAATGTCACTCATAAAAAAATTATCAGATATTTGTTTACTTTCTTTCAATGCCTTAATAAATTCAATTTCATCATTACTTGGAAGTCTTTTAGATTTAAATCCTCTATCTAAATCAGGATTAATATTGGATTTTCTTAAATCTCTACCAGGAACATTTGTAGTAATTACTTCAACTTCATTAGGATATAAATAAAGTTTTTTTACACCATTAGTAGATCTGTATTTAACAGTTGTTCTAAAACCATCAAAATCTGTTACTCTTGCAATACGTCCAGTATATTTGTGATTAGGAACATTAATTTTAACAAAAATCCCTCTATCATTCAAAGACTTAGATTCAACAATATCATTATTTCCAGATTGAGCTTCACTAGAATCTGTTGATTCTATTCTACTTAAATTAAAAGCAAAATATCTCATACTATTACTAGCCTCTGCATCTATTTTTGAATATAATTCATTTTTCACTATAGCATAAAGAAAATTTTCACTAGCATAATCAAATGTTCTACATAAAATACTCAATAAATTAGAATCTAATAATCTTTTGTTAAGGTTTTGCGCATCTAAATAATCAGATGAAAAACTTAAAACAAAATTTTTATATTCAGTAATTGAAGATCTCATATTTTCATAAAAATTATTTAATGCATGAAATATATTTTCTTCTTCTTTAATTAAATCAGCATCACTAACTACATTTTTTAATTTAGAATTTAATATTGATTCAAGTGACCAAACTAAACCAAAAGGATTTTTGTCTTCTGATTCAATCTCCCCAATAAAACTAAAACTATCTTCTAAATAAGTTTGTGCAATACCTGCTTGATTCTCATAAACATTTTGAATTTGGTGAAATATAACACTCTTTTCAATCGGTGAAGGTTTGTTTCTTTTTAAATTAGCTAATGAATTTTCAATTTCAAATTTAGAAGTTAATACATTTTCTAAATCATCTCCCATTGATTTTAATTCTTCATCTAAATTAATATATAAATAATTTTGAGCATATGATTCAATATAAAAAGCTCTAGGTAATTTTGATTGTTCATCAACACATAATTTTCTTAAAAGAATAGATCTACCAAAATCAAAATCTAAATTATTTAATTCAATTTCATGTTCATCTAATAAAAATTGACACTCAGTATAATGTTTCATGTATAATAATTCAGGTTGAATTTTTGAATATAAATGAAATACGTTAAATACATCAGAATCAGTAAGATTTTTTTTTAATTTAACTCTTTTACATTCTTTCAAAAATGTAGAATATTCATTAAAAAGTTGATCATAATTTTCACGCTGTGAAAAAACTAATCCAAAATTTTCTAATTTATCTTCATTCATTGAATCTAATCTTTTGCCTTCTTTTGACCCAAATAAGACATAAATTCCATCAAACATACCCATATTCATTACTGAAGAGTTATTTTTATAAATGAGACTAAAATGTAAAATATATATTCCAAACATCATTTGTTTTTAATAGATTAATATTATTATTTTTTAATATCAAATTATATAACTAAATTTATTAAATCTTTAATTAGATTATTAATATGAAATATAATAAAAAGGTTTTTCTTAAAGAATTTATTATCAGACTAAAAAAACAATATCCAAATACAAAATGTAGCTTAAATTATTCTAATGATTATGAATTACTTTTTGCAACCATTTTATCTGCACAATGTACTGATGAAAGAGTAAATAAAGTAACAGAAAAATTATTTAAAAAATATACAAGCATAATTGACTTTGCAAATGTTCCTATACAAGAATTAGAAATTGATATTAAATCAACTGGATTTTTTAGATCAAAAGCTAAATCAATAAAAGAGAGTGCAATTAAAATTTTAGAAGATTTTGATGGTAAAGTTCCAAATAAAATGGAAGAATTATTAAAATTACGAGGAGTTGCAAGAAAAACAGCAAATGTAGTTTTAGGAGTTTATTATAATATTGCAGCAGGAATTGTAGTTGATACTCATGTTAGTAGAATTAGTTATAGAACAGGATTGACAAAAAATAAAAACATCCCAAAAATCGAATTAGATTTATGTAAAATTGTGCCAAAAAATAATTGGATTATTTTTTCTCATTTATTAATTGATTTTGGAAGAGAATTTTGTAGTGCACCAAATCCAAAATGTAATAATTGTTTTGTTAATGATATTTGTCCAAAAAAGCTAGATTGGCGGTAATACGACACTAAACCACAATATATAACAATTAACTTTATAATAAGTAAATTTTTCTTTCAAAACTATGGCAATTCAAAACGGAGATAGAATAGGAGTAGAATATACTGGTACATTAGAAGACGGATCTGTATTCGATTCATCAAAAAATCATAAAAAACCATTAGTATTCGAAGTGGGAGCAGGTCAAGTAATTAAAGGATTTGATAATTCAGTAATTGGAAAAGAAAAAGGAGATAAATTCGAAGTAACAGTTTCACCCGAAGAAGGATATGGTGAATATAAAGAAGAATTAAAAATGGAATTTCCAAATGAAAATTTACCTGAAAATGCAAAAGAAGGCGATATGGTTTTATTATCAGATGGAAAAGGACAAGAATTTCCAAGTAAAATTTTAGAAATTAAAGAAGATAAAGTAAAATTAGATATGAATTATCCATTAGCAGGTAAAACATTAAAATTTGAAATTTTAATTCTTGAACATCAAACTAAACAAGAAACAGATGAATCTTCTGAAGAAAAAGTTTCTCAAGAATAATTTTTTAATATAATTTTTTAAATTAATACTATTTTTATTTTAATATGAAAACTACATGTAAAGTTATTTCATTTGAATATCAAACATCAGATATATTTGTATTTAAAGTTAAATGTAATGAAAATGTCGAATATAAACCAGGACAGTTTTTTATGTTATCAATAAGTGGAATTACTTATGATAATAAATTAAAAAAAGATCTATGTATGCCAATTAAAAGGGCGTATAGTGTAAGTTCAATTAGAAATGAAAAGTATATAGAGTTTTGTGTTAAAAAAGAAAATGAAGGAACTGTAAGTTTAGCATTAAGTAAATTAAAAATAGGAGACACAATTAATATAACAGGTCCATACGGAAAATTTGTATTAAAAGAAAATAAAAAAGATATAGTTTTACTTGCAATTGGAAGTGGGATTACACCAATAATGTCAATGTTGAGATCTATAGTTAAAAATAAAATTTATTTAAATAAAAAAATTACATTAATATATGGAAATAAAGAAGAAATTACTTACAAAGATGAAATCATAAAATTATGTAAAGATAAAATTAATTTAATTTTTAGTTTAACAAAAATAAATAAAAAAGTAACAAATTGTCAAACTATTTTTAATAGAATAACTATTTCAACATTAGAAGATTTAAATATTGATTATACAAATAGTAATATTTACATGTGTGGAAAATTAGAATTCATTAAAAATTTAAAAGATTCATTTAAAGAAAAAGGAATTTCAAAAGAAAATATTAATTTTGAGATCTATTAGAACTTAATTCATCCATTTTCTTTTTCAAAGAACAATAATCTTCATAAGTTTTATCATCAAAAATTTCTCTTGCATATTTATCATCAAATTTATTTGCTATCTCATGAGCTTTATTTAAACTAGTTGAATAATCTCCATCTAAAATATTTAGTAAACTAGCCTCTAAAATTTCATGTAATAAAATTGGCTTATTAAATTTAGGATCCATAAAATTATTTGCAAAATAAATGTCCAAATCTGCAAGATCAGAATTTATATAAAAAAAAGGACAGTCTCCATTTAATCTTTCTTCTTCTGTATACTCACAGGGAAATAATATATATCCTAATCCATTATAAGAGAAATGTTCATAGTATTCAAATTTAATATTTTCAACTACTTGTTTTAATTCTTGATAATTAATTTCCATTAATAGACCCATCAAGAGTTATTTAAATACCTTTTGTTTTAAATTTTAATAGATTTTTAGCTATTTCTAATTCTTCGTGAGTGTGCATTACAAAAATAGGTTTTGATTTATTATTAGAAATTAAATTAGAATCAATCAATTTTTGTTTATTTTTATTATTGTCAATCATAAAACCCAAATGATTTAATTTTTTAATTATCATTTGACGAACTTTATATTCTACCTCTCCAATACCACCAGAAAAAATAATTGCATCACAACCTCCTAAACTTGCATAATATGAGCCAATATAATTAACAATATGATTTACAAACATTTCAATTGCTAATTTTGATTTTTGATTTTTTGAATTAACTAAGACTTCCATTTTTGATGAATTCGCTAAACCCAATAAACCACTTTTATTATTTAATATATCTCGTATTTTATTTATACCATATTTTAATTTTTTATTCATATAAAAAATAATACCTGGATCAATATCACCAGATCTAGTTGCCATAATTAATCCATCATTAGGAGAAAAACCTAAACTAGTGTCATATGATTTACCATTTTTAATAGCACAAATACTTGAACCACTTCCCAAATGACAAGTAATTATTTTTGAATATGGCTTTTTAATTTTCTTTAATAATTTAATACCATAATCAGATAAATATTTATGACTAATTCCGTGAAAGCCATATTTGCGAATATTATATTTTGAAAAAAAAACATAAGGAATACCATATAAATAATTTTGTTTTGGAATAGTAGAATGAAAGGCAGTATCAAAAACTGCAATATGTTTTATTTTATTAAATGTTTTTTTTAATATTTTTATTATTGAAATTGTTTTCGGATTATGTAATGGAGCTAAATCATTAATCGATTCCAAATAAGAAATAACTTTATTATCAATAATAATTGGTTTAGTAAATTTTCCACCATGAACTACTCTATAACCACAAGCAATTATATTATATTGTTTCAGCTTACTAAATATAGAATTAATCTTTTTAATTGAACCAGAATATAATGAATTTAAATTCATATCAAAAATCTCATATTTAATTGAAGAACTTCCAGAATTAATAATTAAAAAAGAGTCCATTAAAATCACTGATCTAAATTTGGCATATCACAACCATATTTAATTATATATTTTTTATGTTCATCTAATACTTTTTTATATTTTAAAATTAATTTAGATTTTTTTGAATTATTTATAGTATTAACTAATTCTAAAGCTTGAATTGCTATATGATATCTACTAGTTTTATTTCTAACTTGCATATCGAACGGAGTTGTAGTTGTCCCCTCCTCAATATAACCATTAATATTAATTCTACTTAATATATTATTATCATCAATTAATGCTTTAATTAATTCAGGATAACCATGAAAATTAAAAATAATAGGATTAGTTGAACCAAAATAACTATTTAATTTTTTACTTTTTAAAAATTTTAAATCACTTACATTAATATATCTTATTTTTAATTCCTTTATCTCTTTATTTAATAATTTGATTGCAGCAATAACTTCTTGAGTTGAATAATCTCCTGCCGAAGATAAAACTATATCATAATTTTTACTTGAATATTCATCCCATATTAAAGCACCATTTTTAACTTGTTCTTCAACAGTATCATCAGATAAAAATTGAATTAAATCTCTTTTTCCAGCAACAATAATATTAACTTTATTTTTGGATTCTAATGATTTTTTTAAATAATAAGCTGTCATGCTTGGACAACTAGGAAAATAAACATTTACAAAATCTAAATGTCTTTGTATCATATTTGAAATAAAACTTGGATTCTGATGAGAAAAACCATTATGATCCTGTCTCCATCCTAAACTTGTTAATAAATAATTTAAACTCGGTATTGGTTTTCTAAATTTAACTTCACTTGATAATTTTAAAAATTTAACAAATTGATCAGCCATACTACTAACGATTTCAATAAAAGCCTCATATGAACTAAATATTCCATGCCTACCAGTTAAAACATAACCATTAATCCAACCTTGTAGAGTATGTTCACTTAAAATTTCCATAATACGCCCATCATTTGAAGTATTTTTATTGACTTTTTTATCAATTGGCCAAACAAAAACACGTTTAGTTTTTTTTAAAACATCCCCGAGTAAATTAGATTCTAATTCATCAGGACAAAATAATCTAAAATTATTTTTATTTTTTTCAAAAATATCTGAAATAAATTTAGCACTTATTTTTAATGAACTATATTTATGATTTTTTTTAACTGCAATATGTTTTTTTAAATCAGGTAAAATTAATTTTTTATAACTTGGATTTGCATTTGTATTCATACCCATTCTATAATTATTTTTTGGAATATAAGTAGAAATATTAGATTGAATTTTATTATTTTTAATTAATTGTTCAATTTTATATGACTTTAACCACAATTTTAATGCATTAAATTCTTGAGATGAATTATTTGGATTAATTGGAACACCATGAGACTTATAACTATTTTCAACCGGAATTTTATTTAATTCTTTTATACCACCCCAACCCTTTGGAGTTCTTAATAATAATACAGGCCATTTGGGTTTATCACCATCAGAATATGTTTTTTGAATTTGTTTTATTTGAATTAAAGCCGAATTAATTGCATTAAACAAAGACTCATCTTTTTCTTCAGGTTCAACAATAATCGGATCATAATGTAATCCAGAAAAATAGTTTTTTAACTCATCATTTGACATTGAAGAAAATAATGTTGGATTAGAAATTTTATATCCATTAATGTGGACTATTGGTAAAACAGCACCATCTTTTTTTGGATTAATAAATTTGATTGATTGCCAAGCAGCACTCAAGGGTCCAGTTTCAGCTTCACCATCTCCAACTATACACATCGTAATTAATTTAGGATTATCTAAAATTGAACCAAAACTAGTTGATAATGAATATCCTAATTCTCCTCCCTCTAAAATTGCACCTGGTGTTTTAGGATTAACATGCGATGGAAAACGATAAGGCCATGAAAAGTGTTTAATTAAATTCTCAAAACCTTTTTTATTAATTTTATAATTATTATCAAATTCACCTAAACTCCCCTCAACAAATAAATTGGCTTGAACTGCTGGATATCCATGACCTGGCCCAATAACTGACAATACATTTAAATCATTTTTACAAATTATTGCATTCATACTACCATAAATATAATTAATTCCAGGACAAGTACCCCAATGTCCCACTATTCTGCTCTTAATATGTGACTTCAATAATGGTTTATTTAGTAAAACATTGTCTTTTAAATAAATTTGAGCAATTGAAATATAATCTGTTAATCTACAATACTCTTTAATCCAATTAGATATAGATTGTTTCACCTTATTAAAAATATAGAAATTTTGATTTATAATTTTATGTGTTAAATCAAATTAGTAAAATTTATAAAATCCAAATTTGACGGGGTTCTATGTATGGAAACAGCAATTTAGATGGAGCTCTAAGAATATTATGTGGAGATAATAGCCCTGAACAGTTTTATGAATTCTCATTAAAATCAATGCAATTACTATTTGATGGATTAGTTGAAAAAAAACCAGAGAATCTTGAAAGACAAAACGAAATATTTGATGGTGTTTTTAATTCATTAAAAATTGGAATTAGTCAACATTTTAGATCAGAAAGTATAGATTATGAAAAATGTTTAGAATTTATTTCTGAAAATAAATCAGATATCATTAAATATGGTTCTGAAAAAATATCTAAAAAAAGACATTTATCAAAATTTAAATTTATAGTTAGAACTTCATTAGATCAAATATTACCAGCATTAAACGATATTGAAATTGACACATTAGTTCCAATTGCATCAGGAGGTTTTGAACCTTGTGCAATAATTGCAGATTATTTAGACAGAAATAATAGAACTTATGAGACTTTACCTGTAAGATATTCAAGATTATCTAAATTAGATAAATATGTTTTAGCTCCACATTTTCTTGGTGATTCAAAAATCAAAGAAAGTATAAGAGATAAAAATGTATTAATCGTTGAAGATTTATTACATACTGGAGAAAGTGCAGATAAAACACTTGAATTTGTTATGAGATTCAAACCAAAAGATGTTTTTTTATCAACTTGTGTAATATTGAATGAAGGTGAACTTAATTTTATACATTAGAAAAATATAAAGGTTTAAGATATTTATTTAATTAATTCTAACTGCAGTTCCATAAGCTAACATTTCTGAAGCTCCTTGCATTATCATTGAAGTTGAAAACCTAACACCAATAATTGCATTAGCACCCATTTCAATAGCTTGATTAACCATTCTATTATAAGCTTCTTCTCTTGCTGTTGTAGCCATATCAGTATAGGTTTTAACCTCACCACCAACGATATTTTTAAATCCTGCCATTATATCACGACCAATATTTCTAGCTCTTACAGTATTACCCTTAACAACACCTAAAATTTGAATTTTTTTTGCACCTGGAATTTCATTTCCAGTAGTTATATATATATTTGCCATTTTATTTTTTCACCTTTTTATAATTTATTTTTTCAATTTCATCTTCTTTAGTATTTGTAAAAATAAAAAAACCTATTAAAAAAATAATTAAACCATAAAGAACTAAAATCCAAACAAAAAAACCAATTATTAATAAAAATAAACCAATAATCATAAATATTGAACCAGTAATTGTTCTACTATTAAATTCCATATAAATAGTTTATTTGATTATTATATAAAGTTTTTTAAATAAATAATAATCCTTAAAAAAATGATTCATCATGAAATATTCGATAGATATAAATTAGGCTGGGATTATAGTAAAAAACAAACTAATGGTAAAAACTTATATTTATTTTGTGAAAGTTCTCACATAAGTGAAGAATTACAAAATAGTTTAAAAAATGAAATATTTCAATGTGTTAACTCACATTTATTTGATACATTTTTTGTTGAAGAGCCAACGGAGTATAAAAATAGTCACAGTTTACATTATGCAAGTGAAAAAGAAGCAATAGATGGTATGAAAAATAATATGAATTGGCCAAGAAGTAGAATTCAAACTTTTTATAGATTAAGTAAATTAAAAAATATCGATCTTTTGGGTTGTGAAAATTTAGAATTAACAAAGTTGTTTTTTGATTCAATGAAAAAAATTAATGTTATTTTAGAAAAAATGGGTAATGGTGAAAAATTTGTAGAAACTTATAATGATTTAATTCATCAAAATAAAGAATTTAGTCAAGCACATTTAGAATTTGAAAGAACCGGTCACTATAGAAGTCTATTTTCATTAAAATATGTTTTAAAAAAAATTAAGGAGAAAAAAATAAGTTCAGCTGGAATATTAATGGGCTTAGAACACATAGACCATATTAAAATGATTTTAGAAGCAAATAATATTGGACATAGTGTATATTTTCCTGGAGTCGATTCAAATGAAGAAACTGCAAAAGCAAATTGGGATTTTTTAATAAACAATAATTAATATTATGAAAATAATTATAAATCAAATAATCTAAAAATATATATGAATGGTGACATACAAATTTTTATAGGATCAGACCATGCAGGTTTTGAAGGTAAAAAAAAAGTAATTTCAGTTCTTAAAGATCTACAGAAAAATGATAAAAAATTAAATTTTATAGATTTAGGAACTGATTCAAAAATCAAAAAAGTTGATTATCCTAAATATGCTAAATTAGTAGGAAATAAAGTAAATAAAAATAAAAATAATTATGGAATATTAATTTGTGGTACTGGAACTGGAATGAATATTGCTGCAAATAAAATTAATGGCATTCGAGCAGCAATGGGTTATGATTTATATTCTGCAAAAATGTCAAGAATTGATAATAATGCAAATGTATTATGTTTAAGATCTAGAGATTTTAATTTAAATAGATATACTAATATAATTAAAACATTTTTAAAAACACAATTTAGTGGAATTGAAAGACATCAAAAAAGAATTGATTTAATTCATAAATTAGAAAAATGAGAATTGCAATAAATGGTTTTGGAAGAATTGGCAGAGTATTTTTAAGATCATTACTATCAGATAAAAAAAATAAAAATATTAAAGTAATTGCAATCAATGACAGATCAGAAGCCTCAATTCTTTCACACTTATTCAAATACGACAGTATTCATGGAAAATTTAATGGAACTGTTTCACATACAAAAAATTCCATTAAAGTTAATGGTAATAATATTCAAGTATTAAATGAAATGGATCCGAGTAAATTAAGCTGGAAGAAATTAAATATTGATTATGTAATTGAATGTACAGGAAAATTCTTAACAAAAGAATTAGCTTCTAAACATATTCAAGCAGGTGCAAAAAAAGTTATTTTGTCTGCACCACCAAAGGATCCTAAAATAAAAGAAGTATGTTATGGAATTAATCATAAAACAATTAAAAAGTCTGATAAAATCATATCAAACGCAAGCTGTACAACTAATTGTATGGCACCAATTGTTAAAATAATAGATGATAAATTAAAAATAAATAAAGCTTATATGTTAACAGTTCATGCAATGACTAATACACAAAAAATAATGGATAGTTCTAATAAAGATCCAAGACGTTCAAGATCTGCAGTAAATAATTTAATTCCAACTAGTACTGGATTTACAAAAGCGATAGTTGAAATATTTCCAAAATTAAAAGGAAAAATAGATGGTATGGCAGTTCGTGCACCAGTAATCGATGGTTCTTTAATTGATTTTGTTGTTAATACAAAAAAAAGTACTAATATCGAAGAATTAAATAAATTATTTTTAAATGCATCAAAAAGTTCAATGAAAGAAATATTAGAATATAGTACTGAAGAATTAGTTTCAACAGATATTATTGGAAATTCAAAGTCATGCGTTTTTGATTCAAAATTAACTAAAGTTAATGGGAATTTTATAAAAGTCACAGCATGGTATGATAATGAATGTGGATACTCGAATAGAATTATTGATTTAATTAAATATATTGATAAATTAAAATGAAATCAATTTTAGATATTGATATTAAAAATAAAATTATTTTATTAAGGTCGAGCTTAAATGTTTCTATAAAAAATAATAAAATAACTAATGATTTTAAATTAAAAAAATCTATTCCCACTATTAAATATTTAATTAAAAATAAATGTAAAATAATAATCTGTGGCCATATTGGAAGACCTGACAAAGATAAAAATAAATATTCTTGTAAAATTATTAAAACTCGATTAGAAAAATTAATTGGAAAAAAAATACAATTTTGTAATAATTTTAAAGAAATAAAAACTAAATTAAATAAAGGAAATATTTTATTATTAGAAAATTTGAGATTTAATAAAGGAGAGATTAATAATAATAAAGATTTTTCAAAAAAGCTTTCACAGTTAGCAGAAATATTTGTTCAAGATAGTTATGAAACAATTCATAGAAAACATGCAAGTATAATAGGCATTCCTAAATTTATTCCAACATATGCAGGTTTATTATTAAATGAAGAATATAATATAATTAAAAATAGTTTACAAAAAATAAAAAAACCATATACTTTAATTTTAGGTGGAGGAAAATCCGATAAATTAGATATAATAAAATATAATAAAAATAAAATTGATAATATTTTAATTGGTGGCGGTAATGCAAATAGATTAATCGATTCCAAGAAAAAAATAAATCATAAAATTATATTACCCGTAGATTTTATTTACGATAAAGAAAATAAAAGACGCGATATTGGTAAAGAATCCATTGAATTATTTTGTAAATTATTAAAAAAGTCAAAAACCATAATTTGGTGCGGACCAATGGGAGTATTTGAAAATAAAAAATTTGAAAATGGAACTAAAAAAATAGCACAATTTATCTCTAAATTAAAATCCATAAAAATAATTGGTGGAGGCGAATCAAGTAATGCTATCATTAAATATAAATTACAAAATAAAATGACACATGTCTCAACTGGAGGTGGAGCTACTCTTGAATTATTAAAAAATAAAATACCTCCTGGAATTAATGCAATTATTAAAAGTCAAAAAAATTAATATTTTAATATTACTTATCGTTTTTTAATATAATCAATTTAGTATTTTTCATTTTACCAAAAGGAATGATTTTAATAATTTTCCAATTAGAATTCTTAATTAATTCTTTAATATAATATTCTTTTCCCCAACCCAATAATATTTTAATTGGTTGAAATAAATATAAAAACAAATTATTTTTAATTAAAAATTGATCCAAAACAATTAATTTAGAATTTGGTTTACAAACTCTAGATAATTCTTTTAATATTTTTTTAGGATTTGGAGATACTCTCAAAACATAAGTTGTAATTGCTCTATCAAAACTATTTTCCTTAAAATCCATAGAGTTTGCATCCATCTTTTTTAAAATTATTTTTGCATTAGATTTTTTTAATTTAGCTTTGTTTAACATTTCTTTAGAAAAATCAATACCGTAAACAGTACAATTACTATAGTATGGTAAATTAAGACCAGTTCCAACTCCGACTTCTAAAACTTTTTGTCCTTTTTTTATATCAGCAAATTCAATAACTTTTTTTCTATTAAAACTAAATAGTTTATCAATATAATTATCATAAACTTTTGCCCAAATTTTATATATAAAAAGTATATAGTTTTTCATTTTATATTTAATTCCCATTATCAATTAAATTTATTTTACCTGTTTCAAAATCTCTTTCTAATTCATAATAAAATGAATTATTATGGTCAAATATTTCTTTTGAAATTAATTTACTCTCTGGAAAGATATTACATTCTTTATCATTAATATCAAACCACTTATGTTCTCTATCAGTTATTGATTTTAATTCACCTTTAAAACTATTAGTTTCAAAAATATGTAAAATATGATGATGAATTAAATTATTATTTTTAATAGTTTTAATATTTAAAATACCCCTAAATTTGTAATCATTTACTTTAATACCAGTTCTTGAAATAATTTTATTTTTTATATCTTTATTACTTTGACCAAATTTAAATTTCGCAAAAAAACTAGCACCCCAAAACTCTTTAAAAGGTTCTTTTAAAGAACGTGATCTTAATATTTTTTTATTATCATGAATTATTAATAAAAAAACAGAAATTGGTTGTTTAACTAATTGATTATCATCTAAAAATAAACATGTATCTTTTCCTTTATCCGTTAATTCATATCTTTTCTCATCTTTTTTAATATAATCTTTATCAAGTAAAAATTTTAAATGATAATTAAATAGAGAAGATTTTTCATTTCCTAATAGATCAGTAAAAGTTAAATAATTATAATTCATTAATTTTTTTAAAATATTAATTCGAATTGAATTTTGAATAATCTCTTGCATATTAGACTGCCATTATTTCTTTTTATAAGAATTTATATTTTACTAAAATCAAATTGAGAAACTATTTATATAAAAAATAAATGTATTTCAAATATGAACGAGAAAGAAGAACTCTTGTATAAAATGATCATTCCTGCAGCCATTTGCGCTATTATATCTAGCTATGTTATTAATTTTGATAAAACACAATCAGGAATGTTTAATTTTGCATTTGATTATCCACAAGAAGCATATGAAAATTTTAATACGACACTAAGAAAAAAAATTGCAATAGAAACTCATGGCGGGTTATTAACTAAAGAAAAAATAAATCAATATTATAAAAAGTTTTTAACAAGTAATCAAATAACAATTGATGAATCTGGATACATAATATATAATGGAAAAGGTAAAAGAATTTATTTTGACCAATTAGAGGAAATATTAAAAACATATAAATCAAATAAAGAGGCTAAAAATGACAGATGACAAAATAAAAAATAATATATCTACACAAAAACCAAGACTAACAAGTTCTGTTATTGTAAAATACAATAATAAATATTTACTTGGACAAAGAAATAAAGCTAATATGAAAAACAAATGGGTTTTTCCAGGTGGCGGAGTTGAGTTTGGTGAAACTTTAACAATGGCTGCAATTCGAGAAGTAAAAGAAGAAACTGGAATTGATATATGCAATATTAATTTATTTAAACATAAAGAATTAATCAATGTTCCAGGAAATTATCATAGTATAGTATTTTTCTTTACAGCCGAAGCAATAGGAAGTGCAATATATACTAAAGATGATATTAGCGAAGCAAGTTTCTTTACAATAGATGAAATTAAAAAATTAGATATATTACCAAGTGTAAAAGATATTTTAACAGATAGGGGAGTTTGGCAAGATTAGTCTTCAATTAGAGATCTTTTCTCAGCTAACCCTTTGTAAAATCTCATTAATTCAGATGTACTTAAAGGTCTAATAATTTCTATACAACTGTTATCATCTTTTATCATTCCAACATCGCTTATCAAACTCAAATCAGTAGGGCGTTTATCTCTTCTCACAAGTTCAACATAACCATTAATATATGTAAATTTAAAATCAAAATATTCTTTTTTTAAATTACGAAAATAATCAACTAAAGATATTTCATCATCTGATAATGAAAAATTCTTAAATGCACATGAATTAGTTTGACTAAATTCTTTATTGCTACATAAAAAACTTTTGCCATAGTATTCATATTTACCTTCACTTGACACAGTACTTTGAAACCACAGACTAAAATATGCTTCGTTCATATCAATTAGCTAAAATTAGGTTTTATAAAAATTTATATTCTTAAAAAATAATTAATTAATTTTAAAATTATTTATATTTCCATCATTTTCATTCATTTCAAAATCATTAATATTTATTTTTTCATTTAACTTATTTTTAATTAACCATAAATCAGATGGAATTATTTCATTTTCATTTAATTCATCTAAATTAAACCATTTTAATTCACCATAGCGACTATCAATAAATTCATTAGTGCTAGTTTGCATTTTAGTCATAAATAAGATAAAACTATGTTTTACATTATCATTAAACATAACTTTTTCATTTGAAATATTATTTACACTTAAAAAATTTCCATTAATATTTGTTTTTTGTTTAATTAATCTAATACTTGCATCTTTATAATTTTCTTCAAATTTAATTTTCCCACCAATTAATCCCCAATAATTTTTATATGGTCTTATATTTCTTTTTAATAATAATATTTGATTTTCATTATTTAATAAAACAATTAAAACAACAGGCAATGGTGTATGTGAATTATTTAGTATATGTCTAAAAATCGGAATATATTTTTCTGAATCAATTGTTAATTGATATTCATTTTCAATTTTAATTAATAAACCATCATTTATCATTTGATCTAAATGATAAGCTAAAATATTTGACCTTACTTTTATTTGTTTTTCTATTTCATTAAATCTTAATTTATTTTTATTTACAAATAAAGAGAAAATTTCATACCGTTCTTTTTTTTGTAAATTTTTAATCATAGTCAAATGAATTTGAGGAATCTTTTAAATATTATTATTATTTTTTATATTTTATGTACTTTATAGGAATTGATTTGGCATGGTCCCCAAAAAATAATAGTGGTGTTTCAATTATTGATTCAAATCATAGTCTTACAAAATATGGAGTTTGTAAAAGTGATGATGAAATAATTGATTTTATTTTTTCAACTATTAAAACAGATAATTGTTTAATTGCAATAGATGCTCCTTTAATAGTTCCAAATGAAACTGGACGGCGTCCTTGTGAAGCACAAATAAGTAATTTATTTAGAACTTATCATGCAGGTGCACATCCAAGTAATAGAAATAGATTTTTACAATGGTCACCCGTAGTTCGTGGAGAAGAATTAGTTAAAAAATTAGAATCCATTGGAATTGTTCATGACCCATATATTGAATTATATGAAGAATCTAGAAAATGTTTTGAAGTATTTCCACATCCATCAATGGTTGTTTTATTTAATTTAGAAAAAATATTAAAATATAAATCAAAACCAGGAAGAGATCATGAATTTCTATGTAATGAATTTCAAAAATATCAAATGCATTTAAAAAAATTAGAAAAATCAAATCCTGCATTATATTTACCTGAAGAATTAACAAATAAAGATTTGAGTGAATTAAAGGGTAAAAAATTAAAAGAATATGAGGATATTTTAGATTCAGTTTTTTGTGGATATATTGCCTTGTATGCATGGAATAATCCAAACAAATGTAAAGTGTTTGGCGATATGGAAAAGGGATATATTTTGACCCCCATTTCTAATCATATGAGGTAGAAATGTTTATAAAAAGACCTTGATTCTTAGTATTATAGTAGTATGTGTGAGAGAGCACTAGTAAAAAAATATAGGAAGTTCATATTCAATGACTAAATCCTTAGATGATTTCAAATATAGGTGGGAAATGATCTGTACTTTTCGCTTTTTCTATTAAATCATATTATATAGAATATATAATGAGGAATAAAATATGAGTAATACATTTGAAAGTTTAAATTTAGATAATCAATTAATGGGTGCCATTAATAGATTAGGTTTTAAAGAACCAACACAAATACAGAGAGATTCAATCCCTTTAATTTTTAAAAATAAAGACGTGATTGGAGAATCAGCAACAGGTAGTGGTAAAACATTAGCTTTTGGTGCAGGTATAATTAAAAATGCTGAACCTGGAAATGGAATTCAAGCAATAGTTTTAGTTCCAACAAGAGAATTAGCTGAACAAGTTAAAAATGAAATAACTAAATTAGCATATAAAAAACCAATTAAAGTTTTAGCAATTTATGGTGGAGTTTCAATCAATCCACAAATTGACGGTTTAAAAAAATGCGAAATTATTGTTGCAACACCAGGTAGATTATTAGATCACATGAGTCAAAGAACTATTGATACAACTAAAGTAAAAACATTAGTATTAGATGAAGCAGATAGAATGGTTGAAATGGGTTTTATTGAAGATGTTGAAAGAATTATAAGAGCTTGTCCAAAAAATAGACAAACATTATTATTTTCTGCAACTATGTATGGACCTGCAAAAGAAATTGCAAAAAAACATATGAAAAATCCAGAAACAATTCATGCAACAAAAATGGTTGATCCAAAAAAGTTACAACAAACTTATTATGATACACCATCAAATATGAAAAAAGAATTATTGGTTCACTTATTAAAAAAAGAAGAATCTGACTTAGTTATAGTTTTTTGTAATACTCGAAGAGCAACTGATATGGTAGGAAGAGTATTAAAGTTAAATAAAATTAAATCAGCACCAATCCATGGTGGTTTAACTCAAGTTAAAAGATTAAAAACTATTGAATTATTTCATAAAGGAAAATTTCAAGTTTTAGTTTGTACTGATGTAGCAGCAAGAGGATTACATATCGAAGGCGTAACACATGTTTACAATTACGATGTACCTAATGATCCTTCAGATTATGTTCATAGAATTGGAAGAACTGCAAGAGCGGGTAAAGAAGGTTTAATTATTAATATCATTGCACAAAGAGATTATGATAATTTTTCAAAATTGGTTTCTACACACAGAGATTATAAAATTAAAAAAGAAGAAAGACCAAATTTAAAAGAAAATTCAGATTTTATTAATGATACTAGTTCTACACCAAGATCAGATAATAATAGAGGAAATTACGGAAGAAGTAATGACAGATCAGGTGGTTACGGAAGAAGTAATGACAGATCAGGTGGTTACGGAAGAAGTAATGACAGATCAGGAAGTTATGGAAGAAGTAATGACAGATCAGGAAATTATGGAAGAAGTAATGATAGATCAAGTAGTTATGGTAGAAGTAATGACAGATCAGGAAGTTATGGAAGAAGTAATGATAGATCAAGTAGTTATGGTAGAAGTAATGACAGATCAGGTGGTTATGAAAGAAGTAATGATAGATCAGATAGTTATGAAAGAAGTAATCGAAGACCTAGTAATACTAATAATAATAAAGGATTTAATAAATATTCAAGAAATTCCGGAAGTGAAAAATCTTACGGAGATAGAACAGAAAATAAATCCAAAGGTAAAAAAAACTTTAGTAGAAAAAGTAATGACAAAAGTCGACCAAGAAATAAATAATTTTTTATTTTTTTAATTTATTATTTTTAATATATATATTCAATAAAACAATTGAAACAAACATTTATTAAACAAATAATTCTTTTTTTATTTATGATTTCAGATGATTTATTAAAAAAGATTGATGAAAAACAAAGCCCATGTGTAGTTGGCTTAGACCCAGACATTTCTAAATTTCCAGAACAATTTTTAAGAAGAACAAGTGATTTTTCAGAAATTGGAACAGCAATTACGGCTTTTAATTATGGAATAATTGACGCAATACATGACTTAGTTCCAGCAGTAAAGCCACAAATCGCTTTTTATGAACAATATGGTGCACCAGGAATTTTAGCATTTGAAAATACAATAGCTTATGCAAAATCAAAAGGATTAATTGTTATTACAGATGCAAAAAGAAATGATATTGGAAATACATCTAAAACATATGCAAATGGACATTTAGGTAAAGTAGAAACATCACAAGGTATGCAAAAATCATTTGATGCAGATTTTTTAACAGTAAATCCATATATGGGAATGGACAGTTTAGAACCTTTTGTTGATGTATGTAAAGAATATCATAAAGGACTTTTTGTATTAGTAAAAACCTCAAATAAAGGATCAGGAGATTTTCAAGATAGACTTGTAGAATTAACAGACGAAGAAGCAATTGTTTTATGCGACTTAGGTTTTCAAAATTCAAATACACTAAATAAAAAAACTGAATTATATAATTTAGTTGGAATGAAAGTAAATCAAGTTGCTCAAACATTTATAGGAGAGCGAGGTTATTCATCAATTGGTGCAGTAATCGGTGCAACATATCCAGAACAAGCTGAAATATTAAGAAAAATTATGCCAAATAATATGTTTTTAGTTCCAGGTTATGGAGCACAAGGAGGAGGCGCAAAAGACGTGATTCCATGTTTTAATGAAGACGGATATGGGGCTGGTATAAATTCATCAAGAGGTGTTTTATATGCACATTTAAAACATAATAGTCCGAAAAAATTTCAAGAATATTCAAGACAAGCTGTACTTGAAATGAATTTAGATATAAAAAGTGCATTAAAAGACGCAAATAAATATCCAAGCACTTGGGATTAAAATGACATTAAAAGATATTCAAAAAGAGGTTGATGATTGGATAAATCAATTTAAAATTGGATATTGGAAACCACATGAAGTTTTAGCTAGATTAACAGAAGAAACTGGAGAATTAGCAAGAGAAATTAATCATATTTATGGCCCTAAAAAGAAAAAATCTACTGAAGAGACAAAAGAATTATCAAATGAAATGGCAGATATAATTTTTACTCTATGTTGCCTTGCCAATTCACTGGATTTGGACTTAGATGAAGCTTTTAAAAGGGTAATGGACAAATGCTATGACAGAGATCAGAATCGTTATGAAAAGAAATAAATTTTGCTTATAAGAGCCAAAACCGATTAGTTTTTAAATAATAATATTTTCTTTCAATTATATCAGTAAACTTTAATTATTGCAAAATAGTAAACTGTTTCTGAGTACACGAGGTTCGAAAATGGAAGGAACTGTAAAGTTTTTTAATGAAAGAAAAGGATTTGGTTTTATAAAAACTGAAGATGGTAAAGAATACTTTGTTCATCAAAGTGCACTACAAGAAGGTATGGTTTTAAGCGACAATGATGTTGTTCAATTCGATATTGAAGATGGCGAACGAGGCCCAAAAGCTGTTAATGTTCAAAAAAGCGAAAGCTCAAACGAAGATAATACAGAAGAATAATTTATTAGTTTTTATTTACTTAAATTCATAATTTATTATAATTAATTTTTATTTTTTTTTTATTTTTTACATATATATACAAATGCTGGGGGCAGATTTTTCCAAATAATTTTACTTTTTTCTACAGATTTAAATTTTTTTAGCAATAATTGTTTAAATTTCATTCCACTAGGAAGATATGATCCTTGAATATAAGCAAATGTTAGAAATACACCATTTTTTGATAAAGAATCATAAATTGAATTTAATAGATTAATTTGCAAACTATTATCAAAAGCAGCCCAAGGCAAACCAGAAATAATACAATCACAATATTTTTCATTATGTTTTAATAAATATTTATTAATTTTATCAGCAGATGAATTGTAAACAATTATACCTGGACAATTTTTTTTGGTAATAGAAACAAATTCTTTATTTATCTCTAAACAAAAAAAAGTTGATTTTGAATTCTTTTGTTTTACAATTTCTTTTGTAAATACACCAGTACCTGAACCCAATTCAATAATACATTTTTTATTTGAAAGATTAGCTAAATCTACAATAAATTTAGACAAATGTTTTGAAGACGGTGCAATAGCTCCAGTACATTTAATGTGTTTAAAAAATTGTTTTAAAAACTGATTCATAAATTAAGTAAGTCTTTATGTTTTTAAATATATTTTCTTTTATCCCAACCTATTTGTTTTGCCATAGGTTCATAAGGATCATATGGATAATCGCCTCTTCTATCCTTATAATTTACTTTTCTAGTATTTACATCCAAATTATATAATTTTGCAGGATTTAAAAAAACTAATTTTTCAATTAATTTTTCTGAAAAATTATTAAATCTTAAATATTCTACAATAATAGGCCAAGAAGCAAGACCAGGAATTCCTGACATAAAAATTCCGCCTTCTCTATTCTTTTCATTTTCTTTATGCGGAGCATGATCTGTTTCAATCATATCAATTTTTTCTGTTCGCAAATACTCAAACATTCCTTGTTGAGATTCTGGACTTCTCAATGGTGGATTCATTTTAAAATATAAACCATCAGGTTCATTCATACGATTCCAATCATAAATCCAATGATGAGGACAAGACCCACAAGTAATATCCATTCCAGCCATTTTAGCATTATATACTAAATCTACTGCAGTAGGTGAAGAAATATGTGCAACATGAACTCTACCTTTAAAATTAAATTCAATAACCATACTCAATAAATCTTCAACTGACGCAATTTCACTCTCTTCAGGACGTGCATGACAATGAGAAATTGGATTATCCGGAGTCCAAATATGATCATGAATATGATCTTCCTTTTCACAATGTGCAACAAGAAGTCCTCTATAATCTAAATTAGTTAAGGTTTTCATTAAAAATCTTTGTTCCTCTTCTAAAGTTATCCCTAATCTTCCAGTAGAATGACCTAAATAAACTTTAATACCGGGAACTTGTTCATATTTATTACATACATAAACAGCCTCTTTAATTTGTTCTAAATCTGAAGTAATTCCCATAAAGCATCTATATAAAACTTCTTTAACATCAGCATCTTTTGCTTTTCTAATTTTATTTTCAATTTCAACTCTGCTCATTACAGCAGGCTTATTATTAGGCATATCTAAAACTGCAACTAAACCAGAATCTCTTGCAACTTCTAATCCATTTTTAATTGTTTCTTTATCTTCTTCTTCAAAATCTCTAAAATGTACATGTCCATCTATAAAATTCATAAATATATTTAATTAAACCCACTTAAAAAAATTATTGTCATAATAAATATACTTGATAATAATATTCTATATAAATTAAATGAAATAATTGAAATTATGGTAAGTGAACAAATAGTGGAAATTTTAAATGATAATGGATGGTTTATTGACTCAAATAATGATTCATATAGAATTAATAAATTATATTCATTAAAACCCTTAAAGGAACAATCTCATTTGGTTATTCCTTCATTAAAAATTTCAAACCCTTGTCAAATTAAAACATATGGTTGTCTAAAAAAACTAAATGAATTTAGAATCCTATTTGATGAAATTAAATTTAATCATAATTACACACATATAGAATTTAGTTACTCTATTAATGGAAATAAAGAATTTGCACAAATAAATAATACATTTATTATTGAATTATTCAAACAGGGATTTGAAAATATTAATACAAGCCCATATCACATATAAACAATTATAAAAGATTAAATCTAAAAAATAATATGAGAGTAAAAATAATTCCAACTGTTTTTGCATTAAATAAAAAAGAATTTGATACTAAATTTAAAAAATTATATAATATTACAAAAGAATTACAAATCGATTTTATGGATGGTAAATTTGTAAAAAATAAATCCGTTGATATTAAATATGTTCCGAACTTAAAATCTTATAATAAAAAATATGGACTTAAATGTGAAGCACATTTAATGATAAAAAATCCAATTAAATTAATATCAAAATTAAATCAAATTGGATTTAAAAAAATATTAATACATTTTTCTGCATTCAAAACTGAAGTTGAATTAATTAATTGTTTAAATGAAATAAAAAAATATAAAATGATTCCAGCATTAGTAATTAATCCAAATATTAAATTGAATCTAATTGAAAAATTAATTCCAAAATTTAAAACCATAATGTTAATGGGAGTTTATCCTGGAGCAGAAGGACAGAGTTTTGTAAGTACAAATTATTTAAAAATAAAAAAACTAAGACAAAAATTTCCTAAATTAAATATACAAATTGATGGTGGAGTTAATTTAAAAACAATTAAAAAAATTGTGGATTCAGGTGCAAATATATTGAATAGTGGAAGTTTTATATCAAGTAGTGATAATCCTAAAAATTCTTTAAATATATTAAAAAAATTAGCTAATTCTTAAGATAAAGTTAATAATCCATTAATTGTAAAAGCAATTCCCATTATAAAAAAACCAAAACCCATAATTCTACTATTTTTAAAACTAGTAAAATACATAAAAAATCCAACTAACATTAAAAATATTCCAGATACTATTGAATAAATTCCACGCACTGGAATACCGCCACTACCACCATATCTACTCATTTAAATCACCTCAAACTATTTTTTTTATACCAAGAAACAAATTGTCTAATAAAATTATTTTCAATCTCGTCTGGATTAGCAACTGTTCTATATTCATCCATATCCATTTGAGCAAATGTTTTTTCGAAACTACTTGGAATTAATAATCTACTAAAAGGATATTTATGAAATGGTTTTAATTCACCTTGTGGCTCCATTGCAATTTTACCAGTTTGAATATCTGAAAATACAACTGGCTCATGCATTACACCACTAATATAAGCTAAAGAACCTTCTAATCTATATCCTCTATTGTCTTCCGGAATTAATCTTAAAAATTCTTCATCAGTTAATTCAGATAAAACTTCATGTTTTATACCAGGCCAACTTTCTTTAGAAGTTGGTTTCTTTTTTTTAAAATCTAAGTATAGTCCAAAACCAATACAAATTGCATTTCTAGAACCATTAAAATCTTTGTGTTTATAAAAATATGATGCATTAGCTTTAACATAATTAGAAACACTACTTCCTGCAACATGAATAGGTCCTTCTACTCTCATATGAACTGGATTATTTAAACAATTTAATCTTTTTCTAATCATATGATATAATCCATCATTATTAGTAAAAATTTGTAATTCTTCTTTTACCATAAGTGAAAAAATAATTTACCAATTAATAAATATTATTGTGATAATTAATACAAAAATCTCAATAATCCTTTAATAAAAGGAGTTAATTTTTCAGACATCAAATTTCCGATTATTTTTTTATTCACCCTAGTTGAAGTTGGATATGAATATATTTTATTAAAAAACGCATTAATTTTTAATTTATTTGCTTTTGCTAATACTAATTCTTGAAACATTTCACCAGCATTTGGAGCAATTACACTTCCACCAAGTAAATTGTTTTTATTATCAACATATAAAAGCATTTTCCCATCTTTATAATCATCAACAATTGCTCTATCATCATCTTTAAAATCAAGTGAAAGTTTTTTATATTTTAATTTTCTGTTTTTAATTTCTTTTTCATTAATTCCAAATGTTGCAATTTCGGGTTGAGTAAAAGTAACCCAATTTAAATTATCATTATTTAATTTTTTCCAAAATAAACCAGGTTTAAAAAAATTTGATAAAATTACTCCAGCGTGCAATTCAGCTGCATGAGTAAATTGATAACTTCCTGCAATATCACCACATAAAAATACATTAGGATTAGTTGTTTGTAAATATTCATTTACTTCTATACCTTTTTCATGTGTTTTAATATTAGCTTTATCTAAGTCTAAATTATTATAATTTAAAACTCTGCCAATACCAACAAAAACATTATCAAAACTAACTTTAGTTTTTATTCCATTATTATTAATAATACATTCATTTTTTGATGTAAATTCCATTGGATTAGAATTAAATAAAAATTTAATTCCTTCTTTTTCTAATCTATTTTTTAAAATATTTGAAATTTCAATATTTTCTTTTGGTAAAAATTTATTACCTCTAATAATAACTAAACATTCTACACCTAATCGATTAAAGGCTTGAGAAATTTCTAAACTAATTGGACCTCCTCCAATAAATAACATTTTTTGTGGTAATTTTTTCATTGAAAAAACATTTTCATTATTAATTACATCAACATTTTCAATACCAGGAACATTTAATTTTCTTGGTTTTGAACCAGTTGCAATTACAATTTTTTTACCCTTAAATGTTTTACCAGAAACCTCAACTTCATTTTCAGAAACAAATCGAGCTTCACCTAAAGCAACATCAATTCCCTTTTTTCTAAAATAACTTGCATTTTCGTGAACACGAATATACTCTTTTTTATCATCAATATAATTCATAACTTTTTTTAAATCAATTTTACCAGAAACTTTTAATCCAAAATGCTCTGATTCTTTTGCACCATGAGCTAATTTTGCACAATGAATTAATGCTTTTGAAGGAACACAACCATGATTTAAACAATCTCCACCAATTGATTTATCAGTTTTATCAATTAAAAGAACCTTAAATCCAATTCTAATCATAAACATAGCAATATTTAATCCACCTGATCCAGCACCAATAATAATTATATCATATATCATATTTATTCCTCAATTTATTCAATATTATAAAGTTTTGTTTCTGGATTAAACGCATACCACGCAAACCAAAAATCTCTTTCTTTTACTATTTTAGTATTGTCATTTAAATTTATTATATTTGAAGTTCCATCATCATTCATTTCTATTTTTATATCAACACCAGCAATATTATCAATTATAAAACCAACTTCTTTTACATCAGATTCTTTATATGCTTTTGTCACTCCATTAATTTCAACACCCCAAATTGGAGTTTTTGGATGAATTCTATCATCTTCATTTTCAACATCGAAGATTAAAAAAGAATCACTATAATAAGAACCATACGGATCTACACCATAATTTCTTTGAGCCCCAGTATCTCTAGTTAATACAATAGCATCATCATTATTATTTTTATAATCAAACCAAACAACTGTATCAATATTTATTTCTTTTAATTCAAACCCAGTCAATTCTCCAACAATTGCATTACCATCAATTTGCTGCCAATAAGATTTAGTTAATCTATCATACATAACTAAATTACTATTAAATAATTTCCCACTAGTACCAAACTCAACTGCATTTCCATCAATTACTCTATGATATGCAATACCCGAGCCACACAATGGACAATATGTAATTAAAATAGGATCACCATCAATAAAATCATTTACAATTTCATGCCAAACCAGAATTTGAAGAGGATAAACTTTTTTTTTACCCTTATAATGAATAGCTAAAACTAATTCATCATCCCCAATCCAATCAACTTCATTAATTTTTTGATATTTCGGATTATCAATTGACGGAATAATATCTTTTACATCCCCAGGTTTTGCAATACCTTTTTTTATTTTACTTGGATCAATAATATATTTAATTCCATTATAATCAATTTTTATATCATAATTTAAAGAATTATTAATTGCATTAAAATCCCAAAATTTATTATTTAATTTAGAATCCCCATTTATTTTATTTTCATTAATTAAATCATTAGAAGAGTTAAAAAATAAATTCAAAATAAAAGATCCAAATACTATAATACAAAACAATAAAATAAATTTATTTTTTAATTTCATTTAAAATAACCTCAATATATTAAAAACAAATAATAAATAGTAAATACTTATTATCATCATTATTAAACCAGACACTACATTTATTTTATTTTTATATTTAACAAACCCATTAATAACAATTTTACTTTTTAATTGAGGTAAAATACTAAAAATAATAATTGGAATAGACATACCTAATCCAAAAAATATAAATTCTATAATATTTAATAAAAAATCCGTAACCAAACTTTGTTTTGCAAACATTAAAGCAATAAAAAGAGGATTACACGGTAATACTATTATACCAAAAAAAAAACCAAAAAAGAATGCCGATAATTTCGGATTAGAGAAAATTGGACCAGAAAAACTTGGAATTAATTTCGAGAAATCAAAATTAAAAACTAATAAGAAGCTTATAATAAATAATATTGTAAACGCAATCGGACTAATTATATTAATAATTTTACTTAAAGATAATTCTAAAAACGTAGAAAAAATTAATCCAAATAAACTCATAAATGTAATTATACCTAATGCAACCAGAAAACCCAATTTTGGAATTGCATGTGGAACAATCTTTTTTTTACTTAAATTAGTTGCCAAATAAGACAAATATCCTGGATACAATGGCAATACACATACTGCTCCAAAAGGAGTCAACATTCCTAAAATAAAAGATCCTATAAACTTTAATTGTAAAATTTCACTCAACATTTTTCATTAATTAAATTATTTATTTTTATCATTGATTTGAATCCACCTAAAAGTAAATGTTCTGATTTATCTGGACAAATTAAAATCAAAGGTGCTAATGCAGTAGACAAAATACTATTACCAAATTTTGCAGTTAATTCTCTAGTCATTTCAATTGGTACAATTGAAAATGGCCAATCAAAATTATTTTTTTTAATATGATTCAAAACAATATTATCATCTTCATTAGGATCAGTATTAAGACCAACAGAAATTATATCATCTCCTAGTTGATCATGTAATTTTTTTATTTCTTTTTGTTGTTTTGTACAAGTTGGACACCAAGTTGCAAAACTCTCAACTAAAATTGGTTTATTTCCCAATTCCAAAATTTTATAATTTTCATTCGTATTTAAATCAATTAATTCATAATTTTGCCATGATGATATTTGTTTGAGAGAATCTGTTTTAGAATCCACTTCATTATTTTGACAAGCCACTAAAAAAAGAGAAATAAAAATAATAAATAGAATAAATACTTTTAAATTTAATTTTTGTTTCAATTTCATCATATTTATTTCCCCATCAATCATTATAATTAAATAATTATAAATATCTTAATACATTTATAGTACTTTAGTGTTACGTTTGATAGTCAAAACAAAGTTTGAACCTCAATTATTATTTAAATAATAATAAATTAATTAATAATTACATTTAATATCATTTAATTCATTTGTAAATATCTCAAAGTTTTCACTATAATCAATTTTACAATCAATAATTACAGGTTTATTCAATAAAAATGCTTTTTTTAAAGTTGGAATTAATTCAGCAGATGATTTTATTTCAAATCCTTTAGCACCATAACTTTGAGCATATTTAACAAAATTAGGATTATTCAAATCTAATGCAAAATCACTAAAACCATGATTTTTTTGTTTCCATTTAATAAATCCATATGCATTGTCATTCAATATTAAAACTACAATATTAATTTTATATTTAACTGCTGTAGCTAAATCCTGACTATTCATCATGAATCCACCATCCCCACAGACCGCCAATATTTTCTTTTTTGGATTAACTAATTTGGCCGCCAATGCACTTGGCATACCCGCACCCATTGTAGCTAAAGTATTATCTAATAATACGGTACCAATATCATATGCAGGATAATGTCTACTAAACCACATTTTATATATTCCATTATCTAAACAAATAATATCTTTTTTGCCCATCACAGTTCGAATATCTTTTATTAATTTTCTAGGTTTAATTGGAAAACTATTATCTTTAGTTCCATCCATAAACAAAATTTCATTTAATTTTTTTTTAATTTTCAATTCATAATTTCCATCATGACTATATTTACCTAATTGTTTAGAAATCATAGAAATGGATTCTGCAATATCTCCTATCACTTCTACAATTGGATCATAATAAGTATCATTTTCAGAAGAAACAAAATCAATATGAATTATTTTTTTATTTCTATTTTTATTCCACACACTCGGTGGATGTTCAACAGTATTATATCCCACCATAATTAATAAATCACTCCTATCAACAACACAATTTACATAATCTTTTTTATGTATTCCAAAAGTATATAAACTATTTTTATGATCATCACCTAAAACACCTTTTCCTAATTGAGTATGTATGGCATAAATATTTGTTTTATTACAAAAAGATTTTATGCTATCTCTCACCCTATTTCTTTGAGCTCTACTACTAATAATTATAATCGGATTTTTTGCTTTTTTAATTTCATCTACCACAAAATTAATTGATTTTTTTTCAGCAATTGGTCGTCTTATTTGTATTTTTTTTTGTGGTATAAATCCATTAATATTTTCAATAGCTATATCTTCTGGTAACTCAATATGCGTTGCACCTTGCCTTTCTGAAGTAGAAAGTTTAAATGCATTTCTAATTTCTTTAGGAATATTTTTTGGGCTTACAATTTGAACAGAATGTTTTGTTATAGGCTTAAACATATTTACTATATCTAATACTTGAAAATTTGCCTGTAAATTATCTCGTACTCCTTTTTGCCCAGTAATTGACAACATAGGCATACCACCTAATTGTCCATGCGCAATACCAGTAATTAAATTAGTTGCACCAGGACCTAAAGTCGCCATACAAACTCCTACTTTTCCAGTAAGTCTTCCATATGTTGCAGCCATAAAAGCTGAGACTTGTTCATGTCTATTAATAATAATTTTAATTTTTGTTTTTCTCAAACTTTCAAGTAAATCTAAATTTTCTTCACCCGGTACAGAAAAAATATATTCTACCTCTTCATTTACTAAACACTTAACAAATAAATCAGATGCTTTCATATTTTATTTCCTCACATTATTTTGATTTATAACCATTATTTTTATTTCAGTCATATCATCAATTGCAAACTTAACTCCTTCTCTACCAAATCCTGAATCCTTAACCCCTCCATAGGGCATATTATCAACTCTAAATGTTGGAACATCATTTATTACTAAACCACCTACATCCAAATCATCAAAAGCTTTCATAATTAATTCATGTGAATTAGTAAAAATACCAGCTTGCAATCCAAATTGAGATGCATTAATTTTTTTAATTGCCACAGTTCCATCTTTAACTTTAAATACATTTACTATCGGGGCAAATGCTTCATTTTTCATAATCAGACAATTCGCAGAAGGATTTTCAATTATTGTTGGTAAAATAGTATTATTTTTTTTATCAAATTTACCACCATAAATAATATTTGAACCATTTAATCTAGCATCATCAATCCAATTTAATATTCTTTTAGTATTTTTAGAATCAATAATTGAACTAATATCAGTATTTTCTAAAATTGGATTTCCAATAATTAATTTTTTAACTTCTTTTACAAATTTTAAAATAAATTCATCATAAATTTTTTCATGAATAAACATTCTTTGAATACTAATACAAACTTGACCACTATATGCAAAAGCACCAATAACACATCTTTTAACAGCATAATCCATATCAGCACTTTCATCAATATATACTGCAGCATCACCGCCTAATTCCAGAACAACTTTTTTCTTTCCAGATCTATTTTTAATATCCCAACCTATTGGAACACTTCCTGTAAAACTAATCATTTTAATTCTTTCATCACTAATAAATTCATCAGCAGTTTTTCTATCACAAGGAATAATTTGTAACGTTTCTTTAGGTAGTTTTGTTTTATCAAAAATATCAGCTAAAATTAATGCAGTTAAAGGCACTTTAGAAGCTGGTTTAATTATAATTGGATTTCCACTTGCAATTGCAGGTGCAACTTTATGTGCAACTAAATTTAATGGAAAATTAAATGGACAAATTCCAAAAATAGGCCCAATTGGAAATCTTTTAATAACTCCAAACCGATTACCAGATGCAGGCGTAATATCAAGCGGCATTACCTCTCCACCTTGTGTATTTATTACTTCAGAAGCCACCTTAAATGTGGAAGCTGCTCTTGTAACCTCACCAAATGCATACTTAAGCGGTTTCCCACTTTCTTTAGAAAGAGTTTTTGCAATTTCATTTCTTCTTCTATTCAATTCATTAGAAATAAATAATAAAGCTTCAGATCTTTGATAAGTTAGTAATGATTTTGTTTCTTCAAAAACATTAACAGCAGATTTAATAGCAGTATTAAGAATACTTTTATCAGCAATATAAACAGAAGATATTTTTTTATTATTATATGGATTTACAATATCAATTGAATTTTTTGTTTTTATCCATTTACCACCAACAAAAATTTTATTTATCATTTCAACCTCTTTATATTAATTATTAAATTATGATTTAATAAAGATTATGATTAATATAAAAATTAATTAGTATTGTCAAAAGATAATTTGAAATAAAAGAAAATGATTTATACAAATACTCTATATCATGAAACTAAAGTTCTCTTGAACTAAAATAATCTTGAATATGTTGTTTTACATTTGTCAATAATTCATAAGTTTCTTCGTATGTTTTCGCACTCATTATATCAATATCTAAATTAAATTTTAAACCATTAAATTGACCATAAGGCACATTCCTTTTTAAATTAAAATTTAAGAAGTACTCATTAAGACACATAGTTCCTACACATTCACTTGAAACAGAAATACCAATAAAATTACCTTCTTCGCGCACAACGTCCCTATGATATGATACACTATACATAATTTCTATCCCTGATTCTTTGCCTATAAACAAGAAAAACTCCTCTAATTTTTCCGTATACAATGGACTTTTAAAATCAGGTTCCAGTAATTTAACTAAATCCAACAAATTATTTGTTTTATTCACTTCCATAATTAATCTAGCTTAATTAATATTTTTAAATATTCCCATGATTAATAATAAATTCTAAAATATACATTAATTAATCATTATTAGAACTAAATTTGTCCACCTAAATATTTAATCTTGAGAATTATCATACCAACCATTTCTTTTTCCAATTTCTTCAATTATCATGGTATTTCTTTTGAAAGCATCATTTATTTTTTTAAACTCACTATTTTCATATTCTTCATCAAATCTTTTTTTTTTCCCCTTGCTTTTTGTTCATCAAATTCTGGTTCTTCAACAAATCCTAAATGCTGAATTAAAGGTGTTTGGTCATGATATGAATATTCTTTTCTTTTCACATGGTATTTTAATATATCTCTAGCATATGCTTTAATATTACCCATAGAAGTATTTCCTAAATTAAATTTAACTAAATGTCTTAAAGTTCTATCTAAAGGAAGTTCTGAAGCTAAAATAGATACTGTATCTTCATCATCTTTTGATGAAGTTAAAACTAATTCATTTTCACCTTTAGTTATATCAATAAAAATACCAGAATTACAAGCTTCAATAAAATAAATTTCTCTGTGAGCGTCTATACCTTTTATCATTTTTTTTAAATCTCTGGGTTCTAAAAAATCTCCTCCATATTGTCCTTTATCTTTTAAAAAAATACCTGAAAAGTTTATTTGCTCAAAATTTGCCCCATGCCCAGAAACATAAAATATAAAATTATCATTATCATCAATTTTTTTATTTAATTTATTAAATTCAGTTTTCATTTCATCTAAAGTTGGTTGAAATAAATAAGTAACTTCATAACCATTATTTTTCAAATTATTTTTAACACCTGAAGGAAAATTAAAGCCTTGTATAACTAAAGCATATTTATTTTTTTCTTTTAAATAATCTAAACTATCTAAAAAAAATCCTCTTTCTGACATTAAATTCTCTAAATTATTTGAGCTTTTTTTATATTTCTGTATAATTTTTAAAATTGAGTTTTTTTCATTATTAATATAATTAGAAGCTAAATTTAAACTTAATAATCCAGTTGTAAGAAAAAAACCGAAAGTTAATTTTCTTAAATTTTCTTTTGGAATTAATTGTTTATATTTATTATAACTTTCTTTAATTTTAGATGTTAAATCCATTAAGGTCAGAATTATTTAATACTTATAAAGTGTTCTCTTTTAAATTTGTCCACCAAGGTAAATAGTCTTGATTTTAGGATGATTTAATAGTTTTTTATTTCCTTCTAAAGCAATTTGCCCATTTTCAAGCAAATAAGTTCTATCCGCCATCCTTAATGCTTGTTTTGCATTTTGTTCTACAATTAAAATAGATAAACCAGTTTTTGCTAATTTAGTGATTGTTTCAAAAGTCTCTTTTACTAATTTTGGACTTAATCCTAAACTAGGTTCATCCAATAATAATACTTTTGGATTATCCATTAAAGCTCTACCTAAAGCTAACATCTGTTGTTCCCCACCACTAAGAGAATAAGCTAAATGTTTTCTTTTTGTTTTTAATACAGAAAATAAAGAATAAATATAATTTAAATTATCTTTAACTTTCTTTTTATCCTTAATTAATTCAGCCCCAATTAATAAATTGTCTTTTACTGTTAATGTAGCAAAGTTAATTCTACCTTGAGGAACATAACTAATTCCTAAATTAAGTAATTCATAAGTTTGTTTATTAGTAATATCATTTTCTTCAAAAAATATTTTTCCACTTTTAATATCAGAAATATTAAAAATTGATTTTAATATTGTAGATTTACCAGCACCATTAGGTCCAATCAATGCAACAATTTCATGTTTATCTAAATACATATTAATATTTTTTAAAACATCAAACTCACCATACCCAGCATCAATGTTATTTAAATTTAATAAATTACTCACCTAAATATGCCTCCAGTACTTTTTTATTGTTTTGAATTTCTTTTGGTTTACCCTCAACTAAATTTTGACCAGATTCCATTACATAAACATGATCAGCAATATCCATAATAAAATTCATATCATGTTCTATTACAATTATAGTCTCTCCCATTTCTTTTAACTTAATTAATATTTCTTTAATTTTTTGTCTTAATTTAGGATTAATACCAGCAACTGGTTCATCTAACATAATTAATTTATGTGGATGTGCAATTGCAATTGCAAGATCTAATAATTTTCTTTGACCATAACTTAAATCAGAACCCAATGTATTTAATGGTTTTTCTAATCCTACCAAATTTAATATTTCTATTATTTTTTTATCATTATTTTTTTTTAATCCAAATAATTTAATAAAAAATGACTTGAAAAATTTTTGATCATCATTAAACATTGCCATCTCAATATGATCTCGAATAGTTAAATTTTCAAAAAGTGTTGGATATTGAAATGTTCTAGAAATTCCTAATTCTGATACTAAATAAGGACGTATTTTTGAAATATTATAATTCAAAAAAGTAATAGTTCCACTCTCTTGATATTCCAATTTATTAATAACATTAAATAATGTGCTCTTACCACAACCATTAGGACCGATAAGTGCTGTAATTTTATTTTTTTCTATATTAAAATTACATCCATTTAATGCCTTTACTCCTCCAAAACTTTTCTTGAGATTATGAATTTTTAATAATGTCATTTTAAATCAATCCTCCCAAAAATTCCTTTAGGTCTATATAATAAAATTAAAATTAAAATCAATGCATAAATTATTTGTCTAGTAGGTCCTAATATTTCTGATGGAATTGGTAGTAATCTTAAGCTTTCATTTAATATCATAATAATGATCACACCAAAAACAGCACCCCGATTTGATGCCAATCCTCCTACAATTAAAACAGTCAATAAAAAAATTAAATCAACAATCCAAAATGAGTTCGGCTCTATGTATTGTGAATAATGCGCAAATAAACTACCAGCCAATCCAGCAAATAATCCACTAATAAACATTGCTTTAAATTTAATTAATTCAATATTTTTCCCCAATAATTTCAAACTTATTTCATCATCCCTAACTGCTTGCAACAATCTGCCAAATGAACTTTTAGTAATATTGTATATAATTATTATTGAAACTATTGCCATAATTGTAGAAAAAACTAAAAATTGATTAGTACTGTAAATAGTAAAATCAAAAAAAGATATTTTTGGAATATTATTTAATCCCAATGGGCCCCTTGTCAATGAGGTCCAACTAATAAAAATTGAATATAATAAAAAACTAAATCCAAATGTAACTAACATTAAATAATCACTTTTCAATTTTCGTGTTGCAAACATTAACAATACTGCAAATACCCCAGGTAATAACATTGCCAACAATAATGATAATAAATAAGAATACCCATTCATAATCATTAATGCAGAAGTATAGGCACCAACACCAAAAAGAGCAATATGTGATAAATTAAGTAAGCCAGTAAATCCCATAACTAAATTTAGACTAATAGACAATATTAAATAAATATTTATTACAACCAAAACATGAGCAAAATACTCATTTAAAATTCCCTGCAAACAAAGAAAAATAAAAATAATATCTATTACAAATAAAATTAACCAAAATGCTTTTTGACTATCTTTTAATGTTTCAATAATATTATTTTTTTGAATAGTCCCCATATTTTAATTCACTTCCTACTTGATTTGTCTATTCCAAATAATCCATTTGGTTTATAGAGTAAAAATAAAAATAACAAAATAAATGATATTGCCTCTTTAAATTGTGAAGGCAAAAACCAAACCCCAAAATTTTCTGCAAGTCCAACTATATATGAACCCAAAATTGAAGCTGGAACTGAATTAACTCCTCCAATAATCGCACCAGTAAATCCTTTAATCATATATGTAGTTCCCATATTAATTGATAATGTTTGTTCTAATGCAATCAAAACTCCTGCAACTGATGCTAAAACAGATCCTATAATAAATGATAATGCCATATATTTTTTTGATTCAATTCCCATTATATTTGCTAAATCATTATTATCTGCAACAGCCCTTAAATTTCGTCCCAACTTTGTTTTAGTCATTAACAAATATATAAAAATAAGACATAATAATGAGCTTAATACAATTATAAGTTGTGGCTTAGTAATTAAAGCACCAAAAAATTCCATTCCTCTTAGTGGCCCAAAATAATTTATATTTTTAATACCAGATCCAAAATACAACAATAATCCATTATCAATTAAAAATAAAATACCAAATGATGCAATTAATAAAATTACACTGCTTGATTTTTTTTTCTGCAATGGATAATAAATTAGTAAATGCATTAAATAACCTAAAATTGATGATAAAATTAATGTTGCAATAATTGCAATAAGTAATGAATTTGATAAACTAAAAAAATGAAAAGCAATATATGCACTAAAAACAACCGCAGAGCCATGTGCAAAGTGCATAAATCTATTTGTTTGAAAGATCAAACTAAATCCAATTGCAACTAATGCATAAATTGATCCTGCGACCACTGAATTAAACAGTAATTGCATAAATGGAAAACTCATTTTAAAAAAAATTAAAAAAAATTAATTAACTCGAAGTTTAGTTCCAGCAATTATTTGACTAATTACAAAGTCACCTGCAACATCTCCATTTTCATCAAATGTAGTTGAAGTAGTCATAATCCCTTGCCAATTCTCTAATGCATCAAATTCTTTTTTCAAACAATCTGTATCAGAGTCACCACACAATTCTAGCACATCACCAAGTAAGAAAATACCATCATAAGTACTTGCACAATAATATCCTAAATCACATTCAGTATCAGCAATAACTTTAGATGAAAATTCATTATTTTCTTTTAAGAATGCCACTTCAGGAGTAAAATATCCTTTCATAAAATCTCCAAATTCATTTACCGCTTGATCTAGTCCTACAATCTCATTTGAAAAGAATAATGTATCTGCATCAAAATTAGACTCATATAATTGTTTTGCAAATACACCAGTCATTGGAATAGTTTGAGGTAATAGAATTACTGCATCAGGTTCAGCACTTTTCATTTTTAATATTTCAGTTCTTACATCTTTTGCACTAGATAATATTATTTCATCTGCAACTATTTTAACACCTAATTCAGGTAATTGTTTTAAATAACCAGCTCTCAAAACTTGTGCATAATCCGTATTTTCACTAAGTATAGCAATAGTTTTCACACCTTTTGATACAATAAATGGAATCATAGTTGCAACTTGTGCTGTGTCAGATGGATAATTTCTAAATACATAATCCCCTGAATTCGTTATATCAGGACTTGATGATAATGGACTAAATAAAAGAACATTATTTTCTTCTGTAAATGGTGCAATACCTAAGGTTTCACCAGAACACATGCCCCCATAAATTATATTTACTCCTTTTTGATTAACTAAATTTTCTGCAGCAGTTCTTGCTTCTTTTCCATTACATTTACCATCTTCATGATATATTTTTAATTGTAATTTTTTACCGTCTTCTTTCCATTTAGCATTTAAATCTAAAACTGCTTGATCAATTACTCTTTGAACAGGTAAACCATAAGCAGCACCATCTCCAGTTAAAGGTTGAATTGCACCTATTTGAAATATAATTTCTCTATTTAAAGCACCTTGACCTTTATCAGAATTATCACCATCAACTAAACTTGCTCTATCAGCATCAGATAATTCAGATAATTCAGCTTGATTATTAGAACAACCACTAATAAAAAGTCCAGCTAATAATACAAATGCCATTATTAGTATCAATCTTTTATTGAATATATTGTTTTTTTTCATTTTAGTCCCCATGTATTTATTATATTTTAAATATTTTATCATTTATTTTTATACTTTTGGTATAAGTAACATCCCAATTGAGTAATAAATGATTTTAATTAATAAAATCGAGTATATATTTATATATATATTAATAAAGTATATATTTTAGTAAATTTTATATATAAACAAAAAAAATAGTAAGTATGAAAAGAAAAATTATCAAATTGGGTTCTTCAACGCTTGTAGTTAGTTTACCAAATCATTGGGCAAAAAAAAACGAATTAAGACAAGGAGATCAAATTAATATTATTGAAGGTTATAATAATGAACTTTTTGTATATAATGAAAAAAATAAAAATGATAAAAATGAATTTATTATTGATTTAAATAAAATAACCAAAAAAAATATCAAAATAATATTAACACATATTTATAGATTAAATTATAATAAAATAAAAATTGAAAATATTAAAAATAAAGACATTGAAGAAATTAAAAAAATAACTCAAAATTTGTTATTAGGTTTTGAAATTACATCACAAAATAAAAGTTCTTGTACTATTGAAAATATTGCAGAACCTAATAAAGAAAAATATAATATTTTATTTAGAAAAACATTTTTAATAGTAAAAGAAATACAAAATATTATTTTAGATGATATTGAAAAAAATAAATATAATAATTTACTTACCATTTCCAACTTAAAAGATCAACAAGATAAATTTGTATTTTATTGTAAACGTACAATGATAATACAAAGTCATTCAAAAACATTATTTGAATGGGAGTTATTAAAAAATATAATGTTAATTAGCCACTCATATTATTATTTATATGAATATTTATCAAAAAATAAATTTGAAAATGATAAAAATTTCATTTTACATTTTAAAGAATTAATAAATTATTTTGAATTATTTTATGAGGCGTATTTCAATAAAAAAATAAATAATATTGATCAAATAAATAAATTAAAAGATGAATTACATCAAAAAAAAACAATTGAATTAATGAATAAAGGAAAAAATATTGTTTTGTATTCTTATATTCGTGAAACTTTTAGATTAATACAAATTTCAACTAGCCCAATTCAATCAATTTTATTATCTAAAACGGATTTTGAATATTAGGACTTTGTTCTGATTTTCCCAAACCCCATTTATCATAAACAGTATATTCCATTCCTTTAAAAGTCATAGTTTTTGGCTTGCCTCTTTTTTCTAACATTTCTTTTAATACTTTTTCTTTTTCATATATTTTTTCAAAATTTTCAATTGATTTTTTTCGCGTCTCTTCAGCCATATACATAATAAAACGATCAAAAGCTGGATTTAAATCATATTGAACAAAGAAGTATGTAGATTCTATATGTGTTTCAAAATTTTTTTTATTATCTTCATACTTTTTTGAATTCGTATCAAGAATAGATCTTGCAACAGTTCTAGGATTAAAATATGCAGTTATTGCCATATGCTTATCCCCTTCAAAGTAATTAGTATATGCTTTAAGCTTAGCAATTTCTAATCTTTGATTTATATTTTTACCATAATCACCATCAACAAATTCATACACTGTTGACTTTTTTCTTTCAAATTCTTGTTTAGCTTCTACTTTTTTTAATTTTAGTTCATAACTACCATTATGAATAAATGTACCGATTGCAAATGATGCAGCTAATCCAATTTTCCCCCATCTTTTTAAAATATTAATTGGCTTTTTAGATTCATACATTTTATGTGCTTTATTTATTACATCAATTAATTCTTTTGAATCCTTTACACGTTTTTCTTTTTTACACAATAATTTTTTTAATAAAAAACTATAATGTGAATTTAAATGTTCAATTTTTTTAAAAATAATATCATCCCAATATTCACTTAAAGAATTAACTTTTATTTTTGCCTCTTCTTCATTAAAAAATTCTCCTTCGAATAATTTTCTTCCAGTAATTACATGATATAATGTTGCACCAAAGGAATAAAAATCACATTGTTTTGTTGCCACATTATTTTCATCAAAAAGTTCTGGAGCTCTATAATGAATATCTCCAATTTGACCAATTGCATTATCTTCTAATTGAGATCCTTCAAAATCAGTTAATTTATATGCGCCCTTTACATAACCAATATTTTCAGGTTTTATGTCTGCATGAATCCAACCACTTTTTTCATCACTAGTTACCACATTATTATGCAAATCATTTATTCCATTTGTAATATCTTTAATAAAATCAAAAATATCTTCTGTTTTATTTAATTTTAATTGATTAAGAGTACATTCAACTCTTTCTTCTACAATTACAGGAATATTTTCTACTTTATCTAAATAATTAAAAACTAAATTTGCAAAAGATCTTCCATGCCCACCAAGCGTTCCTGCATAAATTAAATCAGAATTTGATAAATCCCTATTACCATATTGAATTTGGGCAGTATCTTTTCTATTTTGAAACTTTAATACCAATTTACTTCCATCAAATCGTTTAACAGGTTGAATAATTTTCCAATTACCTTGAATAAATTCCCCATCTTTTTCAAAACCCAATTTTTCAACAAATGAGTCTAATTTTTGCTCTAAATTCATCTAGAGTAGAATCATTAATTATTTATAAAGAATTCTTTATTTTTTTAATTCACAGGTTCTATTAATATAGCCCTTTAATAATAATCTACCCATATCAGATAATTTTACATATAAATTTTTACTCTCTTCTTTTGTTTCAACTAATCTAAAATCAATTAAGCCCTTATATTTATAATTTCCATTTATATGATAGGATAATAAAGATATGGATAGTTTAGATAATTTAGATAATTGTTGAAGAGAAACATAATCTTCATTTTCTAAATACTTTAATAATTTTAATTTATTTTCACTAAGTTCATTATAGTATGATAGTTTCATTATAGGCATTAACATAACTTTATTATTCATTATACCAAATGCCTTTAAACCATTTGCATAAGAAGCAGATAGTGCTGCACAGGTACTATACTTATCACCACTTGCAACATTTACAAGTATATTATCAGAATCATAAGTTGAACAAATTTTTGCAAATACTTTAAATGTCTCTTCCATAATATTTTCAGAAATCGAAATTATTTTTGTTTCAATAGTTAAATATTCTAATTTTTTTTTAAGACTATGTGCATCTTTATTTCTACTTTTAGGAGTAATTAAAAATACCCGTTCAGTTGGAAATTCTTTTAATCCAAAAAATAAAGCCTTTAAATTATCTCCCACAGGAGCAATTAATGTATAACCCATAATATGTTAAGACATAAATATATATTTAAATCTTTGGCTTAACTATCAAAACTTTGTTTTGAACATAATTACATATATTTAAATACATAATAAATCGAATATAAATATGACTAGAATGTATAATATTAAAAAAGCGTTTAAAAATGTTAATACATTATTAATTGGAACATTTTCTTCATTAGTAATTGCATTTATAATGTTTTATTTTACTGATTTTGAATTAATAAAAATTAATTTAGGAATTGTTTATGCAACCGCTCACATGTCATTAGAGATTTTAATTTCTGTTTTATTTGGATTAAATATAGGATTATTATGGACAAAATTAAAATATATTGGTGGTGTAAGTAAGACTACTACTGGTTCAACAGTAATTGGAAGTATCATGGGAATTTTAGTTTCTGGTTGTCCTGTATGTAGTATAACATTAGCTTCATATTTAGGTTTAGCTTCAATAATAGCAACATTTCCACTATTTGGTTTAGAATTAAAAATAATAGGGCTATTATTATTACTCTACAGCACAAATGATCTATCTAAAAATCTTTACTCATGTAGTATAAAAAAATAATATGAAAACAATTATTATTATTGGAGGAGGATTTGCTGGTGCAAAATGTGCAAAAGATTTACAAAATAAATTTAATGTTATTCTAATTGATAATAAAAATTATTTTGAATTTACACCTAGTGTATTAAGAGTTTTAGTACATCCAGAACATGCAAATAAAATAGAATCTTTACATAAAAATTATTTAAAAAAAGCAGAAATAATAATTGAAAATGTAAAAGAAATAGATAAGGAATATGTATACTTAAAAAATAAAAAAATAAAATTTGACTATTTAATTATTACTTCTGGATCTCAATATAAATTACCATTTAAACAAAAAAATTGTATAATGAATATGCGTTCACATAATTTAAAAAAATATAATTCTAAAATAAAAGATTCTAAAAAAATATTAATAATTGGAGGAGGGGTAGTCGGAGTTGAAATTGCTAGCGAAATTGTTGAAAAATATAATAATAAAAATATTACAATAGTTCAAAATAATAATGAACTAATGCCTAGAAATAATAATAAAACAAAAGAAAATATCAAAACATATTTAGAAAAAAATAATATTAAATTAATATTTAATAATAAAATAATAGATTCAAAAAACAATACATATTATTTTAATGATGGAAAAAAAATAAATACGGATTTAGCATTTTATTGTACTGGAATAAAACCAAATTATGATTTTATGAAAAAAACATTTTCAAAATATATAAATAAAAATCATTTTGTAGATGTAAATGAATATTTACAATTAAAAGATCACAAAAATATTTTTATCGGTGGGGATATTGCTAATATAAATGAAGAAAAATTAGCACAAAATGCTGAAAAACATGCAGAAATTATTTGTAAAAATATTATTAATTTAGAAAAAAATAAATTATTAAAAAAATATAAATCTAAAAAAAGAATAATGGTTATTAGCCTTGGTGAAAAAATTGGAATTGCTGAATATAAAAAATATTCTTTAATTGGAAAAATTCCAGCAATTATGAAAAAATTTATTGAATATAAAACAATGAAAAATTATAAATAATTATAATCTGTTTTGAACATACCATTCTTTAAACATTACATGATAGGGATTATTATCACATCTATTTAAACTATAATATTCATCCCTATCTAATTCTGCTAAAGTCCTATCAGTTTTTATAGGAACAAATAATTTTGCAAGATTAGACCAAACCCATTCTCTGTCTAAACCTCTTTCTTCTGTAGCAATACGTCCAGATTCTCTATCACAAAAAACAACAGGTTCATCTAATAATTCATCCATATAAGAAATTGCATGTTGCCAATAACAAAATCTATTTTGTGGCTTTAATTTTTTCATTCTCTCCAATAACCAAGCATTTCCTTTTTCCATTAAATCTTTTACTTTTGAACCAGGATACTTATTTAATGCAGGAATATAGAAACCAGCATCTAAACAAATTACTGGAAGGTCATATTTTCGATATGCTTCAATAACTTTTTGTTTAGATATTTCTTTAACATGTAATGAATGATCTTCTTCAAAATCAAAATCAATTCTTTCTAATTGAGTTCCATCTATATTTAATCGATTTTGTAAAGAATCTACCTTTTGTTGTTTAGAAGTAACATAATAAATTGTTTTCATAAATTAAGAAACAAATAATTATTAATAAATAAAACTGATTACAATATAGTGACAAATTATAATACTTTCATTTTTCTTTTTTTATGCCAATTATAAATTGGTACAAGTGACATTAAAATTATTATTAATACTACTACAAATAATATTTTTAATGGATCAAAATCTTGTGTTAATAAAGTACCCGAATAAACAAAAATAGTAGTACCAGGAATTATTCCAATTAAAGTTCCTAAAAAATAATCTTTAAATTTTAATTTTGTTAAACCAAGTCCAAAATTTAATCCATTAAAAGGAAATAAAGGAATGAATCTTAAAAATAATGTAACAATTAAACCCTTATGTTCCATTTGTTCATTATAAGACATTAATTTTGTAAATTTATCTTTTAATAAATTATGACAGAAATCATGACCCAACCATTTTGCAATAAAAAAAGCAATTGATGCACCTATTGTTGCACCGATAACTACCCACAAAGTTCCAAAAAAAGTTCCAAATAATGCACCAGCTAAGATTGTAAAAGGTGTTCCTGGTAACATTAATACCGTTACTAAAATATAAATTGCAATAAAAATTAAAATACCAAAAGAACCAGAATTTTTAATTAATAAATTAACTTTTTCAATTGAAAAATTATCCCCAACTGGAGTATAAATACTAATTAAAATTAAACTGATTATTATTATAATCAATAAACCAAACTTTAAATTTTTTTTATTTATCATTTTATTAATTTATACAACTTTAATGAAAAATTTGTAAATCCAATTAAATAAGTTAATACAATAAAAAACATTACAAAATGTGTATATATAATACCATGTTCGTAAAACCTTCGAGACGAGGTTATTATTTTTTGATCTATTATTTTATTTTTCATCATTTTTTTTAATTTTAAACTTATATTCAAATCTTCAAAGGGCAAATTTTCATTAAATCCACCAACATCATTAAATAAATTTTTAGTAATAAACATTGCTTGATCACCAAAAACTAAATTTAATATTTTTGCTCTTATATTACTAGTAAACTCTATTATTCTAAAATATAACTTTGAACTATCAAAACTTAATTTGAAACAACCCCATGTATTTTTATCCATATTTTTTAATACATCCAAATCAATATTACTAATATCTGAATCAGCATGTAAAAAAAGAAATATATTTCCCGTCGATAAAAATGCCCCTTTATTTAATTGTTTAGCTCTTCCTTTTTCACCAAATATAGTTTTGATATTTTTATAATCATTTAGTTTATCAAAATAATCTTTATTTGCACTTTCAACAATCGTTATTTGACAATGAATATTCTTTTCATTTAATTGATTAATTAATTTAATTACATTTTGTCCATCATTATAAGATGGTATTATAATACTTAATTCATTCATATTTCTTATTTTGATTTATAATTTAAAAGTCTTTTTGAATTTGCAAATTTATACATATTTTAAAGATACAAAAAATGTATCAATAAAATCTATGCAAATTCAAAAGGCAAGCATACTATTATATTAATGTTAAAATTAATAATGATTAGTTTATAACTTCAAAATAAAATTTTAAAAATAAAATCAATTATTAAAAAAATAATTTAACATACCAAAAATAGAAAATATAATTAAATAATTAAAACCAAACAAATTTATTGTAAATTCATTAAATAATAATTGACTAAATAAATATTGATCTTTTACTAAAATAATTAAACCTAATAAATTTCTAAATACTAATAATAAACTAAAAGCCAATCCAATATAATAATATGTTAATATTGGTTTAGATTCAAAATAATTTTTTATCCACTTTGCATGCATTAAACAAGGCAATCCTAATAATAAAGATAAAAATAAATAAATTTCAAAATTATTAGAAAAAATATTTACAGGATTATATATTAATAATGCAGAATTTAAATTATTAGATGAAAATATATCAAACCACTTCAAAAATAAAAATTTAATTAAATCAAAAATATAAATTGAGACAAACATACATAAAAATGCATAAACAAATTTCCAATATGTTTTGTATTTGAATAATAAATAATAACCAGATATAAAAAAACAATTGACTAATAATAAAAAAGGCATAGTAAAATAACTATATACTAAATTCTCTAATGTAAATGGTGAAATTACAGAGAATATGGTCCAAATTAATGCAAAAAATAATGAAAATGTAAATATATTTTTATTTTTAAAAAATGTATAATATATTAAAACAAATAATATAATCAATAAATTTGATATCAAAGGAATTATTTCAGATTGAGAATTTAATAAAAGAAATTTAATTAAAAATATATAAGTTATAAAAAATAAAAATACAATTAATACTTCATCTTTTGTTAAATTCCAATTATCATAAAAATATTTTCTAGAATCCCTATATAATGTTTTAAGTGTCATAAGAAAAAAAAAGAAAAATTAGTTTTTAAACATTGCTAAAATTAAAATAATTTATCTAATCTTCCATTTACAATATCCCAATTAATATTCAGTAAAAATGCATTTAGATAATTAACTTTTTTAGTACCATAATCAATCATAAAAGCATGTTCCCAACAATCTAATGCCAAAATAATTTCTTGATCCACTGGCAACCCAATATGATGTTCATACATAATATAAGTATGTAATTTATTTGTTTGTTTATTTAATGTTAATACTACCCAACCAGGTGTACTAACGGCAGAACTCTTTAAATCTAATTCAAAATTTTCCCATGATCCAAAAGAATCATTTATCATTTGTTTTAATTTTTCACTAGCATTTCCACTTGAACCCAAATTTTCAAAATATTTTTCATGAAGAAAAACTCCATTAAAAGCAATAGCTTCTCTTCTTTTAAGTTCAGAAAATTCACCAAAACTATAATTTGAAAGAGATTTATCCACATTTTGCAATTTTTCTGTAATTTCATTTAGTTTTTTTACATAACCCGCATATAAACCAAAATGAGCTTCTAATTGATTATCGGAAATTCCGTCTACATTACCTAATAAATTATTAAAATTTTTAACTTCAAACATAAATATCACCAAATTTAGTTTTTTTCATTTATTTATAAAATAATTTATTAAAAATGTTTATAAATAAATAAAGTTACTCATATTCCCCCGCAAGTATAAAATGATCGAAAAAAATATATCAAACAAAGCACTAATGAAATTTTATAAACATTTCATAAAAAAAAGTATTAATCAATTGTATAAAAGTAAAGGTAAAAATACTAGAATTTTTTTTGATACTTGTGCAATTTTAAAATTATATAATCATTATGGTTCAGATATATTAAAATCTAACAAACCTCACAATATGCCAGAATATATTATTACTAATCAAGTATTAGAAGAATTAGAAAATCAAAAATTAAGTAGACGTAAAAATGATAAAGGTAGATTACTTTGCCCATATGAATTAATGAATGCAGTTTATTCAAGAATTGGGGAGGAAAGTTTATTAGTACTTCCGACATTTGTAAAACCCGAACAATTAAATCAAATGAAATCAGTTGCAGATGAATTATCAAATAATAAAAGAATTTCAGAAGCAGATGCAAGTTTAATTATTGCGACAAGAGATGTTTTTGAAAAAGGAAAAAATCAATTTATTATAAGTTCAGATAGTGATTTATTAACATTGATGTATGAACAAAAAAAAAATAGAAATATAATCACTGCAGGTATTATTACACCAGAATTATATAGACTAACGAGCGAAGCAAATGGTTTTTATTAAATTTCCAATAACATATCACCTTTCTTTTAGTAAAATTACTGATCGTGAAGATAAAGTTTTACCAGAAAAGGAAACTGAAGAATTTTTAGAACAAAAATTAATAGTTCAAGAAAAATTTGATGGAACAAATATTGGTATATCATTTCAAAATGGAGATTTAATGGTTCAAAATAGAGGTAGTTATTTATGTCTTGATGATTTAGATAGATTAGATGAATATAAAGGTTTTACAAAATGGATTAATCAAAGAAAAGATTCATTAAAAGCGACTTTAACTTCAAGTGAAATATTATTTATTGAATGGATGTATTGGGAGCACACAGTAAAATATGATAGTTTACCTGATTTGGGTATAGGATTGGATATTTATAAAAAAAAAAATGACAAATTCTTAAACACATCCAGAGTTAAAAAAATATTATCAGGAAAAGTGTTTACACCAGAAATCCTTTATAAAGGAAAAATCACTCCAGAAATAATTGAAGAATTATTAAATCAAAATAGTTCATATTCAAATCAACCAAGAGAAGGTTTAATTTTAAGACAAGATTCTAGAAATTATAATATACAAAGAGCAAAAATCGTATCAGATAAATTTCAAATATCAAGCACACATTGGAAAAGTGTACCTAAAACAGCCAATATTTGTAAATATAATATCAATTTCTATGACTTATAAAGTAAACAATTATTTTGTCACCACTATTCAACAATTACTTTTATAAATAAACAATTAGTGAAATATTCAAATGTGGTCTAAAAATATATTAAAAACAGCAATTTTGTCATTTTCATTATTAACGAGTGAAGCAAAAACATGCTATGATGTAGAATATTTAGGAAAATCTAAATATAAAGTAATTGAATTTGATGAAATTGTACACAGAAATGAAATTAGATCAAAATATGGATTTAAATTATACTCATTAAAAAATCAAATTTGTGATAATAGTAATACAGAAACGTATACAAAAAAAAGAAAAAAAAAAATACCATCAGTTTCAAAAAGATCTTATTCTAAACAAAATACAATAGGAAAAATTAGTGATTCAGTTCATGGAATGAATACTTTTTTAGAATCTATTTTTGGACCACAAGAACAAATACAACCAATTCCAAAAAAAGTAATTCGAACTCAACAAAGAAGTCCACCGGTAAGAAAAATTGGAAGTATGGCTACGAGTTCACCAAAAAAAGAAAAACCAATTATTTACACACAACAAACTCAAACACAATTACCTCAAACAAATATAGATTCAATTTTATATTCAAATAAATTAAATGAATATAGTCAAACTAAAAAAACTGTATATGAAGGCTTACAAAAAAAAATTGAATCTTTAGATCCTCAAAGTAAAACAAAATTAATTAATTTAGTTAAAACAATTAATCAAAGTAATTTAAATGTTTATAATGAAAAAATAAATTTAGATGAATTATTAAAAACATATGCATTTTTTAAATTAAATTTAGAATACTTTGGGGAAATAAAAAAAGATAAATTAAATCAATTATATAGAGAACACAAGCATATAATTAATGAAAGTTATACTCAAGCTAGTAAAGAACAATTTGAAAAAACTGGATATAAATCAAATACTTTATTATTTGGTAATTTAATTGAAATCGCAATTAATTCTAATAATTTAATAAGAGAAAATTATCAATTTTTAGAGTCAATTCTAAAACCAGTAATTGATAATTTAAATAATAATACACTATCAGAATTATTTGAATTAGATCAAAATCAAATTGAAATAAGTAGTTTATTTAATTTTGCAAATACATATGATAATCCAGAAACATTATTATTAAAATCCGATCAAAAAGATAAACAAGAATATAAAAAAAGTTTAGAAGAATTATTAGAAAGTCAAACAGGTCAAAAACCAAATATTAAAATTGAAGAAACACCAATAATAAGAACAAATAGTTTTGATAGTAAAGAAAAAGCAATACAAACATTAGATGAAAAGTTATTAAATCCATTTAGAAGTTTAGTTGAAGGTAAAGATGAAACTCAAATGCAAATAATAGCATCTCAAACAATAAGCCCAGATAATCCTTATGGGAGAACAATAAAAACATTAATTAAAAATATTGGAAAAACATTTTCAAAAAGTTCAGATATAGAAAATATTGAAAATTATTATTTAAATGTATTAACACAAAAATTAGAAGATCCACAATTAAAAAATTATTTAGAACAAAAATTAAGAATTAAATTAAATAGTCAAACAATAAAACAAGAATATGAAGTTTTAAAAAATACTTTAACAAAAACATTCAAAACAATAGGTGAAAATACATTAAAACAAATAACAGATAAATTTGATGGAGATAAATTAAAAAAAAAAGCTAAAGGAAACGGAATTCGAGGATGGTTTTCTACAGCTGAAGCATTTTTTAATGGTGGAGAAAATTATAAACCATTTATTCAAATAAATCAAATTGACTATAAAGATACAAATAGTGGACAATTATATGGAAGTATGGTAACATTTGAAATTCAAACTAATAAAGGTGGAAATGAATTTTATTTAAATTGTCCAATTCCATTAAGCCCAGGATTTTCGGATTTTATTTATGCAATTAAAAATATATTAAAAAAAGGAAAAATTCCACAAATGAAATTTGCAAAATTAGTAAAAAAAACAAAAGAAATAATTAATTTAGATGATACTAAAATTGCTAATAAACAATAATTTCTTAAATTAAATAAATATCTCTAAAATATGACTCATAAATTTATTCATGACAGAGAAAATTGTATTAGTTGCGGAGCTTGTGCTGCAATAAATGGAATTAAATGGAAAATGAATAAAGAAGATGGTAAAGCTGATTTAATAATTGAAAATATAACTAATGATGAATTTGAATTAGATATGGAAACAGCAGAGAGTTGTCCAGTTAATGTAATTCACATAAATGATGAAAATAAAAAAAAGTTAATTTAAGTTTTTTGAAATATATGAAAGTTTTAATAATCCATAATCCCAACTTTCAGTTGAAACATTAGAACCTTTAAAATCTGACAAATGAAATCTCTCTCCTATTAATGAACTTTTGTTAGAATTTGACAAAATTTTCATTAATGATAAATATTGATCTTGACCCATAATTACTTCTAATTTATCAATACCCTCTCCTAATTTTAAAATTTTACTTTCTATTCTTTTACCACCATATCCCATACTAGTATGTTTAATATCCATAACAGTTTTTCATTAATGATGCACTAAGTGGTAAAATTGCATAAACCTCATCAGCCCACGCATTTTGATTTTTTTGTAATTCCATTTTAAAAGTATATTATTAAAATAATTTATAATTATATTGCTTATGTAACATAGAAATTTTTTATATTATAATAAAATTATTAAATCAATTAAAAGTTTCACATAATATGAAAGAATTAATACAACAAGTAAATCAATTAAAAAAAACTGAAATTAAAAATATAATTGATAAACGAATGAAAGAATTTTCAGATTTAAATAAAATGTCAAATGAAGATTGGTTTAGCGAACTTTGTTTTTGTCTAACGACTGCAAATAGTTCTCAAAAAACAGGGGCAAAAATTCAAAATGAATTAGGATTTTCAGGATATTATAATCTTTCTTTAAAAGAATTAACAATTAAATTAAAAGAACTAGGACATCGTTTTTACAATGTGAGAAGTCAGTTTATTTTTGAAGCTAGAAAAAATAAAAATATTAAAGAAATTTTAAGTCAATTTAATGATGATTTTGAAAAAAGAGATTGGCTCGTAAATAATGTAAAAGGATTAGGTATGAAAGAATCAAGTCATTTTTTAAGAAATACAGGACATAATAATTTAGCAATTTTAGATAGGCATATAATTCGAGCATTACAAGAAAATAAATTAATACCAGAATTTAAAACAATAACAAAAAATATATATTTACAATCAGAAAAAGTATTAAATAAAATTTGTGATAAAACTAATTTAAGTCAAGGAGAATTAGATTTATATCTTTGGTATACAAAAACTGGAGAAGTATTGAAATAGTTACATTTTTAAAAGGCTATAAAAATCATGGTCTATGGAAACAGGAAGCACTAGTGAGCAATATAAAAAAAAATATAAAAGTTCACCGCTAATGAATTATTTGTTTTTTTTAAGTTTAGGACTATTTGTTAATTTTGCAATTTATTCAATAAAAATACAAAATGAAATTTCTATTAGCCATATTAAAAATGATTCTAAACTTGAACTCTTATTAAAAGAAGTAGAAAAAGAAAAATTTGTAAGTGTTTTAGATAATTCATATCAAATGATAAATAGTCCATTGACAAGTACTTCTGATATAAATTTTCAATTAAAAAAAGCTTATTTATTATGTCCAAGAAAAGAAAAAACTCAGTTAAAAGAAATAATTAAGGATTATATGTCAGAGTATGATAGTAAAGAAAACACTAAAAAATTACATTTTTTTATATCTGATCTTAAAAAAAAATATGATTTAAATTAATAATGTAAATAATAAATATCCTATAAAACAACCTGCAGTAACAAAAGGCATTGCAGGATAAAATTTATCTGGCTTACTATGAATAAATAACATATATAATGCAATTGCTGCACAAGCAGGAATAATTAAGACTTTTAAAAATAACATTTTTGATGCAATATCAAATGAAACTAATAATTCTCCTGCATTTCTAATAGAAATTAATTCTTGTAAATTTGCAAATAAAATTGCACCAGTAAACAATAATGAAAAACCAATATCTCCACCACCAAGAATCGCACCCTTACCAATTATTTCTTGATTTTCATCAATACTCATTGAACTTTTAATATTATTATCAACCTTAGCATCTAATTTTTTTTCCATCTGAAAATTTTTATAAAAACTAGTTTCATCATTATTATATGGAATCATTACACCTGCAAATACACCAGATTCAGTTTGAGAATTTGCTAAATGAACCATATGTTTTGAATGATTTACTGCAATAATATCATAAATTGAAATTATTATCATAATTGCAAAAGCAGTCCATAAATTAATCGAACCAATAAAAAATTGAACTAAACCACCATATAAAAAAATTTCAGTTAAATTATGTATTATAAAATTGGGCCTATAAACTTTCCAAGCACCAGTAAATATACCAAGTATAATTGGCAACCATTGACCAATAAAAATATTTTGACTTTTATATAAAAATGCACCATATGCAATTGAAAGACAAAAAGCCACCGCTAAAAAAAACCACAGTTTCCAAAATCCAAACAATTTAAAATAAATTATTACAAAAACCAATAAGGTACCAATAGCAATACCACCTATAATATAATATATAGCTTCATTTTCTTCTAAATCTGCATTTTCCCCAACAGGAGTATTAAATTGTTCAATAGTACCAGTTTCAATTGATTTTGATATATCAACATAATTATATATTACAATTAAGCCAACTAATTGAGCCAAAAAAAATAATATAATTAAATATGTAGTAATTCTAATTGAATGTTTCATACTAAAAAAAACAAATTAATAGTTTATAATTTTATTTATTAATTAAAATAATTAACTTTTTTAATCGTTTTAATCTTTTCAACCCAAGAATTTTTTAACTTAATACATATATCAATCAAATCAGGTTTAAGTAATAACCATTTATCAAATAATTCTTTAACAAATTTTGCATCTTCATCAGAATCATTTAATAATGAAATATGAAGTGAATATTTTTCATAATAGCTTAATATTTTAAAAATTTCATTCATTTTTTTAAAATCATTTTCACTAAGTTCTTCAGTTTCACTAGCAATTTGAATACTAGGCTCGCCAGAAATATAACATTCAATTATTTTTTGAAAAAAATCAGTTTTTTCAATTAATCGTCTTCTTACATTTTTTAAAAAAAATTTATTAACTTCTAAAATTGAAATTTCAAATTCTGAATCTATATTTTCAAAATCAGGTAAAAAATCATATTTTTTTTTTAATTCATCATAAACATTTTTCACACCAGTTTCTTCATACATCATATTACTTTTAGGCAATTCACCATTTTCTTCAATCACTTTTTTTAAATCGTCAAGCTTTATATTTATTTTAATTTCACCATTATTTGAAATATTTGCTTGATCTTTTACAATTTTAATTTTTTGTGGATCTTCAAATTTTGGTAATTCATCCATTTCTTTTTTATCTTCTAATATTTTTATATTTTCATTATTATTTTCTTGATTATGTTCCATATATCAAAATTAAAGATTTAATTTAAAAAGATTTCTAAGAAATATTATAAATCAAAATATACAAAAAAATGTATGAGTAAACAAGAATCAAAATCAGAAGATTTCAAACCACATGAAAAAGATGAAAATGTGGGTGAATTAACAGTTAGAAATAGAGGAAAAGTTGATATGTCTAAGATATATACAGATTTACATCAATTAATTGTAGATTTAGGATATAAATGCCCATCAGATGGAACTCCATATATCGAAGAAAATTATTTCCAAGAAGACGCTCAAGATGGAAAATATATTAAATACAAATGGAAAGGAAATAAAAAACACGATGATATTTATACATCATATATTGAATTGAGTGCAGAGGTTCAAAAATTAGTTGATATAGAAAAAGTTGAAGATAATAAAAAAATCGTTAGTAATCAAGCCGACATAAAAATAAAAATAAAAGCAGGTATTATAGAAAAATTAGATAAAGAAGAAATAAGTGGTTTTTGGCATAATTTTTTTCCATCATTTAAAAAAAATTATACAGGCGATCAATATGATCTTTTAGAAGAAGAAGTATTTGATGCATTAATGAAAATTCATAATTTGGCAAAAAATCTATTAAATTTAAGTGCATAAACTTAAAAATTAAAAATCATTAAAAATAATATGAAATTAGCTTTATTAATTCTAGACGGATTTGGACTTCCAATTAAATATTCTAAATATATAAAAAAATTATATGAAAATAAATTATCATGTAAATTAGGCGCAGCAGAAAATTTTGTTGGACTTCCAAAGAAAGTAATGGGTAATAGTGAAATTGGACATTTAAATATAGGTGGCGGAAGAGAATTTCAACACATCTTATTAAAAATAAATGATACAATAAAAAAAAAAGAATTTTCTAAAATAAATGAAATTCAAAATATAAAAAAAAGATTAAATCAAAATAAATCAAATTTACACATAATTGGAATGTATAGTGAATCAGGAGTTCATTCCCATTTAAATCATCTAAAAGAATTAATTAAAACATTTGAATTATATAATATCAAATTACATATAATTACCGACGGACGTGATACAGATAAAAAAAGTGCAAAAAAATATATTGATAAAATTAATAATATTATTAAAAATAAAAAAATTGAATTTACAAGTATTTCTGGAAGATTTTATGCAATGGACCGAGATAAAAGATGGGAGAGAACAAAAAAGTTCTATAATATTTTATTTAAAAAAGGAAATAAATTAAATACATATAGTCAAATAATAAAAGAATCATATAAAAAAAAGTTATTAGATGAATTTTTAATTCCAACTAAACTAACACAAACCAAAATTGAAAAAAATGATGAAATAATATTTTTTAACTTTAGAGAAGATAGAATGAGACAAATTGTAAGTTCATTTCAAAATAAATTTAAAGAATTTAAAACAAATAAAATAAAACTCAATATTACTACCATGTATGATTATGAAGATAAAATAAAATTTAAATCATTATTTAAAAAAATTGAATTAAAAAATACATTATCCCAAATTATATCAAAAAATAAATTAAAACAATTAAAAATTGCTGAAAGTGAAAAATATGCACATGTTACATATTTTTTTAATGGAGGCCAAGAAAAAAAATTCAAAAATGAAAATAGAATTATAATTGCAAGCCCAAAAGTAAAAACATATGATCAATCCCCAAAAATGAGTGCAAAACAAATTACTGATCATATAATAAAAAATGAAAATAAATTTGACATCATTATTGCAAATTTTGCAAATGCAGACATGGTCGGACATACTGGAAATATAAATGCCACTAAACAAGCAGTAGAATATTTAGATGTATGTATTAAAAAAATAGTTAAAACACTAAATAAAAAAACAAAAATATTAATAACAGCAGATCACGGAAATTGTGAAAATATGAAAGGTAAATGGAATAAATCTCACACACTTAGTAAAGTACCATTTATTTTACTAAATACAAATTATAAAAAAATCAAAAGTGAAAATGCATCATTAAAAAATATAGCACCAACAATATTAAAACTACTAAACATAAAAAAATCAAAAGAAATGAATACAAAAAGTCTTATTTAACTACCAATTTCTATATTTTCAGATTTAAAACCCAATTCAATTAAAACCGTTTTCATTTTACTTCTATGGTCACCTTGTAATTCAATTTTACTACCTTTAAAACAACCACCAGTTGCAAATTTTTGCTTTAATTTTTTAGTTATATCTCTTACATCTAAGCCTTGATCTGCAATACCACCTATAATGGTATATTTTTTACCAAATTTTCTTTTAACCATATAAACCTTAACTTTTAGGTTCTCTTTAGAAATCTCTTCAATAATGCCTAACTCTTTGGGTAATCCTGTTATTGGATCTATTTCCATAATAATTTATTCCTCATTATCAATTATCTATCTATATTAACATATAAATGTTTTTATTTCCATATAATTAATATTATTAGTTTTTTACTTTATCTTTTAAACTTATTGCTTTTTTTATCATAAATGCATATATATTAGCAAAAGCATCACTTCTTGAAGCAGTAAAATTTGAATTAATTTGACTTTTTTGAACAAAATTTTCTATTAAATCACGTGTATTATTAATTAAATTACCATAATTTAATCCATTTAGAGCATTAATTAAAATATATATATATCCCTTTACAATTTGACTCCCTGAATATCCCTTAAAATAAAATTTACCGTCTATTAAATTCACACAAATATAAACTTGTGAAATACAACCAGGAACTTTATTTTCAATAATTATTTTATCATTATCAAATTGTTTTAATTCCTGTCCAAATTCAATTAAAGTTTCAAGTAAAGAATGTCTATCTTCTAATGAATTTAAATCTTCTATTAATTCATTCAAATAATTATTAACATCATCAATATCTCTCATACAACAACAAAATAAAAAATAATTATAAATTTATCTAATTTAATTCAATATTTTTATTTTAAATATTTTATTATCATCATTATTAAAATTATTAATTTGACTTGACCATAAATAATTATCATCTAAAGCCAAATCAGTTAAACCCTCAGAAATCGAATTAATTTTTGAAACATAATAACCATCTGAATCATATTTACAAATACCATCACAATTTATCCAAAAATAATTTCTATCATATACAATTGGTCCATTAACATCATCCTCTAATTTTAATTTTGAATCAAAAGTTCCATCTTGATTGATCCTATATAAAAAAGGAGAATTATATTCAGACAATATTAAAAATTGCTCATCATTAGTAATACCAGTAACTCTTTTTATTTTATTTGTAATATTTATTTTCCCTATTAATTTTCCATTAGTTGTATATTTATATAATTTTTTTTCATGTATATCATTAATCCAAATATATAATCCATCATAAGTCATACCTAATGGATCAAAACCAGAATAATTCCAAACATTTATTATTCGTCCATTTTTATTATTTAATTCATATAATTTATTATTATCATTAACTGCAAAAATAGTTTGTGTATCATAATTAAAAATAATTCCATTAATAATACCAATATTTTTCCCTATTTTTTTTTCCACTTTTCGACTTTTATCTTCATCTGGATAAACATAACTATACTTGTCATTTACAATATTACCAGGTATATAATTTAAAAAATAATCATCATTTTTTGAAAAATTAAAATTTAATGTTTTTATTCCCACGCCCAATTCATTTTTTAAAATTGACTTATTACAATTAGTAATATTATTATTAAAATAATTATTAATTAAATTTAATTTCGAATTTTTACAATTAAGATTTAAACCCAAAATAGAATTATTACTTAAATTTGAACTAATATTATTTACCAATATTTGTGAATTAAAATTATTTCTTATAAGATTATTATTAATAATAATATTTGAATATTCTAAATTTAAACCATTAGTTGCACATTCACGAATTTCATTATTTTCAATTAAAGAAAATTTACTTTCTTTTATATGAATACAATCATTTCCATTTTGATAAATCATATTATTTTTAATAATGACATTTGAAAAATCAGATTTAATTCCATCATTATTATTCCACCTAATTATAGAATTAGAAATATTTGCACTTGAATTAATTAAATTAATCACATTATTTCCAAATTCTAAAATCACATAATTTAATTTATTATTATTTGAATTTTCAAATTTAATTTGACTCCAATCCCCATTAATTTGAATTTCTGAATTAGATGTAAATTTAATCATATCGCTTTGATTACCATCTGCAATTAAAGTACCATAAACAATAATACTTTTTTTTAATGAATTATTTTTATACCCCTTATAAGAATGAAATTGAACATTTGTTCCTGGCTTAATATATACATTTATACTTTTAGGAATAATTAAATCCTCAGTTACAATTATATTCCCACTCCATGTTTGATTTTGATATATTTTCCCCCCAACATTTTGATTTGAAATTTTTTGATTTGATTCAAAATTATTTCCCAATTCATTAATAATATAAAAAACATCAATAGCTTGACTAAAACTCCCCTCATAATTATTTGAACATCCAGTAAATAAACCAAAAATTAGAACAATAAATAATAGGTTAATTAATTTTAATCTCCTCATATTCATTTTATAATTTAAAATATTATAAAACTATTTAATAAATATTTAAAAGTAATGTTTAGTTAATGAATATTATAATATGTATTAATAAAAACGTTTTCACTTTTAAATAGTCAATAAAATAAGATATATAATGGAATTTGAATATTTATTTACCCCGGAAGGCACTAATCGATTTAAGATAAATAAATCATATTTATTTGCTGAATTCATACCAATATATTCAGAATTCGGTAAAGAATTTGATTGGAAAAAAAGTAAAAAACCAAGATTCGTTTCTGGAAAAACTATTTTTGAACAATTTCCAAAAAGTATTGATTCAATTGATAAAATCATTGAAACTGTATATGAAAAATTAGAACTTCAATCAAATTTATTAAAATATTTAAAATCAGAAGAATTATTTAATCAATTTAAAAAACAAAATCTAGTTAATCGAAATGATGGAAATCAATTTATTAGTTCCTTAAAAAAATTATTTAGTCGAACTTCTTATGTACAAAATGGATTATATTCAAGAGCATCAGGAATTTTATTATTAAATAGATTACCGGATGTAAAAGAAATTGATAATAAAAAAAGAAGTAAAATTGATTTATTATATTTAGTTCCTAAAGAATTACAAGTAAAAGTAATTCAAGGTGAAATTTCAGATTTAGAAAGTTTAACTAAACATGGTATAAATAAAAAAGAAATTGAAAATGAAGAAAGAAAATTAAACAAATTCTTAAGTGATAATAGTAATATTGTAAAAGAATATGTTGACTTTAATCAAGCATATCAAATTCTATTAAAGTCTGGTGCAATTAGAACAGGCCAAAAACAATATACAGTTCTATATGGAATTCAACAAATCCTTAAAGATAGTGATTATTTAAAATCTGAAGATGGTAAAGAACAAATTAAAGTACAAGCATTAGTTAAATTATATAAATCAAAAAAAAGTGAAATTGTTAAAGAAATTAGAAGAATTAAAAAGACAGAAAGAAGAGAATATCAAGAATTAAAATTAAGTGAGAAAAATAAATTAAAAGAACCAGTAATTGAAAAAGTAAATGTAGAACTGGAATATAAATTAGAAACAGAAGTTGAAAAAGTAAATGTAGAAACAGAAAATAAACCAGAATATCAGGTCGAACCAGAAGTTGAAGAAGTAAGTTTAGAAACAGAAAATAAACCAGAATATCAAGTAGAAACAGAAGTTGAAGAAGTAAATGTAGAAACAGAAATTAAACCAAAATATCAAGTAGAACAGGAAGTTGAAGAGGTAAGTTTAGAACAGAAAGTTGAACCTGAATTAATACCTGAAGTTCCTCAGACATTATATTTAGTTGATGCATTATCAATTCTTGAAAAAAAATATAAACCTAAATTAATTTCATTAGAAAGAAATGTAGAACATTCAATTTATGACATTGGTCAATTATGTGATTTAAGTGAAGAAGAAATTCAAAATCGAATTTCTCAAAAAAAAGAAGAATTATCAGAATATGAATTATTATTAGAACATTTTGTATCAATAGACGAAATTAAAAAGATATTAAAAGAACAAAAAATATGTAATGAAGTTGAAGAACTGTCTGCAATGGTTAATTTAATTCCAATGTTTCTTGATGGAACTAAATATTGTAAACTTAATGGCGGATCAAATTTATATAAAGTTTCAGGCCTAGCGAATTTACTAAATGAAAATAAAAAACAATTATTAAATGGAATACAAAATTATCTTGCTAAAAAAGTAGTTAAAAAGAAAGTAGTTAAGAAAAAATTAAAAGAATCTGATTCAGATGAAGAAGATGTCTATGAATTTGAAGTTGATAAAGAGTTAAATGAAGAATTTGTAAATGCAAATATTGAAGCGGGATTTTCTATAGGAGGAATTCGTCATAATTTATTAGATAAAATAAATGGTTTAGAATTAATAATTGAATCCAAATTTGGTGATCCTAAAAAAGGAGATGAAATTAGAACTCAATTAATTGAATTACATCAAAGATTAGTTTTTAGTGTTGCAAAAAAGTACGACCACAGAGGCCTAGATTTAGAAGATGTATTTCAATTTGGTAATATAGGTTTAATAGAAGGTATGGATAAATATAATTTTGAAAAAACATATAAAAAACAAATAGAAAGAGATCAATTAAAACCAGAAAATTTAAATTATGATTCATATATGAAAATATTAAAATCATTAAGTGAAGAAGAATTAAAACTAATTCCTAAAATTTCAACATATCTTATTTCATGTATAATAAATAAAATAAAAAGAGAAATTTTAAATAATAAAAGCACAATTCGAGTCCCAATATACATACAAGAAATCAAAACAAAAATTGATAATATGTGCAATCAATTTGAATTCGAATATGGGAGAAAACCAACTGATCCAGAAATTATAGAAGAAACTGGACTAGAACAAACTGATCTAAATAATGTGAAAAAATATTTAGTTGGAAGCACATCATTAGATGGAGAATCTGAAGATAAAGGTTCATTAATACATTCTCAAGAGCAAAGCTTATTTGTCTTACCAGAAGAAAAAGTTGAATCCGAAGAATTAAAAAATGAAATTGTAAAGAGTATGGATGTTTTAAGTGATAGAGAAAAATACGTTGTTAGTTTAAGTTTTGGTTTAAATGGAAATGAAAAGTTTAGTTTACAAAAAATTGGTGATAAATTAGGAGTAACTAGAGAAAGAGCAAGACAAATTGAAGCAAAAGCAATTAAAAGATTATGTTTAGGTGAAGTATCTAAAAACTTAGAGGAATTCTATAGATAAAATGGATTTTCATGTGCAAATAAATAATGAAAAATTTAGAGTCATTGAACAAGAATCAAATCAAGGTTATAATTTAATATTAGCAAAAGATGATTTAATTGTAGGTTCTGCCACATTAGAATATTATCCTAATATAGATTCACTTTATTTTAATAGACTATTTGTCCAAGACGAATTTAGAGGTCAAGGTTTAGCAAGTGAAATATTAAAAAGAGTAATAAATTATTCAAAGAAAACTCAAAAAAAAATTCATAATGAATTAAATCCATATGGAGATTTAGATTTAGAACAATTAACTAAATTTTATACAGATCATGGTTTTATTGAAATCAAAAAAGGATTATTATATTTTATACCTTAAAATAAATTATATTTAACATAAGAATTTAACGAAGTACAACATTCGGCGAAGTCGATAGAATGACAAGCATTAATTGCTATAAACTTATAAATTATTTTTAGTTCCCTGATTCATGGAAGTTAATGAATTTCAAGAGAAAATAGTTACATTCTGTAAAGAATGGGAAAAATATCGAAATATAAAACATACAGATCAAAATACTTTCAATCACTTAGTTGAAGAAGTTGGCGAATTAGCTAGTCAGTTTGTTAATAGAGATAAGGGAAGAAAAGAATTTAATGCAAATAAATTTGACAATGCTATAGCTGACATATTTATTCATTTAGTCTGTCTAGCTGATTTAAGAAATTTAAATATTGAAAAATTATTAAATGAAACAATAGAAAAAGATTCTAAAAGATTATCAATTCCTGAAACTCAAGCTAGAAATAAAATGTCTAAGTAATATTGCAACCAAAATCAAAGAAGTTTAATAATATCATCATGAATTACTTTATTAGAAGCAACTATATCTTTAGATTCGACAGTCCATTCTGAACCATCAGAATCAGTTACTCTTCCACCTGCTTCTTTCACAATAATTACACCGGCTGCAACATCATGCAAAACATTATCAAGAATATAGAGTTCAGCATCTCCCATTGCTATTTGTGCAAATTCATAAGAAGACGCATCAATAATTTTTACTATACCTACTTTATCACCTATACTTTTTTCCAATTGAAATTTGCCTTTATGGTATCCCCCTGAATAATATAGTGATTCTTTTAGTTGTCTGTTAGATACACTTATTTTTTCACCATTTGCAAAAGCCCCTTTCCCTTTTTCGGCCTTTACTAATAAATTTAAAGCAGGAAAATATAATACTCCTAAAATTGATTGGTTACCTTTAACTAATCCAATCGAAATTCCAAATAAAGGAATGTTCCTTGAAAAATTAGAAGTACCATCAAGTGGATCAATATACCATGTATATTCAGAGCCCTTATTTTCTTGAATTTCTTCTTCTGAGAAAATATTATGACTAGGAAAATTCTTTCTTAATATTTCAACAATTTTCTTTTCTGAATCAATATCTGCTTGAGTTAAAATACTCGCTGCATCAAAATATTCTCCTTTGAATTCTATTTGAATTTTCCCATAATGCTTCATTAAAATTTTTCCAGCTTCTTTTGCAGCCTCTATTGTAATGTCTAACATAATAATCCGGTATTAGTAATAGTTTATTAAACTTTATGTGCAATTTAACAACGAGAATAACATTTGAAAAAAAGCGTATTTTATTCGACTATGTCTGCAACATGGTCAACCAAAAGGAGAAGTCCTCAACAGACATAAATTTAAATATAATATTTAAATTCTTGATTTTATGGGAGAAGATACCAAAAATTCAGCAGTTTTAGTAATTCCACAAGAAGAAAATTCAGATTATTTTTTAACATACCTGACACCTAATCATAAAATTTTTGCTGGAAGATTTCGTTTGCCAGGAGGAAAACTTCAATCAGGAGAAAATTATGAATCAACTCTTAAGCGAGAACTCCAAGAAGAGTATGGAATCTTTCTAGCTAATGTTGTTCTGCATTATCAAAAACCAAACGTTTTGGGAGGAACCATATATCTTTGTTCAGCACAAAAACATGGAAATCCTATCCCAAAAGAATCTGGTGTGGGGCCTGTTCTATGGATGAATGCTAAACAAATATTCGAATCCAATATGGTACCAAATTGTAAAATTGCAGTTTGTGCATATTTACTTGATAAAAATCCAAACTCATTGAAGAAATTAATTCCAACTATATTTGAGGATAAAGAATTCTTAAAGATTATTACATCTGAAGCCAAAAGCTTATACGAAAAAATTAACTAATCTATTGAGGATTGAATATAACATCACGATTAAATAAAGTTCGAATGAAGTGAGGATTTGGGTAAAACCATATTAAAGGGAAACGTTCTTGTAATTTCAAATTATTTTATTTCATATTAAAATATTTTTTGCATAAATTCTTCTTTGGTTATCTTTTGTAAATTATTTAAAGTTTTAATTGGTTTTATATTGTCATTCCAATTTTCCTCATCCCATAACCAATAAGTAAAATGCATTAGCATAAATAACTTGCTTTGATCATATAAATATTTTTTTTCTTTCTCTGTAAGTTTTCTTTTACTTTCATATGCTTGAATAAAACATTTACATTTATCAAAATCAATTTCTTTATCAATACACCACATGCCAATAAATAATGCAACGTCAGAGAGTAAATTGCCATAGAAACAATCATCAAAATCTATTATTCCACTCACTTTATTTCCCATAAACATAATATTATCTTCCTGGAAATCCCCATGATTTAATCCTTGAACTAATTTTGGGATGGAAATGTTTTCTAATATATTCGAAACAAATTTTTCATACTTGTTTGGTAATTCAGGCATATCTTTTTTTATACTAACTAGTGCATTCAGAATCCATTTGTTATCGTAATCATATATATTTTTTAATTCTATGTTCTTTGGTTTAAAATTCATTGTATTCTTATGAATTATTCCTAAATTTTCCCCCAAGCTTTTAATTTGTTTTAAATTCGCAGATTCATTTTTAATATGTTTCCCATCCAGAAAAGTAAACATTGCAATTCCTTTTTGATAGAGATATAACAAATAATCATTTGAAACTGTTTTAACAATTTTAGGTACTGGAATGTTAGCCTTTGACAATTTTTCTAGAAGTTGTATTTCAACCATAATTTTCTCAATATTACATTCTTCATAGATTTTTAATATAAATTTTCCTTGGTTAGTTAATATGACATAAGTTGAATTACGCTCACCTTTTTCTATTAATGAAAAAGATGTGATTTCACCAACATTGTATTTTTCTAAAATTTGGGACACAGAACTTTTAGTTAATTTCATCTTTTGTATCATATTTTTATATAAACCAATTTATTTAATAAATTTTGTATTAAAAAAAACAATTTCAACTTTTCAAGCTCCTTGCTTTATCTGAGCAATTGAAACATTGTGTGTAACATTGGAATTTAGAAATGTTTCGAGTCCTCCAAAATCTGTGATTTCGAGAGCGAGGAAAAATATGGACGGAGACTGCAAGTCGGAGTTTCTAAATTCCTGTTATTTGGGAAGCCTGCAAAGCGACCGACCAAAAGTATAATTTGGATTTTGGTTTATTCGGTTAAATTTATATTAGGCCAGTTCTTTCCAATTTACATGATCAATACAATCATATTTGATTTTGCAGGAGTTATAGCAAAAACCAAATATTTTCCTCAATTAGCATTAAATTTAGGGAAACAATTCAACATCGATCCAAAAGTTATAGAGAAACAATTATATGGAAATGAAAGTGAATATTTAATTGGAAAAGAAAGTACAGAAAACTTTTGGAAAAATTCATGTTCAAAATTGGGAATCCCTTTAGATGATTTCATACATGCATTTAAAACTTGGTATAAATTAGATTTAGAATTACTCAATTTTATTAAAGAACTTAAAAAACATTACCAAATTATTCTCCACTCAGATAATTTTGAAGTAGTTTCTTCAAATTTAAGAGAAAATCAAAAATTAAAAGAAGTTTTTGAACAAATGTTTTTTTCAGATGAAATTCACATGAACAAAAGAAATGTAGAAGCCTTTAAACACGTAATTTGTAAGATTGATAAATCTCCCTCAGACTGTATTTTTACAGATGATAAGGAAGCTAACCTTGTAGCCCCAGCACAAATAGGAATAAAAACAATCAAATATGAAAATTTAGAACAATTCAAAAAAGAACTGGCATCTTATTCTATAAAGTTTAATTAAGCCTAAATCCAAATAACAACTATTAAATAAACTTTTTAATTAATATTTTTTAAATCTTGAATATTAATTAACTCTTGACTATCATAATAATAATTATATAAAAAAGAAAATAATTTTACAAATGGTTTATCTCTTATAATCAATGTCATATTAGATTTAATTAAAGTTATCCACATTCTATTTTCATCAACTATTTCTAATGCAATTCCATCATTAGGAATTTGTTTCATTTTATCTTTTAACTTAATCCATCCTTTTATATTACTTTTATTTTCTTCTGTAATTTGTCCCATACATTTAGATTTTATTTTTTCTTTTCTAATTCTCATCGCACCCTGAATAATTTTTGGATCTAATGAAAAATGATATTTTATACAATAGTCACTTTTAGTTGCTTTTTCAACTGAACTTATTATTGTATTCCATCCTTTTTTTCCATGATGTATTGTTACTGGTTCTCTTTCTTGAGTATCATAAATTGTTTTTAATCTATCAATTTCTTTTTCAATTGAATCAATTTTTTCTTTTTTTTCATCTATTATTTTTTTAAGTCTATCAGGATTATTGATTACATAACTTTTGGATTTTCCTGGAATAACTTTTACAAATCCTTTATGTTCTAAACTTGCAAGAACTGTATATATTTTCCCATAAGGAACACCAGATTCTGCCGCTATTTTAGAAGCGGAGCTCTTTCCAAGTTCTGTTAAACGCGTAAAAACCCTAGATTCATTATAAGATAGGCCTAATTCTTCAAAATCCATGATATTATAAGTGTTTTATCACTTATAAACATGTGTTTTAAAAACAACTAACGTGGTTGCAAATCATTATATACAAACAAAACATTCACTACTGTATGGCTACAACAGAAGAAACAATATACATATTGGATATGGATGGAACTATTATTGATTCAGCCGAAGCATTAATACATGCACAATCTGAAGGTCTTGAAAGATTAGCAAATCAATCTAAAAGAAAAGATGAATTTTTGGATGAATTAAAATCGGGTAAATCATTAAAAAATATAGTTACAGATTTAACTCCAAATAATGTTGACAGTCCAATTAATAACTTTTTTAATAATTTTTATCAAACACCAAATGTAGAATTAGCATTTCAAAATGGTCAATATAAATTATTTGAAGATTTTGATGAATGGAATAAACAAACATCTGGTAAAAAAATATTAATATCAAATTCTACAAAAACAGCCACTCAAGCAAAAGCAAATTTATACGATTTAAACTTTGATGGGGTTCACGGAGAATTTGAAGAGGGTAAATCTAAGCCTTCAATATATATGGGAATAAAAGCCTTGGCTGAATTAACTAAAAAATATCCTTCTTTACAATTAAGTAAGCTTAAAATTATAAATATTGGGGATAATGAAACAGATATGGAATTTGGATCTAATATTAGAGAGTTTTTTACAAATTATGAAATTGAAAATATTTTAGTTAATAGAAAAGGAAATACAAATTCAAAGTATGCAGATAGAATTATAGAAAGTTTTGAGGAATTATAATGGAAGAATTAAAATTAATTATTGAGAATAAATATGATATTAAAGTAAATAGCATAGAACAATTAAATATAAAGACATATAATAAATGTTATAAAATAAAATCTTTAGATAAAGAATATTTTTTTAAACATTTATTTAATAATGAAACAAAAAATTTTAAAGCAAAATTAATTGATCAATTAAAAATAATGAACTTTTTTAAAAACAAAGATATTGAAATAATGCTTCCAATAGAAAATAATAAAAATGAATTATTAACAGAACACAATTCTGAATTTTATTTATTATATGAATTTCAAAAAATTGATAATAAAAATCCAGATAACTGGGGAGAAATTGCTGCAAAAAAATTAGCAGAATTTCATAAGATTGGATTTGAATTTAATGAAGAAGTAAATACTGGAACTTATCAATTAAATAAATCAATTCCAGATATAACTAATTTATTTCACCCTAACAAAGATAAGCGTCCTTCAGTAATCTCAAGATTAAATGATTCTGAATTTTCAAAAAGATTAGAAAAAGATTTACCGTATTTAAAAGAATTAATTATAGAAATATCTCATTATAATCATAAAGCTGAATTAGGGAAAAAATCAATATTACATTATGATTTAAATGAATCTAATATTTTATTTTCACAAGGTGAATTTTTTTCAATTACTGATTTTGATTTTTCACATGTTGGACATATTGAAACTGATTTAATTAAATTTGCAAGGTATGCATCATATTGTAAAAAAACAAATACAATAAATTTAAACAAATTTATTAATTATATAAATATATATAGACAAAGAGCAAAAGAATTAAATTTTGAAGTTATAATTGATAATAGAACTTTTTTTACATATTTATTGTTCATACCGTTAAGAAGATTAGTTTATGCAGCTGAACAAATATTAAAAGGAACTGAATTAGAATTTTTATATGATATAGATATAGAATTTTTAAAAAATATGAAATCTATTGAAAATGAATTTATGCAAATAGATTTTAATAAAAAAAATTGATTAGTAAAATTATACACATAAAAAAAATGAAACAAACTAAAAAAGCCTTTTATCAAGTAAATGAATATTTAAGTTTATGGAAAAAAGCATTAGATGATAATGTTTTAAATGAAAATTTGAAACAAAAAGTCAAAAATGCAAGTCCATACACAAAAATATTAGATTTAGGTACTGGCTCTGGAACACAAATAAGAAGAAATATTGATGAGAATCTTATTGCAAACAATGGATTAATTATTGGTGTTGATGTAAATTATGATGGCTTATTAAGTTCTAAACATGATTATGAATTGTGGGCAAAAGAAAATGATTATGAACTAATATTTACAAAATGTGATTCTGCAGTTTTAAATTTTAAAGTTTCAAAAAATGATTTTAGTTGTTTAATTAAATTGTATAATGTTTCTGTTTATGATTTAAAGAGTTACCGATCAATAGGACAAAATTTTGATTTAGTGAATGCTTTATCTTTATTTGAACATACAGATATAGAAAAATCAATTAAAGTAGTAAAAAATTTAATGAATGATGGTGCATACTTATATGCTCCAATAAATTATAATGGTATTACTCAAGTTCGACCTTTAGCTGATGACTTATCTGAGCAACAAGATAATAATTTAATGGAATTATTTAATGAAATATTAATTAATACTCAAAATGTTGGTGGTGTTGATTATGGACAAAGTTTATGTGGAGATATATTACCAAAGATTGCAAAAGGTTTAGGTTTTACTATTATTGGAATTGAAGATTCAAATTGGTTGATTACAAATAAATCAAGTAATTATCAAAAAAATGCATACGAAATGTTTTTGAATGCAATAAAAACAGAACTAATTAGTGCCAATAATAATGAACAATTAAAAATAAAACAAAAGTTAGAAATTAATTGTGAACTTATTGAATCATGGTATAGATCAGCATTAAAAAATTTTAAATCAGGTGTAGGAACTTTTTTTTGTACTAATAAAGATATTCTTATACAAAAAAAATTGGGTGTATTTAATGATAATTGAAAATACAAATGATTTATGTTTAATGGGTGATGAATATACAAAGTCTCAACTATTATTTACTGCCTTAGATATTAATATATTTGAAAAATTAAATAATAATAAATTGACAATTGATGAATTAAGTTCTGAATTAAATTTAAACTCAAATGCAATGGGTAGATTTGTTAATTGGTTTACTAAATTAAATTTATTGGAACAAAATGGAAACACTTTTTATAATTCTGATTTTACAAATAAATATTTAGTTCGTTCTAGTCCTGATAATTATGTTGAGTGGATTATTGGTTCAAAAGTTTTTCAAGAAACATTATGGCCAAAATTAAATCAAGCATTAAAAACAGGATATGATCAATATGGAACTGAAAATCAAGAAATGTGGGATAAGTTTTATTCAAACAAAGAAGAATTATTAGAAGTTATGTCTGGTTTTGATTCTTTATCTAGAACTGTTGGGCGTAACATTATAAAACAATATAAATTTAAACATAATTCCACAATAGTTGATATTGGTGGTGGTTCTGGTGGACTTGCCTCTGAAATAAAAAAACAACATCCTTCATTAAATTGTGGAGTTGCTGATCGTGAAGATACAATTGATCTAGCAAAAAAACATTTTCCATATAATATTAATCATTATGGTGTTGATTTTTTAAAACAAGATTTACCTAAAGCAGATTATATGATACTTTCATGGATTATTCATGATTGGGATGATGTGTCAATTAAAAAAATATTAAGTAATTGTCATAAAAACTTAAATGAAGGTGGAAAAATAATGCTTATTGAATTATTACCTGAAGAAGATAATTCATTTGGTTATTGGGATATTATGGACGGTCATATGTTACTCTCAACTTCTGGAAAAGAAAGAACATTAGATGAATATAAACAATTAATGAAAGTTAATGGATTTGAATATTTAGATAAATTTTCATTAAATAATGATTTTCGTAAAGTTATGGTGTATGAAAAAAAATGAAAATTAAATGGATGATACATAGAAGTGAAAAACCTTTTTTACAAGAGAAAGAAGTATATAAAAGTTTAAACACAATTATTAAAAAACAATATCCAGAAATGGAATTTATTGATAATGGTGTACTTTTTTCTATTCATTATAAAAATACTATAATTGATTTTGATTATGGTTATCATGATATGGAAAAGAGAGATTTTTCTGAATATAATTCTGTTATTTCTACTGGTATGTGTGCAATTTTTAATCCTAATTTACAACCTGGGACATTATTCTTTGCAAAAGAATCAGATTTTATGAATATTGATACAAATAATAAAGAATTAAAAATTAAAGGTCCACGAGTAAATAAACATAATGAAATGTCTTTAATTTTTAAAAAACTTATTTCATATGAATCAACTCATGATACAAATGATTTAAAACAAACATTATATGATTTATTTGGCGATGAATTTGTTAATTTAAAACAATTAAATATACATGATGATGCAAAATATGTAACTGCAAATGGATTATTTAAGCCATCAGAATTAGGAGATTACGATATTAAAAGAGAAGAAAATAATTCTGAGTCAAATGTTGATAATTTGAAAGAATATTTGGAAAAGAGTTATGATTGTTTAAATTGTGAAACTTATGGTTTAATGAAAAATCCAACTGTTAATAATTTAATGATGTTTTCATTTGGATTAGATAAACCATATTCAGTTACTGAATTAACTGATGATATAAGAGCTGGTAAAGATTTTTCTAAAAATTTACCAACATTTAATTTAGGTTTAACATTTTATTTTAAAACATTATTATTAAGTTCTGTTTTGGAAGATGGGGGAAATAATTTAAAATGAAATTAATAATACTTGATGGAATGCCAACTGTTGGTAAAACAACACTTGGTAGAAGATTAAAAGAAGAATTAAATAGTAAATTAACAGATTACAAAATATTCTATTTTAATGATGATATAAAAAATAAATATAATATTGATATATTTAAAATAGTCAAAGATCAAGATTTAGATAAATTTAATTTAAATGGCGTAACTACATATTTAAATTCAATTATTAATCAATTGTCAGATATTGAAAAAAAAGAAGGTAAGGATTGTATTTTTATTATTGATAGATTTCATATGTCATATTTACCTTATGCAAAATCAAAAATAGAAGAATTTCATGAATTTGAAAAATCATTTAATGAATTTACATTTTATGGAATACTAGGATTTGATAATTTAAATCCAGAACTATTACACGATAGATTAAAAGGCTCTTTAAATTTAAGAAAAGATCATGGATTTAATTCACATTTTGAAAGAATTACTACTGATCCAAAAAAAGGAAATACTCCAAAAGAAAGATTATTTACTCATTATGAGTTTAGAAATAATTTGTTTAAAGAATTCTATAATAAAACTTCTTTACAAAATAAATTATTTATCCCTGTTGATAATATTTCATTAGCTCATGAATATGATGATGTCTTTCAATTATTATATAATAAAATTTTAAGGTGGACACATGAATAGTTGGTATTTTTTTTCATTAATTACATTATTAATTTGGGGAGTGGGATCTTTTTTACCAAAAATTTCAACTAATTATATTTCCCCTAAGAGTGCATTAATGTTTGAAGTAATTGGTACATTAATATTAGGATTAATAGTTTTTTTCTTTAATAAAGAATCAATTGATTTTAATTATATTGGAAGTAATGTTGCCATTATAGCAGGATTTTTAGGAATTCTTGGATCATTTACATTTTTACTTGCACTAAAAAAAGGAAATGCAAATACAACAATTGCAATTACATCATTATATCCCTTACTTGCAATTTTATTATCTTCATTTTTTTTTAAAGAAGCATTAAAAATAAATCATATATTTGGAATTGTATTTTCAATTATTGCAATATATTTATTTTCATTTTAATAAAATTAATTAATTATTTTGAATTTAATTTATATTACATATATTTTTCTATTAAATATTTAGTATTTTTTGAAATGTTAATTTGGGAAAATTCCCACAAGGGATTTTCCAAAAGCATATAAATTATTACTTCTTACAGAAAAAAATTATTTCATTAGGATTTAAAGCAAACTTTTTAATTAAATTAATATCTATTTTTTTCTTTTTAACAGAAAACCCAACTGATTTAAGACGAGTAGGATAATCTAAACCATATATTCTAACATGATCGGATTGACCAAATATTTCTGCTCTTTCTTCACTATTAGTAATTGAAAGATCTTCAAAAGAATGTTTCATAATCGGTGAATAAGGAACTTGTAATATTGCCCAACCCTTTGGTTTTAATACACGATATAACTCACTCATTGCTTTTTTGTCATCAATAATATGTTCTAAAACATGATTACATATTATAGCATCAAAATGATTTTTAGGAAATCCTATATTTTGAATATCCATCTTAATTTTTGCAAGAGGATTATGTAAATCAGCAGAATGATATTTTATGTTCTTTTTTTCAATAATGTTTTTTAGATTGATTTCAGGCGCTATGTGAAGTAGTTTCATTTTTGGTTTTAACTTTAACAAATCATTAGATTTTAAAAAAAGATAAACAAGTCTTTCCCTATCACTGGATTTACAGAAAGGACAAATTGCATTATTTCTATATCCTCCACCAATAATCTTTTTTTCTTTCAAAATATTATAACTAAAACCCGTTGGCAAAAATTTATTATGTGAATGATTACAAAATGGACAAGCATATTTCGAACCTTGCAAAGTTAATAACAAGGATTGAAATGTTTCAAGAATAATTTTTTTGATCATAAATAACATTAAAATATAATTTATTATAAATTGTTGCAATACATCTGAATTATTGCGCCTAACATTAAGGATAAAATAAATTCACGAAACAAATTTTGGAAATTTTAGCAAGAAATTTACTCTTAATCGCAGTTATACTTTTTTTCTGCAAAAAAAAAATGAGAAGCAAAGCGGGTTGAAAAATAGAGCATTCATCTAGCACGAAGTGCCATCAAAACCAAACATAAAGACTTGGGGGAGTAAATATTTAAATATAACCTAATAGTTCAATTTATTATGTCTCAATATGATAAATTTGCTAAAGAATATATTGCTATGAGAAGTAATATGTTTGACCAGAATATGAATGCAGAATTTCCTGAAATGCTCCAATTATTAGGAGATATTAAAAGCCAAAAATTATTAGATTTAGGTTGTGGTTTTGGAGACTATGTAAAAATATATTCTAAAAAAGGAGCAATCGTTACAGCAGTTGATAATTCAGAAAAAGAGATAGAACATGCACAAAAACTAAACATTCCAAATGCGAAATTTATAGTTTCTGATATCTCAAAGAAATTTCCATTTAAAGATTCCAGTTTTGATATAATTACATCAAGTTTAGTTTTTGATCATTTGGAAGATTTAATATATCTTTTTCAAGAATGTAATCGAGTTTTAAAAAATAAAGGAATCATGGTTTTTTCAGTATCAAATCCTGTATTTTATCAAGAAAAAAGCATAGTCGGAAAAATTAAGATTTTAGGCAAGAAAATAATTTTTGGCAATTACTTTGAGCGAAGAAAGATTGTTAGAAAATGGGGTGGAACAGCAACAATGGAACATTACCACAAACCCTTAGAAGATTATTTCTCTGCATTTTTAGAAAACGGATTTGAATTATTAAGCTTTAAAGAACCCCAATCAAAAACAGAAAAAATAACATGGCATTGTAAAAATCCAACTTTTTTAGTATTCAAATTAAAAAAGTCATACATCGCTAACAAACCAAAATAGTAAAATACTAATATTATTTTATGAATTTTGAACTAATAACAAAGATAAAATGCACAAGAAATAAGACAATAGGAATCATAAAAAATAATCTTTCTTAACTTTTTAATTAGCTCACCACTATAATTATCAACATACATATTTATATCCTTTAAAGTTCAGCTCTCGAAAAATGTTTTCCTTTAATAATTTTCTTCAACTTAGTTTTGTATTCAGGTTTTAACTGAACGTCTAAAAATGCCTCTTCATATTCTTTTACTACTAAATTAATAGCCTGACTTTTATCTTTTAAACCAAATTTTGCTTTGACAATATTCAAAACCATATTTGTTTGTTTTTCAATATTTATAACCGCTTGAACCATATATATACCCCACATATAAGTATATATACCACATATATAAATATTTGGTTTGTTAAAAACTCAAATGTCGTTTAATATCGCAACTAAATACAGTCGCGAAGCGATTGGGACTAACGACGTCAGAAGTGAGTTATTTAGTTGTGTTAGACTAACTGAACGTAGTGAGAGTGCAACAGGATATATAATTTTCATGAAGTAAAAATTTGAGAAGTTGATAAAAAGAATCCAAGACAAAGACGAGGCTAAATAATAAAAGAGCTATTAAATCAATTTTTCCTTACTAATAATTTCTTCTACTTTTAAATATAAAGACTCTGTACTACCATCATTTTGAATTAAATAGTCAACTTGCTTCATACAATCGGAAACTTTTTGCACAGATTCGCCATCATCCTTCCGTTCAATCTCTAAAAAGCTCTCAAAAGTAATTGGATCTCCAGTTTTTTGTCTACTTTTAACCCTTTCAAATCTTGCTTTGGGTGTTGCATCAATTCCAATTAGTGCCATAGAGTAATTTGCTCTTAAATAATCAATTTGACCAACTTGCCTCATTCCAACAATAATAAGTAATTCTTCTGCATTATTATTCAAAATTCTTCTAGCTAAATAATCATCACCATGAGTAGAAACTAATTCTCTTGATAAATTAATCAAGTTTTTTCTAGTAATTGGAATTCCTTTCTCTTTTGCTAAATCCTTCAGCTCAGAACTAATCTGATAAGAATTAATTTTAAGTTTATCTTGAAGATAAGTTGCAACAGAATCTTTTCCCGCTGCAATTGGTCCTATAACACCTATAACTTTTTGCATATTTAATTGAAATTATCAGACTATTTAAAACTTCCTTAAGCCCTTTTTTTTTACTCCTTTTTATCCAGTGTGTTGAACATACAGGTTTAGAAATGTTTAATTTTAGAGAGACAAAGTCCTAGAAAAATTCAATGTGCATGAAGACTGCAAGGTAGGAGATCTTTTTATTAAATATATTAAGGGGCTTTGGTGGCTTCAAATTTTAATTTAAAAGTAGTTACCTAAATAAAAATTTATAAATTCATTTAATTCCCAAAATACAATATGGGAGAAACTACATATATCATTATTGATAATTTGGAAAAAAGAATTTACACAGGACATAATCAGGATTTAAATCGTGTAATGTCTTCTTTATCTAAAAATCCAACTTCCATAGAAGAATTTGACCAACATCAAAAAGAAACGGGAAGCAGATTATATGATGATGGAAATAGACCTAAAGTACCTGATAAATTGCCTATAGAAACCATGCGACTCGTTTTTGGTATGGAGGAAGGAAAATTTTCTCCACAAGAAGTTGAAGACCATTGGAAAAAAACAAGTTTCTACGAAGGTCCAAATTATAAATCTTACAAACCTAATGATCGAACAAAACATGACATTCCAGAATTAACTCAAGAGATAATCGATGAATGGAAGCAAGAAGATCCTAATGCTGAAGAATTTCTAACAGCAAACGATTATAGAAGGTTTTTATGTAATGATGGAATTGTTGTTGCAGATTTAAGAATAAAAAAATTAAGATATATTTCTTATGGTGCATTTAAGATTCCAAAAAACGAATACGCTCTGCCTTCTGAATGGGAAATTCTAATTGAATAATATTACACATAACATCACGATTATTCTAAGTTGGCGGAACGAAGTGGAGCAAGTTGAATGTTTGTTCACTCATAAAAAAGAAAACATCTATTGGAGTTGACCACTTAAGTTTGGAGGTTGAACTCCTGTTTGATTATTATATTGAGTCTGATTTTTTTGTTGAATTTGTTCTGTCAATTTGTGGAAAACAACCATTGCTATTGGAATATTTGGTTTTATTATTAAATTAAAATTTCCAATATTTTTCAGTTCTAAAGTTATTGATCTTGAATGTTCATGATTTCCATCAATCGTATCTGATGAACAATGAATAAGTAATCCAAGTCTTGCAATGGTACTTCTTCCATCAAGTTTTCCTACAATGTCTTTTGATAAGTGAATACTTTCAACGGTAGTTCCAAGAACAAATTCTCCTGGTTTAAGAGTATAACCCTCTTCATTAATTTTGATTTTTTCATATTTTATATCAGATGAATTAGAAAGATCTACTATTTGATTGGGAACAGGTACTAATAATTCATCACCAAGATGTAACCTAATTCCTGCAGGTCTAATATTCTTATTATCAAAAGTAGGAAGAATTTTTATTTTTCCATTTTCAATAAATTCTTTAATGGTTACATCTGAAAAAATCATCTTAATAAATCCAAAACAGTCAAACTATAAATACATTTCTATAGGTGTGCTCACATTAGTTAGGGCTGAAAGGTTATTTATTTTAGTTGTTGTCTTAATATTATTATCAATTTAAATTTTATTTAAAATTTCAATTACATTTTTATTAAATTTTGAAAAAGCAAACCATTTGTTTCCAATATCTTTTAAAGAAGCTCCAATATGATAAACTTCTTTTTTATCAATTATTAAAAATCTATCATGAGATAATTTAAATTCTTTGATTTCAAGATTATTATATTGATCATTAAATTTTTTAATATCTAATTTTAATTGCTTTGATATAGTTTTAGTTAATATTTGAATTTCCACAGATTTATTTTTTTTACTAAGTAAAGTTAATGTATTTTCATCAATATAATTATCAATTAATATAATTGACTCTTTTGCAGATTTAATTAAATCGGATGCAAACTTATATGCATCATATATTTGTCCATCAAAAAATATGCCTTTACTTGGTTTTATATTTTTATCTTCAATGGCTTTAAAGATTTTTTCAAAAGTATTATCTGTTTTAATTTGATATTCTATTTGTTTATATTCAATATTATCTAAGCGTTGAAATATTTGTGCATTATTATGAATAAAATTTTTCATTGTAATAAAAGAATTAATTATTTGAATGCTAATTTCAATAGCTATTTTACTTTTTAAAATTCCAGCAAGCATTGCAACACCATGTTCAGTAAAGACAATTGGTTTATATCTTCGACCTCCTAAAGAACTCCAAATTTTAAGGCTAGAGGGGGTCTCAGCTGAGGTCACAAATTGTGACCTCAAATTATTAATATCATTTTCTGATAATTTAAACATATAATTTTGGGGGAATCTGTCAATATTTCTTTTTATTGATTGATTTAATACTTTAGTTTTGATTTTAAATAATTTAGCTAAATCTTCATCTAGCATAATTTGTAATCCACGAATTGTATAAATTTTAGATTTTATATTATTTTGTTCTAATATAATATCTTTTTTCATACTATTATATTAATTTTTAGAAATATAAGTTAAATGAAAAAAATATTGAAAACTATTCAAAAAAATTAAATTAATTTCATCCTTTCTTTTTTAATTGTGCTTTTGTTTGATTATTTAAATCCAAACCTAAATCTACTAAAGCCGCTTTTTCAATTAAACTTGGACTGTGATCCATTGGATTTTCTTTATTTTTGTTTTTTGGAAATGCAATAACATCTTTAATATTATCACTCCCGCAAATAATCATAACTAATCGTTCAACACCAGCTGCAAATCCACCATGAGGAGGTGCACCATAAGAAAATGCTTTTAATAGAAACCCAAATTTATTTTCAACTTCTTCTTTTGACATTCCAATTATATCAAAAACCTTTTTTTGAATTTTAGGATCATGAATTCTAATTGAACCACTATGAACTTCATATCCATTAATTACAAAATCATAAAGTGTTGCAGTTACTTTTAATGGATCTTTATCTAATAATTTTAAATCTTCTGCCTTTGGCATTGAAAAAGGATGATGACAAGCTTCAATTTTACCTTCATCAGTCATCTCAAATAAAGGATAGTCAACAACCCATAATGCTCTATATTCATCATCTGAATATAATTTTAAATCTTTACCTAATTTACATCTTAATTGATCTAATACATTATTAGTTCTTTTTAATTTATCTGCAATAAATAAAATTAAATCTCCATTAGATGCATCCACTGATTTTTTTAATTCATTTAAAACATCCTCATTAAAAAATTTAACAACACTACTTTGAAATTCACCTTCTATATATTTCATCCAAGCAAGACCTTTTCCACCAGCACTAATTACAAATTCAATTAATTTATCAATTTCTTTTCTACTCATCTGTTGTGCAGCACCTTTAACATTAATACATTTTACAACACCATCATTATTGATAGCATCATTAAATACAGAAAAATCAGATTTATTAACTATATCAGACACATCAATAAATTCTAAACCAAAACGCATATCAGGTTTATCAGTTCCCCATTTATTCATACACTCCGAATAAGAAACAATTTCAATTTTACCAGATAATTTTTTTCCACATGCCTTAAATATTTCTTTATATAAATTATTACCCAATTCAATAATATCACTTTGATCAACAAAAGACATTTCTAAATCAATTTGTGTAAATTCTGGTTGACGATCAGCCCTATTATCTTCATCACGAAAACATCTAGCCATTTGATAATATCTATCACACCCACCAGCCATTAATAATTGCTTATATAATTGCGGAGATTGTGGAAGAGAATATGCATAACCATTATGAGTTGAACTAGGAACAATATAATCTTTTGCACCTTCAGGAGTTGACTTAATTAAACAAGGAGTCTCAATTTCTAAAAAATTATTTTTATTTAAAAACGCTCTTGCAGAAGTTAATATTTTATGACGAACTAATAATCGTTCTTGATTAATTGGTCTACGTAAATCAATATATCTATATTCATGTCTTATATCCTCATTAGTTTCAATATTATTTTCAACTTCAAAAGGGGGAGTTAAAGATTCATTTAATATTTCAATATCATCAACAATTATTTCAATTTCACCAGTAATTAATTTAGGATTAACCATCCCCTCTTTTCTATCACGGACTTTTCCACTTACAGAGACAACCCATTCCCTTCTTAATTTTTCTGCAGCAGCATGAGTATTTTTATTATGTCTTGGATCAAAAACAATTTGAGTAAGTCCATATTTATCTCTCAAATCAATAAAAATTACACCACCATGATCTCTTCTTGACTGTACCCAACCACAAAGTTTAACTTCCTCTTTAATATTATCTTTTTTTAATTCATTATTTGTATGTGTTCGCATCATTTTTTTATTCCATATTTTATTCTAATACAATTGCAGGTTTAGAAGGTAAACCATTATTTCTTTTTTCATGTGAATCTACAATCACAATAGTTGATTTAAATTCATTTTCTAAAAAAGATTTTACATTTTCAATTAATTTTTTTTCAACCTTAATATCAAAATATTTATCCAATCCATCACCTAATGTTTTAGGAACAAATTTTGATATAAACTTTTTATCATCAGGAAATTTCTCATTTAATGATTTTAAAATTGTTTTAAAATCACGAGTTTTATTTAATAATTCATTAAGATCATCAAACAATTTAAATTTACTTTTTTGTGCTTGAACTAAAATAATTTTAGAAAAATCTTTATCTTTATTATTTTCAATTGCACGAGATATAGATTTAACTAAATTTTCAATTATAGCTTCCACTTCTTCAATATCTTTTTTAATATATTTATCAATATTTTTAAAATTAAAAGTCTGTAAACTTAAACAAATATCACTATCATCAATTTTTGAATTTATTTCTTCAGCATAATGTGGAATTACAGGACAAAGTAAAAGTAAATAATCTTTTAATATAAATCTAATTACATCAATTGTTTCTTTCTCACCACAAATTCTTTCATGATAATTAATATCATTTAAAAAATCATATAAAATATTAATATGTGCATCACGAATTCTCATAGAATCCATAAACTCAAAATAACTTTTTGCATGTGAATAAAATTTAGAGATTAACCATTTATTTCTCTGAGAAAAATCACTATATTGTTTTGATTTATTTTTAACAGAAGCTAATAATAATTCCTTTAATTTTTCAAATTTATTTTTTAACTGGAATAATTCATCATCACGAAAATCCATTTCAGCTTCATAAGTTGCACCAACCGCAACATATAATCTAAATAAATCAACACCAAATGAATCTTTTACTTTAATTAATGGCAGACCATTACCTTTAGACTTTGATATTTTTTTACCATCACGAATTAATAAACCAGCAACAGTAATATTTTTTATATGATGTACTTCTGGAAAAATAAGTGCATAATGATAAATTAAAAAAGATAAATGATTTGACATATGAGGAGGATTCGTATATCTCATATCAACTGCCTTCCAATAATTAATTTCTTTTTTAATTTCTAGAATTAATTTTTTATCAATTTTTGTAGATTCACAAATCAAAGTAAGATTCCCCTTATCTAAAAAAATATAATCAAAAAATTCAATAGTTAATTGTTTAGATTTAATTTTATTTTTTATTATATTATTTACAATTAAATAAAACATTTGATATATAGTAGAATCTGATAATGATTCTATAACCCATTCTTTATCTAATGGCAATGGAGTACCAATACCCCTTTTTCTTGCACAAGGTCTCATTTTAACCCACTCAAGATAACCATTTTGTGAATTTTTTAATGAACTTGGAAGATATTCCATATTTTTTAACAAATCATATGCCTTTTGTTTAACTTCTGGTTTACTATAATCTAAAAACCATTGTTCATCTAATACTGCAACAATAATTTCATTTTTTGCACGAGTTATAGCACGTCTAGATGTTTCATAAATAATTCCACCCAAATTTAATTCACTAAGTTTTTGGCTAACTTTATCTTTTACAAATTTAATTGGAATTCCATTAAATTCACCACATAATTCATTTAATACTCCACCATAATGTTCTTCTTTGTATAATTCTTGTTTAGCACTTTCTAAAAAATCTGAATCATTTGAATTTTTAATTTTAAATTTATTACATTTATCCTCAGCTGGACAACTTCCACTATATTTAATCACATTACCTTTTTTATCTTTTGTAATCACAGTATTTATTACATTCAAATCATTAGAAACTCTACCCTCTTTTTTCGCTTCAACTAAAGCAATATAATCATGAGGTGCACCTGCAGGTGAAGAATAAACAACACCAGTTCCATGTCTAGAATCAATAATATTATCTGCTTTTGCAATAATAACTGATCTATTAACTATTGGAACAATAACATTTTTCCCAATATATTTTTTCGCATCAACTGCCTCTAAAACTTCAACACCATCAAATTGATGTTCAATTTTTTCTAATGCATCTTTTGCTACAATCCAAATTTGATTATTAACTTTTATTTTAACTAATTTAATTTTCGTACTTAACCATAAATTAGTTGTACCAAAAATTGCATCTGGTCTTAAAGTAGCAATTACAAAATGTTCATCACTCGCTTCACACTTAAATAAAATATAATTCATTTCCTGTATGGATACCTTATCAGTATCCCCATCTTTTATATCATCCTCACCAACTGCATTTTTATCATTTGGTGAATATAAAATAGGATATTTACCTTGAACTAAAACACCTAAATCATGTAAATGTTTAAATTGCCATTCAATAAATTTTTGATATATTTTATCCCCCGTTGTAAACTGTCTAGACCAATCAATACTAAGTCCAACTGAATTAAAAGTATCTTCAATTTTTGATGAAAAAAATTTAGCAATTTCTTTTGGATCTTTAAATGAATTAATTAATTTATTTTGTTCATTTTTATCCTTAACAAAATCTGAAATTGACTCTTTTACTTTTTCAATTTCTTTAGAATCATTTCTACAAATACCATCTGATACAGCAAGAACAGGAGTACCAGAAACATGAAACCCCATAGGATATAAAACATTTTCACCTTTAGCTCTATGAAATCTTGCAATAATATCAGCCATAGTAAATGTTCTACCATGACCTATGTGTAAAATTGAATTAGCATAAGGATATGGAACTGTCAGAAAAAAAGTTTTTTTTGACTTTTCAATTTTTGGCATAAAACATTTATTTTTAATCCAATATTTTTGCCACTTAGTTTCATAGTTCATAATATAATATTGTCGTCGTATACAATATATAAACTTTATTCTAAAAATCAAAACTTTACAACAATCAAACTATTTAGCGTGACTCAACGAGTTTTAAACAATGATTTTGAGTTTTATAATAGGCTACATTTATAAATTATTTTTACAATATACATTATATGTCAGATCCATTAACAGAATACATATTAAAATGTAGAGAAAGTTATTTTGCAGATGATTTAATAAAACAAAAATTAATTAATTCTGGAAATAAAATTGAAGATATTGATTTAGCATTTGAAAAATTAAAATTATCAGATGACGAACATCCTCTAGGAATTAATGATGAACACACACCACATATTAGTTCATCAAAATTTAATATAATAATGACAATTGTCATATTAATAGTCTTAACATTATTAGCATATTTTTTATATTGGATATAATAAAAATATTTAAAAAAATAAATTAAAAAATTAATGTCTTTTAAATTCACTAATCAGAGTCATATTATCAACGTGACCCATAAAAACTTGTCTACAACAAACTCTCTCAAAACCAACAAAATCTAAAGCTTGTTTTCTAGCTTCACTTTCATCCATTTCTTTTTTTAATTCTTCGAATTTTTCAACATAAGCATCCCAATGTCTACCCACTGGTTTACCACAACTTTTACATCTAACTTCAATTAACATTTTTCACCTATCTGTATGATTTTTGTCTTTTAGCTCTAGGCTTTGACCTATTTGGATGAGATTTTTCATTTCTCCTAATATCTGCAATAATCAATTGTCTGTCATAATCTAAATAAACTTTCTTTAAATTTTTATCAACTTCAACAAAAGCTCTTGCAATTGCTAATCTAATCGCATCTGATTGACCTGATATTCCACCACCATTACATCTAATTGAAATATCATAATTTTTAACTAAATTTTCTGCAAGTAATATAGGTTCCATTATTTTATTTTTATACATTAAAGGTTTTTCATAATTATCAATTAAAACTTTATTAATTCTAATTTTTCCAGTACCTTTTTTTAATGTTGCATGCGCAATTGCACTTTTTCTTTTACCGCTTGATTGTATATTTTTCATAATTTAGCCCCCAAGTGCTTACAAATACTCTCTAATAAAACATATTTATCTGAATTTGATTTATCCATTGATGCGCTTTCAATTGAAATAGTTTCCTTACCATTTAATTCAACTGGAATACCCTTAAAACATTTAATTCTTGAAAGTGCCTCTCTACCTCTTGAAGTTTTATGCGGAAGCATTCCTCTGATCATTCTTTTTAATAATCTATCAGGTTGTTTTGGAACAAAAGGACCTTTTTCCGGTTTTCCCATATCAATTTTTCTTTTATATTTAGCAAAAACCATTTTTTTATCACCAGTAATTACACACTTTTGACTATTAACAATTCTTACTTCCTCTCCATTAAGTGCCATCTTTGCAATTTTCGTTGCAAATCTTCCTATAATTAAATTTGTTACATCCACTATTATCATAAAATCACCCAATTAATATTGTATTTTTTGGTTTATCATCCATTAATTTTTCAAATGAATGCACCTTACAACCAGCTTTTGTTAATTTCTCCATTGCAGTAAATGAAACTTTATGCACATAAACAGTTAACTTATGTCCAACATTACCAACAGATAATATTTTACCAGGAATTACAACTGTTTGATTTTCTTTAGTTTTTCTACTCAACTTATGTAAATTTATACTAATTTGTTTTTGTTTAGGTCTTGATAAATATTTAGCAAGAACTGCATAAAGTTTTTCAGTTCTCCCAATTTTTTTAAGTTTATCCACTAATAAAATCGTTCCAATTTCTTTTTTTAATACTTTTTTTGCCATTTTATTTTCTTATAATTTAATTTTTAATTTCTTTTAATAGTTCATTACATTGACTATTAATATGATCAAGTGCTTTATCTAGTAAAACATTAGGTTCAATTTGTCCCCATGACTCAACTGTAAAAACAATATCATCATTTTCTTTAATTACTGTATCTTGTGTATCAATATTTTTTCCAAAAATAGGACAATCCCCATCTTGTTTTGTTGAATCAACCCATTGTGGTTTATATGAATAAAATACATGAGCAGGAGCCCACTTTGCATGTTCATTACCATTATTTACACAAGCTTTTCCAGTCGCTTTCAAAGTTTGATTTTCTTTTAATAATGTAATAGGATCTTTTCCACTAACTGGTTTAATACTTGGATCTTTAAATTTCAAATCTTCAGATGTTACAATGCACGGTCCACTTACTTCTAATGAAAACTCAACTTCATTTTTTGCAGAACCTAGTTCTTCACTAACTCTAATTTCATCATATACATCCACATCAGTAACTAAAGGAATTAAACCCAATCTGTGTGCAACTGTTTCATCATAATGTGCAGATTCATTTGTATAAATTTCCACATCCTCAACTGCAAGTACAGGAATACTTCTAATTATAGTTCTTCTAATTGCATTGCATAATGAAATATCAATTTGTTTAAATAAATAAACATTAATTAATGGTTTTGAATTATCGATTAATCTAATTTCCATTTTAAGGTCTCCGTCCTCTTCGCCCACCTTTCTTTCTACAACCATCGTGAGGAACAGGTGTTAAATCTACAATTGTTCCGATCTTAAAACCCATTCTAGATAAAGATCGAATTGCAGCTTGCGCTCCAGGGCCTGGATTACTTGGACCATTATGTCCACCTGGTGCCTTTATTCTTACATGTAAACCATTAATACCTTTTTCTCTTGCTTCTTCAGCAACTTTTTTAGCAGCCATCATTGCCGCATTAGGTGAAGGTTCCAATCTATGTACTTTTACTACCATACCACCAGATGCCTTTGAAATTGTTTCAGTTCCAGTAACATCAGTAATATGAATTATTGTATTATTATGTGATGAATAAATATGACAATTTGCCCATAATATTTCTTTTCTTTTTTTTACAAAAGTATTGGGTTTTGAATCTGTTTTTACTTCTTTTTTTATTTCTTTTTTTACTTCTGTTTTTTCCGTTTTAGTTTCTGTTTTTGCTTCTGTTTTTACTTCTGCTTTTGCTTCTGTTTTTACTTCTGCTTTTGATTCAGTTTTATTATTTTCTTCACTCATTTTTTACAACCTCCTCAACAGATTTCACTTCACTATCAGCTTTAACAGTTTCAGTTTTAATTTCTACTTTTGCTTCATCATTTTTAGATTTAGACTCTTTTTCAGTTTCTTCAACTTCTTCTACTACTATTTCAATTTTTCTTTCAGGATGATTTTCATCACTTAAATTTGATCTTGGAGAAAATGAAATTTTTTCCTCATCAGTAACTGAAACTAAAAAACTTGGAACATCAACTTTAATTTCATTTACAGAAACATGTCTATGAACAATAAATTGTCTTGATTGTTTCATAGTTCTTGATAATCCACTTTTAACAATAATTGATTGTAATCTTCTTTGTAAAATGTCTCTTACAGTTAATGCCAAAATATCAACTAAATTTTGTGTTTCAGAAAGTAAACCTAATCTTTTTACTTTACCCATTAAATTATTTTTTTCTAATTCACCTTGATTAGAATTATCAATAACTAATTGCTTAGCTTGTCTTTTAAAAGAACTTAATTTTGCTTGCATTTTCCATAATTCTTTTTTATTTTTTAAACCGAATTCTTTTACTAAATCATGCTCACTAGAAATTCTATCCTTATTCCAAGGATGTTTTGGTTTTTGATAAGTTTTTTTTCTTTTTTTAGGATCGCCCATTTTAAATTACCTTTTTTTTATAACTACTGTTTTTCTTTTTCTAAAATTACATTTAGTTCTTTGTCCTCTTACAGGCAGTTTTTGAGCTAATCTTAATCCTCTATAAGATCTTATTCTACCAAGTCTTGTTTTATCATTACCTTGAATATAATTAATATCACCTAAAACTAAGTGTTTGTTTTCACCAGTTTCATAATCTTTTTGTCTATTTAATAACCAAGTAGGAATGTGATCGCTAATTGTCTTAATTTTACCTTCTATCATTTTTATTTGATCATCAGTTAAAGCTCCAGCTTTCATTAAGGGATTTAAATTTGCAACCCTACATAAAATATTAGCTAAATTTTTTCCAATACCCTTAATTCTCATAAGAGATATTTTTAATGCTTTTTCACCTTTCAAATCAGTATTCATTAACCTGATGATTTTTCTTATTTCTTGTGTCATTTTTCTTTAAATATAGCATATAGAATCAGTTTCTATAATGCCACAGGTCGTTTTTAAAACAGTTTGTCCCCGTTAATTAAATCTTAATATATAATATTAAGGCATCATTTTGTATATTATTAGACTAAATAATATATCATATAATTGAAAGTAAAATGGTGTATTTATAAGCTTATGTGAAAAATTATGAGAAAAAATTAAATTAAATCTTTTTTCTTAAAAAATGACCACATTAAAATAAGCATTACAATAAATGATATGATAATAATACCATTTGCATATAACATATTATCACTCAAACTTAGAGGTAAATTAATATTCATACCAAAATAAGAAGTAACAAATGTTAAAGGTAATAAAAAAACTGTAAATAATGTTAAAATTTTCATAATATTATTTATTTTATTTGAAGTAATTGCCATAAAATTATCTCTTAAATTATTTATTTGAGTTAAAATATATTCTAAGCTCTCCTCAACTTTAGAAATATGATCATGAATATCTTTAAAATATGGAAGTAAATCAGACCTTATATCTTTTACACCAGTTCTTGTTAATTTAATACAAATTTCTTCGTTTGCACTTGCCAATTGTTTAACTTTTAATATTTTTCTTTCATGCTCAAATAAATCCATTAAATTTTTTTGACTTGACGATGCAAATATTTGTTTTTCTAAATTTTCTAATACAATAAATGATTTATCTTTTATTATAACAAAATTATCAACTAATCTATCTAGTAATTTATGCAAAATATAATCTACACCTTTTATTAATAATTCTTTTATTAAATCAGGTCTTAAAATTAATCCATCAATAATGTCATTATTATTATAATGAACTGTAATTAAAAATCTACTTCCATCAACATTATGAATTGGAAATTCCTTATAACCTTCTTTGGTTGGAGTCAGACCATGTTGAGAAAAATAAGTATAAGTCGTAAACTCTTCATATTTAATTTTAGTCCTTTTACTTTTTAAATCTTCAAGAGTTAATTTGTGAATATTATATAATTTTAATTTATCAAAATCAGCTGCCGTCGGATTTTTTAAAACAATCCAAATACGCTCATTTATTTTAGGTAAATCAATTTTTCTTGGATTGACATAAGAATGAAAGCTTGTTTTTGATGCTACAAATATCTGAATCATATATAAAAATTGATTTTACAATTTATAAAATTAATTTAAAAATTAGTATGTAACATACGAACAAAATTTATAAATTAAAAAAATCCAGAACATATAGATGAATTATTTGTTTTAAATTGACGAATAATTGTAGATGGAAATCAATATATTGCTAAATTACAAAAAACTACAAACTAGCCCTAGAAACAATTTCACAATCCACCTAATCGAATTATTTATTAATATTAAATCATTCTTATTTATGTCTTGATGATGAAAACGTCGATGTTCTGATTATGATGAAAAGAGAGTTATCTGAGAGATTTCAATTATTTTTTTATTCAAAAAATTTATTAATCAATTAGGATTAAAATTTGTTATGGTTAATAGTATGAAAAATATAATGGCATATTCTTTGCCAATAATATTTTGTTTTGTAATGGTTGGTTTCATAAGCTTAGATTTGTTTAAATTCCCACCTTATTATTTAACATTATTCATTTATTTGCTCAGCGTATTTGTAATAATGAATTTTTTTAAATTCATTGAACGTGGTAAAGTTAGAAATTTAGGAGAATTTTTTGGAGTTATGATTTTATTTATATTTTTTGTAATTTTAATGTTTTCAGGTATTTACCATTATTATAGTACTGACAATTCCACATTAATTAATTCAAATCAAAATTTAGAATCTAATGGCTTAGTAAATGCATTTTATTTTAGTGGCGTTACATTTTTAGCAATAGGATATGGAGATATTGTTCCAATAGGTGGATTTATTATAATATCAATACTTGAAGGAATACTTGGAAGTGTAATTATATTCTCTTTTGTAGCAATAGGTGCTGCAAGTATATTTGATATAGAAAGAAAAAGAATTTAATTTATCTTAATTTGAATCTTTTTGGATGAAAATCTCTTAATTTTTTTTGTTTATTATCTCTTTTTACATAATATAAAATTCCAACTAATATTAAAACTACAAACATAACAAATAAAAATGAAGTATTATTATTTGCAAAATTTATCAAATTATTATTTTTATTTTCATCTATCAATTTAAAAAATTCATCAATTCTTTGCAATTTATCTCTAACTTGTGGATTATTTATTGAATATAATTGAGTAATTGTCTCTAACACTTCTAATCTTAATAATTCATATTGTTCAAATGGCAAATCAAATTCATCTAATAATCTTTCACTAACACCATCTGCAATTCTAATTAAATCAGTTTCATATTTTAAATTTCCTTTAATTAAATATTCCATTCTATTTTTTTGATCATCAGATAATTTAAGAAAATTAGATTTGTTTACAATAGAATTTTGTTTACTCAATTCATCTTCAAGTTGAATATTTTTTTTATTCATTTCATCAATAATATTATTTAACTGACTTTTCGATCCATTAACTATACTTGAATTATCATATTTTTTTCTAATTAACAAACTTAAATTTTTAAAATTTTTATTTTTATCACGTGCAATAACTTCAATTTTATTTAATCCTAAATATAAATTAGAATGACCCAAAAAATTTCCACTATTGTCAACAAATGCAATATTCGTTGAACCATCTACTTTATTTATTATTTCTACTTCTGAACCAATTTCAGTTATTCCAGAAACTACTGTTATATCTTTATTAATTGTTGAACCAGTTGCAGGATATGTAATTTCCAAATTAATTTGTGAATCAATTGCAATCGCACTAATATTAGTTGAAATTGGACCCTTATTTCCAACTTCATCTACACCAACAATATAATAAACATAACTTTTTTCATTAACAATATCTTCATCTTTATAATATAATTTATCAGTAGAATCAATTAAATTAAAATTTCCTCCATTTGATCTATAAATTTGATAATAAGAAACATCACTTGAATTACTTTTTGTCCAAAGCAATTTCATCAATAAATTTTCATAAACTTCTATCCTTAAATCAGTTATTGAATTAGGTCCACTCGCATCTGGAATTAAATATAAATTATTACTTAAATCAGCAGCATTCCCAACAATATCAACACCAACAATTGCATAATAATTTGTTTGATTTGCATTAAATGTATATGAAGTTTGATTTTCATTTAAAACAATTTTATTTCCATTAAATAAATTACTTGAACTAGGGGAATAATATAATACATAACTTTTTGCATCATTTACTAAACTCCATTTAAAATCAATATTTCCCCCACTTTTTATTTCAGCAGAAAAATCATTAATAGTTTCTGGCGGATTAATATCTACAATCGCATAAGGACTTTCAATAATTTCACCCTTATTATTAAATGCATCAATAGCTGAAATTGCATAATAATAAATAATTCCATCATTAGAATTAATATCACTAAAATTAGTTTTATCTGTACGTATATATTCAGGAACTTGATCATGATCCAAAATAGGTTGTGTATGTTTGTAAATAATATATTCTTCAACTCCAATATTATCACTCACATTATTCCAATTCAAATAAATTTCACCAGATTTTTTTGTTTCAATATAAATATTAGAAACTGAATTTGGAGCAATATCATCCTCAGTTAACACTTCAAAAATATTACTAATCAAACCAATATTACCCGTATTATCAACAGCAGAAATACCATAATAATAAGTATTTCCACCTACTGTATTACCATCTAAATAAAAATTTGCATTTGTATAAAATTTTTCAGCATTATTTTTATTTTGTTCATTAAGAACTTGATTAGAACGATAAATTATATAATTATCAATACCATAATTATCAGTTGAAATATCAAAATTTAATTCTATATTATTATTATCATTTAAATTACCAGACAAACTTACTGTCGTTGGTTTAGTATAATCAGTTTCTATGTTTAAATTACCCGTTGAAAGAGATGTTAATGCAATATAAATTAATAATTGTTTATTATCAGCAACATTCACATAAAAATTATTAGGATTATTACTATTAAGACCTAATTGAAATCTCCCCCTAAAAAAACCATCATCTTCATCATCATCAAAATTATCTCCATTATCATATAAATCCACATTAATTTGTGGAAATCCCTCATAAATTAAGTTTGCAATTGTAGATTCACAACAACTCACACCATTATCAGCACTTACATATACAAAATCTCCTTCTTTAAATACAGTTTTTTGATCAGAAAAATTATCATCTGCATAAGTTTTAATATTAACAAGCACTTCAGCATTAACAAATGAAATTAGTAATATCACTATAAAAATTAAAAAAATACCTCTTTTCATATGATTAAATTAAATAATATTTGTTTATAATCATTTTCATAAAAGAAAGTTATATAAAACAAAATAAATTATATAAAAATATGGGAATTTTTAAAATAATTTCAAAATTGTTTTTTTTCATTACACTAGTATCATTTATTATTATTGGAATTATTATTTATTATGGAAATGGACTACAAAATGCTTCAATTGATAAATTTGAAATCAATACCTTAAATGACTCTTCAAATAATATGATAATTGAAACTAAAATTCATATTAATAATCCAAGTAAATTAAGTTTAAACATTAAATCACTTAAGTATAATATTTCTTTAAAAGAAAATAATCAAGTAATTGGAAATAGTGATATACCAGAATTTACTATTTCAAAAAATAATATAAGTAAATTAAGATTTGAAACAGTAATTAATTGGATGCCTTCACAAGAATTTATGATTGAAAATAAAGATAAAGAAGAAATATTAATTGTAATTAATGGAAAAACAAAAATAAATTTATTTGATTTAACTGAATATGAAATTCCATTTTCAAAAGAAATGGATATAAAAGATTCAATTGATAGTAAAATTAAATCCATAAATTAAAAATATAATTTTATAAATAAAAAAAAAACTATTTGATTGTGAATAAAAATAAGATTATAACAATTATTGTAATTTTGGGAATTTTATTATTAATTAATACATATATGTATAAAATTGATGAAGACAAATATATTGAAATAATTTCTAAACAGCAAGGAACTTGTTTTTTAGAAAACGGTGATTGTTTACATGGAGAAAGATCACATTTTAATTTATTTTTTGAAATATTAATATCATTATTATTGTTTATAATAGCTATTTATTTATATTTTTATAATGAAGAGGAATTAAATATTGCAAAAGAAAATGCAAAAACATCAAAAATAATTGCAGAAATTAAAGAAAAAGATGTTACAAATACTGCTTTTGAAGCATTTCTATCTACATTTAATAGCGATGAAAAAAAAATATTAAAAGCGATTAAAGAAAATGAAGGCGTTCAACAGTCTACTCTAAGATTTAAAACAGATATGTCAAAAGCAACTTTGAGTTTAATATTAAAATCTTTAGAAGAAAGAAATTATATTAAAAAAGAACCCTATAAAAAAACAAATAAAATTTATTTAATTAAAAAATTTTAAATTTCTAATTAATAATAGACTAATAATACCTGTAATTGCTAATTGAAATAATGGTGAAATTCCTATGCCAAATAATGTTATCATATTAGAATTATAAGACCAACGATTGTATATATATACATTTAATATTTCTATAATTACCGCTATTATTAATCCAATTAAAAAAAATGAAGCATAATTGAACATATTGTTTTTTTTAATCCAATTTATATTTTTTAAACAAATTGAAATAATTAAGTAAATTAAAATAATCAAAAGACCATCCATAAAAGAAACATATGAAACCATTTTAACATAATCTATTGCTAACATATTATGATCTTTATATAATGTGGACCCATGTAAACTTTCCCAAACAAAATTTAATAAAAAACTAAATATAAATATGGAAATAAATAATATTATTTTATTATTTTTTTCTGTTTTAGCTTTGATTTGCTTTCTCATATTTTGAATTTTTATTAATAAAATATAAATTTATCTTATTTTTGTCATTTTTGCTTTCTAAACGATAATTCATCAATATATTGGAGTTTTAAACAATAATGACCTTTTTTTTAACTAGGTATATTATAAATATAATAAATTGTTTTTTTAAAATATAGGTGATTTTATGAAAATAAAAGGAGTTCATTGTAAAAGTTGTAAAATGTTAATTGAAGATGTTTTATCCGATATTAATGTAAAATTAATTTCATGGAAATTAAATGGTAATGAGGCAACGATTCAAGTTGATGGAAATAGTTCATTTGAAGAAATTAAAAAATTAATTGAATCAGAAGGAGACTATAAGGTAGAAAAATGAAAACGAAATTATATTCACCAGATATTGAATGTGATAGTTGTATAAAAGTATTAACAAGGGCTTTTAATAATTTACAAGGTATTGAAAATTTCCATTTTAATAAAAATGAAATTGAAGTTGAGTTTGATGAATCATTAATTACAAAGGACAATATAGTTTCTGCAATACAAAATAAAGGTTATAGAGTATTTGATGATGTATTTAATAAAAAATCAATCAAACAGAGAACAAAAGATTTTATTATAAATAAAAGTAAGTATAAAGTTGAATATAAAATGATAAAGTATATTATCTTGTCATTTGTTTTTCTTTCAATTATTAATTTATCAATTTTAAAATATACAAATACTTTTGATACTCATTTATCTTGGATTTTTTATTTAACTATTTCAATTGCATTTTTGAGTGGTGCAATGTGGCACTATAAAACATATCATACTCAATTTACTTGTATGTTAGGTATGATGATTGGTATGACTATAGGTATGCAAACTGGTATGATGATAGGTGCTATTATAGGAATTACTAACGGTTTTTTTTATGGTGCAACTATTGGTATGATCTTAGGTTCATTAGTTGGAGTTTATACTGGAAACTGTTGTGGAATTATGGGTGTAATTGAAGGATTAATGGCTGGAATAATGGGCGGTACTATGGGTGCTATGATTACAGTTATGATGTTTTATGATAATATATACATTTTTATGCCAATATATTTTATATTAAATCTTATTATATTAATTGGATTTAGTTATATGTTATATGAAGAAGTAGTTGAAAATAATAATAATTTAACTGTTAAAAATATTAATTTTTCAAATTATTTTTCATGGACTTTAGCTTTAAATATAATATTAATATTAATAATATATATAGCACCCAAATCAATTTACATGGGGTAAATAAATGAAAAAAATAGAATTAAAAATAGAAGGGATGCACTGTAGTAGCTGTGTAAATATCATTGAAAGAGCTTTAAACAAAAATGACGGTATTATTAAAGCAACAGTTAATTTTGCAACTGAAAAAGCAATGTGTGAATTTGATGAAAAACAACTTAATGTTAAAAAAATAATAAAATTAATTAAATCAAAAGGATATTCAGCAAAAATAGCTGGTGATAAGATAAATGATAAAAAAGAAATCAATAGATTAAAATTTTTATTAATAATTAGTAGTATTTTTGCAATTCCAGCATTTTTAATTGCAATGGTTTTACCATGGCTTGGAATAAAAGTAATGTATGAACATATTTTCGTATGGATTTTGGCCACCCCAGTACAATTTTTTGTAGGTGCAACATTTTACAAAGGTAGTTGGCAAGCATTAAAAAATAAAAGTGCAAATATGGATACATTAATTGCACTCGGTACTTCAGCTGCATATTTTTATAGTGTTTATTTAGTATTATTTACTAATTCCAATCAACAATATTTTGAAACATCAGCAGTTTTAATTACATTTATTGTATTAGGTAAATTTTTAGAAGCAATTGCAAAAGGAAAAACTAGTGAAGCAATAAAAAAACTAATGGAATTTGGTGCAAAAACAGCAACAGTAATTAGAAATAAAAAAGAAATTAAAATACCTGTTGACCAAGTTGTAATTGGGGACATAATAATTGTAAAACCAGGTGAGAAAATTCCAGTTGATGGTAAAATAATTTCAGGTTATTCAACTATTGATGAAAGTATGATTACTGGTGAGAGTATTCCAGTTGAAAAAAAATTAAATGATAAAGTAATTGGTTCAACTATTAATAAAACAGGTTCCTTTAAATTTAAAGCAGAACACGTTGGAAGTGAAACAACACTTTCTCAAATTATTAAATTAATTGAAAATGCCCAAACACAAAAAGCTCCAATTCAAAGATTTGCAGATATCGTATCTGCCTATTTTGTTCCAATAGTAATATTAATTTCAATAATTACATTTTTAATCTGGTATTTTATTATTAATTCCGGGTTAACTGTTGCATTAATTTCGAGTGTTGCAGTTTTAGTTATTGCATGTCCTTGTGCCTTAGGTTTAGCAACACCAACAGCAATTATGGTTGGTACTGGTATTGGTGCAAGAAAAGGAATTTTAATTAAAGGTGCAGAATCATTAGAACAAGCAGAAAAAATAAAATATGTAGTTTTTGATAAAACTGGAACTATAACACAAGGTAAACCTAAACTTACAGACATCGTTTCATATGATAAAAGAAATCAAAAAACTTTATTAGAAATTGCAGCTAGTATAGAAAATTTATCTGAACATCCTTTAGCCGAAGCTATTGTTAATGAATCTAAAAATAAAAAAATCAAATTAAAAAAAGTCTCTAATTTTAAAGCAATTCCTGGTTATGGAATTGCCGCTTCAATTGGAAAAAATAAATACTATTTTGGTAATGATAAATTAATGGAAAAAAATAAAATAAAAATTAACAAAATAAAAACAGACTTAAATAAATTAGAAGATGAAGGTAAAACTGCAATGATTTTATCTGATAATAAAAAAGTAATTGGTATTATTGCAGTTGCTGATGTAATTAAAGAAACAAGTAAAAAGGCAGTTAATAAATTACAAAAAATGGGTTTGAAAGTATATATGATTACAGGAGACAATCAAAGAACAGCAAATGCAATTGGAAAAGTTGCAGGCATTAATAATATATTTTCTCAAGTCTTACCAGAACAAAAAGCAAATCATATTAAAAATTTACAAAAGAAAGGAAAAGTTGCTATGGTTGGTGACGGTATAAATGATGCACCAGCATTAGCACAATCAGATATTGGCATAGTTATGAGTAGTGGAACTGATGTTGCAATGGAGAGTGGAAATATAGTTTTAATGAAAAATGATTTAATGGATGTAGTTAAGTCAATTAAATTAAGTAGAATTACTATGGTTAAAATAAGACAAAATATGTTTTGGGCACTATTTTATAATTGTGTAGGAATTCCAGTGGCAGCTATGGGATTATTAAATCCTATGATCGCTGGAGCAGCAATGGCATTTAGTTCAGTTTCTGTATTGACTAATAGTTTATTATTAAAAATGAAAAAATTATAGGTGAAAAAATGAAAAAATTAATTATTCCGTTTTTAGTTATTTTATTTGCATTTAGTGTGATTGGTTTTAATTATAATTTATTTGAATCAAGCCCTTCAATTAAAAATGAAAATAAATTTGATTTAAACAATAATATTCAAAATGAAAATGAACAAGTAGTTATCATGAAGATGGTTAGAGGTAAATATTATTTTAAACCAGATACTATTAAAGCTAATATTCCAGTTGTAATAAAAAATGATGGCTCACTTCGAGGTTGTGGTGTCTTTGTAAAACAACCACAATTAGGATTAGATATGAATTTTGGAATGAAAAATGAATATCGATTTACTCCAAAAAAGAAAGGTACATTTAAATTTAGTTGTAGTATGGCAATGTTTGACGGAGAATTAAAAATAATTTAATCAAGATAAGATTTATTTTATATAGAATTACTTGCTTAAATACATTTTAAAAAAATCTTTAATTGAAGATTCTCCAACAATTTCTTTTAAAGGAAATTTCCAATTTTTTCTAAATTGTTTAACTCTTTTTTCATTCAAACCACCATCATAAGTATAAAACTGTCCATAACAACCCATACTATAAATAATTTGTTTTTTATATTCAGAGTATTTAGTTTCTTTTGGAAGTAATTTTCTATACATCTCTAAATTTCTAATCCAACTCACTCCAGCAATTTCAATAATTTGAGGATAATTTTTTTTAATATCTTTAGCAATTTCTTTTAATTCTTTTTTTCTTTTAAGTAATTCATCCCCTTTCAAAGGATTTTTAGGAATAATATTATTTGCAAAATGTAATATAGCAATATTGCCATTATATATAGTAAACCAAAAACATTTTTTAGATTTATTTTTTTTAAAAATGTCTTTAACTGTTTTTGAATTTAAAATTAATAATTCAAATATTGAATCTTTATTTCTTAATCGCCTTAATTTTGACATCAAATTATTTCTATTTAATTTTGTCAAATATTTAAATAATCTATCAGCCCCAGTATATTTAACTAAAGAATCAGATAATTTCAAATTATTTTTTTTAGCCATATAAAAAGAAAAATCAATTCTTAACTTTATTACTTCAAATTCGGTTTTGAGTCTTTTAATTTGCAAAGAATTAGCTTTATATTTTTTTACTAATTTATTAAAAATCATTTCCATGATTATTTTTTAGTTTAATCAATTATAAAATTTATTTAATTCTTTTATTATATTCAACAATTAAGGCATGAAACTCTTGATAAATAATAACTTTTTGATCATCTTTTATATTTTTACCTAAATCATTTTCAATTAATTCTTGAATTTTATTATAGTCCCAATCTTTTTGAATTAAATCTAATGAAATTAAAAATCTTTTAGTATATGTATCAACAATAAATACTGGAATTCGATAAGCATATAATAAAATTGAATCAGCTGTTTCAAAGCCAATACCCCATAATTCTAATAATTCTTCTCTGGTTGGAATTTGATTTTCTTTTAATTTAATAAAAAATTTACAAAATTCAATTATTTTTTTATATTTTTGATTAAAATATCCACTTGGTTTGATTGCCAATTTAATTTTATCTTCCGATTCATCAATTATTTTATACGGGTCAATTACATTTAAGTCATTTAGATTCATAACTGCCTTTTCAACATTTGTCCAAGAAGTATTTTGAGTTAAAATTGCACCTAAACAAATCTCAAAAATTTGTTTATTATTTTTCGGATAAGAATGATCATTAGGATGATATCCATTCATAGAACCAGTTTTAGTTGGATTAATATTATTTTTATGTAATTCAATAAGAGGCCACCAACCTTGAGCCCCATATTTAGATAATAATTTTTTATAATGCTCAAATAAATTCATAATTAATTCATAAATAAATCATATATAAAATTTTATACTGTTATAAAAAATAAAAAACGCCCTGGCCGGGATTTGAACCCGGGTCGAAGCCTCGACAGGGCTTCATGATAGGCCACTACACCACCAAGGCATAAGACGTTAATGTTGAATTTTTTATTTTGTTTATAAATTTATCTCAATAAATTAATTTATAAACAAAATTAATTAAAATAATTTATGTATAAATGGACATATTTACCAGAATTTGTTTATGGTTCAATTGATGGGATTATTACCACATTTGCTATAATTTCAGGTAGTTTAGGTGCAAATTTTTCAGTTTCAGTTATATTAATTTTAGGATTTGCTAATTTATTTGCAGATGGATTTTCTATGGGTATAAGTAATTATTTATCAGAAAAATCTAAAATTAAAAAATTAAAAAAAAATCCTTTTAAAACTGCATTAGCTACATTTTTATCATTTGTAATTATTGGCTTTATTCCACTATCTGCATTTCTATTATCTAAATTTTCAGGCTTTTTCTATTTAAATCAAATAATATTATCAATAGTTTTTACTGCAGCAGCATTAATTTTAGTTGGATATATTAAAGGAATATTATTAAATAAAAATAAATTTTATTCAATAATGCAAATATTATTATTAGGAATTGGTGCAAGTTTAATTGCATATGGAATTGGCTATATTGCTAAATTATACATATAATTTATTAATTTGAATTTTTATTAAAATAATATGACAATATTAATATTTGCAGCACATCCAGATGATGAAGTATTAGGGGTAGGGGGTACTATTTTAAAATTTAAAAATAATGGTGAAAAAGTCATTAGTATAATTACATCATATGGTGAATTTAGTCATCCATGGATGAAAGAAAAATATACTAAAGATTTAAGAAGAAAAGAATGCCTAAATGTAAAAAAATTTTTAGGAGTAGACGAAACTATTTTTTTAGGTATACTTGAAGGGAAATTTAATAGTGAACTTAAAAAAAAAGAACAAAAATTGTTAAATATAATAAAAAAAGAAAAAATAAAAAAAATATTTTCACATTCACCTTCAGACCCACACCCAGATCATAATGCTTGTTATAATTTTATACACAATGTAATTAAAAAAAATGACTTAGATGTAGAATTTTTATGTTTTGACATATGGAATCCATTAATAATTAAAAAAAGACACATGCCAAAAGTATATTATGACATTAGCAAATATATGCATAAAAAAAATGAAGCTGTAAATATGTATGAATCACAAAAACATGCAATGATTCTAATGGGGTTAAAACCATTAATGTGGATAAAAGCGTTTTTGAATGGACTTAAAATTAATAAAAGATTTGCAGAAGGATTCTTAAAAATAAAATGAAAAAATTATTAATTATTACAGATACATATTTACCAAGGTATGATGGAGTTGGAAGATTCTTATCTGAAACATTAAAAAAAATACATAATTTTGATATTGAAATAATTGCACCAGATTATAGATTTGGAACGAATTTTAAATATGAACAAAAAGTTACATTGTTTAAGCCAATGAATCTCTCAATTTCTGATTATCATCCAGTAATTCCAAATTTAAAAATATTAAAAAAAAAAATAAAAGAAGCTGATTTAGTATTCTCACATACATTAGGATTAATTGGAATATTTGGCTCATATTATGCAAAAAAACATAATAAAGTTTTAATTAGTTTTGTGCATTCAGTAGACTGGGAATTAATTTCAAAGGCATTAAATACAAATAACTTTATTCAAAAAATAGTATTAAAAATAATTATTTTTATTGCAAAATGGATATATAATAAATGTAATTTAATTTTGGTACCATCAAAAGAAACAGAAAATATTTTAGTTAAACAAAATATTAATACACCAAAAAGAATATTACACCTTGGAACAAATACAAATGAGTTTATTCCAAATAAAAATATTAAAAAACAAAAAATAAAAATGAAATATGATAAAAATGATTTTATCATAGGTTATTGTGGTAGAATTAGTTATGAAAAAGATTTACTAACATTATTTGAAGCATATAAAGACATAAAAGATAGTTATCCAGATCACTCAATTAAATTATTAATTGTAGGCGGTGGAGACAAACAATTAATAGAAAAAATTAAACAAAAAGATATTTTTATTACTGGTTTTGTAAATAATGTAATTGATTATTATCAAATAATGGACATATTTGTTTTACCTTCACTAACCGAAACATCTTCAATTTCAACAATGGAAGCTATGAGTTGTGAAATACCAGTAATAACTACAAGAGTTGGTTTTTTAAATACATATATTAAAGACGGTGAAAATGGATTACATTTTAAAACAAAAGATAAATTTGAATTAATTGAAAAATTAAGATTATTAATTGAAGATGAAAAATATAGAAAAAAATTATCTAAAAATGGAAGAAAAACAATAGTTGAATCTTATAGCTGGAAAGAAACCACCAGCAAATTAAATCGTATATTAAATACGATTATACAAAATATTCACGAAAAAGCTAAATAAGTTTTTGACCTAAATTAACTTTTTTTCCAATTAATTGTTTATTAAATTTGATTGTATTTTTTTGAGTTAAAATAATTATTGTTGAGCCAAATAAAAACAGTCCTAATTTTTCAAAAACATTATATTTAATTTTTATAACTTTAGAACCAAACATATCAATTACTTTTTTACTAATAAAATTTTGTTTCAATTTTTTAAACAAAATTGTTCGTTTGACTATATTATTAATAGAATCTTTAAAACATTTTAAATAAATAGCACTAACACCAATTGCACCAATAGGAATTAAAATAAATTCAAAATTTTTAGATTTACATTTAACTATATATCTCTCATTTTTAATAAAAAGTGATTTATCTTTATTCTGTTTAAGTTCGCTTACTGTTTTTATATCACCAGAAATATATTTAATGTTTTTAACTTCCATTTCCATTGGACTAATAAAATAATGATAATTTAATGGACTTAAATAAATATTACAAAATTCTCCATCAATATATTTACTATAATCATTAGAATTTAATAATTGATTAATGGAACAATTAATTTTTTTATTTGAAGAATAAAAAATTAAATTTTTTCTAATACTACCACAATTTATGATTTTTCCATTGGCAGGAGAATAAAAGCCAGATTTATTACTTTGATTTAATTTAGTATCAATCCTTAAAAACCAATCCATTAATGTCATATATTTTTTCAAATTAACTTTATTTAAATTAGAATTAAATAATTTAATAAAAGAAAATAATATTTTAAAAATTAAATTGTTTTTATGTTTAATTGAAAAATAAAAAACTAAATCAGAATATAATTGTCTTAACATATAATTAAACTATAGGTTATATTTATTAAATTAATTACTAAATTTTTATAAATAAATTGATTAATTCTACAATATGGAAAAAAATAGATTAAACGATTATTTAACAAATTACAAGAATCAACTAAAAAAAGGAATTGCTATTGTTGGAAGTACATTACTTTTATCATATACATTAAATTATTTTTTTAAAGATCATTTAGAAATTCAAAATTCAGAATCACAAATCCAATTCTCAAATATAACCCATGATTGTAATATCTTGGCGTTTACTAAAGTTGAAGATGATCAATTAAAAGTTTTTTTTTATCACACTGATGAATTTAAATTCAATTCTCCATATGAACCTGGTAAATCAATTAATCAATTTAAAAGATTAGAAGAAGAAATCGATTTAAAAAACCAAGAATATAAATTTGGAATATTATTATATAATACGGAGAAGCATAGAGATTTATTAACTCTAAATTTAAACTTAAAAGGAATTCAAATGGTGTTCAACCCTATTAAAGTTGGAATTCTTGGTGATGATTACAAAATTGTTATAGATTTAAAAGGTGTAACAAAAACTGAAGAAGAAACAAAAGGAGATTATTATAAAAATAATTCAATTTAAAATTATTTTGCCATTATTTCAATAACATCAGAAAAATTAAGTTTATGATCTTTACCAATTGGTAAATTTTTTCTTACATCAATTGCTTTAATAAAATTTTTACCAAAATCAGTATGTAATTTATATGCAAAATCCAATGCAGTACTATTTGGAGGCATTAAAAAACAATCAGGCATAACTCTACCTTGAGAATCAGTTAAACCTTTTGAAGATCCAGGAAATATAGGAATCATTTTTAATAATTCAAATGTAGCTTTATTTAATACTTCTTGACAACCAGTTGAATTCCATTTTGTAAATAAATTGTTTTTAATAAAATCTAAAATTTGTTTATCTTTATCTTCTAATTCACCAATAATTTCGAATTTATTTTCACCAGGAATATATTTTATTTTTTCTTGTTCAGATAAATCCCTCAAAGCATTTTCAGCCATACTAGAACCTGCAACAAAAATATAATTAGAAAATTTGTCTTTTAATCTATTAAAATTATTTTCTGAAGTATCAATATCAATTTTATTACAAAATATAATCATTGGTTTTGTTATATGCCTAAATTCAGTAGCCAATTTTTTTAATTGATCTTCATTCCAATCAACTGCATTAATATTATTTAAACTTAATTTTCGAATTGTATCTTCTGCAATATCTTCAGTTACTTTAAAAGCAGATAATTGTTTAGCTATAGCAATATGAATTTGAGTTTTTGTTTGCATTGCTTGACGAGCAAATTTATCCCAACCCTTTTTTAAAACTTGATAATACCACATATCTAATTCATGCTCTAAAAATAATATATCTTGTTCTGGATCATATTCACCAGTGTTTACACTTTCACCTTTTTCATTAACAGAACCAGAAATATCTATAACGTGAATTAAACAATCAGCCTGACGTAAATCCTCTAAAAATGCATTACCCATACCCTGCCCTTCATGAGCACCAGGCACAAGACCCGCAACATCTAATAATTCAATAGGAACAAATCTCCAATTATCAATAACATAACCTTCTCTAGGATTAGAAACTTTCCCAAAATCACCAGCAGCATCTTTTATTTTAACATAACCCATAGCATGATTAGGTTTTATAGTAGTAAAAGGATAATTTGCAATTTCAATATTACTTCTAGTCAATGCCTTAAAAGTAGTAGATTTTCCAGTGCTTGGTTTTCCAACAATTCCAATTAACATAAATTAAAGGAAATCTAACAATTTAAAAACATTTAGAAAAATATGAATTAATTATCAAAATAAACCATACAATAATGAGATTCTGGTTTAAATTCACAAATAATAAAATCCGAGACATCTTTTTCCAATCCAAACAAAGAAAATTGATCCTTTGGAATAATTCCCTTATATATACTAACACCAGTTTTAGTTTTCATTAAATAAAAAGATGCAAAACATTTATTATTATTTTCAATTTTATCAACTGGTAAAATATCACAAGTTCTAGAAAAATGTAATCTGGTTGAAAAATAATTTAAATTTAAATCATTAGTATTCAACAACCTAATTATTTCTTTAAAATTACCATTTTCTAAATTATATTTTGAAAATGAAAAGTATGAATTTTTTTCACAATCCGATTCTAAACTAAGACCAATAAAAAAACTTTCTTGTTTTATACTTTTTAATAAATCTTCAATACATTGAAAACTAACAGGCTTTTGAATTTCATAAAAAGATACCCTATAATCTGAAAATTCATCCAAATAAACTTCACTAAGTACTGCCCCTGAACTAGTATTTCCTATATTTATTATATCTTCAAAAAGTTTCATGTTTCCAAATATAAACAAAAAAAATTTATTTATAAAAATTTATTTATTGAAATATAGTCAATACTATATTTTTAATGTAGTAATAGTTGACATACCATGTTCATTCATACTAATACCATATAAGTAATTTGCATCACTAATAACTGCATCATTATGAGAAATTACAATATATTGAGCTTTTTTAGAATATGACTCAACATACTTTGCAAGCGTCTCAGAATTATGTTTATCTAAAGCAGCATCAATTTCGTCCAATATATAAAATGAATGTGGATCATATTCTTGAATTGCAAATATAAATGCAAGAGTCGTCATAGTTTTTTCTCCACCAGATAAAGATTTAATATCTAAAAATTTATTTCCACTAAGTCTTACTTTAACACTAAGACCACCTTCAAAAGGCATTTCTTCATTTTCTAATTCTAAAAATGCCTCACCCTTAGAATTTAAATTTAAAAATATTTCTTTAAAATTATGATTAATTTTATCAAAAGTTTTCATAAAAATTTCTTTTTTTACAGTTTCAATTTCATTTAACATTAAAAGCACACTTTCTTTTTCTTCTTGTAATTGTTTTATTTTATCAAGCAATTCATTAAATTCTTTTTCTACAATATCATACATTTCCAATGCCCTTAAATTAACATTTCCAATTTTTACAATTTCATTTTCCCATCTTGTAATCTCAGATTTTAACACACTTTCATCTTTTTGTACATTAGAATAGTCATTATCTTTAAAAGGCTCAAATTCAGATTCAAGCCCCATTAATTCTGCATTAAATTTAGCTTTTTCAATATTAGAATTATTTTTAAAATTATCAAAATCTTTTAATTTTAAATTCAATTGAGTTATTTTCAAATTTAACTCATTTACATTAGACTCCAACTCACTTCTTTTTTGAAATAATTCTTTAAACTGTAAATAAAACTTCTCTGCCTGTTTCTCTTTTAATTTTAAATCATCATCAAATTTCTTATTAACCTCAACTAATTTAATTTTCTCCTCTTTAAAATCTATAATTTCTTTTTCCATTGACTTTATTATTTTAATAGTTTGACTATCTTCTAAATTCATTATATTCTTAATTTGACTGTTTAAAGATTGAATTTGCGTATCAACTTTAATTAAATCTTGCTCTAATTCTTTTTTCTTATCTTCAAATGTATTTAACTCCGCAAGAACTTTTGGACTTCGTGTTGCTGCAACTTTATTTTTCAAACTTGTTTTTTCAATTTTGATTTTTGCCATTTGGCTATTAATTTGACTAATTTTAGTTATAACTTGATCATTTTCTGTATCCATCTCATCTACTTGTTTAGTTAAAGTTTCTTTTTGAACATCATATTCACCAAGTTCATCACTATCAATATTTAATCTTTTTTCTAAACTTTTTATATCCCCATCAAGTTCTGATTTAAATGACCGTAATCTATCAATTTTATCCATATTATCATGTCGCTTACTCTCTAATAAACTTAAAACACTACTAGAATCACTAAATTGTTTTTCAACTTTTTTAATTTCATCATTTAATTCTTTTTTTGCAAATCCACCAGAACCATGCTTTAATTTTTTTCTATAACCACCAATCATCGCACCACTAGCTTCAATTAAATCTCCATCTAATGTTACCATTCTTATTTTTCCAATACCAATTTTTCGTGCCACATCTAAATTTTTAACAATTAAAGTATTTGAAAAAACATGACTCATAGCATTTTTAAATCTATTATCAAACTTCACTAAATTAATTGCAAAATCAATAGCACCATCTTTTTTAGCGAATATTTGTTGTGAAGCTTCAATTGGTTTTGATTTAATTTTATTTAATGGTAAAAATCTACAAGCCCCAATTTGTTTGGATTTTAATTCACTAATTATATTACTTGCAACTTTATCCTCTTCCACAATTATATCTTTAATTCTACCACCAGCACAAATCTCCAAAGCAAGTGAATACTCTTCATTAACTTCCCCCAACTCACTAACCATACCATGAATTTGTGGATTTTTACTTTTCATATCTAAAACATAATTAATTGCATTATCCCCAGCAGCATTTTGAACCAAACTATTTTGCTTTGCTTGTAATTTTGCAGCTTTTTCAGAATAAACATTAACATTATCTCTTGCATTTTTTATTTGAGCAACAAAATTAGAATCATTATTTAATAAAATATTTAATTCTTGAGTAATTTTTTTAAATTCATCTCTTTTATTTTCCAAATCTTTTAATTGCTTTGCATTTTCTTTTTTTGCAATAGCTAATTTTTCATATTTTTCAGACAAACTCTCAATTAAAATTTCATACTTATCTTTACGACGTGTAATTTCTTGTTGTTGAGTTCTCAATAAATTTATTTCTTTTTGTAATATTTCTTCCTCTTCATCATGTTTATCTATTTGTCCATAAACTGAATCCAAATCATCATTTAATTTGTTTTTATCACGAAATTTTAAAATTGATTTCTTAATTATATCTAATTCTTTTTCAATAGTATTTTTCTTTTTTTTCAAACCCTCAATTTCATTTTGAGCAATATCCATTTTAGATTTCATTTCTTGATTTTGTTCATCTAATTGACTTTTTCTCTCTTCCACTCTTTTCAATTCTTTGTCAATTGAATTAATTCTAGAATTATTTGTAGCAAGCTCAACTTTAATATTTTCAATTTGTTTTTGTAATTGAACCTGCTCTTTTTCACCTTTATCTTCAATTTCTTTATTTATTAAATTAATATTATTTTTTTTATTTTTTACATCAGTTTCAATTTCTAAAATTTTTTCATTAAATTTATTTATTTCTTCTTGATTTTTTAAAATATTTTTTTCAATCAAATCTACTTTTGATTTTCTACCTTCAATTTTTTTAAATAAATATGCTCCATGATTAAAATCAATATTTTTTTTTAATTCATTATATTTTAATGCTTGGTCCCTTTCAGTTTTTAATTCAGTTAAATAACCCTCTCTTTCTTTTAATATAATATCTGCTTCCTTTAATCTCTCTTCAACTTTATTTAATTCATTTAAGGTTTTTTGTCTTTTTTCTTCATAAACATTAATTCCCGCCACTTCTTCAATTATTTTTCTTCTATCTTCAAGCTTCATATCAATAAATTTTACAATATCCCCTTGTAATATTATATTAAACCCTTCAGATGTTATTTTACCATAGGCCAACATATTTTGTACTTCAACTTTAGTACATTTTTTATCATTAATTTTATACACACCAGTTCCATTATGTTTAACAATTCTTGAAACTTTAACTTCTGGCGTTTCACAAGGAAATAATTTATTAGAATTATCCAGATAAATACTCACTTCACCCTCTTTTGCAGGATTTTTTAACTTTCCCCCATTATATATTAAATTAGCCGACTTTTCACTCCTAAGCCCCTTAGCTGAAGACCTTCCTAAAACAAAACATAATGCATCTAAAATATTACTTTTTCCCGATCCATTAGGACCAATTACACAATTAAAATTATCACCAAATATAAGTTCTGAGCGTTTTGCAAAGGATTTAAATCCCTTCATCTCTAATTTATTAATTTTTGTCACAAATTTCCTCTCTTTTAATATAATATCCTGAAAAACTATTTATAAATATTCTGCTTACTTTTTATCAAAATCTAAAACATTCTTAAAACTATTTTTACTTAGGTGCAAGTCCTTCTCTGATTCAAGTTCTTGATTTATTTTATTTTCTAATACTCCTTTTAAATGATTTCTGTGCATAGAATAAAATAAATTAGTACCTACAATTAAACTCCACATCCCTATAGATTCATAAGTGAAAAAATTATGATTTTTATAAAAATAATATCCCCCCACTCCATAAGGACTTAGACCTAATATACCTCCTATAATCTTAGATCCAAACATAGTTTTTGGAAAATAAAATGGATTTTTGTTTTCATCTTCTTTAAAAATACTTCCTAAATTAAAAGGAAATTTTAAACCATTTTTTAAACCAGTTAAAAAATTATTTCCTAATCCTTTTAAAAAATCACAACTTAACATTTTAAAACCAAATTTAACATAATATTTTGCCACATCTAAAACTGGAACTTCACTCATTTTTGTATCAAAAATTTCATTAAAATGTTTTCGTTTAGCTAAATAAGAATTTAAAATAAAAGAAGAATCTTCATTACTTAAATGATCCAAATCTTGTGAAAATTCTTCAAGAGATAAACGCCTGTATGGATTTTCATTAGTACCATAATATAATAAATTTGTTAAAATATTTCCAGTTTTTGTATCTTGTTTTAAAATATCTGGATCAATCATATTTTTTAATATTGAACATAATGAATACGTCATACTTTTATCAGACCAAATACCCTCCATTAGTTCCGGTGCTTGAAATGCACCATCATAATCTTCACAAGAAATTGGTTCCAATTTACTATGTTTGGAAGTAAAATGTTCTAAATTATCTATAACTAAATATTCACTATCTTCATCTTCTTTTTGTATTAATATATTATCCAAATTAATATTAGTATTAATTAATTTTTCACTTTTATACAAATTAAATAATACATTAGTCAAATTTTGAACTAAATCAATTGCATCTTCAGGAATAAAATAACCCTCTTTTAAATTTTCTCTTAATGTTTGAAAACCAGGATTACATCTTTGAAAATAGTATTTTTGATAATCAAACTCTAAAAAAGCAACAAAATTTGGTGAATGTTTTTCTAAACAACCTTTTGCTTTTTTTATATATCTTGGAGAAGATTTTGTTTTATCACCTATTTTTTTTAAAACATAACTATTTTTTTTATGTTCAATAGATAAAGGTAATTTGGGGTTAGCAAAATTTAATCTTCTAATAAATTCAAGTTTAATTTCCCCTTCTAAGCTTACTGTTTCCATTAAAAAATAAAATTGTTTTAATTTTATAAATATTTATCGCCTATTAAAACAAGTTTAAATAATAAACATTTATAAATAAAAAAATTGTCAGGCTCCTATGAAATATAGTCAAAATAAGATATATAATTCAGGCAAAGAACCAGAATTAAATGATTTTCTTGCATTATTTGGAAAAACCTTAATTTATGGGACAATTACTGGTATTGTATTATCAGGAAGCATAATTGGTAGTAAGAAAGTAATTAATGAATATTTAATCAAACCCACTTATTCTTATATGAGTAAAAAATAAATAATTTTATAAACAAATGGCTGAATCTGAAAGGTATGGGAAGAATTAAAACAAAATTAATTAAAAGAATTAGTAGAGAAATCCTAGAAAAATATAAAGATCAAATAAGTACTGATTTTAAAGAAACAAATCATAAATTACTTTCTTTTGCTGAAGTTCGAAGCAAAAAATTAAAAAATATTATTGCAGGTTATTTAGTTAGATTAAGAAAAAATATGAAAGATTATGAATTATAATAATTTTTCAAGTAAATAAATAAGAGGAGTAAAAATGACAGAGCAACAAGCAGACAATATAATCTATGTTGGTGCAAAAAGATTTATGAATTATGTTACTGGTGTAGTAATGCAATTTACAAATGAAAATAATGCAGAAGTAATTGTAATGGCTAGGGGTAAACATATATCAAAAGCAGTTGACATTGCACAAGTAGCCGAAAAGAAATTCTTAAATGGACAAATTCATATTGAAAATGTAAAAATATCTTCAGAAGAATATGAAAATAAAGAAGGAAAACAAGTAAGAGTTTCTACTATTGCTATAATATTAAAGCGTAATACTGAATAATTTTTTTAATTTTAACAATTTTTATAACTTATTCTTTTTATATTATTAATATTAGAAAATTAAATTGGCCCCATAGCATAATCTGGATAGTGTAGAAGGTTTCGACCCTTCTGGTCTGGGTTCGAATCCCAGTGGGGTCGTTTATTCTTTACATTCTATTAAGGAGAGAGTTAATGTTGGAGTAAAACGTACGTATAAATTTGACATAAATCATGCGTATAGTGTAGATATTGAACCCCTCAAATTAGGGAGATATAGGGAGTTTCTTGAATGGATATATACTCAAAATTATTCTAAAGATCATAACTCTCATTTAATATCTTATTTTAAAAAACACTGGGTGGGGAAGTTATTCAAAGATGTATTTTCTTTAAAAAAATTTATTTCCAAACAAACTAAAGGAGTGGAGTTCATAGTTAAATCAGCCAGGAGTTATTTAAATTATTTGGAAGAAACTAATCAAAATTCAAAAGAATATTTAGATAAATGGAGAGAGGTTCTAAAATATAAGAGACAATATCAAGATCATTATATTCCATCAGATGAAGATGTAATGAAGAATTTTGAAATAATAAAATCTCACGATGTTCTTAAAATACTTTATTTAGTTTTAGCTACAAGTGGAATTAGATTAGTTGAAGCAATTGAGTTTTTGAAATCATATGAACAAGATAAGTTTACAGCTCATGATGGATTTGTTTCATACAATATTTCTTCAATAAGAGGAACTAAATGCACAAACAACATCTATTTACCTTTGTGGGTCTACAAACAGCTTAAACACATAACAAATTCATATCAAAGTCTTAGGATGAGGGTTAATAAAAAAGGATGTATATTTCCTTTAAAATATCTCAGAAAATGGCATTATAACATGATGTTATTTAATGGAGTTCCTGAATCAGTAGTGGATTTTATACAGGGAAGAACAAATAATTCAATTTCATCTAGACATTATTTGGGAAAGGTTCAACAAGCAAATTATTGGTTTTGCAAATTACTTGGATCTGAAATTAAAGTAATGAATGGTTTTGACTGAGCTAATAATAAATAGTCATTGGATAAGTATGTTTTATTTTTATTGAGTTTTTTTGAAATCTTATGTAAAAAAAATCTGAATTCTGCACTATATTTTTTTTTTGTAAAGACTTTTTGAATTATTTTAGGGTGATCATCATTTTTAGCTTTGTCAACATATTCTTTTGTCAATGAAATTTTGTGATTATAATAAAATTTATTTGCAGAATTAAAGAGAGGTGATTCATCAGTTTCTAAGTAAAGAAAATAAGAATCAATTTCAAACTCATATAAATTTATATCCGCTATTAATTTTTTTAATAAAATTATATTGTTTCTAAATAGATTGTTTAAATTTGGATAATTATTTTTATCTTTAATTTGATTTTTTACTAATTCAGAAATATTAACATATGTGGTTTGTTTTATTTTATAATTTAATATTAACATTGTTTTTTTTATTAAACTACTTAATTTAATATCCTCTGTGTCTTTTTCGAATAATTGTTTTTTGTTTATTTTAGAATTTAATAAATCTATATTTGTTTCATTTATACCATGAATTCTAATTTGATCATCATATGCAGTCTTATCTTCTAAATTTATCATGTGTATATCCTTATATCTATAATTTGACAACAGAAGCTTATGTGAAACTTTTCTAGTAGATTGCTCATTTATTTTTATTATGGTATCCGCTTCTTGTTCATGATAGTACTTTTTTTCTACAGAATTAATTACGATGTATTGATACAACAGCAATTTTTTTAATATTCTTTCAATTTGTTTTCTATTTGTATTTATTTTCTTTTCTATTTCACGAATTGTTACGCCTCTATGTCCATTTTTAGCAACGTAATCTAACACTTGTTGTGCATATTTCATTTTTTTTATTTGGTCATTAATTGATTTCATATTTGTCTTATTTGTCCTAAATATTTAAACCTTATGACGGCATATGATTCAATGTAACTATGAGGTAACACAGATGACAAGAAAAATTTATTCAATAATATTTCCTGGTCAGTTGATCAAGGAAACAGAAAAAATACGGAAAATGTATGGAAGCTCATTTTCTAGCTTGGTAAGACTAGCATTAGAAAATTATGTGAAATACTTTACAGGAGGTAAAAAAAATGGACAAAAATGATACATTGGATTGGCAAGCCTTTGGTAAGGAATTTGTAAAAATTTCTTCAGATGAACAGATTGACATGACATTGTCAAATTGGCAAACAATAACAAAAGATTATCAAGGTAAATCTACAGTTTATCTTGACTTTGATTGTATGGAAGAAAATGGTCTTCCTTGCAATAAAAAATATCAAACTTCATCAAAAAGATTGGCAAGATTGTTTAAGCCTATTATTGAAGAAGCTAAAGAAAAAAATGAAACAACAATAAGAGTACGATTGTTAAAGATGGGTGAAGGCATATCATCTAAATTTTCTTTAAATAGAATTTACTCTGGGGACAATTAGTCCTTTTTATATTTAAAATGAAACTAGTTGTAGATACCAGAGAACAAAAACCGTATTCAGATAAGTTCAATACTAGTATTTCTTTTGTATTTAAAACTCTTAGCACAGGAGACTATAGTATTGATGGGTATGAAAACAAGTTTGCTATTGAAAGAAAATCTAAGGACGATTTTATTTCATCAATAACTTATGATAGAAATCGGTTTGAAAAAGAGGTAAAGCGATCTAAAAATTTGGATTTTTTTGCAGTTTTAATTGATTGTGATTTTGCGGATTTTGCAAATAGAAATTATTATTCCCAACATGTTACTCCTAACCAGATTTTAGGGACTCTTTATGCTTGGTCAATAAAGTATAATATACATTTTCATTTTGTAGGATCGAGAACAAATGGAGCTTATGTAGTAGAAAAATTAGCATACAATTATTTAAAATATAGAGGTGCTGAGAGTGTCAACTGAAGTTAATGTTTCCAATACTTCCAATGATTCCGATAATAGTAATTCTTTTTTTAATTTTTATTTTAAATTAAGAGATAGTGCTTTTAGTTTAGTTAATTTACAAGAAAAAGAATTTTATGAACCAGCTATAATTCAATTGATGTATGCATTGTTAGGTTTGCCATTAAGAAAATATCCAATTGTAATTGGAGATGAAAAATATGGAACAAGAATGCACTGTTTAATTGCAATTCGAAGTGGTAATGGTAAAAATTCTTTTATACAAGCAATAAAAAAGTTTTGTGATAAATTTAATTATACTTATGCACCAATTGCTAGTCTTCATGAAGAACAATTAATTGGTAAATTAAAAATTAATGAAAAAAAGGAAACTTTTGAGTCACCTGGATATTTTAGGTTTGATTTTATTGTGTTAAACGACAGCCTACTATTATTGAATGAGAAAAAATATGAAAAAATTAGAGAATATTTTATTAGAGGATGTGATGAATCATTTTCAAATGAAATTATGAAAAAACAAGTTGATATGGCTGATAAAATAGGCTTACGATACAACCCTGAATTTGTTTGTTTTTTATTTGTTCAAGATAAATTAATATTAAAATCTAACGTAGATACTGGTTTTGTTAGAAAAGTTCCAATGTTAGCAATTGATCCACCTACTGTAGACTATGATATGTTAATGTCTAGAACTAAAAAACAAGATTCCAATAAATCTAATTTTATTTATAGCTTAACTGGAATGATTAGAAACATTGGAAACATAAAGTGGAATTTTGATGAAATGGATGAAATTAAAAAAAATATCACATTCTTATTAAAAAATAAATATATTTTTGGAACACCTTCTGGAGCATTAACTATTGATTCAAATAAAGCCACTAAAGGTGGTGGCATTGGAAGATTTTTTGAAAGTAAAGATAGAGAATTAACTGAAAATCAAATAAAAATATTGACATATTTAAAATTACATGAAGGAATTAGTAATACATCACCAATGTCAGAAGAATTAGAACTTTCTGAAAATATTATTTTTAGCGCATTTAAAACTCTTAAAAATTTAAAACATATAAGACAATTAAGTAATGGATTATATGTCATTTCAGGATTAAAAGGAGAAGAAAACATAAAATTAGAAAAATTAAAAGTATTTGATAATTTAAAAGATTACTTAATTGGAAGTCCAGATCAAATTGAAAATAAAACTAGTTTAATAAATCATTTAGCAGAGGAATTAAAACTCTCAAGAAGTATTATTAAATTTTATTTTAATCAAATTTTAACTGATAAATTAATTTATAGAACAGAAAAACAAAATTATAAATTAAATACTGCTTTGCAACAAAATGAAACTAAAAATAAAGCAGTCATAGAGTATATATTAAATAATGGAAAAACCAAATTTATTAGTTTAAAACAAAGATTTCAAAATTTTGATATGTTAGTCCCATCACAAAACTATGGAATTGAACAAACAAATTTAGAAAAATATTTAGAAGAAATGTGTATTGCAAATTTAATTTTCAAATATAATCAAGAAGAATATTTTATTTGCTCAAAAGGAGAAGCAAAAAAGGAATGTGTGAATGTATTAAGATCTGCATTTCCACAAAAATTAAAAAATTATAATACACTTGAAAAAGTATTTGAAAATTCATTTTTAAAAAACGAATATTCATTTTTAGAATTTGAATCTGCAGTAAATCATTTAGTTCAAAATGGAGAATTATTTTATTTATATAATGGACTATATACTGGAAACAAAACCTTATGCTCAAGTGATGCATTAACTAAAAATACAAATAAAATTAAAAAAACTCATATACAAATTGATAGTAAAAATTTACAATTTCAAGCATTAACTAAATTCCCAGGTTTAAATCAAATGTTAGAATTAGTATTAGCCAGGCCAAATCAAACAGCAAATTTTAAAGAATTAGAATTTTGCTATAATCAACATAAAAACAAAAGAGGCTATACATTTGATGAGGCCATTCGCTATCTTAAAGGATTAGAAATATTAAAATCCATTGGAATGGGGAATTTAACTATTAATCCTATATTAGTTAAAAACATATAGAATTATTATAAATAATTTTTAGATAATATGAATATATTACAATTTAATAAATTTTATAAAATAATGATAATATTTAACAAAAATGGATTTTGAATTAGAAATAAGAAAATATCAAAAAAGATTAATATTAAAACCAAATGATAATGAAATGGATTTTGATATACTAAGATCCACCCATCCAAAACACACACAAAAATTAGATTTTTCTTTTTTATCAAATATAATTTTACATGAAAGATATTCATTATTAATTTTACCCAAAAAAAAAATTAAACCATTTAAAAAAATGTTAATTTATTTATATAATTTAGATGTTGAAAAAGAAAAAAAATCACATAATCGTGACGGATTTCAAATATCATATGGAATAATCAAATATACTTTGGGTTGTGAAGGATTGTATCAAGAAGGTATTAATTTTGTTCCTAGTAATTTAAGAAATGCAGTTTTCAAACAAGGAATTGAACTACTATTAACTCATAAATATCCATAAAAATAATTATTTTTTCTAAATATTTTATTCATAAAGAAAATAAACAAATAGAGTTTAAAAAATTATTTACGTAAATTATCTCTTGGATTATAATTAGACCAAGGAATTCCAATAAATATATTATCACCACATTTAGAAAACTGATGATCTTCTAATTTAAAACCAGAATCTAAAACTTTTGGAATAATATTTCCCCTAAAAAAATCATTTACTGATTCAGCCCAAAGTAATTGTTCATGACCTAAACTATAAATAATATCTTCATAATATTTTAAATCTGGAATTTGTTTTAATTGTTCTCTTACTTCACGTATATCAACTCTATCTAAAACTATTCTAGAATAACTAATAACAGGCCTTCCTTTACTCAATATTTTTTTACCATCATCATCAGTCAGATCACCAAGAGTACTCCTAAGCTCATAAGACATAACAAAAGAAGAAGGATCCATATTAACTCTAGAAAAATGCAAATTATTTCCAAGATGAATATTTAATCGTCTACCAGGTATTACACCAATATCTTCACATGCTTGTAAATATTCAGCTTTTTTATCTCTATTTTCATCTGTAATACTAGTAAATATGCCAGGTGCTTGATTATGTAATTCTTTTATTTCTGGTCGCATAAAATATGCATATAAATGTGCCATAATCACAAAATAAAAAAATAATTTATAAATCAGTTGGTAATAAATATCATATGTTAAAACATATATTTTTAATCCTTTGTGGTGAAGATGAACATAAAAGACCAAGATCTTTAAAATTATTAAGACATATAAAAGAATTAAAATTAGATGAGAGTCAGTATAAAATAATTGTAAGTGGACTTTCAAGCTTTAACCTACATCCACATATGCCAGAATATTTGTCATTATCAAGATTTTTAATTAATCATGAAATTAATCCAAATAATATTATTGTAGAAAAAGAATCATTAGATACTTTAGGAAATATGGTTTTTTCCCATGATATAATTGTTAAATTATTAAAAACAAATTTTCAAAACAAACCAATAACAATTTCATTAATTACTGAAAATTTTCATATGTCTAGGAGTAAAGAATTATTTTTAAAAATATTTAAAGATATTAAACATGAATTTAGAGTTGATTTTAATTATATTTCTGCAAATACTTTTGGACTCTCTAGTTATTATTTCCACAGAAAATTAAATGTTCTTTGTCAAAAATTTTTAAGAAAAAATAGACTAAAAGAAGATATAAAAGATTTATATGAAAAATCAGCATCACACTTTAAAAGAAATTTATTAGATTTTTTTTTAATGGATGTAATTTTAACTGATATTGATTTTTATAGATTACACACGATTTACGAATTCAAAGATTATTTATTTTCATTACCTGTTTATAATACAAAATATAATCCAATTCATAGAAAAAACATAAATTTTTCATTGTATGCCAAATTAATAAATTTACATATAAAAAAATAAAAAAAAATTATTCTTCTTTTAATGCTTGACTAAGTGCCATAAATAAAAGAGGAATGGCTGCTACAAATAAAAAGCCTGGAGGAGCTGCAGCAGGTGGTAATTGAAATGTTGTCAAAAGTTTTGGCATTGTTGCAATTATAGTAGATAATAAAAATACAGATGCAATCCAAGCAGACCATTTTGTATATTTATTTACAAAAAATGAAATTGCTATTAAAACTTGCAAGATTCCTATAATCATAATCAATGTAGTTGAAAATACAGTCCCATAAAACATTTTATATGCATTGTTTGCAAACCAATCAGATTGAGTTAATTTTAATAAACCAAATATAAAGAAAAATATACCCAGCCCAATTCTGATCATAAGTTGACTTGTTTTATTATCATTAAGTTTCATATTATAACCCCAATTTAGTTTTAATAATTATTTAAAAAATAAATTAAATAAACATTGCTTTGTATGTTCAAAATTAAATTTTAAACTAAAAACATAATTTAATAAGACAAAAAATCTATTTTTTATATAAAATGACAATTAAAAAAAAATCAATCTCAAAATCAAATAAATCTAAACAAATAAAATCCAAAGAAAATTCTCTTTTTGATAGTGCTAAAATTAATTTTTTAAATGCTGCAAAATCATTAAAACTCGAACAAGATGTTATGAATATTTTATCAAATCCAAAAGAAATTTTACAAGTTAATATTCCAATTAAATTACACGATGGAAAAATAAAAATCTTTAAAGGATTTAGAGTACATTATAATGATACCTTAGGCCCAACTAAAGGAGGAATTAGATATCATCCAAATGTAAGTTTAAATGAAGTAGAGACATTATCATTTTGGATGACATTTAAATGTTCAGTATTAAATTTACCTTTTGGAGGAGCAAAAGGCGGAATTATTGTTAATCCAAAAGAATTAAATCCAGATGAACTTGAAAAATTATCTCGTGGTTATATTAGAGCCATATATGATTTTATTGGACCTGATGTAGATATTCCTGCGCCAGATGTTTATACTAATCCTACAATAATGGGTTGGATGAATGATGAATATAATAAAATTGCAAGAGCACATGTTCCTTCTATGATAACAGGTAAACCAGTTCATTTAATGGGAAGTAAAGGTAGAGATGATGCGACTGCACGTGGTGCGTATTATATAATAAAAGAATATGTAAAAAAATGGAAGAAAAAGCCAAGTGAAATTAAAGTTGCAGTTCAAGGTTTTGGTAATGCAGGATATCACATTTCAAGACTATTACATAATGATGGATTCAAAATTGTTGCAGTTAGCGATTCCAAAGGAGGAGTATTTGTAAAAAAAGGAACTTTAGATCCAGAATCATTATATAATTTTAAAAATAAAAATAAAACATTAAAAGCTGTTTATTGTAAAGAATCAATATGTAATATTGTAAAACATGAAAAAATAACTAATGAAGCTTTATTAAAATTAAATGTAGATATATTAATTCCAGCAGCACTTGAAAATCAAATTACTAAAAATAATGTAAATCAAATTAAAGCAAAATTAATTTGTGAAATTGCAAATGGCCCTATTTCTCATGATGCACATGAATTTTTAATTAAAAAAAAAATCGAAGTTATACCAGATATTTTAGCAAATGCAGGTGGAGTTACAGTTAGTTATTTTGAATGGTTACAAAATAAAAGTGGAGATTATTGGGATTTAGAAAAAATTCACGAAGAATTAAAAACTAGAATCTTAAAATCATACAATGAAGTTGAATGTGCAGTTAAAAAATATAAAGTTGATATGAGGTCTGCAGCGTATATTGTAGGAGCAAGAAGACTATCTGAATCAATAGAAGCTAGAGGATCTAATCATCTTTAGATAAATATATTTTCAACTAAACTTCAATATACAATAAATAGTTATTTTTTATCAAAAACAAAAGAATATTAATTGATCACCAAAACGTGGTTCTATTTAATTTATATATCAAAAGTCAAATAAAAAATTATGAATTTAAATAATACTTTTTATGAAAGAGATTTATTAATAAAAAGAAGTCCAAATTTTGAAGAGGACCATCAATATATTGTAATGGGAGATAAAACTTATACTTCAGTTACAGAATTATGTGAAAGATTTTTTGAAGAATTTAATGCAGATCAAATTATAGGTAAATTTTACAAAAGATGGCAATCAAATCGACATCATAAATATTATGAAATGAGTAAAACACAAATTAAAGAATTCTGGGAAAAAGAAAAAACAAATGGTGCCAAAAGAGGAAGCATATTTCACAGTAATATTGAAGATAATTTTAAAGAAATTGAAAGTTTAGAAAAACCTGATCCAGAACTATGGCAAGGTTTCTTAAATTTTTTAGAGGATCACCCAGGAATAAAACCACAAAGATTAGAATGGGCTATTTTTGATGAAGACTTTAAAGTTGCTGGAAGTTTAGATGCTCTCATGAGTTATAATGGAAAATTAATTTTATTAGATTGGAAACAAAATAAAAATATAACTCAACAAGGTTTTAACGGAAAAAAAGCAAAATCACCCATACAACAGTTAGATCACTGTGATTTAACTAAATACCAAATACAAATAAATATATATAGACACATATTAGAAAGCAAATATGATATCCCTATCTCCGCTCAAGATATAGTTTGGTTTAATGCCAGTCACCAAAGAGGTTATAGAAAATTTGAAACACCAAGACTTGAAACAGAAATTAAATCAGTGCTTGAATGTAATAGAATAAAAAATTTAGAATTATAAAAAAAAAAAAAATTAAATTAGTTCACCAATTTCAACTTCATCATTTTCATCAACTAAAACACTATCAATTTCTTCAATAGTTGATTCATCAGTTAAATCCGTTTCACCTTCAGTTTCTATATTTTCTATTACATTAGATTCAGTAGAACTACATCCAGCTATAAAAAATATACCAATAATTAAAGTAATAATTAATAATTGTTTCATTTGTTCTTACCTCCTCGATTATTAGATTTAACATCAGAAGTTTTAGATTTACTAATTGCTCTTTTGTCATTTACATTACTTTTTACTTTTTTAGTCGGTTTTACAGATTTACTATTTCTAACTTGTTTTGATTTCAATCCACGCTTACCATCTTTATCTAATTTTTCTACTCTTCTATCTTTCCGTTCCTGTTTTCTTTCTTTTATATTTTCTTTTAATTTATTAAATTTAGATTTTACATCTAACTTTGCTTTTACTCTTTCTTTTTTAATATCACTAAAAGCTTGTCTTTTTTCTTCTTTAGTCATTTCACCCATTCTAGATTTAATTTCTTGTCTTGCTTCTTTTAAATTCAACTTACCTTCTTTTATACCTTGAATAAGTTCTTTTTTTTCTAAACCTAATTTACCAAAAAAGTGAGATAATTTATTTGCATTATATTCATCTCTTTTTTCTTTAATTCTATCTCTAAGTTCTTTTAATTCAGATTTATCAACTTTTTCCACCATTAATTTTAATTCTTTTAAATCTTCTTTTGGAATTACTTCATGCACTGTTTTTCTAAAATTTTGAACTAACTCTCTAGCATCTTTTTTTAAATCCACAAAATTTTGAACTGAATCTTCACTACTAATATTAGCACTAACAACTTCATTTTTTATTTCACTCAATTCATTTAATATTAATTCTAATTCTTGAGAACTTATATTTAATTCATTAACAGCATCTACAATACTTTGAGCTTTTAATATTGAAACAGATATAGATTTTTCTAATTGTAATAATCTCATTTCTCTTCCACGTAAACCATCCATAGCTCTTAATTCATTTTCTGTTTCTTCATCTACTGAATCATCTTCAGGAATTTCTTGATCAGTTTCATTATTTTCTATACTAATAGTTTCTATAGTAACATTATTCAAATCAGTTAAATTATTATCAGTACTTTCAACATCTTCTAAATTAGTTACTTCTATATTTGTATTTTCTAAACTATTATCTTCAGTAGTATTTTCTTCAGCTATAGCTGCTGGAGCAATACTAAATACTAATAATAACATCATCATCATTGTATATATTTTTTTCATAATTTTCCTCCAGGTATTTTTTACCTATATTCTTGTAAACAGGAACAACATATTAATTTTAGCCGGAATAAACCGGAACAAAGTGAAACAAACTCACTTTTTTAATGAAATTAAGTTTGTCATACCTTTTGATTCTTTAATAATAATATTTTTTCTAATTAATGAGTCAATATTACGTGAAAGTGAAGCTTTTGGAATATTTATTACTTTTTGCAAATATGCTTGAGTTACTGAACCTTTATTTTTTATAATTAAATCAAAAATTTGTTTTTGTCTATCAGTTAAAGCATTAGTATTATATTTATTTTTTTTATTTTTTCTATATTTAATATAATAAATTAAATAAATTATTAAAATTGTTAAAGTTATTAAAAATACTAATGAATAATTATCTTCATTAGTTTTACTATATGAATATTGTGCCAAAAATTTAAGTTCTGCACTTTGAGCAGTACTTGTAATAATTATTCTATTATCACTATTATCAATATTTAAAATATTTGGAATTTTTATATAATTGATATTTGTATTTTGTGGAAACTTTAATTCAAAAATGTATTCAGAAAATGTTTCATCAATACTAAAATTAATTATCCAAAATTCACCTTTTTTTGAAGTATAATTTTGACTTATATGATTTTGTAATAATGGATGATTACTATTTCCAGATATTTCAACTAAACCAGTTTCACTAATATCAAAAATAATATCTGCTTGATAGTCTATTGCTGAAACTAATGAAAATGTAAATATTAAAATAAATAAAGTAATTATATACTTTTTAATAACCATATATCTTAATTTCACATAGTTCTTATTAAATCTTTCGACAAATATGTCAAAAACAATAGTAGATCCACAAAAATATACATTTTATAATAATAAGAATTTATATAATCAAATAAAAAATAAAATATATGAAAAATGAACCAAAAGTATTTGAAATTTCAGATTATTTAAAAAATTATAATAGATTAGATTATTTAAATAAATTTTATGCTTTATTAAAAGAAAAAGTTCTAACAGAAGACCCAGTTCAAAAAACTGAGGAAGGTCTTGTGCAAATTATTGAAACAAGGAGATTTCATAGTTATGGCATGGAATTATATAATTTAAATAATTCAATTTTAGTATTAGAATATTCTGGAATGTGGACAGGTTATGCTCATGAAAACAAATTTCCCCCAGAATTAAAAGATGCAAATATATCTGGATTACGTTTAACTATACATAATTCTAATGAAGAATTAGAAAAACAAATTAAAGAAACAATTAAATATTTTTCTAAAAATTATAAAAAGTAAATTCTAAATCTAAAAGATAGGTATATAAGAATAACTAATTATCTCAAATTATGAAAATAATTAAAAATTTTGCTATAAATTTAGATAGTAAAACACGAGAACAATTTGATAATTGTTGTGAGGAAACTTTTGTACATAAAGCATCCTTAATGCCAGATGCACATTATGGTTATGTGGCACCAATTGGTTCAGTTTTAATTACAATTGATCATATCGTCCCATCATGGGTTGGTTATGATATTGGTTGTGGTATGATTGCATGTAAATTTGTTAAAGAAAATATTGTAAATGAAATTAATTTAAATTCTAAAATCATTTTTGATAAAGTAAATGTTCAAATTCCTATGGGTAAGGGAAAAGTTCGATCAAATAAAAGTGTATCAAGAAAAACTCAAGATGAATTTGATAAAATATTAAAACAATTTAAAAATGGCCCATATGCAAAAGATGTATTAAATATGATTGAATCAAAATCATTATTACATTTAGGTACATTAGGTTCCGGGAATCATTTTATTGAATTAGGTTTTGATTCAAATAATAAAAATGTATTGTGGCTTATTATTCATAGTGGTTCTAGAGGTGTGGGACATACTGTTGCAACACATTATATGAAAAAAGCTGCAGATAAAAATAAAGAATTCGAAAAAACTTTTTCATTAGAAACTAATTCATTAAAAGGAAAAGAATATTTAAATGTATTAAATTTTGGATTAGAATTTGCATTATTAAATAGATTAGAAATGGCATACAAAGTAAGAAATGTTTTAAGAAATGTATTAGAAGATGAAAAATTAGATTTTGAATTATGGGTAAATAAAAATCACAATCACATTGCTTTTGAAAATGGAGAATATATTCATAGAAAAGGAGCTACTCCCGCTAAACTAAAAGAGAGAGGAGTTATTCCAGCTAATATGAGAGATGGCTCATTTTTAGTTGAAGGACTTGGTAATGAAGAATTTTTAAATTCCTCTTCACATGGTGCAGGTCGAAGATTAAGTAGAAGTCAAGCTAAAACAGAAATTTCAATGAAAGATTTTGAAAAATCAATGAAAGGTATTGTAGGAAAGATTGATCATACAACATTAGATGAAGCTCCAGAAGCATATAAAAATATTTATGATGTAATGGAAGCACAAAAAGAAAGTGTGAAAGCAATTGCTCAGATTAAACCAATAATTAATTGGAAAGGATAAGTATTCTAAAAATATAATTAAGTGTTACTAATACTTAATTTCTTAACAATTTGATCAATAATTTCATTTTTAGATTTATTTTCTACATAAATTAAAATATTTGAAACATCTATTAAATGGGGTTTTGTTTTAAAATAATCTATTTTTGTTTTTTCTAATAAATCATTTTGATTTAAATCTTTAAAATGTTCTCGATTTTTTTCTCTTTCAAAAAGGAATTCAATACTCATATTATCATTTTGATATGGTAATAAACCAATTACAAAACTTTTTTGAGGTAAAATTGATCTAATGATTTGAGAATATTTTTGTCCAAGTTCTGTTTTAGAGCTGATTGAACCACCAGGCACATCTAAAACCGCATTTTCTTTTTCTAATAAATCTTCAATTAATTTAGTTCCTAAACTATAAATTAATTCTTTTTTATTATTTTTAATACAATAATCTAACCCACCTTCTTCTTTTAATACGTGATCCATTAATTTATCACATTCATAAGATTGAAAATTTAGTTTCTTAGCTAATAATTTTGAAATTGTAGTTTTACCAACAGATCTTGAGCCAATAATTGTATAAATCATTTTTTATTATTTAATCCAATAACAATAGTTGCAATTAAAATACCAAAATCCCTTACTGCAGAATCTACATATCCAATACTAATAATGACAAAAAACAAATGTAAACTCGCTAATATTGCAAAAATTCTAAGTTTATATCCTAAAAGAAAACTAATTGAAACTATTAAATTAAATATACCAGTTAGAATAATCAATGAATTTGAAATTCCATTTAATAAAACCCAATTTGGTAAATAACCAATAAAACTCTCACTATTGAAAATTTGATTTAATCCAAAATATAAAAAAACTAAACCAATTCCAATTCTTAAAATTGAATTGGAATATTTAGAATATTTATTAAAAAACTTATTCAATTTTTAAAAATCCTTTCATATCTCTATGACCATGTCCACAAGGCACATTACAAAAGTATTTATAATTTCCAGATTTTTTTGCTACAAATTCAATTACTTGTTGTCCGCCCTCCTCAATACGACCTGTTGCAATACCTAATTCTGGAATTGCTAAACCATGATTACCTTGTTTACCATTAACAATTAATCTTACACTATCTCCTTTATTAATTGTAACATCACTAGCTTCAAACTTCCAATTAGATGCATCCATAGTTAATTCTTTTGCATTTTCTAAATCAAATTCTAAATTTTTATTATTACTCTCAACTTGAATAGTTTCACTTGAGCATCCAATTAATAACAAACTCAAAGACATAATTAAAAACATAATATATTTTTTCACATTATCACCAATATTGAAATAATTATAATTGTTTAAAAAGATTGTTAAATTAAAATCAGATTTTATTTATTTCTTTTTCTAAATTATAATTTAATTTATTATATGGCAACTTAGATAATAATAATCCCATAGTACAACTATTTGTAATAGCTGAAAACGTTAAACCAGCCCCAAAAAATATTGGAATAATAATAAACCATTTATTTAAAAAAGTCAATAGGGAACCAATTAAAACAAAAGAACCTGCAACAAATCTAACTTGTCTTTGAATATCCCATTTTTGTGTACCTACAATTGTCTTATATTCTTTTTTCCAATTTTCAATTCCACCTTGTAAAATATTAATATCTTTTTTAGATAATTTTTGACAAGCCATATTTGATCTCATTCCAGATTTACAAATAATAACTACATTTTTATTTTCAATTACTGAATTAATTTTTTCAATATATTCTAAGGGAATATTAATTGAATTTGATATATGTTCCGATTCAAATTCTGCAGGAGATCTAACATCGATTAAAATAAATTCAGATTTATTTGCAATATCATTTGGTTTTAATAAATTCATAGATTTTTAAATATTTATTTAAATATAAACATATTGATCATTAAAAATATAATTAAATTTATATATAATTATAGTTTACCAATATTATGAATAAAATTAAATATAGTGATTGCCGGTGGCAACTATAAGTTCAATTTAATTAATCTATTTTTCTATTGGCAGTATTAAATTAATTTTCTAAAATAATTAAGAAGATATAGTTTAATGGTAAAATATTTAGTATTCTAAAAGCTCTAAGTTCGAATCTTGGTATCTTTAAAACATGGAGGATAAGAAAATGAAAACTATAATTAAAGGAGAAGGAAAACCTATAATAGGTATAATTGGAGCATTACACGGAGATGAAATAATCGGTGTAAATGTAATAGAACAATTAAAAGATTTAAAACTAAATAAAGGAACAATAAAATATATTATTGCAAATCAAGAAGCTATAATAAAAAATACTAGATGTATTGATCAAGATTTAAATAGATCATTTCCAGGTGAAAAAAATGGAAATAATGAACAGAATTTAGCTTATCAAATAATGGATTTAATTAAAGATTGTGATTATATAATTGACATACATTCAACTGATAGTCTAATTGAGAGTTTTATTGTATTAACAAAAGATAATAAGTTTATTAGAGATGAATTAGAAAATGTTTTATTAAATAAAGTTGTCATTATGGGATTTAAAGGAAAAGAAAAATCATTAATAGAACATTCAAAATTTGGTTTTTCATTGGAATTTAATAAAAGTGTCGATGAAAATCAAGTAACTGAAATAGTAAAAAATTATTTAAAATATTTAAATATAATTGACGGAAAAAGTAAAACAATGAGTAAAGAATATTATTATGTATATGAAAAATTAAGTAATTATAATGGTAAACTAAATAATTTTGAATTAGTAAATGTAAACGGCGAAGAATTTTATCCAATATTAGCTAATGAAAAAAATTATGAGTTTAATTGCTTTAAAGCAAAAAAACTCAATTAATTTTTTTTATTTTTAATAAATTTCAGATAATATGGCAATTTCCTATACCATAAAAACAAAAGATAGGGAAACTGAATGTCTTAAATTAAAGAACCGGTCAGAATTTATGACCTCAAAAAATACCCCTACAAACTGTCAAATTACAAAACATTCATATAAAAGTAGGGGTATATATAATTATGGCAGTACTTCCTGAAAGAAAAAAACCTAATAATACAGAATATTTTCTACTATACTCATCTGCAAAACCTCCAGTTATAAGTTCAAATAAAAATATTGTTGCACTATTCGCAGCATATATGATTGAAATTTGAAAAAAAGTTAGACCTATATTTAAAAAATAAAGCATCATAAATGGAACTATCATATTAGATAAAGTTGTGACCATTGTTCCAAAATAAAATGGCCATAATAAAGATAGTTCTTTTTTCTTAAATATCATAAAATAAAAGATGCATTTTAGTTTTTAAATTCAATGGGGAATATAACTAATGATTATGTTCCGTATGGAAGAATTTTATATTTTTATTTAGTTTTAATATAATAATAAAGTTGGAAATTAAAATGAAGAAAATGATAATGGAGTTTATGTAAAATGGGAGATGATTTTTTATATAAAGCCGCACTGAAAATTGCATTAGAACAATATTTTGATATTGTGTGTAGAAAAGAAATGAATATAGCTAAAATCTATGATAAATTTAAATTAGATATGTCAGAGGCTGCCGACATGTGTTTTCCAGAACATAATGTAGAAGTAAATTTATGGTCTAAAGAAAAAGGTTATTTTTTACATGATGATGTTTTAGTTGATGATTATGATGAGTATATGGAAAATGGAACTGTTCCTGAAGGCGTCCCTGAAAATTTTCTTAAACATTATAAAGATGATTATGACACTTATCATGGTTACATTCATTGTGATGAAGAGTTTTATAATAATGCATTAAAAGGTTGCACAGAAAAAGTTAGACCTGATTTGGCAGAATTAGTAAATGTTGGAAAATTTACAAGAGGAAAAGAAATTTATAGAGCAACTCTAACAGCTAACGGATATTTGAATCCTAAATGATTAGAATTAATGGTTGATCTTGGTAATTTCATGATGAAAGAATATGATGGAATATTAAGTATTGATAAACGTAGTAATTTTATTGACATTTCAGAAATAAAAAAAGAAATGGAAAAAAGAAAAGAAGAAGTTTATTTAACTAATATGCAATTAAAATCATTAAATTAATTTTTAATAGAAAGCGCCTGGAGATTTGAGAATGAATGTTAAATTTGTTGATTCATAATAAGTAAATTACGGGAGCAAAAAAGCCCCAAAAAGTAAACATTTGGTAAAAAGCTCCTGGAGGGATTTGAACCCCCGACCTGCTGCTTACAAGGCAGCCGCTCTACCACTGAGCTACAGAAGCGATAATATCAAATTTTGATTATTCTTTATAAAAGTTTTTAATTAAAATATAAAACAATGCAATAAACACAATTAAAACATTATATTTAGTATAAATAATGCTTATAAAACAATTTACACTTAAAAATTCTAATGGAAAATAAAAAACCAAAAAGACTAGCACTTCCTTCTCTATACAATTTAAGATCAAAAACTCATCAAAATAAATGTCCCAATCTAGTAACATTGGTTCAAGGAATCTATCCAACGTTTGATATACAGATAGAAAATTGTTGTGATAGTGAGTATGGAGAATTTAGCACTGAATTTGATCTTTTACCTATAGAAAAAAGACATGGGTCTTTACATGGGCTATATTTGATAAATGGAAATATAGCAGATTCAGAAATTTTATTTTCATATAAGAGTAAATATTATGAATTAGATTTAAAAAATGGACAATTAAGCGAAACTCAAAAAAAAGCTGATAAAATTATTTTGCAATTAGAAAAAGTTAAAGATTGTTATTTAAATCCAAGAACTAAAACACGAAAACTTAAAGTTCCTTTTTTAAAATTAAAAGAAAATCCAGAAGAAACACCATTAGTTTTAGCATATGAAAATGGAGAGGAAATTTCATATCGTTCATTGCACATGAAACGAAGTAGAGTATACACTTCTGAAATAAATCTTGGAAATGTAAAAAAAAGTTTAGATGAAACGACAATGGGATTTTTTAATAGAGAAGAAGAAGTAATATATGAAGAAGATTGTAAAGAACATAATTTAAAAAGTAATAATGGTTATTTAAAAATAAAACCCGAAAAAGTAAATTTAAACGAACCATCTCAAATTTATAATTTTTTAAGACAATTTGTAGTTGGGCAAGATGATGCATTAAAAACTGTTTCAATCGGAGTTTCAGAATTTATTAATAGAGACGCCGACCAATATTCACCACACAATATTTTAATTGCAGGAATGTCTGGTAGTGGAAAAACACATATAATAAATTCGTTAGAAAAATTATTACCAAATATTCCTTTTTTTAAAACACAAGCCTCTGGAAAAAGTGCAGAGGGTTATATTGGTTCTAGTTTTACAGAAATATTTAGAGAAATTTATGATCAAACAGGTGAGAGTGAACCAGTAGCAATTTTATTAATTGATGAAATTTGTAAAGTAAGAGCAAAAGATAGTTCAAGTATGTCAGAATCTGTTTCAGATATATTAATAGGGGCATTAGATCAAAATGGTAAATATAGTTTTGGTGGTGAGACAATTTATTTTAAAAATATGTTATTTATTTCAGCAGGAGCATTTATGGGTCAAGGATCTAATGATTCGCTTGAAGCAATAATTAAAAAAAGAAAAAAGAAAGAAAATAAAATTGGTTTTAATGAAACAAAAGAAAAGAAAAATTTAGACGAAAGAGAAGAACCAATAGTTGATGACTTTATTGAATATGGAATGAAACCAGAGTTAATGGGAAGATTCCCACATTTTGCAAGAACATATTGTTTAAATCCAGAAGAATTAATGGAAATATTAAATAAAAAAAATATTTCACCATTAGAAGAAAAAAGAAAATCATTAAAAAAAAGAGGATATACTTTGAGTATTGAACAAAAAGTATTAAAGATATTAGTTGAAAATGCAGATAAAAAAACTGGAGCAAGAAGTTTAAGAAATTCAATTAATAGAGCATTTAAAGAAATATTATTTGAACCTAAAGAATTTGCAAGTAAAGGTAAAAAAATAACTATAAATGAAACATTAATTAGAAAATTATTAGAAACTTGAAGGTGCTAATGGCCTGTATACATGCTTTTGCTCAATACCAAAAAATCTTTGTTCTGATAAATAAGGAAATTTATCCAATTTAATTCTAGGTGAAATTTCTGTCGATAATAAGAAATTAATTGGTGGACTTTGTTTACAACCTAAATAAAATGGAAGTCTTGAAAAATAAAATGTTTTTAAAAATTCTTGTTCAGGCATTTTTTGATCTCGTGCTTCTTGAGCAGTTCTAGTTTTTTCAACACCTCCTAAATATGAAAGGTCATCATCAATAATATGACCATCGATAGAAAATGGAGATGCTATAATTATACTTTTTAGATTAATTTTTTTTCCATTCAAAACAGGACGTATTCCACTTTTATATTCCTGTTGAATCAATTCAGATTCAATATATTTTTTTGCTACATCTAATTGAGTTCCATCACTAACATTAACAAAATGAAAATCTCTATTTTCACGTATTAAAATACCTTTATGTTTAAAAGAAAAATTATCATAATAGGAAATATTAGAAACATCTAACCAATCAACGACATCATCACAAGCATCTTTGTGAAAAAAAACATCTTCAGGTTTATACACAGAAGGAATTTTTACTTTATATATATCATTTTTTTTTAATAATAAACCTAATTTTTTATTAGTACGAGTACTAGAAATTACTTTTAATATATCTAATAATGCATTAGTTAAAAAATATTTACCCTTAACTAATCTATCAAAACCAAAAAAAGCACCAACGTCCCCATAGGAAGACGCAAGTAAATATTTATTAAATTCAATTTGTTGAGTTTTTTCCTTATCATAAAAAAGTCCATCTAATGAGTCGGCATTTAATATGTGATCAGAAATAATTGTTTTTAGAGTTTTATAATCACTCTCCCCTTTAATTTTACAAGGTAATAAACAAATAGGTGGCCTATCATTTTCTTTTAAACTTGCAATAAAAATATTATAAGTCATTTTCCCAAAACACTGAGAATAGTTTGAATGACTACCAAATAAACTAGTAACACCCGTATCAGGCATACGAGAATAAACTTTAAAATTACGAGGTAATAATTTATCTAACATTTCAATTCTTGTTTCTTTTAGATGTACCATTTAAACCACCAATTGTAAATACTCAAGCTCTTTTACTTTAAAATCTTTAGGAGTATAAGTATAATGACCATTTGAACTTTTTTTTGCACATAAAGAACCACTTTCAAATAATTTTGTAATATGGTTTTTTATTAATGAAGAAGAAATCATACCAAAATTTTCATTTAATAATTCTATAAATAGTCGCCTATATTGAATGCCAGAATTTTTTGATAGTTTAGAATTAATTGTATTAGAAAAATAAGCTGAAAGAAGAGACGGTTGCGTTCCAGACTTATAATCATTAAATGCAATTAAAGGAGCTAAATTTTTTGTACACAAAATTAATTTATATAATTGCGAATCACCACGATTTAAATCAATTACATTTACAGACGGATATTTTAATTTTAATAAATTAATATAGGAATCAAATAATTTACCATTATCTTTATCATAATCAAGTTCTAAAGCAGTTTCAAGTCTATCACGACTACCTTGAAAACGCGAATTAGTTCCTTGACCAACCACTCGTTTCATTGGATAAAAAGGAAAATTAATTAATACATCAAAATTAGAATTAATTGTAGAACAAAACTCTATTGGTTTTGTACTATAGTCTCTTATTCCAAATGGATCAATAAAAATTAAACCTGAACCATTACAACTCATTAAACTTGCTTGTTGATTACCAGAATAAAAATCATAATTTTTTAAAATTATTTTTAGCCGATCATTAATACCCAAATATTTTTGAATTGAACCTTCTAATTGTAAAAACATATCTTCTTTTAATTCAAAAAAAATTGAATTTACTAAAAGAGATTTTTTACGAGAATTATTATTTAAATAATCAATAATTGTATCCATTGCAATTGAGGGACTTCCAAACGCCCCATCATCAAAAGTATTTGAACCTGCAAAGCCATCAATATATGTAAAATTTGAATTTAAAGTACCTTCTAAAGAAGCAGAAAGTACAGTTTTTAATAAATTATGTTTCAATTGAGTCCATGGACCTTTTTCTAAAAAATGTTCTTCACTCATAATAAAAAAAATAAGAATTTGTTTTTATTTATTGTGATAATTAAGTATATAATAATAATAAAATTACTTTATAAATGAACATAAAAAACTTTATAAATCCTATTTGATTCAAGTAATATATATTTCTTAAAAACTTAATATTAAACATGAAAAAAATTATTTTAGAAACAAAATTAGAAAAAAAACCAAAAGAGTTGATTAGCCAAAGACAATTTAGTCTAAATGTAATTGCTAATAAAATTTCTGTTATTGAACAAGTTAAAAAATTAATTGGTATGAGTGAATATAAAGATAAAATACAAATATTAAAACATCAAACTGATACTGCTTTAAGAGTAATTAATAATTTTCCAAATAGAGCATTATTATCAGACGAAGTAGGTTTAGGTAAAACCATTGAAGCTGGTATGATAATAAAAGAATATATAGTTAGAAAATATTCTAAAAAAATATTAATTTTAACTCCAGCATCTTTAGCATATCAATGGCAAGAAGAAATGAGAAGTAAATTTAATGAATATTTTCATATTCCAAAAGATTCAGAGGATTATGATCATGATAAAATAATTATATCAATAGATACTGCAAAAACAGATAAACATTCACAAATAATAAAAGGAATTTATTGGGATTTATTAATAATTGATGAGGCACATAAATTAAAAAATAAAGAAACTCTAAATTATAAATTTGTAAAAACAATACAAAAAGAAAGATGTTTAATGTTGACTGCAACACCATTACAAAATAATATTTTTGAATTGTGGGCATTAGTTGATTTATTACACCCTGGTTTTTTTCAGACATTAAATAAATTTCAAGAAAAATATGTTGAAAATGAAGAAGGGTTACAAATTAAAAATCCAATTGAATTAAAACAAAAACTTGAAAAAATTATGATTAGAAATTTAAGAAGAAATGTGGATATAAAATTTGTTGAGAGAAATATTAATACACACATATTAGATTTTTCTAAAGAAGAAATGAGATTTTATACTGAGGCTGTTAGCTTTATTAAAAAAAGATATCAAGAAATTAAAAAAATTGAAAAAATTGAAGAAGAAAAACAAAAAGAAATGAGTGAAGAAGAATTAAAAGAAATGGCAAATAAATATAGACAAAAAGGTCTTTTGACATTTAGATTAATTATGCTTACTAGACAAATTACATCATCAATTCAAACTGCAATTAATGCATTAGAAAGATATAAAGAAGCAGTTGAAGATGATAAAGAATTAATACAATTAAATTATATTATTGACATGGCAAAAGATATTAAAAAAGATACTAAATTAGAAGCATTATTAAAAATTGTAAAAAAAGAAAAAAAGAAATTTATAATTTTTACATCATTTGTACATACACAAAAAATATTGCAAACCGAATTAGCAATAAATGGTTTTTCAACAGTTATTTTTAATGGGAAAATGAATGCTAAAGAAAAAGAGGTAGCTATTGAAAATTTTAGAAATGAAAAACAAGTTTTAATTTGTACTGATGCTGGAAGCGAAGGACGTAATTTGCAGTTTTCAAATATATTAATTAATTTTGATTTACCTTGGAATCCTATGAGAGTAGAACAAAGAATTGGTAGAGTTCACAGAATTGGTCAAACTTTAGATGTTCAAATACATAATATGGCAATTAAAGATACAGTAGAATCATATATTTTAAATAGATTATATGAAAAAATAAAATTATTTGAAGTTAGTGTTGGTGAAATGGACTTAATATTATCACAATTAAAAAGTAAAAAGAATATTGAAAATGAAATTTTTGAATCATATATTGATGAAGAAAATAAAGAGTTAAATAAAGATTTGATGCAGGCTAAAACCAGTGCAGAAGATATTAAAAAATTAGATGGAAATATATTCGATAAAAATGGACTTGGACATAATTGAAAAATTTTTTTTAATGTATTTAAAAGAAAATAAAATAGAATATGAATTTAAAAATAAAATATATACTGTTAAATTTAAAAAAGAAGATAAACAAATATATGGAACTGAAATTAAATGTACTTTTGATAAAAAAACATCTGAAGATAATAAAATAAATCTAATTGAAAATGGAAATTTTTTATTAGATAATATGATTGAAAAATATAATGAAAAATTATTTTTTTCAAATCTCATAGTCGAAAATCAAAAAGAATTTATTGATGATTTAGATAATAAAAGAAATGAAATTGGAAAACAAAATCTTTCATTTTCAACAGAAGAAAAAACTGAAGAGTTTGAATATTATTTATATGAAATATTATTAAACTCCACTTCAGGACGAGAAAAAATAGTAAAATCATTAATTTATAATAAAAATATTTGTGTCGATGCAGATGGAATTGAAATTTCTCATTTAAAAGAAAATAAAGAAGTATTGGAAATCAAGTTCCAAGAAGAAGCTGGCGATGAATTAAATAATATCATAAAAAATAAAATCACATTATTTGAAAAAAAACATTTTGAAAAAATAAATGAATTATCAAAAATAATTGTAGAACATAGTGAAGAAAGATATAAAGAATTACAACAAAAAGAAGATAAAATTCGAAAAGATATTAATAAATTAAGAGAAGAAATAATTAGAGCAAGTACCTTTAATAAAAAACAAACTTTGACTGACAAACAAAAACAATTACATAAAAAATTAGAAAATTTAATTAATAAAAATAAGACTAAAAAAGCACAATTAAAAAAAGAACATGATTTTGAACAATTGGCATTAAAGAGTAGAGATTATTCAATTCATGCAAAAATAATCGGAGTGGCAAAAATAAAAATGCCAATATTTTATACAAAATATTCTGATAAAAGTAAATATGTATATTTCCCTGCATTAAATAAAATTTTTAATTCTAAAGGTCAAAATGTTGAAAGTGAAAAAGAAATAATTAAAAAAGAAAAAGAAATTAAAAGAGAATTTAAAACTCCAAAAGTAAATTATGAAAAAATAAATCAAAAATTAAATAAAAAAGTTGAATTTAAAAAAGAAATTACGGTTGAAAAGAAGAAAATTAGTAAACCAAGTATGTCTAATTTTATTTAATCTAAACAAGCTTCAAAACATCGTTTACCACTAATACCAATATTTGAATATTCTTCTAATAAATTCCCAATACCTTTTGTATTTTCACAACAAAAACCACCTTTATTTACACAATCACTATTTTCACAACTTGCGAGAGCTGGTGGTTCATTAGATATTAATGCAATTACATATGAACCTAATTTATTAATTTCAAATTCAGCAATGTTTTTATCTTCATCAAAAACAATTGGAGAATCAACTTCCTTCCACTCATTCAAACCATCAATAAAAAGCTTAATTCTATCATGCTCCGAATCATCTAAATCAAAATTATATTTTAATTTTAATTTACCATTAGATAAAAAATTCACATCAAAGGGACGTAAATTAAATATATCACTTTTAAAAATTATTTTTTGTCTTTTATTATTTTTAACACCAACCCATGAAGAAGTATATTTTGAAATAACTGAATCTAATGAAATTATATTTTCAAGGCCTGAAGCAAAATTAATACTATTCCCTGCAGTTAAAATTAATTCTATTGAATTTGACTTACTCGACAAAGTATAATCAGAACTTAAAGTTCCACGTGGAATGGAATATGAAGCTTGATCCGAGTCTATTGTATTTACTTCTGTTTTACCACCACGACCTTCAAAATGTAAACCTAATTTTTTATTTACTGGTAAAATTAATATTGTCTCACCACTTAAAAAAATATTACCAGCCCTTAATTGATCAAAATAATCTACACCACTAAAAAATAAAGTATGCCTTTCATTATGATTAATTTTATCAAAACATTCTTTTATTATTAATTGCCTAATTCTAAAAGGAATATTTGCATATTTTGATATATTACAATTTAGAAAAGTAACTCTTTTTGTATCAATAAAATATATTTTATCAATTGAATTTGGAACATCATAATTTATATCTGTTTCAGCACCAAATAATTTTGAATGTTTAGATACATCTTTTATTATATTATTTGAAAATTTGCTAATTTCTAAATCATTAGATTTATTTAATATTATATTAATACCAGAAATTAATAAAATTGCGGTAATTGCAATTAATACAATTGCACTAATATATGCAAAAGTATGATTAATTTGAGCCTTTTTCATAATAATTTTGAGATATTTTGATTTATAAATACAACGAAAATTTTACGTCGATATATTTATAAATTTGTTTTTGTATATTAAAGTTAAAGGGTGTTTATTATTATATTTGAAAAATTAAAAAAATTTATTGCAAATGATAAGGCAGATGAATTACAAGTTAAATTAAATAGCTCTAAAAAAAATATTAAAAAATTAAAAAAATCTAATTCTAAAAGAAATAATAAAATTAAAAATGATAAATTATTAGATGGTGTTGATAAAGAAAGAAATAAAATAGAAGAAAACAATAAATTACTAAATCAAAAAGAAATTAAAATTAATAAATTAAAAGAATCAACTCAAAACTATATTCAAAAAGAACATGAAAAATTATTACATTTTAAATCTAGGATATTTCACAAAATTGATCATTTAAAGTCAGAACAGAAAATTGAAGTTGAAAAAATAAATTCAAAATATGAAATTCAAAAAAATAAATTAAATGAAAAAATTAATGAATTGAGTAAATTAGGTAAAGAAGTAAATTCTAAAATTAAAAATAAGAAAAGTGAATATGCTATTGTAATTAATAGGCTAAAACAAGAAGTAAATAAATTAGAAAAAGAATTGATTATAAAAAGATCATTAATTAATCAAGAATTGAAAAATACAATAAATAAAGAAAAAAAGGCATTTGAAGAAAGAAAAAAAGTAATATTAAAACAAATAAACGATGAAATTAAAAAAAAAGAATTAGTAAATAGTCAAACTCACACTCAAATTGAAAATTTAAAAAAAGAAAAACTCGCATATAAAAAAGAAATTGATAAATTAAATGTTGAAAAAAATACTGTTTCTAATATAAAAGAAAAAATAGAAGAAAAAAATAAAGAACAAAAGAATTTAATTGTTAAAATAAATAAATCAAAAAGTGAATTATTTGAATTAAATAAAAGAAATCAATTTATTGCAAATGTAAGGGAGACTAAAACTCAAGAATTAAAAAAGGAAACAAGTCAATTTATTGAACAAAAAAAAGAGTTTGATAATAAATTAAATGAATTAAATATTGCTAAAAAAAGCAATAAAAGCCTATGTGTGGAAATAGAGTTAAATTTACAAAAAATAGAATATGCAAAAAAAGAAAATGATCAATTATTAAATAAAATTTCAGAAGATAAAAATACAATATTAAAAAAAGAGAATAATATTGAACAAAAAATTAATGAATCAGAAAAAATAATGTCAAAAAAAATAGATGGACTTAAAAAATTAATTTCTAGAAAAGAAAATATTGAACAGGATATATATAAAAAACAAAAGGAAAGTGTGGTATTTTCAGATTCATTAGAAATACAAAAAAATAAAGTAATTGGATTAATTCAAAAAGCAGAAGAAGAAAAACAAAAAAATGTGGATATTTTAAATCGAATAGAAAGAAAAGAAATAGTTTACCATAATTTAAATGATAGAATTAAACAAAGAGAAACCATTATTGACATAGAAAATAAAAAAATAAAACAAGAAAGAGAAGAAATTATTACACTTAGAAAAAAGATTAATTCATATAGAGGAGTTATTTTGTCATTAGAGGGTATGAATGATAAAATAAATAAATTAAATGAAGTTAGACAAATTAAAAAAAATGAAATTAATGAATTAAATTTAATAATTGCTAAAGATTTAGGAAATATTAATAAAATACATGAAGCCATAGAAGATTTTAAAATTCAACAAAAATTAATGGAAGAAAAAGCTGAAAATTTTACAAAAGCAGAAATCCAAATAAAAGAAAAACAATTTAAAATAGTTGAAAAAGAAAAGCAAATCAGAAGTTTTGAAAAAATATTAATGAAAAAAATAAATGCATATGATAAATTAGTGAATAAAATTCAAATGAATAAAGAACTTAAAGTTAATATTAGTTTATTAAATCGAAATTTAAGACAATTGAAATCAGAATATAATTCTTATGAAAAGAAATATGATGGATTAAAAGATGAATTATTAGCAAAAAAAATGTATTTAGATGACTATAATAGAAATTTACAACAAAAAGAATCTAAAATAATTAAGCAAAGGGAATTGTTAAATAGTGAAAATGAAATTATTGAAAAACAAAAAATGGAATTAGAATTTAAATTAAAAAATATAAATTCATTTAAATTTAAACAATATATTGAAGAACAGTTAAATAATAAAGTTAGTGAAGTAGAAAAAGAAAATAATAAATTAAATATTCAAAAAGAAATCGAAAGTACAAATAAAATTGATAATAAATTAATTAGTGAAATTGATGCAAAATTAAAAAAAATAGGATCTACTACAATTATTGAAGAAAATGAAAGATTACATCCTCAATCTAATAATAAAATAATTAATAAAATGACAAAAAATATTGATGAAAAGACATTATTAAAAGATTTATTAAAAAGAGTTGAAATGGCTAAAGAATTTATTGGAGAGAATGAAATTAATAATGCACAAAAAGCTATTCAAGAATTAAAAAATCAATATAGTAAGGCAGAATTAAATGAGAGTGAAAAAAATCTAATTAAAAATTATATTAAAGAATTAGATTTAGATATAAAATTAAATGCCCTTTAAATAATCAAATATTTTTTTAGATAAAATTTTATTTTTAACTATTAAATTAATTTTCAATATAGATGTTTTCTTTAATGTATTAATATCATTAAATTCATTTAATAAATTAAATAAAGTTTTTTGACCAAGTCCAGATATTTCACTCAATATAGATTTTGTAAATTGTTCATTTCTTTTTTTTCTATGAAAATTAATAACATAATTATGTACACTGTCCCTAGTATAAGTAATTAATTTCATAAAATTTAAATTTTTATTAAATTTTAAAGGAATAGGAATACCAGGAAAATAAATTTCTTCTTCTTTTTTTGCAAGTGAAATAATTGGAATTTTTAAATTTAAATCATTTAATGCCAAAATCGCCATATTTAATTGTTGTTTTCCACCATCAATTATTATTAAATCAGGCATTAAGACTTGTTTTCGTTTATTTTCATCAATTTGATTCAAATGAATTTGCTCATTTTTAAGTCTAGAATAACGACGTGAAATGACTTCTTTAATTGCCTGGAAATCATTTTGTTCACCTTGCTTTAAAGATTTTATTATAAATTTTCTATATGCACTTTTATATGGATTAGTATCAATAAAACGAACACAAGCACCAACATTAAAATTACCCTGTAATGTAGAAATATCAAAACAGTCAATTATATCAGGATACGATTTTAATTTTAATTGTTTTTGTAATTCAACTAATACAATATTTTTATTTTGAATATTTAATAAAACATTTTCTTTAACTAAATTTAATATTTTTAAATTATCACCCCTCTCAGGCAAAACAATTTTAATTTTATGTTTTGATTTATTTGAAAATAAAGTTTCATATAATTTAAAATTAATATTAAATTCTTTAGACTCTTTTGAAATATAAATGAATCCAGGTATTTCATTTTTATTATAATAATCAAGTAAAAAATGTTCTAAAACTCCATCAATTAGATCAAAATGAAAATTATCTTTTTTAATTATTATACCCTTTTTCATCCTCATAACCACAATATAAATTAATTCACCAGCAATATAATAATTAATAAAATCAGAGTCAAATTTATTTGTTTTTTGCACAATTTGATCTAATGAAATATTTTTTAATGCATAAATTCTATCTCTATATAATTTTGCCATTTCAAAATTTTTAATTTTAGAAAATTCATTCATTTTATTTTCAAAATCTAATATAACTTCATCTTTATCCCCTTTCAAAAATTTAATTGCATTTTTTACATCTAAATCATAATTAGATTTAGAAATAAAATTCTGACATGGCCCACTACATTGATTAATATGATATTGTAAACAAACTTTTTTTGGTAATACATTACAATTTCTAATTTTAAAAATAGTACGTATTACTTTAATAACTTCATTTCGTGAAAAACCAATTGGAATAGGGCCAAAAAAAATATCTTTATTATTTTTTTTTCTAGAAATTAATAATTTAGGATATTCATGTTTTGTTATTTGTATATATGCATGCCTTATATTATCTTTAAGATCAATATTATATTTTGGTTTATGAATATTAATTAAATTATTTTCTAAAATTAATGCCTCCATTTCATTATTTGTTATAATAAAATCTACAGAATCTATTTGATTTGATAATTTTTTTGTTTTTTTATTTTCAATATTTTTTTGAAAATAATTTGAAATTCTATTTTTAATATTTTTAGCTTTTCCAATATAAATTATTTTTTTACTTTTATTTTTGAATATATATACCCCTGGATTCGTTGGAGCATTTTCTAATAATTTGTTCATAATACAATAAATATATTAGAATATATAAATAATTTGTAAAATAATATTTATAAAATAAATAAAACCTTTAATATTGTGGAAGCAGAACAAATCAGTCAAATATATAATAAAATAAATGGAAAAATAGTTAATTATGATGATAGTATAAAAGGTTTGACTAATATTGCGTTTAGGCATTTTAGGGATGGAAAATATAAGGATTCATATTCTTCTTTTATAGCAGCTAGACAAATGTCTTTAGAAAATATAGTTCACGATAGAGAAAAAAGAGAAATTACTAAATTTGATATTGATTATGATTCAATTCATAGTTTACCAATAGAATTTGATAGCATAGATGATGAGGAAAATACTTCATTAGATACTTCCAAATTATATTTTTTAAGAGGTTGTTTAGCCTTTATTGAAAAAGATTATAAACGTGCATTTAGAAATTTTAAAATTGCAAATAATAAAAATAATAATAAAAATGGCCAATATGATTATTTATTAAATTTAGAAACAGTTAATGTCTTAGATAAATTATATGACTTAGATATAATTAATGAAAGAGAATATTTAGAAAACAAAGTAAAAAGTTTAAAAATATTAAATGAAATTAATCCAAATAATATTGAACATATGTATAATTTAGGAATAACTAATATACACTTATATACTGACGAAAAAGGTAATATTTTAATTAAAAGTGAAATGCCACCTGACTTTTATGAAAGTTTAAATTTATTAGTAGAAGCATATGAAAGTGACACTTCAAATCCTTTATATTTTTATGATGCATATAGAATGGTTGCACCAAGTAGTCGAAATATTTCTAATGATATTTTAGATTCCTTCCTAGGAATATATTTTGAAAAAAATTCTACAATAATAAAACACTTAATCAAAGATAAACAAATCACTAGAGGAATTGTTAGTTTATTATATTCTATTGGTGATGAGATGGCAATAGAATGGGGAAAATCCACAAAATATCAAACTAAAGAAATAAGTGATTCACTATTAGAAAAAATAAAAAAAATAAAAGAAAGTCAATTTTTTCAAAAATCACAAATTTTAGAAAATTGGAGTGTTAAAAATATACCTAAAATGATTAATTTAACATATCTTGAAAAAATAAGAGTAATAAGCAATATTTCTATAGACATATTAAACAAATTCAGATTTTTTTTTACAGAGGAAGAATATAATAATGCCATGTCATCTTCAAAATTATTTCTTGAGACAAATATGAATGCATTAAATCAATTATCAATTGTACAAGAAGAACAAATTGAAGATACTATTTTAGAAGTATGGAGATCTGAAAATCCAAAATCTGAAGACATTAATTAACTAATTTATGTTTTAACATACCACATGCTGCATATATATCTGAGCCATGTTCATATCGAATAAATGCTTGAATATCATTATCCATTAATTTTTTAAAAAAATAGGAACATTTTTCTGATTTTTTTAATTCAAAATCAGCATAAGCAAATTCATGTTCATTATAGGGGATTAAATTAATAAAAACATATTTTAAGTCTTTGGCAATTGCAATTAACTTTTCTAAATTAGAGTCATTATCATTAAAACCATCAAACATTACATATTCTATCATTAATTTATTTCGTTTAGAATTTTTATTTAATTCAGTTAAATAGGATTTTAATAAACTTAAACCAGATTCAAAATCAATTATTTTGTTCACATCCATAATTCTAGTTCTATCATTTTGATTTGTTGCATTTAAAGAATATGCCATTTTAATTCCAGTTTCTTTTTGTAATTTAATTAATCCAGGTATAAGTCCACTAGTTGAAACTGTTATTTTTTTAGCACTAAAATTAAAACCATGATGATCTTTTAAATTCATAATAGAAATTTTTACATTTTTATAATTATTAATAGGCTCACCTTGTCCCATAAAAACAATTGCAGTAGGTTTTACTATTTTTGATAATAATAATACTTGTTCAATAATTTCACCAGCAGTTAAATTTCTTTTTAATCCATGTAAACCAGTTACACAAAATTTACAAGACATTGCACAACCAATTTGACTACTAATACAAAAAGTATATTTATCTTTAGTATGTGGAATTATAACTGATTCTATAAATTGATTATCATATGTCTTAAATATTTTTTTAATTGTTCCATCTTTTGAAACTTGAGATTTATTTTCAACTAAATTTCCAATATTAGAATTTTGTTTTAATATTTCAATATCATTTTTAGACATTAAATTTCTAAGCTTATTATTATCTTTATTTTTTTTATCATTTGTAATATTAGAATTTATATTAAAATCTAAGCTATTATTTTTATATATATTGTAATAAATAGATTTTGCATGAATTTGACTTATTTTTAATGAATTTAAAAAAGACTTAAGCCCTTCAAAATCTAAATCTAAAATATTAATTTTGTTCATAATTAACAAATTTAATAGTTATTTATAATTATTATGACTCATATTCAAAAGATTTATAATAATATAATCTTAATTACCAATATGATAAATATAAATTTTTTAAGAGAAAATATTGAATTAGTTAAAAAAAATATAAAAAATAAATTTAAAGAAGATAAAATAATTCTAATTGATAAAGCACTTGATCTTGATTCTAAAAAAAAAAAGGTTATGAATGAAAATCAAAAATTAAGAGCGGAAAGAAATAATATTTCAAAAGAAATTTCAAAATTAAAAAAAGAAAAAAAAGATATATCTCAAATTTTAAAAAAAGCAAAAGATATTCCTGAAAAAATTAAAGAATTAACTGAAAAAGAAAATAATTTAGATAAAAAGTTAAAAGAAGTTTTAATTAAAATTCCAAATATTATGCATAAAGATGTACCTATTGGAAAAAATGAATCCGAAAATGTTGAGATTAAAAAATATTTAAAACCAAAAAAGTTTAATTTTGATGTTAAAGCTCATCAAGAGATTGCTGATAATTTAGGTTTAGCTGATTTTGATTCATCTTCTGAAACATCAGGAAGTGGATTTTATTATTTAGAGGGAGATTTAGCTCTATTAAATCAAGCTTTAGTTAGATATACCATCGAGCAAATGGTTAAAAAAGACTTTACTTATGTAGAAACTCCTTATTTATTGAGAGGAGATATTATTAGTGGCGTTGTAGATTTACACGATCAAAAAAATATGATATATAAAATTGACGAAGAAGATTTATATTTAATTGGAACTAGTGAACATAGTTTGATTGGAAGATTTTTAAAAAAAGATATTGATGTTAAAAAATTACCAATAAAGCAAACTAGTTTTTCTATGTGTTTTAGAAAAGAAAAAGGTAGTCATGGATTGGACGAGAGAGGATTATTTAGAACTCATCAATTTAATAAAGTTGAAATGGTAGTTATTTGTGATCCGGAAGATAGTATGAAGTATTTTAAAGAAATGAAAAAAATAACAAATGAAATATTTAACTCCATTGGAATTCCAACTAGAGATTTAGCAATTTGTTCAGGAGATCTTGGAGATTTAAAACATATTCAATATGATGTTGAAGGATGGTCCCCTAGAAGAAATGATTATATTGAATTAGGTAGTTGTTCTAATTTAACAGATGCACAATCATTATTATTAGATATTAGAGTAAAAACTGGAAGTAAAAAGTATTATCCACACATATTAAATAATACTGCAATTGCAACGAGTCGTGCTTTAGTATTAATTATTGAGAATTTTCAAGACAAAGATGGAAATGTAGTAATACCTAAAATATTAGTACCATATATGTTTGGAAAAAAAATAATTAAAAAAATCTAGTTAATACATAAATTAAAATATAAAATACTTGACCACCAAGTAACCATCTATTTTTTATAACTTCTTTATTTACCATATTTTCTAAGAATATGCTATAAATATAATTACCTGCAACAATTGCAATTAATATTGAAATATCAATAAATTCTAAATTAAAAATTGAACCCATAAATACACCAGCTAAAACTGCAACAATATTAAATACTTTTAATTCTTTAACTAAAACATTATTTTCCACATTATTTTTTAATAAATTTTTATTATGACGAGTTAAATGACTAAATGCACCATGAATGAAAATTGGTGTGAAAAATAAAAACAATTCATAATAATTTAAACTTTTTGAAAATGTTAAAAATAACATACCTAAAAAAAAATGATAAACACTTGCAGTGACTAAATGTAATACTCGTTCTTTAATTGACTTTTTTTTTACTTGATGTGCCAATACTCTATGAATAATAAATTGAAAAGTGAACATAAGTAACATTACAATAGGCGCAATTCCTGAAAAATTAGCAATTTTCCCATCAAAAGTAATTAATGTTTCTGGAATTAATATTAACACTAAATATGATGTACTAATACCAATTGCAAATGAATTTATTGATCTAATTGTTTCATATTTAAAATTATGAATATATGCATTTGCAAAAATATGTGTAATAAAAATATATAAAAATGCTATTATAACTCCAACAAATAAAGGATCCATAGTATATATTTAACAATTCCCATTTAAATAATTGATGTATGTTATTTAAAATTCTTCTTCTACATGAAGAATTAAAGTATAACTTCTTTTTGGTTTTTCTTTTTTTGGAAAAACAAAAGGATTATCAAACGATAAATCAGAAAAAGGATTTGGTTTATAATCATAATCTTCTAAATACTTTTTAATTTCAAGTAATTCGGATGAAACTCTACGCTCTGGCAATAATTCAGATGTAAATGGATCGAAAGACCTATTGTTTCTGATATTAAATTCCTCTTCAAACTTTGTAGGTTTAAGACAATCATTTTCTCTCAATGAAAATAAATAATCAGGTTTAGATCCCTCTTCGAATTTTGAACCGTGTTGATCCATTAATGAAAATGGTCTTCTTGAAGGAAATCTATCGCCAAGCAGTTCCCCCTCAAAATGTGTAATTCTAGGAAAATAACGATCTCTCAATGAAGATAAATAATCAGATTTAGATCCTTCGTCTAATTTGGAATCTTGTTGATCTATGAACGAAAATAGTTTTTTTGAAAATCTGTCACTAGGTCGTTCATTTTCAAATGGTGAATCTTGTTTTTCAATAAATGGAGATGAATCTCTTAAACCAAATCTACTTGCTCGCTCCCTTTCATGAATTCTTTTTAAAGCCAAAAGGTCTGATGTTGAAAACCCAAATTCTTTACCTTTAGAATTTGAATGTGGTTCTTTTTTTGGAAAAACATAAGGTTCATTAAAATCTTCGCCCATTGCATTTTCACATTCTAAAGTTCCTGTATAATGTAATTCTAATTGACCATGTTTAGTACTTGAGTCAGTTAATACTATACGACCCTCATAAATCGGTTCAGATCCAACACCAGGGAATCTAAATCCTGGTTTTTTCTTTAAATCAATTAATAATTTTACTCTACTTGCATAATCCAATTCAATCATATTATCCAGATTCAATCAAATTATATAATAATTTCCCTAGGGAATATTAGGGATAATTAAAAAGTTTTTTAAATAAAAAAAAAACTTGACTATTATGTCAAATTTAATAATCGATGAAAGAAAAGTATTAGCAGGATGTATTATTTTAAATAAAACATGTGATGAAATTTTACTTTTATATAGAGAGGATATGGGTCATTATGAAACTCCAGGTGGAAAAGTAAAATTATCTGATTGCTTAGATCCAAAAAATCCACTTTTAATTGATTGTGAAAGAGCAGCTGAAAGAGAAATATATGAAGAAATAGGTCCCCATTTAAAGATGGGAAAATTCTGTTATTTTGGAATGGTTCCTTTTCAAATTTCAGAATCTAAAAAATTTTATGCACATAAATTTTTAACAAAAATATTAGATGGAGAACCAAAAATAATGGAACCAGAAACATTTCAAAAACTTGAATACATTCCAATAGCTAAATTAGATGATTATCCAATATCTCCTGATCTTAAATTATTTAAAGAAAGATTACAAACAGAAGATATAAAGAATATGGTTCATCAATTAGGATTTAAAACACTTCAATTCCAAAAATAAAATTTATTTTATATTTCAAATCTTGCTTCCTTTGATAAATACTTTTTTATATGTGATGCATCCATTTCTCCAGTCTCTTGAGGATCAAGATAATAAAGACTTTGAGAACCATCAGAATTAGTTCTTAAAAAATGTTTATAATCTATAGCTGACAATTCTAAAGATAATCCTTCACTTACATCTTCCATTAACATTGCTCCAATTTCACCATATTGAATTGCACCAATAAAATAAGGTGCTAAGACTTCTTTTCCTTTTTCAACTCGAGAATTAGTAGAACTTAAAAATAATTTTTGTCTACAAAAAACATTTGCATATTCTGAAATTTGCTCGATCATCATATCATTAATTTCATCATCAACATCATCACAAATATAATAACTCGTATCTATTTTTCTAAGTTTTAAAGCTATATGTAATTGATTAGTAGAATTTATTGGGTGAGGGATAGATCCAATATTATATACTCTATGTATTTGACCAGAACCTAAAAATAAAACCTCCTTTGGACATTTAATTTCTGGATTAACTAAATTATACATTTGATCACATGTATTGTTTTGTGCAGCTGCTAAATAATCAAATATATTTTTTACATTTGTTAAAATTTGTGGATTTTTTAAAACTTCAGATTTTACATACAATGTTCTTTGATAATATTCTTCCAATCTATCTAATTCTTCAGAGTTTAATTCTTCACAATACATATTACTATGTCTAATTATAAATTAATAAAGATTATTGTTAAGAAAAAATATCAATTAAAAAGCTTTTTAAATACTCAAATTTGCCTTCTGTATAAGTAATCATCGGACCTTATATCCGGGAGAATAAAATGGAACAAAAAGTAGACTATAAATTAAAATTCAATGAATTTTTTAATGAAATAATTGAATGGATTAAAAATAATGATTTTGATAAAGCTAAACTAGCAAAGAGAAAAATAGAATTATCAAAAAAATATAAATTAAAAAAAATTCCATCTGATATTGAAATATTTTTAAATTCTGATGAAAAAGATTCTAAATTATTATCATGTTTACAAACTAAACCAATTAGATCATTATCTGGTGTGAGTGTGGTTGCAATTATGGGTAAACCTATTGCATGTTCTCATGGTAAATGTATTATGTGTCCTGGTGGACCTAAAAGCAAATTTGGTGATGTTCCAATGTCATATACTGGAATTGAACCAGCTACAAGAAGGGCAATTAGAAATGATTATGATTCTTATTTACAGACTTTTAATAGATTAGAACAATATATTGCATCAGGACATCATCCACAAAAAATTGAAATGATTATTATGGGTGGAACATTTCCTTCATTTCATCCTGCATATCAAAATGAATTCATGTATTTTGCTTACAAGGCAATGAATGATTTTGGGGATTTATTTATGAGTGAAGGTAAAGTAAATTGGAAAAAATATAAAGATTTTTTTGAAATGCCTGGAGACTTTCAAGAAAAAGATAGAGAAGAAAGAGTTAAACAAAAAATATTAGATTTAAAAAATAAAGATGCGAATGCAAATGAATTAGAAAAACAAAAAGAAATTAATGAAAATGGACAAGTTAGATTAATTGGACTTACATTTGAAACAAGACCTGATTTTGCATTAGAAGAACATATTAATGATATGTTAAACTTTGGAGTTACAAGAGTAGAATTAGGAGTTCAAACAACTAAAGATGATGTATTAGAATATATAAATCGAGATCACGATAGTAAAAGTAGTAAAAATTCTATTGCATTATTAAAAGACGCAGGTTTTAAAATTAATTTTCATATGATGCCTGGATTACCTCTGACAACTAAAGAAGAAGATATAAATATATTTAAACAAATTTTTGAAGAAGAGGAATATAAACCAGATATGTTAAAAATTTATCCATGTACAGTTATTATTGGAACACTGTTATATGATTTATATACGGAAGGAAAATTTAATCCAATTACAACTGAAGAAGCAGCAGAAATAATTGCAAAAGCAATGAAATATGTTCCTAAATATACAAGAATAATGAGAGTACAAAGAGATATTCCTTCAACTCGAATTACTGCTGGACCAAGTAGAACTAATTTAAGACAATATGTAATTGAAAAACAAAGAAAATTTAATATTAAATCAAATGATATTCGTGCACGTGAACCAGGACATCAAAAAAAAGATATAGTTGCTTTTCCAAGAGGAGAAAATGAATCCAAATTTGAAATTTGTGTAGATGAATATAATAGTAGTAATGGAAAAGAATATTTTATTTCATATGAAGATGTAAATAATGAGTTATTATATGGATTTATTAGATTAAGATTTTTTGGAAACAGATGTTTTAGAGAGGAAATAGATCCAATAAATGATGCGATTATAAGAGAATTACATGTTTATGGAGATACATTGAATATTGGTATTAAAGGAGTGCAAAATAAAGGAGATATTCAACATATTGGAATTGGAAAACAATTATTAAAAAAAGCAGAAGAAATTTGTATTGAAAATAATAAAAAGAAATTATTAGTAATAAGTGGAATAGGAGTAAAACAATACTACAAAAAACAAGGTTACATAAATGACGGACCTTATGTTTCAAAAACACTATGAAAATAATAAATCAAATTATAAACATATATTTATGTGAAATTAAAAAAATATATGATGGTTTTGAAGATAATACAATAATAAATATAATTTTATTTGAAATGGCTAATTTTAATTATAAAGAAAAAAATTTTTATTTTCATTTAATAAATAGTAATGACAAATATAAAGAAATTAAAAATCAATTAATTTTATTTAATGATAAAACAAAAATCATGTCCCATATATATAAAGAAGAAAATGGACAATTATTTGAAGACTTAATAAAAAATAAATTTTCAAAACAGTTAATTAAAAAAATTAAAGACCATTTAAGACATATTTATTTTATGTTTCAAACAAAACATTATAATAAAATAAATACATTGTTTGAAACTTTTAAAAATGAATTAATTAATAATCAAGAAATCAAATTAAATAATTTATTGTCAGTTCATAGCTCTACATATGAGAGAAAAAACTTTTATGAAGAATTTTATAATAAAATTAATGAATTTGTAAATCTAAATGAATGTGAGTCAATTATGGACTTAGGATGTGGATTTAATCCATTTTCATATACATATTTTAATTTAAATAATAAAAAATTATATTTAAATGAATTAAATACTAATGATTTAAATATTTTAAAAAGATTATCCCAAGTATATAAATTAAAATTTAATACTAATACTAAAATAATTGAAAAGAATATATTTGAAATTGAAAAATTTGAAAAAGTTGATATTTGTTTTTTATTGAAAATATTACAAACATTAGAATATACTAAAAGAAATTTCACTAAAAAATTAATTGAAAATATTAATGCAAAATATTTAATTGTTTCATTTAGTACTCAATCATTATCTGGAAGAAAAATATATTCTAATAGAGAATGGTTTGAAAAAATAATAAATAAATATAAATATGAAACTTTTGAAATATTTAATGAAATTATATATATAATTACAAAATAATTAATAATCCATATATTTTTTAATTAAATTGAATGAATTTTGATCTATTGAATGACCTGAATTAGTTTTTATATATTCTAAATCATAATTTTTATTTTTTAATTCTTGATATAATTCATCCCCGAATAATGTTTCAGCTCCAAGTAATTTTTTATTTATCACTGGATCTTTTTCATCAAAAAAATAATATATTTTTATTTTATTATCAATTTTAATAATATCACTTTTTTTGGCATATCCACAAATTCCAAATATCTTTGAAAAATTAAAAGAATTCATCATACTAAAACACATAAAACAACCTTGAGAAAATCCAAATAAAATTAATTCTTTGTCAACTAATAAATCCATCTCTATAATTTCTTTTATTGTTTCGTTTAAATCTAATATACTCTTAGTTATATCATCTATTACTTTATCATATTCAGACGATATAACATCATTCCCCTCTGGAATATAGTGCCAAGAATAACCCCCCATATAAAGCGGAATTGGAGCACGTATGCAATAATAATTATAATTAGAATTTATATTTTCAGCTAAATCTACATATGATTCTTCATCATCACCAAAACCATGTAACATAAAAATTACTTTTTTACTTTTTTTATTTCCATATTGTCTATATGTCAAAGTCATTTTAAAAAAAACTAAATAATCTTAAAAAAGTGTCGACGATTCTAGTAAATAATCCTTTTTCAACACTAATTACTACTTCATCTTTAACTTGATATTTTTTACCATCAGCATCTTCATAATCAATTAATAATAATAATTTATTTTCACCATGTAAAATTTCATTTCCATTAATATATAAATTCATTTTTTGATTTTTATCATAGGTTTCAAAATCCCATTTATTTAAATAATTATTTTTATTCCAATTTAAATTATATAATTTAATTTGAACATTTTTAGGATTATTTTCAGATAATTTATTTATTTGAAATGTTATCAAATTATTATTAAGATCATAATTAACTTTTTCTTTAACATATAATTTTGGACTTTCTCCTATGTTTAAATAAACTGTATCTTTTGAAATATCTCCATTATTTTTTATAAAAAAATTAATTTGTTTTCTACCTGGATTACTATTTTCAAAATTAAAAGTCTTTTCTTGAAGTTTATTTTCAGGATAAAGAATAGACTTACAATTATTTTCCGTACAAAATGTCAATACTGGACTTTCAAGTTTACTACTAATATCACAATTTATTTTAATATCATCACTATCTTTATAATCATATTTTTGACTATAACAATAAAGTTCTAATTTTCCATTATTTGATGTCTCAACTGAATTACTTGAAATTCTATCAATTACTTTTGATTTTTCTATATTACTAAATGAACTTTTTGCAGTAATTAAAATTTCAGCTTTATCATTTAATTGTGTATATACCACTAAAGGAATTTTGTATATATAATCTTCATCCAATCCAGATTGAGTTTTTATCATAAAATATACTTTCTTTTGTTCTAATGGTTTTAATATAACTGCTCTATGATTACCATCAGTTAAATTTAATATATCTGAATATGTTAAATAAACATCATAAGTCCTATAAAAATTATCATTATTTTTCACATCAACTTCAATTAAATTATATGAATTTAATCCAACATTTTGTTCCATTGCATTTGCAGTTACACTTACACCATCAATAACAATATTTCCTTTATCAGAACTATCTACTTGAATTGTCATTGGATCAATTTTTAATTCTACATTATTATTTAACCATTTAAAATTACTTGTACTTTCTGAAGAATCCACAGACTCTTTAAATTTTATATGAGTGGCATCTAAAAAACCAAATTCATGATAAGTTATATCAAAAGGAACCCAACCATATTTATCAAAATAAACTTCAGCCCATGCATGAGGCCCCCAATTATTTAAATCATTAAAATTAGTATAAGCCATACCAGAAATATAACGTGCAGGTACACCTTGACTTCTAAGCATTGCTATAAATAAACTTGTAAGTTCATCACAAACACCATTACCATTTTTTAAAACCCAACTACTTTTTTGTGTTGTTTTTTCTGTAAGAGAATTTAATGAATATTCTATATTTTCTTCCACCCAAGTTGCAATTTTACTTACAACTATAAATAAATCATCTTCGCCTTTAACTAATTCATTTGCTTTTTTTTTAATAGATTCATCATTTGAATCTATATTTTTAGTTTCACGAGTATATTTTAAAATATCAGGATTAGTTACGACAAAAGGAAAAGGTATTTTACTTCTTATTCTTGGTTGAATAAAATTAGTTTTTACAACTGAATCAATTCCAACTTGATAATTAGTTTTTTTTATACCTTTAATTTTAAAAATTGCACTTTTATCATCAAAACTTGTTTCAATATTATTTGGAAATAAACTAAATTGTTTTATCTCTTGAAAATCTGAGTTTAATGGAATAAATGATTGATTAATTTCCAATAATTCAAGTTTTGGATTATCACCTTCTATAATTAAATCAATATTAGTGCTAGTTTTTATATTCAATAACATTGACTCTAAATTAACTAATTCATTAATTAAATCAGGATCTAATTCTTCAGTAATTCCACTCTCTTCAGCTGAAGAAAAAAAAGCACATAAAAAGGTTATTAAAAATAATAATAAAAATCTCATCTTCATAATAAAAAAAAGACATTTATTGATTATAAATTTTAGTATTGTAAATTGTCTAAAATTTTATGAAAATCTTTATTATATGAATTATGTTCTAATATACTTTTTAATTTTTTATCAGAATAAAATAAACTTATTTTTTCAAATTCTGATTCTCTATTACTAATTCTTGCTAATTGATCTACCAATATAAGACCATAAGGATATCCTAATATAGCATTATCAATACTATTTTGTTTAATTATATTTAAAGCAATATTTATATCATTAGTTTTCTCTTTATGGCTCATCACATCAATTCTAAAAAAATTATTTGAATTTGTATTTAATTTAACTAAATAAACTTTTATACATTCATAATTATTTGACAAAATATTTTGATAGCCAAAAAAATCAGATAAAATTAAATTTGAATTTTTAATTTGATTAAATTTTTCTCCTAATAAATCAAAAAGCCTCATTGACAAATTATTTCCATCTTGATCTACAAATGAAGAATTTTTTGAAATTCCAAATATTGTTGAATTAATATTAAAATTACAAATTATATCTTGATCAATTTTATTTTTCATTTCAAAAGAACCATCACGTACAATAATTGAATTTTTATTAGATAATTTTTGAACATAAATTAATTCTAATAATTTTAAAATAACTGAACCAGATAATTTTAAATTATTAAAATCAAAGAAATCATAGTTTTCTATATTAAATAATTTTTGATCATTAAATAAATCAAAATCATAATTAAACAATTTTTGTGTATGTTCTTCACAAAATATTTTATTATATATTCTTAAACGACCATTTGAATTTTTATCTAAATAAGTAACTAATTTAAAATTATGATTTTCTTTTTTAATAAATTTATTTCCTATAAATTTAACACAAGACACTCTAATTGCATATATATAAACTGAATTAGATTCAAATAATAAACCAAGCCCCCCATCAATAAAAAAACAATCTTTATTTTGAGAATTAATATTATTATTAATACCATCATTATTATCTAAATCAAATAAATTATTAACAAGATTTTTATTATAATTATTAGATAAATTATAATAAGAAATTTTTTCATCTCTTTTTAACTTTAATATTTTTGACTTAACAAAATTTACAATATCCATAAAAAAAAGTAAAACCTAATATTAATAATCTTTTTGCAATAGAAAAATATAATTAAGAAGCTTTTTCAAGTTCTTTTTTATATTTTTGTTCTAAATCATATTTATGAACGTCCACCCTTAAACTTCTTTTTTTCATAAAAGGTTCTTCATACATAATTACAGTACTTGCCAATTTACTTGCTAAACTCCCTGAATCTTCATAGGTAAAACCATTTAATAAACCATATAAAAAACCAGCTGCAAATCCATCTCCGGCACCATTAGTATTTTGAAAATAACCATCTTCACAAGAAACACCAGCCTGCGCAGTTAATATTGGATCTGCATTAATACTAAACACACCTTCATTATAAGAAATAATAGCGCCCTTATCACCATGTTTTTTAACATGACAACTCAATTCATAATTTACATCTGGTCTATCACCAAATAAATATGTTTCTTCTAATTTAGATGTAAAAAGAATATCAGTATAATTTAACATTTTTCTAAATAAATCTAAATTGTCTTTAGCTAATTCAGCAGAAGCAACATCAAAAGCAACTATACCGTCAAATTTACTTGCAAAATCCACAACAGGCAATCCAATTTTTCCAACTTCATAACCTGAAGTAAATAATATTTTTGATTTGGGAACAGGAAAATCTAAATTAATTTGAGGTGTTGCACCAGTATATGCAAAAAATGTTCTTTCCCCAGTTTCGTCAAATAATACATGTAAAAAAGGATTAGTTTTACTATTAAAATATTGAGCAAATTTTTCAATATTATTATCTTCTAAATGATCAAAAAATAAATTACCATTATTATCTCCACCTAATGCAGTAATCATACCTGCACTAGCACCTAATTGTCTAATATTAACAGCAACATTTGAAGGACAACCACCAGGAATTTTTTTAGTAATAGGGATTTTTCTAATTTTTTCACATAATTTTAAACTATTTTCACAATTTGGATCAAATAAATACCAACCACCTGAATCAATGCCTAATTGTTTAAATTCAGCAGTTGAAATAGGTTCATGATAAACATCAACCATAGCTTCTCCTAAAACAAGTAAATCTAACTCATCTGATTTTATTGGTCTACTTAAAAAACTTCTTAATTCGTCCATTTTAATACCCCTATTAAGAATAGTAAAATTAAATTATCTTATAAAAATTATGTATACTCAAATACTAATATCCAATCAAAAAAATATTTTAAATAAAATAAAAAATACAATAAATATAATTATTATATAAAAGATTTTAGAATTATTATTAATAGCATTAGTAAAATTATCCAAATAAGATTCTTCTTTATTAGAAGCTTCCAATTTTTCAACCATATCAATATTATTATTTTGTTCTACATTTACATTTTGAAAATAAATTCCTTTTGCAGATTCACAATAAAATCCATAACTACAAAAATAATCTGATATATACTCATTAAAATTTACAATATCAACTCTATCCTTTTTTCTTTCAATATTAAAAGGAGAATTTGAATCTAAATTTAAAACTATATCTCTACCAGCCCTAAAAAAATTAAGTTTCATTTCATCAGCCATAATTAAAGCAGGGTCTTCAGTCATTTCACCAATATCAATATATTGAATTTTTTCATATTTTTTCCCATCAGGGCTTGCCAAATAATAAGTTATTACATTATCAATATATTCAATTTTAATTATATATAAATCCGAATTGATTGAAACTTCAAAAACATCATTATTTGTAATATTTGTAGCCTGATAATTTTTATCAATACTTTCAGCATTAATTGAAAATAAAGAAATCATTAATATAAATAAAAACAATAAATATTTTCTCATAATAAAAAATAGATATAATAGTTTTTAAATTTATTTAAAAAATGTAATTTTAAAAAATGTAATTTCAAACAATATAATATATAAAATAATAAAAAAATAATAAAAAATTAAAACCTATCTTGAAGAATCAGCTTGTCTTTCGATTTCTAATTTTTTTTGAATCGCTGCACTATTTGAATTTTTTTCATAAGCAAAAACAATTTCATCAGCAAGTGTCTTTTCAATTGATTTTTTAGAATTAAATGATTTTTGATAACTATTTTGTGTCATTATTCTTAATGTTAAATCAATTCTTCTTTGAGGTGCACATTCTACTGCTTTTGGATATTTTGCTCCACCATATTCAATAGTAATTACTTCCTCTCTTGTTGCAGAATTTTCAATTGCTTTAACTAAAATTCCAATTGGATTCATATTAGTTTTTTTTTCAACTAATTCTAATGCACGTTCAACAATATTATATACTTTAACTGCCTTACCAGTACATCTCCCACTAGTTAATTTATGTTTTTTTGATCTATGACCTGGTATCATTAATTTATTCATTAATCTTTCAACTATATTATAATAAGATTTATGAAATCTACTTTTTGCATTACGCCCACCAGTTTTAATTACAAATCTAGGACTTAAATTAATATAAGGTTTTAAACCAATATCAGAAACTTTAATTCCATCAACACTCCACTTTCCAAATAATTTAATTTCAACCATTTTAATCTATTTTCTCGCTTTTTGAATTTTACCGGTTCTCAAACCTAATAAAGATTGATCATTAACTTTAATTACAGTTAATCTAACACCTGAAATGTCACCCTTTGAACGACCCATTTTTCCACCGATACATTCAATTAATACTTCATCGTGTTCATCAATAACTTTTGTTGCACCATCACCAGGTAAATAAGCAGTAACTTGTTTACCATTTTTTACTAATTGAACTTTTGCACACTTTCGCATTGCAGAGTTCGGTTGCTTTGCTTCTCTTTGAATTTTTTCAATAACAATAGCTTTTGCTTGTGAAGATCCTTTTAATGGATCTGATTTAATTCTAAGACCATAAAATTTTCTTTTAAAATTTTTATTTTTTAATCTACTTACAGCTCTTTTTTTCATTAATTTTTTTGCTGCATTCATTCCTTGACTTTTTTTACTCATTTTTAACCTCAATTTGTTGAACTTTTAATTCCTTGATATCAAAATATCGTTTTATTATTTCTTCGCTCAACCTTAAAGATGAAACATCTTTTCCAATTAAATAGCCACGAACTTTATAACTGTCCGTTTTCAAAATAATTATTTCATCATTTTTAACTATTTCATTAACTTTATTTGGATGAATTACATTTTTTATAAATTGTATTAATTCATCATCAAATTCAATTACTCGAATTTTTTCAACATTTAATTTTTTTGCAAGTATTGGAATATTACCTGCTTTTTTTCCAACTGCTCTTCCTATATCGCCTTTATTTACCATAAAGACCAATGTCCCATTAGATTCAAAACAATCTTTTGGCACAATTTTAGACACACTTGAAAAAATTGATAATTTTTTTAATATAAATGGGTCTAATTTAATTTTCTTCATTTTTTAAATGAAATTACTGTAATATTAAAGTTTTTTTTACATAATATACCTAATTCACTACTGTCAATATCTAGATTTTCAAAATTAATATTTCCAATTTTACAAAAATGTTCTATATCAGATTTTATATTTAAGTCAATATTTTTTGACATATATACTTTTTCAATTAATGAATTCTGAATTAATTTTTTAGTAGTCTTACTACCTATATTTAATTTGTTACTTTCTACTGATTTTTTTAATTCGCCCTTAAATAGGTCAATATTTACCATTTTTCTTACCTAGATTTTGAATGAAAATATATGTTTTTATAAACCTAGCTATCTTCTTTAGCTAAAAGACGCCCCATACCAGTTCCAATTGGTATTGGTTGATTTACCATAACATTCTCCATTACACTCTTTAATTTATCTTTTTGGCCTGAAATTGCTGCATTAAATATATGTTTCATTGGAGTTTCAAAACTCGCCTTTGAAATTACACTATCTTTATCCAACAATATACCAAATCTTGTAATACCTTTAATTATTCCACTAAGTGACATCGTATCTGCAATTAACATACTATGTCTAATATTAATATTTAATCCTTGAACTTCAAGAACTTTATCTGTTTCTTTAATTATTGCAGCTCTTGCAGCTTCAATTCCTAAATGATTGCAAATTTGCCAAATATCATTTGTAGTAGTTTTATATGGATCAATAAAATCTAATTCTAAAACATGTTTTAAAGAACTACCTCTTGTCAATATTTTATAAGATCCATCATCTTCTTGTACAATTACTACTTGACTAATATTTTTAATTCCACTTACAAAAACATTTTTTAATTTATCTTTTAATTTATATAAATCCATTATTTTTTCATCTTTAATTTTCTTTTTAACAGAAATATATTCTTCTTCTTCTTCAACAATTATACCTTTCATATTTTTTTGTAAGGCTTTTGCAATTGCTTCTTGACTATATTTTTCTTTTTTTAATTTATCTTTATTTAAATAACATTTAACAACTTGATTAATAAAATCTAATTGAAATTCTTCAATAAATTCAATTAATTTAGTTTCTTTAATATGCATTGCATAATTTTTAACTTCATTTTCTGATAATTTTTTCTTTTTAAAAAAAATTTCCATCATCGGAGTTGAAAGTTCTTTTCTACCATCAAAAATTTCAATAATTCTTGGAAGTCCACTTGATAATTGAATTGTTGAAGTACCACCACCGTGTTTTTCGTTTAATGTCATCTGTGTACTCTGTTCACCAAAAGATGATGATGCAATTAAACCGCACGCTTCACTAGTATCAATTTGAGCATTTTCAAATACAGTAACTGCTCGTTTAAAAATTTCTTCTAATTTTTTTTTATCAATATTTTTTGGAACATTTAATTTAATATCACTAATTATTTTACCAGATAATTTTTTTTCGTATTTTTTAATTAAGTCTTCCATTTTAATTACCTGCAACCTCTCTAATTATTTTTTTAATATCGATTGAACCTTTTTCAGATTTTGAAACATCAATTCCATCTTCACCATATTTAAATTGAATTATTTTTGAATCAATATCCCTAACCGTACTATCAGCTTCAACTCTTACATCTTGTAATGCATTAGCTAATCTTCTATACAAATAACCAGACTTTGGAGTTCTTAATGCAATATCCATATAAGCATCTCTTGATGTTATTGCCCTAAAGAAAAATTCATGTGGTTTTAATCCTTTCTTATATGTAGATTTAATAAATCCACCTTGTTCAGAACCAATATCATATTTTTTAAAACAAGATAAAGTTCTTTTTCTATAACCAACTTTTATTCTTCCACCTCTACTGTTTTGTTGTCCAACAAAACCAGCCAAAGCAGTTAAATTTGTCTTTGAACCTCTTGCACCACTATTAATCATAATAGTTGTACCAGTTTCTTCATTAAAATAATCAGAAACACATTTCATTGCTTCATTTTGAGCATTACCTAAAATTTTCATAATTTCAGTTTCAGCCTCAATCATTTGATCTTTTGTTGGATGAAAATCTTTTTTATATAATTTATCAGAAATTTTTAAAATTTCACTATCTGCATCAATAAAATATTTTGCAATTTTATTTTGGAATTTTGAATCAGTATCAATATCAGAAACAGATGTTGTTAGACCTGATTGTAATAACATTTTTAATCCCAACTTAAACATTTTACCAATAAAATCACTAACTAAATCCTCACCATATTTTTGAAGCATACTTCTCAATAATAAACCAGCACCATTACCTAAAGATGAACTATCTAATACACCTTCTTTTAGATAACCATTTTCAATAATAACATCACCTGATCTACTCTTCCCATAAAATGTAAATCCCTTTGGAAGTAAAGCTGAAATAATATCTTTACCATCTACTTCATCACCTTTTGGAAGTTTAGTAAAATCTTTGTGATCAACTGAATATAATAATTCAATTGCTTCTTTTTTAGTGAAATTTTCTTTTTTAGTCAATAAATAGTTACCAGATATTGCATCTTGAACACAACCTACAATTGTAAGTCCATTACATGGAGATACTAAAACATTTTTTACACTCATTAATAATTCCGCTTCAGCTCTTGATTCTTCAGTTTGAGGAATGTGTAAGTTCATTTCATCCCCATCAAAATCTGCATTGTATGGAAAACATACTGCAGGATTAATTCTAAATGTTTTACCAGGAATTACTTTAATTTTATGACATAAAATACTCATTTTGTGTAAACTTGGTTGTCTGTTAAAAATACATACATCCCCATTTTGTAAATGTCTTTGTACAACATAACCAGGTTGAATCTCCTCTAAAATTTGTTCTTTAGTTTCATCAGTAATAGTTTTTTTTAATCCATCTGGACGAATAACAAAATTTGCACCAGGATATGATTTTTTACCTTTTTCAACTAAACTTTTCAAAAACTTTTCATTATACTTTGTAACTTTTTCCGGAATAGTTAATTTTTTTGCAACTAGTTCTGGAATTCCAACTTCATCAATTTCAATCATTGGATCTGGAGAAATTACACTTCTTGCACAAAAATTAGTTCTTTTACCTGCTAAATTATTTCTAATTCTTCCTTCTTTACTATTAATTCGTTCATAAATAGTTCTTAATGGTTGACCAGTTCTATGTCGTGCTGGCGGAATTTGTGTTACACTATTTTTAAAAAATGTCGTTACATGATATTGTAATAATTCCCAAAACTCATCAATAATAATTTCAGGTGCTCCCGCATTAATATTTTCAAATAATCTTTGATTAATTTTAACAATATCTGCAAGCTTGTGAGTTAAATCATCTTCAGCTCGCTCCCCAGATTCTAATGTCAATGATGTTCTCATTGTTACTGGAGGAATTAACATTCTTGTTAATACCAACCATTCTGGTCTAGTAGCTTCTGGATTAATTCCATATAATTCAATATCTTTATCTGGAATTCTTTCAAGTCTTGCTCTTATTTGAATTGGAGATAATTTTTGTTCATCTTCATAAAATGTATATGGTTTTTCTAATTTTAGTGGCTTTTGTTTTGCACTACAGTGAGGGCATTTAATTATAGTTTTTAATTTAATTAATAATTTTCTAATTTCTTTTAATTTATTTTCATATCCTCTAAGTGACTCAACTTCTTTTAATTTATCTTTAATTAAATTTAATTTTTCATCACTAACTAAAACTCTACCACAATTGTGACATGTTGTTTTTAATAAACTAAAAATTAATGCAATACCTTCAATGTGTAAAACTGGTCTTGCAAGTTCAATATGTCCAAAATGACCTGGACATTCTTTAAATTTATTACCACAAGTTCTACAAGTTAAACCTGGATCAATAACTCCTAATCTAACATCCATTAACCCACCGTCAACAGGATATGATTCTTTATCATAAAGTTCTGGAGTAACAACTTTTGCAACTGATACTTCTTGAATTAATTTAGGTGAAAAAAAACCAAATTCTATTGATGCTATTTTTTTAAATGTATAATTTGTAGGCTCGTTCATTTTAATTTTCCCCTAATATTTTGTAACCAAAGCTATCTTTGGATAAATTCCGTAACTCATCAGCTCATCTAAAAACAATTTAAATGCATATGCCATATCAACATAATTTATTTTTGAATTTGTTCCATATAATGGGCTAATTGTTCTTTTTTTGAATCTGTCATAGAAAGCTATAAGACCACTTCTCTCACAAACAGGAACTGTTGTTTTATCAACATCAAATCTTTCTTTTAATAATAAACTAGTACCGTGAGCAACAATACAATCTTTCTCCATCTCTCCAATTCTCAATCCACCTTCTTTGGATCTTCCCTCAGTTGGTTGTCTTGTTAATAATGTAACTCTTCCTGTTGCCCTTGCTTGAATTTTATTTGCAACCATATGTTTAATTTTTAAGTAAAAAATTGAACCAACAAAAATTCTTGCATCCATTTTTTCACCAGTAAATCCATTATACATTACTTCAGTTCCATCTTCACGAAACCCTAATTCACTCAATTGATTTCTTAAATCAAATTCTTCTTCAGAATTAAACATTGTACCATCAACATATCTCCCAGAAAGAACTCCTACTTTTTGTGCAATAAGTTCAGTTAAATGTGAAAATGTTTCCCGTGTAGGTATTGAATGCGGTGAAAAAATAATATCAGGTATTAAACCACTTGCAGTAAAAGGTAAATCAGCTTGTTCATATAATGCACCAATTACTCCTTTTTGTCCACTTCGTGATGCATATTTATCCCCAACTTCAGGAATTCTTTGATCTCGTAATCTTATTTGAACTAAATTGTTACCATCTTCATTTTGAGTTAATAAAACCATATCAACTTTTCCTTTTTCTTCATGTTTCATAACAATTGAACTTTCTCTTTGAACATTTTGTGTTAAACTATATTCTTCACTACTGTTTAAAAATCGTGGAGGACTTGTTCTTCCAATAACAACATCATCTTCACCACATTGTTGATCAAGAGCAATAATACCATCATCTTCTAATAATCTATAATCATGTTCACTTCTATATCCTTTAATTTCTAAATCAGGAATACAAATATTATCTTTAAGTCCACCTGCATATCTAATTTCCTCTGCAGATTCAGGTTTAAAAAAATATGATCTTCCCAAACCACGCTCAACACTACTTTTATTCATAATTATAGCATCGTCCATATTATATCCTTCATAACTCATAATTGCCATTATTACATTTTGTCCAGCAGGATGTCTTGAATAATCAGAAATATCATGCATTATTGTTTTCAAAATAGGAATTTGTGGTTGTTCTAATAAATTAACATCAGTATCAATTCTCATTAAATAATTCATAGCATACAAACCAATTGCTTGTTTTTGATTTTTAGCTCCAAGATAAGTCCTCATCGCAGGAGTTAAATTACCATGTGGAACTAAACTACCAACAAATGCAAACATAGAAAGTGGACTTACTTCCAAATGAGTATGATTTGAAGTTAAATCACCCGCTTCAAAAGCAATAAAACAATTTTCTTCTTCTGATGCATCAAGATATTCAATAATACCTTTTTTAATTAAATCTGACCAAGACAATTGATTACTTTTTAATTTTTCTAAAACATCGTCAGTTAATATACTCTTACCATCCTTTACAACAATTAAAGGTCTTTGTACCCTACCTTCACTTGCATATAAAAAAACTGAATCTGATTCTTCTTCAAACATTAAATTAAAATAAGAATTAATTTTACCTTCTTGTCTTGAAATTCTCAAACTATCTACAAATTTATTACCATCATCAACAGTTCCAATAAATTTATTATCAAAAAAAACATCCGTCATATTATCACCTAAAAAATTGTTTTAAGGCCTGCTTCTCTCATGTGAGATAACAGTTCTTCTTTATTGGAAACCTTGTTTGAAATTCTTGCTAGTATTGAAAGGTTCTTTTTTAATCCAACATTAGTACCTTCTGGAGTTTCAATTGGACATAACCGTCCCATGTGAGTACAATGTAATGATCTTGCATCAAAATTTTCTTGTGTTGTCGATAGTAAACTTACAACTCTTTGTAAACTTGAAACATAATCATGATAATTAATTCTTTGTATTCTTTGACTAATACCTTTTCGCCCAGCTACCCAATTACCAGTAGCCATTGCAGAATTAATTCTTTTTGTCAATAATTTGTTTCTAATAATTACTTTAATTGAAGGAAATTTACCCCTCTTCACAATTCTTTGAAAATTAAATAATAAATCATTAATTAAAACTTTTAAATTAAATCTAAATAAATCTCCCAATAATGGACCAGCTAGTTTTAATTTTTTATTAGCATAATGATCTTTACTATAATTATCATATTTTTTATTTGCAAGGTCAATATATCTTTTAATATATTTTGAAATATTATATGCTTTGAATATTCTCGCTTGAGGTGATGTACCTAAGTGTGGCAATAATGCCTTGTCTAAAATATCTTGAGCTCTTATTAATCTTGTTTCTCTTGTTTGATTGATTCCCATTTTTTTAGATAGAAAATCTAATGCATCCTCTTCAGTTTTTAATTCTACAAATTCATATAAATTAATGAACATTGTATCATTATCTTTTCCAAGATCAATAATTTCAGCAATTTCACTATCTTTTAGAAAACCTAATGATTTTAAAATTGGCACTAAAGGAATTTTTTTATATCTAGCAAAACTAATTGTTAAAATTCCATCTTTAGAAAGTTCTACTGTATGAGGAATTCTATAATTTGAAAATTCAGAATATAATTTTCCAACTGCAGCACTACCCGCACCATCAACCATTAATTTATCAGGCGCTAAATCTTCAACAGCAACTAATGTTTTTTCAGTTCCTGCTATAATAAAATATCCACCTAATTCATAAGGATCTTCATTAACATTTACTAAATCATCTTTATTAAATCCATTTAAATGACAATATTTTGATCTTAACATTACTGGTATTTGACACAATTCCGTCGTAAAAGATTCTCTTTGAACTCCATTAATGTGTGCAGAAATATTTGCATAAACAGGAGTAACATAACTTAATTTTCTAAGTCTTGCTTCATTTGGAAAAATTTTTCTTTTTGAACCGTCAGCTTCTACAATTGTTGGACCTTTATCATCAGTGTGTTTATCTACAGGTTCAACCCAAATTTTATCAAATTTAATTTCAAATTCATCTATATCATGAGGAATAATTGTAGGTTTAATTTCTTGTAATTCACTAATAATATTTGCTAATTCATTTTCAATAAAATTATTATATGATGCAATATTACTTGACGCAAAATTATTTTCTTGGAAGTATTTTCTAATTAATATTTCTTGTTTTTTATCATTCATTTGAAACACCCCTATAATAAAGTGATATACCATCAGTTTTACTTTCTCTAACAATTTTAATTACATCACCTGGATTAGCACCAAGATCTTCTAAAGCTGGATCATTAAAATTAATTGAAGGAAGTTGAGAAAAACCAATATTAAATTCATCAAACATTTTTTTTTTTTCATCGTCTGATAACAAAATGTGTTCTGGAATCAGAAAATGTTTCGTTTTTTTTGCCATAATTTTACCCGGATCTTAAAGTAGCCTCTGCGGGATTCGAACCCGCGACCCCCACATTAAAAGTGTGGTGCTCTAACCAGGCTGAGCTAAGAGGCCAATATACTATCAAGAAAGACAATCATTTTATAAAGTTATCTGGGTAAACAGAACTCATTAATATATTTTTCGAAAAACAAATAGTATATATTAATAATCGAAACTAAATTTCATCTTCCATTATTTTTTTATATGTATTTTCCAATTCAACCATTGGAATATCTTGATTTTTGAAATTATTCAATTCAATCATATCATTAGCAGGAACTAAATGTATATGTGCATGATCAATATCAAAACCTATAATAAACTGACAAATATTTTTTTTATTAAAAATTTGTAATTTATTTTTTACAATTTTTAAAGAATTATTAATTTTTGAAAATAATTCACCCTCTATATCAAAATAATTTTTAATATGTTTTTTTGGTATAATTATAGTATGCCCTTGACTAACAGGTCTAATATCTAAAAATGCTAAAACATGTTCATTTTCATATATTTTAAAACAAGGTGTTTCTCCTCTTATAATTTTACAAAAAACACAATCACTATTAAGATTATTATTATCACAATTACCATTATTTTGTAAATTATTATTATTTTCTTCCATAAACAAAGTTTAGATTTACCATTTAAAATTTTTATGTAAAATGTTTAATTAAATAATAATCAAATAGTAGTCTATAATAACCAAATGATAGTTTTATAATAAAAAAAACATAAAAATAATTATGACATTTACATCTTGGAGTATAAAATTTATAATTTCAATAATATTAGATATTGCTGATTTTTTTATAGGAAGAATACCCATTGCAGGCTCAATTTGGGATGCCATTTTAGGTTTTATTGGGCTTTTATTATGGAAAAAAGTTGGTGGTATTCAATTTTTAGAATTATTAGATTTTACTGATCAAATTGATGGATTTATACCTAGCCTTACGATTTCTGCAATTTTTAGTATAAAAGAAATATGGGATTGAATATACACATTAAAAAATAGGACAAAACAAACACTATGTTTTATAAATAACTATTTTGCTCATATCTAATGAGTCATCTTAAATTAGTAGTTAATAATACAGAAAAAAATAAAAAGAAATCTCAAAAAAGAAATTCTTCTCAATCAGTTTTAGATTGTGATCCATTTTCAGAGTTAAATTTAGCTTATTATGATAAGGATTATAAGCGATTAATTAATATGCAACCAGAAACTAGCGGTTTATTAGTATTAGAAAAATTAAATGCACCAGTACAATTATATCAAATTCATGATATTTTAGAAGGAACTTTAAATCAAATTTGTATTAATGATTTACAAAGAGAATTTGCTGGAGAGAATAGAACTTATTGTCCATTTTTCACTGAATTTAAACAACATAGTGTATTTGATTTATACAAAGATGCAAATAATGAATTTGGACTCCCAAATAAATTTTTTATGTTCATAAAAGATAATAATTTAGATGTTTATGAAATTTATGGACACATGCACAGAGCTGGAAAAGTTATGCAGCGACTTTTTCCAGATCGCTAGTTTTATACAATAAATGAAGAAGATATGCAGATTTACTTTTAATCCCATATAAATTTTCTTTAATCAATTTTGAAACATAATCAATATCATGTTCAATAGTTTTATGTTTTAAACTTAAAATATTTTCAACTTTTTCACTCAATAAAATAGGAGTTTTTAAAATTCGATTAATTTCTCCAATTAAAAAAATTATTCTAGATTTAACTTGTTTTTCAATATCAAGTTTAATATTAGAATCTTTAATATCAAATTTGTTAAACAAAAAAATTGATCTTTTGTGACAAAGGTCAATCAAATTATTAATATGTTTTGATCTTTCAATTTCTGGATATGAATTTCTATTATTTAATTGTTTTAATTCTACAACATTAATTAATTTATTTAATAAAATTGCAATTGAACTAATATTTGTTTCAAATACAAAATGATCAACTAATTTTTCAGGCAATAATTGTGAAAGATTTTTTAATTCTTCTTTAAACTCATTTAATTCCTCTGATTTAGAATGTTTAATTTTTTTATTATTATTACATTTATTATAAAAATCTTTTATTATTACATATAATTTATTATTATATTTATCTCTGGATTTTCTCAACTCTTCAGCATATCTCTTTAATCTATTAAAATCATCACTTAGAATATAAAAATCATTATCTTCTACAATTAAATTTAATATTTGTTTTGCAGCCCGTTTTGCATTTTCATTATTTAAATGTTCATATTGTAATAATGCCAAATAGTAATTATATTCCAAAGTATAAATTTTATTTTGGTGTTTTACATTTCTAAAAACAGCTGCTATTTTTGAGATTTCATGTTCATGAAATTTTTTAGAATCAACAGTTCCACCCCAAATATTAGAATATGATTTTAATACATCCATGATATATTTAAATAAAAAAAGTTTATAAAATTAATTAAAAAAAATTAAATTTTACCAACTAAATCTAAACCTGGCTTTAAAGTTTTATCTCCTGGTTTCCATTGGCACGGTGCAACTTCACCTTTATGTTCTCTCACATATTGAGCAGCTTGAATTTTTCTTATTAATTCATTAATATCCCGTCCAATACTATTTTCATGCAATTCATATGCTTTTAAAATTCCATCTGGATCAATAATAAAACTACCTCTCCAAGATAATCCCTCATCATCAATATATGTACCATAATCACGACAAACTTGTCCAGTTGGATCTGCACCCATAAAGAACCTTATTTTTTGAATAGTAGGTGAATTATCAAACCAAGCTTTATGCACAAAAGCAGTATCTGTACTTAGAGAAATAACTTCAGTATTCATTTCTTTTAATTTTTGATATGAATCCGCCAATTCACCTAATTCAGTTGGACAAATAAAAGTAAAATCTGCAGGATAAAAAAATAATACAACCCATTTTCCTTTAAAATCAGAAAGAGAAATATTTTTTATTTCATTATTATAAAATGCTTTAATATTAAAATTTGGTGCTAACTTATTTATTTCTACCATTGTAAGATTGAAAATTTTAATATTAATTATAAATTTTATGTATCAATCAAAGACCCATTTTTTAATAAAATAAAAAAGCAAAAATAAAAATGTAATACTAGTAACATAATACATCACATAAGAATAATTTTTTTGTTCAAGTAATACCATACCATAAAATAATGCAAGGGCTAAAAAAATCAATACAAAAATTTTTGCATAATTTGCATATGTACTACTAGTTATTTTTCTATTATTTAGCAAATAAGATAAAACTAATAATGCAACTCCAAACAAAATTGCAGTTTCAAATATACCACCTAAAAAATTAATTAAAAAAATACTTGGATTAACTACACCAGACAAAAAACCACTTTGATAATATAAATTATCATCTTTAAATGCAATTGAAGGCAATACAAATACTGTAACTAAAATTATAATTAAAGTCATTATATGACTTTTTTTAATATTTTTTAAACCAGGATATTTTTCATTAGAAATTAAATACATTATATATAAAATAATAAAAAATCCTAAACCAGTAAGTAAAATTAAGGCTAAAGTTTTATCTGCATTTAATAATGGATTAATTATATCTTCAAACCGTATCATTATTAATCAAAAAAAATATATTTAAATACATAATATATTACAATCAATCCCAATATCGATCCAAATATATTTACAAATTCATTTATATTACCAACTATGTTTGTTGCTCTTAAAAATACTAGAACTACAAATGCAACCATAAACCAACCAACTATTTCCCAAGTATTAAAACCCTTTACTTTTGTAGCATTTAAATCAAAATTAGTAGTTCCTTTAATTACAATTAATGAAAATAATGCAATAATAACTGCAAGTGAAATTGCAGGAAGACTATTCATAACAACATGAACTGGATTTATTACACCAGTTAAAAAACCTTCAACAAATACACCCTTTCCATTAGTACTAAAAACAAAATTTGGAACAGTTCCAACTAATGCAATAATAACTGAAATTATAGTAGTAAAACGTCCGTAAGCTTTTTCTTTTTCTGCTTTATTTGTATCATTATCTTCAATTTTCCACAGTTTCATATTAGAAATTAAAACATAAGGAATTATGTAAAATAGGAAAAACGGAATAAAAAAATGAAGTAAACCCCATTCTTTTGTAAAATAACAAATCCACTCCTTATATAAAGAGTTTGAATCGCAAACTATATCATTTAACATTAAACATTACCTCCAGGTGCGCCAGCAGGTGGAGTTGTTGCAGTTGGAGGTGTATTAGTTTCACCATCAAAAAACATTAAATAAAACATCCATCCAATAAATGCTAAAAATAAGATTCCACCAATAAATTCTTGAGTTAAATATTTTGAACTATCTACAGTCTTTCCAATTACACTTGTATAAAAAATGTAAGTTAATGTTAATGCAATAAATCCAGCATACCAAGGACTGTCCATTATAGTTTTAACAACATTATTATTATTACCAGAAGTTGCAGATTGTATTGCAATTAATGCTAAAACTGACATTATTAATACTAAACTAACTTGAGGTAAAAATAAATAAACAACAGATACAACATCAGGAAAACCAGCTAAAAAACCAGTTTGAAATTCAACACTAGCTACAGTATTTGCATTATTTCCCCAAATTACATGAGGGATAACTAATAATAATGCAAAACATAATGAAACTACTGTTCTAAACTTTTTTGCATTTTTACCACTAAGATCACCTTCAGTTACTTTTGGAATTTCAATAAAAGTAAGTAATGTATAAAATATAATATAAATTAAAAACAAAGGTATAAATAAATCGAATAAACCGTAATCGCCAATTAAATCATTTCTTATAAAATTCTGTAAATTAAAATTTTCAAATCCTGCCAAACCTTAAACCTCTTTTTTAATATATATATATTTCAGCAATATTGCTTTATAAATGTTACCTTATCATTCAGTTTATTCTTTATCCCATGCACCATTCATCCATGCAACGGATGCAACTATTAATACAATTAAAATAATACCTGAAACTAAACCTGTTTGATATTGATAAAATAATTCATTCCAAATTATTGATAATACTGATGCTTGACCTTCTGCAGTTGAAATTGTAATTGCACCTAAGAATATTAATCCAATAATAAAAAAAATTATCCAAATAATATATTTTGCACGATTATCTTTATATTTACCATGTTCATCTAATTCAAAATCAAACCAAGTTGATTCTTTTGAAAATATACCGGCAGTCATCATGAATGCAATACCAGCAATTACTAATAATATTGTTTTTGCTAAAACTTCTTCTAAAATTCCAACTAAACTTGCACTTGCAATAACAAAAAAACCAATACAAAATGCAACAATTGCATTTAGATTATCTTTTTTTTCACCAAGTACAGAAGTCTTTTCTAAAATTGCAAATGTAATTGCAAATACGATTAAGAACGGAAGAACTACATTGAAAAATCCTAAACCATCTAAAAAACTAATTACTTGACCAAAAGCAGTTGGAGCAACGTCTACCATGAATAAAAATTAGAAAGTGCATTAATAAACATTTCGAATGTTGTATTAAAAATTATTATCCTAAAGCTCGACTAACTCCAGTAATTTCAACACCTCTAACATCTTCAATATTAGAAATGTCTTGTTCAATTGGATCAGTTGATCCATTATCTTCATCAATTAAAAAATTAATTATAATAGCGTGAAGTCCAAATGCAATTGGTTCAATTTGAAATTGTTCACCTTTTGCATCATACTTATTTAGAATTTGTTTAATTTGATCTTGAACATTAGTCAAATTAGTTTCAGGTGATTCTGGCATCACCTTCATTTTAATTATTACTTTGGCTCCCATTATTCATCATCAATTGGAATTTTAAGGCCACAATTTGGACATTCTTTTATTGTTCCAAAAGATCTTTGCATACCAGTTCTTGTAATTTTTCCTGTATTACATTTAGGACAAACCATTGTAACTGCGGCATGATCATTAGAAAGTTCAGCTCTATACATATTGCTTTGTTCTACTTTTTCATTCATATTTTGAAGAATTTCAGTCTGTTTATAAACATTACTTAAATAAAATAATGAAATTTAGTCACCAAATAGTTTAAAAATAAAGAATTTTAAGAACAAATATGAAAGAAAACATTAAAGTTGCAATATATACCTTATTATCTATATTATTTTTTAGTATTACATCTTATTTAATTCCATATAAGTTTTCAAGTTATATTAATCCATTAATTGACACTAATTTATTGATTAGAATATTTTTAATATTCTTTTTTTCAATTTCAATTATAATATTTATTAAAGTAAATAAAAAATATAATAGTATAATTAAATTAAATATTAAAGAAGCAACATTATTAATGCAATTTTATAAAATATTTTGTAATTTAGAATATAAAATAAGAGTTAATGCCAAAGCATTAATTGATAATTATATAATTAAAATTTTAACATTTAAAGCAAATAATTTAGATGCTTTTTTGTATGATGAAATGGATGGTTTTTATAATTTTTTATATAAAATAAAACCAAAAAATAATACTGAATTAAAATATATGGATAATGGACTTCAAATAACTAGAGAAATTGAAGAAATGAAAAATAATTATATTTTTTTAAATAATAATAAAATGAATTCTTTTGAAAAAATATTTTTATATTCAACTGGTATATTGTCAATAATTTTAATTAATTTACTTTTGTCATTAAATTTTGAAATTATTATATTTAAAGTTATGACATCAACTGTAATATTATATATTATGTGGTATTTGAATAGTTTAGATAATTTGACAATAAATACTAATTTATTTAAATTTGAAATATATGAAAAAGTTTTAGAACAATTAAGTTTATTGAGATATTATCCTGAACATTATGAAAATGAATATCAAATACCAAAAGAAATTAAAAAATATAGACTTGGTACTTTAAATTTAGAAACAAAAGAAATTACAATTAAGCAAATCGAATCTGAAGAAAATGCTTAAAAAAATTACTGAATCTAATACAAATATTATAATAGATGAAAATTCTTTTAATACAATTAGTAAAGACTTGAATATATTTTATAATCCCTTAATGGAAATTAATAGAACTATATCTATATTATTTTTAAGATCTATTGAAAAACATTTTCAATTAAAAAATAAATTAAATATATGCCTTCCTTTATGTGCAAGTGGTGTTCGCGGAATTAGAATTTTAAAAGAATGCAACAATATTAATTCAGTTAAATTTAATGATATGAGTAAAAATGCAATTAATATATTAATTGACAATTTAAAATTAAATAATATTGATTATATTCAAAATAAAGAATTTGAAAATAATTATATTAATAATGAAAATAAAGTAGAGTACAGAAAAAATAAAAATATTGTTTTTAATATGGAAGCAAATAAATTTTTACATAATACTTTTTATTCAGATTATATTGATATTGATCCATTTGGAAGCCCAGTTAAATTTATTGATTCTAGTTTACAAAAATTAAATAAAAATGGGTTTTTAGCAGTAACTGCAACTGATACTGCATCAATTACAGGATCAAGTAAAACAGCATCAATGCGAAGATATGGAAGTCACATATTTAATTGTGAAAATAAAAAAGAATTATCACTTAGAGTTCTTGCAACACATATAATAAAACAAGCTGCAAAATTAGATTTAAAATTAACACCAATCATTTCATATACAGTTAAACATTATGCTAGAATTTATTTTAAATCAGAACCTGGGAAAAAAAAAGTAGATAAACATTTAGAAAAAATAAACTCTTTTTATTTTTGTAATAAATGTAGAAATTATAGCATTGAATTAAATAAATGTAATACTTGTCAAAATGAATTAATGAGTTTTGGACCATTATATTCAGAAAAATTAAGTGATATTAAATTAATCAAAATAATGTTGAGTGAGTTTGAACTATTAAAAAAAGAAATAAATAATTTAAATTTTCAAAAAGAAATTGAATTTATTTTAAATAATCAAATTGAATATAATAGTGTTAATTTGCCATTTGGATATAGCATTAGTAAAATTATAAAATATAAAAATATAAATTTTGAATTAAATAAACCTGATGGAAGAACTCCAAAATTAGATGATATTATTAATTTAATAAAAGAAAAAGGATATGATGCTTATTGTGTTGATAAAAAATATTTGTTAATTAAAACTAATATGCCATTTAAAGAATTCTATGAATTATTTTAATATTTTAATTGCTTGTTTTATAGAAACTTCTCGTTCTTCTCCAGTTTCCATATTTTTCAATTTAAATTTATTTGAAGATAATTCATTTTCACCAATAACAATTACATATTCATATTTTTTAGAATTTGCATAATCCATATTTTTCCCAACATTTCTTCCTGTCAAATCAATTCCCGTATTAATACCAGAATCTCTAAATTGTTCTGCAATTTCTAATGATTTAATATAATTATTTATAGGAATAATAAATAATTTATTTTCATTAACTATTTGATCATCTAATTTTTCAATTAATACCATAATTGGTTCAAGTCCAAATGATCCACCAACAGCTGGAAATTCTCTTTTACCATCTAAATAATTTCCAATCATTTCATCAAATCTTCCACCTCCAGCCAAACTACTACTAATTGTTTTACTATTATCATAAACTTCAAATACTGGTCCTGTATAATAATTAAATCCACGCGCCAATCCTAAATTAAAAACAAGATTTTTATCTCCAAAGGCATCTAAAAGTAATTTAAATTCATTTAATTTAATGTTTTCATCATCAGTTAATATTTTAGTTAAAAATCCAAATTTTTCTTTATTGGTTTTAAAATTTAATTTTTGTATTAATTCATCCACTTTGTTTTTATCAAAACCCTGTTCAACTAATTCTGTTTCAAATTGTTTTTTAGATATTTTTTTAACTTTATCAATAATTGAAACAAATTTTGGAATATCTTGATCAGGAATTCCACAATATCTAATTAATGCCTTTAAAAAAATAACATTATTTATTTCTATATTAATATCAATTCCTATTTTATCAAATGCTCTAAAAAGAATACTTAATACTTCAATTTCACAATCAATTTTTTTAGATCCAACCATATCAAAGTCGCATTGTATAAATTCTCTTGTCCGTCCTAATTTAACAGGACCATCACGATAAACTTTACCAACAGCAAATCTTTTATATGGCATTTTAAGTGTAGTATTCATACCTATAAATCTAGAAAATGGCACAGTTAAATCATAACGTAAACATAAATCTCTATCTCCTTGATCTTTTAATTTAAATATTTCATTTAAAATTGGTGCATCATCACCATATTTGTAAGTTAAAACATCATATCTTTCAATAATAGGAGTATCTAATTCTTCATAAGAATATAATTTAAATACACTTTCTAGCATATTAATTAATTGCTTCCGCTTAGCCATTGTAGCTCCGCTAAAATCCGTTGTTCCCTTTGCATTATTTAATTCCATACAAGAAGTAATCAATTATGCTTTATAAAAATTTATACCAAAATTAAATCATATTATCAAAATGCTTTTAAAAAACAAATTTGCCTAAATATTATGAAAACAATATATCAGGGAGCAGAATCAACAATATATTTAACAAATTCTAATACTATTAAAAAAATTCGTAATAAAAAGTCATATAGAATTGAAGAAATTGATTCAAAATTAATTAAATCTAGAACTAAAAGAGAAATTAATTTACTTACTAAAGCTAAACAATTAGATATTTCCGTACCAAATATAATTGATTCCAATATTAATGAAGGAATTATTGAAATGGATTATATTGATGGAATTAAATTAAAAACTTATTTAGAAGAAAATTTAGATGACTATAAAAATATAGCTAAATTAATTGCAAATAATATATCTATTCTACATAATAATAAAATAATCCATGGAGATTTAACTACATCCAATATGATATTAAAAGATAATAAATTGTATTTTATTGATTTTGGATTAGGTTTTACTAGCCAAAAATTTGAAGATTTTGCAGTAGATTTACATTTATTAAAAGAAGCTTTAGAATCTACACATTATAAGATTTCAAATGAATTATTTGAATTCATTATAAATGATTATAAAAAAAATACAAATAATGCAAAATTAGTTCTAAATAAATTAAAAGAAGTAGAATTAAGGGGCAGAAATAAACATAAATAAAAAAAAAGAATTTCTCCTCTGTTTCTTCAGAATTTTTAAAAAAATTGTCTAATGTATTGTGCTTTTCAATTGTGGAAAAATTAACTTCTTTCATTTTTAGTACCTCATAATAAATTGTGAATTTTAAGATTATAAATGAATACTAAACAACCATAACTAAATATAATAAAAACAAATTTGATGTTATTATGTTTAATTAATACTAAAAAAAAATAGAGATACGTACATTACAATAATAAATTCGCCACAATTTATTTAAAGACAAGAAAAAAACCAATAAAATATGGAAGAAATAAATGAATTATATCAAAAAATAAAAGAATCTGATGAATATAAAGAATTAGTGCAAAATAATCTATACCTAACAAATATATTTATTATGTTAGATGATAGCAATAATTTAATCGATAGAATACAATTTGGATTTTATAATAAAGAAAAAGATAAAATAATAACCTTATCAATTCATGAAAATAAAATAATTAAAAGTCTAGAACAAGAAATTGCAAAAAAATCTGATCAAAAATTAGAAGAATTAAATATTGAAAATTTAAATATAAATTTGAATGAAATTGAAGAAATGTGTGTAAAAGAAATAAAAAAAATAAATGATAAAATTAAAATTAATAGAAAAATGTTCTTAATTCAAAATCAAGAAAAACCAATATTTCTAAATACATTTTTGGCTGAAGATGGAAATATATTTTCATTAAAAATTGATATTAGTACAAAAGAAATGTTAGAATTTAAAAAATTTAATGTAAAAGATTTAATTAATAATTAAGTCAAAAAACAAAAGGAAGCTTTATAAATCTAAAAACTCGAATTACATTAGGGAAAAGAGGGTATTTTGGTAGTCAGAAATAGTTTTAATAGTGAAACTAGAAGTTTAGATAATAATATTAATGAAAGAGTTAAATTTCACTCTGAAAATATAAAAAAAGCACAAGAATACAAACAACATGTAATTGATAATTGGAATTCTATAGATCATAAAGTAAAAAATCCAAATGAATGGATAAATTATTACAATAGTGTAATTTCTTCAAATCAACAAAAAATAAATAATTTAAAACCACAAAATAAAAAAAAACCGGTTTTTGTATTTACTCTCATAGTAGCAATATTATTTTTTTCATATTTTATTTTACCACAAAATCAATTAACAGGTTCATTAATTGGAGATGAAATTAATTCCCCACTAGAAAATCAAATTGAATTTGAAATTCTAAACCCTCAATCATATCCAATTACAGGTAGAACTTGGCAAGTTAATTTTAAAACAAAAGGAACTGCAGATTTATTTATTAAAGCATCAAATGGAACAACTTGGTCTAAAAACAATGAAACTGAGGATTTATTATTTTTAAAAATTCAATGTGGATCAGAAATATTACCATATGAATGGGTTGATGGTGGAATTTTAATTAAAAATTATTCTTGTAATCAAACAAGTCATGAAACAGTTAAAGTAATTACAGATGGTAAACATACAATAGAATTTAGGTTTGGTAATTTAATTGCATATGCAAATAATAATGCAACTAATGCCCCAGTAATACATGCAATTAACTTAACTACTTCATACAATAGTGGAGAAAATGGAACTAATGAAAATATAACAGTAAATATTTTTTCAAATGATACTGAAGTGCCAGATAATGAAGTAAAAGATATTATTGACTGGAGATTGTCAGGAGAATCTATAGCAATTTTAAATATGCCATTCGAAGGAGAAAGTAATGTAACTTTTACTAAAGATTATGGTGATTATCAATCAAATGGAACAGTTAATGGTGCAACTAATCAAACTAATACTGGTTTTGATGGACAAGGTGCTTATAGTTTTGATGGAATTGATGATTTTATTAATATAAGTGGATTCACAACAGAAAATGAAGTTGTAAGATCAATTGGCTTTTGGTTTAAGCCTACAGTCGATTATGATACAACAAAAGGATTTGTATCTTTAGTTAATGGAGATGATTATGAAATTGCAATAAATGCAGGAAAAATGTTTTTTAATTTCTCAGGCGATACTGTTTATTCAACAATTGATAATTGGACTTCAGGTAATTTTTTTCACATCATGACAACAGTTGATATTAATTTAAAATTATATGTAAATGCAACATTAGATAATTCAACAAGTGTTACACCTGCATATATAATTCAAAACGATACAAGTTCAAATGTAGCATTATTTTATAGCAGCGGTGATATTGTTCTTTCAGGATCCTGCTTTACAAACTCATGTGGAGATCCAGGAGTTTCACCATTTATTATACAAAATGCTACAAGTCATAATACAAGTTTTGTAAATCAAACAGGAGGATTTTGTATTACTGACAATAATTGTAATGATCAAGACTTATCTTGTGGTTCACCTAATGATGGATCATTTTTAATAAAAGATGAAGTTGGAACAATTGTATCATATATTGATGCAAATGGAACTTTATGCCTAACGGGAAATTTAGTACAAAATAATTGAGGTTAAAAAATGAATCAAAAAATAAAAATAACAAAATTAGCATATTTAATTTTTGTATTTATTATTGTGAATACAATCATAATTAGTGCTGCGAATGTTATTGTAAAAAATGGAGAAATTACAGCAAATGATTTAGTAATTGATACAAGTACTGTATCAGTAGATCCAACAAATAATAGAGTTGGAATAGGAACGACCTCAGCTCAAACAACATTAGAAGTAGCAGATACTAGTTGGAGTAGTGGCGCACCTTATGGAAATATTTTACAAATTGCAGGTAAAGAAACATTTTTTAATGACAATTGGGGACATTTACTAATTACAGATTCAAATTCAAGTACCGGTAATGGTGGTATGATTAGTTTTGGTATCGGAAGAACAATAGGGGTTGATGTTGCACCATTTGCAACAATAAAATCATCGTATGATGGATCAAATAATGGTTCATTAATTTTTATGACTAGAGGTGCAGGTGTAAATGTAACTGAAAGAATGAGAATTAATAGTGCCGGAGAAATAGGTATCGGCCTTACAGCAGCTACAAGTAATGCATTAGAAATTGGTGGAAATGGACAGGGTGGTGCAATAGGTGGCGGTTATGCCACAGTAATTAGAGGTTTAACTGCAATAGACGTTAATTCAGGTTCAACAGCATTAACTGTTGAACAAGCAAATGTGGGAAATATTGCAACATTTAATGATGCAGGAACCCCTAAAGTAGTAATTTTAGATGGTGGTAATGTTGGAATTAATACAAGTGCACCAAGTGAATTTTTAGAAATAAATGGAAGATTAAAAGTTAATTTACTTGCAGCTGCAACTGCAAATACACTATGTTATAATAATACAGGAGTATTAAGTTCATGTACTTCATCCATAAAATATAAAGAAGATGTTCAAAATTTAACTAATGGATTAAATCATTTAAATCAAATGAGATCTGTTAATTATAAATGGAAAGGAAGAGACGAAAGAGATATTGGTTTTATTGCAGAAGAAATGAATGAAATTGATCCAATTTATGTAACACTAGATAAAAATGGAGATGTACAAGGTGTTAAATATAATTTATTAACTGCAGTACTCGCAAAAGCAATTCAAGAACAACAAAAACAAATAAATCAATTAAAAGAAATTGTTTGTTTAGATCACCCAGAACAAGAAATATGTAATTAAAAAAAACAATGAACTATAAAAAAATATTAGGATTTAGTATTTTAATTATATTATTTTTAACTCCAAGTATAAATTCATTATTAGTTGGAGGAACAAGTGAAGGATATTATAATGGAATACTTGATGATTTAACCATATTTAATAGAGAATTATTTCCAGATCAAATAACTTATTTTTTTAATAATCAAACAAATATATTAGCAAATGATCAAACATTAACAGGACAAAGTTGGAGTGCATGTGCAACACCAAATGATGGTTTTGTTGATGGTAATCAAAATTGTACAATAAGTATGACAATCCTTGGAATTACAACAGTACTTCAAATGGGAATCGCTAATGCAGATGTAACTTTTGTTGTAACACATACACAAAATACCAATTCCTCTCCTATGGTTTTATCTAATCAAGGGACAGCAGATATAGATGTAACATTATGTGCCAATGCGCCTCTTTTCCCGACCATTGGCCTTAATACATCTAATTTTCAAGCAAATGTAATAACACCGGCAGGAGTTACAGTAAATTCAATTAATGCCAACCATAATTTATTAAATTGTACAACACCAGTTCAAATCATTAATAATTTGAGTGCAGGAGTAGGACAATTAATTAATGTTACATTTTATGTATTTGGAAATAAAAGTGAATCTGCAGGAGTTTACAATACAAGTGTTTTATTCATGGCATCAGCTGCAGCAGGATAATTATTTTAATTTATCTATAATTTTTTCTTTAAAAAATATACCATCACGATTAAATGTAAAATGAAATATATCTGGCTCAATTTCATATTTTATAATTAAATTTTTTTCAAAATTATTTTTTAATAATCCATCACCTAAAAAATAAAATGTTCTCATTTTAAAATATTGTTCTAAAAATAATATTTTTTTTTGAATTGATTTTTCACTAAATTGCATTTTTAAACTATTATAAAAATTAACAGCAGAATTAGCAACAGCAACATCCATTAAAGGATCGAGTGTAAAAGGTAGTGTATAAAATCTTTTATTTATTATTTGAATTTTTTTATTTTTTAAAGAATGAAAATTTAATAGAGGATATTTTTTATATTCAAATAAAGATAATAATATTTTTCTCAATGAAGGAATGGATTTAAATAACATCATAAAATAACTTAAAAATAATAGTCTACGCCTAAATTTAATTAATTTTTTTTCTGTAGGAGTTAAAATAAAAATGTGATTGATCATTTTTTTTAATTTGAGTATAATATCTACATTATTATTTTTCCTGGCATTAATTAATATATTATATAAAGAATTTATTATTAAATTGGAACCAAAACAATTTGATATAATATGAAAATTATTAATATTTTGATCTTTTAAAATTAACATTAACTTATTCCAAAAGTCTTTTGAATAATTTTTTTGATTATTTGAATTTTTATTAAAACTCATTCCAAAGCCCGGCAAATCTAAATAAATTATATTATAATCTTTTCTGAATTCGTCTAAAAAATGTGGAGAATCACTTATATTTCCACCTATGCCATTAAATTTAATAAATAATTTTTTTTTTTTGTTATTAATAGGCCCATTATAAAAAATAGTTGATTTATTGGAAAAAACAAACATAATATATTCAGTTTTATATTTAACTTTTTCAAATTCCCAATATTGACCAAGTTTATATAATTTATAAAATATTTTTTTTACAATTCTCATTTTTTATTTTTTTTAATAATATCAGTTATTATTTTATTAATTAAAATTAAACTCGTTTGAACTTCATAAGTATTATTTGCTTTTAATTTTTTTTCATAGAATTCAATTTTATTTAAAAATAAATTAAATTGTTTTTTATTTATAGATTTAGAAAAAAAACCAAGATTATTTTTATTTAAATAATAAGAATTTAATAATTGTTCATATTGATTTTTTACAGGCACAGACATTATTGCCTTATTTAAAAAAATAGCTTCACTAATTAAACTAAATCCACCATTTGTAATAATAGCCTTACTAGTAGCTAAATCATTAAAAAATTCAGTTTCATTAAATGATTTAAATTTGATTTTTTTATCTTCAAAAATATTTAAACGCTTAATATTTCTTCTATCATTTTTATCCATACCATACACTATAAAATTATGATCTAATAATTTTAATTTTTTAATTAAATTTGGATAAGTATTTGACGTTTGATAAACTAAAATATGATTTTTTTTAATTATTTGTCTGTTTTTTAATTTTTTTTTTAATTCAATTAATTTATCTCTAACAATTGGATTAATTAATATTGTTTTTTTATTATGTTTTATATCACAAAAAGATAAGATAACATTTAATTCATTATTTGAAACAAAAAATTTTGTATAAATATTTAATTTAAACCATTCATAAAAATTTAATTTTTTAATTTTGGCTTTTACACCAAAATGATTATTATCAATAGTAATAAAATTGATTCCTAAAAAGGTTTTAATTAATTTAGGCCAAATGGAAAAATCTGAAATAATTAAATCTGGCTTTTCTTTTTTAATATAATATTTTAATTTTTTAAATATTTTAAAAATAGAATATAATTTTTTTAAATTATATAGAATTGTTTTTTTTAAGTTAATTTTATCCTTGATATAAATTAATTCAAAATCTATAACTTTTTTTGCATTAGAAAAATGAGTTTTTAGAATTTTAAATGATCTATTTGAACTAAATGGAATTATATTATGATGTTTTTTTAAATAATTAATTATAGGAATTGATCTAGTTGCATGACCCAATCCTTCACCTGTTACAAAATAAAATATTTTTGCCATAATTAAAACATCAAAATTCTTAATATAAACATATATATTCTTTGATTATTATAATTAAACAAATAATTAACAATTTACCCCGATAAACATAAGATTTATATATAAATCAGAATCTTTCTGTTAATAAGGGTTCTTCTATACAGAACATATTAAGGTGTTAAATGAATATTGAGTCTCAAGAAAAAAAACTGGTTGAATTTTGGCAAAAAAATAAAATTTTTGAAAAATCTGTAGAGCAGAGGCCAAAAGATAAACAATATATTTTTTATGATGGGCCACCTTTTGCAACTGGTTTACCTCATTACGGACACATTTTAGGACTTACAGGAAAAGATTTATTTCCAAGATTCTGGACTATGAAAGGACATAGGGTTGAAAGAAGATGGGGTTGGGACTGCCATGGTCTGCCAATTGAAAATATAGCTGAAAAAGAATTAAAAATTAAAAAGAAAAATGAAATTGAAGAAATGGGAGTTGCAAAATTTAATGAATTTTGTAAATCAAAAGTATTATTCTTTGCTAATGAATGGAAAAAAACAGTTGACAGAATGGGAAAATGGATTGAATTTGATAATTCATATAAAACCATGGATAATAGTTATTTAGAAACTATTTGGTATATTTTTAAAAAATTGTTTGACACAGATTATATTTATGAAGGAAAAAAAGTATTATTATATTGTCCTAGATGTGAAACTCCATTATCAAATTCAGAAATTGCAATGGATCAGAGTTACAAAGATGTTACTGAAAAATCCGCAATTGCAAAATTTAAATTAAAAGATGAAGAAAATACTTTTATTTTGGCTTGGACAACTACACCATGGACTTTAATTGGTAATGTTGCTCTAGCAGTTAATGAAAAATTAAATTATGTTAAAATAAAACTAAATGATGAATTTTTAATTTTAGCTAAAGATAGATTAGTTGATATAAAAGATAAATATGAAATTGTTGACACATTTAAAGGAAAAAAATTATTAAAAAAAGAATATGAACCATTATATCATATTGAATCAGATAAAAAAGGACATTATATTATTAATGGTGGAAAGGATGTTGTTGCTGAAGAAGGTACTGGTGTTGTACATATGGCAATTTATGGTGAATTTGATTATGAGATGATTAAAAAATTTGATTTGCCAATAATACAACATGTAAGTACTCAAGGTAAATTAGTTCACGGTCCAAAAGAATGGATAAATTTGTGGTTTAAAAAAGCAGATAAGAATGTAATTGAAGATTTAGAAGATAGAAAATTATTATTTACATCAAAAGATTATACACACCCTTATCCATTTTGTTATAGATGTGAAACTCCATTATTTTATAATGCAGTAGATTCCTGGTTTGTAAATATTCAAAAAATTAAATCTAGATTAATTGAAAAAAATGAAGAAATTAATTGGTATCCGAATCACTTAAAACATGGTAGATTTAAATATATTTTAGAAACTGCACCTGATTGGAGCATATCTAGAAATAGATTTTGGGCAACTGCAATTCCTGTATGGAAATGTGATTCATGTAATAATATTGAAGTAGTTGGAAGTATTAAAGAATTACAAGAAAAAGCTATTGAAGCTGTAAGTGATGATGTTGATTTACATAAACACGTAGTTGATAATATTCATTTAAAATGTAAATGTAAAAGTCAGATGACAAGAATTTCAGAAGTATTTGATTGTTGGTTTGAATCAGGTAGCATGCCATATGCTGCAAAACATTATCCTTTTGAAAATAAAGAATGGTTTAAAGATAATTTTCCAGCAGATTTTATTTCAGAATATGTAGCGCAAGTTCGTGCATGGTTTTATTATATGCATGTAATTTCAGTAATGTTATTTGATAAAGCACCATTTAGAAATGTTGCCGTTAGTGGAAATGTATTAGCTTCTGATGGAACTAAAATGTCAAAATCCAAAAAGAATTTTCCAGATCCAAATTTAATTTTTGAAAAATATGGTGCAGATGCATTAAGATATTATTTAATGGCGTCTCCATTAATGAGAGCACAAGATTTAAATTTTCAAGAAGATGGAGTTCGTGAAATATATAGAAAAGTAATTGTATTATTAAATAATGTAAATTCATTTTATAATTTATTTAAAGACGATAATGCAGAATTAAATAAACCTTCACAAAAAAATATATTAGATAAATGGATTGTTAGTAAAACTCATTTATTAATTAGAAATGTAACAAATGCATTAGATGATTATGATACTATTATACCATGCTCACAATTAGTTGAATTTATTGATGATTTATCAACATGGTATGTAAGACGAAGTCGAGACAGATTTAAAAGTCAAAATAAAAGTGAAAAAGAAGATGCAGTAAAAACTTTAGCTTTTGTATTAGACAAACTTGCAAAATTATTGGCACCAATTACGCCGTTTATTAGTGAAACTATATATCAATCATTAAAAGAAAATAATGATAAATTATTAGAATCAGTTCATTTAGAAAAATGGCCAGATTATGATAATGAAATAATTGATCAAACAATAATTGAAAATATGAAAAAAACAAGAGAAATAGTAAGTAAATCATTAGATAAAAGAGTAAATGTAAAAATACCAATTAGACAGGCATTAAATAAATTGACAATTCATGGACCAGAATTAAGTGAAGAATATTTAGAATTAATTAAAGATGAATTAAATGTTAAAAAAGTTGAAATTAAAAAATCAGAAGAATTAAGTATTGATTTAGATACTAAAATAACTCATAAATTATTATTAGAAGGAATTTCAAGAGACATAATTAGAAAGATTAATGGTTATAGAAAAGAATTAAAATTAACTATTAAAGACAGAATTGAATTATTTATAGAAAGTGATAATAAAGAAATTAATGAAAGTTTAAAAACATTTGAAAATGAGATTTCAGTTTCTGTTCAAGCAGATAAAATTGAAAAGAAAATTTATGGAATTGATTCAAAAGAAATTAATGTAAATGAATCCACAATAAAATTAGCAATTAAAATTATTAATTAATTTTTTTAATTTATTTATTTCTAAAAGCGTTTAAAAAAATATTTAAAAAAGGATTTGGTTTAGTATGATCTTTTTCTTCAATATACTCAGCTAAATCATAAGACATCACTTCTTTTGCCCTATTAATCATATGATTAAATTTTAATACTTCTGAAATAATAAATAAAAATAATTTTATAAAATCACTAAAAGGTAATATCACAATAAATGACAATAATACTTTTAATTGAATAAAAAACATTTTATTTATGAAACTAAAACAAATTATATTTGAAGGCCCAGAAGCGTGTGGAAAAAGTACACAACTTCAATTATTGTCCGAGTATTTAGATTCATCAAAGATTAAATATAGTATTACAAAAGAACCAGGTAGTGGAGGAATATTAGCAGCAAAAATAAGAAATATGTTGTTAGATCCTGAAACTGGAAAAATTACTGAAGATGCAGAATTACTTTTAATAAATGCCGCAAGGGCAGAATTATATAAGATGCACAGAAGCGAAGAATATAGATACCATTTACAATTAAAAGACAGAAGCTTTGCTTCCACTAGGGCATATCAAGGTTTTGGAAGAGAAATGGATTTAGATTATATTCAAACGATAACAGATCACATAGTTGGCGATGATTTACCAAAAATACTTTTTTTATTTGATATTGATCCTATTACTGGTTTAAAAAGAGCTGGAGCAAGAGGAAAATTGGACAGATTTGAATCAGAAAAATTAGAATTTCATAAAAGAGTTAGACGGGGTTATTTATCTTTAACAGAACATGAAAAGTATAAATCCATAACTCATTTAATTGATGCAACCCGCGATATTAATGACATACATAAAGAAATATGTCAAAAAGTAAAACAAACATTTCCTGAATACAATTATAAATAATTTTAATTAATAATATTTTATATTATTAATTGAGAATAAAGCAAAACTTATAATTTCTTTTAAGTAGACTAGACAACTTTGCCCAACTTATATAAATAATAAATAGTTAGTAAAATAGAATGAAAGAAAAAAATAAAATTATTGTATTTCAAGATAAAAATATTAGAAAAATGTGGCATAATGACGAATGGTACTTTTCTGTTGTAGATATTATTTCCGTCTTAACTGACAGCCCCACTCCAAGACAATATTGGGGTAAAATCAAAGATAGAGAATTTAAAGCTTTTGAGTTGTCCCCAATTTGGGTACAACTGAAATTAATATCTCAAGATAGTAAATCTTACTCAACTGATTGTATAAATACAAAAAATGCATTTAGACTCATTCAGTCCGTTCCCTCAAAAAAAGCCGAACCCTTTAAACAATGGTTGGCACAAGTAGGACATGAAAGAATAGAAGAAATTGAAAATCCTGAACTAGGACAAAATAGAGTAAAAGAATATTATAAACTCAAAGGTTATCCAAAAGAATGGATTGATAAAAGACTGAGAGGAATTTCAATTAGACAAGAATTAACAGATGAATGGAAAAATAAAAACATCAAAACACAAAATGAGTTTGCAATTTTAACTAATGAAATATCAAAAGCAAGTTTTGGAAAAACAATTAGTGAATATAAAAAATTTAAAAATATTAAAAATAACAAACAAAATTTAAGAGATCACATGACAGATTGGGAATTAATTTTAAATATGATAGGAGAAAAAGCAACTACAGATATTACAAAATAAATTGATTCTCAAGGATTGGAAGAATGTAAAGACTCAGCCAATAAAGGTGGTAATATTGCAAAAAGAACAAGAAAGGATTTAGAAAAAAACATTGGAAAACAAATAGTTTCAAAAGAAAACTTTTTACCAAAACAAAAAAATAAAAAAAAGCTAAATTAAGCAAAACTTATAATTATTCTTTATATTAACAATAATATGAATATATTATTATTTTTTGCAAAAGACAATATTGCAAGTAAAAATTTATTTAATTTAATTAATAATAAATATGAATTTAATTTAATTGAAACTAAAAATAATTCGGAGTTATATAATGTTAAAGAATTAAATTGTCATGCAATTAATTTTGATTCGAATATGATTAATTGGGATCACATAAAAGATGAATTTAAATTAGATTATGATTTAATATTAGTTGCAAGTTCTCATAAAGCAGAGAGTGGTACAAAAAGTTTAACATTACATTTTACAGGAAATTTTAATGAAATAATGGGTAGTGGAAATGCAAAGGAATTATCTTATGCTCCGGCGTTTATCTGTTCAAAAGGAATTCAAATATTAAATGAAAGAAATGATAAGAATTTTTTAAATTTTGAAATCAGTTTAGAAACTACACACCATGGACCAACCTCATTAAATATACCACTTGTTTTTATTGAAGTTGGATCAAGTGAAAATGAATGGAATGATATTAATGCAATTAAAACATTATCTGAGGCAATCATTGACATTATAATTTATTTTTCTAATGAAAAAAATTACAAAGAAGAATTAAATAAAGATTCATATATTGGTTTTGGTGGAGGACATTATGCACAAGAATTTTCAAAAATAGCACTTATGGGAATTAATTTTGGACATATCGCACCTAAACATTATATTGATTCGTTAGATAATAATATGTTAAATCAAATGATAAAAAAAACAATTCCAAAACCAAAAGGTATAATAATTGATTGGAAAAGTTTGAATACTCAGACAAGAGAAAAAATAGTACCATTTTTTGAAAAAAATAATTATATAATATTAAAATCAGATAAATTAAAAAAAGAATTAAGAAATGAAATTATTATAAAAGAATAAATCTAAATAATATAAATATTTAAATAAAAAAAGTATCAACAAAATCTATGTTTAATTTAAATGAATATAAAATAATTTTAATACCGATTTTAGCATCATTAATTTGTCAATTAATAAAAATAATTTTAATAATTTTAAAACAAAAAAAAATTAATTTAAAACAGGCAATGTGGGCAGTTGGAATGCCAAGTTCACATTCTGCATTTTTTACTTCATTATTAATTACTATTGGAATTGTAGAAGGAATTAATTCTGCTGTTTTTGCAGTTGCATTATTATTTTCTTTAGCATATGTTTATGATATGATTTTAGTATTTAATGTAATTAATGATAATATAAAAGAATTGAAAAATCAATTAGGTCATTCGAGTTTAGAAGTAATTGTTGGAATTATAATTGGTATTATTATTGCATTAATTTTAAATTAAAAAAATTAATTAAAAGCAGTATCGTGTTTTCCTTCTTTTATTTCTTTAATCATCTTAATTGCTTTAAGACCATTACAAGTAACACCCATAGCGTTCATTGTACCTAGAATTTCTAATGATTTTGTTTTAATAGTAGCACCTAATAATCCATCAGCTTTCATATTTGCAACTTTTTTTACTTGATCTATTGTAAAATCTGCAACAAAATCTGATTGTGGTACTGCCGAACCAGATTTTATTCCTGCCTCTTGTTTAATTAATTGAGATGCAGGAGGAGTACCAATTTTAATAGTAAATTCTTTTGTATCAGTATCAACTATAACAGTAACTGGAACTTGCATTCCTTTAAAATCACTAGTTTTTTTATTAATATCTGAAACCACTTGACCAATATTAACTTTCAAAGGACCTAATTTTGGACCTAATGGAGGAGCTGCTGTAGCTTTTCCACCTTCTATTAAAACTTCTATAGATTCTTTTGCCATACAGGCAAGAAAATTATATCTATTTATAAAATTAGCCTAATTTAAAGCAAATTAGAAAGTTCATTTTCCAAATCACTTGAAAATTTTTCTGTAAATTGTGAATATAATGAAGGCTCTGATTCAATTACTTTACATCTATACGTTTCTAATAAAGCAAGACCATTTTTTAATTCATCCATATCAAATTCTTTTTGTTTTAAATCACTACTAAATAAATTTTTATTAAATCTATTATGACCATATAATTCAAACATTTTTTTTAAATTATCAAAATTATCATCAGGGATTTGTCTAAATTTATTAAAATGTACAAATGACTCGCCATCAAATTGTAATGTACCAAATTCCACAGAATTTAATAATTTAAATGAATCTAAATAATCACTATAAGAATCAAAATCATCATGACAAACAGAACCTAATTGTAAAGCTACATTTAAACTTTCAATTTTAGATAAGTAATCAGGATCTTTAAAATCTAATGAAAACATCGCATTAAATAATTTTTTTCCTTTTTTTTTCAATTCCAATAAATATAAATTACTTTCTTGAGAAGAAATTAATGGTTCATAAAAATCTGGACTTAAATCACAAATTTCATGAGATTTCCCATGAGGAAGTGATTCAACAATACTTAATTTAGTATAATTATTCATATTTATGACATACAATATGTGTTTTTAAACTAATACATTGTAGAATATGTAGTTCAAAGATTAACTACTGTGTTGTGGTGATTATTCAATTTATTTGATTTTTATCTAAAGATCTAATTTCACTCTTAAAAAATTCTTCTAAAAATATAGAAATAGATGAAAATTTGCTTAAAAGCTCAAAATAAGGCCTATTTAGGTTTTTAACAGATTTATCTACATCTAATATAGCCAAACCTATTTTGTTTTCATTTATAGCAATATTTTGATTATGTTGAAGTTTTAATTTAGTTTCCATATCTCTAATAAATTTACTTATTCTTAACATATCTTCACTAGCAGGAATTTTTCTATTTAATATAAAATGAAAATTATTAATTATTAAACTTGCAATTACTTTAGTAGTTTTACTTGATTTGAATATTTTGTTATAATCAGGTTCCCCTTGTCTATCATAAGCATGTTTTAATATCAATAGTAAATCTAAATAACCAGAACCTTTTGTTTCAGTTCTAAATGGAATATCAATAACTTTAACTGATAAAGGCTTTAATTTTTCTAAAAAAATTTTATCATGATCCCTCATTGCTTCATTAAAAAGATTTTCAAACGCCACATTATTAGGCTTAGCCATATATAATTTTTGATAATTCATTTCCATTAATTTGTAATATCTTAACATTAAATCCAAATAAATTAAAAAATATACATTTTGATCTAATCTATGTGCACGAATTAATTTTACAGCAGAAGGCATAACACTCAATGAATTCCACATTCTGCCTAAAATAGTACTTTCAACATTATAACCCTCATGTCTAATTTCAGCATGAAGTTTTTTTAAATAAATATTTATTTTTCTATCAAATTCAATTGAATCTTTAATTTTATCTAAATTATCTTTAAATAAATTTAAACCAGAATTTAAATTTTCAACTAATTGAAAATTAATTTTTGCTCTATCTTTGATATTATTATTATTTGAATTAGAAAATTTAACTATTTGCAAATTATATTCTTCAATTAATTTAGATAAGATATAAATTTCTTTTTCTAATTGAATCATATTTAATTCACATTTATTAAATTCGATGTTAATTTCTGTTACTATGTTATTACCACGTGCTATAATGTCTTTATTTAAATCTTTTTTAATAAAATTTTGATTAGATTCAAAACTGTTTCCAGGAGCAAAATGTTCTGTTAGAAATTCAATTTCTTCTGAATCAATTATTAATATTGCTTTTGATACGGAATCCAAAATTTCACCAATTTTATTTAATACAAAAAAAATTGAATAAATTTGTTTTGAAAAATTATTTCTTGGCGTACTAATTACTCCACGATTTTGATCTAAAACATCACCAGATAATTTACTCATTGAAAAATCCATTTTATTTTCTGAATGTAAATATCTTGAAATTTGATCAGATTGTGATCTTAAAATAACTCCTAATTTTTTTAATTCAGAATCATTTTCTTCAAAATTTTTATTAACAATATGTTGAGTTGAACTAACATCACTTGAAATTTCACTTAAATCCATATTTATAAAATGCATAATCTGATTTATAAAATTAGCTATCTAATTTTGAAATTAATGACCTCATAACATTAAAATCAAGTCCAATTTGTTCAAATTTTGTTGCATGTTTTGAATCAGCTCTTAACATTTCTAAACTTAAATTTGAAACATACCATAAAAATGTTTTTTCTTGTTTACAAAAATCTAATTCACTATTTAATATAAAATTAGTATAATCCTTTAAATCAAATTCAAAACCCTTATGCTCAAAATATCTTTTTGAATATTTAAAATAATTTGAAAATATAAACATTTGATAATTATAAAAATCATTAAATTGCATTTTTCTAAAATTATCATCACTATAATGTTGCATAAATTCACTTGCACCTTGTTTATAATTTTCAATTGATAAAAATCGACCTAATGGGGATTTCATTAATTTTTCTTTTAATTTTTTTGAATCAAAATTTTCATTTATATAATCATCTAAATAATCTATAAAATTAGAATCAGAATTATCTTTACCTTGAATATTCATAATGAATTTTGATAAATCTTTATCACAACCAGATATAATATTTTCATATAACATATTTAATTCAGTTTGAGATTCAAATTTAAAAAAAGAATTTAAATAATTTTCATTATCAATAATTAAAAATCTAAGTGCATTTAAAAAAATTTCAAATCTCATCTCTTTTTCATTTAAATCGTTTGGCAAAATCCATTCAAAATTGGTTTTTGAATCAAATAAAAAATTCAATCTATAATTAATTGCAGATGCGCTATATTTGTATAATTTTTCAACTCTTGATTTTGATAAAATTGAAAGTGAAGATAATTCATAAATTTGTTTTAAATCTCCACTAACTGAATTATTTTGATTACCTTTAAAAATTGAAAATGATTGTTCTAAATTATTTTTATCTAATACAAGTGGACGCTCATATAATTTTGAACCAGTTTCAATTGTATATCTAATTATTTTTTCTGCATAACTTTGATATGGTTTTGAAAAAAAAATATATTGATTTGAATTTTTAAGTGTAGGAGAAAAATTAATATCATATTCCCTTGAAAATAATAAACTAAAATAAATATCCATTTCTTTTTTTAATTGCTTTAATAATAATTTATTATTTTCAAAATAATCACTATTTAATTCAATATTAATATCAATATCACTTTCGCCCATAGCAATGCCGTTAATAATTTCACATAAATCATATTCATTTTTTGATTGTTGAATAGAACCAAAAAAATAAATTGAACTAATATTGGATTTAAATTCATCTAATGAATTAGATGATATTCGTTTAATGGAAGTTACATAATCCTTAAAGTCAATAGAAGGATTTTGTGATTTAATAAAAATTAAATTATTATCTAAAGAATCACCTAAAGAAAAAAATAAGTCTAATGCTTTTTTTGTTTGCACTTCATAAAAATTACTTATATTTATTTTTTCTGATGATAAATCACTAGATAAATTAATTTGAGGAAATTCCATTAAGTTACAAAAATAAATGTTTTTTTTAAAAATATGCTTACTGTATTATATATAAAAATTAAAAATTATTTGACAAATCTGATTCATTACCTTTTAATCTATTTGCAGCAATTACATCATCAGTTCTTAAAATCATAATTGCAACTTCTGTTGCACTTTTTAATGCTTGTAATTTTACTTTTAATGGTTCTAATATGCCATGTTCTTTTGCATCAATAATTGAACCATTTTCAACATTTACACCAGGCCACGTTAAACCAGAATATAATTTACTTTTCATATCTGCAATAATATCAATTGGATCTAAACCGGCATTTTCTGATAATATGGATGGAATAATTTCAATTGCATTTGCATATGACAATACAGCTAATTGTTCTCTCCCACTCAAAGTATTTGCATATTTTTTTAATTCATCTGCAAGTTTAATTTCAACTGAACCAGCACCACAAACAACTTTTTTATATTTTAATGAAACAATAATATCTCTTAAAGAATCATCTAATGCCCGTTCTATTTCAGATAAAACATGTTCAGTACCACCACGAATTAAAATTGTAGATGATTTTGGATTTTTACAACCAGAAACAAAAATCATTTCATGGTCACTTATTTTTTTTTGTTCAACAATATTTGCATAACCCAAACTAGAATTATTTATTGCGTCAATATTATTTACAATTTTTGCACCTGTTGCAAGTGATAATTTTTCAATATCATCTTTTGTAATTCTCCTTACTGCAAAAATATTATTTTCAGATAATAAATGTTGAGCATAATCATCAATTCCTTTTTGAACAAAAACTACATTTGCACCAGACGATATTATTTTATCCACTTTGTTTTTAATTATAGTTTCTTCTTGATTTAAAAAAGATTGAATTTGTGATGGATCAGTAATTTGAATTTTTGCATCAAATTCAATATCTTTATGTTCTAATGGACAAGACATAATTAAAATTTTAGCTTCATTAACTTTATTTGGCATTGAATGAAGTAATTTATTTTTATCAAGTAAAATTCCATCTATTAATTGAGTATCTTCAATAGAGCCACCAACTTTTTTTTGAAATTTAATTGCATTTATATCAATATCACATTCATCATTTTCAACTATATTTTTTACACAATTAACTAAAATTTTACTTAAATGTTCTTTTGAAAATTCTGCACCTTTCCCAGTCATTGCAGTTTGACAAATATTAATTAATTTATCAGTATCATTTATTGAAATATCAAAACTCATTTCATTTAAAATTTGATTAGATTTTTTTTGTGCTAAATTAAATCCTTTAACTAAAATAGTTGGATGAATTTTTTTATACAATAATTCTTCTGCATTTTTTAAAAATTCTCCTGCAAAAATTACTGCAGTTGTAGTACCATCACCAACTTCAGATTCTTGTGTTTTTGCAATTTCAACAATCATTTTGGCAGTTGGATGTTCAATTTGCATTTCTCTTAAAATTGTAACCCCATCATTAGTAACAATTATATCTCCTAATGAATCAACTAACATTTTATCCATTCCTTTTGGACCTAATGTACTTTTAATTGTTTGTGCAACTAGTTTTGCTGCAAGAATATTATTTCTTTGTGCATCTCGTCCTTCTTTTCTTTGAGTATTTTCTGATATAATATTTTCATTAGTCATTTTACATAAAATTCCTTTCTTTTTGTAATAATTCTCTTCTTTTTTTCTCTAACCATTTATATACTGAACTATGTGGTGAACCAGTCAATAAACTCTCAACTGCTCGTCTTGCAATTGACACATTTTCAAGACGTCCTAAAATTGAAATTGTTTTACCATAAACATTAATATTGCAATCAGCTAATGATTCAATTGTAGTTCTACTTTTTCCATCCTTTCCAATAACTCTACCTTTTAATCTCATAAATTGAGAAGGTGAAGTTGAACCATAATCACTCAGATATAATATTTCTAATGAAAAATCAGGTTTTAATAGATTTAATGAAATATCTGGATTGAAACCACGGCCTATAGATTTTATTATATTTTGTGCTGTTAAAATATCTAGGGCATCATTAGAACTAATAGCCACATCCCCCTCTTTTGAGTCAATATCTAATTTAACATTTAAATTATCTTCAATTTTCTCTTTAACACTACCACCAACACCTATTAATATTGCAATCCTTGCCTTTGGAATTTTTATATCATTCCTAAATTCAAAATCCATATTTCCAAAATATTTAGTTTTCTTTTAAATGTTTCGTAAGGGAAAAAAGACTGATAATTTAATAAAAATAAAAATAAATAAAAATTTAATAATTTACAAATTTTCAGAAGTAATTATTTGCACTGAATCAGTAGATTTTAATTTACTTGACATACAAACCAATTTTTTCATTCCATTTTTTTCAGCTAATTTAATCAATTGTGCATTTACTCCACCATCAAAAATTGCTATTTCAGCACTAGAACTAAATGATTTTAATGCATTTGGAAGCTCCAAAAATGGTACTCTTTTTACTTCTTTTAAACTTTTATCTAATAATATTGCAGCTCTTGAACCAATTAAATCTTCTAAATATTTTTTAAATTTAGATTTTTGACCATCAGTTAAATCCATTTTACTTACTTCTTTTGATTTGGATGCTTGAACTGGACTAGCACTAGAACTAATAGTTTTTTTTACAGCCACCGTTTTAGTAGTTTTTTTAACATTTGTATTTGTATTTGGTGAACTTCTACTAAATTGATTAAATGCAGTATTTTTTACAATTGGTGATCTTTGATGCACATTATTATTTCTTTGTAAAATTGGTTTTCTTTGATTATATGAACTTCTTGGAGCTTCTTTTGTTTTTACACTCCAAGTAGAATTTCCATATTCATTTAACCATGCTTCAACTGCTAATTTTCCTCGTAAAGATTTATGAAGTTCTTTTTTAGTCAATTCCTCAACTTCTTTACCATCACTTGCTTTTACAAGAAAATCAATATCACATAATTGAATTAAAGTTTTTATATTTAAATCTCCACCTCTATCCCCATCACAAAAAACTGTAACTTCTTTTTGACTTGATAGTTCAATTAATGATTTTGGTACTGAAGATCCATTCATTGAAATTGCATTTTTAAAACCATGTTTTAATAAATTAATTACATCTGCCCTACCTTCAACAATTATAATTTCATCAGAGTCTAAAACACCCGGGCCACAATCTAATTTTTCTGGTCCATAATTAGTAAGTTCCATAACCCTTACTGATTGTGCTACCTCATCAGCCAATTCTTGTGAATCTGGCATATGTGATTCTATTAAATTCTTTAATATATCTTTTGCCCGAGTTACAACTGCTTGTCTTTTTGTAATTCTTACATCTTCGATTTTTTGAACTTTAATTTCTGAATTACATGGACCAATTCTTTGAATAACTTCTAAAGCAGCTCCAACTATAGCAGTTTCTGCCTTATCTAAAGAACTTGGAAGTATAATTACACCCGTTGCTTTTCCAAATTTTGATTCTAAATCTACTTCAATCCTTCCAATTTTTCCAGATCGTTGTAATTCTCTCAATTCTAAATCTGAGCCTAAAAGACCCTCTGTTTGTCCGAAAATTGCTCCAATTACATCTGGTCTGTCCACAGAACCTTCAACTGTAATTTTTGCATGAATATTATATTTAGTTGATATTGGACTAATTTTTGCCATTTTAACATCCCCACGTTTATTTATTTTTTAATTATTTTTTTAACATTTAATACTAAACACTCAAAGAATTAGCTAAATATACAATTAATAAGCCCTTTAAAATAAATTAAGCTTTTATCATATAATACATTATTGAATAATTGTGAATTTAATGTGTGTGTGCTAATAATATTGAATATTTGAATATGAATGTTGCCAATTCATCTAACTCCCAACTTCATAGCTTGACTTTGTCGTGAACTCCATTGAGTACTCTCAGATCTTGGCAGATACTAAGTATCAGTTTGATTGAATCATACTTAGTTTATATAGTTTACGAAAACCTTATTCAGGAAAAATATGGACTTAAAATCAATAAAATTTAAATAAATTAACTGCTTAATATATTATTAGTATTTGATAATATTATTTAAAAAAGCGGGGATAAAATGATAGAATTAGGTGGAAATATAAGCCTTGAAGGCTTTAAAGATGTGGATAATAGCGAAATGACAATTATAAAAAAAATTGTTGGAAATTCTACAAAAAAAATAAATGATTATTGTAAATCATTTGAAAAATTTAAAGTAGTCTTAAAAAATATACATTCTACAGAAGGAAGCAAAAAATTTGAATTAAATGTTTCTGTTTTAAATGCAGGTCAATTAACTACAAGTCAAGTTGTTGACCGAAATTTATTTATTGGATTATCTTCAGCAATAAGAAAAATTGAAACTCAATTAAATAAATAATAATTTTTTATTTTTTTTAATAAATATTTCAACATATATATTTATAAACCAATATTGCTCAAAATAAAATATGGTGTGGGAGACTGAAGATACTATAGATATAATATTGAGTGTTGTAATAACAGCATTAGGATTAATTCCATTATTAAATAATTATAATATTATTTCATTTGCACTTCCTGCAATATTTTCAAACACTATTCTAGTTTATGCAATTACATTAATTGCAATTTATTTAATTATAACAGGATTTAGATATTATTCAGATTCAGTAATGAAATGGCCAACATTATTGGTTGGAGGTATTGTATTCTTATTAGGTCTTGCTAATATTTTAGGAAAATTTGATGTTTTAAATTTTGCTGGAGAAGCTAATTTTGCAATTTTTATGAATATTATTTATACTTTAGTTGGAATATTTTTATTATTAACTGCATTTACATATAAATAAAAATTCATTCATATCTTAAACATTCTACAATTTTTAATTTAACTGCCCTTATTGCAGGAATTAATCCAGCTATCATTCCAACAATAAATGTTCCTATTATTGTATAAAATAATAATGGATAATCAAAAGTAATTGTAAGTAAATTAAATCCACCTAACTTTGCACCAAAAGAAATTAAAAATGCAAACAAGTAACCAAAAATCACTCCAATAACTCCACCTATTAAACCCATTATTCCTGAATCAATTAAAATTATTGTAAATATATTTATATTTTTTGCACCCAGTGCTTTCATTATTCCAATTTCTTTTGTTCTTTCATAAACAGATGTAAACATAGAATTCATAATACCTAATGCACCAACAAATAAACTAATGGATGCAATTGAAATTAAAATTGCTTTTATTATATCTAATATATTATTAATTTGATTCATTATAGATTGAGCAGTATAAACTTCAAAATTCTCATCGTCACGGGTTCTTTTTAATTTTTTTATAATTGATTCCGCTAAATCATCATAAAGAATTCCTTTATTTGCTTTTACAGTTATTAAAGATACAATATTTTTTTGATCAAATTGCCTTTGTGCAGTAAGTAGTGGAATTCTAATGGAATTATCTAATATTTGTGAACCTGTTTTTTTGTAAATTCCAATTACTTTATATTTTTTACCGCCAATAATTATACTATTTTTTGAATTTATTTTTTTTTCAAAAAAATCATTTGCAACATAATATCCAATAATTGCAACATTATTATCTGAAGGAACTATATGCCGTCCAGAAAGCAATTTAATATTTAAATCTTCATCATCTTTTTTTATTATTTTGGGATTAACTCCAACTACGCCAATTGATTTTTCTTCTTTTGAAAATTCAATAATAGCATTATTAATTAAAAATTCTGATACATAGTCAACACCAGGTATTCTTTTAATTTGTTCTACATCTTTTATAGTTATGTCTTCTCTACCAATAGGTGGACCTTGTAAACTTCCAGGAACTACTCTTAATTTATTCCCAGCTATTTTTAATACTTGATCTTCAACTGCATTTTGCATACCTTGCCCTAATGCAATTAATGCTACAATAGTTAAAGTACCTAAAACAATTCCAATTATTGTAAGCCAACTCCTTACTTTTTTTTTTCTTAAATTGTTTATACTTAATTTAAAAAAATCTAAAATCATTTTTGCAATGCCTCCACCGGTTTTAATTTGGATGCTGAATAAGCAGGACTTAAACCTGATAAAATTCCAAAAAACATTGCAAATAAAATAGAAAATATAATTAAATTTACATCTAAATTTATTATTATACCAATTGGACTATAAATGGATACAATATATTCAATTAATTTTGCTATACTAATTCCAAGTATTGTACCAACAATTCCACCTAATAAACCTATAATACTACTTTCAATTAAAAATAATTTTAAAATATCTTTTTTTTGAGCACCTAATGATTTAAAAATTCCAATTTCATATTTTCTTTCACTAACTGCAGTATACATAGAATTTGTAATTCCAATTGACCCCACTAATAAACTAATGATTGCAATTCCTATAATAACAGTTTTTATTATACCTAAAACATTATTTGTTTGTTCTAATAATTGATCTGGTGTAATTAATGAATAATCAGTTTTCCCTCTAGATTTTTCTAAACGCCTATCAATTTTTTCACTTATTTTTAAAACATCAGAATTTGGATTAACTATAATGTCTGCAAAAGAAATTTTATCTGGTTTATTAATTAATTCTCTAAGTAAGTTCATAGAAACATAAATTACTTTATCATCTTGATCTGCTCCAACTCTTTCAAAAATACCAACAACTTTAAATTTATTTTTTAAAAATTCAATGGAGTTTCCAACATTTATTTTTTTATTAAATGCAGTATTTGAAGTAGCCCAACCTATTATTACATTATAATTATCTTTATTTGACAAATATCTTCCATCAGTTAAACTAATTCCATAATCATTAACAAATAAACGCTCCCAATTTTCATAATCCAAACCACGAATTTGAATTATATTTTTTTCATTTTTATAATTAACTTCTTCAGTCGAAACTAACATTTTTACAACACTATCAATTCCAGGTGTACGCTCAACAACTTTAATATCTTTTTCACTCAAACTACTTACTGCAAGATTAGATTCCAATCCACCTTCACTAGTTAAAAAAATTCGGTTTGAACCAATTTTATCAAATTCACTTTCAATTGAATTTTCAAGCCCGTTTGAAAGTAATAATAAACTAAGTATTGCAGAAATTGCAACGACAATACCTAAAATGGTAAGAAAGGTTCTTAACTTTCGTTTACTTATATTTTTTATCGCAATTTTTAAAAAATCTAATATCATATAAAATCATACTAAGTTTTTTTTGCTATAAAATAATATATTATTGCACCAACAACATTACCTGCAATTAATAAAAAAATCCATATATATTTTTCTCTTTTATTGAGTTTAATATTATTTAATAAATTAATTAACATAAAAAGCCAAAATGAAAAACATACTGCAAAAATTGTTAGATTAACAAATAACCAATTTTGTTTTTTTTCAATAATTCCTAAAGTATACGCGTCATCTCTATTATATACTTCAACATTAATTTCTTTTTGTTCATTATATACTTTATTAAAATCATCTTTAAAAAACAAATTAAACTTAATAGACATATCACCATCCCTATTTGGTTTTATAAAAAATTCTGCTGAATCTAAATCATCAGAATCCAAATTACCAATATATTCATTTTGAGATTTGCCTATATCATAATATTCACTCTCTTCAATTTTAATATTTAAAAATTTTAATTCACTAATTCCAGTATTACTAATATCTAATATAATAGAACCTAAATTTTCTTCAACCAAACCATTAGTTTCTTTTAAATTTAAAATAAATGATGGTGGATTTGAAACTACTGCTGCAAAAACTCCATTTTCTGTAAATTCTTTTCTATCAAAATTTTTATAATTATATGTAAAAGGAATTTTATATACTTTAGATTCTATATTTGGATCAATTATTAATTCATATTCAATTTCAAAATCAGTATTTGGTTCAATATAATCTATTGTTTTTCTACCAGTTGAACCATAAGGTGCAATTTTTAAATTATCTAAATTTAAACTAACATCAAAATTATATAATCCTTCTTCATTACCATTATGAAATTGTATTTTTATTTTAGAAATATCTCCTGGCTTTAATTGTTCATTTGAATAAGTTACTCCTCTTACTGCAATGTCAGATGTTACTTTTTCAACTTTTAATTGAAAAGAATCCCATAAATGTTTTGAAATTCCACTTATAATATTAACACTAATTGGATGGTCACCACTATTTACATTTGGTGAAACTTGTGCAGTTGTGTAAAATAATATACTCTCAGATCCAATAATATCTAAATAAAGATCACCAAAATCAAATTCTTTTTCACCAATAAAGGTTAAAATATTTGAATCTTCCAATCTAATTTTTACATTATTAATCGTATCCTTACCAGTATTTTGTAATCTAAACTTAAGATCAACAGTATCACCAGGTTTTACAATTTCTGGATCTTGTGAAATTAAATCTAATTGTAAACCAAATTTATTTCTAAAAGTATTTGCACCAGTAAACGCACTAAAAATAATTACAAGTACTAATAACAATATAATTTTTTTATTATTTTTATTTAACATTTTTTAATCACACTCATTTTATTCTTATTGAATTTATAATTTTTATTATCTTTTTTTTCTTTTTTTTATAAGTTGCCCATCTTTTAATAATAATTCAATATCAGTAATTTTTGCAATCTCATTATCATGGGTTACAATAATAATGGTTTTATTTTGCTCTCGATTTAATTTTAATAAAAAATCTATAATGTTTTTACCATTTTTTGAATCTAGATTTCCAGTTGGCTCATCACATAATAAAACTTCAGGATCATTAACAAGAGAACGAGCTATTGCAACTCTTTGTTGTTCACCACCAGACATTTCACTAGGCATATGATGCATTCGTTTTTCTAATCCAACTAAACTTAAATATTTTTTTGCAATTTTATGCCTAGTGGCAATATCAATATTTTGAAAAATCATTGGAAGTGAAACATTATCTAATGCAGATAAGGTTTTTATTAAATTAAAATTTTGAAAAATAAATCCTATTTTTTTACCCCTTATTTGAGCTAAATTACTCTCATCCAACATTGCAATATTTTTACCATCTAAATAAACAATTCCTTTATTTGGAGTATCTAAACACCCAATCATATTAATACATGTTGATTTACCAGAACCAGATGGTCCAATAATAGACACAAATTCTCCCTTTTTAATATCTAAAGAAATTCCTTTAAGGGCACTTACACTAACTTTACCCATTTTATATTCTTTATATACATTTACAAGTTTTATTACTTCATCCATTTTAAAAATTAATAATCAGTTAATTATAATAATTAGATTTAAATTAAAAAGTTATTGTCTCAATTCTTTTAATTTAGACATTAAAATATCTCTATTTAATTCTTCTTTATCAACTGATCTAATTAAAAGATCTTTTACTTTAGAAACAAAATTCTTTTCATTAAATTTAACACCTGCAAGAACACCTGCAATTTTTTTATATTCTTTTGAAACATCGGAATTAGGATATAATTGAGTTATAGGAACTAATTTACTTAATGCTTCTAAAACTTTATGATCATCTCTAATACTTGCAAGCACAGGAGTTTGTGTTGAATTTTGTATATCATTTATTGACAATTCATATTTTTTATTTCTAACTTTATTTAAAATTAAACCAGCAATTGGAATATTACTTGATTTTGCAACTTTAACTGCTTGCATAGTAGTAGATAATGTTGGATAATCTGGCGTTGTAATTAGAAATAGAAAATCACTAGATTCTACTACACCCATAATTTCATTATTTAAATTAGGTGATGAATCTAAAATTATTAAATCATAATCTTTTTTAGCTCTATTAATTATTTTTTTTAATTTATATGGATTAACTTTTTTATTTAATAAATTTGCAGGAATAATGTCAAATCCTAAATTGTGTGTATAAATTGAATCTTTATATTTGGAATATCCATTTAAAACGTGATGTAATGTTATTTCTGGATTAATAAGTCCAAAATGTAAGCCTAAGTTTGGTGCAGAAAAGTTACCATCAACTATTAATACTTTTTTATTAAATGATTTTGAAAGAATATGACCAAGGCTAGCAACAGTTGTAGTTTTACCAACACCACCTTTAATAGAAATTATTCCAAAAACTTTAGCACCCATGATGACCTCTTTTTATATTATACAATATATAATAAGAAATGCTAAACTATGTTTATAAATGTTACTTTAAAAACTATTCAAAATATTTTTTTTCTTTTTTTATAGCAACTGGATCTTCACCACCATGCCAAGTAAATCTTGGACGAAATTGCATTGGATACATTCTTTCATTATTATCATCAAAAATAATTGATGCACCTTTTTTTTTTGGTAATTCATTTAGGTAACCATCTAAACCAGATCTCATATAAGATTGCATTAATGTACCAAGTGCATCAGTATCAATTTTTGCAGTAATTCTATGCGAAATAACAGTATCACTTTGCGTTAATACGTCTGTATGTATTTTACCGGGTTGTTGAGTTGCTAAAATCATACTAATACCTGGTTGCCGTCCTTCTCTTAAGATTGTAATTAATGAATCAGTTGCAAGTGTTTTTCCATGAACTGGTAAAAACTCATGTGCTTCATCAATAATTAACCAAACCATTGGCATTTCTTGTTTTTTTTTTGATGCATCTTTTTGAGTAAAATAATGCATTGATTGATTAATTGCCTCAAACTCTTCATACTTTCTTGAAATCATTCTATAATTAAACAATTTTTTTGCAACTAAGCCAATAACCATTGACTTGATTTCCCATCCATTTTTAACAGTAGCATATGCAGAAACATCAAGTATACTAACTTGTCCTCCTTTTGAGAGTGAAATTAAATCAGTACCATTTTTATCAAATATTCCCCAATTAATTGCATTTTCTAATAAATTAGTTAAAGCTAATTTGGTATTTTTTTCTATATCTTCTTCTTTTTTAACATATTTTATTATTTCTGACAAATCATAATCTGAAGTTATTTTATGTATTTTATTTAATACATTTTCAAAAACAATTCCAATAGGACCATATTGATCAATTTTAAATAACATAGCCCAATCAGTAATTTCCATTTCTTTTGGTTTTATTGCAAATGGTACATCAACAGGAATTCCCCTTTTTTTATAATCATTATAAAAACCAATAGGACAATAAATATTAACATTTAATGGTTTTGCAGAAACACCCCATTCTTTTAATATGGATTCTTCTTTTTTATTTGGATATTTCATAGTCCAATAAATTCCCATAGTATCTAACATTATAATTGATAAGTTTTGAGATATTTCTGGCTCTAAATCAATCATACCCTCGGCAATTACACCCATAGTATAACTTTTACCCGTTCCTCTTTTACCAACAACAAAAATTTGATGTGCTCTAGATACATCTAAATAGACAGGATTTGCTAAACTAACATCATGACCCATTTTAATATATGATTTTCCAATATAAACAGTACCCTTTTTACCCCATTTTTTTTTATCAGAAGAACTTCTACCAACAACTATGTCAATCATATATTAATTTAATATTATTTGATTTATAAATCACACTAAAAAAAAGCAATAATGGGATAATAAAGTTGGTAAGTTTGGATGGCAAGCTTTATTATCAAACAATTAAATATCTTTTTGCCGTTCCCAGATATAAAATTTTTATATTGCCCCATTTTAATTATTCAACAATAAAATATGAACTTTTTGTATGTATAGTACGGGATAACGTAATTTTATTAATAAATCAATTATCTTTATAAATAAATCAAAAAGACAGATAATAGAATCATTTTGTTAAATACAAAAAGATATCGGAGATTAAAATGGTAAAAAATTTTTTAAAAGTACAATGTAAAGAATGTAATAATGAACAAAATATTTTTGGCTATGCAAAATCTATTGTAAAGTGTGTGGTTTGTAAAAATGTTTTAGCAAAACCAACTGGCGGAAAAGCAAAGTTAGAAAAAGCTGAATTAAAAGAGGAGCTTGAATGTTAATAAAAAGAGAAGGCCTTCCAGATCTTAGCGAAATTGTAATATGCACAGTAAAAAGTATTTCTAATGCAATAGTATTTGTAAATTTAGATGAATATGAAAATAAACAAGGACTAATACATATCTCAGAGATTTCCCCAGGTAGAATTCGAAATATTAGAGATTATGTAAAAGAAGGAAAAAAAATTGTTTGTAAAATATTAACAGTAAATAAAGAGAAAAATCAAATTGATTTATCTTTGAGAAGAGTTAATGAAAGTGCAAGAAGAGAAAAAGTTGATGAACTTAAACATGAAAAAATTGCTGAGAGTATTATTGACTCAAGTGCAAAAGAATTGAAATTAAAAACTATAGAATTATATAAAATAATTTGGAAAAAAATAAATAAAAATTATGATTATTTCTATCCTCTATTTGAAGAAACTGTTGTTGAAGGAGAATCAAAATTAGAAAAATTAAAAATTGATGAAAATCAAATTAAAGTATTGTGTAAATATATTAAACAAAGAATTAAACCACCTGTTATTGAAATAGATGGAAAATACAATATTTTTTCATATAGACCCAATGGAGCAGAATGCATAAAAGAAATTTTTAAGAAAGCAATTAAAAAAGTAAAAGATGATGAAGTTGTTTTCAAATATATCGGATCTGGGATTTATTCATTTAAAGTAAAAGCAAAAACATATCAAGATGGTGAAAATATAATTAAAAAATTTCACCCATTATTTGAAAATGAATTTAATGATGATCCAATGACTACTTATAGTTTTGATAGACAAAAAAAAAGTAATAAGTAAAAATGGCAAAGTCAATAAATAAATGTCATGAGTGTAATATTTATTCTATAAAGGACAGTTGTCCTAATTGTAATAATAAAATTAGTGAAGAAAAACCAGGTAAATTTTCTGTTGAAGACAAATATGGTGAATATAGAAGAAAAGCTAAAAAGGAAATATTAAAAGAAAAAAATTTATATTAATCCATAGCTAAAAATCTATTTGTATATTGATAATCATCACCAATTATTTTTAATTCATATTCGCCAACAGTGATATTTGAAATATTATACTCATTTGAAAAAGCTCCAATCAATACATCTTCTGTTTGATTAATAATAATTTTTCCTTCATTTAAATCGTAAAATAAAATATTAATTTTTTCATTAAATACTACACCAGATTTTAAAATAATTAAATTATTCTGATCAATATTTATTTGATCTAATTCTTTTTTAGATGTACTATTTTCCAAAATATAAGAGTCAAAACTGGGAGTTAAAAAACTTAAAAAATAAAATACTATGAAAACAATTGCAACTATTAATGCCCACTTAAATAAAAATTTTAAAATTTTATATATGAAAATTAATAAAAATAATACAATTAATATAATAATAATTTCTTTTATCATTCTTTACTAAAGATTTTTTTAAATTCGTCTAAAATATTAGATTTTAAATCGCTTTTATTTTCTATTGATTCTAAATCATTTTCTTCCACTTCATTTAATTCTTCTTTATCCTCTACTTCATTATCACTTTCAGAAATATTTTTTATATCAAATCTATTTTTTAATTGAAAAATGACATCATTTTTATCAATTGAATTATTAATTTCACTAGAATTTAATTCCACTTCTTTTTGTTCCATTTGCTCAGAAATTGAACTTTGTTCAGTATTTAAATCATTTATATGAACAAAATTTGTATCTTTTTTAAATATTTTACCAAATAAATTTTGAAATTTTGAATCTTTATTACTATTTTTTAATTTTAAATCTCCTTTTTCAAAAAAAAGCCCTCCTGAAAAATTTTTATCTTTAAGTTTAAGTCCATCTATGTATGAACCAGACTCAGAAACAGAATTACTTAAATTTTGTTTTAATTTTTTTGATTTATCTTCAGAAATATTTTGACATACTTTTAAAAAATCTAATTTAAAATTACCATCAAAATTTAAATTATTTGTTAAATTCTCATCAAATTTTTGATCAAAATTATTTGAACTTGAAATTTTAATCTTATCATTAGAGGGGATTTCCCTTGTTTTGTCTTTTTCGAGTAATTCTGCAACTCTTTTATTTTTTTTAGGATTTATTATATCCTCATACTTAATATCCAATCAAACACCCTTTTTAATAAAAATATAGACAATTTTCTTTATAAATTTATTTTAATCATCATCATTTATATCATTATATGACATTTTATGAATAAACTTTTTATGTTTATCAATTAATGACTTAACTTTTTTTGATTTATTGAAAATTTCCGATTTATGATTTCTCTTATATAATTCTTTTTTATGATTCAAATATGACTTTAAACCAAATTTAGATCTATTTGTATTTAAATTATCATTATTATTTGATTTTTTAACTTTATTAAAATCAAAAACTACAAATGCACACAATACTAATGCAATTGCAAAAAATGCATATAATGAATTACTAGAAAAATCACTTAAATTCAAATTAAATCCGCCTGTTAAATCATTTTCAATCTTAGTAATTGAATTATTATTATTATATTCAGGTAAATTATAATTTTCTTTATAATTAGTATTTGAAATTTCTGATAATAAATTATCTATTAAAAAAATATCACTCTCATCAAAATCTTGAAAAAATTCATTTTTTTCTATATAATTATTTAATTTTTCTAAATCTAATTCATTAATTAAACTAATATTATCAAACATTACAATAATTTCCTCAAATTTATATTTTTCCTTTGAATTTTCTAAATTCCACTCAATAATATAAATCCCTTTTTTATCAAAACTATAATCTAATGAAATTAAATTATCCTTATTTAAAATTATATTTAAATTATCAATTTTATCTAATAATTTACCATCTTTTTTAATTAATAAATAGAAATTAAAATCATTTTTAGAAATATTATCAGGTAATTTAACTTTTAAATTTAATAAAAAATCATCATTTATTTGAATAATATTATCACTATTCCCAATTAATTCAATTTGATTAGCAGAAGAAAAATTAATTAAAAACATACTAATTAAAATTAATGATAAAAAAAATCTAAATATTTTAATACACATGATATATTTTAGTAAATAGAGTTAATAAATATTTCTTTATAAAAAAATTAAAAAATTATTTTAACAAGTTATGGCTTGAATAAAAACGTAAACCATTGGATTTTAATTCATAAATATGGGCACCAACATTAACATCAGATTCTTTAAGTAGTGACATCTCACCTATAACTCCAACAGATTCAATCATATCTGATAAATTTCCTTTATTTAATCTCTCATTAAATTCTAATGTCACTAATCTTTTTTTAGTATCTAAATCTACTAAAGTGTCTTCATTAAAATGTGAAATTAACTTTGTTCCAATTAAAGGAATTCTTTCACCCACAACATTCAGTGTAGTTAATAAATCAGAATATGTTTTATCATCTATAAATACACCAACCATACCCTCTCTTGTCATCAAGTGTAATTTATGTCCAGAATCCACATAATCAAACTCTGTCTGTCTGTAAAGAAATTTAAATTTTTGTTTTTCATCTAAACGTTTTCTAAGATCAGTACTAAAAATATCCCCACCTGTCCATGCATCAACAATCCATGCAGCATATTTGAAACTATTAATGGGATCATAAGCATGTCTTAAACCAGTTTTTAATGCATCTAAATTTTCAAGTGTACAATTACTATACCAAGATTTATTATTTTCCATTTTATTTTAGTTGATTGATATTATTTATAATAATTATGAACATTAAAAATATAAGCTCTTGGTGAATATAGAAAAAGAATCAAACGACATGGCAAAGTATTTTAATAATTTAGAAAAAAGCTATACAGATTTTCTTAACATATCAAAAAAAAAATTAAAAAATTAACTAAGGTCTTGAGTTGAATAGAACAATAAACCTTTATTATTTAAACGATAAAAATGAACGGGGATCTTATCACTAAATAAATTTATTATATTTCCAGCATTCTTAATTAAAGTATCTAAATTTTTATCTTGATCTGATTTTTTATATTCTAAAGTCAATAAATTTTCTCTTGTATCCAAATCAGTAAAGGTTTGTTCACTAGTATAAACTCCCAATCTTCTTTTTAATAAAGAACTTGGATCTTCTGAACCAACAACACCTAATAAATTCTTAAAAATTGATTCATTTAAATTTACAAATACCATTCCATCTCGAGTTATTAAATGCATATTCCATCCTGAAAATAAATCAACATCAGTATCACCATGTAAGAACTTAAAATGGTTTGTTTGTTTTTTCAGTTCAAGTGAAGTGTCATAATCCAAAAGAGGTCCCTTATTCCAAACATCAACAATAAATGCACCATAGGCTTGAATTTTATATGCATCACCAATTTTTAAATTACCCACAGATCTTTCAAATTCCTCTCTAGAATTGAATCCACTAAACCACTCTTCTTTTTTTGATAATTCATAATTATTTTCCATTTTATTTTAGTTGATTGATATTATTTATAATAATTGTTAACATTAAGAACATAAGCTCTTGGTGAGAATCGAACTCACGACCTCTACCTTACCAAGGTAACGCTATACCACTAAGCCACAAGAGCAGAAATATAAAAAAAGTGAGAGGGATGGGATTCGAACCCACGAACACCAAAGTGACAGGATCTTAAGTCCTGCGCATTTGACCAGACTTTGCTACCCTCTCAAGGGTAATTATGCAAATTTATATTACATTTATAAAATTAACTACGATCAAAACAATAATAAACAAATTAATAAATTAAGTTGAATAAAAAACATCATGGATCAAATTATTGAACAAACAAATAATAGAATTGAAAATATTGAAACTGAATCAAAAGATACATCAATATATTTTAATCAATTAGAAAATAGTTTTGAAAATTTTATAAATATTTCAAAAAAAAAATTAAAATTATTAAATGAAGATTTATTTGAATATAAAAAAAAATTAAATAGAATTAAAATTGAGTCACAAGTAATAATTAAGAGTATTCAAAACAAAGGAAAATTTGAAGACTTAAATAAACTAAAAAGTTTAATTGAAAAATTACAAATTGAATCGCTTGCAACAATAAAAGATTTAGATAAAAAAATAGATGATATTAAAAAAGGTTATCAATAACATTTTTAAATTAATTATAATATTCATTTTATATGACTCAAGAAACAACACCTGAAACAATGGGTGAACAAACGTGTCCAATGTGTTTAAAACCGAGTTTATCACTTTGTGAATTTTCAAAAGATATACCTTTTTTTGGTGTAACTTATTTTTTTTCAATGAATTGCGATAATTGTCAATACTATAAAAGTGATTTAGAATCTGCTGAAGAAAAAGAACCATCCAAATATACAATTAATATAAATAAAGATGATTTGAATATAAGAATTGTTAGAAGCTCATATTCAACAGTTAAAATTCCTACACTTAAAATGGATATAAAACCAGGTCCAAGCTCAAATGGATATATAAGTAATATTGAGGGAATCATAAATAGGTTCACAAAAATATTAGAACAAATAAGAGATGGAAGTGAAGATAAATCCGCAAGAAAAAGTGTTAAAAATCAATTAAAAAAAATATCTGATTTTAAATTTGGAACACAAGAATTAAAAATTATAATTGAAGATCCAACTGGAAATTCTATGATTATTTCTCCTAAAGCTGTAAAAGAAAAATTAAAAGTAAAAAAAACTAAATAGCTCTAACTTCTATTTTCCAAGAATTTGGTAATTTATGAGAAAATCTTTTTAATGCTGTTTTAGCAAAAACTATATTATTAGAACTTGTTCTTACTTCAGCAACTACTTTACCTTTTTTAACTTGAGCAGCTCTTGAAAGAGATTTCCCAAAAGAATGTTTCATTCCAGATGAAGTACGATCGGCACCAGCTCCAGAAGCTAATCTATTTTCTCTTAAAATATGATGTGCATAAAGTCTAATATGAAATTTATATTCTTCTCTACCTGCATTTACTTCTAAATATTTATTACAAGATTGACGTGCAGCTTCAATAGCATTATGTCTTATTTGTAAATCAGTTTCACTAACTAATTTGACAATATATAAAAATTCTTTTTTCTGATTACCCATAACATATCTAATAACTTTATTGTGAGGATTAGCACGAACAAAAGATTTATTTCTAAATTTTGATTTTCTAGTATATGGTCTTTCCAATCTTCTATATGTAACGAATTTTCTTAATTTTGCCATTTTATCGTATTTAACGGGAAAGCTTTTGCTTTATAAACATTACTAGATTTTATAAGATAATTAATTCGTTAATTATTGTGATACAATTAATTGTAATAAATCATTTTGATATTGCAATCCCTCTAATTTAATAGTTTCATTTAAAATTAAACTTGGTGCTTGTGTAATATTATAATAATCAATTAAATAATTTATTAAATATTCATCTTTAAAATCAATATCCAAATTAATTGCAACAACTTGTTTATGAGTTTCCATTAATTCTTGAATAATAAAACCTTGTCGTTCACTAATTTGATCGTCTGCTTTAAAAAAGAAAATAATTGGCAGATATCCACCGTCACACTTTTCATTTAATTCTAAAATTTGGGAATAATAATTTAATTCTAATAAAAAAAAATTTCTTTTTAATAAATCAAATTCATCTTTTTTAAATAATGTTAATGCACCAAAAGAAGTCATTTCACGACCAATATCCCTCATATCAGTACTTAAATTAATTAATTTATTATTTATATCAAAACAAAAATCAGTATCAAAAGTATTCAAAAATTCTTTTTCAAGAATTAAAAAATCAGAATTCATTACATGATTATTAAAATTATCATCTAAAACATTTAATCGTATAAAATCTAAACCGTGAGCTGCAACTAAACCTAATGCAAATATACTAATTGTTAAAAATAAACTAGTAATAAGAACTCTTATGTTATCAGAACCAGATGTCATTTTAAATTAGATTCAATTATTTCATATTCAGAAAAACCATTAAGTACAGTATTATAATTAATTACTAAACTTGGTGTATCTTCAACATCATAAAAAGTTTCAAAAAAAATTAATTCTTCTGCATAACCATATTCAATTGCAAAAACTTTTGCACCATAATTATTTACAATTTCATCCAATACAAAACCTTGTTTTTTTGAAACAGAATTGTCAGCATAAAAAAATATTATTATTGGACTGTCATAATTACATTCTTGTTTAATATTATAAATAGTTAAATATGCTTTTATTTGCATTAAATTATATCTTTTTTTTAATAAGTAAAAATTATCATCAAATTCATTTGTTTTTTCTTTTTGATCTAGAAAAGATCCAAGTTTGAATAATTCATTAAATAATAAATCAACTCTAGTATTCATTTTACTGCAGTCTTCTTTAATAAGAGATTTAATTAAATTTTGTTCAACATTATAGGATTGACTATCAAGTTCAATTTTTTTTATTAGTTTATCATATTCATCAAACTCAATTGTAACACTATATCTTCCAATAAAAATTCCACAAATAAAAAATACAAGTAGAAAAATTAAAATAATACTAAAAAAGTGTCTTTCTTTTTTTACCATTTTTTCTTAAATTTAAATACTTCATAAAATATGGCAGCCACCCAATGTATAAATGTTATGTATGGGTATACAAAAATATAAATCATAAAGCTCAAGGGATAATATAGGGCTTTTTCGCTATTCATTTTGTGAGCCAGGTAAATTGTAATTAATGTAATTAATGTTGCAAATAACAAAGGTATAACTAAAAATAAATCTTGATTTAATAAAAAGTTTTTTAATGACACACTTGAAAATATATAATTAAAAATATAATTGTCAATTAAATATACCCTTAAAACAAATTCATATAAATTAAAAATTAAATTAAATATAATCCAACCCACTCCAAATACCAAAAGGAATATACCTATTATATTTACAGGCATTTGAAATAATCCAAAAGCTGAATATTTTTTATTCAAGAACATATTTTTATATTTCCAATTACAAATAATAAATCCCCTAAACCACCGTATTCTCTGTTTCCATATATTATAAAAATTATTTGGTACATTTGTATATGTAATTGCATTTTTTTCTATTATTGTTTTAAAACCATAATATTTAAGCCTCATGGCTATTTCAAAATCTTCGGTCATAGAATTTGAATCAAAACCACCTATTTTTTTTAATAAGTTTTTTTTGTAAACACTTAGCACCCCATGACCAATAACTAAAGTTCCTATATCACTCATAATTTTTCTTGCAAAAATAGATAATAGATATTCAATCCATTGAATTTTTTCATAAAAAGTATTAGGTTTATTTACTTTTATTGAACTAATAACAGAACCAATAGTTTCGTCATTAAAATTTGATATAATTTCTTTTAATGAATTCTTTGATACTAACGAATCAGCATCAACACAAGAAAAATATTCAAATTTTGAAGTTCTTAATGCTAAATTTAATGCAGAGGATTTCCCACCATTAGACTTATTTACCAATTTAATATTTTTATTTTTTAATTCAAGTATAATCTTTTTTACAATATTTAAACTATTGTCAGTACTACCATCATTTACAATAATAATTTCTAATTTGTCTTTAGGATAATCTAAATCATTAACAGAAGTAATTGTTTTTTTAATTGAATCTTCTTCATTATATACTGGAATACAAATAGTAATACCTGGCCACTCTAATATATCTTTTTTCTTTTTATCCAAACTAATTAAATAAAAACTTAGCCATACAATTGATAAATATAAGGATATAAAAATAATTATTAATATTAAGTATTGCATAATATCAATAGTAAAATCATAAAATTATAAAACTATCTAGATGACATTAATAAGTAAATTTAAATAAAACTGAAGCAATATATAGTTTACAGATTATAAAAGCTTTTAAAAATCTCGATATTAAAACAAACATTAAGAGGAAAAAAATATGAATTTTTTTGATTCACTAAAAGACAAAGTTTCGCAAACATTCAAGGGTAACCCAAATAAAGATGATTATGAATTATCAGGTGAATCCACACCAGATGAATACTTAGAAGTAGGTGGCGGTTTTGAAGAACATGAAAAAAGTACCAGTAATGTTATAATAAGGCCGTTTATTTTGGTTGATTTTGAAGATATAAAAGACATTTTACAGTCATTGAGAGAAGGAAATACTATTTGTCTAATTAATATTAAGCCACTTAAAGAAAAAGATATGATTGAACTAAAAAGAGCAATTAATAAGTTAAGAAAAACTTGTGATGCAATTGGCGGAGATATTGCTGGTTTTGGGGATGAAAATTGGGTTGTTGTAACTCCAAAAATGGCTGAAATCTATAAAAGTAAACAAATGGAATACTTTGAAGAATAATATTCTAGATCAAAAGCTTTAAAAATTGATAAATGTATTTTTTGATATAAGAAATAAGAGGTATAATTATGGAAAATTTAATTAACAAGTCAAAAATAAAAGAAACTACAGACTTAAATGTTGCATCAGACTTTTATGAACATTTAAATAAAGTTCTACACGAATTGATTCAAAAAGCTTCTGAAAGAGCTAAAGCTAATGGAAGAAAAACATTAAAACCTATGGATCTTTAATTTTTTAATATTATTTTTAATTTTTTTTTATAATTTCTTTATACAAAATCACTATTACTGAAATAGTAATTAATATATCTGCAAAATTAAATATATTAAAAGTATAAAAAAAAACTTTTAATGAAAACATATCCATAACATAACCAAAAAAAATTCTGTCTAATAGATTACCCATAGCTCCCGCATTTAATATTAATAACCAAAAACCATATTCTTTAATATAATCGTAAAATAAAATTTGTATTAAGAAAAATATAATTGTAATTATAATAAATAAATTAATATAACCTCCAAAAAGACCAAAAGAAATTCCAGTATTTTTTACATAAAAAATATTAAATTCAAATATATTTGTATTAATTAAATTTAATATTTTATTTTCTGTAAAAATTTTAATTACTCTATCAATTAAAACTAAAAAAATAAAATAAATAAAGAATTTAATTTGAAATATTTTTTTTATATTAGATTTAAGTATATCTAAATTCATTTCCTTTATTTTTTTTAAGATCATTTTCAAGTTTGTCTAATTTAGAATTAATTAAATCTAAATATGCCCTCATAGCATCTAATTTCATATTAATAGTTTGAAAATTCATATGATCATCTTGTTGATTTTTTATATGATTTGAACCTGAAAAAAAGTTTTTATTTGCATCATTACGAATGGGACCATTCATATCAACATCATTTTGATTATTTATTTCATCATGTGAATTTAAATTATCATTAAAATTTTGATTATTTGTATTGTGACCATCTACATTGTTCAAATTATTTGAATATTGATCATCGTGTTGATTATTATTATGGACATTATCGTTTTGCATTTCATTATTTTCATTATGATAGTCCTTATTTAAATCATCAGAACCAAAATTTAATTCATCAAAATCATCTTCTTTTTTCCAAAATTTTAATTTATCTACAAATGACATCTTAATAATCCTCTATTGTTTTTTTAAACAAATTAATTTTTGCTCTTATTTTTGTTAATATATTTGGATCTGCATAACCTTTAACTGCATTTTTATATAATTGTTCAAGGTTTTCAATTTTATCTTTCAATTCTATTATTTTAAAATCTTCATTACCCAAATGCTTACTCATTTTTTTTTCAATATGATTTATTCTATGTTTTCTTACTTTTGTTTCAGTAATTACTTTATTATGATTATCGATTATTTGTAACATTAAATTTTCTAATTTATCCAATCTATTTTGCAAACCACTTGCCTTATGTTCCCTTATTTTTTTAATATTATTTACGTGATTATCTACATTTAATATATTAGAATTTAATTTTCGAATTATATCCGTTTTATATTTTTCATTATGTTCTATATCTTTAATTTCTATCTTCCCTAATACTTGAGCTAAATTTTGTTCAAATTGATTTATTTTTTCAATTTCACTCTCAATATTATTATTAGATTCTTGCAAAATTTCTAAATTAAATTTATTTGTTTGAACACCATCATAAATATCTTTTAATTCTTTTTTTACTAAATTCCAATCTGATGGTTTAGTTAAAGATTGTTGTTTATCTTCTTTAAAAACAGTTTTAAAAAATTTATCTTTTTTTTCTAAACCCTTAACTACGTGTCCAAAAAATTTTCTTACATGTTTAGCTGCCATATTATTAATGTTGATTTTGTGAATAAGATCCAAATGTATTTTTTAATTGATCATCATTATGTGGCTCCATATCAGGAGGCATACTCATACCACCTTGTGGTAGATTTTGACCGCCATCATTAAATTGTGGTGAACCTTGAGGCATACCATTTGGTTGTTCTGGTGGAAGTGGAGGCATATCAAAATTATTTGATGGTGGCACACCACCCATTTGTTCCATTTGACCATCAGGCATTTGATTGTTTTGCATTTGATCATATTGACCCTGATTTTGATTTAAATCCTGAGGACCATTTTGCGTTAAGCCCATAGCATTTTCAATCTCATCAAATTTTGCTTGAACCGCTTCAGTTATTGCAATTAAACCTTGAGCAATTTTTTTATTTTGTTCTATTAAAACATCAACTTTAGATTCAATCGGATCTAATCTTTTTTTTAATACTTGATTTTCATTATCTTCTAACTTCATCTCAAGTGATGCATCGTGAAAAACATCAATTAAACCTTTTAATGTGGAAGTTAAACTTTTTATTGACTTGTGTAATTCTTCGTCGTGATTTACAACATCTTGTGTTCCATCCGTTTTTAAATTTTTAATTTCAGAATGTAATTGGTTTAGTGAATCTCTGGAAATAAATTCATAATCATCATTTTTAGACATAAAAGCACCTCTTATTTACAAATAAAATAGACAATTACAATTTAAAAGTGTTTATATTTAAAAAAAATTATTTTCGTCTTATTCTATCTATAATCATAAAAATATAGGAAACTAAAAAGAAAAAAAGTGATATCATTAATCCATACATCAATAAACCCACTAATATTAAAGACGCTGGAGGATTATCTTTAAACATAGTCATAGCAGCAAATAGAACTAAAATTATTGTTAAAATAATAATAAATAGTGAAATCATAGAACATATTAAGCTACAATTTGCTAATTTTGTATGCTTTGATTGATTGTTTGAAATATCAATAAAATATTTTGCAGGAAAATATACAATTATTAAATAAAATAAACTAAGAAATAAATTTCCAAATATATTTGAAGAATCAGATGAACCAGTTAAATCTAAATAAAGAAAAAATATAGTTTCAAAAATAATAATCCCTAATAAAGAATAACCAGTAAATTTGTATAAATATTTATTCATATAAATCATATCACTTTTAATATTTAAAAACGTTTAGAAATCACACTTATATTATAGCTGCAATAAACATCAATATAATAATAGCCAATAAACACCATTTAACAACTTTTAAATTATAATAAAATTCTAGAGGAAAATTTGTTTTTCTTCCAAAAAAGGCTGGCCAAAAAAACATCATAAATTGAAATCTTGCTTTTAATTCAAATGGATTAAAATAATTTTTTTTCCCTCCATAATAAACTGCATTAAATATACCCCATAATTTAAACATAAAAATACCGCATATGATCAGCATAATAAAAATTAAAAATACTAGGCTTAAATTAATTAAAATATTCATAAACTTATTTTCTATAAAAAATTATATAAACATATCTAAAAAGTAAAAAATTTAAACTAATTTTGCATTAATAACGCCAACCTGTCCAGGTCTACTTGTTACAACTGCATTTCCTTGTTCAGTAGAAATTATTGAACCTTTTGTAATGATATTTCGTCTTACAAAATGTCTATTTGCAGGATTTTCAACTACAGAATTAATTTTTATTTTGGAAAAAGTTCCATCTTTTTTTGCTAAATTACAAAATTCAGCTCTTAAAAGTAATTTTTTTTTATTTCCACCCATTATTCTAACAATTTTTAATTTGGTTTCTCCAATTTTTGTTAAACTTGGATTTGAACCTAATTGTGACTTTCGTCTTGGAGTATAATTGAAAAATCTTCCACCTGAAATTTTTCTTTTTGATCTTGTCTTTAAATAAGCCATAACGAACGAAAAATATAAGGATTTAAAAAAGTATCTGTAATCCAATAAAGATTAACTACAAATATTGTTTTATAATTAAGATAAATTTATAAGAAATCAGTAATCATTTATAAGGTGCAATTCCAAATTAATACAATTTCCAAAAAATTAGAAAATTTCAACATTATATTCAATAATTATAATGAAACAGAATATAGCCAAAAAATATTAATTAATTTGATAGAAATAATAGGTGATTGTATTTTAGAATTAAAAAAACAGGTTAAAATTAGTGATAATTTACAAAAGATATTAAATGAAATATCAAATACAATAGAAGAATATAAAAAAAGCCCAATGGTTTTTAAAAAAAAAGACAAATTAATTATAGCAAATAAAGAATACAAATTGTGTGCATTAACAAAAGATATTGTCAAAAATTATTATGACAATCTAATAAGAGAGATAAAAACCTTTGTAGAAAATGGAAAACGATAGTGAAGAATATTCAAATAATAATTATTATTTAGCAAAAGAGGATTTTAAAAGAGTTGATCATATAATCTATGTTAGTTTAAAATATACAAAAACTGTTGATATGATGAGAAATGGTATTGATAGAATGATATCAACCATGTATTATTTGAGAGAATATTTACTATGTCTTGCTTATGAAAAAAACTTGATTGAAAATATTCCAAAAATTGAAGTATATAAAGGAAATTTATTAAAAAAACTAATTAATTTAGAGGAATTTGATGAATTTATATCATTTTATAGAAAAATCAGAAAAATTGTAAAATCAGATTTTACAAAACATTGTGAATTTAGAAAACATATGTGTATGATGATTGAAGATGACGAATATGGCACAGTTAAAGTTGGAACAGAAGAAGTTCTAAATTTTTTTGAAAAGTTAAATGGTTATATGAAGTTGATTAAAAAAATCGAAGAAGAAAATTTTTTTATTACACAATAAAATAATAATGTTTATTAGTATTAACAAATACATAGTATTATGTCAGAAATTAACCCAGCTACAATTAAAATTAAATTTTCTATGACTTATAATCTTATTAGGGTTACATTAAAAAATATAAAAAATGTAGATAATATACTAAATACATTAAATAGCGTGTTAGAAACATATAAAGAAATTCGAGAATTTATTATTAGTGATTTAATTGAAAAAGAATTAATGGATAATTTAGAGAAATATGAAATAAAAAGAGAAAATAAATTAAATGAATTTTTAAAAAATGATAAAATATCTGAATATATATATCAATTTAGAAAAATAAGACAATTATTGATTAAAAATGAATTTGAAACCATAAATTTATTTAGAAAACATTTTACAATTATTTTTAAGGATGACCATAATGAAAAATTTGAATTTACTCAAAAAAAATTAGAATTTGTATACAATGATCTAGAAGACTTCTATAAATTAGTTCAAGAATTAATTGAATTAGATTATAATTTAAAAACAATCGAAGCTGAGAATTTAGAGTAAATTTTATAATAAAATTAAATAATTATTATACATGACTAGATTTTTAGGTATAGTAGGATCAAAAGGGGGAATAGGTAAAACCACAATATCTCTTAATCTTGCAAATAGTTTAACAAAGATGAAAATAAGTACCATTGCAATCGATGGGGATTTAAATTCTCCAGATTTTTCTATGTATTTCAACAATAATAATAAACATATTAATCAAGTTAATGAAGGAAAAGAAAGTATTTTTGAAATTATAAATCAAACTGAGTCTGGATTAAATTATATAACTAGTTCATTTAAATTAGACCATTTACATTCCCCAAATATATCAAAATTTAATAATTCTATTTCAAAATTAATGAATAAATTTGAATTTGTAATAGTTGACACTGGATCTTCATTATCAAAAGAATCAATGATAGTTACAAACGCATGTTCAGAATTACTTTTAATTACTGAACCAAATTCATTGAGTGTTAAAGAAGCATTGAGAACTAAAAATATATTTGAACATTTTAACAAAAATTTTATGGGTTTTATAATCAATAAACAAACTGATTCTAAATTTGAACTTAAATCGGACGAAATAAAACAAATATTACAATTACCTTTATTTGGAACAATTAAAAAAGATAAAATAATCAATGATTGTTTACATAATAATATTCTATCAACAGATTATTCTTTGCATATAGATTCAAGTAAAAGTTTTTTAAAAATAGCTAAAAGATTATCTAAAAAATAAATAATTCAAAGTTATATTTATAAAAGACAATTAATATTCAATTTTATTCCATGGTCGATATAGTGTAACCTGGTTAGCACAGGAGATTGTGGCTCTCCTAGTCCGGGTTCAAATCCCGGTATCGGCCCTTTTTAATCAAAAAACTTATAAGCCAATCAGAAGCTTCAAATATTAAACCCCGCTTAGCTCAGCCTGGTAGAGCAATCGGCTGTAAAAAGTAAAAGACTTTCATTTGAAATGAACAGGATGATATTTACTCAGTTTGATTGCAGATCCCGATGTGTCGCTGGTTCAAATCCGGCAGCGGGGATATATATTAAAAAACATAAAAGGTGTTTTATATGGGAAAAAAAAAAGACAAAAAGACGAAAAAAGTCAAAAAATACCCAAGTAAAGTAGAAGAGACTGTAAAAAAAATTCAAAACATTGAAGCTCCAGAAGTTGAAGAATTTAAAATTGAAAATGAAAATAAAATTGATAGGTTCAGAACTTTTAGAAATCCAAAGGATAGATTACCTTTAAAAGAAATTGGAGCTAGAGATAAAAAAGGAACAAGACGAAAATTAAAAAGTCAACTAAAAAAATAATTTTTTTTCTTTTATAATGCCAACCTATTTCTATTTGAATATCTAAATGAACTATATGGAATTAAATATGCAATAAAATATATTAATCCAATTGCAAAAGGTTCAAGCATTATTGATTCTCTTCCTAATGATAATAAAATATTTTGAGTAATTGTATTTGAAAAATCAAGTACATTAACTGAATTAAATATAATAATAAAAGATACAAAAATCAAAACTAATGTAGAGTATTTATCATCTATAATTTCAAGTTCACCTAATGCATAATTAATTAAAACACCAAAAACAAATGCTATTATTGTAATAAAGACATATACAAATGCAAAATTATTATTAAATTTGATTAAAATTGGAATTACTAAAATAGATGCCAATAAGTTTCCAATAATACATAAAAGTAAAATTAAAAAATATTGAAATTCTAAATTAATTGATTTTTGTTTATTCCGTTTAATTATATTTGCAGTCTTTAAAATTTCTTCTTCAGACCATTTTTTTTGTTTTAATTTTTTATATAATTTTTTATCCATAAAAATAAATTATAAAACAAATTTAAAAAACATACTTTTTTTTAAATTCCCCAAACAGGATTTTTTTCACGCATTATTTTTGCAATTTCACTTAAAGCTGATTTATATTCACTCGGTACATATTTTTTTAATTCCTTATATTTTAAAAAAGTTTCTTCATTAAGACTTGTAAATAATACATCATCATCTAAAACTTGCCTTCCTAATGTAAAACCAGTCATTGAAACTGCTACTTCATCACCAGCTATTGCAAATTTAATTGATTCTTTTCCTTTTTTAATACCTTTAACTTCACCAATAACTGAACCATCACTTTTCATTAATTTTGTACCTAATGTTAATTTCCCGTCCAATATTTTTACACCAACTATTACAGGATCTCTGGTTCTAAAAACAAACTGAGGTAATAATTCAATTTTTGATGGAACGTTTAATCCTTTTAATTTTCCTTGTTCATCTTTTATTTTAGCCCAATTTTTATGTTCTTCCATTTGATCAATTATAGAATAAATTACGTCAGATAATATTAATTTAACATCATCGTGGGAAACATCACACTTTATATTAAATCCTAATATAGTTCTATTAATTAAATCAGTATCAATTCCAGCTTCAATTATATCTTTTTGATTAATATTTCCAATACTTGCTTTTCTTACATTTATATTATGTTCTTTACACAACATCAATAAAGCCTCTAATGAACCAATAGTATCTGCTTTAATTATACAACCATCTTTATTTACATCTAAAAAAACTTCTTCAATTTGACTTGATATTTCATCTTTAATCGATTCAATTTCCAATTCATTTTTTGCAGCCTTAAATGGCATTCCACTTAAAACACCATTAAGATCAGAACCAGATATTTTAATTCCAGCCGCAGCTTGAACTGAATTAACTGATATAAATTTAGTTTTTTTATCTCTAATATCGCCAACAGTCTTTGGTATTAATAATGATTTGACTTTTGAAACTTTAGTTTCTTCAACATCTCCAATTATTAAAATATCATTTTTTTTAATTGTACCATCAAAAATTAAAACATTCATTATAGTTCCTAAACCCTGCTCTTCTTTAACCTCTAATACAATACCTTCTGCAGGAGCATCTAAATGAACCTCTAAACTTTTTTCTAAAAATTTTTGAGCAAGCCCACCAACCATCATTAATAATGTATTTAATCCAAAATTATGTTTTGCAGATATTGGAACTAATGCTAATTCATCTGAAAAATTACTAACCCTATCAAATCTTTCTGCTTTAAAGCCCATTTCATATAATTTACCAACTATCTCATACATTTTAGTTTCAAAAATTTTAACTACACTATCAATTTGAGAATTTATTGAACTAATAATATCAGAACCTTTTTTTAAATTCCAACCAGGTATTAAATCAATTTTATTACATGCAATAATAAAAGGTGTTTTATATGATTTTAATATTTCAATTGCTTCAATTGTTTGTGGCTTAAAACCTTCATTAATATCAATAACTAAAATAGCTATGTCAGCTAAATTACCACCTCTTTTTCTAAGACTTGTAAATGCTGCATGACCAGGTGTGTCAATAAATAATAAACCAGGAAAATTTTCTCCAATAGTATTTTTAATTGAATCCCCACACTGTTCCTTAATTAAATCAAAAGAAATTTCAGTTGCACCAATATGTTGAGTTATTGAACCAGCCTCACGTGAAACCAAATTAGTTTTCCTAATTGAATCTAATATAGATGTTTTCCCATGGTCAACATGACCCATAATTGAAACAATTGGTTTTCTTATCATAACCTACATAAAAGCTGAGTATTTATAAAAATAATTATCTATTTAATAATACACAAATATTTAAAAATCAATTATGAAATAAACAGCCATGAACAAATTTTTTTATTGTGACAATAGTAGTCAAGCATGGATGCTTAGACAACAAATTCCAGATATTTTAGAAGAAAATCAACTTCCATATGAATTAGTCAAAGTTAGAAGCTTATCAGTTTGTAAAAAAGAATTAGAGGAGTCTCCAGATGAATATTTAGGATTATATTATGAACCTGCAGAATACATGTTAAATTTGGATCGAATACCCAGAGAGCTCTTATCCGATATTTTAAAAATCAAACCAATAATTTTATACACAACTTTTGAACCAAAAGAAAACTCACTTAATTATGTCGGATTATTCAAATTAGAAGAAGGAAAACACTATAGTCATTATTTATGTAAATTTCAACGTCCAATAATTCAAAATTTTATTGAATCTCTTGAAAAATTAAAAGAATATAATAAAAAAAATTAAAAAATTATTATTCCTGAGATGAATCTGATTGATTATTATTTTCAGAATTATTAGAATCATTATTTTCTTCTGCTTCTAATTCCTTATAATATCTATTTAATTCTTGTTCATATTCATCTTCTGTAATTAATCCTTTTTTAACTAATAAATCTACTAAAATATCTACTTTATCATTAGCAGCAAAAACTAATTCTTCTGTTGAAAAATCTTCAGTATTGTCGTCATTATCATGATTACAATCTGGGCCGTGTACGTGTTCTGGTTCCATTTTTTATATTCCTCCTATAACTTGAGAATTTTAATTCAGTTTTTAAATTCTTTGTATATTTAAAATATAGAAATTTGGATTTATTTCACTTTTTTATTAAAAATATCAAAAATATACTTTGCTTTAGATTCACCAATTTTTTCAACTTTTAATAAATCTGACATTTTTGCATTGGCTATGTTTTTTAGGCTTTTAAAATGATATAAAAGTACTTTGGCTAAACTAAAACCAATACTTGGTAATGCACTAATAACATATTCAATTTGATCAATTGTATCTTTAGGCTTATTTGAAGTATGTGGATTAAAATATTTGAAATTATCACCTTGTTCTCTTTTTATAATTGAAATAAAAAAATCTACTGTTTCTTTTTTATTTCTTGTAAAAATTACAGGTATATTATAGTCAAGGAGTAAACTGGTAATTGCACCAAATATTTGACTATTAGAAATATTATTTGTATTAAATATTCCATTATTAGATTCTATTACCATAATAGGTTTCAAATATAATGAAGAAAGTTCTTTTGCTTGTGTAAATAATCTTCCATCAAATATAGATTGTATAAAATCATCATCTAATTTATATTCAATTGCAACATTTTCAGATAAAATATAATCAGCACAATTTAATGATTTTAAATTAATTTTTATATTGTGAATTTCAAATTCTTTAATTAAATTACTTGCTTTTTCTCTATGATCTACAATAATCAAAAAATCATTTTTTTCTTTTTTTAATTCTGTTTTATTTTTTGAAACAAAACTATTAAGATTTAATTGTAAATTATTACCAACATCTAAAGTGATTTCATCATCTTCTAATAATGGATCATTTTCAAAATCCGATACTTTAATGTTTTTATTAAAATCCAAATCAAGTTTATTTTTTTCAATATGTTCGTCATCCATATTAATTGATTTTGCTAAAGTTTTTATTTTATCAAATTCTAATTGTTTATCATTTTTATTCACCTTAACTAAACTTAATTCATTTTTTAAATCTTTTAAAATTCTATACATTCTTTTTTCTTTATGAAAACTTGACCATTTATATGCCTCATCACGGGTTCCTTCATTAATTAATACATAAGTTTCACCATAATCATCTCTTGCAGTCCTTCCCCTTCTTTGTATTGTACGAATTGCACTTGGAACTGGTTCAAAAAAAATTACTGCCTTTACTAATGGAATATCCAAACCCTCTTCTGCAACTGAGGTTGCAATAAGTACATTGTATTTTGAATTTCTAAAATCTTCAATTATTCTTTTTTGTTCAACTTGTGAATGCCCCATTCCTTTTTTTTTTGCCTGCCCAAAAAATAAAATTGGATTAACATTTTCAATACCATTTATATGATTATATACAGAAATTGCACTGTCTCTATATTGATTAAAAATAATACATTTAAATTTTTTATTATTTGAAAATTTATTTTTTAAAAGATCATTTAATTTACCCAATTTAGGATGAATAAATTGTTTACTCAATAATTGTTTTGTTAAATTTCGGGCTGTTATAAAATTAGAATCTTTTACTAAATTAATTGTTGCTTTAACTTTTGTTTTTTTACTATCTTCAAAAAGAGAATCAAAATAGTCATTTAAACTATGTAAAGTTTGTGTTTCTAATAATTCAACTGCATGAGAACATTTTAATGCTTGTGCACATAATGAAACACTCATCAAAAGATCCATATTTTTATCTCCATTAATTATTTCTCTACTTAATTTTGATTGTAACATTAATAATTTAGTTTTAGTAATTACATTTAAATCAAAATTTAAATAATTTCTATCTTTAATGTCTTTTAATTTTGATTTTAAACAGGAATTTAATAAGCTTTGAATTGTTTTTAATTCATCTGGAAATTTAATTTTTAATTCAATAACAGCAGAATCTTGTACATATTCGCGCACATCATGATCATATGCAGATCGATATTCAATTTCACCAATAAATAAATTTTTGCAAACTTCACCTATAGTTTCAATGTTTGAACCAGGGCTTGCAGTTAATGCTAATAATCGTCCATCTTTATTTTTTTTATTAAATTGATTCGATATATAATTATATGAATAATTACCAACAGACCTATGAGCTTCATCAAAAATAATTAAAGATACGTCACTAAGATTAATTTTATTTGATATAATATCATTTTCAAATCCTTGTGGTGTTGAAAATATTATGTCATTTTGTTTAAATAATTCACTTCTTTTATCACTTTTTATACTTCCAGTAAATGAAATTGATTTAAATTCAGATAATATTTCATTACAATTTTTTTCATGTTGTAAAACTAATGGTCGTGTGGGCGCAAAAAATAATATTTTTTTATTTTTATATTTATTTAAAAAAATTCTAGAAAGTAAAAATGCAATTAAAGTTTTTCCAAGACCAGTTGGTAGTACAACTAATGTATTCTTATTATATGCAGTATTAATTATGGATAATTGATATTTTCTAGGTTTAATCACTAATTAAACAATTCAATAATTATTTAAAAAGTTTAATTACAATTGACCAGTGCATAATTTTTTAAAATGTATTTAAATCGAAATTTTATGATTTATGATTTATTATATAAAATTTTAATATTATTAGATATATTAAGCCTTACTTCAACTATAATGATTATATTTCAAATACATTATTGGAAATTTGTAATGTTACACGGATTTTTACTTTTAGTTAAGGATTATTACTTTTTTGGAGATTTTATTACAAATATTGAATTATTTTTTGCGATTTATTTATTATTGGCGCCCTTAGGATTTATAAATGAAGTATTAAATGTACTATGTTTATTTTTTTTTGCTTATAAAATAGCTATTTCAATATTATAATTTAAATTATACAATTTGACGAAAATTATTTAAATTACAATAAATGAATATTGAATATAAAGAGGTATTAATATGATTAAAATGAAGAAAATTTCTGAAACTTTTGACATGAGAGTATTTACTGACACAGGTGAATATTTTGGAGATTTAGAAGAAAGCATAATTACAAGTAATAAAATATATGGATGGAGAGTTAGAGCTTCTAAAAATTCTTATTTAGCAAAAATATTAGGTGCTGCAAAAGGAGTTGTAATCCCACATTCATTTATTAAAGCAATTGGAGATATAATGATAATATCAAAAAATGCAATTCCTACACAAGAAGAAGGAGAAAATTAATTTTTTTATTAATATTTTTTATTTAAAAACCCAAAAGATAATAAATCAAAAATAGTATTTTTATAATATGTTTTCAATAAAAGAGGTTTTTCTAAGCATTAAAGAAAATTTTGATGTAAAAAAAAGTGAAATTAAAGATCTTCTTTTAATATCATTATTATTGGGAATTGGTATTTCATTTACAAATTTTAATCAAGTTGATGGGTTTGTTAATTCAATATATTATTTATTTTACCACATTGCAATTGTTTTTATTACATTTACATTTTATATTACAGGAATTAAAGTCTTTTCATCGATTTTATACTATAAAGCAAAATTTAATGTACAATTAATTGGAGCATTTATATTTTTTGTAATTTTATGGTTAACAAATGGAAGTTTAGTTTTAGGTTCTATAATTTATATATTAATTATGGTAATCGAATCATTAATAGTAATGAGATTTGTTGAAGTAAAAAATAAATTATTAAAAGATTTTAGATCAAACAAAAGAAAAATATTTGCATATTGTTTTAATTTTAGTCCAATAATAGATAAAAGAATAAATAAAGAAAAAAGAAGTAAATTTAGTGATATAGGATGGAATTATTTTTTTGGTTTTCTTTTCGTATTAATTTTATATACAATAATATTAAAAAGTCCCTTTTATAATACTGGAAATGAATATGTAATTGCAAATTATTTTATTTTATGGTTTATTATATACAATTTAATACCATATCCACCACAAGCAGGAATTTATATATTATTTAGTGGAAGGAGTAGATATATATTTATTTTAAGTTTAATTACAATATATTTATTATTAATACATTTTTTATCCACATTTTCAGTTATTTTAATTTCAATCTTAATTAGCCTTTTAATTCTTTATTTTTATTTTCATCATTTTGAAATTCATTATTAATAAAAAAATTATAGATAGGATTTTAAAAAAAGAAATTATTCATATAATATGGAATCAATAAAAATTAATTCAAATGAAATTGTATTACTTGGAACTAGCCACATTAGTCCTAAAAGTGTAAAAGACATAAATAATTTTGTTCAAAAAAATAACCCTGACATAATTTGTATTGAATTAGATAAAAATAGAGCAATTGGTTTATTTCAAAAAGGTAAAAGAAAATATCCATTATCTTTAATTAAAAGAATTGGATTTAGTGGATATGTATTTGCATTAATCGGAAGTTATATTGAAAAAAAAATTGCAAGTAAAATTGGAACAAAAGTTGGAGATGATATGAAAGCTGGAATTCTTTCTGCAAATAAACATAAAATACCAGTTGCATTTATTGATCAAAATATTGAAATTACATTAAGACGATTTTCAAAATTATTTACATTTAAACAAAAATTAAAATTATTTTGGTTTATTATAAAATCATTTTTTACCAAACAAGAAAAAATAGCATTTGATATAACTGGAGTTCCAGAACAAGATCAAATTGATAAAATAATTGAAATGTTAAAACCAAATGTACCTGTTTTTTATAATGTTTTAATTGAAGAAAGAAATGTGTTTATGGTAAATAAAATATTAAGAATTTGTAAAAAAGAACAAGACAAATTAATTTTATGTATTATTGGAGCAGGTCATAAAAAAGGTATGGCTGAATTATTAAAAAAATATAATAAAAATTAAGAATGTAAAAAAACCTGAAAAAACAGGTATAGATAGATTATCATCAATATTTTCAAAATATAATTCTGCAAAACTTGCAAAAAAAGCAGCTGCAAAAATAAGATATAAATTTAATTCTAATAAATTAAAATTAGTAAATATATTATTTAATACATTCCATAATGTAGAATTACCAAAAATTTCAAAACTACCTCTTAAAAATATAAATGCAATAATTAAATTAACCAAAAATCCTGCCGTCGTACCCTCTAAAGTTTTTGATAAAAATTTAGTTTTTCCAAATTTCTTTCCAACCAAAGCTGCAAACAAATCACCAAAAATCGCCATTAATATAACTGCAATTGCAATATTATAATTAAAAATACTTAATGAAATAACAATACCTAATAGCATATAAAAACTACCAGACATTGAATTTTGTTCATGTAATCTATGAAATTGATTTAATTTTGTTGTATACTTTTTAAAATATTTTTCAAAAAAGTTTCTCGCTTTCCTAAGTCTAATTTCCTCATAAAAAAAATGTATAATTAATAAAAAAGTTAAAAAATAAATTGCAATTTTATAATTAAAATAAAATTCAACAAAAGTAAATAAAAATAAATAAGTTAAACTCACTAAATGCACAGATTTTCTTTTAATTTCAAAATCTAAAGAAGACATATTTTATTTAAATTATAATACTTTAAAAAATAATCTGTTTTAATCATCCTTATCAATAACAATCATTAAATCATCAGAATCAATAATATCAAATTCACCCCTGTGATCTTTTAAAATAGTACATTTATATTCAGAATCACTTAGAATTTCAATTAAACTCACCACATTTTTTTCTTTTTTTTTATGATCTGTCATTTTAAAAAAATGGGGGTACTGGGATTTGAACCCAGATCAGCCGGTATCGCCATATTTTAAGTCATCGCCAAAGCTCATCGCTCCAAAATTTTGGAGCCGGCTATGCTACCGGATTACACCATACCCCCGTAGAATTTAGTTTTAATTAAACATTTATAAAATATTGGCTTAAAAAATTACTCAATAGAAAGATGTATATCCTAATATATTACCATTTAGCTGAATCACAACTAAACACAAATCCTCTTTGAGAAGCTTTACAAAAATAATCAGCATCAGATTCATTTTCACTTAAATCTTCCAAAGATGTGTAAAGAGTTACTTTTCTTTTTGGAGAAAACCATCTTGAAAAAAAATTTAAAGTTTTTTCATCATCAAATTGAGAAACCAATCTATCTCTATTTCTCTCATTTCCATTAAAAGAAAACCAAACATAACCATCAAATGATTTATTTTTGTTATAAAACTCAAATGAATTAATAAAATATCCAATTTGACTTTCAGAGTCCATTGTATTTTTTAAATCTAAAATCTTAATTTGATTTCCAAATAACGGTGCAAGTAAATCTAAATTATAATCCCCATTAGAATTAGTTGAATCATCACTATCAAGACGTTTTTCATTTTCCATTGTTTTTGCTCTTAATGCATCAACATCGGCACCTAATAAAGCTAATTCATTAGAAAATTCTGTAACTAATCTTGTTACATTTCTATAAGTAGGGTCATCTTTAGTTTCACAATAATTCGCAAGACGAGATAATCCCATTGAAAATTCATATCTAGTTACATTATGTTTACCACGAAAAATATAATCGTCATCGAATATACCCTTAGAAACTAAATTTTTTACATCTTTGTATGCACGATGATCTTTTGGAACATCTTTAAAATCAACTGAATAAACAGGGTTTGTTGCTAAAAGACCAGTCAGACTAGCCACAAGAGTAATTTTATTTAATAAATTCATAATAAACTCTAAAAAAAATAATTTATAATAATATGTATAATTTAAAATCCATTTTAAAGTGGATTAAAAGAAGTTAAATCACTAAAGGTTTGTAAAGGTTCTTCGATTAAAGTCATATAATCATTCTTAAATTCTTCAAAAGAAAAAGTCACACCAAAACCTTCATTTACACTTCCCTCTCTATCAATCCACAATAATGAATTATATTTACTAGAATCAATTTCAATCCAAAACTCATCAAAATTCATAGGAGTTAATTCTTTATTAAAAACACCCTCAAATCTAAAAAAATTATCAAAATTATAATAACTATCAATTAATACATCATAACTATTACTCGAATTAGTATTTGCATTAAATCTGAAACCAAAATAATCTCCTGTTTTTTTATGTCGACCTTCAAGTTCATAATTAAATGATAAATTTTGATCAAAAGTAAAACTCGTATATTGGCTAAATGATTTATATAAATCTGAATCAGGATTTGTATTATTTTTTAAATAAAAATAAAAGTAATTATATTTAGAAGGTTCAAAAAAAGAAAATAAAAGTTTTTGATTTTCTAATAAATTAGAATAATCATCAATATTTACATTTTTTAAAAAGTCGTTTAAATTATTTAATTCACTCTCAAAAATATTTGAATAGGGATATATATTATTATCATCAGAATTTGATAATGAAATATTATCTCCAAACACATACGCTTGTAATTTTATTGTCTCTTTTATTTTATTATCACCATCTAATAAATTTAATTTGAAAAAACTATCATTTTTTGGAGAACAATAAAAAGAAATATTATATTTCTCTGAATCTAAAGATTTGGGTTTAGAATCAACTTGTAAAAATTTATGATTTAATTCTAATTGATAATCATCTTGTTTAAAATTTACATTTAATTGTTTGGAATTAGAATTTTTAAAAAAATCATCAATTGTTTTTTCAATTGATTTTGAAATAATTTTTGAAGATTGATAAGACTCAGGTTTTTCATACACAGGTTTATCATTCACTAAACCACAACCAGAATTCATTAACAAAAATGAAAGGGATAGTGGTTTAATATAATTAAAATATTTTTTCATGTTTATTAATATAGATTTAACTTAAAAAAAACTTTTTAATAAAATATGAAAAAAAATCAATAAAATAGAATAATTTTCAAAAAATATGAAAAAAAATAATTTTATTAATTATTTTCTTCTTTATTAACTATTTTTTTTGTAGTTTTTTTAACTACTTTAGTTTCTTTTTTTTCTTTTTTTGCCGGTTTATTTGTTTTAGCATTTCTTTCTTTTTTAGGTTTTATTGTTTCTTGTTTTGGTTTTGAACTAAATAAAGTAAAACCTAATTTTTCAAATTCTTTTTCTAAATCACCATCTAAAACAGTTTTAGTTGGATCTAAATGTTTAATATTACATTTTCTTTTTTTAACTTCACCAATAATTGTAACAAAATTATCATCATTTTTTTCAATAATAACACAAGTCTTTCCAGCTTCACGACCTGAAATTTTTATACATATTCTTCCTACATTCATCATTTTTTTATACCTCAAAAAGAAATAGTTTCAATTTATGTCTCCAATTTATGTCCTCATTAATTTTGTCACCAAAATTAAATCCACGTTAATAAATTGAAACAACTTCTTATTATCTTGTCATACTCTTAATTTTTAATCTCATACATGGACTACACAAAACACCACCATAAGGTCTTTCTGGTCTTTTCTGAGTTTTTGAAAGTTTTGCAAAATTACATGGTCTTTCTCTTGGAATACCATGTAAAACAGAACCACAAGAACCACATTTATGATTATTAGGTTTTCTAAGTTTATATCTAGTTACTGTATTTCCACCCGGTAATTTTACCTTAACTCTTGCATAAGTTCTTGATCTTTTATTTGGAGCAGTCATTTTATATATTACGGAGAAATTGATGTATTTATAAACATAATTATTTCTGCGTTTTATTTTTTTTAGATTTCTTTTCAAATTCTTCAATAAATGTATTTGCTTTTCTAATAGTATAACTCACAGGATTTTTTATTTTTTGACATAAATTATCCGGTTTACAAATACCCATATCCACATAATATGTTTTATTATCACAATTTGGTGGAAGTTTTTTATCTTTTTGTTTATCATGATAATTTAAATGTGTTTTAATATATGTAGGTCTCAATGGCTCATCATGTTTATCATTCCAATCATTAAAAAGTAATTCTGTATCTTCTTTTGTCCAACCAATATTAGATAAATAATTTTGCATAATAAATAAAGATCTTTTTTTCCCATCACTCATTCCCTTTAAAATACATTTCATACATGGAGAAAAATATTCTTCAGGAATTTTAGGAATATTTCTTTGTCTATTAATTAATGTTTTTCTTTTTTCTTCTTCAGCAATCATATTTTTTATTTGAAAATCATATGACTGAACTAAAAGGTTAATAGCACACCCTTCTTTTACATTTCTATTTAAAAACAGAATATTATTTAATTCAATATTTTCAATTTTTGCCATATTTTTATCAAAATTCAATATATTATTTATATCAATTGGAATTGAAACTAAACCTGTTTTTTCATTCACAGAATATAACATTCTATATAAATGCCTAGAAGCAACTAAAACAGTATCAACTTTTATTATACTAAAAGGATCAAAAAAACCATTTTTATAATAATTTAATTTTAATTTATTTTCAACTTTAGAAAAATCCTTTAAATCATTAAATAAATTTTCTTTTATATTATTTACAATTTTTTCAATATCATAATTTTTTAAAAAATAATTTGTAAATTCAGCCCTCATATCTTCCCTAATAAAATTAATAATTATACGTGGAACTTCTGGAAATAAAAAATTCATTTTTTGACCATTAAATATTTTTGGAAATGATTCATAAACCACACCTATATGAACACCATTACCACCAGAAAATTTAGCAGTTGAACTAATACCAAATTCATTTAATTTTTTTATTATAAAATGAGCACAAATTTTAGAATATTCTATATCATCAGTATCAATATCAAAAATTAAATCCCAACCAGTTCTAATTTGATCCATTTCTTTTTTTGAATTATTTGTTTGTAATAAAAAAGGATCACTCCAAGTTTCTTGACTAATATGAAAAGAAGTTGCCCCAGCTTTTGCTAATGTAATAATATCTTGAGCATTTGAAAGAACATCTGGCCTTTGACCATAATATTTCATATTAAAACAAATTCCAACTTCTTTATTTTTAGATTGCTTTAATAATTCATTTATTATATCTTCCCTAGAATAATATTCTATAATATGCGCATTGTCTTTAATAACACTTTCAGCCATAAATGTGGAAAATTAAAGTTATTTAAAATATATTTGTAAATAGTGAAAAAAAATAAAAAAAAGTAAGCTTTATAAAATAACTAAAATTTCTCCAAATACTAAATCAACTATAAAAAAGTTATTGATTTATTGCATTAGCAATAAAGTATATAATTCACTATATGGTTTGATCAATAAGCAACCTCAAAATATGCAACAGTAAAATATTTTGATATAAATAAGATAATGAGGCAATGCAAAAATAAAGCGTATAAGTATTTAGACGTTGTATTTTGGAAATTGTATTAGTTATTAATAAATAAAAAACTATAAAATGCCTAAAACAAACGCACCAAGACACGGAAGTATGCAATTTTGGCCAAGAAAAAAAGCCAAAAAACAAAGCGCACCTAGACTTAGAAATCTTCAATTAAACGAAAATATAGGCTTACCGATTTTTGCAGGATATAAAGCAGGAATGACTCACATTCAATATTTAGATAATAAAAAAACATCTCCGCTAAAAGGTGAAATTGTTAATGTCCCAGTAACTGTTATAGAATGTCCACCAATTAAAATTGCAAATGTGAGATTTCATAAAACAGATGATTATGGAACACATTGTATTGGTCAATTTAATAATAAAGTAGAAAAAGAAATGTCAAAAAGATTCCCATTACAAAAAAAAGAATCAAAAAAATTAGAAGATTTTAATGATTTTGATAAAGTTACAATAACTGTTTATACACAACCAAAATTAACTGGTATTGGTAAAAAAGCACCAGATTTAATGGAAGTTGAATTAAATGGAAAAGATAATAATGAAAAAATTGAATGGATTAAAAATAATTTAAGTAAAGAAATTAAAATTAATGAAGTATTTAAAGAAAAAATCCAAGTTGATATTCACGGTATAACTAGAGGAAGAGGTTATGAAGGAACTACAAGAAGATATAATACACCAGAAAGACAAGCAAAGTCAGAAAAACATAAAAGAGGTGTTGGTTCATTAGGTCCGTGGTTACCATTAGTAAGACATACTGTTTTGTTTCCTTCGAGATGGGGGAGTCATTTAAGAACAGAACATAATAAACAATTAGTTAAAATTTCAAATGAATCAGATTTAGTAAATCCAGAAGGTGGATTTTTAAAATACGGTTTAGTCAAAAACGATTATATTTTAGTACATGGTAGCGTACCTGGTAAAGCAAATAAATTAATTGTATTATCAAATGCTAAAAGAGAAAACAAATATATGAATATGATTGATAATGTTAAATACATATCAAAAAAATCAAAACAATAGTCAATGATGAGGTTATTCCCGACTGATAAATGATGATTAAAAGGATCTGAGACAATGAATTCATTAAAAATATACGACACAAATGGAAAAGAAATAGGTAAAATAGAAATGCCTGAACAGTTTAATCAGCAAATAAAGTATACTTTGATTAAAAAATGTGTATTAGCTTTAAGAGCTAATGCTAGACAAAAGTATGGTGCCGATCCATTAGCTGGACAAAAATGTGTTGCAAATATGAGTCATAGAAGAAGAAAATTTAATACTGCATATGGATCTGGTCAAAGTAGAATCCCAAGAATGAGATTTTCAAGAAAAGGAACTCAATTCCATAGAAGAGGTGCATTTATTTCAAGTACTATTGGAGGAAGACGTGCACATCCACCTAAAGCTGAAAAAAATTGGACTCAAAAAATAAATAAAAAAGAAAATAGAACTGCAATTAGAAGTGCATTAAGTGCAAGTTTAAATAAAACAATTGTAGAAAAAAGAGGACACAAATTAGGTTCATTATATCCATTTATATTAGACGATTCATTTAAAGACATTAAAAAAACAAAACAAGTAAAAGAAAGTTTATTGAAATTGGATTTAAATGATGAATTAAAAAGAGTAGAAACTAGAAAAATAAGAGCTGGTCACGGTAAAGTAAGAGGAAGAAGATATGTTACAAAATCAGGCCCATTAATTGTTGTAGATAATGATTGTGATTTAAAAAAATCAGCAAGAAATATTTTAGGGATTGAAATTGTAAAAGTAAATCAAATTAATGCAAAATTATTAGCACCAGGAAGTCAACCTGGTAGATTGACACTATTTACAAAAAGTGCGATAGAGACAATGCAAAAAAATAAATTATTTATGTAAGATGAAAAGTAATCAAATATTAAAAAATGTAATACCAACAGAGAAAGGTGTTTTATTAGTTGAAAGTACTAATGCATTAGTATTTAAAGTAGATAAAAAAGCAAACAAAAAAACAATTAAAGAATCAGTTGAAAAAGCTTTAGATGTTAAAGTAGATGCAGTAAGAACACAAAACACATGTCACAACTATAAAAAAGCATATGTAAAATTACATAAAGATCATATGGCAATTGATGTAATGACAAAATTAGGATTAATGTAAAATGGGTAAAAGAATTATTTCACAAAGACGGGGAAAAGGTACACCAAGATATACTGCACCTAGTTTTAATTTTAAAGTAGATGTTAAACACCCAAATCCAAAACATAAAATTAGTGGTGAAATTCAAGATATATTTAGATGTCGTGCACACACAGCTCCAGTTATGTCTGTAAAATTAGATAATGGAAAAGAAGTTCAAATGATTGCACCAAATAATGTTTTAGTAAATCAAAAAATTGAATTTAATACAGATAAAGTTGAAAATGCTAATACTTGTATGTTAAAATACATACCAGAGGGAACTAGTATATTTAATATTGAATTAAATCCTGGTGACGGTGGAAAATTAGTAAAAACAACAGGAACTAGTGCCACAATTGTTGCAAAATTAGATAAAAAAGTTATTGTATTATTACCTTCAAAAAAGAAAAAAACAATCAATTGGGATTGTAGAGCAAATATTGGAGTAATTGCAGGTGGTGGAAGAGTAGATAAGCCATTATTAAAAGCTGGGAATAATATGAAAAAATTCAAAGCAAGAGGAAAATTATATCCAATAGTTTCAGCAAATTCAATGAATGCTACAGATCACCCATTTGGTAATTCAAGATCATCATATAAATCAAAATCAAAACCAGCACCTAAAAACGCTCCACCAGGACGTAAAGTTGGTTCAATAAGACCAAGAAGTCAAGGTCGAAAAAAAGGTAGAGGATAATTATGGCAAAAATATTTGTATTACGTGGACTATCAGTAGAAGAAATTAAGAAACTTAGTTTAGCAGAATTTATGCCATTAATTGGTTCAAGAGAAAGACGAACTTTAAAACGTGGTTTTACAAGTGAACAAAAAATCTTTATGGAAGATGTTAAAAAAGGAAGAAGTAAATTAAAAACTCATTGTAGAGATTTAGTTATCACACCTCCATTATTAGATAAAAGAATTCAAGTTCATAATGGAAAAGAATTTGTTGAAATAAATATAAATCCTGAAATGTTAGGACACAGATTAGGTGAATTTGCATTAACAAGAAAAAAAGTTACACACACAGCTAAGAAAAAATAAAGGTAAAATAAATGAATATGCTTTCAATGAAAAATTACAATAAGGAAAATATGGCAAGGGTATTAGCTACAAATTTAAGAATTTCTACTAAATATTCCATTGAAATGTCAAATTATCTTAGAGGTAAAACAATCACAAGAGCTCAATATTTATTAGATAAAGTTATTGAAAAACAAATGGCAATGCCCGTAAAAAGATTTACAGATGGTGCAGGTCATAAAAAAGGAAAAATTGGACCAGGTAAATTTCCGCAAAAAATTGCATTAGAATTTAAAAAATTATTAAATTCAATTACAAAAAACGCTCAAACAAAAAGTATAGATACAAATAATTTAGAAATTATTCACATAAGTGTAAATAAAGGAAGAGAACAATATAGAGCAACAAGACATAGAGGAAGAACTATGAAGCTAACTCATATTGAAATTGTTGCACATCCAAAAAAAAAAGAAAAAAAAAGTGAGGATAAGAAATGATTGAAAGACAATTCATAAAAAAAAATATTAATAAATTTTTAATAGAAGAATATTTATTAAGTACATTACCAGGGATTGGACTTGCAAATTTCAAATTAAAAAAAACTCCATTAGGTGACAAAGTTATTTTAACTGTTTTAAAACCAGGAATTGTTATTGGTAAAAAAGGAGAAACTATAAAAAGATTAACTAAAGAATTAGAAAAGAAATTTAATTTAGAAAAACCTGAAATTGAATTAAAAGATATTGAAGATCCTTTTTTGAATGCTAGTGTTGTTGCAGAAAGAGTAAAAACTGCATTAACTAAATTAGGTTCAAAAAAATTCAAAGCAATTGCACATAGAGAATTATCAAATATAATGAAAGCAGGAGCATTAGGTTGTGAAATAGTATTAACAGGAAGAATACCAGCTCAAAGATCAAAAAGATGGAGATATAGAGATGGTTATTTAAAAAAAAGTGGACAAATTGCAGTTGATGGTGTAAGAACATCAATAGTTAATGCAATATTAAATGTAGGTAGTATTGGAATTCAAGTAAGAATAATGCCAAACACATTAAAATTACCAGATTATGTAAAAATTTATGATGAACCTATTGACATTTCAAAATTAGAAACTAAAATTAAAACATTATTTAAAAAAGATGATAAAAAAGAAGATAAGAAATCAAAAGATAAAAAAAAAGTAGCTAAAAAGAAAACTACTAAGAAAGTAGCTAAAAAAACAACTAAAAAAGTTGAAAAAATAAGTAATGAAGAAAAATGAAATTCAGAGATTTAAAATCAATATCAGACGCCGACCTTGGTGTAAAAATTGTAGAATTAGAAAAAGAATTATTAAAAGTAAATGGTCAAATTGCACAGGGTTCAGGAATTAAAAATACTTCACAAAGAAGAGAATTAAAAAGAAGTATTGCGAAAATTATGACATTGACAAATCAAAGAAAAAAAAGTGATAGTAAAATAAGTAAAAAAACAGCAGAAAATAAAATAAAAACAGTAAAAGAAACAAAAAATAAAAATTGAAAATAGGCAATTATATTCATATAAAAGAAGCAAAAAATGCTTCATTAAATGACAAAAAAGGTTTTGTCATAGATATAACAAAAAATTCAATTTTGTTAGCAGAACAAAATGAAATTAATAGTAAAATAAAAAAAGCATTTGAAACAAAAAAATTTGATTTGTTTTTAAAAGTGTTAAATGAACAAGATTATAAAAAAATAAAAAAAACAAGAATATTAAATGGGCAAATAAAATGAACGAAAAAATAACAATGCGTGGTAAAACACTTAATGGACATGTAGTAAAATTCAAAGCTGCAAAAACTGCAACAGTTGAATGGGAAATTGTAGTTAGAAATAAAAAGTATCAAAGAAACTACAAAAAAAGAAATAAAATTAGTGTTCATGTGCCTGAAAACATAGAAATAGCTGAGGGTGACTTAGTAGAAATACAAGAGTGTAGGCCAATATCAAAATCAAAAAAATTCATAATTACAAAAAAAATTGAAAAGAAAAAATGAAAGAAGTAAAAAGTAAAATAACTAGAGGATTGCCGTTTGGAGCACGTATTGAAGCATGCGACAATTCAGGTGCAAAGTTAATAAGATTATTTTCAGTTAAGAATATGAAAACAAGAAAAGGAAGATTACAAGCTGCAGGAATTGGAGACTTAATTAAATGTACAGTTAAAAAAGGAAAACCAGACATGAGAAAAAAAGTAGTTTGGGCAGTAATAGTAAGAACAAAAAAATCATTTAGAAGAGCAAATGGTAAAAGAATAAAATTTGAAGATAATGCAGTTGTAGTATTAAAAGATGAAAAAGGCACACCAAAGGGAACAATCATTAAAGGTCCTATTGCAAAAGAAGTGGCATTAAGATGGCCAACTATTGCAAAAATAGCAAATTCAATATTATAAAATGAAAACAACATTTTCAAAAACGTGGAAGAGCAGCAGTAAACCAAGAAAGCAAAGAAAATATAGATTTAATGCTCCTATACAAATAAAAAGAAAATTATTAGCATCACCATTATCCAAAGAATTAAAAGAATTACATAAAAAAAATGCAGTTCCTATAAGAATTGGTGATAAAGTAAAAATAATAAATGGAAATTTCAAAGGTAAAGAAGGAGAAGTTGAAAAAATTTATATTAAAAAAATGAAAATAGGAATTTCAAAAATTGAAGTTGAAAAAAAAGATGGTTCAAAATCAAAAATTCCTGTGGACCCTTCAAATTGCGTAATAGTTTCATTAAAAAAAGATAAAAAAAGATTAGAGAATAAAAAATGATTAAAAGACATATTAAAAGATTGGTATTTCCAAATACATGGAATGTATTAAGAAAAGAAAACACGTTTTCAATAAAACCAAATCCATCAGGTCATAATAAAGAAAACTCAATTCCAATTAGCATTTTAATTCGAGACATTTCAAATATGACAAAAAATACAAAAGAAACTAAACAATTAATTAATGACAGAGTTGTTTTAGTTGACGGTAAAAAAGTAAAAACAATCAAAAGACCAGTTGGTTTTATGGATGTAGTGTCATTTGAAAAAATAAATGAAAATTACATTGTAAATTTACAAAAAAATGGAAAATTAAATTTATCTGAAACTAAAAATCCTAAACAAAAAATTTGTAAAATCACAAAAAAATGGATGTCACAAGGCAAAAATATATCATATTCAACACACGACGGAAGAACTTTTATAACAAAAAATAATGAATACAAAATTGGGGATTCATTATTAGTTGAAATTCCAAATCAAAAAATATTAAAATGTTTAAAATTAGAAAAAGATTGTATTGGTATGTTCCTTGGTGGAGGAAACAAAGGTAAAGAACTTGTTTTAACAAATATTGTTGAAACTGGAAATAGACAAGAAGATTATTTAGAATTTGAAATTGAAAATATAAAATATAAAAGTCCAAAAAAATTATTTTTTGTTTTGGGAAATAATAAAAAAAGTGAATTAGTATAAAATGAATGTAAATAAAGAAATCAAAATAGAGAAAGTAACATTGAATATAGGTTCAGGTAAAGATCAATCTAAATTAGAACGAGGATTAATATTATTAGAAAAAATAGCAAATAAAAAACCAGTTAGATGTAAAACAGATAAAAGAATACAAACTTGGAGTATCAGAAAAGGTTTACCGATTGGAACAAAAGTTACAATTAGAGGAGATGAAGTAAAAGAAATATTAAATAATCTTTTACATGCAAGAGATTTTATTTTAAAACCAACACAAATAGATCAAGGTGGAAATTTATCATTTGGAATTCATGAATATATTGACATTAAAGGAATAGACTACATACAAGAAGTTGGTGTAATGGGTCTTGAATGCACAGTAACCTTATTTAGAAATGGATATAGAATAAAAAATAGAAAAAGAAATATTAGAAAAGTTGGAAAAAGCCACCGTATCACAAAAGAAGAAGCATTAGACTTTTTTAAAGAAAATTTTAAAATAAATTTTGGAGAAGAATAAAATGACTGCAAGTGACCCAAAAAAAATGCTTAAACAGATTGAACATAAAACTGCTAAAGCAAATAAATTTAGAAAACATAACTTAGGTAAAAAAAGAACATGCGGTTTTACAACTAAAAAATGTCAAAGGTGTGGTAGAATTAAAGGACATTTAGATCAATATAGATTAGATTTATGCAGACAATGTTTTAGAGACGTTGCAATAAAAATAGGATTTAAAAAATATAATTGAGGAAATCAAAAAAAATGATGAACGATACAATTGCTGGAAACCTGTCAAACATATTAAATTATGAAAAAACAGGAAAGAGTGAAATTGAAATTAGATTTAATTCTAAACTATTTAGATTGATTTTAGAAATTATGAATGAAAAGGGATATGTTGGAAAATACAAAATTATTGAAAATAATATTGGTAACAAATTAATTATTGATTTAATTGGAAAAATAAATAATTGTGGTAGTATTAAACCAAGATTTCCTGTAAAAGTTTCTGAATACACAAAATTTGAAAAAAGATTCCTTCCTGCACACAATTTTGGTATATTAATTGTATCAACAAATAAAGGATTAATGACACATGACAAAGCAAAAGAATTAAAACTTGGTGGAAAACTAATTGCATTCGTATATTAAAATGAAAAGTAAAAAAAAACCTTTAATTAAAAAAATTGAAATAGAACAATCAATAAATGTTGAAGTTAATAATAATGCTGTAACAATTAAGGGTGAAAAAGGAGAAATATCAAGAAAATTCAACTCAAAATCAATCATAATAAAAACCGAAGAAAATAAAATTATAGTAGATTCAATTAAAGAAAAAAAAAAAGAAAAAAAAATGGTTAATACAATTGTAGCACATTTAAAAAATATGATTAAAGGTGTTACAAAAGGATTTGAATATGAACTTTCAGCAGTATTTAAACATTTTCCAATGACTTTAGAAGTTAAAAACAATAAAGTATTAATTAAAAATTTCCTTGGAGAAAAAGTACCAAGAGAATGTGAAATAGTTGAAGGTGTAAATGTTAATTTAACAGGACAAAAATTTATATTAAGTGGAATAGATAAAGAAAAAGTTGGATCTATGGCATCAAGATTAGAATTAATTACTCGAGTAACAAAAATGGATAGAAGAATATTTCAAGATGGTATATTCATAACAAGAAAAGATAATAAAATAATTTAAAATGGAAAAATTACTAAAAATCAAAATCGAGCAGAATAAAAAAAGACCAAATTTTTTAGCTCAAGATTCACACAAACTTAAAAGAATTAAAAATAAATGGAGAAAAGGAAGAGGTAGTGATAGTAAAGTTAGACATAAATTAAAAGGAAGAAAAATGAGAGTTGAAGATGGTTATAGAACTCCAAGAAAAGTTAGAGGTTTAACACTAACTGGATTAAAAAAATTATATATTAGTAATATTGATCAATTAAATAATGCATCATTAGAAAATGTATGTATTGTAATTAATAAAACAGTTGGAATGAGAAAAAAAATTGAAATAATTAAATTATGTATTAATAAAAAATTAAAAATATTGGGTTGTAAAAAACCAGAAGAATTAATTAAAAATCAAGAAGACAAGTTTAAGAACAAAAAAGAAACTAATGTAAAAGAAAAAAAAGTAAAGACAGAAAATAAGTCAGAAGAAAAAGCAAAAGAAGTTAATAAAAAAGAAATAAAAGAAGAAAATAATACTGAAAAATGAAATTAAGAACACAAAAACGATTGGCAAGTACTGTATTAAAATGTTCACCAAAAAGAGTAAAGTTTAACTTAGAATCATTAGAGAAAATTAAAGCTGCAATAAGAAAATTTGATATAAAAGGTTTAATCAAAGAAAAAAGTATAATTAAAATTCAAAAAAAAGGAGTTAGTAGAGTTCGTGCAAATAAAATAAAATCCCAAAAATCTAAAGGTAGAAGAAAGGGAGATGGTTCAGCAAAAGGAGTACGAAGAAATTTAAATTCAAATAAAAGAGCATGGATAAATAAAATAAGATCACAAAGAGAATTAATTAAAAGAGTAAGAGAAAATGAAATATGTTCAAAAGAAACATGTAGAGATTTATACAGAAAAGCTGGAGGAGGTTTTTTTAGGAACACTCGACACATTAAATTATACATTAAAGATCATAACTTAATAACTAAAAAATGAAAAAAAACTATACTGTAAAAAACAGAAGGAAAAGAGAACAAAAAACAGATTATGCAAAAAGATTAAAATTGTTAAAATCTAAAATACCTAGATTTGTTGTAAGAATTAGTAATAATGATGTTACAATACAAATAATAGATTTTAATCCAAAAGGAGATACTGTACATTTAACAATTAACGGAAGTACATTAACAAAACAAGGTTACAAAGGAAGTAAATCAAATATGTGTTCAGCATATTTATTAGGTTTATTAGCCGCTAAAATGGCATTAAAAAAAAACATATCAAAAGTATGTGTTGATACTGGTTTAAAATTAATGAATAAAGGAAATAAAATATATGCAACAATAAAAGGAGCAATTGAAGGTGGATTAAATGTACCTTGTAAAGAAGAAATGCTCCCAAGTGAAGAGAGAATTAATGGAAAACATATTGAAGAATATAGTAATTTATTAAAAGAAAAATCTCAAGTTAAATTTTCAAAAATTGTAAAAAATGGATTAAATCCATCAGATTACTCAAAACACATAGAAAGTGTTAAAACTAAAATATTATCACTATAGATAATTCAATAAAAATGGCTGAAATGGTATATCAAGAAAGACAAACAAGGGAAGAAAAGTTAAAAAAAGAATCTGAAGAGAAATTACTAAATTGGGTTCCTAAAACAGAATTAGGAAAATTGGTTAAAGAAGGTAAAATTACTGACATAGATCAAATATTTAGTTTAAGATACAAAATTAAAGAACCCGAAATTTTAGATTATTTATGTCCAAATAGTACATTAGAATTATTAAATATAGGACAAGTTAAAGGTAAGTTTGGTGGTGGAAAAAGAAGAACTTTTAGACAAACCCAAAAAAAAACAAAAGAAGGAAATAAACCATCATTTTCAACTTATGCAGTATTTGGAAATGAAAACGGTTATGTTGGTTTAGGTTATGGTAAAAGTCGAGAAACAATTCCAGCAAGAGAAAAAGCATATAGAAATGCAAAAATTAATTTAATTAAAATAAGAAGAGGATCTGGATCTTGGGAAGATGATAGTATAGAACCACATTCAATACCATTTAAAATATCAGGACAATGTTCGTCAGTTCATGTTGAATTATTACCTGCACCATTAGGTACTGGACTTGTATGTCATAAAGAAGTTGCAAAAGTACTAAAAGCTGCTGGAATAAAAAATATAAGATCAAATATTAGAGGAAATAGTAGTTCAGCGATTAACTTATTAAAAGCATTAGAAAAAGCATTAATGATGCTTACAAAAACAAAAATAAATGAAAGTCACATTGAAAAATTAGGAATAGTTGACGGAATTATAAAATGAAAATAGCATTAATTAGAATAAGAGGACAAACTGGAATTAGAAAAGATATAAAGGATACTCTAACAATGTTAAACTTACACAAAAATAATTATTGCTCAATAATTGAATTAAGTGATTCAAATAAAAATATGGTTAAAAAAGTTGAAAATTTCATCACATGGGGAGAAATTGATACAGAAACAGAAAAATTACTAAGTGAAAAAAAATTAGAAAAAGATGGAAGAGACCCAAGTAAAAATAAAAAATACTTTAGATTAAATCCACCAGTAGGCGGATTTGAAAGAAAAGGTATAAAAAAACATTTTACAATTGGTGGTGCGTTAGGTTATAGAAATAATAAAATTAATGATTTAATTAAAAAAATGATTTAAAAAAATGGCAAGAAAAGAAAAAAGAAAATCAAATAAGATGAGAGCTCGTACAACTCACGGATGGGGATCTATGAAAAAACATAGAGGAGCAGGTAATAGAGGAGGTAGAGGTAATGCCGGATCTACCAAACAAAGAGCACAATTATATTTAGGTAAAGGATTAAATAAAAAAGGATTTAAAAATTTAAATAGTTCCAAAAAAGAATTTATTACAATAAACACACTAGAATTAAATAGCTTATATGAAAGAATGCTAAAAAGTGGTAAAATAAAACAAAGTGATAATATAATTAATATTGATTTAAATTTATTAGGTATTGAAAAATTATTAGCAAAAGGAACAGTTGATAAAAAATTTAATATAAATGTATTAATTGCAAGTAAAAAAGCAATTGAAAAAATTGAATCTGTTGGTGGAAAAGTAAATTTATTATCCACAAAAAATACAGAAGAAGAAGAAGACAATTCTCAAGAAGAAGTTTCTGAAAAATAATTTTTTATAGTATCTTGTTTTGTAAAATAACTCTTAGTTTTTAATATAGACTCCGTTAAAAACTTAGGAAAATGGGAAAACATTGTATTAAAACCTTGATGTTTAAAATCAATTTCAACTTGCTCCAGACCTGAAGTCAAATCAAATAAGTTAGAACTATTTTCTAAAAAAAGAATATCAATTAATTGTTTTTGATTTTTTGATAAATTTAATTTATACAATGGAATTTTGAAAAATCCAAATTCAGTCATGTTCACATTAACACCACCATATTTAAATTTATGATCTTTATCCTTCATTTGTTCCAATTCACAAGGTTTAAATGGAGTTCCCCGTCTATAATTTTTTTCCAATTGATTAAACGTACCATAAAAATACAAAGAACTATCAAACAAAGTCAAACAATTTGTTTCTCTTCCAAAAATAAAATTAGCACAAATATTTTCAATAGAGTCCATACCACCAATTGAATTAAATTTCATTACACCCCGTATATCATCACCCGCAAGAAAACCCTTTATATTAAATGAATATCTTAAATTGCGCCTAATATCATAAACCATACGAATTAACAAAAATGCATATTTATAAGCTTTATTTTATTTCAGCAAAGACATTTGCAACCAAAGGTGAGTCACTAATATCACTTCCATTTAATGTTAATTTTAGATCAGAAGGTAAATCAAAAATTATATCATTATTTATATTATAGAAATTTAATTTGTTTTTATAATTTACAATAAGTGTTTCAATTTTATTTATCGATCTAACATCTTTTGGAAAAAATTTAATTAAAACATTTTCATCAACATTTACAATATTAAATGTATCTTTATCAATTAATATATTTTTTTCATAATTTAAAATTTCAGACTCAACAATATTACTATCTCCTCCCAAATCTCTAATTAATTTATCTTTTACTAAATCCATATTAGGATATAAAGAAAATGCATAATAATAAACACCATTTAATTTTTCATCAGATAATCTTTTAATTTCACTACTTTCAATATCACTAATTAAATCAATAATTTGATCATTATTGTTCCAAATATCAGAAGTAATTGGAAAAGATTCCCAAATACCATTAATTTTAGAATATACCAAATTCCCATCAACATAAGTTTTGGTTTTAATATTTTTTTGTTGACCTGAAGATAATGAAATAACCGAAGAATCAATAAACATTAATTTATTTATTAAATCCATATCAATATGGGAAAATATTTTATTATTATAACTAACTGATTCATTATTAATAGTAATTTCATATTCCAAATTAACATTTAAAGAATAACTTTCTAACTGTTTTGTATTATTTAATAAAATTGATTTTATATCAATATCATTAATTGGCATTAAATATATAGAAATTAATGCAACTGATAATAAAATCACAATTAAAAATATTAATTTGTTCATTTTATTCATAAAAATAGTATAAATCTTTAATTTTTAAAATTACCTTAAAATTAATTTTTAGTTATAATTTTTTTTTGGGGTTTTAAATTATTAATTAATAGAGAATCGGCATTTAATTTTTTATAATGATCTGCAATTTCAAAAGGAATATCAGTAGTTATACCAAAAACCCCAAATTTAATATATTTATTACATTTTTTTAAAGAATTTATTGTAAAAACAATATCTTTAATATTATTATCCACATATTTTTGATGAGTTTTTTTTGTAAATAAAAATGAATCTCCAATACTGACATATTTAATATTATATTTTTTAAAATCACTAATTAAATCTAATTTAGGAATTAAACTCATATGACATAAATTTACAAATCTATTTTGTTTCCTTATATTTTTTAATTTTTCAATAAAAAAAGAGCCAATAATATAATCCTTACAATTTAATTCCTCTAATTTTTTTAAAACTAAAAATTCATTACAAGTATTTTTTATTTCGAAAAAAAATTTAGTTTTGCCATTTAATAATTTAATAATATAATCTAAAGTTAATACTTCAGTCCCATCAGAACATAAATCTAAAATTTCTTTATGAGTTAAAGAACTAATAACACCTTTTTTTTTAAAAATTCGCCTTAAGCTATTATCATGAGATATAATAATTTGACCATCTTTTGTTTGACGCAAATCAATTTCAATATATTCAACTTTATTATGTATAGCAGTAAATATAGCTTCAAAAGAATTTTCTACAAAATAATTACTATTTCCTCTATGTGCAACTATAATTGGTAAAGTCATAAGAAAAATAAATTTATTTTGTTTTTAAATCTATTTTAAAAATCAAGTTAGCTTTATAAATAAGACATAATTTTTAGCAATAGGATAAAAAATGGGTTTATTAGACGGATTGATTTCATTAATACCAGAAGTTTCCAAACCGATGGAAAAAAAGTTATCATTTAAAAAAAAATTGTACTGGACACTTGCAATTTTAATAGGATTCTTTATTTTAGGTACATTACCTCTTTATGGTTTAGGTGAAGATAGATTAGCTCAATTTGAAACATTATCTATAATCATTGGAGCAAGTTTTGGTTCATTAATGACATTAGGTATTGGTCCAATTGTAACTGCATCAATTGTATTATCATTATTACAAGGTTCAGGTATAATTAATTTTGATACATCAACAGAAGTTGGTAAAAAAAGATATCATGGTATTAGTAGATTATTAGGTTTAGGTTTTGTATTATTTGAAGCAATTGTTTATGTAAAATTAGGAGCACTTGCACCAGCAACTGTCATAGATGGTATAGCAATGAATTTTGGTGCACAAAAAGTTATTGAATCATTATTAATATTACAATTAATTATAGGTGGTTTTGTTGTACTCTTAATGGATGATGTAATTAACAAATGGGGATTTGGTTCCGGAATATCATTATTTATTGTAGCGGGTGTTGCACAACAATTAGTTATGAGAATATTTAATCCATTTAATGATACAGGAAGTTGGGCACTTGGACTCGATATTGTAAATTGGCAAGCAACAGGATTTTTTTGGTCATCAATTTCAACTGCAATGAGTGCCAATTGGCAAGGATTTTTTTTAGCATTTTTACCAATACTCTCAACAGTTTTAGTTTTTTCAATTTGTGTATTTGTACAATCAATGAAAATTGAAATACCGTTACAAATTGCAAGATATGGTGGATTTTCATATAGACATCCTTTAAACTTTTTATATACAAGTAATATTCCTGTAATATTTATTGCAGCATTACTTGCAAATGTACAATTATTATCAACAGTTATGAATAACTGGGTTAATTCAGGAAGTGAATTTATTTCACAAAACATTATAGGACAATCAATTGGTTGGTTTACAAATAATGTAATAGGTCAAATTGGGGCAGGTTCAAGTATTGCAGGAACTGGTATTTCAGGATGGGCAACTGCACCAAATGTATTAAATAGTGTAATTACACAAAAAACATTATTATTAGGAACAGATTTTTATTTATGGATTTTAGGTTACACAATACTTTTAGTTATTGGTTCAATGATTTTTGCAATGTTCTGGGTTCAAACAAGTGGTGCTGATGCACATAGTTTATCTAAAAGCTTATTCAAAAGTGGATTACAAATTCCAGGAACTAGATCAGATCCAAGAATTCTTGAAAGACATTTATCAAGATATATAATGCCACTTACAATAATGGGTGGTATTGCCGTAGGATTATTAGCTGCATTTGCAGATTTAATGGGAGCTGCAACATCAGGTACAGGTATATTATTAGCAGTAATGATTATATACAAAATGTATGAAGATATTGCAAAAGAACATATGGGAGACTTTAATCCTGCATTTAAAAAAATGATTGCATAAAATGGTTATAGATAATATTATTTTACCTTTATTTAATTATAATTTGTCAGTGGGTATGGCAATTGTAGCTTTAATTGCAACACTTTTCTCAACAGTAGTTTACAAATATACAACAGATCAATTACTATTAAAAAGAATTAAAAGAGAAACAAAAGAATTACAAGAAAAAAGTAAATCCTTCAAGGATAATCAAGAAAAATTAATGCAAATAAATAAAGAAATAATGTCTAAATCTTTTGAACAAATGAAAATTACATTCAAATCTAGTATGTATACAATGTTACCACTATTAATTGTTTTTATATATTTAGCAGGTAACTTTACATATGAACCAATAAAACCAAATGAACAATTTGAATTAAATATTTATTCTAATAATAAATCAATCGAATACCAATTACCAAAAAAAATTAAATTGATTGAAGTTAATAATATAGAAGAAGATAAAAATTATATTACAAATTTAAAATTAATTTCAAACAATACCGGTTTAGTAATAATACCAATAGAAAATACAAAACATAGAATATTAATTAGTGACAAAATTGAGTATGAAGATCCAATACAAGAAATTTCCAATTCTAAAATAACTAAAATAGAAACAGTACATAAAGAATTAACATTTATTAATTTATTTGGATGGGAAATTGGTTATCTTGGAACTTATATTATATTTTCCATAATTTTTAGTATAATACTTCGAAAACTATTAAACGTACAATAATAATTTATTTCTATTTATTACATAACAATGTCTATTAAACACGCAAAGTTATAAATAAACATTAACTAAAAGAAATAAAATGAAGATTGAAGTTCATAACAAAAAAGAGTTTAAAAATTTATCATTCATAGGTGCATTACCAGGAATAGGTAATGTCGGTAAATTAGCAATTGATTATATGATTGAAAAATTAAATGCAAAAAAAATTCAAACGTTAACATTTCCAGATACATTAAATAGTGTAATCGTTACAAAATCAAATACATTAGCATTGCCAACAGTTGAAATATATCATAAAAAAATAAAAGGAAAAAATATTATTCTTTTAACTGGTGAACTTAATACAGAAGACAAAGTTGAAATTAAAAATGTATTACAACACACAATGTCATTTTTATCAAAAAATAATTGTCAAAAAATAATTACAATTGCAGGAATTGGAATGGAACATGTTCCAGAAAATCCAGAAATTTATGTTACAGGAAATACTAAAACATTTTATAAAAATTTTAAATTACCAAAAACAGTAAAAAAAAATGCAAGTGAACTTGTTAGAAATATTAATGGATTTAGTGGGATTTTACCAACACTTGCAAAATCAGAAAAAATTCATTCTTGTTGTTTATTAACAGAAACTTATAATAGTCCATTTTTTTTAGGATATAAAAGTGCAAAAGAAATAATTAAAGTTTTAAGTAAACAATTTGATTTTAAAATTTGTTTTAAAAAATTAGATCAAGAAATTGAAGCTTTTGATTTACTATTAGAAATTGGTGAAGATAGTTCAAAAGATATTGATAGTGATAAAGAATTAAATTATTTTAATTAACTTCTTTTGGTATTAAAAAATAAAATTCTGTAAATTCATTTATCTTACTTTCTACAAAAATTTCACCACCATGTAAATTAACTAAATATTTACTAATAACTAAACCCAAACCAGTTCCACCAACAGCATCTCTTACATCAGTACTTATTTGACAAAATTTATTAAATAATAAAGGTATATTTTTTTCATCTATACCATTACCATAATCTTTTACTGAAATAATATAATGATTTTTTAATGCTTTTTTTAAAAAATATTCATAAGAAATTTGTATTTCATCACTTTTTTGAACATTTAAAAAATCAGAAAATGTATTGAAGTCTGAAAAATTAACTTCTAAATCATCATCTCCTTTAAATTGTTTAAAAAAATATTCATTTATTGATTTAAAATAATGTTCTTTATTTAAATCAACACCATCTATTTTACAAATAATTTGATTTCCAGATGAAGAAAATTTTATACCGTTTGATATTAAATTTGTAAGAATTTGAAAAAATCGATCGGGATCTACATAAATTGATTGAAAGTTAAAATCTTTTATTAATTTTATATCTTTTTGCTCCAATATATAATTAAGTGTATTTAAATGCTGAATTAATTCAAGTTGAGTTATTTTTCTTTTATTTACAAGTAAATTACCGGATTCAATTTTATTAATATCTAACATGTCATTAACCAGACGCCCAAGACGATTAGCTTCATCTTTTATAATTTGTAAAAAATCTTTTTGTTGAACGTCAAGTTTTTCTACTCCATACATAAATAATAAATTAATATATCCCTTTATTGAAGTTAAAGGAGTTCTCAATTCATGACTTACTACATTTACAAAATCACTTTTTAATTCATCAAGTTTTTTTAATTTTTCATTTGCTTCTTTTAATTCATAAGTCCGATTTTCAACTTCATCTTTTAAAATTTTATTAAAATTGTGAATTTTATCCACATACATACTATCCCTAAATGCACGAACTGCAGCATTTGCCATAACCCCAACCAAATATAATGAATGTTTACTCAAGGGTCTTTGAGAAAATGATCTCGCTGCATGAATGTGACCAATTATTTTATTTTTAAAAATTAATGGGTAATTAATATAACTTTTAACATCATTCATAATTGAAATATTTCGATTATCTCCACTACTAGTATTTGAAACATAATATGGTTTAGGATTTTTTTTAATTCTGTCCATTGCCCTCATCAAAATACCGCTTTTATTTAATAAATCCATTTTATCTTTAGAAAAACCAATACCAATTCTTACAGGAATACTATCATCCTTATATAAACAAATTTCTACCTTACTCAAAAATAAATGATCTTTTAATAATTGACAAAACCGTGTCATAGAAGATTTTAAATTAATTTCTTTACTCAACTCATCTCTTATTGACTTACCTAATTCAATTTCTCTATTTAATTTTTTTAATTTTTTATCTTGATTTATAATAACTTTACTTAAATCTAATTGAAAAACATAATTTTTTGTAATTTCTTTTATTAAATTAAGTAATTCCATTTTCTCATCACTAATAATTTCAGTAGATTTAACTGTAAGAAAAGAAAAAAATCGAGAAAACATACAATCAGCTTTATAATTAAATTTACATTCATCAAAACACCTACACCCTTCAAAATCTCCCTCTAAATAAAAATTAAGCTCAGTTTTATTTTTAAAACTAAAATTAGAATTTACATTAAATATAATTGAACGAACTACCTCATCATCAAATCCATAATAATTTATTTGAACTTCTTTATTTTTTTTACATATCACTTCTTTAAATTTAGATAACTTAATAGAATAATATAATACAGAAAATTCTTCAAAAGATGTATGTTCAAAAAGAATATTTGATAAGGAAATAAATTTATTAGCATTAGTTTCTTTTAAATCAATTTTGTTAAATATATTTTTTATTAAAAAATTAATATCTATCATTGAACGTATTGATCTACTTTATTTAATAAAAATTGAGGATCTATTGGTTTTTTTAAATATTCAACAGCCCCGGCTTCGTAACCTTTTAATTCATCTGAAAATTGTGATTTAGAAGTTAAAAATAAAATCGGAATATGTTTTGTAAGTTCATTTTCTTTTATTATTTTTGCAGCCTCAAAACCATTTAAACCAGGCATCATAACATCCAATATAATAAGATTAGGCAAATGAGTTTCAGCAAGAGTTAAGGCTTCATGACCAACACTTGCCGTAATAACTTCAAATTCTTTTAATTTTAATGTAAGCTCTATTAATTTTAAAATGTGCGGCTCATCATCAACAACTAGAATTTTTTTATCTTTCATAAAATTACACCATTATAACAAAGCAGAGATTATATATAAATTTAATTAAAATGAATTAAATGAATTAAAATTACTTTTAAATAAATAAATTATTAATTCTTTCAAATAAAAATAATCTTTTTTCATCTCTTTTCATTTTAATATAAACAGATTTAAAATCATGGGAACTATATTTTCCAAAAATTAGTTTAACCCCCCTACTTTTATACCAAAATTTAATTTCCCCATCAAAATTATTGTTTTTATTTAAATGATTTAAAATATTATAAATAATTATAATTTTTTTTTCTTTTAAATAATAAAAAAAACGTTCAAAAATACCTTTATTAAATTTAATTGTATATGACAAATTTAAAAAATCTACTACATTCATATTATATTTCTTTAAAATTATAAAAAATACTTTTAATAAATCAATAGAATCTTGAAGTGCTCTATGACCAGTTGATTTTAAATTATAATTTACTTTTAAATCATCCAAACTACAACTCAAATTATTTGGCAATATAAATTTAAATATTTGTAATGTGTCCTTTACTATAATATTATTAAATTTATAATTTAAATTATTCAAAAAAGAAATATCAAAATTACAATTATGTGCCAAAAAAACAGTATTTTTATAATTTTTATATATTTTATTAAATTCATTTAAAACAAATTTTTCATCAAATCCATTTAATAATTCAGCTTCTGATATATTATTTATATGTTTTGCAAAATTATTAAATTTTTTATCTTTTTTAATTAAATAATTTTTTTTTTCAACTATATTACCATCAATAGTACAAACTACCCACGCAAGTTCAATTACTTCGTGATTTTTAATATCCAAGCCAGAAGATTCAATATCAAAAAAAACTAAATGGTCAACTTTTTTTATTTTATTAAATTTAAAATTTAACTTAATATAAAATTCCATGAAAAAATTAACAATTTTTAAAATTCTTAAATAAAAAAAATTAATCATCCAAAACTTCCCTTTTTTTAAAATGCAGAATTTTTGAACTCATCATATGCATTACAAACCAAACTATTAATCCAAAAATTAAAATGTGTAATATTAATATAAAAAATAAATTCAGATTAAAATAATTTGCCAATAATAAATTTCTAAATAATCTATAAGTAATTGAATATGGACTAATAAGTACAAATGAAGTTGAAATTTCATATATTCTACTTAAAAATTCAAAAGATCCCATATATGTTAATAAGGATACAATAATACTAAATATTGCAGAATTTTGAAAACTAGACGATAAATAACCAATCAAAAGTCCAATTAAAGTAAAAAGAATTGAAGTAAAAATTAATATTATATAAAAATAAATATTTGAAAATAAATTTGTCCTAATAAAAATACTAATTAAAATAAAAATAATTAATAATTGTATTAATACTATTAATGTAGTAGAAAAAATCCTACCTAATAAAAACGTAAATTCACTTGTACCAGTTATTTTATTTCTAATTAAAGTATTTGAATTTTTTTCCACAACTAAATTACTTGATGCAAAAAATATAGTTAAAAACATTATAATTATTGCAATAAAATTAGCTAAAAACAAATCCTGTTTATTAGTATAAGATTTTAATACAAATTGTTCTGGTAATACTGAAGACAAATAATAATATAAATTTGATTTAGTATTATCATAAATAACCATATTATCATTTAAACAAGCTTGAATATTACCTAAAACTAAATCTTTACTACAAGTTTTTAGGCTTTCATATTTGATTAAATTTAAATTACTATCTTTAATATCAAAAACAACATCTTGAGACATATAACCTACATTAACTAAACTAGTTTGGTTCATAGAAAAAACTAAAAAAAAGATTATTAAAACTAAAAGTGGATAAAATACAAATAATAATAGATTTGACTTAAATCTAAAAAAACTTTTAAAATCTTTTTTTATTATTTGACCTAATTTACTCATTTTTAACCTCAATTTTTTCATAATTAAAACTAATTAATTTTTCACTATAATCTTTTAATAATCTTGACAAACCAAGCATTAAATTTGCATCATCTTTTAATGAAAGAATACATTTATCACCAATAATTTGAACAGAACTAATTTGTTTATGATCTTCTAATACTTTTAAAAAATTGCCATAATCCCCTGGATCACTCTTAAATGTAATTTTATATAACATTTTAAAATCACCTTTTTTATTTTTTGAATCATACGTTAATTTTCCTCTTTGTATTATAATCAAATGATCAAAAAGCTTACTAAATGGCTCATAATCCATATCTGAAACAATAACTGTCATACCATGATTTTTTAATTTTTTTAAAAGTGAAAATATTTCTTTTCTGGATTCATGATCTAAATCATTTGTAAAATTATTAACAAATAAAATTTTTGGATTATTAATAAGAGAACACAATATATTTGCTTTTTTAATTAATGTTAAAGGCAAATCACAGACTTTCATATTTTTATATTTTCCAACTTCAACCATTTTTAATAATTTTGAAATGTTTTTATCTAAAATATGTCCTTGCATATCATGCAATGTGCCAAAATATTCTAAATTTTCTAAAATAGTTAAATGCCCATAAAGAGTATTATTATTATCAACATAACTAAAATGTCTATAAATTTGTGTTAAATTAACACCGCCAAATAAAGGTGTTTTATTAAATGAAATTTTTCCAGAATCCGGACTAATAAACCCCGCCATAATTTTCATTAAAAAGTCACAATTTTCATCCCCGCCAATACACACAAAATCCAAATTATGTATATTAAAAGATATGTTTTTTAATGAATATAAATCAGAAATTTTAAGATTTATATTTTCTAAATTTAATAAATCCGTCTTTTTTTTCAAAACTTTATCTAAAAACATATTAATTTAAAATATAATTTTGCTTTTAAATATTTCGCCTTAACAAAAAATTTATTAATAAAACTAATAAAAATAAAATATATAAAAATATACAAAAATGTACAAAAGAGGTATGATATGAAAAAAACAATATTATTTTTACTTATTATAATAACAATCACTAGTTTTGTCTCAAGTGCTAATTATTTATTTGAAAGTAATGACTTAGATGACTTATTAACAAGTGATAATGTAGAATATACTTATGTAGAAACAAATTCAAATTTAGACAAAGATTTAGATGATTTAATAAAATCATTTGATAAAATTATAGAAGATTATGAAAGCGATGAAACCAGTTGTGAAAGTGCAAATAATGAAAGTAAATGTATTAAAATAGAAAGAGAAAATACGGCTGAAAAAATAATTGATTGGTTTGATGGAAATGATGACGATAATTTAGTACCATTCTTAAAAAATATATTTGAAACTCAAATAGATCTATTAAAAGACTCCCTATTATCCAAAAGAAATTATGTAAAAGGTTTAGAAACTAGCGATTTTTTTGAATCTAATTCAAAATGGGATGATATAATGGATGACCTATCAGACATCAAATCAGACTTAGATCCTCAAAATAAAAGTGATTTTGTACAATTTAAAAATGATATTACTGATAAAGTTTCAAATCAATTAAAAAAATATATTTTTGAAGATTTAAAATTTGATTATTGGGTTATGCAAAATAAAATTCACATTGAGGAGTCTAGACAAAAATTAAAATTTTTTGAGGAATTAGAAAAAACATATGATGACATTGAAATTGATATTAAAACATTAGGCATAAAAAATTCCAAAATAGATGATTTTACTGATAAATTAAAAGTATTTAAAGATAATAATGAAGACTTAGAAAATTTATTTGAAGATTATGAATCAGCAAATGATAATTTTATTGACGAAGTTGATGACAGCAGAGATAAATTTGATTTAGATGATACAATATATCCAAAAATTGATAGAAATTTAGAAATTGAAAATGATTATAACGATTGGACTGACAAAAAAGATTTATTTAAAAAAAAATATAAAGATCAAATAGAAATTATGGGTAAATTAAGAGAAGAAGTTTCTGATCTTTTAAGTAATATATAGGAGGTTAAAAAATGAAGAATATAATATTAATATTAATAATTGCATTAACTTTTGTATTTACAGGATGTTCATCTGATGGCGATCCAGAAATTGATAACATAGTTCAAGAAATAATTTCAGAAAATGAAAATACTCAAGTAATTAGCGATAATCAAGAAATTCAACCTGCTACAGATATTGAAGAATTAAATAAAACTAATATTGAAGAAGAAAAAGAAGAAGCAATTGAAGAACCAGTAGAGGAAGAAGAAAAAGAAGAAACTACAAGTATAGTAAGTTCAAAATTAGATTTAGAAAGAGCATTAATTAAAGCAAGAACTGAAAAAAAATTAGAAAGATTAGGGGAAATAGAGAGTACACTCCAACTATCTGATTATAAAATTGAAAAAGATTTTGCTGAATCAGACGAATTAAAAGATTTATTTGATTTTCTAGATGATGAATTTGAATATAAAATAGAAAGCAAGGTTTTTGAAGATTAATTTTTTATTTTATTTTTTTTATTATTGTTTATAATTTTCTATTACTTTTTGTGTAAATTCGTCCAACCCATCTATTAAATCACCATTTTTTTCCTCACACTCTAAAAGATTTTTAGCGGTTTGTTCATCAAAGCTTAATACTATATATCCATCATTAAAATCAACTAAATAAGAAACATTGGTCATCATTTCAAAATAATTTTCATATAAAACCATAGAATCCAAAGATCCTCCTAACTTTTCAAGTATAATTGGATTTAAATTTTCTTCAGTATTTAAAACCCCGTTTAATGAATCAAATAATTTTCTTGTAACTTCAAACTCTTCTATAATGCCAGAATATAATTTTAAATAAGAATGAAATTGAATTGCAAAATCTTCATTATTTGGTGGATAGTAATAGCGAGTCATAAATTTAACAAATTAATTTATGTTATAAATATTAGCAAATTAATTTATAAATATAAAAAAAAACAATAAAAGATGAGATATTCACGTCATTTAAATTTAGATAGGCCTAAAATAAATAGAAAAGATTTAGACATTAATCTAATAATAATTGGCTGTGGTGGAATAGGCAATAATATAGCCTATTTGTGTGCAAGCTTAGGCATAAAAAACATATATTTAATTGATGGAGATATTATTGAAATTAGTAATTTAAATAGACAAACACTATTTTTTGAAAAAGATATACTAAAATCAAAATCTAAAGTTTTATGTGAAAAATTAAAAAAAATTAATAGCCAAATAAATATTAAATATAGTTCAAAAACTGTAGACCAATTAAATATTGATAACATATTAAATATAAATAATAAAGATAAAACTATTATAATTGACGCCACAGATAATATGAATACAAGATTTTTATTAAATGATTATTGTATAAAAAATAAAATAAAATTTATTAGCTCATCAACCATAATGACAACAGGATATGTTTATTCACACATCCCATCATTAAATAATGCTTGTTTAAATTGTTTTTTAGAAAATAAAAAATCTAATGCTAGTTGTGGAATTGAAGGAGTATTAAATGGAAGTTTATTTATGTGTGCAAGCATAATGATTAGTGAAATTATAAAAATAATCAATAAAGAATATAATACAAAAAACATACCAAAATTAATTAAATTCAATTCATATGATTATAAAATCCAATTAATTAATATTAATAAAAATAAAAAATGTAATACATGTAAAAATAAAAAATTTATACATTTAGACAATAAAAAAGAAATGCAATTTTGCTCAAAAAATTTTCAAAAAAAATTTAATAAAAAAGATTATGAAAAAGTTAAAAAAAGAATTAAATCAAAAAAAAAAATAAACGACTTGAATATTGGTTTTTCTTTTGAAAATATAATTGTATTTAAAATGGGTAAAATATTAATTAAAGAAAGTACAAAACAAAGAGCAAATATAAAATTTAATCAATATTTCACATAATTTTATAAGAATATAATAATTTTAAAGCAATAAAGATGATAAAAATAAAATTATCTGATGGGACTGAAAAAAAAGTAAAAGAGGGTATTACTGTTTTTGAATTAGTATCTGAAATAGACTCAAAACTATCCACATCTTGCATTGGTGCAATAATTACTCAAAAAGATAATTCTACATTAATTGACAATATTACACCCATCAATTTTAATTGTTCCATAAAATTTATTACAAATCAAAATAATGAAGCATATGAAATAATAAGACATAGTTGTGCACATTTACTGGCACATGCAGTAAGTGAATTATTCCCTTATGCAAAAACAACAATCGGCCCTACAACACATAATGGATTTTATTATGATTTTGATCATGAACCATTTTCTGAAGAAGATTTAAAAAAAATAGAAATAAAAATGAAAGAAATTGCAAAAAGCAATTTAGAAATTAAAAGAGAAGAAATAAGCAAAAAAGAAGCTTTAGAATTATTCAAAGATAATGAATTTAAAATAGAAATAATAAAAGAACTGCCTGAAAATGAACCAATTACAATATATAAGCAAGGAGATTGGTTTGATTTATGTCGTGGGCCACACATACAAAATACAAGAAAATTAGTTGGATTCAAATTAGATAAATCCACAGGTGCATACTGGAGAGGAGATTCTAAAAATAAACAACTACAGAGAATTTATGGTTTTGCATTTTTTGATAAAAAAGAATTAAATACATATTTACTAGAATTAGAACAAGCAAAAAAAAGAGACCATAAAAAAATTGCAAAAGATTTAAATTTATACATGATTGATGAGTTAGTTGGAAAAGGTTTACCAATGTGGCTGCCAAAAGGTCAAATTTTAAAAAATGAAATTGAAAAATTAGCAAATGAAATTGAAAATGAAGAAAATTATTTACAAGTATCGACACCACATTTAGCAAAAGAAGAATTATTTTTAAAATCAGGTCACTTACCCCATTACAAAGAAGGAATGTACCCTTCAATGGAAATGGATGACGGAACATATTATTTAAAGGCAATGAATTGTCCATTCCATCATTTAATATTTTCACACAAACCAAAAAGTTACAAAGAATTACCAATTAAATTAGCAGAATATGGAACTTGTTACCGTAATGAATTATCTGGTGCATTATCAGGATTATTAAGAGTTAGAATGTTAAGCATGAACGACGCACACATTTATTGTACAAAAAATCAAATTGAAGCTGAAATTAAAAAAGTTATTTTAATGGTAAAAAAATATTATGAATTATTTAAATTTGAAAATTATTATTTTAGACTATCAACATGGGATTCAAAAAATAAAGAAAAATATATTGATGAGCCAAAAAATTGGAATTATACTCAAAAAATATTAAGAAACATATTAAAAAAATTAAAAGTTGAATATACAGAAGTATCTGATGAGGCAGCATTTTATGGACCAAAAATAGACATACAATTTAAAACAGTATTAGGCCGTGAAGAAACAATGTCAACAATTCAATTAGATTTTGCCGCAAAGAAAAAATTTGATTTAAAATATACTGACAAAAATGGAGAATTAAATAATGAAGTATTTGTAATTCACAGAGCACCCTTAAGCACACATGAAAGATTTAGTGCATTTTTAATAGAACATTATGAAGGAAGATTTCCATTATGGTTAAATCCAAATCAAATAAAAATCTGTCCAGTATCAGACATATTTTTAAAATATTCACAAAAAATATATAAAAAAATTAAAAAATTAGATTTCAGAGTTGAATTAGATAAAACAAGCGATGGAATAAGTAAAAAAATAAGAAATGCCCAATTGGAAAAATATAATTATATGATAGTTATTGGAGAAAAAGAAATCGAATCCAAAACTATAACTATAAGAGACAGAACGGGAAAAAATAATTCTAATATTGAATTAAAAGAATTCTTAAAATCAATAAAAAAAGAAAGAGAATTTAGGGAATAATATTGACCAATTTTATAAATTATAAAAAATTACAGTTTTATAATGCAATATAAAAAATTCACCCTAGATAAATTTCAAGTAGATGCAATAGATTCTATTGAAAAAGGAAATTCTGTTGTAGTTTCAGCATCAACTGGTACTGGAAAAACTCTAATTGCTGATTATATTATTGATAAATATATTAAAAAAAATAGAAGAATAATTTATACTGCACCAATTAAGGCATTATCTAGTCAAAAATATAGAGATTTTAAAGAAGAATATGGTGAAGATAAAATTGGCTTAATGACTGGAGATATCGTAATTAACCCCCAAGCACCAATAATTGTAATGACAACTGAAATATATAGAAATATGTTAATTACAAAAGACCCATGCATTGATTATATTAGTTATGTAATTTTTGATGAAATTCATTTTATTAATGATATTGAAAGAGGAACAATTTGGGAAGAAAGTATTATTTTTTCACCACCACATATTAGATTTTTATGTCTTTCAGCTACAATACCAAATAAAGTTGAATTTGCAGATTGGATTTGTAAAATTAAAAATCATACTGTAGATGTAGTTGAAAATGTAAAAAGAGCTGTACCATTAAATCATAGCATATATGATCCTGAAAAAGGATTAACAGATATAAATTTATTAATTAAAGAAAAAAAAAGAAGAAAAAAAAAATATGGTAGAACAGATGAAGATCAATTAGTCCATATTGATTTAATCGACATATTATTTGAAAAAAAATTATTACCTGCAATATATTTTAATTTTTCAAGAAAACAATGTGAATATAAGGCAAAAGAATTATCAAAAAATATAGATTTTTTAAATTCAAATGAAAAAAAAGAAGTTATTGGAAAAATAAATGAAATAGTTCCAAATAATTTAAAAGTATTAAAATCATTTTCATTATTAAAAAAAACATTAACTAAAGGAATTGGCTTTCATCATGCTGGAATTGTTCCAAAATTTAAAGAATTAGTTGAAATTTTATTTGGAAATGGCTTAGTTAAAGTATTATATGCAACTGAAACTTTTGCAGTTGGAATTAATATGCCAGCAAAAACAGTTTGTTTTGCAAGTTTATTAAAATACGATGGTGTAAATACTAGATATTTAAATAGCAAAGAATATTTTCAATTGGCAGGAAGAGCTGGAAGACGGGGAATTGATAAAATTGGTAATGCAATTGCAGTAATCGATAATAACAATTTAGATTTAGAAAGAATTAAAAAATTTACAACCAGAGACATTGATCCAATAATATCACAATTTAAATTATCAATTAATACAGTATTAAATTTAGTTTATTATCATAAAGAAGACGAAATTAAAACAATATTGAAAAATAATTTTGATTATTATTTAAAACAAAAATCAAATAAAAAAACTAACATAATTAATTCATATAATAATAGATTAAAATTATTAAAAAAATTAGAATTTATTGACCAAGATAATATTTTAACAAATAAAGGAATTTTTGCAAGGCACATATATAGTAATGAAATTTTAATTGGTGAAATATTTAATTCTCAAAATATAAATAATTTAAATGAAAAAGAATTATTAGTTTTAATAGGTTTAATTGTATATGAGCCCAAAAGATCAAATAGATTTAAAATATCTAGAAAATATAAAAATCATTTAATTGTATTTAATAAATTAAAATCAAATAATTACTTTTTTAAAAATTGTAATCAAACACATTTAGCATATATGGATTTCATTATAAGAAATTGGATTAATAATTATAATATAAGTGAATTATTAAATCATTGTAATTTACAAGAAGGTGATATAATAAGACTATTTAGACAAATAATTGACGTAATGAGACAAATAAAAAAAGCAAATGTAGATCAAAATTTACAAAATAAATTAACTAAAGCAATTGAAATAATAAATCAAGACATAATTAAAGTAGAATTCTAAAAAATAAATGAAAAAATAAGTCCAATTATAATTAATAAGAATCCATATAAAATAATTTTTATTGGCATACTAAATAAAAGAAATAGACAAACTAATATACCAAAAAAAGGTATAATTGGAAATTTACCAAAATTAAATGGAACCTTAAATGGACGTTTTAAATTTGGTTTGGTATACCTCAATACAATTAAAGATAAATTAATTACAATAAAAATAAAAAATAATGTGAAATTTGTTAAATTTGCAACTAATAAAATATCATTAAAAAACAAAAATGAAATTGAAATTAAACAAATAATAATAATTGAAACCCAAGGTGTTCTATTAATTTTATGAACTTTTGAAAAAATATTTGGAAGTGATTTACTTTTTGACATTCCATAAATAATTCTAGAAGTTGAAAGTAATAATAATAAGGAAGTATTTGCTGTTGCAAATAATGCAATTATTGCTAATATTAAAGATGCATTATCACCTAATGCTGTTTGCGCCACATCACTTAACGGTGCATTAGATACACCTAAAGCTTCAGGAGACATTACTGAAACCGCTGAAATTGCCACCAAAACATAAATGATTGTAGTAAAAATAACCGAATAAATTATTGCACGTGGAATATTTGTTTTTGGTTTTTTAGTTTCTTCAGATAAACGCACAATATCTTCAAAACCCATATATGCAAAAAAAATTAATGCCGCAGAAGTAAATAATCCTGACAAGGATGGCATATCAAAATAATTAATATTTACCATATCAAATTTAGGAAGACCAATAAAAATAATCATAATTAAACCTGCAGCTTCAATTAAAGTAAAAACTACTGCAATATTAGTTGAAAAATTAATACCTTTAAATAATAAATAACAAATTATTAATAATAAAATAATTGCAGGAACTATTATTGACGTATTAAAAATTGAACTAAAATATCCACCAAAACCTGATGCAACAGTTGAAGAAGAAATTATTCCACCAAAAATTGCAAGCCACCCAATTAAAAAAGCAAATTTAAGTCCAAATGCTTTTTTTGTATATATATATTCAGCAGATGATTTTGGAAACATTGAACTTAGTTCAGCAAAACTTAAACCAGAAAAAACTGCCACTAGTGCAGCAATCAAAAAGGAAATCCACATGGCATTCCCAGCTAAAAAAGCAGCCTTTCCAATTAAAGCATAAATACCTGCACCCAATATAATTCCAATACCAGAAATTGTGACTTTCCATAAACTCAAACTTCTTTTAAGTTTCACCATGTAGATTAATATATATTTCACATAATAAAGGTTATTGTTTAAATTTAGAAAATTAATAAAATTAATAAATAAAAATAATTTTTTAAATAAAAGGTGATAAGATGGAATTTTTTTTTGAAGAAAAAAGCGATTATTCAACTACGTTTATCAGACTTGCATTAGGTATTATTATGACTTTAGCAGGTTTTGGAAAAGTAATGAAAGGTAATGAAGGAATTACAAGTATGGCCACAAGTATGGGTTTTCCAGTAATTTTAATGTGGGCAGCTGCATTAATAGAATTAATTGGTGGAATTTTAATATTAGTGGGTTTTTATACTAGGACAAGTGCATTTTTAATTGCATGCGTAATGTTAGTTGCAACTATTGTTGTAATAAATGGAGGAGCACCATTTATGGGTGGAAGTTCATTTTGGGCATGGCCTTTAGTAAATTTTCTAATGGCAGTATCATTACTATTTTCTGGAACTAAGGTCATTAGTGTAGATAAATAATAAAAACCAGTAAGAATAGACAAATCTTTTAGTACATAATTTTTTTTTATTTTAATTTATTTAATTTATTTTTATCCAAACAAGCAAAACAAGATTTACAAACATAAACATTTTTTTTCCACTTAATAACAGAATTTAATTTTTTATAAGAATTACATAATCTACAAGTATAACCACCTCGTTTTTCAGATTCAATAAATTCTTCATCTTTTTTTAATTGTTTTTGATTTTGTGAATTTAAAGAACCCAAATTACTAGTATCAATTTTTTGAGATAATACTTTTTTAGATTTTGTATTAAATTTTTTATTATCATAATTACTAAGCTCATCATTAAAATTATCTAAATTTACATTATCACCTGAAATTTGTAAATGAGTAATATATTTTTTTATAGTATCAACTGAAAGACCAAAATAATTTGCAATTTGAATAACGGTTTTACCTTCACCCAACATCTCTTTAGTTATTTTAATACGCTTAGACATTTCAGAATTTGCATTTTTTGCATTAATTATCGCCATATCACATAAAACAATAAATAGATTATTAAATTTTCGTAGCAAAAATATTTATTTTATTATAAAGTAATGAATAAAACAATAAAAAAGTTTATAATATTTAGTTGATTACATACAATTATGAGACGGTTATCAAATAACTAAATTAATGTATTAAGTTTGTTCTAATAATAATACATCTGTTGATGTATAGACATTAATGAGGTAATGATAATGTTTACAATAAATAATTTGTCAAAGACATATGGTAATGATTACATAATAATAAATGGTAAAATAGTAATAAATACACATGATAAGTGTGCATTAGTTGGAAAAAATGGTAGTGGAAAAACAACCATAATGAATATAATTAATGGAAATACTGATTATGAAGGAAATTTGGAAAAAAACGACATTACTATTTGTAAATTTAATCAAATTGAAGAAATTCAGGATACAGCACAAAATTATTTGATTGACTATCAAAATTATGATTATGAAAAAGAAAATATAATACATCAATTAATTGATATGTTTGAATTAGATTCAAATATTTTACTCAAACAATTTAATACATTGAGTGGAGGACAAAAATCAATAATTAGATTAATAAAAACATTATCCTCAAAATCAGATTTACTTCTTTTAGATGAACCAACGAATCATTTAGATTTTAAATCTATTAATATATTAATTAATTGGCTAAAAAAATTTGAAAAAAGCTATGTAATAATTAGCCACGATAGATTTTTTTTAAATGAAATTTCAAATAAAGTTATTGAAATTGAAAACAAGTTAATAAACTCATATAATTGTAATTATGATGAATATATAAAAAGAAAGAAAAAAAGAATTGAAAATGAAGAAGAAAATTATCAAAAAAATATTAAAGAAAAAAAAAGGTTAAATACCATTAAACAAGAACAAGACAAATTTAAAAATAAATTAAATACTAAATTGTCAAAATTAAAATTAATTCATGGACCAAATAAAGCAGCAGCATGTTCCGCTAGACAAAAAGGAGAAAAAAGTCAAATTAGATATGGTAAAAATATTTCTGTAACAGATCAAAAGATTGAAAATTTAAATTTAATAAAACCAAATATAGATAATAATAGACTGAGAATTGAGCTATTTCAAACAAATAAATCTAATTATGAAGTTATAGAGTTAGATGAATGTAGTAAGTCAATTGAGGATAATTTAATATTAAATAAAATTAATTTAGAAATTTTAAGAAATGATAAAATTTTTATTAGTGGAAATAGTGGTAGTGGAAAAACTACATTAATTAATTCAATTATAAATAAAAAATTTGATAATGGAAATTTAAAATTAGGAGATAATATCATCATTGGACAAATTTCACAAGAAAAATTTCATTTACAAAAAGAAATTAAAATAATTGACTATTTTAAAAAAAAATATTCAAAAATAGATTTAGGTATAATGAGAAATTATTTAGCTGCATTTTTATTTAAAAAAAATGAAATTAATAAAAAATTAAATGAGCTTTCAGGTGGAGAATTAATGAGAATTGATTTACTGGATTGTTTAATTAAAGGCAGTAATTTATTAATATTTGATGAACCAACAAATAATTTAGACTTAGAATCAATAGAAGCATTAGAAAAAGCCATCATTGAATTTGAAGGTACTATAATTGTAATTAGTCATGACAAAAAATTAATTGAAAATTGTGCTAATAAAAAATATGAATTAAAATGTGGAAAATTAATAAAAAAAGTTACTTTCTAAAATCTTTTTTAAATTTACTTAAAATTGCTTTTTTACCAGTCCAATCAAAAGCATGTTCCACCACATCTAAAATTGTTTTTACACTTACAATTTTAATTTTACTTTTTTCTTCTTTACTTAAAACTATGTCATCATAATTAGATTGTGGTATAATAACAAAATCCATATTTGCACTTATTGCAGCTTTTATTTTTGCACTAACCCCACCAATTGGTAAAACTTCACCTTTTAATGATAAACTACCAGTCATTGCACAATTTTGTTTAATTGGTATATTTTTTACTGAACTAATTAATGCAGTAGCTACTGCAATACTTGCTGAATCTCCTTCAACACCTTCATAAGTTTGTAAAAATTGTACAAAAATATCTTTATTTTTTAAATCATCACCAAAATATTTTTTCATTATTGCACTTACATTAATAATAGATTCTTTTGCAATTTCACCCAATTTACCTGTAGCTAAAATTTCTCTTGATTTTCCACCAGATGTAATTTCACTCTCAATTGGTAAAATTATACCTGATAATGTAGTCCCATGGCCAATTACAGCTAAACCATTAACACGACCCGTAAGACTTCCTTTATTTTGAATTAATGAATATTCTTTTTTACGTTCTACAATTTTTTCTGCAATTTGTCCTTCTAAAGGCTTTGCAATTTTTAATGCTTTATCTATATGACTTACTTCAACTAATTTATCTCCATTTTCAACTGCAATATCACCTGATGATCGTACAACACCACTAAGTTCTCTAAATCTTAAAGTTATATGATTTTTTCTATTTGCATACATTCTTGCAATATCTATAATTTTCTCAACCGCAGCTTTAGAAAAATGAGGTATTTTACCATCATTTTTAATTTCTTGTGCAATAAATTGCGCAATTGCATATTTAATTGCAGGTGTTTCTTTAATAGTATCATCCATATATACTTCATAACCATAACCACGAATTCTACTACGTAATGCTGGATGTAAATTTTTTAAACCATCTAAATTACCAGAAGCAACTAAAATAAAATCACATGGAACTGGTTCTGTACTAACCATTGATCCTGCACTTTTTTCACTTTGACCAGTAATTGAAAATTTTTTTTCTTGCATAACTGTTAATAATTGTTGTTGAGATTCAATTGACAAAGTTGCAATTTCATCAATAAATAATACACCCTTATGTGCCTTATGTATCATACCACCAATTACACGCTCATGTGCAGGAGTTCCCAAACCCCCTGATTGAAGCGGGTCATGAAGTACATCACCAAATAATGCACCGCTATGGGCCCCTGTTGCATCAATAAATGGTGCATTTTTTTCTAAACTTCTATCAATAATTATTTTTGGAGTGTTTCCAACTTTAATTTTAATTCTTTTATTAAAATTAATATATACAAAAAACATAAAAAACATAAATAATGTTCCAATTGAAAAAGTAAAAAACATAATTGCACCTGCAACAGTACTTGCTAATGTTTTAGAATAATGATCTAATGCATACCATGGTAAAAATATAGAAATTGCAAGTAATATAATAAAAACAACCATTTGAAAATTATTCATACCACCAATTAATGTTTGACCTTGTCTTAATTTTTGACCTTCACCAGCTTTTGTAATTCTAATTAATGGTTTATTGCTGTCATTTACATTTTCATATGCCAAAACATCAACTAAATTTTCACTAGGTAAAATTTCTGAAATTGCTTGACCAAGCATACTTTTTCCAGTTCCAGGTTCACCAATTAAAAGAACATTTCTTCTTTGTTTAGCTGCCTTCATAACAATATCTTTAGCTCTTTCCTGGCCTATTACTTGATCAATGATTTTAGAACCAACAGATATTTCTGAAGTTGTCTTAAAATCATTTATTTTTTTATTTTTCAACTTAAATGCCATAAAAATCTTCTATTTTAAAAGTATTATGTTAATTAAATATTTACTTAGACTTTATTATTATTGAATTCATTAAATAAGAATTAGGAATATAGACAAAATCACCATTTTTTGATTTTATAATAGTTTCAATTAAACCAATAGTTTGAACATATCCTTCAACACCATTACATTTAATCAAAGATCCAATTTTTATATTTTTATTAATATTATAACTTGCATATAAATTGGGAAAAAAGTCTTTTATAGTAAAAAGAATACTAATAAACACAACAATTAAAATAATTATACCCAAAATATCAAAAACATAAGGTGCTAAATTTAAACTTATTTCATCCATTGCCTTTATTATAAAAAATAAATAAATTATTAATTCGATAAAATAAGAAAAATAAATTGAAAATGAAATATTAATATCTAATTTTTTTAATAAATCATCAATTTTTATTGTTTTTAAAAAAATATTAATTATTTTATATGAAAATTTAGCAATTACATAACCTATTAAAATTAATAATACTGCAATTATGTATTCATTTACAAATAGTTTATTATATGTTTCAATAAACACCATATTTTAAATTAGAATAATGTATATATAAATATTGTTTATTGTTTGTCATTATTATAATAGTCTTTAATATTATCATCAATATCTGCAATAGCACCACCAGTTAAATTATAATAAATCTTTTGAGAACTCTCTCCCCAACTAAAATTTCCTTTCTCATTTATTATTTTATTAATTTCAAAATCACCTATGTTTGTACCATATTTTAAGTGATAATAAATAGAACGTGAAGTTACACGACCATAAATTTTTATATATTTTTTAAAAATATCATAACCAGTTAAAGGAGAATAAAAATATAATATGTTTATTACATTCTGCCTAATTTTACTACCTTTTGGTCTACCTCTCATTTTTATATAAATGAGTCCGATGGGATTTGAACCCACGACCTCTTGATTATCAGTCAAGTGCTCCACCAAACTAAGCTACGGACTCGAAAACGCCTCTGGCCAGACTCGAACTGGCGACCTGTCGGTTAACAGCCGACTGCTCCACCAACTAAGCTACAGAGGCAAAATTATAATTCTATGGTTAATAAAATCTTTATAAACATTCCGGTAATGAGCCAATTAAAATTAAAAAATTAAAAAAAAATTAATTAAATTAATAAATAAAAATACAAAACTTTATAAGAAAAATATCATGAAATTAAGACATTAGAATTATTTTTTTAATTTTAAAAAGAGGGCGATTATGGAAGAAAATATGTATAATAAATTACTTTTACTATATTCTACTTCTCACTTAAACAGTACAGACAAAGTAAAATTTTATTATGCATTAAAAGGAAGAGATGGCAAAAGCGGAATTGTAAAACAATTAAATATAAGACAATTAGCAAAATCAGTTCTATTAGTTGATCACCATCATCAAGAAGATATTACAAGTTTTTTTAATCATTGGGAATGTCCAACTGAACTTAATCATATTATGATAAAAAAATGAAAAAAATAATTATATTCGTGATGATTTTGTTTATCACGAGCATAATTATAAATGCAAACAACTCATACAATATTTATATCGAAAAGGAACTATCGAAACAAACAGAATTCTACAATAAATATGAATTAAATAAATTACAATTTAATAATGATTTTCATACAATAATTAATAATGATAGTTTAAAAAAATTTAATTTTAATGAATTAATTATTTTAAGTCAAGTAGATTCGCTCACCGGATTAAATGACATAATAGAAAAAGCAAATCAAATTAATTATGTTGATGAACGAAAGTTTGAAATTACAATAAATTCTCTTGAAAATCAAATAATTAATTTAGAACATAATAAAATAATAATATTAAGTGAAGAATCAGAATTTTTTAATAACAAATTAAATGACATATTTACAAATGTAAGCATAGAAAAAGAACAAATTAAAATAGAATTAGAAAATTGTCAAACATGTTATGAAATAAAAGATAGTTATCAATGGCTTGAAATTGATTTTAATAATATAGATGAAAAATATGTTATTGCATATTTAGATAAACTTAAAGACTTTAAAAGATCAGCAAAATCAGATATTAGTTGTAAAAGAAATAATTTAAAAGAATGTACATTACAAAAATTAATAATAAATTTTGAAGAAAAAACAAAAAATAATTTGATTGATCATTTGAAAAATGGTAAAAAAAAAATACCAGAATATACAAAATTCAATAAAGAAATTAATAAAATAAATAAGATAATAGATGAATTAGAACAAAATAAAAATATAATAAAACAAATTTTAGATAAAATTAATGATAAACAAGTATTTGATGATAATTTATTAAATAAATTAAAATCAATAAGTAAAAAAAAAGTGAATAATTCTAATTTAATAGAAATAAAAAATCAAGCAAAAGAATATATACAATTATTAGAAACTCCACTAAATATTGAATTAAAACAAAATAAACAATTAGATTTCAATTTTGAGTCAAATATACAAAGAATAATGGATCAATTAAAAAGAAATAATGAATTAAGACTAAATCAAATATCATTTCTAAATATAATCTTAAATTCATTTTATTTTTATGAAAGTGAAAATGAATTAGAAAAAATATATTATGAATTAATTAATGAAATACTATTAAAATATACAAAAAAAAATGAAAATAAAAAATCAATTAAAAAAAATGTAATTAATGACATTCAAATATTGAAATATAATTATGTATCTATTAAAAAAACATTAAATGATGAGAAAAAACCAAATTATTATGATAAAAAAACAATTAAAAAAATAATCGAAAGTTATAATAATCTTTTAAAAGAAATGCTAACAAAAATAGATGAAGATAAAAACTATGATTTAACTTATTATAATACTGAAGATAATGAAAAGCAATTTATTATTAAAACAAATAAAATTAAAGACATAATTGACCAAATATCAAGTGCATTAAACAAATTAAAAGCAAATGAAAATTTAATATTTGAACAAAAAGAAGATTACTATACAGTTGGAATAGAAGATAATTTTTATAAAAAAGTTCTAAATTGGTTGGGAATATACATTCAAAAGAATAATATAGACAGACTAAAAAAATCAAATGAAAAATATTTATTAATTAATAGCGAGGATAAATTTTCAAAACAACAATTATTAAATATAAACCAAAGTGAAATTATTGAGATTTCCAAAGATAAAATATCATTAATTAATAAATTACAAAGAGAAATAAATGAATTTGATATAAAATATGAATATAAACAAGATGAAATTGAAGAATTACTAAATTTAATAGATTATTATTTTTTTATTAATTATTTAATTGAAAATGATATTAATTCTTTTTTAACCAAAATAAATATTGATTTTAAATTTAATGAATATTTAAACAATATTGCATATAATAAATTATCAAAATTTAAATCAGAAAATAAACAAAATTTTGTAAAAAACACATATAATTCATTAATTGCAAATAGACTTAATCTAAATTCCCACTTCATAAAAGAAATTCAAAAAGAATTTAATCAAAAAGAAACAATTGAAATAATAAATGAATTTACAAATGAATCAAATATATTAAATATTAATATATTTGAAAAAGCCAAATGGGATATTACACCAATTAATAATAATAACATTAGTAAAAATAAAGTTTTACTAGATAAAAAAAATTTTGAAATATTAAAATATGCAATTATGTCAATTAATAAAGAATTTGAACAAACAAAATTAAATAAAGAAATTAAAGAACCCTATAATTTTAAAATTGAAAATATCAATAATAATGATAAATATTCAAAATTAACATATCACAATAATTTAGATTTTCACAATAGATTATCTGAAAATAAAAATAATTTAACTTATGCAGACATTGTGATTTTTTTAAAAGATAGAATAAATATTGCAATAATAAATAAAATTTTACAATCAAATATTAATAAAATAAATAATACACAAACTTATAATGACATAATAAGTGAAATTTCTGAATTAAAATATGCAGAATTATCATTATTAATTAACTCAGAATTTGATAGCTATAGTAATGATCCATTTAATAATAATTATTTAAATTTAGTAAATAAAAAAGGCGTAGATCCCTTAATTAATTATTTAAATAGTTTAATTCAAAAAGAATACTTTTACAAATATAGTAGAGAACATGGATTGACTCAACTCTATTCCATTAAAAAAACAAATAAAGTAAATGACAATAATATTGAACTATTACAGAAATTATTTAATAATAGAAAAAACGGCTATATAATAAGTCAAAATGAAGAAGAGATCATATTAAAAAAGGCATTAAATGAAACCATAAATAAAATAATAAATAAGAACATATTCACCTCACATTCAAATTATAATGAAACATATAAAATAAGAAGACAAGAATTTTTAGATCTATTAGATGTTCATTTTAAATTAAAATTAATTTTAGAAGCAATAGAATTTCATGGTTTTGAAATAAATATTTTATATGATGAAATCAATACTGAAAATGAAAAAATAATAAAACAATATTTAACAAAAGATAATTATAATCTTGCAATCGAATATAATATCATAAAATCAAATATAATTTCAAAATATAAATTAATTAAATCTGAACAAAAAGAAAATGAAGATATTTTATATTTAGAATTTAATCAAATAATTAAGGATTTAATATATAAATTAGATAATTACAAGAATTTACAAATTGATGATGTCGTTTATAATTTAGAAAATGCAGATTCAAAAATAATTTCCTTAATTGAAATTGCAAAAGAAACTAATGATATTAAAAAAGAAACAATTTTATCAGACATTCACGACATAATAATAAAAATCAATTCTAATATAATAAGATTACAAAAAATAAATGATAATATTAAAACAGATTTAATTACAATTTCAATATTTCCAACAATAATTGAAAAAGAAATTAAAAATACAAATAGTATTGAAATTATTAAAGTTGATAGAACAATACAAAATTCAAAAAATATAATAAATGAAATTAATTCAAATAATAAAATAAATATATATGAAATAAAACAATTTGCAAAAATAATTAATTATTTGAATATTTCAAATAAAGATTCTTGCCTAAAAAGCATAAGAGAATTGAATAATATCAATATTAATGAAAACAATATAAATTTAATTCAAAATTATATTGTTCAATGTCAAACATATTTAAATTCAATTTTTAATGAAAAAATGTCTGAAGATCAAATAGAAAAACATTTTTATTTAATTAACAAAATTAATACTAATTATTACATTTATTTACAAAATAATGAATTATTTAGTTCATATTTGAAATCATTGAAAAATAATAGAGAAGTTTTATTGATATTAAAATCTAATTTTGATAAATATAAATTTAAAGAAAAAAGTATGTTTGAAAAAATATCAGAATGGATCGGTGCATCAAAAAAACAAATAAGTAATTTTAATGAAGAAGAATATATAATTAATAATATTTTAAATTCAATAAATAATATTGAAAAAGACATAATATCCAATAAAAAGTTTAAAACAGAATTAAATAAAAAACAATTTGAATATAAGATATTTGATTTAATATCAAAACAAATAAGATTCATAAATAAATTAACAAATATTAAAATAAATGAATATTCAAAAGGAAAAAATTTATTTTATTTTGATTTAAATTCATATTCAACTAATGCTATAGAAGAAATTGTTAAAATTGAAAATTATAGAATTGATCATTATGATGAAAATGAAAAAAAATGGTTAACATATAATCCTGAAAATAAAGAACACTCAGACTTCGATCAATTTACAAATAATAATTATTATGTTATTACGATTAATTAATTGTTAATTTTTGATTAATTGAAATATCATTAAACACTTTCACATCACCATTTAGAAAGTTAATTTTTAATTGTTCAATATTATCATTATCACCAATACCAAAAGAAATTTGATTACTTGAATCACTCATTAATCCCGCACCAAAAGTTATAATTCTACTTTGATTAAATTTATTACCAATCAGTTCAATAATAGCACCATTAAATCTAAGCGTATCTGGTACATTTAACATCAAATAATTATAATTTAAATCTTTATTTAAAAAAATCCTAACTGGGCCATCCATATTTACATAAACTACATCAGGTATATTATCATCATTAAAAAAACCACTTAATACATTTTGACCATAATAAAAGTTACTAACCTTACTTGCCATTGTTGAGGGAATAAATTTATTATCATCCCCCATTAATAATAATCTGCCAGGTGCCTTAGTAATTTTATTTGAAAATAAATTTAAATAATTTTCACTAACAATTAAATCCATTTTTCCATCCATATTAAAATCATTAGAATTTGCACCCCATCCAAATTCATAATTATCTAATCTGATATCATCAATTCTTTGTTTAAAATTAAAATTACCTAAATTCTCATAATAGACCCACTCATTTTGTAATATTTGTTCATCTAATAAATCACCTTTGGCAATAAAATTAGGAATTGAATTTCCTATATTTGAAAAAAATAAATCAAAATCACCATCATTATCAAAATCGGCAGGAACTGAACCCATCCAATAACCAATATCAGATAAATCTATTTTTTGAAAAGAATTTCCTAAATTTTTAAATAAAACAATTTTATCTGTATTTGGACTAATTACTAAATCTTGTAATCGGTCCCCGTCCAAATCAATAAAATAAGATAAAAATGTATTTTGATTATAATTTAAACCATATTTATTTGTAACATCAGTAAAAGTATTATCTCTATTATTTAATAACATAATATTTTTTGTTTTATGGCTTTCATCATTAAATGTCCCAGATTTAAATAAATCAAATTTTATGAACGTATTCACATAAATATCAAAATAACCATCATTATTCAAATCAGTTATAGCAAAACTCATTGGAATTGAATTATCATCAAAATTAATATTAACTTTTTTTTCAATAAATATATTATTTTCATTAATATAAAAAAATACACCATCCTCCCTTGCAACAATTAAATCTACATCTAAGTCATTATCAATATCAATTGAAACAGAACCAAATGTTGCAGAATCATTATTTAAATCAATATCAATTTCATTAAATTTTAAACTTAATTCATCATAATCCAATATTTTATCAGTTTGACCACGTGAACTACCAATAAAAATTTCATCCATACCATCACCATCATAATCAATTATACTAGAAGCCAAAAAAGAATAGGTTTCACCATCATAATTATGATTTGACCCTGAATAAGTTAAATCAAAATCAGGAACAATAAGACCAATATCATTTAAAGTATCTTTTGACAATTCAGGAATTTCTACATTTTGAAATATCAATGGCCTAAATAATAATATTAAAAATAGTAATAATAAAAATAAAAATATTATAATATGTTTTTTATTCATAATATATTTTAATAAATTTGATTTATAATTATTACCATTATTTTAAATAAAAACACCAATTACTTGAAAATCTTTCAATTTAAATTTTATAACAATATAAATTTAAAAAACAGAAGAAATGTGTGTTATTCGAAATATTATTATCAATAACTTTTGGCATATTGGCAGGCATAATTACAGGCCTAATCCCAGGAATTCACATTAATTTGATTTGTAGTATACTTTTAATTATTTTACCAAAATATAACTTAGACATAAAATTATCAATTTGTTTTATAATTTCAATGGCAATAACTCATACTTTTTTAGATACAATACCATCCATATTTTTAGGCGCCCCAGACCCTAATGTATGTGAATTAATATTACCAGCACACAAAATGCTATTAAAAGGAAATGGATTCTTTGCTTATATCCTAACGTGTACAGGCAGTTTAATATCATTACTTTTTTGTATATTTTCATTATATTTTTTTATAAAAATAATTAAAATAATAGATATTTCAATAAAAAATTACATATGGATTATTTTAATTTTAATTATTATTTTTATAATATTTTCCAATAAAAATAAAATAGAATGTATTAAAATTTATTTAATAAGTGGAATTTTAGGATTAATTTGCTTTAATATTAATTTAGAGCAACCGTTATTTCATTTACTTTCAGGTTTGTTTGGAATTAGTGGGCTTTTAATTTCCATATATTCAAAAAATGAAATACCAGAACAAAATAATGAATGTAATTTTAAAAAAATAATTAAACCTAGCACATTTGCCACAATAATGGGATTCATAGCAGCCTTTCTACCTGGATTTGGAACTAGTCAGGCTGCATTTTTAATTAATAAATTAACAAAAATAAATGATGAATTTTATTTAATATTAATTGGAGCCCTTTCAACATCAAATATGATATTTTCAACTCTCACTTTATTAGAATTAAATAAAGCTAGAAATGGAGCAATACTAGCAGTAAAAGAAATTGCTGGACAAATAAATTTTAATATATTTTTATTAATGATTTTAGTAATTATTATATCTGGTTCAATTGCATGTATTATTGGAATCAACATATCAAAAAAAATATCAAATTATATAAAAAAAATTAATTATACAAAATTAATTATTTCAATTATAATTTTAATTATAATAATTAGCTTCATTTTAGATAATTTTATGGGTGTTCTAATAATTATCATATCAACTGCAATTGGAATTTATTGTAATTTAAAATCAGTACCACGAAATTTAATGTTAGGTTGTATAAATTTACAAGTAATTTTATTTTTTCTGTAACAATAAACTTTTAAACAAAAATTCATTAAAAAATGAATATGGAAGTATGCGTAATCTCATCAGGTTCTAAAGGAAATTGTTATTTATTAAATGTAAATAATAAAAACATATTAATTGATTGCGGAATAAATTATAAAGAATTAGAAAAAAGGTTAAATAAAATAAATAAAAGTGCTAAAAGTATAGATGCAGTATTCATTACTCACGAACATACAGACCATATAAGTGGTTGTAAAACCCTATCAAATAAAATAAACAATATTAAATTTTTTTTTAATAAAGAAACATATCATAATTGTAAATTTACAATACCAGAAAATCAAATTGAGTTTTTTAAAAATGGTATATTTCATTATAACAATATTGAAATTAATGCCTTATCAAAAAATCATGATGCTGCAAATCCCGTTTCATTTTCATTTAAATTTGACAATAAAAAAAGTAGTTTTATTACTGATATTGGAAGTGTTTGTAATAATGTTATTAATCAAATAAAAAATTCTAATATTTTAATATTTGAGTTTAATCATGATGAAAGTATGTTATTTGGTGGAAGTTATCCTGAATATTTGAAACAAAGAATAGGTAGCAATAAAGGACATTTATCAAATATTGAAGCGGTTAATTGCCTAAGTCAAAATATTGATATTAATTTAAAACATTTATTTTTATCACACATTAGCTCAAAAAATAATAATAAAAATTTAGCAAAATTAATGATAGAAAAAGAATTAAAACAAAAAAGAAAGGATATAAAAGACATAAATATACTTATTGCACATGAATATGAAAATTCTGAAGTTGTAAAAGTTTAATTAATTAATTTAAATGATTTAAATCTCCATTTTAAAAAAGTCCAAACAGCCTCAACACCATCTTTCCAATTAATATGTTTACCTTCTGCAACAGTTCTTGGATAATAATTTATTGGAACTTCTAAAATAGTTTCACCAATTCTCCATAATTTAGCTGTTACTTCGGGCTCCCATTCAAAATGATTACCTTCAATTGGAATTTTTTTTATTAAATCTGTTTTAAATGTTTTATAACATGTTGGTTCATCTGTTATCCATTTAAAAAATAAGATATTTCCAACTAAAGTAACCAATAAACCACCTAAAAAAAAACTAAGACCAGAATATTGAACATTATTTTTTAATCTGCGAGATCCATAAACAACATTAGTTTTGCCATTTAATATTGGATCAATACATGCCTGATAATCACAAGGATCATATTCCAAATCCGCATCTTGAACAATACAAATATCCCCAGTTGCTTCTTTAATTGCATATTTTACTGCAGAACCCTTACCACCATTTTCTTTTTTAAAAACTTTTATACCAAGTTCCGGATTATTTTTTGCATATTCTTGAATTACTTCATAAGAATTATCACGACTTCCGTCATCTACAATAATAATTTCTTTTTTTAAACTAACATTACAATCTCTAATTTTATTAAGAATTAAATGTATAGTTTTTTCTTCATTATAAGCTGGCATTAAAATTGATAATTTATCCATATTTTTTAAATTATTTATTAATTTTTAAATTATTCTATTATTAAAAAATAAAAACGTAAATTAAATAATTAAAAATACCACTCCAAATATAATTAATGATAAACCTAATATTTTTTTTAAAGTGATTTTTTCATTTAAATATACTTTTGCAAGCATCAAACTCCAAATATATGTTGTAGAAGTTAATGGAAAAACTACTGTTACATCCAAATATTTTAAAGCCCATATATTTGCTAATGCACCAAAACCATATAAACCATACCCCAAAATTGTATATTTATTAATGAAATGTTTTTTATTAGTACTTTTTTTTAACATAAATGCAGCAATAGCTCCAATAAAAGATCCAAATATAACTAAAAAAATAATTAAACTATTTGCTACTGCCAATAAAAATAACCCCCATAATTATTAAAAATATACCAATTAATTTAGAAATTGTAAATAATTCACCAAGAAAAATTATTCCAATTAAAAATACCCACACATAACCCAAACTCAAAAAAGGATGAATTTTTGAAAGATCTGAAAATTTTAAAGCATATGTTAAAAAAAACGCACCAGCCACATATAATAAACAACCAATAATTAAACTATAATTTAAATATATTATATAAATATTAAATTCTTGCATACCAAGCTTCCACATAATTTGACCTAATGCAGTTAAAATAGTACAAATTAATATTAATATTATTCCCTTATTCATTTTGAATTTTATATAAGATTGCCACTTTATTTTCATTCATATCATATGACCAAACTTCTGACATCAGTTCATTTAAATCTTCTTTCCAAGGTTGAGGTGAATTTCTATAATTATTATAAGTAATTAAAAATAAATCCATTTTTTTATATTTATCCCCACGCCCAGAAGGATCTAACCAATAATTTAATTTTTCATAAATAACTCCATTTTCATCAAGTTGAATTTCATTTCCTTCACCATCATCAATTAAAATTAACGGATCATAAATACCCACTATTTGATTATTTTGAACTTGAAATTCAGATGAAAACCAATTTACATCCCAATATAAATATTTAATTTTAAATTTTTTAATTAATTGTTTTTTTACTTCTGTATTATTACCATATAAAATAATTGCAGCCGCAGCTTGTCTTTCTTCCATATCCATAAACGGATCTGTTTGTGCACGGCGAGTTACAAGAAGTTTTCGTCCACTAACCCCATTTAATGCAAAACTTAATTCATTTGTAGATAATACAACATCATTGACATTAGTATTTTCTAATAAATATTTGTTAAGTGAATTATATGGTTCAGTAAGTTCAACCTTCCCACCAGGAGTCCATTGACTTTTTTCAAAACTTTCATATTTACCACTAATATTAAAATTTAATAGAAATATAATTAATAATATTAAAATTATATTAAATAATTTTTTGTTCTTTTGAAAATAAGACAAAAATGATATTTTATACACTGCATATACTGATAGTAAAATAAAACAAGTTGAAAGTAAAAATTCATTCATTTTAAATGGAATTAAAACCACACCCAATAAAGGTTCTGTAATAAAATAAGAATATGTTAATGTAAATGAAATTAAAAAATAAGACAATAAAAATTGTTCTATTTTTTCTTTTTTAGATTTAAATAAATAAATTAAACCAGCAATATTTAATATTGAAAAAATAATTTTGTAAACTGAGCTAAAATTAAATAAATATTTATTAAAAAAATCCATTAAAAAGTTTATTTTATTTTCCCACAATGTAAAATCGGGAAAACTCCATTGTTCTGAGAGTGATAATGTTTTTCCATGATGTATAAAAATTGGTTCATACCACCAAATTAAAGAAATTAAAAACATTAAGATAAAAACAATAAATAAATTAATCAATCTTTTTTTATCTAATTTTATTTTTTTTATTTTTAATGTATTATCTTTATATGAAATTGACTCAAATAAATAATAAAATAATTCAAATCCAAATAATAATAAAATAAAAATAGGAAATGCGGCACCGTGAGATAAACAAAAAATACCACCAATAATTCCAAAAATAATACTATATTTATAATTTTGTTTCCTAATATAAAATAAAAATAAAATTAATGGTATAAAAAATAGTTTAAAAAATGGAGAATATTTGAATACTGGAAAATTTTGAAATGATATTAATACAACAATTCCAAATAATGAAATTAATTTATTATTAAATATTTTATAAAATAATAAATAAGAAATTATTAAGCTAAAAATTAATATTAAATAAGAAGATATAATCATAGATTCAAAAGGAGTTTTATCTAATAAATTTCCTAAAAAACCATTAATAATTGAATAAGTATAAAAGTAAGACGGTCGCCCATCCAATGTATTACTTGAGTCAAAAATAGTACTAATATTTGATTCCATAACATGATAAATGGCACCTTGTTGATGATATAAATCCCCACCTAAAATTGGACCAGGTGGACTTTTTAATTGTCCAGTTATTCCAGAAAGAAAAAAAATATATACTAATATAATAATTAAAAGCAAAATTTCGTACTTATACTCTTTTAATTTAATAATCATAACTAATTGTTTTATATTTTCTTTATAAAATTAATTTAAAATTTATTATATATATTCAGCCACACATTAGTAATATTAAAGAAAAATCATTCCAAAAATTTAAAAGAGAAATGTGCTTTTTTTAAATATGAATTTTAAAATTTTAGTAATTGGTGAAGCCATGGTAGATAAGTATATCCATGGTATTGTTGATAGAATATCACCTGAAGCCCCAGTACCAGTTGTTTTATTTAATAAAAATACAGAAAATTTAGGCGGGAGTGCTAATATTTGTCAAAATTTAGCAAATTTGGATGCAGATGTACATTTAATTTCAATTGTGGGAAAAGATGAACACGAACCAATACTTACAAAATTATGTCAAAATAATAATATAAATTTAATTCCAATATATTTGAATAGACCAACTATAGTAAAACAAAGAATTGTTGCTAATAATCAACAAATAATGAGAGTAGATTTTGAAAACAATAATAATTTAGATTCAGAAGAAGAAAAAATAGTAATTGAACAAATAAAAAAAGTCTCAAAAGAATATGATGCAATAATATTATCAGACTATAAAAAAGGCCTATTTACAAAAAATATTATTGAAACTATTTTTAATCATTTTAATAATAATTTCATTTTGGCTGATAGTAAACCAGATAAAATTGATTTATTTAAACGTGCAAACATAATAAAATCAAATTTTAAAGAATTTAAAGATTATTGTAAACAAAAAAATATTGAAGTAAGTAATGATGATAGTTCAATAGAAAATACATATAATAAATTCATTTATAATTTCAATTCATTTTTATTAACAAGAAGTGAAAAAGGAATGAGTTTTTTATCCAAAGATAAATTTGAACACATTCCAACTAATGCAAAAAGAGTATATGATGTGACCGGGGCAGGAGATAGTGTAACTGCCGCATACATAATTAAGTATTTAGAAACTAAAAAAGAAGAAATATCTATGAGTTTTGCAAATAAAGTTGCAGGCATAGTTGTTAGTAAACCGGGATGTGTTGCCATTGAAAAAGAAGATTTAAAATTAAAAAATGAAAATAAAAAAATAATAAATTCATATGAAAAAATTGAATCAATAGTTAATAAATTAAAAAAAGATAAAAAAAAAATAGTATTTACTAATGGATGTTTTGATTTATTACATAGTGGACATGCAGATTATTTAAAAAAAGCCAAAGAAATGGGAGATATTTTAATTGTTGGACTAAATTCAGATGAATCTATAAAAAAAATAAAAGGTGAAAATAGACCCATAGTGGATCAAAATTCCAGATTAGAATTAATTTCAAGTTTAGAAAGCGTAAACTATTGTATTTTATTTGAAGAAGATAATCCAATAAATATTTTGTCATATATCAAACCAGACATTCATGTAAAAGGATCAGATTATAAAAATAAATATATGATTGAAAGAGACATGGTTGAAATAAATGGTGGACAAATAGGTTTTATTGAAATAAAAACAAATGAAAACAATAAAATAAGTACTAGCGATATTATTGAAAAAATAAAAAATGAACATTAAAAGTAACATTTTAATAATACACACAATTTGTAAAATAGCTGATGAAACTTTTACTCACTAAATTTATAAATAAAAAATTAGATTTTTTAATATGATTAGCTTTATTAGAATGATTGACAAATATATTGGAAATTTAATATTGTTTTTATTACCACAAAATAAAAAATTAAATAATGGTAAAAATATTTTAATAATTCGTTTATGGACATTAGGTGAAAGTTTGCTAACTCTACCAATGATTAAAAAATTAAAAGAAGAAGGTTATAATATTAATATTTTAGTAACTGACAGATCTAAGTCGGTTTTTGAAAATGTCAATTTTATTGATGATATTATTAATTTAAAAAATATATTTAGTATAATAAAAAATTTAAATAAATATGATATTGCAATAGATACAGAACCCTATTTAAAAATATCAAGTATAATTTCTTGGTGGCTTTCTAAATTTAGTATCGGTTGGGATAATAGAAAATATTCAATTAATTTGAAATATAATGATAAAATACATACAGTTAATAATTTTTGCAGATTAATTGAACCCTTAAATATTAAATATGAACCTAAAGAATTAATTCCATTAAATTACAAAAATGAAAATAAAATAAAAGTTAATGATTTAATTAAGGATATTAAAAATCAAAATAAAAAAATAATTGGAATTCATGCAGGAATGGCCGAAAGTTCACCATGGAGAAGTTGGAAAAACTTCCCAGAATTAATTAATAATTTAAATGAAAAATATAATATAATATTAACTGGATCAAATGAAGAAAAGAAAATTAATAAATCAATTATTTTAACATTAAACAATATAAATAATATTTCTGATTTTTCTGGAAATACAAATTTACTTGATTTATCTTATTTATTAACACAAATTGACTTATTCATTTCAAACGATACTGGACCAATGCACCTGAGTGCAGCAATGAAATGCAAAACAATTGGGTTATTTGGGCCAAATTTACCAGAAAGGTTTGGACTATATGGAGAAAATAATATTTCAATATATGAAGGTAAAAAATTAGGTTGTAGTCCATGTATTAATGTTCATAAAGGAAGTTTTCCAAATTGTCCAATTAATGGAAAATGTATGGATTTAATTAAAGTAAATGATGTTTTAAAAAAAATTGAAGAGGCATTAAGTTGAAAATTTTATTATTTAAAATTGGTGCATTAGGAGATATTTTAATGACAACACCATTAATAAGACAATTAAGAAAAAAATATCCAGATGCACAAATTGATTACTTATGTGGAAAAAGTTTTTCACAGATTATAATCAATAATAAAAATTTAAATAACAGTATAACCTTTGATGAAAATATAATATATAATAAAAAAATATTTAAATGCCTAAATTTAATTAAAAAAATTAAATTAAAAAAATATAATAAGATATATGTTTTAGACAAACATTGGATATTTAGTCTATTTTCATTTTTATCTAAAATAAAAGAAAGAATAGGTTTTTATAGAGATTTCCCATCAAAAATATTTTTAACAAAACATATCAAGTATAAAACAGTAAAACATGAAATTTATTATTATCTAAGTCTGTTAAACAAATATAATAAAACAGATACAAAATTAGATTTTTATATTTCAAACAACGATGAGAAAAAAATTAAAAAATATTTAAAAAATAAACAAATAAATAAATTTATTGTTTTCATAAATAGCGGTGGGGACAATCCAGGAGAAAAGAATAATATTAGAAAACTATCCAATCGGGAATTTTTAAATGAATTAGAAAAAATAAATTATAAAAATAATAATATTATACTCGTAGGAGGAAAAAATGACAAAAAGTATTATGATGAAATGTTAAAAAGAATAAAAAATAACCAACTTAAAAATAAAATTTTTAATGTTGCAGGAAAATTTAATCTCAGAGAAAGTACAGCCATAATGAAGTATGCAAAAAATATTAAAACTACAGATTGTGGGGCAATGCATTTAGCAAGTACCGTTAATAAAAAATTATCATGTTATTTTAAACCAACAAATCCAAAAAGAAAAGCGCCCTTAATAAAAAATATAAAAATAATTTGGAAAAATAAAAACAAATATAATGAAAAATATGATTTATATGGAAAAATCAATTAAAAAAAATAAATATTTACTAGTGATGGAATACTTCTCACCACACATAATGGGAGGTGCTGAAATTAGTGGTCAAATTATGTATGACATTTTTAAAAAAACAAAACTAATTCACATTTTAACGCCAAATTATGATAAATTTAAATTAAGTATAAAAAATAATATAATTAAATATCCAAGTTTCAGATATTTCTTATATAAAAACAAAACAAAAAGTACAAAATTAAGACAAAAAAATAAAAAAATATTTTCAAAATTACAAAATGTATTTTTTATAATCTCAGCAATTGAAATGTCAATCTGGATTTTTTTTATAAAAATAATTTATAATAAAAACATTATTCATGGAAATAATTTTGAATCGAACTTAGCAGTATTATTGTCACCAGTTAATTCCAAAAAATACATCCATTTAAGAGATACCATCTTTTTTGATAAAAAAAGAAGTTTACTGAGAAAATTAATAAAAACTTTATTTAAATGGCAAAGTAATAAATATTTTTGTATAAGTGAATATATAAAAAAACAATATATAAAAATACTAAAAGACAAAAAAAACAAATACATTATTAGATATAACAACACAGATAAAACTCAAATATCAGATTTAAATAAATATGAATCAAGAAAAATATTAAAATTACCAGAAAATAAAAATATAATTTTATATGTTGGTAGTTTAACTGAAGAAAAAGGCATAGATTATGTATTTGAAAATCTAATTAACAAATTTCCAAGTTCTCTTTTTTTAATATGTGGGGATGGATACTTAAAAGAAAAACTCACAAAATATAAAAAGAAATATAATAACTTTATTTTGAAAGGAAATATTAAAAATGAAAAATTAAAATATTATTATAAAGCATCAGACATAACTATTGTCCCAAGCAAATGGAATGAACCATATGGAAGAGTCAGTATTGAATCTCAAATTAATCAAACTTATACTATTGTTTCCGATAAAGGTGGTCTTCCTGAAACTATAATTTCAAAAAAAACAGGGATTTGTACAAAATTACATAATTTTGAAAAAATAATAAAACTTAAATTAAAAAAATTTTAAATAATGAAATACTTCATCTCGAAATAAATTTACTTGTCTTTCTTCTGAATAATATGATGCAATTTTCTTTGATTTCTCAGATAGTTTTTTAATTTTATCCTCACTTAAACTATTTAACCAAATTATTATATTTGCAATATCTTCAATAGTATTTTTACTAGAAACAAGTTTTTTAGAAACTTTACATACCATAAAAGAATTGCCCACCCTTTCATTAGTAATAACAATCAACCCAGAAGCCATTGCCTCAATTATTGAATTAGATGCAGCATCAAATAAACCTGGTTGAATATAATATTTACATAAAGAAACATATTTTTTTGGATCTTGAAAACCCTTAATTTTTACAAAATCAAATTTATTAAGTTTAAATTCTATATTCTTATTTAAAACTGGCCCAAGAATAAAAAAATTTAAATTTTTAGTTAATTTTTTATAAGCACTATAAATTGATTTTGCAGAGAGTAATGTTCCCTTACAATCATTTTTTTCTATACTACCTATTAATAAAAAATTAGAAGACTTGTAATTTGGATTTAAATTTAAGTATCTTTTATCTGATAAAAATTCATTAACTTCACATATTTTTGAATTAACATTTTTTTTTTTAATTATTCCGCTAATAAAAGGAGAACATGAAATAAATAAATCAACATTTTTATATGCCAGAGAAAAAATCATATTTTTTAAAATAGAGTGCATTTTTTCTTCATAAATATTATCATTCACTCTATGAATTATAACTATTTTTCTAAATGAAAATATTTTTTTAAAACAAACACATAAAAGTGAAAAAGAATTACAAACTAAATATACCTTATGTTTTGGAATTTTTATAGAATAATAAATAAGTTTTAAAAATTCAAATAAGAATAAATTAGGTTTATCTAAGTTATAATATAAACCATAAAAAACATTAGTGACTGATTTTGCAAAAGAAAGAGATGTTTTATGAGCATATTTGAAAACATAAACATAAGCAATATCGGCAGTCATATAGAACAATTTATAATTAAATTTAAAAATATACCTATATTTTTAAAAATTAAATGAAAGAAAAAAGCCAAATTACAATTATTGCCCCACACCCAGATGATGAATGGATAGGCTGTGGATGTACAATTCTTAATAATATAAATAGTAAAAATATAAAAATAATTTATGTAACCAATAGACTCGAAAATAGAACTGTTTTGGCAAAAGAAAATTCAAAAGAATTTGGATATGAAATAATATTTTTAAAACACAATGAAAAAAATATAAATATAAATGATTTAAAAAAACAATTAATAAAGGAAGTAGGAATTAATGACATAGTATATATTCCAACTATAGATACACACCCGGATCACCAACTTATAAATATCATATCCAGAGAAGTTTTAAAAAATAAAAAATACGAATATGCAATATATAATAATTCCAATAATATTTTTATTAAAATAAAAAATGCAATAAAACAAAAAATTACAGGAATAAATACAGCCAGTTTTTCAAAAGGAAAAAGTATAGTAATTAAAGGCGACATTAAAAAAAAAATACAAATTATAAAAAAATATGGTGAAATACCAAGAAATTATGACATTATTAGAGAATCCAAGAGTAAATTATTAATGGGGCCATATAACATAGTATTTTTAACTAAAGATTATAACATAAAAACAGTAGATGCAGGGTTTACAGCAATAATAGACTTATCAATTGAATTTAAAAAACTAGGACACAATCCAATATTAATAAGTAACAAAGGAGGATCATTTTGGGAACCTGCCGCTAATAAAAAACACGAAATATTTAAAGGCATAGACATTTACAGGCCGTATGGAATTACGTTTTTAAATGATGGAAATACTTTATTTAATCCAGGAATAATTTTTAATAAATTTTTTTCTCACGGATTTGGATTAAACTATGTAAAAAATAAAAATAAAATAAAATTTGATTTTATTCATGGATCTAGTTCATCACCAATTTTATTTTTTAATGTTTTATTTTCAAAAATATTTAGTTGGAATTCAAAATTAGTACACACAATTAGATCGGAAAGTATATATAAAAATGCATATGATAAAATATTCTGCAAAATAATAAATTTATCTGATTTAATTATTGTCAATTTAAATACTTTAAAATTAAAATTAATTAAAGGAGGAGTAGATTTTAGAAAAATAAAACTAATTTTATCAGGGGTCAAAAGAGAAAACTTTTCAAAAAGAATTGTAAACCATACTTTGAAAAATAAATTGGGAATTAAAGAAAATGAAAAAGTAGTTTTATATTATGGAAAAGGTGGAAAAAACAAAGGAGTTGAATACTTAATTAACGCAACAAATTTAATATCAAAAAAAGAAAAAATTAAATTTGTTCTTATACACCCAGTTGTTTGGCTCCCACACATAATAAAAAAGGTTAATGAAAGTAAAAATAAGGATAAAATTATATTAAAAACTGGAAAAATAAAAGTATCCGAATTTTTATCTTTAGCTTCAGTCTTAGTTTTGCCATATTTAACATTAAAAGGGACAGAAGGAAACCCTTTATGTTTAATTGAAGGAATGATAAACAAAGTACCAATAGTCACCACTAATCAACCAGAATTAAGAGAAATTGTTAAAAATGAATCTGAAGTTTTAATGGCTCAACCCGGAAATTCCAAATCTCTATTAGAAAATATTAAAAAAATATTAAATAATAAAAAATTAGCAAAAAAATTAACACAAAATTGTGAAAAAATTATAAAAAAATTTTCCATAGAAAATATTGCAAACCAACACATTTATGAATACCATATATTAAAAAATAAATAACAAATATATAATTCAAATTGATAAAACATATAAACAAATAGTATAAAAATTACAAATGAATAGAACCTTATTAAAAATAATAAAAAAAATAGTACCAAAAAAATTTTATTTTTATCTTTTAGAAATATATTTTTTCCTAAGACATTTTAAATATCTAGGTAAAGGATTTAAATGTTCTTTTTGTCAAAAATCATTTAAAACATTTTTAACATCTGGTATAGATGTCCCAGTTCTAAAATTAAAAAAAGTAATAGGTGGCGAATTAAATAAAAATTGTTTATGCCCAAAATGTAATTCGTCCGACAGAGAAAGATTAATCCACGTATTCATAAAAAAAAATAAACACTTAGAAAAAATAAAAAATAAAAAAATTCTTCACATAGCACCAGAAAAGAATTTACTGAAATTTTTTAAACACCAAAATCCAAAAGAATATATTGACGCAGACTTAAATAAAATTAGGGCAACACATGAAATGAATTTAACAAATATAATATTCAAAGATAATTATTTTGATATTATTATTTGCAATCATGTTTTAGAACACATTGAAAATGATGGGAAAGCAATTAAAGAATTATATAGGGTTTTAAAACCTAATGGGTGGGCAATTTTACAAGTACCAATTTCAGAAAACTTGAAAAATACATTTGAAAATAATAAAATAAAAAGTAAAAAAGAAAGATTAAAATTTTTTGGTCAATCTGATCACGTAAGAATTTATGCAAAAGACTATAAAAAAAGATTAACCCAAAAAGGATTTAAAGTTAATTTAAAAAAATTATCAAAAAGAGAAATAAATAAATATAATTTAAATAAAAAAGAATATATTTATTTTTGTAAAAAATAAACAAATTAAATAATTCTTGTATATAAAAATTTATAAATTAAAACTATTAATTAAATTCATTATTTAAAATAAAATGAACAAAGAAACTTTAAAAAATAAAGTAAAAGAGCATTGGAATAATAACCCCATGGATTATGATAATATTAAAAGTAAAAAATATAGTAAAGAATACTATGATGAAATAAATAAACAATTTCGAAATGTACATTTTTTTGCACAAAAAAAAAAAAAAAAACTATTTTCAAAAATCATAAATTATAAAAACATTAAAAATAAAACAGTCCTAATAATTGGGTGTGGATGTGGAACCTTAACTACAGAAATGGTGAAATCAGGAGCAAAAGTAACAGCAATAGACATTACACCAACTGCCATTAAAAATACTAAAAGACAATTAAAAGAAAATAAACTCAAAGCAATAGTTTTTGAAGCAGATGCAGAACAGTTACCATTTAAAAATGAAAGTTTTGATTTTGTTTGGTCATGGGGAGTCATACACCACACACCAAATACAAAAAAAGCAGCACAAGAAATATTAAGAGTTTTAAAAAAAGGATGTCACGCAAAAGTAATGATATATCATAAAAACTCAATATTTTATTATATATTAATAATGTTCATTAGGGGAATACTACAAGGAAAATTATTATTTCAAAAACCACAAGAACTTTTAAATAAATATACTGACCATAGTCACAAAGGTGGCACACCACTAGGAAAAACATATACAAGTAACCAAGCTAAAAAATTATTCTCAGGAAGTAAAAACATTAAAACACAAGTATATGGGCTCAGAAATGAATTATATTTTATACCACACATAAGAAACATGTGTTACAAACTACCAGATCTAATACCTAAATTAATTCTTGAAAAATTAAGGCTTGGATGGTTCTTAGTTTTAAAAATTAAAAAATAATTAAGCCCAGTTTTTATACCAATTATTAAACATAAAAATTTTAAAAAATAAATCACTATAATCTTTTTTATTTAATTGATGTTCATCCCAACACGTTTTAATAATTTTCTTATCATAATAATTATAACCATTAAAATTAAATATTTCATTATAAAATATATCTTTTAAGTCATTTTTAATATATTCTGAAAGCGGAAATACAAAACCTTGTTTTTTTCTATTAACAAATTTACTACCCATGAAACGAGACAATATTGATTTTAATATAATTTTACCTTTATTAAAATTTGAAAAATTACTCAATGAAGTAGAATTTATATATTTTACAAAATTATGATCTAAAAAAGGAAACCTCCCCTCAATACTGTGCGCCATACAACACATATCTTCTTTATATAATAAATCATTTGGTAAATATTCAGACTGATCAAACAAAATAGCATCATCAACAGAACCACTCTTAAAATATTTATTCAAATTATTTTTAAAGTCTTTTGAATTACAAATTACTCTCTTATCATAAAGATTAAAAAGTTTAGAATATATTTTGAAATAACTATCACTATCATATAATAAATAATTTAGTTTTGAAAAATATTTAAAAGAATTAAATGGTCTAATAATTATTTTAATAAGATTTTTAAAAAATGACGGTAATTTTACTAAATACTTTAAAATATTAAAATGAAAATATCTCTTATACCCACAAAATAATTCGTCACCCCCTGCACCACTCAAAACTACAGTTACATGTTCACTTGCTAATTTAGAAACTAAATAATTTGGAATTATCGAATTATCACCCAAAGGTTCATCAAACTGATTTATTATTTCTGGCAATAACTTAATAATATCTTTTGAAGTAAATTTTTTTTCATAATGCATAGTATTAAATTTTTTAGAAACTAATTTTGCATATTGAGATTCATCATAATTTGAATTATCAAAAGAAATAGTAAACGTTTTTAAGTTTTTAATTTTATTTTTCAATAAGCAAACAAGAAGAGAACTATCAATACCACCAGATAATAAAACACCAACAGGCCTATCACTTATTGTCCTATACGCTATGCTTTTTTCTAAATGACTATGAATATTGTTTTTCAAATTTACTTTATTATCCCTATTAATTATATTATCCCAATATTTTTTATATTCCATAACCTCTTTTGATTTTAAATTATAAATTAAATAATGACTTGGCATTAATTTTCTAATATTCTCAAAAATTGAAAATTCTAATGGACAATATCCAAATAATAAATAATGTTTTAATGAATAATTATTAATTTTTTTATTGATATTTTTAAATTCTAAAATAGCTTTCAATTCAGAAGCAAAAATAAATGTTTCACCATCTAGATAATAATATAATGGTTTAATCCCCATTCTATCTCTAGCAATAAATATTGTTTGCTTTTTTTTATCATAAATTGCAAAAGAAAATTGACCGTTAAAATAATCAAGACACTTTTCACCATAATATTTATAATAATAAAGTATGACTTCAGTATCAGTATTAGATTTAAACTTTATATTTCTTTTATTTAATTCATGTTTTAATTCAATAAAATTAAAAATTTCACCATTAAAGACGATTGAATAATCATCCAACTCCATAGGTTGTTTACCACACTCACTTAAATCTTGTATTGATAATCTTTTATGTCCAAAAGTCAAATTAGTATAAAATTTATAACCAGATTGATCAGGGCCCCTGTGATGAAGAGAATTTAACATTTTTACTATTAGTTTTTTATCGATCCAATTAAAACCAACTATGCCACACATAATAATAGTTCTGACAATATTTTAATAAATCTTTCTAATAAAAATTAAAATCAAAAGATTTATATAAATACATAATACCAAAAATAATATTTTCAAACTAAATTAAAATTAAATTATAAAATAAAATGAAAGAATCTAAAAAATACAGAAGAGCATCAAAAAATTTACACAACACAATTATTAAATTGGCAGAAAAATATAAACCTAAAAGAATTATTGATTTAGGTAGTGGCTACGGAGGTGTACCATTGAAACTTGTAAAAGAAGGATTTCAAGTTACCTCTACAGACATAAATCCAAAAATTAATAGAGCACAGAATATAAATTGTATAAAAGTAGATTTAAATAAAAAAATAAAAATAAAAAACAAATATGATATGGTAATATGCACAGAAGTTATTGAACATTTGTATAATACAAAGAAATTATTAAATGATGCGCACAACATATTAAATAAAGAAGGATTATTTATATTTTCAACACCAAATAATCAAAATTGGTTTTCAAGGTTATTTTTTTTATTTACAGGAAAATTCCCATCATTTTTAGGAATTCCACATGGAAAAGACAGAGATTGGTTTGAACCACACATAACACCAATATTTACTTGGCAAATAAATTTATTAATTAAAGATTTATTTAAGATTAAAGAAATTACCTTTAACAGAAGCGTAACACCAATAATACATATAAATTTACCAATTAAAAATTTATTTTTTGGACAAAATCTAATTATGGTTTTAAAAAAAATTAATTAGTTTTTAAATAATTTTCTTTTGTTTTCCAAAGCAAATAATAATCTAATATTTGTAACCAAGATAAAATTAAAAAAACCACCATTTTTTCATAAATATTTTTACCAACATAAGCACGCCAATCAGATTTTGATTTGTCAATTATACTATGTTTTTTATAATTCACAAAATTAAAATTAACATCAAACAATTTAAATTTTGATTTATTTATATGATATATTTTATCCAAAGAATAATTTAAATCATTAGATTTTATTGCTAAAACTAAATCAAAATTATCAATATTTTTTTTAATAAGTTTATAATCCATTATTTTAACAAAATTAGTTTTTGATAAAATATCAAAACAAAAATTTAATAAAAAGCTATTTCCATAATTATACATAATTATTTTTTTATTATTTAGTTTAAATAAATCAGAATAATCTACTTTTTCTATAAGTAAAGATTGAATGTTAGTTTTTGCAAAAATTTGAGTTTCTTCATAAAAATTTTTCAAAGCTAAAAAATTATATTCATCAAAATGAGGTTTTAAAGATTTTTTCCAATTCAGTTCAGAATTATCTCTTTTGTACAAAGTATATTTTTGATTATTAATAATTAATTCATAATTATTATTTCTTATAACTGTAATTTTATAATCTTGACCAATAAATCTATTATCTATTCTTATTAAACGTTCATTAAATTTAGAATTAATATTTAAATCCGTTGGATTTTCAAGTAATTTTTTAAATGAAATTGCCCTTTTATTTTCTCGCCCATATTTAAAATTTAAATAATCAAAAATAGTTTCAAAAATATCAAAAAGCCCAACTTGTGCATTAATATTAATTTTTGAGGAATTTTTATTTTCAAAAGGTAATTTTAGTGCCAAATTAGCACGATAACAATCTTCAGTTGAATAAATACTATGATTTCTAGGCTTCATTAACCAACCAATTGGTTTATATGAACCAAAATCAGTATATCCATGATCAGAAGAAATTATAATAAAAGAATTTTCATATAAATTTTTTTCTTTTAAATATTTTAATGTATTTTCAACCATATTATTTTGATCATTTGTTGGAGCAAAATGAATATATAAAAAATTAGGGCCATTAAAATTAAATTTCTTTTCCATTATGTGTTTAAAAGAATTCCAAACAGTACCATTACCACTTTTATATTCATTATCAGTCCTAAACACATTTAATTTTTTTTTATAAAATTCTGAACCCTCCCTACAAAAAAAAGTACTATTTATAGTATATCCATTTTTTTTCAATTCATCAAAATAACTATGGGTCTCAAAGTCCTTCAAAGCTGAATGGTCATAATACAAATCATGTGAAAACATACCTGTAAAAAATGAACTAGTAGACATTAAAGTTGAAGTTGCTGATGCAATAGCCGTTTTAAAATTCAAAAATTCAAAAGGAAGTTCATCATATATTTTCAATCTCCCATATCCATCATTACTTTTAAAAAATCTATTACCTTCTGTTGCAATCCAAATAATATTATTATGTTTCATAAAAGTATTTTCTTAATAATTACTTTATATATATTATGAATTTCAAATAATTATTAATAAAGAATTATTTATAATAAAATTTTTAAAGAAAAAAATTTACAAACAATTAATAAATCAAAGGAGAATAAAATATGAAAAAAGTATACGTTGGAATGAGTGCAGATTTATTACACACAGGTCATTTAAATATAATTTCAGAAGCAGCAAAATTAGGGGAATTAACAGTTGGAATTCTAACGGATGAAGCAATTTCAAGTTATAAAAGATTACCACATTTACCTTTCGAAGATCGAAAAAAAATAGTAGAATCAATTAAAGGAGTGCATGAAGTTATTCCTCAAGAAACTCTTGATTATGTACCCAATTTAGAAAAGATAAAACCAGATTTTGTAGTCCACGGAGATGATTGGAAAACAGGTATACAAAAATCAACACGCGAAAGAGTTCTAAATACAATTCAAAACTGGGGGGGAAGACTAATAGAGCCAAAATATACAAGTAATATTTCTTCAACTAAATTAAATCAAGCTTTAAAAGAAATTGGAACAACCCCAGAAATAAGATTAAAAAGATTAAGAAGGTTATTAAATGCAAAAAGTATAGTTAGAGTTCTTGAAGCACATAATGGTTTAACAGGATTAATTGTTGAAAACGCAGAAGTCATTAAAAATGAAGTAAAAAAAGAATTTGATTGTATGTGGTTGAGCAGTTTAACTGATTCAACTGCAAAAGGAAAACCAGACATAGAATTAGTAGATATAACTTCAAGATTAAACACAATAAATGATATTTTAGAAGTAACAACTAAACCCATAATTTATGACGGAGATACTGGAGGCAAACCAGAACATTTTCCTTTTTTTGTGAAATCATTAGAAAGATTAGGAATTTCTGCAGTTATAATTGAAGATAAAATTGGATTAAAAAAAAATTCACTTTTTGGAACTGATGTGGAACAACAACAAGACACACCAGAAAATTTTGCAAAAAAAATTAATATTGGAAAAAAAGCCCAAATTACAGAAGATTTTATGATAATTGCAAGAATTGAAAGTTTGATTTTAAAACAAGGTTTAGATGATGCAATTGAAAGAGCAAAAATATACATAGATGCAGGTGCTGATGGAATTATGATTCATAGTAAAGAAACAGATCCAAATGAAATTTTAATGTTTTGTCACAAATTTAAATCTTTTGAAAAAAAAGTACCTTTGGTAGTAGTACCTTCAACATATAATGAAATAACTGAACAAGAATTAATTGATGCAGGAGTAAACATAGTTATTTATGCAAATCATTTGTTAAGAAGTGCATATCCTGCAATGATAAATACTGCAAAAATAATTTTAGAAAATGACAGATCATTAGAAGCAAACAATTCATGTATGCCAATTAAAGAAATTTTAAATTTAATACCGGGTGGAAAATGATTAATGTAATAAATTTTATAAATTTTTTAAAAAATCAAGGAATTGATTATTATACTGGAGTTCCAGATAGCTTAATGAAAAATTTCTGTGATTATATAAATTCAAATAAAGAAATTAATAATATAGTAAATCACAATGAAGGAGGTGCAATTGCATTTGCCGCAGGAAATTATTTAACAAATAAAAAACCGTGTTTAGTATATTTACAAAATTCAGGACAAGGAAATTGCATAAATCCATTAATAAGTCTAACACACCCTAAAGTTTATTCAATACCAATGTTATTGTTAATTGGTTGGAGAGGTGAACCAGAAATTAAAGATGAACCACAACATATGAAACAAGGAGAAATAACTGAAGAATTATTGCAATTATGTGACATACCTTTTGAAATATTAGATATTGAAAATTGGAAATCACAAATTGAAAAAGCAAACAATTTTATGATAGAAAATAAATCACCTTTTGCAATATTAGTTAAAAAGAATACTTTTGAAAAAACTAATATAGTTAAAAAAGAGAATAATTTTAATCTAGTAAGAGAAAATGTATTGAAAAAAATAATACAAAATACTAATGATGATCAAATAATTTTTAGTACAACAGGAAAAATAAGTAGAGAAATATATGAAGTTAGAAAAGAATTAAATAAAGAATCAGATTTAGATTTTTATAATGTAGGTGCAATGGGTCACGTAAGTCAAATTGCACTTGGAGCTTCATTTAAGACCAATAAAAAAATATTATGTATAGATGGTGATGGTTCATTAATAATGCACATGGGAACATTAGCGACAATCGGAAGTTATCAACCAAATAATTTTGTACACATATTAATAAATAATGAAGCACACGAATCTGTTGGCGGTCAAAAAACTGCAAGTAGTGAAATTAATTTTTTAGAAATTGCTAAAGGTTGTAATTATAAATATATAAAAAGTATAATTAATGAACAAGAGTTAGATGATTTTTTAAAAAATTCAGAGTTAAAATATCCAGCATTTATTGAAATAAAAGTAAAATTAATGTCAAGAGATAATTTGAAACGCCCAGAAGACACAACTTTAGAAAGAAAAGAAAAATTTTTAAATAAATTAGAAAATGCAAATTAACGAATTTATTGGAATTGATTGTTTAAATCAAATAACAGAAATAATCAAATCTGAAAATATTCAAAATATATTTTTAGTAACAGGAAAAAAAAGTTTTGAAAATTCTGGAGCAAAAGAAAAATTAGATGAGTTAATAAAAAATTTAAACATAACACATTATTTTGATTTTGAAGTCAATCCAAAATTTGAAGATGTATTAAAAGGAATAGATCTATTTAAACAAAATAATTGTGAATTAATAATTTCTTGTGGTGGCGGAAGTGCAATGGATATTGCCAAATCAATAAGTATATTATCAAGTCAAAAAGAAACAAATTTAAGAGAAACTGTAATAAAGAATTCAATAATAGAAGATAACAAATATACACACATAGCAATTCCAACTACTGCAGGCTCAGGAAGTGAAGTAACTCATTTTGGTGTTATTTATGTAAATAATAAAAAATATAGTTTAACACACAAGTCAATGAAACCAAATTTTTATTTTTTAGATCCATCTTTATTAATGAGTAATAGTGAATATCAAAAAGCTACTAGCGGAATTGATGCATTTTCACAAGCAATTGAGAGTTTTTGGTCTGTAAATTCAAATACAGAAAGTATTGAATATAGTATTAAAGCAATAGAATTACTATGGCACAATTTAGAAGATGCAGTAAAAACACCAACAATAGAAAATTTACAAAAAATCTTTTTAGGTTCAAATTATGCAGGTAAAGCAATTAATATTGCAAAAACAACAGCCTCACATTCAATTTCATATCCAATTACTACTTTTTTTAAAATATCTCATGGTCATGCCGTTTATTTAACAATACCTGAAATGTTTTACTTTAATTCCAATATAACAGAAAAAGATTGTAATGATAAAAGGGGAGTAAATTATGTAAAAGAAAAAATGAAAAAATTGCAACAAATGTTTGGAGGAAATAGTTTTTTAGAAGCAAAACAAAATTTAGAATTATTTGGAAAAAATTTAAATTTAGAAAATTTATTATCAAACCTTGGAATTAATAGAGAAAATATAAATTTAATTATACAAAATGGATTTAATCCACAAAGAGTTAAAAACAATCCCAGATATTTAAATGAAGAAAATTTAAAAACAATATTAGAAAAAATATATTAATAAAATAATTAAATTAAAACATCTATTTCTTTACCATATTTGGTATAAATACAATATAAATACATAAAGTAAAAAAAGGAAAAAATTATACCTAAATAAATAATTGAATTAATAAAAGAATATAACATTACAATTAAAAAAAGACTAAAAAATATTGTTAAAAAAACATTAAAATTAAATAAATTGTATACATCAAATTTATTTTTAATAAAATGAGAACTTAAAAAGAATATTAATAAATAACTAATAAAAGTTGATATGGCTGCACCTAAAATTCCATATGTTGGAATTAAAAAGAAATTTAATAAAACATTTACTAATGCTGAAATAATATTGACAAAAAGGATTATTTTTGTATTATAATAAGAATATATAAATTGAAAATTAATTAAATTTAATGAATTTAATAAAACACCAAAAACTAATACAATAAAAACATATTGACCAGATAAATATTTAATATCAAATAAAAAACCCAAATATTTAATTCCAAAAAAAGCTACAAATATAAAAATTGGTAAAGATAATAATAAAAAGCCATTAATGATTTTTTTATAAAAAATATTAGCTTTTAAAAAATTATTTTTTATATTTTTTCTTAAATAAGGAACAATAAATAAAATAATCGGAGAGGCTAAAAGCAACAATACTGATGCCGAAGGTAATAATACATTATATATACCAACATCAATTAATGATTTCATACTAGTTAACATAAAAGTATCAAAATAATTAATAAATCTCCCACCTAAATCACTTAAAATTAATGGAAAAGAAAAAAAAAGAAAATTGGGAATTATAGTATAATCATTAGCTCCAACATTTGTAAACTTAGAAATTAATTTTGATAAACTAGGAATAAATATTAGAAATACAAATATGGGCGTAACTACAAGAGCTAAAATTGCCGAAATCAAACTATCAAAAAAATAATTAAAAATTAAAAATAATATGACAATTAAAAGATTTTTTAATGGTTCAAAAGTATTTATTTGTTTAGACATATAAAAAATTCTAAAAATGGGTCTTAATAATAAACTCAATAAACTTGTTACAAAATAAATACTAAAAACTTTAAACAAAAATGAAGAATATAATAAATTAAAATAATTTTGAGCTAAAAAATCAGAAATAAAAATAAAAATAAATACAAAAATAGTCGAAATAATAAATTGGGATGAAATTACAAAACATAGTAAACTTCTTAATGCATTAAAATTTTTTTTAGATAGAAAATCAGAACCAAATTTAACAACACCCTGATTAAAACCCAAATTTCTAAAAACTAAAAAAAAAAGTATAAAATTTAACATAGAATAAAATAAACCATATTCTTCAAGACTAAGATTAGATGCTAAAATAATTCTAAATAAATAAGAAAAGAATAAAGAAAATATTGCACCAATAATATAAAAAATACTTCCTTTAATAAATAAATTTTTAATCATTTTATAATAAAATCAGAAAAAGATAAAGTTTTATTATTTAATAAAATAATATGATAACCAAATTGACTCTCAATTGGTTTACTTATTTCACCAACATTTAATTCTTTTGCCGCATCACTAAATTCAAGAACAAATCCATTAAGATCACCAAGACCCATATTACCACCATTAACAACAACACTAGGATCCTCACTAAATTCAATTGCCTTTTCTTTAAAATTATGTATAGTTAAATTGTTTAAAACATCATTTGTAAATTTTAAGGCTTCTTCTTTTGTTCTATTAATATTTAATTGTGGAACTTCACTATGACCAATTAAAATATGACTAACATTATATAAATAGTTTTTTGGTTTAGTCATTTCATTACTATCCCAGTCAATTAACCAACTACTTATTTTAAATCCACTTTGGCTTCTTTGTTCGTCAAAGAATTTAAAATTTTTCAAACCAAGACCATTTAAATAAAACAATCTACTAAACATAGAGCCAGCTAAATCTGGATGAGATATTGAAACTAAAAGTCTTCCATCATTTTCATATAATGTTAAAGCAAAATTAATACTTGCATTTTCATAATTTATTGATTCAAATTCATAATCAGAATTTAAATAATTAAAAGAATGAGGTTTTTGATTATTTTGAAAACTACCTTGGTTATTTTTCAAATTATGAGTATATATTAAAGCACCCTGGGGCGTATTGACATTACAAATTATTTCATTTTCATTTTTTTGACAAGGATAGTTTCCCACATAATTTGGAAAACCACTAATCCAATAATTTGCACTTTCTTCATCATATGCATTAACATTCATACTATCAATTAATTTGTCAGGATTTTTAATATTTTTTTCATTTAATATTTTAATTTGGTCATCATATAGTAAATCGTTAGTGCTTTTCCAAGCATAAGCTCGATCAAAATTCCAACCACCAAAATGAGCCCAGACAGCCGCTTTTGAAACCATATCTTGTGAAGTTATAAAAATTCCATCTTGTGGAGTACAATGGGTCATTCCTAAAAATACATCAACTTCTTCAACACTATAATTTTCATTTAATAAAATTTGTTTTGCATTTTCTTTCGAAGAAAAAATAACTGTTTCAATTAATCTTAAAGTATCATAATTATCATATTTTTTTTCTAATTCCTTACCAAATCTATGATTTGAACAATGCAACATACGCAAAATATTTTTTGCCTCACTTTCATTATTAGTTAATAAACTTCGCCCAACCCAATGCGCTAATTCACCTAATTGAGAACCACCATCAAAGGTTGCACCCCTGTTTGAAACCGTAATAAATTGATGACCAAAATCCCACCAAGAAGTTATTATCGAATCATTATGAGTTTCTGTTTTTATTTTATTTAAATCCGAAACCCACGCGTCATTTAAACTTGGTAAGGATTGTGAACCAAATGCATAAACTGTATTTAACGGAAAAATTAAATTTAATAATAAAAATACCAATACAAAAATACACAAATTTGAAGTAATCAAAGATAACTTAAATTCCTTATTTGAAAATTCAGACAAATATTTTGAAATTTTACCAAAAAATATTGAAATTATAAATGCAAATGGTAAAACTGTAACCATAATAAATCTAACACCTGAAAAAGTAGTCCAAAATAAAACAATAAACCAAACAAAGCCCAAAATTGAAAGTTTTATATTAAAATTTGAATTTTTTCTTTCAACAAATAATATAATTAAACCAATAAATCCAAGAATGGTTAATAGTATACCTTTAGATAAACTACCCCCTCCAGATAAACTAGAAAAAGTATTTAAAAAATTACTTGGATTTAACTCCGCTACTGTTGTATAAACATTAGGCCAAATGCTTATCCCTTTAGTAGTTTCTTTTAATAATAAAAAACCAAATGGTCCTTTAAAAAGTGAAATTAAAGAACCCACACCTTTTATTAAAACAACAAAAATTGATCCTAAAACAAAATAAGAAAATGAATAATAAAATGTATTTTTTATTTCTACATCATATTTAAAAAGATTAAAACTTTTTTTTAACTTATATTCTTTAATGACTAATATGATCAAATATAAAAATAATGAAATTAATAAAATTAAAAAGAAATACCAATAACCCCCCCAAGCAAAAGAAAATAAACCAGTAAAAAATGATGCAAAAATTAAATTAGTTATTTTCCATTTTATTTTTTTTAATTGAAATACATTTATTATAAAATAAAGTATTATTAAAGGAAAAAATATCACATACATATCAGTATCTGAAAAACCACCAACAGTTCTTTGAAATATACTTGTATGAAATCCAACTAAATATGAAAATATAAAACCACCTAATGTATTAGTAATTTGTCTACCAATTAAAAATGCAAAAATTATTGCAATCCCTATTCCAATAATCGGTAAAATAAAAAATGTTTTATATAATGAAATGTCGATAAAAAAATTTAATATTTTATATGAATATACAGCAAAATATGGGTGTAAAGAATTAGTTAATGGTTGTTCATTATTATTAGGAGCCAATCTAAATTTATCAATAGATTGACCTTCAATTAATATCTCCCCAACATGCCCATTATTCAATAAATTTCTTGCTTGTCTATAATAGTAATAAGGATCAATTGCAACTAAATATGTCTCCCCATCTTCATTTTGAAATTCTGCTTTAATTCTATCTGACAAAATTTCTGTTTGTTGATCTATTACTTGTTTATTTTGTTCAGAGAATTCAATCCATCTTTTTTGTGCTAATTGTTGTTTTCCTTGTGAATCAACATTAGGAAATTGAGAATTAATTTCATTTAATTGAGAATTTAAAAAATTTTGTCGTATACTTTGTTCAGCCCACTCTTCTGAAATATCAACATTTAAATTTTGAGTTCTTACATCAAAATTTACAAATAATAAAGTCAATAATAAAAAAATCCAAATATATTTTTGAATAAATTTTGAAAATCTATATTTAGGGTTATCATTAAATGGATCTAATAAATAATTTTTCCAATTTGAAAAATCTAATTTAAATTCTTTTTCTTCCATATTATCCCTTATTATCTTAAACTATGTTTTTGAAAACTATTTATAAATTTTGAGTTATTAATTATTATTAAATAATAATCTGAATTTTCGAATAATCATTTTGAAGGCAACAAATATGCTTCTTTTTATTAATGCATAAAAATTATGTTTTTTAATTACATATGGATTGTAATTAATAATAACAGGAATTTCTTTATATTTTATTTTTTTTATACCAATTTCATCAATTATTTCACTTGCATGAGCCATACAGTTTTCTTTAATTTCAATACATTTCGCAGCATATCTATTCATAACTCTATACCCATTATGAGTATCAGTTAAATTAATATGTGAAATTAAAAGAGTAAATACCAAGCTTAATTTTAATAAAAACCATTTTATAAAAGGCATATTAGATTTTTTACATAAAAATCTACTTCCAAGAGTAATTTCACATTTTTTATCAATAACCGGTTTTAACATATTATTTAAATCTTCAATTCTATGTTGACCATCCGCATCAAAAGTTACTATATATTTACATTTTGATTGCTTAAGGCAATAATTTATACCATGTCTTAATGCCGCACCTTGACCTCTATTTTTTTTATGATTAATTACATAAGCATATTTTTTTGAAATTTTATGAGTATTATCACTAGAATTATCATTTATAACAATTATTTTAAAATATCCATTTTTATTTAATTTTTTTAAAACAGACCCAATAATTTTTTCTTCATTATATGCAGGAATTACAAAATATATAGAATTTTTATTCATTAATTATATTTTTAAATTTCAGTTTAAAAGTATTATGAATAAATGATAAATTTTTATAAAAATATATATAAATGTATTATTTGGAAACAATAATATGAATTTAATAAAACAAATATTTGAAGAATTTAATAAAAATAAAATAAATTATTCAATAATTAGAAATTATGAATTTTTAGTTCAAAACAAAGAATATTATGATGGAAAAGATATTGATATTTTAGTTAAAAAATCAGATTATAAAAAATTAGAAAACCTTATTTTAAAAAATAATTTTTTTAAAATTGATTTAAATTATGGAACAAATCACAAAGCTTTTGTAAATACAAAAAATAAACAAATAATATCATTACACATCCATTTAGGTGGAATTAGTGGCACATCAACAATATATTTAAATGAAAAAATATTAATTAATAAAAAATTAAAAAATAGTTTTTACACACTTGATGAAAAAGATCAATTTATTGCATTAATTTTACATATAATTTTAGATGGCAAAGAATGGAGAGAAACTTATAAGACTCAAGCAATTGAATTAATTGAAAAATCTAATAAATTATATACTTATTTTTCAAAAAATATTGCAAATGAAATTATTGAAAAAATAAAAAATAAAGAATTTGATAATTTTAATGTAAAAAAATATAAATTAAATTATAAATTAAATAATCCTTCATTTACGTTTAGTAAAATTTCATATATGATAAAATCATTCATTTGGGTTTTAAAAAGAATATTTAAAGGTGGAAATTTAATTGCAGTAGTTGGCTTAGATGGAACTGGAAAAACAACATTAACTGATAATGTAAATAATTATTATAAAAAATCATTAATTAGAACAAAATTAATTTATTTTGGAAGGGGTAAAAACAATATAATACCAATAAAAAAAATATCAGCCCCATTTATTAAAAAAAAAGAAAAAATACATGAAAACAGCCCAACAGTTGGAAAAACAAAAAAAACTAGCATTTTATTCACATTAGGATCAATAGTATTTTTTATTGATTTAATATTAAGATATTTTTTTACTATAAAAATATCCAAAATAAAATACGACTTAGTTTTAACCGATAGATTTGCAACAGATTTAATTTTGATGAATGGAGTTCCTTTTTGGTTGAGAAAAATGTATTTTTATTTAATTCCGAAACCAAATATAATGATTTATTTATATAATGATATAAATACTTTAAATATAAGAAAAAAACATCCAATAGATGATTTAAAAAGACAAGAAGAAATATATTCATATTTAATTAAAAAATATAATTTTTTTAAAATAAAATCTGAAAATATAGAACAAGTGAAAACCGAATCATTAATTAAAATAAATGAATTATTAAATTATAAAAAATGAATATAACTGAAAGCAAATTTATTAAAAAATATGAAGAAGAATGTCCTAGTTTTAAATTAATAGATATAAAATCCATAAAAAAGACAATTAGATTAGATAATATTAAATCAGTTGAATTAGAAAAATATAAAATAAAATTAGAAAAAATTAAAAAAAATTTATATTCATATAATGCAGATTTTAATATTACAAGTACATTACCATATTTAGATGGAAAATTTTTCATTCAAGGGGAACCTAGTTTTGATACAGTTGAATTATTAGATCCAAATTCAAATGAAATCATATTAGATATGTGTGCAGCACCCGGTTCAAAAACAACTCACACCTCAAATTTAATGAAAAATAAAGGAACCATAGTTGCAATTGAAAATAATGCTAATAGATTTAAAAAATTAAAATTCAATTTAGAAAAAAGTAAATGTGAAAATATAATCTGTATTCAAGAAGATGCTACAATATTTGAGTCAAAAGTAAAATTTGATAAAATTTTAATTGATGCACCATGTTCAGGAAATTATACAGTAGAAAAAGATTGGTTTGAAAAAAGAACAGATTTTGATATTGAAAATAAAGCAAGAGTACAAAAAAAATTAATTAAAAATGCATGTAATTTAATTAAAAAAAATGGAATTTTAATATATTCAACATGCAGTCTTGAAAAAAAAGAAGATGAAGAAATAGTCGAATATGCCAAAAAATTGGGATTTAAAGTATTATATGAAAAAAAATACTGGCCCCATATAGAAAATACTATAGGATTTTATATGGCAAAATTAGAATATATAGGCAGTTAATTTTATAAATAAAATGAAAAACCATTTAATTGGAACGGTCATAGCGGAGAGGTTACACCTGAACCCATTTCGAACTCAGAAGTTAAGGGCTCCAGCGAAGTCATGTGTACTGGACTTATGTCCGGGAAATTGTATACGCTGTTCCATTCTTTATATATAATTTTATAATTAAATCTATTGTAATCATATTATGAATAGTTATCAAATATATAATTTAATAAAAGAAATTCAATTAATTAAAGAATCTAGAATTAATAATATTAGTTTATGTGAAGATTATTCAATTTTAATAGAATTATATTCTGCAAGCATTAAAAAAAAATATTTGCACATAAAGGTACCTAATTTTTTATTTTTAAGAAATGAGAAATGTGATATAATACAAGCAAATTCATTCACTAAAACATTAAGAGAAAAATTATTAGGATCTATTATTAAAGAAATAATACAATGCGGTGCAGATAGAATTATTGAATTTAAATTGTCAAATGATAAAAAATTAATAATAGAATTATTTTTACGTGGAAATATAATTATTCTTGATAATGACAATAAAATTGAATTAATAATGGATAAAAAGAAATTTGAAAATAAAAAATCCAATATTGGTGAAGAATATAATATAGTAAATCCAGCATTTGAATATAAAAAAATAACTTATGAAAAAATCAATAAATTAATTGAAAATAATAAAGGAGACACAATAGGTCTTTTTATTGCAACAAAATTAAATTTAGCAAAAGAAATATCAGAATTTTTATGTAATGAATTAAATTTTGATAAAAATAAATTTATGAATGAATTAAAAAAAGAAGAAAAAGAAAATTTGATCAAAAAAATTAAAGAAATTTTAAAAATAAAACCCTCAATTAATATTAATAAAAATTCACTATTAACCATACCTGATAATAATAAAAGTCAATTTGATACAATAAGTGAAGGTTTTAAAAAAATTAATGAACAGTTAAAAGAAAAAATAACAAACACCAAATATACTAATCAAATAAATAAAATAAAAAATATAATAAAAAAACAAAATAAATTATTAGAAATTAATAAAAAAAAAGAAGAAGAATATAATTTAGTTGCAAATAAATTATATGAAAATTTTGAAAATAATGAAGCAATTTTAAATAAAATCAAAGATGATAATAAAATAATTGAAAATAATACATTTATTAAAAAGAACAATATATTAAAAATAAATAAGAAGAATAAAACATTAATAATTAAAATTCAATAATTATTTTCTTTTTCTAACAATAATTCTGTGTCTTTTTACAACACCAAAAGAAAATATACTAAATAAAAATAAAACTCCAATCATAAAATAGTTTGAAACATTAGAAGTTTCAATGCCCGTTAAACTAAATGCACCAGTAAATAAATTGGCTGAAAAAAAATCAAATATATTTGTATATTCCCCAGTAAAAGACAGAACAAATAAACCAAATAGCCCAATACCTAATACTTTTATTACTTGCATATATTTATCCTCAGAAGTAAAATCATCAGTAACTTTAGGATTATCAGAAAAAGTTAGACGATTTGTTAAAAAAGAATTTAAATTTTCTTTTTTCAAATTAGTTTTTGCCATAATAAAAATTAGTTTTTTTGATTTATAAAACAAACTATTTTTTATTATCTAATAATATTTTTGTTTTTTTTACAAAACTACCCACGTCATCTTTTGAAAATTTATAAATTGAAATAAAAATTAATAATATTAATATAATTGTTATAAATAATGCCACATTTTTTGTATTTTTAATAAAATTAGTATCAGTTATAATTTCTTTTGCAGTTTGTTCTTCAATTTTTGTTGTAGTTTTAATATTTAATTTAGTACCACTTACACCAACAAGACTAAAAACAACATCTGCAACTCCATCTAAATCTAAATCAATATAATTTGAAATTCCTTTTTTAAATATAATTTCTTGTCCAGTTGATTCAATTTTACCTATGATTATATCATTTTTTGCATCACTTATACTAATTTCATAATCTTTATTTTCATATTCAATTAATAATACATCAGATTGCTCAATAATTGCAGAACGAGTATTATCATCAATCTCACCATAATCTACAACTCTCGCATCATATTCATCACTATATCCAATAATTGCATCAACAATTTCACCACATTTTTTTTGTTCAACTGGTTTTAATGAACTAGAATCACAAGATGTTGTTTGACTACAAGATCTTGTTTGAATATTATTTGAACAAACAGACCAATCATCACAATTATAATCTTCTTCACAAATTTTTTCTTCATATAATACTTGTTCTTGAATTGAAACTTCTGTACAAGATCTTTGAATTGAAGGTGAAGAACCACCACAACTTGAAACTTCATCACACGTTCTAGATTGTAAACTAGACTGACAAGTTGTCCAAGAAGAACAATCCCATGCAGAAACACACTCTTTATTCATTTCAGCTTCAGCAGCTTCTTTTTCAGCTTTAGCTTTATTAAAAGCTTGTGAATTACTACTACCGCCTCCACCACCACCAGAACTTGATGAAGAAGATGAACTTGAAGATTCAACAACATCACTTATAGTTAATGAAGTATTTAATGAACCACCTTCATAATTACTATCATCAACAATTAATCTTATTTCATAATCACCAGGATCTGCAATAGAATATGAAGTTGAGTAATTAGTTACATCAGTCGCAATACTTGTTGATGAAGTTTTATATAAAAAAATATCAAAAGGAGCATCATAAGTTGAATTTGCAATAAAATTAAATGATGTATCTTCATTAATAGTAAATGCGCTTGCAGAAACACCATTTAATGCAAAAGATAAATTATATACATTATTTTTACTAATATTTATAGTCCCTGTTTTTGTATTAATATTACCACTATCATCTTTTGAATTTATTACATAAACATAATTTGATACATTTAATATACTCAAATTAAATAAATATTTTTGATTAGTTCCATTAATTTCAGAAACACTAGAATTTTCCTTGGGATTAAGTTCTGCAAAAATAGTTCTCTGACCAATAAGTAATGTGCTTTGATTAATATTAGAACCATCAGTTGAATTAAAAAATAAATATCGATTTGAATTAATATAATAAGATAAATTTGAAAATAGATCTATATTTGAAATATTTGGTAAAGCAGTATCTTTAACTTGTACTGATATTGTAAAATCAGTTTCATAGCCAGCATCATTTGTAGTTGTAAAATTAACTTGATAATAACCAGGATCTAATAAACTAGCATTTACTATATTAGTTCCATTTACTATAAATTCAGGACTCGAATCTAATATAGAAGTTACAGTATTATCACCTAAAAAACTAATATTAATATTAATAGGCGTATTATACTCATAAAAATAACTTGAATTTACCACAATTATATTTTGACTTGAATTTGATATTACTAAAGGAAAATTAATTGTTTGAGAGTCATAATTATCATCGCCTTTTGTTATAAGTTCAATTTGATAACTACCTATAGATAAATCTAAATAAATATCATTATTATCAATATATGAATTATTATCATTGGTTGCATTTAATTTTACATATGTAGCATTAACAAAAGAACCCAAATCAAAAACTTCTTGGCTATTGGATAAAATTCTTAATGAATAATTATTTTCCGTTGTATTTATATCAATAGAAAAATTATATTTTGTATTATTAAAAATGGAAATAATAAATAAATCACTACCAATAAAAGAAATATTAGTATCATCATTTTTTAAAATTGAATATGAGTAATTTATACTATTAATATTACCAGCTCTGTCAGCAGCAGTAATATTGAAAATATAATCACTAGCATTAAAATCATTTAATTCTAAAAAAAACTCATTTCCTAAATCAGTTAAATTATATGTCGTTTCATTTATTTTTATTGTTATATAATCAATATCATCAGATTCAGTAAAATTAACTGTAAAATTATAATTTTGTCTTAGGTATTTGGATCCATTAGGCACACTTGGAATAAAATATTGAAATTGTGGTGCTAAAAGGTCAACAGCAGGTAATGTTGTAAAATTTTTAATTGATGAATTTTTTACACTTGCACTATCATTTGATTGTATTTTATAATAATATAAAGTTGATGAATTTAAACCATCAAGCAAATAATTATGTGCTAATAAAGATGAAGAATTTGTTTCGTTCATTGACAAATTCAAATCAGCCCCGTAAAAAATTACGGTTGTACTATTAATTGAATTAGACCAATTTAATTCAACTGAATTTGAAGTAATATTGTTTGAAGTTAAACCCACAATATTTAAACTAAAACTAATTTGTATAGTTCCAACTTGATTATTTTGTGAAATTAAATCTCCAGTAAAACTATTTTCAAATAGGGATACTCCTTGTACAACTAATAAAATACTCCATAAAAACAACGATATCTTTAATAATTCTTTATTTATCATTTTATACAATCATATTCAAATTTAACTTTACCCTCATATTTGCCCAAAGGAAACTCATTAGCACTAATTGCCAAACCCATTTCCAATTCTTTTTGCTCAGACTTATTTAAAATAAAATTATTATTATCAATAAAAATACTTTTTGCCAATGGTCCTTCCACTAAAATATTTACAATACAATTTTTATCAAAATCATTTGAAATAGTAAACCATCGTTTTCTAACATGAGAGTCATTTACATACATAGAACCAAAATGAATTTTATCATTATCCGCATTAAAACCATATTCTTCTGATTTAATAATATATGCATCATATTCAAAATATTTTACTTTTGGTTTTTCAATTAAAAAAAAAGAAGCAATTAAGATTACAATACAAATTAACAAAATAAAATAAAATTTATTTTTATTTGAAATCATCTAATATATCCCTCTTTTTTGCATTTTTAAAATGTCTATTAAAATAATTATCATAATCATCAGAATTTGATGAAATTTTATTATTATTATTATTTATTACATTATTTACACTTTCAAAATTTGATTTAATATCATTCCAAGACATTTTAGATTTTGCAGTATTAATATTAAATTGTTTGTCATTATTAAATTTATTAGTTTTATTTAATATTGGCACACCACTAGGTTTTTGTCTTAAATTAATATTAGTATTAATATGATTATTCGAACTATTTGCATAAACAATATTATTATTAATATTTTTATTGTTAGAAATTATCTTTTTACTATGAGTTAAATGTCTTTTATGTTTTTTTCCAAAAAATTCATAACAAAATAATATAATTGCTAAAATTAAAATAATTAATCCAAAATAAAAATAACCACCATTAGCATTTGCATTTTTATATGCAATACTTTCTGTTATATCAATTACATTAACTTCAAAAGTTTTTAAAGTTTGTTTTTCAACACCCTTATAAACATATTTTAAATCAACAGTTAAATTGTATTTTCCATTCAATACATTTTTTAAATCAATAAATCCCTTCAAATTACCTTTAAACCAAGATTTCAATTCAATTGTTGGAGAATTAGATTCAGAAACAGTTTTACCATTTTTTTTTAAAATATAATTCGCTCGAACGTTTGTTAAATCACCATTCCACCTACTATCTATTTCAACATCCATTTCATTGATTATATTAGTAACAAATTCATTTGTTATATTTACAACATCTACAAAAACATCACCTAATTTAAAATCACCTTTTGAAAAAGAATTTTTATCTTCTCCATAAAAAACAGATACATCATATTTGTAAATATCAGGTCTTCTTTTATTAACATCCCAATCAAAAATTAAAGGTTTTTCATCATATAAATTTAATTCAAAACCCTCGTGTTTTAAAGTATCCAATTTATTTCCATCAATATCATAAATATTTAATATTGCATCAAAATTATTTATAGTTTTATTACCTAAACTTATTACTTTAAATTTAATACCTGAATAATCATTTTTAGTATATTGTTTTTGGTCAAGTCCAACAGTCATATATTGAATATTAAAATGTTTTATAATAAACAAAGAATACGCTACGGCAGCTTGAGCCATACCTTGATTTTTACCTAATGGTTGTATAACAATATGATATTTGTGTTCACCTGGTGAAATAGAATCAAAAGGTACATTTAAATCAAAAGTAAAGAACATAGTATCACCAGTTACATTTACTATTTTTCTTTTTTCTTTAAAAAAAGGAGCACTAAAATCAAATTGAATTACATCATAATTTGCAAGCTGACCGACCATAAATTTAATTTTACCATTAAAATCATGATCTAAAACTAAAGTGTCTTTTGGAGGAGATAAAGAAACTGAATTTGAAAAAGTAGAGAACAAAAATACAAATATTAAAAAAAAAATTACTCTTTTCATATTAAAAAAATAGAATCACTATTTATAAAAATAATTAAAAAAAAATAAAATTAAAAATTAAAAAATTAACTTGCACTCGCAATAAAAGTAACATTTAAAATTCTATTACTTACCGCAGCTTGCCCAACTGGAACAGTCATGTTTGCAACAACATTAATACCTTTAGTAGTTGATAAATAACCACAATCATCACCAATCATTCTTGAAGTATTTAAAGCTACAGCACTTGAATTCCAAATTGGATATGTTTGACCATTAACAGCAGTACAATTACTACCACTTACATAAAGTCCATATTCCCAAATTGCAGATTCATTAATATACCGACAATCACCTGCAGCTGCAGTTTCATAAATAGAACACGAACTAGACGTAAGAGTCCAAGGACTTTGTAAATCATTGTTTGAAGAATGATATGCACCTAATGCAATGTTACCTGTACCATTATTAATAAGTACAATTTGATTTGCCGCATTAGCTGCTGCAGAACCACCATCAATACCAGATGTTGACACTGTAGTTACACCTGCAGTTAAATTTGTCATAATTATACCAGATTTTACTATTTGTAAACTAATTAAAGAACTAAGTGTTACATTAACAGTTCCTGATTGATTATTTTCGGTTACCAACAAACCGCTTAATTGAGCTGGATTATTTAAAACAAAAAATGTTCCACCTAATGAAACAACAATTGTAACAGCTAACAATGCAGCTAATGTTCTATTTGAAATATCTTCCGCCATATTTTTCATCACCTTTATTATCGTTAAATGACACTACAACCTGCCCTGTAATTGAATCAGTTTCTGGGGCACTCATACTAATTTCTAAAGTACCCACGGCTTCCGGTTCGTTTACCCGCAATTCAGTATCTGTTGTGTAACCGGACATAACCATCCAAGTTCCAACAACTGATAAAACTAAAACTACAGCCACAAGAACGGCAAGTGTTTGTCTTGAAAGATCTCCTGTCATTTTTTTCCCTCTTTTTAGAGTAAATACTCTTAGTATTAAATGAGAAATTACCATTTATAAATGTTTCTGAGGGCGTAATAAATAAATAATTATATAAACAAAAAAAAAAAGTAAATATTATGGAATCATATGAAAATTTATTAAAAAAAGCAATTAGTGAAATTCCCGAGAGTGCATCCAATAAAGAAAGATTTGAATCACCAAAAATTATATCAATTATACAAGGTAATAAAACAATTATTCAAAATTTTACACAAATATGTGATCAATTATCTAGAAAGCCATTACACTTACAAAAATATTTGTTAAGAGAACTTGCAGCACCAGGCGAAGTATTTAAAAGTTCATTGAAAATTGGTTCAACAATAAAAAAAGAAAAATTAGAACAAAAATTAGAATCATATATTAATACATTTGTTTTATGTAATGAATGCAATAGGCCCGATACTAAATTAGAAAAAGATGAAAAGGGAATTATAAGAAAAAAATGTATGGCTTGTGGTACAATTGTAGTAGTTAAGTAATTTTAAATCAACATTATTGAATAATAAATCAAAAAATTTTTAATTGAGTAATATTCTTTTTTAATATGCTTTATAATTTACACGAAACGGAAAATGGAATTTTATTAACATTATGTGATAAAGAATTATTAGGTTTAAAATTAAAAAGTGAGTTCATGGAAATAAAAATTAGCTCACAAATATATGGTGGGAAAAATTTTAATGAAAATACAATAAATAATATTGAATTTGATTCAATTAATGCAATTGGTAAAAAAAGTGTTTCTGTTTTAAAAAAAAAAGGACTTTTAAAAAATAATGAAACAGTATTTATACAAAATAATCCATATGTACATATAGAAAAACAATTTTAGTCTATTATTTATTTAAAAAAATTAGGAGTTACATAAACTTCAAGTAATCCAGATATTAATAGAATTGCTATTGCGATAACAACTAATACAATAAAATCATATAATATTTTATCAAATTTTTCTGTTTTATAATCACCATTAACGATTGCAGCACTTAAAATCCCACCGGCAAAACCAGCGAGTAAATAAGAAAATAGTTCAGGTAAACCATGAATTAAATAACGTAATGTTGATTGATAGAATGACATAAACGTGGCAGCAATAGTAGAATAATCCTTTACCATGTAAATCATATAATATTTATTAAAAAAACTTGAGAAGGCTGCCGCTAAAACACTCCCATTCCAAACTAAAATAAAAAGGGCACCAACTCCAAAAATTAATGAAAAAATTAAACTAAATATTAATACGCGTATATTATTTGAAACTATTTTAAGAAAAGTGTCATAATTTTGTTTTAAAAAATTTCCAGTATTTAAATTAAAACCACCAAAAATTTGAACCATTTTTCCATTAAAAGTATTTTTATTTAAATCATGAATTGTTTGATTTTGAACTGTAAACATTTGACTTGATAAATTATCTGGCAAAATATAATACCACATAAAAAATGCAAGTGTTATACCTAAAAATAAAAAAAAGTACATTAAAACAGCTTTTTCATGAAATCTAAGAATATCACCTTCAGATTTATAATTCAATTCATTTACTTCTTCACTCCTTAATAATTTGTAAATAAGTGGTATTCCAATCATAGTTGTAAAAAAAACTAAAATTATAGAAGGATTAGTTTTAAAAGTCCATAAACTTAGTAAAACACCAACAGTTGCAAATAATAAACCCACATAAAAAAGATCAAACGGTTTAGTTGATTTTTTATCTAGTTTAACAATAGACTCTAATACCATAACATATTTTCCTTTTTTTAATTTATAAAATAATTGATTTTAATAATTTCTTTTTATTATTTATTCTAAAACTTTTAAAACACCAGGTTTAATTTCAAAAACTTCACCTTCTTTTAATAAGTTTTCAAGTATGTCATCAGACCCATTAAATTCATTTTCAATTAATTGAATTAAACAACCCGAACCAGTATCATTTTTTCTAATAAAATTAATTATTTTAATTTGAATTGAATCTTCAGATAATTCAGTTACTTCTTCATCATTTGAATTGTCAGTTTTAATTTCATTTGATTTTAATTCACTTACATTATTATTTTCCTCTAATTTATTATCACTAAGATTATTTACAAATTTAGGTTCATAATCATTTTTGGTTTTATTTAAAGACAAATCATCTTCTTCAAACTCCATTTGATTTAATTGATTACTTTCATTTGAATTATTTTCATTAAATACTTCAGAAGTCGTATTAATATTAGCATTATTATTATTATTAGTTGTATTAGCATTATCTAAATATTTTTTATCAAAATCATTTTGTTTTTCAAATAATTCATTTTCTAAATTTCTATATATTATCCATTTAGGGTCATTTAATACTTTTACAATTTCTGGCAATATATATTTAATATTATTATATTCTTTAACTTTTCCAATTACTAAAATAATGTTTCCTTTTATTATTTTTTTCAAGTAAACAGATTCAAAATCACGAATTTCAATACCAGCAGACCCATCATCTAATATTATAGTATCTTGTGAAAATTCGCCATCAATATTAGTATCAATTACAGTTCCTATAATACTAACTCTACTAACTTTTCTATTATCATTTAATTGAACATAATTAGGTAACCATCCATCTTGTTTAACATAATTTGAAATATGCAGATCAGAAATTCTTATTTTATATGCAATTTCACGTTTAATATTTGATTCCATTTTTTTTTAATTTATTATTTTATTAATAATGATTTATATTTTTCATTATAACCTAGAATAAAAACCTCTTTTTGGTTCATATATATCACCAGTTCTTTTTAATTTTTCTAATCCTTCTTCAATTTCTGAAACATCCAAACCAAGTTTCTCTGCTTTTTTTAATATATCATCAATAGGAATAACTTTTCCAACTTCATCCTCTAATTCTTTAATAATTTTATTTAAATTCATTATTTTAGATCTTTGAGATTGACTCATTCCAACAGAACTAATTTTGTCAATATCAATTTTACCAGTTTCTTTATCTAATGCAATTTCACTCAAACAATGATGTAAAAGGTCAATTGCAATTCTTGCATCAGAAAAATCAACAGTTTCAGATAATCTTGTTTTTGCACTAGCTTCAGCTAAACGAAGTAGACCTTCTAATTGTCTTGTTGTTATAGCAACACCCCGTACCGAACCATCTTCACTAATACCACTACTTCTCATTTCAACATAATATTTTTTTATTTCTGCTAATGCCTCAACAGACAATTGAGGATTACAAGTTTTTCTTGAGTATGCAACAAATTTTCTTATTAATTCAGTTTCTATAGGTGGCGCATCAAAAGTATTTGTTTGATGAATTTTTAAAATAAAATCCGCAAGTAAATCATCTTTAAATCTGTCCGGAACATCTTTTATTGGAAAAATTAAATCAAATCTTGAAATTAATGCAGGTGGTAAATCAATTTGATCATTAATTGGTGCATATGGATCAAAACGACCAAATTTTGGATTAGCTGCAGCAAGTACTGTCGTTTCACATCTTAATGTTGCTTGAATATTTGCTTTTGCAATTGTAACTGTTTGTTGTTCTAAACATTCGTGCATGGCAGATCGATCCTCAGTAGTCATTTTATCCATTTCATCAATAAAACAAAAACCATTATTGGCAAGAACCATCGCTCCCGCTTCAAGAGACCAAGACCCAGTCATTTCATCTCTTATTACACTTGCAGTTAAACCGGCACCAGTTGTACCCTTACCAGAAACTGATTTTATTTAGGTGCAACAACAGCCATTCGCCTCATAATTTGTGTTTTACCTGCACCAGGGTCCCCAATTAATAAAATATGCATATCACCCCTAGTGCTAACACCATCCGGTCTCATTTTACGAGAACCACCAAATAATTGTAAAACTAATGCTTGCTTTACTCGATCATAACCATAAATTGTAGGACAAAGTGAATTAGTAATTTTTTCAAATACATCTTTATCATTAGCTAATTCTTTTATTTTTTTTTCTTCTTCTTTAGTTATTTTAATATCATCAAAATCCTCACTTAAAGAAATATAGTTATTACCTTCTATTAATAAATCATAATTTACAGTTTTTGCACCACTTTTTCCTTCAATGGGAACTTCTTTTAAAATACCAACAACTTCTATTTTCATACCTGGATTTGTTTTTTTATCATTAAAAGGACTAACTAAATCACTAAATAAAATCATTTTTAATTTTTTAGGTTGTGTTGATCCACCAATATCTTCATGGCCTTCTTCTAAATCAAGTATTTGTGCATCAATTAATTTTTTATCTGCTAATTTAAATTTACCTTTTCTACCACAACTAGAACACATAGACGGTTCATTAAACTTTTTTTCTAATTGTGCTAATTCAATAATATTTCCACAACTAGGACATTCAAAATTTGCTAAAACACATTTAGGTCTTATTTCACTTTTTGTTTTTACAATACCTTTAAATTTTAATAATTTTGAAATGTGTCTTGTCCTTGCATGAGAAATTTTAATTTCTACACTATCAGGTAAATTAAAAAATCTAACTTTTACTTCTTCAATTCCATCAGGCAAACCCATATTTTGAATTGCTAATTCTGCAGCTTTAATTGTAGTATCTGGTTGTTCTAATAAATCTTCAGATGCTTTTATATTAAATTTAGCTAGTTTTTCAAAATCAACAGAAATTGTATGGTAAACTTCATTAAAAGAATCCATTATATCCTTAGAATAATTTTTCTCAAAAAATTTACCAAATTCTAAAACTAGTTCTGCCCCTTCCAATGTATTTATTGGGATTAGAAATTGTATATAAAGATAACTTCAATTAAATTAAAAAAAAAATAAAATATATTCATTAAAAAATAATTATTGAAAAATATTTGTTAGAAAATAAATATTGAAATTTGTTTTATTTGAAAATTATTATTTTTTATTTATACCTTTTAAAATAACTAATAATTTTTCAATTGATCTTTCTACTTGTGCTTCATCTTTAGTTCCAGTACAAACAATTTTACCATTTCTAAATAATAAGAACGTAGCACCTTTTCTATCAGATTCATCAGGTAATCTAAATACTAAACCAGGAAATTGTTCAGGTTCATATTCTGTATTTTCTAATTGTAAAGCTAATTGATTTAAATTTAAATCTATTCCAATATTACCTTTTGCAACCATATTTACAACTTCAAAAGCAGGATCTCTTACTGGTATTTTTATACCAATTGATTCTACTATTTCAATTAATCTTGCAATTGATCTTTTAACATCTTCAAGTGAAGTTGTACCAGTTGAAACTATTTTCCCACTTGAGAAAATTAATGCAGTTGATACTGGTTTATCAATTCTTAAAACTAAACCAGGAAATTGTTCAGGATTATATTCAGTATTTGGCAAAGTTGCTGCCATTTTTTCTAATGGAACATCATGTTCCAAACTTGATGAAACTACAATATTTGTAATTTTTGTTTCTTTTTTATGATCAAATGCCATTTTAGTCTCCAAACTAAGTGTTTATATTATCTTTATAAAGTGGGTCTAAATTTATAAAGGTATGTTTTTAAAAAAACGTATAAAATACACAATAAATCACATATAATAGACAAAAAAGGTAAATTAATTAAATGAGTTAACTCAAAAAATAAATATGGACATATTATTTTTAATTCAAATCATCACATATGTAATATTTGGTACTCTAATCACATATAATGATATAAAATATGCTAAAATTTACAATAAACATATTATTCTATTATTTTTTTTATCTATAGCAATGAATTTTGGTGAATTGTTTACAGTTGATTTTTATTTAATCAACATTATTTCCTTTATTGTATTTTATTTATTATATAAATTAAAATTAATAGGCGCAGGAGATTCAAAATTATTAATTGTTAGTATATTATATTTTTCAAATTTAATTGTTGAATTAAATCAAATAATTGAATTTTTAAAATATCCAATAATTTTATTTGTTATTTGGAATTTCATTTTATTTTTAAAAAAATTTAAAAATTTTGAAGTAGATATACAAGAATTTTTATTTAAATGTTTATTATATATCTTAGGATCCATAATATATTTAAAATATTTTAATTTAGGATGGGAACATTTTTTAATCTATATTCTTATAATTGGAATATTTTATTCACAGATTAAAAAATATTTAATTAAAAAATTTGAATATAGTCAAATATATTTCCTTTTAAGTTTAATTAGTATAATTTTATTTTTTATATTATCTATTGGATTTATAGAATTATTATATAGAATTAGTTTTATTTTATTAATTCTGTTATCTGAACAAATTATTTTACACAATAGTGAAAATATTAAATTTGGCCCATATATTATTTTAGGTGTTTTAATTTATGCAATCTCATAAAATTAGAGCTGATTTGAAAGAGAAATTTAAAATAAAAAATTTATTTCTTTTAAAAAAAGGAAATGATTATTTTATATTTAGAAGTGGATTTGAAATATATTCAGTTTACTTTAATATTGAAGATTTTAATAGCGTTAAAGAACGCCTTGAAAAATTAGATAAAAATTTTGAAGAATATGATTTAAAATTAATTATAATATCAATTGAAAAAGAAGGTCTTTTAAATTATATTAAAAAAAAATTAATAAGTGATTATTTTATTATAAAATTTGTTAAATTAATTAAAAAAATACATAATAAATATAATACTAAACTTGAAAATTTTAATTATATTACACAAATCAGATATGATTGTAAATTAGATGATGAGAATTTTGTAAATGAAAATTTAGATAAAATACAAAATTTACTTTTAAATATTAAAACTGTAAATGCGATTATTGAAATAAATAATAAAAAAATTCAATTGTTTAATATTAAATATAAAAAAGAAAAAATTCACAAAAATTATAAAACATATCTCAATGATAAATTTGGTATTGAAAGTGAACTTGATAATCCTAATTTATATTTATCTATTTTAAATTTAAATAATGTAGTTTTTGGAAATGAATGCCACATAATTGACTATAATAACTTAGGTTTAATGTCTAAAGAAGATGGATTTAAAATATTAAAAAAATTATTAGGAAAAAAATATAAATTATTCGAAAAAGAATATAACAAAAATGAAAAGTAATATAGATTATTATCAAATAAAAGAGAATAGGATTTTTCTAAAAATTAATACATCAGTTTATAGTTTTGAAGTAATAATTTCAACTTTATATCCATATTTAGAAGATAATTATATAATTTTAGATGGAGATAGAAATTCAACAGTAAATGTTGAAATTAAACCAAAAAGAAAAATAGATTTAGATGAATTTGCTAATGAAATATTTAATAGATTATTTCTATATAATATACATGAAATGAGTCAAAATAAAAATCGGGACATTATTGATAATATAATGAAAAATACATTAAATAAATTTAATAAAAAATGAAATTAAATAAAAAAATTTACAAAAAATCAAATATTATTGAAAGTAATTTAAAGTTTAAAGATCAATTTAGTATTATTGAAAAAGATCAACATTTTGAAATAGAATTTAAAGATAATATGGTTCACGAAAACATAAAAAAAAGAATGCTATACGAATTTGCAAATTATATTTTTGAAATTCAAATAGAAAAAGGTGATTTTGATAGAAACAGTTGTTGATTTTCCATTAAAAGATTTTGTATTTAATAGATTTAGATTTAAAAAATATTTAGGAAATTATTTAGTAATTGGAAATGATGGTGGAAGTATTTTTTTAACAGAAAATGAGTTTAAGGACATGTTAGAAAAAAGAATTATCCATGGAAGTGAATTATATAATAAATTAATTAATTCTAGAATTATAATTGATGGAAGTAACTTGGGTCAATTAGAAAAAGGAATAATTAACAGATATCATTTCATTAAAGGATATCCCACATTAAATATTGTTGTAATTTCAAATAGGTGCACACATAAATGTGTTTATTGTCATGCTGCAAGTGCACAAGCAGCTAAAGAAGAATTTGATTTAAGTTTAGAAAATGCAAAAAAAACCTGTGACACAATATTAAGTAATCCAAGTAAAAACATTTTAATTGAATTTCAAGGTGGAGAGCCATTAATTAATTTTGAAGCAATTCAATTTATTGTTGAATATGCAAGAAAAAATGCTAATGGAAAAAAAATTAATTTTGCATTAGTAACTAATTTAGAATTAATGGATGATTTGAAATTTGAATATTTAATTAAAAATAATATAAGTATATGTACTAGTTTAGATGGAAATGAGGAAGTTCATAATTTTAATCGTAAAAGTGAAAATAAAGAATTTAATAGTTTTTTAAATATTGTTAAATGGATTGAAAAAATAAAAAAAGTCCAAAAACCTGCGGCATTGGTTACAGTTACAAAAAAAGGTATTGAAAATTATAAAGAAATTATTGATACATATATAAAACTGGGTTTTGAGAGTATTTTTTTAAGACCATTACATTTTTTAGGGACTGCAAAAAGTACAATCAGTTCAATTGGGTATACTGGCTCAGAATTTATTGAATTTTATAAAAAATCATTAAATTATATTATTGAAAAAAATAAACAAGGAATTAAATTAGTTGAAATGAATGCATTATATAAAATGCATAAAATAACTGATAGACCAGACCCGTGTTTAAGTGAATTAATGAGCCCATCTGGAAGTTGTATTGGTCAAATTGCATATAATCATGATGGTCGCGTATTTAGTTGTGATGATGGCCGTAATGAAAGTAGTAGCGATGGATTTTTTCAAATTGGTGTAGCTGGCGAAGATATTAATACAATATTATCTAGAGATAAGGTAAAATTAATAGTTGAATCATCAATAAATGACAAATATGATTGTGATTTGTGCGTATATAAACCATTTTGTGGATTTAGCACACCACAAAATTATGGAAAATTAAATACAATTGTACCAATTAATATTGAAGATAGTCGATGTAAAATTGCAATGGGTGAATTTGATTTCCTATTTGAAAAAATGAAAAATAATAAAGAAGATTGGAATGTATTATATTCTTGGATTAATTAACCAAAAAATCCACCAGACTCTTCATTAGAGTGGTTAACATAAGACCATGTTTTTTTAACTACTTGAAGACAATTATGATGTTTTAAAATAGCATCATCAAAAATATTATCTATTGCTAAATTATTTGAATGAAAAAAATAATTTTTTGAATCAATGTATTTTGGATTATCAATTACACTTTGTTGAGAACCATGATGATCTGTATATTGTGCAGGTTTATTTAATTCATAAGGATTGGTACTAAACTCCCCATTTGTTGATAAATCTAAAATGCCACCTTCAACAATTTCCATACCATAACATTTCCCAAATAATAATTCATGATTAAGGGTAGGTATGTCTTTTGATTGAGCTGCAGAAACAGAATCCATTAATAATACCAATAATGCAATATTAACTACATTTTTAGATTTTACATTACCATCTTGATTTGAAATAAAATTATTGTTTTTTAAAAAAGATGATATTTTTTTTTTTATTTTTGGTATAAACATAATCAAAAAAGAATTAATACAAATATAAATCTTACTGTGAATAAATTTAAAAATAAAAAGTTAATAATGTTTATAAAATAAGAAACATTTAATTGAATATAAAAAGGGGTAATAAATGAATAAAAAAATAGTTTATTTAATAATATTTATACTAATATTTAATTATCCCTCAATTTTTGCAAAACCAATTCAAAGTTCATCTTATGAACCATTAAGAACAATTGATTTTAGAACAAGAGATTTTTCATTAACAAATCCAGAAAAAAGTGGAATATTTGGAATTATTTTAGTTGGAGAAAATGGACAGTATTTTGAATTTGAAAAAAAATATTCTACAAATATGGATGAAAATACAGATGAAGATTCATATCTAAAAAATTTAAATACTAAAGCATTACCAAAAATAATTAGAGATAAAACAGAAAGAGAAATTGCAGAAGCAAATAATGCTGTGAAATTAAATGAATATTATCCATATTTTAATGATAAATTTTATTTTTACACAAAGCCATATTATTTTTATAATGATGTTGATGGGAAAAATGAAGTAATTGAATTAGAAAATGGTGGTGCAAATTATTTTTCAAAATCTCAAATCTCACAAGGCATAAATGTGTTTAATTCTGAATATGGTAGGATAACTTATGATTATTTTAACTCAATAAAGCCCGATTTTTCAAGCAGAGCTCCTAAATTTCAAAGTATTTCTGGATTACTTGACAATTCTAATATTGAAAATTTTGAATTTGATAAAAGATATAATCCAAATAATATTAAATTATTAAAAGATACACCAAAAGTATATGTAGCAAACACAAATATTTTTTGTGAAAATAAAAACTTCAATATTGATTTTTATGATGAAAAATTTTGTACAAATAAAAAACAAAACGGTGGATGCCAACCAAATGATGAAACTTGGGTATATCAAGATAATTTTTGTTGTGGTAATTCGAAAATAAATGTTAATGGTTTAACATATATAGCAGATGCGGGATTACCAAGAATATCAGGTGGAATTATTATGGACCCTGTATGTATTTATGAAGAAGTTGCAGGAAAAAAGGCATTTGGATTTAAAAGAATGACATATAATGAAATATTTCAGTTTAAGGGTGGAAATTTTGAACATTCAGTAATTCAATCAAATGATTTTAATAGGAATATAAAATTTAATTTTTGTAAAACTAAGAAAGCATATGAATTAGATCAAAAATTAGAACCAACAGGTGAAAATTGGAATAAATATGAAACTAATGAACAAATTAATCAAAATACAAATATAGTAATTATAAATAAACAATATGATGAAGAAAAAGAAGAAATAATATGTAAAGATAATTCTTATACCACTGCAAGATATTTAAGATGTTTAGATGAATTTGATAATGATTTAAATTTAAAACCACATGCAGGTGGCGATGAAAATAATTTAAAACAAGGAGAATCAATATATAAAGAAACTTGGAATCTTGATGATAGTGACTATATAGATGTTAAAGATAATACCGCAATTAGTTTAAAAGAAAATAATTTTATAGATTCAAAAAATATTACATTAAGTTTTGATTTTATAGGTGATGAAATTGGAGCACCACAATTAGAAATAGAAGCTTACTCATATGAATTTGAAAATCAGAATATTGATCCAATAATAATTCAAATAAAACCAGAAAAATATTACCCGAATAAAAAAACAAAAATAAATCAATTTATTGAAATAGAAAATTTCACAAAATTTCACATAGAATGTACATCTCCAGAAGCAAAAGAATTATGTAAAATAAAAAATATAAGAGTTTACACGGATAAAGAATTTAATAAAATTAAAAATATTTGTTCAAATAATAGATCTTTCATTTCAATTAATAACTTGAAAAATTTAGACCAAGATGAATCACTAAGTACAAGTCAAACAATATGTGAAAAAAGTTCAGACCACAATAAATATATAATTAATGGATCTAATGAACTTGGTACATATCGAACTTGTTGTATACCAGATAAAAATGATTACTTCTTAGGAAAAAATGGTGCATGTATTAGTGGAAATTATATTGATAATGAAAATTATAATAATATAAATAATGATAATGTATTTACTTCAACTGGATTTTTATTAGTATATAAAGAAATAGATGGAAGTGAAAAAACAAAATTCATTTCAAACATTTATGCAAATTCAAATTATAAAATAGAAAAAACTCCATTAAATAATATAACAAGAGTACATATAGAAAATTTAGATGAACTTTATTATAATATAAGTAAAAATGAAAATAATGAAATAATTGAATTAAAAAATTATTATCCTAATATAATTTATTCAGATAAAGTTTATACATGTGGAATAGATAACTCTCATTTTAATAGTGCTTTTAAAAGTATATATGATGAGAAATTAAAAACAAATATAAATAAATTATCATTATTTCCAGAATTAACAGAGGATGGTTCTAAATTAGACTATCCAGATAATAACTATTGTAAAAATATTGGTGAATTTTTTTGTAATATTGATGGAACATTTAAAATCGCAGATACTAGTTTATTACAATTTCATAATTTTACAAATGATAAATCTTACATATATCCAGATAATATTTCTGAATTAGTTACAACACCAACTGAAATATCAGGATTAACTAAAGATAGTGAAATTAATTTAGAAACTGATAAACAAAATTTAGCTTGTTGTCCAGGAAATAGTTGTTATGATGGAAATGAATGTATTGAAAATCAAGCACAATTCCCTTCAGTAGATTTTGAATATTCTAATTATATAAATTTAGAAAAAGGACAAAAATACAAAAGAGAAACAAATAAAAATGGAATGCCATATAAATTTGATTCAATTGAAAAGCCAAAAATATGTGCAGGTAAATTTTTAGAAAAAAAATATGAAGTTGACGAAGTTGCAGATGGTTGGATAGATTATGAAGAAATTGTGGATTGGACAGGAAATTATAAAGGAAGTTGTATGCCAAAGCAATGTTTAACGCCAATATTCTTATTAGATAAACAAAGTAAGGACTATATTAAAGAATCAAGTGAAAATCAATTAATTAATTTTAGATCAACATTACAAGATAAACAATTTGTTTGTGTAGATCATGGATTTTTTACAAAAGATCATATTTGTTCATATAAAAATGAAACAGAAACAAAAGGTGTATGGAGTACTAGAACAAGTGTAATTATTAAAGAATTAGCTAAAAAAGTAAATAAAACTATTGAAGAAAGTCCAGATAAATATAATTATATGATTCATTGTGACAATACAAGTAATATTTTAATTAATAATATTGATTTAGATCATGGTTCAGTTTGTATATTAAGAATAAGTACAGAACCAATTAATGAACTAGTTGGAATAAATGATGAAAATGTTGAATTTACATGGGCAACAACTATCAATAATCCAAATAATATATCAAATTTTGAAAATTGGATAAATAAATTAGATTTAGAACCAGGAAGTACTTGTATTGAAAAATATAAAAATATAGATGAAACTAAAACAAAATGTGGAGTATATAAAAATAATGATATTAGTTTTAATGTAATATTAGATAATAAATATAAAACAATTTATTTTGAAGAAACTGAATTAAGTACAATTGAACAAATTGATTTATTCATATTAGATGATTTTGTTAAAACATTAATTAATTTTTTCTCTTTTGAAGAAACAGAAATAATTGAAACATTACAAAAAGCTCCTAGTTTTTCAATAAATAAATATTTTAAATCAGAAACAAAAAATGCAGGCGAAGATAAAAAAAATATTGAAATATACTCATATGATTTAATTGAAATGGCAATTGAATCTGGAAAATATAAAAGTGATACAGGAATTAAAAGCATGAAAATTAAAATGAATAATTTAAAATCTGCAGAATCATTAAAATATAAAATTAAAAAAAAAGTAGAAGAAAAAGGATTAATTACATCAAGTGGAATACAAAGATGGAAAAAATTTGAATCTGATCAAATTGAAGGATGTGTAAAAGATAATATAGAATATTTAGAATCTAATAAATTAATAAAATGTAAATATATATGGAAGGTTTTTGAAGAGGATTCAGATGCTTATGAACCAAGACCTACAAGCTATAGTGTAGCAATAGAAGGATCAACATATACAGATGATACAAAAGAATATATTAAAAATAAAGAAAATACTCTTTGTGAAACAAAAGAAGAGATTTTTATTTCTGAAAAGCTCCCTCTTTGGAAAACTAAAACAAGTTTTGCATACGGAACAATGAATTTTAAATGTACAAGTAAATGGGAATTCAAAAACATAGAAAAGGGAGAACTTTGCCCGTTAACTGAAGATATTTATAACAATTTAATTTGTAAAAAAGGTGAACTTAAGTGGCAAGTAATACAAAAAAGAGATTTTGAAGTTAAACCATTTGTAGAAGATGGTGTAACATATATTATGGCAAAAAGAGACAATACTATTGAATTTATTGATGTTTCAATAGATGATTTAAAAAATTCGGATCAATATTCATCAGACCTCAAACATTACATATCAAACAGTATAAAAAATTGTCAAAATAAAAATGAAATCAAAATAAAAGAATATGCTGATTCAGATAATAAAGGAAAATTAACAGATATAAAATTTGAATGTAAAGAAGAGTTATTATGGGAAGAAACAACAACAAAGAATATAGATTTAAACAATATTGAAGGAAGTTATTGTATGTCAAATCAACTAAATATTAATTTATTTTATGATGATACGCAGTATGTATGCACGGGTGAAGATGTCCCAGGAGAACTTGAAATTTTTGCATCAAATATAGCTACAGTACACGATTGGAACAATAAAGAAAATTTATTTTCAAACCTTTTTAATGAAATAATCGATGGAATAAGAATAAAATGAAAAAAGGTCAAGTTTCGATTTTTATAATATTGGGACTTGTACTTTTTGTCATTATTGGAATTATACTTTATGCAGTTACAATAATAAATAAACAAACTGTTGCTGCAGAAGAAAGAATTTTAAGAGTTGAATCAGCAGAAGAACCTGTTGAAAAAATAATAAGTCAATGTTTAAGAGAAAGTGCAGATAATGCAACATATTTAATTGCAAAACAAGGTGGATATTTAAGAAAGGGTCAACCAGGATATTCTGACAAATTAGAATCAATTAATCAAAAAATAAATTTGAGAGGAATTGAAGAAGGTATTACACAATTATTGGTTTTTAATAAAAGAGATTTTAAATTAGGTTATGGAATTGAACCTGCATATCCTTGCCCAACGGTTTTAGATGTTACAAATAGCTGTAGTTTTCAAAAACATGATTTTTGTTTTTTTCAATCCAGTGATTCAACATTTTGTGATTTTGGACAAAATAAATTACCTTCATTAATTAATGGAAAGAAATCAATAAGAACTCAACTTATGAATTTTACATTAAATCAAACCAAAGAATGTATTTTAAAACAAATTAAAAGTGATGAGTTTAAATTTGGTGGAAAAACAGGAGATTTTAAATTAAATAATATTACGGATAAAGAATTAATTGATTTAAATGTAATTATAGAAAATAGAGGAACTTTTTTTAATTTGGATTTTCCAATAAAAAGAAAAATTAAAGGAAAAGAAAATTCAATTGAAAAATTTACATATTCAACTAAACCAAGAATTAAAAAAATATATGATATAATAAAAACTAGCCTAATTTCAGAAAATTCAAAATTAAATAATGATTTTAAAAGTAAATTAAAAGAAACCACAAAACACATTTCAAATATTGAATATGATGTTATTGAAAATATTAATAATAATAAAGATACTCTTGTAATAATTAAAGATGAATTTGCAAAATTTGATAATCAACCATTTGAATTTATTTTTATTTTAGAAAATAGACCACCGGTTTTAGATACTATACAATCAAATGAATTAAATTCATTATTAAAAAGAAATAGAAATGTAGATTTTTATTTAACAGTAGGTGATACACTAACAATTAATCCTATTGGAAATGATCCAGATGAAGATAAATTAGAATATAAATATTCAGGTTGGAAGGCAGAATATGATGATGAATATAATATAACTATTGGATGTACAAATCCTAGCATTTGGGTAAATAAAAAAGAACAAAACTCAAATTGTCAAGTAGGTGGAAATGTAATATTAAACCCAGAAAAAAAACCAATTGGTGGAAATAAATGGGAAAGTTCTGATTTATTTAAATCAAATAAAAAAAGTGCAAGTATTGAATTAGGTATAAAAGATATAGGTTGGCATGAATTTAGAGTTACAGTTAGTGATGGACTACATAAAGATTATCAAGATATCCGAGTCGTAGTTGGACCAAAACCATTTCCTGTTGTAAAATTAAATAATTTATATAATGATGAAGAAGATTTAGTTTCAGTTGAAAGTCCTTTTTATTTTACATCTAAAGATAGTATATCTTCAGGTTTTTCAATAGATAGAAGAACATGGATATTAAATGAAAATAAATTAAATCAAAAAGAAGGACAAGTAGATTTTATGTTACCTGATTATGTAGACGGTGGAGAATTAATTAATAGTATAATATTTAAAGAAACACAAAACAGAGATCAAAAATATACTAAAACAGAATATGAAAAATTAGAAAAATATATTAAAAATATAAAAAATGAAAATAAAGAAATTCAATTTGGTGAAAATGAATTAATATTACAAATAGGACTTAAAAATAGTTTTAATGATATAGAAACATTATTTAAATTTAAAGGGGAAGCATGTATAATAAATGATGTTTCAATTGCACCATGGCCATTTAATTTAATTGAAAAACCAGCAATTACAACCATATTTAATAATGGAAATGAAAAAGCATATTCAAATTCTAATAGTATAATAAATCAAGAATATTTATCACCTTTTAAAACAGATTCTGCATGTTGTAATGAAGGAGCAGTTAGTAATTCATATAAACAAAATTCAGAACTTTGTTTTAATTATGAATATGAAACTACACCATTGTATTTTCCAAATGATGTTTATTTTGCAATGAAAAAAAATCAAGATGAAAATACAGTTAATAATAAAATAAAATCAAAATTAGGACAAAATCACATTTATGATGATTTAGCTAATGATGTAGTTAAATTAAAAATAACAAATAAATGTAATGGAGAAAGAGGTAATATTTGTTCAGGTGATTTTGAATGGGATACCCGTTTTAAAAATCTGATTGGTGATACACCTACTCAAATCAGTCCAAATGATGACAATTATAATTTAGTAACTTCATGTGATGGGGATACAACACCATTTACAACATCAGACAACAAAAACATATTTAGAACAGAATCTAATGTGGATTTTATTACATATAATAACAAGCCATCACCTGTATTGGGAGAAATAAAAGGTGCAAGGTGTAGAGGCAGTATTGATCAGAATGGAGATCCAACAAATATCTGTCGGAAATATACTGGAACTACTTTCGAACAAATTGTTTATATTCATAGAGGAGATATATTTAATGATTTAATTGATATAACTAGTAAAAACAACATTTGTTCAAAAGGAGAAGTAGTAAGTGGTTGTTACTATAAGCATAATGGTGTAACAACAAAGTTCAGAACTCCATCAACTGGTAAAACTAAAACATATGCAATAAATTCTGAATTGACATGTGAAAATGGATGGTGTAGAAAACCAGCAGACATTAAAACATGTACATCAGGAACTGTTTGTACATATAAACCAGATGGAAATTTAAATTCCAAAAGAAGAATATATACAGGATATTGTAATGATGGCAATGATTTTAGTTCGCAAAAACCATGTGAATTTTCAACAGATAATAAAATAAAAAACGTGGATACTAGTGATTCAAATAATCCAATAAAAACAAATAGTATTATTAAATGGAAATATAAAAATAAAGAGGGATATAATCAAGAATATAAATATTTACAACATTGTGAACCAACTATAAATACAAATGGAAAAACACAAAATAATGGTTTATATGAAGGAGAAAATATAAAAAAATTATGTGATTATCCTTCAAAGCCATTATTTAATCATGATACAGGACAATGTTGGAATCCTTGTGATAATATAGAAAATTTAAATAGTTTTCAATCATATTTTGAACAAATTGATCAAAATAATCAAATAAATTTTTCAACAAATACAATGTTAGGATCAAAACAAATCCCCTCAGACATAAGTTCAAGTTTTAAAACAGATTTAATTAATAATTGTTTTTATACACAGTTGACACCACAAGGCGGAAGATGTATTTATAGAATAACAAATGGAAATAATTGTGATACAACAAGTGATATTTTAGCAGTTGAAGGAGATAATGGTGATTATAAAACAATTAATACAGGGATTTGTAAAATTACAATAGATGGTCAATTTAATTGTTTTGCAGATTTAAAACAATATAATTATAAAGAAAATAATGACATTTGTCAATTTAATGATGAATGTAAAAGTGGGTTTTGTAAAAGTAAATTAGATAGTCAAAATTCAATTTGCACACCAAAATCACATATAAATTATTTTGACAATACATGCACAGGAGTTAATAGAATATTAAGTTTAGCAGATTTTGAAACATTCAAAACAAAAATACCTAATCCAAACAAAGTTAATGAAAATGATCCTGATGAAATTCAGAGTGAGTTTGGTAAAAATGAAGGACATTATAGAATTCCTTATATTTTAAGTAAAAATTATTGTTTTTATACAAAGAAAAAAATAAATTCAGTTATGACTAATAAATTAAGTGTAGAAAATAACATAATAAATTGGGATAATAAACAAGAAAGAGATGTTTATAATCCTAAACAAAAAAGTTGTATAAGTAATGAAACATTATTTTTAAAAGATAAATGGGATGATGGAACGGGCAATATTGATTTTGAACTATTGTCAGAAAGAATTACAGACTATTGTAAAAATGTATGTTCTTGGACAAGTGAATATGTAATTAATAGATATGTTTGGAATAATGGAAATGATAATGATAAATTTAATTCAGTTTGTGGAATTATTTTAAATTCACCAACAATAGATCAGGCAGCAATAAATATAGAAGACAATTATGAAGATAATATAATATTAAGTGGGTTAATTGACAGTACTGATACCAAAACATTTTTTAGAATTAAACGAAAAGATGAAGTAGTAATTAATTAAACCAACCAGATAAACCTTTTTGAATTTCTTTTTCACGTCCAAAAACACTATCCATTGCACGACGTAATAATTCAATATTTTCTTTTTGATATGATGAACAAGCATATGTATTCATGATGTTAATACTTGCACCTAAATATTTTATAACACTACCTTCAGCAATTGTAAAAATAATTTTTCCTTCTGGACAATTAGAACATTTATTATCTAAAGGTGGACGGCGAAATATGTGATTACATTTTACACATCTAAATTGTTGTTGTGAAAAACCTCTTAAATTACCTTTTAGATCTTTTACAAAATGTTTTTCTACAACTAATTCTGCAACATCTTCTGTTTTTACAGCTCTTATTTTTTTTGCTAAGTCTAATTGCCCTTCTAATTTATCAATCATTGAAGGCAAGTATTTGTAAGCAGAACAAGGTACACAATCATTTAAATCTATAGTATCATGAGTAAAACCAGATTTTTCAAATTGTTTTTCAGCACCTAAATGATCTTTAATTGTTTCAATTTTAATATCCCAAGGCATTTTAAAATCAAGACCTGCTAAATATAATTCACGTGGATAATTCCAAGAAATGTCCATATCAAAAACCATATCGTCAACTTCTGCAGGATTTAATATGGATGTTAATACAAAAGGAGCATCCATGGTAGAACCACGATGTGCAGGTAAATATGTTTTTGAAAAATTTAAAAAAGCATCCATTAATAGAAAAAATGCAGCTTCGTCTCCGTCGCAATCACGACGAGTGGCACAATGTACATAAGGATGTGCAAATAAACCTTGTGTTTCTGTGAAACCAATTATTCTTGTTAAAATACCAGCAGAAACGTGAGGTGCTAATACTATTGTATGTTTACCAACTAAATCTAAAGGAGTTTTACAATTATAGTATGGCTCCATACCATATAAATTAACTAAAAGTTCATCAATAAATTTTGAAGTACGAAATAAAATAGAATCAGCACCTTCAAATGAACTATCTTTATAACAAGGAATTAAAATATCTTGAGGATATATTTCTAAGACTTGATCATCATTATTTAATTCATTTCCATATATGTCTTTATCATAACCAATTTCTTTTAATTTTTTCCAAGGAACTTTTATTTCTTTGGGACGAAAATGCGTTATTGGAACTTCACTAGCATCATATCGTATAGTACCATCTTTATTTACATAAATATTATGTTTAGCACGAAGCACTGCTTTTTCTAAACGCTCTACATATTTACTTTTATTTTTTAAATCTTCTTGACCTTTAATTAAATCTGCAAATTGATTAGTATTTAAATTTTTTAAGGCAGATTTAAAATATTCACGAAAATTAATTTTTGTTTTTTTATATGGAACTTTAATTGCTTCGATTTCTTCTTCAGTTTTATTTTGAAAATGCTCACAACCAGATTCAGAACCACAAAAACGACATAAATCTTTAACTTCAGTCTTATTACCACATTTATGACAAGAAGAATATAAAACTTGTTCATTGCAAGTTGTACAAAAAAAATATTTAACTGGATAATTTACAAAACCAACATCTAAGGCAGAAGCAAAGGTTTTCATTCTCCCACCTTCTTTACCAACAGGAAAAAGTCCATGAGGTGAACCAGGTATTTTACGCATTTTTGCTTTTTCAGGACGGCCCATACGAGCTCCAACAAATACACCACTTTTATCTCTTAATTTCACATTAGAAATTTTAGTTATTGCATTTAATATATTAAAAGAATAAATATCATCAGTTTCTTTTTTTTCTTTTTGTGTTGAATTAAATACATTAATTATTTCATCTATCTTTTTTTTATTAAAATTATTATATAGACCAAAAGATACCAATAATGCATTTGTTTTTTCAATATTTAAAACAACAAATTCATTTTGTACTACAGTATGTTCAATACCAATAAGTTCTAAATATCGTTTTTCGGTCTCTATTTCATTCCAGTTTTTTTGTAAAGGTAATACTAATTTACCTTCACCATTAATTTGACCATCTTTTAACCAAATTAAAAATTCAATTGTTTTTTCAAAAGTATTAGAATTAAAATGATAAGTATGTTTAGGATGTAAATAAGAATTGTAAGTTTTTGCTAAAATAAATGATTCATTAAAATTTGGAAATGTTGTCATAAAATTTTCAAATAAATCTTTTAATCGATTAATTTCAAGCTTAGTTTGTTTTGAAATTTTATCAAAATCTATTTTTTTATTTATTGATTCAATATCGTGTTTTAAATCTTGTATCCACCATTCTTCACAATAACCTAAAGGAATTAAACTATGTGCCCTGTTTAAAAAATCACCATAACAACATAAAATATCACCAAGATAAATAATTTCTTCTATTGAATCATATAATTTATTTCCTTGTTCTAAAGAAGTTACATAAACGACATCTCCATTTTTTAATTTTATAACTGGGCCTTCTATTGTATCAACTGAACAAAAACTTGCAGCTTTACCGGGACGTTCCATTTTTAATTGAGTTCCACACGCAATAAAACTATTTAATACACCCATGGTAGCCGGACTCATACCTTGAGCTGAAAGTCCTGTAACCCTACTTCGACCTAATCTCATTCTAAATGAACCATTAGAAAGAGGATAACCATAAACAGGTCTTCCTGCAACAATGTCTGCTACAAAAGTATAATCAGGAGTTATTCTTGGTTTTGGACCTTCATTTTTAGTAGAAGTATTTTTTGCTTTTGCTTTTTTTTTAATTGAAATATATTCTTTTAAAAAAGACCAATGTCCCATGCCAAGCTCATCACCCCATTTATCCAACTGCTTCCATAATTTTTCTGCTTTTAGAGGAATACAACTAGACATTATTAAACAATAACCACCTCTTAAAAAATTAGTTGCAATCCTTGGAAGATCTTTATAGTTACTAACTTCAATTCTATCAGTTGGATCACCATCAATTTCAACAGGTAAATGAGAAATTAAAAAATCTGTTTCAATACGAGATGGAAAATATTGTAAATTTGCAACTCTTTCATGATAATCAGAATTTTCACTAAATAATCTTGCAATTTCTTTTTCATCAGGATCATAAGTTTCATAATTCATATTTTTTCTAACATAATCTGCAATAATTACACATGTTGATGCACCAGTACCTCCTGCATTTCTAATTGGACCTGAAAAATTTAATGCAAAATATTTACCTTTTCCATCCCTTCTATCTTTTAAAATTAATTTTGTAAAACCTTCAATAGGGCTACTAACAACACCATCAGTATTATATGCAAAGCCAGTTCTGATTCCAACTTCCATTGCATTAAGTTCATCGTCAAATTTACAATATTTTTGTTTAGCAATTTCTAATGCAATTATTAATGAAACTCTCCAATCATTAGAACCATATTTTTTTTCTAATTCAATAATACGTTCAACCACACCACACCCAACAATCTGAGGTGCAACAATACTAATTAAACCAACTACCCGTTCGGCTTTATTTTTTGCTAATTTAACTTCAACAAAATTTTCATTATCAAAATTTTTTAAACGAGCTTCACTAGCAATTTCAAATGCATTATTAGTTTCATTAAATAAACCATCGAAATACTCTTCCATTTTTTGTGAACATACCACACCGTGTTTATTTTTCATCTTCATCTGATTTAATATCACCAAATTTTAGTACTTTAACTTGACGTGTTTTTAAATTTATTAAAGGCAATCTACAAGGTTCAGGAACAAAACCAAATTTTTCATTCATTTCAGTTAAATCTTCCCATGCAGATCCACATAATAAAGTAACATTCCTATAACTTTGTATAGAACATTTATGAACATGACCAGTAACAAAAATATCAGGGATTTTACGTATAATCATTGGATCATATTCAGAATTAATTACTTTTTGATTTGCTTTATGAAAAGGACTTAAATGTCTTCTTTGAAGTAAATATTTCATTACGTGACTTATGTTTTCTACACCACCAGCTTTTAATAAAGTAGGAACTTTATTTGCATAATAAACTAAAGACCAACCATGATACATTAAAATATCAATACCTGAAAACTTTTTAGTTCTACCAACATTCACATAAGCTGGATTTGTTGTCATAATTACATTTTCCATTTTATATAATTCTTCAGCATAATCTTCATGTAATTTTGGTTGTGGTTCAGCCAGACGAACACCATCATGATTACCAGGACAAATTATAATTGTTTTATCTTTTGGAATTTTTTTCATATATCTTGCGAATTCATCAAATTGTTCTTTTAAAGATAAAATCGTTAATCTGTTTTCCATACCAGGAAAAACACCAACACCTTCAACTAAATCTCCTGTAACAAAAATATATTTTATTTTTTTTGAAATTTCTTTATGTTCATCAGTTCCATAATTACCACATAAAAAATCAATCATTAATTCAAATTCATTTTTTAAAAATTTATCAGAACCCACGTGAATATCAGACATAAATGCAACATATTCTTCTATAGGACTTTTTTTTAATTCTTTAGTTAGTGGAACATCTGGCAAAATAATATCATTTGGAAAAACAACATCATTTAATTTTGTACCAACAATTCCAATTATATCATCATGACATAACTCACTTGCTAAATTAAACATTTTTTCATTTTTTTTTGAAACAATTAATTTAGATTTTCCCGTAGGATCATCAACATCAAAAATTAATGCACCATTTTTAGTTAAAGATATTTCATAAATAGACACAACTAATGCAACTTTTTCATTATCTGGTTTATATTGTAATCTACTAATTGAAATTGAATTTGAAAGTTCTAATCTTTTTTTTAAAATTGAAGAAATTTCATCATATCTATTTTTATACATTTTAACAAAATCAGCATATTTTTTTTTTTCAGTATTTTCTTCATATTCCCAAGTAATAATTGTTTTTCTATCATTGATTTCAATTTCATTTAGTTTTTGACTTGTTTTTTTATTTTCAATATCATCTAAATATTCAATTAAAATATTTTTATTTAAAATTAAATCATTTGAATTTTTTTTTAGAATATAATCATATAAATCAATATGATCTATAGATGAATTAATTAAATTCATTACATCTTCTTCTATTAATACTTCTTTTTCAAGTAAAAAAGAAATTATATTTTTTTTATCAATTGTGTCCGTCAATAAAAATGTGATTTACATTTATCTTATATATGTTTTGTAGTTAGTAAAAATAATAAATAATATTAGCTATAATAAAGTCTCTATTATAAAAAATATGTGTTTTTGTGTTAATTAAAAATTTAAACTTTCTCTTAGAATTTTTAGTAATTTTGGAGTTGTACTAGGTGGAGTTGCAAGTGTTATTTCTTTAGTTCTTCCATATCTACCTAAATTAATTAATTTTGCATTAATTATACCTAACATATCAAGTTCAGCTATAATATCTGAAACTCTTCTTTGTGTTAATGGCCTTAGTCCAGTTTTTGGACATAAATTTTTATAATTTTCATATACTGTACCAGTTTGAATATTGTTCATATTTTGTAAACTTATACTAAATATAGAAAAAAGTACAATTTGAAATTGTTTTGGTTGAGTTTTTACTATATCTAAAATTCTATCTCTTTCAATTTTTGATTCAGCTTGATCTATATTTTCAATTTTAATAGTAGTTTCACCTTCGCGTTCAGCAAGTTCTCCAGCTACTCTTAAAAGTTCAAGTGCACGTCTTGCATCACCATGCTCTCTTGCAGCATATGCAGCACATTTTTCTATAACTCCCGTTTCAATTATATTTTCTTCAAAAGCTAATTTTGCTCTTTCTTGTAAAATAGATTGTAATTGCATTGCATTATAAGGAGGAAATAAAATTTCTTCTTCACTAAGAGAACTTTTTACTCTTGGATCTAAATTATTAACAAAAACTAAATCATTAGAAATTCCTATTAAATTAATTTGTGCATTTTTAAGTTCACTATTAATTCTTGTAAGATTATATAAAATTTCATCACCAGCTTTTTTTACTAATTGATCAATTTCATCTAAAACTAAAATTACTAATTGTTTTTCAATATCAATTATATTAAAAAATAATTTATATACTTCGTCAGTTGGAAGTCCAGTTGGAGGAATACTTTGACCAAATTCCCGGGCTAGTTGAGCAATTAATCTATATTCAGTATCAGCAACTCTTTTTAATTTACAATTTACATAAACAATTTTAATATTTATTTTTTGTTCAACTGCAGTTTTTTCAATTAAATTAGTAACACTTTTTACAGATAAAGTTTTACCACTACCTGTTTTTCCATATATAAATAAATTTGAAGGTAATTCATTTCTAAGACATGGAGCTAAAATTTTACCAATTTGTTCTATTAAATCATTTCTATGTGGAATATTTTCAGGTGTGTAATTAGCTTGAAGTACTTTTTTATTATTAAATAAAGGTTTTTTATTAATAAATGAAGAAAATATATCTTTTAATTTATTTTGACTCATATTTTAATATTTTTGTAACAAGTTTATTAATTTGATTATATTTTTTAATAAAATTGTAATATTTTATATTAATCCTACCCCTTAATTTCCTCTGGAACTATAATAATAAAAAACTATTTAATGGTTAAAATTAATAATTAAATAGTATAATTATTAATTTATTAATCAAAAGATAAACAAAAAACACTTTAAATCAAATATTAAATTAATTAATAAAACAAAATTATATAATAAAATTCTAATTAAAACTTAAGTTATATATATATATATATATATAATAATATATTATATATTATATATAATATATTTCTATATAGAAAATAAATAATTTGTTTTTTTTCTTTGAATTTTTTTTTAGTAAAAAAAGAATTAAAATTTATCTGTTTTTTAATTTCAAAACCAATTAATTCTTTATTGATTTGTATTTTAACAATGCACATATTTTTTTTAATTTGATTTCCAATAGAAATAAAGGGGTAACACTGTATACTTAATTCATTAATTAATAATAATTAATAATATTTAATATAATAATAGTTAATAATTAATTAATAATTTATCAAATAAACATTGTTTTTTTAAATCATAATATTAAAAAATATATATGGAAAAAAAAATTCACATTAAATTTACTTGGTTTTTATTATTAATAATATTAATTTTATTTGCTTATATAGTATATATTGATAATCAAATATCTGAAACAAATTTAAAATTACTCAATATAAATAATGATTTATCAAATAATATTAATGATTTAGATAAAAATATTAATTCTTTTATTGAATCTCAAAATAATATTAATAAAAATATTACAAATGCAACTATAACTAATAATAATAATATAGTTGATAATTTTAATATATTAAATTATGATATAAATAAAGTTGGAGAACAAATTGAATATTATAATTTAAAATCTAATAAAAGATTAGATGAATTAGGAGAAGAAAATGATGCAATTCAAAATTCAGTTGATGAAATTAGTACAAGTATTGTATCTTTAAAAAAAAAAACAAGTTCTGACTTTACAGATATTATTGAAGATGTTGTTCCCGCTACTATTTCTATAAATACACCAATTGGAGTAGGTTCAGGTGCAATAATATCTAAAGAATATGCAATAACAAATTTTCATGTTGTTTCATCTAATGGAGAACCTTTAGATGATATTAGAATAAGAACTTATGATGATGATTATTTTGGAGCAAAAATTATAGCTTATAATCCTTTAATTGATTTAGCATTATTAAAATTAGATGAAGATATGGATTATACTTTTGATTTTGTTAAATTAAATGATATTGAATTAGGTCAAAAAGTTATGGCTATTGGATCACCAAGAGGTTTAAGTTTTACAGTTACAGAAGGAATAATTAGTCAATTAAATAGACAAATTGATTCTTCTAATATAAATTACATACAAACATCTGTTGCAATTAATCCTGGTAATTCTGGTGGTCCTTTAATTAGTACTGATGGTAAATTAATTGGATTAAATACATTAAAAGTATTAGAATCAGAAGGATTAGGTTTTGCAATACCTTCAGAAATAATAAGTAGTTTTATTGATTCAGTTGAATCTGAGAATAATATAAATATAAAATAATAAAAAAATTAAAAATTATCTTCTTTTTCTTTTTACAGATCTAGAAGATTTTTTTGTTACTTTTTTTGCTGTTTTTTTAACAACTTTTTTTTTAACTGGTTTTTTTACACTTTTTGAATTTTTTTTAGCAGTATTAATTCCTAATTTTTCTTCAATTTTATATTGTTCATCAAGAATATTCAATTCATTATATCTTAATTGATCAACAATATGCTCTACATGAACTTCAACATTCAATAATTTTTGTTCTAGCCTAATTAAGTATTTCAATGCCCAAATAATACCCACAACTGCACCTACTGTTACAGCAAAAGTAATATCACCAGATGTTAGATTAACCATATTCCACCTCTTATAAATGATTGTATGATTTGGCTTTTTAAACGTTTCTACTACTATAAGACAATTTTACTCTTAAAATAGCTTATTTCTACATTTACTTATTGTTACTACTTTATAGTAATGTTTATAAATAAATAATTCCTCAATAGTCTTAATGATTAAAAACGATATTGTTTCAAGATTAAAGGAATTTGGGTTAAATAATTATGAAGCTAAATTGTGGATCTCTTTATTATCAAGAGGAATTGCTGGTGCTAGTGAATTATCTGAAATTGCTAATGTACCACGATCAAGAGCTTATGATGTATTAGAGAGTCTTGAAAAAAAAGGTTTTATTATGATTAAAGTTGGTAAACCAATAAAATATATGCCAATTTCACCTGCTAATGTATTAGAAAATTTAAAAAAGAAATTAAAATCCGAACATAAAGAGCAATTAGATCAAATAAGTAATTATAAAGATAGTAATGTATTTGAAGAATTAAATTTATTACATGATAATGGAATAGATTCATCTGATTTTTCTGATATGTCAGCAAGCTTAAAAGGTCAAAATAATTTAAATAATCATATTGAATTATGTCTAAAAAAAGCTAAAGATTATATTTATTTAATGACTACTGACATAGGTTTAAAAAGAAAATATGATAAATTTTTTGATGTTTTTAAAAAATTAAAAAGTAGAGGTGTAAAAATTAATATTTGTGCGCCTTTGGATGGAATCGACAAATCTATATTAACTAAATTAAGTACAGTTGCAAATTTAAAAAATATTCAAAAACCAATTTCAAGATTTATTGTTGTAGATGGAACTGAATTAACTTTTATGTTAAATGATGACAATAAAATTAAAGCAAAATTTGATACGGGTATATGGGTAAATACACCATTTTTTTCTAATGGATTATCAAAAATGTTTGAAACTGTTTTTGATAAAAATTAAAAACCGTTTTTAGTTAATTCTTTCCAATTATTTTTATAATAATTATATTTTTCTTCAAAAATTTCCTTTGGAGTTATTTCTATATTTAAATTTAATATTTTTTCTTTTAATAAATTTAAAGTTTTTTCTTTTTCCTCTTCTTTACATAATTTTTCAAGCTCAAGTATATACCCATAACCAAGACTATGTCCTACTTGAATTGTAATATTTTGCCATTCAAACGTATATTTTTTTCTAAACCATTTAATTTGTTTTGGTATATTTAATTTTTCAAACATTTTTTGAAGGTGATTAAAATTTATTTTATCAAATTTTATTTCATATTCTTCCCTACAATCATCATGAATATTTCCTGATTTTAATATTATTTTTGCATAATCATTATTTTTCCAAAGTCTAACTCCACCTTGATCTGCATAATATTCAGTTTCATCTGTTTCGATTTCAATTAAATTTCCTTCTTTTTTAAAAAATTCAATTAATTCCTCAAATTTTTCTTTAGAAATAAAACTTCTGATCTCTACTTCAATTGTCATAATTTTCTTTTTTTAATATAATTTATATACTTTTTGAAAAAAATGAAATTAAAATAAAAAATAAAAAAAAATTATTCTTTTATTGTCAAATATTCATATGCTTTTGATAATACTATCATTGCTTTTGGTAAATCTTTTGCATATAAACTACTAGAACTTTTCCAATTACCCTCTTTGTCTTTAAATCTTCTTGAAAAATTTACTGTATTAAATTCAGCATCATTTCCTTCAGTATTCTTTGTTGTGTTTTTAAAAACAGTTGCATTTATTGCACCTGTTGAAAATCTTTTTACTACATCTCCATTTTCCATTTTTAATACCTCTTTGTATTATATAGAATTATAATTTTAACTTAAAAATAATCTTTGTAATATTTATTGTAATATTTACATAAATATAATCAATATTTTGTATTATTTGAACATTTTTCATTCAAATAACCAATGTTTATAAATTGAATATTTTTTTATAGAAATATGAATGAACTATATATTTCTAATAAATTAATTTATGAAACTGTAGAAGCTGCATGTGGTTCTGATATACTTCCTTTAGTTGAGTTTATTAAAAATAAAGAAAATATAAGTGAAACTGATATATCTGAAAAACTAGAAATTCCAATTAATATAATAAGACAAATGTTTTACAGATTATCTGATTTTAATTTAGTTAGATTTAAGAAAAAAAAAGATAAAAAAAAAGGTTGGTATATTTATTATTGGACTTTTCTTTCAAGAAATATTTCTTATGCAATTTTAGCATTAAAAAAAAGAAGGTATGAAGGATTAAAAAGTAGAATTACTCGAGAAGAAGAAAATATTTATTTTATATGTAATGATAATCATTTTAAAATGGACTTTGATTCCGCTACAGAATATGAATTTAAATGTCCTGAATGCGGTGAACTTTTATTTCAAATAGACAGTCAAAAAATAATTGATAATTTAAGAGTAGAAATGGACGAATTAAATGAATATATACAACATCCACCTAGCATTTTTAAATATGAAGAAGAACCAGTTCAAACTTTAGAAATTATAACTGCTGAAGATGAATTAAGAGCAAAGAAAAGAACAACTAAAAAAGCTGTTAAAAAAGTAGTTAAGAAAGCTGCTAAAAAGAAAACAGTTAAGAAACCAGCTAAAAAGAAAGTTGTTAAAAAAGTAGTTAAGAAACCAGTTAAAAAGAAAGTTGTTAAAAAAGTAGTTAAGAAACCAGTTAAAAAGAAAGTCGATAAAAAAGTAGTTAAGAAAAAAGTTGCTAAAAAAGTAATTAAAAAAGCAGTTAAGAAAAAAGTAATAAAAAAACTAGTTAAAAAAAAATCTGCTAAAAGACCAACCAAAAAAAAAGAAGTATTTAGTTCTAGAAAAAAAAAGAAATTAGTTAATAATATTTTAAAAAAAAGAAAAAAGAAATAATTACCAATTTCCAATTAATTCATTAAATGAAAAACCAGCTTCTTTATGTTCTTTAAAATTTACACAAAAACTTTTTTCAGTTTCTTTTAAATCATCTATTGATAAAAAATACCAACCTTTTTTTTCAAATTTTGCTCCAATATAATATTCACATCCAAACATTCTTGAAAATTCAATTAATTCAAAAATTTGTTTTTTATTAATATAAATATAATTATTTTTTACGGATTTTGCTTCAATTGCAATTTTACGAATATTATTTGATGCTAAAATATCTGGACTTGGGTATTTTGTTGAACCACTTCCAGCAGATCTTAATGCTGCCCAATTGTTTTTCCAAAATAAATGAATTAACTCTCTTTCTGCTTTACTACCTTTACTTTTAGTATTAATCATACATTATATTAATTGATTATTATTTATAATAAAAATGCGTAGATGTCTATTGGACCAGTGTAAAATTATTTTTATTTAATTATAAAAGTCATTAGTATACTCAAAATTATTATCTTGTAATATATTTTCTAATTTTTCTAAAAATTCAGAATGTTCAAATGGTATAAATGTTTTAAAACCACCTACTTTTTCAAAATTTACTCCTGTATTACTTCTACCATCTTTATTTAAATATACATCTTTTAATGAAACTACTACATATCCTATTTTGTCATATAAATCAAATATTGGTCTTATTTTTCTTTGAATTGAAGTTGTTGAATACGGTGATGGATGTCTTTTCCCACCACCTTTTACTTTTTTACCACATTTCACTTCAAAAGCAACAAATATATCTTCTAATAATACACTATTATCAATTTGAGATTGTATTTTAAATTTAGATGGAATATGTAAGTTTATTTCAGTTCCATAAGGTAATATTTTTATGAACCTATATGATTTTGTTATTTTTTTATCATTGAGTGGGTTAAACTTTCCACCTAAATTATGTTCACTCAAGATTTTCTGAATTGTTAGCCCAGTGTAAATTTCTCCAAAATAACCTATTATATTTGATAATAAATGCATCTGACTATTTTTTGAGTCTAGTGAAATAAACATATTGTATATATTTTCCCAATCAATCTCTTGTTGAGGGAACAATTCAACTAATTTTTCTAAACTATCATTACTATACAACTGTATTTGTTTTTCCATGATATTCTTGAAAATCATCTATTTAAAAATAATTATTTGATTAAATAGTTTCATTTAAAAATAAAGAATATTTCAAAATATTATGGAATTAACATTTTTAGGAACTTCAACAATGGCACCAACTAAAGATAGAAATAATACTGCTATTTATTTACAAACAGAAAAATATGGTATATTATTTGATTGTGCTGAAGGAACTCAAAGACAATTTAAAATTGGGAAAATTAATTTTAATAAATTAGATTTTATTTTAATTAGCCATCATCACGGAGATCATACTTTAGGTATTTGTGGACTAATACAAACTTTGGCAACAAATAATTATAAAAAAAAATTAACTATATTTGGACCAAAAGATACTAAAAAATATATTAAAAATGCAATGAATAGTTGTATTTTTACTAGTAAAATTGATTTGGATATAATTGAGATTAGTAATGGTAAAATTTTTGAAAATGAAAATATTGTTATAGAATCATTAGAAATGACTCATTCAGTTCCTTGTGTAGCTTATAGCTTAATTCAAAAAGGGCATAGGAGATTTGATTTAGAAAAAATGAAAAAATTAAATGTAAAAGAAGGACCTTTGTGGAATGAATTACAAAAAGGAAAATCAATAACTGTTAATAATAAAACTATAAAACCAAGTGATGTAACATTTTTATCTTCAGATAAAAAAGTAACTTATTGTATTGATACAAGTTTAAATAAAAATACATATAAGATTTCAAAAGATGCAGATATTTTAATATGTGAATCTACTTTTGATGAAGATTTAAAAGATAAAGCTCAAGACTATGGTCATATGAGTGTAGATGAGGCTTGTGACATTGCAAATAAATCAAAAGTAAAACAATTAATACTAACTCATTTTTCAGCAAGATATAAAACTACAGATGGAATTTTAAAACATGCAAAAGAATATTTTAAAAATGTAATATGTGCATATGATTTTTTTAAGGTTAAAATATGAAATTTAAAACAAATTTAATTAATGGAAAAATATTTAGTCAAGAAAATAATAAAGCTCACACTCTTTTTGACAAAAGTAATATGGGGAGTATATTTAAACAAGGCATTATTGAATTGAATTTATATGAAGCAATGTATTTACTTGAAAAAAGAAAAATTGATCTTTTTTTTAAAAATGAATTATTAACTGACGATCAAATAATAAATAAATTTGTAAAATTAGATAAACAATTTTTAAACAATTATTGTGTATATAAAGACTTAAGATCAAAAGGTTATATTTTAAAAAGTGGTTTTAAATATGGTTCTAATTTTATTGTTTACCCTAAAGGTAAAAAACCAAATAAAACTCATAGTAAATGGATTTGTTTTGTAAAAAAAGAATCTGATAAATTAAATTTATATGAATTTGCTTCAAAACATAGAATTGCACATTCAACTAAAAAAAATATATTAATTGCAATTATATTAAATGATAATAATTCTATTTTATATTATGAAAGTAATTGGATAAAACCATGATAGTTGTTCCATATAATCCAATAGCATTTTCTATATTCAATATTGAAATAAGATGGTATGGTATTATATATGCACTAAGCTTATTACTAATTTATTTTTCTTTTCATATATTATCTAAAAAAAATAAAGTTAAATTAAATGAAGATGATATTGATAATTATTTTATATTATTTTTATTAGCAAATTTAATTGGTGCTAGATTATTTGATTTTATTTTTTATTATCCTTCAAAATTATTTGCAGATCCTTTATCTGTTTTATACATTTGGAATGGTGGTTTATCATTTCATGGTGGTTTAATTGGTATTTTAATTGCGACTTATTTTTATTCAAAATATAAAAAAGTAAATCTGTGGCCAATTCTTGATTTAATTGCATTAATAGTACCATTAATTTTAGCAATAGGTAGAATTGGAAATTTTATTAATCATGAATTAGTTGGAAAAATATGGCAAAGCGATTATTGTTTTAATTTTGCAACAATTTCTGGATGTAGATATCCATCTCAATTATTTGAATCATTTTATAGTACAATATTATTTATAATAATGATTTATGTATATAAAAAAAAATTACCAGATGGATTAACTTTTTTTATAGGGTTTACATTATATGGATTATTTAGATTTATATTTAATTTTTTTAGAGATGACACTTTAATTTTATTAAATCTGAGCATGGGACAAATATTAAGTTTACTTATGTTTATATTTGGCTTAATTATAATAATAAAAAAGTATTATAGTGATGATGATTGACAGGCGATATGATTATTGATTATAATTTTTTATTCTGAGCTATACTTTTTTAATTTAATTTTATTATAATTATATACTCGTTTCAAGTAATCTTTATAAATCTACAAATTGCAAAATCAATTATGAGAGATAGAGTTCTAGATTTTGTAAAAGCAAATGGTCCTGTAATACCAACAGCAGTTTCTAAAAATCTAAAAATAGATTCAATATTAGCTGGTGCTTTTTTATCAAGTTTAATAAGCTTAAAATTAATGAAAGTTAGTGATTTAAAAGTAGGTTCTTCTCCTTTATATTATACTGAAGGACAAGAAAAAAAATTACAAGATTTTTCATCTAATTTAAATGAAAAAGATTTTAAAACATATCTTACATTAAAAGAAAATCAAGTATTAAGAGACTCACAATGTGATGCATTAACAAGAGTTAGTCTATCTACATTAAGGGATTTTGCAATTCCTTTAAATATAACTTATAATGGTGAAGCAATTAAAATTTGGAAATGGTATTTATTAAAAGATAATCAATTAACTCAAAAAATAACTGAATTATTAAATATAGATACTGATTCTCAAAAAACAAATCAAAATTCAGATGAGTCTAAACAAGAAATAAATAATGAACCCAAAGTCGAAAATAAAACTCAATTATCTGATCAGAAAGCTCCCGATTTTAAAATTTTAAAAACTCAACTTGAAAAAACAGAACAAAATAACAATAAAAGAATTGAGGAATTAGAACGATTAGTAAAAACAATAATTAATAAAACAACTAATTCAAATCTGCCTGAATCTAATGTTATTAGTGAAACTAATGATGAAACAGATGCTAAATTTGTAGATCAAACAGAATCATTACCTAAAAATTTTAAACATTTAAATTCATTATTAAATCAAAAAAATATTAAATTAAATACTGATGATGATATATATATTAAAGTAAATGATTTTATTTCTAAAAATAATTGCCAAATATTAAATTTTAAAATACTTAGAAAATCAAATGAAGCAGACTTTCTAATAAATCAAAATAATTTTTTTGGATCTCAAAAATATTATTTAAAATTTAAAAATAAAAAAATTATATCTGACTCTGATTTACAAATTACTTTAGAGGGTGGAAATTTAATTAATTTAACTCCCATCTTAATATCAACTTCTGATTTAAATAAAAAAGGAATATCTTACTTAAATAATAATGATGGAAAAATATTTTTCTCTAAACTCTGATTTTCTAACCAATTTGGTTAAATTTATGAATAAATAATTTTGCTAATACTTATGGTAAAAGTATATATTGAAAAAGATAATAAAAATATAGAATTAGAATTTAATGGTAAAATTATTGATTTAGCAAAATCTTTAAATGTAAATATAGAGACTGTAATATGTGTTTTAAATGAAAGTGTTGTAAATGAAAATACTAATATTAAAAATAGTGATAATATTCAATTTTTAAGCGTAATATCTGGTGGATAAATGAAGTGTAAAAAATGTAATAATGGTGTTTTAATTAATGATTTATGTAATGATCACTTTATAGAATATTTTGAAAATATTGTAAAAAAAACAATAAAAGAATATAATTTAATTGAAAAAGATGATAAAATAATTGTAGCTACTTCAGGTGGAAAAGATTCAATAACTATTTTGTATTTATTAAATAAATTTTATAATAATGTAGAGGCATTATGTATTGATGAAGGTATTAAAGGATATCGTTCAAAAACATTATTAACATTAAAACAATTTTGTAAAGAATATAATATAAAATTAAATGTCTATTCATATAAAAAAGAATTTGGTCATTCACTTGACTATTTTATGGATTTAATTTCAAAATATAATAAAATTAAAAAATTAAATATTAAACCTTGCACCATATGTGGTATTTTTAGAAGATATATGATAAATAAATATAGTACTGGTTTTGATAAAAGTGCAACTGGGCATAATTTAGATGATGAAAGTCAAGCAATATTAATGAATCTTTTAAAAAATCAAATTCCAATTTTAGCGCGTTTTGGTCCATTAACTGGAATAAGCAATGAAAATTTATTTGTACCTAGAATAAAACCATTATATTTTTTGAGTGAAAAAGAAATATTAACTTATTCATATTTGAAAAAATTTGATTTATTTTATACTGAATGTCCTTATGTACCACAAGCATTTAGAGCAGAAGTAAGAGATAATTTAAATGAAATTAGTAAATCAAAAACAAATGAAATTAAATTAAATATAGTAAACAATTTTTTAGAAATATCAAAAAAATTAAAATCAAAATATAAAGACACAATACAAATAAATTATTGTACTATTTGTAATATTGCTACAAATAAAAAAATCTGTAATAAATGTGAACTTATAGAAAAAATAAATATGGTAAAAAAAGAATGCAAATTATAGCTTTTACTGGGACGCCAGGTACTGGTAAAACAACATTATCAAAAGAATTTTGTAAATTATATAATGGTAATTATATAAATATTTTAGATATAATTAAAGAAAATAAATTATATGATACTTTTGATAAAAAAGATGATACTTTAGATGTAGATATTAATAAATTTATTAATTTCATGATTGATTTTATAGTAAAAAAACAAAATTTAAATATTGAATGTAGTGAATTTGACTATTTAGTTATAGATTCACACTTATCTCATTTTATACCCAATGAATATATTGATTTTGTAATTGTTTGTGTTTGTGATTTAAAAATATTAAATGCAAGATTAATTGAAAGAAATTATTCTAAACAAAAAATTAAAGACAATTTAGATTCTGAAATTTTTGATACTATTGTAGAAGAAGTAAAAGAAATAGGTCATAAATTTACTGTTTTAAATACCTCAAAAAATTATATAAAAAATTCAATAGATCAAATAAAAGATTTATTAAAATTTTAATATTGCATATTTATCATTTTCATCCAATAATTCATATTCATTTTTTGCAAATGAACAAATTTGAAAATCAATATTAAATTTTTTAGCCAAATTATAATTTTGTTGAATTCTATGTATATATGGCATCAAATTATTAAATTCCACAATAATTGTAATATTATTTTCATTAAAATTTCTTAATATATTTTCATTTGTACCACTTCTAATTTGATTAAAATAATCCCATTTTTCAATACACTCTAAATTGCAAATATAATTATAATTTTTTATAATAAACTTAAAATTACTTACAAATTCTTCTTTTTCTGCCTTGTATAAATATTTTACTTTTTTATTTTTTATTTTTGTTTTAACTTTTTGCAAGTCTTTAATATCAATTTGTAATATAATTTCATATTCAAATAATTCATCTATTTTATATTTTTGAATTAGCTCAATTAAATCATCAATTTTTTCAAAATTATTAATATTAAAACCCAATTTTTTTATATTTAATTTATTTGCAATTTCAATATAATTTAATATATTACTTTTGTTAATTTTGTTAATTATTTCCATGTTTTTATCCATTTTTAAGTATATTTTCACTATTAATAAAGGTCACGATAGTAATGTTTTTAAACCTCATTTATAAAAAATAATTAGGTAGTTGAATATTTATGTTAAAAAAAGGGGTGTTTTTTAATTTATTAGTACTGATTTTATTAGTTTTACCTTTAATTCAAGGAGCTGAGTACTATTCAGTTCCAGATAATTTTGATTTTTTTAATAGAACCGATGTTAAATTTAATCCTGACTTAATTAGTTCAGCTACTTATACTTGTGCGGATATTAATGGTAATTTATGTGAACGTTTTCCTGATGATAGTTGTGAACTTTTTATTAATTCAAATGAATTAGAAAAATCAGGAACAAATTTATGTTCAAATAATGCTGGTTGTGTTTTTTTAAACCCTCCTAAAGGTTATGGTGGCGAAGGTACACCATTATCTCATTTATGTAATGTTGAAAATTATGATTATTATAATCAACCTTTACTTAGTTTAATGGCACAATGTGTAACTGCAAATGATGGTGTTGATTGTGATTTAAATTCAACTTTTCAAGGTTATGACAGTCAAATGTGTAATATTGTTTTATGTTCTATAAATAAAGAAAATGAAATAAATGGTACTATATCAGTTCCTCAAGGTTTAAATGTTGGGATTGGCGATATAACTGTTAATTTTATTGCATCATTAGCGGTATCAAATAGTCCAGGATACAAAGGTATTGTAGAGCTTAAAGATAATAAATTATTTTATAGAATACAAGGTTTACCCGATAATTTACCAAACGGTGTTTTATCTATTAGTGCTGATTCTAAATTTAATTTACAAAAAGAAATTAAAAAAAATGTAGAAATTAATACAATAAATAATATAGATTTACTTTTTACAATTGATGTAAATGTTAATTTAGATTTGACATTTAAATCCAATGGTGTTGAAATATTAAATCCAAAAGGTTATGTAACTGTAATTAGTGAAATTGATTTAAGGGAAGAAACTAAGGATTTTTCTGATGATTTAATGAATTTTCCAGATTTACCTGCAAGAAATGTAACTGTATTTTCTTATATTGATGGATATGAATTTAAAAAAACCAAATTTGAATTGACTGAAGATATTAATATTAAAGAGATTGATTTAAAAGTTTTAACGTCTCCAAAACATATCACACTAACTGTTAAAAATTTCAATGATGTTGATTTACCAGATGTAAATATATATTTCAAATCCACAGGTAATAGTCCCTTTTCTGGATTTAATAAAACTGATACTACTGGAAATTCTGGTTTTAATTTACCTGTTGGTGCAGCTGGATATTTTTTATTCAAAAAATTCGGTTATGTTGAAAAAATTGTAAATTATGATTCAACTAATTTTAATTCTAATATTCAATTAGATGCGTGGGTATCTAGAAAATGTTCTGAATTTGGCGGGGATTTATACTTAAGAAAAACATTACTTTCTGAAAATAAATATTGTTCTTCCTCTGGTTATATTAATATGTACAAAAATAATATTTCTTTTTCTGAAGGAAATGTTCCATTAGATGAAAATAATATAGATGATTATGTTTGTTGTACTGAAATTGTTACTACTAATTTACCATTTAAAGATACTGATTATGATGGTGTTTTTGATCATGTAGATGTTTGTCCTAAAAATGCATTAATACAAACAAAAAATGATCCATTATATTCTGAAACTGAATCCCCAAGTAAATCTCATGAAGATATTTCTTTTTGTCAAGATGGTGTAGATAATGATTGTGATGGGGCAATAGATAATTTAGATGATGATTGTAATAATGTTTGTTCAATTAATAATTGTAATATTAATGACAAAGAATATTGCTTTGATAATGATGGAACTCCTGAAACAAAAACAATTAATAAAGATACAAGTGGTATTGCTATACTTGATGATACTTTATTTGAATATTGTTCCCAATGTCAATCAATTGACTCAGCATTTTGTCAAGATAAATTATTAGGTCAGGTAGATTATGAATGTTGTAATAATGTTTGTGAAACTCCTGAAGATATTTTTAATTTAAATGTTGAAGATTCTATTTGTTCTGCAAATCAAAATGTTTGTAAAAGTGGAACATGTGTTTTATTAGATTCATGTGTACAAAATACATTTTTTGGTAAAATTAATATTTTAGATGCAAATGCAGAAAATAGCTGTGTTTGTGGTTCAACAATAGTAGATTATAATAATCAAGATGAATCTTCTGCTTGTTGTATTAATGGAAATTATTATTCTGATTGTAATGGAATATTAAATACTTTTAAAATCAAATTAAGTTTTTATGATCAAAAAGGACAAGATTTATTTTTACCATTTTCAGAACAAGTACAATTATTAATTATTCCAAGAGAAACTTCAAATATTAAACCATTTAGATTTGACCAAACTGGTTCAAATGGAATTATAACTGGTCTTTTAAGTTCTGATTATACTTTAATAGTAACTGCCGTTGATCGAAATCCTGAATTTGTAGAAATAACTAAATCTGATTTTGAAAAAGCAGTTGATAATTCACATGAAATAAATAAAAGAGTTGAGTTTAAAACAAATTTAAATTTAGAGTGTGCAAATAAAGAACCTAATGTTAATTTTAAAGTTTCTTCAATTAAATCAGAACCAAATTCAAATATAACTTGGACAAATCCATGTAGTGAATATAATGAAAGTAATTTAATTACTCATTATTTAATTAAAAGAACTAAATTAAATTATTTTGATTTTAGAACTAAAGATTTAGTTACGGATTATACAAATTTAATAAGTAATTCATTTGGTGTGGGTATCGATTATAGGGATGATGGTTTTTTACCTTCTGATTATGCTTCAGAATTTGTTGCATTAATTCCCAATAATAAATATGAAATAGATTCAAATAGTGATTGTACTGATGAAAGCAATAGTGAATGTGCATTAAAGGATGAATTTGGAAGAATTATACATAAAGAAAATTGGACTTATGTTGATGAATTAGATAAATGGGGTATAGAATTAGATGGAAATAAAAATTCATATCTTTATGAAATGCGTGCATATTATGTAGGTAATAGACATAGTAAATTTTCAATACCTGATTTAGTTTTAGACTATAGAATTAATTTAGTAAATAATAATGAATTTTTACAAATAGATCATTTGTCAAATAGATTTAGCGAAAATAATTTTTATAGTAATGAAATGACGTATATTGGTGATTCAAATACAATAACTAATGTAAATAAAATTTTATCTTTAACTAATTTGGGTGTAGATTCACAAAAATCAACAAGAATGAAATTTTTATCAGAATTAAAAAACAGTATTTTTAATTCAGGCCATGAAATTTGTACTTATTATAAAGGTGAATTTTGTGCAGAGTATATTAATGATGATTATGCATCTCAAAATGTAGGTTTATTAGATGATAATATTTTTACAGGTAATTTAGATCCAAATGATTTAAAACAATTAATTAGTGAATATTCACAAGCAGATAAATTTAATTCAAATGATTTATTGCAAAATGTACCAAGTGTACGTGTTGAATGTAATCAATTCAATTTTCCAAAAAGAATTGAAAATACAGCCGAATCAATTTGTTTTAGTGAATCTGGTGTAAGTGGTGAAAGATATCCTTTTGTTTGTTCAATAACTAGTAATCCAAATAAAACTCAATGTATTAAATATCCTGATTTGTTAAATAGTGGATCTACAGAATTTCAAAAGTTTAGACATGATATATTAAAAGATACTGATTTAGGTTTTGGTTTTAATTCACAAAATGAATATAATGAACCGTTACAACAAGAAGATCCGATTTCAAAATTATCATTAATTACTCAAATTAATGTCAAATCAAATCTTTATACTTCTTTTGATAGGGGTGATTCAGTTTATGATACTTGGCAAAGTTGTACTGATGCATTAATTCCTTTAAATAAAGATGAAACATATAGAGAAAGTGGTTGTTATGGCTATAGATCTAAAAATGCATGTTTAGATAATCCTTGTAATTTTGGTTATGAGGGTAAATGTGAATATTATGATTCTGGTTTTAGTGAAAATGGTGATGAAATTTCAAAGGGTTTTTGTTATGATTCAAAACCAATAGTAAATCATTGTGATTTGGTAAATACAGATGATTTATATCAATTTGGAAATATAACTGAAAATATTTGTTCTAATTTAGGTCAATGTTATTTAGGAAAAGATCAAAATAGTGATAATGATTTTGTTTGTTTAGAATGTACTCAAGCAACAACTTGTTCTGATTATAAAAGCGAAACTGCCTGTACTAGTAGTGATGTCTGTCAATTAAATAATTGTTTATGGAATTTAACAGAAGAAAAATGTAGTGTAGATAAAAATTTAGATGGTATATCTAATGATGGAACTAGTAATGAAAACTATAAAATAAATTCATTTTTGAATTTAAATAATAATAATGAATATGAATTATTATTTAGATCTTATCCTAATGACGAACATAAAAAAATATCTGCAGATATTGATTCTTTTTATGCAAATGAAAAATACAAATTAACTTCAACAGCATTTAAATTACAAAATGGGGATTGGATTAAATTAAATTCAGATGAATTTCAAACTAATGCTACTTTATTTAATGAAAACCCTACTGATGAACAATTTTCTTTTGTTCTTGAAACTAGCGGAGATGTAAATAGTGCAAAAACTCAATTATTAAATACAGAATTTGAACAATTAGATTCAAATGCAATTATTGTAAATTTAAGTTATTTTACTTTAGATAATAATGGATTACAACATAATAAAAAAACAAGAAATGTTTTAATTGATAATTTAAAACCAAATATTAGTATAGTTTTTAGTGAATTAGAGCGGCTTGATGATAAACATGATATTTTAGTATTAAGATCTGCTGATGAACTTATTTTTGATTCAAATGGAAAAAGGAATAAATGTGATGATAAATTTGAACTTTTTAATTTTGAAACTAATGCTTTTGTTGAAATACCATCAATTTCACCCAAAAATAATGTTTATTTCACTAATAATAAATATCAATTTTTAACTGAATTTAGTTTTAGTGAATTAGATGATGGTTTGTATAAGTTTTCATCAAAATGTAAAGATTTAGCTGGTAATGTAAATGAAAAAAGTTTAAGTTTTATATTAAATGCAGGTGTAATAATTAAAAATGTTTATCCTCTAGTTGGTGAGGTTGTAGCAGGACCTCAACAAGATTTTTCAGCTGAATTATATAGAGAAGCAAAACAATGTAAATATGAATTATATTTTAATGGAGCGAGAGTTAATGTAACTAATAAAAACAATTTTAAAAATGATTTTAATAGTAAATTTAAATTTGGTCAAAAAATTCCTGATTATGATATTAATGAAAATAAATATATTATTTCTGATAATGCAATAACTTTTGATGATTTATGTAGTCAACCTGATGATGAATTTAATAGTAGAAGTTGTAGGACAAGCTCTGGAACTTTTTCATTAAATAGTACTTTTTCATCAGGTAATGTTTCATTTGGTTTTGATTTTTCAAATAATATTAAAATGTTGAATTCATTTCAAACGGGCTCAGTTTTTATTAATGCAAGTTGTTTAGTTCAAAATGGTACTGATTTTGAAGAATTTGTTCCAAAGAATTTTTCCATTACACAATTTTATATTGATAGATTGCCACCTAAAACAGAAATTTTAACAATACCTTCAATTGCAACTTCAAAAAATACTTGGTTAAATTATGAAGATTTGAAAGGTAGTGGAACCAATGTTGGCTTTACATTTAGTTGTACAGATTATCCTAATATTGATGGTACTAATGCTGGTTGTGATGAAACTAAACTTGCAGAGTATTATATTGTAAATTATGGTACAAATTGTATTGGAAACGCACCTTATGAATTTGCACCAAGTTTAACTGCAAGTTCAAGTAGTTCAATAAGCAAAAGTTCAACTCTTTGTTATAGATCTATTGACACATTAGGAAATAAAGAAGATGTAAATTCTATTAATTTTTTAATTGATACTGAATTTCCTGCATTTGAATTAAATGGTATTTCAAAACCTGCTTTAGATAAAGAAAATATTGCAAATGATAAAAAACAAACAATAAATAATTATATTGAAGATTATAAAACAAAATTATATTTTAATACAAGTGATAAAATTACAAATATTTCAAAAATAAAATTATATAAAAAATCTGATAATTCATATTCATTAATTGATATATATGATTTCAATACAGAAACATCTGGTTTGATTTCAATTGATTCAAAAAGTTTAGATAATAAAAATGTACATTTTAGTTTCGTATTGCCGGTTGATGATAATATAACCAATATAAAAATTGAAGTAGAGGATTTTGCAGGAAACATTAATTCCTATAAATATTATTTATTTTATGATTTAATTAAACCAGAATTATATATTGATTTTTTAGATAAGGGTTTTGATTATTTAAGTCCAATAAATTTTGAAGTTAGTTTAGATGATAATAAATATATAGCTGATGAAGGATATAATTTTATTTCAAATACAGTTTTTACAAAAATAAATATAATACCTGATAAACTTCATAATTTTAATATAAGTGATGGTAATTTTAAAAATAAACAAATATTAAAAAACAAATTAGATTTTTTAAATACTTATTTTGATGCTTTAATATATAATCAATATCATAATTATGAAGAATTTGGTCTTGATAGTAAAACTGCGAATAAATTACATAATTTTGATTTTGAAACTAAACAATTAACAGGGGAAAAATTATATGGTCTTAATAATTTTATTCCAGGCACATATAATATTACTTTATTTTATGAAGATAATTATGGTAATGGAGATAATTATACATTTAAATTATATATTAATCCAATTGAACTTTTAACTCCTGAAAGTTTTGAAGTTAATTTATATGAAAATTCAAAAATTATTCAAATTGTAAATAGAACAACTAATGCAGAATTTGAAATTTCTTCAAATCAGTTAATAACTGATATTATTTCTTTTTCATCAAGAGAAGATTCAACTTCAAATACACATATTGCATATAAAACAGACACACCTGATTATAGTTTGAGTTTTGATCCGAATTTAAAAATAAAAAGTGATTATAATTTACCAGTAACATTTCAAAATTCAAATATAGAATTTTCAAAAGACGGAACTATGTTAAATATTAATAATGCTAAATTTCACATTTTAGTTAAAGATATTTTTGGAACTGAATATGATACAACTATTGGTAATGATATTGCAGTTGATTTTAAAGGTCCAGAAAATTATGAATTAAAACCAAATTTAAAACAAACAATTGATATTTTTACTTTAGATTATATGGAAATTCCAAATAGATATCAATTTTATGATTCATCTTTATATGATGAATATGGATTAATTACAAATAAAGAAAACTTTTACATAAGTGGTACTGTAAATACAAGAGCAGATAAACCTAAGTTATATTCAAAAAATAAAACTAATTTAATATATAATACTCATTTTATTGATGTAAGTGAATATCATGAAACTATTGGAGAATTTACTGTTGATTATGTTAATTTTGATCCTTATAAAAAATCTGAGCTTATGACTACGGCAAATGAAATTTATTTAACTAATAAATTTATGAAAAGTAATGAATATATGACTGGTAATTTTGTAAATCATGAAAAAATATTATCTTCAGAACTTGATACAGAAACTCTTGGAACAAAAATAACTTTTGCAAATTTAATACAAGATAAAACACAAGCAATTTTTGAATTATATGAAAAAGAAAGTTATCCTTTATCATTTTTTAAAATATATGATTTAGAAGAATTACATGGAAGTGCTTTGCCTGAGGCACCAACAAAATATAATTTTGATTTAAAAGTTTATGATCATTTCAATAATGATGGAAATTTCAAATCAAATAATAAGTTAGTTAATAATATTGGTTTTAATGTAACTTATGATGGTATTGCACCAAGCTATGACATTATATTTCCAAAAGAAAGAGACTATATAATTGAAGATGACTCTCTTTTTAATTTAAATATGAATGATGATATAAAAATTGAATCAATTCATTTAAATATAGTTCGTAAAAAAATAGACGGTACTGAATTAATAATTTCAGAGACTTTCAATAATCCTGTAAATTTATTTAATAAAATATATGCAAATAATGATATTGGAATAAATGCAGATGGAAATTATTTTTATAATTTTACAATTAAAGATGTTGCCGGAAATTTAAATAAAAGTAAGAATATTGACTTTTTTGTATTAAGAGGAGCACCACAATTAGTGAGCAAAAGTATAGGTGGTAATAAAGTTGAAGGGGACCGTAATGAATATATTAATACTATAAAAAAACCTAATTTAGTTTTTAATTTTTCATTTAATGATGAAGATTTTGAATGGGGTTTTAATGTAAGTAATTTTTATTTAGAAAGATATGAAAATGGAAATTGGATAATAATAAAAGAATATGATAATTATAATTTAGATTTTAATAGTATAAAACCACATAAATTAGAATATGATCCTTCTAATAGATTATTACATAGAAATTATACTAATTTCACCTTTTTTATTGAAGATGATATTTTTAATGCTAAAGAAACTGGTGAATTAGATGAAAATAAATATAGATTACATTTTAATGCAACAAAAGGTAAAAGAGAACATTTGACATATATTAATTTTGATTATGCACCAATAAAATTTGAAGCAGAGTATTATTTTTATTTTGTAATTGATAATACTGATCCGGATATTGACTTTAATATGCCTAGTGCAACGAATTTATTAAATTTTGATTTTACTGGATTTAATAATGAAATTAATTTATTTAATGTATCTCCATTACCAAAACTAGATTTTGTTAAATTTTCAAATAATGATGCAGGTGCATTTAATGGAAATGCAAAACTTGAGCAAATGGAAAATGATAATCAAGAAATTATATTAAATTATGGTATTAAATTAACTGATAAAGCATTAAATGAAAAAACATATAATGATTTTAGTATTTTGTATGATAGGAAAATACCTGATACGACATGGACTATAGAAAGTTTAGAAAATAATATTATGCATAATGAATTAGGTAAACATTTTTCAAATAATGATCAGTTTACAATTAGAGTTTCAACATCTGAAAACGTTAATTCAAATTTAATCGTAGAACAAAAAATTAATGATGAATTTGTAATATTAAAAGTGTTCAGTCAATTTACATCTATTTCAGATACTGATATTTTAAATGGTAAATTTATTAATTTAAATGAAATTCCAATTTCTTTCTTTCCATTAAAAGACACACATTTAAAATTTACTATTACTGGTACTGATTATGTAAATAATAATTTTGAAAATAGCACTGAAATTATTATAGATAAAACACCTCCAAAAATATTAGACTTTAAACCATTATCTGCATCTCAAATAAAACCAAATTTTAAATTCAAAACTAATGAATTTGCAAATTGTAATTTATTTTATGAAAATATTGATTCAAATAATTTAATTACAACAAAAAGATTATCCCAAATAAACATTATTGATCATTCATTTATTCCAAATGAAGATATAACTACAATTCAAAGAGCCTTGGCTATAAAAAAACCAATTCCAGTTAATTTATCAATTGAATGTGAAGATAAAAGAGGTAATTTTGGTATTACTAAATTAAAATATTATATAGATTATTCAATTCCAAATTTTGTTTTTGAAGATAGTGACAATACATGTACTGAAACTGATTGTATTAAATATAAAACATATTTTGTCGAAGAAGGTGATTATGAAAACAATGTGAGTACAATTAATTTATTAGCACACGAACTTAGTGAAGAATCTTTTTGTTATTATATCAAATTAGATAATTTAACAAATTATAATTATTCAAATGATGATTTTAATATAATTAATGAAGATTTTGATAATATTTATTCTAAAGATTTTGACTTAAATGATCCAAATACAAAATTAAGTGTAACTGAATTTAATAAAATATTAAATACTTTAACAAATAAAAGAATAATTCCGAATAATACTTGGACTAAATTAAAATTAAATGAAATTACTCAAAATTATTATGACACTTTAATATTAAATGAAAGTCAAAGACATATTTTTGTAGGTACTTGTTTAGACAAATCTAATAATTCAGGATATAGTCAAGTATTAGAATATAATATAGATTTTGATGGACCTGTTTCAATATTATTTGATGAATATAATAAACTTACAAATAAAAAAAATCACATAATTAATTTTTATACAAGGCGAGATGCAATTTGTGATGTTGATGGTGATAATGTAATTTATACAGAACGTAAAAATGGATTATATGAATATAATTATGAAGTTGAATTAAGTGAAGGAAATAATGAATTTGATATTAATTGTAATGCTTTAAATGAAAGAGGTATTGCAAATAGTAAAATGTATGATATTGTTTTAGATATAACACCTCCAAATTTAATAATTCATAGTGATAATGAAATTATGACTGATGATTATAAATATGAATTAAGTATTGAAAGTAATGAATTATTTGATTTAAACATTAATAATTTATTATATGGTTATTATGATATTAAAATAAATGATATTGAAAAAAATAAAAAACAAAATTATACTTTATCATTAAATCCTGCTTTGAATATTTTTGTGATTAATATTAGTGATAAGGCAGGTAATATTGCAGGAAATTTAATTAATATAGTACGACTTACGACATCAAATGATGTATCAGATTCTTTTGTTGGATTTCCAGGTGATGGTGCAATTATTAATAAATTAAATAGAACTGCTGCAGTATTTTCAAATACACGTGAATCACATTCTCCAATCAATTTAAATAAATCGATTTTATATTTAGAATCTTTAAATAATCCAACTAAATTAGTTTATGGTAATTTAAGTACAAAAGTTTGTAAATTTCAACCACCTGAATCCCTTGAAAATAAAAATGATAATGATTTAGAATATATTAATATTACAACAGAAAATGAAACCTTATATTTAAAAAAACCCATTTTAGTCCATAGTGCACAACAAAAAGGATTTTCGCTTCATAATAATATAATTGGTGATTTTGCTAAATTTAATAATACTCTATTTAATTATTCAATTAAATTTGATTCATATAAATTAAATAATATTAATATTATAGATGGTTTAAAAATATTAAATCATAAAGTTGAATATTTTTTAATGACTAGAATTTCAGATACAATATTTTTAGAATTTTTCTTTTTAGATGAATTTGGAAATAAACATTCATTTGTTTTAAGTGATGCTTTTGATAATAAATTTACAGAAGCTTCATCAAATAATGCGAAATTTAAAACTAAATTTGATATTTCAATAATTGGTGATGATATTCATTTAAATAAAATTGATTATGTATTTGAATTAACTAAAGCAATTTATTTATATAAAGATCAAAGATTAAGTCAAGAATTATCAATAAATTATTTAAGAAATGGAATTTCTTCAGGTCTATTATCAAATTGGTGGGATTTTATTTATAGAGGAACTGATTCAGCTTATTCAGGTAGTTTAGGTGAAGATGATTTATTTGCAAACAGATATAGAACAAGTAAAGAATTGTTAAGTTTTGAAAATGTAATTGGTGGCCTTTTAACTAGTGATAATTTTTCATATAGTTTTGGATTTTATACACTTGATTGTGAAAATATTGATGTAAATAATGTTAAATTAAATAATGAATTTGATAAACAAAAAAAAGAAATTAATTTTGAAAATATTCCTAATGATAAATATTTAATTTCAGCTGTACCAGTTAATAATCAAAATTTTGCAGGTGTTGCTTCATTTATTTATTTTGATGTTAATAGTAATGTTCCGCAAATTAATAGAGTTAAACCTGATTCAAATTTATTAAATGATATTAATCAACAATTTGAACATAATATTTTATTAAATTCAAATGAAAATTCTTTGAGTGAAGTCAATTATAAATTTAAAGGTCAAACAAATAATTTAAATCCTATTAGGCTAAATGATGAATATACTACATTAATGGATTTAAGGTTGGATTCAGGTATTAAAAATATATTTGAATTAACTGTATTATCAACTAATGATGATTTTGCTACAACAGGTAAAGAAACATATATGGTAAATGAACGTGGATTCAATGATCCAAATTTAATCGTTTCAGAAATTCACAAAACTTTTGATTTAAATGATGATTGTAATTTAAAATGTAGATTAAAAGGTTTTTCAGAAAATTCTTGTAAATTAACTTGTAATAATATTAATGATGATAAATTAAATATATTATTAAGTAAACATGGTTTTAGTAAGGGTAGTAGTGAATTATTTGGAACTAAAGATAATAGTTTTAAAAGAGAAAGCGAAATTAAAAATTTCTTAAAAACATGGTATGTTGCTCCATTAAATATAACTATTACTGATTTTATTGACTTTTCAGATTATACTTTTATTTCATTAATATCTTTAGATAATGGAGTTAATACATTAATACAACAAGCAGAAGATTTATTATCATATGAGGCAGATAGAAGTTCAATCAATATAGAAATAAAATCAATTATTGAAAATAATGGAAATATTGATGTTTCATATATACTAAAGGACGGCATTCGTATAATTAGTATGTCTGATCATTTAAAACTCAATAATGGTGTTTATTATTTTAATGATTTTAAAACATATAGTGATTTAGAATCTGATAATAAATACTTAAATAGTGGTGTGAATAATATATTTAATCACAGAATAAAATACAATGAAACATTTGCAATTAAAAATTAATAATTTTTTATGTATTTTATTTATTTTAATTACTTTATTTAGTTTTAATTTTGTAAATGCAGAAGTTGATTTTAAAATCAATTATGTTTCTCATACTACCCCTTTAATAACAGTCGATTTTCCACTTTATGATAATATTATTTTAGATGGTGTAGAAATATATAAAACTAAAAATAATATACTTTTTAAATTTGATAAGACGAACGGAATTAATAATTTTAAATATGTTGAGCAAGAGGGGAATATAAATTTTATAAAAATTAAATCCGATAATGCAATACTTCCTGGTGAGTATTTTGTAACAATATATGGTATTGATTCATATGGAAATAAACAAAATTATACTGAATTATTAATAGTGGATTTAATCTCACCAATTTTAGATACATTTGTTCCAGATAAAAGCCATTTTAAATTTGACAAAGGTCAATTAAATTTAATGTTTAATTTTTCAGAGGGTGTTATTTTTAATTTGTTTTTAGATGATCAATTAGTTATTCAACAAAATCCAAAAAGTAAATCAAGTAATGGTATAAATATTATTAATGATACTTATAGTTTAGTTTTTGAAAATAATAAATATTTTTTATATGGGCAATTACCAAATGGAGATCATAAACTTAAAATAGAATTTTGGGATTATGCTTTAAATGGAAAAGTAATAGAAGAAATTGATTTTTTTTCTTTTGATGGTAATTTTGATTTAATACCTTTAAATTTCCCATTTTATTTTATTAATAAAAGTCCTGCAATTTTAAAATATAATACTTTTGTTAATGTTGATTGTAAAATTTCAAAAACGGGGACTTTACAACAATGTCCTTTATCTGGTGAACCCGCAATATTAACTGGTGATAAAACTCATAGTTTTAATATAATTCATAATAAATTATTTTTCAATACTGATACATTTAAATTATGTTATTATTGTATGACTTCAGATGATGATTTGTATACTAAAGAAAATATATATACTCTTGACAATACAAAACCAGTTTTGAGTAGTGTAGAATATAAACCTGCAAGTAAAATAGTAATTTTAAAAAATGAAAAGGATGAATTTTCTTTTGAATTAAATATTAATACTGATGATAGTTCAATATGTAATTCTTATGATGTAAGTACTAGTAAACAAGGTTTAACTTTGGATTTCTATTTAAATCATGATTCAAATACGATCTCAAATTTATTTAAATCAATTCACAATATTAAATTTAATAATTTAGATGATAAAAAAACATATACAAAATATATTAAATGTATGAATAAAGCAGGTTTAATTTCAAATACACTTCGTGTTGATTTTAAAGTTGATTCTAGTGTGGTATTAGATTTTGAAATTAACAGTCCAAAAGAATTTGTAAATAAACAATTAATTGATATTCAATTAACTAGTAGTATGGAATCAAATTGTATTTATGCTACTGATAGTGGTACTACAATTAAATTAAATACAGAAAATAATTTTATTCATGCATCAAGTGTGTCTCTAGGTACTAAAAATGAATATAATTTTACATTTACTTGTCAAACTTCAACTCAAGAAAAAATTAAAAAATTAAAATTAAGGTTTGATAATAGACCTCCAAAAATACATAATGTCTTTTTTTATGATTCAGATATTGTAGAAAATGGAACTATTACAAAATTAAATAAATTAACTAAAAACAATATTGACTTTAAAATTAATTTTACAGATAATGTATTTTCCAATAATATTTTAATAAGTCATTTTTTAGTTAATGTTCCTACAAATATAACAAAAATAATTTCTAATAGTGATTTTAAAAATTATAATAAAAATCAAAAATATGAAATATCAACACAAGATTTAGAAAATGATATGGTTTATTATATTGGGCTTTTAGCAAAAGATCCTGCAAATAATTCTGCATTAACTCCTTTTTTTAAACCAATTATGTTTGTTAATAAACCATTTATTATGCCACCAAAAACATGTATTGATATTGATAAAGATGGATTTGGTAGAAATTGTCCAAAAGGTCCTGATTGTAATGATAGAGATGCATCTTTAACAAATAATTGTATTAGTACTTGTTTAGATAAAGATGGTGATGGATTTGGTTTAGGATTAACTTGTACTGGTTTAGATTGTGATGATACAAATAAAAGTCTTAATATTGCTTGTACAAATGGATGTACTATTGATATGGATGGTGATCAATATGGTATTAATTGTAATTTAGGTGATGATTGTGATGATACTAATAATTTAACTCATGAAAATTGTTTAACTAATTGCTTTAGTGATATTGATGGTGATGGTTATGGACTTGGTTGTATTTTAGGTGATGATTGTGATGAAACAAATATTTTAATTCATAAAAATTGTGCAAATGGTTGCTTTAGTGATAATGATGTTGATACTTATGGTGAAGGTTGTGACGCGGGTTTAGATTGTGATGATACTAATAATTTAATTCATGAAAATTGTCCAAATGGATGTATACAAGATGCTGATGGTGATGGTAATGGTTTGAATTGTACCGCCGGTGATGATTGTAATGGGAAAAATCCATTATTGGCTGAAGTTTGTATTGAATCTGGTTGTGTAATAGATTCTGATGGTGATAAATATGGTTGGGAATGTACATTAGGTCCTGATTGTAATGATTTAAATCCAACAATTCATTATGGTTGTACTAATTTATGTGTATATGATTTTGATGCTGATGGTTTAGGACTTGGTTGTAAAAATGGTCCTGATTGTGATGAAGGTAATATTAACTTTTTTGCAAATTCATGCCAAAAAGATTGTAAATTTGATGCTGATTGTGATGGAATTGATGATTCATGGGAAAGTATATTTGGAAGTAATCCAAATGTAAAAGATCAAGATAAAATTATATTAGGTTTTGATAAAAAAAATATTGATATATATAGAAATTATCCTATAACTCCTCCTGAGCCAGGAACTGAACTTAAAAATCAAACAATAAAAAATCAAACTGTAGTTCAACCATTAGTTGAAGAAGAATTTAATCCAATTTGGTATATACTAATAATTGTATTATTATTTATTATTTTAGGCGCGGGTGGTTATATGATTTATAGAAAACAAAATCCTCCTGAAATTAAACAAACTTATAGTGATACTCAAAATGTTCCAAATTTAAATAATAAAACATCAACTAATTCAATTAATAAAATTTTTAATGAAAAACCAATATTTTCAATTCCTAATATTTTAGAAGGAGATAAATTAAAATCTAAATGGGAAGAAGAAATCTTAACTGAACAAAAAGAAAAATATAAATCAAAATTAGAAAATAGAAAACAATTATTTAGTAAATTTGTAAATCGTTTAGAAGAAGAATTAGAATCAGTTAAAAAAGAAAAGAAAGTTGATTTTAATAAAGAATTTGATGAAGGTTATTTAGATTTAAAAGATTTAGTTTCTGGTAAAAAGAAAAAATCTGATTTAAAATTACCAAAAAGTGCTTTTATGAGTTTAGATAAAATGGTTCAAAAGCATGGTAGTAAAATTAATTTTAAAGATTTAAATAAAATAAGTAGTGAAAATAAAAAAGTAATTTTAGATTTAATGAAAATGGATTCTAAAAACGAATTTGTTAAAATTGATGATATTAAAAAAGAAAGCGACTACACATTAGATAATTTACAAAAGGCAATAGATGGTGCAGGAATAAAATTAAAAACTAATCCTGTAAAAAAATTATCTAAAATTATTAATAAAAATAATGTCAAATTTGACAAAAGCTCAGTTAAAAATATATTAAACAAATCAAATCCTAATTTGAAAAATACTGATTATAATAAAATATTATTTGAATTAAAAAATATAGTTAATTCTGATATTTCCATTAATAAAAAATCAATAAATAAAAATAAAAAAAAAGTGGTAAAAAAATGAAAAAAGGTCAAATTAATTTAGTTTTTGCATCCATTATGGGAGTTATTATTATAGGTTTATTATTTGCACTTGCATATAGAGGGATTGCAACTATATTAGATGAAAGTGATAATAAAAGAATTCCAATTTTAGTTTCTGATATAAAAGGTCAAGTTAAATCACATGCATATGATTATGGATCAACTACAAAAAAAGGTTTTATTTTTCCAAATTCAATTCAAAAAATGTATTTAGTTGATTATAATGCGATTTCAAATTGTGGTGGTATTGATACTTCGCTTCCTTTTCAAATTAGTAATATGATTAAAAGTGAATGTAATGCCCAGATTGAAAATCATAAAAAAAAATCACTTATTTTAAATGGAGATGGTTTTTTTAAGGGATTTGATATTGGTGAATTAGAATTAGGTGATATTGAACTATCTATTGATTATGCAGAAAAATTTGGTGATGGTATATTATCTATTGATTTAAAAAAACAAATTGAACTTGAATTTGAAGGAATTTCTTCAAAAACAAAAATTACTATAAAATGAATTCCAAAGGACAAGTTGCTCAAGCTGCAAAATGGATTTTTGTTGTAATTATTGGAGTGTTTTTATTAGGTTTATTTTTTAATATGATTTTTAAAAATGTAGAAGATTCTAAAAATGAAAATGAAAGATTAATTTTGAGTTATCTAAATACTTTTATAACAAATACAAGAATTAATCCAAATTTTCAAATACAAAGAGATTTAGATAAAAATGTTCAATTTGAAGTTGATTATAATGATTTACTCATTGGAAAAAATAGTCGATCTATATCTGATGTAGTATTATATAGTCCAAAAAATTTTGATACAAAAAATATTATGGGAAATTCAATTCCATTTAAATCTCCTTTTTATTTAACGAATATTTTAACAATGTTTGATCAAAATAAACAATATGTTATTGTATATGACTTTCCTAAAAATGGACGTTTATTTTCTCTGTTTAATAACACAATTCCCTCTTTTTTAAATGTTAAAATTTATTATGAGGATGATTTTGATAATGAAGAATTAAATTTATTTGATTCAGAGTTTTCAGAAATTTTATTTTTTACACAAAAAGAACAATATATTCCTAATTATCCTAATATTGCTGATTACAAATATAAAACATATACAAAATTTGCATTTGGTGATGATAGAAATTTTAAATTTGCAAAAGTAAGTTTTTATGATGATACTAAAATCATTCCATTAATAGATAAAAGTATGTTTATTGGTTCAATTGCAAGTGATGATTATAATGAATTTTTAAAACAAACAAGTAAATTAATGCCTTTTATGAAAAGAATTTTTGTATTACAATATAATAAAACAAATGAATTGATTAATACAAATGGTCGTTGTTTTTTAAATTATCAAAATATACAAAATGAATTATTAAAACTTCATGATAAAATTAATACATATCAAGATTCGGTTTTATTTGATAATCAGAATATAATTGATTTAATTTATTCTATTCAAGAAATTGATGTTATTGTTAAGCGTGAAAATGATGAAATTAAAGGGAGATGTTCGAGGGTTTATTAATGAAAAATAAAGGTCAATTTCAAATGATGGAATCTGTTATGTTTTTAGTTATTTTTATTATTCTAGCTGCATTTTTAGTTGTTTTATATTTTACTTTTTCAATTGATAGTCAAAAAGCAGAAATAGAAATTGCAGTTGATAAGGATAGTATAGATAAATCTCAAATTATTTTTAATTTACCGGAAATTAAATGTAGTGAAAAATATTCAAATGTAAATAATTGTATTGATTTATTAAAATTAAAATATTTAGAACCTATTTTAAAATCAAATAGGGCTTATTATTATAATATATTTGGAAATGTTAAAATTGAATGGGAATATATTTATCCAGATCTTCCTGGTGTAAATGTTTTATTTGATAGTGAACCTGAAAATTATTTAAGAAAAAGACCGACTGAATTGCCAGTTAATATATATAATGTTAATACTAATACAATGTCATTGGCATTATTAAAAATCACATATTATAATTAAAATGAAAAAAGGACAAACAGAAATAGTTGGATTAATTTTTATTGTATTATTTGTAATTATAATTGGAAGTGTATTTTTATTAGTTTTTTTAAAATCAGGTGATGATACTTTTAGTAGGTCTGAAATAAAAACATCAATTCTTGCAAATAAATTTTTGGCAACTTTAATTGAAACTGAAATTGAAGAGTGTAGTAGAAAATCAATAAAATCAATAATTAAAGATTTTTATGAAGGGGATACTCAATGTTTAGTTCCACCTTATGATACTTCAGTAAATTCTAAAGAATATTTGGAAGATAATGTATTTCCCATTATTTTAACTAAAATATTTTCAGATAAAGGAAGGGCATATAACTTTTCAATTACTTATGTTAAAGGGGGAGTTGAAGAACCGCCATTTTACTCAAGTCAAGGTAATTTTGATAAACAATATAGTACCATAAGAAAAGCAGCTCCATTTATCATTCCAATGGATAATCCTCAAAATAAGATTATTTTTAATTTAATTACTAAAACTAATTAAATTGAATAAACTATTATATATAAATTTATAAAAATGTATTCATAATAAAAAATATGGCTTGCGATATGTGTGGAAAAGCTGGTAATTTTGAAGAATTTCGATTAGAAGGTGCAAATTTAAAATTATGTTCTAATTGTAATAAGGGTGGGACAAAAATTAAAAAAAACTTTGCTAATCTAAAAAGTAATTCAAAAGGCTATAATAATAATAATAATACTAATAGTTATTCAAATTTTGTTATTAGAAAATCAGTTGTTCCAAATTTTTCTAATTTAATTAGGAATAAAAGAAATTCTCTTAATTTAAATATTGAAGAATTTGCTTCTTTAGTTAATGAAAAAGCTACATTTATTCAAAAATTAGAAAGTAGTAAGTTAACTCCAAGTATTGAAATTGCACAAAAATTACAAAAGACATTAAAATTAAAATTATTAGATGAAGATGGTAGTGATAATGAAGATAATGTATTTGTTTCAAAAAATGATGATGATTCTAATGATTTGACTTTGGGTGATTTTATTAAATTTAGGTGATTTATGGGAGTTAAAATTTTTGATCTTGTATCTAATAAAAATTTGGAAGTGAAAGATTTAAAAAATAAAATTGTGGGAATTGATGCATTTAATGTATTGTATCAATTTTTATCTTCTATAAGAGGTTCAGATGGTGCACTTTTACAGGATTCAAATGGTAGGGTAACTTCACATTTATATGGCTTATTTTCAAGAACGATGAATTTAATTACTGCAGGTGTAAAACCAGTTTATGTTTTTGATGGGAAAGCGCCAGATCTTAAATATTTAGAACAAAAAAGAAGATCGGATTTAAAAAAAGAGGCTTTGAATAAATATGAAATTGCAAAACAAAGTGGTGACCTTGATGAAATGAAAAAATATGCATCCAGAACATCTAGATTAACACAGGAGATGATTGAAGATGCAAAACTTTTAATTGATTCAATGGGTGTTCCAATTGTACAAGCACCTAGTGAAGGGGAAGCTCAAGCAACGTTTATGTGTAAACAAAAGGACGTTTATGCAGTTGCTAGTCAAGATGGGGATTCTTTATTATTTGGGGCTCCAATATTAATTAAAAATTTAACTTTAAATAATAAAAGAAAAGTTTCTGGGACTCAATCTTATGTCGATATAAAAATTGAACAAATTGAATTAAAAACAGTATTATCTGAATTAGAAATTAGTCAAGATCAATTAATTGTTTTGGGTATTTTAATTGGAACTGATTTTAATCAAGGTGGTATAAAAGGTATTGGTCCAAAAAAAGCATTAAATTTAATTAAAAAACATAATGAAAATTTTGAGGCATTATTTGAAGAAGTTAATTGGAATAATTTCTATGATTTTTCATATAAGGAAGTAATTAATATTTTTAAAAATATTAAAGTAAATTCAGAATATAGTTTGAAATTTAATAAACCTAATAAACAAAAGATAATAGAAATTTTGGTAGATAAACACAATTTTTCAATGGATAGGATAAATAGTACTTTTGAAAAATATGAAAAGAAACAAGGTGAATTATCTCAACAAAATTTAGGTGCTTGGACTTAAAATGAATGATTATAATGGAATAAAAACAAAATTACTTCATGCAAATTATCTTAAGGATTATTTAAAAAATAATAATTTATTAAATTTAAAATATTTAAGTGAAAAGGAAAATAATTCTATTATATTTCCAATAATTAAAAATTTTAATTTAAACAATTTAGATTTTGATTGTTCTTTTGTAAAATGTAATTTTAAGGCTAAAATTATGAAAAAAACATATAAGGACTTAGTTTTACAAATTATACCTTCTGAACTTTCATTTAAATTCAATAAAGCATATGATATTTTTGGAAATATTGCTATAGTTGAAATTGAATCCGAATTAATTCCATATGAAACTGAAATTGCAAAAATTTTAATTGAATCAAATGATAAAATTAAATCTGTATATAAAAAATCTGGTGCTTTTGAAGGTGAATTTAGAATTCAAAACTATATTTATTTAGCTGGTATTGAAAATGAGCTTGCTGAACATTGTGAAAATAATGTTAAACTTAATTTTAATATTGGTGATTTGTATTTTTCTTCTCGTCTTTCAAATGAGAGAAAAAGAATAGCAAATTTAGTTAAATTAAATGAATCTGTTCTGATTATGTTCTCTGGTTGTGGTCCATATACATATACTATTGCAAAAAATTCATTTGCAAATAAAATTATTTCGATTGAAAAAAATCCAAAGGCATGCTATTGGGCAAATATTAATTTAGATAAAAACAAATTATCAAGTGATTTTATTAAAGAAAAATATTTGAAAAAAAAAGAACATTTTGATAAAATTAAATTTAAAGGCCCATTACATGTGGAAAATCATTGTGGTGATGTTCGTGAAATTATTCCTTTATTAAAAAAAGAACATGATTATTTTGATAGAATTATAATGCCACTTCCCCATATAGCAAATAATTTTTTAGATATTGCTCTTTTAGTTGCAAAAAAAGGTACCATGTTTCATTTATATGACTTTATGGATTTATCAGAATTAGAAAATATTAAATTAAAAATTAAAAAAGAATGTAAAATTCATGGATTTGATATTGAAATTAAAAATATTGAAATTTGTGGTGAGTTTTCTCCTAATATAAAAAGAATATGTATTGATTTTTTAATTATTTAAAGGTTTACTTTTTAAATAAAACAATTAACTTAAATTTGGCAATGATGATCTTTACCCATCTGATTAATGATGAACGGAAGTAACTTCTGAGCCAATTATTTATTTTTAATTTCTTTTTGATATTTGTGAGATTCTTTTAATATTATTTTATATAATTTATTTAGAAATTCAGGTCTTAAATTATGTTCATTTGCTAATTGATTTAATTTTTCAAATATTTCTTTTTCTCTACTTTTATCTTCAATTTTATTTTTATATTTTAACATTTTTTGACTAATTAACTTTCTTTTTTTTAGAAGTAAAATAATTTTCTTGTCAATTTTATCGATATCAATTCTATATTTTTGTAACATTTTAAAATAAATTAAAAATAAAATTTAAAAAAACATTTCGTGTCTTTTTTCTTTTTCTTCGTCTTCTTTTACTTTTTTAATTGCTTCAACTAAATCTTTTTCAATTATTTTGCTTCTTTTTTTTCTAATTGCATTATAACCAGATTCAGTTGCAATTGAATGTATTTCTGCTCCAGAAAATTCTTCTTTTTGTATTAATTTGTATATTTTTTCAAAATCTATTTTTTTATCTAAGTTCATTTTTTTTGTATGAATTTTAAATATTTGTTTAATACCTTCAAAATCTGGATTTTTAACGTGAATCAATCTATCAAGTCTTCCAGGTCTTATAATTGCTGGATCTAAAATATCTTTTCTATTAGTTGTTGCAATTAATTTTACATTACCTAATGGTTTAAATCCGTCTAATTCTGCAAGTAATTGCATAAATGTTCTTTGAACTTCACGCTCACCACTAGTTCCTTGTTCAATTCTTTTTGAAGCTAATGCATCAATTTCATCAATAAATACAATAGCTGGTGCTTTTTGTTTTGCTAATTGAAATATTTCTTTAACAATTTTTGCACCTTCTCCTATAAATTTTTGAACTAATTCACTTCCAACTATTTCAATAAATGTAGATTTTGTAGCAGATGCTACAGCTTTAGCAAGTAATGTTTTACCAGTACCTGGTGGACCGTGTAATAAAATTCCTTTTGGTGGTTGAATTCCAACTTTTTCAAATAATTCTGGTTTTGTTAAAGGAAGTTCTATAACTTCTTGTAATTCCCTAATTGTATCTTTTAATCCCCCAACATCTGACCAATCAATATTAGGTTTTTCCATAATAACAAATTTTTCAACTCCAAATGAACTTGATCCATTTATTTTTTTAACAATGTTTAAATTTTTCTGTTCAACTAAAACTGCATCACCTGGTTGTAATCCGATTACGTCTTTACTAATATTAACATAGAATTCATTTCCAGTTTTCAAATGCAAAATTGCAGTATCACCTAATACTTCTTTAATTTCTGCAACTAATAATGGTGCTTGTCTTAATCTATCAATTTCTTTTTTTAAATGTAAAATTGTTTCTTTTAGTAATTTAGTCTCATCTTCTAACTTTGAATTTTCAATATTATATGAATAAATTGCTTTTTTTATTTCTTCAGTCATATTTACTTAATAATTTTTACATTTATAAAATTTTTCACTTTTTTTTCATATATTTTTTATAGTATATTTTATAAAGCAAAATTGATATTTTTATTTATGATTAGTTTTTATAATTCAAAACACAGTAAAATTTATTTATTGTTATTTTTTATATTAGCAAGCTTTTTATTTAGTTTAGATATTTCTTATGATGAAAATTTAATTGCATATTCTGCTCAAAATTTATTTGCAAAAATTAATTATGATGATGTTTTAAATGGAAATTTTATTGTGGAAGTTTCTAAAGATTTAGAAGATTCTAATATTATTAAAGTTCCAATTAATTTTAAATCAGATGATTTTGATGAAGAATATTATTTTTTTAGGGATAATATATTTTACAAGTCAAAAGTAAACGGTTTTTTTTCAGCTACAGAAACTAATGAATGGAGAAGATTTTATACTCCAATAAAAGATGAACAAACTGTTGTACTAAATGTACCTAGAGATGATTTAACTGGTAAATCTTATTTAACAATTGGTACTTATTTTTGTAAATGGCAATCAGGTGATTGGTTATGTTCATGGAAATATTTCAATTTAAATTATAATTTAGAAGAATTAGAATCTTTTAATAAAAATTTATTAAATTTAAATTCTAAACAAATTTGGAAATCAAGTAATGATGATTGGGATGTTGTTTATTGTCATGAAAATACAAAATATGATGGTTCAAAAATTTGTGATTGGCCTGAAGCTCAAGATTTAACTGGAACTGATTGTTCAGATTATGAATTGGGTTTAATAGTAAAAACATCATATGAAGTTGGAGATAATTTTGAATGTGTTAATAATGAAAATTATAGTGAATTAAATATTGAAATTGAAGAAAACTATAATGAATTAGATGTTGAAATTGAAGAAATGGATATGGACAATTTACCAAATATAAAATAAATTATATTTAAAAATTCTATTTTAAAAATATTTTGATACAATTATTTTATAATCCCTTTTTAATTTTAATATTTTATGATGGGGAAAACTCACATAATGTGGGGTGTTTTTTGTGCTTTGGTTTTTTATTATTTATATTCTGATTTATTTTTAATTTTTAGATTATATGAATTAATTTTAATTTTTATATTTGTTATTTTTGGCTCAGTTTTGCCAGATATTGATCATGGTAAAAGTATTGTTGGTAGAAAAATAAAAATTATAGCTATTTTATTTGAACATCGTGGTTTTTTTCATTCAATTTTGGCTATAGTGATGTGGTATTTTTTATTTTTATTATTATTAAATAAAATTTATGTATATGCAATATTATTTGGATATATTAGTCATTTATTTATAGATTGTTTTAATCATTATGGTATTAGTCCTTTTGCCCCTTTTAATAAATTTAAAATTAAAGGCCCATTTTATACTAATGGATTTGTGGAAAAAATATTTTTTTTAATTCTTAATATATTTAATATACTTTTATTATTTTTATTGGTTTTTTTAAATATTTAATTGAGCATATAATGATTTATAAATTGTAAATTTGTTGGTTTTTTTATGGAAACTTTGTATGGAATTCAGCAATCTAGTGAGGATTTTATCCCTTTAGATATAAATTCTGAATTTTCTTTATTTTCATTAGATGAGCGAACTAAGAACTTATTTAGTAATTATTTGCACTCTGGTAAAACTGATTTTTTTTCTGAACATACTTTAAAATTAAAAAATTGGGTTTGTGGTATGGATTTATTAAATTCATATTTATTAATTGATATTTCTAAAAAAAGATATGATTGTGTTTTATTTGATTCTTTAGATGATTCCATTTTAACTGAAAATTCATTAAAATCTATGGTTTTTCCTTCAGATGAATATTCTTTATTAAATGATAATTTTAATAATTTTTTAAATTCTGAAAATAAAATTTCAAAAGATGAATTAAAAAAATATTTATTTATGTTTAAAAGAACAATTAGGGAAATTACTAATGAAACAGATTTGGATTATAAAGATCAAAGAGTTTTATTACAAACTTTTGAAGAATTAAATTTTTCTAAATTTTTTAATTCTGATACACATAAATTATTTGTATGTTATTTTTCACAAAGGAAACCTAAAAAATTAAACTTATTGATTCCTACAAATGTATATTCTGCAAATGCAAGAAAAAAAGAATTAGAAAATATAAATTTGGAACTTGAACATAATTTAAAATTTTATGCACCTCAATATTTTAAAAATATGCCAAAAAGTAGTGTTTTAGAACAAAGAAGGTATTTTGGTGGATTAGAATTTGTACGTGCTATTAGAGGTGGAACTGCAATAGCAACATTAGGTATTAAAACAAGAACTAATCATGAATTAATTCATTATAGTTATTCTTTAAATAAATTGTAAACTTTATTTAAATTTATTTCACATATTGCAACAGGCATTTCTAATTTAAAATTAATTAATACTTTTGGCTCAATTTCTCCAATAATTCCAATTTCTTCATTATTTATTATAATTTTACCACACCTACCATTAAGAAAACTTTTATGATTACTTTTTTCAATTTTAGCATTTTTAATATTTAATTGTAATATTAAATAATCAAATATTTGTTTTATTTGAGTAAAGCTAATTTGCGTATCACATATACTAATCGCTAATTTTTCAAATTCTTCTATATTTGTTTCAATTATTTTATTATTTTTATGATATACTTTTTCAATTCCAAATATATTTTGAGGATATTCTTTATCTTGATTTTTTTGATATACTTCTAATAAACAAGGACTTAGCCAATATCTTAATGCATCAAATTCTTCAGTTAAATTATTTTTTAAAAGAATGATGTCATAATTATTTAATGAATTTTCATTTTGGCTTTTACTATTTACTATATCAAATGTTTTAGTTTCAATCAATTGTAAACCTATTAATATTTTTGCAACTTTTCTTTTAAATAATTCAAATTTACTTTCTTGTCCAATAGTTGCAATATTTGGTATTTTTGATTCAAAATTGTCTGTTCCATATTTTTTAATAATATCTTCAACTAAATCGATTTGATGTAAAATGTCTGTTCTATATGGAGGAATTAAAACTTTATCTTTTTTTACATCATGTCCCATAAATTCTAATAATTTTTTAACTTCGGATTCTTTCAAATTTAATCCAGTTATTTTGTTTACATAATTTAAATCTAATTTCATTTCTTGTGGTTTAAAATTAGGGCTAATTATTTTTTTATTATCGGTAATTTCCATTTCATAAATTTGTCCACCCATGTCTGATAATGTGGTCAAAACTAAATTTAATGTTTTGGAACAAATATCAAAATCAAAGCCAGAGCATTCAATAAAAATATCAGTTGTACCAATTTCAACACAACCAATATCTTGACTATTAATTAAAGGTGGCATGGAAAGTATTTTATTTTTAGAGTCTACAAAAAGTGGATATTCATTTAAATCTTTTAATAAATGTGCAAATTCTTTACATTTTGAATGATTTTTTAACATATCTTTAGCACTCATTTCTTTTTTTGATTCTAATGGTTGAAATTTAATTTGTTCTTTTTTTTTTGCTAAATATGTGATTGGAAAATTTATTTTTTCTAAAGGATAAATTCCAATTGCAACTTTTTTTCTATTTCTTCCCCAACTTACATGTAATTTTTCTTGTAATTGTATAATTTCTTTTATTTTAGAATCTGTAAAGTTTAAATTTTTAACAACTGCACATGCAGTATATGGTCTTACTTTTTTTACTGATTTATCTACTATTAATTTATAGTTGGATTTTTTTACATTATATTTTTTAAGTCCTGAATCTAATTCTAAAAATTGTCTAAATGATCTAATAAAACCATCAATTGATAACATATCAGGTCTGTTTGGAAATACTTCTACATGGATTTCATCTTTATCCATTTTATCTAAATCAGTTCCAAATAAAGCAATTTTTTCTTTTAATTTATCTTCACTTAGTTTTAAACCTAGTTTTTTTTCAAATTCTTTTCTGTCAATTATTATAGTTGGCATTTTCTTTTATTTAATGAATGTTCTCATATTCTTGATTTGTTCTAAATCATTTTTGTAAATATCTCTTAAGTCTGTAATATTAAAATAAGATGTAATTATTCTTTCAAAACCTTGTCCCCATGCAAGAACTGGGCATTCAAAACCTAATAATGTTTTTGTTACTTCCGGCCTAAATATTCCTGCACCACCTAATTCAATCCATGAATTTTTTTCTTTAACAAATACTTCAATTTCAATTGATGGTGATGTATATGGAAAATATGCAGGTCTAATTCTTATTTTATCATAGCCCATTTTTTTATAAAATTCTTTTAAATAACCTAATAGATTTTGAAAATTCGCATTTGGATCTACTACAATTCCTTCTACTTGAAAAAACTCAAATAAATGTTTCCAATCTAAGGTTTCATTTCTAAATACTTTATTAACACTAAAATATTTTTTAGGTAAATCTTCTTTTTTTAATTCTGATAATTTTTTTGCACTAAGTATTGTTGTATGAGTTCTTAACATTAATTTAGATGCTTCTTTTTCTGACCAATTATATCTCCAACCAATTGATCCAGTATTAGCGCCGTTTTCATGAACTTCTTTTACTTTTTTTGATATGTCTTTAGGTAATGTTCCTTTTGAAGGATTATCAATATAAAATGTATCTTGCATTGTTCTGGCAGGATGATCTTGTGGTACAAATAAACTATCTAAATCCCAAAATGCAGTATCAACACAAGTCCCTTCAAGTTCTTCAAATCCTAAATCAGTCCATATTTTTTTACAATACTCAATTGCCTGATTAACAAAATGTTCTTTTCCACCACTAATTTTTGGTACATTTAATGAAACGTCATAATGTCTAAATGTTTTATCTTTCCAATCTCCTTTTTTTAGCATATCACTATTTAGATTCTCTTCTAATTTTATTTTACTCAAATCTTTTTTTATTAATTCAAATCCAATTTCACTAATTGTAATTATTTCAGTTCTTTTTACTTCTTTTTTTAATATTTGTTTTCTTTTAAGTAAATCTTTAATCAAATTTAATTCATCTTTATTTAAACTATCTTCATTTTGATCAATTTCAATTTTTTTTAATAATTTTATATATGGATTTTGTTTATTTTTCAAACCAGCTTCATTTGCTTTAATTTCAATTCCATTTTTTCCTTTTTGTATCTCAACAAAATTTAATTTTTTTAATTGTCCAATTGTTGTATTTACTTCTACAGGATCAAATTTAATTTTTTTAACTAATTTATTAACATCTTCAAATTTATTTGTTAAAGATTTTAAAAATATATATTCAGGTAAATCTGTTTTTACATACTGTTTTCCATATTTTTCAAGAATTATGATATTTTCAAATGTTTTGTTTAAACTTAATACTCCTTTATTTGATAACCATTGTAAAGCTCTCATAACTTCAACATCTTTTAATTTAGATTTAATAATTAATTCTTCAAAATTAATGTCTTTCTTTAAAAAAAGTGCTACTTTTTTTTCTAATGGATGAAGACTATTTATTATTTGATCAATTTTATTAGATTTACTCATATCTTTCTTGGTTATATTTATTTTATAAGATTTTGTTTTTAATTAATAAAAAGAATTAATTTTAATAAAAAAATTGTAAAATAAATTAATATTTAATTATTTTAATGCAGCCTTTGCAGTTTTCATGCCTTTAAAATTTTGAGTAAACATTTTATCCATTGCTTTTGCAAAATATGGTGAATTTGAATGTATTCCAATATCATTTTTTGGATGTACTTGATCATTATCAAGAACCATATATGTTATTGCTTTTCCATCAATTACACTAAATCTGGCATTAAAATCTTTTGAATCTTTTACTTCTGCATATTTTGATAATGATGCTACAGCATCTTCACAACTTTTATTTATTGGTGCTGCAATTCTAACTTTTACATTATTTTGTTTTGCAACTTTTAATGCTTTTTTTAATTCTTCACTTTTTTTAATTAAACCAGTAGAACTAGTAAATAAATTTACTGAGCTTTTTGCACTCATTATTTGTTCAGATAAATGATCTAAAATATTTTTCTGTCCTGTAATTGCAAGTGAAACTTCAGAAGGATTAATTGTTTCAACTCCTTGTGTGTGTAATAAATTTAATTCTTTAATTACTTTTGATTTTTTTAGGCCTTCAAGTTTATTAATTGACGATTCAGATTCTTTAACTACTTGTCTTTTCAATCTTTCAATAACATTTGATGGAGCAATTGCAACAAATTTCAATGGTTTACCTACTTTTTTTATAACAAAACCTTTTTTTGCAAGTGTTTCTAAAACATCATATGCTCTTGATCTTGGAACATTCCCAATATCTGATAATTCACCAGCAGTTGATACGCCCCTAGATAATAATGCAGTCCATAATTTAACTTCATATTCATTAATTGAAAATTCTTTTTGTAAGTCTTGCATTAAATCCCTATCTATTAATAATTCTTGATTTTTAACCATGATAAATCTACCCCCTAACTTTTTTTTATTACTACTCATTAATAAATATTTCTTTTTACTTTTTAATATTGTTAATTTTTTTTGAGTAAATATTTAATTTTTATTTAATGTTTTTAGTTTTACAGAATATAGCCAATATATAAATAAACTTGTATTAAATTGTATATTTATATTTTATGATTTTATATAATATCTTTTATTAAATTATATTTTTCATTTATTTATATTGTATAATTATTATGTATTATATATTATGAATCTTTTATATGTTGAACTTTAATAATGCACAAATGCCTCCTATAGCATCTATTTTTTTTCCATTTTGTTCTTTTGAATTTATGATTTTTATATTTCCTTTTGTATTACTTACTTTTTTTAAAATATCATTTATTAAATTATATTTTTCTTTTTCTTGATATTTAAAAATTAAATTATCACTTATTATTAATGTCTCAATTGCACCACTTTCTGCAGCTAATTTTACATCTTTATACCCATAACAAACTTTATTTTCTTTTGATAATCTTAATAAAAATTCTTCAATTAATTTAACATTTTCAGCTATATTTTTATTTTTTAATATTCCTTTTAATTCTGGATTTTTAAGTATTTCATAAACTCCATTTTGCGTAATAGAATTTGTTGTAGTAAATGTTGTAATTTTATTTATTGATTCACCTAATTGTTTTTTTATTTCATTAGCAAATATTTTACTACATCCAATTATAATGTGAGTAATTTTTCTATTTTTTTTAATATCTTCAAGAGATTTATTAATATCTTCATAAAATGTTGATTTTATATTAATTAGTCTTTTATCTTTTTTTGCGACTTCACCAGTCAAATTAGTTATATTTTCTATATTATTTTTTCCAATAATACATAATTTTGCAGTTTCTCTATCTAATAAACAAATAAGAATATTATCTGTATCTGGTTTTGTTGCTTCATGGATTTTTTCTTTTTGATAATCCCATATTTTTAATTTAAGTAATTCAAATATATCATTTATTTCTAAATTTATTGATTGATATGTTCCATTAGGTATTTCATTATATTTAGATTCACAAATTATTCCATTTATTTTTAAAAAATGAGTATTTTTTTCAATATTAATATTTTTTACTTTTATTTTAATATGATATTTTTTTTTAACTATTTTTGACTTTGCATCTCCATTGGAATCATTTGATAAATTGATTTTTCTATATGTACTTGCCATTATATAATCTTCTTCACTAATGATTTGTGATAAATACCAAAAATCTTCATCACTTGTAACCTGTATTTTGAAATAATTTTTATCTTTATTCAATATTTTCATAGTTTTTTATTTTTTATGCAATATTTAAATCTTTAGCTAGTAAACCTTTATAAATGAAAAAAAGTAATTTTATTTAAGAGAATATAGAGGGAATTTTATGAAAAAAAAAGGAACTGCTGGCATGGCTGCTTCATTAGTTGGTTTATTAGCATTATTAATGTTAATGTATCTTTTTGTAATTCCGCCTGAATTTAGACAGGCATTATTAGAAAATAATCAAGCTCCTATTGATGGGGACGGTATTGATGGTAATATTAATAGACCTAATTTTGGAAATGGAGTTATTGTTTCAAAATTTATAGGCGAATTAGATTTTACAGCTGATGATTTTGTTGGACATTTTTTTCCGTCAATTAATTTGATTGAAAAAAAAGAAATTGAAATATTTAGTCAAGCAAGTTCTGCTTTAATAAGAAGATCTATATTTTCAAATGAACCTAGATATTTTACATTTAATTTAGATAATCCAAAATCTGTTGAAGATATTAAATTAGGTTTTGCAATTTCAATAAATAAAGGCACATTAAATATTATTTTTAATGGACAATCAATTTCTGTAATAAATGATGGTCAAAGTAAATTAATTGATATTCCACCTGAACTTTTATCAGAAAAAAACGTTGTCGAATTTCAAGTTAGTAGCCCAGGAATATTCTTTTGGTCAACAAATGAATATTTAATTGACAATTTTAAAATAATTGGAAATGTGGTTAATTCAGAGGGTTTAGAAGCACATTCAAATTTTATTTTACAAAAAGCTGAATTTAATAAATTAGAAGAATCTGCATTGAGTTTTTATGTAGATTGTGCAAAAGTAGATTCACCTTTAGAAATTGAAGTTAATGGAAATAATATTTATTCATCCATTCCTAGTTGTGGTGGAAGTTTAGGAAAAATTGAATTTGAGCCTAATTTTTTAAAAGAAAATTCTAATGAATTAAAATTTAAAACAAAATCTGGTAATTATTTTATTGATAGAATTCAAATTAGAAATAAATTAGAGGAAAGTGATAGAGTTATTTTTTATTTTGATTTAACTAAAGATGAATTAGAATTTATATTAGATAATGCTATTGCAATTGCAAGAGCTGAATATACTGATGATTTTGAAGATAAAGATATTGCTGTTTATTTAAATGGACATTTGTTTGATTTAAATACAAGAACTGATTTTTCAGAATATGATGTTACACGATTATTATCTGTTGGAATAAATTCTGTTGAAATTGTTCCACAAAAAGATGGCATTAATATGAAAAAATTTGAAATTTATATTGCAAATGAATAAAATATGGTTTATGATTATACATATGGTGGTGGAAGAAGACCGAATTCAGATACGACATTAATTTTTATTATTTTATTTATTATTATAATAATATTTAGTTTTTATTCTTTTATTAGTCAACCAGGTACATTTTCTCAAAAAACTATTGGTGTAATGACATCAACTATTAATTTTTTTGTAGATATACCTATAAAATTGAGTAAACTTTTTAGTGATGCTTCTGACTCTGCAAAAAGAAATATTGCAAATGTGGATGTTAATTTGGCAACAGGTAAGGAGCAGATAGAAGGCACTGCTGATGTTTTAAAAGATGCCAAATATATTGGTCAATTTAAAACTGAAAAAGTTAAAATTCCACTTGGTTTTGAAATAGAAGCAAAATCAGATAGAGTTACTAGTGTAGATGGAAGTTTGGAATATAATGTACGGCCAATTTTTCCAAGTTATATTATTGACAAATTTATTAATGAACCAATTTATTTTTCATGTAAGCCATTAAATGCAAAAACATCTCAAAAATTTCATGCATGTCAATCAAAAGTTGATGGTGAGGACTTAGTTCTTGTGGATAATTATAATAAACCATTTGATTTTAGATGTAATTTTTTTGATTTAACTAAGGGTTTAAAATCTTTTTATATGAAATTTGATTTTCCAATGAGTCAATTTGGTTATAAAGTATTAAGGATTGTAAATGATCCTAAGGGTTTAATGAATAGAAAAAATGATATTGAAGATTATGTAAATAAAGATTTATTAGAGGATTCTATACCAAAATTTTCTCTTGCAAAAAATTCTGCAGGTCCTTTAGATATACAATTTGATATTCCGAATATTTTATCTTTTGATATTAATCAAGATGGGAATTTTTTAGAACTATCAAATAAAGTTGAAATTAAACTTATGAATTTTCCAAAAGGAAATTTAATTGGGGCTGAACTTAGTTTTCCTAAAGATAGTTATATTAAAGATTTTAAAAATTTCATATTGAAAGTTCCCACATATGCAAAATTAAACTGTGGTGATAAACAAACTATTAAAACTTATGTTAAAACTGAAAATAATCAAAAATTGAATTTTTATGAAATGAATATGGATTATATTATTGATAATGGTAATGGTATAATAAAACAAGATCATGTGTCAATTTCTTGTAAATTATTTGTAGAAAAATCATATTTAATTGAAAATAATTATAATGTTCACTTAAATCTACCAATATTATTTGAAACAGATTACCAATATTTTTTAACACGTTCTGAAAAATTTAATGTTATATATGATTTAGATGGTGAAAGTAAAAAAGAAAGAAAATTCTATAGGGATATTTTATTTTCAATTGGTCGAGGTGGTATTGAAAATACAAATGTTGAATTGACTAAAGATCAAATAAAATTTAAGAATTATTTAATTGAAAAAGAATATGAGAATGTAGATAATCGTGTATCTTGTATTTCTATTAATGATTTTAATTCAGAAATTAAATCTGCTAAAGGCTTATTTGAAGATTTTAAAAAAGAACCTGTTGATGGTGGTGAATTAACTTGAAATTAAATTATTATATTTTACTTTTATTATTTAGTACTTTATTTTTATATGGATGTAGTGGCTTTTTTGATAGTACTGAACAAAAACAAGCTATTGATTTTGATAAAAATCTAAAACCAATATTAGTTGAATTAGATTTGAGTAAAAATGAATTAAATAGTTTTAATGATATTACTACATTAAAACTAAATATTGAAAATAATAGAAATGATAATAGTTTGGTATATATTACAATACCTGATGTTCCTATTATGTCAAAATCTAAAAATTTTAAAAATGAATATGAAGTTAATTTATATGGTAAAACTGATGAAAATTATATTCCTTTATTTGAATATGGTGAGCGCATAGAAGATTTAACTTTTGGTTCCTTAGCATTTGGAATTGGGGAATATATGGACGATTTAGACACTGATTTGATTGCTCATGTTTGTACAAAATATAAGGATGAAATTTATGCTTTTGTTTGTGTTAATGAGGATGTTTGTGGTAAGAGTAGTATTTCAAATTTTAAACAAAAAATTGGTGGTCCAATAGACATAAAAAATATAGAATTTATTAATCATTTTTCTTCTTCAACTACTGGTGTTTTAGAAATTAGTATGCATTTTGAAAATAATGCTAATGGATTTGTTTTTACTTCAAACAATTATAAAAATGCGTGTAGAAATAATGTTTTAGAAAATAGTGATTTTAAAAGACATGAGTATAATATTGATTCTATTGAATTAGAAGGTGTTGAGCTGGATTGTAAAAAAACACTATTTACTGATATTAAAGGAATTTCAAAAATTATGTGTTTACTTGACCATTCTTTATTAATTAATGATATAAAACAAAATATTGACCAAAGATTATTGACTATTAAATTTAATTATAATTATAAACAAGCATTTAAGGAAAAAATAAAATATAAAAATGAACAATTAATTTCTGATTTTAATTTTGAGGTTATAGAATAATGAGATTATTTATTTTATTATTAATGACATTTAGTCTAATTTTATCTGGTTGTAGTTTTTTTGGTTCAAGTAGTGAAATGTCTGGTGTAAATTTAATTTTAGAAAAAACAAAATTTAATGCAAATATTGATGAGGATATAAATGTTAATTTTAAATTAATTAATAATAATGAGGCCTCATATTCGGCTGCAAATACACTATTATATTTTCACGGTGTTGGTAATTCTGATTATATAAAAATTAGTCCTTTTGAATATAGAAATAATCAAATAATGGGTATTATTGAAAATGACGTAGATTTTGATGAAAACTATTTTACTTTAAATTTTAAATTACCTGGTGAGCGTAAATTTAAATTAAATAGGTGTGATTTTATTGAACAAAAAAAGAATTTTATATTATGTGTTGATTCTGCTAATGAATTATGTTCTTTTTCTCAACCAAATATTGAATCAGACAATTTACCTTTAAAGTTAAAATCATTTAAATATGATGTTATTGAATCTGGTACATCTAGAAAAGTAAGGGTGATGTTTGATTTTAAAAAAACTAGTAAATATTCTGTAATTAAAAGACCCAGCTCAAGTGAGTCAAATTCTATTTTATCAAATAAACCTAATCTTGGTTCACAAAATAATATTTGTTTAAATTATGAAAATGGTAAATATTTAAATCATGGTGTGTGGTTTGATGTTAAATTATTTAGGACTGAGGGTGGTAGCTTTGAAAATTTAAATTGTAGAGTTAATTTTTTTGATTTTGGTGAATCTAGTACGAATAGTAAACCTATATATTGTGACTTTAATATAGATCAAAGTGATAAAAAAATAAGAATTCAAATTGATTATTCTGCTTTTGTTATTAGTCAAAATGAATTAACTTTTAATATTAATAACTAATTTTAATATAATAACTAATCTATTGGTTATTTAGTATTGCAGGTAGTTTTATAAATAATTTTTCTATATTAAAAGTATAATAAAAGTGGTGATTGAATGAAATTTACTAAAAGATTAATATTACTTGTATTGATTTTATTTATTTCAGTATTATATGGTTGTACTGAAACTACTAGTGAAAATACAAATATTGAAGCACAAAAAAGATTTGTTGGTGGATCAAGTGGTGTTGTTACTAGTGTATCAACAGATAAATCTAATAATTTAGTTGGTGTTGGTGAATCATTTTCTTATATGGTTGATGTTAAAAATACTGGTGAATATGATTTACAAGCTAATGATTATATTGTTAAATTATTAATTCCTCAAGACCCTGGTGTTTTTGAAGGTGGTACTTATGGTGAATTAACATTAAATAATGAAAATGTAGCTTCTGGTACTGGTTTGAATCCTGATGGTAGTACGATACCAAATGGCGAATTTGAAATTAAAACAATACCATTAAAATGGGCAAGCGTTACTAAACCAGTTGATTATGATTTATCATATAGATATTGTTACAAATATGAAACTCGAGCAGATTCTATTTTATGTAAAAAATCAGATTTACAAGGTAGAATTTCTGATGATGAAAAAAATACAGGTTGTTCTTATCCTGAATTTGGTAGTAGTATATCACAAACAACTCATAATTCAAATGGACCAGTACAATTTTCAAATTTAGTTCAAACAATACAAAATGCAGATTCTATGAGATTTACATTTGATTTAAGTATTATTGGTGGCGGTAATGTAGGTCTTGCAGATCAAGGTAGAGATGAATTAACTAGATGCGAATGGAGACCAAATGATGTTACAAGCGATAAGGTTACAGTAACAATTAAATCAGAAGCGGGATTAGTTGAATGTGATAATTTAAAACAATCAACTCATAGCACTGAAGGTAATTTAGATGTATTAGTTGGTATTGTTGAATTTAACGATGAATCTTCAACTTCTAAAAAAATCAGTTGTAAATATAAACCTGAAAATATTGGAAATGCGCATGATAATTTAGAATTGAAAGCAACATATGATTATGCTAAAACTGAAACATTATCAGAACAAATTAAATTTTTAAAATAATTTTTTTTTTTTTTTAGAATTAAGTTAATTTTTTTTCTATTATTTTTTCTATTGCATTAGCAGTATAATTTTCTTTTTCATCTAATTGATTTTTTAATAGTTTTATTTCATCTTCTAGATCAGAAATCAAATTATTTTTCATTTGAATTTGTAAATCTTTTCCATCTAGGTCAATATTAATCTTTTTTATTTCATCATTTTTTTTAATTTGACTAGATTCAAATAATGCTGGATAATATTTGTCCTTATCATCATTATTTTTTAATAATTGATGAACACTCTCAGATAATTTAGAAATGTGTGTATTTAAACCTCGAATTTTATCTTTTAATATTTTATTTTCTTCTTTTAATAATTCAATTATTTTAATTGTTTTTTCATGATTATCAATTTCAACATCAAATTCTTTTTTTAAATTTTCATTTTCTCTCAAACCTTCTTGGATTTGTACATTTAATGTAATTTCATTATTTTCATAATTATGAAATTTTTGTTCTAGTATTGATTTTTGTCTTTTTTCAATTTCTAAATCTTGAGACATAATTTCATTAATTTTTTTAAATTCTATTACTTTTTCATTTAATTCTTTATTATTTTCATTTAATTCTTTATTTTTATTTAAAAAATTTTCAAATTTATACATTAAATCTTTATTTTTTATTACTAGTTCTTCATTTTCTTTTTGCTCTGTTTCAGTTTCTTCTTTACTTTTATTTATTTCTTGAGCACTATACTCTTCTTTTTTTTCCATTAAATCTATTATTTCTGCATTATTTTGAATTTTTGATAATTTTTTTCTTAATTCTTGATTTGTATTTAATTCTGATATTAATTGATTTTTAATTTCAAAATATTTTTCTTCAATTTTATTAATTATTATATTATATTGCTTTTCTTCTTCTTTATCTAAATTTATTGTATCATTTAATTTATTAATATAATTTTTAATATTATGTTCATTTTCAATATCTTCTTTTTCTTTTTGTTTCTTTATAATTTCTAATTTTTTTATATTTGGAATTATTTCTTTTATTTTATTTAATATATTTGAATTTTTAGAATTTAGGATTTCTTTAATTTCAGATTCTTCTTTATCTGCAAACATATCCTCAATTTCTTCTTTTTCTATTTTTTCCCCTTCATTTAAAAATCTTTTTTCAATTTCTTCTATTTCTTTTTCAACTTCTTTATATTGATCCATTTCTTTTTTTTCTATTTCATTAGCAAGATCTTTATGGGTATTAAATTTCATATTTAATATAATTATTATTAACTTTATAAATTTGTTTTTTATTACATAAGTGTTTTTAAATGAATAATTTATTTTTATTTTATGAAGTTTGTTTTATATGGTAGGAAAGCATCAGGTAAAAATATAATTTCTGATATTTTAAAAACAATTTTAAAAAATGACCATAAAATTTTAGATTTTGGTAGTTTTTCAAGGGATCAAGTTAAAACAAATGGTGAATTTTCAGATTATTTAAAAAATAATTTTGCTAAAACTGATGATGATGGTCAACCTAATTTTTTTGATGATATCAATTTTAGGATGAAAGCTGTAGAACTTTTTTATAATATAGGTGGATTTTCAGATGATACAATAAATATTGGTTTGCCGCGTTCAGTTGATCAATTAAAAGAAATATTAAAATTAAGATTAAATCCTCAAGATACATTTTATATTTTTTTAAATGTACATGATCAAATTCAAAAAAAAAGATTAATTGAAAGATATAATGATGAGGGTATGAGAATTTGTGAAACAAATGTTCAAAAGACATTAGATTTAGATAATATGTTTTTAAAATATTCTAAAGAATTTAAAAATTATGTAATTTCAAATGATTTACCTTATATTGAATTAAATACATCAGTTCAAATTGATCAAAATGATTTTGAAAATATAAGTTTTAATAATTTAAAGCAAAAATTAATTGACAAATTGAGTGTATTTGATTTTATCGATTTGAAATAATTTTATTAATCACCCATATTTTTTAAATTTATGAAAATTTTATTTGTTTGTTTAGGGAATTATTGTAGAAGTCCAATAGCTCATGCAATAGCAAAACATATTTTTCCTAATTGGACTATTGATTCTTGTGCATTATCTCATTGTCATGAAGGTGAACAAATGCATATTAATAGTAGGAAAATATTAAAAAAACATGAAATGTTTTATGATGTTATATCTAAACACATTTCAAAAGTTAATATTAAAAATTTTGATTTAGTATTATGTATGGATTTTTCAAATTATGTAAAATTAAATGGTTTGGGTATTAAATGTGAATATGTAACTTTTTTAAAAGATAATAGTGAAGTTGAAGATCCTTATGGTGAGAATGTTGAATTTTATGAACAAACATATAAAAAAATATATAATTCTATTTTAGAACTTAAAAATTATAAAAATTAATTACAAATATATCCCATGTATGCCAATAATGCATTTAATTGTATATATTGGTCACTTCCTTCATTCAATCTAAATTCCGTTTCTCCACATTTATCAATTATTTTTAATATTTTCATTTTATCAATTTCTAATTTTAAAACTTCTTTTTGGATTTGTTTAATTATATCATTTCCACTAAGGCCAGTTTTTAACATAATATCTAATAATACTCGTTTTGCCTCATAAAAATTAGCTTGAATTGCAAAAGATAATAATTCATTTAATTCTTTTGGTTTTGCAAGATTTGCCATTGAATATATAGTTTCTTTTGAAAATTTATTTTCTACACTACTAATTGTTTGCATAATATTTTCTAATTTTCTTGCATCTCCATTACTTATTTCAAATAATGCTTCTTTTTCTTCTTCATTTATTTCTAAATTTTCTTTTTTAGATATCACATCAATTAATTCAAATATATTTTCTTTTTCTAATGGTTGAAATTTAAATATTGTACATCTAGATTGTATTGGTTCTATTATTTTTGATACATAATTACAAGATAAAATAAATCTACATGTTAATGCATATGTTTCCATTGTACGTCTTAATGCTTGCTGAGCTTCTTTTGTAAGGGCGTCACACTCATCTAAATAAATAATTTTAAATGGAACATTATTAATTGCTTTTGTTCTTGCAAAATCTTTTACTTTTGTTCTAATTACATCAATTCCTCTTTCATCACTAGCATTTAATTCTAAAAAGTTATAATTCCAATTATTTTCAAATAATTTTTTTGCAATAATTAATGAAGTTGTAGTTTTTCCAACTCCTGCTGGGCCTGAAAATAGTAAATGTGGCATAGTTTTATTTTTAACAAATGCTTTTATTTTAGAAATTGTATTTTCTTGACCTTTAACGTCTTCAAAACTTTCAGGCCTATGTTTTTCTACCCAAATTGTGTGTTTATTTTCTCCCATAACATAAGCACATTCAATTCATTTTTAAGTTTATTGTTAGAATCTACCAGTGGATCCAAAACCACCATCACTTCGTCCAGTTTCATTTAATTCTTCAACCATTTCAATTTCTACTCTTTCGACTTTTTGAATTAAAATTTGAGCAATTTTTTCATATTTTTCAAATGTTTGGGTTTCTAATCCTATATTTATTAGACCAACCTTAATTTCTCCTCTATAATCTGCATCAATCACTCCACCCATTAAAGTTAATTTTCTTTTATTTGCAACTCCACTTTTATCCCATATTAAACCAACGTGACCATTTGGAATTTCAAAACACACTTTTGTATCAATTAATGTATGTTGTCCCGGTTCGATAATTGTTTTTTCTCCGGCAAGTAAATCAATAGCTGCAGCATGTTCAGAATGATATTTTAAATCTGGCATATTTGGATCTAATGTTTTAATTCTCATATCTTTTTTTGAATATATAGTTTTTATAAGGGTAATGCTTTTGAAATTACGATAATTTTATAAATAATTTTCAAGCTATGTAATTATCAAGAGGTATTATATGGAAGACGAAAAAAGATTATCTAAATCATTACTTGGAAAAACAGTTGTTTCTGAAACTGGTAAAATTTTTGGAGATGTTGGTGATTTAGTTTTTGAAACTTCATCAGGTGAAATTATGCACGTTGTATTATCCAATCCTGCTACTCATGCATTAAAATTAGATTTAGAAAAAGATAAATCTGGAAATATTCTTATTCCTTTTACTGCTGTACTTGCAATTGCAGATTATTTAGTTATTCGTGAAGAAGATATAATTTAATTATGTATTAATTATATGTAATAATTTTTTCTTTTAAATTTTTAATTTCATTATCAATATCTATATTTTTATTTATATTATTTACATTAACTTCAATTTGATTTGTAAATGAATTTAATTTAGAATTAGCTTTTACTTCAACCAAATCTCCTTTGATGGTTTCTAATTCATATGTGATTGCATCAATATCTTCTTTTAAATTTACTATTTCTTCATCTGTTTTTCCAATTAATTTACAAACTTGTTCTCTAAAAAATGTTGCTCTTATGGTTTCTGTTCCGTCATCTAATATTGTAGTAATTACATATGCTATTTTAGGTTTTACTTCTCCATGCACTTCACATTGAAATTTATCTTGAACTAATTTTGCTCTTTTATTACATTCTGGGCAAATTTCAAAAAACTTTATTGGAAAAATATTTACAATATTTGCCTTAATTTGAACTTTTTGATTTTCTTCTTTTATTTGACTAATATTTACTTGTTTATAATTTGAAGATTTATTTTTTAATTCTTCAAAAGGTGGTATTGATTCATCTTCTGTTTTTGTAATAGTAGAATAATTTGAACAATGAATTTCTACTGAATTATTTCTATTTTCTTTTGCATAAGCATTTTGAATACTAATAATATCTCCTTCTTTTATATCTTCAATAGAATCAATTACCTCATTCCAAAGTACAACCCTAGTTTTTATATTATTATTTGCACACCAAAGTGATTTTACTCTTCCTTTATTTTCTTCTTTATTAAATTCAATAGTATCATACATATTTAAAATTCTCAAATTAATATTTATATTTTTCATTCCAGGAATTATCTTATCTGTAATTAATGCACTTCTATTTAATTCTACACCTAATGAATTTGCAATAATAAAAATAGCACCTTCTTTTGAAATTAAACCATCTAAATCTTCGATTTTCTTTTCTATTTTTTTTTCAACTTCTTCTTTTGAAATATTTTTTTCTGCACATATTTTTTCTATATATTTATCTATCACATTTTGTGAAAAATTATCTTTTTTATAAAATATTCTTTCATTTTTTAACTATTGTTTTTAATAATATATTCTGTAGACTGGTCACTGGACATTCTGTAGTTTTTCTTATAAGTAATTTTTGCTTAGTTAATGTATGGCTTGAAAATTTCAAGTTAAATACTTAAATGGGTGATTATTTTTATGACTAAAGCAAAAAAAAACTTTGATGATGATACTATAATGAATAATTTAATTAATAATGATAATAATACTGAAGATGATAATTCTTTAAATGAAGAATCTAATAAAGAATTTAATGAAGGGTCTGAAATTATTAAAAAGAAAACTAATTCAATTCCAACTATTTTTGAATTACCTGGTGTTGGTCCTGCCACTGCTGAAAAGCTTGAAGCTAGTGGTTTTTCTGATGTCATGAGCATTGCTGTTGCAACTCCATCTCAAATAGTAGATGCCACTGGTATTGGTGAAGCTGCTGCAAGAAAAATAATCAAATCTGCACGTGATTTATTAGATATGGGTTTTGAGAGTGGTCTTGTTGTTCTTGAAAAAAGAAAAAGTGTAGAAAAAATATCTCTTGGTTGTTCTTCTTTTGACAATTTATTAGAGGGTGGTTTTGAAACTGGTTCAATAGTTGAATGTTTTGGTGAATTTGGTTCTAGTAAAACTCAAATTGGTCATCTATTGGCTGTTAATTGTCAAAAATTAGCTGATGATGCTGTTGCAATTTATATTGATACTGAAAATACATTTAGGCCTGAGCGTATAATTCAATTTGCAAAAGGTTCTGGATTGGATCCTGACAAAGTTTTAGCAAATATTAGAGTAGCAAAAGCATATAATAGTGATCATCAAATGTTATTAGCTGAAAAAGTTAGTGATTTAATTAAAGATAAAAATTTAAATGTAAAAGTAGTCATTATTGATTCTTTAATGGCACATTTTAGAGCTGAGTTTATTGGTCGTGGTTCTTTATCTGAACGTCAACAAAAATTAAATAAGCATATGAGTGTATTATCTAAATTAGCTGATACTCACAATTGTTGTGTTTATGTAACAAATCAAGTTATGTCTAAGCCTGATACTTTCTTTGGTGATCCTACACAAGCAGTTGGTGGTCATATAGTTGCACACGCATCTACCTTTAGATTATATTTGAGAAAAGGAAGAAAGGGTGCTCGTGTTGCAAAATTAATTGATGCTCCAAATTTACCTGATTCTGAATGTTCTTATTTTGTTGAAGAATCTGGTTTAAGAGACGCATAATTTTTTTATTTTATAATCTTTTTTTAAATTAATTATCTAATAATGCTTTTTGACAAAGTTCTTCTGGGAACGCACAATCTTCTTTTTTTTTATCAAGTTTAAATGGTTCAACTTCTGAATTTGGCCATGTAAATCTTGGTTGAAAATCATGAATTAAATATAGAACTGCTCCAGTTAATTGATGATTATTTATTGAAGTTAAATAGTCTGCTAATCTATTTGTTGCATTTACAAATTCTTGATATTCTCCTCCACCTTTTTTCATCCTCATTTTTAATATTGAATTATATGTGGATGGGGACGTTTCAAATAATCTTAATTTACTTTTTGTACTTTCAAGTGTCATAGTCTGAAATGATTGTGCTTGGCTATGCAAATATTCTGCAAGATCACAAATATTAAATTCACTATCTTCTCTAGTTTGTTTAATTGACTTACCAATTAATTTTGAATTAACACCAAATAAATGTAATTTATATCTGTCAATATTTTGACCTAATGAAAAATTTAATTGGGATGCTTCTTCATCTTCAAGAATTCCTATTTTTTTCATTACATCTCTTTCATTAGTAATTAATTCTTTTATTTCATTTCTTAAAAATAAATAATTTTCTAAACCTTTTAATTGTGTTAAATAATATAATTCATTTTCCATAAATAGTTTTTAGAGTTTTGTTTTATATATTTTTATATGATTTTATTTATATTTAGAAATATCTTATTATAAATCAACAAAGTCTTCTATTTTATATTTGAAGTCTTCTTCTTTTTCAATTAATTTTTTTTCAATCATATATTGTCTTGCAATTAAGAAGTAAACTAAATTTAATGATTTTCTACCTTTATTATTACAAGGTATTGCAAAATCTAATTTATTGTGGGTATTATTTGAATCAATTAAACCCATAATTAATATTCCATTTTTATATGCATCATTAATTATATTTTTATCTAACCAAGTATCTGATGTAAATATAATTTTAGATTCAGTATAATTTTTTAAATTTGTATTTGTTAATAATCCAGGAGGATATCTTCCTGTAATAATATTCATTCCAGTAACTTTTGAAAGTAAATTTAATCCTTTCCAACCACTTTCACGTCTACATACAACATAAATTTCTTTTGGTTCAAATTGTGCCAATAGTTTTGCACCTAATTTTATTCTTTCATCAATTTTATCTAGATTTAATACTGCAAGACCTTCTGGTCTTATTTTATGAATGTAGGGTTTCATTGCTTTAGTTTTAAAAGTAGTTCCTATATGAATTCCTGTTTGTAAATATGTTTCTGTATTTATTAAATAATTTTCAGTTCCTTCAGTCATTATTAACCCTATTTGCAAGATTTTCTTTTCATTTATAAAACTATTTATATTTTATTTGTCAGTAGTTTTATAAATCAAATTATGTTATTTTGCTCTAAGGGGTGAATATTGAATAAATACTTATTATTTATTTTGTTAATAATATTTTGTTTTTCTTTTGCTAATGGTAAATTTATTGTTGATGAGAGTATATATTTTGATCAAAATTTAGATGAATCATTTTATGCATTTGGAAATAATGTTGATATTTATTCTAATATTTCTGGTTCTTTAATAATTGCGGGTGGTACTGTAAATATTAATGATGGTTCTTATATTAAAAATAAACATACTACTATACTTGCTGATAATGTAAAAATTGATGGTGATTTGAGTGGGGATGTTTTTATTATTGCAAGTAGTGTTTATATTTCAAAAAATGCTTTCTTTAATAGTGATGTAAGAATTACTGCTGCAAATGTTTATTTTTCTGGTGATGCTCGTCATTTAAGTGTAAATACAAATAAATTAACTTTAGATGGTAGGGTGCGAGGTGATTTATTTGTTAATACTAAATCTATTGAATCTGATAAAAATACTTTAGTTGAAGGGACTTTCACACTTTCTGCCGATTACTATAATAAAAATGCTGGTACTTTTAGAAATGGTATTTTGGGTTTTAATAAAAACAAAAAATTTGATATTGGGTTGCAAGGTTTAAAAAATGCAATTTCTCTTTTAATTTTTGGATTATTTATTATTTGGTTTGCAAGTAAAACTAAAAAAAGTTTACAAAAAATATATGATTATGATTTAACTCGTTCTTTTTTATATGGTATGATAACTTTAATTGCATTGCCAATAGTAATTTTATTATTATTTTTTACAGGTCTTTCAAGTATTTTATCATTATTATTTTCTGGTATTTTTTTATTATTATTGATTATTGGATATTTTTTAGGTACATTAAGATTAGGTTATGAATTTTTAAAAAGAACTAATGTGGTTAGTAATGATGTATTTAATTTATTTATTGGTGTTTTAATTTTATTTTTATTTAGCATAATTCCTTTTATCGGTGGTATTGTTTCAATAATTGTAATTATTTGTGGTATTGGTATTGCAAAAAAAATATTGTTAAATGTTTATTATGGAACTCCAATTTTTGTAAATAAAAAGAAAACGATAAAAAAAATAGTTAAAAAAAAAGTATCAAAGAAAGTTAAAAAAACAAAAGTTAAGTCTAAAAAATCTAAAATAAATTAATAAAAATCAGATTTACTTATTTTTCTTTTAATGTCATAATATTCTAATGATGAGCTATCTATTTCTTTTATTCCTTTATTACATATTTCAAAATATTCTGATTTTCCTTCGGGTATGAATCTATTTTTTATTATAGATACTTTTCTAATTCGATTTAAATGTTCATAATCATCAATTGGCTTTACTATTTTTAATTCCATTAATGCTTTTGATGTATATTTTAATATGTCTCCACCAACCATATTTACAGTTTCTTTTTTTTCAAAATTAGCATAAACTTGATTTGTTAGCACTACTGGAATGTTTAAAATTCTTGCTATATCGGTTAATATTCCAATTTGTTTTGCAAGCATTTGATTTATTAAAGGTATATTTTTATTCTTTGCCATTTCAAGTCTATATAAATATACAATTGAATCAACTAAAATTATTCCAATATTTTTTTCTTTTAATTTTGAAATCATATCATTAATATTTGAAAAAACATTATTTTGCATATTAAATGAAGTTGGTTTGAATAAATATGTATTAGATAAAATTGTTTCGTAATTTTCACTATTTATTTGTTTTAATCTTTCTAAACTTAAACCACCTTCTGTATCTACATAAATTACTTTTTGTCCATTATTAATTACTTGATTTAATAGCATAAGACAAAAATTTGTTTTTCCGGATCCTGAAGGGCCATAAAACGTAGTAATAATGTCTTTTTCAATACCACCACCTAAAAAATTATTTAATAAAATATTACCAGTATTTAATTTTTCTTGTTTAAGATTTTTTAAATCAATAAGCTCCATATTTGTAAAAAGTGATAAAGCTTAAAAGTTATAGTGTTTTCGTTTATTTGTTGTGAAAATATCTGACTCAAAATATATAAGCCATTGGCTATTTTTTATTATGATTTTTGTATTTCTTTTTAGAATGTATTTTAGTTATGGTATATTTGGATTTAATGATGATTTTAGTTATAAAACTGTATTTAATATAGAACAAATAATTAGTGATCCTTTAAACATGCAATTTAATTTATATTATTATTTACTTAGTTTCTTTTATTATTTATTTCCATTTTTTTTAACTTTAAAAATTATAAATAATATAATTGCAGTTTTAATTATTTTATTGAATTATAAAATTGCAAAATATATTACTAATGAAGAAAATAGTAGTTTATTGGTTGCATTAATAAGTGGATTTATTCCTATTTTTGTAATTGAAACATTTAATAGTTTAAATTCTTTTAATTTATTTTTATTTTTATTTGTTTTTCAAATATATAATTTTATTAGTTTTAAAAATAAATATAATATTCATTTTTACTTATTTATTTTAATTACAATTATTTTACCTTTTGTAAGCCCATTATCAATACTTTTAGCATTTTCACTTTTGCTTTTTTTAGCTTTGGCATTTATTGAAGGTTTAGATGTTGTAAAACATAAAGTAGATTTAATAATATTTACTTCAATTTATTTAATATGGGCACAATTTTTAATTTATAAAAATTTATTTTTAAATTTTGGTCCTGATGTAATTTATCAAAATATTCCAAATTCTTTAATTGAAAATTATTTTATTGATACTAGTTTAAGGAGTATGATTTTTGAAATTGGTTTTATTCCATTAGTATTTGGAATTTTTATTATTTACTTTTTTATTTTTAAAAAACAAAGATTTTTACTTAGTTTATTTCCATTTTTTTTAGTCTTTTTATTTTTGATTTTTTTTAGATTAATTTCATTAAAAATAGGTTTAATTTTAATTGGTGAATTATTTGTACTTATATTTATGTTTTTTTTCAAATTAGCATTAGATTGGATTAAAAATTCAAAATTTGATAGGGTGTGGTATGTGTTTTTATTATGTTTCTTTTTTATATTTTTATTTAGTTCATATATTCCAATTCAGTCACAATTAATAGAAATATCCCATGATAAAGAAATTGAAAATAATGAATATTTATATGAATTTATTAAAGAAAATTTGAAAGGTAAAAAAATATTAGCTGATTATAAATATGGTTTTTTTATACAATCAGTAGGTGCAATCTCAATGTTAGATCAAGATTTTTATAAACTTAAAAATTCTCAAAAAATATTGACAGATATTAAAATATTTTATTCCTTTACAAGTTCAGTATCATCTTTGAGAATACTTGAAAAATATGATGTTGATTATTTTTTAATAAATAAAAATATATTAAAAAGTTATGGTCAGGAAAGTTTTAAAATTGAAAATGATTTATGTTTTAAAGATACAAAGAGTTTTGTAAAAATATATGATGATGGCTTTAATCAAATATATAAGGGGAATTGTTTACTATGAGTGAGAAAATATTTAGATTTTTGAATATGGATTATTCTAAATTATCGAAAAAAACAATCTTATTAGTTTCATATACAATTTTATTAATGGTATTAATTTTTTGGTTTAATTTTAAGGGTGTAGACAATATTATAATTAATAGTGAATCTACATTAAATAATTTTGAATCTGTTAAATTAATTGGTGAAGATAGTTTAACTTTTGGATCAAAATATTATGGATTTGGCTTAGAAAATTTATTTAATTCTTATATTAGTAAATATATAGATAATTATTTAATATTAATTATTTATTTTCTGATTTTTGGATTGACACTATTCATATTATATGATTTTTTAATTAAAAATTATGTTAGTAAAGATATTATTTTTTTGTTTTTTACATTTTTTTCTATAAGTCCTATTGTATTATATAATTTATTTTCTTTAAATGAATCTATAATTTCTTTTTTTCTTTTTTCCTTAATTTTATATTTAGATAATTTATATAGAAATACTAATTCAATTTGGTATTTGATTCTTTACTTTCTTTTACTTATTTTTATATTACCGTTTTTAACTTTATTTAATTCTTTAATTTTTTATTTATTTTATTTATGTTATCTATTTTCATTAAGAGATCAAAAAAAATTATTTTATATTTTTTATATATTGAGTATTGTAATATTTTTATATGTTTTAAGTGAATATATTGTCTTTTTTGGTTTAGCTAATTTATTTGTATTTCATAATATTTCATTTTTTGAATTTTTACAATCTTTAATAAGTGATTTTGGTGCGAAATTTGGAGTAAATATTTTCTTTTTTATATTATCTTTTGTTGGTATATATAAATTATGGATTATTAAATACAAATTAAGATTTATGTATGTTTTTTTTGTTTTTTTAATATTATTTCATATTTTTTTTAATCCATTTAATAATTTTTATTCGAGTTTATTTATTTGTCTTTTTGGTGCAGTTGGATATATTATTTTTAAAAATAGGCATTGGTCTAATTTGAATATTAAGTCATTTACACTTTTATTATTATTTTGTGGATTATTATTTTCGACAATATCATTTTATGTTAGATTACCGAGTTTTGATATAAATGAGGATCAAATTGCATTTTTGAAAGGTATAGATGAAATTGAATATATTAATATTGAAGATGGTAATATTAAAAATTCTTTTTTAAATAAAAAAGATGGGATTTTTTCTGATGCTACAATATTATCTCATCCAAAATATTCAAATTTTATTAAATTTTATAATGGTAAGGTATTGGCTGATTTAAATGATATTAGAATTAAATCTATTGATTCTGCTGATGATCAAATTGATTTGTTGATGACTCAAAATATAAATTTTGCATTGAAATTAATTAAAAAATATGATATTGATTTTGTTTTAGTATCAAAAGATATGGAAAATGGAGATCTTTGGTATTATAGAACTGATGGTTTACAATTATTTTTTAATGAAAAGTTTAGGGGTGAAAAACTTTTTGATTTAGTTTGGTTTAATGCCGACTATAAATTATATAGAGTTGAAAAATTATTTTTTCTTGAATAATTTGAGTATAATTTTATAAATGTGCTTTTTTATAAATAAAATATGAAAAAAGGTGATATTGATAGTACTACTGTCTATATTATAATTACATTAATTTGTTTTATATTAGTTTCAGTTTATTTTGCAACTGTTTTATTAACATGAAAAAAGGTCTTATTGAATTTACGCGTGCAACTATAATTTTATTAGTGGTTTTTTTTTTATTACTTGGACTGATGTATCAATTTTCTACTTTAGCGGAAAAGCAATCCAAAATTGAAAAATGTAAATATATAATCAGTCAAATGAGATCAATTGCTGAGAGTTCATTTGGTTTTGAGAAAATGACTAATTCACTTTTGAGAACTTTAATTGATATTTCCAATATTATGAAAGATTCATGTGTTACATATGAAAGTGAGTTGGGTGAACCTTTAATCGAAGATAAAAAATATTATGATAAATTAGATGATTCTTTTTCAAACTGTGCAAATATTTATTATAATAATAAAAATCCATTTTTTAAACTTCCTACAAAATTATCTTATGTAACTGATGGTAAAAAAGATATTTATGGTTCAACTTTTTGTATTGTTTGTGAAGATATTAATTTGCCAAAGGAAATTGAATTTGATCATTTAGATTATTATAAACACAGAGATTCATTAAGTTCTAAGTCAAAAGGTGTAAGTAAAAATTTTAATTATATTGGAAAATTTCATGAAAATAAATATACTAGTGATTTTTTGAGTATACAACCTATTACCTTTACTCAAATAAAACGTATTTATGATAATGAAAATGATGTTAAAAGTAATTTGAATTTACTTGATCAAAAAGTATTAAATTCATGGACTATTAAAAATTTAAATTTTTTTAATGATGAATTTTCTAAACAGAGTTTTAATGAAAAAGATAGTATTTCACTTGTACTTTTATTTAGTGATTTTAATTTAGATGCATCCAATGATGCCCCAATTATGGCAGTTTTACCTAAGCGTAAAACTTATTATAGATATTTACCTTCATCAGATTATAAGGAAAAATTAATTGACAATATTGATTTACAAAATTCACAAATTGAAAGTGATTTGTATGTGCCTTGTACACGATTTAAAACCGAATCACTTAATTAAAAAAAATGGATCTCGAAAAACAAAGATTAATTGGTATAATTTTATCAATAGTATTTTTAGTTTTAACTACGTTTTTGATTACAAATACTTTTAATGAATTTAATAAAATTGATGATAATTTAATTTGTAAGCAATCCATATTACTAAACTCTAAACTTGAAAAATTAACTGGGAGGGAAGTTAAATATGAATGTAAATCTGAAATAAATGATGTAACAAAATTAAATCAAGAAGAAACTTTTGATTTTATTTCAAATGAAATGAAACAATGTAATAGTTTATTTGACTATGGTAAATCTAATATTTTTCCAAATGCACCTAGTGGTAAAACAATTTGTGCTATTTGTTCATATAATAAAATTAATTTAAATCATGATTATTCAAAATTTGATGATTTTGTTTTTAAAAATAATAGGTTTAAGAATATTTTTGGAATTGAACATTATAATAATAATAAACAATTAAATTTTTTTAATTTAAAATTAAAAGATGAAAATATGGCTATGATTGTTAAATTTACAAAAGTAAGTGATGATTTTGCTGATGTTGCTGGCGAGGGAGTATTAAACTATGTAAGTAAAAATGTTGCAGTAAAATCATTAATTGGTGCATTTCCGGGTTTAGTTTTAATGACTTTTTCAGCGCTTTCTCCAGACCCCATTTCAAAACTTGCTCTTAGTGGTGAGGTTGCATTAATTGGTGCTGGTGCAATTTCTGGTGCGGGTTATGGTATAATTCAATCAATTGATAATATAGTAAATTCAAAGGAAATATTTTTTACCACAATTTTTATAGGTGATTTAGATATTAGTAAATTATCTTCAAAAGAAATTGGATGTGATAAGGTGATTTTTTGAAAAAAGGTGATTTTGAAATTAATACTCTTGGTATGTGGATTTTAGCAATTATTTTTTTATTTATTGGTCTTAGTTTAACAGTTGTATTATTAAAAGAAAATGGATCGAATTTGATTTTAAATTTCTTTTCAATTTTTGGTGGATAAATGAATTTAGGAAAGATTGCATCAATTATTTTAGTTATTTTAGCATTATTTGCAACTTTTGGTATTTTTTATAGTTTTTACAATCCATTAAAAATTGAATGTATAGGTGGAGAATTTAGAGATGAATGTAAATCTAAAGAAGAAATAATTGCTTTAGATGGTGAAAATTCTAAAGAAACAATTACATCTTATACTGATATATTTAAAAGTGATGGGCGACCAATAATGCCTGAAACAGATAAAGAAATTGAACGAAATGTTGATGATTTTTGTAATCAATTAAAAAAAGAAGGTAAAGAATTACATCCCTCTTGTGATGATGAAAATAAAGGAAAATCTAAAATATTTAAATAGAAATAATAGAAATCTTTAAAAGATAAAAAGCTACAAAAAAGATAGGTGATATTAATGAAAAAAGGTCAAGGACTTTCAATGAATATGATAGTTATCGCAATAATTGCTATTTTGGTACTGGTAATTATTTCAGTTATTTTTACAGGAAATTTAGGTAAAACAAAAGCAAAACTTGCTGATTGTTCAACAAAAGGTGGTCAATGTATGACTAAAAGTGAGTGTAATGAATTACAAGGTATTTCAGATCCTACGACGGCATGTAGTGTTGATACTGCGGTTTGTTGTTTAGGTGGAAATGAGCCAGCTAGTGAATCGCAATAATTTTTTATATTTGAAAATGAATAAAAAAGCAAGTGGAATGTCAATTGAATTGGTTGCCATTTCAATTTTAGTTTTACTTGCTCTTGCCGTCATGGCTTGGATTTTTGTTAGTCAATCAAGTGGTACTAGTAAAACTTTAACTAGTATTTCTAATTCTACAGGAATAAATGTTTGTGTAAAATATCCTTTGCCAAAAATACCAAAATGTCAAGAGTGTTTAGAAAAGAAGGTTGAAGAACAAAAAAAATGTCTTGAAGATTTAGGTAATTATCATATTTCTCAATAGATATATTTAAAATTTAGATTGATAAAAATATTATATGGAAAATAAATCTTTGGGTTTAATTATTGGTATTATTATTGCGATTTTTGGATTAACCTTTGTTTTATATAAAATAGTATTTCCTTTATTTTCTACTACAAATGTTAATTTAAATTATATTGTAGATCAATTTGATGAAGCAATTGAAAGTGATTTATTATTGCATGGGTGTAGTTTACAAATTCCTTTGTATAATGAAGAATCTATATTATTATTTACTAAAACTATGAATAAAATTATTTATGGTGATGGGAATGTGATTGCAAAACCATCGAAATTTATGAATAAAAATATAATTTGTGCTTGTGATGATGTATCTGTAGATATTGTTTGTCAAAATAGTTTATTATGTAGGGAGATTGAATATGTACCTAAACCGTTTCAAAATACTAAATATTATGATCCTAAAGCAAAATATTATTTTTCTTCAAAAACAGAATTGTCAAAAAAACATGATCTTTTTCCTTTTGTGAATATGATGTATTATTTAAGACTTCAAGATTCTGAATTGGAGATTTATCCTATATTTGGCTTAAGTTCTAATAAAATTCAAGAAGTATATGATTTAGATCGGTGTATTATTAATTAATAAATTATTAAATTTATAAATGTCATTTCATTTATTCTTAATATGAATTCAAAAGGGGATGGTGAAATACTTAGTTTACAAGTTATTTTATTATTAGTTTTAGTTATTGGTATATCAGTTTATTTGTTTTTTTTATTTAATTCATTAAATAATTTAAATTATATTTATGATGAAATGGATTTTGAGAATAATTTTTTGGCTATTCATATGCTGTCAAGTCAAAATGATGGTTTTTTTGTATTGGATTATAATAGAAAATCTAATTATTCTTTTAATAATGAATATTTTACTAAACGATCTGCGGCTATAACGAATAGGCCTTTATTTTTTAATTCAAAAATAAATAATTTTGATTTTAGTATGGATAATATTAAATTATTATTTAAATCACAAAAAATATTAAATTTTAATTCGGATGAGTGTCAAAGAGATTTTTTTCCACAAAACGTTAAATTATTGTTTGATTTTGATGATTCGGATTGGTCTAAACAATTTATGGATAATATAAAAAAATTATTTGAAAATAAAGATATTATTATAGATGAAAGTTCGAATTTTAAAATTAATTTTATTTTTTCTGATAATAATGAAGTTAAAATTAATTCTAATACAAATAAATATTTTTGTGATATTTATACTGTTAAAGAACAAAATTATAATATTGTATTTAATTTAAAAAATAATGATGATTCAAGTTATGCTAAAATTTTAGAGTTTATGGAGGAAATTCGAATTGAATAAAAAGGGTGAGGGGTATAATCCAATTTTTTGGATGATAATTATTATTTTTACTATAATAGTTGTAACTTTATCCAATATATTATTATTTAATATGAAAAATATTAGTTTAGATATGACTAAATCTGAAGTAAATGTAATTGAATTTAAATTATTAAACTCATTTTTGATGACTGATTCAAATAATCTAAATTATAATAATTTTAATCAAAATTATATGAATACTTATTTTAATATTGATGAGAGAAATGATTTTTCTGCTAAAATTATATTAAAAATAATGAAAAATAATGAATTATTAGAAACTAAAATATTATATTTTAATAAGGATAAATATGATAGAGATATTATCCGAATCGATTCTAGTGGGAGTGGGAGTAAAAAAATAATTTCAAAAAAAAGACAAATCCCTATTGAAAATTATAAATTTGGAAATTTTATGGGTCTTGTTGAAATGCAATTTTTGGTGAATAATTATGAATAATAAGGGTGTACTTGAATATTTTACATGGGGCGTTTATTTACTTATTATTTTTATAATATTTTTGTCTGCTTCTATAATTTTAACTTTTGTAATTGAAGATGAACAAAAAATAATTAAGAAATCTGACAGTTTATATTTTAATGATGTAATTAATGAATGGAATAGGGCTTATTCTGATTTTGGAAATACTAATTATGATGATGTGAATGCATATTTGTCAAAAGCTTATATCAATAGTGATATTGATATGTCTAAAAAAATGCAAGATAATATATTTTATGAATATGAAAATGAAATTAATATCGATAATATAAAAAATGAATTTAATAATTATTTTAGTGCTATTGATTTCAATTACACTTTAATTGTTAATGTTCCAGATTTTTCGGCCATAGCTAAAAATAAAAATATTAATGAACGAAAAAGAAGTGTATTGTTTTGTTTTATTTTAGAGAGTGAAAATTTTAGATGTTCACCATTTGTTAAACAGAGTTATTTAAATGGAGTGGAAAATATAATTTATTCAAAAACGGTAAAACATTATGTTTTATTTGAAAATGATCCTATTGAATATGAGGTAATATATGAAATTATTGAAAAGAAAAGCTGACGGTAATTTTTATTATGTATTTTTAACTGTATTTTTTATTTTGTCAGTTTTATTTGCATTTACTACTTTGTTAAATAATATTAATGAAATACAAAAAACTGAATATTTGCCTTTTGTAAATTCTGCTAAATTATTATTAGATAAATATAATAATAATAAATTTGAAAAAACTAATGTAATAAATATAAATTCTCAAAATTCAATTTTAGATTTTTATACAAATGAAATTTATTTAAATAATTGTGATAAAATAGATTATGCTATTATTGGTGAATATTGTGATTTTAATAATAATTTAAATTTTTATTATAGGAATAAATTGTCTAATTTTGGTAATATTAAACAAAATGAGGAAAATTTAATTATTGATTCTTTTTTAGATAAACCTACTGTTCAAGTAATTGGTGGTAGTGATGATATTAAAACTTTTATTTTAGATCCTAAAAATAATATTAAACCGCGAATGATTTCTAAACTAAAGTCATTTAATAAAAAATTAAAAAATAGTGATGACTTTGATAAATTAAATAGATTTCTTTTAATGGTAAAAAATGAATTATTAAAAAATCCTATTGATGGCTTTGATGAGTATGATATTATGGGTTTGATTAGTCAAGAAAGTGATTTTAGATCTAATATATATAGATGTGAAAAAAGCATTTTAGATAAATATAAGTCTGGTTCATATAGTTCATTAATTAATAATTGTGATAGTTGTGAAAAACAAATTAGTGAATTTAAATTATCTTTAATTAAAAGTGGTGGTTTAAAGGATTGTCCTGCTATTGCATCATCAGGTGGTTTAACTCAAGTTTTACTTCCAACTGCACGTGGTTATGATAAATCTTTTGAGTTTGAAGATTTTTTTATACCATCTAAATCTATTGCAATAGGTATTACTGCATTAAAATCAATGAAAAAATCTGTTGGTGTTGATGATAAAAATTCTGTTTTTGTTGCATATAATGGTGGTCCTACAAGACTTAGAAATTTAAAATCTAAATTTAATGGTGAATTTAAATTAAATAATTATTTTAATGAATATACTAATACATTTAAATTAACTTTGCCAATTTCATATGCAATAAGAGTGAGTTTGCAATCATTAATGATTAAAGATTTATTTGAAAATGGAAAATTAGAATCTTTTGATTATTATTTAGATTTGTTTTTAAATACAAATAATAATTTAAAAATGTCAAAAATGTCTGATGGTAATATTTCTTATTTTTATAATAATCAATTAAGTAATGAAATTGTTGATTTATCCAAAAAATTTAATTTTAATAATAATTGTCAAATAGATGGATCGGAAGAAAAAATAAAAGACTGTATTAAAAAAATTGACAATTTTAATGTTTATAGTTATGAATTAAATGATAATATTGATTTTTATAATAATTATTATAGTAATTTAAATAATTGTTATTTTGATTTCAATATTAATAATGAAAATTTACAAAAATATAATATTAATACGGGTTTATATGAATTAATAATCAATGAACCTAGTTTTATTGAACCCAATTTAAAGTATAGTGTGAATAGAATTTATTTTGAGTCAACTGATGGTGGCTCAAGGAAATTATATATTAAAGATGGTGTTCCAAGAATAATCAATTCTGATGATAATTTAATTAAATGTAATAGTTTTTCAAATTTTGTTTTATTAAATGGTACATTTAAGCATTCATTTAATTCTTTTAATATTAAAAAGAAATTCAAGGGATATGTGGATTTGGGTAAATCTAGTTCTAATTATGGTCTTGAAATTGATATTATGAATGTAAAAGGTACTAATAAATATGGTGCAATTAGATTTGATTTATTTGATGATTTACCACACTCTATTCAATTGAAATCTAATAAAAAATCAGCCGATTTTAAATTAAATGATTTTGAATATATTAATTATAATGATTTAAAAAATACTTTAAAAAATAATTTTCCTTTTTTTAATAATGGTTTAATTTATTTTAATAATAATATAAAAGTTGATTATGATGATACAATATTTGTTTATTTAGATGAAAATAAATTATACTATAACTTGGCAGATGACTATTATTATTTAATTTTTAATTTAAATGATTATAATTTAAATAATATTGAAAAATTATTTTTAAATTTTAAAAATATAAATGATGAGGTTAAACCCATTACAGAATTTATATTATCAAATGTTGGTGTAACTTCAATATTAAAGCAAGTATTAGTTGAAGAAATTATTATTGATGGTCATATTAATTATAGATTTTTATTAAATTTAGGTTCTAATTCTTGGGATAATAATCAAGTCTATGGGGATGTGAATTCAATTGAAATGGTTAAAAGAAATTTTAATACTGTGGAAATGCCTGATTTATTTAAAAAAATAAATTCTAAAATAAATGATTTAATTAATTTGGAAAATGAATTAATTGAAACTAAAAAAGTAAATTTTAATAAAATTCAAGATGGGGTTTATGAAGTTATTTTAAAAGATTTTAATTATAATTCTGCCATTGGTTTTAAAATAGATAATAATCCATATATTTTTATGTTTGATTTTAGATAGTTTTAGCATATATTTTTAAATATGTTTTTTTAGTTTATTTTATGGATTATAAAATAAAAATTGTTGAGTTGTTAAAAAATTGTGGTTTTGATATTAATGTTGATTTAATTACTATACCTCCAAATAAAAAGTTTGGTGATTTTTCTTGTCCTATGTTTTCATTTGCAAAGGAGTTAAAAAAAAGTCCAAATCAAATTGCTCAAGATTTATGTTCAAAACTGTCTGATTCAAATTTTGAAAAAATTGTTAGTGAAGGGCCATATTTGAATTTTTATATTAATAGAAAAGAATTTATTAAAGATGCAATTAATAAAATTTTAAATAGACAATTTGATTATTTAATTAGAGAGGATTTGAAAAAAATAATGGTTGAATATATTTCACCAAATTCAAATAAGCCTTTACATATTGGTCATTTGCGAAATTTACTTTTAGGTCAGTTATATTCTAAATTATTAAAAAAAGTGGGAAACGAAGTTGTTGAGACTTGTTTAATTAATGATCGTGGACTTCATATTTGTAAATCAATGGTTGCATATAAAAAATTTGGAAATGATATTGAACCTGATATAAAAGGAGATCATTTTGTGGGGAATTATTATATTGAATTTGAAAAACAATTAAAGGAAGATCCAGATTTAATTGAAGAAGCTAATCAAATGTTAATTGATTGGGAAAATGATAATTTAGAAGTTAAACAATTATGGAGAAAAATGAATGATTGGTCTGAGTCTGGTCAAAAAGAAACGTGGCAAAAATTTGGTATAAATTTTAATCAAATATATTATGAGTCACAAATGTATAAATTTGGAAAAGAAATTGTTGAAGAGGGTATTAAAAAAGGTGTCTTTAAAGAGGATGATGGTGTGATAATTGCTGATTTGTCTGATTATAATTTAGATATTATTGTAGCAATTCGTGCAAATGGTACAAGTTTGTATTTAGTTCAAGATTTATATTTGGCAATATTAAAAGTAAAAGAATATTCAATAGATTCTTCAGTTTATGTTATTGGAAAAGAACAAGATCATTATATGCGACAATTATTTAAAATTCTAGAATTATTGGGTTTTGATTGGGCAAAAAATCTTTATCATTTATCTTATGGTCATATTGAATTAAAATCGGGTCGTATGAAGAGTAGAGAAGGAAAAATTGTTGAAACTGATGATTTATTAAAAGAAATAACTGATTTAATTTCTGTGCAATTAGTTGAAAGAAATTCAAATTACTCTAGTGATGAATTAGATTATTTATCAAAAAATATTGCGATGGCTGCAATAAGATATTATATATTAAAATTTGATAATAAAAAAGATTTTACTTATGATGAAGAAAGTAGTTTGCGTTTTGATGGGGATACTGGTGTATATTTATTATATACTTATGCAAGAATTAATTCTATTATAGATAAAATTAATTGTGAATTTAATTTTGATAATATTAATTTAAATTTATTTGAACATGATATTGAGTTTGAATTAATTGAAAAATTAAGTAATATTGATGAAGTTGTAAAAGAAGCAACAAAAAAGCATAAGCTTTCATATTTATGTAATTATTTTATGGATTTAGCTCAAACATTTAATACCTATTATTCACAGGTACAAATACTTGATGGTAATGATGATAGACAGAAAACAAAATATGTTTTTTTAAAATGTATTTTGATTGTATTTGAAGAATTATTTGATTTATTATCAATAAAGCCACTTAAAAATATTTAATTGATTTTATTTTTTTAAATTGTCTATATTTTTTATATAGTGGTATTTCAATTATTTTATTTGTATTTTTGGGTATTTTTTTAAAAGAAATGAATGGATATAGTATTTTTTGTTCTATTATTTTATTTTCTTTATCTAAAAATATTATATTAATTTTGTAGAATACGAAAAACATGTGTACTAAATCATATGTTTTTATATTATTAAATAAAATTGGCCGGGGGTTTATTTGAAACATTAAACCAATTGCATTTTGTAAAACATTTTTGCTATTTTTACATATAATTGTTTGATTATTTAATTTTATTTTCATTTTATCTTTAATTTACAATTTTATTGAAATCTTTTTAGTTTAATTAATTTTTTTTTGATTTATTTATAATTATTATTTTTAAGTTTTAATTTATATATATATTATGAAAAAAATAATTTTTATATTTTTTATAATACTTACTGCTTCATTTGTTTTTTCTTTTTATTTTCAGAATGAAGTTACATTGGATAGTGATTTTGAAATATTAGATGTTTTTTTTTGTCCTCATGATTATTGTGGTAAAAAATTAATTTCTTTTATCAATATGGCAAATAAATCATTATATTGTGCATTTTATGATATTGATGATAAATATATAATTAATTCTATAATAAATAAAAGTAATGAAATTGATGTTTCAATTTTAGTTGATAAATCTAATGACATTGAGTTTTTTAAAAAAATTGATCAAAATGGTTTAATGCATCATAAATTTTGTTTAATTGATGATGAATATGTATTTGTTGGTTCATATAATCCTACAATAAATGGTGCATATAAAAATAATAATAATATTATTATTTTAAAAGGAAAGTCTGCCTATGATGAATATTATAATGAATTTTTAAGATTAAATGGACTTGATTATAAATATAAATCTAAATTTATTAAATTTAATAGACATATTTATGAAACATTATATAATAAAATTAAAAGTGCAAATAAAAGTATAAAAATAGCGGCATTTACTTTTACAGATCCTGATTTGGCTGATTTAATTATTGAAAAGCATTTGAGTGGTATTGATGTAAAAATATTGTTGGAAAAACGCCAAATTTCAAAATGGTCTCAATATGAACGTTTTTTAAAATATGATATTGTAAAAAAAGATTTTAATAAAAACAATATGCATAATAAATTTTTTATAATTGATGATAAACTTGTAATTACTGGGTCATATAATCCCACTAGAAATGCTAAAAATAGAAATAGTGAAAATATAATTATTATAGACGATCAAAAATACATAAATGACTTCATTAGTGAATTTAATTTCTTATATAATCCAAATAATTATGGTGTGAATTATACTCTTTTAAAAAACAAAAATTATATTTTATATATTGATATAAATTTTAATAAAACAATTATTAAAAAAATAATTTTAAATGATAAATATAATTATACTAGAGTTTATTTTGAAAATGATTTTTTTCTTATAAAAAATAATAAAAATTATTTTGATTTAATTGATAGTAATAATTATGTCATTAAAAGAATAAGTAAAAAAGAATATTATGAATTAATTTAAATCATTTCATTTATTATATCTTGGCTTTTTTTTGTTGCTAATTCTATACCAGGATATTTATTTTCTAATTTTTCTAAAAATGTTTTTAGGATTTCAAAATCTGATTTTTTTATTTTAAAATTATTCATAAATATTTTATCTAATTCATCTATATTTACGTTTTGTAATTCTAATTCTTTATTACTTACATTTTCAAATAGAAATATAATATTATCAAATTCAATCTTTTTATTTAAAATAAAATGTGAAAGTAAAATAATGTCTTTGTAAAATGCACTTAGTGGATATATAATTTTTTCTTTTGTTTTATTTAACTCATTTTTTCCAATTATTTTTAATTCTGATTTTTTATTATTAATTATAATTTTTTTAATTAAATCCGTGGCATAATCATCTATTTTAAAATCTGTTTTCAAATACAATAATTTAGTTTTATCTTTTATTGTTTTTTTTACTCTTTTGTATATGTGGTTTTTTAAATTATTTGAGTTAACTATTTTATTATCTTCTTGACCAATTATGTTTAATTTCATATTATTGATCAATTTAGAGTATTTATATAATTATTCTTCTGTATTATGCTATGTTATAATGCTATATTAGTGGATTTGATTTTGTTTAAATTTGTTTATGAATTAAAAATATATAATCTAATATATTAATTTTGTATTGATTTTATTTTTAAATACATTAATATATTTAATTTTTGGTATTTCACCTCTTTCCCGGATGAGTTATTCATTCGGGAAATATTTTTAAATTAAAACATTCATTTTTTTGTAATGAGATTAATATTAGAAAAATTAAAAGAATATTTAGATATTCCTGCTGTAACTAACTTTTCTGAGCCATTTTTAAAATATTTATATAAGGATTTTTCTAAATTTTCTGATTATGAATTAATTTTATCAAAAAATCTTTTAGTAGTTAGAAAAAAAGAAAATAGGTCAAATAAATTTTTTTCTGCACATATTGATAGGCTTGGTTTAGTTTTAAGTTCAAAAGGGGTTGAACATTCTAATTTTTGGGGTAAACGAGAATATAATATTAAAATTGAAACTGGTCTTGAAATTTTTGATAGAATGGCTATTGCATTTAATGAAGAGCATTTTATTCCATATAATGAAATTTATGATGAACTTCGAAAATATACTAATGTAAAAGTTAAATATGTAAAAACTGATTTTGTTAAGTATTTTATGGAATTTATTTTTTATAATAATAATGATAATTTTAAAGGTAAAAAAAATTTAGCATTTATGTTAGAAAATAACTTTTTTTTTGATGGTAAATTTATTGGTGGGCAAATTGATAATGCAATTTCAGTTGCTTGTTTATATAAATTAATAAAAGATGGTTTTGATGGGACGGTATTATTTACTTGTCGTGAGGAAATTGGTTTGAGTTGGAAATATATTGAAGAATATTTTAAAGAGGAAAATTTGAATGTAAAAAATTTAATTGTTTTAGATACAACACCATATCCTAGTTCATCTGATTTTGAAAATGGTAAAATTATATTTAGGCGTGCTGATTCTAATGGTAAATTTAATATTGCATTTATTGATAAATTAAAAGCATATGCAAAAGATCAAGAAATACCTTATGCAATTAAAGTTCCAAGAGGAAAAACCGAATTAGGCAGATTAGTTGAATTTACGAATGGCAATTTTAATGGTGCAACAATTCAAATTCCTTCAACTAATTATCATTCAAATAAAGAGATGACAAATGTAAAATGTTTAAAAAACTATTATAAGTTTATTAAATTAATAAGTAATAAAGAAGAATTGTTTCATTAATATGATTTGATTATAATTATTTTTATAAATTAAATAATTTTTTTACATTTATGGCTTTACACATATTAGATTCGAATCCTTCTGATGATTATTTAAACCCAGGTATTAAACCTTGTTTTGAACATAATTTGGATGAGTTAAAAAAAATGTATGATCCAACTCAAGGCAGAGATAATGTAAAATCTATTTTAGATAGTGATCCTTATAAAAATATTATTGCAATGGGGGTTAGAGTTTTTCCTTTAATGGAAGCTTTTTATGATGTTAAATGTGACGAACCTTTAGAATTTTTTAAAACAAATCTTTTTGGATTCATGATTAGTAAAATTTCCAGAGGAAAATTTAATTTTGATTTACATTCAAATGTTAACGATACTGATTCTGGTTTAATTGGAAAATTATTAACAAATCATATAAAAGATTGGTTAGTTGAAAATAAAGGTGGTTATTTTTCTGCGCCTGCTCCAAGATTAACTGAATTAGTTATTCCTGATGATAAGGATGAGGCTTCAAAAATATTTCAAAGTTTAGAAACGAACCATTTATTGCTTTCTTCACATGCTTATGGTACTTTTAGAGGTTGGATAAGTTCAGCGGGCATTTATGGTATGAATGTAGATGAGGAAAGCCATAACCCTAGGAGAATAGAATTTTGTAGTTTGAGCTCAACCAATTTAATTATTGATTCGAGAATGGGGATTTATGCTGGAAGTGGTAGGTCTTTTGATGCTAAATATGAAGTGCGATTATATAAATATCCAGAAGTAGAAAAAACAGTTGACTATTAATATATTTTATAAGTTTTAATTATATTTTTTTTTTATGAAATTTAATAAAACTTTAATTAATTTAGGACTATTATTTTGCTTATATTCTACACCAAATTCTAATGATGATAATAATCCATTTAATGTTCCTGAAAATCATTATTATGATAAAATTACAATTCGGTCAAATCATAAAATTCAAAATTTTTGTTATGTTGACTTTAATATTGATACTGGTGAATATGATGCAGTAGCTCCTTTAAGTTTAAATGGTTTGAAGGGTCCTTTAATGCAAGTTGATTTTAATTTGTGTATTAATTATAAATCAATTAGAAATAATGGTTTTGGATATTCTGTAGTTCGAGAAAATTATAATTGGCATAAAAAAATGAGACCTAGGCATTCTACAACTTTAATTAATTTGCCCTTTACTGTTTTTAATAATATATTGAAATTTTCTACAAGTACAATAACTAATATTGGTTATTATTCTCTTGATATGGCTGTGGGAAATACTTTTAAAGTGGCTGATTTTACTACTAATACAGTTGGGGGTATTATTAATTTAAAATGATGATTGCAATTTTTGAAACAAATGTGGGAACTTTTAAAATAGAACTTTTTGATAAAACAATGCCTTTAACTATTGGTAATTTTAAACGATTAGTTGATCAAGGTTTTTATGATGGGTTAATTTTTCATAGAATTATAAAAGATTTTATGATTCAAGGTGGATGTCCAATTGGAGATGGAACTGGTGATCCTGGTTATACTATACCTGATGAATTTACGCCAAATAATAGAAATATCAAAGGTACAATTAGTATGGCAAATGCTGGTCCGAATACTGGTGGCTCTCAATTTTTTATTAATGTTGTTGATAATAATTATTTAGATGGTAATCATCCTGTTTTTGGAAAAGTAATTGATGGTGCAGATATAGTTGATAAAATAAGTAAAATTGAAGTTGACTCTAGTGATAGGCCAATTAATAAAGTAATTATAAATAAAATAACAATTGAATGATTTATTATCAACTTTTATAAATTAATTAAAGTAAATATTCTTAGAGGTGTGATGTTTGAATAAATTAGTTTTATGGGCAAAAGATGTAAATAAATCAATGGTTGATATTGTTGGTGGAAAATCTGCAAATTTGGGTGAATTATATAATATTGATATACCAATTCCTGATTGTTTTTTTTTAACTGCTCAGTCTTATGAATATTTTATTAAAGAAAATAATTTGTGGCCAAGAATAAAAAACATTTTAGATTTAATTGATTATTCATCTCCAAAATCATTGGATGTTGCTAGTAATAATATATCAAAATTAATTTTAAATACTCCTGTTCCAATTAATATTAAAAAAACAATAATTAAAAATTATAATTTAATGAGTGAAAAATTTGTTGCGGTTAGAAGTAGTGCGACGGCTGAAGATTTGCCTGAAGCAAGTTTTGCGGGTCAACAAGCTACTTTCTTAAATGTTAAGGGTGAACTTGAAGTTGTAGATGCAGTTTTAAATTGTTGGGCTTCTCTTTTTACTGCACGGGCAATATATTATAGACATAAAAATAATTTTGATCATTCAAAAGTTTATATTGCTGTAGTTGTTCAAAATATGGTTAATAGTAGAAGAAGTGGAATTTGTTTTACTAATAATCCTGCAAATAGTAATTCGCAAGAAATTGTTGTTGAAGCTGGTTTTGGTTTGGGTGAAACTATTGTTAGTGGTTCAGTTAGTCCTGATACATATGTATTAAATGGAAATAGTTTTGAAATTTTATCAAAACATATTGGAAATCAAGAATATGCTTTAATACGGAATGATGATGGTGGTAATGATAAATTAAATTTAAATGATAAAGAAAAAAATAGTCAAAAATTATTAGATGAGGAAATTGTAAATTTAGCTGAATTAGCTAAAAAAATAGAAAGACATTATGGTAAACCACAAGATATTGAATTTGCTTTTAATGATAAACAATTATATATTGTTCAATCTAGGGCAATTACTACAATTAAAAAAAATAAAACTGATGTGGAAAATAAAATCAATGCAGAATCAATTTTAAAAGGGCTTGCAACAAGTCCAGGTATTGTTAGTGGTAGGGTTGTTTTTGTTAAAAATTTAGATGATCTTGAGAAAATAAAAAAAGGGGATGTTCTAGTTACAAAAATGACTACGCCGGATATGGTTCCTGCGATGGAAAAATCTGTGGGTATTGTTACTGATGAAGGTGGTTTAACTTGTCATGCTGCAATTGTATCTCGTGAATTGGGTGTTCCAAGTGTTGTTGGTACTAAAAATGCAACTTCAATTTTAAAAGAAAATGATTTGATTACAATTGATGGGAATACTGGATTAATTTATATGGGTAATTTTGTTAAGGATATTGATGCAAATAAAAACAAAAATGAAACTGAGAGAATTATTGGTAAAACAAAAACTAAAATTAAATTAATTGTGGATATTCCTTCAACTGCAAAAACAAAAAGTAAATTATTAAGTGATGGTGTTGGTCTTATTAGGGCTGAATTTTTTATTAGTCAAAGTGGGGTTCATCCGATTCATTATATTAAGAGTGGTTTGGATAAATATTCTCAAATAATTTATTCAGGACTTAAAGAAATTGCTGAAGCATTTAAACCAAGACCTGTTTGGTTTAGGACTAGTGATTTGAGAAGTGATGAATATAGAGGTCTTAAAGATGGGGATAAAATTCATACAGAAGATAATCCTATGATGGGTGAACATGGAATTAGATTTTCTTTAGCACATCCTGATTTATTAAAAGCAGAATTTATTGGAATTAAAAAATTAATTGATGAGGGATATAAAAATATTGGTGTTATGTTACCTTTTATTATTCGTAGTGAGGAATTTACAGCTTCTAAAAAAATTGCTGAGTCTATTGGTTTAAAACCTAATGTTGATTTTAAATTAGGTATTATGTGTGAAACTCCTGGATCTGTATGGATTATGGAAGATATAATTCGTCAAGGTGCTAGTTTTATTTCTTTTGGTACTAATGATTTAACTCAATTAACTTTAGGTATTGATAGAAATAATCAAAATATTGCTCAATTATTTAATGAACTTCATCCCGCGGTGGTTGGTCAAATTGAAAAAGTAATTAAAATTGCAAATAATTATGGTGTTGAAACAAGTATATGTGGACAGGCTGGATCAAATCCTGAAATGGCTGAAAAATTAGTTAAGTTGGGAATTAATAGTATTAGTGTTAATAGCGATTCTTTTTACAAAGTAAAAAATACTGTTTTTAAAGTCGAACAAAAAATAAATGATTCTAATAAATAATATAAAATTATATAAATGAATTTAGTTGATTAACTGTATGTATATTTTTAATTCAAATTATAAATTTTCACAATTACATTTTAGAAGTTTGGGGTCTGAGAATATAGAAAAAAAAATATCTGTAATATCGGATGTTTCTTGGCTTAATATTTTTGGAGATAGTTTTAATGGATTAGATTATTTTGCAAATCGTGAACGAAGTTCATATGATTTAAATGAATTTGAAAATCATAAAGGTGAGAGTTGTGGTTTGGGCGATGTTATTATTTCTCCTTTTAAAACTGATTTACCTGATTTATCTTTAAAATTAACTACTAGAGAAACAGAGAGTTTTGATTTTAAAATATCTTATTTGGATTATAGAAAATTATTATTTTTTAGTGATTCAAACGTTCTTTTGGATTTAGTTTTAAAGCCAGTAATTTCTTATATTTTTCAAAATGATGTTTTAGCAGTTTTGTATGATAGAAGAGTGGAACTGTTGAATAAGTTGGATAAACTTGAATTGGGTTTTAAAGAGACAGAGAAAATTAATAATTTTGAATCATCTTCGGAGTATTGGATTAGGGATTTATCATCAAAATCTTTTATTAGATGTGGTGGGGATAAACCATTTAATGATTTTTAATTTTTTATAATATATTTTATGATATACTCTTTATTATAACCTAATATTGTTGTTTACATATGTTTAAATATTTGTTTATATTATAGTATTTAAGTAAATGGTAAATATTCAATTTGTTCCTTATGATTCTTTTACTAAAGTAATTGATAATAAAACTTGTTTTTTTATTACTGCTAAAACTTTAGATAGAAAAAGATTGATTTTAAATATTGATATGAACCCTTATTTTTTTTTATGTGTGAATGATGAACATATGAATTCTTTTGAGAATTTAATTCTTCCTAATTTAAAAAAGTTTAGTCAAATTATTGATGGTATTGAATTTAATATTGTAGATGTTAAAAAAACAGATTTTAAAAATAATTGTGGTGTTAATTATACTACTTTTAAAATTGAGATTAATAGGTTATTAAAATTAAATAAATTTTCTAATTTAATTTTAGATTATTTAAAAGATAAGGGTGTTGATTCTTCTATTATTTTTGAAAATATTAAATTAAAAGATATTATTTTTAATGAAAAGAATATAATTCCTTTTAAATTATATGAAGGTGATTGTGAAGTTATAGATGATTTGAAATTTAAATTATTTAGATGTGATTTTGTTTTAAATTTAAAAAATTGTGATTTAATTAGAAACTTAGATAATTCTGAAATTGATTATGCAATTAATATTTTATATTTAGATTTTGTTTTTAAAAATGCAACGATTTTTGATCAAAATAATCCTTTATTATTAATTTCTTGTCATATAAGAAAGTTTACAAAAATTTTTCAATGGAAAATTCCAAATTTAAAAAATTGTGATTTTTGTGAAAGTGAGAGTAATATGTTTGAACAATTTTCTGATTTTTTAAATAAAATTAAACCGGATATTATAATAATAAATGATAATGATAATAAATTAAATTTATTTAATAATAGAAGTGATCGATATGGACAAAAATATTCTTTTTATTATGATTTAAATGATTCGAATTTTAAAATAAATAATAAAAAAGGTTTAATTTTATTGGATTCTAAACGATTTCATAATAAGTTGCATTTATTTTCAAATGTGAATTATAAAAATTTATATTATAAATTTTTTAGGGTGAAGTTTGACCCAATTTCAAAAGAATATATTTCTTCTATGTTATTGAATAAACGTGATGAAAATATTTTTTATATTATTGAGGAAAATAATAAATCTCATTATAATTTTTTTATTAATTTTTATTTGCAAATAGTAAAGGATTTGTGTGAGGAAATTTTATGTGGTTTAGATTTTTTATCATTTTCGGATAGGGGTACTATTTTAAAATATTATCTAAATAATAAATATAGGCAAAATAAATATATTTTAAATAATTTAAATGTTATTGCTGATTCAGATAATTTATTTTATGATTTTGCTCAAAAGAATGGAATTAAAAATAATTTGTTTCAATTGGATTTGTCATTTATTTACTCAAAATTAATTGCTGATAATAATATTTCTTTTAATAATGATAATAATATATCTTTAAATAAAATAATTTTGGACAATTTATTTAATGATATTAAAACAATATATAGTGATGAATTTAGTACTTTTTTATTTTCAAATGCGATGTCATCTTTTTTTAATTTAAAATTTGAAACCTTTAACTATGGGCGTCCAATTTTTTTTAAATATTTAACGAAATTATTTTTATATAATAATGTTGGTAAATTTATTTATTCTTTAATTGAGGATAAAGATGAATTTGATTGTGCTTTAATTGATTTTATAAGGACTTTTTTGAGTAAAATTTCAGGTTCAAATTTTGAATTGATTTCTTTTAATAAAACGTTAATGTATTTACAAAACTCATCTTTGATTGAATTAAATGAATCGGCCAAGGATACTTATTTAAAATTAAATGAATTTTTATTGGATATTTCTATTTTATTAAAGGAAATAAATATAATACATTTATTTTGTAATTTTAATTTTTTTATAACTAATTATATTTTTGATAATAATCGTATTTTTGGATTGGATTTTGATTTACTTCTTTATGGAAATATTAAAAAAAATATTAAAATTCTTGAGGTGATAAATAAACGAATTGCTTTTATTTTATTGGATTATGATTATTATAATGAAATAAACAGTTATTTTAATAATATGGATTTTTATAAGGAACATAATTTTTCTATTGATTTTAAAAAATCTGAGAAATTAAATTCGATCAATTTTTATAAAAATACGATTTTGACTCAAATGAATAATAATAAAATTGATTTTAATTTATTATTGTCTAAAAGAAAAATTAATATGTCTTCTTCGGATTTTTTAATTGATTTTAAAAATAATAAGTTGTCAGATTTTTATGATGGCGAGTCTATAATTTATTTAGTTATGTTTGAAAAAACTGAAACTGGTTTGATTAGTAAAAAAATAATAATTAATGATCCTTTTGAATTTAAAGAAAAATTAAATCCTAATTATAATATTAATATTCATTATTATTATATTATTGTAAATAAATATTTTGATTCAGTTATCAATTTATTAAAATAAGAAATAAAATTAAATAAAAAATAAAAATTTAAAGTGCTTTTCTTAATTCTTCACTTTTCATTATTGCAATGTCAAACATTTTGTCAATGTCGTCAAGTGTAATTGAACTATTTCCGCCTTTTTGAACTGAGCATATTTTTTGATCTGGTAATATTCCAACAGTTAATCTATCATCTAATGCTTCTTCTTCTTCTTTTGTTGGATCAGTAATATAATAATTTCCAATTCTTACCACTGTTACGGGTACTGGTTCAACATTTATTGGTAATCCAATATCACTTTTAGCATCAAAATCAATGTCATCTCCATTAATTACTGGGAATCTACAATTTTTTATTGCTGCAATTGCTGCAAGTCCACATGCATCCATTAAGTTTCCTGAGTCATTTATTGAAACAATATCAATCGAAACTTGCCAAACTTTTCCATTTTTTAGTACTAATTTTTTAGTGTCAATTGCTTTTCCTTCTCTAATTCCTCTATCAACTACTCTTGCAAGTTCTATTGCTTTAAATTTTGGTGGTCCCATTTCATAATCTTCTCCTGATAATGGTATTAATTCAACATTAACCATCAATGTACCTTCGTCAGGTGAATCAGAATATGGTTCTACTGGTGTTAATTTAATTCCTGCAATTACTTGAGTTTTTCCAATATTAACTTTTGCTGAACCCATTGCAGTTTCTATTACGTCATATTCAACTTTAACTTCTCTAAATTCAACCGGCCCTCTGCCATCAAATCTTGCATTTTGATTTAATAAATTATTTATGTATTTTTTATTATAACTCATTTTTTATTCCCCGCTACTTCGTATCTTTCTTTTATTGCTTTTACCATAATTTCTTTTATGTGTTCTGCTGCAGGTTTTACTTTTGTTAATGCTTCCATTAACTCGTCTTTTGAAATTACACCATCTACTTGAAGTAATGTAATTTCTCCTGTGCTTGGTAATATTGCACATGGTACATCTACTCCATGTTCATCGCTGTCTTCGATATAATCTAAATCAACAATAAGTTTATCTTTATATTTTCCAACTCCAACTGCAACTGGTAAATCTAACATGTCTAAACCCGCTTCAGCAAGTGCCATTGATGCTGCACAAAGTCCTGCACATCTAGTTCCTGCATCTGCCTGTATGATTTCAATAAATACATCTATTACAGTTCCTGGGAATTTTTTTAAATTAACAACTTTATGTAGTGCTTGAGATGTAACTTCACTTATTTCTTTACTTCTTCTATTACCACCAGGTCTAATTCTATCAGAACCACTTCCTGAAAATGGCATCATATTATAATTACATCTAAGTACTGCTTCTTTTGGATTTTGTAAAAATTTTAAATGTAAATTTTTAGGTCCATAAACTGCCGCAATTGCAACAGTTTTTCCAATTTTAAACATTGCTGATCCATTTGCATTAGGAACGACATTTACTTTTGCTTCGCAAGATCTTAATTCATCTGCTTTTCTTCCACTTGGTCTTGCTGTCATTTTATTGTTCCTCCTTTATTTCTTCTTCGTTTTCTTTACTTTTTAATTCACCATAAATACTTACGAAATGTTCTTTTATTCTTTCAGTTAATCCTTGTGTATGACTTTCTTCTTCAATTTTTCTTATTGCTTGTGATGCAATTAATTCATTTTCAGCTTCTCCTTGAATCCAAACAATTCCATTTTGTCCAACAATTAATCTGCAATTTGTGTATTGTTTAATTAATTGTATCATGGAACCACCTTTTCCTATAATTCTTGGAACTTTAAAACTACCAACTTTAATTATTCTTCCATTGTGTAATCTTCTAAGTCCTGGTCCCTTTAAACTGATGTCAACTAAATTTTGTCCAACAAGATTAACAACTTTACATGCGATATAATCTCCTGTATTTAATATTGCTTTAAGGTCTGCACCTTTAGGAATAAATTCATTTGTTGCTTCTTTTAATGAAAGAACTGCTGAATATGCTGAATTAGTTTGTACTCTCCATCCGGATATTAGTATTTCTGTAATCTGACATATTATTGTATCTCCAATTTTTGGAAAATATTTTCCATTAATGTGAATCAACTTTATTGTTTTATCATGTAAATTTACAATTCCAACTCTATTCGCTAGAACTTTATCATCCATTTTTCTTGTACCATAACTTGCTATATATTCATCACCTTCTGCAAGTACTTCTCCTGGTACGGCTATTTTTTTATCTTCTGTTAATAAACCCATTTTATTTCTCCTTTATTTCATATGAAACGCTACCGTGCGTTAATTCATTTAGTTTTGAGTGCAACTCTTCTGACTTACCTGCTGGAACTTTTACTTTAATTAAAACATTTCCCTGATCATCCCACAATTGAGATGCATTAGGATAATTATTTTTTATAATTCCTATTGCTTTACTTGAGTATTGATGAGCGATTCTAATTTCAACTTCAAAAATTTCAAATTTAATTGGAATCAATGTTTTTATTTTTTTAATTATTTGTTCAATTTGAATTTCGTCAGTTTCATGTTCATTTATTTTTATATTTAATTCTTTAAAACATAATTCAATTCTCTGTCTTGGTATTGGAAGTTTTGTTTGTCCATCAATTGAGTTGGATACAATAGTACCAATTATTTTATTTGTTTTTTCTTCTAATAATGTTTTTTTATGATTTGCAGTTATTTGAATGTCTCCTTTTTTTATTATTTCAATTGCGATTTCTTCTATATTTGAAGTTCCAAATGTTTCAACAAATTTTGATTCAGTAGCTAAAAACCCTTTTTTTGCATCGGAAAAAATTTTATAATCTGCAATTATATCTGCTAGATCAACATTATCTCCTTGTCTTAATTTTAATGCGTTTTGACAGTCAACTAATACTTCAAAACAGTCTCCATTTTTTTTTAATTTTGCAATTATTGCTTTATCTACTGATACCATTTAAAATCCTATTTTTTTTAAATCATTTTTTCCCATTAATACAAATTTTTTATTTTCCTTTTCAACTATTCCAACTTCCATTCTTTCTAAACTAAATTCTTTTTCTAAAAATAATTTCATTGCTTTTATTCCTAATTTAATTCCTTCATTAATTGAAATATTTTCTTTGTATTCTTTTGTTAAAAATTCTTTAATCGTTTGTTCTCCTTCACCAATTACGCATGCTTTATATTCATTGTATATTCCACTTGGCTCTGTAATAAATAATCTTGCTCCTGTTGAATCAATTCCACCATAAATTATACTAATTCCAAATGGTCTTATTCCACCTGATTGCGTAGTATATTGTTTTAAATTTGCAGTGTCTTTTACAATGTTTAAAATATCAATATCAGTATCGTAAGTTAATTTATTTTGTTGTGCTTTCATTTGTGATCTTTCAATTAATACTCTTCCATCACTTGTGATTCCAGCAGTTGCTGCCATTATGTGTGTATCAATTTCGTGTATTTTATCTACTGATGAGCTAATTTTTAATTTATCTACTACCCTTTTGTCTGCTACAATAACAATACCGTCTTTACATAAAAGACCTATTGCGGATGTTCCATTTTTAACACATTTGTCTGCATATTCTACTTGTAGTAATCTCCCTTCTGGAGAGAATGTTGTAATTGCTCTATCATATCCCATTATTTGATGTTGTAAAGGTTGCATTTTTTCACCTGTTTTTTTTATTTTATATTTTTTGACACATTTTCTTTTTTTAAATCTGTCAATATTTTATTTAATACACCACTTGTTTTAGTGGAATGTATTATTATTGGTTCACTATTTACTTTTTTTATTGTACTTGCAATTGTTTTAATAAAATTTAAATATTTAGTATTTGTTTTTACTACAATATTACTTTTATCTGATAATTTTTTAATTATTTGAAATCCACTCATATTTAATCCAAATAATCCGATTATTTTTAATATAGAATTTTTAAATTCAATAATAATTTGATCTAAATTTATTTTGTTTTTTGATAATATTTTAAATAAAATGTATCTTTTTTTAATTCTCAGGCTTGGTTTTAATATTTTTATCTTTTGCATTTTTATAACAATGTTTTTCTTAATTTAAGGTTTTTTTGCCTATGGAAAAAATCCTTCCTTCTTCTCTCACTTATATCTCTTAGAATAGGAATTAATATATAAAGTTTACTTATAAGTAATATATAGTTTTATTGTGATTTAAACCATTTTGAGGCTTTTATGCCTTTTTGACCAATATATGAGCCTACTTTTTCTGTTTCTAATTGGTCTGTTAATACATAAAATAATTTCATATCGCTAATTACATAAACTCCTGGTTGAAATAGTTTATTTTCAAATACATCTATTTCATGCATTGGTTGTCCACAAAATGTTGTGTGGAATGCTGTTGCTGAATTAACGCCTGATGTTCCAAATACTTTATTTGGATATCTAGATAAAAATCCCATTAAATAATTTGGAAAATCAAAAAATTCACAACCCCTCATTAATAATGAATCAGGGAATTTTGCTCTAAATTTGCCATTTTCTATTTTTAATTCTTCAAAATAATCTGATGATTGATATTGAAATCCGTCGCTATTGTAAATTTTAAATAAATCAACTGTTAATGCCTCTTCCCTTCTTGCTCTTAATGCAACTGTTTCTCCTTCATTTCCTCTAAGGTCTACATAAGTTAATACATTATTTGGTTGTTCAATTGATCTTGGATCTGTGATGTCATCTTCCATTTTTTTTTTAATCCAGTCTTCGGATTGATATAATTTATTTAATTCAAAAAGATCCATTGGGCTTAAAATATTATGTCCTAAAAACCCTTGAGTTACATTTAGTGTTGGATAAATTATGGTATTAAAATCTTTTGAGTGTATTTTTACCCATATTTTTTTTTTATTTTCATCTTTATTTTCAAATGATACAAAATCTAATTGTCCACTATAGTCTGCTAATGCCTCTACTTGTATAAATGATCTTGCAAACCCGCTTTTTCCTGAGAATATTAAATATTTTGGTCCGTGAAATTTTTTTTCTTTTGGATCTGTAATCTGACTATCTACTGATATGTCTAATTGACAATAAACTATTCTGTTATTTGGAATTTCAAGTGTACCATCTAAATTTATTTTTGAAAATCCGCCACTACTTTCAATTATTTCTTCTATTGTTTGATTTGGACTTGGATAAATTCTATATTCGGGACTATTTGACATATATGCTTTTCCTGCTTTTAAAACAAAATCAAAACCATTTTTTGCTATTTGTTTTTTTAAATTTAGATTTCCAGAATCACTTTTTAATAAACCTTGATCTATAAAACTCTTTAGAACGTGGTTTCCTAAAATATAACCTAATTGTTTTGGTATTTTTTCTTCTTCTCCATTTTTGAAAATATTAATTAATGGCATAATTTAATTCTTTTAAGATCATTTAAATATATATATTATTTTTTATTATGTATTTTTAATTTTATATTTTATTATTAATTAGTTTTATAAATGTGTATTTTGACTCCTAATTATGGTAAGAATCGCTATTGTTGATAAGGAAAAATGTAGGGCTCCTACTGATTGTAATTATATTTGTATGCCTGTTTGTCCTATTAATAAAACTGGCGGGGAGTGTATTACAAAAGATGCACTTACAAATAAAATTAATATTGTTGAAGAAACGTGCATTGGTTGTAATATTTGTGTTCATAAATGTCCATTTAATGCAATTCAAATAATTAATTTACCTGAAATGATTAATAATATTCCAATTCATAGATATAGTGAAAATGGTTTTGCTCTTTTTGGTTTACCTGTTCCTTCTTTTGGTAAGGTAATAGGTGTCCTTGGTAAAAATGGGATTGGTAAATCTACTGCAATAAAAATTCTTTCTGGTTTAATTAAACCAAATTTAGGTGAAGTTGGTACTGAAGCGGAAGTTTCAAAAATTATTAATTATTTTAAAGGTACTCCCGCCCATAAATATTTTGAAGATTTAAATTCGAGTAAAGTTACTGTTTCATATAAGCCTCAACAAGTTGAGTTAATTCCTGATCAATTTGATGGTACTGTTATTGATTTATTAAATAAAGTTAATGAAAATGATAAATTAAATTTATTAATTGATAAATTGGATTTAACTAATATTTTAAATAGAACATTAAAACAAATTTCTGGTGGTGAGTTACAAAGAGTTGCTATTGCTGCTACTTTATTGAAAAAAGCTAATGTGTATATTTTTGATGAGCCGACTAGTTATTTAGATATTAAACAAAGAATTAAAGTTAGTGATTTAATTCGTGATTTATGTACTGAAGATATTGCAATTCTTGTAATTGAACATGATTTAATTGCATTGGATTATATGACAGATTTAATTTACATAATGTATGGTACTTCTTCTGCTTATGGTATTTTAAGTAGTGTGAAGTCAACTAAAGAGGGAATTAATGTTTATTTGTCTGGTTATATTAAAGAAAATAATATGAGATTTAGAGATCATTCCATTAAATTTGAAAATTCTGCTCAAGAGGGATTACCAAAATTAGGTAATGTAATTGATTGGGATAATATTGATATTGAATTGGGTGATTTTAAACTTAAGGCCGAGAGCGGTGAAATTCTTAAAAGTAATTTATATGGTATTCTGGGTGAAAATGGTATTGGTAAATCTACTTTTATGAGAGCTTTAGTTGGTGATGTGAAATTATCAAAAGGTAAAATAAATGGTAAAATAAAAGTTTCATATAAGCCACAATATCTTAATAGTGATAGTTCAATTAATGTACTTGAATTATTAACTGATCAAATTGAACAATTTGGTTCACAAGAGTGGGAATATAATTATGAAATTCCTCTTGACTTAAAATCATTATATGATAAAAAATTAAATGAATTATCTGGTGGTGAATTACAAAGACTATCAATTTCAATTTGTCTTGCAAAAGATGCAGACATATATTTACTTGATGAGCCTAGTAGTTATTTGGATGTTGAGCAAAGATTAGTTACAAGTAGATTAATTAAAGACAGATTAATTTCTATGGGTAAAACTGTATTAGTTATTGATCACGATTTATTATTTGTAGATTATTTATGTAAAAGTATAATTATTTTTGACGGTATTCCATCTAAACAAGGTGAAATTCAAAGTCCATTATTTATGTCTGAAGGTATGAATGAATTTCTAAAAATATTAGATATAACCTTTAGGCGAGATGAAGAAAATAATAGGCCAAGAATAAATAAAAGAAATAGCGTATTAGATAAAAAACAAAGAGCAGAAGGGAATTTCTATTTTATTTGAGTAAATCATTAATTTTTTTATATAATTTATTATTATTATTTAATTGTAAAATTTGATATTTGAAGTCAATACTAAATAATTCATTTTTTAATAACTCAAGTATTTCTAAAAACATTTTTTCGAAATTAATTTTATTTTTTTTAAAAATTATTTTTTTGTGATTTATTTTATCAAATACAATTTTTTCTTTTTTTGTAAAATTTCTATTTACTTTTACATTAATATGGGGTGATTTCTTCCCTTCATTTGTTTTAAAGTCTAAAACGATATTAAATATTGTTTTTTCTATTATTATATTAAAAAAACAAACCCTACTGTCTTTTTCAAGTTTTTCAATCCCTGGACATTCAATATCAATATTTTTTTAATCAATTATTTCTATTAAAAAATTTTGAACTTCGTTTGAGTGTCTAGTATATATAATGTTTGAAGAAAAATCAAAAATTGTATTCTTATGTATTTCATTTAATTCTCTAAATTTATGTCCAAAATCTTTTTTGATAATTTTAATATTTGGATTGACTCTGGATGTTTCTATTGACATATTTTCTGTATTTGCTTTACATTTTATTAAACTTTGCAAACCCTTAGCTTTTTAAATAAAAAAAATCACATTGTTTTATGTTTTATAAAAAAGTATTATTTGATAAGAAAACGGACAAACGATGGTTAGTCTCAAATTTAGATTCTGAGTATTCATGTAGCCATGGTTCAGTTTCAATTGAAGATTTAAATAAATCTTCTGGTTTAATAAAAACTAATACTGGATATGAATTATTTATTTGGGATGCTAATTTTTATGATAATTTCAGCAAATTAAAACGAGGTCCTGCATTAATTATTTCAAAAGATATTGGAGCAATTGTTATACATACTCTACCTAAACAAAATGGTGTTATTGTTGACGGTGGTTCTGGTTGTGGTGCTCTTGCTTGTTCAATGGGTTATTTATTTCCAAATGCAAATATTTTTTCTTATGATAATAGAGAAGAACATATTAAAATTGCAAATAAAAATAAACAACAATTAGATATTAGTAATGTTGAATTTATTCATGGGGATTTGCAAAGTGATATTAAACAAAATGAAATAGATTTGTTAACTGTTGATATGCCTAATCCAGAACTGATTTTAAATTCAGCTAGTAAAAAATTAAATACTGGTTGTTTTATGGTTTGTTATTTGCCATGCATTACACAAGTTCAAACTTTAGTTGAAAGTCTAAATGATTTTGATTGTTTTTATCATCAAAAAACTATTGAACTTACTGAGCGAGAATGGAATGTTGAAGGTAAAAAGGTTAGACCAAAACCAGTTAGTATTGGTCATACTGCTTTTTTAGTTTTTATTAAAAAAATAAAATGAAACTTAATGTTATTAATAAAAAAAAATATAATCCTTGTATTATGACAGGGTATAATTGTTTTGGTTGTTGTTCTGTTAATTTAACAAATATTAAAGAAGTAGAATGTGGTATTGATAAAAATACTAAAGAGTATTCTGAATTTAAAAATAATAATAAAGGTTTTAGAGATAGGTATGGAAAAGATGAATTAGACAAAAGTGGAATTTGTTTAAATTTAATTAGAAAAAATGATATTAATGAAAATGGTGTTTGTGCCATTTATCCTAAAGACAATACTGATGATTTGAGATTTGGTTATTGTAGTACTACATTTGAATGTGTAACTTTTATAAAAATACAAAATTGGAATGAAAAAAAAGTAAGTTTATTTAATTTTTTTATTAAGGAATTATTTGAACAAAATAAGTTGAACAAATTATCTTTTTCAAATGAAATGTATAATAATACGATTATAGATAAATTTGAATTATGGTTAAAAATAAATAATGAGAGAGATGGGATTTGAACCCACGAACCCGAAGGACTGGATTTTGAGTCCAGCGCATTTGACCAGGCTTTGCTACTCTCTCGCGTATTAAATCAGAAAATTAATTCTTTTTAAATATATGTATATGTATACTTAAATATCTAAATATTTAAAATATGTTTTTTTTGTAAAATATTATGAGAGTTACAAATATTGAATTAATTAAAATTGATTGTCTTATTAGACATTCTTTGATTAATTATTCTAAATTTCATGATCGTAGATTAGAATTTGGTCTTTTTAATACAATGCAATATACTCCTGATGGACCATATACTGCAAAAACAACTGTGCCGGTTTCTTTTGATGGGAAAAATATTGGTGATATGAATATTATTGGTTTTAGTCCGTTTGATGGGACTGGTAATGATAGTTCTTATAATTTAAATCAAATAGATTTTGGTAAATTTAAAACGGACAATTATGATTTAAATTCATTAATTCCACGATCAAAACAAGATATTATTTGTGAGGGATATTTTCCTCTTTTTTCAATAAAGCAAAATGGAGATCATTTTTTTCATTTAACACAATTAAAAGAATTATTACTTAAAAAAAATGGTGATGAAAAATATAGTATAATTCCTAATTTTATGTTAGGTCCTGATAAAAAAACATTAGATTTGATTCTTTCTGGTGCAAGATCCCCAAAGCCAAGGGTATATTTTACAACAGTTGATATAAATGGCATTGGAAGATTTGGTGATCCGCATTCTGTTTGTAGAACTTCTTCATTAGAAAAATATTTGCAAGTTGGTGGTTTTTTATCCATAAAAGATAAATGTAATCCCTTACTAAAATTAGCAAAAGAAAAATGGATATTGCCAAAAATGAAAAGGATGAGATAATTATCTTCCTAAATTTTTTAATTTAGATTCAATATCATCTAATTCATTTTCTAAATCATTTAGATTTGTTTTTTTACTTTCATGTATATTTAATTGAGCTTCAGTATTTTTTTTTGTAGCTCTTTTAGAAATAGGTTTTTTTCTAATTGTGTGTTTATCTTCTTGTTTAGTAGTTTTTCTTTTTTCATTATATTGAAAATGTGTTTCTATTTTTGGTAATTCTTTTTTTAAATTTTCAATCAAATAATTAATGTCTTCAACTAATTTTTTTAATTCAATTATTTTTGTTATTTTTTGTGATCTTTTAGATTTTATCAATTCTATTCTTTGTAATATTTTAATTGTACCTTTTGTAGATTCTAAAATATTACGTCTTAATAATTGATGATCTTCTATTCCAACATAATAATCTGATTTTTTCATTTTTAATTATTGAATAATATACTTTCACTTGTTTCAACTTTTTCTTCAATTTCTTCAATTTCGCTAAGCCATAATTCAATTTCACTATCTTCTTCTGCTTTTAAATTATTTATTTGATCGATTGTTGATTTTGCTTGATCTAATTTTGATCTAATTACGCTTATTATATCTACAATATCTTTATAGTCATCTATTTTGACATAAATTGGTACATCTTTCATTTATTTCACCTTATTTCAAAAACAACTTTATCAATATAAAGTAATTTTTTTTGTAATTCTTCACATGTGCTTGCAAGTTTATTTATTTTTGAATCTTCTTGATCTTTTATGTGTATTATTGAATTAAATTTAGATTCAATTACAGCCACATTTTTATTAATTGATTCTAAATCTTTAATCATTTTTTCATGATCTTTAGTTTCAATAAAAATGGGCTCTACATTATTTCTATTATATTTTTTTTCTCTTTCTTTTAATTTTATGTTTTCTTCAATTTTTGAAAATAATTGTTCATTATTATTTATACTTTTTTGTGGAATGTCATGATTAACTGGAATTTGATTGTGTATTGGTTCATTATTTACAATATTTTGTGTATTGTGTTTAAATGAATTTAAATCTTGATTTGTATTTGTGTGATTGAAATCTTGAATTAATTCTTTATTTCTATTTTCGATATTATTTATGTCGGGTTCAACTTTTTCAAGACCTATCTTTCCAAAGTGAAAATTATTTTTAGATTCATTACTATTAGAACTTAAAACTGGTGCCTCTGGCATAGTTTCTAATAAATCCTTTTCACTAAGTTCCTTGTCTTGATTCTTTTTGCCCAGAAAATCTAGAAATCCGATTTTTCAACCTCTTTTTTTTATTTTTTTTGTATATTTCTATTATTGTATGTAATCTTTTTAAATCTTATGTAAAGATTTCAATTTTATATCAACAATCTATATTTAAACCAAATGTATATTAACCATATGAAATTAAAAATAATATTAATAATGGTGGCTATTTTTTTATCATTTTTACATATTAATGCATTAAATATAAGTAGTTCAAATTTTACTATTTTAAATAATAAATTGATTTTAGATGATTTTGAATTTGAAAATTTAAATTTAATTATAAAAAATAATACTTTTTTATTTGTAGAAACCTGTACTTATGCCCCTAGAATTAATGAAACATTTATTTGTATTAAAAATAAAAATATAAGTATTAGATATTTTAATTTGACTGAAACGATTGTTAATAATACAAATATAACTTATAATAATAATTTGAGTAATGATAATATTAGTAATAATATTCAAATAAATGTTTCAAATAATTCTAATTTGACAAATATAAGTATAAATAAAACAAATATTTTAATGAATGAATATTATGATTTTAATAATAAAATTGTATATGAAATAAATATTTCTAATAATACAATTGATAAAAATGGAATTTATATTAATTTGAGTATAATAAATTATTTTGATATAAATAAAAATATTGATTTAATTTATTATTTTTATAGACATTCTCAAAAATATTCTAAAGTTTATGATAAATCATTTATTGTAAATAGTCGGAATATTACTAAGATCTCTTTTAATTTATTTCCTGAAAGTATAAAAAATGATAATTTTAATTTGAAAATTAAATTAAAAAAAAGTGAACTTAAGACATTTAAGGAATTTAAATATGATATTTTTTTTATTAATAATTCAATTAAAGAAAATGATATTGATGAATTGGTGAACGTGTATATTCAAAATGATAGTAATGAAAATAAAATACAAATTAATGATATAAATGAAATTAAGATAATTAATAATTCAAATAATTATAGTGAATTAAGTTCTTTTTTTGAGGAATATGGTGAAAATATAGAATTTATGGATGGTAATAAAATAAAATTAAAAAATAATGATATACTTTTAAATGAATTTAATCAAGTTATGCCATTATTAATGCAAAAATTTGAAATAGATGATAAATTAAATTCTAAAATTAATTTAATGGATTTAGTTGAATCTAAAAAAAATATACAGTCTTTTATTTCATATAAGGTCATTATTGTGGGTTCTTTTTTAATTCTATTATTGAATTTTTTTGGTTTATTTAAAAAGAAATTTTTTGATTTTTAAATGAATCTCATTTATAAATAAAAAATGTAAATTTTATCTCATTAAACTTATAAATTGAGTGTTTTTTGAAACAATATGGTTGATAGATTAGATAAAGACACAATTGAAAATTATTATTCTAAGGGATATTTACATATTCGATCTACTGTTACAATTATTGGTAGACCAAAAGAACATATAGAGGACACTTTGAGTAAATATTTAGAAAAGTTATTTGAAGATAATTCTATTGTATCTGTTCAAGTAGATTTATTTGAAGCAAAAGAAAGTGAAACAAATGATGGTTTTTATGAATGTTTTGCAGAGTTTGAAGCATTATTTGAAACTTTAGATAAGGTAACTCAATTTGTTATGAATTATTTGCCTGGTACAATTGAATTTATTTATCCTCAAAAATTAGAATTTTCAAATTTAGATGTGAATACGATGTTTACTAATTTATTACTTAAATTTCATCAAGTTGATAGGGCATTAAAAGTACAAATACTAGAAAATAAAAAATTAAAAAAAGAGGCCAATATTGAAGAACAAAATTGAGGCGATTTTATTTGCTAGAGGTAAGATTGTATCTATTGATGAATTAAAACTGTTATTAGATTCAGATGCAAGGCAAATTAATAAAGTAATTTCTCAATTACAAAAAGAGTATGATGCTCGAGATACTAGTTTACAAATATTAAAATATCAAAATGGGTTTAAATTATCAGTTAAGTCAGATTATTTTGATTTAGTAAAAAATCTTATGCCTGAAACTGAAATGCCAAAAGCAGTAATTGAAACATTAGCAATCGTGGCTTGGAAACATCCAAAAATAACTCAATCCGAAATTATTCATATTCGTTCATCAAATGCTTATGATCATTTAAAATATTTAGAAAAAAAAGGTTTTATTAAAAGAGAGCCTGAGGGTAAATCTAAACGTATTATTTTAACTAGTAAATTTTTTAATTATTTTGATATTGATGATTTAAAAGCATTTCAAGAAAATTTGAATAAATATGATGAATTAGAAGATGCTTATAATAAAAAAATAAATGAAGTAAAAGATGAAGAATTAAAAATTAAAACTTATAATAATTTAGTTAAAAAAGTTTTAAATGAAGAATCAAAAAAAATAGATAATTTGAAAAATAAAGATATGGATGATGTTTTAGATAAAGAAGAAGAAGATTTAAAATTAAAAGGTGTACAAGTTAAATTGGATGATTCTAAATCAATAGATTCGGAATTTTTATCAAAAAAAATAAATGAAGAACTTGAAAAAGAATATGTTGAATTAGAAATTAAAAAGAAAGAACTTCAAAAAGAATTTGACGAATTAGACGAGAAGAAAGAATAAGTGTGATATTATGGAAGAACCTTTTGCTAAAGAAATATTAGAATGTGATATCAATCATGAAGTAAAAACTGCATTTATGTCCTATGCAATGAGTGTTATTGTTTCAAGGGCATTACCTGATTTTAGGGATGGTTTGAAACCAGTTCATAGACGTATAATTTATAGTATGAATCAAAATAATTTATTGTATAATAAATCATTTACTAAATGTGCAAGAATTATAGGGGAAGTTATGGGGCATTATCATCCTCATGGTGATATGGCAATTTATGATTCTTTAGTAAGAATGGCACAAGAATTTTCTTTGCGTTATATGTTAGTTGATGGTCAAGGTAATTTTGGTTCTGTTGATGGGGATTCTGCTGCTGCTTATAGATATACGGAAGCTCGACTTAAGAAAATTACGTCTAATTTAATTGAAGATTTAAATAAAAATACAGTTGATTTTAAATTTAATTATGATGGTAAAGAAAAAGAACCAGTAGTTTTACCTGCTAAATTTCCAAATTTATTATTTAATGGTTCAACTGGTATAGCTGTAGGGATGGCAACCAATATTCCGCCTCATAATTCTACAGAAATTTTAAATGCATTAATTGCATTAATAGAAAATCCTGATTTGGATGTTGAAAAATTATTTGAAATTGTTAAAGGTCCTGATTTTCCAACTGGTGGTATTATTTGTGGTGTGAGTGGAATTAGAAGTTATTTTTTAACAGGTAAGGGTAAAGTTATAATTAGATCAAAAACTAGAATTGAAGAAAAGAACGGTCGTGAAATTATTATTGTTGATGAAATACCTTATATGGTAAACAAAGCAAATATGTTAATGGCTATTGTTGATTTAATTAAGGATAAAAGAATTGATGGTATCTCTGATATTAGAGATGAGTCAAATCGAAATGGAGTTAGAATTATTATTGAAATTAAAAAAGGTGCAGAAGCTGCAGTTGTTTTAAATAAATTATTTTTATTATCTAGATTACAAGTTAGTTTTTCTGTTAATATGTTGGGTTTGAAAGATCAAATCCCTTGTGTTTTAAATTTACCTCAAGTTTTAATGAATTTTAATAATTTTAGATTTGAAGTTGTAACTAGAAGAACTCAATTTGAATTGGATGAATGTTTAGCTAAGCTTCATCTTGTAAGGGGATTAAAAATTGCAGTTGATGATATTGATGCAGTTATTGAATTAATTAAATCATCAAGTAATTATAATGATGCTTTAGTTAAATTAATGGATAAATATGGGTTAGATGAAATTCAAACTAAGGCAATATTGGATATGAAAATTAGTAAACTTACTGGTCTTGAAGTTGAAAAATTACAGCGTGAATTAGAGGAACTTGAAATTCTTAGTGAAAAATTACGTTTTATTTTAGAGCATAAAGAAGAAATATATAAAATAATTAAAGAAGAATATTTAGAAATATTAAATAAATTTGGTGATGAGAGAAAAAGTGAAATTAGTTATGAAGAACTTGGTGATTTTTTAGATGAAGATTTAATTAAAAAAGAAAAAGTTGTAATAACAATTTCTAAAAGTGGTTATGTTAAAAGAATTCCTTTAAATACATATAAAATACAAAAACGTGGTGGTAAAGGAGTTATTGGTGCAACTACTCGTGAAGAGGATGTAATTGATCAAATGTATGTTTGTAATAGTAATGATAATTTATTATTATTTACTGATACTGGAAAAATTCATTGGTTAAAAGCATTTCATGTGCCTGAAGCAACTCGTACTGCAAAAGGTAGGGCTGTTGTAAATTTAGTTAGATTGGCGCCAAATGAAATTGTAACGAGTTCAATTATGGTAAGTGATTTTGATCCTAATAAGAATTTGATTTTTTCAACTAAATCTGGATTATTAAAGAAAACATCATTAAAGTATTATTCCAAACCGCGTTCTGGTGGAATTACAGCTATTAATTTAATGCCTAATGATAGTGTTGTTAAAGTATTATTAACTGATGGGAGTGATAAACTATTACTTGCAAGTCGAAATGGTTTAGCTGTTAAGTGTAAAGAATCTGATGTGCGTTCTGTTGGAAGAAATAGTAAAGGTGTTCGTGGTATTAGATTAAATTCACATGATTATGTTGTAGATTTTATGAAAGTTTCTGATGATCAAGATATCTTAACTATAACTGAAAATGGTTATGGTAAAAGAACTAAGTCTACAGATTATAGATTAATTAATCGTGGTGGTAAGGGTGTAATTAATATAGTAACATCACCACGAAATGGTAATGTGTGTGCAGTTCGTCCAATTAATGGTGATGAATCTATACTTTTAATTTCTAAAAATGGTATACTTATTGGGGTTAAAGCCTCTGATGTTTCAACAATTGGAAGAAATACTCAGGGTGTAAGGATTATGAAATTATCTCAAGGTGATGTTTGTATATCAGTTACAAGTTTTAAAAATGAGGATGAGAATATGGATGAAAATTTAAATATAGATGACACTAATGTTGAATTTAGTAGTGAGAGTGAAGACACTAATGTTGATGTAGAAGTAAAAGATAATGAATTAGAGTTAGATGAAAATGATAAGATAGTTAGAGATGAAGATTTTAATCAACATCATGCACATTCTGAAAATATTGAGAGTGGCGATAAAAAATCAGATGACTCTGAAACTAGTAGTGATGATCAAAATTATTCTGCAGAAGACGAAGAAAGTTTTGATGAATCAAATATGGATCGAGAAAACGAGAGATAATAATTTTTTTATTATTTATATTTTTTTATAATAATTTTTATAAGTTAAATTATTATTATTATTTTATTATGGTGATATTTTTTGACTAAACATACTGGGCCTGTTTTACATAGGGATTATAATTCTACTGTTAATTTTTTATCAAGTTTATATGGTACTGATTTATTTGGTTTAAATATTGGACAAATTAATAGTTTGTCAGAATTATATGAGCAAAACCCATTAGCTAAAAGTTCTATTTTAAAATTTAATGGTCTTAGGGGTAAAATAATTAAACCCATTTCTTTGGAAGATCAATTATCTGTGAGTGAGGTAGATTTTAAACATTTTGTTGATAATTCTAATGGCTTATATGATTTTTTAGAAATATTAGAAAGTGAATATGATCATGAACTTACTAATAACTGTGGTACTTCAAATTTAATGAGTTATTCAAAATTAAGTGATTTAATAAAACCTAAAAATTCAAAAATAGTTTTTTCTATTTTAGGTTATTTACATAATTTAAATAGAACTGGCCATGATTTTACTGTTGACCCATTTGTAATTATTAGTTCACTTGATTCTCATTTAAGAGAATTTGAGCCAGTTAAGGAAAAATATTATGATCTTTTAATAGAATTAAAAATTGAAAAACAGCATAAAAATTTAGAATTACCTGAATACAAAAAAGTTTTACAATTTGATGGAAAATCTAAAAATATTAATTTATTTTTTGATCAGATAACAAGTTTAGGTTATATTGTTAATCGATGTGTTAATGTTTTTGAAAATGTTTGTGAGGTTTTAGATCCAAAATATTTGTCATTATTGAATGTATTAAATCAAACTAATTTTGATTTATCTACTACAAAAACTCCTTCAAGATTTACGAATTCAGCATTTCGTTTTTTAAAATACATGGGTGATATTGATGGTTTTGAAAATTTTCTAACAAAGTTATCAGATTATTCATTTGTTGATACGAATTATGCTTTTGATGGATTAAATATTACTTCTTTTGAAAATATGAATTTTGAAAAAACTATTGAGTTTTGTGAAATTGCAAAAAGTTTAAATTCAAAACCAATATCTTTTAAAACTTTATTTGAAAATAATAAAAATATTTCTAGATTTGTTGATGAACAAGATTTAATTAAAGAAATATTTTCTGTATTTGAATATGATGATAATTTAAATAATTTTATTTTAAATTATATGGGATTTATTTGTGATGATTTTCAAAATTATAAAACGATGTTATTTGAAATACGTGATAAAACTGGTAAAAAAATTAAAATGGATTTTATTAGAAATTCAAATGTGAGTACATTTTTTCAAGATTATGATTCTGGAGATCAAAATGCTAAAGATGAACTTATTGAAAACTTTAAACATTTTTATTCTGATGATATAGCTCATGAGGATTTGAGTTTAAATTAATTTTTTATTATTTATATTTTTTTACAATAGTTTTTATAAGTAATTTTTTATTTTATTTTATATGTCTTTAGAAACAGAAGTTGTAAGTTCAGAAACTCTTGGGGGTACTTTTAATCAGACTTATTCCTTTCTAGAGAAAACTTATGGTAAAGGTGTTTCTAAATTAAGAGTGGATAATATTTTAAAAATTGATTCATTATATAATAGATATCCACAACTTAAAAAAAAAATTACTAAAATTAATGGTTTGAAAGGGTTAATGGCTGAACCTTTTTCTTTAGATGATCATCTTTTAAGAGAGGGAGAATCTATTGATAATTTTAATTGTTTTTTTGAAAATATTTATGGTTTTTTAGAAAAAATTGAATCTGATTATAAGGATGTAATTGATAATTCTAAAAATCCTGTTTCAATTATGGATAATCCTTTTAACTTTGCTCATTCAAATGCTAAAGAAAGGTCAGATATTATTTTTTCAGTTTTAGATTATGTGAAAAAAGTAAATAAAGATGGACATAATTTTAAAATTAATCTTTCCACTCTGGTTAGTGATTTTAATTCATTAGTTGCACTTAATGATAGGAAAGAACAAATTTATAATACTATTATTGAATTAGGTGTTTCAAAAGAATATAATATTTTTTACTTGGGTGATTATAATAAATTATTAACATATAAAGATAAAGCAGAGAAAATTTCAACTTTTATTTCTCATGCCAAGAGTTTGGATTATAAAATTGAATCTTGTTTTGATACTTTGGATGATGTGTATGGTATAGTGGATTCTAATTGTATTCCTTTATTGACTACATTAAGGGGATGTGATATTGGAATTTCAGAAGACAGATCTGATTCCGACTCCCGGGATATGAATAAAAACTTTTTTTATGTTTTAAAAAAAATGACTCAGAAACAAGGTTTTGAATCTTTATTATCTTATATGCAAAAATTACCTTTTTTAAAAACAGATATGACTTTTTCTAGAGTTAACGGTGAGGGTTGGTTAGAGAGCTTTAATGTTGAAGCAACATTAGATTTTTGTAAATTTGCTGAACAATATGGTGCCAAAAATTTAAGTTTTAAAAGTTTATTTTTTTATAATGGCTTTGTTGAAGTATTTTCAGAACATAAAAATAATATTATTAAAATGTTAGATTGTTATGATTTTGATAAAAATTTAAGTGGATATTTACAATCTGCTGAATGTTTAAATTATACTTTTGGTATTTATGATGATGATAAATTTAATTATGAAAAATCATTAGGTTTTATTATTAGAGATATTTGTAAAAAGACTAATAGAAAATTTAAATCAAAATTTGGTTCTGGAATGACTATGTTTTTAAATTTTATAGATGAATTTTCACCTTTTACAAAAAATTATGAGGTTGAAGAATTTATTGATTTTTTAAATAAAAATGCAGAAAAAGAGGGTGTTATTACATATAATGATGTTGATTCTTTTAAAAAACATTAAACTCTTTTATATTTAATTATTGTATTGGTTTCTTTTCCAATTATTATTTCATGTTTACTTTCAATTTTAAAGCCAATGGGTTCTAAATAATATCTGTCTGATTTTAATATTAATACTAATTTACTTTGTTTATTTTTTTTTAATAAGTAGTCAATTCTAATCCAAAAGTTTTCTATTTTTTTCCCAATTTTATCACTTTCTGTTTTTTTAAATGAAATGTTTGGTTGTGTGATTATATAGTCAAATAAATGTTCTTCATATTTTATATCGATATCATTGAATAATATTTTTGTGAATTTTATTGGTTTTAGGCCCATTACTTTTGCATTTTTTTGTGAATATAATACATTTTTTATTGCACTGTCATGGCCTATGAATTTGGTTTTTAATTCTTTTAAATTGTCAAGTGAAATAATATATTCTAATATATTAAAATCAAATAATTCTTTGATTTTTAAAATACCAAATATATTCTTTCTATAATAATTTGTTGACATTTCTTTTTGTGATAATGCTGATTCTATTAATGTTATTCCTGTATCACAAAAAGGGTCTAATATTGTTTTATTTGAAATCTTTTTTTCATTTTCAATTAAAATTTGATATGCGGCATATGCAATATTTCCTTTTAGTGAATTAATTGAATTGTGTAATTTATATTCTCTTTTTGATAAATCTATTTCTGAAAAATCAATTCCTACCATAAAAATTGTTTTGTCAATATATCCATAAAAATTAATGGTGGGATTAGATAAATTTACTTTTATATTATATTTGGTACATATTTTTGTTCCAATTTCTCTTTCTAAGTCTTGTTTTTTATAATTTTCATTTTTTGAAATAAACTTAGTTGCCATTGATTGAGTTTCTAAATTAAGTTTTTTTATTATTGAAAATTCAGAATCATTAATTTCAAAAGAGTTTTCAAAATCACTTAATTTTATTTTTGTTAAGACTAATCCAATTTTAAAGAATGATTTTGATAAATATATTAATTTAATTATTTGTTTATAGTTTTCTACTTTAAAAATTAAACAATTATTTAAAGTTTCAATTTTATCTGTATTTAAAAGAGATTTTATTTCATCTATGGCAAAACGTTCCATGCCATTACTTATTATTCCAAATGCTTTCATTTATGCTAGTATCTCATTTCTATTATTATTGTTATTAGATTTCATTATATTTTTACATTTGGGATAATTATTACAACCATAAAATGTTCCATAAATTCCTTTTCTTTTAATCATGATTCCATCTTTACACTTATTGCATGCACTTCCTTCAATTTCATCTTTTTCATTTTCTTCTGATTCTTCTTTTCCTGGACATTCTTTATTTATACATAAAATTTGTTCGATTTTTCTTCCTTTTTTATTTGCTAATTTAATAAGTGGATAATTATCATGTTCACAAACTTTGTCTGTAGATATTATTTTTTTTCCACTAGGTATACTAATTGTAGTTTTACATTCTGGATAACTATTACATGCAATAAATTCTCCAAATTTTCCTTTTCTCAAGGATAATTGTCCCATTTGACATTTTGGACATAATCCATAAGTATTTTTTTCATTTAATGCAATAATATTGGCTTGATAGATTTCTTTTCCAATTTCTTTTTCTTTTTTAATAAATTCTTCACAAACTTTTTTAATTATTTTTTTTGTTTCGTCTAATACACTTTCATATTGAATTTTTTTGTCATATATTTTTTGCATATCTTCTTCTAATTTTCTAGTCATTTCTATACTTAAGATTTCAGGACAATATTTTTCTAATGTTTCAACTATTTTTTGTCCAAGTTTTGTAACTTCAATTGATTTACTATCTAAATATTTTCTTTGAAATAATTGTTGTAAAATTACGGATCTTGTTTGTTTAGTTCCGATATTATTTTTTTCAAGTGCACTTATTATGCTAGCTTCAGTATATCTTTTTGGTGGTTTAGTTTCTTTATCTTCTTTTATTGTTTTTTTATTTATTACGATTTCATTTTTTTTTATATCTGGTAAAGTAACTTCTTCTAATTTTAAATGTGGTCTGTATAATTCATACCATCCTTCTTCAACTGTTCTTGTTCCTTTTAATATGAATGGTTCTTTTTCAAAATCTACTGTAACTGTCATTGTTTCTCGCGTAGCATCGCTTCCAAATACTGCAAAAAACCTTTTTACAATTAAATCATATACTTTTAATAATCTTTTATCTTCAGTACCTGGTAATATACCTGTTGGATATATTGCCGGGTGTGCAGGATCATCTTTTTTTCCTTCAGTTGGTTTCAAATCTGTACTTAATACTTTTTTTGTTAATTCTAAATATTGTTTTGATCTTGCAAGTGCATTTAATATTTCTTTTAAATCTAAATCTTTTGGATATTTTTGTGAACTTGTTCTTGGATAACTTATCCATCCATTTGAATATAATTCTTGTGCAATTTTTAATGTATCTTTAGGTGGTATTGCAAATACTTTATTTACTTCTAATTGTAATTGTGTAAAATCAAATGGAACTGGTGGTTTTACTTTGAATTTTTTTCTTGTTATGTCTGTAACTTTACCGTCTTTTTTATTTACTTTATTAAATATTTCTTTAGCTCTTTTCTCTTCTTTGAATTTTTTTTCTTTATGTTCTAATTCTATATTATTTTTATTAATTTCACCTTGAATTTTTATTTCATGATATGGTTCTGGTATAAATACAGAAATTTCTTTTTCTCTTTCATTTAGAATTTTTAATGTTGGTCCTTGTACTCTACCTGATGACATTTGAATATGTTTTCCAGTAGCTGCTTTAATTGAACTTGTTAATGCTCTACTTATATTAATACCATAAAACCAATCTAGAAAATGTCTTGCAAGTCCTTGTTCTGCTTGACCCCAATTAAGTGTTTTTTCTTTATTTTCATATGATTTTTTTAATGTTGGTGCGGTAATTGCAGAATATTTCATTCTTTCTGCATCTTTTTTTTTACATGCATATTTTAATACATTATATCCAATTATTTCTCCTTCAACATCATAATCGGTTGCAATTGTAAATTCGTCCGCTTCTTTTGCTAATTTTTTTACTGTCTCAATATATTTTCTAGTATAATCTGCATCTTTATTAATTTCATAAATTGGTTTCCAATCACAATCAAAAATTGGATATTTATTTTTTACTTGGCTATTTAATACATATAAGTGACCTGCTGCAGCTGCTACTATGATTTCTTTATCTTTTATTTTTAGCCTATAATATGGAGTTCCCTTAAAATTTTCTTTTTTTGCTTTTCCACCTGATATTGCACCTGCTATTTTTTGTGCAACACTTGGTTTTTCAGCAATTATTAATTCAGTCATATTTTTGTTAATTTTTTTTCTTTTTTAAATTTATTCAATTTTTAGCAATATTATAAGGATAATCTTTAAATATTGGACAAAAATCTTAATTTTATGATGAATTTAAGAAAAATATGTTTTTTTTTAATATTAATTTTTGCTTGTAATTTTGTTTATGCAGATGAATCGGTTAATTTGCTTGCTGTTACTGAAATTGGTTTAAATAATCAATCTATTGGAACTTTGGCAAAAATGAAATTAAATGTTAATAATGGGACTGGAAATATTTTTTTTAATACTTATCCTTTTTCGAGAGTAGATACGCAAATATCATCAAGAATTGCAAATAGTGTTGCTTGTAAATATATTTCTGATTGCAATCATTTTGATTATTACTATACTATTGACATTGATAGTTCATCAATTGGAGGGCCTAGTGCTGGTGCTGCAATTACTATTCTTACTATGTCAAAACTATTGAATCATGATATACATGATGATTTTGCAATAACTGGTACTATTAATAGTGGTGGTATTATTGGGCCTGTTGGTGGTATTGAAGAAAAAGTTAAGGCTGCAATAAATTCTGGTATGAAAAAAATTGTAATACCGTTTGGTGAAAATAAAATTAAAAAATTTAATGAAACAATGCCAAAATTATATTTTGATAATGTAAAAGTTTTTTTTAAATCATATGAAAATTTTTTATTTTTTAAATCTAAATTAGAGAATGATTCTTTATTTGTATTAAACAATTCAAAACTTGATAATTTTAAAAAATCATTTAATTATACTGATGTTACAATTGTATATTTAAATCATGTTGAGCCTATTTTTAAAATTGATTTTAAAACTGAAGTTAAGGAAACAGATCAATTTATTTCTTTTTTTAAAAAAAATTATAAGGCTCTTATAGAAGATTCAATTATTGAATATAAAGATGTTAAATTTGATTTTTATGTATATAATGATAGTGTGAGTTTTAATAATATTTCAAATTTAAATGACTTAAGAAATGATTTTGATTATACTTTTGATTTAATTAAATTTGCTAATGAAAGTGGGGCTGATTTAAGGACTTATGTTAATATTCTTGATGCATATGAATTTGCAACTGATTTAAATATTTTAAATGATACTTTATTTAATTTATCAATTTCAAACAAATATAGTGATATTTTAAATATTCTTGCTGATGATTTATGTGGTGAATTTAATAATAATTTTAATGATTTTAATTTTGACAATTTAGACTATGAAAAATATAGTAAAATTGACTTCATATTTAAAGATAGAATGGATTTATTAAAAAATAATTCTTTAAAATTAAATGAGCTATTAAATTTAAAAAAGTATTATACTGCTGCGAGTATTTGTTTTTCAAATAGTATTGCTTTGGAATATATTAAATCAATTATTAATTATTCTAATGGTTTAAATGAATATTCTTATTATTTTAATGAATCTGATATACTTTTGAAAAATTATACAAATTATAAAATTGAAATAGATAATTTGAAAATTAATAGTTTAATTGATATTCAAACAATTGGTATAATAAAAAATAGATTAATTGAAGTAAAGACTTATTTAGATTTTTTAACTCAAGATTCTTTTAATAAAACACCTGATGTTTATTTGTATAATTTGGCATTTGCTAAATATAGATTTAAAACTTCAAAGGCTTGGAAAGTTTTTTATAATACTGATAAAAATTTAAATTTAGATGATTCTGTTTTACAAACAAGTTGTAATTCAATTTTAGTTGAAGTTCAAGAACGATTTTCATATATTTCAACAATTTCTAATTTCCCTTTAAATGATTTAAAAAAAGAAGTTGACAATTTAAATAAATATTATTTTAGTGGTGATTATGTTCAATGTATTTATGAGTCGGCAGTTTTGAAGGCAAGATTAGATAATGTTTTAACTTCTGGTGGTTTTAGTACTGATGATTTAATTGGTTTTTATGAAATTAAAAAATCAATTGTTAAAAATAATTTAAATGCTCAATTAAATAGAGGTTATTTTCCTATTTTAGGATATAGTTATTTAGAATATGCAGATTATTTAAAAAATGATTCAATAGGTCAAGCATTACATTTTTTATCTCTTTCACTTGAATTAAATAATATTGATATTTATTTGCCTTCTGATTTGAAAAGTAATGGTTTTTTAAAACCTGCAATTAATGGGACTTTTATTATGGACAATGGTGATTTAAATAATTCATTATATTTTAGTATTTTTTTGATTTTAACCTTATTAACTTTTTCATTTTTTAGAAGAAATACTATTAATTTAAAATTAAATAATGAACAAAAAAAACAATTAGAAGAAAAAAATAATATTTTAGTTGTAAAGCCAGAGCATGATAATTTATTATTTAATGAAAAATTAAATAAAAAAATAAATACATTTTCAAATGATTTATTTGATGATAGTTTTAGAAAAAAATTATTTAAAAAGTTAAAAAAATAATTATTCAATTATTTTAGTAAATTCATGTTTTTCTAAAATTATGGTTTTTCTATCATCATCCCATGCCATATTTTCTAAATTGTCATGATCTTTATTTTTTGCTTGTTTAATTGGTTTTATATTTTCAGTATAAAATTTATGGCTATTAGGTATATTGAAAAATGCACTTACTAAAAATGAAGATATTAGTAAAAGTCCATCAACTCCCAAATTATAGAGTATTTCAGTTCCTGATGATATGTTTTGATTTTGTAAATACTCCATTATACCAAACCCAATTACTGTTCTCAGACCATAACCTTCAAGTTTTATTTTTTCTTGATTTTGTAAATTCACAATTTCAGACATTTTATCTTGTTGATTTTGATTTAATAGTTGTTCATCTTCTAATTCAGCGAATGATGTATCGATTGCGCTTGTTAATGTTATTTTATTTCCATAATTTGTACCCAAACCAGTTGATACTGCTGCATATACATCCGTTAATCCAGTTAGATAAAGTAAATAGAATGGTACTGTGTACACTGCTATATTTTTCAAATCATCCACTGTTTCTTTTGGATTGAATAGTGAACAAAGGGTTTGAAATTTAGTTGGTTCTGTTATTTGTTGTTTAAATGCACATATTTTTTTATAACTTAACATGACTTTTATTTTTTATTTGAATTTATAAAAATTATTGTGTTTTTATACATTTATTGAAAATTAATTTTTTCACATATCTTTTTTAGAATTTGATTATTAAAAATTATGTGACATGGTTCTATATTTTCTGTTTCATTATATCTTCGTTTTATATCAATTTGAATTCTTTCTAAATATGTCATATCATGTTTATGATTTTTATTTAATTTACAGTTTTTTTTTTTTCCTATTGCACTATATCCATTTTTTGAATAGAATTTATATTTGTGACTTATGTTTTGTGCAAGTATCATAATATATCCTTCTTTAATGTGCATATCTATGTGATCTAAGTTTATTGTTGGTGCTACATTTATGTCAGATAAATAATTTACTTCAACCCATGTATTTGTTTTTAATGCACAATGTGTTATATTTTCAGATTTTGCAATATTAATTATTTTTAAAGATGTTGGATTTGAATTTCCTGAATTATTATCTATTTTTATTGTTGTGCTAATACTTATGATTAAAATTATTATTATTGATATTATTGCAATGTATTTATTTACATTAATATTTGATTTATTTTTAATTAATTCATTTATTCCATATGTACTATAATAAACAACTGGTAATATTAAATTAAATAAATATCTTTCAACTTTTACTGGTACACTAAAATAGATATATAATTGTATTATGGTATATATTATTAAAATCCAATCAATTTTTTGTAATGGTTTTATTTTTATTTGTTTAATTCTTTTGTATATTCCATAAATTAAAAATGGAAATATTATATTAAATAAGATTAAAAAATTACTCCAACCCCATACAAATGGTAAATAATCTCTAAATTTTACGTTTAATGCATAACCATTTGCAATACTGGTAAAAAAATTCCCATAATTTATATAATTAAAAATAAACCATGGTGCAATTATTATTGCAAATGTTATTATATTTTTTATTATGTTTTTCTTTCTATCAAAAAAAATAAAAATTGCATTATAGAGATTGGTATATTTACATAAAAAAGCTAATCCAAACATATATCCACTATTTTTATTATTTAAGATTAATGTTATTGAAAATAATAATAGGGTTAATGATAATAATTCAGTTCCTTCTATTAATCCCATTAAAAGTGTAAATGGGTTTAACATAAATGCATAAAATAATATTTCATTTAATTTTACTGTTTTTGAAAATTTATAACATGCAATTGCAAAAAGAGATGATATTAAAAATATATATATATATTCAGCAAATTTACTTGCACCAAATATCATTAATGTAAATGGCATTAATGGTGCCCGATATGTTTCAAAATATTGTTCTAATCCTAACCAATATTTGGCATTAATTACATAGGCCGCAAAATCCCAACCCATATATATGTAGTGATATAAAATAAAAAATATTGTAGAAATTATATATAATATTAAAAATTCTTTATTTTTGAGTATGTATTCTTTAATCTTATTATAACTCATTTTTTATTTTTGTCTTCAACACTATCTAACATTATTTTTGCGATATTTCTTATGTGGTCGACCATTTGTACCATGTGAATTGTACTTTCGGGTGTGTTTTTATTATTTATGATCATTTCATTGATTTCGTCTCTTTCACCCATTATAGTATTTGCCAATTCTTTATTATTTGTAAAATATGCTTTCATTGTTTTTAAATAATATTCTTCAATTTTTAGGAAAGTATCTTGTAATTGTTTTGTTTTTTTCTTTTTAGAATCAATTTCTTTTGCTATTTTTTTTACAAAATCTGCAACATTTTCTAAATTTTTAGCCATCCACCATACTGATATGGTTTCTACTGAACTTAATTTATGTGGATTATTTGGATTTTCAAGTATTGATCTTATTAATCTTGATACTAAAAAATATAATTTGTCTACTTCATAATCTCTAAATTCTAGTGATTTTAATGTTGTTAAATCATCATTTTTAAGATCAATTATCATACTTCTTGCAATCATATCCATTCTTCTTAATGTATTTGCAATTGAAAATTCATTTAAATTTAAATAATCTCTAGCAACTAAACAACTATTTGTTTGTTCAGTTACTTCTAATGCTAAAAAATTTTGTAATATTTTTCTTATATCATCTAATTTTTCATTTAATTCTGTACCGTGAAATCTAAATACATTATAATTATTAATATATGCTGAAATAGTAGCTCTTCTTAGATAGTTTATGTTTTTTTTATCTACATTAAAAGATATTTCTTTTACTTCTTCTCTGTCAACATTTTCTGTTGTAGATAATTCTAAACAATTTTTATTTGGTTTTAAAAATATTAAATCTCCTTTTTTTAAATTATTTGCTTTAATCCATTTTTTTGGTATTGAAACTGTGTATGTATCTGCACCAGTTTTAACCAATTTTCTTGTTTCCATTAAGACCCCTTTTCAAATAACGTATTCTATATAAAATACGTTACGTATTGATATATAAAGTTTTTTATTCTAATTAATTATATGAATTTATTAGATTGGGCTGAAGATTATTTTAGACATAGAGATTTAATTCTATGTCAAATAGAAACTATTGTAAAAAATAAAGATAATTTAATAATTAGACATAATGATGGAATAGTAAAAAAAATTTATATAACTGATTATATTAATAATTTTGATTTTAGTTTAGATGGTGATGTAAATAATATTTTTGTTTTAAATAATAAAAAGAATTTAAATTTTTTAATAAATCACTGGGATGAATTATCTAAACATAAAAATTTATCTTTTTATTTTATTAATCCGGATAGTTCTATTGATAAACTTTGGATTATTTCACCTTATATTCATTCTAAAATTTGTGAGCCTGATAATATTGAAAGAAGTTTAAATTCATTATTTTCATCTGTTTGTGAAATTAAATAGTTTTTTTATTTGATTCTATTAAACATAATAATTTAAAAATTAATTTTGCTGCTGAAAAATCAGAATAATGTTCTTGTTTATTACTTGAAAATTCCATAAAGTCAAGCCCAATTATATTTTTTTCTTTCAATATTTGTTTAAATAAGTTTATGGTGTATTGCCATTCAAGTCCATTTGGTTCTGGTGTTCCTGTATTTGGAAATATATGCGGGTCAAATCCATCTACGTCAATTGTTATGAATACATTTTTTTTTATATTTGGTATTAATTTTTCAATTAATTTGGATATTGGCATTTGTTTTATTTCATGTGAAAAAATTGTACATATTTGATTATTATTTTTTACAAATTGATGTATTTCTTTTGTAATTGATCTAATTCCTAATTGAATTATATTAATATTTTCAATTTCATTTATTCTTTTCATTACGCTTGCATGTGAATATTTATTATTATTATAACTTTCATCAAGGTCCGTGTGGGCATCTATTTGTATGATTGTGAATTCATTATATTTTTCTTTTAATGCCCTTACTAATCCTAATGTTAGGCTGTGTTCTCCGCCAATCATTAGTGGAAATTTATTGTCATTTAATATTTTTTTTGAATTTTCATATACAAAATCTAATGCTGTTTCGATTTTAATATTTTCATCAAATTTACTAATTTTAAATGTGTGAATATTATTTAATTCAATTTCAAATTCTTCATCATAATTTTCTAAATATTGGCTAGCATTAATTATTGCTTCGGGTCCATTTATTGTACCTTTATTATAACTTACTGTTCCTTCATAGCCTATGGGGAAAATAATTATTTTGCTTTCTTCATATTTGCTATTTTTTCTATTTCCAACAAAATATTTTCCATTAAAATTATTTTTTAATTCCATTTTAATCTACAATTATTGTTTTTATTTTTTCTAAATTACAGAAATCTGAGGAATAATTATATGCTCCTGCATTTTCAAATATTATATAATTTCCTTTTTTTGGATTGTTTAGTCCTATTCTATATCTAAATATGTCCATTGAACAAGGCGTTTTTCCTTTAATTAAATATTGTTCTTCTGGTTTATAATTTTCAATTTCATTTTGTATAATTAATTTCATATCTGCAATTAATGTATCAATAGATGTATTGTATACTGAACAATCAATAGTGATATTTTTTTCTTCAATTGCAATTATTTGTGCTTTTAATTTTACACATGGTGCTGCTAAAGCTCTTCCAGGTTCAATATGTATTTCAATTGTTGAATTTTCTTTTTTACAGTATTCAACTAATTCTTTTATTTTATTTTTTATTCTTTCAATTGTTCTTGTATTTGTATTTTTATATGTTGATGGTATCCCTCCACCAATATTTATAATTTTTATTTTTTTATAATTTTCTTTTGTTAATGAATTTACAATATCTTCAACTAATGACCATTCTGCTACATTTTGTGTTTTTCTATGTACATGAATTCCTATTTTTTCTATTAAATTATTATTAGAATGTTTTTGAATTAATTCATTAACTTTTTTAGTATTTAATCCAAAAACAAAATATTTTCCTGTTTTTACTGTATTTTCTTTTAATTTCATTCTTATTAATAATTTAATTTTTTTATTAGTTTTATTTATACATTCAATTAAATTATTTAAGTCTGTTTCATTATCGATTACAAATTTATTTATATTATTATTTAGTAAATTAATAATTTCTTCTTTGGAATGTGCAAATGGGAAATACCAAACTCGAGTTTTGTCTTTTATTTGTTTTAATGAGTTTAATGAATGGATGTTAAATTTGCAGTCAGTTAATTTTTCAAGCAAGATTCCAACTTCTTCATTTGTTTTATGACTATATGATACTATTACATTTAAATTTTTTAATTTATTATATTCTTCAATTAATTTACTTTTTGATAATAGAAATTCAGCCATTTTAATTTATTATTTTGTTTTCAATTAAATTTTCAAGTGCATGTATCATTGCTAATGGAAATAATATTGATACGTCACCTATGACTGTTGCAGCATCGCTTTCATCTTTAATTTTACCCCAGCTTTTAGCTTCTCTTGTTGTAGCTCCACTCATTGATCCACTTTTTTGTTCTGCTGTAGTCATATAAACTGCAAACTCCATTCCGCCATTAATTAATCCTGCAAGTATTGCATGGTGTTTTGAAATGCTTCCACCTAATGAAATAATTCCTTTTTTTTCATCGTGGCTTGTACATAATACAATATTTTTAAAATCTTGAATTACATCAATCATAAAATCTGGATGTTTTTGTTGAAACATATATAGATGGAAGCCAAATGCACCGTCCGTTATTGCTGGACAAAATATTGGTACATTATTTTTTGCTGCTTGATATAAAATACTATTTTCATCATTTAGCATTAAACCAATTTCTCTAAATAGTTCACTTGGTGTCCATCTTTTTTGTTTTTCATAACATTTTTTTAACATTTCATTTAGCATATCTTCTAAAATTAAATAACTTTGATTATCAATTAATAAATTTCCGATTCGATTTAATCCTTTTTCTTTTAATTCTAAATCGTCAAGATCAAATCTACCCATTTGAAATTTTTCACCATGAGCTTTCATTATATCTTCTTCAATTCCACCAACTGTTGTTACAATAACATTTGCCATTTTTAGATTAATTAATTGTGCAAAAAATCCTCTTAGGCCACTAGTTACCATATTTGATGTAAATGTAAAAAATATTTTAGCTCCTGCCATTTTCATTTTTTCAAATACATTGCTTGCTCTTTTTAATTCAATACTTTGAAATCCAACATTACCTAATTGTTCAACTAAGTCTTTTACATTTATTCCTTTTTTCCATTTAAGATCTTTGATATATTCCATTTTGATTTTTATAATATTTTGAGAAAAATAATTTTATTTTTTGATTATTATAATATAGAGAATTTAGACTAGTTGAATTAAATTAACATTTTGCTTTTGTTAAATTATAATTTGTCATATTTGATATCTTTAGGTTTTATTTAAAAGTGTTTTGTTTATTGTTATAATACTTATTATACAAATTTATAAATTATTTTATGTTTTTAAATTTATGACAAAACGGGCAGTAAAATTTAATAGTGTTTTGAATTCTTTAACTAGTTGTTTAAGACAAAGAGGTTACAGTGTAGTCTCTGGATTGGAGTCTGAATTTGTTAGATACAAGAGAGAAAATGATTTGTTTTCTGCTGAATTTGGTTTGACGGATTCTTTTAAAGAAGAATTTGATCAAAATCGTAATTTGATCAATATAAATTTAGATTATGAATTAAAAAGTGAATTTCCTAAAATTTATTTTGATTTTATTATTCCAGCTGATCATATGATGAGTATGTTTTTTAGAAGTTTGAATACTGATCGGTTTGTAAAACGTTTTCCAAACGATTGTGGTAAATCATATTTAAATCCAAATTTTGACATTGAATTTGAAAAAAAGATTAATGATGAAAAAATAAAGAGTGTTTTGGTGACTGTTATTGATTACTTGTACAATCATTCGTTTACAAATTTTCAGATGTTATATAATACTAGAAATTTTGAATAATTATGCACTATGATTATAAATAGTAAATTTGACATTAATTTATGGCAAAGAACTTTTGGTCTAATGTTAATAAAGTAATTACTGACTCTGATTTAGTTATGATGGTTTTGGATGCGCGTATTCCTGAACTTACTTTAAATCATGAAATTGAAAAAAAAATAATGAAGTTAAATAAAAATATTATTTTTATTATAAATAAATGTGATTTAATTGATAAAAAACACGCGGAAGAAATTAAAAAAAGTATTCCTAATTCGGTTTTTATTAGTACAAAAAAACATTTTGGGGCTACTATTTTAAAAAAAAAAATTATGCATTTTGCTTCAAAAAAACAATCTAATGATGATGTTGAAATTAGGAATCGTTCTTTAATTGTTGCTGTTGTTGGATATCCGAATACTGGAAAAAGTAGTGTTATTAATATGCTTGCGGGAAAGGGTAAAACAAAAACTAGTTCTTATGCGGGTTATACTAAAGGTCTTCAAAAAGTGAGAATTAGTCCAAAAGTTATGTTATTTGATAGTCCCGGTGTTATTTCTTTTGAAAATAAAGATAAAATTAAGCAAGTTATTTTGGGTTCTTTAAATCCTGCGAATCTAGAAGATATTGATTTATATGCATATGAATTAATTAAATATTTAAATGAAATTATTCAAATTCATTATTTTGATTCTTTTGATAAAAATTTAGATGATGAAAATTTATTAATTAAAATAAGTGAAAAATTTAATTATAAAAAAAAGGGAAATGAATTCGATATAAATAAGGCTAGTGAAAAATTAATTTTAGATTGGCAAAAGGGTAAAATTAATATGGTAGTTTGTGATGTTCTTGATAAATCGGAAGATTTTTAACTATTTCTAAAATCTGTTTTTTATGGATACAGTACTTGTTAATATTAGTGATATTGAAAAGAATAATGAATTAATGAATTTATTAGATGAAGCAACTAATGTTTATAATAAAAATTTTAATGGTAAAACTTGGTATGGTAGATGTATTTTTATTTCTTGGTATTGTTCTGTTGGGGATTGTACTTTTTGTTTTAGAACTACTCAAAAACATAAAATTAAGCATCCTAAATTTTCAAGAAGGTCTATGGGATCGATATTATTAGAGGCTTTATTTTCTAAATTATTTAATTGGAGAATTGAATTTATTACTGGTGGTTATGGTATAATGTCTAATGTGGATTTATTGGAAGTGGTTAAAAATGTAAGTTTTGTATATGGTGAAAAGGTTTGGGTTAATTTGGGTGCTCTTACAAATGAACAAATAGAATTGTTTAGACCTTATATGAAAGGTATTTGTGCTTCTATGGAGACTTTACATCCTGAGTTACATAAAGAAGTTTGTCCAAGTAAACCTATTGAGCCATATGATAAAATGTTTTCAAAAATAACTGGTTTTAAAAAAAGTATTGCAGTTATTGTAGGACTTGGTGATACATTTGATGATATGAAATATTTATTTGATTTTGTAGAAAAACATGATTTGGATAGAGTTACAATTTATGCATTGAAACCAATTACTGGTGGGGCATATAAGGAAGGGCCAACAACTGAACAATATATTACTTGGATTGCAAAATTAAGAATAAGATTTCCTAAATTAGAAATTATTGCTGGTACGAATTTTAGACGTTGTGATGAAATTAATTGGTTAATGAAGGCGGGAGCAAATGCTATTACTAAATTTCCTGCAACAAAACAATTCGCTTCAAAAAAAGCTTATGAAATTACTCAATTAATTAAAGATGAAAAAAGAGAATTTACTTCAAATTTAACTGAGTTAAAAAATCAAGATATGGGTGAAATTGATTGGAATTATGAAATTGATAAGTTAAATATAAAACAAGATTATAAAGATCAAATGAAAGAAAAATTACAAAATTATTTGAATACCTTTAAAAAAAATCATTTGAAGGTTGAAAATTAATATTGATATAAATTTAAAAATCCTTTAATTCTACTTAATAATTCATTACCAACTTGAATCATTAATTCATTATCTGGTTCTAATTCTTTTGACATTACAATTTTGTTAAATACTGTTTTAATAAAAAACCAGTTTTTATTAAAATTCCATGCATCACCATAATCAGTTTCAATTATACCTTCAATTTCTATTTTTATTTTTGCATCTTGCATTAATACTTTATGTTCTGCTCTTTCTACTTCTACATTCTTTATTTCATTTGCTTCAAATTTTATTTTAAATATGTGTTTTAAATAGTCTGATAAGTCTTTTTCAAATTCAATTTTCATTTTAAAACTTTTAGAATCTTCTTTAGCAGTTTCTTCATATTCAGGGTCATCATATCCATATTGTTTACTTTCAAAAAAATCTTTTATTACTTTGTGTAAGTCTTTTAAATCTAATAGACCTGAATATTCAATTTTTTTTGTAAATATTTTTCTTTTTTCTCCCATTTTTATTCTTATATTTTTTTTAATTTATTTACTATATAATTGTATTTAAAATATTTTTAACATTATCTCTCCATTCACATATCATTTCATCCATTCTTTCATCCATTTCTGATAATTGATCTTCAATTGAATTTTCAAATACTTTTTTATCTAAATTTCCTTTTTTAGTATTTTCAAATTTATCTACATAGTCTGTTTCTTTGTCAATTTCCATTGTTATTCTTAATTTTCCTCTGCAAATGGTTTTTATTTTTTCTCCTTGTTTTATATCAACTGGGTTTTGCATTTGCCAAAATAATTTTATTGTATATTCAATTTTTGTATATGGATTTACTTTTCTAAATCCTGACATTTCATATTTATTTTCTTTACCTTTTCTAATACTTGATTTTGGACTTGATAAAAATGTATGTGAGGGTCCAAAACCCTGACAATATTTTATAATTTCATCAATATCAAATAATCCAACAAATATTATCGTTTTTTCCATAATTTATTTTAGTTAAAATTGTTTAAAAATATATGGGATATAAATATTTTTATAAATATCCATTTATAGTAAAATTCATGGTAAAAAAATATATTGGTGGTCAAGCTCTTTTGGGTGGTGTTATGATGAAGGGCAGAGAATTTGTAGCTGCTGTGGTTGAAAATGATAAAAAATATAGTTATTATATTAAGCGAATCAAACCATTACCTAATATATTTGAAATCCCTTTTATTCGGGGATTTATACATTTAATTGAAATGATGATTATTGGCTTAAAAACATTAATTTGGTCTGGTAATCAACAATTAGAAGAAGATGAACAAGAAAGTATGTCAAATTCTCATATTTTCTTTTTAATTTTAACTTCATTTATTTTTGCAATTGGGTTATTTGTAATTTTACCTTTATTTTTAACTAAAATTTTTATTAGTGATGGTAGTTTATTATTTAATTTAATTGATGGTTTAATTAGAGTTATTATTTTTATTTTATATATTGTTATAATTGGAAAAATGGATGATATTTCTGAGGTTTACAAATATCATGGTGCTGAGCACAAAACGGTAAACTGTTATGAAGCGAATAAAAAATTAACTGTAAAAAATGTAAAGTCATTTAGTACGGTTCATCCTAGATGTGGAACTACATTTATTTTTATTGTATTAATTATTTCAATTTTATTATTTTCAGTAATTAAAAGTAATGATTGGTTTGTTCAATTTGCAATTAGGGTTTTATTTATTCCTCTAATTGCTGGTATTAGTTTTGAAATATTAAGATTTACTGCAAATCATTGTAATAATTTTTTTATTAAAATTATTATGAAACCTGGTTTGATGTTACAATCTTTAACTACTAAAGAACCAGAAGATGATAAAATAAAAGTTGCAATTCTTGCAATAAATAAAGTTATTGAATTAGAAAAAAAATATAAAATTAATTAAAGTATATTTGTGTATTTTCACCAAATAATTTTTCTAAAGATTCAATGAATTCTTTATTTATTTTTGGTTTGTTTTTTATTTGAAAAGAATCTACTTGTTTTTCATATTCTTCTATATTACTTTTTTCTGTTTTATCAAATCCACCATTTTTATTTAATTTGGCTTTTAGCACTGTTTGATTTTTATTGTCTTCTAAAAATAATATGAATATATTTTGATCAAAAATATTAATAACTCCACTTTTATTTTTACTAATTACATTTATTTTGATTTGATCTAAGTCTTTTCCTTTTTTTTTCTCTATAAAATCTATGAATTCTTTAAATAAATCTGAAAAATTATTTTTTATTTTTGAAATTATGTCTGCAGTTAAAGTTCTGTTTTTATTTTCAAATATATATTTTAATTTTGTAAATAGGTTTTTTTTTATTTGACCTGTATTAATTAATTCTTCTTCAAATGTTTTTAAAATATCTTCTTCTTTAATTTTTTTAATTCCTGATAATTTTAATATGTCTCTTGTTAATGAAGTTGTTGTGTCAAATAAATCAGTTATATTTTCTTTTTCTTTTATGTTTTCAATTTCTTTATATAATAATTTTATTCTTTCTAAATACTCTTTGGAATCATTTAATAATTTTTGAATTTCTTGTCCACTTACTTTTTTAATTTCTCCATGTTCTATTGATTTTCTAATTTTTAATACATTTTTTAATGTGTCTAAATATTTCTTTTCTAATAATTTTTCTTTTTTTACAAAAATCTCTTCCATTAATTTAACAGTTTCACTTGGTGCTGGTGGGGTAAGTCCCATTAACATTAGAGCTGCTTGTGATGGTGAGTGTATTGCCCAAAAAAAATCTTCTACTGCAATTTCTTTTAATTTATTTTCTGCTCTATCTAAAAAACCTTGTCCAACGTGCATTAATTGTTCAATTGCTTCTTTACTTGGTTTAATTTTTCCTTTTTTTAATAATTGTTTCCAAGGTAAAAATAATCCTCTGTCATATAAAGAAATTCCATCTCTTAATAATGTAAAATAAATTGGATTCGCATCCCTTAGTCCTTCCCAGAAATCAGATAATAAATATGTTTGAATATTAATTGGAGTTTTTACTCCTGTTTTTTCTGCTGCTTCAAATGACATTTGATGTATTATAACACTTAATTTTTCTTTTAATTCATATCTTGGCATTCTTTTAACATCTGTATCATCTACTATAATCCAAATGTCTATATCACTTTTTTTATTGGCTTTTCCAGTTACTAATGAACCTGAAAGTACATAGCTTACTATATATTTTTCAAATTTTTGTAAAACTAAATATTTGTGTAAATTTGTAACTTTTAATGTATTTAATAACCATTTATCATAAATTACTGCACTAACTGCTAATATGTCTACAAATTCTCTTCGACCTTCAAGGCAGCTTTGCCATAATTCACTAATTAAAATTGTTTGAATGGAAAAATCTTTATCAATTTCTTGTCCAATTTTATTAATTATTGTATTTATTTTTTTATTTAATTCAATACTTTCTGCTTCTTTTGAATCTGAATCATCTACTACTACTACAATATTATGTTTGTTTTTTAATTCGTCAATTTTTTGTTTCATTTCTTGGGCATTATTTTGATCTAGTTTCATTTCTTGATCTAAATTTGGAGGTGGTAATAATGCAATAGAAATAATATATTTGTCAAATTGGTCTAATATTTTTTTTGAAAATTTATCTAATTTTTTTTTAATTTTAGATAGTTTTTCTTCCATATTTGCTTCCATATTCATATTCAACCATATGATGATTATAAACCCTTTGACTCAAAATATGGGTTATTTTAACAAAAATGTGTGACATTCAAATCAAAATTAACCTTTTTTGTCATTTGGGTGTTACAAAAATTAACAAAGTTTATAAAAGAGGTTTTAAATGGCCTTGAAATTCGATATATTTTTAAATGTGTTAAGTTAATTACCTATTATGGGTCGTAAAAAAAAAAGTCAATTAACTGGTTCTGCAGGTGTATTTTTTAAGCGAATTTCACCAAAAAAGCAAAAATTAGCTGAACCTGAGAGAGATGAAATTAAAGTTGAGATTATAGTACAAGAAGAAAAACTTTGGAAAAAAACACCCGAATGGAGGCCATTAATTTGAAATCTTTTAAATTATTTATATTAGTATTAGTTTTAGCATTAGTTGTATTATTAGGTGCATATTTTAATATTAATTCAATTGATTTTGTAAGAGAGCATGAAAATGGTTTTGAATATTCAAACAATTTTGAAATTGAAACTATTGATATTGTTGAAAATACAGATATTGAAAATCCTTGTTTATGTCCTGAACGATATGATCCCGTTTGTGGTCGAGATGGTATAACGTATCCAAATATTTGTTTTGCAGAATGTAAAAATATTCCAATTGTAAGACAAGAAATTTGTAATTAATTATTTATTTTATTTAAAGAACATATCATTATGTCACCATTTTGAGTTTTTGACATATTGTTAATTAATTTATTTAATATTTTTTGTTCATCAATTAATTTATGAAATTTTTTAATTAATCTTGGTTCATCATATTTTTTAGAAATGAAGTTTTTTAATTTTTTATTTTTGTTTTTAATTTTTTTTATTTCATCAATAAATAAATTTATTTCTGGTGAATATAAAAATCCAAAGGCCCCATCACAATATCCATTAACATCTAAATAATTTTTTAATTTTAATGGCAGCATACCATCTAAATTTCTTTTAGTTAATAAATTTACAACAATTGGTAAATAGTCATTTTCAGTTTTTAAAAATTCAGGTAAACAATATCTAATAAACGAAAATGTTTCAAATTCCATGGATGTAATTGTATGATTATTAGCTTGTTCAAATTCTTCTATTTCAGAATCATTTTTAATTGTTGTAATTTTTGTTTGAATCATCTAAATGTACACCCTGAAAATTCAGCTAAGTTTGTTAAGGATTGTGTTCCTAATAATTTGGAACTTAAATCATTATCTTTAACCCATTGTGGGTAGCTGCTAACTTCTGCTCTTGCGCATAAGTCTCTGCTTTTATCACAATCAATAAATGTTATATGTTCAATTGCTGATTTAAACATTTCTTTTTGTCTTTTACAATGAGGGCACCATTCTGTTCCATACATAATTACATTATTTTCAGTTAAGCATTTTGCAAAAGATATTAATTCTTGACTTGCAGATTCAGGTTTATTTAAATTATACATAATTAATGTTAATAATATTAATCCTAGAAATATAAAAATTAAATGTTTTGTTATTTTATTCATAATTTTTATTTTTTTTACACTTTTATAAAAGTTATTAATTTTGATTATCTAATACCCATTTTTTTAAATTAGATTGTATAAATTTTTTTAAGTCTTCAAATTCTGTTATTAATTTATATTTAATTTTTTTACTTTTATACAATTTTTTAAAGTCTTCAATTGTTTGATTCTCAATTAAATCTTGTTTTGAAGTGTATGCGGTAATATTTTTACTATATTCTTCATTTTTTTCTAATAATTTAAATTGATCTTCTATACTATAGCTTGATTCAGTTAAGTCAAAAATAAATAAAACTTGATTAGCTAAATATTCTAATGCTAAGTTTGCATGTATTTCAATTTTATTTGCTTTATTTGGTCTTATTAAAGTTCCAGGTGTATCTACAAATTGAATTTTTCCATATATTGAATCAATTATTCCTGCATTAATTTTTTTTGTTGTAAATGCATAATTTTTAATTTCTGGTTTTGATTTTGTTATTTTATATAATAATGTGGATTTCCCCACATTTGGAAATCCAGAAATACAAATTGTAAATAATTTTGTTTTTACTGCAGGAAATTTTTTCATATGAAATCTACATTTTTCAATATATTCAAATTCTTTTTTTGTTTGTTTTATTATTGAATTAATTCTACCTAAATATGATTTAAATATTAAATTTAATTCTTCTCTATTTTTTTTTCTACCTAATTGCATTAATTTTTCAAATGTGATTTTTTCAATTGTTTCAAAACTCCATTTAACTGCACCCAGACTTTTTTTTAACTTATTATAGTCTAATTCTAATATAATTAATTCTCTATAAAATAAATGTAATTGATCTATGTTTGGGAATGATTCTACGATGTTTTTTAAATATTTTTTAAAATCACCATTTATTGTTTTAATTTTATAATCATTTAATTTTTTTAATTTTGAAATATATCCTAGTTTATCTATTTTTTTTTTAATTATGCTACGATTTTTTTTAATTTTTTTTAATGCTAGGTCAAATATTTCCTGTAATGGCCTTATTATTTGTAATTTATCAAATTCCATAATTCCCCTATTTTTTATTTAATTATAAATACTCTGTTTACTCTAATTCCTTTTTCCATAGGTCACATATTTTATTCATATTATCAATAAATTCTATACTTAATCTATATTTTTTATCATATAAACCTAAATTTACTAATCCCATATTTATCATAACTTTAAGAATTCTTGAATAAAATTGTTTTCTATTATATTTTAATTCTTTAATATTAAATTTTATTTTATTTTTTATTTCATAATATTCATTACCTAATAGATTTAATTTCCCTGTATTTAAAAGATCGGCAAAATGTGAAATTTCTTTTTTTGATACATATTTTTTATTTTTTAAATATTCTATTAGAACCTTTACAACTTTTCTCTGTGTTTCTAATTGAAATATTATATCAATTATATTTGTAATTTCATTTGAATTAAAATTAATAGTCATATAATTATTATAAAATTACTTTTTAAAAAACTTAACTTATTTTTTTTTAATTTCTTTTATTAATGTATCAGTAATATCAATTTTATTTGTATTATGTTCTATTGTATTTACTGTAAATATATTATTAAAATGTTTTTTCATTTTTTTTAATGCATTTTCTACAAAAAGTCCATGAATCCCCACACAACTTACTGATTTTGCACCTAATTTTTTAGCTTTAATTGCTGCTTTTATCATTGTATTTCCTGTACTTATTATATCATCAACAATAATAACATTCTTGCCTTTTATTGGAATTTCTTTTACTAATTTAACATCTACATCTCTATATGAGTGTCTTGTTTTTTCTAAACATGTTGATTGTGTTTTTGCGATTTTTGCAATTTCATCAGCCCATTGATAACTTTCCCAATCTGGTCCCATTATAACTTCATTTTTAAAATTTTTTTCAATAAAATTACCTATTGCCTGATTTGCAGTTAATCTTTTTGATTTTATTTTAAAAATATCTGACATTTTTCTAATTCTGTGTAAATGTGGATCTACTGTAATTATTTTATCAACTGAATTATTAATTAATTCTGACATTATTTTTGCATTTATTGCTTCCCCACTATTAAATCTTTTATCTTGTCTCATAAATGCTAAATATGGAGCAACCAATATTATTTGTTTTGCCCCTAAATCTTTTGCAGTTTTTCCTGCAAAAACTATATTATATAATGCTTCATTAGAATTTGGTTGAAATGATTCAACTATAATTAATTTTTTATTTTTTATTTCTGATTTATATCTCAAATAAATATCTCCATCTGGAAATGTTTTTATTTCTGTTTCTATGTATTTACATTTTAATTTTTTTGCAATTAGATTTGCAGTTTTTGAAGAATTTTTTAAACTTGTAATTATCATATAATAAAATGGTTATTTTTGTTTTATATATTTTGTGTAGAATATAAGTTTATAATAATTTAATTTATATTTTGTTTATGGTTTTAAATTTAATTAAATCAAAAAGTGAAGAATACTATTCATTAGGTAATTTTGAAAAACCTTATGATGATGATTTCTATAAAAAAATTAATAATAAACATGCTATACTTATTGCTAAATATACAATGGAAAAAATTCCTTTTGAGGTTGGTTCTCTAACTACTGAAACTTTAAATTTTTTTACAAAAAGTGAAGATTTAACTGATGTTTTATATCATCATTTAATGTTTAGTGTTGATTTTACAAAAAAAGTTGATCTAAATAGACCTGTTAATAGATTTTTAAGATATAATAGATATTATCTTGATAAAAATCCTGGTGAGGTTGATGATTTTGAATTAGTACAATTTGAACCTTGTATTTTAGATAAAATAAAATTCCTGCCTGATTATATTAGAGATGTAGTTGGATTATAAAAATAATTAATAAAAAAAATAAAAAATTAATTTAATCCCATTTCTGTAATTAAATTTTCAAATACTTCATATGGTACTGCTCCAGAAATTAAAACTCCATTAACAAAAAATGCAGGTGTTCCAGACACTCCTAATTTAGCACCATTTGTCATACCATCATTAACATATTTTGCTTTTTCTGAACTACTTAAACAAGTATTAAATAATTCTGTATCAAGTCCTAAATCTACTGCATGTTGTTTTAAATCATTAATTGAAAGTCTTTTAGTTTCAAAAAGTACGTCATGAAATTCCCAAAATTTATTTTGATCTCTTGCACATTGTGCGGCTTCAGATGCTTTAAATGCGTTTGGATGTATTTGAACTAAAGGAAAATCACCAAATGCTAATTTAGCTTTACCTGTTTCAATTAAATTTGTTTTAATATCTTTTACAACTTCATTATATGCTTTTGAACAAAAAGGACATTCAAAATCTGAAAATTCCAATATTGTTATTGGTGCATTTTCATCTCCTAATACTGGATATTCTGAAATATCAATTTCATTTAATATTTGTAATGGTGCTCCAACTCTATCAAGTGCAAATACATAATATTCTCCATTTTGATCAAATACTTGTGATAGTTTTTGATAATTTGATGTATCAACTAAATTTTGATCGAAAAGCATTGCAGGTACAGTTTCAATACCAAGTTCATTTAATAATTGTTGACTTGTTTGGCTATCTACTCTTTCAATTTCTAATGTTGGAAATAATTCAAGTAATGCTGTTTCAATTTGTTCTGTATCACAAACATAACAATTTTCTATTGTTAATAATTTCATACTAAGTTGTGGATCGTCAGTTATTTGTTTTGGTTCAACAACTTCTTGACCTTTTGCTGCATTTATTTTTTGTAACATTTCTTCATAAGGTAAATTTCCTACACTTAATTGACCATTAATTGTAAATGATGGTGTTCCAGATACTCCAACTAATTGTGCTTCACTAAAATCTGCATCTACTTTGTTTGAATATTTTTCTGTTTCAATACATGAATTAAAGTCTTCCATATTTAATTCAAAATTTGAAGCTAATTCAATATATAATTCACTACCTAAACTTCTTTGATTTTCAAAAAGTGCATCGTGATATTCCCAAAATTTATTTTGTTCTCTTGCACACTCACTTGCTAATGCTGCACTTCTTGCATTTGGATGTATGTCTAATGGAAAGTGTTTATATTCAAATTCAACTTGATCACCCAATTCTTCTCTTATTCTTTTTGCAGTTGGTGCAAAACTTGCACAGTAAGGGCATTCAAAATCTGAATACTCTATAATTTTAATCTTGCCTTCAAAAACAGCTTGATTATTATTATTATTATTTGTATTTTCAATGCTGGCGGGATTGATTGGATTAAATGTAACAAATAATAATGCAATTAAAAGTACTGCAGAAACTATTTGCCATGTTAATACATCTTTTTTTAAATCTTTTTTAGTTTCATGATTTTCATTTGAATGATCATGCTTATGATGATGTTCATGATGAACTTTATTCTCATGTGTTTCTTTATGTTTTTCAGAATTATCTTCACTCATTTTTTGACCTCTAATATATTTACAAAAATTTTAATTTATTTATATATTTTGTGAATGGATTGTAATATTAATTTTTATAATAAAATATAAAAACGCCGAGACTGGGATTTACAGAAAATCAAAGATTTTCTTATATTCGCAATTTTATTGCTAACATGAACCCAAGGATTCAAATCCTTAATGTTTAGTTAGATTGAAATAAATATAAAATACGCCGAGACTGGGATTTGAACCCAGAATCCCTTACGGGACAAGCTTTCCAGGCTTGCGCAATACCGGATTATGCGATCTCGGCAATCACATATATAAAATATGCCACTAGAGGGATCTGAACCCTCGACCTCCAGATTATGAGTCTGGCGCTCTAACCAGGCTGAGCTACAGTGGCTTATAATTTAGATGAAACGGTTCGATTTAAAATTGTTTTGTATAGAATAAGAAATATTTAATTAAATCATTTCAATTTCAATATTAAGACCTTCTGGAATTGGCACTCTCATAATCATTCTTAATGCTCTTTCTTCTAATCCAATATCTATTAATCTTTTATGTACTCTCATTTCAAAATTATCAAAACTTGCTTTACCACGTCCTGCTGTACATTTTCTTGTAGTAACTTTAATTTTTCTAGTTGGTAGGGGAATAGGACCTTTCATTGAAACTCCAGTTTTTTCTGCAATTTCTAAAATGTACGAACATGTCTGATTTATTTTTGCTATTTCAGTACACGTTAATTTGATTCTTGCTTTTTGTTGCATTTTATTCCTCTAGGTATCTCGGAATTTATTGCCATTTATAAATATATCTTCAGATTTATTTTAATAATTTTTACTTACTTATTTCATCCTATATTGTATATTTGCTATTATTTTTATAAATATTTAAGAATATTGTTTAGTATGGAAGAGACAGGTCTGCCCTTAGCTGATTTTGATAAACCAACATTGGAATCTATAGCAAAAATTGAGAATAGTCAAAACCAATTTAATAAGAAAAGAAGTGATTTAATTCAGCATTTATCAGAACAATTTCAATCATTGTATTTCTCTTCAACTTATAATTGGAAAGCATTAAAAAAAGACACTATATTTTTTGCAGTTGAGGAAGAGAGTAGATTGGATGGATTGAAAAACTTTGGTGCAGAAGAAATTTTGGGAGAAGCTAAATATAAATTTATAAAAGATAATATGTATAGGTTGAAAGGAGAAAATAGAAATGTTTCTCCAATAACTATTCCGGCATATGGATATTTTATTGGTCTAGTAAAACAGAATGATTTATTTGATGAAGGTGTCAAATATAGTAATTTGAATTTAACAAAAAGTCATGCAGCTTTAATTTTTATGGGTGAGGGTATTCGAGTATTTCCTATTGTTTCTGCAAGGAGTATTCTTACGCTTGAAAAAAATCCTGATTTTACAACATTTATAAAAAAAGATACTCGAGATGATTTTTATTATAAATCTTCTACTCCTGATTCGTGGCCTCCATCATCGGATGTATTTTCATGGGATAAACAATTTACAAGTGATGCAAGTTATATAAGACACTCAAAACTTGTATTTAATGATTTAATTAAACGGGTTGTAGGTGGGAATGATAGAGTATTTCCAAATCCTGAATTGGTTATGGCGCATAATAAAAGATTTAGTATTAGATTGGAAAAACTTGAATGTTATTTTAAAGAATATTTAAGTTAGATGTATTATTTTTACTTTGAATTATTAAGAATTAAAATTATAAAAAAAATAAAAAATTAAATAGTTGAATTATAATTCAACTTTTTTATCAATTTTTAAACAAACACCTGCAGCTACTGTTGCACCACTATCTCTAATTGCAAATTTAGATAATTGTGGAACTGTATCTTTAGTTTCGATAACTGTTGGAGTTGTTGGTTTTAATCTAACAATTGCTGTGTCACCGTTTCTTAACATATCAGGTTTTTCTTCAACAACTTGTCCTGATGCAGGATCTAACTTTGCTTGAATTTCTAAAAATTGACAAGCTACCTGTGATGTGTGAATATGACATACAGGTGTATAACCTACAGTTAAAACTGATGGGTGATTGATAACAGTAATCATTGCAGTAAATTCTTCTGCAATTGTAGGAACATTACTTGCATCTCCAAGTACATCTCCTCTTGCTACGTCTCTTTTGTTAAATCCTCTTATTGAAATACCAACATTGTCACCTGGAACAGCTTGTGGCATGTTTTGGTGATGCATTTCAATTGATTTAATTTCACCATGAACACCTTTACCTTCTCTTCCTGGTACTGCAGTTACTTTTTGTCCAACTTTTAATATACCTGTTTCAATTTTTCCTACTGGAACACAACCAATACCTGTAATATTATAAGCATCTTGTACTGGAATTCTTAAAGGTAAGTCAACTGGTTTTTCAGGAACATCAAAACTATCTAATGTTTGTAATAATGTTTTTCCGTCATACCATGACATGTTTTCTGATTTATTTACAATATTTTGTCCTTGTAATGAAACTGTTGGAATGAATCCTTTAATTTGTTCATCTCTAAATCCACTACCTTTTAATAATTTAGTAACTTCATCTTTTACTGCATTAAATCTATCTTGACTATATTGTTGTAAATCCATTTTATTTACTAATACAACAACTTGATCAATACCTTGAACTTTTGCAAGGAATGCATGTTCTTTTGTTTGTGCATTAATACCATCATTAGCTGCAACAACAAGAACTGCTGCATCTGCTTGTGATGCACCTGTAATCATGTTTTTAATAAAATCTTTGTGCCCTGGAGCATCAATAATTGTGTATCTAAATTTATCAGTTTTAAATTCCATGTGTGATAAATCTATTGTAACTCCTCTTTCTTGTTCTTCTTTTAGATTGTCCATTACGTATGCAAATTCAAAACCTGCTTTACCTTTTTCTTGAGCAAGTTTTTTTAACTTTTCCATTTTTTGTGCGTCAAATGCACCTGCATCAAATACTAATCTTCCTACTGATGTTGATTTTCCGTGGTCTACGTGACCGATAAAAACAACATTAATGTGTTCTAATTCTTTTGCCATTTTTAATTCCTCGATATTTTATTCTAATTTTATAACTAAAGGTTAAACCTGCTTTTTATAAGTTTAACCTCTTTGATTAAAAAGTCCCTAAAGACCTTTTCTTTGTTTAATTTTTGCAACAGTAGCATCTTGTAATTCAAAAGGTAACATTTCAAATCTTTGATCTAATACAAAAGAACTACCTCTACCACCTGTTGCACTTCTCAAATCTGATGAAAAACCTATTATTAATTCTGAAACTGGCATGTCTGCTAATGCAGTCAATGTGCTTTCTTCAGTTTCCATATTTAATAACTGGCCTCTTTTATTTGAGATTAATCTGGAGATCTCACCCATATAATCAGAAGGTGCTTCAAATTGTATTTTTTGAATTGGTTCTAATAATACTGGTCTTGCATCTAATATTGCGGTTCTAATACCTTCTCTTACTGCAGGATATAATTGTCCAGGTCCTCTGTGGATTGCATCTTCGTGTAATTTTGTTTCTGTTAATGTAATAATCATATAAGTGCACGGTTCTTTTGCAATTGCTCCTGCTTTCATAACATCTTCAAACATGTCTAAAACCATTTCTATTATTTCATTAAGATGCACTTCTCCTCTTGTACCATCAACAAAAATACAATTATTAAAAATATCTCTTACTTTTTTCGCAGTATCATTATCGAAACCTGCTGCCTTTAATGAATCAAGAACTTTTTGATCTTTCTTTTTAATTCTACCTGAATGTATATTACCTTCTTTGAAAGCTTCTTTTAATTCATCAGACATTGGTTCTACATTAAAATACAATCTATTGTGTTTATTTGGTGATTTTCCTTCTGCTGCATTTGGTGTTGAATTTAATATTGACTCTCTATAAACAACAACGGGTGCACCCATTTTAATTTTTACACCTTTTTCACTAATAATTCTATTTTCAATAATTTCTAAATGTAATTCACCCATACCACTCATTAAGTGTTCTCCTGTTTCTTCATTAATTTCAATTTTAATTGAAGGATCTTCTTTTCCAACTGCTCTTAGGACTTCTAATAATTTTTTCAAATCACCTGGATTTGCAGCTTCAATTGATTTAGTTACAACAGGATCAAAAATATGTTTTAATTCTTCAAATGGTGAAACTTCACCGATGGCCATTGTGTCACCTGGCACTCCTTTCAAACCTGAAATTCCTATTATATTTCCTGCTGGGACATTATCAACAATTTCTCTTTTTGCACCATTGTAAATAAATACTTGTTGAACTCTACAATCTTGTTGTGCTAATTGTAATCTTACTTGTTCTCCTTTTTTTATTGTTCCTGCAAAAACTCTTCCTGTTGAAATTTCTCCTGCTTGTTTGTCAACTACTACTTTTGTAATTACAAAAACTGGTTTTCCATTTGGATCGCAATTAACTAATTCTTTACCCATTTCACTATCTAAATCCCCAGTCCATAATTTATCAATTCTATATTTTGAAGATGCATTTGGTGATGGAAGATGTTCAATAACTGCTCCTAATAAGCAATCATGTAATGGAATTTTTTTAGCTAATTCTTTTCTTGTATCTTGTGTATATGCTTCATAAATATCTTTAAACGTTATTCCTTTTTTTGTCATATAAGGAATTGACAAAGCCCAATTGTGGAATGCTGAACCAAAACATACACTACCTTTTGTTGCATCTAATTGCCACTTGTTTCCATATTCTTCTCCTGCAATACTTATTATTAATTTATTTACTAAATCAATTATTTTTGCAAGTCTTGGAAGTAAGTCTTCTGGTTTTAATTGTAATTCTTGAATCAGTCTATCAACTTTGTTAATAAATAAAATTGGTTTAACTCTTTCTTTTAGTGCTTGCCTTAGAACAGTTTCTGTTTGAGGCATTATACCTTCAACTGCACAAGAAAGAACAACAGCACCATCAACAGCTCTCATTGCTCTTGTAACATCTCCACCAAAATCAACGTGACCTGGTGTGTCAATTAAATTAATTAAATGTTCTTTTCCTTCTATCTCATGAACCATTGATACACTTGCCGAATCAATTGTAATTCCTCTTTCAGCTTCATCTTCTTTAAAATCTAATGCTCTTGCTTGGCCTGCTAAGTGTTCACTCATCATTCCTGCACCAGATAATAAATTATCTGAAAGTGTTGTTTTTCCGTGATCAATATGTGCACATATTGCTATATTTCTTATGTTATCTGGATCTTTCATAATCCGCGTAACTTTATCAACCATCTTTTCTGCCATTTAATTCACCTATATAACGTATTTTTCATAAACAGTTTGATAATCATGTAATTCATTTTTATCAAACCATAAAGTTAATTCTCTTTTCGCATCATTTTCGTCAGCTGATGCATGGATTAAATTTGCTACAATTCTTTCATTTGTATTTGCATAATGTTTTGAAATGTGACAAAAATCTCCTCTTATTGTTCCTGGTGTGGATTCATTTGGATATGTGGATCCAATTAATTTTCTTACGACATTAATTGAATCAACTCCTTTTAGACATACAGCTATAACTGGTCCTTCTGATAAATATTTAGTTAAACCATCTAAAACTCTTTGTCCGTGTTTTTCGCCAATGTCATTATAATGATTTTCAGCGTGTTCTTTTTGAACCCATACCATTTTCATTCCAATTATTTTTAATCCAGTTCTTTCTAATCTTTTTATGATTTCTCCAGATAAAGATCTTTGAACTCCATCTGGTTTAATCAATATTAAAGTATTTTGTATCATTTTAAAAATTTATTTTTTCATAGCTGCAACTCTTACAGCTTTTTCTTTTTTGTACTCTTCAGTCCATTTAGTTCTTCTTGGTTTTCTTTTTAATTCAAGCATGTTTTTTTCACATCTTCTTGAACAAAAATTAAATATTTTAGAGTCTTTTTTAATGAACTGAACACCTGTTCCAGGTTCTATTTCTTTTCCACAAAAATTGCATTTATCCATTTTATTTATTTAATTTTCTGGCTTCGATTTCAGTTTCTCTAAGCATTATGATGTCTCCTATTCTTATTGGACCTCGAACATTTCTTCTTAATACTTTTTTTTGATCTCTTCCTTCAAGAACTTCACATCTGACTTGTATCGCTTCACCTTTTGATCCAGTTCTTCCAACAACTTCTCTAACTACTGCTGGAACTGCATGACTAAATTCAACTCCACTTGATCTTTTTTGTTCTGGCTTTGCCATTTAACTCACCTACATTTGTGATAGAGAAGTTTTAATCTCTTCAATAATGTTTTTAGCTTCGCCTGCTTCAACTATGCTTACTGCAATTGTTCCAACATCAATTCCTGCTGCAGCACCTAGTTCAGTTTTAGAACTAACTTCTAAATATATTACATTTTTCTCTTTTGATAATACAGGTAAATGTAAAATAATTTCTTTAGGGTTAGCATCGCTTGACGCAATAACTAATTGTGCTTTGCCAGTTTCAATTGTTTTTGTAACTTCATTACATCCTTTTTTTATTTTTCCAGTTGCACGTGCTAATTCAATAGCTTCGTATACTTTATCTAATAATTCTTTAGGTACTTCCATTTTTCCACCATATATATTTATTTTAATTCTTGAAATAATTTGTTGAGAATTAGTTAATCAATATCTCAACCAAATTGGTCTCATCAATATACTTTTAGGATTTTTAGTCTTTTTATAAAGCTTTTCATGTTTTTTTTTTCATATTATTAATGACACATTTATTTATAATTCAAAAAAACTATTTTATTATAAAAATTATGAGGTTGATTATGAATATTAAAAGAAGTTTGATGGATTATCCTATAGGATATAAAGATTATGATAAATTGGGGCGTGAGTCATATAAATTTTCTGACTCAATTAGTCTTGAACATTTGAGTGAATTCGATTTGAATGCATGGAATGCTGGTGATTGGCAAACTCCTATGTTTAAAGATATGGAATTGAGTGAAAATTTACTTTTTTTAACTCAAGTATTTTATGGTGATTTGACATCCAAAAGTTATTTGATTTCACTTGATAGACCCGTTAGTTTTCATTCAGAATTTAGAACTACATATCCTTTTAAAATTGAAGAAGATAAATTAAAATTTAAAATTCCAGTTATTTCTAAATTTCAATTATTAGATACTGATTTAACTTCTAGGCCTGCAACATCAGAACATGATATGATGGATTATGAAAATTTTACTAAATCTCGGATTCATTCGTCTATATTAGATGGAGCTTATGGTGTAATTTTTGCCCCATTGTCTTTTGGGAAAGATAAAGATACAAAAAGTGGTTATCATACTAAAAGAGAAATCTTACCTTTTTTATTTGATGATGTAATATCTGGAAGTCATGTTAGTAGTGATGTGAGGAACGCTTTTAATTATATGGCTTCATTGGATTTAATTGGTAGAATTTTAGGTGAGGAAACTATGGTGGACAATACAATTCCAAATAGTCCTCTTATTAGTCGAGTTCATCATTCATTAGATAGAGAAACTAAAGAATTATTTTTAGCTGCAAAATGTAGTTATAATGATTTTAAAGAAAATAAACCTTTTGAGCAAACTAGTGGCTTAATAAACGGACTTGGTTATGATAATTTACGAGAGTATTTAACAATTATTGGGAGACCTGAATAATTTTTTTTATTTTGCTTAATTTTTTAAACACATATTAATATTTAGTTTTATGAAAGAAAAAATTAAATTTCAAATTTTATCAAATTATATTAGAAATAATGGAAAAATTGTAGATAAGGCAGTTATGGGTGTTTTATTGAAAGAAAATCCTGATTTGAAAAAAGATATTAAAAATTTAATGAGTGAAATTAAAGAAGAAATTAAAATAATTGAATCTTTAAGTGAAAAAGAAATTTTAAATTTAGTTAAAAAAGAAAAGATTGAAATTTCTAAGAAAGAAAAATCTAATGAAAAAGAATTGATTAAAGTTCCTGGTTTAATTAAAGGAAAAGTTAAAACTCGTATGGCTCCTGAGCCTTCTAAAGTTAATCATATTGGTCATGCTTTATCATTCCTTATTAATTATAAATATGCTAAAGATTATGATGGTATAAGTGTATTAAGATTTGAAGATACTAATCCAGATAATGCAACTAGTGAATTTGTTGAATCTATGAAAGATGATTTATTAAATTATATTGGTTTGAAACCGGATGAAATTATTATTGTTTCTGATCATATGGAAAAATACTATGAGATGGCTAAACAATTAATTGAAAAAGGTCATGCTTATATGGATTTTTCAAAACAAGAAGAATTAAAAAAACAAAGAGAAAAATTATTGCCTTCTATTTTTAGAGATAAAAGTGTAAAAGAAAATCTTAGTGATTGGAATACATTTATTTCTGGTAAGTTTAATGAAGGTGAATGTATTTTAAGATTGAAAATTAAACCAGATCATAAAAATGAAGTTATGCGTGATCCAGTTTTATTTAGGATGATGAAAAAAACTCATTGGAAACACAGTAATAAATATTGCGTTTGGCCACTTTATGATTTTGAAAATGCAATTGAAGATGGTTTAATGGGAATTACACATGTTTTTAGAAGTAATGAATTTGGTAATAAAAGAATTGAATTACAAGATCATATTAGATCCTTATTTAATTTGAAAAATCCTTTAGTTATTCAATATGGTAGATTTAATATTAAAGGTGGAGTTAGTAAAGGAAGGGAGATTAAAGAAATGATTGATAGTGGTGATTATTCTGGTTGGGATGATCCAAGATTAATTACATTAAAAGCATTAAAGAGAAGAGGGATTCAAAAAGAAGTTTATGAAAAACTTTTAATTGAAATTGGACTTTCTCCAACTCAAACTAATATTGATTTTAGAACTTTAAGTTCAATCAATAGACAAATATTAGATCCTATTTCTCCTAAATATTTTTATGTTGACAACTCTATTGAAATTGAAATTAAAAATGCACCAAATTTAGAAATTAAATTTGATACATTTCCAAAAAAAAATGATAAAAGTAGAATTGTAAATACGAAAAATAAATTTCTTATTGCAAAAAATGATCTTGATAATTTTAAAGATGGTGATGTAGTTAGATTAATTGATACATTAAATTTTAAAATTGTTAATATAAAGAAAAAAATATTTGAATTTCATTCAATTGATTTTGTTTCATTTCAAAAAGAAAAAAATAAATCAAATAAAATACATTTTGTTGTTAAAACTGAATCTATAAAAGTGAAAATAATTAATGAAGATAATACTCAAACAGAAGGTTATTTGGAAAATTCTGCAAGTAAATTAAAAGAAGGTGATATTATTCAAGCAGAAAGATTTGGTTTTATTAAATTAGAAAAAAAGAATAAAACATTTTATCAATTTATTTTTTGTCATAAGTAATTTCATGATTTATAGTTTAATTTTAAATTTATAAAAAATTATATTTTTGATTGTGTATAGTCAAATTAATATATATTTTTAAACTAATTTTATATTTTCTTTTCATGGAACAAAATAATTTACCTATAATTAGTCATGGTTTTTTGAAACAATATAGATTTCTTTATTATAATGATTGTGATCGGCCTGTATTTGATTATATAAATTCAAGTTCAATTTTTTTAAAAAAAGGTGCTAAAGTAAAGCTTTCTGCTGGATTAATAGATAAATTTAATTTGGATTTTGAAAGTATTAAAGTTGGGGTACATTTTCTTCCTAAGTGGAAAGAAAATCTGGTAGAGCCTATAGAATCTAGTATTGTAAATTCTCAAATTGATTTTTATTTAAAGACAATAAAACCAAGTGGAGATAAAATATATTTGGGTAGTATCAATGGCCCAAGTTATAATGGTTTTGAAAATTATCAAAAACATTTTATTGATTTTGCTAAATCTTGTTTGAAAAATAAAGAATTATTAGATCATTTAATTGAACAATATAAATTTAAACAAGAATTAGATAAACCTTTTAATTAATTTTGTTCTTTTTTTGACATTAAATTTATAAATTGCTTGATTTTCTTGCATTAATATAGCCCAAGAACTGTTGATTTCGTATCAAGCCAGAAGGGTGGAGGATAATATGAATCCAGAAAAATTATTAAATGTAATTAAACAAGCCAGAGAAGGCGCAAAAAAAAGAAATTTTACACAATCATTTGATTTAATAGTTCATTTAAAAGAACTTGATTTGAAAAAACCAGAACAACAAATTGAATTTTTTCTAAAACTTCCAAATTCTAAAGGTAGAACAAATAAGGTATGTGCATTTGTAGGTCCAGAATTATTGGATGAAGCAAAAAAATGTTGTGATGGAGTTTATCGAGAAATGGATTTTGCATCTTATGTTAAAGATAAAAAAGGTGCAAAAAAAATATCTATGCAATATGATGTTTTTATTGCACAAGCAAATTTAATGGGTAAAGTTGCAGCAGCTTTTGGTAGGATTTTAGGCCCTAGAGGTAAAATGCCAAGCCCAAAAAGTGGTGCTGTAATTCCGCCAAAGGGAAATGTTAAAGCTGTTGTAGAAAATATGAAAAATACAATTAAGTTTTCAGCAAAACAAAGATTAACATCTCATGTTCCTATTGGTTCAGAATCTATGAAAGATGAGCAAGTTAAAGAAAATATAGAAAATTTTTATAAGACTTTGGTAAATGTATTACCTGGACGAGAAAATAATGTGAAGTTAATTACTTTAAAGCTTACTATGGGAAAATCCATACAAATTGAATAAAAATGGTAACTGAACAAAAATCACAAGTTGTAAATAAATTAAAAGATTTAACAGAAAAGTATAGTATAGTTGCAAGTCTAGATTTATTTGGATTGCCTGCAAAACAATTACAAAATATGAGAGAAGAATTAAGATGTAATTGTGAAATATTAATGACAAAACATAGATTGATGACAATTGCATTAAATGAATCTAGTAAAAAAGGTATAGGGAAACTTTCAGAAAGTTTTAGGGGTATGCCTGCATTAATTTTTACAAATGATAATCCTTTTAAATTATTTAAAAAATTAGAAAAAAGTAAAAGTCCTATTGCTGCTAAGGCTGGACAAGTTGCTCCAAAAGATATTATAGTTCCAGCGGGTTCTACTAATTTTTCACCAGGTCCAATTATTGGTGAATTAAAATCAGCAGGTATTGATGCTGGTATTATTAATGGAAAAATTGAAATTAAAAGTGATTCAACAGTTTTAAAAAAAGGTGAAACATTTACTGAAAGTTTATCTTCATTACTTGCAAGATTAGATATTAAACCTATGGAAGTAGGTCTAAATTTAGTTTCTGCATATGAAAATGGTTTGGTATTTGATGCTGATGTATTAAAAATAGATGAAACTGCGTTTGCAGCTAAATTAGCAAGTGCAATTTCAGGTGGATTTAATTTATCAGTTGAAGTTGTTTATTTTAATAAACAAAATATTAATTTAATATTGAATAATGCTATTTCTCAAAGTAGAAATTTAGCAATAAATGAATGTTTAGTTAATAGTCAAATAATAGAAGATATTTTAGCAAGAGCAACAGCTAATGCTAATGGTCTTAAGAGTGAATTGCAAACAAATGGTTTTGCATAATTATGATAAAAAAAAATAACGGAGAATAAAAAATGGAATACGTATATGCTGCATTATTATTGCATAAATCAGGAAAAACAGTTGATGAAGCATCAGTTAAAAAAGTGTTAGAAGCTGCTGGTGTTTCTGTTGATGAAAGTAGAGTAAAGGCATTAATTGCTTCATTAGAAGGCGTTAATATAGACGAAGCTATGGAGAAATCTGTTGCTGCACCTGTTGCTGCTGCTCCAACTACAAATGCTACTGCTGCTCCTGAAGCAAAACAAGAAGCAAAGAAAGAAGAAAAAAAAGAACCAGCTAGTGCTGCTGCAGGACTTGGTGCTTTATTTGGATAATTTTTTTTATTTTTTTATATAAAAAATAATTAGGAGAGGTACATGGTAGAAGAACAAAAAAGGCGAATCTTAACAGATTTGAAAGATGTTAGGGAATCTTTAAATGTAATTAGGGATGACTTGAACTCTTTAAATGAACAAAAAGAAAGTGCATTTAAAGAAAAGTCAGAAATAAGAAAAGAAATTATTAAATTAATTACTGAAGTTAAAAAATATAAAGATGAACGAGATCAATGTACTTCTAAAGTTAAAGCTTTAAAAAAACAAAGAGATGAAGTTAATATTACAATTAAAAATTTAATTGAAAAACATCAAAAAGTTTTAAAAGATAATCCTGATTTAGCAAAAAAAGCTGATTTTAAACCTTCAAAAAAAATTAATGCTGTAAAAATAAAAAAAACAATTGAAGAGTTAGAATTTAAATTAGAAACTTCTGTTATGAGTTTTGAAAAAGAAAAATTAATGACAAAAGAAATAAAAGATTTACGTAATGAATTAAAAAATGATACTTCTTCAGATGATAGTGTTTCTGAAAAAGAAATTTTTAATTTAAGTAGGGAAATTTCTAAAAATAAAAAAATTGCAAAAGATTTACATAAAAATGTAACTGAACTTGCAACTAAATCTCAAGAAAATCATGATATTATAATTAATATAAGTAAAAAAATTGATGATTTTAAAGAAAGAGAACAGAAAATATTAGATAATTTTAATGATTTTAAAAAGAAATATTCTTCTAAAAGAAAAGAAAAATCCGGTTTTGAAAAGAAAATAAAAGAAATAAGAGAAAACTTAGATGGTGAAAAAGAAGAAAATAAACAAGTTTCAGAAGAAAATAAAAAAGAAATCATAAAAGAAAAAGTTGGTGAAGTTGAAAATAAATTAAAAACAGGAAAGAAACTTTCAACTGAAGATTTATTAGCATTTCAAATGGGTAAATAAATTTTAAAATTTAAAGAAATAATTTAATAATAAAAAATTAATTTTTGAATTCTGTGAATTCACATTTTCCACAGTAATTTCTATTTTTATGTGCAGCCATAAATACACCTGGTCCACATTTTGGGCATGTTTTTTGTATTCTTTCTAATGTATCGCCAGTTACTTTATATGCTTTATATTTATTTGAAGGAACTTTATTTTTAACTTGTTTTTTTCCATCATCTTTTTTGCCGCCTTTTTTCTTTGCCATTTAATTCTCCTCCTTTTTCTCTTCTACTGGCTCTTCTTTTTTAACTTGAGCAACTTCTTCTTTTACTTCTTTAGTTTCTGTTTTATTTTCTTCTTTTTTTTCAGCATTATTTTTTTTAAATATATATTTTAGCTCAATTTTTTTTAAAGAATCTTCATCATCGTAAATACGAGCTTCAAACTTTGCACTATTTGTACCAAAAACTACTTTAACATTATCTACAACAATATCTTCAGTTTTTGCTTTTAATTGTGAAGCAATTTTTGTTTTAATATCAGTTTTACTAGGTGTTGCACCATCATAATTGATTATACCATTAATTAATTTTCTATTCAATAACTTTTGTTCAATTGTATTATTAACTTTTATTTCCATTTTATCTTACCTTTATTGAAAATTCACCGTTTTTTGTTTTTTTTAAATATTTGGATATATCTGATTTTTCAGAATTTACTATTATAACTTTTCCTTTCCAATCATCAGTTGGATTTTGAGATTTACAATTTGGACATGGATCTGTTCCTGAATATAAATAATTACAATTTTTACATGCTAATTTTTTCATTTTTTAACTTTTTCCTTCCATTCAACATTTCCAAGATTTTTTTGTCTCATTGTTAAACCAATTTTTGGATGTGATAAATCTTTATAACTTACAGCAATTATTTTTGCTCTACATTTATCTGCGATTTTTAACACATTTTTACTTTCTTTTCCCTGTAATACTTTATCTTTTGAAAATGAAACAAAATCATCCATTGTTTGAGTTAAGTGTACCATACCATCAATTGGACCTAAATTTAAAAATGCACCAAAATCAGTTATTTCTCTTACTTGACAATGAAGTAATTCATTATTTTCAGGTAGGTATGAAACTAATTCGAATGTACATGGATGGTAAATAGCACCATCACCTGTTATAATTCTTCCTTGTCCAACATCAATTAACTTAGTACAGTCAATTATAAAACCCATGTCTTTTGAAATCATACCGTCAAACTTTTCTTTTATTTTTTGTAAAAGAGCTGTTTTTTTATCCATTTCAAATTGTTCTGGTGATACTCTTATGTGATCTTTTATTGTAAATTTGTAAAACATTTTTATTCCTTATTTATTATTTCAAGTCTATTTTTTTGCCGCAATTTTATTAATTTTGTACCAATTTTTTTTAATTTATTTGATAGTTCTTTATCTTGTGTTGCAACATAGACATTTTCAGTTGAAGCAATTTTAATTATTTGATCGTCAACTAATAAATTACTGGGGACTTTAAGTATTTTTAAAGCTTTTCTTTTAATGAGATCATCAATCCAACTTAATGCCATTTTTGCTGCATTGGAATCTTTACCAGAACCTTTATTTTTTAATTGATTTAATTCTTTTAAAGAATCTTCTAATACATTAATATTGTATGGCTCATGCATAATTTGATCTATTTGTTCCAATATGTCTACTCTAAAAACAAAAGGAATTGTCCAAAAATTTGTATCTATTATTATTTCTATCATATTATTGTAAATTTTTTATTTTATTTAAACATTTTTAAATAGTAAAATAATTCTTTTTATATGGATTTACAAAATAAATTTAATTTAATTGTAAGAAATTTGGGTGAAATAGTAGGAGAAGATAAAATTAAAGATATTCTTAAAAAAAGAAATTTAAAAGTTTATTGGGGTACTGCTCCAACTGGAAAACCTCATATTGCATATTTTTTACCAATTGTTAAAATTGCTGACCTATTAAAATCTGATTGTGAAGTTATTATTTTGTTTGCAAATATTCATGCATATTTAGATAATATGAAATCAAGTTGGGACATATTAGACTATAGGACTCAATATTATGAAATTATAATAAAAGAAATGCTAAAATCAATTGGTGTTAATATTAAAAAATTAAAATTTGTAATGGGATCAGATTTTCAATTAAAAAAAGAATATACTTTAGATGTGTATAAATTGAGTGCAATTTCAAATCTAAATGATTGTACAAGAGCGGGTGCTGAAGTAGTAAAACAAGTAAAATCTCCTAAATTATCTGGATTATTATATCCAATATTACAATCATTAGATGAAATTTATTTAGGTGTTGATGCACAATTTGGTGGTATTGATCAAAGAAAAATATTTATGTATGCTAGGGAATTTTTACCAAAAATTAAGCATTCATCACAAATTCATTTAATGAATCCCATGATTGCTGGACTTACAGGAAATAAAATGTCTTCATCTGATAATAATTCAAAAATTGATATTTTAGATTCACCTGATTTAATTAAAAAGAAATTTAATAAAGCAAATTGTGTAGAGGGAGATAAAAATAATAATGCAATTTTGGATTTAACAAAATATATTATTTTTCCATTATTGGATTATAAATTAACTTCATTTAAAATAGAAAGGCCTGAAAAATTTGGTGGAAATTTAGAATTTAATTGTTATGAGGATTTAGAATGTAGTTTTGTATCAAAAGAATTACATCCTTCTGATTTAAAACAAGCAGTTAGTAATTTTTTTATTGAATTAACAAATCCAATAAGAGATTGTTTTAATAATTCTAAAAATAAATTAATATTAAAAAAAGCATATGAATAAAATGGTTGACAATTTAATTAGTGATGAAAAGTTAAATAGATATTTCTTTTTAACAAAAAGTGCATTAGATAAATTAAAATTAGCTGTTCCAAAAAAAACTCACCTGCATAATGCAGCAAAAGATTGTTTAGATATGGCAACTCGATATTTTAATGATGCTGAACATTTTAGAAAAGAAGGTAAATATGTTGAATCATTTGCCGCACTAAATTATTCTCATGGTTGGTTAGATTGTTCAGCTAGATTAGGTTTATTTGATGTAGAATATGATGATTTTTTATTTACAGTAGATAAAGATTAATTATTAATTTTATAAATCAAAAAGTTTAAATTAATTATATGGTAAATAAAAATTTAATTGATTATATTAAAAAAATTAAATTAAAAGGTTATTCTGATATTCAAATTAGATCATTTTTATTAAAATATGGATATAAATTAAAGGTTATCAATGAAGCATTAAATGATAAATCTACTAATCCTGCAATTCCAAATATTGTTAATGAAACAAATACTAATCACAGTTCTAAATATATTAATGGAAATACAATTAAAAGTAATAATATTAATACGAAAGCTAATATTAACTCCAAAACTAATTTGCCTATATTAATTAAAATGAGTGGTATTTTTAATTATATTTTAGGGATTACTATACTAGTTTTTGGCTCATTTTTTTATAATTTAATTTTTGATTTAAGTGGAATACTAAAATATTTATTTATATCGTTTTCAATAATAATTTCAATATTATTTTTTGTTTCTGGTTATTATATTTTAAAATTGAAAACAAATTCAAAAATTATATCTTCAATTCCAAATTTTATATTAATTTTATTTTGTATTATTATGATATACAAAGAGACATATGGTACGAATTTATTTGGAATGTTGTATTATTTTATTATTTTGATTTTTCCACTTTTAATTGTTTATGTATTATTTGATAAAAAATTTACTAAATACTTTACTTAATTTTTTAAATACACAATTTATCAATTATATATGAATTTAATTAATAAATATAAGACTAAAAAATCAGATATTGATTTTGTAAATAATTTACTCATTAATTTAAATAATAATTTAAAAAATCAAAATATTGATGCTGATGCTTTTTTAGGTGGAAGTTTTGCAAAAAAAACTTATTTAGAAATTAAAGATTTTGATATTTTTATAAGATTTAATTCTAAAAAATATAAAACTGAAAATATTTCAATTATATTAATTAATTTTGTAAAAAATTATTATAAAAATTATACTATATTGCATGGATCAAGGGACTATATTCAATTAATAATTAATAAAAAATTAGTTGAATTAGTTCCAATTTTAAAAGTTAATTCGTATAAAGACGCAAAAAATATAACAGATATGAGTCCATTACATGTGAAATACGTAAATGATAATTTAAAAAATATTGATGAAGTTAAATTATTAAAGTTATTTTTAAAATGTAATAAATTATATGGGGCGGAAAGTTACATAGGTGGATTTTCTGGTTATATTTGTGAATTGTTAATTATAAAATATAAAACATTTGCAAATTTAATCAAAAATGTTGCTTTATGGGATGAAAAAACAATAATTGATATTATGAATTATTATAAAAATAATTTAAAATTAATGCAAAATAAATTAACACAATCAAAATTTAATTCGCCATTAATTTTTATTGATCCTGTTCAAGATATAAGGAATGCAAGTAATGCATTATCAAAAGAAAATTATAATAAATTTATTTTTTTATGTAATAATTATTTAAATTCAAAAACTAAAAAAGAATTTTTTATATTAAATGAATTTAAATTTTCTAATATTGAAAAATTAGCAAAAAAAAGTAAAACACATTTATTTTATTTTAAATATTTAGCAAAAAAGGGATTAGAAGATGTAATTGGTGGAAAAGTTAAAAAAGCATATAATAATATTAAAAAAATAATAGTAAATAATGATTTTACAATATTTGAATCTGGTTTTAATTTTAATAAAAACTGGTCTGAAAAAAATAATAAAGAATTAGGATATATTTATTTTTTATTAAATGAAACTGAATTGCCGTTATTAAAAAAACATTTTGGTCCAAAGTTATTTGTAAAAGAGGCAGTTGAGAGTTTTAAAAAAAAATATAATACTGTGAATATTGAAAATGATTTAATTTTTGTATATAAAAAACGGATTATAACAAATTTAAAACAATTAAAAAAAACAATTTTAATAGATAAAATAATTAAAAATAATTTTAAAAAATTAATTTAAAATAAATGTCAATATCAATATTCTTTTAAATAGATAAAAAAATACTACTATATGTTTGATTTATGGATTCAATTAGTAATATTAGCATTAATTTCAATGCTTCCTTTTGGTGAAGGTAGGCTTGCAATTATATTGGGTGTTTTAAGTACTAATATTGATATATTTGGTTATGAAATTGGTGGTTTTGGTCTTTCACCAATTTTTGTTTTTTTTTATACTTTATTTTTTAATATAATTGGAATAATAATTGGGTATTTTTTTTTTAAATATATTATAGATTATTTTTTACACATTAAGTGGATAGAAAAATTGCACGATTATTATGTTGAAAAGAAATTAAAGAAAGTAAAACCATATATAGATAAATTTGGCTTTATGGGATTAATGTTATTTGTTGGAATTCCATTACCAGGATCTGGTGTTTGGACTTCTGCTTTAATTGCAAATGTACTTGAAGTAGATTTTAAAAAATATTTTTATCCTTGTTTTTTAGGAATAATTGTTGCATTGTTTATTACAGTAATTTTAACTGTGAAAACATTGAGTTTTTTCTAAATTTTTATAAATAGTAAGAAAATTCTAATATTATAAACAACACCTAATTTAATAAAAATGTTTTATTTTGTTTGATGTGCAACAATTCACACGTCTTTTTGCAAAATGAGTGTGTTTTTGTTTTTAAATTAGTTAAATCGATTAAAAAGGTAAATAATATGGCAACATTTCATGAAATTGACGGAACAACTTTAAATTATAGAGTTGGAGAGAAATTAAAAGAATTATTAAAAATGCCTGAATGGGCTCATTATGTAAAAACTGGTCATCATAATGAAACTTTTCCAGAGCAAGTTGATTGGTGGTATGTAAGAGGTGCTGCGATTTTAAGAATGGTTGCCTTAAGAGGTCCATTAGGTGTTTCAAGATTAAGAAAAAAATTTGGAAATAAAAAAAATAGAGGTCATAAACCTGAAAAGAAATTTATTTCTGGTGGAAAAATTATAAGAACTCTTTTACAACAATTAACTTCTACAGGTTATATTGTAAATGCAGAAAAAGGTTCAAGAAAGGGAAAAATATTAACTCCAAAAGGAGAATCATTTCTCAATTCAGTTGCTAAAGAATTATAGGTGTTAAAATGTCAAGAGTTAAAAGTTCAAGTAAAAAAAAAAGATTGGCAAAAGCAAATAGATTAACTAATTGGGCACCTGTTTGGACAATATTAAAAGTATTTGGAGCTGGTCAAGCAAAAAAGACTCATCCTTCTCAATTAACAGATAGAAAAAGAAATTGGAGAAGAGGTCGTAAATTAAAAGTATAGGTGATATTATGGCAGAAATTAAAAGATCATACAATATTCCATTAAGGAGAGAATTTTTAAAAGTTCCAAAGTATAGACGAGCAAATAAATCAATATCAGCTATAAAAAAATTTTTAATTAAACATATGAAGTGTCCAAATATAAGTATTGGAGAAAAATTAAATTCAAAAATATGGCAACATGGAATAAAAAATCCACCTCATCATGTTTTAGTTGATGTATTAAAGACTGTTGATGATAAGGTTTATTGTGAATTACAAGGTTTTGAAATTAAAGTTTACAAAAAGAAAGAACCTGAAAAAGCTAAAACATTAAAAGATAAAATTGAAGAGAAATTTGAAGGTAAATCAAAGAAAAAAGTTATAGTAAAAAAATCTAAAGATGCTGAAGAAACAAAAACAAAAAAAGTAGTAAAAAAAATAGTTAAGGCAGAAGAAGAAAAACTTAGTGATGAAGTAAAAGAACCTGTTTTAGAAAAAAAATCAGAACTTGAAAGTAAACCTGAAGATATTAATTCAAACAAAGAAGATAAAAAAGCTGAATAGGCTTTTATTTTTTTATTTTAAATGGAATCTAAAAATATTGATTTAAAGCATAAGTATATGCAATTAGAAGAAATAGAAAATCAAATAAAGTCTTTTAATGAGAAAATAAACTCTATTCAAGACGATTTATTAAGATTGAATGATGTTAAAGAAAATCTAATTTCATTAAAAGAACAAAAAAATGACCAAAATTCTTTAATTTCTGTTTTAGAAGGTATTTATATTAAAGCAAATATAATAGATTTTTCAAATTTATATATTAATATAGGATCTGACATAATTGCAAAAAAATCATATACTGAAGTTTTCGAATTGATTGAATTGCAAAGAAAAACTCTTAATCAAACAACTGAAAGTTTAAAAAATTCAATATTAGAATTAGATTCTCAAGCATTAAAGCTAGAAAAAGAACTAGAAAGTGAAGTTAAAGAGTAAGATTTATATTCATATATATAATTTTTAAATTAAGATGTTTGGTTTTTTTAAAGATAAATTAAAGGATATTGTAACTAAGTTTAGTAAAACAGTAGAAGAAGAAGTAGTTGAGGATGATTTTAATTCTGAAGAGTATTATGAAAAAGAACTTAAAGTAAAAGATGAAGAAAAACAATCAGAAGATAAAAAAAAACCAATTGAAACAAAAAAAGAAATAAAACAAGAAATAAAACAAGATACTAAAAAAGAAGAAATAAAACAAGAAATAAAACAAGATACTAAAAAAGAAGAAATAAAACAAGAAATAAAACAAGATACTAAAAAAGAAGAAATAAAACAAGATACTAAAAAAGAAGAAATAAAACAAGAAATAAAACAAGATACTAAAAAAGAAGAAATAAAACAAGAAATAAAAAAAGAAGAGAAAATAGAAGTAAAAAATAAAGAAATTAAAACAAAAAAACCAGAATTTGTTGAAAAACCTAAAGTTGAAGATAAATCAAAAGAAGATAGCGATCAAGAAAATAAACAAAAAATAAAAGATAAAATAAAACAAGAATTTAGGGATCAAATTTATAAAAAATATAATATTTTATCCGGCGATAAAAAAAATAATTCTAAAGATAATGAAGATATTATTGAAATAAAAGATACTGATTTAGGTGATAATAAATCTGATATTATTGAAACAAAAAAAGAACATGAAATTAAAACATTAAATATTGATATTGATGAAAATTTAAAAGATGAAATTTCAAATGAAGCAAAAGAAGAATTAAAACAAGAAATTAAAGGTGATGATGCTTTAAATGAAAAAATTGATAATTTTGATGAAAATTTATTTGATTCAGTTGATGAGGGAAAACATATTTCTTATGATGAAAATAAAAGCTTTTTTGATAAAATTAAAGAAAAACTTTTTACATCAAAAAAAGAAAATATATTAGAAACTAATTCTGTTGAAAAAGAAAAAGAAATTTTAGAAAATAATTTATTAAAAGAAAAAGAACAATCTGAATCAAAAAAATTAGAAATTGAACATGAATTTGAAGAATTAGAACAAAAAATAGAAAAACAACCAGAAATCCAAGAAGAAACGCAAGAAGTTAAAGAAGAGATTAAAGAAATAATCGAAGAAAAGAAAATAGAAGACAAACAACAAATTCATGATGAAATTAAACCAGAATTAAAAGAAGAAAAACTTGAAGTTAAAGAAAATATTCAAAAAGAAATCAAAGAAGAGAAAGTAGAACCTATTATTGAAGAAAAAATAGAGACAGTAATTAAACAAAAAGTTGAACATGTTCAAGTTAAAAAAGAAGAACCTGGTTTTTTTAATAAAATAAAAGATGTTTTTGTTAAAAAAACTTTAAGTGATGATAAATTTGAAGAATTATTTTTTTCATTAGAGTTGGCATTGCTTGAAAATAATGTTGCATTATCAGTTATAGATAAAATAAAATTGGACTTGAAAACTAGATTAGTTGATAAAAAATTAAATCGTTTTCAAATTGATAAAACAATTTCAATTTCATTAAAAGAAAGTATTTCAGATTTATTTAATATTCCAACTATTAATATTATGGAAGAAATTAAAAATAAAAAAAATGAAACTGGTGAACCATATATTATTTCGTTTGTTGGTATTAATGGTGTTGGAAAAACTACAAATTTAGCAAAACTTGCAAATTATTTTAAAAAAAATGGATTTTCAGTTATTATGGTTGCTGGAGATACTTTTAGAGTTGCAGCAATTGAACAAATTGAAGAACATGCAAATAATTTAGATATTAAATTAATTAAACATGATTATGGTTCTGATCCAGCTGCAGTTTGTTTTGATGCAATAAAACATGCAAAATCTAAAAATATAGATGTTGTTTTAATAGATACTGCTGGAAGAAGTAATGCTAATATTAATTTAATGAATGAACTTAAAAAAGTTATCAGAATTAGTAAAAGTGATTTGAAAATTTTTGTTGGTGATTCTTTAAGTGGAAATGATGCTGTTGAACAAGCAGAAAATTTTAATGAATCAGTTGGTATCGATGGAGTTATTCTTGCAAAAAGTGATGCTGATGAAAAGGGTGGGACTGCAATTTCAATTGGTTGGGTTTTAAAAAAACCAATTTTATTTTTAGGAACTGGTCAATCATATGATGATCTTAAAGAATTTTCTTCAAATTTGATATTAGATAATTTAGGTTTAAATTAAAAAGGTAATTTTCCACCCATCATTCCTTTCATTTTATTTGCAAGGCCAGCCATTTTTCCTGTTCCTTGTCCACCTTTCATTAACCGAATCATTTTTTTACTTTTTTTGAATTGCTGTAATAATTCTTTTACTTCCCCATTATTTCTTCCACTACCTTTAGAAATTCTTTCAATTCTTTCTTGTGTAATTGTTGACGGATCTTCAAGCTCTGCTTTAGTCATTGAATCTAATGCAAATTTCCATTTATCCATATTTTTTTCTCCCATGTCTAATGCTTCTTTTGGAATATTAACATTTGACATACCAGGAATTAAATCCATTATTTTAGAAACAGATCCCATTTTTTTAAGCGAGGACATTTGTTCAAATAAATCTAATAAATTAAATTCACCTTTTAATAATTTTTTTCCCATGTCTTCAACATCAGTTTCTTTAAATGCATCTTGAACTTTTTCTAATAGTCCTTCAATATCACCCATACCTAATAAGCGAGAAACAAATCTTTTTGGTTCAAATATTTCTAAATCATCTGGTTTTTCTCCAATACCAATAAATTTAACATTAGCCCCAGTAGTTGCACATGCAGATAATGCACCCCCACCTTTTGCTGTACCATCAAGTTTTGTTATTAAGACTCCATTAACTCCACAAGTATCATGGAATGTTTGTGCTTGTTTTTGTGCATTTTGTCCTTGGTCTGCACCTATTACTAAAAGATTATAATCACTGTGTATTTGGCTTGATATGTTATTTAATTCTTGTATTAACTCATCACTTAATGCATCTCGCCCAGCTGTATCAACAATTACAATATCATACTCATATAATTTATCTTTAAACTGATTAAAAATTTGTACTGGGTCTTTTAATTCTGGATTTCCAAATACAGGAACATCTAATTGACTGCAACCTTGTTTTAATTGAGTAAATGCAGCTGGTCTCCAGGTATCGGTTGAAATGCAACAAACTTTTTTCCCTCGTTTTTTATAAAATTTGGATAATTTAATTGCTGATGTTGTTTTACCATTACCAAATAATCCAACTAACATAAAAATAAATGGTTTTTTTTCAATTTTTATTTGTTCACTATCTCCTCCTAAAAATTGTACTAACTCTTCATAAATAATTTTAATTAAAAATTCTTTTTTTGTAATTCCTGTTGGACTTTTTTCATTTAATGCTCTTTCTTTAATTTTTTTTGATATTTCTAAAACTAATTTCACATTTACATCACTAGACAATAATGCCCTTTGAATATCTTTTACAATTTCATTAATTACATTTTTATCTATAAAAATTCCACCAGTTATTTTATTTAATGTAGACTTTAATGATACTGTGAGTTTATCTAAAACCATATATAAGAATTATTTACTATTAATTATAAAATTAACTTAAAAAAAAAATTAAAAAGAAGAATAATTATCTTCTTTTTCTTTTAGCTGGAGCCTTTCTTTTAGCTGCTTTTCTAGCCGGAGCTTTTCTTTTAGCTGCTGCTTTTCTAGCTGGAGCTTTTCTTTTAGCTGCTTTTCTAGCCGGAGCTTTTCTTTTAGCTGCTGCTTTTCTAGCCGGAGCTTTTCTTTTAGCTGCTTTTCTAGCTGGAGCTTTTCTTTTAGCTGCTTTTCTAGCCGGAGCTTTTCTTTTAGCTGCTGCTTTTCTAGCTGGAGCTTTTCTTTTTACAGACCTTGTTGATCTTTTAGCTACCTTTCTTTTTGGAGCCGCCTTCCTTTTTGTAGTTCGTTTTGCAGTTTTTCTTGCCGCCATTTGATTCCTCTTTTTTATTTAATTATTATGATGTTGTAAAATCATATATATATTAGTAAATACCTTTTTAGAGTATATAAATGTTTTCCTTTGACATATAAAGAATTAATTTTGTTTTGTGTTCCATTAATTAAAAAAAAAATTAAGAATTATTTTTTTATTTTACGCTTCAACTTTTGTTTTATCTAAGTTTTCTTCAAACTTAAATTGTTTTTTACCCTCTTCAATTTTAATGATTCTAATTTCACTTGTTTTTACTGAGGTTATTTTTTTAATTGAATCTTTCATTTCTTTTTGAAATTTTCCTAATATAATATTTTTTATTGTTTCATTATATGTAGATTCATTTATTTTTTTTTCAATCCATTGTTTTACACTTTTTCTTAATTCACATTGTATTGCTTTTGATGCTAAATATTGTGTTACAATTAATGGTTTAATTCTTACTTTAATATTATCTTTTGATTCAACTAAAAATGAATCATCAATTTTTGTTTTTTCTCGTCTTACATATTTTCTCATTGAGTTTGACATTATTTCATATCTACAAACTCTAGTGTCACATTTTTGACCTGTTGTTTTAACGATTTCAAAATCTATAATTATATTTTGTTTTTTTGGATCTCGTGTAAGCATCATTAAATTACTACTTAATTTTCTACCAATTAATAATTCATTATCAGAAGTAATAGTTTTTCCTAATTCTTTATTGTTAAAAAAATCTGGTGCATTTACTTCGAACCATTTTTTTTTTTTCCAATTTAATACTGATTTTGATGCTTTTTTAAATTTTGCCATTATTCTAGGAGATTTTGGTTTGTTTATAAAGTTTTTTAATTCCGGATTTAAATCTGTTTACTACACTATATACACTATAGATAATTTGCAATAATCTGTGCAGGTAAATTTCCATATGATAAAATTTTTTTATGAAATGTAATATAGTCCATTTTATTTTTTAATACATTTTCATCTCTAGCTTTTTCAATTATGTGAGCTCCAATTAAATAAGACATTGGATATGTTGGTCTTTGTGAATACCAAAAACATTCTCCTTTGGCTCTACTTTCTGGTATCATTGTATGTTTCTTTAAAAATTTCCATGCTTTTTTATAAGTCCAATTATTACAATTTGTATTTATGTCAATAATAATTCTACATGCCCTTAATGCTCTCATTTTATACATTAAAAATTTATCATAATCGGTTTTTGAAAACCCAGTATCAACCATAAGTTTTTCACAATATAATCCCCATCCTTCTACAAAAGTTATTGATGCTAAAAATTGTCTTAAAATATTATTTTTAAATTTTGTATTATGTATTGTTGACATTTGTAAATGATGTCCTGGAAATGCTTCATGTACTGAAGTTAATTTTAATTCATGTAAATTCATATGAGCTAATTCTTCTTTTGTTCTTGGTGTTGTTATAAAATATCTACCAATTTGTTTTTTATCATCCATTCTTGGTGGAACATAGGCTGCCGCAGGAAATTGCTTTTCTAATTGTTTTGGAGTTTTCATAACAATTAACTTTTCTTTATGGTTTATTTCAAATAATTTATTTTTAATAATGAATTTTTTTGAATCCAATGTAATTTTTTTAGTTATTTCAATTAATTTATCTTTTTTAATAATTTTTTTATCAATTTTTTTAAAAAATTGTTCAATGGTACAATTATTTTTATTTGCAATTTTTTTCATTTCACTTTTATATTTTTTAAGTTCATTTTGTCCTAATTTTAATAATTCATTTATATTTTGATTAATATATTTAGATTTTTTTAATATTTTACTAAATCTGGATTTCCCAATTCCATAATTATCAATACTTTGATTATATAATGTTTTAAGAAATTTTAAATATTTTTCAACTGTTTTTTTTAACTTATCAACTTTAATTAATTCATTTTTACTAAATTTTATTTTATTTTTAAGTTCATCAAAAAAATCTACATTTGATGACATATAAATACTATTATCTAACCATATTTTTATAATTTTATTACTATTTTTTAATATTTTAATACCAATATTTAAATTTTTTATTTGAGTATCAATTCGCGATAATATTATTGCTTTTTTATTTTTAAAATCAGATATCAAAAACTCTTGAATAGAATTATGTGGTAAAAAAATACTAGGATCTTTTAATCTTAAATCATATTTATGTTCATCAATTTCAAGTTCTAAATGATCTTTAAACAAATTGTAATCAATTAAATCATCTTTATTTAATTTATTTATATTTATTTTTTTTAGATTAAGTAAATATTTTTCATTTAATTTTAAATTATTATTTCTATTTTTATTATCTAATAATGTTTCATTAAATAAATATTTGTGATGAGAATAATTATAAGCTCCACCTGGATTTATTTTAAAAAACTCATTAAAATATGATTTAATAATTGAAATTATTTTAACACCTCTTAATTATTAATTTTTTTTTTGTTTATTAATTTTATTATTTAAAAATCATTAATTGTATGACTTATATTATTTTCTTTAATTCCGATTTGTTCTCTTATGTTTTTTGCAATGGCTGATCCAATTAATTTAGATAGTATATTAAAATCCGTTTTTTTTATATCAAGAACATTTTTTATTCCATTATTGTGCATAACTCTAGCTCTTACTCTACCAATATATTTTAATTTTAATAATGGTAATAATTCTTCTTTTACACCATATTTTATTCTCATACTTAATTTATTTATGTCTTTTATTATTTTCATATTATTAACTATTTTAGAAATTTCACTTATACAATATAATAGCCACATGCTTTTTTCAATTTTGACCCGTAAATCTCCTGGTGTTGAATTATAATTTAATAATATTTTATTTTCTCCTGCTTCATTTATCCATTCTTCTAAACAAAGGCTTGTTTTAAATGAATTTAAATATTCTTTATATTCTGGATCATAAATATCTGGCACATCCATAATAATATTTTCTTTATTAGATTCAAATATGGTCATTATTTTTTCAAATTCTGAATTTTTAACACGTAATAAGGGGCGCATTTCTATGGTATTTGAAATAATATTTAATAATGTTATTGGTAAAATTTCTTTTTCTGAATTTATTTTATTAATATTTTCTATTAATTCATTTGCAGTTAAAGGATCTATGTATAATTGACTTACCCTAATACCTAATTTTGTTATGTTTATATTATCAAAAAAACTATTGCTTTTATTTGCACTTGAAAATTCATCTTTTTCGAATTCTATAAATTTCCAATCATTTAAATAATTTAATATTTTATCAATTGTAAATTTTAATCTATCCATATCACCAAATTGAAATGCCCAAAATGTTTTTGAAAAAAAATCGATAAGGTCTTTATAATTTTTTACAATTTGTGTTGATAGTAAGGATAAAATATACATTCTTAAGGTTGGTTCAACTGCAAGTTTTGAATATATTGATTCGGGTTTACCTATTAAAAATTTATTATATATATCTTCATACTCTTTTTCATTATTTGATATTGCAATACTTTCTCCATAATCTTCTTTACCTGGCCTTCCGGCCCTTCCAGACATTTGTAAATATTCTAAAACTGGTATCCAATCATATTCCCTTCCTGTAAATCTTTTTAATGATCTTAAAATAACTCTAAATGCTGGCATATCAAGTCCTGCTGCAAGTGATGTAGTTGCAGAAATTATTTTTATATTTCCATTTCTAAAATTATCTTCTACTAATTTTCTTTGTTTGCTTGTAAGTCCACTATGATGAAATGCAATACCTTTTTTTATACATTTAGCAAGACGAATACATTGTTTTGTTGGTTGACTTAAATCTTTGGTTATTTGTTGTGATAAGTATTCAAAAACTTTTTTTTCATTTAATGAAAAAGGTTCATTTTTTAATTCTGGTTTAACTTGTTTTTCTCCATCAAAATAAATTAATTTTGATATATCTTCAGCACATTTTTCACTACTGCTTTTTGAACTATTAAAAACTATTCCTTGTTTTTGTTTTTTTATAGTATTAATTGCAATTTTATGTGTTGGTTCAATCATATAAGTAAATTTTCCATTTAATTTATATTTCTATTGTAGTAATCATTAAAAATAAAACAATTTTTTTAATTTTATGTATAAAAAAATAAAAACTAATGATGGTTCCTACACTTTATATAATTCTAAATTTGATGAAAATTATCATAGTATTTCTGGCGCGGTTCAAGAATCATATCACAAATTTATTTTTCCTTGTAAAATTTTATTCTCAAAACAAAAAATATCTATATTGGATATTGGTTTTGGGCTTGGTTTGAATTGTTTTTGTACATTATTTTATATTTCCAAAATTTCAACTGAAAAGAAAAAAGTTATTTTTTATTCTTTTGAAAATGATATTGATTTGTTTAATAATTTAAATGAAGAATTATATTTGAATAATGATAAAAATGATAATTTTGATTTAAGTTTTATTGAATTTTTTTTATCAAAATTAAAAAATAAATTAAATGATATTAATATTAAAAATAATATTAATGATGATGAAAATAGTTTTTATATTGAATATTCTTATCAAAATATTGATGTAAAACATTATTTTTTTATTGGGGATGTTAGAAAATTTAATTTTGAAAATCTTAATTATGATATTTGTTATCATGATCCATTTAGTTTTCACAATAATTTAGAATTATGGACTTATGATTTTTTAAAAAAAATTATTAAAAATTTAAACTTTTTCTTTTTAACATATAGTTTTTCTTTACCTTTTTTAAATTCAGTAAATAATTTAAAATTAGATCTGTTTGAAATAGACCCAATTGGTAGAAAAACACCTAGTATTTTAGCAATTAAAAAATCAAATTTTTTAAATTGTTTTAAATTTAATTTGTCGGTTTATAAACCTTTAAATGATATTTATTATAAATATTTAAAATCCAAATCTGCAATTTGTTATTTTGATAAAAAATTTGATTTAAATAATGATCAAATAAAAGAAAATAGGGTTGAACTTGTTTCGAATTCTAATTTAGAAAGTTTAAGTAAAATTAAAAAAACTTGTAAACTATCACCGAAATAAATATAAATAATTTTACATAAATTCATTTAAGAGGTATTTAATGGATTTTTTAAAAAAATTACAAAAAGATAATGAAAATTTAAAGGTTTTAGAGGATAATGATTTAATTAATGATAAAGAATTGTTTAAAATTAATGATTTTGAAGAAAAAGATTCTAATCAAAATAATAATTCATCAAATAATAATCAATCTAATGATGAATTTATTGATTATAATAGTAATCTAAATGATAATTCCTTTAATGGTGTAAATAATACTAATAATGATGCTAATAGTGTAATTGCTGATATTAATAATAATTTGAATAATGATTTGGGTGTTGATGAGAATAATTTACATAATGAAAATAAAATTGAAATTAATGAATTAAATAATCAAAATAATCAAATTAGTCAGAATAATCAAATGAATCATAATACTCAAATGAACCATAATGATATTAATGCAAATTCTGAAAATATTAATAGTAATGATAATGTGAATAATAATGACAATAATAAAAATAATGTAAATATTAATACTACTAATGATAGGATTGTAAATATGTTGGGTTCTGAATTTAATCCTGCTTTTGAACCAAATACTGGTCAAAAAAGTAATTCAGATATTAATTTAAAAAATGTAAATTTGAATGAAACCCCTACTGCAAATATTCAGCCAAATGTAAACTCAAATCTAAGAACTGGTATTAATAATACTGATTTAGATGAATTGAAATCTAATTTACAGAAAATGCATAAATTTATTATGGACTTTCAAAAATTAAAAAATGTTGAAATTAAAACATTGTATAGTAAATTTGAACAAGTTCTAGTGAGATTAGATGTAATTGAAGATAAATTAAAAGGTGTAAATAATAAACAATCTGTCTCTAATGCTACTAATAATTCTAATGTTAATGCAAAACCAAATGATAATTCTGAATCAAAAGATTCAGATCCTTATGTGGATTTATCGAGTTTTTTTTATGCAGGTAAATAATGAAATTTACTATAGGTAAAATAATAAATAATTTGGGAGTGGAACAAAAAAATGATTTAAATTTTTTAGATAAATTTTTATTAAAACATTTTGTTTGTTTTGGTGGTTCTGGTTCTGGTAAAACTTATTTATTAAAAAAATTAATTGAAGAAATAACATTAAAAAAAATCCCAGGTATTATTATTGATACTCAAGGAGATTTTTCTTCTTTAAATATTTTAAATAAAAATAATTCAAATTCAAATGATTGGAATGATGTTGAAGTAAGAATATTTACTCCATTAAGAAATAATGGTATTGAATTGTCTTTTTCACCTTTTTTTAAAATTGATTGTGAGTATGATAATTCTGAATTAGTTAATGTTATTTCTAATTGTTCAGATTCATTTACAAATTTATTGGGTTATAATATTTATAGTGAAGATGGCAAAACTACTTCTGCTTGCCTATATTTAGTTTTTGAATATTTTTATAATAATAAAAAAGAAATAAATTTTGATTCATTGATTGATTTTTTTTCAAAATCTAATGACTTAAGTTTAAAAATAAATGAGTTTTTGAGTGCTGCTAAATTAGTTCAGTTAATTAAACGTATTAAACTTCTAAATATTGGTAAAAATAAATTAATTTATGATGGGAAAATAAAATTTGATTTAGATATTTTATTTAAGCGACCAGCTTTAAATATAATTAATATTACTGGAATTGAAAACGAAGATGTTCGTTTTAATATAATTAATTTAATTATTTCTAATTTATATAATTGGATGATTAAAAATCCTTCAAATAAACTTTCATCTTTTTTAGTTATCGATGAAATTAGTTCATATATTCCTGCTGGTGTAAAAAAACCATTTACTAAAGATTTATTGCAATTATTATTTAAGCAAGCAAGAAAATATGGTGTTTCTTGTCTTATTGCAACACAAAATCCAGGTGATATTGATTACAAAGCCTTATCTCAATTTTCAACATGGTCGATTGGTCGATTAAATACAAAACAAGATTTTAAAAAAATTGAAAGTGCAATTAATTCAGTTAATTCTAATTTTAATTTTTCAACTGAATTACCTTCTTTAAAAACGGGAGAATTTTTATTATATAGTCCTGATGCTTTTGATAATTGTGTTTTATTTAAAACAAATGAATTACTTACTGAACATAAAACAATTTCATTGAAAAATATAAAAAATGATGAATTGACTATAAAAAAAATAGAATTAGATTTTAATTCTAAAAATAATTTGGATGATGATATAATAAATACAAATAATGGTAATTCAAAAACCGATTCTGAAAATTTAGTTAAGGGATTTCCTATTAATGTAGAAGAAAAAGATTTATCTAATTTAATTAAAAAAAATAAAAAAAGATTTCTTATGTTTTTTTCTGAATTGGAACAGGTAGAAAAAATAGAATTGAAATATTTTCCAATTTATTATTGTTCATTAAAAATAAAAGAATCTAAGTTTTTGGGTTTGAGTCATAGTATAAGTGAATACAATGTTTTTTTTGATGCGGAAAATTTAAATCCTTTACAATTTAATCATTTTGATTTTGAATCAATTAATGGTTTTAACAATTTTATTAATTTAAATGATGATGAAATTAAAATTTTTAAAGAGATTTTTTTAAATAAAAAAATAACGCCAGCAGAAATTTCTTTAAAATTAGATTTATCAAATAGAATAATTAGTGATTGTATAAATAATTTAGTTGAAAATAATATTATTATTAAAAAAAATGATGGAAAATTAAAATTATTTTCTTTAATGGTTGATATTAATATTCCTTTTAAATTAAAAAAATTCTCTGCAATGGAAGATTATTCTTTTTATAATATGTCAATTAATAAAAAAGAAATAAATAATATTGATAGATTAAAATCCATTTTAAATATTTGGTTTTGTGATTGTACTATTCAAAATTCTCAATTAGTTTATATGCCATATTATAATATAATTCTTTCAGATAAAAAAAATACACGTTCATTAAAAATTAATGCGTCTTCTGGTAATATTATTAATTTTTAGATTGAAAGTTTAATATTGCTTGAGCTATATCTCCTTCGGCGTCCATTAAAAGTTCTTCAGCTTTTTCTTCATTAATATTACATTGCTCAGAAACAGTTTTTATATCTTCATCAGTAATTTCAATAATTTCTTCGTTTGCTTCAAATCTATTTTCTCCACTAATTTGATAATTTTTTTCACTACCCATTTCAATTTCTTGGACGCTAGGGTTTTCAAAAATTATCTCCCCTTCATCCATTTTAAAAATTACTTGATTTACTTTTATTTCATCTTGTTTAATGCCCATTTGTTTCATAGCTTTTGCCATATCTTTTGGATTGAGACCTGGAAACATTTTATAGACCTAATATGTTGATTCCATAATTGTATAATAGAAATTGAAAAATAATAACTAATACTATAACAACAATAACTGCTTTAGGGTCAATAATAATTTTACTAGAAATTTCTTTACCAAAATTTACTAATCCGCCACCTGTGGGCATACTAAACCCTTTATTTTTTACCATATTTTTTATTTTTTATTTTTCTTTATAAATTTATCTTGAAGATTTGAATATTTTATTTTTATTTTATAAAACGATAACTTTAAAAGTTGATTATATGTACTCTCATTATTTATATCAATATTATAGGTGATTTTAATGGAAATGACAAAACCGTTTGACACTCTAAATGCTTCAAAAGGCAAAAGAGTTGTAATTGAATTAACAAAAGAAAAAAGAAGATTAATAGGCACATTAAAGGCTTTTGATCAACATATTAATGTTGTTTTAGAAGAGACTGAGGAATATTTGGATGGAGAATTAAAAAGTAAATTAGGTTCCGTTTTTTTAAGAGGAGCTGCAATTTTATATATTTCTCCTGCTAATTAATAAAAATGAAAGGAACACCATCAAAAGGTAAAGGAGCAAGAAGTTTAAGTCATACTTACTGTAGACGTTGTGGTAGTAGATCATATCATATTAGAACTAGTATTTGTTCAAGTTGTGGTTATGGGAATTCAACTAGATTTAGACCATCTCAATCAAGAAAAGTTAAACAAAAATAATTCTACTGACTTTATGGCGGGTTGCCGGAGTGGTCAAACGGGGTGGATTTAGGCTCCGCTGGCTTATGCCTACGCGTGTTCGAATCACGTACTCGCCATTTTTTATATATATGTTAAAATGAAATTAATAAAATATTTAATTCAATGTGGTATTGGTTCAAGAAGAAAATGTATTTCTTATGTTGATGAAAAAAAAATAAAAATCAATAATGAAATTGCAGAATCTATTTTTCAAGAAATTACACAAACTGACAAAGTAAAATTCAATGATAAACTACTAAAATCTGAAACCTTTGACTATTATGTTTTAAATAAACCAAAAAATTATATTTGTTCTAATGATGATAAATTTTACAACAAATTAGTTATTAATTTACTTCCAAAAAATAAACGATTATTTACTGTTGGTAGGTTAGATAAAAATACTACTGGTTTAATACTAATTACTAATGATGGAAATTTTGCAAATGATATTTTACATCCGTCTAAAAAAGTAATTAAATCATATGAAGTTATTATTGAGGGTAAATTAAATTTTAATGAAATTAAATTTTTTAAAAATCATGTTAAACACATTGGTAAAATTTGGTTTCAAGTTGAAGACTTAATTTTTTCAGACAATCATACAAAACTAATTTTTAAAATTATTGAGGGTAAAAAACATATTGTTAAGAATTTTTTTACATATAATGGTGTTAAAATATTAGATTTAAAAAGAATGTCAATTGGTAATTTAAATCTAAATGAATTACAAATTAATGATGGTGAATATAAAAAAACCACTAAAACCTATTTACTTGATAGTATTTTTAAAAATTAATTATTATTGATATTTGTAGTTTTTTATGCGTATTAAACTTTTTTTTGTATTTTTTGTTTTCAAATTAACTTGTTGTGTATTTTTTAATACACTATTATTTTTTTAATCTATTAAAATTAATTTGTTGTTGTTATTATTGAGTGAATTTAATCTATTCTCTTGAATTTACTGTTTATTGTCTGTATATTTGGATATTAGATATTTTTGTTCTAAAAACGTCAGTAACTTTTATAAACCGAATATTAATATTAGCATTTACAAGAAAGATAAACTATTGAAAAGGGATGTATTTTAATATATTGTTTTATGCAAGGTATTTCCTCGATAGTTTTTGCACGGAGGTGTATTAATTAATGAAAAACGTAATGACAAAAATTAAGAAATTTGCAACTGCGGGTGCGTCCATTGCTCTATTAGGAACGTCAATGGTTAGCGGAGCAGCTGCTGCGAGTTTTGCAGATTATCCTGCACCATTTGTAAAAGATGGAAAATATGATGCAAATGCATTCATTGTTATGGGTGCAAATGCGGCAACTATGGATGTTATCGGTGCATTAGATGTAGCGGCTTCCTTACAGGCTGTTTCAGTTGTTGAATCTACAGTACAAGTTTCAAGTACATGTGGTGGAGTAACTGGATTAAGTGTATTAGGGGATGCAGCAAAATTTGAAGTATCAAATGACATTTTAGCTTATGGTGAAAGTATAGGCGATGTTCGATCACAATTTATTGGTAAAATTGGTGGAGTTGGTGATTTATTAGCATTTTCAAACGCTGGTAAAGGTCCTAATGAAGTTAATGGTAATCAATATAGTGAGTATTTATATTTTGAAGATAAAGAATCAGGTACAGATACATTAGCAAGCACTTCAGTAAGTTTTACTAAAGCAGACGGAGATGACTTCTTTGCACATAATGATGAATCAATTGTAGACTCATATTTAGTTTTTAATAAGGGTGGTACTACTATAAATCAATCATTATTTGAATATGAAATGGACTTTTCATCAGACAATAACTGGGAAATTCAATTACCTTCAGATTCTTATACTTATGCAGGAGACTCATTAAGTATTTTAGGTACTGATTTTCATGTAGTTAGAGGTGCATTAGATTCAACTGATACACAATTAACATTAGAATTCTTAGGTACTTTACCTGATGAAGGTTCAATGGTAATTTATGAAACTGATCCTATTGAAGCAGCGGCTTTTGCAACTGAATTAGATTTACCTAATAACAGAGTAACAGAACCATTTATGGTTGGTATTTACAATGTTGTAGTTGAATTAAGAGCAGCGACTGCTGGTGCAGATGCAAGATTTAATGTAAGATACACTAATACTGTTACTGGTGAAGAAAAATATGAAAGCAATATAAAAGTAATAGAAGAAGGTGCAGTTGAAGAAGTTGGTGACGAAGAAGAATTATTCATGTATGTTGAAACTATTAATAGTTTAGGAGACAATACTGACGAAATTCACTTTTTAATCGGTTCAGACCATATAAAATTAGTTGATAACTTTACAGATGATACTTTTGTAGCAGATGTAACTGTTGACGGTGAAAAATTAAATAATGGTTTTGTTAGAATGAAAGGTTCATATGACAGTTCAGCTGAAGAACTTGCTTTAAGAACAATTGAATATAGATTAAACGATTTAGATGAGGATGTATACGTTCCTTCAGGACATGGTTTAAGAGAATATTTAAGTGATGACTGTGATATTGAATCATTAACTTGTGAAAGTGACTCAGATTACCAATACTTTAATGGTATGCTTGGACAAAACTGGGATATTAAATTCTTAGGAATGACTGATGCAGCTAGATCAAATATAACATTATCAGGTTCTAGTGGTAATTTAGATTTGAGTATTGTTGAACAAGGTTCAGGTGGAAAGGCTAGTAAATTACAAATTATCAATTATGATAAAAATGAACCAATGGCTTGGAGAACTGACGATGGAGATATAGGAACAAGATATGATGGTGATTTTGAAGCATTTATATTTACTGAAGGTTGGTATAATACAACAAATGGAAATATAACTAATTCAAATGGAACAACTCCTTGTACTGGTGCAAACCATGAAACTTGTCAATTAATTTATGATGAGGATGTATTTGTAGTATCACATAAAGCAACTAGAGATGATGATGTAAGAAGTCATATTTTAGAATATTCTAGTATTGATACAAACAATAACAAAATTAAGTTTAATTCAGTTGCACAAGGTGTTGGTGATATAGAAAGATCATATGCTTTAGTTGCTGGTAATGACAATGTACTTGGTGAAGCTAAATTAAATGCTCGTGGTGATGAATATCAATTCTATGTTTTAGATAATGAAACATTAAATTATCCTATTGTTGTTGATTTAAACAAAGATGGTGTTATTGATAATAGTGTATCACTTCTTGCAAACGAATTTGGTGTAGTAATGGAATTTGAAAAACAAGCAACGCCTCCATATCTTACAGCATCGTCAGATTCAGAAACAGTTAACTTTAATTTAAGTTATGTTGATGATATGTTTGAAGATAGAAGTAGTGATCTATTAGTTCAAATCCCAATTACTTTGGTAAACTCATCAGCTGAAACTATGAGTGTTGGAACTGTTACTGATAATGATGGTAGTGGTACTAATATATTACAAACACAAAAAAATGCTGAAGATACGCAATTTGGTGCAGATATATATGGTACTACATTTATGGCTGTTGAATCCGGTGACGGTGACGATGAAACTATAACTATGAGCACACCTTCAACTCAATTATCAGCACAAGTATTTGTTGTATTTGGTGATAGTGAAGTTTCTAGTGGTGGATCAAGTGGATCTGGTGAAGCTGTAACTCAATCTGTTAACAGAGCAAGATTAGGTATGGGTGTACTTGATAGTGAAGCAAGTAGATATGTTGATGCAGACGGTTCATTTAGCAAAAATATGATTGTTATTGGTGGACCTTGTGCAAACAGTGTAGCTGCTGCATTAGAAGGTAAATCTGCTGACGCTTGTGGAGAAGGTTATGAACCAGGACAAAGTTTCTTGAAAATGGTTGAGAGTGGAGAAAATGTAGCTGTATTAGCATTTGGTTATGACGCTGCAGGAACTTTAAAAGCAACTGATAAACTTTCAGGACTGGCTTCATCCGATAATGCAAACTTAGGAACTGAAGTACCTTTGAACTAAATTAATTAATTTTTTATTTTTTTTTTACTTTTTTTTAATTATATTATATTTTGATTATATTTCTATTTTTTGACAAATTTGTCACATATTTTGTGTTTTTTATATATTAATGTTTATAAATTAATTTTTGTTAAGTTTGTTATGAAAAAAGACTCATTTAAAGTAATATTTACCTTTCTAAGTTTAATTTTATTTTTTAGCTTGGGTTTTATTAGTAGCAATATTTTTTTTGATAGTAATAATCAAAATCCATTATCTTTATCTGCTACTATTGAAAAAAATTCTCCATCAAATTGGATTAATGAAGATGATTTAATAATTGAAAATGATGGTATAAAAATTAAATTAAATAATTATATAATTGCAAGATTTAGTAATACAAATTCAATGGATCCTTTTTTGGATGAAAATTCAAATGCAATTGAAATTAAACCAGAAAATGCGGATCAAATAAATGTGGGAGATATTGTTTCATATAGAGTTAAAGGTGAAGTTAATCCTATAATTCATAGAATAATTGACATAGATTATGATGAAAATGGTTATTATTATATTTTAAAAGGAGATAATAATAATTTGCCAGATCCATATAAAGTTAGATTTAATCAAATAGGATATGTTTTGGTGGGAATTTTATATTAATATGCTCTGTTGCAATTAATCTTATAAAATTTAATATTTAATTAGCTTTATGAAATCTAAATTTTATTTGTTTTTAGCTATTATTTTATTATTTGGTGTATTTGTCTCAGCACAAAATAATTTGTTGAATACTACTGTTTATATGCCTTCAGATGAATATTTTAGTGAAAGTAAATCTGGAACTTATTTAACTTGGAATAAAATTCATTATATTTATTTAAAAAATAATAATTCGGCTAATTTATTATCAAAAAAAATTAATTTTTGTATGGATTTATTTTTTAATTCAAATTTAAAATATGAACGGGTGGAAGGGGATTTTTGTAATAGAATTTATTTTTTTAAACCTCAAAAATCTATGGTTTTTTATTATAATTTTTCATTAATTTATATTATTTTATTAATTGGGATTTATTTTGTTTATAGAAAGTATTATCGTGGTAAAATTATTTTAGAAAAAAAAATTAAATTTCTTGAAAAGTCATTTCATGGTATAAAAAAAATTAGAGTTGAAATTTTAATATCCAATAAAACTAAAAATAATTTTTCTAATGTTAGAATAAGTGATTTAATTCCAAATATTTTAGATATTTCTGAAAGTGGTTTAGGTACTATTAAACCGGAAATAGTTAATTCTATTTCTGGTAAAGAATTAATATTTGATGTGGGTACTGTTGAAGTTGGTGAAAGGTTAATGGTTTATTATGATTTAAAAAGTAAAATTGATTTGAGTGAAGACTTTACTTTAGAGGATACATATTTAATATATGATACTTATTTTGGTCAAAAAAGAATAAAAATTAACATTTTGTAATCATTATTTTTTTAACTGATTTTATTTTTTTAATTGCATTTAAAATATTATTTATATGTTCTAAATTTTCAACTTCAATTTTAAATGATAATGATACTTTTTCTTTATCTATAATTTTTGCATTTGCACTATTAATTTTATTTGTAAGTCTACTTATTGTATTTAGTAAATCTACCATTAGTCCTTTTCTTTCAGAACAACTGATTTTTAATTCTATTTCACCTTTGGTATTTTCTTGCCAGTGTGATTTTAGAATTCTATCTTTTCTAATATTTTGTTTTTTTAATTTTTCACAATTTTTATTATGTATATTAATTGTAAATCCATTAATATTTATTCCAATAATTTCATCTCCTGGCATTGGATTACAACATTTTGCAAATTTAATATTATAGTCTTGCATTTTATTTACATAAATTAATTTGGAATTTATTTTTTCTTCTATTTTATTTATGCTCTTGGAATATTTTGGATGTGGTATTTGACTTACTTCATTTAATGCTTTTCTTATTTTAGATCTAGCTTTATGTGTTTTTGCAAATTTTAACCACTCTCGGCTTGGCATATGATTTTTTTGGGTTATGATTTCTACTAAGTCCCCATTACTTAATTCACTTCTTAATGTTTTATACTTGCCATTAATTCTTACACCAATAGATTTATCTCCTATATTACTATGTATTGCATATGCAAAATCAATTGCAGTTGCATTTTTTGGTAAATTAATAACTTTTCCGGCTGGAGTTATACAATATATTTTTTCAGAAAAAAATTCAAATTTTACAATATCAACAATATCTGTTTCTATATTATTATCATTATTAATTATTTCTTTTATCCATGACATTTTTTTATCATATTTTTCATTTCCTTCAAATCCTTTGTATATGAAATGTGCTGCAATTCCTTCTTCTGCTTGTTTGTCCATGTCACCAGTTCTAATTTGTATTTCTAATACATTATGATTCTCATCGAATACAGTTGTATGTATTGATCTGTAATTATTTTCTTTTGGGCTTGCAATATAATCTTTTAATCTATTTAATATTGGTTTATATGTAGTGTGAATCAATCTTAAAACTTCATAACAATCTTTTATGTTTTCAACAATTATTCTAAATGCTAATAAATCATTAATTTCTTCTAATTTTTTTGTTGAAGATTTTTTATATATTGAATAAATATTTTTTGGTCGTCCAAGCATTTGATATTTTATTTTTTCTTTTTCAATTAAGCTAATTAATTTTTTTTTTGTATTATCAATTATTATTTCTCTTTCTTTCTTTTTTTGTGGCAGAAATTCTTTTATTTTGTAAAATGCATCTGGATCTAAATGTTTTAAACTTAAATCTTCTAATTCACTTTTTATTTTTCCAAGACCTAATCTATTTGCAATTGGTGCATATATTTCTAATGTTAGTTTTGCAATTTCTTTTTGTTGTTTTTTATCTAATGAACCTAATGTTCTCATATTGTCTAGCTTATCTGCTAATTTGATGAAAATAACTCTAATATCTTTAGAAGAAGAAAGAATCATTTTTCTTAACTCTTCTGCAAAATCTAAACTTACAATTGATTTATTAATTAAATTTATTTTATTTATTTCATTTTGTAAATTAAATATTGATTCTCCAAATTTTTCTTTAATTTCTTTTTCTTTACTTTTATCAATTAAACAAATTCCGTGTAATAATGATACAATTATACTATCATTATCCATTTTATTTTCTGCACAAGTTTTTGCAACTCTATATGGATGATTGAAATAATTCTCTCCAGATATTCTTTTTTCATTTTCAAAGAATTTTTTAGAAAATTCATATGCTTTTTGAACTAAGTCTATGTTTTTTTTATCTTCTAATAGTTCTTTTAGTTCTTCAAATTGTTTATCCATAATATAAGAATTATATTGTATATTTTAAATTTTACTGAGCTAGGTTCTTTAAGCTATTTTTAAGAATTTGATTTTTTTTAATATTATTTTTATTGAATAATTGTTTACATTCGTCATATGTAACCCATTTATAATTTAAAATTTCGTCTTCTTTTGGTATTAAATTACCATTTCCTAAATATTTTCCAGATACAAAAAAAAATGCTTTTCCTTTAGAATATCCTCTGCCTCTGTTATTTGTGAAATTTATATCCAATTTATCTTCATATACTTGAGTATTTGTAATTTTATATTCATTATAATTTACATTTAATTCTTCTTTTAACTCTCTTTTTATGGTTTCAGATATCTTTTCGGATTTTTTAATTCCACCTTGGGGGAAATACCATGATTTTTTATCTCTTGTCGAATTTACAATTAAAATTTTATTATTTTTATTTATCAATATTACAGAAACTGTGGGTCTATATTCTCCTAATTTTTTTAAATTATCTATTCTATTATACATTTTCAATTTTATTAGTGCGGTGTGAGTATATTAAAACCATGTATATACAAAATTTACAATTTTTCAATCGATTTTTTTATAAATAGAATATAAATTTCATGTTTTATGGGGAGGTTTAATAATTTTTTAAGTAGTGATGAAACGGTTTTTAAAAATCATGTTGCGCTAGATTATGATTTTGTTCCCAAGGTTATTAAATTTAGAGAATCTGAACAGCAATCTATTGCAAATTGCGTTAAACCTATGTTGCATGGTAGGAGTGGAAGGAATTTAATTATAAGTGGTACTCCTGGTATTGGTAAAACTGTAGCTGTAAAAAAAATATTTGAAGAAATTGAAGAAGATACTGATCAAATAATTCCAATTTATGTGAATTGTTGGAAAGTTAATACAACTTATAAAATTATGATTGAAATTTGTCATCAATTGGGATATCGTTTTACTCAAAATAAAAAAACAACTGAATTAATACAAATTGCAATAAATTTAATGAATAAATCTAGTATTGTTTTTGCTTTTGATGAAATTGATAAAGCAGAAGATTTTGATTTTTTGTATATTATTTTAGAAAGTGTCTATAGGCGAACTATGTTTTTACTTACAAATTATTCTGATTGGATAACAAGTTTAGATATGAGAATTCGAAGCAGATTGGTTGCAGAAAGTTTAAATTTTAAATCATATTCAAAACAAGAAGTTAATGATATATTAAAAGAAAGAGTTGATTTAGGTTTTTATGATGGTGTATATAATTCTGATTCATTTGAGTTTGTAGTTGATAGAGCATTTTTATTTAAAGATATTAGAACTGGTTTATATTTATTAAAAGAAAGTGCAAATTGTGCCGAAGACAGATCTTCTCGTATTGTAGAATTGGATGATTCTAAAAAAGCTCTTGATAAAATGGATGATTTTAAAACAAAAAAAATAAATAATTTAAATGATGATTTAAAGATGGTATTAGAATTAGTTAAAGACAATACTGGAAAAAAAATTGGTGAAGTTTTTGATATTGGTATTAAACGTGGTTTGAAAATTAGTTATAAAACATTTCAAAGACGTATTAAAAAATTAACTGATAGTGGATTTATTAAAAGTGAAATAATTTATGGTGGTAGTGAAGGCAATAGTAGTTTTTTATATTATAATAATCAACCAACATTAGATGATTTTTAAATATCTAACAACATTTATTAATTGGCTTTTTATTTTTTAATTGTGGCAAATAATAAAAATCAAACAAGGATAAATGGTTTAAATAATAATATCCAACTTTATATTTTTACAGAAATTTTTAGAAGACTTAGTAGGACGTGGTATCCTATTCTTTTTTTATTTTATATTTTTATTCAATTGGATTTAAAATTATTTGGTTATTTAGTCGCAGTAACTTCTATTACTGTATTAATTTTTGAAGTTCCTTCCGGTGTATTTGCAGATCAATATGGTCGAAAACTATCTTATATGATTGGTCAAATAATATTAATTTTAACTTCATTTGTTTTTATTTTATCAAATAATTTTGTATATTTAATTATTGCAGCATTTTTATATGGTTTGTCAAATTCATTTTTGAGTGGTGCAGATAAAGCTTTAATTTTTGATTCTTTTTATGAGTTAAAGCGTAGTAATGAATTTAGGCTTTATAATGGAAAATTGTATGCTTATACAATGGTAGTGGCCGCAATATCTACTTTCATCTCTGGTTTTATTGCAGAATATAATTGGAATATTTTATTTTTTATTGGAATTATATTTGGATTAATTAATTTAATTTTAATAAGCAAATTTTATGAACCAAAAATTCATGAAAAAACATCTCATAAATTACATTTTAAGAAAAGTGTTTTAGAATTAATTAATTCAAGGACATTATTATTTTTAGTTATACTTTTTATTTTTATAAATTCATTATTAGAGTCTTTGTCAGATTATCATCAAGTTTTTGCCATGGAAGTTGGTTGGACTGTTTCCTCATTTGCAATGCTTTTTAGTATTTCATTTATGTTATCTGGGATTTCTGCATATATTATTGAGACTATTGAAAAATATATTAAAAAAGACTTTGCACTTTATGCCGTTCCCGTTCTTATGGGTTTAGTTTATTTTTTTATGGGATATTTAAATAATTATTATGGAATATTATTATTTATTTTTGAAGGATTATTAATTGGATACTATTATGTTGTTCTTGAAGATATAATTAATCATAATGTAAGTAGTAGACGAAGGGCAACAATTTGGTCATTATCTTCTTTTGTTGAACAAATCTTTGTAGGATTATCTAGTATTTTTATTGCTTATTTTTCTACATTTTTTGGTTTTCAATTTTCTTATATTTTTGTAGGACTTTTTATTGGCTTAGGTGGATTTATTTGTGCAAAATTATCTTTAAGGTTTATGAAAAAATAATTGTTCTACCATGATCTAATATAATTAGTTTTTTTTAATATGATTTAAAATATTAATTACAATCAATAAAAACTATTATATATTATTAAAATTATTTTTAAATATGAATTTAAAAACAAAGTTTGATCTTCTAGCAGACAAACTTGAAAAAGCGACATTAGGTTCAAATTATAAGGCTCATAAAATTATTCCAAGGGAACTTTTAAAACTAATAAATAAAGATGCGTTAATTTTAGATTTAGGTGTTGGAACTGGTTTAAGTTCCAGATTATTTATTGATAAGAAATTTAGCGTAGTTGGCATGGATTTTTCTAAAGAATTATTAAAAGTTGTATCTAAGTATAATTATGAACAATTAATAAAACAGGATTTGAATAAAAAACTAAAAGTTAAAAAAAATAATTTTGATTTGGTGATATCATTTGGAGTTTTTGATTTTTTTGAAGATTTAAATCATATTTTTAATGAAGTAAAACGAGTTCTAAATATAAATGGATATTTTGCATTTACTGTGATTAAAAGTCAAAAACCGTCAGATTCTTCTCAAACTTATAAGCATACAAAAAAAGAAGTTAGAGCTTTAGTAAAAAAATATAATTATAAAATTGTTAATGAATTAGAATTTTTAGAATATGAAAAAAAAGATTATATGGCAATTTATTATGGCTTTATATTAAAAAAAAATTGTAATTAATATTAAGGATAAATTGACAGAGATTTCAAATAATATTTATTCTATTATTTATTGTAATCGAATATAACAAATTTGTGCATTCTTGTTTTTATTTTTAATTTTAGGACTGGACACAGTGGTCAAGCTGAGACTTTTTTTATAAATGATATTTGGTTAGTTAAATTATATTTGATCAACTCAAATTGCATAGCCAACCTCACCGGATTTTTTATCCGGTTTTATAATTACAAAAACAAACAGGTGAAAAACATGAAACCCACAAACCCAACTTCAAAAAATATAACTGCTATAACTAATAGTTTAATTAATTTCTCAAAAAAAGCTAATTTTAGCTCGTATGAATTAATGTTACAAAAACATTGTATATTAAGTTAGAATGAAAGAGCTTACAGTATTATTATCTTCTTTTATAGATCGCCCCTTGATAAAAGATTATTACTGTATAAATAAAAATAGTCTTTTTTATAGATAATATCTATAATCTTCTTTCTATATTAAATTCTGTTTTTGATAATTCTACTAAAATAGCTCTTAAAAAATTAACTTCGAATTCATAAAAATGTTTATCTAATTCTTTTTTATTTTTTAAAAAGTATAAGTTTAATTCTTTATAACTATTTGAAATTAATACAAAATTTACAGCTAAATATTTTATTTTTTTTGAAAATATGAAATTATTAATTATTCTTTTTATTATTTCAATATGTGATTTAGTTTCATTTTTATGTTCATTATCTAAAACATTTAATATTTCATCTACAGTATTATTTACTTTAACTAATAATTTTGCCCAAAAGGCTACATTTCCTTTTTCTTCTTCTATTTTTTTACTAATTAAATTTCTTAAATGCATAAATTCATCTTTAGGTTCTAAAATGTCAAATTGAAATCTTATATCTTGTATTCTTTCAAGTGATATCATTATTATTACCTCTGCGTTTTTGTAAAAAGTCGGATATTTTCTTATTATGTAATTTTTGTTTTAAAATAATATGATTTGTGAATGTATTTTTTGTATTAGTTGATATCCATTTGTTAATTAATTGTTGTTCTTTTGAAATTCTTTTTTCAATCCATGATAAAAAATCAATTTGATCAAAATGCATTTTTGATTCCATTAAAAAATTAGATGTATAATTTTCTGTTATATTTTTTATATCTGTATTTAAATTTAATATTTTTGAAGGATTATTTAAATTAAAATAATTACATATTTTGCTTGAATATGAACTTTCTTCTGTATATTCTTTTAATATTTTTTGTTTTAATATTTTTAATTCTAATTCACCTTTTTCTGAAAGTGAATAAGATCCAATGTCATATCCCTCATCTTCATTTATGGGAATTTTAGTGGAGTTTACTTTTTTTTGAAATTCTTTTATAAAAAAACCTTCATCAGGTACAATGTGGCCTATTGAATTATTATTAAATTTAATTAAATCATTTAGTATGTGTAAATTTATTGGATTATCCTCTATTTGAATGTGGGCCATAGATATTTTTAGTCATGTAATGTATTTAATGAATATTAACGTTATGTTTTTACTTTTTGATGTTAGTTTGGCTTATTTGTTATTTGTGTTAACTATTTTATGATTATCATATAGTTTTATATAATAAAAAACAAGAAATTCAATATGGTAAAACAAATTGTAAATCCTTATGAAGTAAAAGGAAGTATTGATTATGATAAATTAGTTGATGAATTTGGTGTTAGTAAGATAAATAATAAATTATTAAATGAAATTGAAAAAAATGTTGGTGAACTTCATTTTTTATTAAGGCGTGGTTATTTTTTTTCACACAGAGATTTGGATAAATTATTAAAAAGATATTCGAAGGGTGAAAAATTTGTTTTATATACTGGGAGAGGCCCTAGTGGAAGTACTACTATAGGTCATTTATTATCTTGGGTTTTTACAAAATGGTTGGCAGATAAATTTGATGTTAAAACTTATTTTCAAATTACTGATGATGAAAAATTTTTATTCAATCCGAACTTAAATTTAACTGAAACTAATAAATTGGCATATGAAGCAGCATTAGATTTTATTGCTTTAGGTTTTAAAGAAGAAAATTTAGATGTTATAGTAAATACTAATGCGGCTGATATTTTATATCCTGTTGCTATTAGAATTGCAAAAAAATTAACTCTTTCATCTGTTAAAGCAAGTATGGGTTTTAATGATAGTTCAAATATTGGTATTAATTTTTATACTGCAATGCAATCAGTTCCTGTTTTCTTAGAGTCAATTAGACAAAAAAAAAATGTTCCTGTTTTAATTCCATATGGTATAGATCAAGATAATCATTTTAGATTAACAAGAGATGTTGCTGAAAAATTAGGTTTTTTAAAACCGTTTACTATTAATTGTAAATTTATGCCTGGGTTAAAAAGTAATGATGGAAAAATGAATGCTTCTGATCCGAATTCTGCAATTTATACTACTGATGATGAAAAAACTGTTATCAATAAAATTAAAAAGGCACAAACAGGTGGACGTGAAACAATTACAGAACAAAAAAAATTAGGTGGAAGACCAAAAGAGTGTAATGTTTATTCATATTATGATTTATTTTTTGAACCAGATGACAATAAATTAAAAACTATTTATTCAAATTGTGTGGGTGGAAGCTTACTTTGTGGTGAATGTAAACTAATGCTTGCAAATAAAGTAAATGTATTTTTAAAAAAACATCAAATAGAAAGACATAAGGCAAAAAGTAAGTTGAAAAATTATTTTTTAAAAAAAGATTTTGATACAATTAGAATTGATTAATTTTAAAATATAGTTTGCTATATCGATATTGGAATTTATTTTTTATATTATTTCTTTTTTATAACTGTCAACTCAATAACAAAAGGTTTAAATATAGTCCTTTTTGAAAAAACCATATAAAAATTAAAAGGGGTTGATTATGGAAAAAATAATTAGAAAGATAGATGGGATGAATACTAAAGTAAAAGAGGGATTTGTTAAGGTTAGACACGACATTTCTTCTGTTGTTAATAAACAAAGTGAATTTATTGATTTCTTTTCAAAAAAAATTGCTGATGTTGAAAGAAATTCATTATCCAAAAAAGAAGTTTCAAAAGTTGATGTAAAAGTAAATGATGTACATACTCAAATTTCTGATTTACAAGAGGCTGTTGATCAGCTTAATATAGAGAGTGAACTTAGAGAAATGAAAAATTTGGTTCTAGATAAAAAAACACTAGATAGTGAATATGCTAATATTTCTGAATTAAATAAACTTGAAGCTGAATTAAATAAACTTACTGATGCAATTGAATCTTTAAAAGAAAAATTATCCAAGAGTGAAAATTTTGTAACTAAAGATAATTTAAAAGAAATTTCTGAATCTATTATGATTGAAGTAGGGGATAAATTTAATCCTTTAAAAGAACAAAATGAAAATTTATTAACTACTGTTCAAGATTTGAAAAATAATTTTGAAACATTTAAGGAAAATAATAAGGATTCATCTTCAATTAGTTTATTAAAAGATGATATGGATCTTTTAAAAAATAAAGTGAGTGATTTTGATGATTTGAATGAAAATTTAGAACAATTGAATTCATTAAAATCAGACTTTGAAACTTTTAAAAGTGATAATGATGATTCTTTAGCAAATTTGAAAAATAATGTTATGAATGATATAAGAAATGAAATGAGTAGTTTAAGATCTGAATTAGAAATATTAAAAGAAAATTCTGTTAATAGTCAATTTGAAGATCAATTTAGAGATTCAGTTGCTGATATTAATAACAGTATTGGTGAATTAAAACATAATCTAGATGATGTTAAATTGTCAAATGATGATTCTAATGCTAGTCAAAGATTAGAAGTTTTAGAAGGGACTGTTAAGAATGTAGAATTTGATACTCAAAAAGAATTATTAAATTTTTCAAGTACATTTTCTAACTATATAACAAAAGATCATTTGGATTCACAATTATTATTATTTAGACAATCTATGACTGAAGCTATGGGTGAAATAATTGATGAGAGATCTAATGGTGAATCTTTTTATGATTCTATTGATGAAAAAGAATCAAAAAAAAACGTAGTTAAAAAAAGTATAAAAAAAGAAACTCCTAAGGTTTTAAAAGAAGAAGTTAATAGTAATGATAATGTTGCAGAAGTAAAAGAAGAAAAGAAATCTACTTGGAATAAAATTGTTGATTTTTTTATTGACGATGACGATGAGTAAATTCTCTTCGGAGAATTATTCCTTTATCTAATATATTTTTAAAAAATATTTTTGTAAAATTTTTTTGTTTTTTATCATTTTTTATTTTTTTTACTATTCCTAATATATTTCCTTTATTATTTAATACTAAAAACCTTCCATCTGTTTTTCCTGAAAATGAATCATCTGTAAGATCTCTACCACATAAAAATAAAAATTCTTTTGTTTTATTTATTGTTTTTTTATTTTTTACTTTATCACATATTAGGTCTAAAAAATTAAAACTTGGACTAAATTTCCCATCAATATCACCCATATATAATCCTGCAAATTTTACATTATTATTATTAAATTCATTTAAGTGTTTATATAATTCATTTGAAATTAAAAAAATATCTTTTTTTATTTTTATTAAAATATTATTTTTTAAGTCGATATTATCAACATATAATGAATAATCTTTTAAAAAAATATTAATTTTTTTAATATCATTATCATTTAATTTATTTTTCATAAATATTGGATATTTTTGTATTATAAAAATCTAACTGATTAAAAAATTAATATTAAAATTTTCAGAAATAACCTTGCTTAATTCATATTTTTCAATAACAATATTTAATTTTTGATGTGCATTTTGTAATTTTTCTAATTCTTCTTCAATTTTTTTACTATTTTCTTCTATATGTGTTTCTTTATATTCAATATCCATTTCATCTTGGGTTATTGTATTTAAATTAATTTTATTTAATACTTTTTTTAATTCTTCATTTTTTTCTTTATATTGTTTTAATTGATTTAATAATATTTGAACTTGTTCAATATTTATTTTTTTATTAATTTCCATTTGTTTTTTTAAAAAATTAATTAATTCATGATTTAAATCATTTTTTAATGTTTCATGAACATCTTTTATATATAATTTTAATATTGGTGATAATATATAAATTTCGGATTCTGCAAATATGTCGTCTTTATTTTTTATAAATAATTCATTAATTCTATTTGATAATTTTTTTAATTCTTCTTTTAAATTTTTTAATTGTGCATTTTTTTCTTTATATTCTTTAAATTGATCTGAATTTTTTATTTTTTCTTTTTGTAAATCCATTTTTTCTTTATATTCTTCAATTCTATTTAAATATGATTTTCTTCTTTCAATTTCTCTAATTACTTTATCTTTTAATTGCATTTTAGTAAATGTGTCTTGTAATTTTTGTTGTAATTCATTAATAATTTCAACTGTTTTTAAACTAAATACTTCTTTTAAGTGTTCTGCATTATTTTTTATTATATTTATTGATTTAGTTATAATTTTAAAATTTTCTACATAATTAGCTTCGTTCATTACAGATAATGTAGTTTCATATTCTTTTAATGCAATACTGATATTTTCATAATATAATTTTACCCTTTTTAATCCTCGAGTTTTTGGAGTTATAAATTTATTATTTATTAAAGTTAATTCTGTAATTAATTTTCTTTTATCTCTTAAAATTTTCATATCATTTTCAGGTACTTCTTTAGTATTAATTATTTTAATTTCATTTTGAATAATTTTAACTTGTTCTCCGATTATTTTATATGCAGTATTAATCTTTTTTTCCATAAATAAATATATTTTATCTCTTTGTTCTTCTAAAAATGCATTAACTTTATTTATATCTAATTTTATTACTTTTTTATCTATGTCATCAAATATTTCTTCATTAAATTTTTGTTTTTCTTTTTGTTTATTTATTATTTGATCTCCATATAATCTTTCTTTAATTAATTTTTCTTCGAGTTCTTTATCCATTATATTTGTTTTTGGATTAGTTTCAATTTTTTTTATTTTTTTAGTTTCTTCATCAATTTCATCATTTTTTTTTCACCAAATTTTTTTAATATATTTTGTCTAAATTCATCTTTAATTCTATTTTTAATGAAATTTTGTCCATTTTTAATTTGTTCTTTTATTTTTTCAACATTAGTTTTTTTATCTTCTTCAGTTTCTTTTTTTACAAATTCAATTTCTTCTTTGTTAGATTCTTTATTTTCTTTTTCTTCTGATTTTTCAGTTTGAATTTTAACTTCTGATTCTATTTTCTTTTGAATTATTTCCTCATCAAAATATTTTTCAGAACTTGGTATATAAAAAGAATCATCAAAATTTTGTTTTTTAACATTTACATTATAATTTTTTGAATTTTCTACAGTTTCTTTTAAAATGTTTAATTTATTTTCTTCGGTTTCCTTATCTTGAATATCTTCATTTTCAATATTATTTATTTCTTCTAATTCCTCACTTATTTCTTTTTCATTCATTTCTTCTATTTCATTATTTTTATTTTGAATATCTTCATTTTCAATATTATTTATTTCTTCAAATTCCTCA
>sequence2
GTCTGTAAAACTTATGTTGAATAAATAGTCCTGTGGAATTGAATATGTATTTGGATCATTCGGATATTCACTATTGTTTTCGTAAGATGGTGCAGTTAAATCACTAACAGTAAAATAAGTTGTTATTGAATTATTTTGATTATTTGATGTATCATTAGTTAAGAAAGTAATATTAAATGTTCCAGCTAAATTTGGTATTGTATAACTGTTGTTATATTTATTATTTGATTGTTCTGTTAATGAAATTATTATGTTTGTTGAATTTGGTAATGTTAAATTTGCTCTTACAGTATCTACTTCAATATTGTCAGTCGCATTAATTCTAACTTCGATCAATTCTCCAATGCTCTTTGAATCTCCTGCACTTGGTATTGAATTATTTATTTGTGGCACAGTTATATCATTAATATTAAATGTAGCACTTTCTGTGCTATTTAAATTATTACTAGTGTCATTAGCATATATTTTTATTGTGTGCTGTCCTATTGGACTATTAATGTTTGTTTCATATTCTGTAGTGTAAATATTACCATTAAGAGACATTGTTTGATTTGTCTTCGTTCCATTATTTAAATTAATTTCAGCAATAACTGTATCAACTCCAATAAAATCTTGAACTGTAACATTAATTGTTACATTTTGTGTTTGATTAATTGTACTTGGACTAATTATAATATTTGTCACATTAGGTTTTGTTGTATCTTGTACTGTAATAAAATATGATAATGATGAAGTACTATAATTCTGACTTTGATTGTATAGTGCTGTTATATTAAAAGTTCCAAGAGAATTGTAATTAGAAATGTTTGTTATATTATTTAGATTTGATTGAATAATGGATTCATTAATTAATAGAGTAATATTACTTTCTCCAGTTATTTTTGTAGCATTTATATTTACACTATTTCCTGCTTCAATTGTAATATTTGAAAAATTATTGTTTAAACTTAAATTCACATCGCTCAATGCCAGACTTACTGTATATGTAAACGCAGTATTATTTATATTATCACTTGTGTCATTTGCAATCCATTTGTAATTATATGTTCCAGCAGATAAATTACTTATTGTGTAATTGTAATCATTACCATTATTGTTAGCTGTATAATTAGTTCCATCAAACTCAAATAGAACACTATGCATTTCTACATTATCTGTAAAACTTATATTAAATAAATAGTCTTGTGGAATTGAATATGTATTTGGATCACTCGGGTATTCACTATTATTTTCGTACGTTGGTGCGATTAAATCGGTTGTTAAAAAATAAGTAGTTTCAGTTGTATTGTCATTGTCAGATGTATCATTAACTAAAAAACTTATATTAAATCTTCCAGATAAATTTGGTATTGTATAACTATTATTATATTTATTATTGGATTGTTCGTTTAGTAAAATAATTACACTTGTTGAATTAGGCATTGTTAAATTTGCTCTTACTGTATCAATTTGAACATCATCCGTCGCATTAATTCTAATTTCAATAGTTTCTCCAATGCTCTTAGAATCTCCTGAACTAGGTATTAAATTTGTTACTTCTGGATTAGCAATATCTGTTATGATGAAAGTACCGTTTTCAGTGCTATTCATATTACCACTTGTATCATTAGCATATGCTCTAACTGTATGTGTCCCAGAAGGAATATTAGCATCAGTTTGATATTGTGTTGAATAAATATCTTCCGATTCTACATACGTGGTACTTAAATTAGTCTTTGTTCCATTATTTAAAATTACTTCTGCAATAACTGTATCTACATTTAAATGTTCTGAAACTGATATATTAATACTAATATTTTCACTCGGATTTAATTCACTTGGGTTTAAATCAATATCAATAACACTCGGAGCAGTTGTATCTTGAACAGTAATAAAATAACTTAAACTACTTGAAGTATAATTTTCACTCTCATTATAAATTACACTTATATTAACTAGCCCTAAGGATGAAAATAAACTTATATTTGTAATATTATCTAAATTACTTCCAACTAATTCTTCATCCATATAGATAGTTATATTATTTTCACCAATAATTTTAGTTGCGTTTATTGTAACATTAGTTTCAACTTCAGAAGTTATATTTGAAAATTGATTATTTAAACTTAAATTTACATTACTTGTTGCTTTGTTTATTGTATACGTAAAAGCTGTATTGTTTACATTATCACTTGAATCATTTGCAATCCATTTGTAATTATAAGTTCCTGCTGAAAGATTACTTATTGTAAAATTATAATAATCACCGCTATTATTAGTTGTATAATTTGTTCCATCAAATTCAATTAAAACTGTATCCATTTGATTATTGTCAGTAAATGTTATATTAAATAAATAATCTTGTGGTAAATCATAAGTCGCTGGATCATTTGGGTATTCATTAATACCTGTATATGATGGAGCAGAAGTGTCACTAGTTGTAAAATTAGTTGATTCGGTATTATTCTGATTTCCATAAGTATCATTAACTAAAAATGTAATATTAAATAATCCAGTTAATTCTGGAACAGTATAACTATTATTGAATTTATTATTTGATTGTTCTGTTAATGAAAGTATTATGCTTGATGAGTTTGGAAGAGTTATATTTGCTCTTACTGTATCTATTTCAGAATTATCAGTCACATTAATTCTAATTTCAATAACTTCTCCAGTACTTTTAGCATCACCTATGCTTGGAATTAAATTAGTAACTTGAGGATTTTGGGTATCTTCAACATTAAAATTAGTTGTAATTGTATTATTAATATTATTACTTGTATCATTTGCAATATAAGTTATATTATATTCTCCTTCTTGATTTGGTATAGTAAATTCATAATAAAAAATATCTCCAGTTCCTGAGGCAAGTGTAAATTGTTCTATAGTTCCATTTGGATAAGTTAAATTTATTATTTTAGAATCAATTGTATTTGCATCAGTTATATTTGCAGTTATATTAACTATGTCTGAAATATTGTATCCACTATCTTCCAATGGTCTGACATCAAAAATTTGTGGTGGATTACTATCACTAGGTTCATCAAACCATTGTAAAATTGGGTATGTTATTCCCATTTCCCAAATATTAGTAAAATCCCAATTTGAATCTGTAAATGTAGCTTGAGTTTCCATTTGATTTGTTGTTTTTGCTGTTGCCTCAGGTGAACCACTTCCAGTTGAACTTGTTTGTCCACTAGTTTGATTATCAAAAAATGAATTGTCAATTGTTCCACTACCTGTTCCTAAAAAACCACCTACAACAGAACCTCCACTTGTTTGTCCTGTTGAATATGTTTGATTAATTATAGTACCAGAACTCATACTTCCAATAAAACCACCAATATTAGAACCAGTTCCAGTTACAGATGATCTTGTATGAGAATTTTCAACTTCTCCATTAACAAGTGTACCAACAAAACCTCCTACATTAGTTTTTCCATAAACTGAACCATCTGCAAAACATTGATCAATAAGAACTGATGATGATGAATTTGTAATTAAACCAAAGGCACCTCCTACATTTTCGGTTGTTGAATTAATTGTAGATTGAGAATAGGAATTGTAAACTGAAGCATCACTCAATAATCCAATTAACCCACCAACTCTTGCAGTTGAACTCGTTGAACTTATGGTTTTTATTGAACCATTAAAAAAACTATTATTTATGATACTACTTGAATCAATTAAATCACCAACTAATCCACCGGCCATTATTGAACTTGTATAAGTTCCTATAATTGTCATAGTTGAACTCACATTATTAAAAATAATATCAGAACTTCCATAACCTAGAATACCACCTAATTTTTGATTTATTGAATTTAAAATACCAGTACTATTAGAAAAACTAATATTTATTCGATTTGCTCCACCAACAAAACCACCTGTTTTAGTTGAAGAAGAAGATGTACTTGTTATATTTCCACTAAAACTTACATATTTTAATATTGAAGAGTATCCAGAATTAATTATATTTTCTCCAAATAATCCTCCAACCGTATGATCTGCAGTAACATTAGCATTTGTAACTTGTACATTGTATAATAAAAAACCATCATTTTGTGTAAAACTAGAAATATCTCCTGCTATTGCACCAACAGAAAATCCACCAGTTACAGTTATATTATTAAGTTTTAAATCTCGAATTTCCGATTCAGTTTTTAATTGAGGAAATAATCCTACGTCATCATTAGCTCCACCATCAATAAAAACATTACTAATTGTATAATTTTGTCCTGAAAAGTTATTTCCATAAATTACACTACCACCAATCCAATCTGAAAAAGTTATTCCACTACAATCAATATTATTTGCAATTGTTATATTTTCATCACTTTGAATAGCAGTTATTAATTGAGTACAATTTCTAACTTGATCTATTACACATTCACTCTCATAATACTCACAACCAGGTTCACCATTACAAATATTTTCTTTATTACTATCATAACTTATACTTCCACTCCATGATAAAGCTTCAATTGTTATTGAATCTGCCTGATTTTCTATTTGTGAACACGATAACAACTCACCTTGTGATGGACATCCATTTGATCCACTTCCTGAACATACAACTACATCACTATCTGCACATGCTGCATTTGCATTACCTCCAAAACTACTTGCAAGAGAAGTACAATAACTATCAAGAGCAGTATTATCAGTTGCAAAAATTAATGTAGAATTAAAAATAATAAAACAAAATAATATTATTGAAACTAATACTAACCTATTTCTACCCCTTAAAATTTTTATACTAATTACCCCTTTTAAACTATATTAAAAAAGTGATTATTTCATTTATAAATATATTCTTTTTTATGGACGATAAATTATTTTCACATTATTTTGCTTTTTTGGGCTATTTTTTAAATTTTTAATCACTTTTAATAAAGAAATTATTATAAAAGTATGACAAATTACCAAATTATGGAGGATGATAATTTAAATTATAATAATTTAGATGAAAAACGAATATTAGATTCTAATAAAATTTCTATTGATAATTATAATGGAATTAAATTAACTCCTGCTATGAAGCAATATGTGGCTGCTAAAGAGCAATATCCGGATTGTATTTTGCTTTTTCGTATGGGAGATTTTTATGAAACTTTTTTTGATGATGCGGTTGATTGTGCAAACATTTTAGACATTACATTAACTTCTAGAGGAAAGGGTGATACAAAAGCTCCTCTTGCTGGTATTCCTTATCATGCTCTTGATCCGTATTTAGCAAAATTAGTTCTTGCAGGTAGAAAAGTTGCGATTTGTGAACAACTTGAAAATCCAAAACTGGCTGAGGGTATTGTTAAACGTGGTGTTATTAGGGTGGTTACTCCTGGTACTATTATTGAAAGTGATATATTATCTGCAAGTTCAAATAATTATATATGTTCAATATATCAAAAATTAGACAAATATGGGATTTCAATTTGTGATATGTCAACGGGTGAATTTTTAATTGGGGATTTTAATGAAAAAGATTTATTTATTTGCCTTTCAAAATATTCACCTAAAGAATGTATTATTCCTGAGTCATTAATAATTAATAAAAAATTAACAGAAGAATTAAAAAAAGTTAATTGTTTTATTTATCCTCAACAAAATAATTATTTTAATTCACGTAATTCAAATCATATTTTAAATAATCATTTTGGTTCTATTGATTCTTTTTCAAATATAAATTTAAATAGTTCTGGTTCATTAATTACATATTTAATTAAATCTTCTTTTAATAAATTGTCTTATATTAAAAATATTAAAAATATTAGTATTTCAAATAGTTTAATTTTAGATGGTTCGACAATTAAAAATTTAGAACTTTTAAAAAATATTCATGATGGTTCAAAAAATGGAACTTTAATTTCAGTAATTGATAAAACAAAAACTGCTATGGGTTCTCGTCTTTTAAAAAAATGGATTGTTAGTCCACTAACTGATATTAATAAAATTAATTTACGATTAGATTCAATTAAAGAATTAATTTCAGATCAATTAAAATTAGAAGAATTATATGAATTATTAATTATGATTGCAGATTTAGAACGTATAACTGCGAGAATTAATTTTGGTAATGCAAATCCTAAAGAAATTATTGCAATTCGTGAAAGTTTAATTAATTTGGAGAAAATAATTTTAATTTTAGATACTTATGAATCTGTTTTATTAAATAATATTAAATCATTTGGTATTGAAAATATTGATATTGATTCATTTGAAAAAAAAGATTTTGATTATTGTGAAGAAATTAATTCAATAATAGAATTAATTAATAACTCAATTAAAGATGATCCTAATTCAAGTGTTCGTAATGGTAATATGATTAAATCTGGTTTTAGTAGTGAACTTGATAATTTACATTCTATTATTAATAATTCAAAAAATTGGTTAAATAATTTAGAAATTGAATTGCGTCAAAAAACAGGTATTAATTCATTAAAAGTTGGTTTTAATAAAGTGTTTGGGTATTATATCGAAGTAACATCAAAAAACAAAGATCAAATACCTGATTATTTTATTAGAAAACAAACACTTGCAAATGCAGAACGTTTTATTACTCCTGATCTAAAAGAAAAAGAATCAATTATTTTAAATGCTGAAAATAAAATTAATGATCTGGAATTTGATATTTTTAATTCTGTTTTGATTAAGTTGAAAGGTTTTTCAAATATAATTAATAATATTTCAAATAAATTAGCATATTTAGATATTTTAATTGGTTTTGGTTTATGTTCAATTGATAATTCATATTCTTGTCCTATTATGTGTGATGGTGATAATTTGTCATTAAGTGATTGTCGTCATCCTGTAATTGAAATTAGTGAAAAATATTTTATTAAAAATGATTGTAATTTTGATGAGGATACTCGGACTATGATTATTACTGGTCCGAATATGGCAGGTAAAAGTACATTTATGAGACAAATTGCTTTAATTCAAATTATGGCACAAATTGGTTGTTTTGTTCCTGCAAGTTCTGCAAAATTAAGTATTGCAGATAGAATTTTTACTCGTATTGGTGCTTATGATGATTTAGTTAGTGGTAAATCTACTTTTATGGTTGAAATGAGTGAAGTTGCAAATATATTACATAATTTTTCTTCACGCTCTCTTATTATTTTAGATGAGATTGGTCGTGGTACAAGTACATTTGATGGTATTTCAATTGCATGGGCTGTAGTAGAATCAATTGCAAGAAAAAATTCAAAATGTCTTTTTGCAACACATTATCATCAATTAAATAAATTATCAGATTATTTTTCTAATGTAAAAAATTTTCATATTACTGTAAAAGAAACTTTTGATGATATTGTTTTTTTAAGAAAAATTGTTGAAGGTGGAACTGATAAAAGTTATGGAATTCAAGTTGCTAAATTAGCTGGTGTTCCAAATGATGTTATTGATAGAAGTAAACAAATTATGATTCAATTGGAAATGGATGATGAGATTACTGCAAAAATTCATTCAAATTTAAAAAAACAAAAAGTGAGTAGTAATAAATTAGAAAAAAAGAAGGTTGACCCTCTAAATGAATCTCATTATAGTCAAGAAAATTTAGTTGATTTTTATGATTAATTTTAATATTTAATTTTTATTTATATCTTGGAGTGTAATAATATATTTAAAAGTCATTATCATTTAATTTATATGGTTATTCAAACTAAATATTTATTTTCTTCAAATGGGGTTGCAAAATTTAATCCAGATCATTACTATTATGTTTGTGAATTAATTGCATTATATTCAAAAATAAAACAAACTGATAATGCTTTTGGAAAAAAGTTTTTTAAATGTAGAAAAGTTATGTTAGGTAAAAAATTTTTACAATTGGGAATTCCTTATAATTCCTTAACTTCTGCAATAAGTCAAGTTCATGAAACTTTAAATTTTGAAGAAAGTTTTGGGGATTTTTTATTTGTGGATAAATTATTAAGAAATTTTTCATCTAAAATTGATTCAACTTTGGAAAATTCTTTTGGTAAAAAATTTGAATATTTGTTTAATAAAACACAATATTCAAGAAATTGTGGTAGTGTACAAAAAGTATATTCGAATAATTGTGGAATTTTATTATTTGGTGAATTAGAAGAAACTGATAAAGTATAAAATGAAATATTAAAAAATTAATTTGATAATTTTACTCTATATTTTGGTCTTGAATTAGATCCAATTTTATCTATTTCATATTTATTTTTTAAAGAATCACCATATTTTTTTGCATTTTCTTCATTTTTAAATGTCTTTGGTCTTACTGTTCTATTTCTTCCTCGATTCTTTAATATATCTTTTTTTTTACTTGTTGCCATTTTTCATACACTCCTAATTTAGATCTAATTAAACTATTTTTAAATGTTTCTCTAATAAAGTTAATTTAATTGATTTATGAATTAAAATATTTATATATATGTGTGTATATATATATTATATGACTAAAATAATCTTATTATATACTTCATCAGATATTAATCTTAAAATAATAAAAGGTGAAAAAGAATCATTTATTCAAATCTTAAAAAAATTAGCTTTTTCAAATAAAAAAAAGAATTTAATAAGTTTTGCTGGTATGTGGTCTAGCGATGAAAATGCTAAAAAAATATATGATAAAATTTTAAGTGAAAGATCTAATATTAAATTAAAATTGATTAGTTGATAATTTGCTTTCTAAACTTATTTTAAAACTTTCTGGTGGCTTGCTATTTTCTGTATCCACATTCATTGCATATACTCCTGAAGTTAAGCCAATAAGTCCAATTCCTAATAATGCAGCTAACTTTTTTTTATAATTTTGACTCAAGTTTTCATATTTTTTAGAAATATTATTTAAATAATTTGAAATTTTATTATTTTTTATTGAACTCGATAATGAATTTATTGAATGAAGAAATCTATTATTTTTTTCAGTTCCAACTAAGTCATTAAAAATATCAGTTGAATATCCTAATGCAGGTCCATTTGCAGCTCCAAACAATATGGAACCCACCGTACCAATTGCAATTTCTTTTATATCTCTAGATCCGGAACAATAATATAATATTGGTGAAAAGACTACATTAAAAGCAGCTAAATATCCAATATCATGTATTATTTTTATTTTTTCTGATGTTTCTTCTGTAATTTTAAATAATTCTTGAGATTTTTTTCTTCCCCATGAAAGTCCTTTAGCAAGGCCAAGATATCCTATCGTTGATGCAATTAATCTTGCATTTATTGATACTTCATTTGACATTCCACTAAACTGAGTTTCATGTATTGCAAAAGCTAAATTTGCTTCTAAGCTGATAGCAGTACTCTCCACGAAATATTTAGATATAGTATTTTTAATACTTGACTTATCATTCATGGATTTTAGAATCCTGATTCATTTAAAAACAAATGTATAGAAAAAAACAACAGGGAAAAAAACCCTGCATGATTTTAAGAGATTTGTATTTTCCCCTTTATTGGCCCAAACCTGCTTGTTTTATACTTGCAAGTAATTAGTACTAAGAGGTTATAATATAAATAATTTATATTATTACATAATATTTGTAATATTACGTCCTATTATTGACTGTATATTTTATAAATATGTATATGCTAGTATATTTATGGAAAAAAAGTTGACTGCTCAAGGTCCAAATGATAGAAAATCATATACTGTTACATTACCAATTGAATGGATTAAAAGTGAAAAACTAAATGATAGTAAAGTTGTGAATTTAGATGTAATAGGAACAAAAATTATAATTTCTTCATCATTAGATGGAAATAAAAGTTTGTCAATTGATACTGATTATTATAAAAATAGTTTAATAAAATTATTACAATCCATTTATAGAGGTGGATTTGATGAAGTTAAATTAATTTATTCCGATCCTAAATATTTAGAAAGAATTGTAGAAATTATTGATGAACGACTAATTGGGTATGAAATTGTAGAACAAAAAAACAATTTTATATTAATTAAATATATTACAAAAGAAAGTAGTGAAGATTTTAAAATAGTATTAAGGCGTATATTTCTTTTATTATTACAGATGTTAAAATCTGAAAGTTTTGTACAAGCAAAATTAATTGATAAAAATATTAAAAAATTGTCTAATTATTGTCAAAGAATTTTAATTAAGCAAGGTCATATTGAATTTGATAAAGTTCCTAATTATTATTTATTACTTGATAGATTAGAAAAAATAGGTGATGAAATTAGATGGACTTTAAATTTTCAATTTAATGACAATTTAGAAATACCTGAATTTGAAGAAATTAAATTAATACTGAGATCTGCATATGAATTATTTTTTAAATTTAATAAAGTAGATTATGATTTAAATTCAGATAAAGTTTATTTTTTAACAAGAAATATTAGAAAAAATATAAATAAAATGAATACTTATATGGTTCATTGTTATAATTTATCAAGACTTTTAAATTCATTATATGGAGATATACTTTTAATAAATTTAAAATAATTAATATAAAAATAAGTATTCTATATATTTAAAAAAAAGATTTTTTTGTTATTAATGTCTTGTAAATGCTCTAAATAAATTAACCAAAATTACTATTGCTAATAATGATCCTAATACTATTGATAAAAATCTAAAATCTTCACTTTCTTTATTTGATTGATTAACGCTAATTTTACTTTCATTTATTTGTGTTTTTAATATGTTTAATTCTTCTTTTGCTATATTAAAATCGTTTTTTAATGTTTCTTTATTAAGTTCATTTTCATTAATTAAATCAACTTTTTCTTCTAATAATAATTTTTTCTCTTCTATTTCTTTATTTAATTCTTCTAAATCTTTTTCTAAACCACTAATTTTGTTCAAATTTATATTATCTTCATTTTCATCTGCACATACGCCTTGACTATTTAATTTCATGCCTTCTGGACATTCACAAATTGTTATTGGAAATCCTGTTGATGATTTATCAATAATTTTTGAAATTCTACCTGCTGTACATGTAATACATTTACCTGAAATTGGATGTACGATTTGAGTATTAACATCACAACAAGATATTTGAACTTCTGGACTACTAGCGACGAATTCATTACCTTCACTACAAGAACATTCATTTTTTTCCAAATTAAAAAAATCTAAATTGTCTTTATTACATATTAAATTTCTACATGCTTGTAAATTACCATTCATAGTTTCTAATTGTAATTTTTTAACTAATTCGGCATTACTACCATAAGCAGGAGATTTTTCTAAATTTTTAACATTTTCTTCTAATAATAATATTTTTGTTTCAATACTATCTTTTGAATTTAAATCAGAACATGATATAATATTCCCAGCGGCACTTACAAATGAACTTATTATTAAAATACCAATGATTATTAAAATAATGTGAATTAATTTTTTTCTCATATGAACTAATATATATATTTTGATTTATAAGATTATTTATTTTATGAAAAGTTTTATTATTATGGGAAATAAAATGTTTTTATGAGTGAAAATATTATTTACTGGAATATCTATGAAATTAAAACTCAATTTAGTTCTATAAATGGAGTTATGCTTCGTGGGAAAATTAGAAAACTGTGTTTAGAAAATAAAAGAAATGTTCTTGTGGAAAATACAGAAGATATTGAAAAATCAGTAAGATTTGCAATACCTATTAATGATGATCCTTTTTTAATCAAAGAATATTTAAATTCAATTTTATCTGATGTGAATATTAATTTAGTTTTAGAAAATGTTCCAAATCCTGTATTATCTAAATTAAAAGTAAATATTGAAGATAGATATAAATTATAATAATTAATTAAATGGATTAAATCCTTGTTTGAGTAAATTTTTAATAGGTAAAAATAATGGTTCTGGTAACTTATTCCATTCAAACCAATCCATTGCCGCACATTTGTGAGGTTCTTTTATTTCCAATTCACCAGATTCATAATCACATACTAAAAAAATTGTAATATAATGTTTTTTTTCTTCTTTAAACATATCATTTGTTAATTTTACATAATTTAGATTTTTCACATGAATTCCAATTTCTTCTTCAATTTCTCTTAATGCACATTCTTCAAATGATTCATTAAATTATAAATGTCCACCAGCAAAACACCATGAATTAGATCCATGTTTATTTATTCTTTTTAGAAGAAGAACTTTATCTTTTTTTTTAATAATTACACCAATGCCAACTTTTGGTCTTTCCATTTTTATATATTATTTCTTATTTTTCTTTTTGGATTTTTTTTTAGTTTTTTTACTAATTAATAATCCTTTATTTTTTCTTTCTATATTTTCAATTATTTTATTATTTCTTTTTACTTTATTTAATTTATTTTTTAACATTTCTATAATTTGGTCTATATTTTTATAATAAGTTTTTCTAGATACTAATACTAATTTTCTTTTTTGATCCTTAGTTAATTTATTTTCTACTGGATTTTTATTATTAATTTTAACTAAATCCTTTCTTTTTAATAATTCAGATTCGATTTGATTTTCTTTATTATAAAATAATCTTATGAATAATATCACACAAATTAATATTAAAAATATAATCATTACATTTAATACTAAAGTATTTTCTTCTTCTAAATTATCATTTACTTTTTCTAATTCAATTATTTGTTTATCTTTTAATTGATCAGATTTGCCAAATTTATTATCATATTCTAATAATTTAATTGATAATATTTTTTTATTTTCTTTTTGTCCATATATTGAAAATTCAGTATCGTCAATTGAATCTCCATTCAAATCAAATAATTTTGTTTTATCATTATAAACGATATAATTAAAATTATCGATATTAATAATTGTATAATTTTTTTTAATATCTAATATCTTAATTTTTATTGGATTATTTTTTATATGTAAATCGAAATTAAAATTATCAATAATATTTATTATTGCATTTGAATTCTGAATGTCAAAATAAATAGTTTGATTCTTTTTAACTAAATTAATATCAAAATCATTACAATGTATTTCTTCATTAATTGGATTAATAATTTCAAATGATGGATCTATATTATATTTATTATTGCAAAAATCCATGATTCCACATTGCCTAATTTGTTTATTATCTGAACATCCTGAAAATTCTGTACATGAATATGCTATATTTGAACATTCTTGGCTATTAACTAAATTAAAACTAAAAATTGTAAATAATACAATAAATATAATTAAAATCCTATACTTCATATTATTTTTTATTGAAATGTGTTTTATAAACTTTAATATTTATGGATTATATTTAACAATAGAAAAATATAATTAATTTGATTTTAATTCAGGTTTATTTTCAATAATCATTTTATACTCAGTTAAAAAAAAACTATTAATCTTTTTTTTTGTTTCAGCCCATAATTCTTTTGTTTGATTTTCATATTCACGTAATGAATCATAACCTGGAATTAGATCAAACTTTAATAAAATTATTTTGCCATCACATTTAAAAGAATGTTCAGTGTTAAAATGTGCAAATGTAAATGGACTTTCTTTTTTTAAAATTTGACCACTTATAGATAAAGTTCCTATGTCTTTTTCTGAAGAATTAGTTTCTAAATCATAAAGAAAATTCTTAAAGTATTCAGTTTTATATCTCACATCAGCTAGCATTGTATTTGAAACATATTCAAATAATTTTTCAGTTTCTTCTAAATTTAAAGGATGTTTGAAATTTATTATTGTTAAATCTACTAATTCTTGTAATGACATAATAATAATTAAATTATTAATTATTTAAGCTTATACATGATATAAAATAGATGATAATATTTAAACTGTATATTCTAATAATCAATAATTATTGTAAATAAAAATAATTTTATCACAATTTTTAATATCCAAATAGCTTTTTTTGATTGCTTCCTTTTAAGACATCATCAAAAGTTAAGTCAAAAAATAAAAATATACTCTCTGCAATAGGTTTTATTTGTTTTTCAATATAATGTTCATAATCAATTTTACTATTCAATTTCTGAATTGGTTGTGGTCCATCAATAGTTAAATAATAAATAATAATATCATTTTCAATTTTATCTAATAATTTTGCTGCTTTTACATGTGGTGGTGTCATTTTAGTATAACTATCAACACTTTTTCTAAGTCCTTTTCTATATTGTAATTTATCATCAAATTTACCGGATTTAATATCATCAATTGTTTTTTTAGTAAAATTAATTAGTTTTTGTTGTGGGTTTTTATTATTAAAAATAATATCTAATAGACCTAATTGAAATTCTTTAGCAGCTTCAACCCAATCACGCCTTACTGCTTCTAATCCAACTACATCAATTTTCTCTTTTCCATTTCTTTTTCTTTTAATTCCTGCATATCTTTTTTTAGCACCACCTAATTGGCCACGAACTTTTGGCAGAATAAATTTTCTATATACTTTTTCAAATTCTAATTCAATATAATTTTTACGATTAAATTTATTTTTAATTAATTTATCTAAATATTTATTAATTTCATTTATAATATTATCTCCTAAATCTAATATTTTTTTATCATCTGTTATTTTCGCATTAACAAAAATTGAATCTGTATCTCCATAAATAATTTCAAAATCTTTTTCTTGTAATAATTCAGCTGTTTTTTTAATTATAGTTCTTGCAAATGCAGTTACACTTCCTGCAATATCTGTTGAATAAAATCTATAATACGGAGATGCTAAACTTCCATAAAATGATACCATAATAACTTTAATTGCATAACTTTTAATATCATCATTTTCTTCTTTTGCAATATCTCTTACTTTTAATAATTCTAATAATAATTCTGGTAAAATTGCATCTTTTAATTCAAACATTGCACCAGTGGGACTAATAACTATATCTTGTTTAATTTTTTGATTAAAAAAATCTTCTTTATCAAATGGCTTATGTTTTTTTTCATTTTCAATATTTCCTAAATAAGTATATTTGTCAATATTTAATGTAGCCATAATTGAAGGATATAATGATTTAAAATCAAATACTAAAATATTATCATAAATGCCTGGTATTGGATCACGAACATATCCACCTTCAATTGGATCTTGTCTATTAAATTCTTTTCCATCAGGAATAACAATTTTTTTATTTTTAGCAGTAATTAAATATAAATAATCTAAAGTTGCAATTGCTTTATCTAATCGATCTATAGTCATACCAGTAATTTCACTTCTAGCAATTGCAATTTTAATAAAATCTTTTCCAACTATTATATCATAAACCAATTTTGAATCTATTAAATTATATTCTAATAATTTATCATGATTTGAATCATATAATTTTTGAACATCAGAACCACTGGCAATTTTTTGTTCACCTAAAAATTCTTTTGCAACTGTATCTAATTTATAATCATTAAACTTAACAAAATTATCTTTTAGAATTGCAATACCATCAATAATAATTCTTCCAGGGACATAGCACGTAGATGTTTTTAAAAAATTATCTTGAATAATAATTCTTGTCGAAAGAGGAACTCTTCCAAGATTGCAACTAATTTTATTAAATTTCATACGTTTATATATAAAATTAAAATCAAAGTCAATAACTGCCCAACCTGTAATTATATCTGGATCTAATTTATGTATTATTTCAATAAATTTATTTAATAATTTCTTTTCATCATTAACTATTATTATTTCAAAATTTTGTTTTTGTTTTAATTTAGCTTTTTCATGATTAAAAATTACGATTTTATTATTTTTATCATAAAATGATATAGAAATTATTTTATCTTCAACTGTTTCAATATCAATTGAAAGTGTATTAATATATTTTTGCATATTCAATATTTCACTACACGCTGATATTTTAGGATTTAAAAAATAATTATCAATTTTTTGAAATTCATTCCATTCATATGAATGAAAATTTGAATTAATATTATCTCTTATTTTTTTTTCACATGGTTTTGAATCAATACATAATTTTGATTTTATTCTATGGTCTGTTAAAAACTTTACCATCAAATTAATATCTTTTTCATTTTTTTCAATATCATTAAATAGTTTAGAAAAAACATCTAATTTTGAATCATTTAAATATACAATTTTTATTACATTATGGTCATTAAAATCATTTAATTTTGTATTTTCAAAAAAAATATTTATGAATTCAATAGATTCTTTTAATATAATATTAAATTCATCTAATGTCAAATTTTCTTTAATTAAATTATAAAATTTATTAAACTGTTTTTGAATTATTTTAATTTCATAACTATCTATAGTATTTAATATTTTACTATCTTCTTTATTATTAGTATTTTTATGTGAATTAAATTCTTCAACTTTATTTATGAAATAAATTTCATTATCACTTAACCAATTTTTTAATTCTTTTTTTAAATCTTTTATAGTTGTATTTCTTTCTTTATTTAAATAATTTGTATTATATTTTTCATTATTAATTTTATCAAAATGATTATTAAATTTAATAAAAATATTATTAATTATTTCATCTTTTGAATCTAGAAATTCTTTAGATATTTTATTAATATTATTAATTTGTTTTACAAAATTGCTTTTTTTTGAATTTTTTATATAAAAATAAGGAAAATATTTAGATTTAATTAAAAATGTCTTATTTTGAATATCTTTTCCAATTATATAACAATATGGGATTTTATTATGTAATTTTAAAAATGTTTGTAAAATGAAGCCTTTGTACATATTATATTAGATATTTTTTATTTTATAAAATTGTTGAAATAAAAAAAAATAAAAAAAAAATAAAATTATTCTTCAGGTAATTGTGGAGGTGCTGTATCTTCGCCTTCTGCAGCGTCACTTCCTTCTGATCCTTCTTCAGCATCACTTCCTTCTGATCCTTCTTCAGCGTCACTTCCTTCTGATCCTTCTTCAGCATCACTTCCTTCTGATCCTTCTTCAGCGTCACTTCCTTCTGATCCTTCTTCAGAATCACTTCCTTCTGATCCTTCTTCAGAATCACTTCCTTCTGATCCTTCACTTCCTTCTTCATTATCACTTGGTGACTCAACACTTTCTGGTGCTGCACATCCAACTAATAATAAACTAAAAGCTACAATCAGTAAAAATATTGCTTTTTTCATTTTTAGCCTCATAATTTTTTCTATTATTTTCTTAAAAAATAATAGTAACTGTACTTAAACATACATTCTAAATATATATATACTTTTTTCCTTTAAAAATATATTGTACTTACTTAATATATTTTCTTATTATAAATTTATTATTATCTTTATAAAAATATTTATAACTATCCAGTAATTAATATATTTGTGAAGAAATATTTTCTATTATTGACTTTGTATGGAACTAGTTTTGCTAGTGATTATTCTATATTTGATATTAGTCCAAGGAGTGAATATAAACTAAATATTTCAACTCATGATAGACTTGAGATTAATAATTACCAATCATTAAGTCCAATAGAAAAATTATTATATATTCATAATAAAGAACAAAAGTTACAAATGAATATTGAATTTAATTTGGATGAAAAAAATAAAAAAAAAAGAAAGTCAAAATTAGAAAATTTAAATATAATTAAATTTTTTAAAGACCTTCATACTCCAATAAATCGAAATAATCGAATAAAATTTCGTGGTACTGAATTACTTTATAAGAAATCTTTCTAATACTTGATAATTAGAAACACATTTTTGTTCTTTACAATGAAAATTTTCTCCACACATATTTGAAAATAAACATTTTTCATTTGATTTATCTAATTTATCTATACGAGAAAATCTATTGAAAAAATTTTCTTTTTTTTCAATTATATTATTAACAACAGTACCATTACAATTAGTTTCTAAATATAAGTCAATCCATAAATCATAAATTTCTAAGTTTAACCCTGGATTAATATTTTTTGCTTCAATTCCTTTTATTGGAATTGGACACGCATAATATGCTGGTTCAGTTTTATATGGAATTGTAAAATTATGGGTAGCCTGACAAATTTCATTATTTTTTTTATTTAATGTAATTATTTGTTCTTTTTGATTTAATCCAAAATGAAATTTTGTATTTTGACATATTTTTAAATTTTGAGAGAAACAAATTGGATCATTTAAACAGTCATTTGATTTATATTTAGAATTTTTACATTCAATTAATTTTCCATTATTAAATGAACAATTTAATATATTTTCATTTTGATTATTAACAATAAATTCTCCATCATAATTTCCATTATTATAATTAATTTCTAATATTGTTGTATTATTAATTTTTAAAATATTTTTTCCATGTAATTTTCCATTATAATATTGTAATAATTCATACTCTTCATTTAAATTTAATATTGTATCTCCATGAAGAATACCATTAAAAAAATTACTGGACTGTATTGTTTTATTATCGACAATAATATATGATAATCCATGTAAATTTCCATTTTTATGATTTTGTATAATTGTTCTATTATTACTTTTTTTAATAACTTGACCATCAATTTTTCCATTAATATAGGGAATAGTGGAAATTAAATTTCCATTAATATCATATTCAGCTGATAATAAAGGTAATTTTTGTTTATCAAGACAAGTATACCAATGTAAATCTCCATTTTCATAATTAATTATTTGTTTATCAAAACATTGTAAGGTAGTATTAGTTTGATTAGAATTATTTACATTAGTATTAGTTTCAATATTAAAATACATTAATATAATCAAACAAAATAAAACAATAAATATTATTTTTTTCATAATTTTAAAAAAAGATTATATTTTATAAAAATTAGGGTATTAATTTAGACAGTCGTCAATAAATTCTTTTAAACCAGCTTTATCAACCGCACCCATTCTTCTACTTACTTCAACTCCATTATTAAAAAATATCACTGTTGGAATTGATCTTATTGATAATTCTGCTCCAGTATTACTTGAATCATCAACATTTAATTTTACAAATTTAACTTGATTTTTATAATTTTTAGAAACATCTTCAAATATTGGGGCAAAGTTTTTACAAGGACCACACCAATCCGCAAAACAATCAATTATAACTGGTACATTACTTTTTTTAACTTCTGCATCAAAATTTTTATCATTAACTATGTCCATTTTTCAAACCTATCTTTTTTTGTAATGAAAGAAATTTGAATGTTTTTATAAAACTTTTTAATAATTTTTAACTATGTTTTATATGAAAGTTTTTTATTAATTCGACAATGCTAAATAAAACCCAAACTACATTTAATATTAAAAAAGGTAAGGAATTTAATAGAAAAGCATAATATGTTAATAAAACACTTCCAAAAATATTTATAATAAAAAAATAAATTGAATGATTATCAAGCAATTCAATTGAATTTAAAATATAGGCTAATAAAATTAATGACAAACCTATATAACCAAATATATCGTCCATATAATTTTATTATTGTTTGCATTTAAAAATCTAATTAAGGTAACCAAGTTTTTCTATTTTTTAATTTATTTGGTAAATAAGTATCTAGAACATAGTTTAAACCTTGTGCTGCAAAGGCTTGCTGCTCTGCTCTCACTCCTAATTTAATTAAATGATTTATTGCTTTTTCCCATTCTTTATAATTATGTACAAATGGATCATTTTTAATTGCATCTTTTCCACGTTTAATATCTTGTGGTTCAAGTGGGTGAGTTGGTAAATTATAATCAATTATATCTTGTGGTGTAACACCTAAAAATTTAGCACTAGGTACACAAAAAAATTCATTTATGTGAGCTGAATTTCCTGAACCTACTTTTAATGTTCTATAAATATTCATATATCCATAAAAGTCCCCATCAGTAAATACATGAACATCTAATTTACATGAATCAGATAATCTTCTTGCAAATCTTCTTGTTGCACGAGTTGGAACTCCACCCATTGCTATAATTATACAATTATGTGATTCCCAAAATTTATGTTTGTGTAGTCGACTAAATAGTGCTTCTGTTTCAAGCATTAAAATAAATTTTGCTTTTGTTTTAAATACTAATTCTTCTACACGAGGTGGAATTGAATATGCTCCACTACCAAACTTAGTACAGTCAATTACATCTCCACTATCTTCTATAATTAATTTACCTGCAACTGAACCTCCTCGGTTTTGTGGAATATAACCTAATTTTTCTCTATTAAATCCAACCATAGCTTCCATATCATCTAATAAATCAAACGCTTCATTCTCTTCTTTAAATCTGGCATCTCCCCATGACTTTGCATTATAGTATGCTTCTCTTTTACTAACAGTTTCATTTTTTAATGCAATTTCTTTTGCTTGATTCATCAATAAAAGCATTTGAGAAAATGATTTTACTGAATTTGCATTTAATTTTTTTATTTTAGTTTTACCTAAATTTTTAAAATATCCTTCTTTTTGATCATATTCTACATTACTTAATGATCTAATTGGAATTGATAGTTCAGGAAAAATTCTTTTTAAAATTCTTGAATATACATCTTTACTTAATTCTTTTAATCTTAAAATTACACTTTGATTATCCTTTGGTAATTTTTTAATATCAATTTTACTTAAATCTTCATTTGTTTGTGATAGTGAAACGTTTATTTTTACCATTTTAATTTACCTAATCAATAATTTTAGTTTTACCTGGTCTACTTTCCTCAAGCATATCAATTAAAACATCATTTACTTTATCTCTTTCGTCTTTTTTTAAATCTAATAATAATTGTAATCCATCTGATACAAATGGTAAATATTTTTCAATATATGATTTTTTTCTTATTTGTTCACTTAATCTTTTTTTCTTTTTTATATATGCACCTAACTTTCTTCCAACATCTTGTAAACTTAATTTTACTTCTTTAATTATTTCAGGATATGGTGCAATTGCTTCTTTAGCTTCACTAGTATAAGGAGTCCATACTGAACTAATACAAATAAAAAATGCAATTGGTCCAACTGGTACTGCATTTGAACTTTGTTGAAGTCCATAATTTTTCCAATTCATTGATTGAACACATTGTGTAAATGCACATGCACCTTTTGAATATAATAATGGAACTCTATTTGCAAATCTTAATATTTGTGCAGGTTCATCATTTTTTAAACCTCCACCCCATGCAACTCCAACTTCTATAATAAAAGGATTACCTGTATAAATTGAAACTGGCCTAGATGATGATGCATAAAATTCTGCTGGTATTTCTTTTTCCATTCCCTTTCTAATTAAGTCTTCACCAATTGGAAAAATACAATTAGTTGGTGGAGCCATTATTTTTACTTTTGGAATTGATTCAATTAATCTTTCTGCTTGTGCATGATTTATTTCTGATGGGGATGTTTTTGCAATTATTCCTGCTTCACTCAATATTTGATCTGCAATATTTTTTGAAACTCTTGAGAATGAATTCGTAAAAAAATCTCTCATATTTTTCTCTTCACTACTTTTAAACATTTTAAGTAATGTTCCAAATTCCACTCCATATGGATGAGGTTTTATTTCCATTGCTTCAGGTGGTAATTCATCGGTAATCCGTGGATAAATAAATTGTTCTGCACTTGGATTTGTATAAATTATTGTACAATGTGGATTTGCAATTGATGTGTATTTTAAATATGTATCAATTGACTGTGCTCCTTTAATATATGAACCAACTAAATCGATTTCAAGTCTAGTACCATTATCTTTATGCCATTCTTTTTCTGATTCTTTTGTAATTACTGGTTCATTATTTTCTGTATCGATATATAATTCCATTTCATATGCTTTATGTTTTGAAGATATTCGTGAAATTATTTTAATAGATTTACCTGTTGTTAATCTTCCATACAATGCCGCAGCAGATATTCCTATACCTTGTTGTCCTCTGGTTTGTTTTAATGCATGAAATTTAGATCCATATAATAATCTGGCAAAAATATTTGGTATACTTTTTTTTACTATACCTGGTCCATTATCTTCAACAATAACTCTAAATCTATCACTACCCATATCAATTATTTCTACATTGATTTCAGGAAGAACTCTAGCTTCTTCACAAGCATCTAATGAATTATCAACTGCTTCTTTAATGGTAGTCATTAAAGCTTTTCTTTTATTATCAAAACCAAGAAGATGTTTATTCTTTTCAAAAAATTCTGCAATTGAAATTTGTTTATGTGATTTTGCTAATTCTTCAGCTTTAGTTAATTCTTGCTTTGTCAAAATAACCCTCTTTTAAGTAAATTGAATAGATTAATCCTTATTGTTTATTTTAAAAATAAAAAATTTGATTTATAAATTTGTTGGTAAAATGTTTTAAAATTTACATTAATAAGAAGATTTGTTTTGTTTTTGAAGTCTTAATAATCCTTCTTTATTACTATCCCACGCTAATTCATATACTTTTAATAATGAATCCATTTCTCGAGTTCTATTAAAAGATCTTAACCATGGATTATTTTCCGAAAAACCTAAATCATACATAATATCAACTTGATCTATTTGATTTAACTCTTTTTGTTCTTCATCTGATATTAATTCTATACCAAATTGATTGATTTTTCTTTTACCATAAAATCTGTTATTTATTTTTTTTTGAAATTCAGCTTGTAATTGATATTCAGTAACTGCTGCTAATTCTAAATCACTTTCTAATTTTTTTAATAATCCATCTTCTAAAGAATCTTGATTATCAGGAATTTTATTTTTTGTTAATTTTTCAAATTGTTTGTAAAACTTACTTAAAATTTCAATATCAAGTTTAGTTAATAGACTTGATTTATCAATTACTGCAAGATTACCTATTTTTGGAAAATTATAGGCTAAATTATATCCAATTGGTTCAATCAAATTATTTTTTGCAAATGTATAAATATCTAAGATTGATTCATATGTGTCTATAATATCAAATTCAGATTTATCTAAATTATATAAATCAGATTTATAATTATCATGAAAAACTTTATCTTCTTCACTTAAATTTTCATCTTTACATAATTTTTGTTCTAATCTTAAAAAACTTCCACCTGATTTATCTAAATCTTGAAATGTTTTTCTACTAGTTAAATATTTTTCTCCTAATTCTTCTACAGATTTATACATTTCTTTTAATGTATTTATTTTGTCTTCAGTTTCAAAATCATTTAAACCTAAATCTGTCAAATAATCATTTATATTTTCAAATGATTTTAGGTATTTTAAAATTACAGTTTGAACACCACCAATAATGTTCAAGTCCTTTTGACTTTCTTTTAATATATTATTATTTTTTATTAAAACATTTAATGATTCTGTATATTCTGGACACTCGGAGCCAAAGCTACTAAATGTTAATAATCCACCTAAAATAATTGAATTTAAAGCTTTATTCATTAAATAGTGGTGACTTTAGTAATTTATAAACATTTCTCTGATTATTATGTAATAAACTTAATAAATAGGTAAATAACACTTAATTTGATGAATTATAAATGTAAAGCAATGCTAATTAATAGGAAAAAAAATAGGGCTGATGATATGGAATATGTTCATATTACATTATATTCAAAAAATAATCCAACTATTTCAGGTGAAATGCCTATATTGGATTTAGAGTTTACTGAGGTGAAAAAAGCTCATATGTTCAATCTTACATTAAATTTTCTTACTGAGGGTAATGATATTGAAGTAAATAATTTAGAAGAAATTAATATTGATGTAAAAAATGATATGGTATTGATTGAAGGCAAGCAAAATATTTAAAATGAAATGTAAAATATGTAATTCTGCAATAAATACTACTTTTTTAAATAAAATTATAGGAACTCACGTTAAAGATAAAGATGGTCATAAACATTTAGTTTGTTTTGAGTGTCAAAGTGAATATTCTAAAAAATTTGATGAATTAAAATTAAAATTATCTGATAATTAATTTATCTTATTTAGCTTTTTATTGATTAATTATACATTTAAGGTGCATTTTTGATAGTTAAATATTTAAATTTGTTCATATTTTACATTTTATGAGGTTACTTAATTTTGTTTCTAACAATTTAAATGGACCTATTGATATTAGATATGGTACTTTACCTGATGTTGAATTAAATCGTAATAAAATATTTTCTAATTTGGATTTAGATCAAAATAATTTAATAAAATTAAATGTTCAAAATAAATCTGAAGTATTATTTTTAATTAATGAAAATAGGGATGAATGGCAAAAACATATGGGTGTTTGGCAAAGAGGTAATGGCCTTAAGTGCGATGCAATTATTACTAATATAAAAAATTTAATTTTAGAATGTAATCCTGGGGATTGTGGAATTTATACTTTATTTCATAATAATTATAATTTAATGGCAATGGTTCATAGTGGACGACAGGGTTCAATTGAAAAAATATTAAAAAAAACAATTGAAAAGATGGCTAAGTATGTAAAAGTTGATATTAAGGATTTTACAAAACAATTATGTGTAGATATGTCTCCTGCAATTAAAGGTAAAAATTATATTATTGATTATTTAATTTTAGATAGATTTGAAATTACAAATTGGATGGATTTTTTGGGTTGTGAATCCTTAGACTTAATTGATTATCCTAATAGTTCTAAAGTGAAATTAGTTTTTAGTGAAGTTAATAAAAAAATTAAATTTGATTTTATTGGCTTTAATAAAAAATTATTATTAAATTTAGGTGTTGATGAAACAAATATAAAAATTAGTGAGATTTGTACATATGAACATAAAGATTTTCCTTCATATTATAAATATTTAAAAGGTTTAGATAATGATGGTCGTTTTATGGTATTATCTTCAATGATTGATAAATAAATTTAAAAACGACATTAGTTTTAATTAATTTGAGGTGGAATTTGTTAATTAGTAATTATGATGCTTTTTTAAAATCATTATCTGAATTATTTGAATTAGTAAGTTTAGAATCTAATATTAAAACTCAGCCCAATTTATCCTATTCAAAAATTAAATTAAATCTAATAAAAAATATATATAAATTTATTTTAAATGAAACTAAATTATTAGATAAAAATTGCAAATTAATAATTAATTATTTTAATAAACATAAAGATGATGATGAATTGCATAATAAATTAAATTCATATTCTAAAAAACTAAATACTTCAATTTTTGAATTAAAATTACATTCTAATTCATTTAGTAGTATAATAAATCAATTATTTGAAATTGAATATATAGAAAATGAATTTATTCATGATAGAGATTTGAATGAAAAACAATATTTAATTTATTTAAATTCAGTTAATGATATTTTATATATAATTGATAATATTTTAAAACAATTAATGATTTTAAGTAGTAAAGATTGTTTTAGTAAAATAAGTGGTTCTATTAATATGATTAATGAAAGTTTAAAATTAATTAATGAAAAATTTATGGGTTTAAAGTTAAAGATTGCTGTAAATCATAATTAGGTTTTTTTATTTCTGGTTCAAATATCATAAGATTTTCTTTAATGGTTTTAAATCCATGTTTTTTATAAAATGTCATTAATTGTTCTAAATTTAAACTTTCATCATAAGGAACAGCTTGATTATATATTTTATATTGATGCTCATTAGCTTTTCCAATTACTTTTTTTAAAATAAGATTAGCAAAACCCTGTCCTCTAAAATCATCATCTATAAATAATCTATTAAAAAAAAACCAATCAAAACATTTAGAATATTCTAAATTTGCAATACCAACTCTATTTCCATTCATATTTGCTAAATGATATAAGTGAATACCTCTAGGTCTAAATATTTCATATTCTTGAAAGTTTTTCCCTTTATAATCAATTATATTTGTATCCATGCACCCTACAAAAATTTATTTTTTATAAAAGTATTTATATATAATTATAATTTAGTATTATTATGAAAAAATGTTTATTTTTAATTTTATTAATTATTTTAATATTATTTGCATATAATATTGATTTTAATAAAGAAGAAGAAATTGATTCTTGTATAACATTATATGAACCTGTTTGTGGTAAAATACAAGTACAATGTATTACCACTCCTTGTAATCCAGTAGAACAGACTTTTTCTAATATGTGTGAAGCAAATAAAGTAAATGCCTTTGACATAAAACAAGGTGAATGTAGTATTAATTAATATTTATTTTTTAGTTTAGAAATATTAATAAACAATTTTACTTTATTTTCAATATGGAATTAATATTAATTGACTATATTTTTATGATAATATATTTATTAATTTTAATTGCAATTGGATATTATTCATCAAGAAAACAAAGTGATGAGAGTTTTTTAATATCGGAGAGAAAATTAGGTATTTTATCTGGTATTGCAACTATCAATGCAACAAAAACTGGTGCAATATTATTAGTTTTCACTGCATTACTTTATCTTTATGGATTTTCAGCAATGTGGTATTTTATTGGGGTTATTTTAGGTTTTTTAATTTTTTTACCATTTTCAAATATTTTATATAATAAATCAGAAAAAAAATATTACACATTATCAGATTATTTTTATCACAATTATGGAAAAACATCTTCATATTTTGCTTCACTTATAACTATTATTACAATGCTTGGTTTTTTAATTAGTAATCTTATTGCAGCTTCAAAAGTATTGGAATATTTTACTGGTTTAAGTTATGCTTCTTCAGCAATTTTAGTTTCAATTATTGTATTAATTTATCTTCTTATGGCCGGTTTTAAAGCTGTAGTTAAAACTGATGTATTACAATATATAGCAATTGTATTTGTACTTGCAACATTTTTAATAGTTTTATCTAATGGAGTTTCAATTCCTGCTAGTGAATGGAATTTATTTGGAGCTGGAACAACAAATATAGTTGGTTTTTTATTAATTGGAATGTTATTTCCTTTTGCTTCTCCTGATTTATGGCAAAGAGTATTTGCATTTCCTGATAATAAAACATTAAGAAAAAGTCTTTTTGGTTCAATTTTTGTTTTTTTAATAGTTGCAGTAATTTTAGCAATTGTAGGATTATTAATTAAAGTACAATTACCTAATTTAGATCCGGATGTAGCACTATTACATGGATTTAGTCAATTATTACCAAGTGGATTAACTGGGCTTGCAATAGTAGTGTTTTTTGCTGCATTTATGTCTTCAATAGATACTTATGTTTATACTGCATCTTCATCTTTTGTTCAAAATTTTTTAAGAAAAGCAAATAAAAGTAAAATAGTTTCAAAAATAAGATTAACAATTTTTGCAATGACTGCAATCGCAACATATTTAGCAATTACGATTGCAAATTTAATTGAAGCATCTTTTATTTTTGCTGCATATGTTGTGGTACTTGCAATACCAGTATTAGCAACATGGATTAAAAAATCAATTCAACCTATGACATTAAATATAACTTTTTTAATTGGATTGGCTACTTTAACTATTTTTGTTATAATTGATTTTAATAATAATATTTTAACTCCTGCAATTGTATTAAAAGGAATAGCTGGAACATTATTGGGTTTAATTATAGGTTCTATAGTTTCATATTTTAAAAGAAATAAAAATTAATCTAAATGTTTTTTAACTGATTTTAAATACAAGTTCCATTGTTTTTTAAATTTAGGAGATTGTTTTATTAATTCATCTAAAGTACCATTTGCAATTATCTTTCCAGCTTCAAAATAAATTATTCTATCAAACATCGGAAGTAAATGTAATCTATGAATGGATGAAATAATTGTTTTGTTTTTAAATTTTGAAAATAATGTTTGATATATCATTGATTCATTAACTGAATCTACACTACTTGTTGGTTCATCTAATAGTACTATTTGTTTGTCAACGGACGCTAATATACCTCTTACTAAAGCTAATCTTTGTTTTTCTCCACCAGATAAATTAACTCCTTTTTCTCTGATTTTTGACTTATATTGATTAGGTAAACGCATTGCAACTGAATCAAAACGTGCAACTTTTGCTAATTGTCTAATATAAGATAATTTATGACTTATTCCTAGAGTAATATTATTTAATATAGTTGAATCAAATATTTCTGGTTCTTGTGGAATTAATGAAATACTATTTTTTATTTGACCAAAATTATATTTTAATTTTTTATTATCTAAAAATATATGTCCACTCTCAATTGGATATAAATCTCTTAATATTTTTAAGAAAGTAGTTTTTCCACTTCCACTCTCTCCAATAAAAGCAACTTTTTCATTTCGTTTTATTGTAAGTGAAATATTTTTTAAATTAACTTTATTATCATAGCCAAAATTTAAATTTTTAATTTCTAATTCTTTCCAATTATGCATATCTATTTGTTTTGGTTGTTTAATATTTTCAAATTGATCAGAGATTACTTTACCATTTTCAATACTAGCTTTTTGAGTCACCCATTTACTATAATACATACTAAATCTAAAAAATTGATTATTGATTTTTTCAACATAGGACCATAATGCAAATAATGTTCCTGCCATTATGATTCCTGTACCATAATAAGAAGATAATACATAAGTAGCTAAAATTATAACCATAAAGGATCTAACTAAAATGCCAACAAAAAACCACTTATATTCATTTATTTTAAAATCAGCAACTGATACTTTATATGGACTCATAAATTTTAAAAATAAAGATTTTGAAATTAATTTTTCTAATCTTAAAATTATTATTGTAGTAATATTACTAATAGAATCATATAATTTAGCTGAAATTTGATTTTCTTTTATCATTCTTTCTTTTTGTAAACTAATTAGTTTTTTATCATATTTGTCAATAATAATCCAAATTAAAAATAGAAAAATTAGTACTGTATATGATGCATGAATATTAAAATAAAGAATAATTAAATATGCACCAATCATATTAAATAAAGAGTCAATAATTAAATATGTTTCAGCACTAAATTTTTTTAAAGCATCACAACCCTTATCTATTTTATCAATTGTATTTCCACTATGATTATCTGTATGCCATTTTTGTGGAAGTGAAATGATTCCATTAAACATAAATTTTCTATAATTATTTTTAATATGAAATGCATTTGTTCTTTCAATAATTCTAGATGGTCCATGAAATAACCATTTTACAATTTCAATAATTAAAATTAATGATATATAGAATAATATTGTTTTTATATTATTTGAATTAACACCAGTTTCTTGAATAATATTAAAAATATTGGCAATTATTAAAGGTAAAATTAATCCTAAAACATTTGACATTGTAGATAGAAAATAAACTAAAACGACATATTTCTTTCTATCTTGCGAAAATTTCCACATTTCCCTAAACAAAAAAGGAATTGGATTGTTTAAGTTAAACATAATATAATAATCAATTATGGTTTTATAAATATATTCTTGAAAATATTTAATTCAAAACAATAACATTTGATGTTGATGGAGGTTTGTTCATCCATATTTTTAATTTATCTATTTCATTTTTTTGAATTTCAATTTGATTTTTATATTTACTTTTTATTTCTGACAATGTATTTTCTAAATTATTTATATATGGTTCATCAAATTTTCCTTTAGCTTTTTCTAATTGTAATGCTTGTTGAATTATATATGCACTTTTAAAAAACAATTTATTTTGTTCAAGTACTTTTTTTTGTTGAGTAGAAACTAAATCAAGATTTCCAAATAATAATGATGATCCATATTTGCATAAACTTCTTATTGGATGAATTTCACTAAAATCTTCAGGTAACTCTTTTTGTTTTATCATTCCTTCTAATTCAGAGTAGTAAACAATATGCATTACATTTTTTATTAAAAATTCATGTGAATCATATTGATTATTATCAATTAGTTCTCCTACTTTTTTATCTAAATCAAATAAAACTCCATTTAATCTAAATAAATCTGATTGTTTTATATCTTCAATTTGTTTATTATATAGTTCAAATGTAATATACATGTGATTGGTTAAATTTTTTTGTTTATAAAATTAATTAAAATATATCTAAACTATTACAATAAATATTAAAAACAAATTCAATTATTTTTTATTATGAAAAGACTATTTAAAATAAAAGATTCTGGTAAGCGAGTTAAATTAAAAAGTGGTTTAGTAAGAGAAGCATTTGATCATAAAATTGATTATACTCTCTGCGATATGGATATGTTAACAAGATGGGCTGAATTAATGACTAGAGGTATTAACAAATATGGAAGAACTTCTTGGAAAAAATCTCATTCTCAAGAAGAATTGGATAAATTTAAATCATCTGCATTTAGACATTTTATTCAATGGATTAATGAAGTAGAAGATGGTGAAGATCATGGGGCTGCGGTATTTTTTAATATTGCAACAGTTGAAATGATTAAAAAAAAATTAAATAAAAATAAAAAATATTTTTAAGAGTGAAGAGGAATAATTTATATAATTGTTGTAATTTTATTTTTTATGAATAAAGAATTGATAATTGAAAAATCTATAAATTATGTAAAAGAAACATTAAATAATTCTTCAAGTAGTCATGATTGGTGGCATATTTATAGAGTTTGGAACTTAGCCAAACAAATTTCTCAAAATGAAAACTCAGATTTATTTATTGTTGAATTAGGTGCTTTATTTCATGATATAGCTGAGGCTAAATTCTATAATGGTGATGAAACTATAGGTCCAATAAAAGCAAAAGAATTTTTGACTTCATTGAATATAGAAAATAATATTATTGATCATGTAATAAAAATAATTGAAAATATTTCTTTTAAAAATACTTTTAATGATAGTCAAAACCAATTTAAATCAATAGAACTTGATATTGTTCAAGATGCTGATAGATTAGATGGCATGGGTGCAATTGGAATTGCAAGAACATTTACTTTTAGTGGATACAAGGGTAATCCTATTCATGATCCTAATATTAAACCAAACTTAAATAAAACTAAAGATGAATATAAACACGCTGATTGTACTACTATAAATCATTTTTATGAAAAACTTCTTTTATTAAAAGATAAAATTAATACTAAGACTGGAAAAATCATGGCTGAGCATAGACATAGAATCATGGAAGAATATTTAGAAGAGTTCTATAAAGAATGGGAGGGTAGATTTTAATTAAATTTATATAATTCTTAAATTAATTTTATCTCTTTTTTTATAATTTATCTGTATTCTGGATTTTTAAAATCAAATCTACATCCTGCATCCCACTTACTTCTTTGATTTCCGTGAGCAGGTATTCCTTTATTATCTTTTAACATTCTTGCTAAATGCATTAAGTTCCATGTCATGAATGTTGTATTTCGATTTGTAAAATCATTTTCTGGACCACCACTACCTTTATCTAAATAACTTGGACCAGGACCAACTCCACCTAACCATGCAGCATCTGCTTGTGGTGGAATTACATATCCTAAATGTTGTAAAGAATATAAAATATTCATAGCACAATGTTTTGCCCCATCTTCATTTCCAGTAATTAAACATCCACCTACTCGTCCATAATAAGCATATTGTCCTTCTTTATTTAAGAGTCCACTATTTCCATATAATCTTTCTATTACTTTTGTACATATACTAGTTTTTTCACCTAACCAAATTGAACTTGTAAGAATTAAAATATCTGCTTTTATAATGTTTTCAAATAATTTTGGCCATTCATCTTTTTTCCAACCATGTTCTTTCATGTCAGGCCAAACACCTGGTGCAATATCATGATCAACTGCACGAATCTCTTCAACAGAAATTCCATTTTTTTCCATGATAGCACGTGAAATTTCAACAAGCCCATCAGTATGACTTTTTTCTGGACTTTTTTTTAATGTACAATTAATAAATACTGCTTTAAGATCAGAATAATCAGTTTTTGAATTTTTACACATTTCTAATTGTTTTTTATTTAAATTTACCATAAAAAAAAATTAGTTCATGAGCTTATATGTTTTTTTATTTTTTTTCTAAATATATTCGAGATACATAAAGTGCACTTGAACCACTTAATACTGCCATACCTGAAGTTACCAAATGCATAAAGTTCATATAGTACATTTCATTTCCACTTATTATTCCTTGAGCTAAATCTACACCTGATGTTACTAAAAATATACTTGCGAATACACTACAAAGAACATTAATAGATGCCATTTCATTTCTAATGCTATTTGAACTTAATATTTCATTTTCTAAAGAAAACTCTTGATCTTTTTTTCTATTATGTGTTCTTACAGCTAAACCTGCAAGAACTCCAGAACAAATTCCAGTTACTATATCCAATGAACCATCATATGTTGCATTAAATCCGAATCCTATTGCTCCACCTAAGTATAATAGTGACTCTAAATCATCTTTTTTATATTTAGTATTCTCTTCCCATTTTTGGGCTAATTTTTTATAAGTTAAACCTAGACAGTTGTCTGTCAATTCTAATAAATTCTCTTTTCTAGGATTAATTTTATCATATAATTTATTATAAGTATTTTTTAAATACGATATAAAGGATTTATTATCATTTGACATAATTAGAATGTTTTGATTTCTTTTATAAAAATTTATATGAATTAATTGGTTTTATATAATAGTTTTATATAATTCTTAAAATGTTCATATTTATGGATTTTAATCAAAAATGTTATGATCTTCTTATATTAATTCCAAAGGGAAAGGTTACGACATATAAAGAAATTGCAAGGGCTTTAAATTCTAAAGCTTATAGAGCAGTTGGAAATGCAATGAATAAAAATGAGAATGCACCAAAAGTTCCATGTCATAGAGTAGTTGGTAGTAATGGAAACTTAGTTGGTTATGCATATGGAATTGAAAATAAAATTAAGTTATTGGAAAAAGAAGGAGTTAAAATAATTAATAATAAAATTGATTTGAAAAAGTATTTTTTTAGTTTTAATAAGTAAATTTTTTAAACTTGAATTTTTAAAATAAATTATGGAATGGACTCTATTGATTATACTTTCAGCAATTTTAGTTTCTATAAGTGATATAGTTAGAAAAAAAAAATCAAAAGATATTAAATCCTATCATTTACTTTTTTATACAATAGCTTTTGCAGTATTTTTCTTTTTGATTCTATTTCATGATAAATTAATTTACCAATTTCCAATTAATCTTTGGATATTATTTATTTTTAAAGGTTTATTATTGACTATTGCTGGTATATTAATGTTTCAAGCAATAAAACAATTTGAATTGTCATATATTAGTCCAATGCGAAATTTGAGTATAATTGCTACAATCATATTAAGTTATTTTATTCTTAGTGAATCAATTACAATTAAACAAGGATTTGGAATTTTTATATTAATTATATCTTCTTATTTAATGGAATTAGATCCAGCTACACATAAATTTGAAGGTTTTAAAAACGGTTTTTATTTAATTTTTGCATGGTTTTTTTTTGTTGCTTTACTTCCAATCATAGATAAATATTTATTAACACAACTTTCAATATACAATGCTTGGTTTTTTCCAATGGTAATTACTTTAATAGCTTTGATTTTAATCATTTTTATTCAAAAAGAATTTAGTATAATAAAACATTCACTAAAAAAAAATTGGATGATATTTTCAACATTAGGGGGATTATTTTTATTTGATACTTTTTTATGGTTTACAGCAATTGCAAAACCAAATGCTTTAATTTCATTGGCAATTCCATTAAGAAGGACTTCTAATTTTTTTAATACAATTTTTGGTGGGAGAATATTTCATGAAAAACATTTAGTATATAGAGGATTAATATGTTTTTTAATGATAATAGGAATATTTTTAATTATTTAGAAATTGTTCTATTTTTTGTCTTAAATTATTTACATAATCAAGATTCGATATTTCTTCACCATAATTTTGTGGTTCAATTATAATACATAATTTTTGTTTAGTAATATAAATTTCAATACTAAGGTGCAAATTATTTTTTAGATTAGCATTTATTGACCTTGGGCCTAAAACTATACTAGATAATCCTAATTTTTCTAATTTTTTAAATTCAGTTAATAATATATTTTCAATTTGAATATATTTATTATAAATTTCATTTAATTTTAAAATACTAATTTGATATTTATTTGCAAATCCTTTAATTAAAGACAATTCATGTTTCCAATAATAATCATTTTTTTCTATTAAAGATTGAATTAATTGTGCATCGGATATTTCTCTAATATTAGATTTAATTTGATATATAATTCTTAATGATTCATCTTTTAATAGTTCATGAAAATTAGCATAATCTAATATTTGATCTTTTATCATAATTTTATGAATAAAAATTAATATTTAAAGATTATTGTATTTAATGATTATTAGAATATGTAGTCCTACCGTTTGTATTCCCATGAGTTTGTGAAGTTTCTTGTGCTTTATTTTCTTCTTGTTTTTTTAATTCATCATGTTGTTTTTTACTTATTTTTTCAAGAATACCTTCTTTCTTTTTTTCAGGGTGATAAAATAATAAATCATCATCATATGGACTATTATATGGACTTGTCATACTATTTGCTAAATTTTTATCTTGAGCTCTAAGTGATGGTGTTATGGTATCATTAGCAGATTCTCTTATAATATCATTATTATTGGTTTGAGTAGGTGTAGATTGACTTGTATCGTGCATTAATAAATATCCAAATATGAATAATAGTAAGATTCCAAATGCAGAATTGAAGAAAAAATCTGAAATAGTATTTAATGGAATTATTCTAAATAAATCTAATGCAAAATAGAAAATAGTTGTAATAATTAATAATGGTATAAATATAAATAATTTAGAATTTCTTAATCTCTCATAATATTTGTGTGAAGAAAAATTAAATACTAATACAAACATAAATGCCATAATTGTACTAAGTGCTAATAATGATATTACTTTTAATAAAATTAAAGAATGAACAACACTAGAAATAAAAATAAATGCAATTGAAAATGATATTATTGTATTAATTTTTTTATAATATTCTAACTTTTTCTTTTTTTCTTTACCTTCTAAATTATCAGCATTTCCAAATACTTGAGAATGGTTTAATGAATAAAAAGTAAACATATAAATTATAATAAAAGGAAGGATTATATCTAATAAACCCATATTTACTAAAAATTCTAATGCATTAACAAAAATCTGTGCCATATAATATTTTAGTTATTTGATTTTATAAATTTAGAGTTAATTTTGAGTATATAACCAAAAATAATTAATATTATAAGTTTTAATTTTTCTATGGTGTTATGAAAAAAATAGAAAAACTATATTTTAAAAACTTTTTAGAAGAAAAAATGTTTAGAAAAATTACGGGCCAACATATTAATCCTTATGATCCTGAAGGTAAAGATCAATTAGCTTTTGGAAGCCAAATATGGGGACAACTTAATGAAAATTATTTAGATTCTGATATTCGTGGATTAATTAAAACAATAAATGAATTAGATTTTTTATATACAAAAGGAATGTCTTGTTCTGGAAGTATTAAAGATCACTTTGGTTTCACTTCTGGATTTCTTGAAAAACCTCTTGATTGTGGTGAGTATATAAATGCTTTAAATGAGTATGGTATTGATAAGTCTGGATTTCAAGGTTATATTATGTTAAGGGCCGATACTAATAATCCAAAATTTTTAAAATTTGAAAAGGGTTTAAAATTGTTTAGAAAAACTGAGTTAAATCAATCTTCATTAGAAGATGATGATAATAAAATTCAAATGCAAGAAGGTATTAAAAATTTAGCATTACAAGTATGGGTTCCAAAAGAAATTTATAATAATTCACTTCATCTTCAATATAGAACTTATATGAGTGATATATGGATGAAAATTCATAATTTTACTAAAACTTTTTTATGAATAGCAAAATATTATAAATCAAAATATACAAAAAATTAATATGGAATTTAAATTAAATAAAAAAATTATAAATCCTATAATTATACAAGGATTTCCTGGATTTGGCTTAGTTGGGTCAGTTGCAACTGAATATTTAATTGAATTTTTAAAAGCAGAATATGTAGGTAGATTTTGTTCTGAAAAATTACCACCTGTAGCTGCGGTTCATAATAATTCAATTGTAATGCCACTTGGTATTTATTATTCAAAAAAATATAATTTATTAATAGTACATGGAGTTTCAGGTGTGCAAGGTCTGGAATGGGAAATTGCAAAAACTATAATTGATCTTTCAGTTAAAACAAAAGCAAAAGAAATAATTGCATTAGAATCTGTTGGTTCACAAGATTCAAAATCTAATACTATGTATTATTTTTCTAATGTAAAAACAAGTATTAAAAAATTTGAATCATTAAAATTGAGTAATTTAAAAGAAGGAGTAATAATGGGTGTGACTGGAACATTAATGGTAGAATCTAGAATGAAACCTAATTTTTCAGCTATCTTTGCTGAAACTCATACACAATTACCTGATTCAATGGCTGCAAGTAAAGTTTTAGAAGTATTAAATAATTATTTAAAATTAAAAATGAATTTATCTAAATTAAAACAAGCAGCTCAAAAATTTGAAGATAAATTAAAAGGTTTAATTTCAGCACAAGCACAAACATTCGAACAGTCAGATGAAAAACATTTATCTTATATGGGTTAATTATTATTAAGCAGCTAATTGATATTCTTCATCAGGTTTTTCAGATAAATCATCTAATTTTCTTTTAGCATCAAATTTAATATATTCGGAATAGTCTAATTGTAATTGTTTAATTTCTGCAAATAAATTTTCCCTTTTTGTACTTATACCATTAGTAAAATCTTTTATTTGTTCATATGATTTTGGTGTCGTTGATGTTTTTATTTCTTCAAGTGTCATTAATTGAGATTCTAAATGACTTTTGTATTCTTGTTTTGAATTAAATCCATTTTTTTTATAATCCTCTAACCATGCAATACTATGAATATCTCTCATATGGAATCGGTTTAATATTTCATCTTTTTCTTTTTCGGATTGTGCGCTTTTATATAATCCATATGCTTCTTCAAAATTATTATAAAAGAAAACAGATGGAACTTTTTCTCTTTGATATCTATTTACAAAATTTCCAAGTCCATCGGTATAATTTAAGTCAATATTACTCTCCATTGCACCGCTCTCTGAATCAATTCCAAATATTTTGGGTTTGGGTGCAGTTGTCGTTCCAATATCTACTTTTTCTCCATTAAAATAATGTAATTCATTATGATCAGTGTGAATGTGTCCTGCTAATTGAGTTATAGTTCCACCATTTTTAGTAAAGTCATCTTCAATTGAAGAATGACCCGCTGTACTCATCCAAGGTGATAATGGTCTGTCATAGAAATTTTCTAATAATTTCATTTTATTCTTTTTACCAATTGTTGCTGGATTGTGAATTGCATGAACAAAGTGACCTTCTTTATCATGTTCACTAAATACACCTTCTAATCTTTTTCTATCTGGATCAAAACCAGAATAACTTGCACCTAAATTATGTAATTCAAATAATGCCATTAATTTTTCTTGTCCCTCTAATGTTTCAAGTTTTTCAAATAGTTCTGGATATCTTTCATTTAGTAAATCAACTTTATCTGAATCCTGTTGTGGTGCAGCCATATGATTATTACCATCAATTGGAAGGCTAGTATTTATCCCAAAATTTCCACCACCAACTATTTTTAATGATTTCCCATTTTTTTTTAAAATGTGAGCTGGAATTTTATCTAGATTAACTACATGAGATAAATATTGATCTACAATTGTTGAATCATGATTACCTAATGTCAATAAACTTTCAATTTGATATTCATTGAATACTTTTTTTGCAATTTCATTAAGTTTTTTTGCAATTAATGCTTGTTGAGAGTTTTGTTTAAATTTAATTAAATCTACCAAATTTAATTTACGTTCTTTTAAACCCTCATGATTTTCATTTATTTTTTCAATTTGATTATAATGAAATTCAAGTTCATTAATTTTTATTTCTAAAGCATCATATAATCCTTCAGTTTGTTCTGGGAATTTTTGTTTAATTTTTGCTAACTCAACATTTCTATAAGGTTGTTTAGGATTATTTTTTTCAAATAATACTCTTAATTTTTCATTAAATGTTTGTGAATAAAGTTTTTCATATTCACTTGGTTGGAAGTTTTTTTCTTTTGCATCTTCAATTGATTTCATAATTTGTTTATGTTCTTTCAAATTAAATTTTCCAAATCCAAATTCATGTTGATAAATGGAATTAATTATTTGTTCTGATTCAATATATTTTTTATAATGATTAAATAATGATTTTGCATCTCCACTCATTAATTCTTTATTAACATAATTTTCTCCCATGATTGCAAATGTTTCATCCAATGTATTTTTTACTAAATGATCTAATAATAATTTACCTTCTGTAAAATCCCCATTAAAAACAATTGCATCAATATTAACTCCATCTTTAATTGCTGGTTTTATTATATCTTCAATTAATCCATCTAAAATATCAAATCTAATTTCTCTACTTGTTCGATTTACTTTTTTTGAACCATCCTTATATTCTCCAACAACTTCAAAATGTGATTCTTGATATAAGTGAATATCTGATAATTGTAATATATTAAAAGTATTTTCTGCTCTATGATCTACTCTTTCAGGTCTAATACCTTTTTTTACTGTATCTTCAACATGATATTTTCTTAAATGAGTAGAACCATTATTTTTTAATTCTCTTTCAAAATCCCATATAACTTTATCCCAAATTGAATATTTATCATCTCTGTTTTTTAAGTCAACTAATGCTAATTGTAATTCAATATTAAATTTTTCATCAAAAGCTTTAGGATCTTTATTATACTCTTCTAACGTTTCTTCAAAACTTTTTCCATTTAAATGATATCTTGATAATTTATTTTTTAATTTTATTTTTTCTTTTTTTTCTTTATCTAAAGTTTTAAATAATTTATTATAGATAAAATCAATTTTTGATGCTCTTTTAATTTCAGAATCTTCGTTTTCAATTTCATCTAATAATGAAATTAAATTTTTATCATCTACACCAATAATATTTCTTAAATCATCTAATTTGTAAAAAGTTCCACTAATTAAATCATTAATTTTTTGTTTTTCTAAAAAATCAATTCGTGAATCACTAAGTGTATCTTCATCTAAGTTAATATTACCTTCATATTGAACAAGTTTTTCAATATCATGTGGTTGTTGTCTAATATGAGATATAATGTATTTTAATTTTTCATTATCACTTTCTAGATTTGTATAAATACTTTTTAATATATTTTCAAAACTTTTTTTATTAAGTTCACTAATTGAATCTTCAAATGTACTTCTTCCATATAATTCAATTATTAAATTTTTATATTTTATTTCTTTTGCCTTTTCACTATTAGTTTCAGATGATGGAAGTCTTTTTAATTGAGAATATGTTGTAATCATTGCACTTTCATAAGCATCTTTTAATGACTGTTTTGGAACATAAGTTTCATTTTCAATAAGTTCTAATAATGACTTATTTTCTTCTATTATTTGATTATTAGCATATAATTGTTCTAAATGTATTCCTGGTGTTGTTTCAATATTTTCTTTTGTTATTTGTTCTAATTCTTTTTCTTTTTGTTCATTTAATTCTTTTTTAATTTGTTTTAATTTTTTATTTTTAACTTTATCAGTTGATTCAATTTCATTAGTCTCTGGATTAATTGATAAACCCTCATTAGAACCTTCTAATTCTTGATCTAATATTTTTATATAATCATTTTTGAATTTATTTTCTATTTTTTTTTTATTTTCTTCAACTAAAAGATCAATAAAATCTCCATGATTATAAGTTCCTAATTTTTCTAAATAATCTGCATCAAGTTCATTTTTTTGCATTTGAGAAACATTTTTGGTTTGTTCATATTCAATTTTTTCTCCTATTAATTGTGGATTAGTTTGACTTAATTGATTTTGATCTTCTGGAGATAGTTGATCAAATAAATCTAAAATATTATATCTAAAGGGTTCTTGATTTGAACCTATTCTTTGTTCATTGTCAATTTTATGTCCTTCAATAAGTTCCTCTAGTTTAGAATTTCCAATTGGCTGATTAAAAGTTGAAATATCATAAGAATCCGAAAATGATTCTAATAGCTCTTTATTTGTTTTGTATGGTCTTTTAACAATTTCATCTAATTCTTTTAATTCTTCTTCACTAAATTGTTTTTTTTGATTATTTTCAGTTTTTAAATTTCTTAATTTTTGAGTTTCTTCTTGGGTTAATTGCCCAGACTGTAGTCTAGTTAAAAAATCTTCATTATATAGCCAATCGTAATTTTCCATTTTAAACTGAGACTTTTTCCTCTATTAAGATTTAAAACACGCTCATGATATATATAGAATTAAACAAAATAATACTATAGTTTGTGACAATTTAATCACCTCGTTTAGTTTATAAACTAAATTTTCAATTTTTTTCTTTTTATATTTACAATAAAAATTTGTTTTATTGATGACAATGTCACAAATTAACGTGTTTAATAATATTCTTTGTTTATAAATTAATTTTCTCTTTTTTAATTAGTTGATATAAATGTCATGTGGAAAAACAGTATACTCATTGATTGAACCAGCAAGCTATATCCCGAGACCCATGGGAATAGTTTACGGTCCAACTCATTCTGGACCTTATAGAATTGCTAATCCTGGTGATTTTTCTGATATTGGTTCAACAGAGCCAGCAGGATTAAGATATAATTCTAATGAAACTAAGAAAATTGAAGATACTGATGATAAAAGAGAAACAATAAACAAAAGTACATTAAATTCATTTTTAGATAAATATAAATTACAAAATCAATTAGAAAAAAAAGATTATAAAAATAGTAATTATAAAAAATTAATAGATAATTTACCATATCAACTTGTAAAATCAGATAGTTTAGAAGGGAAAATAATAAATAATTTTTTATCTAAATTAGATATTAATAAATTAAAAGAAACACAAGAATTAATTGCATTGGCAAAAATAGATGGAACTGTGGAGTATAAAACAATATGATATCAAAAGCACAAGAATTAGAACAGGCAGCATTAAAAGAAAATAATCCTAATAAAAAATTAGAATTTTTATTATTAGCCTCAGAAATTTATTTAAAAGAAAGTAAAAATGATTCGGAAAATCAAAGTAAATATTTAGCAAAAGCAATTCAACTATATGATGAATATGAATCAATAAATGCAAATTCAATAAAATATTTAGATAAAGAAGTTAATAATAAAAAAGGAGTAAAAACATTTGATGATATTGGTGGACTTGAAGAATTAAAAGATGAAATTAAATTAAAAATAATTGAACCTTTATTACATCCTGAAGTATTTTCAGCTTATGGTAAAAAAATCGGTGGGGGAATTTTAATGTATGGACCACCTGGATGTGGGAAAAGTTTAATTGCTGAAGCTACAGCTGGGGAAGCAAATGCACATTTTATACATGTTAAACCTAGTGATTTGAAAAGTAAATATGTGGGTGAAACTGAAAAAAATATTTCAAAATTATTTGAAGTTGCAAGAGCTAATGCACCGACAATAATATTTTTTGATGAATTTGAATCATTTGGACGGGAAAGAAGTAAAACAGATGTACATACAAAAAATCATATAAGTCAATTACTTAGTGAAATGGATGGAGTTGGAACTAAAGATAAAGCAATTTTATTATTAGCAGCAACAAATACACCATGGGAAATTGATCCTGCTTTAATTAGACACGGACGTTTTGGAATTAATATTTTTGTAAAAGAACCAGATGAAAAAGCAAGAAAAGAAATAATAAAATTAAATTTAGAAAATAAACCAATTGACGATTCCGTAAATATTGATTTTTTAGCAAAAGTAACAAAAGGATTTAGTGGTGCTGACCTTAGTGAAATTTGTGATCGTGGTGCTGATATTGCCATAAAAGAATATTTTAAAACAAAAGTAAGTAGAAAAATAAATATTAAAGATTTCATAAGTATATTAAAAGAAAAAAAATCTATTGTTAAATCATGGTATAAACTTGCAAAAGAACAAATTGTTATAAATGGATGTGAAGATTATTATACTGAAATAGCTAATTATCATGATGAAAAAAGCCACTCTTTTAATTAGTTCTGTATGTAATCACAAATGTGATTTTTGTCTAAATATATGGCATAATAGTAATATTAATGAAACTTTTGAAACTTTTATGTCATTTGAAAAAATAAAAGAATCTATTGATAAATTATCTAATGCAAATATTACTAATATTACTATTTGTGGAGGAGAGCCATTATTACATCCTGATTTTAATAAAATAATTGATTATATATATAATAAAAAATTAAATATTAGATTACAAACAAATGGTGTTTTTTTAAATAAAGAGAAAATAGATTTTTTTAAAAATAAAATAAGTGAAATTGAAATTAGTTTACATGGTACAAAAGAAATACATAATGAAATCTCCCATTCAAATTCTTTTGAAAAAATAATAAAAAATGTTAATGATATAATAAAAAATAATATTTTACTAACTACAAACTTTGTGATAAATAAAAATAATTTTATGGATATAGAAAATTATATTTATTTATTAAATAAATTAAATGTCAAGGCTGGATATTTTACCATATTGTATAAAGCTGGACTTGCAAATAGAAATAATTTAGAATTAACTAAACAACAATTATCAGAGTTTATTGGAAAAATAAATGATTATTCTCTTATTTCAAAAACTAAATTAATATTTCAAGGATGTTATCCTCCTTGTGAATTAAATGTAAAAAATATTGAATTTATTTCCCCTTGTGGTGCAGGTAAAGATGAAATTGCGATTCAACCAAATGGTACAATTACATTATGTCCAGCTCACCCTAAAGCAATTACTAATATTTTTACAATAAATCAAACTAAATTTAATAAATTAATTAATAATACACAATCTTATTTGTTAAACGAAAGTTTACCAAAAAAAGAATGTAACTCTTGTTCATTATTAAAAGCATGTCGTGGTGGTTGTGTAATTAATCGTCAAGGTGGAACTGAAAATATATTAAAAGAAAAAAATAATTTATTTAAATTAATTAATTATTAAATAGATTGCAAATAAAAATAATAGAAAACTTGCAATTAAAAAATTAAAATTAATTGGAATAATATAAATAAATAAAATTAATAATAAAATAATTCCAATTTTTTTATTATTTAATTTTTTCATTCTTTTGATTCAATATATTTTTGTGCTTCTAAAGCTGCTTGACACCCAGTTCCAGCCGCCGTTATTGCTTGTTTATATTTTGGATCCTGAACGTCACCAGCAGCCCAAATCCCTTTAACATTTGTTGATAAATCTCTATTAGTTTTTACAAAACCATGTTCATCTAAATCAACTAAGCCTTCAACAAATTTAGTATTTGGAACATGACCTATTGCTAAAAACACACCATGAACATCAATATTGGAAGTTTCATTATTTTGATTATTAATTAATTTTACACCAGTAACTCCAGTATTATCTCCTAATATTTCTTCTATTTTACTATTATATAGAATATTTATATTATTTATTTTTTCTACTCTCTCCCTCATAATATGACTTGCTCTCATTTTATCTTTTCTTACAATAATATTTACTTTATTACATAATTTAGATAAATAATGTGCTTCTTCACAAGCTGAATCTCCGCCACCAACTATAATAACATCTTTACCTTTGTAAAAAAAACCATCACAAGTTGCACATGTACTTACACCTTTTCCTTTAAATTCTTTTTCTGATTCAATATTTAACCATCTTGCTGATGCACCTGAACTAATGATAATTGCAATTGTTTCAATTAAATCTCCATTAGCTAAATGAACTTTAAAATGATTATCTTCTTTTTCTACTTTTACAACATTATCTGTAATAAATCTAGTTCCAAATTTTTCTGCTTGTGCTCTACAATTGTTTACAAATTCATTCCCATCAATTCCTTGTGGAAATCCAGGAATATTTTCAACTATTGTTGTAAGTGTTAATTGACCACCTTTTTCTAATCCATCTACAATAATTGGATTTAATTTTGCTCTTGCTGCATAAATTCCGGCTGTATATCCTGAAATTCCTGATCCTATAATAACTAATTCTTCCATAATTGACCTCTTTTTATAATTCTTTGAAATATAATGATTTTAAATAATTTACTAAAATCAACAAAATTTTATTTGAATAATCAGAATGTTTATTAAAAATAACATTTTACTAAATATAGGGGGAGTAGTATATATTCATGAGAATATATTTTTTAATATACTGATATAAATATGAATTCATTTGAAAAGTCAATATATGTAGTAATAATGTTAATTGTAATTTCTACTATTTGTTTTTCTTTATTCATTATACTCAATCATAATTCAAATTTAAATAAAATATTAAAGACTAATAATTTAAAACAAAATGATAATCTTGAAAATGTCAAGGAATTATTAAATATTTCAATTGATAATAATTTTTCTAATTTAATTAATAGTGCAAATCAAAGATTTAGTAATATTAAACAAGAAAGAGAATTAATTGATAAGAAAATAAAAGAAATTGAATTAAATAAATCAAAACGATTAGAATTAATTAAAAAAATACGTTTAGAATCTAAAATTAGAGATGAAGTAAAAAGACAAACAAAAGAAAAAGAAAAAATTAATATTATAATTGATTTAGATAATGAAAATGAAAAAGATAATTTAATTGAAAAATTAAATGAACAAAATATTCAAATTAATAATGATTTAGGAAATGCAATTGCAGTTACAATTGATTCAAATAAAATTAATAATATATCAGAGAATGACCAAATTAAAAATATTCATTTAGATAGAGAATATAGTATATTAAGTTTTGAACAATTTGATAAATTTAATATTTCTAATATAAGAGAAAGTAATAATATATCTGGTGACAATATTAAAGTTGCAATTATTGATACAGGTATTGATGAAAGTGTTTTTAACAATATTATTTCAAAATCTTTTGTTAGTAATAATGTAAATGATAATATTGGTCATGGTACTCAAATTGCAAGTATAATAAAAAATATTGCACCTGATTCTATTTTATACAATGCAAAAGTTGTAACTGATAATGGTTTAACTTCAACATCTTCAATTATTCAAGGTATAAAATGGGCAATCAATAATTCTGTAGATATTATTTCATTAAGCTTAGGTTCAAAATTTCATGAAACGGATCAATTATTAAATGAAGAGTTACAAAATGCAATTGATAATGATATAATAGTGGTTGTGGCATCAGGAAATTGTGGTCCTTGTTCAAATGTGTGTGGTGATTTTAAGGGTGTTACAAATCCAGCTGATTATGAATCAGTTATTTCAGTTGGTGCGGTTGATATAAATAATAATTATGCGTGTTTTTCATCAGGACAAGAATATGAAAATTATATTAAACCAGATTTAACTGCATTAGGTGTTAATATAAATGTAACTTCAATTAATAATAAAAATAAAATAGTTAATGGAACTTCTTTTTCAGCTCCAATGATTAGTGGTTTAATTGCATTAAAATTAGAACAAGAAGAATTAAATCATAATCAAATAAAACGTTTATTAGAATATAATGCAATTGATTTAGGACAATCAGGTAAAGATATTGAATATGGTTCTGGTGTTATTGATATAGATAAATTATTCAAAATTAATAGTGTAATAATTGATCCTATTATTATTGATGATAATGATACAAGTAATGAAAGTAATATTGAATCAAATGAAATTAAGATTAACGATATAATAATTAATACAAATGACAAATTAATTTTAAATGATATTGGTGAATTTAAATTTAATAATGCTGAAGATGATTATGTAGTTTATGATAATAATGGAAATACAGCAATAGTTGAAATAAGAGAGTTTAATTCAAGCGAGGATTTGATAAAATATTTAAAATTAGGTTTTAATTTTACAATTGACGATTATGAAAATGAAACTATTGATTCATTTAATTATTATGACAATATTTTATGGTTTAAAAACAGTAGTGTATATATATTAAGTAAACCAATTAACTCAAAAGCTAATTTAACAATTATAAGAGATGAATATATAAAAAAAATAGGTTCTGATATTCAAAATTTAATTCAAAATAATAATAATAATAATAAACCAAACAGAAATTATGAATTATCATCTACGCCTGATTATGATGGTGAAATTAATATCGGTGATACACGTTATGTTTCTTTAAACGGTGGAAGTACATTTAAATATAAATTAACAACTAATTATAATGGCATTATTCTATTTTCACTTACAGATGTAGGCCGTTATGAAGATTTTGATATAACTTTACTTGACTATGAAGATGAATTTATGCAGGAAAGTAATGCAGGTAGTGGTGAAGATGAATTAATAATTCAAAATAAAGAAACTGATGATGTTTGGGATCTTTATATAGTAGTTAGTAATTTTAAAGATGATCCAGGAGATGTTACATTTAAGGTTTCTACCGGATGTACACCATCAAGTTCTTATTCTTGTAGTGGAAATATAGTATATAAAAAAACTATTGATGGATCTTGTGAAGAAGATAATGATATATTTCTAAATTGTAATTATGAAAAAAAGATTAGTTATGGTGATTTGTATTGTTCAAATAATGATGTACATCAAACAAAATCTTATACAACTGGTGAATGTAAAGTAACTTCATCTAATGGATATTGTAAAGATGTTGATAAAACAACAAATAGAAAAGTAGAAGATTGTGGAAGTGGAACTTGTAGTAATGGTGCTTGTTACGAATGTCAAAACAATAATGATTGTAGTAGTGGGGAATATTGTGATAATAGTAATAAATGTCAAACTTATGAATATGGTCATAAAAAAAATCCAATTATTTTTGATTGGAAAGCAAGTCGTTCAGTTAATCTTGAAAGTGGAAATGTGGAATGGTATAAAACATCAACTCCTAATGGCGGAAAATTAATTTTTTCAATATATAGTGTTCAAGGTGATGAAAATTTTGGCTTATCTGTTTATGACGAAAATGGAAATAATTTATTAGGCTCAAATTCTACTGGAAAAGGAAAAGATCAACATGTAAATATAATAAAACCAAATACAAATTTAGAAACTTTTATGATTAAAGTTGAATCTTATACTGGAAGATCTGTTAGCTTAACAGCTGGTGATATAAAATGTGAAGAAAAAGATTTAACATATTGTGATTCTTATAGTAATAAAGTTTATTTAGAAACAATTAATCCTCTTTGTGGCAGTAATGTTCAATTAGTTTTTGATTGTAATAATGAATTTGACATAATTGAAGATGGAAAAGAATATTATTGTGGTATTGATAATAATTTAGATGTAATATTTTCAAAAGATTATTATCAAGAAGGTTATTGTACTAATTCAGATTTGAGTCAATGTTTTTATGAAAAAAAATATAGACCTGTAATAGAATCCGTTAAAGGAGGTCAAAAATATTGTACATTAGCAGAGGGATTATGTACTTGTAAAGAAAATGAGGGAATTTGTAAGGAGAATAGTCAATGTGAAGGTAATCTAGAATGTGAATCTGGAAATTGTAAATCTAATTGTATTGATAGTGACAATGATGGTCATTATTCAAATTGTAGTCCAATAGATTGTGACGATAATGATCCTGAAAGAAATGCAGGTCTTGCTGAAGTATGTGATGGGAAAGATAATAATTGTAATGGAAATGTGGATGAAACTTTTGATTTAATTTCTGATCCTAATAATTGTGGTGGATGTAATATTAAATGTACAGATCAACAAGTTTGTTCAAATTCACAATGTAAAAATAATTATGAGTGTGGTGATGGTGTTTGTACTATTGATGTTGAAACATCAAGTACATGTAGTCAAGATTGTTATGCTGATTTTAAAGTATTGAATATTAAAAATGTAAATCCGAGTATTGCAACAGAAAATTCTCAAGTTAGTATAACAGCTGAAGTTATTAATAATGGAACTTATTATGGATCAAGTTTTATTGAAGCAGGTATTAGTCCGAGATCATGGAATAGTTATTTTTTAAATTCATTTAATCTATTTAGTTATGAATTACAAAGTTATATTGATAATCCTAATCCTGTTTGTCCTAATAATGATTATTATGATTCAAAAGCAGTTGAACTTGATTCAAAAGAAACTGAAGAGATTACTTTTAATTTAATTTCACAAACAAAACAAAGTGTCGATAGTTGTGATATTAATAGTAGATCTGCTTGGAGTGATACTTTTGATATTGTAGTTGGTTTTTATGAAAATTTAAATGGTGGGGCATATACACATTTTAAATTAGAAGAAAATTATAATATTGATGAATGTTCATTTCCATATGGAAATTCTGAATATTGTTCATGTGAAAATAATAAATTTTCTTGCGGAGATGGTTATACATGTAATCAAGGAACTTGTGAACTTTGTACAAATCCAGATGGATCAAGTTCAGATTGTTCTTGTAGAGTTGATAATGATTGTCAAGAAGGATACGAATGTGATACAAGTAGTAGATATGGTGTTTGTAATGAAATTGATGTAGTAAATGAATGTGCTGTAAAAGATAATTATGAATGTAAAAATGGTGATGTTTATTTATGTGAAGATACTCCATATGGACGGAAATTAAAAATATCAGATTATTGTGTTGATAGAGAATTATGTCCAATAAATGTTGCAGAAGTAAATAGATGTATTACAAATGATGATTATAATTTAATAATTGAATATGCATCTTCAGGAGTAAAAGTATTTAAACAATATAGAGATATCTTAACAATTAGACTAAATCTTAAGGAAAATGTTGGATATGAGTTAGAATATGATGATTCTGTTTTTGAATCATTAACTTCTGATTGTACAAATAATAATTTTAAAATAGGTCTGAATATTTGTAAATTTGAAATAGTAGGTTTTGGTGATCATGTATTTAAATATGGACAAGATATAGAACCAATTGAAATTATTCTTAATCCTACAAATATTTATGTAACTAATATAAAAAAATTACATCAAAGATATGATGATCAAGAAAGTGTTGCTGTATTACTTGAAAAAACATATCAACAAGCAAATTTAAACAATGGTATTGTATATGATCTTGAAGATTATATAATAGATGTACCTCATACATTTAATTATAATTTTTTAAATTATAATGAGCCTTTAGCATGTGTATTAGAATAAAATGGTAACTAAAAAAACAAATAAAATATTTAGTATTATATTATTAGTTTTAATAGCATTAGTTCCATTTACAACAGCAGTAAATGTATGTCAGAATTTTAATAATGATTATGCTATTGCAGCTTCAAGTTTTGTAAAAGAAAAATGTTATGATTGTCAAAATGTAATTATTATAGGAGATGATTATGTTGTTCCAAGTTATAGAAGAAATTTATTATTTGCAAATAATCCATTAACTAGTCAAACATCTAATTATATTAGTGATACAATAATTACAGATTCTTCATATATTCCTAGAACAACAAAATTATTTTCTGAATTTGATAATATGTTTAAACTTGATAATAAATATCAAGGAAAAGATGTGGTAATAATTTTACCTAATAGAGATGATGCACAAAAATTTGAATTTGATGTTAATGAAACAAAAAAAGTATTAGAAGTAGAGGGTTACAAACCAAATTTTAAACAAGATATTTATGGAACTCATGTAACTTGTGATAGAAGTTCATTTTATGGTAGACAATTAGTGGATAAAACTTTAATTATAATTGGAACTGAAGAAACAAATAATGCTTTAAAATGTTATAATTTATTTTCAACCGATGATACAACTGATTCAATTTTAATGGAAAAAAACCAATGGGATTTGGAGGAAGACGCTTTTATAATTTATACTGATGATGTAGATTTATTAAAAAGTGCAAATAATTTAATTGCTGATAAAGAAATTAAAAAATTAAAAGGATACAGTGCTTATGTAATAAAAGTAACTTCTCAAGTAGTTTCAAATGTTGCATTTACTATAGCTCTTGCAGCATTTATGGCATCTGGTGCTGGACTTGTAACCGTAGCGGTTGCAGGAACTATTACAGCTGTTGCCAGTACTGTTGATGCAATTGATGATGGAACACAAGTTGTTAATGATTGTTTTGTAAATAAAGATGGTATTGGGAATTGTGCATTTTCAATAAGTTTAATTTTTTTACCAGGGATAATAGATGAAGGTGCAAAAGGAATTAAAAGAGCTTTAGGGCCTGAATTTTCAACAAGATTTACAAAATATGTTGGAACATTAAGTTCAAGGGCAATTAGAAATGCAGAATTTTTAAGAGATGAATATTTTCCTAAAGATGTTTTTAAAAAAATATATTTTTATGGGACAGAAGATTTTATCAAAGGATTAGAAAATATATTTGGTGATACCCTATTAGACATTGATAGATTTACTAGGAAAGTAAGAGTTTCTAATAAATTAAATCCTGAATTAATTTCTCTTCATCAAAAAGTTACACAATCTAGGTTCATAGTATTAGCTGGAAGATTAAACCAAAATATAGTTAGGCAATTTTTAAGTGAATTTAGTATGAGTTTTATTGAAAAAATAAAATTTACAAGATATTGGGACATCGTTGAATTTTATTGGGCAAATGTAAAAGCAAGTATTACATTTAATGATCTTAAAAAAAATCAACTACTAACACTAATAAAGAATTATAAATATTCGAGAATAAAAAATAGTGAACCTGATAAAATAATGGGTAATTTTGGAGAAAGTATTGTTAATTTTCATGCGAATCAAAGAGGTTTATCAAATATATTAGACGGTAAAAAATTAGATTATAATAAAAATCCCTATAAGGATAATATGGATCATATATTTTATGATTCTAAAAATAAACAATATGTAATTGTAGAAACTAAATATTCATCTACTCCAGATAGAAAAATTATTGAATTAAAAGATAAAAATTTAGGTGTTGATAAAGAAGGTAATTTTCAATTATCAAATAATTGGATTGATTTTAATATAAAAAAAATGAAGGATTCTGGTATACCTGAATATGAACAAGTTGCTGATATATTAGAAAAAAATAAAAATAATATTAGAAAAGAATATTATTTAGTACATGGAAATAAAAAAATATCAGGAAATACATTTAATGATGATTTAGTTAAAAAAAATCTAGATACTACAATTTCTGGAAAACATTATACAAAAGATCAAACACCAGGTGTTGATAGAGTAAATATAATTGAATTAGGATATGAGGTATTTGAAAATGATATTAAATAAAAAATTATTTTTTATATTATTTTTTGTATTATTGTTTCAATTAACTCAAGTTAGTTCTATTAATTATGAAACTGCAGCTGTTTCTAGAATAGTTGGAGATAAACCTGAAGACTTAATTAATCAATTAGAAAATAAGGATTTGAAAATTGATCACGCGACTTATTATTCAGATATTAATTTTAAAACACCACAATACAAGTATTTATTTGATGAAATTTTTGATAGCAATGAATTTTATCCAATTTACAATTATAATTGGATTAATACTGATAATCTAAAAAAAAATCAATTATTTATAATAGAAACTCATGGTGATGTAAATAAAGATAAAGTCTATAGTTCTGGAATTATTAACACATTAAAACCAAATGAAAAATGGGTTTCAGATTTTTCAAAAGCTGAACCTTTATTTATTTTTAATACGGATTATGCTGGTTTATCTATTCCTAAAAAAGATACTTATGTAAATAAATTAGCAAGATATTCAAGTATAATTGCACCTAATGGTAACAAAAATAAAGAATTTAATTTTGTTTTATTATGTTCATTATTAGATTCAAAAAATTTAGGAGAATTATATAGAGATGCGAGAAATAAATTTAGTACACGTCAATATGCTTTTCAAAATGAATTAAATTCAGAAACTTTAATGTCTTATCACTTATATGCAAATCCATTAAATGAATATAGGGTTTCAAACTACAATCATGAAGTTCAAGATTCTATGTGTAATCAAGGATTTCATTTTGGCGATTATGAGCCTCTTTCTTTTGAAAGTTTAAGTATTAAAGAAAATAAAATAAATGATCTTGTTTTTTATGATGTTATTATTGAAAATGACGGTTACTTAGATATTATTAATATTTCAGGTGCTGACTATATTGAGAATCCTAAAGGTTCTTCTTTACCTTTAATAATATCTGAATATGAAATTCCTAAAAAGTCAAATAACATATCAGTTAAAGGAGATTTAACTTTTTTTAATAATTATAATTTGAATTTATTATATAATGAAACGGAGTGTTTAAATTCAAGTAAATCAATAAATTATTTTGAAACATTAGATAAATATAAAAAAATAGTTACTGTTGTAATTAATCCAATTCAAACAAATAATTGTTTAACAAAATCATATAGTGTATATAATGGCGGAGAAATAGAAATTAATTTTAATCCTAATGAAGATATTTTTATAACAGATATTCAAACACCAGATTTTATTTTACCAAATAAAAAAGACAATGTAATAATTAATTTTGATAAATATGTAGGAAATGATTTGGGTAATTTATCAATTTATGAAAATGGAGATATAATATTTACAACTCAATTAAATATAAATGATACTTATTTAAATATTTCAATTGATGGTAAAGAGAAAGAAAGTTTAAGTGAGTACAAAATTTATTATGAGAAAAATAATGAAAGTGAAATAATTAATTCATTTAATATTTATACTAAACTATTAGATATTAATACAAAATTAACTCAAATAAATTCAACAGATGCAAAAATTATTTATGATATTTTCAATTATGATAATAAAACAATTCCTTTATTTGTTATAAGTAAGGTTTATCATAATAATGATATATTTCATATAGCTCAAAGTCAAATGTTAATTAGACCGGATTTTAATTATATAGATCATAATTCGTTTAAATTAAATTATGAAGATAATGGAAGTTATAAATCTGAACATAAGTTTGAATATGGTGATAATATTCGTTCTGGAAATGATATTTTAATTAGAAATAAACCTCCAATGATAAAATTAAATAATTATGATGAAACAAAGGACTATATCGAAGTTACTGAGGGTGAAGAATACAAAATAGATTTTGAAATTATTGATGATTCAGATAATTTTGATTTTGATGTATCTACATTACATGGAACCTTTTCTCTAGAAACTAATAATTATAAATCTGATGTGGGAAGAATTATACCAAATGAATACTATACTGATAAAATAAATATTACTGTAAATGATTCAGAATTTAAGACAAGTAAATCTTTAAATATTAAAATAAATAAATTTGACTTAATTACAAATTTTAATTTTAAAGAAATAAATGGAAATTATATCCCTCTTGATAATAGAAAAAACTTTAGTTTTTTGATATTTAATAATATAGTAAATTTAACTCCAGGTTGGACTTTAATTGCTTCAGATGGCAAATTAGCATATCAAAATATAAATGAATCTTGTCCTAATTCAATTGTTTATTTTTATAATGGTGATTGGCATAAAAATAATTTTACAATTCCAGCGGATATGGGTTTTTGGATTCTAGCAAAAGATAAATGTCAAATTGATTTAAATAGATATGATGTTAGAACTAGTAATCTTGATCGTTGGGGTCCTGGATTTAGTAAACAAAAAATAACTCAACAAGAATATAATTTGTTAACTCTACCAGAAATTGATGAAGAAGAAAATACTACTTATGCATTTCCAGATAATGAATATAAAAATGGTTGGCATTTAATTTCATTAAATAAATTAATTAAAGATGGTCAAATAGATGAATGGGGTATTTGTAAAAATTATATAAATAAAATATGGATATATGATAAAAAGAAATGGGTTAGTATATTAAGTTTAGAAGATAATTATACATTTGATAGAAATGTTGGTGTATGGGTATTATGTGGTAATAAAAATATGAATAGTTTTACAATTGAAAATCCATATGATTTTCCAATTAGTTTTGATTTTCATACTTCAGTTAAAAAAACATCAATTAATGGAGAGAAAACTGGAAATTTTCTTAATTATGATATATATGATATTTTAGATTATTATTATAATTTTTATTTAAAACAAAATGAATTAATTTATTTTGCTGACATTATTAAAGATTTAAAAGTAAATGAAAGTTATTCAGAAGCAGATTTAATAATTATATTATCAAATGAAGATGGTGTTCCATATTTAACAAAATCTGGCATAATTAAATAAATTTAAAATAAGCTTATAAATCTTAAAAGAGATTAAAATAATAAGGTGATACTTATGGATATAACACTATTCTTTGCTCAATTTTGGGGACTTTATATGTTAATAATAGGATTATTAATATTTTTTAATAAAAGTCTTATGAAAGAAATGATTAAATTAACAAGCGATAAAGTATTTTTATTTGTTAGCGGATTCTTATCTTTAATTTTAGGATTATTTACTGTATTATTACACAACCTATGGGTAAGTGATTGGAGAGTAATTATAACTATTTTTGGATGGTTAGCTTTGCTTAAAGGTATATTAATACTTGGATGTCCAGATTTTACTAAAAGAATTTCAAAACATTATAATAAAAATTTATCTACAGCTAATGTACAAATAACAATAATGGTAATCGTAGCATTATATGTAACATTAAAAGGATTTGGCTTATATTAATTTTTTTTTATTTTTTTAATATTTCTTTCTAAGTGACTGAACATAATAAGTTGGAAAATAATAACTAACAATAAAAATAAATTAAAATGAATAAGAAAAATAATTATTACTTATTTTAATTAATTATAACACATAATTGGCTCTAATTTTAACATAAAAATATAATTAAATTAAATTTTTTGATCAAAAATATCTAATGTTAAATTAGTAGAAATATTTAGAACATTTTGTTTTAATTGTTTTTCTTTAAAATCATTATCAATATAGAAAAATTTACCTTCAGCTGTATTAGTTTGTAAAATAGGAATACCTTTTTTAACAATATTTGAAATAAGTTTTTTAATTGTATTCTCAGGAATAGAAATTTCTTGTGATATTAAACTTAATGGTTTAGTATTATTTTCATCTCTAAAAATAGATAAAAATATATCAGTTTCACGTTCATTTAAAAGAGGAGTTATATTTTTATTTATTGGTTTAGTGGAACCTAAATTATTTTTAATAAATTCAATAGAATCTTCTAATTTTAATAATCTATTATCAAAATCACATAATAATTCAGAAATGTATTCAACCTCGTTAGTATTATCATTTATTGAATCTAAATGATCTTCTAATTCTAATCTTAAATTTTTAAAAGATTGCCTAATATTTTTCTCTAAAAAATTGAGTCTATTGCCTAAACCTAGATGTTTTTCATCAAACACTAAAATACCCCTCTTTAATTAAAATATATTTGTTCAGATTTATAAAATGATATTATCACTAATTAGTTTTAACTCCACCTGTATAAGTCACTCATAAATTTATTTAAATCATATTTATTTAAAATACTCATAACGTTTAAAAGTCTTGGATCCATACAGATATAATCATCTCTTGGCACATAAATAATATTTGTATCTCCATTAAAAATTATTTTTTTAACTTTAAATGGAGTACTTTCCTCTAATTGAGTTAAATGATTTAATTCTATTTTTTTGCACATGAAACTTGGTAATAAATATACACCAGAAAATAATGAATTTACAAGTTCAGGATTGCTTTTATATTTTTTAAAAAATTTATCCGATAATTTAACTAAACATTCACCATTATCAAAATCAATAGACTCATGATTGTTTTCTTGAGCAATTCTACACAAAACTGAAATTGGATTAAATTGATTTATTGCATATAAATTAAATTTAAGCGTATAACTCATAATTTTCCTTTTTTTTTATAATTTATAAGAATAATTAAAATCCATTGTTTATAAAAGACTTAAATAAATACTGAATTTCAAACGATTTGCATCTCAAAGTATTAGAAAACCATTCAATTTCAACTTTCATTTATAAACAAAACATCAATAAATTAGATCAAAAAAATTGTCGGAATATTCCATTAATGATAAAATTCAATACAATTGTAAAATTTCAATACAATTAATTACAAATATAGACAAACCTACATTTGTAAAATAAAATCTCGACAATTGAGATTAAGGTGAAACAAATGTAAAGGTGTAGTTGTAAGTTAAATTTATGAAAAATAGTATCAAAATAAGGGGTTAGTATAGTTATGTCGGAATAATGTGCAAATTATTAATTTTCACCAATAATATCTGTTAAAATTTTCACCTCATAGTTTGCTAAACTACATCTAGTTGAAAGTCCTTCTAATTTTTCATTTGCAGTTTTTTTTCTTCTTTCAACCATAGCTAATCTATCAGATCCATTTAATGGTAAAATATCAGTTTTTTTTCGATCAAATAATTCTAAATATAATTCATTAGATGTCATTATAGGAAATATTGCATAACTTTCACTAGTGTCACTATTAAAAAAACCTGTTTTTTCTTTTAATCCAATAGTTAAACTATCATAATCTTTTTTACTCATAATTTCAAAAAATTGTTCTTCAGTAGTTGGAACTGAAAAACAATTATAGAGTATTAAATTTCCAATGTATGGTAAATTCCCTAAAAATTCTTGAAAAAAACTATTTTCTGACATAAATTATTCTGAAATTTTTATTTTATAAACATTCATTATAATTTAATATAGTATATTAATGATAATAAACTATATAAAGAAAACGATAAAAATATCATTGGAAACACTATGGAAGAATATCATTTTTATTTAAAAGACCAGGCTGATAAACAATCAAGATTTGCTTTTTTTTCAAGAGCTGAGTTAAGTGATACATTTCAATCTAAACGTCAATTAACATCATTATTTGATTTAAGGTTACGGGAACCAATTTTAACTCAAGAATTATATCAAAATGGTGAATATCATCCAATTTTATTATCAAAATCAGATACTAATGGAAGTCCATTTACTCTGGGCAGAAATAGCAATTTATATCTTTTAACAGGTACTGTATGTACATTATTTCCTGAGGAGAAAATAACAGAGGGTGAGAGAACATTCGACAGTGAAAAATCATTATTATTATTTAGTAAACAAAAATTAGAAAATGAAGGAAATAATTTAACATTAGATGTAGTACTTGAACAAGCTAAAAAATATGGTGGGAGTTTAAATTTAATGAGACCAACTTTAAAAAAATTAAGTAATTTAGAAGTACCTGAAAGAGTTTTAAATAATGAAACAATTTATTGGTTTGAATTAAGAGAATATTAAAATTAATTATTTAATGCAGTTAATGCAAGACTTTCTATTCCATCGACTATTAAGTTTACCATACCACCACCAAAAGAATTTTCTTCAATTAAAATTTCTGTTATTGCGTCAGTATGTACTATTAATATAAAACCCTGTGAATATTGTTTTAGATTACCTGAATTATCTGTATATTCAGCTTCAAGTAAACCTTCAAATTTTTCTGTAACTAATGGCCTTAAAGGTAAATTTAATGTATAAGATTCTTCATTATTAAATTGAAAATCACCATCAATATTTAATTTAAAATAATCATTATCTCGAACTAATAATGGTAATTTATTAGATGACAATAATTTATTGATTAAAGGTATATATTTGTTAAAGTTTCCTTCTGTAGACTTAAATGATAATTCTAAATTATGAAAAATAAGATTATTTAAATTCTCACCTGTTATAGTAATGGGTTTATCTTTGTAAATATCTATTGAATTTTGTCCGAATTGACTTATATTTCCAATATCATCCTTTAAAGTTAATCTAGGTTCAGCAATTACTAAATAAAAACTCATACATAATATTATAAAAAAATAAAAAATTAATCTATTATATTTCATAATTTATTTTTGTTAAATTTCATTTAAAAACATTACTAAAATTAGATTAAATTTGAGATTTAAATAATATAATAATAAATTGAAATTAATAGTATTTATTTTGATAATAATCATTATTAATTACTTATTTATTATTATCAAAACTGTGATTAAATCAATTAACTTATTTTTTAATAAAATACAAATATTAATAAATCAAAAAACAAGAATAATATTATGGCCTGGTTAGGATTTTTAATTACAATAACAATTGCATTTTTTATGACTAGTTTAGGTTTTTTAACATCTAAAAAATTATTTAAATTAAATTTAGATGGATCTACAAATACACTTTGCAGTATTTTAATTGCATTAATATCGGCAATATCAGGTATAATTTTTGTAAACAGCACAAAAACTAGTATGGTTGTATCATTTTTATTAGGAGTCTTAATATCTTCATATTTATTAGTTAAAAAATTAAATTGCAGCAAACAAATTGCAACAAAAACATCAGTAACTGCAATAATAATGAGTTATTTTTTTGCTGCAGTATTTATTACAATATACAAATTAAGTATAATTTTCATATAAAATGACAATCGTTGAGAGCATAATATATTTTATTGTATTATATTTAATACATTTATTTTCATTAAATTATATTTCAAAAAGGTTCGAAATTGACATAAATATTAATTTTAATTTATTAATTTCAATAATATTTCCATTAACATTTTTAATATCAAAATCATTAATATCAGGACAATATTTAGGATTTTCCTTCTGGATTTCATTTTATTTAATATTGTTTTATATGAGCATTAAAAAACAATTTGATTTAGAGAATAAACAAATTATAAAATTAAGTTTAGGAAATTTAATAATTAGCTTAATAATTTTAATAATAATATTAATTATAGTTTTTTTATTATTTGGATGAATTCTACTAAATATTTATATAATAAAATAATTCATATTAATTATGAGAGTATTTGAAAAAGTAATTGAAGCGAATTTAATTAAATTAAAAAGATTAGGTTATGATAGTATTCAAACTAAAACCCAATATGAAAAATTTAGGTATAAAGGAGATACTACAATTACACTCTATACAAGTGGAAAATTAACAATAGCAGGTAAAAAGGAAAATGAAGAAAAAGCAGTTAAATTTCTAATAGCTGAAAAAATTATTAAAATAATAAAACAAGATTATGAATATGATTTTGACTCGAATGACATTTATATTGGATGTGATGAATCCCTAAAAGGAGATACTTTTGGAGGGATTTGTTTATCTATTTTTTGTGCTAATAAAAAAATAAGAAAAGATTTAGTTGAAATTGGAGTAAAAGATTCAAAAAAAATAATCGATGAAAAAATAATTTATATGGCAAAAGATATTATGAAAAAATATCCTGATAATTATTTAACAAAATCAATTGAACCATATGAATATAATATATTAACACAAAGTCATAATGTTACTCAATTATTAAATTCAGTATATAAAAATATGATTTTAAAATTGACAAGCAAATTTAAAATAAATAAAATATATGTAGATAAATATCCTGGAGCTAAAATAATTGGAATTGAAAATATTATTTATTTAGAAAAAGGAGAATCCAAAATAATTGAAATTGCTGCAGCAAGTATTATTTCTCGTTATTATGCATTAAAACAAATTGAAAAATTAAATAAAAAAGTTAATTTTTACATACCCAAGGGATCTACACATGTAAAAGTCGCTCTTACTGAATTAAAAAATAAAAAATTGAGTAAAATTAATTTTGTAAAATTACATTTTAGAAATACCCAGTGATTAATTAACTGTTTCTCTAAAACCACGAATAAAATCAATACCCCAAGTAAATATTTCTATAAATTCTCCATTATAATAAAGAGTTCCAATTATTCCAATAAGTAAGTATATTAAAATAATGTGAAAAATTAATTTTTTAATTGTCATATTATTATAATTTAACAAAAACTTTATATAGGTATTCTTTGGATGTAATATATGTCTTTAGCATCTCATCATCAACATCTTAGAAAAAGAAAAAAGGATAAGGTACATCCATATCCACATAAAGATCCTAAATATCAATTATTAGATAGAACTATTGCTTTCGTTTCATTTGTATCTCCATTTAGTGCACTTCCACAAATTTATAATATTTGGTTTATGAAAGATGTTCAAGGTGTTTCATTAATTACTTGGTCATTGCTTTTAATTTTAGGAATACCTTTATTTTTATATGCAATAGTGCATAAAGATAGAAATTTACAAATTATGTTTGGTTTATGGTGTGTAGTTTATTTAGTAGCAGTTGTAGGATTAGTTATGTATGCCTAAAATGAATAAAAAACAAATCGAAATTGAAATCAGTAAATTATTAGATTTTTCTGAACCTAAATTTAATTTAGAACAATATACTACTCCAAGTTCAATTGCAATGGAAATTCTATGGGATGCATATAATGATAATTTAATTGAAGATAAAATTATAATGGATTTAGGTGTAGGTACTGGGATTTTAAGTATTGCATGTGGCTTATTAGGTGCTAAAAAATTAATTTGTGTTGATATTGAAAAACAAAATGAATTTGAAACTAATATGTCTACTTATGATTTAAAATATGAATTTATTCAAAATGATTTGAGTGAAAACATTGAATTACCTCATGTAGATTTAGTTATAATGAACCCACCTTTTGGAGTTAAAAATAAAGGTATAGATATAAGTTTTTTAAAAAATTCAATGAATTGTTCAAATAATATTTATTCTTTTCATAAAGCATCAACTAAAGAATATGTACAAAAATTTATTGAGAAAAATAAATTTAGTATAATTAAAACATTTAATTTTAAATTTCCATTAAGAAATAAAATGGCTCATCATACATCAAAATTAAAATATATTGATGTAATATGCTTTAAAATCAAAAAAAGAATAAAATTATAAAGAAAAATCATTAATTTATATTATGAAAAAGAGGTTTTATTTATTATTCGCTCTTATAATTATTTCAGCTATAATTGGAAATGTATTTAGTAATGATAGTCCATTATCTGGAATGGCAATTATTAAAGCAGATTCAAATCCATATGATTTTGATCAAGCATTAGAATTAGCTCAGGTTGATGAAACAATTATGATTATGAAATACTTAGTCTTTGGTGTATTATTATCAGTTGGATTAATTTATAGAAGAGATGTTGTAACAAGTATTACAAAAAAAACAAATAATATATCTAATATAATAAATGAAAAAAGAAAATTAAAACAAAAAATGGATAGAGATAATAAAAACCTTAGCTTAGATAAACAAATAAAACAAAGAAAGGATAATTTAAAAGATATTTCTAATGATATTGATAAAATAAAAAAAGATTTCTATAAAAATAAAAAAAACAATATATATTAAATGAAATTAAATTATAAAATAAGAAAATTTGAGCCAAAAGATACTAAAGCAATAAAAAATATTTGTGCTGATACTGGTTTCTTAGGTGAAAAAATAGATACATTATTTTCTGATAGAGAATTATTCACTCAATTAATTAGAAATTATTATTTGAAGCATGAACCAGAACATATTTTGATTGCAGAATCAAAAGGAAAAGTAGTTGGATATTTATTTGGTTCATTAAAACCAAATGCACATTTTTATATTTTATTAAATCAAATTATTGTAATGATTAAAATTTTATTTTCTTTCTTAATAGGAAAATATAAGAAATATCCACAAAATAAAAAATTCATAAAATATTTATTAACAAAAGCACCTTTTGAATTAGTAAAAACTCCAAAAAATTATGCACATGCACATTTTAATATAATTAAAAAATATAGACATAAAGGAATAGGAACGGATTTAATTAAAACTGCTTTAAAACAATTATCAAATAAAATTAAAAAATATAAAATAAAAGGACTTTATGGAGAAGTATTTTCATATGCACATAAGTCTGAAGCGTATTTTGAAAAAGCTGGATTTAAAATATATGATAAGAAAAAAACTAATTTTTTAAAAGATAAAATCAAAGGAAATGTATATGTACTATGCATTACTAAAAAATTATTTTAAATTAAAACTCCAATTAAATGCCAAGTGCTAGTTTCAATTATTTTTACTTTAAAACTTTCACCTATTTTTATTTCACTATTATCTTTTACAATTACTTGTGTATAATTATCAGTGCGACAGATTAAATCATTACCATTCTTTGCCTCTACAATCACATTTAATTCTTTATCCATATATTTTAATTTATTTTCAAAGGCAATTTTATTATGTAATAGTGATAATTCTTTTGATCTTTCTTTTTTTATATCATTATGTAATTGTTCATACTCAGCTGCCAATGTTCCTAATCGAGGATAAAATTTAGATATATTAATTACATCAAATTTACATTTGTTTACAATTTCTAGAGTTTGGTTAAAATCATTTTCATCTTCATAAGGAAAACCACAAATTATATCAGTTGCAAATACTAAATCAGGAATTTCTAATTTAATTTCATCATAAATTTCATTAAAGTGTTCAATTGTATAACCACGTCTCATATGTGTTAAAATTTTATTTGATCCTGATTGAATTGGAATATGAAAAAATTTAAACATTTTATCATTTTTGAAAATTTCAACTAATTCTTTTTTATATAACATATAATGATCTGGATTCCCCATACCTAAACGTATTTTAAAATCTCCTGGAATAGATAATAGTTCATTTAATAATGTGGGTAAATTACTATTTATATCCATACCATAAACAGCATTATCTTGACTTGTAAGATATATAATTTTAGTTCCATTATTAACTAAAAATTCAACTCTTTTTTTAATATCATTTAAAGGAAAAGAAACTAATTTCCCACGGGCAAAAATAGTTTTACAATAAGTACATGGAGCACCTAAACAACCAGTTAATATTTGAACTGTTTGAATTACTTTTGCATCACGATTTATATTTGATTTAATTAATTGTTTATCTTCTAATAATTGTACATGTTTATTATTAAATTCATTTTCTATTGCATTAATAATATTATCAATTTGATTAACTCCAACTAAACTTATATTTTCAAAAATGTCATTTAATTTTTTTTCATCTTTTTCCATTCCACGAATAGATATTAATTTTGAATTTTTTTTAATTAATGGCTTTAAACTTTGTGCTATACAACCAGTAACTATAATTTTTTTATTTTCATTTTTATATTTTTTTAATAATGAAACAAATTTATCTTCTGTTGGATTTTTTACAGTACATGTATTAAAAATTAATAAATCACTATATTGAATTTCATCTTCATTTGAAGTTAAATCATAACCATTTTCAATAATCTTATTACTAATTATTGAAGAATCATCTTGATTAGCACTACAACCTTGAGTTTGAATATAAATTAAAGTCATAATTTAGACATATAGATTATATTATTTAAAGCTAAGCATAATTGATTAGTCACTGCACGGTGATAAGTTTATAAATAACCTGTTTGTGAATCTCATATGAAATTAAAACCAATTTTAATGTCTGTATTAGGTTCATTAGTATTAAATTATTCAAATATTGCAAATAATAATAATATATTACCACCTTTAGATATAAAAATTGAACAAAAAAAATCAATTTTAGATTATACTATAGATTCTATTAGAAATACATTACATAATAAAACAGGATCCATCAGAGGAAAGGATCCTAGATCAAGATTATTAAGACAAACATATGCAACTAAAAATTTAGATTATTTACAAAGTACATTGATGGGACAAAGCCATGCATTAACAAATTCTAATAATATAAAAACATTAGATGAAATAGTTGGCACTGGTCCAAAAAGCAATATAATATTTTCATTAAATCAATTAATATTATTAAATAAATTATATACTCAATTAGACGAAGATACAAAAATTGTTGAAACAGATCCAATGATTCAATTTACACAATCAATTGAAAATCAATATGAAACCTTAGATTTATTTCAAAAAGGAAATGCGGAAGAATTAAATGCGTTTATTATTCCTTTAGTAAAACACATTTTTGAAAGTGAAAATATATTAGGACCTCAACAAACATATTCTATTGAAGAAGTAAAAAAATTATTTTTACATCTATACAATTTACAAAAAAAAGGTATTGGAAAATATGTAGATAGTGTTGAAATAAATGATAGATTTGGAAAAAATAAAAAATCTGATTGTGATGATGGTGCATTTATTACAAATATATTAATTTCAGAATTATTACAAGGAACAGGATATGTTAAGCCAATTAAAATACAAGGAATGTTTACAAAATTTGATAGTGGTATATTACATTATAGACAATTTGTTTCAATAGATCATCATAATAAATATGCAGGATTTTTTATAGAAAATACAACAACTCCACAAAGTCAAGATTATTTTAGTTTAGTTAGTCATGAAGAACAAAAAAAAATAAAAAAAGGTTTTTCTAAAAAAACATTATCACCTGCAAAAAATATCGTTGTTGATTCATTATTAAATCATAAAGAACTTCAATTAACTTATTTAATTAGACAAAATCCCTCAGTGAGTTTTCCTACAAATTATTTAGAAACATTACAATTATTTAAACAAAATTTAGATAAATCTAAAATTAAAACTAAAGATAAAGAAAAATATGAATTTCATATAAATTATCAAATGTTTAAAACAATTACAAACATTGTACAAGATTCAACATTTTATGCAGGTCATGATATAAAAAAAATATATAATGTATTGCAATTAGCAAAAAGAAAATTTGGAGAAAAATTTGTAACTCTTAGAAATAATTCTTTATACCAATCACATAGATATCAAATTGAAGAAACATTACATGAAGGTGTTAAAATATTCAAAGATTTAGAAAGAAAAATTCAATTATCATTACATAAAACTAGAATTTGATCTTTTTCTATCAATTAATACAGAAAAACAACTTATTGAAGAATCTAAATCAGGATTAATTTCCAATGCACTTTTGTAACTTACAATTGCTTTTTCATCTTCATTTAATAATCTAAATAAATTTCCAATTTTTAAATATAAAAAAGATTTATCTTCATTTAAATTAATTGCTCCATTATTTAATCTACTTAAATATAATTTTAATGCCTTAGAATAATTTTTTTTTGAAAATTCAATATCTGAAATTCTTTTAGAATGAGATAAAATGTTTAAAAATGTATCAATAGAATTAGACCAACAACTTGGATTGGATAATTTATTATGAATATCTTTAACATCTTCAATTATTTTTACAGATTCAAAATAATTATTTTTTTTAAATAAATTAAACATAATATAAATTAATTATAAAAATATATAATAAATTTGAACGTTGTTTATTTATTTTTTACTTTAAATATCAAATTTCATATATATATTGTAAAAATTATGATTAACATATAAAAAAAGAAAACACTATATTTTTTAAAATCATTTATAAGTATTTAGTAACGTTTATAAATAAAAACGAACAATTTATAAAATTAAAGTACATCACTATTAATAGGTGAAATATTATGCAAGAATATAAAATTAGATGCCCAGAATGTAATAGTAAAAATTTATATCACTCAAAAGATTCTATAAATTGTAAAGACTGTGGTCTTGTATTAGAAGATAATTTAATTGATTTTGGTCAAGATTGGAGATCATTTGATAATCAAACGGAAGATAAACAAAGAAGAACTGGAGCTCCAATGAAATGGAGTCAGCATGATCAAGGATTATCAACTGAAGTTGGAACTAAATCAGATTTAAATGTATTAGGAAATAAAGATAAGTCAAAATTTATGAGACTTAGAAAATGGCAATATAGAATTTCTACAGCAATGGAGAGAAATTTAAAATTAGCATTAGCAGAATTAAAAAGAGTTAGTTCATTTTTAAAATTACCATTAGCAGTTGACGAAGAAGCTTCAAGAATATACACTTTAGCAGTTCAAAAAGGTCTTGTTCGTGGTAGATCAATGGAATCAGTTGTATGTGGTGCACTTTATGCAGCATGTAGAAAACATGATGTTCCAAGAACTTTAGATGAATTGAGTGAAGCTAGTGGAATTGAAAAAAAAGAAATTGGTAGAACTTATAGATTCATAACACGTGAATTACAAATTAGTATTTTACCAAGTAATCCAGCAGATTATATTCCAAGATTTGCATCAGCATTAAAAATAAGTCCTGAAGCACAATCAAAAGCAGTTGAAATATTAGATCAAGCACAAACTGCTGAACTAACAAGTGGACGTGGACCTACTGGAATTGCAGCAGCAGCACTTTATGTTGCAAGTTTATTAAATAATGAAAAAAGAACACAAAGAGAAGTAGCTGATGTTGCAGGTGTAACTGAAGTTACAATTAGAAATAGATATAAAGAATTATTAGATAGACTTGGATTAGAAGATACAATAAAACAAATTAAGAAGAAAGAAAGTAATAATTAATAAAAATGTCAACCAATATTACTGAATTACTTCCACCAGGAATTGATATTGTTTCAATTCCTTATTTTTCTTATTTACAAGAATTATTAAATAGTTTAGAAATTTTAATTGGTGGAATATTTGGTCTATATTTAATTTATTTGATTTTTGTTGGATATCAAACATATAAATTATCAACTACATTTAGACAATTAAATAGAACTCTAGCAATGATAAGAGATGATTTGGAAACAAAAAATAATAAAGGTTCAAAAAAAAAAAAATCAAATAATAAAAAATTTCATAGTAAAGATAAAAATTTAAAATCTAAATTTATTAAAAAAGTTAAAACTATTTTTGAAAGAATTTAATATTATTATTAATTAGTATATTTTATAAATTAAAATAATTCCACAAAAATATGGAAGTTATTCATATGTATACTAAGGCAAAAATTGATGTAAATAAAGTACTTGATAATTTAAAACCACATTTAAATAAATTACCAAAAAAAATTGGACTTGCAACAACAATACAATTTATAGATTATTTAGATCAAGTAAAACAATTTTTAATTGATAATGAAAAGGAAGTTTTTATTGGAAATTCAAACATTAATAAAGGTCAATTATTAGGATGTAATACTAATACAATTAGTGATATATATTCAAAAGTTGATGGATTATTATATTTTGGTGATGGTATTTTTCATCCAAAAGGTTTAACTGTTCATATGAGAAAACCATTATTTTGTTTTGATCCATTTTCATATGAATTTAAATTATTTGAAAATGAAGATTTTGATAAAATAATTGGACGAATAAAAGGAGCTGCATTAAAATTTTTTGATTCAAAAAATGTTGGAATTTTAGTAAGTACAAAATCAGGACAATCACATTTAGCACGTGCAGAAAAATTTGCAAAATATTGTGAATCACAAGGAAAAAAAGCATTTATATTATTAAATGAAACTCTAGACTTTAATTCATTACAAGATTTTAATTTTATTGAAGTTTTTGTAAACACAATGTGTGCTAGAATAGGTTATGACGATACTGTAAAAATATTTGCACCAACAATTAATTTTGATGATTTATTAAATTTTTTAGACGATTATGAGGATAAAAATGCATATAATTTAATGCAAATAAAAATGTAAATGACATTATTAGATTTTTTAAAAACAAATATAAATGGAATATATGAAAATGGTTTTTTTAAACCAGAAGATAAATTGAGTGTAGTAATATTCTATGAACATTTTTTAGGATTACATTATTTTAAATCAGTTAGTGAATATATTTCAACCTTATCATTAAGATTTACAGCTGGAAAAATAAATGAAATTGCTAGTGATGAAATATTTAATAATCCTAATTTGAAAAAAGAAGCTAAAAATTTATTTGAAGATGGATATTTAGTAGAACATATGAATGGATTTGGAATAAGTAATAAAGGAATTGATAAATGTAAAGAATTATTTCAAAAATATGAATTGAATAGATTTATTTAATTACTTACCACGAGCTCCTTTAATTAATATATTATAAATTATTTTAGTTCCATATTTTAATTGAGTTTGAATTGGATTTATTTCTCTTTGATCTAAATAATCATTATAAAAATCAATAATTTGTGAAAATATTAAAGGTTTTTCACTTGCATATAAAACACCTAAAAAACCAGGTTTAAATTTTAATGTTCTTTCTTTTAATTCATCTGGAAATAATTTCCAATCATTTTTGCCCCCTGGACGAATTCCAACTAAAGATAAATCTCCTCTAATTAAAGAATATAATTGTGGTAATTCATCAATCCAATATTTTCTTAAAATTTTACCAATTGGAGTAACTCTACTATCATTATCTGGTTTACCATATGAACCAATACCATTTTTTTCAATTTCATCAAATAACAATTCATCAGCATTAAATACCATTGTACGAAATTTAGGAATGTTTACAATTTCACCATCTTTTCCTAAAGCATGTCTAATATAAAATAAATTGTTAAAAACACTATTAATTTGACAATTTATTGCTTCAAATGATACATTTGGAAATACTGTCGAGACTAAATTTTCAAGACCCATAATGGAAATAAAATTATTTCATTTAAAAATATTATTAATATATATTCTTTATTATACAAAATCTTTTTATACCCAATGACATGTTTTAATTGTTAAAAAGAGAGGTTTATTATGATTCCGGCATTAAGTTATGACGACGTTTTATTAATACCTAGAAGGTCTGGTGTTAAGAGTAGAAAAGATGTTAATTTAACTACAAAACTAACTAAAAATATTAAAATTAATAATCCAATAGTAGCTGCTAATATGGATACAGTTTGTGGATCTAAAATGGCAATTGCCATGGCAAAACTAGGTTGTGTTGGGGTAATCCATAGATTCAATACAGTTCAAGAGCAAGTAGAAGAAGTAAGGAAAGTAAAAAGATATAGAAATGCAATAATTGAAGATCCTCTTAAAATGGGTCCAGAGTTAACATTAAAAGAAGCTAAAAAAATAATGGATAAACATGGAATTTCAAGTACATTAATTGTAGATCAATATAATGAATTAATTGGAATATTAACTAGCCGAGATATTAGATTTCGTCCGTCTGACGATGTTTTAATTAGTGAATTAATGACACCTAGAGAAAAATTAATTACAGCAACTCCATTAATAACAGCTCCAGAAGCAAAAGATTTGCTTATGGAAAATAGAATAGAAAAATTACCATTAGTAAATGAAGATTGGACTTTAGCAGGTTTAATAACTGGAAAAGATTTGCATAAAAGAACATTATATCCAAATGATTCTCTTGATAGAAAAAATAGATTATTAGTAGGGGCTGCAATTGGTGTTAAAAGTGATTCAATTGATCGTGCTGAAGAATTAATTGATGCTGGCGTAGATTTTTTAGTTATTGACATTGCACATGGTCATAGCGATATAGTTATTGATACAATATTTAAATTAAAAGAAAAATGGCCTGATACAGATATAATTGCTGGAAATGTTTGTACACCAGAAGGAACTCGCGATTTAATTAAAGCTGGTGCTGATGCAATTAAAATTGGAGTTGGACCAGGTGCTAATTGTTCAACTAGAATTGTTACTGGTAGTGGATATCCTCAAGTAAGTGCAATTATTGAATGTTCAAAAATTGCTGAAGAATATAATATCCCTATAATTGCAGACGGTGGAGTAAAAAACAGTGGAGATATGATGAAAGCAATTTCAGCTGGTACAGATACAATCATGATAGGAAGTTTAATATCTGGAACTCGTGAAACTCCAGGAAATGTTATCGTAAAAGACGGACATAAATATAAATTATATAGGGGTATGGCGAGTAAATCTGCTAAAGATAGTAAAGATAATAAAGATAAAAAAAAACAAGATGATGAATATGTTCCTGAAGGAGTAGAATCAATAATACCATATCGTGGTACTGTTAAAGAAATAATTATTCAATTATTAGGCGGAGTAAAAAGTGGTATGAGTTATTGTGGTGCGCACACAATTAGTGAAGCTAAAGGACTTAGAAATTTTGTGAAAATTACAGCTGCCGGTATGAAGGAAAGTATACCCCACAATCAATACAAACAATAATAAATATTTTTATAAAAGAAAAGTAAAAAATAACAATATGTATTTGTATAGAAACATTTTTGCTGAGCAAGGTTTAAAACCAGAAATTAATGATCAATCTGTTAGTCTTAGAAATGATAATGTTTGTTTTTTATATTTACCAGAAAATCATAGTTTATCTATTAAAGATTTTTATCGATCTCATTTATTAGTTAATAGAATAAGTGAAAAAGGAAGTATTATAGTAAAATTAAATTCAGAAGTTCTTATCCCAGAATTTTTTTATAGACATTTAAATAAACAATTAAAAGAATTTGAAAAAGATGTTAGAGAAACAATTGACTATAATACAAAACTTAAATATAATTTAATATCAGTGGATATAGATTATAATGTAATTGAAAATTTTATATCCAGATCTGAAATAAATACCAAATATAGAGAATTAGCAATATATAAACATAATTGTCCAAATTTAAATGAAATAGAAATTAAAAAAATTAAATCATGTTTTGATAGACACAAAATAAAATTCGACACAAAATTATTTAACAAATTAAAATTATTATTTCATCATGATCAGGACATATTAAGTTCTATGGAAGGAGCTAATTTAGAATATCAAAATGGAAATTTTTCTATTACTTTAAATGAAAAACAATTAAATTTTTCATTAAATGAAAATAAAATGCAATTTGATGATTTATTATTTTTAAATACAGCATTATTTAGACAAAAATCTTTATCAAGATAAAATATCCATACATTTTTAAAATCTTGAAAATATTTATTTTTATGACTAAAATAATTTCTTGGAATGTTAATGGAATAAGAGCAATTGAAAAAAAAGGATTTTTTGAATGGTTACATAAAGAGTCACCTGATGTATTATGCATTCAAGAAACTAAAGCAGATAAATCACAATTATCAGAGACAATACTAAATCAACAAGGTTATGAAAGTCATTGGTCTTCATGTAGAATTAAAAAAGGTTATTCAGGTGTTGCAGTTTATACAAAAATTAAACCAAATAAAATTGAATATGGTATAGGCATTGAAGAATTTGATCAAGAAGGACGATTCATAATTTTACATTTTGATGCTTATATTTTATTTAATATTTATTTTCCAAATGGCAGTTCAGGAAATAAAAGAGTTCCATATAAAATGAGTTTTTATGATGCATTTTACAAACATTGTCAAACATTATTAAATGAAGGTAAAAAAATTATTGTAACTGGTGATGTGAATACAGCCCATACCGAAATTGATTTATCTCGCCCTAAAAATAATGAAAAAAACACAGGATTTTTACCCGAAGAAAGAGAATGGGTTAGTAAATTTATTGAATTAGGTTTTATAGACACATTTAGAATGTTTAATGAAAAAGGTGAAAATTATACATGGTGGGATTATAAAACTCGAGCACGTGAAAGAAATGTTGGCTGGAGAATAGATTACTTTTTTGTTTCAAATAATATGAAAGAACAAATTAATTCTTCAATAATATTAAATCAAATAATGGGCAGTGATCACTGTCCAATAAAATTAGAATTAAAATAATTATAAATTTAATTTATTAAATAAACTATTAATTATTTCTTTTATATATTTTTTATTCAATTCAATATAATTTAAATTTATCATAAATCCCTCATAAGAAATTCTATTTCTATATTCCCTCATTTGTTGTAAAAATATTTTTAATTGTTGATTAATATAATTTTTTTTAAACATTTGATCAATAAGTTCTTTATGAGAACCATCTCCTTTAATTTTAATACCATCTTTTAATAAAATTGCATCCATTAATTTATGTATAATATCATAATAATCTAATAAAGTATTACTTGGATATTTTTCAATATCAGTTTTATTCAATCGTTCTAATGTGATTTTAGCCATTATTTGTAATGATTTTGCTTTTTGTAAATCAGGAGTTTGTTTAATAATCAATTAAAAACCTCTAAATAACCACTTAAAACAATACCATTAATTATATTATTTTTTAATTCTTTAGAATAATTATTAAATTTTTTATTAAAATGTAATTGAATTTTACGGTTTAATTTTTTTTCAAATATTTTTAAATCAATATTATTAGATTTACATTCAATAAATAGATCAATATCACTATTAACTAAGTCTTCACCATGTTGAAAGCTACCAAATAAAATAATAGATTTAGGCATTAAATTATCATTTAAAAAATCGATCAATTTAGAATTTAAAATTTTGCTAATATTATATATTATTTTATATTTTTTAAATAAATCAAAATCTACATTCGCCTTATAAAATGGAAATTTCCGTTTGCCTCTTTTTTCTATAATTTCACTTATTAGATTTAACTTTATTAGATTATTTAAATTATTTTTTACTGAAGTGTGAGCTAATTTTATTTTAATACTAATATCTTTTAAACAATATATTTCGTTTGGATTATCAAAATATAAATCCATTATTTTAATCATATTACTTTTTTGTAACATATATTACAATAATGTATTACAATATATAAATCTTTCTAAAATTAGAATTAAAATAAAAAATTATTTTTTAAGTCTTACAGGTCTAAATTTATGTCCACCACAACTTCTACAAGTAACTTCTTTTTTAATTACTTTCAAATTTGTAGTTCTAATACTAGTCTTACAATTTTTACATATAAATTTATTTTTGAACAATCTTGCAATTGCTTCAACTAATTTTCCTGCCATTTTATAACCTTAATTTAAATATCTTGTTCTTGTTGAGTTTTAACTTGTTTCATTACTTTAGTACCCATTAAATCCCAATAAAGCACAAGACAACCTTCAACTACTTCACCTTCAACATCATCATCTATTTTTAGATCAAATGTTTCATAAGTTTCATTATCCATAACATTTGCCATATCACCATTAACTGATAATACTTGAGCTGTTAATTTCTCAACTATGGGTGCTTCAATATTATCGTGAGCTGGCATTACAATAACTCTTGTTTTACCATCAAGTAAACCTACTCCTTCTAATCTAACTTTAGAGTGACCGTGTTTCCCTGGTCTTGAAGTGGATGTACTTTTTACTCTACAAGGAGCACCATCTAATACAACATACTTACCTTTTGTTAATTGTCCAACCGCAACTAATTTAACTCCCATATATAAACCTCTTATGAAAAAGGGATTTGACGTATTTATAAAACTTATTATTAAATTATATATATTTGGCTATTATTCGTATATTAGAGTATATAATAATAATTTAAAATATGCAAAAAATAATGATAAAAATATTGCAAGTGAAAAATAAAATAAATTATCATCATTAATTAAAAAAAGAAATATGATTACTATAAAAAAAGTAATTAATAATACAAATAATTTTAATATATTTTTTAATGTAAATATTTTTTTATTAAAAACAGAATTAAATGCATTTGAAAAATTTTCATTTATTGTAATTAAATAATATAATTTAATATAAAATACCATTATTATAAAAAATATAATTGTTAATGTGATTATGAAAAAATCAACTAGTCCTTGATTAAATATGATATTTAATAAAAATGTATTAATAAATGTAATTAATGAAGAAAACATTAATAGAATTAATAATAATATAAAAATAAATAATAAAATTAATCCACATTGAAAAATCCAACTTTTTAATTTAAATAAATTTGTTTTTCTTTTATGCATTATATTATTTTCAATTGCATTAAATCCACCCCATATTAAAATTAATAATACTGGATATGTAATAATAAAAAATAAAATTAAGTTAATTTTACTTGATAAATAATTTTCTAAATATTCATATTGAGATTCAGTAATTTGATCTAATTTTTCTAAGCTATATAATTTTGAATCAAAATCAACAGTTGCCTCATTTAAATTATCATTAATTAAAACACTCATTATAAGAACAAATATAAAAAAAATAATATTTGCTATTACTAATTTAAAATATATATTTTTATTAACTTTCATTTTAACACGTAAATAAATTATCTTGATTTTTAATACATTCAAAAGGTGGCAAACTCATACTTATAATTTCTGATGTTTGTTCCACTTGACCATCAATAATTAATTTTGCTTGATTAAACATTTGATTTGATTTAACATCTTCTATTATTAAACTTGTTTCAACTAATGATTCACCAGGATTTAATGTTTTTTGATAAATATTTTTTGAAATTGCAATATCTTCTTTTGGACAGTTGAAATGTCCACTTAAATATTCTTTAGTACAATATAATTGTATTTTTATATCCATTGGATTAAATCCTGCTTTTTTTGAAAAAGAAAGATCATATTTTAATTTTAATTTACTTGCATCAGTTTGAAGATCTTTTTGTTCTATTCTTAAAATCATATCAGGATTTGATATTGTATTTACTTGTTCTGCTGTAAGTCCACTTAATTGTTCTGAATTTATTGAAACTGTTCCACTTCTTCCTTTAACTGCAAAATAAAAATAATTATTAACTACATCTGCTAATGAAATTGGATTAGGAATTAATTGTGCTTTTTCAAAATCATCATTAAATGTTTTTATTATTTCTTTATTCGTATTATAACTCATAGGCCATCCAATCATACGCCCATTTGAAAAAAATGTTCTATGTTTTGAAATAGTATTTATTGTTTCTACTACTTTTGGTTTATTTGAATTTTCGTTAATTAAAAAATCATTTACATCAATTACTCTTGAAACAGAATTTAAAGGATTAAATAATTTATTATTTTGATTAAAATATAATTGATCTGAATTTGAAAACGTACTTGTACTTGAAGTTTCTATTTTAGGATCTAAATCACGATTTACAATAGGTTGACATCCAAGTAAGCCTGGTTTTATTATTTTTGTATTAATTTGATTATTTACATGTGATGGTATAAACCATAAACATACAAAATTCCATCTTCCATCACTTTCAAATTCAACTGTTCCTAATAAGGGTTTATCTAAATCTGCACTAAATACTTTTTGATTATCAAATTCTATTATTTTCAAAGGAATATCACCATAATCTGCAGGAAGTTTTTTTGACGGATTATTAATATAATTTGCAACTGTTTGTAATAATTCCACATCTAAATCTCCTAATAAAAATACAACTGCTTGATTTATTTTTGTTTTAATTGTTTCTTGAGTACCTTGACAAAATCCAGAGTTTGATTTTTCTCCTGCACCAACATACAAATTACAATCATTACTTAAACATTCTTCATCAGAATAACAAACTGCTCCATTAATTTTTTTATTTGATTCTAAATTTTTAGGAACTTCATTTGCCTTTATTGACCAAGTTAATGTGTACAATGAAACTTCTTGATATAAAGGTGAATATGAACCATCCCAATGTACATTAAAATTTTTCGTACTTAAAAATTGTTGAACATTACCAACAGTTTTTCCAAATTGTTTTAATTTGTTTGCCTTTGAATTACAAATTAAATATTCAGGATTTAAATTTTTAAAAAATGAATTTTCAAAAATTTCATCTATTAAATTATTATATGATTGACCAATACTTGATTTTCTCCATAATGCAGAAATACCAGGATCAATCGGTTTATGAATATTATCAATATCATCTACAGGTGTCATCTCACTTTCAAATGTTCCATCCTTATTTATATCATAACATTCATATTTTGGTTTTTTATCATCAAAAACTAATTTACAACAACCAGTTCCAGCATTATGTTTATTACATTGATAACCCGGTCTACAATTTGCTGTTGCCCAAAAATTAGTTTTACCTTCTTCTTTACAAAATTTAAATTCTCCTGAATTTGGAAAACATGCAATATCTCCTTCTTTTTTACAAGTATATAATTGATCTCCATTACAAATTGCATTTTTATTTACATTTTGACAACCATTATTTCCACAAAAATTAGTTTGTATCATTTGTCCATTAAGACATGTTTCAATAACTCCATCATTACAATAATTTTGACTTTGAGAAAACTTTTGAATTGAGTCTCCTGAACCAATTCTACATCCTAACATTGCATTTTCTATATCTTCTTTATTTGTTACACATAGTAATGGATAAGCATTTCCAGTTTCGCCACAAAATTTAGTTTTATCAGTATTAAATTTCTTCTTACTTTCATCATCAGTTTTTCCATACAAAGTTTGTAATGCTTTAAACTCTTTGTCTTGTTTAATTAAAGTATTAATTGTATCTTGAGTAATAGTATTTGGAGCTGTTGGAATTAACTCACTATTCAAAGTAAAAAATTCAATACATTGTTTTGAATCTTTAAATTGATTTCGTTCCCAAGTTTTAACTGTAGCACATTGCTTATTAACAGTTGTTTGGAAATTTTTATCTTCTAATTGTTTATAAAATTCATTATCAAATTCAACTGGTTTAGATTCTTCATTTTTAGTATCTTTTTTTATTTTTATTTTTGTTTCAATGGTTTTTTTTTTATCTTCTTGTAGTTCAACCACATCACTATCATGATCTACAGCATCTTGTACCTTTTGTGGTATAACTTCTTCGTCTAAAAAAGGATTATATGTTGCAATCACAGAACTAAGACTAAATAAAATAATTAAAATTAATATTAAATACTTAATTCTCACTAACAATACCTCCACTATTTTCACCACTACTACTACTAGTTGGACTTTCATTATTAACTTCTGTTAATGGTTGTGAAGTTTGTTGAAATAAATTTAATTTAAACTCTTGATCTTCAGCTGCATTATCACTTGCTATACTTACACTCTGTGTTGCTTTGAAATTGTCATTAATATATGCTTTAATATCTTTTGCTTCATTTATATAAGTTGTAGCATTTTGACAAAACTTTTCTAAATCTGGATTGTCATCAACTGATTTGAAACTATCTTTAATTTCATCAACAGGTAAAAATATTTCTTTTAAATCTTTACCTTGTAATTTAGATTCTAAAACACCACATAAAATTAATTGATGGACTTTTGGACCATTTTTTAAAGATGGAGCAGGTTTACCACCTAAACATTTTGCAAATTGATTATTGCTTCCTGTTGTATAACCAGAAACAGATAATACTTGATCACATATTTGAAATTGACCTAATAATCCACCTAATTTATCTTGTAAAAATCTTTCAGGTATTTCTTTTAATCGTCTCATTACATTATTTTTTAAATTGTCAAATAAATTTAATGAAGGTAATAATCCAGTTATTTCTCCCATAACATATTTACAATTTGCATAACTCTTAAACGCATCACATTGAGCCATATTTCCACCCAATAATCCAACATCCCATAAACAATTAATATAATTACATTCAATTACACGCTTCCTTTCAAGACCTTTAATTATATCAGGAATACAAAATGAACCAATTGCACCTATTAATGAATTTGAAGCATCAGTTTGAGTTGGTACAAGTTCAGATTGTATTATATTTTTATCACTTTTTTCAATTTTACTAACTACATTTGAAACAGAACTTGTAATACTTTTTGAAGAATCATAAATATTTTTATTAATTTTATCAAAAGCTTTTGTCGCTAAATTACTTTTACCATTACAATTCAAATGTGTACAAGCCTTTCTAAAAAATCCAAATATACCACCTTGTTGACTTGGTTGTACTCCACTTAAACTACATCTAACTGCTTCTATACCTTTATTAAAACCAATCCATAAAGGCTCACCAACACCAACCAAATCTAATGCTTTTGCTACAATATAAACAGCAGCACGAAGTTTAGTTAAAGTATCATAAACTTTTTGACCGATTTGTGCAATTTTACAAATTTTTTCAAATTTATTTAACATACTTGAAAATTTACCAATCCATTTATTTGTAATAAATTTATTATTACCAGCCGCTATTATTTTATCTGCAACAGTTTCTGAAAATTTTGCACTTCTTTTATTTACAAAACTAATAGTAAAAGTTAATTTATCATATTCACTTTGAGTATCACTAATAACTTGTGTACCAGAAACTCCTCTGATTCTAATTGGACACATTATTGTTATTGTATCAGGTGTAGGTTCTTTTGTAGTTTTTGCTCTAACAGTTAATTGAAATCTTTTATTTCCAAATTCATCTTCATCTAATAATTTAATTTTTGGTTCGTCAATAAATTTGTATAAATCTAAATTATTTATATTTGCCCAACATCTAGAATTTTCAGGACTACCAATTTCAGTTTCAATAATTTCACCATCAGGACGTGTAGATTTAATAGAACCAAATAAAAATATACTTGGACTTGACTTATGTAATTTTGCTCTATCAAATGCTTGTGGAACCATTTTATCTATATCATAATAAAACCAATCAGTTTCATTTACATATTCAAATACAGTAATTTCAATTGGAAATGATTTTTTATTATTTAATTTATCATAAGCATGCAAAGTTACATTATAATATCCACTCTCTACTTCAGATTGAAATTCAAAATTACATTTGTATGGATTAATAGAAGTATCACAATTACCATTAACTAAAACAGGATTTAATGGATCAATAGTTAAATTACTAAAATCAACATAAATACTATTAGGAGAAAGTCCAACATCAATATCACTAATTAAAGTCTCTAAAATAAATTGACTATATTGACTAATATATCTATTATTTTTATTTTTATCTTTTTGTTCATATTTAATTAATTCAGGTTGATTATTATCTAATGTGTAAATTTTTCTTATACTTTGATCATTTAATTTTATATTTTCTTTATTTTTTGTATTTTCATCAATCATAACTGCAAATGATTCTGGTAAATTTTGTGGTAAGTTTACATCAAAATAACATTCAAAATAACCTGATTTATTATTTGGACTAATATAAACTTCTATGCATTCATCTTTTGTAAATGTAATACCTTCACTTGGTTTTATACCAATTGAATTAATATCTAATTTTGAAACATCCCAATCAATTTTTACTTTAATTGTATTTGGAAAATTAGATGAATAATATGATAAACCTTCAAAAAATATATTTTTTTCAGGAAATGTATCAGGTTGATTAGTTGGAGACAATTCACTTTGAGCTATTGTTTCTGTAATTACTTGACCAATGTCAATACTTGTTATCACAGGTCCTGCACGTGCAAAATCAATACTATAATCTGCATTATATTCAAGTGTGGCAATATTTGGATCATTAGATACTATTGAAAAAGATAAACTTGCAGTTTGTAAAAAATTAACTTCATGTGTACAATAAATATTAACTCCTTTATTTTCAGCTTCTAATTTTGTATCTTGAGCATTATAATATACAGCTTTAATTCCAGAAAATGCTGAAGTATTTACACATAAATTTACTATTTCTGGTTTAGTTTGTATATTAATAAAATCTAATTTTGTTTTTGAATAAACTAGATTATTTTTTACACAAATTTCACAAAAATCAATAAATTTACTAATATGTTCAGTTATTGAATTACCAAATACATCACTTACAATTATATCAGTATCAAATGAAAATTCTCCTTGTAAATTAGATGAATCAATATAATCTTTAATATCAAAAATTATATTTTCATTACATTTACTATTAGTAAAATCTAAATTAATATTATAAGCTGAAAATGTAATATTTTTTAATCCAGAACAAGTTCCTTCAAATAAATCATCTATTGTTAAATTAATTTTTGTAATTTCATCCATATCACTTATTTCTAAAATTGGAATATGATTATCTAAAACTCCTTTTGATTCAATAATTAAACCAGCAGTGCCATATAAACTTATTATCATTTCTTCTGGTCTATTATTTAATTGATTTGAAATGGTACATTCTAAATTATTAGTTCCAGCAATTATTGAACAATCAGTATCGGGATCGAAATGATATCCATTCCATGAATGAGGAATTTGTGAAACTGTAGTTGCAGTACTTCTCAATTCAATTGAATTAAAAAAATCTTTTAATTCTTGACTTGAACTTCCTAAATTAAATAATATATCATCATCATTAAATTCAAAAATAGCATTAATTTTGATTTCATCCTGTTCTTTATATACACCATCAATTTCATCAAAACCACTAATTGATAATTTATATTTTTGTGAAGTTAATTCTGCGCTAACTAAAGAAACTGTAAAAATCAATACAAAAATAATTAAAATTAATTTGTTTAATTTCATTTAATAGCACCCTCATAAACCCATTTTGGTGTTAATCCAGTTCCAGACATTAATTTATTTTTTTCATAAAATATTGAAGAAAATTTAGGAATATCTTTAATTGATCTTGGTGGAAATGCAAATGTTGGAAATATAAATAATGTTGAATCAGTATTTGCTAAATGCATATTTTTTTTAACATTTAAAACAGCATCTAAAATTCCATAAGGAATTTCAGTTAATACTATATGTCCTTCCTCTTCTTTTCTTTTAATATCTTCATCAGTAAAATCCCCTACAATCAATTTAAATGTATAATCCGTTTCACCATTTTTTTCATATAAAGCAGGAATTAATTTAATATAATTCCCATCCACTTTATAAAAACCAGGAATTAATTTTATTTCTTGTAAACTTCTGTCATCAGGACCAGTATAAATAGATTCAAAAAATTCAGGATCATTTAAATTATCTTGTATACGCTCAAGTCTCACTTCAGCCATTTCATCTGGTTCTACATTTAATAATAATGTTGACATTGAATGACCTTGATCAATAACTAAGTCTAAACTTCCATGTAATATTTTTTTAAAATCATAATTAAATTTTCTAACCTTAGCTAATGTAAAATTTAATTCTTCATTAAAATTTCCAAATAGCATATCACCAATATCAAATTTACGATTTTCATAATTTTCATCTACAAAAGTAATTTTAGCATTCATACAAGTTGGAAAATAATGAAATCCATTTGTTTCTTGATCAATATAACAACTTATATCATCAATACCACCATCACAGCTATAAATAAATTCTGGAACTTTATCTAAAAGAAGTTCATCATCATCAAATACATTTATTTTTGTTTTTAATATATGTTGAGTTTCATCACAAAATTGTGTAATTATTTGGTCCTCTTCATCAGATTCCACACTTATTAATGTTTGAGGTAAATTAATTTCCACATTATTACTTTTCACATTAACTTCATATGCAGTTGTAAATGTAAATCCTTTCTTTCCAACTTTTGAATTTACAAATGCATCATCATCATCGATTTCAACAATAACTGGATATGAAAAAGAATATGAAAAATCATAAATCGTTTCTTGCAATTTTGCAAAATCAATATAATTGTCATAAGTTACCCCAGTAAGAAACTTATTTGCCCAAGCTTGATCAATTTTAAAATAAGTAGGCCAACCTAAATAAAACATATTTACACCTAAATGTGAATAATCATCTCTCAATATATCATATGTATTTAATTCATGAGCAGCATTTTCAAATTGAGAAATTAATTGAGCTGTATGCCCAGTATCTTCAATTATATTTGATTGAGATACATTAATATAATTTTTTGTTCTAGGAAAATTTAAATCTTGTATACTTGACATCAAATTATATTCAAATATATTTTTAATAAAAGGAATTGACCATTTTACTGGTCTTTGATTTGTTGATACTTCATATATTGGAGGTAATTGATCAGTTTCCAAACCACTATTTTCAAAAATCATTTGCATTGTATATTCAGATAAAAATGGTTTATTATTAAACAATTGAGTATTAATATCATATGCAATTTCATATGCATCTTTAAAGTCTACATCTATTTCGTCAATGAAATAATCTAATTTCTGATTTAATTCACCATTATTAATATTTAATTTCAAATCTAAAAATAAATTAATATAACCATCATTTATTGTAACTAATGGCCTAAAGTTTTCATCATAACTAATTTCAAAACCTTGTTCTTTAAATACATTAAAGTCATTTAAACATAAATTAAGATTATGATAAACATATCTATCTAATTGTGCTTCAATAGAATGATCTTTTTGATATTCTTGTATAGTTAAATCTAAATTATTACTTTGATAATTTCTTTTTAATTTTGGAACTAATTTATTTGAAAGTCTTATTCTATCGACTTGATTTGGATTTTTATTATACGACCAATAAGGTATATCAAAACCATCTTTTATCAATCTACTACTCTCAGTTGAATCATCTATATCCGTTCTTGATAATTCATTATATATTCCACCATCAGAACCAGTTCCATATATTTTTCTATCTTTTAAATCTACATAACCGCCATGTAAACCTGCACTTATTATTCCATTATACGCAATATTGTTTAAACATTCTTTTACAAAAACTTGAATGGGAATAAAAGTATCTGCCACAATAGATTCTTCTGGTAATTCAATACCCTTATTCAAATTTGTTTTATTATTTGTATTAATTACATAGAGAGTTATTGAAGATAAAACTAATAGAATCAAACCCATAATTATAAAAACGCTTACTTGTGCTTTACGCATGATACCCCTTAAATAAAAATATGAAATTTCATTTATAAATGTTCCTCAAAAAAATTACATTTGTAAATAAGCTAGATTTGATATAGTGAGAATTAATATGTTATTAAATCAAATTAAAATAGTAAAATTCTAATATTAATTATTAATAATAATTTCCAAGAATAAAAAATCAATTTTTGTAAACAATATTATCAAAATTAAACTAAATTTAAGAAAATTGTTAGATAATTTTTATAAAGCAAATAATCAATAAAAAACTGAAGACAAAAAATTCCAGCAAGAAAGTAAAATACCAATTGGGCGCCGTATAAAACATTCACCAATTGGTATTTTTTTTATTATAATATGTGTTAACCGGAATAAATATTAAGCATAAATAATATATAAATATTTCTTTTTTATAATTAAATTTAAAGCTATATAAAAAACATCCAATAATCTTTCAAAAATTTTATATAAACAAATTAATAAAAAATTATATGGTTTTAGAAAATTATCCTAATTTTAAAAAATGGACTTTTTATGCAATTGTAATTTGGATTTTTTCAATTATTGCTTATAGTTTTTGTTTTGGAAATGTTTCAGGCTGGGGTCAATTAGGTTGCACATATTTTTTATTTCCAACTATTCCAATTTTAATTGATATAGAGGTTTCATTACCTTTAGAATTAATTAATTTAATCGTACTTATTTTGTTAGGTGGATTAATTGGTTTTATTAAAGATAAAAGATCATTATCTAAAAATTAATGAATATTTATAATTCTCTAGATAAATAAACAATATTTTCAATTTTATTTTCTTTTATTAAAACATATCCTGATTTTTTATAAAAATCAATTGTTCTTTTATTTTTGTACATTGTTGTCGTTAAAGTATTATTAGTAATTTTCATTTTTTTCAAATATTTCCACTGAAATAAAGTTAATTCTTTACCTATACCAAAACTTCGATAAATATCTAAAACATATAATTCACTTAAATAACTATTCTGTTTATTTTCTTTATCATCATGAGTAACATGAAGATAACCAATTGGCAAAGAATTGTGATATGCAATAAAATATTTATTATCATTTTTTTTCAAATATTCTTTCATAAATTTCACAGAATTTTGAATATTTTCAATAGTATAATGTACACCAGAATCTAAATGCGAATCATGTTTAAGTAATAATAATCTAAAAAACATTAATTCTTCAAAATTATCTTTGGAAGCTTCTTTAATTGTAATTTTCATAATTTAAGTTATATATTCAGACTTATAAAAACTATCCTTGATATATATAATAAAATTAATCTAAATCATTTGCAAAACTAACTTCTTCATCCCAATAACTTGGTAAAGTATTATAAGGATTTGGCATTACGTCATCAGTAATAAATAAATAATTCACATTTAAATCATCTGAAATATTAGTTACATTGGAAAATGAAGTTGCATTATGTACAATATGCCAGAATCTATATTTAGTATAATTAGATACCCAAGCAGGTTCTGTAACTGATGTATAAGCATCATAATCATCTTCAAAAGATAATATTATGTCACTAACATTCATATATTCTTCATCAGGATAAACTCCTGGATTTAATATTATTGTTCCATTAATATAATCAGATAAATTTTGATAATAAGTATCCCAACCAGAAGGTACTTCATCTAAAAAAATATTTGTTATATTATAAAAATCATTATAGAGACTTATATTTGCTTTTACTACATCTATATCTCTTGCTCCATAACTTGTAAAAATATATCCATAAAGCTCTTTATCACTATGTTCTTGAACTTTAGTTACATAATTTGCATCTGGTGAGGTTCCAGGTCCACTATTTGGATTAATAATTAGAATTTCAATATTAGTTAAATTATCCCATAAAGCACTTGGATAAAAATAAACTGGAACTGCAATATCATAAGTATCAACTGGCATAGTAAAATTACAATCTGCATTTACTCTTACTGCTAAACCTAATCCTAATAAATCAGATGTAATTGATCTTTGTCTAATCCATTCTTGATTTGCTGAATCATAATAATATGATTGTGCCACTTGACAATCACCTTGAAAATTTGAAAGATTTCTATTTATCATTAAATTATTAATTGAAATTAAATTCCAACCTTCAGTCAAAGAATAACTTTCATTTAAAATTGAACTTCTTTTTTCTTGATCTTGTTTTGATAATATACTTATATTAGTTGAAAATGAAGTTGCTGAAAAAACCCAACAAGCCCTAGTTGGCATATAATTAGTTGCATTAATTCCTTGAGTGGATAAATTAGAAAAATAATTATTATATGTATTATTTCCCCCATCATATTCATATGATAATAAAGCATAACTCGTATTAAAAGGTGAATTAAAATAATATAATAAATCTTGACTCAGATTTCCAGGACTTACTAATCTTTCTTTAGAAATATTAAAATCTAATAAATTCCATCCCGCATTTATTGTAAGTTCTACAGAACTAGAAAATGATGAGAATAGTGATAAAAATAATAATAATAAAATAATTGTACTATAAAAACCCCTTTTCATATTTAATTTTATTATATTTAATTTATATAAGTTTTTATTTTGTACATTCAGTTATATTAATATCATTACAATAATCAAAACCATTACAAATATATTGTTGAGGATAACTCTCCATTATTATTAATTCACCAAAACAATTACAATCATTAAAATAATTTTCACACATATCTTTATCTAAACTAAATTCCCTATAATCATTTTTAATAGAAACTAAATAAGATAATAATAAAACAAAAATTAAAATTAATAAAAAAATAGAACTTTTTTTCATTTTAATCAATAATATTTATATTGTTTTTATTTACAAATCCTAAAATATTTTCAATAGTTGCATTATCAATCCTCTCAACTGCTTCTTTTGAATAAAATGCAATGTGAGGTGTATAAACTACATTATTTCTAGATAATAAATCATGATCTTTTAATAATTCTTTTAATGCTAAATTCGAAGTATTATCATGCAATAATTCTTTTTCTTCTTTTATTAATTGTTCACCTTCAATTACATCCAATGCTACACCAGATAATATTTTTTTATTTAAACCATAAATAAGTGCATCAGTACTTACAATACCACCTCTAGAAGTATTAATTAATATTGCACCTTTTTTTACTAATTTCATATTTTGTTTATTTATCAAATGTTTAGTATTTTTATTTAATGGACAATGTATTGTAATAATATCAGATTTTTTTAATAATTCATTTAATTTAACAAATTTAAAATCAAAAACTTCTAATAAAAAATTATCAGGATGAGAATCATTAACTAAAATATCCATTCCAAAACCATGAGCAATTTTAATTACATGATGACCAATATGACCTGCACCAATAACCCCAATTGTTTTATTTCTTAAATCAAAACCTTGTAATCCATCAATTGAATAATCACATTTTAATGATCGAATATAAGATTTATGTACATTTCGTGACAATGATAAAATTAATGCAAAAGTATGTTCAGCAACTGTATTTTCACCATAAATTGGAACATTACAAACAGTTATTTTTCTTTTTTTACATTCTTTTATATCAATGTGATCATAACCAGTTGAACGTGTAGTAATTAATTTTAAATTTGGTAATTGTCTAAGAATTTTTTTATCAACTTTACAATTAATAAAAATTGAAATGATATCAAAGTTTTTAATTTTAGATACATTATCAAGAGAAATTGATTCATTAAAAAATTTCAAAGTAAATTGCTTTAATTTCTTTTTAAAATAATTTTGTTCATTATCTTTAAGACCAAAAAAAGCAATTTTTAATTTTTTCATTAACAAGTCTCCATGGTATTTGCCATAAAATCATTATTACCTTGCCAACATATTGCATCACAATCTGCATCAGGACTATTATCATTACAATCATTCCAACAAGTTCCATATTCAGGCCAAATACACGTACCACAAAAATCCTTATCACCACAACAATAATTACTACAAGTTTCATAAGTTAAATTTCTAATGGTTTCCCCTTCTTCAGTATCTTCAGATCCAATAGAAGTATCAAAATCAATAACTACTTCAGGTTTTTCTTCTTTTTCAAATTTTACTTCAATAACTTCAGCCTCACGATTTTCTAATGCTTCTTTTTCAATCATTTCCTGTTTAATTAATTCTTTTTCAATCTGTTCCTCTTCAGAAAGAATATCAGTTTTATCATCTATAATTTCATTAGCCTCATCAACAACTGTTTCATTAATAGGACTAACCTCTTGATTAGAACAACCAATTAAAAAAATACTAAATACTAAAATCAGAAATAAATATAGTTTAATTTTCATTTAATAACCTCTTATAAAAATTATAGTATTTTACTTTTTAAAGCTTACTTTAAGACCATTAATAGAATACTTTAAAAATAAACTAAAAATCATACAAATATGAATGCAAGAAAAATGAGTTTTCACTCAAATAGTAATATAGGATTATTTGCCTATGTAAATGAAAAATTTTGTTTAATTGGTAATGTAATAACCGAAGAACAAAAAAAAGAAATTGAGGAAACTTTAGAAGTTCCAGTATATGAAATATTAATTGCAGGTACGCCATTAATTGGAATATTTGTAAATGGAAATGAAGATAAAATAATAATTCCAAGTATAACAAAAAAGGAAGAATTAGAAAAATTAGATGAACTTCAAATTGAATATCAAATAGTAGATTCAAAATATACGGCTTTAGGAAATAATATATTAATTGGAAATAATCAAGCATTTGTAAATCAAAATTTAGAAAAAGAAGCAATTAAACAAATTGAAGATTTTTTAAAAATAAAATTACATAATATAGATTTAGGAGAATTAGATACATTAGGATCAATTGGAGTAATTCATAATGATACAGGAGTAATTGGGGAATTTATTGGTCAAAATAAATTAAATAATTTAAATAAAATAAGTGATATTAAATTTTCTTTAGGGACAATTAATCAAGGTAGTGATTATATTAAAAGTGGAATTTTTAAAAATTCTAAAGGGTTTGTTATAGGAGAAATGACAAGCGGTGTAGAGATAATTAATATTGAACAGGAATTATTTAGATGAAAGTTGCAATTCTATTTTCTGGGGGTAAAGACTCAGTTTTTTCAACATATTGGGCGCACCATCAAAGTTGGGATATTAAATGTTTACTTACAATTAAATCAAAAAATCAACATAGTTATATGTTTCATACACCAAATATTGATAGAGTTAAATTACAAGCAGAAGCTTTAGATTTGCCTTTAATTGAACAAGAAACAGAAGGTAAAAAAGAAGAAGAATTAAATGATTTGAAAATTCTAATTCAAAAAGCAAAAGATGAATATAATATTTATGGTGTAGTAGTAGGAGCAATTGCAAGTGAATATCAAAGAATTAGAATAAATCAAGTTTGTATGGATTTAAATATAAAAGTTCTTGCACCAATATGGCATAGAAATGAAATTAATTATATGAATGATTTAATTAAAAGCAATTTTGATATAAAATTAATATCCATCTCAGCATATCCACTAAATGAAAAATATTTAATGAAAAAAATAAATAAAGAATTTCTAAATGAATTAATTAAATTAAATGAAAAATATGGTCTTAATATTTGTGGAGAAGGTGGAGAATATGAAAGTTTTGTAATAGATTGCCCAATATATAAAAAAAAAATTAAAATAATTGACTATCAAATAGAACAAGATACAGAGAATTCTGCTAAAATAGTGATAAATGAGCTTAAATTAATAAATAAATAAGTCACCATGAAGTAGTAAATATTATAAATTTTAAAAATTATATATATTTCATGAATAAATCAATAATCTTAATCTCCGGGGGAACTGGAGTTGGAACTTCCAAAATTGCCTTAGAATTAGCTAAATATTTAGATATCCCTCACATCATAGGAACTGATATTATAAGAGAATCTATAAGAAGTACAGTATACAGATAATACCAAATTTTGATAAATCTACATATCAAGCAGGACAAACAAAAAATTATTATAAAAAACCTGAAGAAGTTAAAAAAGCAGAAATAATTAGAGGTTTTAAAAATCAATGTGAACCAATTTATATTGCAACTAAAGGTATTATAAAAAGAGCTATTAATGAAAACACTCCAATAATTATTGAAGGAGTTCATTTAATACCTGGAAAAGTTCACGACAATGAATTATATCAAATATGTTTAAATAATTTATTTGAATATGCTATAAGTATAGAAGATGAAGAAATACATAAAAAAAGATTTATTAAAAGACAAAATGATTCACCAGAAAGAACAATTAAAAAATATTTAGATAACTTTAAAGAAATAAGACAAATTCATGACTATATAATTGAAAGAGCTAAGCGTTATAAAAAAATAAAAGTAGTAGATAATTCCCAAAATATTAAAGATACTTTAAACGAAATAATTTCTTTTTTTTAATTATTTAAAATTTTATAATCAATTAATTTTGAATTATTAATTACAATTTTTCCAATATAAGAATGAGATATTTTTACATCTAATACATCATTTAATTCATCCTCATTAAAATAAGCCTGAATTGTTCTGATTACACCCGCATGACTAATTAATAAAATATTTTTATTTTTTTTATAACTTTTTTCATCTAAATTTTGTATGAATTTTATAGCTCTTTTTTGAACTTTTAAAAAACTTTCACCTTCTGAAAAAATATATTTTTTATCAGCTTTATATTCAGGACAGTTTTTTTTAACTTCTTCTTTTTTTTTATTTGCATAAATTCCATAATTTATTTCCCTCAAATCTTTAGAAAAAGATAATTTATGTGTTAAATTTAATTCTTTTGCAAATAGAAAAGCAGTAATAAAAGCCCGTCCTAAATCACTTGAAATAATATAATCAAATTTTATATCTTTTAAATATTTAAATAATTTTTTAGGTGATTCTAAACTTGTTTTTAATAACGGAGAATCTATTTGTCCCATGATTACTGATTTTTTATTTAATTCTGTTTTACCGTGCCTTAACAAATAAATCGTAATCATAATATTATTAGACATTTGTAGTTTAATAGTTTTTTTATAAATACAAAAAAAAGAACAATAAGTGCAGATAAGACTAAAATAACCTCAAAGGACTAAATAAAGCCCAAAACACATATGATTTATAAAAGAAAAGATTTATAAACTATAAAGTGGTAACAAAAACATGGAATTAAATCAAACTCAAGAATTAATTAGTATAATTGAAAATACTAATGTAGAAAGCAATAAATTAAATGATGTTTTAGATCCACAAACTCTAAAACAATATCCATTAGATAAAATACTTGATGTTGCACGTGTTAAAGGATTAACTTTAGAAAATGGTTATTTTAAATCTAATACAATAATAGTTGGTGAAGAAGAATATCAATTAAGTGTAGATCAATTAGATTATTTGAAAAGAAATGGAATATCAGTATCAACAGGAATTTTACCTAGTGAGAAAGAAAGATTTTATCAAACATATGGTAAATATTTAAAATAATTATTTTTTCTCATCATTTCTTATTGACAAATATCCATTTCTATTAAAAATTACATAATCAATTAATTTAATTTCAATTTTTTCAAGTAAATTATTTATTTTTTCATATGAATTTTTATCACTTTTTGAAAAACTTAATTTATCTTTTAAATGATTATGAACTATAATAGTATAATGAGCTTTATTTAATATACATTCTTTTAATAAAAAACTATTTGACAAAAATATTTTTTTCTTTAAATGACTTGTAAGAAATGAAGTATTAATTAAATTCATATTTTTATCAATATAAATTACAATTAAACTCTCTGTTTCCATTTCATTATTAATTATATCACAATAATATTTTTTATATTGATTTTTTATTATATCAATTACTTTTTTTGTATTTTTTACTTTTCTTACATTAACTACACTATCAACATCATTTTCATTTAATAATTCAAAAATTCTTCCAATTGCTCTAATTTGTGTAGCTTTTGCAATACCAATGCCACTAATATTAATTAAATCATTAATATCACTTTCAAATAATTCATTAAGTGACCAATTCATTAAAATTGAACGAGATAAATTTAAAACATTTTGATCTTTTGTACCATTACGTAAAATTAATGCCAAAAGTTCATGAGATTGTAATACTTCAATACCATGATCAATTAATTTTTCTCTAGGAGAATCAACTTCTTCAACACCTTTTATAGTCATAAAATTATATAGGAATAAAGTTTAATAATGATTCTTAAAAAAATATTGAAAATATTATAGCTTTAATAAATAATATTCAAAAAAAACAAAATTTATTTAGATGCCAACTCAACATCTGAAGCTTTTACAGTTTTTCTACCAGTATGCATTGCTAATTTTACAGCTTTAGCACAAATTTCATCAGAAATTTCTTCAATTAAATCTCTTAATGCAACTTTTGCTTCCTCGGAAACTCTTTCTGCACCTGACCTCTTTAGAAGTTTTTCCATAGCAGCAAGTGGTAAAATTTTTGATTCAGATCTAACCATTCTAAATTAATTTAATTTTACCTTTTTATAAAATATTCCATTTGAATTTTAATTTGATATAATAATTGTATAAATGAATAAAAAATAAATAAAAAAATTAAAAATTAACACGTAAGCTTAAGTTTATAAATCAAAATAATTAATATATAAATAGTAAAAGAGGGATAGTATAAAATTTGTAAATAAATTATTAATAGTGGTACTAATATTTTTCTTAGCAGTAAATGCATTCTTAGCAATAGACATATTAAAAGAGTTTAGTGTAAAGTTAGATGTAGACAATACAATTATTTCAAAAATATATGAAAATAATAAAGCAATTGAAATTATTAGCAAGTTAAAAATAAATAAAAATAAAGATATTTATACTGATACTATTAATTTTATCAATATTGAAAATGCAGAAGCCATATATTCAGATGGAACAATTTCTAAAATTAAAATATCATTAAGAAATAATTATATTTTTTTAAATAATCAAGAAACAGTTAATTTAAGATTATTATTAATTGGAATAGATAATAATAAACAAATAGAAGGAATTAGATTTAAATTACTGAGTAGTGTAAATACATATTATGATCAAATCAGTAATGACAATAATATATTATATATAAATTTAGAAGAATTAAATAATGAATTTGAAAAAAATAAAAATGATTTATCATTTAAAATTAAAAATTTATTAAATAATAATCAATTAATTGAATTAGCTCAATTAAACTCACAAGGAAATATTTTAGGATACAGTTCTTTATTTTCAAATAATATCATATACTATATTTCTGATGACATATTATATTTAATTAACTTAAAAACTGGAGATATAAATGAAGTAAAAAGTTTAGATTCAATATTTTCAAATAATATTAAACAAAATAAAATTAATGATAATATAATGACAAATTATAATAATGAATTATTTATTATTAGTGATCTTGGATTTATATCCAAATATAATCCTACAAGTAATACAATATTAAAATTTTCAAATAATATAATTAAACCCGTATCTAATTCAAGAAATATTTTATCATATGATAATAATATAATTAGTAATTTTGATGAAATTTTAATTATTAATGAAATATTACACGATGCATCTAATAATCGTGGAAATGAATATAGAATTATTTTTGAAAATGAAATTTTAGATATGTATGAATATGAAGATACATTATACATAATTGAAGATTCAAATAATAATAATATCCATATAATTAATTTAAAACAATTATTGAGTAAATTAAAACACAGTGATAAAAATATACATGAAATAAAACAATTCAATAAAATAGATGAAATTATTAAATTAAATATTGATGGAATTAGCCATATAGATGCTGAAAATGTATATGCAAATCAAAATAATAAAATTTTAAAATTCAATAAAAATTTTGAAGAAGGACAAAAAGAGAATTATTTACATATTAAAAATAATATAAAAATATTTCAAAATAGAATTGAATTTAATGATATAAATAAAGATATTGATGTAAAAAAACTAATTAGTAATGATAATGGTGCTTTTATCATTGATAATAATAATAAATTATTTTTCTTAAAAAATGAATAAAAAAGGACAGGTCGCAACATTTATTATAATAGGAATAGTTTTATTACTTATAACAAGTTTAACTTTATTTGCAATTAAATTTAAAATATCAAATGTTCCTGATACTTATTCTGATCCAGTGAATGCAATTAATGATTATATTAAACAATGTTTAAAATCTAGTACACAAAGTTCAATTGCAGAATTACTTGATAATGGTGGATATACAAACCTAGATAATTTTGTAATTCCAAGATTAGAGTATGCAGGAGATGAATTAAAAAAAATTCCATTATGGATTAAAAAAAATAAAGTTAATAGGCCAACCATTTCTAAAATGCAAATGGAACTTACAACATATATTAATGAAGATATTAAAGGATGTATTAATTCTTTAGATATTTTTAATGAACAATTTGATATTGAAAAATTAAATATAAAAACTTTAGATGGAGAAAAAGAATTTGAAGCACATGCAGAAATATTTGAAAATAATGTAATTTCTAATTTATACATTCCATTAAGAATATTTCCAAAAGGGTCAAATACATATACACAATTAGAAAATTTTGAAATTAAAGAAAATACAAAATTATTAAGATTATATAAACTTGCAAGCGAAGTATTAAATTTGCAATTAAAAACTAATTTTTTAGAAAATTATACAATGGAAACAGTTCAATTAAGTCCATTACCTTCAGAAGGGATGAGATTTGATTGTAGTGCTCCAATTACATATACATATGATGAAGCTGTTAATGGATTATTAAAACCTGCTTTAAAGGCAAATATGGATTTAATAAGATTTAAAAATACTAATTATTTAGATGACAATTTATACAAATTAAAAGTAAATGGATTAAATCAAGATGCAAAAAACATTCCATTAGAAATTGATGGACAAGTTCAAATTGATTCAGGTGGAAATGTATTATATGAAACAATAGATAATTATTTCCCCTATTATGACAATTTATACTCTACAAAAACATCCAATAATTTATTTGAAGATATTAAAATAAGAACAATTGTAGATCAAAATTCTTTAATTTCTACTGATTTTCATGCAAGTCCTAATAAAAATAATTATATAATTCAAGAAGATACATTAAAATCAAAAAGTCAAAAAGGTATTGGAAAAATAATGGGTGGATTTATGTCATTAATTCCAATGTTTAAAAATTGTATTAAAGTACAACATCATTTTTATTCATTTAATTATAATACAATATTTGAATTAGCTGCAGATAATGGAGAAGTATTTAGATTTGCTTTACCTATTAATATACATAGAAATGAACCAAAAGAAACTACTTCAGTTGGATTTGTTTCAGACATAGATGATGAAATGTCAAGACAACAAATGCATGAATTTTATTGTGCTGGTGAAAGACTAGTTAAAAAAAGGCTTGGAGCTGAAAAAGATTTTGGATCAACAACTAAAAGTTTAGATAATGTAAATATATCATATGACTGTGCAGGTGTAGTTTGTGAAATTGGTACAATCAAAAAAAATCAAGTTAATAATTTAGCAATTTCTTCATTACAATTTCCAGTATGTGAAAATGGAAAAATTATATTTGAAAAAGAAGGATATCAAACAAAAGAAAGATATACAAATACGCATATATTAAATCCAAATCAAGATGATGATGATATGTTAATAATTGAAGTATTAACGAAATTAAAAAAATTCCAATTTAAAGACAAATTATTTTCAAACTTTTTAGTAATTGACAAAGAATTAAATAAAAGACAATTAAGTGAAAATGAAAGTATTGTAATAACTATTAGTAGTGAAGATTTTTCAAGAGAATATTTTTATCCATTATTTGAAGATGAAGAAAATGCATTTATTGAATTAATAGATAAAAAAGAAGATTATGATTTAGATATTAAATTATTAAAAGATGGAGAATTTTCAGGAGCATATTTTGGAAAACTTAATTATGATCCAGTATATCATGGAAATAAAGAAGAAATTATATTTTATATTTTTGAATCAGATGAAAAATTAAATTCAGCTGAATCATTTAGCAATTTTTACAATAATATTGTAGTTCCACAGGCAAATACATTCAAACCAATAATGTTAGATAAATAAAATGAAAAGAAAATTAAATATGATGAATAGTAAACTAATTATATTAATTATAATTTTAATATTTTCATTTAGTTTAATTAATGCAAAATTTTCAAATGTTCACATTAAAAAATCATTAAATTCAGAAATTGAAATTACATTAAATACACCAAACAATTTAAAGGTAGAAATAGAAGTATTTGAAGCTCAAACTTCAGAAAGAATTGATCAAAAAGAGTCAAGTCCAAAAACAAATCATTATTTGCTTTTAAGAGGACTTACATTAAATAAAGATTATATTTTATTATTAAAAACATATGATGATAGCGGACGACAAATTGATCATTTAAATAATTTAAAATTTAAATTTGTATCCAATTATGATTATTCAAATGAAAATGAATATGAAGGTTATATTGAAGGTGAATTATTTTTACAAAATGAAGAAATAATTGAAGAAGAGACAAATGAAGTTGAAGAAAATAATGAAGAACCTAATAATCAAGAACCTAATACAAATGAAGTTGATCAAAATGAAAATATAATTGATCCAAGTAGTGAAAATAATCCTGATGAAAATATTCAAACTAATGAAAATATGATTTTAAAGAATTTTAATTTCATTTCACAAATAAATAAAATTAATTTGACTTTTGAAACTAATCACAATAGTAGAATTATTATTACATATAAAAATGAATTTAGTTCACCTGAAAATAAATTAGTTCAAAATAAAGTAGCATATAATTATGTCTTAGATCAATTACTTAGTGGAACAAAATATGAAATAACAATAAAAGCATGTAAAATGTCTGATTTAAATAATTGTAATGAACACATACAAAATATAACTACATTATCTTCAAGCACAAATAGTAATATTCAATCCGATATTAAAACAAATATAAAAAATGGAAAAGTTGGTCAATATTTAATAATTAATGGAACTGTTGATAAAAATAGTATAATTAAAATATATAGAAATAAAAATTTTAATTTTGCATTACCTGAAAAATTAACTCAATCTACTCAATTAAAAATTAATGAAAGTGGAAATGTATATGGATTTTATGAAAATACTAATGATGGTCCAATTACATATACAATATTAATTGAAAATAATGGAGAGACAAAAGTTATTGAATATAATGCAGAAATTAATTTAGAGGGACCAGGATTACATATAACTCCAATACCTGGAGTAGTTGCACCAGAGTTTTCATTATGGGGTTATGTTTCTAAATCTAGTCAAATAATTTATAGAGTAAATAATGAAACTATAAATACAAGTAATGAAAATTCTGTATTTAATAATGTATTAAGTTTAGGTAAATATAAAACAGATGAAGATCGAGCAACAATACAAATTATTGCAAAAGATGATTATGATAATATTGAAGTAGAAGAATTTATTGCAATTATTGATGATACTGCACCTGAAATTCAATTTGATGAAGATTTAAAAGATATAATGTCAGGTAATAAAGAATATCATTTTCCTGTATTACAATTAAAAGGTTATGCAGGGGAGCCAAATGTAAGATTATATGCGGTTAATTTTGGTAATGGACAAAATTCAATTGCAGAATTTGTAGTTGATGCAAGACCTACAAATCCATTAGCACAAATTGAACTTAAAGATGGAACATTTCAAGAAGTAATTGATAAAGGAATGTTTGATATTGCAGTTAAAAATTTAAAAGGCGGTAATGTTGCTGAAGATGTTATTGCAAAATTAAAAGAACATGTAGATGAAAATCGTGAATCATTTTCTCATACAGATCAAATATCAATGTATAGTATGATTGATATCTCACTTGCAAACTCACTTAAATCTTTATTCACACCAATTATTGATAATAATTTAAATATCTATGAAGTAACTGCAGATGAAAATGGAAATTTTGATTTTCCAATCGTTATGCTTCAAAGTGGAACTGAAGAAAGTGATGTTCATATAAATAATATTGGAATACTTGCTATTGACAGAGTTGGAAATTTAAAAATGTTTCAATATAATGTTAAATATGATCCCGGTGAAGGAGCTTGGACAATAGGGCGTAAAAGTAAATTTCCAAATTCAGTTTATGCAATGGATTGGGTAGAAACTGATATGCCAGTTGTATTAAGTTATGAATTTTTATATACAGGACCTGGAAAAAATAAAATCGAAGATGTTGCAATTAGTGTAAATAAAGAAAATAATGAATTTAGTGATTTATGGACAATTGATTCAAAACGTATAAGAAAAAAATATGATTCAAATAAAGGAATTTTAAAAACTGAAATTCCACTTAAATTAAATAAATTACCACCAAATACAAATGTACTTGATCTTCCAGAAGGTTTGGATTTAGAAATGGAAGTTACAATTACAAGTACATTAAATGATGATGTACTTTCTAATGACTTAAAAGAACAAGCTGCATTTGGAAGACGGCATATAAAACAAACAGTAGTAATTGAAATTCCTGAAACTAAATGGTTAAATCCAAAATTAGTTGAAAAATTAATTGGAGTATTTGACAAAGTACATAAAAATTTACAAAAAGCAATTGATGTAACTAAAAAAGTATCTGTTTATACAACTGCATTATGTGGAGGACTTTCATTCTTTTCATCACTTCCATTCTTAGGACAAACAATAGATAAAAGTGTATTATTTGGAGTTTGTGATAGAATTGCATGTCCATATATTCCAAGAAATTGTCAAGCTACTAATATTAATGAAGACGGAGATACAAGAACATTTAGTGATGAAGAAACTGGTGCAAATGTTAAATATAAATTTAGTGATGGTAGTGAAAATTGTAAACCATATGGAACTGATTTTAATTTAATTGAAACTGAATCTACTTATTTAAATGTAGATAGTAATAGTGACTTTAGAGGAGGAGGTTTGCCTTTAGCTAGTGGAAATATATATAGTACACAAAAAACTAGTTATTGTTTAAAAATGAATCAAGAAGAATTTGCATCCGATTCAGAAGGTCTATTTAATGTAGCACCACCTGGACAAAATTCTTGTTTTTCAGCAGGAGATCCACAATATGATGATTTAAAATGTTTAGGTGATAATAATTATTTTGGAGAACCAGCATCTAATTTAATATCTTCATTAAGATGTGGTTGTGTTAGTGGGGTTCTTGGAAATTTACAAAAATATGATAATACAATTGATGCAATTAATAGTTGTTTAAGACAAACTCAATTAGGGAAATTTTCAGGTAAATATTGTGAAAAATTAATTGCACAAAGTACATGTGATATTCTTGCAAGTGCAATGAGAAATGTAAAAAATAATCAACATAAATATGGTATTCCAAAAATTGCAGGAACAACTTTTAGATCTACTAATCCTATTGGAATTATTGCACAATCTAAAAGTAGTCAAAAATCAATAGGTGAATTTTTTAATGATCGATATAGTAATAGTGCAGTTAGTTCTAAATTTACTTTAGGTTCACAAGAAATGGTACATAGTTTATGTATTGCAGCTATAACAGGAAATTACGATGACTTAACTGCATTCTTTGAAAGTACAGTAAACATAAATACACCACCTCAAATTATGCCAATTGCTGGAGATAGTAGAATAATATATAAAAGTGAATTAGCTGGTGAAATGGATATTAAATATACAATTAATTCAATGATAATTGGAGGAGGAAATACTGTTGAATATAAATTACAATTACAATGCGATAGAAATGAAAGAGGTGGCGAATGGTGCCCTCAAGATAGAATTGAATTAAAAACAATTGCAGAAGGCGTAATTAATAAAAATCAAAGATTGGATAGAGGTTTTGTTTATGTAGACCAAGGTGCACAATGGTGGTATAATAAAGCTGTTTTAGAATACAAATATAATTTTAATGATAAAGAAACAGTAAGATCAGTTTCAACTGGAATAATGAAAAGAGGAGATGTTTCAACACAATGTAATTTTAATTTACATCAAGGATTTGATTGTATAACTGTTGATGGATTTGATGTAGGAACAGTAAGAATAATTCCATCAATAACTGAAGGATTGACAATATATCCAAAAAATACTAATGTCATTTATCCAGGAGATTTATTACAAGGAAAAATAAGTATAGAAAAAATAAATTATAATGAAACTGACTTATGGTTAAATATAAAACAAAAAATCCCAGAAGATTATATTGGACCAAGAATTTCATTAATGACAGAAGCAGATATATTAAGTATAAATGAAAATGCAAAAAGAAAAAAAAATACATTAATGATTCCATTAATTAAAAAAGATGGAAAACCAAATTTAGAAAAAATAAATGATTATACTTATATTTTTCCAATATTAAAAATACCTGAAAATACAAAAGCTCGTGAAGAAATCACATTTGATAAATATCAATTTTTTACAAAAAGTCAAATACTTGATAACAATTTTAAACATTCAAAACTATTTCAAAATTCTAATGATATTGAAGATTCAGATTTAGTTAAATCAATTACAATAAAATCAACTAATTTAAAAATTGGTAAATTTAGTGCATTTGATAAAAATAAAAACGAAAAGCAAAATGCGAATCATATTAAAAATAAAGAATTAAAAATTGAATTTGATAATAATAAGATCCAATTTGCAAACTTTGTATTAAATTTAGAAAATATAGTACTTGTTGATTCTACAAAAAATTTAGATTTAGATTTTTCAATAAACATATGTAAACCTGTTACTATACCACCAGCTACACCTGAATGTAAATCATATGAAATATCCAAAAATATTGATGTTTCAGTAGAAACAACTCAAGGCTATAATTCAGGTGAATTAATTTTTAATATAACTCTTGCAAAAAATGTAAATGGTGGAAATATTGAATTTGATGATGGAGATAAACCAATTATATATAGTGAAGATGGAAGAGAAAAAGTTCAAAATAAAATAATTAGAATTAATTTAAAAGATGAACCATTAAGTGAAGATAGTTGTAGAACATTAAAACCAGAATTAGAAATTATTAAACCAATTAAAAATGGATATTTATGTAGAGATGAAGATAAAAAAGATAATTATAATAAAATTCAAGCAATAATTCATCATAAATGTACTTCTTATTTTAATGCAAATTTAGATAATTATAATTTTAATATTGAAGTAACTCTTGCAGGAAAAAATTATATTAGCAAAGATATTAAATTTATACTAAATACACCTAATCAGAATTATGATAGTAGTACAGGAATAATTACAATAAATAAATTATTTGCTGAACAGTTTAGAGAAAGTAATTCAGAGTCATATAATAAATTAAATACTATAATGAATGAAATAAATCAAAATGATTTAGTTAATAAAGATCATTATGTTAAGTTAAAGATTAAAAAGAAAAAAAATGATAACCCTGAACAATGGAATAAAGTAACAGAAAAAAGGCAAACGTGGGCATTTGCAAGAAATACAAATTTATGTAGTTAATATGAATTTATGTAATAAAAAATGTCAAAAAAATAATTCTTGCATTTACAAACAATGCCCATATAATCTATTTAAGTCAATTAATACAAATATAATAAATAAAAATAATTATTCTGGCCCATTAGTTAATACATTCATTGGTTCATTCAATTATCCTAATGTAAATATGAGTGTCATTGCAAATTATAAAAAAGATTTTAATGATATTGATGATGTAACTGAATGGAAAAATAAAAAATTAAATATTAATGATATTTTATTGAGGAGAATACATGCAATTAATAGTTCTAAACAAAATAATGTAAAATCAGTAAAAACTAATGACCAAAAAAGTTTGAGAACATTTAATATTAATAAACCCATTAATAAAAATAAAAAATATGAAATTGAAAAACAATGTATAAATAATTCTTTATTAGTAAAAAATAGTTTTGAAATTGATAAAATTCAAAATAAGGATTTTATGCAAAATATTCAACTATTGAGTTTGTCTAATAAAAATATTGAAGGTGAAATTAATTTTTCAAGTAGAATTCAAAGTAAAATACAATTTGATTCATATACAAAGCCATTTGGACCTAAAGTTAATTTGAAAAATTTTAGTATTGAAGAAAATGTACATGTTCCAACAGTAGTTGATAAAATAATTAATGATGATCTTAATGCCAATGAGGCTTTAATTAAATTAAATAAAAAAAATTTTGATTCATATTATTTAACTAAAATATTTTCAACGGGAAATTTAGGTAAAAATAAAAGAATAGTTCCTACAAAATGGTCAATAACAGCAGTTGATGATAGTCTATCGATTCAAAATTTAAAAAATATTAAACAATTTGATATTGGTAATGACTATATGATTTACACTGATAATTATTTGGGAAATCATTATATTATTTTATTTATGCCAAATCAATTTTCATATCAATTAAATGAAATTATGATAGATAATACTATGGACTTATTTGATAGTCATTTAAAAAAAGTAAGAGAAATTAATTTAAATTACAATTATGATTATGAAAATTTTTATGGAAGAAAAAATTATGCTACAAATACAGCTGGTGCATATTATGCAGCTAGATATTCAATTAGCCAAAAATTAATGGAATTAAAAAGACAATATAAAGTAGCCATATTTAGATTTATATCAAATGAATATTATGTACCTTTAGGAGTTTGGGTTGTAAGAGAGGGAATATTAAAAACTCTTCAAACAAAGCCAATTATATTTCAAGATGAAGAACTTGTAAAAAATTACATATTACAATTATCTAAAAAAAAATATAGAGTAAATATAAATAATATATTTAAAGAAAGTAAAATATTTAATGAAAAAGAAGAACAAAAAAACATATTATTATTCACCTAAATTTATAAAATATGAATTATAATTAATTATTATGGAATTTAATGAATTAAAATTATTATTATTTGAACCAAAAAAATTTTTTAAATTAAAAAAAAACGAAAGTTCACATTTTACAATTTTATTAAATTTATTTATATTTGTAATAATAAATTCAATATTATACAATTTATTAGAAATATTTACAAGTAATAAATATGGATTTAATCCATTTATATTTATTATTTTTATTATAATAATGATTATATTTATATTAATTTTTTCAATTATTCAAACGTTATTTTCATCATATTTAGAGTCTGCATTTAATCATCTATTTGTAATGTTATTTAAAACAAAATATACATTTTTAGAAACATTTAAGCCAACAACTTATTCAAAAATAGTTACAATTCTTTATACTATTATATTACTCCCATTTATTTATATGATAAAACCCTTTATTGAATCTAAGCAATTTAATAATACATTTTTTATTTTAATTACACTAATTTTTATTATATTAATTAGTACATTAATTCATTCTTTTTATGTAAAAGCAATTGGAATTTCCCATTACCATAAATTATCATTTGCAAAATCATTATGGAGTGCAATACTTGGTAATTTATGTATACTTGTAATTACACTTGGATTATTATTTTTGATAGGAATGATTTTTGTAATAATATTTGGGTCTAAAATACCAAATGTTATATTTTAAAAAAAAGAAAAAAATTAATTAATACTTTCATTAATTATTTCTTGAGTATCATTTATAGTTTCATTAGGACCTCTCCCATCAAAACTAATATTAACTTTCCCAGAATTACTATTAGAATTTATACTAGGAATTTCTGTTTGTACCTGAATATATTCAGTTTCAACACTATTACATGCCATTAAAAAAATACTCAAAATCACCATTAAAAAGATTATTGACTTTTTCATTTTAATTAAAGTTAATAATAATAGTTTATAAATTTTACATTAACATCGCGATTAAGAGAAGTTTTTCAAACGCAGTGAGAAAAATTTGGGAAAATTCCTGCAAGGGATTTTCCTCTTAATCACTGTTAAACTCCCTGAACGGAACGAAGTGGAGTGAGAGTGCAACGTGGTCGACCGAAGGGAGAAGTTAGTGCTCAAGAATTCAATGAAATGAATTTCTTAATTTGCGGAATTACTTGTTGAATGTTAAGTTCATGGCCAGTTTTTGGGATTTTTTTGACTTTATAATTTTGTTTAAGAAGTAAAAAGTCTCTTTTAGTTTTGTTAAATTCATCTTCACTTCCTTGTAAAATTAGAACATGTTCAGCTTTGCTTTTAGGAATGATGTCTCTTTTATTATATTTCATAAGATCAATATGATAGCCATATTTTATGGGCAGTCTTCGATTTGGCAACAATTTTCCTTTTTGAAAACTTTTCAGATCAGGTAAAATCCCTAACTTTTTCCAAGCCTTTGAAAAATCACTTTCATGTTCGAAAAACCCATCATATCCTATGAGAATTAGATTTTTCACTTTCTTTTTTGAAGAGAAAATCAAAGCAACTATTGAACCATGAGACCAGCCAACAATCGCAACATCATTCCAATTTTTGTCTGAAAATTTAACTTTACAATAATCTAATAAGCTATTCAAATCAGAAACCATTTCAGAAGTTTTCAAGTTTTCAATAGAACCAGAACTTTTTCCTGTATTTCTATAATCAAAAGAGACTACAAAGAAATCTTTTGAAATATTTCTCACAAATTCCAGATTATGAAGATCATCCTTAGATTCTCCAAAACCAACACAATAAATAACTGGAATCTTATTTCTTACGCCATGAACTTGAAATTCTATAAAATTTTGATTTGGTAACTCTAACTTCATAATAACAAATTATGAGAGCAGATTAATAAAACTTACTTCTTGAACACTAATTGAGTTTAACATACGGGTTTAAAGATGTTTAATTTTTTGAGAGAGGAACGAATGAAATGAGTGACATCGAAAAAATTAAATATGGGCGGAGACTGCAAGTCGGAGCCTTTAAACCCGTGATAAATTAGCGAGTGCAACGAGCGATAGTCGCCCCAATTTCATTTTCTAAAAAAATAAACTGAAACATAATTGAAATAAGTTTATCTATGTTCCTATAGGAAAAATAAAACTTAAAATAAAAAATTACTAAAAAAATAATTTAATTAAATAAAAAATTAAATTTTATTTCAAGGGGGCGATTGAATTTATCATACGGGTTTAAAGATGTTTAATTTTTTGAGAGAGGAACGAATGAAATGAGTGACATCGAAAAAATTAAATATGGGCGAAGACTGCAAGTCGAAGCCTTTAAACCCGTGATAAATTAGCGAGTGCAACGAGCGGTAGTCGCCCCAATTTCATTTTCTAAAAAAATAAACTGAAACATAATTGAAATAAGTTTATCTATGTTCCTATAGGAAAAATAAAACTTAAAATAAAAAATTACTAAAAAAATAATTGATTAAAAATAATAATTTTTATTTCAAGGGGGCGATTGAATTTATCACCTATTAAATGAAGTTTTTTTAAGTTCATTTAATATTTTGGAAAATAAAACATTAAATAAGTAAAAAAAACAACTATTCTGAAAACTTTTTATATCTTATTACAATAAATTTATTATCCTAATTTCCAATAAGTGATATATGAATTCTAAAGTTAATATAATATTAAAATTTAATGAAATAACTAAATTAAAAGGATTTTCTAAAGATACAATTAAGGCATATAAATTCTGGATTGAAAAATATATTAAATTTTGTAATCAATTTTCATTTAATCACAATATAGAAAGTGTTAAAAGATATTTTTTAATTAAGGATCAAATTGGATTTAATTCAATGAGACAAAGATATGCTGCAATTAAATTTTTATTTTGTCAAATTTTAAAAATTAAAAAATTCTATGTCGAAATTCCAAATGTTAAAAGACCTAAACAAATTCCTAAAGTGATTTCTAAAAATAAAATTTTAACTATGATTAATAATTGTAAAAATATTAAACATAGATTAGTTATTAAATTATTATATAGTTCAGGTATTAGACTATCCGAATTAATTAATTTAAAAAAACAAGATATTGATTTTGATCAAAATACAATATTAATAAAAAGTGGTAAGGGAAATAAAGATAGAATAACTATTTTTGCAAATTCAATTAAAATAGATTTATTAAAATATTTTTCTAATACAGAATTTAAAACAAAATACTTATTTGAAGGGAGATCTGGTAAATACACTAAAAAAAGTATTCAATTAATTTTGGAAAAATATTCTAAAGTAATTAATCAAAAAGTAACACCACATATGTTAAGACATAGCTTTGCTACACACCTATTAGAATCAGGAACAGATATTAGATTAATTCAAGAACTATTAGGACATGAAAGCGTTAGAACAACTCAAATATATACAAAGGTTGCAAAAACAAATATATTAAAAATAAAAAATCCATTAGATTAAGATATACACTGGACAAGACAAATTAGAAAATTAATTATAAATTAAAACAGCTAATTATTATTATGATTGACTTATGTATGAAATTTCAAATTTATCAATGTAATAATTGTGGAAATATTCAAGCAAGTACATCAAAAAAAACATTTAAATGTTTTAATTGTGCTAAATCAATTAAAATTTTAATAAAAAATAAATCAGGCTCAAATTTAAAAATATTATTTTCAACAAATGATTCTAGTGAAGCTCCCTTCATGGTAAGAGAATTAAAAAGACTAAAATATGAAGGTAAATTCTTTGTTTAATTATTACAATAATTTATAAATTCAAAAAAGAAAAAACTCTTATGGATAAAATAAAAGGCTGGAAACCAATTCCAATTTCATTAAAAATTATATTTGTATTATTTATTCTTTGGATATTTGGATCCATAATGAGTATTTCTATGAGATATGAATTAGGTCTTCCTTTCTTTGGAAATTACATAAGTGGTTTTATTGCAGCTTTAATTGTATTTTTATTAGATATATTAGGACCGATTTTATTTTTGTATGGATTATGGAATAGAAAATCATGGACTAATATGATTGCATATATTTTTATTTCAATTTTTGTATTAAATAGTGTTTTTGCACTAATTTATTTTAGAGAATTATTAGGTATTATGCCAATAGTAATTCCTGCATTAGTTTATTTAGTTTTTATGATTATAATTAATTTAAATAAAAATTATTTTGAATAAATTGTTTATAAATTAAAATCATTATGTTTTTAAATAAGATATATTCTCATAAACCTAGGTGATATTATGGCAACTTATTGGACTATAATTGCAATTATTGCAGCAATTGTTTTGTATATAATAATAATGTATAATGGATTAATTAGATTAAGAAATGAAGTGAAAAACTCATTTGCAAACATAGATGTTCAGTTAAAAAGAAGAACAGATTTAATTCCAAATCTAATTAATACAGTAAAAGGATATGCTAAACATGAAAAAGAAGTTTTGACTGCAGTAACAGAAGCAAGAAAATTAAGTATGGACGCAAATACGATTGAACAAAAACAAAAAGCAGCTAATGTTATGAGTGATACATTAAAATCATTATTTGCAGTTTCTGAAAATTATCCAGATCTAAAAGCAAGTGCAAACTTTATTCAATTACAAGAAGAATTAACTGGAACGGAAAATAAAATTGGTTATTCAAGAAATAATTATAATGATATGGTTTTATTATTAAATAGTAAAGTAGAATCATTTCCTTCAAATATTATTGCAAATATGTTTGGGTTTAGACAAGAAAAATCATTTGAAATTAATGAAGCTGAAAGAAAAAACGTAAAAGTTGAATTTTAATTAAAAATGATTAATGTTCATGATCAGATAAGACGTAATAAAAGAAATACTATTTTTTTAATTTCTACTTTTTTAGTAGTAATTTATGCACTTAGTTGGATCTTAGGAGCAGTTTGGGGAAATCCATATATGGGAATGATTTTTGTAATTCCAATTACAATTCTTTATGTTTTATTTGCATGGTTTTCAGGTAGTAATATGATACTTGCTACAATGGGAGCAAAGCCTGTAAAAAAATCAGAATTTCCACATTTATTTCATACTGTTGAAGGTTTAGCAATTGCAGCTGGAGTACCAACTCCAAAAGCATATGTAATTGATGATACTGCATTAAATGCATTTGCAACTGGTCGTGATCCAGAACATGGAATTATTTGTGTAACAACTGGTTTAATGAATAAATTAAATAGACAAGAATTAGAAGGAGTAATTGCACACGAAATGGCTCATATAAAAAATTATGATATTCGTTATATGATGCTTGTTACAATCTTAATTGGTATAATTACTTTATTATCAGACTTTTTATTAAGAACATTTTTATACAGTTCAATGGGTGGAGATAGACGTGAAAATAATCAAATGACAATAGTTTTTATTGTAATAGGAATTGTTTTAGCAATATTAGCCCCATTTATTGGACATTTAATTAGACTTGCAGTAAGTCGTCAAAGAGAATATTTAGCTGATGCCACTGGTGCAAGATTAACAAAATATCCACAAGGATTAGCAGATGCATTAAAAAAAATAAAAGGAGATCCAGATCCATTAGTTGATAAAGCAAATAAAGCAAGTGCACATTTATTTATTTCCACTCCATTTAGAAAAAAAGCAGGTTCATTTTTTTCAGGAATGTTTTCAACTCATCCACCAATTGATGACCGAATTCAAAAACTTGAAAGAATGTAAAAATTAAATATTTAATAACCATTTCCAAACTGGAATTATTATTATTTTTTTACCATTAATTTTTTTCTTATCTTCAAAATCAGATGTCAAAATAAACCCTTCTTTTAAATTAAATTTATTCATGGACTCTAGTAATCCATTAATTTCCCGCTCCCAATTATCCTCAGATATTGATTTTGTTACTTGTATTGCTTGAATAATCTTTCCTTTTTCGAGTATTATAAAATCACATTCATATTTATCTTTATGATAAAAAACTTCTTTTTCTAAACGTTTTAGTTCTATAAAAACAATATTTTCTAATAATCTACCATAATCTTCTTTTGCTGAAATTAAATTAATGAATCCATTATCAATACAATATATTTTTTTATCAGCAATTTTTCGTTTTGAAATGGATTTATCATATTTTTCAAGGTAAAAAAATAAAAAAATATCTTGAACATGATCAGCTAATTCATATAAAAAATCTTTAGAAACCTTTACCCCTAAACTTTGTAATTGATTAAAAGTTTTTGCAACAGAAGAAAATGTTGAAACGGAATTAATATTTTTATTAATGAAATATTTAGTTGCAGTTATATTTTTTATATTAAAACGTTCAATCAAATCTCTAAAAATCATAACATCCAAATATGATTTTAACTGTTTTTCCCTAGTATATTTATCATAATTAATTAATTCCGGATAACCCCCGTTCATTAAATATTTATTAAATTCAGATAATATTTCTGACTTTTTTTGAGAAGTTATTTTTGAATAATCAATATTTTTAAAATTAATATATTCCTTAAATGATAATGGTAAAACTTGATAACTAATAGATCTTCCACGAAGTGAAGTAGAAATTTCTGTACTTAAAAGTTTGGCAGAAGATCCAGTCAAATATATATTATTTGTCACTTCATCGTTAATTCGGCGTATAAATTTTTCCCAATTGTTTAACATATGAATCTCATCAAAAAAAAAATGAAACTTTTTTAAATCCTGATCATAATATATTTCCATTATTGCATCCAAAACTTCATCTGGTTCTTTAATGTTTAATCTATCATCTTCAAAATTAATATAAACATATTTATTTAATTTAGATATCATATTAAAAAATAAAAAAGTTTTACCAGATCTTCTTGGGCCAATTAAAGTTATTATTGAATTTGTTTTTAAATTAATTTTTATATCCCTTTGTTTACTTTCTTTTAATTTAAAATCTAAAATTTTTTGCTTAATTATTTCTTTCATAATAATCAAAAGCAGTTATAATATATAAACATTCCTTTTCAAAAGGAATAATAGTGATAAAATAGTCCTTTTTAAAAGGAAAACTAAAAATGATGTTTAAAATAACTAAAATGGAATTTTAATTCTTTTTTCTGGCAATTGTTAAAATAAATAAACTTTTATCTTTATCAAACTTTTTTCCATCCATACTTAAAAATTCCAATACTTCAAATCCATTTTTGTCAAGTATTTTTTTTAATTGATTAGAGGAATAAATTTGCATATCCCAAGCTTTCTTAGATATATTTAGTTTATTAAATCCATTTTGAATATATATTTTTTGATTCATTGACATAATTTGTTTTGTTCTATTTAATTTATTATTATTAAATCTAACATATTTTACTCCATCAACATCACGACATGTATCAATAAATTCATGTGTGATAAAATTATTTTTCATAAAATCATAATTTAATATATCAAAAATATATAGTCCATTTGATTTTAAATTATTTGCAATATTTTTAATTGCAATTTCAAAATCAGATTTAGATAAATGTCCAATAGCATTAAAAATTGAAATTACTGAATCAAATTTACCTTTTCTTACTTTACGCATATCCCCTTGAGAAAATTTTAATTTAGAATATTTTTGTTTAGCAATTTTTATCATTCCACTACTATAATCTGATGCAGTTACATCATATCCATTTTTATCTAAAAAAATCGCTTGTGCTCCAGTTCCACAAGTTATATCAAAAACTGATTTAACTTTATTTTTTTTTAATAGTTTATTTAATAATTTATTAAAAACATCTATACTTGGCTCAGCTTCTAAAATATCATAATGTTTTGCACTTGAAGTATAATCATAATCTTTCATTTTTTAAATTTCTTTTTATAACCTCTGTTAATTCTTTTATTAATATTAATTTTATCAGAATTAATTTTAAAACGTATTATTATTAAAATCACTAAAACCAAAATAAATAATTTCCAACCAAAATTAAAATCATTAGATTTGTTTATTTCTAATTGAGATTCATTTTTTATTTTATTTTCTAAACTAATATTTAAAATATCTTCCTTATTTTCATTTGATTCAATTATTAATTCCTCTTCATTAAATTTAATTTCATTATTCACATTAATTTTAATACATTCACTTATATTAAAAGTATGTTTAACATCATAAAATCCATAACTTCTAACTAATATAGTATAAGTTCCAACATTGTCTAAATTAAAATTCTCTATTAATGAAAAATCGGAAATAGATTTATTTCTATACATTACTTTTTTTAAAATTAAATTATCATTATAAATATCATTTCCATCATAAACAAAATATTTAGCTGAATATAAATTATTACTATTAATGCCTTCGACAATTAAATTAATAGGCTCATCAACACATACACTTTTGATATAAACAGCCATGTTTTTAACTATACTTCCCGCTCGAGAACCGCCGCCACCACTAGAAGAAACACTAGGACTTGCTTGAATACCTAATACTGCTGAGTATCTTAAATTTTCTACTTTTATAATTGAACCTTGATCAGTACAAGTAACACCAGAAATAGTAACACCAGTACTATTACCAATACAAGTATCAAAATCAATTTCATTACTACCATCACAATTAGAACTTATTTGATCAATTGAACTAATTTCTTCATTTTTAACACATAAACCAACAAAACTATTATCATCAAGATATAAAGTTTTATTATAACTATTTTGTAATTGTCCAGAAAGATTTACTAAAATTGAATTTGATGTTTTGCTAATTATAGTTTGATTTAAATCAAAATTACTAGATGAAAAATTATGACTAAAATTAATAATTAAATCAGACTCATCGTAAAATAATAGTTTCTGAACATTTAAAAATGAACCCACAGTAGAATTCCCACCAACAGTAATATTTAATGTAGTAATACCAGAAGTTACAACATTACTCTCATTATAAAGAAGAGTATCTAAAGCATCTATTACCCCATCACCATCTCCATCAGTATTATTTACATAAAAATTAATTAAAATTGAATCATTTAAATTCCCAAGAGTATCATTTGCATAAGCAGTTATATTATAATAACCATTAGATAAATTAGTTAAATCATAAGTATAATTCCACTCATTACTAATATTTGTTGCTTGCAGCCAAGAAATTTGACCACTTGAATTTGTTATATTAAAATAAACTGTATCAATATCAGAATATGTATCATTAGCAGTTATATTAATTATTAATGAATCCGAAACACTTTCACCCTCACTAGGATTATTAAAACCAACTAAAGGAGTAGTATTATCTACAATAAAATTAATTGAAATTGAATTATTTAAATTTCCAACAGTATCATTTGCATAAACTGTGATATTATAATAACCACTAGGCAAGCTAGTTAAATCATAAGTATAATTCCATTCCTCACTAATATTAGTTGATTGAAGCCAAGCAATTTGATCACTTGAATTAGTAATATTAAAATAAACTGTGTCAACACCAGAAATACTGTCATTAACAGTTACATTAATTATTAATGAATTTGAAACAATATCATCATCACTAGGATTATTAAAACCCACTAAAGGAACAACATTATCAATTGAAAAACTAACAGTATCACTTCCAATATTATTAGAAGTATCATTTGCCCAAATCGTAACATTATGTTGACCTTCACTCCAAGTAACTAAAGTTATATTTGCACAACTCGCTAAACTATTATTAACAGACATAGTATCATTACTATACCAACAACTATCTACTCCAACTGCATCAGTAACAGTAAAATTAATATCTAAATTAGTATCAGTTGAAAAACTATTATCATTAGGAATATTAATTGTAATAGTCGGACTATAAATATCTCCTAACAAATTTGCAAATCCAAAACCCAATAGAAAAGGATAACCATCATTAATTGATGGATCAATATGCCAAAAATCTAAATTAGCAGAATCATTATTAGGATTATTTAAAAAATCCCATGCTGTTGTTAAACCCACAGTTAATAGATCTGTAAATGTCTCAATATTTTTCATATCACTAGTAATTTTACCTGTTGCACAATTATTAGAATCAGTAGTTACTCCTGAAGTTTGATTATCCCAAAAATTATTATCACAACTACCACCAGAATCTTGACCCATAAAACCATCATCACCAGTAGTTCCAGTTGAATAAGAATTTTCAATAACTGAACTTATTTGTTTGTAGCCCACTAAACCACCAGTTGAACTTGTAGCTGAAACATTCCCCCTTGCAAAAGAATTATTTACAATTGCACTAGATTGCATAAAACCTACTAAACCTCCTATTGAACTGCCAGATGAAGTCACATTACCTAATGCATATGAAGTAGATATAGTTGCAGAAGTACTAATACCAACTAAACCACCTGTAGTTGAAGATCCAGTTACATTACCAATCGCATAGGAATTTTTAATATAACCTTGATAAATTTCACCAGCTAAACCCCCAACTCGAGAATTAGTACTTACAACATTACCAGTAGCATAACTATATTCAACCTTTCCTCCGTCAGTATAACCAATTAAACTTCCAATATAAGCAGGATTTCCTCTATAACCATATGCATCAACTGAAGAATAAGAATGATTAATTGTTCCAGTATTATGACCAACTAAACCACCAATAAAATAATTCCCCTCAATATATCCGGTCGAAAATGAATTATTAATAGTTCCCCCCCAATTTGCACCAGCAAGACCTCCAGTTCTTATACTACCATTAATAGTAAAATTAACTAAACCTAAATTTTTCACCTCGGAACCAGTTGTTAATACCCCAAAAAGTCCTTGATAATCTGTACTTGATCTATTAATCCATAAATTAGAAATATTATAACCATCCCCATCTAAAGTTCCTGGAAATCTATCAGCATTACTTCCAACTGCTAACCAACCAGCACCACCATAATTTAATGAATGGCTTATTACTGATGTATTCGAACAATCAATATTATTTTGTAATTGATAATCTGCAGTGTCATCCACTCGCGTCAAATTTAAATCCTCACAAGAACATAACGGAATTGGATCAGCTGAAGCATTATAGCAACTAGCAGTAACAGAATTTACAAATAAAACAAATAAGAATACCAAAATTATAAACTTTAAATGGACTTTCAGCTAATTCACCTCGTATATATATTATAATCTTATTTTTTACATTATAAAACTTACTAAAAAGAGTTGTTTTTGAGTATACAAAAATATTAATAATTTTAATATAACACTAAATTTATATATTCTTTTTAATATCAAAAAATATGGATTTTGAAACATTATGTAACTATTTTGAAAAGTTATCAAATACGTCTAAAAGACTTGAAAAAATAGAAATTATAAGTCAAATATTATTAGCTACACCTAATGATTTAATTGAGAGAATTGTTATATTATTACAAGGAAAAGTACTTCCTATTTGGGATAATAGAAAATTAGGAATTAGTTCTAGGCAAATAATAAATATAATTAAAACAATGTGTTCTAAATCAGTTTTAGATATAGAAAATGAATGGAAAAAAACTGGAGATTTAGGATTAGTTGCAATGAATTTATTAAAATCTAAAAATCAACAAACACTATTTAGTAAAAAACATAATTTGAAAGAAATATTTGATACAATTGTAAAATTAACTGAGACTGTTGGAGAAAATTCAACAAAAAGAAAACAAGCAATGATTGCAAATATATATAGTAATATAAACAGTATTGAAGCAAAATATTTAACTCGAATTTTATTAGAAAATATGCAAATGGGAGTTGGACCAGGAACAATTAAAGATTCTATTATATGGGCATTTTTACCAAAAATATATTTAATAAATTATAATTTAAATAAAGATTTTGTAAAAGAAAATAAAAAAAATAAAGATAAAATTAAAGAAAAATTAGTAGAGAGCGGATTAAACATAATTGATATTGATAATTTTGATCAATTTGAAAAAAATTATATTAATGCAGATAATCAAAATTTATTTTATAGTAAAGATGAAAAATTACTTAGAGAAATTTATAATTTTTATAGCAATAAAATTGAAAATGCATATCAATTAACAAATCAATATAGTATAATCATAAATACAATAAAAGAAAAAGGGTTTTTTAAAATTACAAAATTAAATTCTAAAGTAATGAACCCAATTAAAGCAATGTTATTTTTAAAAGCCAAAAATATAGAACATGCTTTTGAAAATGTTGGAAAACCTGCAGCTTTTGAATTTAAATATGATGGTTTTAGAGTACAATTACATAAAAAACAAAATGAAATTAAATTATACACTAGACAATTCGAAGATGTTACAAATGCATTTCCAGATGTAATAAAAGATGCAAAAGAACATATTAAAGCAAATGAAATTATATGTGATTGTGAAATAGTTGGAATTGATATTAATAATCCCGAAAAAATATTACCGTTTCAAAAAATTAGTAAAAGAATAAAAAGAAAACATAATATTGATCAAATAATAAAAGAAGTTCCAGTTAGATTATTTGTTTTTGATATAATGTTAATTGATCAAAATAGTTTACTAAATATATCATTTGAAAACAGAAGAAAAATATTAGAAGAAAATATAATTGATTCAAATAAAATACAAAAATCAAAAATGTTAATTAGTGAAAATATTAATGAAGTAGAACAGTTCTATAAGAAAGCATTAGATTTAGGTAATGAGGGAATAATGGCAAAAAAATTAAATGGAATTTATAAGCCAGGTAATAGAGTGGGATTCGGAATGAAAATAAAACCAACAATGGAACCATTGGATTTCGTTATTACAGGAGCAACTTGGGGAGAAGGAAAAAGAGCAAATTGGATGACATCATTTACACTTAGTTGTAAAGATGATGAAAGTGATGAATTATTAGAAATGGGTAAAGTAGGAACAGGGTTTAAAGAAATTACAAGTGAAGAGGAAAATGATACTGATATTAGTTTTGAACAAATGACTGAATTATTAAAGCCACATATTAAAAAAGAAAATGGAAAAGAAATAGAAATAATTCCAACTATTGTAATAGAAGTTAATTATGAAGAAATACAAAAAAGTGAAAATTATAATTCAGGTTATGCACTTAGATTTCCAAGATTATCTAGACTAAAAAGTGATAGAGATCCATATGATATTTCACCATTAAGTTTTATTACAGATTTATATGATCAACAAAATTAAGAATTATGTGCTCTCATATTCATTCTAAGTTTCATATGTTCAAATCTAATACTATCTAAAACACTATTTTCTAAATTTCCATAATATTCATTTTTAGGAGGCAAAAAACCATTTAATATTAATTTTTTAACACATGTCAAATATTGTTTTCTATCATTAATTAAAAAATAACTTTTTGCATCTTCACCAAGACCATTTAAATTTAAAGTAATACCACCCAAATGAGATGATAAATTATTTATATCAACACCAAATGGTTTTTCTACAAATGCAGATAAAAAACCCATTTTATTTGCATATAAAACTTCTGAACCTATATATAATAAATTACTATTATCATCTTTTAAATTAGGTAATCTTTCTTTCAATAAACCTCTATCCATATTCTGTGAAACTACATATGGTAATACAAATTTCTTATCTAAATTTAATTCAATTTCAGATTTCATTTCATAATACAAGCAAACATCAGAAATATTTAATCTTAATTTTACATTAGGATTATATAAATCTAATATTTTTTTATAGTTTAAAATTGAATTTTTCACACCAGAATTTTTTTCTGAACTAGATTTTAATTTTTTTAAAAATAAATGTGCAGTTAAAAAATCAAATGAAAAAATTATATTATCGATTTTTTTTTTCTTGACCAAATCTAAATCTTCAATATTTTCAATAAAAAAATGAGGAATTAAATTAGAAGATTCACCAAATAAAAAATCTTTTGTTTCATAAAATTCTTCAGGTGCCAAACATTCACCATCATTAATTATTCTAAAATAAGTTTCTAAATTAACAAAAGTTTCTGAAACTAAAGACATTATACTTTGTGAATTAAATTCGGATATATTTAAATTTTTCATATTTACTATCTTTCATATTATAAACTTGTTAATTTGTTTTTAAAGTTTTTTATTGTTTCTAAAATATATATAAAAACAATTAATGAAAATTCCATATTCAATATTATTTTTTATTGAAGTTTACAAAAAATAATATTTAGACTGGACCACTGGTCAGCTCGTCATTTTATTTATAATATAAAAAAACAATATATAATTATAATAAATAAATCAATATAGGTGTTGATTATTCCTTTTAAGATTTACTCAATATTTAACATATTGTAAAAGGGAAAAATTAGTATAAAAGTATACTTAAAAAAATAAGGGGTAAAAAATGATTGAAAAAAAAATAAAAAATTTATTTTATGATAAAAAAAAAGATGAAAATGAATTATTTTATGCAAATGAAAAAACAATTGATAATATAATAATAAAAAAAGAAAATGAAATTAATAAAATTAAAAATCAATTATTAATAAAAGAAAATCCTTTATCTACATTTACTATTCGAAAATATGAACAACCCTTAAAACTAAAACCAAGAGATTTAATTAAAAGATTTATATTATCAATTGGAATGTTATCTCCTGGTGAGAGTAGAGATGTAATAGTTGATATTTTGTATGTAATGTTACAAATAAAAAAAAGAAAAAAAAATTTAACTAGTAAAGAAATAACAAATAAAGTTATTATTAATAGAAAAAAACACAAATTAGAAATGCAAGGTATAGCTGAAAGTAATATAAGACGTCAAATTAAACGTTTACGTGATATCTTTATTATAGAAAAAATAAAAAACGAATATAGAATAACTGAAAATATGCCAATTGAACAAATTTTTCATGGTAAAATTAAACCATATTTATTAAATGAAATCTTAATGAGAGTTAGTGATTATACTAAGGAAGTTGATAAAATTTAATAATAGCTAATTCACACACATTTATTTAATAATTTTTGAATCTAGTGGAGAATAAATAAATAAAATTTTTGTATATAAATTCACTAAAAAATTAACAAGATATATAATTAAATAAGATAATATTGTAACTAATATAAAAAATATAGCGAATTTAGAAATTATTTCTAAAACATAATAAATCCCAATATAACCTAATGGATCTAAATATGTATTATAGTCAAAAATTACTAATTTTGCAATAAGAAATAATGAAAAAAGAAATGCTATAATATTAAATGAACCAAAATTTAATGTATTTCTAATTCCAATATTTATACTTGCATATAATTTAAAACGATCATTATCCTTTAAATACATTGGATACATTATATTAATTGCCTTTAATACCTTTAACTCATTCTTAAAAATTGCTTTTAATTTTTTATAATCTTTTAAAGAAACAAAATCAGATACTTTGAAAATATATTTTAAAAATAAATCAATACCCATGATTTTATACAAATCCCTATTTGCAATAAATAAAATTAAATCAGATTGAAAATTTTGATATCGATATATGTATTCATATAGAGTATAATTATCCTTAAAATTTGAATTTAATAATAGCCTAATTTGTTTTGAATCTAATTCATGACCCTTAATAAAATCTAATACATCATGTAACTCTTTTTGAGATAATTTTGATAAAAATGAATTTATTATAACCTGACTACTTGTAAAAAATTTCCTTCTAAAAAATATACTATTATTTAATACTAGAGTAACAATTGCACCTACAAAAAATATTAATGGTCCAAATATACCAGGATCTTTAAATGTATAAACTAATGATAATATACCTAATGATAAAAAAAACCAAAATTCATCAGTAACACTTAAATTCCATTTTTCTAGAATTGGCCGTACTATTAATTTGTACATATTGTCTAAATATGGAAAAATTAATCCATTAAATCGTTTAATACCTAAATCTTTTTTAGACTTGTTATTATCTATAGTACACCTCTTAGATTAAAAAAAGAAATATTAGCTTAAAAAGTTTACCCTAAAAATATAAAAAATTAAAAAAAATTAAAAAGAAACTAATATTAATGTAATAAAAATTATTTCTACTAATTTATGAAATGAATTTAAAAAAAATAATTTTGGACTTTTATTTTCCCATAATATTGGTTGCAATAATGTTGTACAAACAAAACCCAACCATAATAAAATTGCCCACAATAATCCACTTAATAAATCAGTTATTGCTAAATTTTTCAATAATATTGAAAAAACATATACAAACAATAAAGTTGATACACCTGCCATAATAAATGTACCCGCCATACCACTTTTTTTAGCTTTTTCTATTTCTTTTTTAGACATACCAACTAATTTCATCCATACTTTACCAAATAATGGCCCATACCATACCATACCAATAAACATAGATACAATTGTTGCTACAATTATAGATATTATATTTACATTAAAATCCATATTATCACAAATTAAATGATTAATTTTGATTAATAAATATATGTAAATTTATACAAATATTAATTAATGAATACTTATTAATATAATTATGATTGAACCAGAAATTGTAAATGATATAAATAATTCAACTTATAATAATAATTCAAAAACCCATCATAATAAATTTAAATTCAAATTGTATAAAATGAATGGATTTAAAGCAATTCTATTATTAATTACAATATTTTATATTTTAATAAAAATTGGTTGGAATATTTTAATCAGCCTATTTGATCCAATTTTAATAATTTTAATTATAATTACAATTATTGTTTGGAAGTTTTTTTAAACCATTGAGACTTAGCCATTAGGCTCCCATATTCAAAATTATAAACTAATAATAAATTTGTAGGTTCTTTTAAATATTCCACTACAGAACAAAATTCTTTTTTAAAATTATTTCTTTTTCGTCCTGGCATTAATAGTTCATCGAAACTATCACTTGTTATTGCGTATAAATGAAATAAATCATAATTTTTATCCCCAATTATTGCACTTGCTAATTCTCTTTCTAAACTTAAATCTCTTTTAAGTTTTTTTGACACAGTTGGATTTGCAATAATTACTTGTTTATGCCCATCTTTTTCAATAGTAATTAAACGAGTTAAATTAATTGGTTGATCAGAACCATTACATGAACCTTTAATATAACTACCAGTATCACAAAATTCTATATTACAACCATTTGTTTGATAAGGTGCTTGAATATATTCAATTGAATCAAAATTTTCACTTTTTACAAGTCTATTAAAAAAATCATCCAAAAAAAATTCTAATATTAATTGTGTTTTTGCTCTTTTAGGTGAATTAGATGATTCAACACTATTAGAATATGCTAAAAAAGAACCCTCATTAATAGTTGGTAATCTAGGATTAAATTGAATTATTCTCGGTAATAAACGTTCATCAAAAGTTGGTAATATATCAATAAAATCACCATTAATACTAAAATCAATTTTTGATTTTCCATTTAACAAAGGCTCAGTCATAATCAGAAAAATAATATCACACTTATAAGAATTAATTAAAAGAAAAATATATATTAAAAAACTTAATCTGAAATTATAATTAAGATAATTTTATTTTCATTCACTATCTAAATAAAAATGTTTTAATTTAGCACTACGACTTGGATGTCTTAATTTTCGTTCTGCTTTACATTGAATTTGACGAATACGTTCACGAGTTACACCAAACATTTTTCCTACTTCTTCTAATGTTTTTTCCCACCCATCTTCAATTCCATAACGATGAATAATAACTTTTTGTTCTCTTTCAGTTAAAGTTTTTAAAACTTCACCAACTTTTTCTTTTAAAAATAACTTATTAACATCATTATCAACAGGTTTATTATCATCGGGAATAAATGATTCTAATGTTGCTTCACTATCCCCCATTTGAACTTTTTGATTAAGTGAAGCTATATCTAATGAATAAGTTATAATTTCATTTACTTTATCTACAGTTAATCCTAATTCTTCAGCAATTTCATTAGGTTTTGGATTGCAATTATTTTTTTGAGTTAACATTCTTTGAACTTTACGAACCATATTAATAGTTTCAACCATATGTACTGGAATTCTAATCGTTCTAGCTTGATCTGCAATTGCACGAGTTATTGCTTGACGAACCCACCATATAGCATAAGTACTAAATTTAAAACCTTTTTTATATTTAAATTTATCAACCGCACGTATAAGTCCACCATTTCCTTCTTGAATTAAATCTAAAAAATGTAAACCTCTTTTAGTATATTTTTTAGCAGTAGATACTACAAGTCTTAAATTACTCTCAATCATTTTAGATTTTGCAACCTTATCACCTTTTTCAATAAGTTTTGCTAATGCTATTTCTTCTTCTACACTTAAAAGTGGAATTTTTCCAATTTCGAGAAGATAATTTTTTACAGTATCCTCATTTTTAATATCACTTAAATATGAATTAGAAGATTTATCAACTGATGCGTCCATTCCCTTAGTGTATGCATTCTTTACATCATTAGCAGTTATTTGTTTCACAATTGTTTCAGAATCAATTTCAGTACCTTCTCCAATTCCATAAACTGGTTTAATTTGTCGTAATGAATTCGGTGAGTCTAAATCAAAATAATCCGCAGAAACTTCAACAAATTCAGTTGCATTTTTACTTTCATCTAATTCAGGAATATCATCATACAAATCAGAATCATTTGAATCATAAATAGGAGTTTGTTCTAATTTTTTATTAATATACTCAGTTTTTTTTGTCCTCGTAGTTTTTTTTTTATTAACTGGTTTAGGAACCTTAACATATTTTGTATTTGAATCTTTTTTAATTGTAGTAGATGGTTTACTTTCTAAAATAGTTTCCAATGGAACACTTGTTTTCTTTGGTTTTGGTTTAGATAAATCCCCTTGAATAACATGCAATTCTGGTTTTTTATATTCAAAATCAGCTTCACCAGCTTCACCAACTAATTCAACAAGTTCTTTAACAAAATAACCAAAAGTATCACCAACTTTTTTCATTAAATGTCTTATATCTCTACGCTTATAATCTGTTGAACTATGAAAATGACCTTGTGCTACAAATCTTTGTTCTGGTAATAATTCAACATCTAAATAATAACTTAAAACTCCTAATATTAAAGAACCAGAGACTTCATTTGGTAAAATTTTACTAAGAACACTATTATATTCATCACTCATATCTAAATCAGAAAGAGAATATATTTCTCTAGGTGAAATATCACTTATTTGTAAATAGTTTTCTTTTTCTACCCTATTTGGATTATTCATTTAAATACCGTCATAAAATTGTTTAAATTTATTTAAATTATATAAAACATCTTCGCCATCTTGAACAGGTATATCCTTTTCATGATTATCTAAAACATCCCAAGTTTTATCTTCATCAAAACCCTTTTCAATCAATCCACCAGCAGACAAATATACATCATCTAAAGGACTTTCAACTATACTTTTAGAATCTAAGCCACTATTTAAATCTTGCTCCAAATTTAATTTAAAAGTACCATCCATAATTGCATCTCTCATTTCAGGAAATACTTGAGCTACAAGACTTAAAGAATACATTGAATCATCTCCGGATCCATTAACACTTCCACCCAACCAAATTTGTAAAACATCTTTCGGTAATTTATACGCTTTCGTTGAACAAACAAATTCATATACTTCAGATAATGAAACTTTATTTTTTAAAACACTCTCAAATTGTTTTTGAAATATTTCTTCTTCATCAATCGCATAACTATAACTTTCACCACAAAATTCTTTTAAAACATCTTCACTATATAAACCATTTTCACCGTCCCCATGACAAGCTTTAATACGTGCATTTAATGTATCAAAAGGAATACTATTTTCAACAAGAGATCTTTCATGTATTGCATATATATTTGGAAGCGTAAACATTTGCATTTCATCATTTTCATCAGGAATTGTATCCTTGTTAAGACTTTTTTTTTTACTTTCATATAAATTTCTTTCTTTAATTACATTTCTAACATATGTTAAAATTTCATTTCTTTGTTTAGGATACCTAGATATTAAAATTGAAACTAAACTTGATGCATTCGGATCCCCTTTATAACGATCTTTTTCTGCAAATTTAATACGTGGAAGTTTCAAAAAATCTGCATCTGAATCTAAAAATTTTAATTCTTTTAATAAATTTAAACTCACTCCTTGATTTAAATATAAATTTAAAATATCTTTTTCTTTTTCAACAAATTGTTTATAATCACTAAATAATTGTTCTAATTTTCCTTTTTTATCTCTATAAAGTTTTTTTGAGAATATACTTTCACCCAAGTAATACCCATCAGTAAATTTTAATTTTTTAGATAAATTATTTGAAAAACGTATAAAATCCATATCAAAATTATCATCAAAAGAAACAAGTAAATATAAATCTCTTGCAATTACTTTAGAACTTAAGAGTTCATCTAAAGAATTTACTTTATCGATATTAGTTATATTATAATTTTTTGTTGGATCTAAATCTGTTGAATGAGTTTTTTTTGTTTGTCTAAGATTTAATTTTTTTGATTCACCTAATTTTTGTTCTAAATTCTTATCTGCATCAATATTCTTATCTACATTTGTATCTGGTTCACTTTCACCTATATTTAATTTTCTTTTAACTTCATTTAAAATTTTACCTTCATGTTGTTTAAAGAATCTAACAATCACATCCAAATGATATTTAATTACTCCATCTTCTTTAAAATGAGGAACTCCTTTTTTTTTAAACACTTTTTTTAAAAGACTTTTTGCTAAAAAAAAAGATCCAGAATGTTTTAATATATCACCAACTTCATTTAATGTAAAACTTATTTTTGATAAATCAACTTCTTTTTTGAAATTATCACAATCATAAATTTCATCTGATGAATCTAATGGTTTTGGAATTTCTACAATAGATGGAGGTTCAAGAATATCAGAAGAAGATTCAACTTTAATTGGAGTTGGAATAATAGATTGAGGCTCAAGAACATCAGAAGATTCAACTGTAATTGGAGTTGAAATAATAGACACTGTTTTTGAAACATCAGAAGAACTAACTAATGCTTCTAATTTAGGTTCAACTGGTTTAATATAATGTTTAGATTCTAAAACAGGTTCAATTTTTATAGATATTTTACTTTGATTAAATAATTTGAAAGGTTCAGCAATTTGAGTTAAAGGTTTTTTCTCTATATTAAAATTTAATAAATTACTTCCCATTATTAAATTCGATAAACCATATACAGGTTCATTTGCTTTTGAATCATATGATCGAAATGATGAAAAATTAAAATCAGAATTACCTTCCTTTTTTGATAATTTAACTTTCAAATCAGATTTTTTAATTTCTTTTTTTTTAATTTTATGATCTTCAATAATAACTTGAGCAGCTCCCACAATTTCAGGAATATTTGATTTTAAATTTTCAACAATCATAGCTAATTCAATTTCATCTACATCATTTGTAAAAAATGGATCTAAATCAAAATTATTTATATCAGCACAATCTAAAATATCTAATAATTCACTTTTAGAAAAACAAGTATTTAATTCAGCTCCATATTTTTTAAATATACTGACCCAACCTCTTTTATTTGCTAGACTGTTATCACTTAATATTCCCACAATAAATTATCTTAGAATTTACTTTATATACATTTTGCAGCATAAACATAGTCTTTTAAAAACACATATTAAACCTATTATAAATTATAATTGTAAAACTTTTGGTAATTTAGATCTTATCTTCAAATACCATTTTGATAAAATATACATAATTCCAACTAAAGGAATAGTTAATATCCATGCATGTAAATCTGGAAGTAAATCTTTATATCCACTAATTTCTAAAACTTTTAAAATTAATAAATAATGACTTACATATAAAAAAAATGCAGCATAACCAATTTGTTTTAAAAAATTTAAAATTGAAGAAGTAATTCTATCTGTAAAATTATTATAAAACCAAAGGGCTATTGAACAAATTAATGCCGATTGACTTACAGCATAATGTGTTAACATAAATGATCTACCATAATAATTAATTGGTAAACCTAAAAAATGTATTACAAAAGTTAAAATAAAATATAATGCACTATAAAAAACTAATTTTTTAGAATCAATACCTTGCATAATTAAATTAATTAAAATAACACCACCAAGCATAATTGGAAATAAATTAAATATTGAAAACCAACCTCTAAATAAGGAATTTAAAATTACACTCCATATTACCGAAAATGGAGAAGATAAATCTGGTTGTCTTGGACCAATTTCACCAACTATTGTACTATCAACAATATAATACATTTGAGATTGTAAAAATGCAAATAAAATTATTATACTAAATAAAAATAAATATGAACTTAATCTCATTTTTTTTAAGATTTTATAAAACATTAAAATAAATCCTGCAGTAAAAATAGCAGTTAATCCAATTCCTTGAATTGCTTCTTCCCATCTTAAATAAATAAATATATTCCACATAATAATTGTAAATGGTAAACTAATTAAAATATATTTTCCATATCGTTTAAAAATTTCTTTTAATACTTTTAATTTAGAACGTGGTTGACTTCCAGACATTCGTTTTCTTAATAATAAAAATACACTCATACCACTAACAAATGTAAATAATAAACTTGGTGGAAACCATGTAACAGAATGAATCATTTCTACATAGTATGGAGGTGTTGTATAAATACTTGAAACAGATAAAAAATCAAAAATTTGAATCGTTACCATAATAAGTAAAGCTATACCACGAAAAATATCAACATAATCTAATCTTTTTATCATCTATCACACATAATTATTTCTGAAACTGTTTTAATTTCTATTTGCTTTGCTTTAATATAATTAATAAGATTTTCTAAAATATTAGGATGAATTGAATACTCGTAACTATTGTTTGTAGTAACTAAGTGTAACATAAATACAGTCCAAGTATTATTAATTAATGTATTGTCAACAATTTTTTTTAAAAATGACATTTGTGTTCTATTTGTAATCCAAATTGACGAAATATTATATTTATCAAAATTATTTATATCATTATAACCCCATGTACTTGGCCTAATAGAATTATAATATTTTTTTGCTATTAATTTAATTTGATCATTATAATGTCCATAAGGAATTGAAACTGAAATAATATTAAACCCATTATTATTTAATATTCTCTTTGATTCACTAAATTCAAATTCAATTTGAGAATCATTCATTTTAGTCATATCATTATGTGTTAAAGTGTGACTTGCAAGTTCCCAATTAGAATTTTGTAATTCTTTAATATGAGACCAATTCATTAAAGTTTTATTTTCAAATTTATTGCCAACTAATCCAGCTATAATATAATTTGTTCCTGTTATATTATATTTTGAAAAAATAGGATAAGCATTAATATATTGATCAATTGTACCATCATCAAATGTAAATGAGATGACTCCACCATCACAATATGAACTATTATTTATATTATTAAAAATAATAATGAAAATTAAAATAATTAATAGTAGAAATATAAAACAATTTAATTTTTTTAACTTCATTTTTTTAAAGCTTTATTCATAGCTTCAATATTTAAATCCGCCTTAGCTTTCATACTTTGTGAAAATAATTTTTTGGTTAATTTGCTATCAGCCCATTTATATTTATTTACTTCATCTTTTTTTAAATAAAATCTTCCAGGACCATAATAATTTGAAAATACAAAAAAATATGCCTTACCATGATTAAATTCACCTAAATCATAATTTCTAATTGTAAGCTCACCATAATGTAAATTAATTTCAGGTGTACTAAGCTCTAAATTCATTATAGATAATTCTTCATATAATTCACGAAAAAACGCATCTTGAATAGTTTCATCAAAATGAATTCCACCTTGTGGAAAATACCAATGATTATTATTTCTAGATGATCTTACTAGAAGAAATTCATTTTTATCATTTTTGATTATACATACGGCTGTTGGCCTATATGACTTATCTTTAAAGAGTTTTCTAACTAATTCATTCCCATTAATACTATTCATAAAAAAACTAAAAATTGATTATTTATATATTTAATCTTATAAAAGAAGATAATATTTAAAAATTAAAAAAATAATTAAAATTTGAAAATACCATGAAAAAAATTAATAATGTTATTTTAGTATATAAAAAAAGTTCATATGAATTAAAAAGATATAATAGTAGGTATGAGCAACATGTTAAATTAGCTCATAAAAGACAAAAAGATACATTAAACGCTGTTATCAATTTCCTAAAATTAAAAAAAATAAAACATCAAATATTCTATAGAGCTGAATTAAATAAAATTTTAAATGCAGATTTAATAATTTCAGTAGGTGGTGATGGAACTTTTTTAGAAGTTAGCCATTATGTGTTAAATAGTCCAATATTAGGAATAAATAGTGATGCACAAAGTAGTACTGGTTTTTTTTGTCATGCAAATAAAAATAATTTTAAAGAAATTATTGAAAATATAGAAAAAGAGCCTAAAACTAAATTAACTCGAATGCAATTATCTTTAAATGACAAAAAAATAAAACAATTAGTTGTTAATGATATTTTAATTGCACATAAAAATCCAGCAGCAACAACAAAATATGAGGCTATATTAAATTATAATAAAAATATAATTAAATTAAAAAATAAAGATAGTGGATTATTATTAAGTACTGGTTCTGGCTCAAGTGCATTTATGTATAATGAAGGTGGAAAAAAGTTTGATATAGATAAAGATTATTTTATTGCATATGCAAGAGCAAATCGAAATAGTGAATTCTTTTATTTTGAAGATGCAAAAATTGAATCTAGTTCATATTTAGGTAGAATCTATATTGACGGACCACATTTAAATTATTCATTTAAATTAAATTCTATTTTAAAAATAACAAAAGGTATTAAATTAAATGTAATTGGAGATTTAAACAATAAAAGAAAAAAAATTGAAGAATAATGGAAAATAAAAAAAACTTAGAATATTTAGATAAATATTATTCACTAAAATCTATAGGAAATAGTATAGATTATTTAAGTAAAAAAATAAAAAGAATTAGAGCACATGTTAATCCATTTAAATTTTTAGATAAACATCAATTTGAAGGATTTAAAAATAATAATCCAATAATAATAGATATAGGCTGTGCAAAAGCTGAATTTATATTTGAATTATATAAAAAATTAAAAAATTATAATTTCATAGGATTTGAAGTACGTCCATTAATGATTAAATATTTAGAACAAGAATTTGAAAAATATAAAAATATCATATTTTTTTCTGGAAATGCACAAAATAATTTAATTAATATAATTGAACCCAATCTTAAAAAAAATATAAAAATAGAATATATTTTTATTAATTTTCCTGATCCATGGATAAAAACTAAACATATTAAAAGAAGAATTATTAATAAAGAATTTTTAAATCAAATTTATCAATTATTTGAAAAATATAATGTAAAAACTAAAATTATAATTCAAACAGATGTAGATTTTATGTTTAATGATATAAAAGAACAAATAATTAATAGTAAATATGAAAAATATACATTATTTGACAAACCAATATTTAATATTCAAACTAAATGGGAAATTGATTCAATAAAAAAGAAAAAAACAATATATAGATTATTAATATAAAATATTTTTATAAACTATTAGAAATTTTCAAATTTATGGTATATTATTATATTTTTTTAAGTAGTATAATTGTTTCATTAATTTCATTAATAATTATATTACCATTTTTAAAATTATTTAATAATAAAAAAATATTATTAGCATTACTAAGTCTATCAGTTGGAATATTATTTGGAAATGTTTTTATTCACATTCTTCCAGAAATTATTGAATTATATGGTTATAATTCAAATATTGCAATTAGTATTATATTAGGCTTTTTTATAATGTTTTTAATTGAAAAATTTATTCATCACCATCATAACTGTAAAAATATAAAAAAAGAAAAACAAATAGGTCATCAACATGCATATCACTTAGGTACTATGAATTTAATAGGAGATGGTGTACATAATTTAATTGATGGAATGATAATTGCAAGTTCATATTTAATTAATATACCTTTAGGTATTGCTACAACAATTTCAATAATATTTCATGAAATCCCTCAAGAAATTGCAGATTTTTCTATTTTAATTTATTCCGGTTGGGAAAAGAAAAAAGCTATATTATTTAATTTATTATCTGGATTAATGTCAATATTTGGAGCATTTATTGCAATCATATTAAATAATAGTTTTAATAATTTTTTATATTTTATAATGCCTTTTGCAGCAGGTACGTTTTTATATATAGCAACATGTAATTTAGTTCCAGAATTACATAGACATTGTGATTATAAAAATACATTAATTCATATAATTTCAATTTCAATAGGAATAATTATTATGTTTATAATTTAATCACGAAGAACAATTTCTGCCCAACTAATTAATCCAATTTTCTTTTTATATAATTCAGTCATTATATTAAATTGAGCATATGCTTTATCTCTACTTTCATCTTGAAAATCACTTTGTTGATTATCATTAATTTCTTTTTCTTCTTCTTCTTTTTTAGTTTTACCTGATAATTTACTCATGGTTTTTTTTAATGTTTCTTTATCTAAATTACCACCAGCCATAGCATTAATTAATTCAAATCCACCCTTAAATACTCCAATAAATGGCTCTATAATAGAATCTTTTTTTTCATCTTTTTTATCTTCATCATCGTTTTTTAAACCAGCTTGTTCTACAAGTTTATCTTCTTTAATATAATCAGTACCAGGAATATCAATATCCTCTCCTTTTGATGCTAAAACTAATTCTAATTCTTCTTTATAATTATTAAAAATATCATTTAATTGATCTACAAAACCTCCAACTAATTCAAAGTTTTTAACATCATTTAATAATAAATAAGCTTCATACTGTTCATCAGTCCATTCATATAAATTAAAAATTAATTCAGTTCTACCAACATGTGTAACTTGTCCTCCTTGTGTTGCCTGAGGTCTTGTTCTAAAATCAAAATGAGATACAAAATAAAATCCTTTATATTCTTTTTTATCATGAATTTTTTTATCATCAGGTCTATCTATTCTCGCTACAATTTCCATTTCCATAAGCATTTGATCTATAAATGATAAAATTTCAGGGTCTGATAATCTTTGAGTTTTAGAACCTAATCGTCTTTCAACTTTTAAATATGGTAATAACCAATCAATATTTAATTTTAATACATTATAATGACGTCTTAAATCTTGAATTAAGAATTTTTTTCTTTGCATTAATTCATGATATGAATTATCTAACCAATTATAATAAGCAGAAACTTTTTCTGCAAGTGCATTTAATAAAAGTACTGAGTATTGTGGATTTTTTTTTTTAAATCCAAAGCTTTCTAAAAATTTTTTAACAGACATATGTGGAGGTTTATGATTATTCATAAAAAGAGTTGGAAGAGTTGTAAATTGTATTTGCTGAGCCATTCCAAAAATACTTTGAGGTGATTGAACTCCACCTAAAACAAATGAATTCCATATATTTTTTAAATTTAAATCAGCTGTTTCCCAATTTTCATCTAATTTAAAATAACTATCATAAAATGCCAATCGTTCTTCAATTACTCTTATATTTCTCAAAATTGGAAACATCTCTCTAGACATTCTACCAATTCCTGTTAATAAATTTGTAATACGGTCTTGAAATATTCCTTGTTTCTGACCCAATTGATTACCAACTTGACTAATTTCTGATCCAGTATAAGTATCTAAAGTTTTTTTAATATCTTTAATACCAAAATCATCTCTATATATTCCTAACATAATATAATAAATATGTTCAATTGACTGAGAAAATTTAATCCATGTTACTGGATATTTTTTAATTGGTTTTCCTAAAAAATCTTCAATTTCAGATGATTTTAAAGAACCCAAAAATTTTTTGATTCTTGAATTTACTTTCAAATCTTTATGTCTAACATTTTTTCTTTCAAACCTTGGGCTAGATTTAATTCTTTCTATTTCTTTACAAATATCTTTTTTTTTTAAATCGTCACCCATTTTTTACTATATAATTATTTTTTTAAAAATAATTTTAAAAAATCATTAAATTGTTGTCTTTGTTGCCAAATATTTATCATTATAGGAAATATACCTAAAGCTAAAGTCAATAATCCAATTATTGCTAAAAATTTAAATTGATTTTCATCAAAATATTTTAAGATAAATAATATAACTGATAATACTATTATTACAAAATATAACATAACTGTTTTTGATAAAAGTGAATTTGTTCTTAATAAGTTTAAATTCATTCTTTCAATTTCATTAAGTATTAAATATTTTGAATTAGTATCATAATTATCAATTTTAGGTTTTGAATCTAAAGCTATTTTTTTTATAGTACTCTTCTTATTATTTGTACTCACATTTTTTTTTGTTTTTTTTAATGCCATTTTAATCCTCAAAATAAATTATTTTTTTCTTTTTTGTACACTTCAATTGACTTTTTAATACAGGAAGTATTTGTATTTTGTATATTGGTTTATTTTTCAATACTGATTTACTAAATGAATATGAAAATGATTTTATCATATCAACTTCAAGAGATTGATTAATATCAGCAAGTCCAACTCCAAACTCATCTTCATTTACGACTTGATAAGCAAAATTACCAATTGCAATACCTTCATTTTTAATAGTAATATTAAACATTATATTATCACCAACTTGTTCTTGATATTTATTTGTAATTTTAAAATCTACAGCACTTTGACATGGATCAAACTTTTCAATGCCAGATTTTATTAAATAATTTATTAAAAACAATATTCCTATTAAAATAATTATACCTATGCTTCTATAAATTAGCTTATTTACACCTCCCATTTATAAATAAAAATATGATTTTAAATTTATAAGTTTATCTAGACTATTATAAACAAAATATAAATTAAAATAATTTGTTTTTAAAATAATAATAAATTCCAATTAATATAATAATTGCAATCAAATAAATTGGAGTCACAAATATTTGCCATGCAATAATTTTAATCCAACCTAAATATGGAATTCTAAAAACTGCTTTTCCATATATATTTTTTTCATTTATATTAAATTCATCAATTAAGGTATAAAATCTTGTTTGCAAAAATATAGATTTTTCATTAAAATCTCCTTTAGTTTGATAAATTGTGTTATTATTTACTATTTTTTTTTTAATAACTCTATGAATTATTGGAGTTGGGTCATTAGTTTGAAATACAATCACATCCCCAATTTGATAATTATCTTTACCCATAATTACCATCACATCTCCTTTATTAAATCCATTAGAATAGTCATAATTTAAAAAATCATTTTTTGTGATATTAATATTTGTATAATATTCTGATTGTTTACAAAAAGTATTACTACAATCTGCTTTGCTACCCCACCAATTTTCAAATGATCCTTCATGATGCATACTTCCAGATTGAATTGCAACTATTGGAAAATTTGAATTTAAAGACCATCCTAATAATGGATAAAAAATAAATATAATAAACAAAAGTGAAATTACAGTTGATAAAACTAAACTTGTCAAACTTTCATCATATACAATATATCTATAAAATTGTTTTAACTTTTTTAACATAATAGAAAATTAATTAATATGTTTAAAAAAGTATCTTTAATTATTTTTTAATTACTTTTTTTTAGAATTATCTAATCTATTTTTATACCATTCACCCAATATAAAACCTAAAAATCCTCTAATTAAACAAGTAATGAATATTAATATAATAAAAAAAATACCAGGTCCTTCAAATAATGAATTTTTAGTTAATCCAAATACTAAAAATACTGAAAATATTAATATAAAATAAATTACACTATTTGACATAGAATAAATCAATCCCATTTTTTTAGGTTTTGCCATTGCCCAAAAACTTGATAATATTACTGGAAATAATGGCAAATCAAATGCTAAAAGAGCTATCCAAAAAATAGAAACCCACATATTAAATGTTTCAATAGTTGATTTAACTAATACAAATTTAAAAAATATAAATGTCAGTAATAAATAAATTATAGTAATAAAAAAAGCATATGCAATTGATTGTAAAAAGCTAATTTTATCAAAATTTTCTACAATTCTTTTAAAAAATTTATTTGAATTAAAGTCAAAATTAAAATTATGTTTAAAAATCTTTTTTTTTGATTTATTATTTTCATTAAAATAATAATCATCAGTTGCATCTAAATTTTCATTAGATTTATCTAGAGATATATTTTCATTTGAATTAATTTTAGCATGTTTATGATTTTCAATCACTTTATCTAATTTTTCAAACAATTTTTTTTTATCTTCACCAGAAAGCTCATTTACCATACAATAATTTAAGCAATTTCATTTAAATATTTTATTGTGACACAAATTACATTTAAAATAATACAATTAGCCCTAAATACCATATTTTTACAATTCTCTATATATTTGAATCCATCTTTTAAATATACATAAAATTTAAAAAGAAAAATATTGTAATTAATTATATTATAAGGTGGAAATATATGTATGACGAATTTACAGGTGAAGAAGCTTCTGAAAATGAAGATGTGCAAGAAGAATCCTCAGAAAGTACTGACGAGGATGATGAAAATAAAATAGAAAAAGCATATCAAGATGATTATGAAACTGAAAAATCAGGCAATGACCCATTTGAATTAGAAAATGATGATATTGTAGGAGAAAAATCTGAAAAAGAAGAAGAAACCGAAGATTCTGATGAAGATAATGAAGAAGACGATTCTGAAGAAAAAAGTGAAGAAAAGTCTAAATAATTGTTCTTTTTAATATGAAAGCAGTAATATTCGATAGAGATGGAGTTATTATTGATTCTGAGACTCTCCATATAGATTCTGTAATAAAAGCATTTGATACATTTAATATAAAAATAACTGAAGAAGAAAAAAAATTAATCATTGGAAGACATCCTGAAGATTATAAAAAGTTTTTTATTAATAAAAATAATTTTCAATATGATAAATTTAGAGAAATTCAAAGAAAAGAATTTAGAGAATTATTTAAATCTGCATCTTTATTTAAAGAAACAATAACATTAATTAAAAAATTATATGAATTAAAAATTCCTTTAGCATTAACTACTTCTGCAGGCATAAAAAGTACATTAGAAGTTGTTGAAAATGCAAATATTAAAAATATGTTTAATTTTATTATTACTTCAGAAGATTATAATCAAAGAAAACCCCATCCAGAACCATATTTAATTACAGCAAAAAAACTAAAATTAAATCCAAAAGACTGTATTGTAATTGAAGATTCATATGTAGGTGTTGAATCAGCAAAAAATGCTGGAATGAAATGTATTGCAATTTCTAATAAACTTACTAATCAAGATTTATCAAAAGCCGATTTAATTGTAAATTCAGCAAAAGAAATTAATATTGATTTATTAAATCAATTATAACAATAAAACAATTTATAAAATCATTTTTCTATATTTATTATATGATTATTAAAAATATAATTTTATCCAAAATACTAAATTCTAGATCACAATGGACTATTTGTGCCAAAATTGAATGTGATAAAAATATTTTAGGTATTGCTTCAGCTCCATCGGGTGCATCAACTGGTAAACATGAAGTAAAAATGTACAAATTAAATGATATTGATAAATCAATTTATTATTTTGAAAAAAATATTAAAAAATTTAATTGGAAATTTGATTCACTATCTGATTTAAAAAATATTGAAAAAAAAATACTCAAAAATAATAATATCAACCAAGTTGGTGGAAATTTAATTATAGCTATTGAATATGCAATCCTTGATGCATGGTCTAAATATAAAAAAATAGATTTATTTAAATTAATTAGAAAAGATAAATTAACTAAAGAAATTTGTATTGATACTAAATTATTAATCAGGCCAATTGGAAATGTTATTGGTGGCGGTGCTCACAGTGGTGGTAATAATACTGATTTTCAAGAATTTTTAATAATTTGTCCTGATGTATCATATGAAAAATCTTTAGAAATAATAATTCAGGTTCATAAAGAAGTTAAAAAAGAATTATTAAAAAGAGATAAATCTTTTTCAGGTTCAAAAACAGATGAAGGTGCATGGGCATCCACTCTTACTAATTATGAATGCTTAATTATATTAAATAAAGTAATTAAAAATTTATCTCAAAAATATAAAACATCTATACGTATAGGTTTAGATGTAGCTGCTAGTGAATTTTTTAAAAATGGATTTTATAATTATGATAAATTTGAAAGTTCTCCAAAAATAAAACATAATTGCATTAAAAAAAAATTACACAGAGATGCACATATTGATTATATTTTATATTTAGTTGAAAAATTTAATATTTATTATTTAGAAGACCCAGTTGAACAGAATGATAGTGAAGGTTTTGAAATAATGAAAAATCATTTAGCACATAAAGATACATTAATTGTAGGTGATGATTTAATTTGTACTAATCCACAATTATTAAAAAAATATAAAGATTCAATTAATTCAATTATAGTAAAACCAAATCAAGTTGGTTCACTCCTTAAAACAATTGAAGTTTTAAAAAAATGTAAAGAGTATAATATTAAACCTGTTTTTAGTCACAGAAGTGGCGAAACTACTGATTCCATTCTTGCAGACTTAGCAGCTGGTTTTAATGTTTCCATAATTAAATGTGGAGAAACAACAGGAGAAAGAATAGTAAAATTAAATCGACTTTTAGAAATAGACAGAATTAACTAATATATATATTTTAAAAAATATAATTATTTTATAAGTCAGATTATATAACAAATTATATGACAATATCAGCGAGTACACATAATAAATATATTTTAATTTTTGATGCAGATAGCACTTTAGTAAAAATAGAAGGTATTAATGAATTAGCTAAATATTGTAAAAAGTATGACGAAGTTTATCAAATGACAGATACTGCAATGAATGGAACTTCAACTATTCCATTTCAAGAATTATATAAAAGAAGATTAGATATAATAAAACCAACTTTAAGTCAAATAAAAGACTTAGGTCAAATATATTTAAATAATAAAGTAGCTGGTGTTGATGAATTATTTGCAAAAATAAATCAAAGAAAAATACAAAATCATATTTGCTCAGGTGGAATTTTACAAGCATTAAGTCCTCTTGCAAATAGTTTAAATACAAATTCAGTATTTGGAGTTAAATTACATTTTAATGAAGATGGAAGTTTTTCACATTTTGATCCCTCATCCGAAACATCTCAAGACTATGGAAAAAATAAAATAGTAAAACAGTTAAAAGAAAGACATCCAAATAAAGAAGTTATTTTTATAGGAGATGGACAAAGTGATATGGAAACTAAATTTAATCCAATAACAAAACAAATAGATAGTAATTATTCAAATTATTTTATTGCATTCACTCAAGTTGAACCTAGAGAAAAAATTATGGAACAAGCCGATTTTGTTGCAACTGATATGTTTCACTTAGAATCAATTTTAAATAGAGAGTTTGGATTAGAATTAGGAAAACGTTTCTAATATATTTAATATCAATTAATTAGATTTATATATTTTATTTTTTATTTATTTCTTATGAAAGAAAAAATTAAAGCATTATGTAAAGATATTGAAAAAAAATATAATATAAAAATACTTTTTGCAATTGAAAACGGAAGTAGAGCATGGAGAATGCATAGCATGGATAGTGATTATGATATTAGATTTGTTTTTATTAGACCAGTTGATAATTATTTGAAAATTAATTCAGAAAAAGATGTAATTAATATATGTTTTGATAAAAATTTCAAAGACTGTAAACCCGAAGGAGCATTAATTGATATTAGTGGATTTGATATTTTTAAATTTTTTAGTCTTTTACATAAATCTAATCCAACAACCATTGAATGGTTAATTTCAGATATTGTTTATCATGGAAAACAAATAAAGTCTTTAGTAGATTATGCGAAAAATAAATTCAATCAAGCCACATTATTTTATCATTATCAATCATTGTGTAAAAAAAACTATTTAGGATATTTAAAATCAAATAAAATGCGAACACATAAAAAATATTTATACACATACAGAGGATTAATAAATGCTTTATGGGTAAAAGAAAAAAATTCAATTCCCCCAATTAAATTTGTCAAAGCAATAGACGGAGTTAAAGATTATTTACCAAAATTAATTATAAACAAATTAAAAGAGATAATTAAATTAAAATCACAAGGTAAAGAAAAAGATTTAGTCGATAAATCATTTCCACTAGATCAGTTTGCAGAGCAGTTTTTAAAAAAAGAATATAAATTTGAAAAAAAAGATTCAGAAGTATTAAAAAATAATTTAGATTTTTTAAATAAAGAAATTCAAAAGTTATTATTTCAAAAATAGAAACAATTGTAGGCCCTAAGTATATATATAATGCATTATTTATTTTTTAAATTATAAAGGCCATATAGTCAAAGCCTCACTCTTATCTTTTAAATTCTGTAGTACCATATATTGTCTTGATTTTTCAACATCTCCTCTATCAAGTGCAAGTCTTGCTAAACCAACTGTATTATCTTGATTTTTATAAAAAGATTCTTTAAAAGATAGAACTTCTTCAACATAACTTTGATTATCTCCAGCTAATCTAATTGCACTATCCATACACCTAAGTATCATTTCAGAATCTGCCCATACATATTCAGTTGCAAGCTCTGAAGCAGAATGATATATTTTTCTTGCTTCTTCATTAAAGTCAATTATTTCATACATTTTAGCTAATTTAATTTCAAGATTAATAATAACAAAACGTTCCATAGTTTTTTCTTTATTTTGAATATGTTGAGCATATTTACCCACAAAATTTGAAGCTGCTCTCTCTAAATTTAATTTAGATAAATGTTTAAGAAAACCTATTTCATAAAAATTTGAAGTTTTATCAAAATCTATTTTTGATGCATGTTCAGTAAATTTATCTTGTAAAATTACAAATTTTTCTAAAATAACACCACTATGATAAAAATTAGGATTATAATGTCCATGTTCATCTTGAATTTTTCCTTTCTTTAAACAAACTCGAGCAGCATCAGTTAAAAGTTCATGAGATTTCTCTGTACTTATTTTTGATTCAACTCTTGATGCATTAATTACTTCACCAATAGAGCCATAAACTTCAAGAGATTTCATCAAATTATCTAAACCACCTAAATTTTCAAAACTTTTTGCAAAACTAGATTTATAAAGAAAAATATTATATGAACTTCCATTTCTATTAGCCTCTTCAGCATCAGATAAACCTTTTTGATTAACACCATGTAATTTTTCTAATAATATAGTTTTACGTTCATCCGAATCAGAAATAAAAGTATCAACAATATTCACACCACAAGTTAATAATTTTATATTACTACTCAAATGATCAAAATCTAGATTTAAAGTTTTTGTCAATATGGATTCAATTGAATAATCTGTAAATTTTTTAGAATTCCATTTGGTTAATTTTCGTTTTAATTTAGGAAAATCCTTACCTTCCATTAGTACGTCAATTAATTGTAATACATATTTATCAAAATAACCAAATAAATGATTTTGTTTAGCAAAATCAGCTTCATCTTCTAATACTTTAAGTTTTAAACTTGTAAATGCATACGAAGACAAATTTATTTTTAAAATTTCATCAACAATTTCCAATCGATTTAAATTATCTTCACCTTTAACGGCCAAACCATATACTGTTTCTAAATAATTAACAGCCGTATTCTCATTTTCAACTAAACCTAGCATTGATTTTATATCCATCATAATAATAATGAATAAATTTAATTTATAATAATTATGATAATCCAAAATATAATTTAATGTGAGATTTTATTTTTAATATAATATTATAATAGAGTTTTAAAAAGTAATTTATTTAATATATGTTATACTATATTTGTTCAGACTTCCAGATAACTTTTTATAACAGCATAATTTACTTGATTATATGGAAGAAAGAATTCATAAAATACTCTCTTTTTTACAAGAGATTGAAAAATACAAAACTGTAGAAAGAAAAATGTATTCTTCAAACTTAAAAAGAACTGAAAGTGATGCTGAACATTCATGGCACGTAGCAATGTTTTTATTTCTTTTTGAAAAAGAACTACCAAATTTAGATATGAATAAAATGCTAAAACTTGCTTTGATGCATGATTTAGTTGAAATTTATGCAGGAGATACTTTTGCTTTTGATAAAAAAAACCAAGCCACAAAAAAAGAACGTGAATTTGAATCATCAAAAAAACTATTTTCACAATTGCCTGAAGATTTAAATAATGAATTTACAGATTTATTTAATGAATACGAAGATGTAAAAACATCTGAAGCCAAAATAGTAAAATCTTTTGACAAGATACAACCTATTCTTCAAAACCTTTGCTCAGAGGGTAAATCTTGGAAAGAACATGGCATAACTTTTTCAGATATAAATGACTATAAAAGAAAACATATGGAACACAATAACTTTATTTTAGAAATATATGAAAAATTATTAAATGATGCAAAAAAAAGAAAATTAATTTAACAATTATTAATTTCAATTTAATATTTTTCATTCATATTCTAGTTGCATAAATATTTTAAATAAACTAAATAACAGAATAGTATGCAAACAGGACTAACCCCTAAACCAAAACCCTTAGACGATTACACAACTAGAAGCATTAAAGCCCTTGATAAATTTTTAGATGATGAAAAAAAATATGGAGCATTTGAAATTTCTAACCCACATGAAGTAGAAAACTTTTTACAAAGAATTCCAAAAGGTTATATGAATTTACATACTGAAGATCCAGGTAATTTTCAATTCAACGGATTTGAAAATAATGGAAGATTAATGCATATTGTAAATAGTAGTTGGGCAATTGGACAACCAGTAAAATTATTTGGTTATAGATTTAATGATACATTAGGTAATTTTTTTATATTAAATTACAAAGCAGTTGATCCAACTAATAAAAAACCATTTACACACATAGAAGAAAAAAGATCTGAAGATGAAGACGGACATGAAATAGTTACTTATGAACCCGAATTTGCAACACCAAATCATGAAACTGATATTTTATTTTTATTAAAAAAATCTCCATTCAATCATCAACAATTTGAAAATCCTAACCATTATAAAAATTTAATGAAAGATAAACATAATTCATTTTTATATAAATTAATAGAACAACAATCTGGTGGATTAAAGTAAAATTAATTTTTTTTCATTTCTTTTTTTAAATATTTACTAGTATAACCCACTCCACTTTTAGCAATAAATTCAGGAGTACCTTGAATAATAACTTCACCACCACGAGCTCCACCATCTGGACCCAAGTCAATAATATGATCACAATTTTTAATTACATCTAAATTATGTTCTATAATTACCATAGTATTATTTTTATCAACTAAACTATTTAATACTTCTAATAATTTTTTAACATCATCAAAATGTAATCCAGTAGTTGGCTCATCAAGAATATATAATGTATGACCTAATTTCCGTTTTGCAAGTTCACGAGTTAATTTAATACGTTGTGCCTCACCACCAGAAAGAGTTGTTGCACTTTGACCTAATTTAATATAATCTAAACCAACATCTGATAAAGTTTTTAATTTTCTATGAATATTTGGAACATTTTCAAAAAATGAAACTGATTCCTCTACAGACATATTTAATATATCAGCTATATTTTTATCTTTGTATTTTATCTCTAAAGTTTTTTCATTATAACGCTTACCTTTACATTGATCACATTGCACATAAACATCTGGTAAAAAATTCATTTCAATTTTTATCATCCCATCACCTTCACAATTACTACAACGACCACCTCTAACATTAAAAGAAAACCGACCGGGACCATAACCATTCATTTTAGAATCCTTAGTAGAAGAAAATAATAAACGAATATCATCAAAAACTTTAATATAAGTTGCAGGATTGCTACGAGGAGTTCTACCAATAGGACTTTGATCAATTATAATTAATTTATCCACGTCAGAATTATTAACAAATGATTTAAACCATTTAGATTTTGGTTTTCGTCTAAGAAAACATTGTTTTATACCATCAATTAAAATATCACCCATTAAAGTAGATTTACCAGAACCACTAACTCCAGTAATACAATTCATAACATGAGTTGGTATTTTAATATCAATATTTTTTAAATTAAATTTACATGCACCATTTATTTCAATAAATCCATCTGACTCTCTAATTGAATCTTTTTTATCAATATCCATTGAACCAGATAAATATTTACCAGTAAGAGAATTTTTAGATTTAATAATTTCACTAGGGCTACCAGCCACTATAATTTGACCACCGTGAACACCAGCTCCAGGACCAATATCAATAACATAATCTGCATTTAATATTGTATCCGCATCATGCTCAACAACAATAATAGTATTTCCAATATCACGCAATTGCAACATAGTACTAATTAATTTATTATTATCTTTTTGATGTAATCCAATTGACGGTTCATCTAAAATATACATACATCCCATTAAATGTGTACCAATTTGTGTAGCCAGACGAATACGTTGTGCTTCACCACCTGATAAAGTACCAGCATTTCTACTTAAATTTAAATAACCTAAACCAACATTAACTAAAAAACCAATTCTAGATTTAATTTCTTTTTGTAATGGATTAAAAATTTCTTCATTTTTATTAAAATTTAATTCATCAAACCATTTTTGAAATTCTTCAATTGGCATATCACATACATCCATTATATTTTTATTTGAAATTTTTTGAAATAAAACTTGAGATTTTAAACGCTTACCAGAACAAAATCCACAAGAAACATCTCTTATATATTTATTATATCTTTCTATTTTACGCTCGCCACTTTCATCACTTTGAATTTTTTCATTTAATCTTGGAATTAAACCATCCCATTTCTTAGTCCAATGAAAATCATGACCTTTAGCTTTGGTTGTATATTTAAATTTAATAACTTCTCCAGTTCCATATAATAATATATCTAAATTTTTAGAACTCATTTCCCTAATTGGAATTGATAAATCAATATCATAATGTTTTGCAACATTACTAATTAATGTAGCTAAATAATTATCTCCACCATTTTGTGTTTTAATAATTTCTATTCCACCATGGGCAATAGATTTTTCATCATCATTAATAATTAAATCAGGATCAAATTCAACATTACTACCTAAACCATGACAATGTTCACAAGCACCATAAGGCGAATTAAAAGAAAAATCTCTAGGCTCTAATTTTCTATAAGATTTATTTAATTTTGCACAATATAAATGAGTAGAAAAATTTAATTGAATTTTACCATCTTCTAATTTAATTTTTTCTGCATTTGTTTTAACAGTAGTATCTTCAAAAATAATATATACAATACCATCACTCAATTTTAATGAAGACTCTACAGCTTCAAATAATCTTGTATCTGAATTTAATTTTAATCTATCAATAATAATATCAATATTATGTTTTTTATATCTCTCTAATTCAGGAGTTTCATCAATATCATAAATAATACCATTAACACGAACTTTTGTATAACCTTTTTTTTTATAAGTTTCAAATAATTTTTCATAAGTTCCTTTTTTTGCAATAATAATTGGAGATAAAATCATTGCTTTAAATCCATTTAATTTTTTTAATTCATTAAAAATCTGTTCTTTTGTTTGTGAAATTAATTTAATTCCAGTTTCAGGACAATATGGTGTACCTAATCTTGCAAATAATAATCTTAAATAATCATAAATTTCAGTAACAGTTCCAACAGTTGACCTAGGATTACGACTTGTTGTTTTTTGTTCAATTGAAATTGCAGGAGATAATCCATCAATTGAATCAACATCAGGTTTTTTTATCATACCTAAAAATTGTCTTGCATAACTTGATAATGACTCAATATATCTTCGCTGCCCTTCAGCAAAAATTGTATCAAAAGCTAAACTACTTTTACCAGAACCAGATAATCCAGTTATAACTATCATTTTATTTCTAGGTAATTCTAAATCAAAATTAGCTAAATTATGTTCACGCGCACCTTTAATAATAATTTTATCTTTAAATCCTAATTTAGCAACTTCTTTATTTGTAATAGTCATATAATCAAAACAAAAAAATCTATTTATAAAATATTTGAAACATTTTGGAAACACTTAAAAGTGAAAAATGTGTAAAAACTAATGGTGATGAATTATGTTATCTAAAGAAGTTATGGCCTGGGGGGCTATTATAGTTGGTATATTAATGGCATTAACAAAATTTATGTCATGGAATGAAAGTTTGCATTATTTATGGGCAGTTCTAGTATTGCTTTGGGGAGTTTTAAGACTTCAAGAGTAATTGCAAATAAAACATATAATTTTTTTTTTTTTTTTTTAATACAAAACAACATTAATATTATAAACAAATTAAAACAAAAATATTTTTATGTTTACAGTTCTAGATATTGAGACTACAGGTTTTTCTCCAATTAATTCAAAAATAATTGAAGTTTATGCACATACTTTTGGAAAAAAAGAAAAAGAGTTTCATGAATTAGTAAATCCAAATAGACCAATTCCAAAGTCAATAACAAGATTAACTGGTATAAATAATAATATGGTTTATAATAAACCCACAATTGAAACAATAATGCCAAAATTAAATAAATTTATTTCAAAATCTACATTAATAGTTGGACATAATATTTCATTTGATATGCGTTTTTTAAATTATTATAATATGAAAATTAATAATCAAATTTTTAATAATAATTCACTATGTACATTAAAATTAGTCAGACGTCTTTTATATAATAAACAAGTCACTAATCATAGGTTAAATACAATTTGTGATTATTTTAATATAAATTCAAATAATTTTCATAGAGCAAAAGCAGATACACTTGCAACTAAGGAATTATTCTTAAAAATTAAAGGAAAATTAGAAAATAATGGGTTTAATATAGATGATTTATCTAATCTTCAAAATACTCCATGTCAAAAAGCTTTCAAAATAATGCATAATTTGATATAATTGTCTCAAAATAATATAGTTTTCAGTATATATAATTTATAAACGAATCGAGTATCAGTTTAATTAAGTTTAAAATGGCAAAATCAAAAAAAACAAATCCAGATAATGTGGAGCAAGAAATAGTAGACGAAAAGAAAAAAGAAATTCTAGAAAAAGCAGGAATAGATGAAAATCAATTAAAAGAAATAGAAAAAAAAATTAAAGAAATTGATTCAAAAATCAAACTATTTTCTGACAAAATCGTTAAAAAGTTTTCAAAATATATTTACTCTGTTGGATTATTACCGCCATTAAAAAAAGATCAAACCGAATTAAATACAATTATAATTATTGATGATCGAGATTCAAAAAAATTATCAAAAGAAGATTTAAAAAATAAATTATTAGATTCATTTAATGAAATTTCTAAAGAAATCGATAAAAATATTGTTTGTAAAATTTATTTATTAACACAAATATATTCTACATGTGATGAAGGAAAATTTGAAATTTTAGATGAAATTAAACATGCAAAAGTATTTCATGATACTGGAATAATGGATGCAATTAAAGTTAGTGCGGTTCATCGTGATTTAGCACTTAGTAAATTTGAAAGATATATAGTAAGTTATGTTTGTGCCGGAACTGTTTTTACTGGACAAGCAAATGAAAAAAGTGATATTGACGCCTTTGTAATTATTGATGATACTGATGTTAAAAATATAAGTAGATTTGAATTAAGAGATAAATTAACTAATATGATGTACCAAATGGTATATGAAGCACATGCACATACAGGTGTTAAAAGAAAACTTCATGTTCAAACATATTTATTAACAGATTTTTGGGAATATTTAAGAGATGGGTCTAGCCCAGTAATTATGACTTTTTTAAGAGATGGTTTACCATTTTATGATAAAGGAATTTACATACCTTGGAAACAATTATTAAAAATGGGAAGAATTAAACCTTCACCTGAATCTATAAAAATGCATAAAGAAACTGGTGGACATTTTGCAGCTCGTGCTAAGAAAAAATTAATTGAAGCATTTTGTGAAGATTGTTTTTATGCAACATTAAATCCATCACAAGGACTTTTAATGACACAAGGTTATCCAGCAACAACTCCAAAAGAAACAATTCGTTTAATGAGAAAAGTTTATGTTGAAGATTTAAAATTATTAGATAAAAAATGGATTGATATACTTGAAAAAGCAGTAGGTAATTGGAAAAAATATGAATATGGTGAAATGAAAGATGTTGCACCAAAAGAAGTTCAAGAAATGTTATCTAATGTATTCAAATTTGTAGAAGAAATTGAAAAAGTATATGAAAAAGCAGAAATCAAAAGTCACGAAAAAATAATTAATGATTTATACAATCAAGTATTTTTAATTACAAAAGAAGCTTTTAATTTACACAATCTTAAAATTAATGAAAAAGAATTATTAAAATTATTTAAAAAACATTTAATTGATACTGATATATTAGAAAAAAAGTTTTATGAAATTTTAAAGGATATAGTTACATTAAAACAAAATCCTAAAAAACTAAAAACAGAAAGTTTTACTATAGAAAAATTCAACAAAGATGTTAGATCTTATTTAAGTTGTTTAAATTCATATATAAATAGAAATAAATTAGAAAATAGTAAAAAATCTAAAATAAATTTATTAGTTGAAGAAAAAGATTCCGAAATCATATTTTTCAAACAAAAAATATTCATAATTGAAGATATTAAAGATAAAGAAAAAATAATTAAAGCTGATTTACAAAAAAATCAAAATTTAATTAATATTGAAAAATCAAATATTGATGAATTAAAAAAATATGAAAAAGAAGGAAATTATTCAGAAGTTTTAAATTTAAATGCAGAATTTTTTTCAAAATTAGAAGAAATTTTTGGAACTTCTAATATTAAAGTTAAGTTATATTAATTTTTTTTTTATTTTAATAAATTTCTAATGTATTTAATTTAAAATAAATATAATAAAACTTATAAATCTGATAAAGCAATTTAAACTTATAAAAAAAGGGGTAGTTAGAAGTTAATCTTTTAATTTGCATTAGAATTGAGGCACTAATGTGTAACCCAGAGGGTAGTTTAAAATGAAAAAAAAGGGTTTGATATTATTATTTATACTAATATTTATACTAAGCTTAAGTTCTATTAATGCAATTAATACAAGCGGAGTATATTTAGATGACAATTATGCTATTTCTGATGAAGATTGGAGATATGGATTTATTAACACACTTGTAAATATTACGAGAGGAAATGATACAGGTGGTGTTAATATCGGTGCGTATCAAGTAAATATTACCAATTCAAGTGATACAGTATTATGGTCATATTTATTTGATAATATGTCTATAGTTTCAGATAATTTTACAATAAATGCAACTTTTTTAGCTATTGATAATATAGAAGAAAATTATACAGTATCATTATACTTATATAATTCAACTGGAAATATTCTTTTTGAAAATTATTCACAATCCGATACTGTTTTTGTTAATATTACTGGTATAGATCTTGACTCAATAGATGACTTTAATGATGCCGAAGGTAATTTAAGTTTTTTAATTAATTTTACAAGAGCTACTAATCAAACGAATATCGATTATTATGAAGTTGAAATATTCAACTCTTCAAATGACGAACTTTCAATATTGACTTTTACAAATACTTCAAAAGCATATCATGAATATAATTTTCTAGGATTATTAGGAACAACTGCTGAGAATTTTACTGCTAATGTATTTGCTGTACATAATGCAACTCATACAGACCCAGTTGGAGATTCTGAAAATTTTGTTGATGAATCTGGTTCTCAAATAAATACAACAGGTATGGCAATTGATAATTCATTTGCTGATACTGATGCCTCAGAAGGTTCTGTAAGTGGATTTATTAATTTTACAAGAGCAATGAATGAATCAAACATATTATATTATGAAATTGAAATTGAAAACTCATCATTAGACCTAGTATGGGAAACAAATTTTACTAATTTATCAATAAATTCAGATAATTTTTCAGCTACAGCAAATTTTGAAGCAACTACTGGAAACGGTAATTATACTATTTATATATCAGCATATGACGCTGAAACTGGAATTGTTGGAGATAATTTAACCTTTGAAGATTATATAAATATTACATATAATACAAGTGGAATGTCATTAGATGTATTTAGTGATGATAATCAAAACAATAATCAAATATATGGATTAATTAATTTTTCAAGAGCAACAAATGAAAGTAATATTAATTTTTATACTTTAGAAATCGAAACACAAAATCAAGTAGTTTGGAATTATACATTTGATAATGATACAATTGTTTCAGATAATTTTTCAGTTAATGTTAATTTTTCAAATGATAATTCAGGTGCTAATTACACATTAAATCTTAAAGTAAGTAGTGATATAGCTGAAACTACATTTGCAACACAACAATTTACTGATTATTCAGAGAGTTGTGGAGAATTTAATGGTAATGAAACTGCATGTTTTAATAGAGAATTTTGTGAATGGTCATATCATGAAAATACATGTTTAGATAGTGGATCTTCAAGTAATTTAGACTGTGGAATTAAAACTAATGAAACTGCATGTCATGAATCAGGATTTTGTGAATGGGATTCAGGAGTTCAACAATGTTTCAACTTTTTTCACCAAAGTGGAGTACAATGTTGGGCTGAATTTTATGATCCAAATCAAGATCAATTTGAAGTTGACAAAAATACAAGTGTTTACATTGTAGTTCCAATACCTGATGAAACTAGTAATTGTGTTAATTTTGATTTAGCATCTAGACAACCATATTTAGATTTATGGGGTATGTGGGATGATGATTTTGAAGACGATGATTGTGAATCAGTTGGTCCTGATGGCTTCTGTCAAAAAGAACCAAAATTTACATGTAGTGCATATGAACAAGGTGAATTAAATGCAGACAATAGTTCATGGATTTTTAATGTAAGTGGATTAGCACCAGATAATTATGAACTTTCAGTTCAAGTTCCATTTGGTTGTGAAGAAGCATTTGGTTCAATTGGTTTAATACAAGAATTAGATGGAGATGAAGTATTAAATTTAACATTTGGTGGTGTAACTAGTGCAACGGGATTAGTAGTTGAAGAAGATGGTAATCCTATGGCATATCCAAATATCGATGCATATTCAAAAGAAGGCGGTTCAGGTTATGCTTGGGCAGATGGTGGTGCTGATGGTAACTTTACTTTATATGGATTAGGAGTAGGAAATTATACTTTATCTATTTCAGATCAAAATTGGTCAAGATGGTATGAAACACAAATTGAAATATTAAATGATAGTGTAGATTTAGGTAATATTACTTTTGGTGCAGGTGCAGGAGTTAATGGATATGTTAAATTAAGTAATAATCCTCAACAATATGTATGGGTATCATTAAGATCAAAAGCAGAAGGTATTAACTTCAATGATCCTAATTATTGGCATAGTGTAAAATTTTATGGTGGTAGTACAGATAGTAATGGTTATTATAGTATTTCTGGTGTAGAAGCTGGAGAATATTTAATTGAAGTTTGGCCAAGCTATGGTAGTGATGCAACACCTTTTGAAGGTACAGTTACAGTTGATAGTGAAAATAAAACAGAATATAATATTTCATTATCCGCAGGAAATTTAATTTATGGAAGAGTTATAAATGACACTGGACATGGTGTCGAAGGAATGAGTGTTAATACTTTTGTTGAAATGGATTGGGATAAAATGAATTATGAAGATTGTCAATATTGTGGACCTGGTTATTGGGGTTGGGAAATGACAAATTCAACAGGACATTATAGAATAAGTGGGCTTAAACCTGCCGAATTTGTTGTTGAAGTTATGCCTAATACATGGTTTGATGAATCTTTAAAATCATATAAAACAGATAGAAGAAAAGTAGAATTAGAAAGTGGAGAAGTTGAAGCTAACTTCACATTAGAAACTGGAATTGCATTATCTGGATTTATATTCAATTCAAGTAATGATCCAATAACATGTGGATGGATTAATGCTTGGGTTCAAGAAGACGATGGTAATGAACATTCAAGACCTACAGATTGGGCTTGGTCAAATATAAATAATGATGGTTCATATTCCTTAAACGGAGTTAAAACATCAACAGAATATGAAATTTATATTGAACCTTGTTATCAATTAAATTTAGGTGGAAAAAATGATAGATTTACTATAAGTGAAAATACTGAAATTAATTATACTTTAACACAAGGTGGAAGTATTAAAGGATTAGTAGTTAATAGTGACAATGAACCAGTTTCAGGTGCAACAGTACAAACATGGTTACCTCACGGAGGTGGATGGGGACATTCAAGAACTGAACAAGATGGAACTTTTAAAATAAAAGGATTATCTTCATCAACATCATCTGAAAAATATGAATTAGAAGTATTTAGTAATGATTATTCATTTTTCAGAATTACAGATATTGAAGTTAATGATGGTCAAGAAACGGACATAGGAACAATTAAACTAGGTGGTGGAAGCACTTTAAGTGGAGTTGTTAAATATGCAAATGATACTGTAATTGAAAATGCATTCGTAAATGTTTGGTGTGAAAGTAGTTTTGGACATGGTTATGATGAAACTAATTCAACAGGTCATTATGAAATTGAAGGATTACCAAATTGTGAATATAAATTATTTATGGATGTACCATCAACATATGAGCACTTCTTTAATGACTCAGTAACTATAGCAGATGATTTAGAATATAATATTACATTACAATCATTTGATTTAGTTAATATTAATGGAAAAATAAAAAGTACAGATGGAACTAATTTATCTAATGCATTTATTTCAGTATTCAACCCAACATTACATTCAGGAGGATATAATGAAACAGATGAAAATGGAACGTATTATATTAGTAATATTCCAGAAGGTGAAGGGTATGAATTTTCAATAATGAGATTTGACTATGAAGGAAATTATTCAGATAATGAAACAATAAATTCAACTAATTTAGAATTTAATTTTTCATTAGCTCCTATTAATTTATCTGCAGTATTTAATATTACTGGAGAAATATTTAATAGCGCAAATAATGTTACCATAGTTGCAATAAATGATATTGATAGTTTAATTACAAAACATTCATCAAGTAATTCAACATACAAAATTAGCGATTTACCACATGGAAATTATAAAGTATATGCGGTAAAAGGTGAAACTGAAATCGAATATCCAACATTAGTAAATCAAGGTGCATCAAGTGGTGTAGACTTTGATTTCGAGTGAGGTGAAATAAATGAAAAAGATATTATTATTAATTTTTATTTTAATTTTTAGTTTAAATATGGTACATGCAGTACCAACAGCTAATGCTGGAAATCAACAAACAGTTAATGTTGGAGAATCAGTAAGCTTTTCAGCGACAACCTCAAGTTGTTCAAGTTGTAGTATTACAACTTATGTATGGAATTTACAAGATGGAAATAGTAAAAATGGTGTAACAACCACACATACATATACTACTGCAGGTGTTTATGATGTAAGTTTAGTTGTAGTTGATAATCAAGGTGAAATTGATTCAGATACTGTTAGAATTACAGTTGAAAATCAAGATTTAGTTTCCCCTACATTAACTCATACAAATATTACAAGTGGAACTGCAGGAAAAATTATGACTGTTACAGCAACAATTACAGATAATATTGGATTATCTTCAGTAAAATTATTTTATGCGGGTTTAAGTGAACTAACATATACAGAGCTTTCAATGAGTGCTTCAGGAGATTCTTATCAAGGAAATATTCCAGCAGCTAAAGTTAATGCAAGCGGTATTAAATATTATATGACAGCAGAAGATAGTTCACAAAATACAGCAAGATATCCAACACAACAAAGTACTTTTGTTAATGTAAGTGATATTGATACAAATGATTCATTACCCCCTTCAACAATTATTGTTTCAATTGCAGGTGATACAAAAACACCTTATTATGATGCAGATAATTCAGATAGTAAATCTAATGTAATCATTAATGGAGAAAGTGGAATGTCTTGCAGATGGGATACAAATGATACGAGTTATGGAAATATGCTTAATAGTAGAGTATGTACAGTTAGTTCAGCACAAGCTACATGTAATGTAACTACACAAACAATTTTGCCTAGTGGAGATGGAAGTGGAGAATATTATGTGTCTTGTATTGATAATAGTCAAAATGAAAATGAACAAAATGGTACTACTAATTTAGATGTTAATTTTACACTAGATACAACAGTTCCAAATATAGCAGAGTTTAATGCTTCATTATTAGCTTTTGGAAATATTCAATTACAATGGGATGTAAATGATTCAACTAGTGATGTAAAATCTATAACATTATTTAGATCTACTAATAGTACATTATATGGAGCTGCTAGTCAAATCGCAGATAGTGGATTAGTGGAAACAGATTTAGTTTATGGATTAAAATATTATTATAGGATAAGTATCTTAGATAATGCGGGTAATATTAAAAATAGTAGTATTATTAGTATTACAGATAATTCTACATTGACTTTAAATAAAACAAAAACAGTAGTTGGAAATGTAAGTACATTTACAACAGGTACGATTAGTAAATATATAAATAAAATTGAAGGTTTAACCGGTGTAGATAATGTTAGTGTATTTTTAAAAACTGCAGATGATCTAAATTTAACTATTACAAATGCAACAAAAACTTTTGATGCATTAAGGATTACACCAAATAATGATAGCTTTTCTGGTAATGCAACAATTGTATTTTTTATTCCAGAAGATTCATTTGAAGCAAATGGAGCAAATTCAAGTTATGTATATATAGATCATTATGATAATGGAACATTTGTAGAAAGAATAAAAGCAAACTTTATGGCGGCACCTAGTGGGTCTAATGGATATAAATTTAACTTTACAACAACAAACTTTTCAGACTTTGTACCAAGTTATGTTGCACCTACAAGTAGTTCAAGTAGCAGCAGTAGCAGCTCAAGTAGTAGTAGTGGATCATCTAGTGGAGGAGGAGGTGGCGGAAGCTCATTAACCTCATCCATAGAAATAAAAACATATGAAAAGTCTATTGTTTTAGGTGATAATGTAGTAAATAAAATTAGTATATATACTACATACTTAAAAAAGATTGAAATAAATGTAAAAGAAGCAGTTAATGGTAAGTTAAAAACAAAAATAAGTACAGACGTTCCTGAAGGTGCTAACAAACATAGTAATAAAGTATTTAGATATTTTGATATTGAATTAGGTATTGATAATAATTTAATTGAATCATCAAATCTGAAATTTAGAGTAACAAATAAATGGTTAGAAGAAAATAAATTGGAAAAAGAAAATGTGGTTTTAGCAGTTTATGAAAATAGTGGATGGACTGAATTAGAAACTGAATTAATTGGAGAAGGTTCTACTTATGTAGAATTTAATTCAAATGTACCTCATTATTCAATTTTTGCAGTAACTGTTAAAAATGCAAAACCAAGTGAAAAAACAGAAGAAACATCAGAAGAAGAAAAGAGTGTTGAAGCAGAAAATAATTTAGATGGTGAAGTATTAAATGAAGACAATAATGTAGACTTTGAAGAGGAAAAATCAAGTTCATCAACTACATGGCTATGGACATTTATAATTTTATTAATAGCGATTGGAATTGGAACTTGGCATTATATAAACCATAAACAAAATTAATTTTTTTTTATTTTTTTACTTATTTTTTTAAATTGTTTTCTTTGAACTAGTTTAAATTTCTTTTTAGAAATAATATATATAAATTCTTTTAATCACAAGAATCATTTGTAAAACATATATACTTTACAATAGTTTTACTTTCAAGAACTTTGTAAGCTATAACCATATGCAACTAATGAATTTGCATATGTAAAATTACAATAAATTAAATATCTAATTCTTTAACGTATTTAGCATTTTTATCAATAAAATTTCTCCTAGGTTCAACTTGATCACCCATTAAAATACTAAAAGTTCTATCGGCTTCTGCACCATCAAATAAATTAATTTTATCCATTATTCTAACTTTGGAATCCATTGTAGTTTCCCATAATTGATTTGGAGTCATTTCACCAAGTCCCTTATATCTTTGCATATTTATACCTGATTGAGAATCAAATTCCTTTTTAATTATAGCTTCTTTTTCTTCATCATTATATGCATAAACTATTTTTTTTCCTTTCCAAATTTTATATAATGGAGGTTTTGCAGAATATATATAACCATTTTCTAATAATGGTTTCATATATCTAAATAAAAATGTTAATAATAATACTTTAATATGTGATCCATCTACATCCGCATCAGTCATAATTACAAGTTTATGATATCTTAATTTATCTAAATTAAAATCATCTCCAATTCCACAACCTAATGCTAATATTAATGTTTTTAATACTTCATTATTTAACATTTTTGCAAGTCTTACTTTTTCAACATTTAATATTTTTCCACGTAGTGGAAGTATTGCTTGAAAATATCTATCTCGTCCTAATTTTGCACTTCCACCTGCTGAATCACCTTCAACAATAAATATTTCTGCTTTAGTAGGATCTTTAATTGTACAATCAGATAATTTACCTGGTAAAGAATTAGATTCTAATACAGTTTTTCTTCTTGTAAGTTCACGTGCTTTTTTTGCTGCTTCACGTGCTTTTGCTGCCATTAATATTTTTTGAACTATATTTTTTCCTACATTTGGATTTTCTTCAAAAAACAAGTCTAATTTTTCAGATACAATACCTTCAACAATTCCTTTTACTTCACTATTACCTAATTTTGATTTGGTTTGACCCTCAAATTGTGGTTCCATTACTTTTGCACTTACAATTGCAGTTAAACCTTCTTTTATATCGTCACTCGTTACTCTTTCATCTTTATTTAATTTTTGTACTTTAATAAATTTATTTACTGAACGTAAAAGTGCAAATCTAAATCCAATTAAATGTGTTCCACCTTCAATAGTATTTATATTATTAACATATGATAATACATTTTCACTATAACTATCATTATATGCAAGTGCTATTTCAACACTAGTGCCATTTTTTTCTTTTTCAAAATAAATTGTTTTATGTAATAATATTTTACTATCATTTAAATGTTCAACAAATTCAACTAATCCGCCTTCATAATGAAATTCTTCTTTTTCTTCAGTTCTTTTATCTTCTAATAAAATTTTTAATCCTTTATTTAAATAAGCTAATTCCCTATAACGTTTTGCAAGAATTTCATAACTAAATGAATTTTTTTCCATAATATCAAAATTAACAGAAAATTTTACTTTTGTTCCCTGTCCACTAGCTTCACCAATTTCTTTTACATCCTCTACTTTTTTTCCATTTTCAAATTTTTGATAATGTAATTTTCCATTTTGTTTAACCCAAACTTCTAAATTTCTACTTAATGCATTTACAACACTTGCACCAACACCATGAAGTCCACCTGAAACTTTGTAAACATCTTTATCAAATTTTCCACCAGCATGTAATACAGTAAAAACAACTTCAATTGCTGACTTATTATATTTTGGATGAATACCAGCTGGAATTCCACGCCCATCATCCTCTATTATCATTGTATCATTTGACTCAATTGTAATTTTAATATTATTACAGTGGCCTGCAAGTGATTCATCAATTGCATTGTCAGAAATTTCGTAAACTAAATGATGCATTCCTAAAATACCTGTAGTACCAATATACATTCCAGGTCTTTTTTTAACTGCATCTAAACCCTCTAAAACTTGAATATTTGCTGCATTATAATCTGTCATAATTTCCCTTTTTTTTAATAATTAATATAGTATTTGAGAATTAGGTTTATTTATAAATGTACCGTCGGTTTTAGCATACAAAAAACAATTTAATTATTTCAAAAAATAATTAATAAAAATATATTTTTATTCTTAGAAAGTTTTATAAAACAAATATTAATTTGAAATATTAAGCTCCGGTGGTGTAGTCCGGCCTATCATGTAGCCCTTTCGAGGCTACGACCCGGGTTCGAATCCCGGCCGGAGCGCTTTTATAATTCTTAATAAAATATAAAAAAATTAATTAAAGAAATTCTTTTAATTCAAAATCACTAATAGTTTTTTTTAATTCTTCAATATTTCTTACTGGAATATTATACATTATTTTTAAAGGCTCTAATAATGAATTTTCAAAATCTTCAAATTGTTTATATCCACCTTCATGAACTTTTTTTCTCATATCCAATAATAATTGATTGTATTTTATTGGATCTTCAAAAAAGTCTGAATCAGTACGTTTTTTTAATTGCTCAATTAATATTTCATCAGCAGTCCCTAAACAAAATAATAAATTACCATTATTATATTCACTAATTTTTTCAAAGCCCAATTCCAAATGACAACCACCATTAAAATATAATATTTCACCAGTTATTGTAATAGGTAAATATTTATGATTTATATTCACTATTGTTTCATTATCAAATTGACTTTCTAAACTTTCTGTTTCTACACTAGGACATACCATAAAATAATCAGAAAATTTACTTACTGATTGTTCTAAAGCATCACATAATGTTTTATTTAATTTTTTATTTATATTTGACATATTATTCCCCCGTCTATCATTCTAGTAATGATTAAAATCAAATATATAAAATGTTGTCGTACTAAATATATACGAAAATTTTAAAAATAATAAGTACTTACAAAAATTATGGAAATACTTAAAAAAATTGGATTAACTGAAAATGAAATAAAAATTTATTTAGATTTATTAAAATCAGGAAGTAGTACTGCATATGAAATTAGTAAAAGAATTAATATTTACCGAGTTCATGTTTATGATAAATTAGAACAATTAATCAATAAGGGATTGGTCACATATATTTACAAAAGTTCTAAAAAACATTTTCAAGCTACAAATCCATCTAAAATTAAAGATCATTTAGAAGAGAAAAAAAAAGAAATTGAAAATCAAGAAAAAGATGTTGATAAAATTTTACCAGAATTAAATAATATGTTAAAAATAAAAAAAGAGGATACATATGTCGAAATTTTTAAAGGAATTGAAGGGCTGAAATATTTCTTAAAAGATATAATAAAAACAGAAAAAGAAGTTTTAATTACTGGAATTGACGATAAAAAATATCAAGATAATTTACCTTTATTTATGAAACAATATTTTAGAGATTTAAAATTAAAAAAAATAAAAGAAAGAATAATAACTGAAAATAAAAAAAACATTTTTTTATTTGATAAAAAATTAGCCCCTACAACAAATTATAGATATTTAAAAAACAATGAATTCAATCCTACAAACACATTTATTTATGGAAATAAAGTCGTCTTAGTAACATGGGGAAATCCAGTTACTTCAGTTATGATCAAAAATGATTTAATAGCAAAAACATATAAAAGTCATTTTGAGCATTTATGGAAAATCGCTAGTAAAAAATTAATCTAAATTTTAATTAAATATAAAAAATATATATTTAATATGATTATTTAGACATTTAATCAGCCAAAATATTTATAAACTGACCATGTCCACGTTAAAATAAGTAATTTAATATTTTTATATTTAGAGGATAATTAATAATGAAACGAAGTTCAAGAAGATGGAAGAAAAAAGGCCAAATGCGTTGGAAATGGCAAAGAAAGAAAATGCGTAAAGAGAAGAGAAGAAGACTTAAAAAATAGTTTTCTTCTAAAAAATTTACTATTTCTATTAAAATTTTAAATACAAAATAAAGATTTATAAAGAGGCAAAAAAATCTCATATTATTATTAGGACCTATGGTCTAGTGGTATGACGTTACCCTTACAAGGTGAAGGTCGCCGGTTCGATCCCGGCTAGGTCCATATTATTTTTATAATTCATTAGAAATAAAAATAAGCGCCCGTGGTTCAATGGTAGAATACGACCTTGCCAAGGTTGAGACCCGGGTCCGATTCCCGGCGGGCGCATAGAAACCAATAAAAATGGAAACAGAAAGAATTAACCTTACAAAATTATTACACCAAGATTTAAATTTTAGTTTTAGTCAAACAGAAACAACTACATTATCAAAAGCCATTAAAGATGAGAATTTTTATTATATGTGGGCACATAATAAACCAGAAGTAGATATTGTTACTTTATCAAGTGAGTATGATCCAAATAGTTTAAATTTATATAGAATTCACATGTTAAATTTAAGACCTAATATGCAATTAAAAAATTTATCTCCATACAAAAAAGGTGAAGAAGCATTAAAGTTTTTAATGGGATACATTGGACAAAAAAATACTTTAAATTAATTTTTTGTAAATTGATTTTTTTTTACAGGTTCATATTGAACAATATTAGTAATATTAAAATCACTTCTTTCAATATTTCCAATATTTAAACCTTTTTTAGTACTCTCAAATAATTCATAATCAACACCTTGATGATTAAAATAAACTTGTTTAGTTATATCTTTATCAGCTTGTTTATAATTTTCTAAAGCATTATTAATTTCACCCACAGTAATTTTACCTGGTTCAACTCCTTTTTCTTCAGCTAATTTCTTGCTAATTTGATCACGTAATTTTAACATATCATCAGTTAAAGTTATTAATTGTTTTTTGTGCTCTCCACTTTTTTTTTCTATACCTAAAGTAACATGTTGTGGTTCATAAACAAATAAAAATTTTCTATCTTTTTTATAATCTAAAGCACTAGCTAAAAATACAGTATGATCTTCACAATCCCCACCATTCTCAATTAAAGTTTCAATAGGATATTTTGTATATCCTCTATAAATTCCTAATTTTTCAAAAAAAGGTGTAGTATCATTTTGATAAGTAAAATTATTTGACATAAAATTTTTTACTTTTTGTGGAAAAGTATTTCCATTTTCATAAGTATCAATTAAAGCAAATATTTTATTAAGCTCCGGAGATGTTACATAATCGGATAATTTAGTTTCAGAATCTCTTTTTCTTAATTGATTTTTTTTACGTAAATAAAGTTCTTTTGGAACTCCAAATTTAAATTCTTTAAAATCTATTTTTAATTTTAATTCAATTGTATCTGGAACAGATAATGGATCAATTTTTTTATTTGTAAAGCCATTATTTAAATTCATTACTATTCCATTGTATACAACTAATCCAGCAAGTGGAATAAATAATATATTAGAAATTTTTTCAACTAAACTGTTTTTTTCTAATTTGCCTTCTGAATTCATGAATTTTCGACAAAATTATACATTATAAATGTTTCGTTTTGTAACTACTAGTAAATTAATAAAAAACATAGTATGATTTAAAAACAGATTAAATCAATAGTAATTATGGAATGGAACATCGTACATAGAACTATTTGTAATTCTCAAATGTTAGCCTCCATAGCTTTAAATGGACTTTTAATACCATCTGAAAGAAAAATAAAAGTTCCTAAAAAAATAAAAGATTTAAATAGAAAATTAAAAAATTCACCAATTAACTATGAACTTATTACTAGTATAAATAAATTTTACGATAATTTAAAACCAAAACATTTACCAGAACGATCAAATTCAATTTATGGCGCAATTAATTTAGAGGAAAAGTTAGATGAAACAGATTTATTATTTGAAGATATAGTCACATATATAAAAATCAATTTTAAAAAATTTGCATATGTTTCTGATCAAAATTTAGGTGGACTTATTTTTAACTTACATCAAAGTGAAATTAATTTATTAACAGAAAAAAAATTACCTTTAGATTTATTAAAAAGTACAGAAAAATATGCACTAGAATATTGGAGTAGAGTAATTTCACTAGAAGAATTTGAAAAAAATTATAGATTTCATCCATTAGAAAGACTAAGTAATAATAGTTGGATTAAAAGAGAAGAATCCACTAATAAAAAATTACCAAAATACTTTCTATATCCAGAAATTATTTTTCCAGAAAGTATACCTAGAAAATATATAGATATAATTCATTCAAATATAATTAATTAAAAAAATTAATTACTTAATTTACATAAGTATTCAATATGTCATTTAAAAGAATTAAGAATATAAATATGATTATATGATAGATTTAATATAGTTTATTTATTTGTAGTCCATTTACTAAAAAGTCAACATTTAGAAAATTCATAAGGCATCACACCAATTATATCTACACTTGGTTTTGTAATTAATTCAAATCAGTTACTAATTGGAATACAAACTGATATAGATGGAAATTATTTTTTAATCCCAAAACAGAATTAAAAATTAATACGAAAGCCACCAAAAATAGTTTTGTTTTTTGAATTTCTAATTCCATTAATGAAAACATCAGTATTATTACCTACATTATTTGATAGTAATACATCATAATATTCTCCAACACTACCATTTTTTTTATAATCAATTGCATTAAAAAATTCTAATCCAAATTTATCATCAATTTTAATTCCAGAGTAATTTGTAAATCTAATTATATCACTATTACCAGTAATTTCACTATAACCATATCCACCATTAAAAAGATTACCCAATTGACTTGCTGGACCATATACCCTTAAACCGTATCGTTCATCAAATATTCCATGTTCATCAAAATATAAGTCTGCTTCTGCATGTAATTTAATATCCCAAAATATTTTATTATCTTTAATTTTTAATAAAGGAGTGTGAAATCTATGTCTTCCAAAATATGAACTTTCTTTAAAATCAAAAAATTCATTATAACCATGATGATTTAATTCAAATCCATTAAAATCAATTTTATGGTTTGAAATGAATCTACTTCTTTTTTTATCATTAGAAATTAATGACTGATCATATCCTACATATCCTGGAGTAATTTCAATTCCATCTATTTTAGGTGAAATTAGACCTAATAATCCAATTCCAATAGTTGTTATTATTTGTTTCTTCATTTTTCATACTCCTCCATCACCTCAAAGTATATGATTTACAAAAATTATATATTTAAATATAACCTAACCCCAAAGGGGGAGAAATAATAAATTTTATAACTAATAAAAAAACCTAGTTATTATGGATATGAATTTTTTAGAAGAATTAGGCCTAACAAAATCAGAAATTAAAGTTTATTTATCCTTATTAGAAATAGGAGAATCAAGTACAGGAAAAATAGTTGATAAAGCAAAAGTATCTTCATCAAAAATATATGAAATAATGGATAAATTAATTCAAAAAGGATTAGTATCATATATAATTAAATCAGGTGTAAAATATTTTGAATCAGCACAACCAAATAGATTATTAGATTATATTAGTGAAAAAGAAAAAAAATTAGAAATTCAAAAAGAAAAAATAAAAAAAATATTACCTGAATTAGAACTTAAAAAAAAATTATCCAATTATAAATCACAAGCAACTATATATAAAGGATATAAAGGATTAGAAACTGCATTTTTTGAAAGTTTAGATTTACTAAAAGCAAATGAAGAATTATTAGTAATAGGAATTCCAAATAGAAGTGAAATATCAAACAGGTTTTTTGTGAAATTTGCAAAAGAAAGGCAAAGAAGAAAAATTAAATCACGTGCTACAATTAATGAAATTGCTAGAGGCGAATTACAAACATTAAAAAAAAATTTATATTCACTAAAACTAAAATACATACAACAAACTATGCCTGCAGCAATTAATATTTTTAAAGATAGAATAATTATATTCCCAGAAGAAAAAGATGAAATTATATTATTTGTTATTGATAATAAAGAAATTGCAGAAAGTTTTAGAGTTCAATTTGAACTTTTATGGAATCAAGACGTATCCACATATCACGGACACAATGCAGTTGAATCAATTTATGATTCAATAATTGAGAATACAAATAAAAAAAATGAGATATTAATTTATGCTTCAAAACCAAATGATAAAAGAAGTAGTGAATATAATATTGAATGGCAAAAAAAAATTGCTAAAAAAGCAAAAAATGTAAAATTACTTTATTATGGACAAAATGAAATTAATAATGAGCGTCTAAAAAAAGTTAATCAAACTGGCTGTATATCTAAAATTTATCCAACTAGTCAAAACCTACCCATCTCCACTATTATAACAAAAAATGAAGTAATCAATACAATATGGTCAAATAAACCAACAGCAATTAAAATTGAAAATAAAATTGTTGCAAACTCATTAAAAGAAAATTTCAACATATTATGGAATCAAAATACATTCGTAGTTAAAGGAATAAAAGCCATTGAAAATATTTTTATGGATATGTTAAATTATAAACAAATAGATTTTATTGGTGCACGAGGGTATTTAATCGATAAAAGTCCTAAATTTATTTCCAAATGGGAAAAATTAGCAATTGAAAAAGGATTTAAAATGAGAAATATTGTGGATAAAGAAATAAAGGGACATAAAATTACACGTTTTCCTTTTGCAAAAACTAAATATACCATACCAAAAGAATATGCAAAACTATCAGTAATATGGATTTATGGAAATAAAATTGCAATTAGTAATTGGACAAAAAAAGAACCTTTCGCAATAATAATTAATAATAAAGAAATTTATGATATGTACAAAAGTCAATTTGAAATAATCTGGAATATGAAAAAATTTAAATAAAGTATGAGAATTTCAAATTATAAAAATTCTACTAATAATTAAATTTATAAACGCATTCAAATTGATTCAAATTGTTTATTTTGGGTCTGTAGCTTAGTCCGGTGGAGCGCTAGTCTTATATGTCTACGTTCTGTACACAAAATGATGCGACTAAGATCACTAGTGGTCGAGGGTTCAAATCCCTCCAGACCCACTTTATATACACAACGTTACTTAATTTTAAAGCAGTTCTTTGACTCATTTATAATGTGAAAAACCAAACATTATTTCAAAATGTAAAAAGTTTGCTTAATACAATAAGTAAATTTTTTGTAAATGACATAGGTAATAATATTTCTAAAAAAATAAATAATATGAATGAAAATTTACAAAATCAATTTAATATTTTTATGAATAGTTTAATGAGACAGTTAATGATATTTTTATTTTCAATAATTACATTTATATTTTTATTAACATCAGGAACATTTTATTTAATTGAATATCATAATTTAAATTATACAATATCATTTTTTTACATAGGAATTATATTAATATTAATTACATTTTTCCTACATCACAATAACTTAAAAAGACAATTAGAGGTACAAAATGGCAAAAAAAATAAGTAGAAAAAAAGTTTCTATTAAAAAACGTGCAAGTAAAACTGTAAAGAAAGCTAAAAAAAACGTTAGCTCAGCTCAAAAACGATTAGAATCTGTTGCAAAAAGAAAATTACAAACTGCTAAAAAAAAAATAATTCAAACTGAAAAGAAAATTAAACATTTCATACATTTACATCCAGAAAAAGCTACAGCTGTTGCAGTTGGATTAGGAGCGGCAATAGGTTCAATTACTACTATGATTTTTGGTAGAAAAAAAAGATAATACAAACTAAATAAATGCTTTTTAAGCCAAAAAAAGTATTTAATATTTTTTTTTAATAGTGCTATTTATAATAAAGAATAATTTATAAATAATTCAAAATGACGTCAAGTTATGATTATGGACATAGAATACAGCAATGATGTATTTAAACAATATATAACAAGTATTGATGGCATTGAATTAAATGAAGAAATTAGTGATCAGCCTCCCGATTTAGAAGATTCAATTATATTTGCAAATCACATTAGTGATGATAGTATTTCTTTAGCAATTATGTCTGGGGGTTCAACACATAAAGGAATTCCAATAAGAAATATTTTAGTACCCGATTTAGATTATTATACATATACAAAAAACAGAAGTTTTGAAGATTCTGCTATTCGTAGAGATGAAGAAAAAAAAACAGAAATAGATTTAGAAATATTAAATGATAAAGAACATTTAGAATTTAAAAAATTAAAAGAAGAATTAGATAATAATAAATTTTATTTTGAATCAAAAAGGTATCAATTAGGATTTCATTATTTTTATGTATTAGAAGATTCAACTTTTCAACCATATTTTTCATCAAAACCAGTTTTTATGGATACTATGTTTGAACATTTAGGAAGCGATAATAGACATAAAAGTAAAGACCAATTAGTAACAAACTATACAACAGATAAAAATCTAACTAAAATATTATTAAGAGAACATGGTATTCCAGTTGCAAGAGATCGTATAATTACTAGAAAAAACATTTCAAAACTTGAAAAAATCATTAAAGATTTTACATTTAAAACTCAATCAAAAAGTTTAGTATTTAAAGCAAATAATGGTTCTTGTGGAGACGAAGTTATAATTACACACCCAAATGAAACTAAAAAAATTAAACAGTTTGTAAATAAACATTTAGAATATGGTATAGTATTATTAGAAGAACGATTAATTCCAAGAAAATTTAAAGTCAATAGACAAAAATTAGATGCAAATATGCGTATTTTAGCAATATTAACTGATCACTGCGAGTATGTAGGTGGAGTTGTAAGAATGCAATCATGGGGCAATAAACCAGTTAATTTATCTGGAGCTGCCAACCGATATAATTTAGAAGACTATGCAAAAGAAGTTAATTTTACTATTAATGAATTAGCAGAATTTACTAGAAAAGCTGGACAACCATTAGCAGATATTCGTCAAGAACATCATCCAATAATGTTAGGTTTAGATATTACCCTCACAGATAATGAATTTCATGTAATTGAAATCAATAGTTCTGGAAGTGCAGGATACCATAGTTTAGGTTTAACCACAAATCATAATCAACCAAGAGTAAAATATATGGTAAGTAAATTATGTGAAGTAGGATATCAAAATTTTACGAAAAGAAAAAAAGAAAAAATACATTTCACAAAAAGAAAAGAAAGTTATGATATAAGATTTTTAAGAGCAATTAATTGTTTTAAAAATGAAGATTATGAATTAGCTGAAAAATTCTTAAAATCATTAGCAAATTTAATACCAGAAGAGGATGAATATAAAAATTTAACTTCAGAAGAAATAAAATGTTGGATAGGAGTAGGTTTCTGTAAACAAGGAATAAAAAATGAAGCAAGAGAATATTTAAAAGATGCATTACAATATAATGAAATGGATTTTATTGGTGCATTCATAGATAGTGCTAAAGATATTTATGAAATTAATAAAGGATTTGAATTATTATTGCCAAAAGCAGAAAAAGGAACTAGATTATATAAAGTTGTACAAGAAAATTATTTAGAAACTTTATTTCGTTTAAATGAAAGGGAAAAAGCAATTTCATTAATCGAAAAATTAAAACCAGAAAAAGAATTTAGAACTACTATATTCAATAAATTAATTAAAAATTTAGAATTAGATTATGCAAAAACATTATTAGAAGATTTACCTGATACAAGAAAAGGTGAAATCAATAAATTATTTTATTATTTAGAAACAAATCAATATAAAAAATCAATTGATTTATTAGAAAATAATAAACATATAGAATATGGAAAAGAAGGTTTTCTTTTTTCTGCTAAATTAAAAGAGGATTTTAAAATTGAAAAAGTTTTAAATCGGGACTATCAAAATCAAGGAAATAATGAATATTCTATATTTTTATTAGGAATGGCAAGATATTTATCTGGACAAAAAGTTCAATCATTAATATTATTTAGAAATTTAACAAAAAATTTAAGTTATCAACCATTTATATTTAAAAATATTATAGAATTCTATAAATCACAAAATGATCAGAAATTTAAAGATTTATATTTAAATTATTGTTCAAAAAATGAGTTACCTAGAACTCAAAGATTAATTAAAGAAGCCAAACAATCCAAAAACAATAATTTATAAATAATAAATTTGGTGGAAAATCATGAGTTTAATATTAGATTTGTTTGAACCATTTGAAAAAATGATGAAGTGTGGAAGTGAGTTCCAAGAAGATGAAAATTCAGTTGATGAATTAAATCACATTTTAAAATCAGGGGAATATTTATCCCTTGCTTATCTTGAAAAAAAATTATCACCTCATTTAAATCCACAATTAGAACAAATAAATGGTAAAAAAATTATTTTATATAGAATTATAGATAAAAAAGAATCAGAAGATTTTTTCCCCACACCTCAAATTAAAAAAGAATTATATGAAATCACCAATAATTTAACTGATTATATATATGATAATAATATCAATAATATAATGTTAATTGATTGTTCGGCTAGACCTCTATATATTGCAATTAGAAAATTGTGGAAAAATAAATTTCCAAAATTAAAACAACCTCAAATTTATTTTACAAATCCAGAAGCATATCAAACGTCAATGTCTTTTGAAACTCAAGATCATAATAATCATTACTTAAAAAAATTTGAAAATACATATAAAAAACTTGCAAAAAAGAAAGAAGAAAAATTATTATTATTTGATATGTGTGCACATACAGGGGACACACTAAGGCCAATTATTAATTTATTAAAATATAACGAATATAATGTTGTTGTAGGCATTGCACAAAAAAATCCACTTTTTGAAGAAATCGTTTTTGACTTTATTGCTTTAAATAGAGAATGTAGATTAAAATGTAGCCCTTTCGGAATTGAACACATGGTAAGCAAAAATGGCTTTAAAATGCTCTCTAGTCCAAATCAAAATAAAGGTAATGCGATTCAATTAAGAAAACAAATTTCTAAAATTATTGATGAATTTAGTTAATAATACAAAAGTATAAAAAAGAATAAAAAATCCACTTTTTATGGAAGAAAACAAATTTTTATCAATTCAAGAAGCAATGCAAAATGAAAGCCAAGAAGTTTCTATAAGAGGTTGGATATACCGAGAAAGAAAAAGTAAAAAATTAGCTTTTATTATTTTAAGAGATAGTACAAATATTATTCAATGTGTTTTTGAAAAAAGTAATTTTTCTCAAGAACAATGGGATCAAATTGATAAAACTCAAATTGAAACGTGTATGACAATAACTGGGAATATTAAAAAAGATGATAGAGCTCCGAGTGGTTATGAAATTCAAGCAAATAATTTTCAAATAATCGGTGAGTGTGATAAATTTCCAATTACAAAAGATCAAAGTCCAGAATTTTTATTAGACAATAGACATTTATGGATTAGAAGTCGTAAAATGACTGCAATTATGAAAATAAGACATACAGTAATTGGAGCTATACATGAATTTTTTAGAAATAAAGGATTTTATGAATTTACAAGTCCAATATTACAACCAAATCAATGTGAAGGTGGTTCAACTTTATTTGAAGTAAATTATTATCAAGATAAAATTCATCTTGCACAAACATGGCAACTTTATGCTGAAGCAGGAATTTTTGGATTAGAAAAAATATATAATGTTTCACCAACATTTAGAGCAGAAAAATCAAAAACATCTAGACATTTATCTGAATTTTGGATGGCGGAAATGGAAGCTGCTTGGTTTGATTTAAATGATGTGACTCAATGTGCTAAAGAAGAAATTGCTTTTATTGTACAAAAAGTATTAGAAAATAATAAACCAGAATTAGAAATATTACAAAGAGATGTATCAAAATTAGAAAATATAAAATTACCTTTTGAAACAATAACATATACGAAAGCATTAGAATTATTAAAAGAAAAAAAAGATATGAATATTGAATGGGGTAAAGATTTAAGAACAATTGAAGAGGAGAAATTGATGGAATTATTTGACAAACCAATTGTAGTTACACATTATCCTAAAGAAATTATGGCATTCTATAAACCAAAAGATCCTAATAATGATAAAACAGCATTATGTTTTGATATGTTAGCACCAGATGGATATGGTGAAATAGTTGGAGGGTCTCAAAGAGATACCGACATAGAAGAAATTATTAATGCATTAAAAAAAGATGGAGAAAATCCTGAAGATTACAAATTCTATTTAGATTTAAGAAAATATGGTTCAGTACCACATTCTGGTTATGGGGTTGGTGTTGAAAGAATCATATCATGGATATGCGGATTAGATAATATTAAAGATGCAATACCATTTCCAAGAACAATGCTTAGAAAAGAACCATAAATAAAGTGTAAGCACCCTATCTTCGAAAAAACAAAACCTGCAAGTGCCCTTACTCCTTTCTCCGTTCCGCGACCCTATAAGCATCAATATAATAGCTTATGGCTGCTTCGTTCCCGATCTGACCAAATTCACAATCATAACGATCAAATAGGACAGAACATCAACGTCCAAAGCAAAGCTTAACAGACAATGTTTCTCCTCAAATAGGTTTAAATCCTTCCATATAGTCAGAAGTTACAAGAAGATGACTATTCTCCCCAATCGAGCCTACAAGTTGTATTGGCAAATTATAACTATTTAAATCTTTGCATAAATTTATAAAAAATAAGCTGGTTGTGGAAAAATGGATGAATTAGATAATAAAACAGCAAATCACTATAAAGAAATAATATGGCGTTTTTGTAATGGAAATATACAAATAATGACGGCTTTATATAAGGGAATAAATGAAACTCCACTTCCATTTCAAATAGATTATTTTAGTGCAATTAGATTTTATACAAATTCTTGGGAATTAAGATGTCAGAAAGATGAAAATTTTTTAGAATTATTAGAAAAAAGAAAATTATCAAAAATAATTGAATTTCCATTAAGAAAAAATGTATATTTTTCAGAAGATGAGACAAAAAAAGAAATAGTTCAAACATATGAAGAAGTAAAAAATGAATTTAATAAAAATAAAAGACCATTATTAAATATGATGCCACTTGAATTTCAAATGGAAAGTAAAGAGGAATTACAATTAAAAATAAATCAATTTTTAATTAATGATAAAGAAAATGATTATAAAAAATCAAAAGAATTTTTAGAACAATTAAAAGAACCAACTAAAATATATCTAAGTTCTGATGAAACTGAATCTCATTCTAAAGTTCTTGGAAGTAATAATAAATATGAATTATTTCAAAATATTAGTAACATAGTGATTGACCACTTAAGACAATCAATTAATTAATCCTCGATATATTTATAAAAATAATAAATCAACATTAAATATGAAATATTATATTACAACTCCAATTTATTATGTAAATGATAAGCCACATATTGGAACTGCTTATACTACAATAGCAGCAGATGTTCTTGCAAGATGGAACAGATTATTAGGTAAGAAAGTTATATTTTTAACTGGTACTGATGAACATGGACAAAAAGTTGAACAATCTGCAAAAAAAGTAAATCAAACTCCAAAAGAATATTGTGACAAAGTAGCTGAAGAATTTAAAAATACATGGAGAAAATTAAAAATAAATTATGATAGGTTCATAAGAACAACTGATAAAGATCATGAAGAAGTTTCAATTGAAATAACTAAAAAAGTATTTAATAACGATGACATTTATTTAGACAAATATGCAGGATGGTATTCAGTTCATGATGAAACTTTTTTTAAAGAAGAAGAATTAATTGAGGGTAAAGCACCATCAGGTCATGATGTTAAATGGGTTGAAGAAGAAGCTTATTTTTTTAGATTGTCAAAATATCAAAATAAATTATTAGAATTATATGAATCAAATAAAGAATTTATTTCACCAAGTTATAGACGAGAAGAATTTATTAATAGAGTTAAAGAAGGTTTACATGATTTATGTATTTCAAGAACAACTTTTGATTGGGGAATTCCATTTCCATGCGATCCCACAAATAAACATATAATATATGTTTGGTTTGATGCATTAACTAATTATCTTAGTGGAATTGATTATTTAAATAATAAAGATAAATTTAATTTATATTGGCCAGCAGATTTACAAATAATTGGAAAAGATATAGGTTGGTTTCATGTTGTTATTTGGCCAGCTATGTTAATGTCAGCTGAAATTGAAATGCCAAAAAAGATTTATATTCACGGATTTTTAACAAAAGATGGACAAAAAATGTCTAAATCCAAAGGAAATTTTGTTAATCCATTAGATATTTTAGATTATGGTGTTGATATCGTAAGATATTATTTATTAAAACAAATTCCATTTGGTCAAGATGGAGATTTTTCAACAAGTGATTTTTATAATAGATTAAATGTTGATCTTGCAAATGATTTAGGTAATTTAATTAGTAGAACTACAAGTATGGTAAAAAAATATAGTGAATTTAAATTAAATCGTTATTATCAAGAACAATTTGAAAAAGATCTAAATAAATGTGATACAAAAATAAAAAAACTAACAGAAGATTTAATTGAAAGTTCAAAAATATTTGAAAAATTTAATATGGAAATACAAAAATTAAATTTTCATATAGCACTATCAATACTTTGGGAATATATTTCAAAAATAAATAAATATGTTAATGAAACTGAGCCTTGGAATCTGAAAAAAAATAATCAAGAAAAAGAAATTGAAATTGTATTACAAACTTTAGTAGAATCAATTAGAATTGTTAATAATTATATAAGTCCAATTTTAATAGAAGGAAGTGAAAAAATAAATAAAATATTTAATTTTCAAATTAATAATAAGTTTAAGTTTAATATTGAACATAATGGAATAGAAATAAATGAATCAGATCTTTTATATAAAAAATTTGACATGGTAGAATTTAATAAAAAGGAAAAATTAAAAAAAGAAGAATTTGAAAGTAAACAAAATCCTTTTGAAAAATTAGATTTAAGAATTGCACATATTGAGTCAGTTCATAATCATCCGGATGCAGATAAACTATATTTATTACAATTAGATGTAGGAACACTAGGTAAAAGACAAATTTGTGCGGGAATTAAAGAATTTTTAAAACCAGAAGAACTGGAAGGACAAAATATTATAATAGTTAGTAATTTAAAACCAAAAAAATTAAGGGGAGAATTAAGTCATGGTATGATGCTTGTATGTGAAAAAAGTAAAAAGAATTATACTCAATTAGGTCTTTTAACTGCAAATGGTGAACCAGGTACTTTAATACAATTAGAAAATGAAAAAATTGATGCCAAAAATATTTCTAAAAACCACAAACAAGAAATTGAATATAAAGATTTTACAAAAGTAGAATTATTAGGAAAAGATGGACATGTTATAGAAAAAAATAGTAATAAAAAATTAATAACTATAACAGAAAACAAAATTACTATAATTGGATTATCAGATGGTATTATTTGTTAATTAAAAATCTATTTTAATATCACCAAGAACTTTACACTGACATGCTAATCTTTGTTCATTATCAGCACCTAAAGTATCTAAAGTAATTTCTTCTTGTTCAGTTTTTGGATTTAAATTTTCAGTTCCTTCTTTTACTCTACATAAACAAGTCCCACAAACTCCATTTTTACATGAAAACGGTAAATCAATACCATTATTTTCACAAATATCTTGTAAATCTTCACCATCTTTACATTCAACTGTATAATTATCTGGAATAAAATGTATTTTTGCCATAAAGAACCAAAATTTAGTCAATTTAAAAACTTTATTAAATAAATCAAAAAATAATTAAAACAAACAAGTTAAAACAATTAACCAAAATAAATAAATAAACTACCATTAAATAAAATAAGCTAAATTTACAGACTTAAATAAGTTGAAAAAATTAATATTTAAAGTAAAATAGCCAATTATAAGATTTGTATGTTGAGGATTATTATAAAGACTAATTGTTTAATGACTATTGAGGTGAATAACATGGATCAAAATGGAAAAATTGGAACTTGGTTAATAATAATAATTGGTTTACTATACTTATTGAATGGATTAGGCGTACAACAAGTTAGTTTTATGGACCAGTTAAATGGATTTGGAGTATTGTTTTTAGCATGGGGACTTGGATGTTTAATGAATTGTAGTTCAGGTGGATCAGCTAGAAGAAAGAAATAGTTTAACTATTTCTTCTCTTTTTCTAATCAAATAGTATAAAATATTAAATTTGTATTATATCCAATAATGCAAACTACTTCTACAATATTTATTTTATATAGTTCAGATAAATAGTTTTATAAAGTATTTTTACGAAATTTATAATAGAGGTACTAGATGAATAAGAAATCAATTCTATTATTAGCAATATTATGTTTTTCTACATTTTTTGCACTAAATGTGTCAAATGATTCGATTAATGGATTATTAAGTTTAAAACAATCCAATTATAAAGAATTATGTATTGATACTGATGGAAAAGATTATTATAAAATAGGTTTTGTCGATAGAGATATTACTAGTTTTTCAGATACTTGTAATAATGATAATGTATTAACAGAAAATGTTTGTAATGGACAATTTGCAAATCAAATTACACACACATGTATATTTTCATGTGATAAATCAAAATGCTTAAAATCATATCAAGGGGATTATGCAATACCAGAAATATTAATTAACAAATTTGAATTAATTTATTCAGATGAATATAATCCAAAAGACATTAATGGAGAAATTAAATTAAAAAATAATAATGTATTAAAAACAGAATATGGATACATTAATAGTGTTGGAGAATTAATATATAAAAATTCAGGAACTAGCATTAAAATATTTATTTTAAATTTTAAAAATGAAATAGATATAAAAAATTATGTTAGAAATGTAAATTTAAAAGATAATTTTAAATTATTAAATAAAGAAAATAAATTATTAGTTATAGATGCAATTTTTGAAGATAGAAAATTAATTTATGATTTTTTAATTGAAAATACTATATTTGAAAAATTAAATTTAGAACAGAGTGAAGTTGTATTTAGTAATAAAGTAATTGAAAATAATAATATAATAAATAGAGTTAGACAGGTTTGGAAACCTTCAAGTAATTCACTTATGCCAAAAGCTTGTGATAAATTAATTAATGAAAATGGAAATAGTGCTTGTGATCATCCTTCAGGACAAAACATTGAAAATATTGATTGTTCAGAATTTAAATTAAATCAACAAGTAAAAACAATTAGAAATTCAGCTGAAAATAATTATATGTGTAAAAAAATTAATATATTAAGCTTAAAACAAAATAAATGGCATTTATTAGGTTCAATTGATCCTGAATTAAATAATAAATTAAAAGAATGTAATGGAAAAACAACATATTCATTTAATGATGGTGCTTGGATTAAAGATTCCAAAAAAATTGAATTAGGAAAAGGGTTTTGGATTAAACTTAAAGAAAGTTGTTCATTAGAAATTGAAAGTAATAATGTTATTAATTATAAAATGGAATCAGGTTGGAATTTAGTTTCATTAAAATCAATTTTAAAAGATAGTTATTTGAGAGATAATATATGCTTAAATGGAGTTGAAAAAATATTAATAACAAATAAATATAATGAAAATTCCAATAATTTTAAAGAAATTGATTTAGTAAGTAAAAAAATTAATGACGAAATTTTAAAATCAAATGAAATTTTAGGTGCTTGGGTTAATTGTAATTAAAAATTATTCAAATAAACTTTTAAAAAAACCTTTATTTTCTTGCTTACCAATATATTCTTTATAAAATTCTTTTTCATGTTTAGTAAGTTTATTTGGAGTTTCAATAATTACCCTTACATATAAATCTCCTTTATTAGTTGAATTTAAATGTTTAATTCCATTATCTTTAATTCTAAAATTAGTATGAGTTTGAGTGCCTGATGGAATTTTTAATTTAACTTTTCCTTTTAATGTAGGAACTTTGATTTCATCACCAATAGCAGCTTGTGCAAAATTAATTTTTGCATCTATGTATAAATCATCATCAATTCGTGTAAATAATTCTCCTTCACTTACTTGAATTCTAATATATAAATCACCAGATGGTCCATCTTTAATACCTGCATCACCATGTCCTCCTAATTTTAATGTTGTTCCATCACGAATACCTTCTGGAATTTTTATATCAATTTTAACATCATCATTTACAATTCCAATACCATTACAAGTTGAACAAGGATTTTTTATTTTTTTACCCTCACCACGACAAGTTCCACAAACTCCAGATTGTGAAAAATAACCAAAAGGAGTTCTTGTTTGTCTTGTCACAGTTCCAGAACCATCACAAGTTGAACAATTTTCTACATCATCAGGTTTTTTTGCACCCTTACCTTTACAACTTTTACATTTAGTTGTTTTTTCTATACTAACTTGATGTTCTGCTCCTAAAGCAGCATCTTCAAATGAAACATTAAGATTATATTGTAAATCACTTCCTCTTTGAGGACCATGACTTTTACGTTTTCTTCCACCACCAAAAAAGCTAGAAAATATATCTTCTACATCATTAAAATCAAAACCACCAAAACCATGGCTTTGTCCGCCAAAACCTTGACCACCAAAACCACCCTCAGCTGAACCAAATCTATCATAATTGTTTTTTTTTTTCTCATTACCTAAAACTGAAAAGGCTTCATTTATTTCCTTAAATTTTTCTTCAGTATTATTAGAACTACTTACATCAGGATGATATTTTTTAGCTAATTTTTTATATGCTTTTTTAATTTCAGCAGTAGTTGAATCCTTACTTACCCCTAATACCTCATAATAATCTTTTGCCATTTTTAATAATTAAATTTTAATATTATTTTCATTTAATTTATTTCTATCCATTTCACTTAATTTATATTTATTACTATTTATTTCATGAATAATTAAATCTAAAAAAGTTTCATAATCTTTTTTATCACATTTTGCTCCTGCCGCAGGAATGTGACCACCACCACTTGCACTTTTTATTTTAGATGCCGCAAAATTAACTGCAGAGCCAACATTGATTGTATAATCACTCCTCCTAACTGAAAATGTTGTATTATTATTTACATGTTTTACAACAATAATAGTTTTATCCATATTATTGATTGACATAATTGTAGAAATTTGGCTTAATATATGATAAGAACTTTTTAATTCATAAAAAAAAATATTATCATCATAAGCTACACTATTATTAAAAAAGTTTTTAACACAATTATTAATTTCATCCAAGACTTCTCTACAAAAAGGTAATTTTTTTTCAAATTCGTCTAAATTATTAGAATTTTTTAATGCATTAAAAATATCTTTTACTCTATCAGGATAAAATGCATTACCACATGAAACTAATTCAGTTGCAAGTCCAAATTTACTATCATATAAACATTTATTATTATTTTCACTTAATTCAATGTTATATTTTTTAAAAATATTAAATATAAAATCCCCCCACATTGGATATGCAACATCTCCTATAATACCAATAATAGCATACCAATCTTTTTCACTTACATCCATAATTAAATTTGCTAAATCATATGCTAATTTTGCCGTACAATATCTTGCAGGATTATCACATGCAAAAACAGTATTTGATTTTAATAAAATTACATTAGGGTGTTTTAAATTATCAGTTGGATGATGATCAATAATAACAATTTTTTTCAATCTTTGATTACTTAATATACCATCTAATTGTTCAATATTACTAAAAGGTAAATCTAAAGAAAATATAACATCAGTATTAATTAATTTTTTAGTGATTTCCCTTTCATTTGAATAAGAAATTCCTTTTAAATGTAAATGTTTAATTCTCTCTAAACCCAATTGCTTTAACATATAGTAAAATATATTTCCAGAAGTAATTCCATCTGCATCTTTATCATGTAAAAGCATAATATTAGATTGAGGATTATTAATTAAATGTTCAATTATATTTAAAAAATCTTTTAATGAATTTTCATCAATTATTTTATATTTTAAACTAGAGTTTTTAATTTCTTTTTCAAATCTATTTTTTATTTTTTCAAATTTTTCCATACTAATCAAATACAATACTCATATTATAAAAATAATAAAAAAAATTAGGAATATTTAAAACTATGTTAAAAATTAAATAAAAATAATTTATTATTATTTATTATTTAATCTTCAACTTTATATTCAGCATCTACTACTTTTTCAGGTTTTTTATCAGATTTAGCATCTGGTTTAACATCCTCTGCTCCAGCATCTGGTTGATTTGCTTGTGCAGCCTGAGCAGCCTGTGCATCTTTATATACTTCTTGACCTATTTTTTGCATTTCTACATTAAGTTCTTCAATTGATTTCTTTAATGCAGGAATATCTTTTTTCTCAGGTTTTAATAATTCTTTCAAATCATCAATTTTTTTAGTTACTGTTTCAATTAATTGCTTATCAACTTTATCTTTAAATTCTTTTAATTGATTTTCATATTGAAATACAATTGATTCAGCTTGATTTATAGTTTCTACTTCTTCCTTTCTTTCTTTATCACTTTCAGCATTAGCTTCTGCTTCTTTTTTCATTTTTTCAATTTCTTCATCATTTAAATTTGTTGAAGCAGTAATTTTTACTGATTGTTCTTTTCCAGTACCTAAATCTTTTGCACTTACATCCACAATACCATTTGAATCAATGTCAAATGTAACTTCAATTTGTGGTACCCCTCTTGGAGCAGGTGCGATTCCTTGTAAATCAAATCTTCCTAAAGTTTTATTATCAGTTGCCATACTTCTTTCTCCTTGAAGTACATGAACACTTACTGCAGGTTGACTATCTGCAGCAGTAGAAAATACTTGACTTTTCTTTGTTGGAATAGTTGTATTTTTTTCAATTAATTTTGTCATTACTCCACCAAGTGTTTCAAGTCCCAAACTTAATGGTGTAACATCTAATAATAATACATCTTTAACATCACCTGAAAGTACACCAGCTTGAATTGCAGCACCCATACCAACAGCTTCATCAGGATTAACTGATTTATTAACATCTTTTCCAGTTAATTTTTTAATCGCTTCTTGAACTGCAGGAATTCTAGTTGATCCACCAACTAAAATAATTTTATGAATTTTTTCTATATCTAAACCAGATTCTTTAATTGCTTTTTTAGTTGGTTCTATTGTTTTTTCAATTAAATCACTAGTTAATTCTTCAAATTTCGCTCTTGTTAAATCTTTAACTAAATGTTTTGGTCCATTTTGATCTGCTGTAACAAAAGGTAAATTAATATTAGTTGTTGCACTAGAAGATAATTCAATTTTTGCTTTTTCTGCAGCTTCTTTTAATCTTTGATGAGCCACACTGTCATTTCTTAAATCAATTCCATTATCTTTTTTAAATTCATCAGCTAACCAATTAATTATAATTTCATCAAAATCATCTCCACCAAGATGATTATTACCTTCAGTAGCTTTAACTTCAAAAGTATTATCGTCCAATTCAAGAATTGATACATCAAATGTACCTCCACCCAAATCAAATACTAATATATTATGTTCATTTGTTTCTTTATCTAAACCATATGCTAATGATGCTGCAGTTGGCTCATTAATAATTCTTAATACTTCCAGACCTGCAATAACACCAGCATCTTTTGTAGCTTGTCTTTGTGAATCTGTAAAATACGCCGGGACTGTAATAACAGCTTTATCAACTTTAGTTCCTAAATAACTTTCAGCATCAGCTTTTAATTTTTGTAAAATCATTGCAGAAATTTCTTGTGGCGTATAATCTTTTCCATTAAGATTTGTTTTATGATCCTCACCCATATGCCTCTTTATACTTCTCACAGTATGGTCAGGATTTGTAATTGCCTGTCGTCTTGCTAATTCCCCAACAAGTCTTTCTCCATCTTTTGTAATTGCTACAACTGATGGCGTTGTTCTATGACCTTCACTATTTGTAATAACAATGGGTTTACCCCCTTCCATTACAGATACACAACTAAAAGTTGTTCCTAAATCTATTCCTATTGTTTTTGACATTTTTTAATACCTCATCATAATTTAATTTCGTAAACTCTTACCCATAAAGTAAGTTTTTACATCATTTACATGATAATCACTTATCATGCCTTCATGTATATAACCACATTTTTGTAAAAATGTAATTGAATTTGAAATTTCTTCACTAATTTCATAAATAATTTTACAACTCGTTAATTTTTTTTGTGACATATATTCTTTTATTTTATTTTCTGCAAACTCCATTAATTGAGTTCCAATTGTTAATGACCTATAATTATTTGCAACCGCTAAATGTTTTAAATTTACAATACCATGATGTTTGTAAACTTCAATATCACATTTATCTATTAAAATTGCACCAACTATTTCATTATTTTTTATTGCAATAAAATAACCAAATGAATTTTCAGTTTCATAATTTTCTTGTTTTTTTACAAATTCATTTAATAATTGTCCAGATGGAAAATTAAATTCTATTAATCTCGATAATTCTTTTCTATACAATGATAATATTGCAATAATTTCAGATTTTTGTGCTTTTTTAATTTCCATTTTTTTTATATTTTATTTTGCAATCTTTACTTTACTCGGTCTTAATACTTTATCACCTAACATATACCCAATTTGAAATTCTTCAAGTATAATATCTTTTTCTTTATCACTTTCTTCATTCATTAAAACTTCATGATAATTAGGATCAAACATTTTATCTTTTGTATCAATTTTTTTTAAACCAATTTTTTCAAGTGTAGTAAAAAATTGTGCATAAATTAATTCAACACCTTTAGTAAATTCATCATTTTCTTTAATATTCATTAAAGCTAATGAAAAATTATCTAATATTGGAAGTAAATCTAAAATTGTATTTCTTAAAGCATAATTAGCAAAATCTTTTTTTTCATTTTCAGATCGTTTTCTATAATTATCAAATTCTGCCTGTAATCGTTGTAAAGTATTAATTAAATCTTTATTTTCTAAAATTAATTTATCTTCATTTGATAATTCAGAATTAGAAGTATCCATTTCAACTTCCCCATTAATATTATTATTTTCATTCATTGAATTTTGAATATTTTCATCATTTTCCATTTAAATTCACCATATAATATAAATTATAAATATATAATTACTGTTGACTTTAAATCAACAAATAGTAATAATTAATCTTTATTTATAAACATTTTGTAAAAAACATACAAAAATCCATTAAAAATAGGCATTTTGATCTTAAAAAATTCAAATAAAAACCCATAAATTATAAATAACACATTAAAAAATAAATTATGAATAAATCAAATAGAAATTATAAAAAAGTTAAAAAAAAATTTGATAAAGTTAATTTAAATGATATTAATAAAATTAATTTAGAAAAATTACAAAAAGATACACTTTTACCATTTGAAAAAAAAGATAAAAATAATATAATAACAATAATTAATACAAATGAAAATTCACAAATAAATAATAATCAAAATAATAATAATAATAACAATGATAATGACAATAATAATAATGAACAAATTAAACAATATAGCATTCAAGAATTATTAAATAAAGGAGTTATTTGTTTAGATAAACCCAAAGGTCCAAGTAGCCACCAAGTTTCTGCATATGTTCAACAAATTTTAAAAATAAAAAAAAGTGGACATAGTGGAACATTAGATCCAAAAGTTAGTGGTATTTTACCAATAGCATTAAATTCAGGAACAAAAGTTTTACAAGCATTATTAAAAAGTGGAAAAGAATATATCTGCATTTGTAGATTACATAAGAAAATAGATGAAAATCAAATTAAAGAAACATTAAGTAGATTTATAGGAAAAATAAATCAGCTCCCACCCATAAAAAGTGCAGTTAAAAGAAGATTTCGAACTCGAGAAATTTATTATATTAACATAATTGAAATTGAAGATCAAAATATTTTATTTAGAGTTGGTTGTCAAGCTGGAACATATATTAGAAAATTATGTACAGATATTGGTGAAATTTTAGATTGCGGTGCACACATGGCATCACTTAGAAGAACTAAAGCAGGACCTTTTAATGAAGAAACAAATAAAGTAACATTACAAGATTTAATTGATGCAATAGAATTTTATAAAAAAGATAATAATGAGAAATTTTTAAGACATTGCATACAACCAATTGAAAAATCAATTGAACATTTGCCAAAAATATGGATACAAAATGATGCAGTAAAAACAATATCCCATGGAGCAAGTCTTAAAATCCCAGGAATAATAAAATTTGAAAATAATTTTGAAAAAGATCAAATGATTGCAATAATGACGCCAAAAAATGAACTAGTATGTATTGCCAAATCAGAAATAAATTCAAATGAAATAAAAAATAAAAAAAAAGGATTAGTTTGTAAATCAGTTAGAGTTTTAATTGAACCAGAATAAATTTAATAATAAAATAACAATAATATTCATATTCTTCTCGACAAATACAGGTAAGTTTATAAAATAAAATCCTAATATTTTCTTATAAAGGGGTGTTCGTAATAAAAAGGCATTTTATTAGATTATTTTATATAGTTTTATTAGCAGTCGCTTTAATTACAACCATATATGCTGGAGAAATAATATCAAACAATATATTGTTAAACAGCACACAAGCAGATAATGAAACACCACTTGAATTTTCAAATACATTAATTCCAAATCAAAATGTATTTTTTTATGCAAATTATACAAACTCATCCAATAATCAAGTAATTACTGATGCCAATTGTACATTTAATTTTGTTGGAAATAGCACATTATTAAATTATACATATAATGCAACAAAAAAATTATATCAAATTAATTTAACTAATGGACTTGAAGAAAATATATATGAATATAATACAACATGTTATGCAACAGATTTTCCATTATTAACTATATTAGATAATGTTACTGTAGAACATCCAAATTCAGTTGTTATCAATTTGAATCGAACTTCTTCAGATACATTCACTTTTGATGCAACCCCACACATATTTAGAGCTAACATTACTGATAATGCAGGCATTCAAAAAGTTGAATTTAGAATTTACAATGTTAGTAATTATTTAACTCATTGGTTTGCAAACAGCACAACATATGAACCAGACATATTAGCAATGGCAGTTAGTAGTCAACAAAGAAATTCATTTATTGGAAAAACAAATCAAACTTGGTTAGATAAATGTATAGACACAGTAATATATTGTGGCATATCACCACAAATTTATTCACATCAAGAATCATTAGGTAATATTACAACATTTCTTAATGTAAATGTTACAGCTAAAGTTACTGCAGAATCAGTTAGTGGACAATGTACTGATAATTTAAGTCAAATAGTAGGTTATCAATTAAACGTAGGAAATATTGTAGCATCTTCGCAAAATATAACTAATGCACTTAATGCATGTCCAAGTGAAGTTAGTGATGCTTATATCAATATGAGTTCAGTAAATAATTCAATAATAAATGCAAGCTCAATTGTTGATTCAAATCGAATAAATATTACTAATACAAGTGCAATTTACCAATTAAATTTTACTAATTATTTATCAGACTTAACTACAAGCACAATTGATTATGTCTATGTATGGAACGCACAAAATATACACAATAGTTCAAATACTACAACAATTGGAATATTAAATGTCACTACAGGAACACCACCAGCATTAACCCCCACAAGATTAGAATTATTAAGTCTAAATAAAAATAATAATACAGAATTAAATCTATCAACACAATTTATATTTAATTTTTCTAACCCCTTAGATGTAAATAACAATAGACAAATAATATTAAAAGTTAATAATCAAGAAATAGAATATTCCGAAGAATTTGAAAGTAATATATTAACAATTATATCATTAGAAGATTTTGAAGAAAATTCAAACATTTCATTAATAATAAATCACACAGTAAACGATACATACTCTAGTGATTTCAATAGAACTGCAGAGTATAATTTTACAACACCATTTAGAGATTCAGACAATAATGGAACAATTGATTCCAATGATAATGATTTAGATGGAGATGATTTAAACAATACAGTAGATTTTATTTTTGGAAATGAAACTAATATACACACAAATTATGTAAATATTTCAATTGAAATTAATAATACAACACCTGATAACAAATCATATAATTCTACAGAATTAGTTCAAATATATAATGGAAGTTTAGAATTAATAAGATTTAATTATAATTTTAGTGATAATAATACATTAGATTTTAGAAATATTTCAATAATCAAACAAAAAAATAATCAAAGTTATTATACAATAATTAATGGAATTAATACAAGTTCAAAAACAATTGTATTCGAACATAATGTAACCATAAATACAGACATATGTATTATTGATAATGAAAGTGTAAATATTACTGAATTTTCAACAACATGCTCAAACGATAATGAAGTATTTGTAGAATGTGATGGAACAACACAAAGTGGATATACATGCACTTATGAAAATAATTTATTTAATATAAGTGGATTAAATAATACAGGATTAAAAGTACAATGTTCCGAATCATGGTCAACAGGAAGTTTTGGCGCATGTAGTGGAAGTACTCAGACTAGAACAGTTACAGATACAAATGATTGTGGAACGATTTTTTCAAAACCAACAACAAGTCAATCATGTTCAACAGGAGGAAGTGGAAGTTCAAGTAGCAGCAGTAGTACAACTACCACCACAACCACAACAACAGTAGTTACAGAGGAAGAAGAAGATATTATAGAAGATGAAATTATAAATGAAGAAGATCAAGATGAGGAAAAAGAAAATAATGATAAAGAAGATGGTAATAACGAAGATAAAGAAAAAAATCCAGACAGTGATATAAATTCCGAGAGTAACGATCAAAGAAGTGTATCAGAAGAGTATTGTAGTAAAAATAACATCAATTTCAATAAAATATCTAATTGTAATTTTAAAAAAATAATTGAAGGTAAATTTCAAATTAATGAATATGCCTCAATCAAAATAAATCAAGGTTCAATTTATTATGACAAGTCATTAGAAATAGATTATATACCAAAAGAAACAATATTTTTATTTAAAAATTCAAATTCTAAATATCAACCAACATTTATTTTCGAATCATCAGATAATGAAATTGAATCCAAAGCAAATGAATTATTAGGTGAAATCAGCGGAAATAATTTGATTCTAATTGTTAAAGAAGGTAGTGTTTCAATTAAAAAAGAAAATAAAGTACAAATAATTGAATCAGGTAATGCATTTATCACAAATACAATATCAGGAAAAACTGTAAAAAGTGCATTCGATTCAACGGCAGACGTATATAATGTTCTTGGTGAAATTAAAACTCAACTAAAAGAAAGTGATGGAGATTTAGATTTTATAATATTACAAGATGCAAAAAAAAATACAGGAGTTGAAATAATTCACAAAATTATATTTTTCATTTTAATCGGATCAAGTGTAATAAGTTTTGCACTTGTAAGATCAGAAGATATCAGATTTTATGTGGAAAAAAAATTATACACACCACATGGAATAATAAATAAACAAATAAGTAATACTATAGAATTAAACCACAATCAAGATAATAAAAATAGTAATAATCCAATAAAAGAAAAAATTACTAATACAGAAAATATAATTAAAGAAGCAAAACAAATTAATAAAGAAAAAATAATTGAAAATAATGAACCAAAAGTATCAAAATTAATAAAATATTTTAAAAATCCCACCACAATAATTAAACTAAAACCTAATGAAATTAAAAATAAAAAAATTCACGACAAAATTGATAATTTATTTCTGAATAAAAAAATAACAAAATCCAAATATAAAGAATTATTAAAACAATTAATTGACGTTGAAACAAATGTAAAAATTAATTAATTTTAGTCGGAAGATTTATAAACAAATTTTTCTTATTTTTATTTAAAAAGAGGGTAATTTGAAATTTAAACATAAGTTTATTTTAATAGTATTAGTTTTAATAATTTTAAATTCTTCATTTATAACATCATTACCCTATGAAACACCAGTAAAATATATGTTTTCTCAAACACATGCGAATTTTAATAATCCCTCAGGAGCATATTACAATAATCAAAGAAGCGCAGGAGATACGTGTGTAGAAGACAGTGATTGTAACAGTGGAGCATGTAAAAGAGAATTATATGTACATTCAATAGACTTATGCAAAGGATGGAATATACCATTTAATGAAGAAGGATGTATGTCAGCCATCTTTTCTTGCGTTAGAGATGATTTTCAATGTTCAAAATGGTCATCAAAGAATTATTATGGATTTAATACAGGATATACTGAATCTGGAATATATTGTGCAGGAAATAATTTGGTTGGAGTAAAAAAGAATTATGGAAAAGAATGCACTGAAAATTATGAATGTAGATATGCTTGTGCAAATTCAATCGACGATGATAAAAAATATTGTATAAAAGATTCAACATCTAAATGTAGTGGAAAAGATGTTGTCGGGTATGAATTAAATAAACAATTAAATGAATATACTTGTCTAAAAATAGGTGATACTTCAGACTTAAATTCATATTACGATGGAATTTTACAAGCCAATAATGGAGAAAGTTGTTCAACAAATATCGATTGTAAAAGTAATAATTGTTTAAAAGAAATAGATAGTGAAAATTCATTCTGTGCAGAAAGTGGAAAACAATGTTCTAATCAAGGAGAAACAGGATTTACTATTGGAGAAAAATTAGTTGTTAGTGACTCTGAATATTATGGATGTACTGGATTGAGTGAATCAAAATTAGTAACAGAAAATGGTTTTGCATGCAATACAAATGAAGAATGCGGAAGTAATAATTGTGTAAAAGAAATAGATAGTGAAAATTCATTCTGTGCAGATATTGGAAAACAATGTTCTAATCAAGGAGAAAATGGTTTTGACATAGGTGAAAGATTAACAATTAGTGATACAGAATATTATAAATGTACTGGATTAAGTGAATCAAAATTAGTAACAGAAAATGGTTTTGCATGCAATACAAATGAAGAATGCGGAAGTAATAATTGTGTAAAAGAAATAGATAGTGAAAATTTGTTTTGTGCAGATACTGGAAAAGAATGTTCAAAACAGAATGAAAATGGGTACGAACAAGGTAATATTCTAAATGGTTATCAATGTATTGGGCTAAGCCAATCAGGGCTTGCATCAGGTTATGACTGCAATTCAGATTCAGATTGTCTCACCCAATCGTGCATTATAGATATTTTCGACCAAAGTCAAACCGGAAAAGTTTGTGAATTAATCAATCTTGCCAGCATAGGAGTATCACTTAGTTTAGATGAAGCTGAAGGAAATTCTTATTTATACGAAAATGAAATAGGTGAAAAAATTAAATGGTATGATTGGTCCCTTAGAAACGTTTATGGAAAAAAAACATATTTTTATTTAAAAAATATAGAAAATATAGAAAATTTTGATTCAGCAAATTTATACATAAAACCAAATAATAGAGAAATTGAAAAAACTTACATTGCAAACAAAATATCAGATACAGAATATAGGGTCCATATACCATATAATGATTGCTATAGGAGAAATAATTGTCTAACAGATTATCCAATAGATAGAGTGGAAAATTATTCATATTATTGGATATTAAGAGACAAAGCTGGTAAATTAAATAAATTAAAAACAGAAATTTTTGAAGTTACTAAAGAAGAAGCAATAACACCTGCAATATCTATAGAAAACAAACTAATATACACTAATTCAAAAAAATATGATAATGCAGTATTTTCAGATAATACAATAACATCAAATTATGATTTTAAAATCGAAATTAATCATAATGGAAAAAAAGAAATATACGATGGTATAAGAGATTTTTATTATAGACCAAACGAACTTGGAACATATACTTTTAATTTGTCAAATAATCCAGAAAGTGAATGGCGTTTTACAGGATATTCAGAAAAAATAACTATGGAATTTACCAAACCTCCTTATCCACAATTATTTAATTACGGTTATATGAATAATCAAATAATATTTCCAAATAAAGAAAAACCACAAATTACTCAAATTCATGAAGGTTATCAAATTTTCAATGAAACAATTAATTTAAAATTAATATTAGATGGACAAATAATTGATTTAATAAAAAATAAAGAAATAATAAATGATGGACTTAACATGTACTTTATATACGATGGAAACAAATGGAAACAAGGTGAATATGGAAGTTCAATTTCTCAACAGATAATTATTAATTATACTGATGAATTCGAACCAGGGAAACATGAAATATATTTTAGTGTTACAGACCCATTTGGACAAACGACAAATACTCCAAGAAGAACGGTTACAGTAGAAAAGAAAACATATGATTTTGATATTATATTAGATGGTGATCAATTGTTTGGAGCACACCCATTAGACTATTCAGAAATCATAATCAAAAAAAATCAAGATAACAGTGTATCATATAAAATTGATATAATTAATCAAAATAAAAATTTAATATTCACAAAAGAAATCTCAAATGGAATTGATGCAAAAATATATTATGAGTTTCCAGAAGATGGAACATATACAATAAATGTAACTAGTCCTGAAACTAATAATTATCAATACATAAATAAACAACAAATCATTACAGTTTATTCAATAATACCTTCTGCATTTATACACAATCAAATAATTAACTATAATAATCCATTTGGACAATTAGATGATCATTTATTTTATTTTGAATATAATACAGCAAATTTAATTGAAAATGATAAATTAAAATCAGATTGTTCTGATTTAAGAATATTTGAAAAAGATACAGAAATTTTAATTAATCATGCAATTGAAAATAATTGTAATACAGTAAATACCAAAATTTGGATGAGAGATGACTTAGTTGGAGGACTTAATCAATACATTCTGGCAAGTGGAAATCCTTTTGTAAAAAATTCAGGAGAAAAAAGTTCATTATCAACAGAGGATAACTTTTTCATTCAATTATCAAAACACGATAGTTTTGAAAAATATGAAAATGATAGAACTAACTTTACAATGGTAGCTATTGATAAAGTTAATAATATTGATACGACAACAGCAAAATTCTTTTTTAAAACCCCTGCCTCAATATACGACTTTAATGAACATACACCAGATTATGATAGTTTAACTAATTCTTTTAAATATAAAAGAGTTTTAGGTCCAGGTGAATATAGTTATTATTGGAAAATAAAAAATGATTTAGGACATACAATAGAGAGTAGCATAAATACATTTACAGTAGAAAAAAATGTGCCAAATTTAAATTTAAAAATAAATGAAAATAATATAGAAAATATAAATAATATAATTACATATGATAATACAAAAATAGATTACAATTTAATTGATACAGAAGGTAATATAAAAATTCAAATATATGATTCAAATAATAATTTATTTAAAACATTAAATGAATTTAATACCATAACTGAAGTATTTAATTTTACAAAACAAGGAACATATAATATAGTATATTCATTTGATGGAAATAATGATTATAGTCAATTTTCAAATAGTTTTTTAATTAATGTTAAACCAGAAAGAATTTCTCCTGAAATTACAATACAAAAATTAGAAACAGATTTGATTGAAATTGAACCAAATAAATTTAAATATGATCCAAATAAAAAAATAAAATTTATTATTAATGTAACAGATTTTTCAGGCATTAAAAAAACCATAATGACAATAAATAATGAAGAAACTGAAATCCTAGTTAATTCAAATAATTTTGAAACGGAAGTAATATATGAAACTAATCTTGATGCAGGAAATTATGATTATTATTGGAGAGCATACGACAATTCAGGAAATATAGTGAATGGTGCAGGTAAATTATTTGAGATTGAAAAAGCAGATTATGAACTTGTAACTGCTATTTCAACGTCACCTGAAGAAATAATAAATAAAAAAGTTACAGATAAAGTATTAATTGAATCTCAAATATTTCCACAAACTAATTATAATATGAAAATTAGTTTAAATGGTGCAGAAATAGAAAATAAACAATCAATATCATTTAGTCAAGAATTAGATTTAGAAAACGAAGGAACATATACAATCGAATTTTCATCAATAGAAAATAATAATTATAATCCAACATCAAAAATTATTACTATAAATGTTGAAAAAGAAACAGTTCCACCAGAAATTAGTAGTAAAAATATTAATGCTCCTGAAAAATATGATAAAGAAACAAATACAGTTATTAGCATTAATGCAAATGATGATTATGGTTTGAAAGATAATGCATTATTAATATTGAATAATAAAGAATATTTAGTGCCAAATAATAATGGAATATATAAATTTGAAAAAGTTTTAAATGCAAGTTTATATACATATAAATGGAAAGTACTTGATGTTTTTGATAATTTTGTAGAAACTGAACAAAAAACATTTACAATTGAAAAAAGAAATACGCATATAATTTCAAATATTGATGGAGATAATGCAAATAATCTTAATATTGGATTAAGTGATCAAGTTATTATTAATGCAAATATAATGCCTCCATATTTAGAATATAATATGAAATTAAAATATGGGGAAGAAGAAAAAATTAATGAAAATGAAAATAATTTTGCAGAAGAGTATATATTTAATAATGAAGGATTATATGAACTAAATTTCAATTATATTGGAGATAAAAATCATTTAAGTAATTCGTCAATACATAATATTGAAGTGGCAAAAGAAACTGAACCGCCAACAATTACATCAAATACATTCACATCACCTAATAGTTATGATAGTAATACTAATACAATAATAACACTTTCTGCATCAGATAATTATGGTATTAAAAATAAAATTGAATTAATATTAAATGATATAATACATGAAGTAAATTTAAAAAATGAAAATGAGGGAGTTTATACTTTTGAATTTAATAAATTATTAAATGCAGGAAATTATAATTATAAATGGAAAGTATTAGATAAGTTTGATAATTTAATTGAGACTGAATTGAAAACATTCACAATTACTAAAAAAGACCCATTATTAAATTTATTAATTAATGATGAATTTTTAAATAAAGAAATAATTGAATTAGAAAATATAAAAGTAATTTCTAAAATGGTGGAACCAGTTGATAATTATAAGTTTATTATAATAAATAAACAGGACGATAGTACTTATTTTGAATATGATGGTGAATATGAACAATTTATTGCATTTCCACAATCCAATGAATATGATATAAAAATAGTATATTCAGGTAATGAAAATTATAATGAAAAAGAAAAAAAATTAACAGTAACTGTAACAAAAGAAAAAAATGCTCCAATAATAACAAGAAATGAATTTGTATACAATGCAGAATATTCACAAGATAAATCAATTTTTATTGTTAATGCAAGTGATGATAAAGGAATTAAATCTATTGCAGAATTAATTTTAGATCAAAAAACCATTAATGTTAATAGAGATGCTAATGAATTATTTAATTATTCGACAATACTTAGCGCAGGACCACATTCGTATTATTGGAAAGTTTATGATTTAAATAATAATTTGGTTGTAACAAAATTAGAAACGTTTGAAATATTAAAAAAAACACCAAATATTCAAATTTCAATAGATGATTCAAATGTTGATAAAACAATAAAAACATTTGAATTTTTTAATATAAAAGCAAATACTATTGAACCAAACAATAATGATTTTAATTATAATATATACAAAGACAATCAATTAATTAGTTCTGGAGTTAAAAATAATTTAAATGACTTAATATCAAATAATCAAGTTGGAAATTATAAATATGAAATTGAATATTTAGGAAATATTAATTATAGTGGTTTGAAAAAATCAATGAATTTAAATACAATTAACGAACAAGATAAACCAAAAATAAATTTAATTGAACAAAGTTCACCAGATACTTATAATAGTGATAAAAGTATAATTTCTTTGACAAGTTCAGATATATCTGGAATAAAATCAGCAATATTAAATTTAAATAATGAATTAATTGAAATGGAATTATTAAATATAGAAGAAAATATATTTAAACATAAATTTGAAAAAATATTATCAGCAGGAAAATATAATTATAATATAATCATAAAAGATAATTCAGGTAATGAATTTTTGTCTGAAACAAAAGAATTTATTATTAAAAAAGCTAAAGCAGAATTCAATTTAAAATTAAATGGACAAAATACTGATGTAAATATAGAAGTTGGAAATAAATTAAATATAAAAACAGATATAATTAATCCAAGTGGTGAAGAATATGATATGTTTATTTTCGATCAAAATAGAGGCATCATACAAGAGTATACATATAGTGAATATAATGAAATTGAAATTGACATATTAAATGAAAATGATCAATATATTAATTTAACATTTGATGGGAATGAAAATTATACAAAAAGTTCAATTGAATATGTAGTATTTTTTAATGAAGATATTACGCCACCAAGAATAAATTATGACAATTTAGAAATTGCAATGCCAAATTCTCCAAGTAAATATGAAATTGGAGGTAAAATTAAATTTGAAATTAATGCAAGTGATTTTTCTGGATTGAAAAATATTGCTAAATTAAATATTTCAAATACACTATTTGATGTTGAATATAATAATGGTAAATATTCATATGAAATACAATTACAATCAGGAGAATACAAATATAATTGGATTATTGAAGATAATAAAAATAATAAAGTGATTTCAGATACCAATACACATAAAATACAAAAAAATAGTATTAATGTAACTTTAAGTTTTAAAGATAATATAATAAAACAAAATACTAGTGAAAAAATAGAAGCATTTGTAAATATTAGTGGAAATGAAGGATTACCTTATGAAATATTTTTTGATAATGAAATAAAAAAATATACTCAAAAAGAAAAATTTAATATAACTAAATTAAAATCAGGAGTTTATAATTTAGATTTTAAATTTAATGAAACTGAAAATTTTTATGAAAAAATAATTAATAAAACAGTAATTTTTGTGGATGATATATTACCATTAGGAGTTAAAAATCTAAATGAATATAATTATTCAAATACAAGTACAGTAATTACATTTGAAACAATTGAAACTGAAGATTTTGAATCATATGAAATTTATGTAAATAATGAATTAATTAATACGAGTAAAGACATAAATGAAAGATTTTACAAATTATATGATTTTGTAATAGGAACAAAATATACTGCAAAAGTCGTGACAAAAGATGTTAATGGAAATAAAGTTGAACAAAAAATAGATTTTGTATTTGCTAAAGACTATAAACCAATAAAAGTAAAAGAAATAAAAAAAGAAATAAAAAATAATTTAGAATATTATATAGTTGAATTTAATAATGAGATAAGTGAAATTAAAAAAGAAAATTTACACATAAAACAAGGTGAAAAAGAATTTGATAAAGCTGTACTATTCGATGGAAGAATATTAAAAATTTATCCAATAGGTGAAATCAAACAAAATGAAGATATTACTATAAGAATAGATAGTGGAATAAAGGATAAATATAATCAAACATTTTTAGGAATTGAACATAATATAAAAACAAGTATAAGTGATATAGATGGAGATTTAATTAGTGATATTACAGATGATGATAAAGATGGTGATGGATTAAATGATGAAATTGACAATGTATATGGAACAATACCTAAACACAATTTTGAAGTGATAAATACATATATTGAAAATTTTGCTGATATTAATAATAAAAATTATGTTGATGTAAAAAATATTAAATTTAAAATGAATGAAAATACATTGGTATCATTTAATCATAATTTTAGTGAAAATAAATTAGATTTAACTGATATATTAATTTTACAAGATAATTTAAATGGAAATAAAATTATTGTAAAAAATATTAATCAAACAGGAACCAAAGATATTTCATTTAAAAAAATAAATGATAAAAATAATGACATTTGTATTTTAGATAAACATAATGCAACAATTACTCAAACAACTAATAAATGTACAAATAAAAATGAAATATTTGTTCAATGTGATGGTAAAATTCAAAATAATTATATTTGTAATATAGTAAATGGATGGTTTGTTGTAATGGGATTAAAAAATTCTGCAGTTCAAGAATTTTGTAGTGAAAATTGGAAATATACAGAATGGTCAACTTGTGCTAATAGTATACAAACAAGAGAAGCTGAAGATTTAAATGAATGTGAAACTATATTTAAAAGAGAAGAATTAATGAGATCATGTACAGAAAAAATTGAAAAAACAAAAACAACAAAATCAACTAGTTCATCAGGAGGAGGATCTGGCTCAAATAAAAAAAGTATATTTAAATCCAAACTTCCACCATTAATAACAAGTACAAAAAATGAAACAGTAGCATCTAAACAAAATACAAATCAAACTAATGTTAAAAAAATCATAAAACAAAATAATGTAAATAATAATAATAAAACATCAATTAGTAAAAATATAAGTCAAGTATTAAAAAAACCAGATTCAGAAATAGAAAATAAGGTGAAAGAAATTATAACTCAACAACCTATTAATGAAATTCAAAATACTAAAAGTAATTGGAAATTATTTATACAAATTTTTATTATTATATTAATATCAGGTATATTTATTGAATTTTCAATTATTGCATTTGTTAAACCAAAAGTAAAAACAAAATATTCAACGAATTATTATCAACCAGTAAAGTATTCACAACCAATAGTACAAAGACAAAGTATGAATTATATTGAAAAACCAAGATTTAGACAAATAAATCCATATATAAAAAAAACAAATCTAATGCAAAAAGTAAAACAAGCTATTTATTCTGAGAGTGAGAGCAATGAAAATTTAAAACAATATAATCAAATTAAAAAAGAAAATAGTAAAAAGAACGCGGTGGAAATTGTAAGTGAGATAATTAATGGAAGTAATAATAAAAAGAACAAATCAAATCAAAATAATGATGGCAATAAAAATACTTATGAAATTCTAAATAAGGCATTTGATAAAATTAAATTAATTAATAATAAAAGTAAAAATGATATTAAGAAAAAAAATACTAATTTAATTAATAATAAATTAACTAATAATAAAATTAACAAGAAAAAGAATTCTAAAACTATATTGTCAAATATTATTGATTCAATGAATGAAATTAAAAATTCAAAAAAGAAAAAGAAATCTAATAAAAAAATTAAATAATAATTATAATAGTAATCAGAATATAATAATTAGACTGGACATATTAGACAAGTAAGCAAAAATGATTTAATAATGTAACAATAATATTATAATACAATGGCAAAACGATATAAACCAGTCAATCTACCAGAAAATTTGATTAAAGAAATAGATTTCTATGTAAATAGGTCTAATTTACATACCAGCCGTGCGGGTCTGATTAAGTATATATTAGTTAATTGGGTACAAGATAAAGAAAAACAAATTTTTAAAAAAATCTTTACTAGTTAATTATAATAAGAATTTTTATTAATATATCAAAATTATTAAAAATATGTTATTCAAATTAAAAAGTAATTTTAAACCATGCGGTGATCAACCAAAAGTAATAGAAGAAATTACAAATAATATAAAAAATAGTCAAAAAGAAATACAAAAAAATGCTAATAGTATAAAAAAAGTATATAAAGATAAAATAATTAAAGAAAAATTAAAATTAGATTCAATAAATAAAAGTTTTAATACAATAGTGGGAGTTACAGGATCTGGTAAAACTTTTGTTATGGCTAATATTATAAAAAATCTAAATAGACCTTGCATAATTCTTGCACAAAATAAAACACTTGCGGCACAATTATATAATGAATTTAAATCGTTTTTTCCAAATAATGCAGTAGAGTATTTTATTTCATATTATGATTATTATCAACCTGAAAGCTATATACCAAATAAAGATTTATTTATTGAAAAAGAATTAAAGATAAATAAAGAAATTGAAAAATTAAGATTAAAGGCTACTGCAAGTTTAATGAGTAGAAGAGATGTTATTATAATTAGTTCAATTAGTTGTATATATGGACTTGGAAATCCAGAGAATTATGAAAATTTTGCAATTTCATTAAAAGTTAAGGATAAAATAAATAGAAATGAATTTTTGTTAAATTTAATTAATTTACAATATAATAGAACAGAAATTGATTTAATACAAGGTAAATTTAGAATTAAAGGAGATGTTATTGATATATTTCCATCATATATGGATAATTTAATTAGAGTGGAATTTTTTGATGATGAAATTGAATCTATTAAAATATTAGATAAAGTTAGTCTTAATTTAATTGAAAAAATTGATCAGTTCAAATTATTTCCTGCAAAACATTTTGTAATTAGTGGAGAAGAATTAGAAAAAGCAATTAGTAAAATTGAAATTGAATTAGATGAAAGAAAAAAAGAAATTGATTCAATTGAGGCACATAGATTAAGTCAAAGAACTAAATATGATATTGAAATGATTAAAGAATTAGGGTATTGTAATGGTATTGAAAATTATTCAGTATATTTTGATGAAAGAAAAAGAGGTGAGCCACCTTATTGTCTTTTAGATTTTTTTGATAAAGATTTTATATTTTTTATTGATGAGTCTCACGTTACAATCCCACAAATAAAAGGTATGTATAAAGGTGATTTTTCTCGTAAAAAAAACTTAATTGATCATGGTTTTAGATTACCCAGTGCATATGATAATAGACCATTAAAATTTGAAGAAGTTGAAAAATATTTTAAAACAACAATTTGTGTTTCAGCAACACCATCAGAATATGAATTAAAAAATAGTGATAAAATAAGTGAATTAATTATTAGGCCAACTGGACTTATTGATCCACCATTAGAAATTTACCCTAGTAAAAATCAAATCGATAAATTAATTGAAGAAATAAATATTACTATAAAAAAAGAATTTCGAACTTTAGTAACTACATTAACTAAAAGAATGGCAGAAGATTTAACTGAATATTTATCAAAAGCAGGTATAAAAGTTCGTTATTTACATAGTGATATTGATGTTATTGAAAGAAGTGAAATTTTAAGACAATTAAGATTAGGTAGTTTTGATGTTCTAGTTGGTATTAATTTATTAAGAGAAGGTTTAGATTTACCTGAAGTTGCTTTAGTTGCAATATTAGATGCAGATAAGGAAGGGTTTTTGCGGGATACTAAATCTTTAATACAAATATCAGGTAGAGCTGCACGTAATACGCAAAGTAAAGTTATATTATTTGCAGATAAAAAAACAAATAGCATATCAAATACAATAATAGAAATGAATAGAAGAAGAAAAATACAATTAGAATATAATAAAAAAAATAAAATCATTCCAAAAACTATTATTAAAGAAATTCCAGATGAAATAACTACATTAAAATCATTTAAATCTTATGCTAAAAATGAAATACCTATAATAATTGATAAATTAAATATTGAAATGAAAGAAGCTAGTCAAGATTTGAATTTTGAGTTGGCAATTCAATTAAGAGATCAAATCGAACAATTAAATAAAGAATTAAGTGAAAAAATTAATCCTAAAAAAAAGAAAAAAGCTGTGAAAAAGAAAAAAATTATTAATTAATTTGTTATTAAGATTTAAATAATTTTTTAGTTATTTTTTTAAATAAAATGTATTGCCTATTATTATGTATATATTAGGAATTGAATCAACAGCCCACACATTCGGTGTTGGTATTATTGATAGTAATGGAAATATTCTTGCAAATAAGAAAGCATTATTTACAACTGAATCTGGGGGTATGACACCAAGAATTGTCGCAGATCATCACATTGAGAAATTTGATTCAATTATTAAAGACGCTTTAAATGAGGCAAAAATAAAAATTAATGATATTAAATTGATATCATTCTCACAAAGCCCTGGCATTGGAAACTGCCTTAAAATTGGTGCTATTATAGCTAGAAGTGTATCTAAATTGTTAAATTGTCCACTCATAGGAATTAACCATTGTATTGCACATTTAGAAATTGGAAAATTGTGTGGATTTGATGAAAATAATAATTTAAGTAAGGATCCTATTTTATTATATGCAAGTGGTGCAAATACTCAAATAATTGGTTTTTCAGGAGAAAAATATAGAATTTTTGGAGAAACATTAGATATTGGAATTGGAAATTTTATTGATACGTTTGCAAGATATATCAACATAGGATTTCCAGGTGGGCCCAAAATTGAATTATTGGCAAAAAAAAGTAAAAAGTTTATTGATTTAGGTTATTTAGTTAAAGGAATGGATATTAATTTTAGTGGTATTTTAACAAAATTAAAAAATTTATATGATTTAGGTCATAGTAAATATGATTTGGCATTTAGTTTACAAGAAACTTCATTTAGTATGTTAATTGAAGTTGCTGAAAGAGCTCTTGCACATACTGGTAAAAATGAATTATTATTAGGTGGAGGAGTTGCATGTAATAAAAGACTTAAAGAAATGGCTATAAAAATGTGTAATGATAGAGGAGCTAAATGCTATTTTGTAGATAATAGTTTAAATGTAGATAATGGTGTTATGATTGCATGGGCAGGATTATTAAAATTTTTAGGTGAATTAAATTTAAAATTTAATAATATTGAAGAATTAAAAAATATTAATTTTGAAATATTAATTAAAAAATATAATAATTCTAATATGAAAAGTGACTATATATGGTCTAAAGTTAATCCATATTTAAGAACAGATGAAGTTGAAATAAAATATTTAAAATAAAAAAAATAAAAGATAAAAAATTATCTTTTCTTTTTTGCAGGTTTCTTAGCTACTTTTTTTTTTGCAGGTTTCTTAGCTGCTTTCTTTTTTACTGCTTTTTTTTTAACTGCTTTTCTTTTTGCAGGTTTCTTAGCTGCTTTCTTTGCTACTTTTTTTTTCGCAGGTTTCTTAGCTACTTTCTTCTTAGTTGATTTTCTTTTTGAAGAACCTCTAGCCATTTTTGTTCTTGCTACATTACCATTTTTATCTATAAAATATAAAAATCCTGATTCTCTTTTAACTCCACACTTAACAAGTACTTCTTGTTTTTTTGATGTTCGAACCCCTTTTCGTGCCATTTGACATCTAGCTACATTTCCTTTTTTATCTAAAAAATATAAATAACCAGATTGTCTTTTTATGCCGCATTTAACTAAAACTTGTGCCATCTTTTTTTACCTCTTTAAAACAATATTTTTATTATTAATTAAGTTTTTTGATTTATAAAGTTTTTCCTCGAAGACCCCTCGAGACCTTATTTAAACATCAATTGTCTCTTGCTAAACAAGAAAATAAACCCTACTGTTAACCAAAATACCCACCCGTCGATATAACCAAGTGCAAAAAAAGTCATATTTAATATAAGAGTTATTATTAAAATTATATTTATTATTTTTAATAAAATTTTATTATTATTATTATCAATCATAAATAAATTAAAATTTAATCATTAAAAAAATTAATCTTTTTTTGTTCTCATATATTCAGAACAATTATCACTTGATAAATATTCATCATGTTTTTTTTCCAACTGCTTTGAAGATTCTTTTTGTGCTGGAGTAGAATAAAAAGGATTATTTTCAATTGTTATCTTTGAACTAGATAAACATCCGTCATAAAAAGATGAAGGGTTTGCTAAAAAATTTGCAAAGTTTTCTTCTAATTCCCTATTTTTCAATTCCTCTCTAAAATCTAACCCCATATTAGAACTTGTATCTAAATCATTATTATATCTAATATGTTTAATAAAATCACTAAATGATTGTTTACTAGTTGGATTCAATAATGAATTTAATTCTTCATTATCTCCTATAATTGCTCGTTCAAATTTTTTATATAAGTTTAATAATTTGTCAAATATCATATTATACCACTCACCAAGAGTTTATTTATAAAATTATCTTTGTCTCTATACTTATTGATATCAATTTAGTATATATTTTAATACTAAAAATAAGAAGAATTTTGTCAAATAATTTATAAATCGTTAATTAATTCCATGAATATGGCTGAAAAGATTTCACAATATAGAGCAGATAGAATTAGAAAATTAAAAGATTTAAGAGAAAAGGGAGTTAATCCTTATCCATATAAATATGAAATTAATGCAAAATCAATTGAATTAAAAAAAAAATATGATGCCATTTCACCTGAAGAACATGTTGATAATGAATATAGTTTAGCAGGAAGAATTATGCAAATAAGAAATATGGGTAAGGCATGTTTTTTAAATTTACAAGATGAAGTTGGAAAAATACAAATTTATATTCAAGTAGATACTGTTGGAAAAGATAATTTTAAACTATTAAAAAAATTAGATATTGGAGATATTTTTGGAGTTAAAGGGAATATTTTTAAAACTAAAACTGAAGAAGTTACTATTAATGTTAAAGAATTTACAATACTTACAAAAAGTATAGAACAATTACCTGAAAAACATCATGGTCTAGTGGATAAAGAAATAAAATTTAGAAAAAGATATTTAGATTTAATTGTAAATCCTGAAGTTAAAGAAGTTTTTAAAAAAAGAAGTTTAATGATTAGTACAATTAGAAAATTTTTGGATAAAAGAAATTATATGGAAGTTGAAACTCCATTATTACAAACTCAATATGGAGGAGCTAATGCAAGACCATTTGAAACTCATATTAATGCATGGGATATGAAAATGTTTTTATCAATATCTCCTGAACTTTATTTGAAAAGATTAATTGTTGGTGGATTTGAAAAAGTCTATACAATTTGTAAAAATTTTAGAAATGAAGGTGTAGATCATTCACATAATCCAGAATTTACAATGATTGAAATTTATGAAGCATATAAAGATTATAAAGATATGATGAAACTTATTGAAGATTGTTATGAATTTGTTTGTTTGAAAATTAATGGGACAACAAATGTTCTTAAAAATGTTCGTGATCATGAAACTGGTGTAATTAAAGAAGTTAAATTAAATTTTAAAGCACCTTGGAAAAGAATTACAATGGTGGATTCAATAAAAGAACATTTAGATATTGATGTTAATGAAATGTCAATCGAAGAATTAAAAAAATATTTAATTAAGAAAAAAATTGAATTGAAAAAAAAAGATATGTCATGGGGAGATTGTATTATAGAAATTTTTGATGAATTAATAGAACCTAAAATAATTCAACCTACTCACATCTACAATAGACCTAAAGAATCCACTCCACTTTGTAAAGAACTTAGGGGAGATGATAGATTTGTTGAACAATGTGAACCAATTTGTTGTGGTATGGAAATAGGTAATATGTATAGTGAATTAAATGATCCATTAAAACAAAATGAACTATTAGAAGAACAAGCAAAATTATTAAGAGCTGGTGGAGATGAATCTCATCCAATGGATGAAGATTTTATTAATGCAATTGATGTAGGACTTCCTCCAACCGGTGGTATTGGTTGGGGTATTGATAGAATGGCAATCATCCTATTAAATCAAGATTCAATTAGAGATGTATTATTATTTCCAACAATGAAAAATGAAACTAATGAAGAAGAAAAACATTAATTAGTTATTTTTATAATTTTTTAATTTTACAGATAAAAAATCCATCTGTATCATTATCATATGGATGAATTCTTAAACAGTTTTTAACACCAATATTTAATTCTTTATCAGCCCATTTTTCAAATGGTTTTGTACTATTCAAATCTAATTTTATATTCATTGTTTCTGCATTCTCAAATTTATTTAATAAATCACTTACCACACATTCATTTTCATCAGGTTCTAAAGAACAAGTAGAATATATCATAATACCTCCCGGTTTTAATGAATTAAATGCAATTTCAATTAACTTCTTTTGAGTTCTACTTAATCTTTTTATCATATTACTATTCCATATTTTTAAAGTTTTTAATGACTTACTTATGGTTCCAGTTCCTGAACAAGGTGCATCACACAAAACTCTATCAAAATTATTATCTAATTTTAAAGTTTTTGCATCTTGAAGTGTAATTACATTATTTCTTAATCCCATCCGAGTTGTATTTAAACCTAAACAACTAAGTCTGGAACCTTTTACATCATTTGATATTAAAAGACCAGTGTTTTTCATATATTGTGCAATTTGTGTTGTTTTACTACCTGGACTTGCACACATGTCTAATATTTTTTGATTTTCTTTAATTTCCATTACAATTGGAGGAATCATACTCATAGATTCTTGTACATAAATATAACCTAATTGATGTTCTAATAAATTACCAACATCACGTCTATCAGATTCAATCCAAAAACCTTCTTTACACCAAGGAATATGACTTAAATTCCAATTTTTCTTTTTTATTCTTTTTATACATGACTCAATATCTATTTTTAATGTGTTTATTCTAATTGAAATTTTATTTCTTTTAAGAGAATAATCTATGAATTTGTCATAATTATCACCCATAATTATTTTATATGCTTCTACAAATTTATCTTTAAATTTTATACCATTACTATTTAATATTCTCTCATGGGATTTTTCTAAATCTGACATTGATTTATAGAAAAATGTTTAATTTAAAAAATTATTTAAATTAAAGATAAATCATTATTTTATGGATTTAATTGATGAATGTAAAAATATTGCAAAAAAGTTGACTAAAAAAGAAAATTGCATGTTTTTAAGTAGTGCAGATGATTGTTTTAAACAATTATTTGAAAATTTAAATGATAATATTAAAACAATTTATATTCCAAATGAAGGAGGTTGGCTTTTTTATCTTAAAGCAAAAAAATTTGGTTATGAAGTTGTAAAATACGACACTCTTAATGGAATAGTCGATATTGATAATTTAAATATTGAAAATAATACATTAATTATTGTAAATAGTAGTCCAGGTTATTTAATTAATCAAAATTTAAAAAAAATACATGAAATTACTAAAAAGAAAAATTGTATTTTAATAAATGATGCATGTGGAAGTATTGGAAGTCCATATGCTAAAATCGGAGATGTTATTATTTTTTCTTGTGGAAAACATAAAATTATTAATAATTTTTATGGAGGATTTATTTGCTATAATAATAAATTAAAAAATATAATTGAAACTCAATCTAATGAAAATAAAATTAATAAGGTAAAAATAATTAATTTAAAAGAATTTATGTCCAATATTAAAAAAAGAATTGAATTTTTATTAAATAAAAAAAAAGAATTATTTGAAAAAATTCAAAATGATAATATATTAAATAAATATAATATAATATTTTCAGATAATGTCGACTTTAAAAAATATGGAGTTAATTTATTTTTACAATTAGATGATAATTGTTTTATGGAAAAAGAAATAATTATTAAAAATAAAAAAATAAAAAAATTAGAATTATGTGACAAAATAAAAAATCACATAAATGAAAAATATTCGGAGTTTGAATATACACTTTGCCCAAGATATATAAGATTAAATAAATTAGGTATAAGTTTCGAAATTAAAAGATTAAAAAATTAATAATTTTATTTAAAACAAATATCATAAAAATCACATTGTCCTGAATGCCATTTACATAAGGGGGTTATTTTTTTAGGATAATCACCTATATTAATTGACTGAGTATTTATTTTAATTAATTCACATTCTAATTTTGCTTTTTTTAATAAATCCTGGTCCACATCAATAAAATGCATTTTACCGTGTTTTAAAAAATCAACCCCTACTTTATTTGGAAGTTTTTTATAATTTTGATAATATAATAATGCATATATGGATAATTGTGTTATATAATCTTCTGTCATTATATCTTTTTTTGAAGTTTTATAGTCAACTAATATATCACCTTTTTTTCTTTTAAATATAGCATCAACAAAACCTTGAACTTTATGTTCCTGAGATATTAATTTAATTTCAGTATTGGGTTTAATAAATAAAAATGATTGTGCAAAAGTTTTTGATTTACTTAATTGTATTTGAATTCTAGTACAAAAGTTTTTAATCCATAGATTTATCATAAAATTAAATTCATCATATAATTCTGAAGATTCGTTTAATAAATTAATTTTTGATAATTGATGTTTTGTATTTTCAAATTCTTTATTCATTAATTCTAAAATAAAAACAGTTAATTCCTTTTCATAATTAGTTTCATTAATATGACTGATATTAATTTTAAAAAAATTTTCTAATACACTATGTACTGAATTACCAATTATTGTATATCTATTTGGCATTGAAGGTTTTTTTTCTATGTATCTATAATAATATCTCCTTGGACATTGTTTATATAAATTAATTGAAGATGGACTTTGTAAACGAGACATAATACAAAAAAAAATAATGAATTTATAAATTATTTGAAACAATAGACAAACATTTATATATTCAATATTAAAAATAATTCTTAGGGGTATAAACATGTCATTATTAAAAGATATTGAATCAAAAAACATATCAAAATTAACACATAAATTTTTTACCAGATTTGGAAAAGGAACATTTGAAAAAGAAATTTGTAAAATAACTAATTCTAAAAAAGAAATTAAATTTAATACTGGTTATGAATATAGTGCATTTTTAATTGAATTTATATCTAATAATTTAAATGAAGATTGTGAAATTGATGGAAAGTTTATAAGTCTAGATAATAATGAAGATGTTTTTTTAAAATTTAATGAATTAGAAATTATAAAATCTAATAAACAATTTACTAAAGTTGAATTTAAAGGAAAATTTAGTAGTGAAAGATTTAAAGACTTTGTACAAGCAATAATTTTAAATGGAATTATATTAATTAATTTAAAATCCCAAAATATTAATTTAAAAATGAAAAGAGCAATTCCAAAACCAGGAAAATTAATGGAAAATTTTTGTTCATTAAAATTAAACTTAACATTTAGCAATAAATTAAAGGAAGAATTTTTTCCTGAAGCTCCTGATGTTTTTAAAAAAGGTACATGTCAGCATTTTTATATTATTGAAAGTATTGATATACCTGACGAATATAAAAATGATTTTGCTTTAGCAAAAATTCATGCTAAAAGAATTGGTCAAATAAAAAGAATCACCAATTTTGATGGTATTGAAAAAGAATCTAAAATCAAATTTAATGCGTAATTTTTTTAAATAACAGTTTTTTCTTTAAATTGTAGTGAGTGTAGTCTGCTATCGGTTTTTAACTGAGGAAAGTCCACCCACCACTATATTTGAAAACATGAGAAATCATTAAAAAATCAGAGAAGAAAAAACATGATTTAATTGCTTAAGGGATGAGAATGAAAAATTCGACTGCAATTAAAAGACATTGAAAACTGATTTTACAAATGTGGTGCAAGCCTTTCGGCGCTTAGTAAAATGCAGATAATCTGTTTGCTTTGCACAGATACAAAAGGTGGCTTATTCACTTCTACATTTTTTTATTTGGCAATTTGCCATAGAAATTAAAACTGTTTTCTATATGAATTAAAAAGCCTGTTCTCAATAAAAAATTAAAAAAAATTAAAATTCAGTAACTCCTTCTTTAGTTAATGCAGTAAAAGTATAATCTTTTTTTACTAAATTTAAAGAATGAAGTATTGCCATATGTTCCTTTCCAGTTCCACTGATAAGATTTAATTTAATATCCCCATCTAAAGATTTGAAAATTGGAACTAATAAATCACAAATTTCATTAACAGAACCATTTTGTTCTATCAAGATAAATTCAGATTTATCATCTTTTTTAAATGTATCTTGACCAAATTGATTTGTTACCAATAAAACTTTATCAAAATTTCCATCTTGTATTAATCTTGATACATGACCCCATGTACCCTTTCCTGAACTCAAATTTGCAATTAATATTTTCATTTTACACCTTATTCTAGTATTTTATACCAAGTATAAATCAATTTTTCAGTTGAATCAAAAATAGTTTCTTCATCACCATGCACTAATAAACAATTATTATTTACTAATTCTATTTTAGGTTTATCTGAATAAATAAATTCAATTAATGGTACTTTTGCAGAATTACATTCTTCTGCCATTTGTTTACATGATGAATCATATGTCCTACATGCAGAACTTATATTTACTGAAAAAACTCTACTTAATGTTAATGTCGTTTCAATCATACTTAAACCAAAACTACTTTTTTGAGTAGATGAAAGTTCTGGATTAAAAACTAAATTAATATTATTTTTATGTTTATAAAAAGTTGAAACATCCCCAACTGTTTCGATGTATTCCACATCAGTTGGTAATTTTCTTAATGTTACAGTATACAATTCATTACTATTCATATTTTTTACATCAAAATCCCATAATCCTGCACTATTTTTAAAAAATACAAAATCATTAAATTCAACAATATCTTTATCTGAATTTGAAATTATACTTTCAGGAACAAAAAACCTTAATAAAATAATTGCTAATAAAACAAATAATACAAAAATAATTAAAGTTAATACATTAGTTTTATTCATTTTAAAACGCCTATTCTATATAATAAAATATTTTCTAACACCATATTTAATTCAAAACTATCTTTATAATAAATATTTAAACATTTACCATCTAAATTTAAATAAGTATTATTATTTTGCTGAATATTAAATATCATATTATAATTTTCATTCTCATTACAATTAATATAATTTACATTATTAATATCATTTGAACCATAGTTGAACTGAGTTCCATCAAAAATATCTAAAGACCATTTTGTTAATCCAAAATTAAATTCTTCAATAAATGGTAAATCAATACTAGTTAAATTATAAGTAGATGCTATAGTTTTTGATGATTTTATACTATTAACTAAAATGAATGTATCATCTTCACTCATATTTAAATTATCAAATCCTAATGAAGAGGGATGATTTACTAATTCTAAATTATAATCTAATAAAATATAACCATATGAATTTGGATTTTGTACAATATTATAACCCTTATAATTAGCAGATACAGTATCAGTTGCATAATAAACGGCAATAAATGCAATTGCGGATGTCACCATTAATATAATTAAAATTAAACTGTAAACCTTTTTTTTTGTATTTTCACTAACTCGGAATTTTTTAAACTTTGAAGCCACTAAATTTGTTGAGATATCAACTGTTTAAAAAGTTTATGCACAAGTTGATTTTACTATATTAAATATAAATGCATATACAAAAATTGAAATATTTACAAAATAAGTTAATAAACATAATGTACAAAATTGATTAAGTATCATTGCAGAAATATAAGAAAATATAAAAGTTACAAATAAAAATATAAAACCAAAAAAATATATTATATTGAAATATGTCTCAACATAATTGTCTTTTAAATTAAATAATGCAAGTAATGATAATAAAAATACAAATAAATATGTTATAAAACCAATACTTGAAACTGAAACTCCAAGTATTTGACTATATGGTGAAGTTAAAACACTACTACAACTAGCAAATTCACCCTCAACACATAAAGCACTTTTATAATCTTTATTTTCTAAAAAATTGTTTCTTTCAGTTGTAGCAAGACCAGAAAAGACCATACCAAGAAAACTTAATATTAATATAAATGTAAAAAACTTTTTATAATTTAATTTTTTATTTTTTTTAATCATAAAAATTCAATTTAATTATAATATATAAATATTTTTAATTTTTATATTCAATTAATTGTTTTAATTTTTCAATATCTACGTCAATACCATTTTTAGAAAAAAATCTACTTATATTTTTTATATCCCTTTCCCAAAGTTCATTATAAAAACTATCTTTTAGAGAAGTTGATTGAGAACAATCAATTACAACAGGGTCTCCATTATTATTTAATATATTAAACTCACTCAAATCACCATGAACTAAATTATTATTATTTAATAATTTTAAATAATCAACTAATTTATTAAAAAATTCATGCATATTAGTTAAGTCATTTCTCACTTGTCTACTTGCAAATCCATTATCACCAATAAATTCTAATAACAAAACATTATTAGTAATATAAATTGGCGTTGGAACTCTTATACCAATTGCTCTAAATTTTAATAAATTTTTATATTCCCTTTGAGCCCATGTAAAAATAATTTCTCTCTTTCTTCTTTTAATATTTAAATATCTTGGATCTGAACTTAAATAATAATACATTTTGTTAAAATCACAAACTTCAAGCCTATATATTTTAACTGCAACATATGTACCATCTTTTTTAATAGCACAAAAAACATTTGCTTCCTTACCAATGGCAATTGTTGAAACTATTCTTTCAAAATATCCAGCTGCTTCTAATTTAAATAATAATCTATTTGTAAAATTATCAAATACATTATTATATGTCTTAAATTTTTCTCTTGGTATTGCCATCTTATATGTACATTATATTAATTAATAAAACTAGCAGTTATATTTGTTTTATATATTATATTTTGACTATTAATTAAATTTTGTTTATAATCAATAATCAAATCAAATTTTAATTGATCCACTATACTTTCATTCAAATATAATTTAAATTGATCAAATGAAATATCTTTTGATTTTAGAAATATAATCCAACCCAGATCTGTTTTAAAAGGTTCATGAATTTTATTAAAATTAATATTTTGTATTTCTTTTAAATAATTTTTATCTAAACTATTTAAATTTATTTTCCCTAAAAATCCAAAATTAGAAAAAATATTATTAATTTTATAATTATTATATATTTGTTTAAAATTTTTATTTTTTAATAAATCACTATATATATCATTAGCAATTTTTTCATTTGATACTAATATTTGAAATAAAAAGATTTCATTATTATTTAATTCATTATAATTAGTATAGTATTTAATTAATTTATTTGAAATTAATTTATTTTGTTTATTATTAATATCTAACTTATCAAAATTATAATATTTATTAAAAAAATAATACTCTTTTGCCTTTAATTTATCTGAATTATTATATATTAATTTAAAATCATTATATTCTTCATTAGCAATATTAAATGAATTTAATTTATTTTGCATTAAAATATCACTAAATATAAGAAATAAGGCTTGATTATCAGATATTTTATTTTCAAATTCTTTCTTTTTTAATAAAATTTGGGCATAAATTATACTTTTTTTATTATTATTTTCATAAAAATCTGCAATTACTTCATCTAAATAATAATCTAAATTATTATTTGTTTTTTTTAATTCATTTATATTATTATATTTTATAACACTTAAATCGTTCATTTTTGCTTTATTATTAAAAAAAAGACTAAAATTGCTAATTAAAATTATAATAAAAATTAATAAAATAAAAATAAAAAGTTTATTTTTAAGCTTCATAATACATTTTTACTTAATTCATTTATAAATAAACCTCTAGAAATATTCATTATAATATACACTTCTTTTTAAATATACAATTTAGAATCAAATTATATTAAAAACTATGATTAAAACCTCAAATTTGGGCTTTAATCTGGCAATAAGATAAAATTAGTGAAAATAATATAATTTAATGAAAATATAAAAATTAATAATTACCAAATGGTAGTGAATAAATTTATAAAACATTATTGTTTCACGAAAACATAAATATGAGGAATATTCAAAATGGATAAAGGACTATTAGCAGTTGTAACGATTTTGATGGTAATATTTGCAGCAGCTTTGGGATATGCACTATATGTTGTATCACAACCAGCTGAAGTATTAGTTGAAAATGTTGGAACTACAAATGAAAATACTAATGTAGATCAAACTAATCAATTAATTCAAAATTTACAAAGACAAATCGATGCAGAAATAAAAGCAAACGAAGAAGCAGTTAAGCTTTACGAAAATCAAATTAAAGATTTGGAATCAAGATATAAAGAAGAATTAGAAAAAACTAAAACTGATCTTGAAAATCAAAAAAATAATTTAGATTCAACATCAAGTAACACTAATAATGTAAAAAATAGTGCAAAATTCTTTTCAGATGAATACTTAGTTAATTACAATTTAAGAAGTTGTTCAGCTGATTTATCAAGAGTAGAAGATTTCATTGATAGTGATTATGATGATTACGAAAAAGATTTCAAAAAAGAATCAAGATCAACTGAAACTAATATTAAAGCAGTAAAAGATAAAATTACAGCAGTTAGAGCTTTATTAAATAAAACTACTACAACGTATACATTGAATGAAGGTACTACTTTAGCTCAATTTACAATTGAATTTAATAATATCGATACAATGCTTGAAAATTTAGAAGATGATATTGACGATATTGCAAATGAAATGGATGTTGATGAATTAAAAGTTTTAGGATCTTGGGAAAAATTATATAAAAAAATTAATGAAGATACTCAAAACGAAATTAGTGATGCACAAGACGACTACAGAGATGCTGAAGACGACTTAAGTGAAACAAGTGTAAACTATAGAGGTTTAGACGATTCATTAAACGATGTAATTGAAGATTTAAAAGATTCAGAAGAAGATATTAATGATGTTGAAAAGGATTTTGATGATTTAGAAAGAGAAGCAAAAAACTTTAGAACACAATTAAAATCAGTTTGCGGAAATTAATTTTTTTTTTATTTTTTATATTTTTTTAATATCTTTTTTTTTATAAAATATTTTACAAACAATAAATATTAATATTAATATAATTAAAATTTCAATAAAATTATTATTATTATTAATTTCAGTTTTTTCAAAATTTATATCATCAGTATTTCTAGCATTTAAATTTTCAATAATTTTATTTTCAGATTTAATTAATATCTTTGGTTTAAATTTATTTTCACTATTATCTATAGTTGTTAATTGATTATCATTATATTTGTCTATATTTTGACCAATAGCAAAATAACTAAAACCTAATGTAACAGAACAATAAATGTTTGAATCAGTAAAAATTTTATCTATAAAAGTATCTAACTGCTCCCACTCATCATCAACATATCTAAATAAATTAATATCATTTTGATCAATATTATATTTATTCAAATCCGATTTTTCAACTTTAAAACAAATAACTGCATCATTAATATAATTTTTTGGTATTGAAACATCTAATTCTAAATAATCAATTATATTTGATTTTACAGATAATATATCTTCAGGTTTTTCTTTTAATAAAGCAGCACTTACTTTTGAAGTTAATTTATCTGCATTAGTAGTTATTTTTATTTTTGTAATTGGCAAATCTATTTTAGTAAATATTATTGATTTGGTTTCCCCCTCATAAAAATTAATTAATTTTACAGAAGTTGAAATTATATTTTCATCTCTTTTTAATTTTTTAATTGAATTCAAAGAATCATCATATTGCTTTATTGAATCATTTAGATTAGATTTTGTTATATTAAACGTAATCGATGATTTCCCAATTAAACTTTTATTTGATAAAATTGAATATACATCAATTGTTTTTATTTTATTATTAGTTATTGGCATATTAATAAAATCAAAATTTAATATACTATATGGAGAACTATTTTTAAAATACGGATTTGAACCATATCCATAACCACTACCATAACCATATGCAAATCCATAACTTTCAGAAAAATTATTTATATCTAATAAATTTATATTAACATTTTTTATTAATGCAGAACATAAATTAGAACTAATATTGAAATTAAAATTCCCATTCATTAAATAACTACAATTCAAAGACTCATTAATAAAAATTAAAAAACCAGAAATGGGTTCATAACCAGGATCAGTATTATTAAATTGATAAATTATATTTATTGGACTACCATCCTCAATAACATTTTTATTTGAAATAATATTACTTTCAATTGACAATACATTAACTGAAAATAAAATAATAAACATAATACTAAATACAAATGATAAACAAAAACCTCTTTTTATTTTTTTCAATTTAAATGCTTATATATTATATTACTTATAAAATTTTTTTATTTAATACATCGTAATGTTTTTAAAGGGAGATAATGAAAAATAAATATTATGGAAAAAACTAAATCTATTTATGTTAAAGAAAAAAAATCCAAAATTCACGGAACTGGAATTTATGCAACTCGAGACATTCCAAAAAATACTTATGTTTTAGAATATGTTGGGGAAAAAGTTACTAAAAAACAAAGCGATCAAATCGCCCAAGATTTATTAGACAAATATGAAAAAAATAAAAAAAAATATGCAGGAGTTTTTTTATTTACATTAAATAGTAGATTTGATATTAATGGAAATGTTAAATGGAATACTGCACGATTCATTAATCACTCATGTGATCCTAATTCTGAAGCAGTTATTGACAAAGGTCACATATGGATTGAAACTATTAAAAATGTAAAAAAAGGCGATGAAATTACATATAATTATGGATATGACGTAGAAAATTATGAAGACCATCCCTGTTGGTGTGGCACAAAAAAATGTGTTAGTTATATTGTAGCAGAAAAACAATGGACTAAACTTAAAAAATTGTTAAAAAAAAAATTATCTAAATAATAATTCCATAAATTTAACTAAGAAACCAATAAGTCCAATTATTAAAACACCAATTGCAGTAACTTTTAATATACTTTTAAATTCTCTATCAGTTGGCTTTTTAGTTAAAGTTAATACTCTTCTATATTCAACCCATCTCTTATGTAAAAAGTAGCTTAACCCACCAATTAATAATACTAATGCAATTAATTTAATAATTAAGTCAATCATAATCTTAAAATTTTGTATGTATTTATAAAAGTTTATTATTATTAACATGGAGAAATTTATATAAATGAATTCCATTTTTTTCAATTATGACAGTAAATCAATTAAATCCACAAATCGTATGGAATTATTTTAATCAGTTATCAAAAATTCCTAGAAAAAGTAAATATGAACAAAAAGTTAGAGAATGGTTAATTGAATGGGCTACAAAAAATTCATTTGAATATAAAGTAGATAAAATTGGAAATTTAATAGTTTATACAAAGGGTAGTCTAGGATATGAAAATTATTCTAATGTTTTATTACAATCACATATGGACATGGTTTGTATAAGTGATGGAGAATTTGATTTTATTAATAATTCTATAACAACATATATTGATGAAGACTGGGTTAAAGCAAAAAATACAACTTTGGGCGCAGATAATGGAATTGGATTATGTATTAGTATGGCAATCGCAACAGATTCTAGTATTAAACACCCACCCTTAGAATTATTATTCACAGTTGATGAAGAAACAGGACTAACAGGTGCTGCAGAATTGGATATTGATTTAATTAAAAGTAATTATATGTTAAATATTGATAGTGAAGAAAATGACACCATTACAATTGCTAGTGCAGGTGGAAATGAAATCCATTGTGAATTAAATTTAAATGTCATTGAAAATCATTATGATTCATCAATTAAAATTACATTACTACAGATGCAAGGTGGCCATAGTGGAATGGAAATTAATAAAAATCAAGGTAATGCAATAAAAGTCATATTTTCAATCTTAAATAAATTAGAAGAATTTTCATTAAGTTATGTAAATGGAGGGGTTGCTACAAATGCAATACCAAAAGAATGTGAAATGAGTTTATCATATTATGATAAAGATTTTGAATTAATTAAAAAAATAATAAATGATGAATTTGAAAAAATTAAAAATCAATTAGATATGCCAAGTGCAGAAATTAATATAGAAAAAACTTCAAAAAAAGAAAAAATATTTAATAAAGAAACTACTCAAAAACTAATATCTACAATTAATAAAATACCAACCGGTGTAATAAAAATGAGTGAGAATATTGATGGCTTAGTTAAAACTTCAAATAACTTAGGAACTATTGAGACAAATGAAAATAAAATAATAATGAACTGTATGTTTAGAAGTTCATCAATATTAGATTTGGAAGAATTAGAAATTAAATTAAAAGAAATATTAAAAAAATTTAATAAAGTAGAAGCAAAAGGAAAATATCCTGGTTGGGAAAGCGACCCTAAAAAATCAAAATTGTTAGAATTGGCAAAACAAAAATTCGAATCACATTATAATAAAAAACCAGAAATTGTAGCACTTCATGCTGGACTTGAATGCGGAATAATTATTGGAAAAGCAAAAAGAAACATCGATTGTATCAGTATAGGCCCAGACATTTTAGAAGCACATACACCAAGAGAAAGAGTAAGCATTAAAGGGGTTGCTGATTTTTATGAATATTTAAAAACATTAATAGAAGAATTAAAATTTAAAATTTAATTTGGATATTTCCGTTCAAATTTTTTTTTAGAACCATAATCCACAAATTTTTTATGGTGACTAGGCTCCTTAAAATCATTTGATTTTTTATGTCTAATTGCACACCAATAAATTTCACTCTCAGCCGCAATCATTGTCCAATATTGAAATAATCCATTAATATATCCACAATAAGTACATTCAATTTTTTCAAGAAAATCCAAATATGACAATTTATACCTATCAATTTTAATATATCTAGATCTTGGCACATAATCAATTCCACACAAAGGAAAACAAATTCTATGATATATCTCAATCCAAATATCTAATATGACTGAAGGAATAAGAATACTCCAAATCAATGGACCTGAAAATAAATGTCTTAAAAATCTATTTGGATATTTTTTATATTTCACAATAATAAATAGAATTTTGGATTTTTAAGTTTTACTAATAAATTAATTTAATAAAAATGGTTCACCCATACATGGAATAATATAATCTTCATATCTCCAAAAATCCGTTTCTTTACAATTCCATTCTTCAATTAATTCAATACCATCTCTAATTTCATTATCATTAATATCATTTGCATAATTTTGTGCTCTATTATTTTCAAAAGTTGGATTTCCACCTAATATAAAAAATGAAAAATGTGAATCTTTAACTTCATTATTAATTAATTTAGAATTTCCTTTAATATCAAAACCCTCATGCCCACAATCTTTTGCAATATTATTTCTATATACACCATTAGAATTAGCAATTGAAAAACAACCCCAAAAACCATGTCTTACTATTGAATTTTCAACAATTATATTTTCACTAGGATCAACAACCACTAAACAAGCTTGACAATATTCAATTATTACATTATTAAAATATGCATCATCAGTATTTACTACTAATGATGACCAATCATTATAATATTTATCTTCTACATTTGATGTAAACAAAATCGGATTATCTTTAGTCCCATTTGCATTAATTTTCCCATTAAAAAAAACAGATATATGTTTGTCAGTATATGGTTTTAATCTAGATGAATCTAAATCATTAAATCCATCTGGACCTAATTCAATATGATGAATTGATGGAGTTTTATCTTTTGATTTAGTAAATTCAATACGTGTACCAGGAAGAATATTAATCTCCACCCATGGCATCATCATTAAATCTCCTTCAATTAAAATATTACCACTCCAAATTTGAGAAGAAAAAATTTCCCCACTCAATATCCTATCATAATCTTCTCTTTGTAAATTAATATAAGTATTTTCATCTATATTTTTTTTTATATCATAATCAATTTCAACTAAGTTATTTAATTCTTCATTATCTTCGATATCATCTTGATCTTCATCATTACTTTCTTCTTCATCTTCTTCAATATTATTTTCTTCTTCTTCTATGTCATCTTGATCTTCAGTATTAGTTTCTTCTTCAGCTTCTTCAGTATCGTTTTCTTCTTCGTTTATATCATCTTCTTCATCTATATCTTCTTGATCATCAGTATTAGTTTCTTCTTCAGCTTCTTCAGTATCATTTCCTTTTTCTATATCATCTTGATCTTCATCATTACTTTCTTCTTCATCTTCTTCAGTATCATTTTCTGTTTTCTTTTCTATTTCATTTAACTTAGAACTTCCGTTTAATAATTTATCATTTAAATTAGCTTTATCATTATTTAAAATTTCATCACTTGAAACATTATTAATATTAAATTTATTTTCTTTATTATTATCAACATCTTTAAATAAAAATATTAAAAATATAGCTATAAATAAAAAAACAAATATAAATAATATTAATTCAAATTTATTCTTCATATAAAAAATATAATTTTTAAATTAATAAAATATTCTAAAAAAATTAATTAGCATCAACTCTTGGTGCTAAAATAAAAGACAATAATAATCTATCTACAACTTTAAAATCAGCTTGCATTGGATAATCAGCTTTTAATTTTAAATTAACAGTTCCACTAAGTTTTGATCCTTTTACAATTTTTTTTAAGTATTCTATAGAAAATTTACTTTTCAATGTAATACCTTCATCAACTGCAATCTCAACTAAATCTCCACTTTCAAAATCACTATTAGAATCACTTAAATCACCTGTTGCACTAGCAACAAATTTTTCATTATTAACTATAAAACATAAACTTTCTGCAACAATTTCGGCATCTTCTACAATTTCAGTAAAAGTTTCACTACTCATTTTTATCGATGCATCAAAACTTAAATCAGGAACTTTCTGTTCTTTTTCATCTAAATCAATTATTGGAAGTGTAAATGTTCTCTTTGATTTTGATTTAAATTCAATAATTAATTTATTTGTATTTTCTTCTAATGTTAGACTAACAATATCAGTAGGTTTTGCTCTTTTCAAAATTTGTCTTAAATTCCCTAAATTAATTGCCATTTCAATTGGCTCATTTATTTCAAATACAGAAAAAGCTGATGATAGTAATTTAAAATTTACTAAAGCTACACTTGCTGGATCCATTGCAATTAATTCCATTGCATTTTCATTGATTCTAAATTTACCTTCATTTACTAATTCAGAAATTATACTTATACCTTCTTTTAAATATTTTGACTCAGCTAATGTTAACTTCATAATTTAACCTCTTTGGTATTGATTAAGTCGATTTATTTATTAAGATTATGGTTTAAACATAGACACACAAATAAGTATTACAATATATAGAATAAACAATGATTAAAAATTAAAATTATTCAAATATGTGTTCTTTACCAATTTCTAGAATAATTGAATTATTATAATTAATAGATTTTGCAATTTTTGCCACCTCTTGCTCAAATGGTTTATCTGCTGCTGAAGGAAAAATAAATTCTGGTTTTGTAACTTCAATTAATTTTTTAATTTCATCATGGCTCGCATGACCAGAAGCATGTATATCTTTTAATATATTTACTTTTTTTTGTGCCAATTTACTTTCCAATATTTTTCTATTTTGTACACTCACAGGATTAGGAATAACTGTACATGAAAATATAATCCAATCATCATTTTTTAATGGATAATCTAATATACCATCAACTATTTTACATAAATTTGCAGTTGGTTCACCTTGATGACCAGTTGTTACAATTATATATTTTTTAGGATTTTCTGAAACCATTTTTAAAATTCTTCTAATTTTATTTGGAAATTGTGCAATATTTTGCTTTGGTGCAATTTTTGTTAATTTTATATCATGTGCTGCATAAATATATTTGGCTAAACTCCTACCAAGAAAAACTGCTTCCCTTCCAACTCGTTTTGCAACATCTTTAATGGTTTTTAATCTTTGTAATTGTGATGAAAATGTTAAAATAAAAATAGATCTAGCATCATTATTTATTTTTTCAACTTCATTAAAAAGCATTTCACGAACTTCTACTTCTGTTTTTGTTGTTCCAGGAAAAACAGCCCTCGTACTATCAACTATAATTGCTTTAAATGGACTCAACTCCTCTAATCTTTTAATATTACTTTTTGGACCAATAACAGGAGCATCATCAAATTTGTAATCATTTGTATATAAAAATCTCCCTTCTTTAGTTTCAACACAAATCATAACTGTATGTGGAATAGAATGAGTTACATAAATAAATTCAATTGTTATATCTTTATTAATTTTAAATCTACTATTACAATCTTGTGTAATAATAGTTGGAATTTCTTTATTTTCTTGTCTAAACATATTTAAAATAAATTGTGTTGTATATGGACTTGCATATACTTTTGCATTAGGAAAAAATTTAATTAAATATGGAGCTGCAAAAACATGATCAAAATGTGCATGAGATGGAATAATTGCAATTACATCATTAAATCTTTCTTTAAATAAAAAAACATCAGGAACTGCACCAACTTCAATTAATTCTTCTACTGTTGGAGCCAAACCTTCATGATCTTCCATAAAAGTAATATAATTATCTAAATGAATCCCAATATCTAAAAGAATAATTTTTCCATTAACTTCAATATAGGTCATATTTTTTCCAAACTCACCATAACCACCAATAGCTTTAATTTTAAGAACCATAATTAAAATTATTATATTAAATTTATAAAAGGAGGTGGTGGGATTTGAACCCACGCATGCAAGGGTTGCAGCCTTGTGCCTTACCGGACTTGGCGACACCTCCGATTAATAAAAAAAAACGACCTAGGGGAGATTCGAACTCCCGACCTCAAGCTTAGAAGGCTCGCGCAATATCCAGGCTATGCTACTAGGCCAGTAAATTGACTAGTTAATATTTAGTTTATAAATATTGTCTTTAAATAGAGAATTAATTATGATTTAAATTTGATATTACATTATATATTAATTCAATATCATTAAAATTGTAAAAAACAAACTCTAAAATTCTAGTTCTTGTAAATGTATTCTTCATTTTATTAATATAATAATAAAATATCATTATTTTAAATGCAGTTTCAACTTTTGGATATATTATAACTTTTAATTTATTAATTTCCATTTCAGGTATGAATTTTTTAGCAAGTTTACCATTAAACCTAGAATTATTTGCCAAATTATACAATTGAATTAAAAAATGTTTATTTAATTTAGATTTTTTAATATGAGAAACCAATGCCTCTTCTTTAAGATGTTTATATTTTTCAAAGAATAATTTTAATTCCAAATAATATTTTTGTAATTCACTAACTTTAAGACCCGATTCAACATGATCACCTTTAGTAATTTTTAATATATGTTTTGGATCGATTTTATCTTTTTCTAATTCTTTTATTTCAACTGAATTAACTTTAATATTTGAAACTAAACTATTTATTAATTTATTAAATTTCTTAGTCAATAATTCAAAAAATGGTAATTTTCTTTTTTCTACATTAATTCTTGAAATATTTTTTTTATTTGAATTTTGTATTTCTATATAATCCTCACCAGAAAATTTAATTTCTTTAATTTGTATTTTATTATTAATATTTTTTTGCACATTTTGTTTAAATTTACCAACATTTTTTTCAAACTCATCTCTTTTATTACTAAAAAATGTTTCTAATAATAAATATGCAAAAATTACAAAAATTAATATTATTAATAATCTAGAAAATGATTTAGTTGATATATCAAACTCCGCATTTTTTTCAATAATAATAGCTTCAGTTTTTTTCTCTAAATCATTATTCGCAAAAAATCCAATTTGATATTTTTTCTCTTCAGTATTTAATTTAGTTATTTGAAAAATCGAATCATTAGATACAATACATTCATTAATTTTTATTACAGAATTGCATTCATTTTTACACTGATAAAAAGAACCTTTTTTTGGACAAAAATGCCCATCATTATTTATCTCTAAACCAAAATTAAATTCATGATCTAATTCATAAGAATTAATAAATTTTAAAACAATTTCTTTAGTTTCATTTGAAGTAAAATTAAGTTTATCATAATATATATTAAAATCATCAGACAATAAAAACAATGAATATGAACCAGGTTTTAAAGTATATAACCAGAATTTAGAAATATTATCAAAATGATTTTCTTCTTGATTTTCATTATTAACAAGTTTTAATGAAAATGGAATTTGACTTGGTTTTGATTGCAATTTCAATATAATATTTGAATCTAATATTTCAATATTTGGATCTGTTTCATCAAGATCTAAATTCTCACTTTGATTTTTAATATTACTTTTCGTTTCATAATAATATTCTAATTTAAATGAATCTAAATAATCATTTAATACATCACTTAAAACCAAACTAATATTTAATTTTAAATTTTCAAATTCTTTTAAATTATTTTTATCAATTTTATTATCGATTAAATTAAAAACACTTGATTTTCTATTAGATTCAATTAATATTTTTTGATCTAAATTATAACCATCATCATTAATTATTGAAAAATTTATTATAAGACCATTATCATTAATAATATTAAAATCATCTAAACTAGGTCTTTGTTTAAGAGAACACATATTATTAATACAAATTTCATTACAATCAGAATTTGAAGAACAATATTTACCAATATTACATTCTTGACAATTACCTCCACAATCTATATCAGATTCATCATTATTTTTTATTTCATCATAACAGCTTTCTTCAATATAAAGATCATAATTAATATTATTTAATCCAGGTTGTGCAATATCAATAGAAGGTTTACTTACTTTTAATCCATTCACATACCAATAAAATTGTTCTCCTGGTATAAAATAATTGTTTGGAGTATTATCATCAAAATTTTTAAAATTAATTTTAGCAAAATAATTTGAATTATTATTTGAAAAATTATAAATAACTATATCATTTAAATCACGAATTTCAATATCAGAATAATTCAATAAGGCTGAACCAATAAATATATTTCCTGAAAAAGTTTCAGGATTTGGTGGAAGAGCATTAACACTAAATAAACTTAAAACAATTACTAATAACAAAATATTATATTTCACCAAAATACCCTTTTAATAGTTTAATTTATCGAGGATGAATTTATAAATATATCTTTTTAATACTAATTATGAAAATAGGTTTTTTAATTTCAAAAAGAAATGTTAGTATGTCAGAATTTGAATTGTTTAATTTGCTCAATTATTTTAAATTAAATTATAAATTAATTAAAAAAATAAGAAATTTTTATATTTTTGAAATTGAAAATATTGAGAATAAAAATAATTTAATTAAAAAAAAATTAAAAAAAATTATTGAATTATCTGGTTTTATTAAAAAAATTGACTTAATATATGAATATTTTTCTAGTATTAAAAAAATTAAAACATTTGATTGGAATAATATAATAAAAAAAGAATATAAAATTAAAGCAATTAATATTAATAGAAAAAAAAAATCAACCAATACTGAAAATAATCCTAAAATAATTAAATCTGCCATTGATTCAATATGGTATACATTAAATAATCCGAAAGTTAATATGAAATCAGATTTTACAATAAATCTATATTATGATTACAAATATTATATATTTACAAATAATTTATATGAAAACTCAATTATAGAAAGTAAAATCAATAGCCCTCATTCAATTAAAGATTATTTAACAAAATTTATGATTACTAGTAGTTTAAATGACATAAATAATAATCCTATTGATGTAAAAATAATGGATCCTTTTTGCGGTACAGGAAAAATAGTTTATTTTTCAAAAAAATTAGGATTTAATGCAAAAGGATATGATATTGATAAAAAAATAATAAATACATCTAAAGAATTATATGGCAATCTTAATATTGAAAATAAAAATTCATTTGAATTAAAAAAATTAAATAAATGTATTATTACAGATCCACCTTATTTTAAAAATACTAAAGGTGATATAAAAAATTATAAACAATTTTATTTTGATTTTTTAAAATTATTAAATAAAGATGAAGTGGAATCAATAGTATTTATTTTAATAAAAAACTTTAAATTAGATTTTAAATTATTAAATAAATTTAAATTAGTAAAAAAAATTGAAATATTTATACATAAAAGCATGATAAGAGTTTTATATATTTTTAAAAAGAAATAATAAATTAAAATTTATTTTTTTGTAATCCAATTAAATAACTAAAATAATTAAATAAATAATGGAATATAGGTATTATTATTAAAATTAAAATAATATGATTTATTGTCAAATTTGTAAATGAATAAGTCAATACTAATAATCCAATCACCCAATCTGTTTGATCAAAAAAATGTAATGGTTTTCCTGGTTTTATATTTAATCTTCTTTTAAAAAATGATTCAATTGCATCACCTAAAATAACTCCTAAACCACCTACAATACCATAAAATAATGGGCTGTATAAATTAAAATCAAATAATAAATAATCACTTAATTTAGTTTTAAAGTTAAATAATATATACATACAAATTATACCAAATACAATCCCAAAAAAAGCACCACGAAAGGTTTTATTATTTCCAAAAATTCTTTTATTATTTAATTTAATATTAAAATCCAAAGGATATTCCAAAAATTTAAATTTAAATAATCTAGATAAACTTGCAAAAATATTTACAAAAGCAAAAGGAAGAATAAAAATAAATATTTCAATTAAAATTTTATTCATTTTGTATTTTATGGTTTTTTAATTTTTATTGGTGAAATCATCAATATTCCAAAAATTACTAAAATAGGTGTCCACAATAATGCATTTAATTTAAAATAAAATATAATTACAATTAAAAATGCTGAAAGTGTCGTTGGTAAACCTATATAATATCCTTCAAATTCATTAACATTAAATTTAGCAAGTCTCATCACACCACACGCTATATATAATAAACCAGCCCCAATTAATAATGAATTATGAATACCTAACATCAAATAAGAATACATTAAAATAAGTGTTACTGGAGCAATTACAAATGAAATTAAATCTGATAAACTATCTAATTCTTTTCCAAGCAAAGACTCCTTTGAAAAATATCTTGCAGTTCTCCCATCAACAATATCTAAAGCAATTGAAAATAAAATAAAAACTATTGCATATTCTAAATATAATAATTTACTAGTTATTGCAGTTTGAAATGCCATAAAAATTGCACCAAATCCTGAAAGTCCACTTATTATTGTAATTAAATCTATTAATTTAAATTTATTTGAACAAATTAATTTATCAGTTTTATTTATTATTTTAAAATTTTCTGATTTTTTTTGAATTTTGTTCTTTACATTACCTTTAACTTTAAATTTTTTCTTTTTTGAACTACCTAAATGAACAGTTGCCATAATTAAAAATAAATTTTATGATATATAAATTATTATGATTATATTTTTAATTATATGATCTATAAAATAGATTATTATGTAATAATTAAAAATAAAAAATATTAATTCATTGAGCATATGTTTATAAATGAGACAAAAATCTTTCAAATATTAAGTTTGGGGCTATAGTGTAGCTTGGTCCATCATGTGTGGTTTGGGACCATACGACCCCGGTTCAAATCCGGGTAGCCCCATATTAATCTAAAACTTTTTAAAGAGTAGGATAATTGGTAAAATATGGCAAAAAAAAAAACTGGAATTTCAAAAACCTATGGAGGAAGATATGGTAAAACTAATCTTGCTAAAATTGATTTATTAGCTAAAAAAAGAAAAGAAAGTTCAAAATGTCCAAGTTGTTTATCAGACACTGTAAAAAGAGAAGCTCTAGGTATTTGGGTTTGTAAAAAATGCAATACAAAATTTGCGTCTAGAGCATTTGAAACATCAATAAATTAAAATGGCTATATATATTTGTATGAATTGTAAAAAGGAGACGGATTCTTCTTTAATGAAAAGAAAAATGAGTTGTAAATATTGTGCTCACAAAATCTTAGGTAAAAAAAGAACTATTGTTTCAAAATTGAAAGCGAGATGAAGTATAAAGTTAATTTAATAATACCTTTTGCAATAAAAAATATTATTGAGCCCGAGATATTAGATTATAAAAAAAACTTCAAAAGGGTTGAAGTTAATTTTTTGAAAGAAGATCCATTAGAAATTGAAATTAAAGCTTCAGATTCAGTAAGTTTAAGAGCAGTTTTGAATACAATATCAAAATTATGCACAATATATGAAAAAAGTTTAGATTTGGTAAATAAAAATGAATGAACAATTACAAAAAGAAATTTCAAAATTACAGTTTTTAGAACAAAATTATAATCAATTAATGTTGAGAAAACAAAATTTAAATATAAAATTAAATGAAATTAGTAATGCAAAGAATCAATTAGGAACTTCTGATGAATCATATACAGTAATTGGAAATATTATGATAAAAAAATCTAAAGAAGAATTAATTAGTGAATTAGAAAATAAAGAAAAAACATTTTCAAGTCAAGTTGAAACTATTTCAAAACAAGAAAAAGATCTGTTTGAAAAAAAAGGTCAAATGCAAAAAGAATTATTCGAGAGAATAAAAGAAGAAAATAAATAAAATGAGTTCAGAATTTCAACCACTTATAGATCATATTAATTCAATCATAGTAGAAAAAACTACATCAAAAGGAGTTCGTGAAAAATTAAAAGTTGTTTTAGAAATTCTAAAAGACGAAACTGAATCAGATGTAGCAATAAATAAATCACTTGCAATATTAGAAGAATTTGAATCTGATCCAAATATAGATTCATATACGAGAACTCAAATATATAGTATAGTATCTGTTCTTGGTCAATTCGAATAAAATTCAAAATTCTCACAATTATTTAATGCCATTAAAGTAATATTTTTATTTAAATAAAATCCATTTATTTTTTCATTAAGTTTTAATTTAATATTAGTATTTAATGTAATATAATAATTATCAACTTTAATTAACGTTCCAAATAAAATTAATTTGCCTTTTTCAACTTTATTTATTTCAATTTCATTAAAAAACAAAAAAACTATTAAAAATATTATTCCAATTATAAAAACAAATTTTGATATTAAAATTAAATGATTTTCATTCATAATATCATTAAACAATTTATTTTTATTAAAAAGAATAAAATAATATTGAATATATTTTAATTAAATCGAAATATTTTCATTATTATTAAATAATTTTTTAAAGCACAAACTAATAAAAATAATATGGGTTTATTTAGTCATTTATTTGGATTTGATAATAATAAAAGTGCATATAGATTAGCATTAAACCATCTTAATTCTGAAATTCAATATATAAAACATAGTTTAGAAAATTATATAGAAAAATATCCCGAAAAACTAAAATTAATTAATAATAAACAATGGAATTTATTAATTAAATTTATTGATGACGAAATTAATAATTTTGGAAGAAATCAAAAAAATATATTAAGTGCCATTAATAAATCTAGAAAAGATTTGTTTTCTCAAAGTCATCTAGATTATATTGAAGAAGAATATGGTCAAAAAGAAAAAGAAGAATTAGAAAAATTATTATTATCATTAAAAAAATTACACATTAATTTAATTTCTCAATTAGATTGGTTAAATACAAATAATCAAAAAAAATTATCAGATAAGGAAATATTAAAAATAAAACTTTTAGTTAAAGAAGAAGGAAATTTAATTTATAATTTGTCACATACACAATGTGAAACCTTATTAAAAAACACAAATGAAATTTTATTATTAGAAGAATTGAAACAAAAATTAGAACACATATCGTCTTTACTTCCAGAAGAGCGAGCTAATGCATACAAAGAATTTTTAAAATCTAAAAATAAAGAATCCATTCAATTTATCATTTCCAATAGAAAAGAAATATCACAAAAAAGAAAAATAATATTAAACAAAATTGAAGAAGCCTTAATTAGTTTTCAAAAAAAATATTCCTTTGTAAAAGGATTAATTTTATTTGGAAGTTTTACAAGGGGAAAGGCTAGTCCAAATGATATTGATTTTTTTCTTGTAATAGACTATAAACAAGGAAATTTCCATTATAAAATAGAAGAAAATAAAAAAACTTTGAATAATTTATCAATAGAAATGGCAGAATGTATTACTAAATATACAAATATTCCATCTGAAACTAATAAATATACAAATCCACCTTTAAACCCAGTTGATTGTAGTAATGAAAAAGTATTATTTAAAACAATTCAAAATCATATTAAAAATATTTATTGGCATTTTATTGGTGATGAATCTATAAAATATAAAATAAAGGGCATTCTTAAACAATTAAAAGAAAAAATTGAATAAAAAACACTTATTTTTGAAAAAAATTATAAAACAAATTAAATTTTTAATCTTATGGCAATAGTTGTAAAAGGTAAAAAAAAGAAAGAAGAAGGAGAAAAATCAGTAAAAGAAAAACTTTCTTCAGAGGATGAAATTAAAGAATTAGAGACTAAAATATCTAAAACTAAATATAATAAAAAAACTCAATTTGCAATTGGCCAAATGAAAGCTAAACTTGCAAAACTTAAAGAAAAACAAGCGTCTAGAAGTAGTGGGAAAGGAGGACATGGCTTTTCTGTTAAAAAAAGTGGAGATGGAACTGTTGCACTATTAGGTTTTCCTTCAGTGGGTAAATCTACATTAATGAATAAATTAACTGGATCAAAAAGTTCTACAGGATCATATGCATTTACTACATTAGATGTAATTCCATCATTATTAAAACATAGGGGTGCACAAATTCAAATTTTAGACATTCCTGGAATTGTAAAAGGTGCAGCTAGCGGTTCAGGAAGAGGTCGAGAAGTTTTAGCGGCACTTAGAAGCGCAGATTTAATATTAATTTTATTAGATGTATTACATCTAAATCATTTAAAAGTTCTTAAAAAAGAAATATTTGAAGCAGGTATTCGTGAAAATAAAATAAAACCTGATGTAAAATTAATGAAAAAAGATAAAGGTGGAGTTAATATTGCTACCACAGTAAAATTAACAAAAATTAATAATGATACAATAAAAATAATATTAAAAGAATTTGGTTATGTTAATGCAGATATAGTCATTCGAGATAATATTGATTCGGATGATTTAATTGATGTTATTAATGGAAATAGAGTATATACAAAATCAATGATTGTAATAAATAAAGCAGATTTAATTGATGTGAAAAAATTAAATAATTTAAAAAAAGAAATTAATGCATCAATCGCAGTTAGTGCTGAAACAGGATATCATATAGATAAATTAAAAGATCATTTATTTGATAAATTAGAATTCATAAAAATTTATTGTAAAGAAAAAGGCAAAGAAGCAGACATGAGTGAGCCATTAATTTTACTTAAAGGCTCTACAGTAAAAGAAATGTGTATCAAATTACACAAAGATTTTCTAAAAAAATTTAGATTTGCAAAAATATGGGGACCAAGCTCTAAATTTCCAGGCCAAACAAAAATGTTAGAACATAAATTAATGGATAATGATATTGTAGAAATTTCAACTAATTAGAACTCCGAAATACATATTAAACAATATGTAAAAAAGATCCAAAAATTAAAAAAATAATATTTATTATTTTCTTATTTTTCTCGTTATATTTATAAAAGAACATAAATTCTCAATAATATAATGGTAGAATTAAAAATAGTAATAGCTGACCAGAAGGAAGGTCGGTCATATCAAAAAGTAATTACTGAAGACGATTCTAAGAATCTATATGGTAAAAAAATAAAAGATACTTTTAATGGAGAAATGATTGACTTACCTGGCTATGAATTAAAAATTACTGGTGGAAGTGACATTAGTGGATTTCCTATGAGATGGGATATCGATATGAGCGGAAAACGAAAAATTTTAGCAGTTTCAGGAGTTGGTTTAAAACTAACAAGAAAAGGTATGAAAAAAAGAAAAACTGTTTCAGGAAATACAATTTATGATAAAATTTCACAAATTAATGTAATTCCAGTTAAATTTGGAGATAAAAGTTTAAAAGATATTTTTGGTGCTAAAGAAGAAGCAACAGAAGCTAAATCTGAAACTCCAGAGAAAACAGAATAGAGGTTTTTTAATTTGTCAGAAGAATATGAATTTTTAAAACCTAAAGAAGATGGACAACCATCAATCAATATTGGTTTTGTTGGTCATGTAGATCATGGTAAAACAACATTAACTAAAGCACTTTCTGGAAAATGGACTGATGAACATAGTGAAGAAATTAAAAGAGGAATTACAATCAGATTAGGATATGCAGATTGTATTTTTTATAAAAATAAACAAGACAAATATACTATACAAAAAAAAGACGAAAAAGGAAATAAAAATACATTCGTCAGAAAAATATCATTAGTAGATTCACCAGGACACGAAACTTTAATGGCTACAATGCTTAGTGGATCAACTATAATAGATGGTGCATTATTATTAGTTTCAGCAAATGAAGTATGTCCACAACCACAAACAAAAGAACATATTCAAGCATTAGAAATATTAGGAATTAAAAATATAATTATTGTACAAAATAAAATAGATACAGTTCCAGAAAAAATAGTTAAAAAAAATTATGAACAAATAAAAGAATTTTTATCAAATACTAGTTTTAAAAACTCACCAATAATTCCAATTTCAGCCTTACATGATGTAAATATTGATGTACTTATTCAAGTAATAGAAGAAGTAATTACAACACCAAAAAGAAAAATAAATTCACAACCAAAAATGTTTGTTGCAAGATCATTTGATGTAAATAAACCAGGTTCTAGTCCAGACAAAATGATTGGTGGTGTTTTAGGTGGTGCATTAATTGAAGGTATATTAAAAGTAGGAGATAATATTGAAATTGCACCAGGACGAAAAATTGAAAGTCATGGAAAAGTTACATATGAACCAATTGAAACTACAATAACTGGAATAAAAACGGGTGGGAAATCAGTAGAAACTGTTTATCCAGGAGGATCAATTGCATTACTTACAAATTTAGATCCATCTATAATTAAATCAGATCAAATTGGAGGAGCAACAATTGGACATAAAGATAAATTACCTCCAACACTTTATGAATTAAATATTGATGCAAATTTATTAAAACAAACTATAGATAATTTAAATATAGGACCACTTGCAATGCGAGAACCATTATTATTAAATGTTAATAGTTCAAAAACAGTTTGTACAGTAAATAAAGTTAAAAAAAATAAAGCAAACTTAATATTAAAAATTCCTGTATGTGCAAATGAAGGAGATTTAGTTACTATTTCTAGAAGATTTGGAACTCGTTGGAGATTAATAGGTTCTGCAACAATAGAAAAATAAATTTAATATAATAAAAAAAAAATTAGAAAAATTGTGTAAAAGTCCCTTGATTGATTTCTTGTTTTTTAAACTTTTTAATTCTTTTTTTCTTACCACTTTTTTCTTTTATAGTATTTGGACCTGAAATTCTAATAAAAGTTGCATTTTTTGAATTAAAATCATATGAAAATCCTGTGTCAAAAATTCTTTCTTCAATATTAACCATATTTTTTTCCCCCTTTGAAAGATCAAGTTCAATATTATTTAGCTTCTTTTTATCATAAGATAATGAAATATTTTTATCTTCTGAATTAATATTTGGAATTGGAACAATTAAATTTTTATCCAATTCTATACTTTTATCAACATCAGAAACTTCACTCTCATATTGAACTTTTATCCCCTTTATATTATTGGAAATCTCTTGTATTTTTAAACCTTTTTTATTTTCATTATGTTTTTTATCATCAATAACTGTTTTCACTACTTTTGGTTGATTAGTACTACTTACTTGTGTTTTGGTTATTTTACTTAATGTTTTTTTATTAATTTCTGAAACTTTAATTGGTTTTTTAATATTTATTTTTTTAATAACTGATTCCTTAATAACTTGTTTTTTAACAATTGGTTTTTTAATATTTATTTTTTTAATAACTGATTCCTTAATAACTTGTTTTTTAACAATTGGTTTTTTAATTATTTTTTTTTCTTTAATAGTACTTTTACCCTTAGCAGTATTAATTTTATTATTTGAAATATTTGGCTTAATAAAATTTACATTATTAGTTAAAACTGATTTAGTTTTAACAATATTATCAACACCAATTACTACATTTTTTTTTCTTTTAGTAGGAATTTCATCTTTATATTTAATATTATGAAAACTATTAAGTTCATTTACCATATTTTCTTTTTTTATAAAATCATTTGAATATAATTTTTTTAATCTTTTTTTTCTTAATTTTATTATAATATCCTTTGAAAATAATATTAAAATTAATGAAATAAAACTAATTATTAATAATTTATAATTTTCAACTAAAAAAAAACTAATAATAAAATAATATAAACTAAAAATTAATGCTAATGATTGAATAAAAATAAATAATTTAAGACCTGCAATTTTCTGTTTTAGCGTTAGTGGACCATTAATAATTATCAAAAATCCCATAATAGTAAATATAAGTAATTTAGAATATCCAGAATAATTTAGAAATATAAATAATAAAACAAAAACAATCAGATTTGATATAGTTACAAACATAAAATTAGATAATTTCTTCATTGTATAACAAAAATTAGAAAATTTGATTTATAAGAATTTATATTATTTATTAGTTCTAACACATTTTAATATAAAAAAAAAGCTAATTATATTATTAATAATCAATAGATTTAAAAATCACAATAAATTGAAACCAATATGAGACCAAAAACAACTAGTCGAAATAAAACATATAGAAAAAAAAATACAGAAACTACTGAAATAGTAAGAGTTAGGCTTCCAAAAGAAGCAGAAAGAGAATTATTAGCTGTAGTAGATCAAAGATTAGGTGGTTCACGTCTTAGAGTTAGATGTTTTGACGGTTTAACAAGAATAGCTAGGATTCCAGGAAAATATAAAAGAAGATTATGGATAAGAGAAGGAGATACAGTAATTATTATACCATGGGAATTTGGTGGCGATGAAAAAGCCGATTTAATATTTAAATATACACCAAATCAAGTAGGATTTTTAAAAAGAAAAGGAATGTTATCAATTCTCGAAGATGGTGAAGAATTTTAATTAAATCATAAAGTTTTTTAAATATAAAAAAAAATTCAATAATATGACAGGTAATATAAAAAAAATATTTTTTGTAATAATATTTATTATAATTACACTTTTAATTTCATTAATTATTAATTTTGTAACTTCAGACTTTAATATAGAATTAAGTGATAATGTAAATGTGGCATTAATTAAAATTAATGGTCCCATAATGTATGGAGAAAATGGTGGAATATTTTCTGGTGACCAAAGAGATGCAGCAGCTATTTCTAAAGAGATTAATAGTGCAAGTGAAGATGAAAGTATTGATGTAATATTATTAGATATTAACTCACCAGGTGGTACTGTAGTTGCAAGTAAAGAAATTTCTAATGCAGTAAAAAGAAGTGATAAATTAGTAATTTCATTAATTAAAGAAGTAGGAGCAAGTGGTGCATATTGGATTGCTTCACAATCAGATTATATAATTGCTGATTCTATGAGTATTACAGGAAGTATTGGTGTCATTGCAAGCTATTTAGAATTTGGTGGACTATTGGACGAATATGGCATCTCATATGAAAAAATGATTGGTGGGAAATACAAAGATATGGGAAGTCCTTTTAGAAACTTAACTTTAGAAGAAAGAAATTTATTTCAATCAAAAATTGATCAAATCCATGAAGAATTTAAATTTGCAGTAATGAAAAATAGAAATTTAACTCAAGAAGAAATAGATGAATTAGGCCAAGGTCAATTTTTCTTAGGAATAGAAGCAAAAGAAAATAAATTAATTGATGAATTAGGAGATAAATATTTATTTGAAGAATTATTAAAGAAAAAATATAATGTAACTGAAATTAAATATACCCAATTTGAAAAAGAAATGACATTAATTGATGCATTTTTTGGAAAAGTTGAATCTAGTTTTTATAATGTTGGACAAGGAATTGCAGATTCTTTTAAAACTGAACAAAGATTAAAAATAAAATAATTATTTTCTAATTGGTTTTTCATAAAAACTAAATGCCATAAAAAATCGTGGAACTCTGGCAATAGGTCTTAAAAATCTCATAAAATATCTGGAGCGAGATCCACGAGCAACAACTTTTTCAGCCTCTTCAATAATTAATCTACTTTCTTTTTGAACTTCAACTACACTATGCAAATATTTTTGTGTATTTTGTCCAAATTCTGCAATTAAATAAAATTCTTCTAATAATCTTAATATTAAAAAAAATGGAAATACTGCAATAATTTCAAGCCAATAATGTTTTAAAAAAGATTTAAAATTTCTAAGTCTATAATATTTAAAACATAAATCAATAATAAAAAATGAAATAATAATATTATCCAATATATGAAATAAAGTTATATAATTTTGTGCAAAATCATGAAAAAAAATTTCTGCAATAATAATAAATAATAAAATAATTAATAAATATGGAATTGACTTATCTATAAAACACTCGCATTTAGACAACCACTTTTTCATATATAATTAGTAATATACACAAATATAAATATAACTAACTTACATAAAAATTAAGCAACTCTTAAAAATCTAGTTCTGGCAATGATTTCTTCATATTTTTTAGATTTTAATTTCAATTCTTTTTCTAAATTAGTAAAATAATCAAAAACTCTCTTTACCACTCTATCTTCTTTTCTTCTACCCATAGTATGATTAGGATGTCTTCTATATATCATAAGTTGAATTTCAGATAATTGATCTACTGCGGCACCCAAATCAGATTCAACTATTACACCAGCTAAATATTGAGAAATATCGCCATTTATAATAATTTTATTTAAATTTGCCACTTCAGAACAAACATTTCCCTCTAAAACTGATTCTTTTTCTGTTAATCTATAAAATGGTTTATTTAAAAAATTTAAAGAAGGAATCGAATCTGTTAAGGAATAATCAGGACTTTTTTTTTCTGACTTTTTCGCTGATTGCGAACTAGTACCAAAAGCAAAACCTGTTTTTTCAACAGGAAGTTGTCTTACAGTTGAGCCGTTATTTGAATTATTTCCATTATAATTTTGATCCTTATTTTCGTATACCATTTTAGTTAAAATACTTTAAACAAATAACACATTAAAATATAATGTGACTACATAACGTTATTTTTAGAATTTTATTTTTAAATAAAAAAATTAAAACTATTTCAATAAATTTATAAAATTAATATTAAAAAAAATAGTATGGAAGAAAAACTAAAAGAAGTATATAAATGTCAAGAGTGGGATTTGAGTGAATTAAATAAACAAAATATTAAAGATTATTTTAAATCCATAGAACAATTAGCTAATAAGATTGAATCATATAAAGATAATTTAAATGAAGATACAACAATAGGACAAATAAATGAAATATTACAAAAAAAAGAAGAATTAAAAATACAAATATCAACTCTTTTAAGTTATCATAATTTAAAAACATATGAAAATTCAACAGATCAAGATTCTAATACTAAATTATCACAAATATGTGATTATTTGAGCGATATTTCAAATAGACTGTTATTTTTTAATTTCTGGTTTAAAGGTATAAAAGAAGAAAAAGCTAATGAATTAATTTCACAATCTACAAAATATAAATATTTATTGCAAAGTATTAGAAAAAATATACCATATACATTATCTGAAGAAGAAGAAAAATTAATTAATATTAAAGATAATAATGGAACTGAAGCAGTTTTTCAAATATATGAAATATTAACAAGTCAATTTACATATGATTGGAATGGAGAAGAAATAAATCAATCCCAATTATTAAAATATGTAAAAAGTTCTAAAAGAGAAGAAAGAAAAAAAGCATATACATTGCTTATGGAAAAATATAAAAATTATAAAGATGTAATTGCAGAAGTATATAAAAATCGTGTATTAGATTGGCATAATGAAAATATAAAATTAAGGGGACATAAAAATCCAATATCAGTTAGAAATAATATAAATGATGTTCCTGATCAAGTAGTTGAAGTACTATTAAAAGTAATTAAAAAAAATTCAATTTTATTTCAAAAATATTTTAAAATTAAACAAAAATTATTAGGTCTTAAAAATTTTGATAGATTTGATATTTATACACCATTAAAAACAGATGAAGATAAATATGAATATGATTCAGCAATTCAAATGATTTTAAGTGCCTTTGAAAAATTTGATATTAAATTTAAACAAAATGCGCTAAAAATAATTGAATCTAATCATATTCATGCACCAATTATAAAAAATAAAAGAGGAGGTGCATTTTGTTATTCTCCCTCCACCAAAATAATACCATATGTTCTTACTAATTTCTCAGGTAATATAAGAGATGTATCAACAATAGCACATGAATTAGGTCATGGAATTCATAGCTTACTTGCAAATGATAAAGGTGAATTTGGTTTTCATGCAACATTACCATTAGCAGAAACAGCAAGTATATTTTCTGAAATGTTATTATTAGACTATTTAGTAGAAAAATATCCAGAAAAAAGAACTGAATTAATAGTTAATTTAATGGATGACTCTTTTGGAAGTATATTAAGACAATATGATTTTGTTAATTTTGAAATTAAAGCACATGATATGATAAAAGATGGAAAAACATATGATGAAATTAGTGAAGAGTATTTAAATGATTTAAAAAGTCAATATAAAATTAAAATTGATGATAATTTTAAATATGAATGGATGTATGTAAATCACATTTTTGACAGGCCATTTTATGTTTATGCTTATGCATTTGGAAAATTATTAACACTTGCGTTATATGAATTATATTTAGAAAACAAAGATAAATTTAAACCAAAAATAATAAAATTATTATCTGAAGGTGGAAGTAAAAGTCCAATTGAAATTACAAAAGAGATTGGAATTGATATAACAGATGAAAAATTTTGGCAAAAAGGTTTTGATTTTTTAAATGAATATTTAAAAGAATTAGAAAATAATTAAAATCTATTAAAAAGATTTTTCCAATTAAACTTTTTTGTTTTTACTGTTCTTTTATATCTTAAAAAATCATTTAGCTCTCTATCAATATTAATAAAATTTGGAAATAATTTTTCTTCAGCTCTAAAGTCTTTACTATGATGAACTGTATTCGTTTTTGCTTTGTAAAATTTATGTTTTTTATGTAACATTTCATGATAAACTACAAATCTAATTAAATGTAATGGGGCATTTTTTAATATTGAACTTATTGTTATTGTATCATTTTGATAATTATATGTACCCAAAGTTCTTTTTGAAACTTCACCCCAAACTAAATTAGTTTGTTCAATTGCTTCTTCAAATAATTCTTTATTATTTTTTTCAAACAATTCTTGTAAAAATGGATCAATTTTATTTTTTTCTACTGCAATATGTACATTAGAAATAAATTTATCATATAAATCTTGAGTAAATGTTTTTTTTTTTATTTTATTAATTTTAAAAATTAAATATTCTAATAATCCTTTAATAATTAATTCATTACTATCCAACCAATTTTTATTTAATTTAATTTCATATTTACAAAACATTGGAATATGTTTAATATTTGCATTATAATCAGATAAATGATTAGAGAATACTACTTTTACTTGAGGTAAACGTCTATTTGGAAAATGTTCCTGATAAATTTGATTAATTAATTCTTGAATTATATTAATTTTATTTTCAAGTAATAATTTTTCCTCTTTTCTCATAAATTAAAGAATTTTAATTCCTTTATAATTTTTTATTAAACAAATAATAAAACAAAAGACTTATATATTAACTTTGATTAATACATATTAACTATGGTAAATACTATTAAACTAAAGTTAACAGGTTTGCAACAAAACATTTTGAGACTTTTATTTATAAAATCTGGAAAATCATTAAATCAAAGAGGAATAGCTAAAATTCTATCCGTTTCTCCACCTGCTATAATGAAAGCCATTCCTAATCTAGAAAAAAACAATTATATCAGAATAAAACAAGATAAAGAATCAAAAAGATGGTCTATTGAATTAAATAGAGATAATTATAAAATAATGTATTTGAAAAGAGTTGATAATTTAAAACAAATATACGAATCAAAATTACTAGAATGTTTAGAACAAGAGTTTGCTGGATCTACAATCATATTATTTGGAAGTTATTCAAGAGGCGAAGATACTGAAAATTCAGATACAGACATTGCAATAATTGGAAGAAAAGAAAAAAATATTAATTTAAATAAATATGAAAAACTATTAGATAGAAGAATAAATTTAAATTTTTATGAATCATTTTCAAAAATACATAAAAACTTAAAAGAAAATCTTTTTAATGGAATTGTCCTATCAGGTGGGATAGAACTTTGAAAGCTATTAAAAATTTTAAAGAATTTTTAAAAGAAGGCATAGTAAAAAAACAATCTCCTGATAAATCAAGAGCAAAATTTTTAATTAAAGAATCTGAAAATTCAAATAAATCATTATTGGAATTAATAGAAAAAATTAAATTAAGTGATGTAAATGCCAATATGTTTATTAGATTATGTTATGACATTCTAATGGAATTAATAAGATCAAAAATGTTATTAGATGGATATAATGCCTCAGGTCAAGGTGCACATGAAGCTGAAGTTTCTTATTTAAGATTATTAAATTTTAAAGAAAATCAGATACAATTTTTTAATTCATTGAGATATTTTCGAAATGGAATAATTTATTATGGTAAAATAATGGACAAAGAATACGCTCAAAAAGTAATTGATTTTACAATAGATAATTATAAACATATTAAAAAAACATTAGATAATGATATTCAATAAAGATTATAAATAAATTATAAAAACCATCAATATGGAATTAATAATAAAAGTTAGAAATAGTATAATTGAATTTTTATATTTAAATATACTTAAACCAATATTTTTTTTAATTGATCCACAAATAATGCATCATAAAGCAAATTTTGTTGGTAGTATAATTGGTTCTAATTTTATATTTAGATTTATTAATAAATTATTTTTTTCTTATTCCAATTCAAAATTAATTCAAAAAATTAATGGAATTAAATATAATAATCCCGTTGGAATCCCAGGAGGATTTGATAAAAACGGAATTATGATTAAAGGATTTGAAAGTACTGGTTTTGGTTTTTGTGAAATTGGAAGTATTACAGCATTATCATATAGAGGAAATAAAGGAAGACATTTATGGAGATTAGTTAAATTAAAATCCCTAGTTGTTAATTATGGACTAAAAAATGAAGGTGCAAAAAAAATATATAGAAGAATTAAAAAGAAAAAAATAAATATTCCATTAGGAATAAATGTTGCAAGATCAAATAGAAAAGAAGTAAGTGGATTAGAAGATAGTATTAAAGATTATATAAAAACTGTAAAAGTCTTTTCAAAAAAAGCAAAATATTTTTGTATAAATATAAGTTGTCCAAATGCCGAGACTGGTTATATGTTTTTAATTAAAAAAAATTTAAAATTATTATTAAATGAAATTGATAAATTAAAATTAAAACAACCAATTTACCTTAAACTCTCTGCAGACTTAACTAAAAAAGAAATTGATTCAATAATAGAAGTTTCAAAAAAACATAATGTTCATGGTTTTATTTGTACAAACTTAACTAAAAATAGAACTAATTTAAATATAAAAAAACATAATATTCCAAAAGTTGGAAGTTTAAGTGGAGTTTTAGTTAAAGAAAAATCTGATGAAGTAATTAAATACATATACAAAAAAACAAAAGGTAAGTATACTATAATTGGAACAGGTGGAATATTTTCTGCAAAAGACGCATATCAAAAAATAAAATATGGTGCAAGTTTAGTTCAAGTATTTACTGGAATGATTTACAATGGTCCTCAATTAATAAGCCAGATTAATCAAGGTATAGTAGAATATTTAGAAGAAGATGGTTATACACATGTTAATCAAGCCATAGGTTCCTACCATAATTAAGAAAAATAATATAAATAGAAAATTATAAAATATTAATATGAGTTTAAGTCACAATTCACATTTTATTCATTTTTTAAAAAATAAAGAAATGAATCTTTTATACTTAGCAATTTTTTTTATAACACTAGGAGATGCACTTATTAGTGTTTTTGTTCCAATTTATTTATATCAATTAGGTTATCAAGTAACTCAAATATTATATTTTTATTTATTAGTTTCAATATTTTTTGTAACATTTTCAATATTAGGTGCAAAAATAACTTCTAGGTTTGGAGAAAAACATTCTATGATTATTTCCACTCCATTTGCAATATTATTTTATATTGGATTAATATTTATGAATTCAAAGAGTTTTTTATTATTTTATTTTTTACCATTATTCATGGCATTTCGAGCCTTATTATTCAATTATGGTTTTCATTTAAATTTTATCAATCATTCAAATAAAAATAAAACTGGAAATCAATTTGCTTTTATTCAAACTATTGCATTATTATCCACAGTCGTTTCTCCTTATATTGGAAGTTTAATTGCAGAATTAAATTTTGCATTTTTATTTATTATTAGTGCAATTATCATGACAATCGGAATCATTCCACTACTATTAACTCAAGATAAATGTGAAAAAATTGATTTTGATTCCAATTCAATATTTAAAACAATAAAATCAAAAAAAAACAGAGGAAATATTATTAGCTTTTGTGCTTATTCCATGGAAGCTAGCATTGGAAGAATCATATGGCCAATTTTCTTGATAATAATAATTGGAGAATTAAGTAAAACCGGTTTTATTGTATCTGCATCTATGTTCATATCTCTAATGGCTTTTTATGTAATTGGAAAAATAACTGACAAAATAAATAAAATTAAATTAATTAGATTTGGAACATTATTATACTTTTTTGGTTGGATTGGAAGAATTTTTGCAAATACTGGTTTTAAAATATTTTTCATCGATTCATATAAAAACTTAAGTGAAAAATTAGTATCCATACCTTTTTTTTCACATTCATATGACATGGCAAAAAAAAGAAAAAAATATTTTGAATTTGTAGTATACAGAGAAATTGTATTTAATTTAATTAGAATTATAATGATTCCAATATTAATTGTAATATTTTATATTAATTTCCAACCATTTATATTAAGTTTTTTAATAGCAAGTATTTTTACAGCAGGATATATATTTATGGATTAATAGTAATCAGAAATTATATTTTTTACTCCAATTAAAAGGATCTTTTCTCCATTCTTCTAATAATTGAATTTCTTGTTTATTAAAATAATCACTATTTTTTGCAACTTCAAATAATTGATCATATGTTAATAGTGATCGAACTTGACATGGTGGATTTAAACTTTCAAAATCATTTTTTGAAACAGGAAACTCATAATCAAATATTGAAAAACAATAATTACAATTTCCATTTTTATTTCGAATTGCATTTATTGCATTCATTGAAGTCTCACCAGTTGAGATTAAATCTTTAATTAAAATCACATTTTTATCTCTTAATAAATCTGATTCAGAATCAATACCTTCTATTTGATTTTCCATTCCATGTCCCTTAGAATTTTTTCTAACATAAATTAATGGTTTTTCTAAAAGATCTGCTAAAGTAGTAGAAAAAGGAATACCTGAATTTGCAGTTCCTGCAATAACATCACATGCTATATTTTCATCAGAAATAATTTTTGCAAAACATTCAGCAAATAAACGTCTATAACTTGGATGTTCCAAAAATAATCTATTATCATTATATACAGGCATTATATCTCCTGCAACCCAGTTAAATGGTTTAGTTGGTCTTACTTTTACAGCACCAATATCCAAACCAAATTTTGCAATTTTTTTATGATAATCCATAATTATACCTCTAATAATTTAATTATTATATTTTTGCGGAAAATGTTTTTTTCCCCATCCAAAAGGATCACTTTCCCACTCTTCTAATAATTCAAATTCTTTTTTATTAAAATAATTTTCTTCTTTTGCAGCATCTAATAATATTTTATATGTTAATAATGATCTTGTTTGACAAAGTGGTTCTAAATTCTGAAATGCAGATTCTGCTTTTTCCAATCCATAATTGAAAATTGAAAAACAATAATTACAATCTGCACCCTCAGCTCTTACAGCATTCACAGCAGCAATAGAACTCCCTCCAGTTGAAATTAAATCTTCAATTAATAAAACTTTTTTTCCTGATGGTTTAACATTCATACCTTCCATTTGTTTTTCCATACCATGAGTATTTGGTTTATTTCTTACATATACTAATGGTTTCATTAATAAATCTGATAAAGTAACACAAGGTGAAACTCCTGCAGTTGAAGTTCCTGCAATAATATCACAATCAATATTTTCATCTTTAACAATTTTAGCAAAACCTTCTGCAAATAATCGTCTATATTCTGAATACCAAAGAAACATTCTATTATCATTATAAATTGGCATAAAATATCCTGAAGCCCATTTAAAGGGATCACTCGGCCTCAACTTAATTGCACCAATTTCTAAACCAAATTTTGCTATTTTTTTTTGATAATCCATACAAAAGAAATATATTTAATTATTTTATAAAGTAATTGTTACTAGTTGCAAATAATAAAAAGCTCTATAAATAAATAAAAAAGTATTTAATTATGAAAGTAATAAAACAAAAGAATCATAAGGATTTCAAAACAATTCAATGCAAAAAAGTAGATCCAATAAAAGATTTTAAAATGGATAATAGTTGTTATCTTTTAATTAAAATTGAAGACAAAAAAATACATATTGGAATATGTAATTATGATCATGAAATATTATTAGAATTTATTGGAGATAAATCTCAAGATATTTATTATTCAATAATCAATTATGAAAAAGAAAATAATATTGAGTTTTTTACAAAAAAAGAACATTTATGTTATTTAGGTAAAGAATTAAAAAAAGCTGAATATGCAATAGAAAATAATGCAGAGTATGTTCAAGAATAAAAATTATATTTTTAATAAATCCCTATCAATCTTTGAAAAAGCAAATATTTTTTTACCTAAATCTTTTAGTGATGCTCCAATAAAATATAATTCTATATCATCAATAATTATAAATCTATCATGTGATTTATCAAATTTTGTTATTTTAAGTTTACCATATTGTTCATTGAATTTATTTTTAGCAAATTCTAATTGCTTTGAAATAGTTAAAGTTTTTATTTCAATACTAACTTTTTTATTTTTTTCAGATAATATTGCTAAAGTATTTGTATCAACATAATTATCAATTAGAACAATTGACTTTTTTGCTTTTTTTATAATATTTATAATAAATTTATAAGCATCATAAATTTGACCATTATAAAAAATTCCTTGTTCCAAACTGATTGTTTTATCTTCAATTGCATTGAATATTTTATCAAATTTAATATCATGTTTTATTTGTTTTTTCTCTAACAAATCCATTCTGTAAAATAAATGTTCATTTTTAAAAATAAATTTTCGCATTTTCACAAAAGCACGCATTATTTCAATATTTACTATGACTGCAATATTTGATTTTAAAATACCAGAAATCATCGCAACACCTTGTTCTGTAAAAACTAAAGGTAAAAAACCACCCGTATATTTTTTTGAAGGTATCGCATTTTGCGATACCAAAAAATCTAATTCTTCTTTTGTTACTTGAAACATAAAGTCAGAAGGAAATCTACTTTTATTTCTCTTAACTTGTTCACGTAAACGAAAAGGTTTAATTTCATATAATTTTGCTAAATTTCTATCTAAAATAACATTAATACCTCTTAATTTAAAAATATTGGGTTTAATATCTTCTTCTGTTTTTAGCTCATATTTTTTCATTAATATATAATAAAAGACAATTAATCCATATAAACTAAATTCTAAGTTTATTAATTACTTTTCAAAAAAAATGAAATTAATTCACAATTTTTAGAATTTATTCAAAATTAATTTTCTTCTTTTAATAAATTATTTATTATTTTAAAATCACTAAAAAAATCATCTTTTAAATGTCGTCTATAAATAATTGCAGCCGGATGATAAATAGGAACTACTTTTACATCCACACCTTGAAAATTAATTTCAATTAACTTACCATGAATTTGTGTTATGCCTTCAATTTTTTTCATTTCTTTTATATTGCCATTTGCAAGAACGAATTTTGATGAAAAATTTCCAAGTGTACATATTATTTTTGGTTTTAATAATTTAATTTGTTCAATTAAATAAGGAGTACATAATTCCATTTCTTCATTTTTAGGATCTCTATTTTCAGGAGGACGACATTTTAAAATATTTGCAATAAAAATTTTATTTATATCAACATTGTTCTCTTCTAATAATTTATTTAAATTATCTCCAGCTCTGCCACAAAATGGAATACCTTGTTCATCTTCATTTTTACCAGGAGCTTCACCAATGAAAAGTAAGTCAGGATTTGATGACCCTCTACCAAAAACTACATTAGTACGAGTTTTAGATAATTCACATTTAGTACAAGAAGAACAAACATTTTTTAAATTTTCAAAGTCAGTCATAAGTTAAGGTTTTTTAAATGTTTTATAAAATTTATTATCCACAGTTCCAATTCCATAAGTCATATTATTAAGTTTAAACAAAACCTTACAACCGTCTTTGTCTTCTAAACCCATTACATTATTATATAAGTCATCAATACTTTGAAAAAATGAATTTAATATATAACTATAAACTCCATAATTATATTCAGTTGGTTGACAGTTCAATTCATGAGAAAATTTAATTGAAGTTCCTTTTCCTTTCCTTGACAAAGTCATACTATAATCATGATTAAATTTTAAAACATTAACTAAATCATTATCATTAAAATTATTTCCATCCATATTAAAATAAAACTTAATTTTATTTTTTTTAATATTATCCTCTAATAAATCCCTACGGTCTAAAATTAAATCATATCCAAGAAAAGGTTTTCCACCAATTTTTTCATAACCCAAATCACAAAAATTATCCAAAATAAAATCAGATAATTTATTAAAATTACAATCAATCAATATTTCTAATTCAGAATTTTCAGTTTTAAAATGTTCTAAAAAATTAAAATAAAAAGAAAAATATTTTTTTTGAAAAAATTCTAATGTATTTATAACTTCAGCTTTTTGATAATTATCCAATTCATCACTTAACTCACTTACTATAGTATCATAATTATAATTAACTTCTGTATTTTTTTCTTTATATAAAAACGCCCTTCCATTTAATCTAAATAAACTATTAGCATATCCTAAAACATCTTTTCTTAAATTATATATTATTGAATGCGCTTTTTCATCACATTTTTCTGGACTTTTAAAAATATGATCATGCTCATAGGCAAAAGCTAATGCAATATAACCACTCTTTTCAATACTCAAACCAAGTTCCATTAATTCTCTTATAACACCATCAACAACTAAAGTAGTATATGTATTAAAATCAGAAATTAATTTTTTATTTAGATCTGATTTTTTATCCGATAAATGAAAACCATCTCTTATTATTGGTTCTAAATTTATTTGTTTAGAAACACCTAATGAATAATTCTCACTCCATTTCTCATTCAAGTTATGTGATTTTGAAAAAGTATATCTAAACTTCGAACCATGTCTTTTATTATGTTCAAAAACTCTACTACTCAATTCAAACCCTGAAATAGATTTTTTAAGATCAGTTTTATTACTAGACGTAAAGGATTCAGCCTCAATTAATAATTCAATACTTTTATTATGAACTAAACCTAATAAAAATGGCATAGTTTCATCTAGAGGCTGGACATCTAATCGAGACATATAATAGGTTTAGTTTAACTAATTTATAAATTATTAATTTACTCTATTAGTTATATTAATAAAACATATTAAAATTAAATATTTATGATAAAAAATTTAATTGATTGTCACGCTCATGTAGATTTTAAATTTGATTTAAATAAATTAAAAGATGATGATCCATTTAAAAAACTTGCAAAAACATTTAATACTAAAAAAATAATTGATAATGCAATTAAAAATAATGTAGTTGCAATAATAAATAATGGAACTAATCCTGAAACTAATAAAAATTGTTTAAAACTATCAAAAGAATTCCCAATAATAAAATCAGCATTAGGAATGTATCCAACTGATGGTTTGGAATTTAGTGAAACGGAAATAGATAAAGAAATTGAATTTATTAAAAAAAATAAAAAGAATATTATTGCAATAGGAGAAATTGGTTTAGATAATTATTTAATTGACATGAATAAAAAACAAAAGAAAAAAATGAATGATAATTTTTTAAAAATGTTAGAACTTGCTTCATCAATAAAAAAACCAGTGATTATTCATTCAAGAAAAGCAGAAAAAGAAGTAATTGACATTTTATCATCTTTTGATATTAAAGCACAAATGCATTGCTATGGAGGAAAATTAAAGTTAGCTAAACAAGCTATTGAACAAGGAATAATATTTTCCATTCCACCAAATATAGTCAAAAATCAAGCATTTGAAAAATTAGTTGAAATAACTCCGATAAATCAATTACTTACTGAAACCGATACACCTTTTTTGAGTCCACATAAAGATAAATTAAATGAACCAAGTAATGTAATTTATTCAATTAAAAAAATTGCAGAAATAAAAGATTTAGACGAACAAGAAACAGCAAATTTAATATTTTCAAATTATCAAAATATATTTCTTTAAATATTTATTCGCATTTTATCTAAATCAAAATAATCAAATTGAGTCCATTCATCATTCGTTCTAATTACTTTCCCATTAGATCCAACTATACTAATTAATTTTCTATCAGGATTAATTACACCTGAAAATGATTCTCCATATTTATTAGCAGCCATTCTTACAGCAGTTCCATCTTTTAAATCAATAAAATTAAGACCTGGCTTAATACCATCTTTTTGGCTTGCTTTAACTAAATGAGGTAAATCACTTGTCTGTTGCGAAAGCTCTTGAGAAATCAAACCAAAATCATCAAAATATCCATGAGGAAAAATTGCCACATTACTTTCAGGATTATAATTTGAACCCAAAATCACATAAGGTACTCCATTTAATTCTCTAATATTAAATGAATCAGGATCCTCATAATTTTCTTCGATATGATACATAAACTGATTAATTCTTGAAAATAAATCTCTATCTAATAAATCATCACTCATTTGAATTAATTTATTACTACTCAAATATTCATGAATTAAATGTTTTTTAATTTCATATTCAATTTCTTCTTTAGTTGACATATTTTTAATAGTAGAAAATACATTGATTTTAAAATTATTTTTTTCATTATAATTTGTTCGATTTAAATATTTTAAAAAGTCATTAGCATCCATTTTTTTTGAAATTTCTATAGACTCCGAAATTACAGAAATATATTCTTTAATTTCATGCTCCACCATTCTCCAATCATTTGTTAATAATCCCACTTCTTTATTATTAGAATTATAAACTTTAAATATTTCATTAAATGGAATAACAAAATTAGTAAAGGCATAAATAGATGCACTCTCTGCAAATAAATGACTATGTCCAAATTGATAATAATTCATTAAAGTTTCTAAATTTAAATTATTATTAAAAAATTCATTTGATTTTAATACATCTCCACCACCAAAAAAAATAAGCTTTCTAGTTTCTTCTTCATCTAAATGTTCTAAATTAACTAATGGCCTAAATTCTAAAGGTGTTCTTCCATAATCAGAGTCTTTTTTAAATATACTTTCAGTTGGACTTAAAATTGGTTTTTTATCAAAAATTACTCTTAATAAACAATCAACATTACCTGTATACTGACCAAAATTAGATTCTAAAAGTCTTTTACTCTCATAAGCTAATCTTTTATCTTGAATATATACTCTCTCTGTTTTACCAATAGTAGTTTTAGGATCAAAAGGGTCTGAACTTTCTAATTGAATTTCAGCCTGTGGTTCAATAACATTAACACTACCACCATTCTCTTTATTCAGCCATAAAGCTCCCTCAAAAAGATTTGAAGAATAAGTTCCAACTTTACCATAAAGTGAATGTTTATACGCTACTGATGCTAAATGTAAGTAATTAAACTGTTGCTGTACCATGTTTCCAGATAACTAGAGACAAATAAACTATTTTTAAAACTTACTATTTTGTTTATAAACAAAATGAAAAATCAAATATATAACGTTGGAATATTTTAAGTGGAAATAATGGTTCTATAGTGTCATGGAAAGACTAAATCGAATACTGACTCAAGAAGAGAGAGATCATTTATATACGGCTAATTTAGAATTTAAAGCTAGCCCAAAAGAAAGACAAGCATTATTTAACGAATTATTAAACTCAATTGAAAAATTAAAAAGAAATTTAATTTTAACTTCCGACGATATTAAATCTGAAGCAAATTTTGGATTAAAAGATCATAAAATATTAGAAAATGCCATGAAACACATTAATCAAACATGGCAAAACATTTCACAAATCAATAAAAAGACACACATGGATAGTATACCTGCAGAAGGGCCATTAAGAGAATTTTCACATGAATTACATAGTTTTGATAGAAATTTACATGCACATTGGACTAATTTAAATCGCAATGACAATCTCATAAGAAAAATTATTTATAGAACTCAAGCAATTGAAAAACACTTTTCAAATATTTACAAAAGTTTACTTGCATTAGAACAATTAATGGTTAAAATGAAAAATAATGCATTTGATGATGTTAAAGATTTTTCATACCAAATTAGTAGTGTATATTGTAATTTACGCTCATCAATAAACGATATTGAAGAATTATTTAAATTAAAAATTGATAATTCTGACATAGAAGGCATAATTGATAGTTTAATTATTCTAATAACTAAACTTCCCAAAAAAGAATTGATTAAAAAAACTGGAATAATATTTAAAACAAATTATATAGAATTTAAAGAGGAAGATGCACAAAAATTAAGAGAAGAACTTGCAGATTTAAGAGAATATTTTTCTAAACTTTCAAATTTGGAAGCATTTAAAAAATTACACGACATGGATTCGAAATTAAAAAAAGATTCAATACAAACTTTTGAGTCTTATAAAAATATATTAATATTATTAGATAATTTACTATATATGCATTTTAAAGGTGGAAGAGGTTTAAGACAAATGATTGATGATTTCAAGTCTAAAACAAATGAACTTTTAAACACAAAAATATTTTCACCCATATGAAATATAATGAATTAGTATATCAACCCCAAGAAGATACTCATTTACTATTAGATTCAATTATAAAAAATATTAAAAATCAAAAATTAAATATTCTTGAAATTGGTTGTGGATCTGGTTATGTTTCTATTAATCTATTAAAAGAATATAATAATTTAAAAATAACTTGTACTGACATAAATAAAAATGCAATTAAACTTTCAAAAGAAAATGCTAAAGAAAATAATATAAAAATTAAATTTATTGAAAGTAATTTGTTTGAAAATATAAAACAAGAATATGATATAATTATATTCAACCCACCTTATTTACCACAAGATAAATTAAGTTCTAAACACAGTATTGATACTGCTCTATATGGAGGGAAAAAAGGTTATGAAATCACTCATCAATTTATTGAACAAGTATATAATAATTTAAAACCAAATGGAAAAATATTTTTATTATTGTGTTCTTTATCAAAACCTAAAACATCACTTGAATTATTAAATAAATTCAATTATGAATATAAATTAATAAAACAAATAAAAATATTTCCAGAAGAATTATTTGTATATGAAATAGAATTTAATGAATTTTTAAAAGAAATGAAAAATAAAAAAATAAAAACTATTGAATTTATTTCTAAGGGAAAAAAAGGTAATATATATTCCGGAAATTTAAAAAATAAAAAAATAAAAATAAAACAATTAATTGAAAACAAAAATAATCAGAGCTTTGTTACAATACAAAATGAAGTTAATTTATTAAATAAATTAAAAAAACAGAGTTTTGTTCAAAAAATAATTGAAAATACAGATAATTATTTCATTTCCAGTTTTATAGAAGGAATAACATTTGAATCCTGGCTTGAAAAAAATAAATCCAAAAATAATTTTAAAAAAATAATTTTAAAAATATTAGAAATATGTCAAATATTAGACATACAAAAAATAGATAAAAAAGAAATGGTAAATCCATATAAACACATTTTAATCGATAAAAAAGAAAATGTATATTTTATTGATTTTGAAAGAAGTAGTATTTGTAAAAATCCCAAAAACATAACTCAAGTAATAAATTATTTTTGTTCTAAAAAAATAAATGATTATTTTAAAAAATTTAATATTAATTTAAATATAAAAATATTAAATCAATTATGTAAAAAATATAAAAAAGATTATGATGAAAAAAAATTCAAAGATATAATTAATAATTTATTTTGAATTATTTTTAAAAGAATGTAATTTTAAATATAAATTTAATAAATTATTATTTAATTCACCATATTTTTCAAATAATTCAGGATATTTTCTTGAAGAATCTACATAATCATCAATTTGTTTAAATGTAAACCCAGATTTATAATAATCTTCATTAATTTGAGAATCGCATGAATTAATAATTTTATATAACTCAGGTTCTATTTTTTTTATAAAAAAATAAGTCCTTGTTAATTTTGATAAATCATCTTCAAAACTAATTTTACTATTTGAAATCGTTTCTAAATTTTTTTTTTGAAAAATTAAACCATAAAAAAAATTAAGTACTGAATTTTTTGAAAATTTATCTATTGTCACACTTAATCATAATTAATTTAATTTATAATAATTAAGAAACAATTTTACATGTAAAAAAACCAAAATAAATTATATAGTAGAATATAACTTAATTTATAAATTAAAAATAAATCTCAGTCATAGTGGTGGCTTGATTTATAATAATTTGATGCCTTGGGCATTGAAACGTTATAATTGAGCTTTTTGAAGTAATTGGGTATTTATATCCAATAAAAAATGATAATTGCCACCTTAACGGGTGGCATTTTTTATATATATTTTAACAATTATTTTCTAAACTTCAAAACAAATTTATAAAGAATATTTAATTAAAATTTATATGGAAAAATTTCGAAAAGAAGATGTGAAAATAATAGTTGTCACAGGAGGAGTTCTAAGTGGCCTTGGAAAAGGGGTTGTATGTTCTTCAATTATAAATTTAATAAAATATCAAGGTTATAATGCAACTGGAATAAAAATTGATCCATATTTAAATGTAGATGCAGGTACAATGAGACCAACTGAACACGGTGAAGTTTTTGTAACTGATGATGGTGGTGAAACTGATCAAGATTTAGGTAATTATGAAAGGTTTGGAGATATTAAATTATCAAAAAAAAATAGTATTACAACTGGACAAGTATTTTTATCTGTATTAAATAGAGAAAGAAATTTAGAATATGATGGGAAATGTGTAGAAGTAATACCACACATACCACAAGAAATTGAAGAAAGAATTTTTAAATCCATATTTGATAATAATTGTGAATTTGGAATTATTGAAGTTGGTGGAACTGTTGGTGATTATCAAAATATATTATTTTTAGAAGCATTAAAAGAAATTAAAAGAAAATATAATAATGTCGTTTTTACTCATGTAGGTTATTTGCCAATTTTAACTGGTGGAGAAATGAAAAGTAAACCATTACAACATAGTATTAGAATGTTAAATAGTGTAGGAATTCAACCCGATATTATAATTGGACGAAGTGAAAATGAAATTGATGATGTTCGACGTGAAAAAATTGCAACACTTTGTTGTGTTAAAGAAGAAAATATAATTTCCGCACCAAATGTAGATAATATTTACAAAGTTCCATTAATTTTTGACAAACAATTATTTATGCATCAAATATTTCAAAAATTTAATTTAATATATGATTCAACAAAAAATTTAGAATGGAAAAAATTTATAGAACGAATTGGAAAAATAGAAAAAAAAATAAAAATTGGTATGATTGGAAAATATTTTGACATTGGAAGTTATTTTTTATCAGATTCATATATATCAGTAATTGAAGCAATTAAACATGCAGGATATAATAATAATGTACATATTGAATTAACTTGGTTAAATTCAAAAGAATATGAACTAAATAAAGAAAAAATAAATGAATTATCTAAATATGATGCTATAATAATTCCCGGTGGATATGGGAGTAGTGGAGTTGAAGGTATAATTTCATCAATAAAATTCATTCGTGAAAATAATATACCACTATTAGGATTATGTTATGGATTTCAATTAATGTGTATTGAATTTGCAAGAAATAAATGTAATTTACAAAATGCACATTCAACTGAAATTGATAATGAAACTGAAGATCCAATTATAGATTTACAAAAAGATCAAAAAGAAAATTTATTAAATAAAAATATGGGTGGAACAAATAGACTAGGTGCATATTTTGCAAAATTAAAAAAAGATTCACAAGTTTATTCACTATATCATGAAGAAGTTATTAGTGAAAGACATAGACATAGATATGAAGTTAATTCACAATATATTAAAATATTAGAATCAAATGGTTTATGTTTTAGTGGAAAAAGTCCCGATGGTAATTTAATGGAATTTTTAGAATATGCAGATAATAATTATTTTATAGGAACACAAGCACATCCAGAATTTAAAAGTAGACCATTAAAACCCAGCCCATTATTTGATGGATTAATTAAAGCTGCATTAAAAAGAAAATCTACTTTAAATTAATATAAACATTATATTTTCTATTATCCTCAATAATTTTATTCCGATATAATGCAAATTCTAAAATAAAAAATTTATTATCTTGACCACCAGTCAAACTATCAATATGTTTCTTAAAATCTTTCACATTATTAATAGCAAAAACAATATATCTTTTTTCCCTAAATTTTAAATCATTAATTTCAATAATCTGTTTTTGTGTCCCAGTGGATGAAAACAAGGTTTGAAATTCCTCATTAAAAGTAGGAAAAGTTTCAGTAGGATTAGTACTATCTGCAGTTAATAAAGAGTAAATATTATTTAATTTTAATTCTAAATTAATATTTTCATTTTTTATTTGATTAACTATACCAAAATTAACTATAACTGGATCTGCTAAAGTAACTTCAAATCTATTTTGTTTAACTCCTAGAATTCCATCAAAATCAAAAGTCGTTTTTTCTCTAGAAATATCTATTGTTTTTTCCAATTGAAATATTTTTCCAATAATAAAAAAACCAAAAACCATTATTGTAATCGATAAAATAATTACAACAATGGCATTCATTGATAATTCTATTGAACCTTTTCTTTTCATTTATTTACTATAAATTCATATTCTTTGACTATTAAAACCATAAATAACAATAATATAATAGCACCAGATACAATAAATTTCATTCCAAGATTAAACCCTTGATAAGGATCTTGTAATGTTAAAAACAATCCATACGCCATTATAGCAAAACCAAACCATAAGAATTTATCTAATACTAATTTCATAATATCAAATTCTTCTTGTCTTGATAATTGCTTTTTACTTGATTTAGGTCTTACTTTTCTTTTAACTTTTGCCATATTTCACCTCTAATATAATATTAAAATAATAATAAAAAATTATAATTACCTTTTAATTGTAATTTCTAACGGTACACTATTCTGTTTATCAGAAGATTTACAATTTCCTTCATCATCAGTTAAATCAGTAGGTTTAGTTGCACCAGCGACAATACTTGCACAACAAACCTTAACAAACATAGATGGTTGTGGGCCCGTTTTATCATAATTTTCATTAACAGTCATAATAACTTTTGCTGCAATACCTTTTCCAAATGATAGTTTTTGTGGATCATTAACTAAAGTAAATATTAATTTATCACCAATTGTTTTATGTCCATCAACAGTAACCTGACAATATTCTTCATCACGGGGATGAAAATAATTTATATCAAAAAACTCTTGACCTGATTTTTCAATTATAACACTTTTTGGTCTAACCTTTAAAGGGCTATCTTTTGTTGGTGGATCAATATCAGGAAAATCACTAACTATTGTAAGTAATTTAGTTTCTTGCTCTTGAAAAATAGTTTGCATAAAAACTAAAACTAATGATACAAAAACAACTGCAAGTATAATAATTACAATTGAATTCATGGACAATTCTAAACTTCCTTTTTTATTCATATAATTCACCTCTTAACAACAAATGCCTTTTGAACACTTCTAATAACATTATCCGAATCACAAACTAAACGATCAACTGACTCGCCTTTAATATTTGGAATTGATTTCGTTATTAAAGGAGTAGCACCAGTCTTACAACAAACTTCAATTTGATATACAGTTGTACCAACCGTTTGACCCATTGCAGTTATAGAAAATGCAACTTTTCCACCATCATCTAATTGAACTGTACTTGAAGGTAATATAAATTTAACTTTAGTATCTGTAATAGTTGCTTCACTAATTGAAGCACCACATTCTTGTTTATCACCTAAATGTAAATATTCAACAGGAATTGTTCTAGCAGAACTTTCACCAATATTAATACTAACAGGATCTTCTGCTTGTACTTTTAAAGGATTCACACTTGTTGGCGGATTAACACTAGGAAATTGATCAATAACATTTAAAACATTTTTTTGTTGTTCTCCAAAAACATTTTGAAAAAAAACTAATACTAATGATACGAAAACCACTGCTAATATAATAATTACAATGGAGTTCATTGACATCTCCAATCCACCTTTTTTATTTTTCATTGTATTTCACCTATAACTATTTTAAAAATGTATTTTTCTTATATTTTTAACAGATACATCTAAAGAATGAACTTTACTTCTAATAACAAGTTTATAATTACTTATTTCTTTTATTAAATGATCAATAACTTCTTTTTCACTAGCATCACTATTACCTTTAGCAGTTTCTAACATTTTTATCAATCGATCTGATAATTTAATAAAACTTTCTTTTAAATTTGCAATATCATGATATTCTTTATTTAAATAATTTACATCCTTAACAATTAAATCAAAAAATTCAATTAAAGTTTTATCTTCATTAATAATTTCTTTTACAAGTAAATGTTTATCATTTTTACTTGCTATTACTTTTTCTTCACTATTTTTTAATGTACTTTCAATTTTTGTTAAATTAGATTCTATTAAATTTAATGAATTTTGATTAAAAGCTAAACGATTTGAATTAAAAACATCTATTTCTTTTTTAACATTTCCATATGAAGATTCAAAATTAGTTTTCAAAACATCATTTAAATGAGGATCATGTTCAACTAAAGCATCAAAAGAAAATTTAAGATCTTTAGCAGACTGATTAATAACATCTTTTAAATCATTATAATTTTCATAAATAAATTTAACTTCTTTTTTTAAACTTTCAACATAAGTAATAACTTTGTGCTCAAATACTTTCTCAGTTTGAACCAATTCATTAATTTCTTCTTCACCTTTACTATTAATATTTTGTTCAATAGCAGTTTCAACATTAGAAGGTAAATTTCTCGGAAGTGGAATATTTAAACTACTCAAATCAAACGCCTTAGACGAATCGTGAATCATAACATTATTTTCTTCACTAGCAACTTTAGAACCACCAGTTTCTCCAAAACGCGTTTTCAATGTAGTTTCTGCATCTGTAATAAAATCTTTAAAATAAGAAGTACTCTGATTTTTCTTATTAGAAAAGAAAGTAAAAACTAAACCAAGGACTATAAAAGAAACAAATATATTAAATAATGTACCACTTGCCATATATTCAACTAAGGGATTTAATGTAAAATCTTTAATTTCTATTAAACTTTTTAAAAATTCAAACATAGTTGTAAAAATTAAATTACCTATAGCTAATGGACCAAATATATATAAAAAAAAATTTGAAATGTGATTTTCAGGATGTTTTTCTACTAAACTTGAACGTAAAGATTTTACCATACTAATAATCATAACTAAAACAACACCAAATAAAACAAAACTTAATGAACCTAATGAAAATTTAGTTAATGTACTTTCAATATCAATAATATTCGTTTTTCCAAGAATAAAAATTCCACCCACTAATAAAAAACTAAATGCTCCAATAAGAGCTTTTATTGATTTTATTTTTTCAGGATGATCAAAATGATGTAAAAATGTAATTTGTGCAATTAAGTATAAAACAAAATAAAAAAAAATTGATAATATAACAATAGTTAAACCAATCATAAGACCAGGAATTGCTATTAAGGTTTCAATTACATCTCCAGAACCAGAAATAAAACTCATTAAAAAATCTGAAAAACCTTCTTCAGCTGCACTTACAAATGGCATTAATGTAAATAAAAATAATGAACTTAAAAATAATGATAAACTAAACCTACCTCTTTTCATATTATATTTTTAGATTATTTCCTTTATAAAATTACCCCTTAGAATCAGTTAAAAAATTATAATTTACGAGGTAATTCCATGTGTCCTAATTGTACAATTTTTCTTTTAAGCATTTTTATTTTTGGTGCAATAAGTTTAGCTAAACTACTTTTATTTTTATCACATAAAGTAATAGAATCCTCAGAGATTGAAGGATCAATACAATAAATTTCTAAATTTTCTAAATGATGAACTAAAGAATTTAAATCTGAAATAAATTTATGTTCATGATTTGCAATTTCTCTATAATCATGTATTTCATTATTTAAAAATTTATTAAAAATTTTATTACAAACGTCTTTTAAATTTTCATCAACACCAGAATCTAATAAATGATCTTCACTAATAATTGTTTTTTTTAAATTAGATGCTAATTTTTTTTCAATTGAATTTAAAAAATCAAAATATTTTTTAGAACTTGATCGTAAGTTATGAATTACTGAAGTCAAACCATCAATTGTATTATTAAAACTCACTTCACTAGAATGACTACCTGTTAAAGTTATATTATGAAGCTTTGATAAACCCATCATATGTTCTTGAAATTCATCCGCAATACTTTTTTTATCACGAATTAATTCATTAATTTTACTAGAAATTTCATTTTCATGTTTTTTTAAATTACCAACAGCTTGTTTTGGAGGAATATTTGAAAAACCATCCATGTAATTATAATTCAAATTACTTGAAGTCTTACCAAACCAAACAACAATTAATGTAATTACTATAATAATTAAAGGTAAATAAAAAAAGAAACTTTGATTTAATACATAACTAATAATAAGTCCCCCAAATTCATCACCACCAGATGTAATCACACCATCTTCAATACTGACATTTGCAATTAAACTAATTACTCCCATTAAAAGTGATTTAAATACAACATATAATGTAATTACTGCCATTGAAATTGAAAGCACATAATATTCACCAGCTGAATGAGTTAAATTATCTCTAAAAAAATCTCTTAATTTTGTATAAACATCATATGAAAATAATACACATAAAAATAATAAAACATATGAAATAGTAAAAAATGAAAAATTAGTAAAAGCTTTTTCAACATCTGCAACATTATCTCTACCAATTACCATAAAAGTTAAAACCAAAATTACACTCAATGCAGTTAATAATTTATTAACTGTATTTTCATGAGAACTATAAAAATTAGAATTAACTGAACTGACTATTAAAAGTAATGCTTTGTATAAAAATATAGTAAATACAATAATTAAAATAAATATAATAAAACCATCAGTTGATAAAAATTGAGTAAAACTTGTATTAAAACCAGTCAAAAACTCAGAAATAAATGTTGTAAAATCACCTTCCGTAGCACTAACAAATGGAATAAATGTAAATAGCATTAATAATAATTTTTTAAACATAAATAAAATTGAGTTTTATCATTTATAAAAACTTCTTTTTTTAAAAGATAGTCAAAAAGAACAAAATAACTCAATATTCGCAAACAAAGACTAAAAACAACTCAAAAACAGATATTTATTTAAAAGAAATGTTTATAAAAAAAGAATGTTACCACTTTTTAATTACGATGAAATTAAAAGATAAAATATTAGAATATAGCACAAGAGCTTCAAAATTTTTAAATAGTTCAAAAAAAGCATTAGTTTTAACACTAGGACTTTTAGCTAATAATTCAAATACATTTTCAATTTATCACCCAGAAGGACCTAGAGAATCATATGTAAAAAATTTTAGCATTGAAAATATCAAAGATATGCGAGAACAATATGAAAAAATTAGACAAAAAATAAAAAATTCTGAAAATAAATATGACTTTGAAAATGTTATCACAAATACATATGATAAAATAAAAAATCAAAATATTGATCCAAGACAAGCTTTAGAACAAACATTAGAAGAATTTGAAAGTGATGAATTAATTGGAAATAGTTTAACAGGATTTCGAAAAAAACAAAGTTTATTTTTTAAAGATGGTTTCAAAGTAAATGATTATTTAAAAGTTGTTGAAACAGCATATAAATTAATTCCAGTTTTTGCAGAATCATTAGAATTATATTTAGATGATTTAAATAAACAAGATCAAGATAATTCAAATGTAAAAGTTTCAGAAAATCACATAAATGAATTTTACAATGGAATTATGAATTCATTATATTCTTCATTTGGAACAAAAGAAGATAATATGTTTGGAAGCAATACATATAATTTTGTAACAGGTCATGTAAAAGATTTTTACAAAGAACCAGTATTTAAATTTTCAAATTTAAAATTTGAAGACATTGAAGAAAAGTCAGATAAATCTGGTGAAAGTTTTCTTATGGCTCATATAATTCAAGAATTAACTGACATAGTTTATGGAGAATCAATTAAACTTGTTTATGAAAATGAAAAAGATAAATTAAAAGAATTAGCAAATCGACAAAAAGATTATGGTTTTAAAGAATTAAGTTCAATATTACCAAAAGAAGAAGTTATTCAATTCGTAAAAATAACTCCAGTTCAAAGTAGTCAATCAGTTAAAGTTAGTCCAGTAAATACACAAGTTCAAGAAGATGTAAGTTATTTATTAGGAAATCCACAAAACCCAGTTAATCAATTTATTCCACAATCAAATTCAAATGCTTTAATATTAACAGAATTAAAAGAAATCAAAGACACTGTTAAAACTTTAGAATATACAACAATTCAAAATCAAGATATGATTCAAAATAATTTAAAACTAATTAATCAAAATCAAGGTGCAATGATATTAAGTGGAGAACTTACTGCAGAAAATACAAGGGGAATTCAAACAGTTCAAGCAGCAGCAGTAGTGAGTGGAGAAGTTATTGCAGAAAATACAAGAGGGCTTGAAACAGTTCAAGGAGTAGTTATTCAAAGCGGTCAAAGGCCTAAAAAAACCAAACCTAAAACACATATACCAATTGAAGTTCCACCAAAAAGAAAATCAAGAAGAAATTCAAGAAGAAATACATGTATATATCCAGAAAAATTTATTAATCATCCAAAAAAAAAACAAATTTTAGAAATTATGAAAGATGACTATAATTTGGGTAATAAAAGAGGAGATATTTTAAGAAAAGATTTTCAATTTCCAGATGGTTATTTAGATGCATATAAAATGATTTGTGACAAACCAAAACCTAGTTTAGTTCAAGCCAAATCATTTCTTTATAATTTATCAAAAAAATAAAAATGAAAAATGTTAAAATATATTATTCCACTAATAGCGACGGCAAATATACATTTTTCTTATGCTAATTTTTTTAAACCAATTCAAAATTATAAAGAACAAAGAGTAAATTATTCTGACCCTAGTTTTAAACATACAAGTTTTAATTATCAAAATATTCTAAATTATTTGAAAAACTCAAAATCAAAATTATCAAGAACATTTAAACAAAATAAACAACAATTAAAACAAATATATTTAGATAAATTATTTGATCAAGATGGAAATTTAGAAAATCGATTTAATAATAATAATCCAGAATTTGAATTTAATCAATTTAGAAAAGAAATTCCAACATTAATTTTTTTAAATGAATTTAATGACTTTAATCAATTAACTAGAACTATTAATAATAGACAATTATTAAGAAATAAATTAATTCAAGCCTATGAGCAATTTGAAGATAAATTAAAACAAGCAGAACAAACATATACATCACCTAGAGCAATGAATGTATATGAAACAAGATTACAAAATGCTTTAGAAGTATTAGCAGCTACAAAAACATATTCTGAAGCAAATCAAAATCAAATAAGAAGTTTAATTAAAATTAATTCAGGAGATCAAAATGATTTTGATAAATTAAGTTTTATTATACAGTATGGAATTAAACCATTAGGTCATAGATTAGCAAAGTTTAATGATTTACAATTAACAAGATTAATGTTATATATACCAGGATTACAAATTGCTGAAAGTGGTTTAGAAACTGATAACAATAATAGAGTTATTAATAGAGTTGACAATGATGGAGGTATTGGTGGATTAAGCGTTTATCAAACACCTAATATCGCGAGATTTGGTTATGATAGAACAACTCAAGAATTTGCAACAGAAGTATTATCAGATAAAAAAATAAATGGAAAAACCTACAGAAAAATAATTGAATCATTTAAACAAGGTAAAACAGCATTTGTACCTATTTCTCAAGTAGTTAACGGTGGAAGAGATTTAGCAACCTTAGAACAAAAATTATTAATGGGTGAAATTCAAACGGAAAATAAATCACATTTTTTTTCTGCAAAATCATTTTATCAAAATATAAAAGACAAATCAATTTTTAAAAAAGCAAAAAAGAAATTTGAAGAATTAGTTAAAGATAAATACAGATTCAAAGGTCTTGAACAATTATTAAATAGAGATTTAAAATCATTAGCAGATAGTCGAAGATTAGAACATGAACAAGAAAATCCAACGGCCTCAGCAAATATAAGTACTTTTATTACAACAGATTCAATTATAAGAGAAAGTAAAATTAATGATAATCCATTAAATATTTATTTATCATGGAATTTAGGAGTATCAAGCGCAGAAAGATTAAATGCTTATGTAAATGCATTTAAACATTATGTTAAAGGAAAAATATCTAAACAGCAATTAAAAAAAAAATATGATCGAGTTAATGGAGTAAAACAAATAAAAATAATTGGAAATCCTAAGTCTAGAGTTAATAGCGTAATCCGAAATTATGGCTTAAGATTATTTCATTTAATGGATACTTATATTTATAATTTAAAAATAAGAAAAAATAAAAATTAATTAAAAACTACTTTCTTAGATACTGCTTGACCAGGCATTCCTTTTTCAAAATGAACTAAAACTTTTCCACTATTACCATGAGGTCTTTTTACAATACCTGTGATTTCCTTACCACTTTCAGTTTTATATACTACTTTTTTATCAATTAATTCACTAGCTTTTTCTCTATTTTCATAACCAGAAACTAAAACTACCATTTGATTTCCAGTATAAGAATGTTTTGCTCGTCTATATGATACAATTATTCCTTCCATTTTAACACCTAATTATTTGCTTTTCGGCCTTTAGCACGATTTGAAGGTCTTGCTTTTTCAGCTCCACTTCCTTTATTTCTCAAACCACGAGATTTTTTACCAGCACTAGTAAGTCCACGAAATGCCCTACCTTGATGATTTAAAATCCAATTAATTTTTTTATCATTTTTAATTGCAGGATGAGCTACGTCTACCATAATAATTTCATACCATGCAGTCTTACCATCATCATCAACTAAATATGAATTTAAAACTTCTAAATTTTTAAATTTTTTATTTGCTCTTTCTTCAGCAACTTGTCTATAACTTTTTGCAACAATTTGAAATTTTCTTCCTTTTTTAGTAGAACGTCCACCTTTAATATCAGGTCTTGAATGTCCACCTTTTTTAACCGCCTGTCTTACAAGAATATAACCTTCTTTAGCTTTATAACCTAAAGATCTAGCTCTATGTAATTTAGTAGGTTTAGAAATTTTTACTGTAACATTTTCACGTCTAAAAGCAATCAATCTATCTTTTGCAATTTTAATTGCATCGCCTTCAGGTTTATTAAATATTTTTCTTAAGTATTTGTACATACCCATTTTAAGCCTCCATTATGTTTAATTTCTATTAACGATTCAGATAAGCTAAAATCCACATCTCATTAATATAGTGAAGATTTTTAGGGTATTTATAAACTTGTTGTCATTTATAATTAAATTAGTAAATAATATTGCTTTATACTTCTACTAACCCAAAAACAAAATATTGCTAAAATAACACCAGTAAACCAATCAAGAGCAGAAAAAGGTATAGCAATCAATAATAAAACTCCTAATAAATTAAATGCACTAGACTTAATTTTAGCCATTTTCTTTTTTAATTCATATTTTTTTTCAACTTCTTCTTTAACTTTATTATATAATTCTTTAGAAATTTTTAATTCATCTTTTTTTTTAATTGTTGATTTTTTAATAATTTTTTTTACCATACAATTAATTAAATAAAATCAGTTTAAAATATTTTTGTATTTACTTATAGTATTTAGAATTAAAAAGCAATTGTTCATTTGCAGGACCAGTACCGATTCCAGCAACTGGAATTCCAACATATTCTTCAACAAAATCTACAAACTCACGGGCTTGTTTCGGTAAATTATCCCAAAATTTACAATCAGTAATATCAGAACTAAATGTATCTAAATATTCAAAAACAGGTTCAACAGCCCTAATTTTTTTATTTGTTATTGGTAATTGATCAGTTACATCATCCCCAATTCTATAATGTGTAATAACAGGAATTTTATTTTTTTTAGTATGAGAAAATAATTGTAAACAATCAATTTTATTAATAAATAATTGAGTTGTTCCAGATATTTTAGCCATTGTTTTTAATCTTACTAAATCTAAATAACCAATAGCTCTTGGACGACCAGTTGTAACACCATATTCACCAGTTAAGATTCTAATACCTCTACCAATTAAAGCTTCATCATTTGATTCTAATAATTGATAAGGATTAACACCATTTTTATCTAAATCACCAGTATAACCTTTAGTTTTACGATACATTTCTTCAGCAATAATACCACCCATTTCACCTACAAAAGGACCATTACCAACTCTCGAATCAATTGCTTTTACTATACCAATAATTCCTTTACAATTATGAAAATTTAAATTTGCACCAGCTGGAGCAGTTGAAGAAATTGTTCTACTACTAGTAACATTTGGCATTAAACCATAATGATTATCTAAACATGCACCATTTGAATTAATTATTAATACATTTTTACCTGAATCAACTTGATTTTGAAAATATAACATATCATCAAAAACATATTGCGAAATAAATTTTACTGCCTCATCAAATTCTTCAATTTTATCGTCAACTTCATGTTTTTTTAAATGAGTATTATTCATAATTAAAAATTCACTTAATGTTCCTTTTATTTGTTTCATACAAAAATCTTTATCACCCATATATTCACTTATTGAAATTGATAATTGATATGTACCATCAGTTCTTAATGCACGTTTAGAATAAGCAGGACCAATACCTTTACCAGTTGTTCCGATTTTCCCACCACTTTTTGCATCTAAAAATAATTCTAAAGGAGTTATTAAAGGACAACCACCATAAATATTTAATCTTCCCTCTAAAGAAACACCAATTTGTTTTAAATTTAAAATTTCCTCTGTTAATCCAATAGGTTCAACAACACAACCAGAACCAATTCCAAATTGTAAATGTTTATATTCAAGACCAGGAGGAAGTTGATGTATTTCACATTTTTTTCCATCAATATAATATGTTCCACCTGCATTTGCACCACCATTACATTTAAATGTAATATCAAACTGTGGATAAGGATTATTTTTTAATAATTGCATTTCAAATAAACTTTTAGAATTCATTATACCATAAGATTCTTTTATTTTTCCTTCATCTCCAAAACTCATTCCAGAAATAATTACAAAACCACCTGCTTCCATAGATTAAAAAAATTCAGAACCTAATTTAAAAATTAATATGCAACTAAAAAATATAAATAACTCTTTACAAAAAACATTTTTATATTATTTATTCATTAATTCATCTAATGGTATGTAAATATCATATATTTCAGGATAAACATTTTTTTTTTGAAATTTAATACCCCGTATTATATCTTCAACTCGTTTAATACCATTTTCTCCTCTTAAATTATTAAATAATAAATGATCTAAATCCGAATCCGGGTTTTGTGATGATCTCCATATATCACTTTTTACTAAAAAATGAATACCTGGAACATCTTTTTCATTTCCATCAAAATCTAGAGTTTTAAAAATACTATCCTTATATATAACTAAATGTCCTTTAAATAAATTTTCTTCAACAGGTTTTTGACCAACATAACACATTGGTTCATTGAGATTAATTTTTAATATATTTGCCCTATATCGACTTGCATTTGCAATAATATTATATGGGCCTATAGTTTTTGAAACTTTATATAATCCATTGTTCTCTAAAATTTCAGTTTCACCATAATGCACTCTAAATAAAGACGAACCTTTAGAAAGTGGTTTTCTTAATTGTGCAATTCGTGGATCCAATAAAAGTACGGAATTTTTATATTCACTCTCTTCCATAAGGTAAAATAAATAATTTCGATTATAAATATTTATATATTAAATTATACATTAATCATAATAATCTTATTTAAAAAATAAAAAGTATTTTAAAAAACAATGGAAACGTATGGTTTATTTGAAGTTGTTAAAAGAAGTGGAAAACCTAATTTAAAAACCAGTTTGGAAGAAAATGAAGAAGCAATATCGAGAATTGGTCGTTCCAAATGTATTTACACAATGTATTCTAGTATTCCAATTATTACTGCACTTGAAAATATTAAAATTATTTTAAATAGAGAAAAACCAAATATATCATCCATAGACGATGAATATAAAATTTTATTTCAAAGTAGAGAACTTTTAGGAATGAGAGATAATACAATATCTTTTACATTATTTAATCGAGAAAGAGATTATCAAAATATTCCTAAAAAAAATAAACCAAAAAATAATACTGTAATAGAATTAAAATCAGATTATCCTCATATTTTAACTACATATTTAGGTTTATTTTTATATCTTCATGATTTTGAAAAATATAAATTAGTTCACCATAAACTAATAGAAAAGAATTAACTTATTTTATATACTAGTACTTTGATTATTATAATATGATTAAATTAAAATTATTTAAACAATCAAATGGATATTGTGGACCTGCTTGTCTAAAAATGATTTTATCTTTTTATGAAATAAATAAATCAGAAAAATATTTAGCAAAAATAACAAAAACAAGTAGAATTAAAGGATGTAAAGAAAAAAATATTATTAAAGCTGCAAAAGAATTTGGATTAAAAGGTTATATTAAACAAAATTCTTCTATTCATGAATTAAAACAATTAATTAAAAAAAAAAATCCTGTGATTATTAATTGGTTTTCACCTGAAGAAGCTGGACATTATTCTGTAGTGATTGGTTTTAAAAATGATAAAATATTTTTAGCAGATCCACATTTTGGAAAAATAAAAAAACATAAAATCGAATGGTTTGAACAAAGGTGGTTTGATTTACCATTTCATCCAAAAGGTCCTGTTTTAAAAGAAATTATTGTATTAAAATGATTCTTTAAAATCTACTAAAATTTTTACTGATGTATGAGCTTTTAAAAATTCAGTTAATTTGGATTCATTTTTATATAATAAAGTAGAATTTTTTAATCTTTTGTAACCTCTTTGAGAAACATCATCACATTGATTTGTAACTTTATCCACTTCAAATTTTTTATAAATTTTATTCATAGCAGATTCAAAAGTAATAATGTGTATACCATATTCTTTTTTAAGAAAATCAGCTTTGCATATTATATGTGGACTAATTTGAGCAAAGCTCCCAGTATGTAAATAAGTTTCAATACAACTTCCTAATTCAACTATAACATCCTTTGTAAATCTTGGTTCAAATTCATCTAACATCAAATCAATTGTACTAAATACTTCAGGAAACATAGAATTAACTTTAGCATGAGTTAAATCTTGCTTAGCTAATAGTCCTTTCAAATGTATAACATAATCAGTCTTATTCATTACAATACGTGAAATTTGAAATTTATAAAGCTTTACATGGTGGGAAAAATTAAAATCTATCCCAATAATTAATATAAAGATTTTCTAATTCCCACGAATCAGGAAAACTATCAAAAGTTTTTACATCTATTAAACTTTTGTAAAGTGATAATATATTATATTTCATATTAAATCAAAAAATAATTTAAAAGAATTAATTACAAAGATTGTCTATAATTTTCTTTTTGTTCTTCTGGAAACGTATATGCTGGATGATGTAAATATACAATGGTAATTTAAAAACAGAGCTTCCTGGAAATCTTCAAAATAAAAAATAATTTTTAAAAATATTTTGAAAGATAATTAAATTTAATATTGATAAAATATTAAAAATAGAAAATGCAATTATTATTAGAATAATAAAAATTATTAGTTTTTAGCCTAGGTAATAGAAACATTTATATAGTAAGTAAGATTTATCTTACTTATATTTAAAATGGATATAAGCATAACTAAAATGAGTTCAAAAGGTCAAATTGTAATTCCTGTTGAAATGAGAAGAAATATTAAAGAAGGAGAGAAACTAATTATAATTCAAAATAAAGATCAAATAATTATGAAAAAAGCGAGTTCATTAGATCAAACTTTTAATGAAGAATTAGAATTTGCTAAAAGAACAGAAGAAGCAGTCAAAAGAATTGAAAGTAATAAAGGAATTAAAATGGAATTTGATGATTTTATTAATGAAATGAAAAAGTGGTAAAGGTAATATTTGATCAAAATTTTAAAAAATATTTTAAAAAAATAAAAAATAGTTCCATCAAAGAAAAAATTATTAAACAGATTTCAAAAATTAAAGATAATCCTGAAATTGGTAAACCTATGAAATATTCAAGAAAAGGAACTAGAGAATTGTATATTAAACCTTACAGAATTTCATATAAAGTTGAAAAAAACACAATTTTTATTTTTGATTTATATCACAAAGATGATCAATAAATTGTATATTTTAATTCACCATAAACTAATAGAAAAAAATTAATTACAAAGATTGTCTATAATTTTCTTTTTGTTCCTCTGGAAACGTATATGCTGGATGATGTAAGTATGCAATAGGTAATTCACTAAAATTTTTTCTCATAAAACTCTCACTCCCCCTTCCAATACAAATAACACCCTTTGGATTAAACATATCAATTGATTTTTTAATAAATTCTTTTGAAAACTCATAAGCCCCTTCATGTTTCATTATATCTCTAAATTTAACATTTCGTCTTCCATCTTCAACAACACCAAATGGAAAAACATTTGTCAAAAAATACTTAGAAAAAAAATCATCAAACTCATATAATTCTTGAATCATTGAAAATATTTTTGTTGCAGTTCCTTCAGTTTCAAGAACACCACTTAAACTTTTATATCCTAATTTATTTACTAAAGTATTTTCATCAGTAAAAGCAATACCAGTTTTATTACAACCCATCCTTCCTGGATTTAATCCAATAATTAAATTTCTACTCTCCTCTTGTTTAAAATCACTATAAAATTTATCTATAAAAAATTCAAATCTATCCCAATAATTAATATAAGGATTTTCTAATTCCCACGAATCAGGAAAACTATCAAAAGTTTTTACATCTATTAAACTTTTGTAAAGGGATAATATATCATATTTCATGTTAAATCAAAAAATAATTTAAATATAAAGATTATTGTGATTAAAAGAAAATGCGCCTGCTGGGATTCGAACCCAGGCCAGAAGCTTGGAAGGCTCCGATTCTACCACTAAACTACAGGCGCTTAACACATATCATTTTTATATACTTTTTATAAAATTAACTAAAGCATTTTTAAAGAGTATACATTTTTTTATATTCATGATTCCTGAAAATATAATTGAAGATTTTAGAAATAAAATTAATGAATCTAAAAAACCATTAGTCTTTTTTCATGATGATGCAGATGGACTATGTGCGTTTTTACAATTTATAAAATTCTCTACTGCAAAAACTAAAGGAGTTATGTTAAAAACAAGACCACAACTTGCAAAATCATATGCAGATATAATTAATGATTATAATCCTGATCATGTTTTTGTATTCGATATTGCACTTTTTGAAGAAGAATTATTAGAAAAAATAAATATTCCTATTACATGGTTAGATCATCATGACATATTACATACTAAAAAAATAAATTATATTAATCCCAAAATGTATGAACCAAAAGATAATTGGCCTGTAAGCTATTGGATGTATCAAATTACAAAAATTGATCCATGGTTAGCAATGGTAGGTTCACTTGCAGATGGAATGCTTCCACCAATCGAAAAAGAACTCTTATTAAAATATCCTGAATTAAAAATAGAAAAAAATGAACATAAAGAAAAAAGATTAAATTATTTATATCATTCAAAAATTGGATGGATTTACAAATTAATTAATAATTTATTAAAAGGAAGTGGAAAAGAATTAATGCAACATATTAAATTATTAAAACAAATTAATTCACCATATGAATTAACTGAACAAAGTACAGTTATTGCAAAATATTTAATTGAACAAAATCAAAAAATTGAAAATGAATATGAAAAATTAAAAGATGAATTAAATAAATTAAATTATAATAAATCATTAATACCATTCATATATGAAACTAAAGGACTTTCTTTTACAAAAGAAATTGCAAATGAATTATGTCATAAATATCCAAATAAATTAATTATTGTAGGAAAGAAAAAAAATGGCTTAATTAAAATGTCTTTAAGATGGAATAAAGACATTAGACCAGTTCTAAAAAAAGCTTTATTAGGTTTTGATAATGCATGGGGAGGCGGACATAGTTTTGCATGTGGTTGTTGTGTTAAAGAAAAAGATTATCAAAAATTTGAAGAAAACTTATTTGATCAAATAATAAGTTATTAATTATTTATTTGGACAAGTCATACAACGTCTTATTCCACCACTTCTTGCCATATTACAACAAGCACCATAATTACCTGAAGAACTTGGTCCATTCCCACTAGAATAATTTGAACTTGGTGTAAATGTTCCTGACACTTTATAATCTGAAGGTTGATGACTAGTTGGACTAGCTTGAGGTGCTAAAGGAGTCGAATGATTAGAAATATTTCTAGAATTTATATTAGAAAAATCACTATTAGAATTATGTGAAACTTTTTGAGGTCCACTCAATTCCAAATTAACTTTTTTATTAGTAGTAGGAATAATTTTTTCTTTAATTATTTTACCATCTGGTTTATATTCCTCTTTTTCAACAATTACTTCAGTTTCATTTTTTTTAGAACTATCACTATTTAAATAAAATCCATCGAATTTCTTTTTAAATAGATTATTTGAAACTGTCATTTTTTATGCGCGTATATACTATAATGCATTCATTATTTATAAAAGAAAATTAAAAAAAAGGTCATAATATGTGACAAATGTGACATAAATCCCATTATTATAAAAAAATTATTTATTTTTAAGAATTAAACTTCCAGATTCAATAGGATAATCATGAGGAGTTATAATCCCATCAACACGTGATAAAGAATTAATATTAAGTAAACGAGTATAATTCATAATAAGCATATCAAAATGAGTGGTTTTTTCTTTAGTTTCACCTAAAAAACTATAATGTTTATTCCCATTTGGACTCATACCATGATTTGACCATAATCTTCCTGGAAAAAGTGATCGCGTTAAATATTGCATAAAATTCTTTACTATATCATCATGAATACCATAATATTTAGGAAAATTTTCAGCTATAATAACTTTTTCTTCCCGAGTTACCTCCTGAAAGAATAAACTATCTAAGCCATTAAAATCACGAGATTCTTCACATAAACAAATTTGATAAAAACCAAAATTACTAAAATCTATTTTTGTTTCTTTTAAAAGATTTGACATAAAACCACCTAAAAATAAATATAATAATATCTTAATAAATATTATTATTAAACAATAGATATAAACAAAAAACTTATTCTAAAGGAAGACCATCCCAACTCTTATACTCTTCAGTTTCATTTATACTTTTTGGAGTATTAAATGTAGTTGAACGTGAAGTAAATCTTTCCATTCCATAAGTAACCCAAGTATTTTTAGAATCAATATATTTTAAACCTGCATCAGCATTATCAATACTTCTCATTGGAGCATCAAAAGCTCTCCACATATTCATTTGTTGAGCGCTTAAATTACCAACTTTATCTTCATAAGCCTCTGTGTTTAAACTCAATGGACCCTTAGTTAAACCCTTTACAGCTTTAACAGCATTTACAACTTGTAAAGTACCCTCTCCAATTGCAACATGAGTATGTCCATTAAAACCATCAACAATATGCATATTACCTATTACATCAGCCTCGGCTAATCTTTTAACTTGATCCATATACCAACGATCAAATCTTTTTTTATATGCCTCATCAGATTCATTTTTTTTAGGCTTAAAATGTGCACGCCACATACCTAAATGTTGAGTGTCCAAAGTAGATCTAATTGAATGAGAAGCAATTTTTGCAGCTTTAGATTCATTCATACCACCACCTTTTAATTTTTCAATTAATTTTTTTCTTGACGTCAAAACAAGATCTTTCATTTCTTCTAAATGAGAACCATATCCACCTTGTGGAAAAATATTTTCTGGCGCCATATAAATTGGACGTTCTAAAGCTTGACCCGAATCCATTTTTTCTTTAGTTTTTTTATATGCATAATAACCCAATTCACTAAGTGTTTCAGTAGCAGTATTAAAACCATGTTCTTGTACAGTTTCTAAATTATTAAATTGTTCAAATCTATTATGAGCCTCACGAATAGCCTGCTCCACTTGATCACCATGTAAAGAAATTGTACCATTTAATTTACTAAGTTCTCTTTTTAATTCCTCCGATTGCCAAATTTTAACTTCAGGATTTAACTGATCTTCAACTTTTAATGATTCAGATAATTGAGGATTATTTTTAGCACTTTCTTCAGCTTCTTCATACAAAGGAATTTGTTTTTTTAAAATGTCACGTCGCACTATCATCTGACGTAATTCATGATCATAACGCTCAACATTAGCTTTTGATGCCCTAAATTGAGGCTCAAATGCATCAATTAGCATTGCACGCTCAGGATTTATTCTATCCTCAGTAATTTCATATTCAGGCATATTAAAAATCTTTGAATAATTATTTAAAACATCTTTATACTTTTTTTTAAATTTATCCTTATCTTTATCAGATTCATTCTCATACCAAAAAATATCTCTCTTTTCAATTTTTGGAACAACATCATATTTCATTTCATCAGTTTTTCCATCTTTTAATGCTTCAGAATATTTATCTACCCATGATTTCCCATCATTTTTTATAACTTCAATTTTTTGATTTTTATCAAAATTTAGGGCAACTTTTCCATTTTTTTTATCAACAAAAATAATTCCCTCTCTATAATCTTCTTCGCCAGTTTTACCAGTTTCCAATAATGGAAAAAATTCCCCACCACCATGTTGTTTTTTTTCATGCCCAAAAGTTTTCCATGTTTTTCTTGGAAATTCATTAGTGTGAAAAACAATAGCACCACCTTGTAAATCTGCAGCCAAATCAACATGTTTTTTAATTTCTTGTTTTGTAAAATCTAATTGAGCTTCATTAAACCCTTTCTCACCACTCCATCCAGTAACATTCCCAACTTTTTCAGGTGGAACATGAATTGAATGAATTTTTGCATCATTTAATCTTAATAAATCACGAACTTGTTTTCTAGATTCAGTACCAATAGATTCAGTACCAATACCAGGTTCACCAGAAGCTTGAGGAGTAAATTCAATAGAAGTCGTACCATTCCTCAATGCAGCACCTACAGAATTAATAATAGTTCCCTGACCTTTACCATCAACAATCGTTGAACCTAAATCTCTTGTGGTAAACATTGGAACTTCAATTAATTCTCTTTCTGGTTCCTCATAATCATACTTATCAGTACTTTGAGAAAAATAATTAATTCCTTTCATAAAACAATTAATGAATAGAAGTATAACTATACCATGCAAATAGATAACGTTTTTTTTTTAATATTGTTTATAAGTAATCTTCTGGTTTAATCATAGTGAAACCTGTAGCTATCAATTATTTATATATTTCAAATATAATAACAATGATTATAAAAACAAAATAAATTTTCTATTTATGATTTTAGGAATTGATGAAGCAGGAAGAGGTCCAGTAATTGGTCCAATGGTTATGGCAGGAATTTTAATTAATGAAAGTGATGAAATAAAACTAAAAGAATTAGAAATAACTGATTCAAAATTAGTAAATAAAAAAAAAAGAAAAATTATTTATGACATTATAACAAAACAGTTTAAACATCAAATTGAATTAATAACGCCAGAACAAATTGATGATAAAAGTAAATATAATTTAAATGATTTAGAGGCAATCACAATTGCAAAACTAATTTATTCTTTAAAACCAACAATAGTTTATGCAGATTGTCCTTCAATTAATCCAAAATCATTTAATGAACAATTATTAAAAATTTTAAAAGAAATGTCAAAAGATGATAAAGATTTTTTAATTCCAAAAATAGTTTGTGAACATAAAGCAGATATAAATTATATTTCAAGTTCTGCAGCTAGTATTCTTGCAAAAGTAAAAAGAGATGAAATAATTGAAGGCTATAAAAAAGAATATAATATAGATTGTGGTTCAGGTTACCCAGCAGACAAATATACTGTTGAGTTTTTAAAAAATAATATTAATGATCCTAAACTCAGAAAAATCATAAGAATGTCTTGGGGAACTTCTAAAAAATTATTAAATCCAGATAAAGAAATTCAAAACAAGTTAATTTTATAAGATAAATTAACAAATAATAATTATGGAATTATTTTATTGGACTTTTCTTGCATTATTAATATACATTCTTATTGGACATATAACAAAACATATGAGAGTTTATTGTGATGATGGAAGTCATTGGGATATACATTTACATTCATTTGCAAGTGGAGTACTTTTTGCAGCATTATTTTTTAAATTCTTTTTTAAAATATATACAAATTCAAATGTAATATTAAACATTTTTATTGCAATAATAACATTTACAATATTTTATGGATTAAATCATTTTTTAATATACCATAAATATACAATTAAAAAATTTCATAAAATTGCAGTAGAATTTAAAATATTAAGATTTTTATTAGATTTTTTCCAACATTTTGTAATAGGTGGGATTTTTGGACACATAGTTATTACTAATAATATTGATGCAATTTTTTTAATAATACCATTATTATTTGTAAAATTAATTTCAAGTATTGAAAAAGCAGACATATTAATTAAAAATAAAAAAACAAAAGAAACATTTGAAGAATATTTTATGAGCTTTATTACATTAGCTGGATTTATTATAATCAGTCAAATTAATATTTTAGAAATTTATTTTTATTTTGCATTAGCTTTTGTAACGGGTGGAATATTTTATTCTATAATTTCACAAATATTTTCTAAAAGAAAAGTAAATATATTTTATATGATTGTAGGAGAAATTATATACGCTTCATTAATGTTTATTTAAAAAACTAATAATCATGTTTTTAAATAGAAAAAATGTCTGAAAAATATGAATATTTCACAAATTAATAAAACCATATATCAAGATAAAATTAATTCTGAAAGGTTAACAAAAACTAATAAAAATAGATTTGATTTAATTAATAAAATTACTATTGAAACAATAAATAAGTTAAATGAAAATAATTTAAATATAGTTGATATTGGTTGTCGTGATTGTTCTTATTTTGATAATATAAGTAATATTAATACAAATAAATTAATTGGAATAGATAATGTAAAAAAATTCATTGAGCTTGGAAAGAAAAAAGGATATGATATTATAGAACATGATCTTGAAAAACCATTACCATTAAAAAATAAATCAATTGATATTATTAATTGTCAACAAGTAATTGAACATTTATTAGATACTCAAGAATTTATTAGAGAAATTCATAGAAAATTAAAAATGAATGGATATTTATTAATTGGAATACCTAATTTTAATAGTTTTGCAAGTAGAATAAGATTTTTGTTTGGATATAGGCCATTACAATACAGTCCAGTATTACAATGGTCCTTTGGCAATCACAAAAGTATGTTTAATTTAAATGATATTAAAAAATTATTAATAGATAATAATTTTAAAATAGAAAAAATTTATGGACTTGATTTATTTTTATCTTTAAAAAAATATAATAAAGGAATTAATTTGAATTGGTTAGCAAAATTATTTCCAAGTTTAGCACAAAAAATAATTATTATTGCAAAAAAAGTTTAATCTAATTTTTTACCCATTAAATAATTTGAAAATTCTATTGCTTTATGGAAATCAGTTAAATTTAATCTACCTTTATTTGAAATCCATTGAATTTGTTCTCTTGGTAATAAGTTATTATAAAATAAATTTTCTAATTTATATTCATCTGGAATTTCAAAAGTTAATTCACTCAAACAAGACTTAGAAGCACTTCCATTCTTTTTATGTATACTCAAATAAATTTTATCATTAATTCTTGAAGCAACGTGAAAATACAATCCACTATCTTTTTTTATTGAAGTTCCAAAAGAAGCCCAAGTATCCCCTTTAAAAAATTCCGAATGTAATAATTGTGAATCGCCTTCACACTGATATATTTTGTAATGTTTTTCAACTTTGAAACTTTTAGCTTTACCAGCTAAAGTTGATTTTATTTTATAATGTAATTTATTTTTACTAAAACCACTACATTCAGTAGCAAAAAAACCATAAAATTCTCTTGGTCTAAATAAAGTAGAAACAGTTTCTAATACTTCATCTAAACTTGGACGAGAATATGATTGATAACCATTATTAGAATTGAAACTAAATTTACTTTTAAAATAATCTAATATTTCCATAAGAACAAAGAATATTATGATTTTATAATGATTATTATAATAAAATATAACAATTAAAAAAATCTAATATCTCCAACTAAAAATAAACCAATACTATAAGACATTGTATTTTTTAATTCTTTTAAATCTTTAACTCTTGATTCTTTAAATCCATTTGGAATAGTATCAAAAACATAATCTAAACTATATCTTTTAGGTAAATTTAATTCAACAGTCATATTTTGATCAGGATTTAAATTACCTTTACTAAATGGACTTTTAATTAAACTCATCTCAATTGTATCTTCTGTTCTTAATGCATAACTAATATTAATACAACCATCAGAAATAATTTGTTGTCCTATTAAAATCCAATCATTATTATTTACACAAAAATCAAGTCTATTAGGGGAAGTTTCTTCAGATTCTATACCAATAATTGTAGACTTTAAAAAGTTTAATTTTTCTAAATTATTTAAAAAACGACAATAATTCATATTTTGAGTAACCCTAAAATAATCATGAGATTCTGGAAAATAAACTTTTCTAAAATTATCATTAGCTTCAAAAACCTGTGTGCCCAAATTCTCTAAATAAATGTTTTCTAAACTTGGCCTATCTATAAATTTAGTTGAATTTAAAGCAAACTTTAATAATTGTTCAATCATAATTAAAAAAGAAATATTGACTTTAAAAATAATTATATTCTTAAAACTAAATTAATAGAATTATTTGATTTTTAAAATATAAAAAAAACTTATAAATTCCACACTAAATCAACAAATATGATTACAATAGAAGAAATTAAAAATAAATTAGAAAACAGTATGCCTAATGCAATAATTGAAATAAGTAACCCACAAGAAGATGGAAGACATTTTTTTGCAAAAATAATATGGGATGAATTTGAAAACAAAACATTAGTTGAGCAACATCAATTTGTTTATGAAATTTTAAAAGAAGAAATGAAAGAACAAATACACGCATTAGGATTGGACACTAAATCAAAATAAAAGGTTAAAAAAATGGATGAACAAGTTAAAACAAAAATTGAAGAATTAATTAAATCTAAAAAAGTATTTTTATTTATGAAAGGAACACCTGAAGAACCAGACTGTGGATTTTCAGCAAGAGTAATAGAAGTATTAAATCATTTTAATATAGAGTATTTAAGTTTTGATATATTAGAAAATGAAGAAATTAGACAAGGAATAAAAGAATATTCAAATTGGCCAACAATCCCACAATTATACATTGATGGAAAGTTTGTAGGCGGTTGTGATATTATTGAAGAAATGGCAAGAAGTGGAGAATTATCTAAACTATTAAATTAATATTTTAAAGTCAATAAATCTTTATAATTAAATTATGTCTTAATTTCATATGGATATTCTTTGGAAAAACTTATTTAAAAAAAGAAACAATAATTCAATTAGTACAATTATAAAAAATGTCGATTTATTTAATGAATTATCAAAAAAACAAATAAAAGAAATAATTAATTTAGGTCATGTTAGAAACTATAAAGAAAATGAAATCATATTTAATAAAAATGAACAAAGTTTTGGAATGTTTATCATATTAAAAGGTCAAGTTGAGATTTATATAAATAAAAATAATAAAAAACAAATAATTGACAATTATAAACAATCAGAATATTTTGGAGAAATCTCATTAATTGATAAAAATATAAGAAAAGTAAATGCAATAGCAAAAAAAGAAACAAAATTGTTTTATGTTTTTGGAGAAGATTTTAAAGAACTATTAAACAAAAATAAAGATATTTCAATATTATTCTATAAAAATCTTACAAAAAATTTAATTGAAAAATTAAATTATCTGGAAAAATTATTATGAATCCTATAAATTTAAATAAAAAAATATGGTTAAATTTATTTTTAATTTTAGTCTTTATAACAATATTAGGATATATTTTTTTTCAATTTATTTCAATATTTGGATATGTATTAATAGGGGTAATATTAAGTTATATATTAAATCCAATTGTAAAAAAAGTTGAAGCATTAGGATTTTCTAAAAAACATGCATTTAGTATAATAATTACAATAAGTTTAATATTCATAATTACTGCAATGACAATTGCAATTCCTTTAATAAATCAAGAAGTTAATTCTCTCTCTAATAAATGGCCAGAAATAAAATCCAAAATTAATAATCAAATTCTAACTGAAAAAATAAATAATAAAAATGAATCTACATATTATTTTCCACTATTAAATATTGAAATTGCTAAAAGTAATATAGATGGATTTTTATTAGATTATTCTTCACAAATAAATATATTTGCAAAAAATTTAATTTCAGTAATATTTAAATTAATTTTAATAGTACCAATTGTAACATATTTTTTAATCATAAAAAGAAGAAAAATCAAAAAGAAAATATTTCAATTAATTCCAAATAAATATTTTGAAATTATTTTTGCAATGGTAAAAGAAATAAATAAATCCATTGAAAATTATATTTCAGCAAAAATAATTCAAGCAGTTATAATTTCAGTTTCAGCTAGTATTGGTTTTATAATAATAAATTTAAATTTTCCAATATTTTTAGGAATATTTGTAGGTCTTGCAAATATCATACCTTATATTGGACCATTAATTGGAGCTATACCAGCAATACTTATTGCATATTTATTTTTTGATACAAAAATAATTATATTTGTCTTAATTTTATTATTAATCGTACAATTAATTGACAATTTTATAATTCAACCAATAATATTACCAAAATTAGTTAATGAACATCCAATTGTAGTTATAGTTATTACATTAATTGGAGCAGAATTATTTGGCCCATTAGGGATGATTATGGCATTGCCAATTTTTATAATAATTAAAATAATATTATTAAAAAGTTATATTGCTCTAGACTTCTTATATTCTAAATAATAAATTAAAAGTACTTGATTAAATAAAAACTTATAAATAATTTAACAATTAATTTTTATATGGGAGATAAATGGTATAATTCAGGCATTTCAAATTATATAAGTCAAGGCGTAGCATATTCTTTAATATTTGGAACTCTAATATTAGGAGGCGGTTCTTGTTACAGACAAAATGTAATTGCAGAAGCCGAGGCTGAAAGAATTAAAAGTGGAAGTTATATTATCCGTCAGGGTGACTTTAATAAAAACGGTAAAAGAGAAGAATTTATTGAAATAAGAAATAAAAAGTTTTTCTCAATGATTGATGGAATAGATTTAGAATCAAAATTAAAAGAATAAAACTTTTAATTTTACTGCCAATTTTTATAATAATTAAAATCATACTATTAAAAAGTTATATCGCCCTAGACTTCTTATATTCTAAATAAAAAAATATTATTTTTTAATTGCTTCAAAACTAATATCACATGGTTGTTCAAATCTATTAATTAAATAGGGATACTATTCATCTAATGATTCAACATCAGAAATACGTTCAGTTTCTAAAAAAATACTATGCTTATCTTTACCATATTTACCATAAAAACCTTTAGTATTTTTTATGAGTTCAAATGACATTGGGTCTGCATCATTTACTTTATTTTCCTTAAAAAACACATTTTTTTTATCTTTAGCAAAAAAACCACCCACAACTTGAAATGTTTCACTATCTGCTTCCGAAATTAAATTCGAATAACTATAAACATGATTTTTATCTTTTGCATACCCATATTCTAAAACTTCAAAAGTTTTTATATCTGCATTTGACAATATGTTATCATAATGATAAATTCCAAAATATTTTTTATTAAACCCTTCTGAAAGTTCAATACCAAAACTAAAATTTATATTTAAAAAATATATCACTATAAATAAAATAGTTAATCCAAAAATTATTTTTTTAATATTTTTTTCTTTAATTAAGATTTCACCTAGATTTTTGATAAAAAAAGATGATATTGCATTTGCAATTATAAATATAAGTAAAATAAAAATAGGTCCAAGAACAAGTATTATAGGTCCAAGAACAAACATTAAAGCACCAAGATTAATTAATGAAAGTTTAATTAATCTTTCAATTATCGTATTTTGAAAATAAATAGATAATATCATGGCCATAATCATTATAAATAAAAAAAATATCATTACCCTAGAAAAAAATAATTTCAAAGATGTTTTGATTTTTTTTTTTTCATCAAAAGGAACATCTTGTAATCTATATGCTTGGTATATACTAACAAAGATAATAATAAAAAATGCAATTCCAACAACTAAATTATGTAAACCCGCTTCATAAGGAGTTCCAAAAAAAGTCCCATATAATAAATCAAAAAAAACAATAATAACTACAATTATTAATCCAACAATTAATCCTTGTGAAAAAATATTTAAATTTTTAAAATATATCAAATTAGAATTTTTTTGTAATTTAGAATTATTAACTTGATCCATAATATTAAAAACTAAATTAGATTATATAAAGCTAATCAAAAAAAATAGAGTATCACCCACAATAATTAATAAATGGTTATTTTTTTTATGAATTCTTTTTAATTTTTTATTATTAAATAAATTACTATAAAAAGAAATATTGTTGATAAAATAAACCCACAATTAAATAATCTGTTTTACAAATATTAATTATAAATTATTAATTGGAACCTCTAATATGATGAGTTCTAATTTTTTATTCTCCGGTTGAGAATTTTTTCTATTAAAATGTACTAGAGTTTTCTTATTCGTAGTTTCTCGAAATCCCATTTTTTTAAAATAATTTAATGAAACTTCATTCCTAGAAGAAATTTGCTCATATATAGCCTTTAAATTTGAATATTTATTTTTTAAGTCATTAACAATTAAATCAATTACTTTTTTAGAAATACCTTTGTTTTGGTGTTCTGGTAATAAGCCATGAAATCTAATCCCTGCGTTTTCAGTATCATCGATTTTAAACAAATAGTAACCCGTTATACCTATTACCTCGTGATTGTCTCTAATAAAATAATTCATACCATTTTTTTCTTTTATCCAAGTATCAAAAGATGCCTCAATATCTACATAATATTCTGGCTCAAAAATTTGTTTTGCTACATCCATATATTTATGTCTATTGCCAGAATTAATCTCCTCGATATTAATTTTCATAATCTTATAATTCAATATATTCTTATAAACATTAGCATAAATAAATAGACCTTCATTTATTGCTTTTTCTCCTTTTTAGAATTTAAATTTATCTATTATCTAAAACGAAAAATAAATAATTCTTGAAAAGCCTTATAAATAATAAGTAAACTATAGTTAACATGGAGCTATTATTACCACAAGAAGTAGAAGTACATTATATTATTCCAACTATTAGAAAATATTTTGCACATTATTTAAATCAAAATGGAATGAACCAAACTGAAATTTCTAAAATTTTTGGAATTACAAAATCTGCAGTATCACAATATTTTAGTAAAAAACGTGGAAATAAAATTACATTTCAAAAAGATTTTGTAAAAGAAATAGAAATTGCAACAAAACAAATCACAGATAAATATACTTTTATGTATCAAATGCAAAAATTATTATTAAAATTGAAAAATGATTATTCAATTTGTACAATTCATGAACAAATTAATCCAAATTTAAATAATTGTAATCCAGAATTGGTTGGATGCCACTTTAGAAAAACAAAATGAGTAAATTAGATTTTGAACCGAATAGAGAAGTTTATGATAAAAAAGTAAATTTCAAAAAGAATATTGAAACTTCACCTGGACTAAGTGAAGATATTGTTAGATTAATCTCTAAACAAAAAGAAGAACCTGAATGGATGTTAAAAAAAAGATTAGAAGCATTAGAATTATTTGAAAAAACAGAATTACCAAAATGGGGACCGAGTTTAGATATTCTAGATTTTGATCAAATTAAATTTTATGTTGATCCTAATACAAAAGAAACAAATTCTTGGGATGAAGTACCAGATGAAATAAAAGAAACATTTGAAAGATTAGGAATACCAGAAGCAGAAAGAAAAGGTTTAGCTGGAGTTGGTGCACAATTTGATAGTTCAATGGTTTATCATAATTTAGAAAAAGCATTAAAAGATAAAGGTGTGATTTTTGAAAATATGGATGTTGCAGTAAAAAAATATCCTGAATTAGTAAAAAAATATTTTATGAAACAATGTATTCCAATAAATGATCATAAGTTTATTATGTTACATGCAGCAGTATGGTCTGGTGGAACTTTTATTTATGTTCCAGAAAATACAAAAGTGGAATTACCATTACAAGCATATTTTAGAATGAATGAAATTATGGGTGGACAATTTGAACATACTTTAATTATTTTAGAAAAAAATGCAGAATTACATTATATTGAAGGATGTAGTTCACCAAAATATTCAAAACAATCATTACATGCAGGTTGTGTTGAAATAATTGTAAATGAAGGAGCAAAGATGCGTTATTCATCAATAGAGAATTGGTCAAAAAATGTATACAACCTAAACACAAAAAGAGCAATTGTACATAAAAATGCAAAAATTAATTGGGTTAATGGAAATATGGGAAGTTGTAAAACAATGTTATACCCATGTAGTATATTAATTGGAGAAGGGGCAAGTTCAGATAATTTAGGAATTGCTTTCGCTGGTAAAAATCAAGATCAAGATACGGGAAGCAAAGTTATTCATGCTGCTAAAAATACAAGTTCTACAATAAAAGCAAAAAGTATTAGTAATTTTGGAGGAATTTCAAGTTATAGAGGACTAGTTGAAGTTAATAAAAATGCAATTAATACTAAAAGTAGTGTAGAGTGTGATGCGTTAATTATAGATGATAAATCAAGTTCAAACACATACCCGTTTATGAAAATTAATAATAATAAAATAAATATTTCTCACGAAGCAAGTGTTGGTAAAATAGGCGATGAACAAATTTATTATTTAATGTCAAGAGGATTATCTAAAGAACAAGCAATTCAATTAATTGTTGGTGGATTTATTGAACCGATTAGTAAACAATTACCATTAGAATATGCAATTGAATTAAATAAATTAATTGAATTAGAAATTGAAGGTATGTAAATGAAAGTAGATCAAATTAAATTAAATGCAGAAAATTATTATAATAGCACTAAATTTGAAACTATAAAATATGGAATAGGAATTAATGTAAATTTAAATAAATTAAATATTGATAAATTAAAATTCAATAATAGTAAAAATAAAATAGATATAATTGCAAATAAAAGTGTTAAAATAATAGATTTTTCTAAATTAAAAACAGAAATAAATTATATTAATAAATTAATAAAAGAAGATGAAAATAAAATAATCTCATTACATTTTTCTAGGTTTAATAGTGGAAAATTAATAATCATACCAAAAGACACAATCATAACTGAACCAATTATAATAAATTCTGATTCACAAGATGAAACTGATTTATATAATATAATAATTATAGCCGAAGAATCTTCAAAAGCAAATATAATTGAAATATCAAAATCTAATAATAAAACTAAATTAAAAAGTAATATAATACAAATATTTGCAAATAAAAATAGTAATATCAAATATAATTATATTAATTTAAATGATAAAAAAACTAATTGTTTTAATATAAAAAGATCAGAAATAAAAAAAGATGCAAATATTGATTTCTTAGACGTTAATTTAGGATCAAATTTTAATCAAAATAGTAATAAAACATATTTAAAAGAAAGTGGAGCAAATACAAATAATTATGCAATTTATTTTACAAATGAAAAACAAAATTATGATATTGATATAGAAAATATACATGATGGTTCAAATACTAATAGTAATATAATATCAAAAGCAATATTAGATGACGAATCCAAAATAATTTATAGAAGTAATATTAATGTAAATAAAAATTGTAAAAGATGTAATGGACATCAAAAAGAAAATACATTATTGATAAGTAAAGATTCAAAAATTGATGCAGTTCCTATGTTAGAAATAAATAATGAAGATGTTAATATTAGTCACGGTGTAACAATTTCTGATATTGAAGAAGAAAAATTATATTATTTAAAATCTAGAGGATTAGATGAAGAACAATCTAAAGAAATAATTATTAGAGGATTTATTAATGAATTAATTGACAAAATTGAAGATAAAAACATTTTACAATTAGTTGAAAAAGAAATAAATAAAAAATTAAAAAAATGAATGAAAAAGATTTTCCAATATTAAAAAGAAAAATAAATGGACATAATTTGGTTTATTTAGATAATGCTGCAACTACACAAAAACCAAATCAAGTAATCGATAGTCAAATTGATTATTATAAAAATTATAATTCAAATGTACATAGAGGAATACATCAGTTAAGTGAAGAATCAAGTAAAATGTATCATGATGCAAGACAGACAACGGCAGATTTTATTAATGCTAAATTTAATGAAGTAGTTTTTACTGCTGGAACAACTGATGGAATAAATATGATTGCTAATAGTTTAAAATCACAATTAAAAAAAGGTGATGAAATCATTTTGAGCGAAATGGAACATCATTCCAATATTGCTCCTTGGATTAAAATTGCAAAAAAAAAAAAATTAATATTAAAATATATTCCATTAAAAGATTTTGAACTAGATTATAAAAAAGCTAAAGATCTAATAAGCGAAAAAACAAAAATAATTGCAATTTCACATATATCAAATGTATTAGGTACTATAAACGATATATCAAAAATAAAAACAATGATAAAAAATAAAAATATTATTTTTATTTTAGATGCAGCACAAAGTGTTCCACATATAAAAATTGATGTGAAAAAATTAGATATAGATTTTTTGGTATTTTCTTCACATAAAATGTGCGGACCTACAGGTATTGGAGTTCTTTATGGAAAAGAAGAATTATTAGATAAATTAGAACCAAATCAATATGGTGGTGGTGCAGTTGAAATAGTAAATAAAGATAATTTTACTTTAACAGAATCACCATTTAAATTTGAAGCTGGAACTCCAAAAATTGCACAAGCCATTGGATTTGCAAGTGCTATTAAATATTTAAATCACATTGGAATGGATAAAATTGAAAAATATGAACATGAATTATATGAATATGCACATAAGAAAATAAAAGAAATTAAAAATATTACATTATATGCACCTAAAAAAAATAGAAGTTGTTTAATTTCATTCTCAATTAAAAACATTCACCCTCATGATATTAGTGAAATATTAAATCAAAAAGGTATTGCAGTTAGAAGTGGTAATCATTGTGCACAGCCATTAACACAAGCAATCAATGTTAATAATACAACAAGAGCATCATTTTATTTTTATAATAATAAAAATGATGTAGACAAATTAATTGAAGGAATTAATTATGCAATAAAAATATTGAGTTAAAATGGATTTAGAAATTAAAAATTTATGTGTAGAAGTAGAAGGAAAAGAAGTATTAAAAAATATTAATATGAAGTTTGAAAAAGGTAAAACTTATGCTATCATGGGACCTAATGGAAGTGGTAAAAGTAGTTTAGCAAATACTATTTGTGCAAACCCAAAATACAAAATTACTAAAGGGAAAATTATTTTAAATGGAAAAGACATTACAAAAACAACCCCGGATAAAAGAGCAAGATTAGGTTTATTTTTATCTTTTCAATATCCTGAAGAAATACCTGGAGCAAGCCTTACAAATTTTTTAAGAATGGCATATAATAATTTACATGAAGAAAAATTAAATCCAATGAAATTTTTAAAATTATTAAAAGAAAAAATGGCTGAATTAAAAATGGCAGATACATTTAGAAGAAGGTATTTAAATCAAGGTTTTAGTGGGGGAGAAAAAAAAAGATGTGAAATTTTACAATTAAGTATATTAGAACCAAAATTTGCAATTTTAGATGAAATTGATAGTGGATTAGATGTAGATGCTCTAAAAATAGTTTGTGATATGATAAATAAAATTAGAAATAACAAAAAAGAAATGACAACTACTCTTATTACACATTATAATAAAATATTACAATATATACATCCAGATAAAATTTATATTTTATATAATGGAAAAATAATAAAGGAAGGTCAAAAAGAATTAGCCATTGAAATTGAAAATAATGGTTTTGAAAATATAATAAAAGAAAATGATAAGTAAAAAAGAATTAATTGAAATTTTTGAAGATGTAATTGATCCAGAAATAAATATTGATATATGGACTATGGGATTAATTTATGATTATAAAATAGAAAAAGATAGAGTATGGATTAAAATGACCTTTACTACACCAACGTGTCCATTTGGTCCAGAATTAATTGAAGAAATTAAATCTAAAGTATTAAACAAAGGATTAGAATTTTGTGATATTGATATAACTTTTGAACCACCTTGGAAACCAAGTGAAGATTTAAAAGAAATGTTAGGTATTGTAGATTAGACAAATGTAGTGGTTAAATTTCAAATTTATGTTTAATTATTTAAACTGTCGTTGGTTAAATCAATAAATGTAGTGGTTAAAAATAAAATATATTTTTTATTAATGTAATTATCGTTAAATAAAGAAGTAAATATAGAAATTAAAAGAATATTTGAATCATCATAAATTTATATAATAAATAGCGGAGGAAGGATTTGAACCTTCGACCTTCGGGTTATGAGCCCGATGAGCACTCCAGACTGCTCCACCCCGCTATAATTCTCAGACTTATTAACTATTTATAAAGATTTCTTTGATATTATTTTTTTTCTATTAAATAATATTCATTCATATTAAAAGATTAAACTCCACACATAAAAAGATTTCAATAAAACAAAATAGAATTGAAAAGTTTTCAATTACATTGAAATGTTTTTTAACAAGTTTATTTTAAACTAAATGTGTATATGAATTTATGAAAACAAAAAAAACTTTAACTAATTTAGTTTTATCAAGTTTAATTTCACTAACGGCTTTTTCTTATAACCCAATGGATACTGGCTATATAGATAATTATAATTTTTATACAAAAAGTGATGCCAGAGAATATATTGTAAAAGAAGAAGCTGCACTATTAAAACATAGAGCTAAAACAACTAAGAATGAAAATTATAATTTAATTGCAGAAAAATTATTAGACAATATTGAATTAATGAGTAAACAAGCATTTCGAGATTTTGAAAAAATACAATTACCTGGGGTACAAATAATTTTAAGTAGTAAAAATTTTGAATCTAGAGTTCAAAATGCATATTTAAAACTAAATGAAAATTTCCAATTAGATCCGGAATTAAATCAAGCAATAAATAATTTTAATACTTATGAAATAAAAAAATATATTGAAAATCAAAATTTATCAAAAAGAAAAGATTTAAATTCAGCACAATTAGAATTATTAAATAAATATTCAAAAACAATTAATTCATTTTTATCAGAAAATTATGAAACATTTTCACAAAAATCTTTAAGTTTACTTTCAAATTATGATTTTAATACACTTGAATTTAAACAATTTAATGATATTCAATATAATACAGTTGATTTAATGTATAAAAAATCAATTGGTGCATATAATGATACAATAGATAAATTATCTCAAAGCCCATTTGAATCAAAAATATTTAATCAAGTAATTGGTTTAAGTAATAGCATGTTCGGTTTTTTTAATAAATTAGATAAAAAATATGGAGTAACAGATAATTTTAAATTTATAATAAATAAAATTGAAACTTATGTAAATGATCAAAATAAAAAAAGAAAAGAAAAAATCCAATTAGAATTTATAGATGAAAAAGCACAGTATAATGGAGGAGATTTAAAATATAAATTTCATATCGATAGAGACTCTATATTTCAAAAAATGTTTTAGCCATTAAATTTATAAAAGATTTGCCTACCTTAGTTGTATAAGTCTAAGCTGAGGTCGCATAGTCTGGTATTGCGCCGGATTGCTAATCCGGTTCCTTCGGGAAGCGTGGGTTCAAATCCCGCTCTCAGCGTTTTTTATTTATTTTATTATAGTCATCTATACTAAAAAAATCCAAATATATATTATGGATTTGAACTAAAAGTTCACTTTCAAATGCTCTGCATTTGAAAGGTCGAAAATAAATATTTTCAGACAATCCCGCTCTCAGCGTTCTTTTTTTAATAATAATATTTTATAAATTAACAAATCATAAAAATAATATGAGAACTTCTTTATATAAAAATGCAATTGAATGTTCAAATGCTCTTGATGAAAAATTAAAAGAATTTGAATTAAAATTAATAAATCCTAAAGATCATTTTGGAAGAGATTTAACTTCTTTTGAAAAAGGAAAATTAGCATATATAAGTCACCTTCCTAATCAAGAATTAAATATATTAAATATGGGTCCTCCAAAAAAATTTTATGAAAGATTCAAATATAATTTAGGACAATTATTTGCATCTTTTGTAGATTCATATAATATAGATTAAAATTCTACAATATTTTTTAAAGATTTTTTTTATTATTATATTCTTTAATTTTACGAGACTGTTCTAAAAGAGTTTCTTCTTTTTCTTTTAATTTAAAATCAACAAAAGCAGATTTAAAATCCCTAACTAAATATTTATCATCTTTTGAATCAATATTATATTTAGAAATAATCATTTGTGATTGAGGCAAACCAATTTTATATGCTCTAGATAATTGTTGTTGAGTTAAATATGTTTCTTGAGAATTTATTTCTTTTATTCTTTCAATAATTTTATCTCTTTGTTCCCAATATTTATCTATAAATTTTGCAGGATTAAAAAGAGGATCTGACATACCATTTAAAGGAATTAATGCACCCTCATAAGTAACTGCTTTTTTTGCTTTTTCTTCCTTTTTTTTACCATGAACATCAATTACGGAATAAAATTCCTTTTCAGTTAAAATTGTATTTAATTCATCTTGATTATCTAAAATAAATTGTCCATATTCAGTAAGTGCATTTTTAATAGATTCTTGAGTTCCACCAGTAAATTTTGTTAATACAAGACCCGTATATCTTTGACCTTGTCTATATTTTTTTTGTCCTTCTAAAACCGTAAAAAAACTAGACCAATTTAATGTTCCAAAATAAGTTTGAAGTACTAATAAATGTGTTTTCGAATGTGGCTCTTTTAAAAAATCCAAATAATCTTTATCAGTCAATACATATTCATTACTATTAATTTCTTTATTTTCAGATTCAATTTCTTTTTGAGTAGCACCATCAAGAACAATTGCAGCTAAATCTTTGATTCCATTTTCAATATTATTATCTACAACTTCATCTGAAATAATAGAAACTAAACCTTTCTTTTTATTTTCTGATTCTACTTTATCTTTTAAAAATTGTTTTTGTCCATCTAAAATTTTATCTCTATCATACCAAAAATAATCCATAAAATCTTTCAATACGTATTGTTCATTTTCATCAGGTTTAATATCAATACTTTCAAATATTCTATGAAATTCTTTTCTTGTAATAGTGCTTTTCATCAGTAATATTGTTTTTAAATCTTCTTTTAAATAAGAATTATTTAATTGATCGTTATTTGTTTCATAAAAATTATCTCTATTTTCTATGGAACTTAAAATTGCTTTTTCCTTTCCAACTAAATCAAAACATTCTCGTAAAGAAACACCAAAGTAATTTCCATCTTTTTTAAATAAATTATCTAAATCAAAAGATTTAGTAAATTGTAATCTATCTTTATCTAAAATTTGATTATAAATTGCAAATAAAGTATACTTATTATGAGTTTGCTTATAAAATTCATCTAATTTTTCAGATTCAAAAGTATTCTTTTCTAATGATTCAATAATAGCATGTCTTTTATCCCAATGATAATCAATAAAACCATGTAATGTAAAAACTCTTTGTTCGTATTCATCTTTAAAAATTTCTGACGAAATACTTTGAAAATGACTTTTAAAATTTCTTTCTGTAATATTAATTGCATCCATTACTATTTTTCGAACATATCTTCGAGTTAATTTTTTACTTAAAACAGTTTCATATTCTTTTAAAAAAGTGTCTCTTCTTTCAATTGCTGCTTCAACATCTTTTTTCTTACCAGTTAAATCTCTATGTTTAAACAATAAACTTCCTAAATAATCACCCTCTTTATTTTTTTTCCCAAATCTAATTAATGGAGTAAAACTTGAAATAGGTTTATCTGTAACTTCATTAAAAATTGCATATAATTCGTGTTTTGGATGATAAGTATTAAAAAATGTTTTTTCTTCTTCTTTTGGACTCTCTTTAACAACTTCAGATTTTACATCCTTACTTTCGACTAAAGTCTCTAAAGCAATAGGAGCTTCAACAATAGGAATTTGAACAACAGGCTTAGATTTAATTTTTCTTTTCTCTTTTTTAACTTTGTCTTCAGTTTCAATATCTTTTTTTACATCATCTATATTTCTACTACTTGCCCTTAATAAAAAAGTCTCTAATGAAATTTTTGATTGAGTTTCAACACTATCTTTTTCAACTGGTGTTTCTTTTCCCATTGTTTTATTTACAAAAAGAGTAAACGGACTGATTTCATTAGACTCGATCATTACTATTGAGTTAAAAATAACAATTATAAACATTATACCAAATAAAAGATACATATTAAAAAATACACATTAAAAAATTAATTAAATATTTTAGAAACTTCTTTTGAAACAATAGTTGGATTAACTTTACCTTTTAATTTGCCCATTAAAATACCCATTAATTTTCCACGATTAATATTAGAATCAGATTTCATTTCAAAATCAATAATTTCTTTTATTTTTTTAATTGCTTCACCATCATCTAATAATTTATATTTTTTAGAAATAATTTCAATAGTAGAATTAGTATTTAAAAATTCTAAAATAATATCATAAATACAAGCGTGATCAATTTTATTTTCATTCCACAACTCAAAAATAAATCTAGCCATATCTAAATCCCAATTAAACTCTAAATTATCTTTACGTCTTAATTCTTTTGGAATGGATAAAAACTTTTCTGCAATACTTGATGATTTTAAATTTTTATTATCTTTAATTAATTCTTCAAAAATATTATTAGAATAATCTTTAGAAATATCACGCGCAAGATCTTCACCTAAACCTAAAGATTTATATCGGTTAATTTTATCATCAATTAATTCAGGTAATTCTATATTACTAATATCAGGAATAATACTTTTAACATCAGTTTCAGGATACATTCGAGAAGATCCTGGAATCGGTCTCATATAAACACTTGTAAACGTTTTCACTACAGCTCTAACTTCATCAATTACCCCAATTTTAATTGCCATTCTTGCACGTCTATATGCAGCAAATAAAGCTAAAATAACTTTTTCTTTTTTATCTGCACAAATTATGAATGCATCTTTTTCTTTACAATTTAATTCATCAATAATATGATTAACTTGAAAATTTTCAATTCCGTATTTTGGCAATTCATCACTATGAAAAATACCACCAACACCAGATTCAACTTTTGCATAATCAGATAATTCAGAACCCAATCTACGATTATCTTGAATTTCACATCCTAAAAAACCTTTAAAACAATTTAATTTAATACCATAAACAACTCCATTATTATCTAAAGCAGAATTAATTACCTTGCTATCAGAGTTCTTAAAAATATCAGATAAATCAAAAATTTCTACATCTTCAAAATCATTTATATTATCATATTCAACTAATTCTTGATGACCATTAAACATTTTACTTAATTCATGTTTAATTTTATTAAGATTTATTTGTCTTAGAATTTCACTATCTATAATAATTTGTAAATTTTTTAAATCTTGAGCACCCTTTAACTCAACACGATTTCCACCATGAATTGAAATATTTAAATCTTGTCTAATTGTACCAAGACCTCTTTTAACTTTATTCGTACTTCTAAGTAGCATTCCAATTTGGCTTGCAATTTGTTTTGCATGTTCAGGTGTTTTAATAGAAGCATCAGTTGAAATTTCAATTAAAGGAATACCTTGTCTATCTAATCTATAATCAATAGAATTATTATTTTTTGCTATATCCTTACAAGCATCTTCTTCTAATAAAATTGAATCAATATTTACATTTCCTATTTCATTTTTTAAAATACCATCACTTGCAATTAAACTAGTTCTTTGAAAACCACTAGTAACTGAACCATTAGCAATTATTTTTCTCATTACTTCAATTCGTTTTACAATTTTTGCATTAACAAGTTTTGAAAAAACTAAAACAACATTTAATGCATCTTTATTTAAATCATGAGGAGGCTCCTCATCTAATTCCACAGAACAAGTTGTATCATAATAACCCTGATAATTATAAATTAAATTTTTTTGCATTTCAACTTTAGCTGCCACATCCATATCCCCTGACTCACCAGAACTAGCATGCATTTTTCTAGTTATTATAAAATCAGGCTCATCATCTCGCAATATAGAAGGACAATTACAAAACAATTTATTAGTATTTAATTGCTGATGAATTTCAATACCAATTTTTAAATTTAATTTATTATAATCCATTTTAATTATCTTAAAAAAGAATCCTTATTTATATGATTATCAATTTCACCCTTTAAATTTTTATTATATAATTCAAGAATTTGACTCAAATCTATATTTTTACTCAATAAATAAGCAATTTTACAAAAAGCAGTTTCTATAGTTGTATCCATTAAATGTCCAGCAATATTTAATTCGCTTAATTTTCTACCAGTAGAATAAACATTTTGATTAATTCTTCCATAAATAGTTTGTGCTGTAAAAATAATTGGAATTTTTTGACTCATATTTTTTATCCAATCATAAAATTTATTATGATTTATTGTAAAGTTATCAATTTCATTAATTGGCATATTCCCAATACCAACAGAACATATAATTAATGCATCAAAATTATTATACATTTCAAATTCATCTATATGCATATTGGGATGAATATATAAGATTCCAATTTTTAAATTAGAATTTAATTTAATTAATTTATTTTCAATTTTCTTATAATAATTATATTTTTCAAATTCATATGTTTTTGAAATTTTATCTTCAATCACATTTACACTTGCAAGTTCAATAGAATTAATTTGTCGAAACGCACCTCTAAAAGTTGTATGCATTTTTCTTACATTAACACCTTTTAAAATGTGACAAATATTATCTGATTCATTTTTATGCATACAAATAAAGATTCCTGATTTATCATATGTAGATAAAAATTTACTTGCTGCAGCCATATTAATATAAGCATCACTACTTCCCCTATCACTACTTCTTTGAGCACCAACAATTACAACTGGAATAGTTAAATCCTCAAACATAAAAGAAAGTGCCGCACTAGTATAATGTAAAGTATCCGTACCATGAGTAATTATAACACCATCATAATGATTTTCAACTGCTAACTTTATTTCTTCTGCAATTAAATTATAATGATCAAATCTCATATCTTCAGACCACATTGCAGCTAATAATTTAGTATCAAAATTACAATATTTATGCATTAAGCTAAACATATTTAATAATTCTTCAGGAGTTATTTTACTAATTACACCACCTGTTGCATAATCAACCTTTGAAGCAATCGTTCCACCAGTATGTAATATTAAAATATTTTTCTTATCAGACGAATGAGAAAATAAATTTTCAATTTCTTTTGAATTATTTTGACTATTTTTTTTTATAATTTCAAGTTTAGAACTTGCAGGTAAAGAAATATTATAACCTGAAGATAATTTTAAAACAATAAAATCTCCATCTTGTTTAATAAAAATACCTTCATATAATTTACCATCATTTTCAATTTGTATAAAATCTTTAAATTCTGCCATAGAAATAGTTTTATTTAATGATTTTTAAATATTGTGACTATTAATATTTAATTAAGCAATAAAGAAGTATCATATCCTGATAATTTATCCAAATCTAATAAATAATTATAAAAATCTTCAAAAGCAAGTCTTTGTGTAATATCATCAGATTCAGCATATTTCTTACACCTATCAATCATATTTTTTAATCTATGATCTAAAAAATCCGTATTGGCACCAAAATCATTTTTATATAATACAGAATGAATATCATACTTGGTATTCATCATACTGTAAAAACAACCAACAGCAAAATAAAATGTTCCATGTTCACTTAAATTATTATCTTCATAAAAATCCATTATTAAATCAAATGTATCAGCATTAATCAATTCCATATTTGAATGACCAATCATTAAAGATCTAAAAGTGTGTTCCATTTTTGAAACAAGACAAGTGCCATAATTTTCAGAATTATTATCTTGAATAAAATCATCAATATAATTTTTATCTGAAAATAAACCACCTTCAAATTTTTTTGTTAACTCAAATATAAATTTAGCATGTTCAAAATTAATCCTAGAATCCTCTTTGTAAATCTGAGAGGCTTTTTCATAAAAATCATTACTTTCTCTTAAATGATTTGGAAACATATTTCCATCCAATTCCAAATAAGCCTTTCCTAAAGATAATAAAATATTTTTTTCTAATTCAGAATTTTTTTGGCCATGAAATATATAAGAAAGATGTAAATGTTTAATTTCACTCAATGGATCTTCATCATTAGAACATGATTTTGACCGTCTGTATAAATATAAAGCTTGTTCACCTCTTTGAAAAATAGGATATGTATATATTAAATCATTAATTTCATTTTCTATATTAAATTTTAAATTCGTATGATAATCTTCACCATTAATTAATTCATGTTCAAGTACTTTGTAAAATGCACGAGAATAACATTTTAATGAATCCTCAAAGTAACATTCAATCATAAATTCTCTGGCATGATTTAAAGTTGTAATTATTTGCTGTTTAATTCCTACTTCCACAACTCATACCAAAATCATGTATTTATAAAGGTTTAGAAAATAATTTATTTTTAAATTCAGTCAATTTTTTATCATAATGTAATTTTAAAATATATTGTGATAAGTAATGAAATCTAAATTTAAAATCAGTAACATATTTTAAAAATTCATTCCAATTACACTCAATTACTTTTATTTTTTCTCCATTATCTAATGATTGATCATATTTTTTAATACAATTTTTTGCAATATAAAAATGACAATTCCATTTAATTTTCCCATCTTTATTAAACACTTTAAACAATTTCCAATCATTTGAAACAAAACCACTCTCTTCTTTTAATTCTCTTTTTGCTGCTTGTAATGGAGTTTCTCCATTATCAATTCTACCACCAAAACAACCATGAACCCAATTATTCATACTAGGTTGAGTTTCATAAGGAATACATATTTTATTATCTTTTATTGCCAAAATTTGAACACCATCTGCTGTAACTGCAGTTTCAAAATATCCAACTTTACCATCATACATTTTTTCTTTCCAAGAATAAATATCAATAAATTTACCAGAATATTTTTTTTTCAAATTATTTTTTTTATTAAAACTCATAAAATAAATTAGACTTTTGCAATTATAAAATTATTATTTTTTAAAATCTTTTAAAACCATTTCTAATAAATCAGAATTACAATTAAATTTTTTTATTAATTCATGCTCAATATGTCTATTCCATTTATAATTTTTCAAATAAACAGGTATTCCTTCATTTGCACATTCTAATGCATACCTTTCTGAATCTTCAACTATAAAAAGTCCATTATTTATTTTAATTAATTCTGGTTTAGTAGGTCCATATCCATGATAATATTTTGTTGCAAAAAGTACTTTTTCAACTGAAGGAAAATGTAAACGGATATAATTTTCAGTATCTCCATATGTATCCATTAATCGACTAGTTAAACATTGAATTCTAAAATATTCAGACAAATCATTAATACAATTTTGTGCATGTGCAATTGGTATTAAATTTGTATAAGCACCATTTTTGATATATTTCTGAAAAATACTTATTACATATTTAGAATCATGATTAGTGTGAGTAGTAATATCAGCAGATTTTAAATTTTCAAATAAAAGTCTATCATTACCAACTAAACCATGATATTCATTCCAAAAATTACAAAAATCAGGTAATAAATGCACTAAAACTTCATCAATATCAAAAAAAATTAATTTTTTAGAATTATCATTTAAATCAAATTTCATATTTCAAAATAAAATAAGTTTTTTATAAAATTATGTTATTACTAATTAAATAATTAATATAAATTGATTATCCAAAATAACTTTTAATATTATTTTTTATTTCTCTTGCATTAGAAAATTTAAATTTATCTTTAATTTCCTCATATGCTTTTTCAATTTCATCATTACTACTAGGTCCAACCCTTTTTAATGCATCATTAAAATCATCCATTGTTACAGATTCCGAATCCATATTTTTTCTCAATGCACTAATTCCAGACTCCCTACATAAACTTTGTAAATCTGCACCAACATAATATTCTGTTTCTGTTGCTATAAATTCTAAATCTACATCTTCAGATAATTTCATATTTTTTGTATGAACTTTTAAAATATTTAATCTTGCTTCATAATCAGGCGTCCCAACTAAAATAATTCTATCAAATCTTCCTGGACGTAATAAACCATTATCAATTATATCTGGTCTATTAGTTGCAGCAATAATCACAACATCATGTAATTCTTCTAAACCATCCATTTCAGTAAGTAAAGTATTTACAATTCTTTCTGTAACTTTTGAATCTGTTGTATTTGTTCTTTTTGGTGCAATTGCATCAATTTCATCAAAAAATAAAATACTCGGACTTGTTTCACGTGCCTTATTAAATAATTTTTTAATAGTTTTTTCAGACTCACCAACCCATTTACTAATTACATCACTACCTTTAACTAAAATAAAATTAGCTTTTGATTCATTAGCAACTGCTTTAGCAAGTAATGTTTTTCCAGTACCTGGAGATCCATAAAGTAAAATACCTCTTGGTGGATTAATTCCAATTCGTGAAAAACTTTTTGGATGTTTTAATGGCCATTCAACTGCTTCTTTCAAATCGTTTTTAACATCATTTAAACCACCAATATTTTCCCAACTAACTTTTGGAACTTCAATAAATATTTCTCTAAGTGCACTAGGTCTAACAACTTTTAATGCATCTTTTAAATCATCTTCACTAACAACTAATTTTTTTAATACACTTTCAGAAATTGGTTCATCTTCATTTAATTTAATTTCAGGAAGTAAACGCCTCAAAACAATCATTGCTGATTCTTTTACTAAACTACTCAAATCAGCACCAGTAAAACCATAAGTTTGATCTGCAATTGTTTTTAATATATCAGGATTTGTAAGTGGCATATTTCTTGTATGAATTTTTAAAATATGTAATCTACTATTTGCATTTGGTGCACCTATATGAATTTCACGATCAAATCTTCCAGGCCGTCTCAATGCAGGATCTAAAGAATTAACTAAATTACTTGCAGCAACTACAATAACTTTGCCTCTTTTATTTAATCCATCCATTAATGTTAATAATTGAGCTACTACTCTTCTTTCAACTTCACCTTTACTTTCTTCTCTTTTAGTTGCAATTGCATCAATTTCATCAATAAAAATAATACTTGGGGCATTTTTTTCTGCTTCTTCAAAAATCCCTCTTAGATTTTTTTCACTTTCCCCATAAAACTTTGACATTATTTCTGGACCATTAATTAAATAAAAACTAGCATTTGTTTCAGCTGCAACAGCTCTTGCAAGTAATGTTTTACCAGTTCCAGGAGGACCATGTAATAAAACTGCTTTTGGTGCTTCAATACCTAAATGATCAAATAATTCAGGATGTTTTAGAGGAACTTCAACCATTTCTCTAATTTTTTTAACTTCATCTTCTAAGCCACCAATATCTTCATAACTAATATCATGAATATGTGAACTATCTTCAACTTCATCAACACCTTGTGATTGAAATTCTATTATAGTATCATTTGTAATTATAACTGGCTTATTATTAGGTTTTGTAGATATAATAAAATATTTCATATCTGAATGAAATAAAAATTTATTTTGCATATCATCAATCAATCTATAAATTTCATTATAATGTGGACTACCTGATAATGTTTTTCTTCTTCTTTTACTCCCACCAATACTTACAACATCACCTTTGTAAATTGGTCTACCCAAAAGACCTTGTTTAAATAAATTTGCGGGAGCATCAATAATAATATTTTTTCTTGCAGGGGCAATTACAACTTTTTCAGCAGATTTAACATCAGCCTTTCTAACTTTTACACTTTCACCTAAACTAGTTCTTGCATTACGCCTTACAATACCATCAATTCTAATTACAGGCCTACCTATGTCCCCAGGATATGCCCTATCAACAATAGCAACTGTTTTTCTCGTACCCTCAATTTCAACAATATCGCCAACTTCAATATCAATTTGTTTCATTAAATTATAATCTATTCTAACTATACCCTTATTAACATCATCTTCAATTGATGCAATTACATCCAACTGTATTTCTTTTGACATTTTATTATTTTTTTAATTTATTTTGTTTCACTTCTTATTTATTTTAATAAATTATATATTAATATTAATTATTATACTATTAAAAAAAGAAATTAAATTATAATATATATTAAATTGAAATGTGTATATTTCAAAACACACATTTAATTACCTAATATTATTTTTTTGTTGATTTTGGACTCTCACTTGCCTTATCATCACTTTCTTCTGGTTTATTAAATTTTAACTTCGGCATATTGATAGGCGATGGTAATCCAACTTGTTCACTTAAAAAAATTGATTTAACTAAACTTTTACTATTAATTAAATTATAATATTGTTCTCTTAATTCAAGAGGCATTTCTTTATTTTTTTTATATTCATCCGCAACTTCTTTTGAATTATCTATAATATCAATAAAATTTCCTTCTAATCTTATTTTCCCAATGGAAGGCTTATAAGAAATTGTATAAGAAAATTCCACTAATAAACCATTATTAGTTTGACCATGACCTTGAACATTTGCATATTTTAAATCTTCAATTTTAATATCATGATTAATTGTAATTTTTCCTTTCGGACTACTAAGTCTTGTTGCATCAAATTTTGTAAAAGCGAATCCCATAAGTGCCATTTTTATTACCTATTTTTATTTTTTTGTTTTTTTAATATATATTTTTATAATTTTTTATTATAATTTTTTTCTATATATCATTTATTTTTAATTATATATCATTATAATTATTTAATTCAATTTGGAAAGATTTAACCGACTTTAAAAATATTATGTATAATAAAAAATATAGATAATTTTCCTTAAAACTTATAAAAGATTCATTTTCACTCAAATTAGGTGTAAAAGTGAAATTAAATGAAGGAGATTTTGTAAAATTAAATTATACGGGTTATTTAAAATCTAATAATTTTTGTATTGATACAACTATAGAAGAAATTGCAAAAAAGCAAAATATTTTTTCAAAGGAATTTAAATATGGACCAGTTACAGTATGTATTGGAAAAAATAATATTCTGAATGGAATTGATAAAAATTTAAGTGATAAAGATGAAAAAGAATCTTTTGAATTAGAATTGGAACCAAAAGAGGCTTTTGGAGAAAAAAATAATAATTTGGCATCAGTTCCATTTAATCAATTTAAGGCAAATAAAGTTAATGTACAAATTGGAGATCAAATTATGTATAATGAAAAACCTGCATTTGTTAAATTTGTAAATAATAGAATTGTTATGTTAGATTTTAACCATCCTTATGCTGGTGAAATTATAAATTATAAAATAGAATTATTAGGAAAAGTGGAAGATAAAAAAAATCAATTTATTGCCTTGGTTATTAATAGATTAAATTTTAATGAAGAAATGTTTAGTGTGGAATTAAATGATAATATTATTAATTTTACAATAAATGAAAAAGAACTTCCAAAACAATTTCAAGATGAATTTGAAAAATACGTAAAAGAATCCATTGAAATTGAAAAAATAAATTATAGTTTTAAAAAATAATTATTTTTTAACTATTTTTATTTTATTTATATTGTACACTTACAAAATATTTATTAATATGATAAAAACAAAATCTGTATTAAAAGAGGATGGTAATGGATAGTTTTATTTCGTCGGCAAAAGCCCAGATTGAACAACAAGTAGAAGAAGATCAAAATCAGACTGAATTATTAAATAAATCAATTCAGACTGAACCTAAATATGATACTTCAATTGATGATGAATTAGCTACAATTCTAAAAAGACAACAAGCTAAAATTAAAGTTGTTGGAATAGGTGGTGGTGGAAATAATACTATTAATAGAATTAGTGAAGTTGGTATTTATGGAATTCAAACTATTGCAATAAATACTGATGCTCAAGATTTATTATATACTACTGCAGAAAAAAAGATTTTAATTGGTAAAGAAATTGCACGTGGTCTTGGTGCGGGTTCAGTTCCAAAAGTTGGTGAAGAAGCTGCACGTGAATCTGAAAACGAATTAAAAGAAATTACATCCGGATCAGATATGATTTTTATTACATGTGGTATGGGTGGTGGTACTGGTACTGGTGCGGCACCTGTTATTGCAGAATTTGCTAAAAAAGCAGGAGCATTAACTGTTGGTGTTGTAACTGTTCCTTTTTTAATGGAAGGTTCAAGACGTCATGAAAATGCTATAATGGGCCTTGAAAAAATGGAACATTATGTTGATACTTTAATTGTTATTCCAAATAATAAATTATTAGAATTAGCTCCTGATTTACCTTTACAAACAGCATTTAAAGTTGCTGATGAAATTCTAACAAACTCAGTTAAAGGAATTGCTGAATTAGTAACAAAAGCTGGTTTAGTTAATTTAGATTTTGCAGATATTCGAACAGTTATGGGTAATGGTGGTATTGCACTTATTGGTGTTGGAGAAAGTGATAATGAAAACAGAGCTCAAGAAGCAGTAGATAAAGCAATAAATAATCCACTTTTAGATGTTGATATTAGTGGAGCAAGTGGTGCTTTAATTAATGTTAGCGGCGGTCCAGATATGACTTTAGATGAAGCTAGAAAAGTTGTTGAAACAATTTCACAAAAACTAGATGAAGATGCAAGAATTATTTGGGGAGCACAAATTAGTAAAGATTTAGAAAGTACATTAAGAGTAATGTTAATTGTAGTTGGTGTAAATAGTAGTCAAATATTTGGAAATAAAGTAAGAAAGTCAACAACTAAAAAACACGATATGGAAAAAGAATTAGGTATTGACTTTATTGAATAAAATTTATTTTTTTATTAAATATTATTTTTAGAATTATTATAAATATATTTTGCAGCATCCAAAAAATCTTTTGCAATAAAAATATCTCCTTTTAATTGTTCAACTTTTTGTCTATCTCCTAGTTCTCTTGTTTTATAACTTTCAACTAAAATTCCAGTTCCTCCAATATTTAAACCCATTTGAACGTCAGAAAAACGATCCCCAATCATATAAATTTTACAATCTTCTTTTTTTACATTTAAATCAGTTAATGCTTTTTCAATCATACCAATATTTGGTTTTAAATCAAGACAGTTTTCTCTAATATATTTTTGATCTACTCTTCTTCCTTTTTCTAGTGCTTTTTTTACATAATTAGAATCAACAAATGGACATGCATAATAATGATCAACTAAAGCTTCTTCATCTCTTAATTTATCTAAAATATATCTATTTACTTCATGCATTCTCTCAAAGGTTAAATTATCAAAATTTCCTCCTTCAAGTGCAACTCCAGATTGATTAGTTAAAATAAAAAACCGTGAATTTGGAATCTGATTAATTAATTTAATTCCATCCACAACACCATCTAAAAAACTAACTTGTTCACGCCAATTAGAACTACTACCTAAATAAAAATTTTTATCTAAATTTATAGTCCCATCCCTATCAGAAAAAACTAAAGTATACATAATTTCAAAAAAATTATTATATTTATAAAATTAATTAGAAAATAAAAATTTAAATAAAAAAAATAAAAATTAATCTCGTCTTATTACATTAATATCTTCTATTCTACGAGTCATTGGAATTGGAACTGCTGCATCCAGCAATTCAATTACAACTTCTTCTTTAAATAAATCTACTCTTGTAATTTTTGCTCTTTCCTTTTTGAAAGGACCAGCTATAATTTCTACTATATCTCCTTTTCTAATGTCAACTTCTTTTTTCTCAGTAGATATTAAATGTAAAACTTCTTTTTCAGAAATTGGTGTTGGCAATACATTTCTTGCATATGGTATTCTAAATGCAGCCTTATCAACTTCATATTTGTCAGAAGCTTCAATAAAAATAAAACTTTTAATTCCGTGTGGAATAATAATTGAAAAAATATTTAATTCTTTTCTCTTTGCATTTGCTGTTAAAAAATCAGCCACAGTTTCTTCTCTATTGGCAGTACATTTTAATGCAAAAATAGGATTATTAATTACATTTTCAACTTCTTTTGAATTGTTTTCATTATTTTGATTATTTGAATTATCTTTAGGTTCTTGATATACTTCTTTACCTGCAAGTGGACCTTGAGGTTCACTTTTTTTTTCATTATTATTTTTAATTACTATAGTAGAAGACTTACCGTCACTATCTGCTTTATCTAATTCATTAGATAAATCATCTACACTGAAATTTTCAAACTCATCATCATATCCTGACATTTTAAATCCTCTTAAGTCTAGTTTAAAGATTACCTAACTAGAAATATAATAATAGGTATAGCTCATTCTTTATAAATTTAATTCTTACTTACTTTTATTATATTAACTGGACATGATAATTCAGCATTTTTTGCTGATTCATATTCATCTTCAGTTTCAACCTTATTAAAAAAATCTTTATTTTGTTTAGAATCAATTAAATTGCTTTTCCCATCCTTTTCATCAATAATAAACAAATTAGGAGCTTCTTCAACACATGCATTACAACCTATGCATTTTCGTCTTAAATGATTTATATTAATCAATATTTATCACCTTGAATAATTTATCATTTGGTCTAATTATTTCATTTATATGTGTAGTAAAAACATCTCCTTTATTTACAATATCAACAAATTTTTCATTTAACATTAATTCATTAACTTTATTTTCAATAACGCCAGTGGTCTGACCAGTTATCATAATATTATCATCTTTACTAATTGAATCAGAATGAATTTTAAATTCAGCTATATTGGTTTTTTTAAAATAATTTGTACAGATACCGATTAATATTTTTTTTTTTGTCGCAATACTGCCTCTTTGATTATGCCATTGACCTAAATGACGTCCAAGATAATAACCATCCCAAAATCCTCTATTATAAACACCAGATAATCTTTTTTTCCAATTATCTATTTTTTCTATATTAAATGTCCCATCCAATATAGAATTTAAAGCTTCTTTATAACATTCAGTTGTAACTTTTACATAGTCTGCTGATTTTCCCCTGCCCTCTATTTTTAAAACAGTTACACCAGCATTAATTATTTTATCTAAAAAATCAATTGTACACAAATCTTTTGGAGACATTATATATTCATTATCAATTTTTAATTCATTTCCTTCTTCATCTTTAACAGTATATGTACGACGACAATTTTGTTTACAAGCACCACGATTAGCAGAAGAATTTGCAGTATGTAGACTTAAATAACATTTACCACTAACTGCCATACATAATGCACCATGAACAAAAATTTCAATTCCAACTAAATTTCCATTTGGCCCACATATATTTTCTTTTTTTATTAAATCACATATTTCTTTTACTTGTTTTATAGTACATTCTCTTGAAAGTACAATTACATCAGCAAATTTTGAAAAAAATTTAACTGTTTCAAAATTAGTAACATTTGCTTGAGTAGAAATATGTACAGATAATCCAATTTCATTTGCATAATTGATTACAGCTAAATCTGAAGCAATAACAGAATCAATCCCACTATTTTTTGCACAACTTACAATTTCTTTCATTAAAACTATATCGTGACTATATACTATTGTATTTAGAGTTAAATAGGTTTTTACATTTTTTATTTTACATTGTTGAGCAATTTTTTTTAAATCTTCAATAGTAAAATTAATTGAACTTCTAGCTCTCATATTTAACTGTTCAATTCCAAAATAAATTGAATCAGCACCTGCATTTAATGCAGCATTTAAATTCTCCCAACTCCCAACTGGAGCCATAATTTCATATTTCATATTATATTGCAAAAATAGTTTATTATAAAATTAGTGTTTTAATTAATTTTGTCCAAGACCAAAATTCTCTAAAAAACTTAAAACAACTTTATATTCAGTTAAATATTTATATCCCTTATCTGTTAAAATATAGTTTTTACCACGTTTTTGAAATTCTTCTGATATAAATCCCTTAGACATTAATTCATTCAAATATTCTTTCATCATCGTATGACTTAAATTACTTTTATACATTAAATGAGTAGGCTTAATTTTTCCACCCTTATCCATGATGGATTTTAATATATCAAAGATTACTTGTAACTTTTCTCTCTTCTTACTCATATTTTAACACGTTTTTCTTTCTTTTTAAATATTTATATTATAATTTTATACAATAGTGGCAAAATATTAAATATAATCTCTGATATTACCCAAATTCTTAATCATTTCTAATAAAAAATAAAAGAAAAAAAAAGAAAGAGAGAAAAGGGTTTTTTTTGGAGGCTTAAGATATTTAAAATCTTAATATTAAGTAATATATTATAATTTATAAAAGCTATAAAGAAAACATAGTTAATAAAAAACTAGACAAATATTGCATAAAGCTTAAAAATAAAAATCGAAAAATCAGTATAAATGGTATATACTAGTTTAGGTCCTGCTTGGTTTGAAACATATGGAATTATATTTGAAATCATATTTATTCTAATTACAGGTTTAATTGCTTTAAGATCATATCGAGCATATAAATTAATTAAAAAGAAAGAATTATTAACATTTACATTATCATTTGGACTTTTTTGTTTAGCATTTTTTACACAATTTATAATTAATTTATTAATTGTATTAAATAAACAATCAAAAGATCATTTACTTTCTCCATTAAATACTTTAAATACAGTAATTACATCGAATTTTCAATTAAGTAGCATGTGTTATTTTTTCTTTTCATTATTTACAATATGTGGTTTATTATTATTCATATATTTAACATTTGAAATTAGAAATAGAAGATTATTATTACTATTATTTGTATTAGTAGTATTAGCACAAATAACTGCAATAAATAAAATTGTTTTATTTTATGTATTCTCCACAATTTTTTATGGATTTATAGTTGAATTTTATTATAGAAAAAAAATAAAAGTTGCATTTTTAGGTTTTGTATTTTTATTAATTAGCAATATATCATTTTTATTTATACCACTTAGTGAATTTGCATTTGTAATTGGAAATTTTTTAACACTAGTTGGTTATTTAATTCTAGCAAAATTATTGAAAAAAAATAATTAATAATTATAGTATATGATTTTATCTATATAATTTATTACATAAAATAACTTTATATAATAATTAACCAAAATAAATAGTATGGATGAAAATATAATTAAACAAAGAATAATTCAACATACCTTATCACACGCTGATGAATATAGAGGTTATTTAACTCATTCAGGATTATTTCATTTAACAAATAATTTAGAATTAATTGGAAAATATCCTAGTGGAAGATTATTTCAAGGATTTTTAGTTGATATTCTTGCTAATGAAATTAAACCTATATCTAATACAAACAAATCTCCTTTTTTGTCTTATCAAGTTAAAAAATTAAAACCAAATAATTTTGAATCTTTAATTCTATCAGGAAAATATACTTTATCATATGACCCTGAAAAAAAAATGGTTTATTTAAAATCTAGAGAAATTGAAAAAGTAGAAAATATGAATGCATTAAGAAATGAAGAATTTTATAGATTATCTGCAGGAATGATGGGTTATAAAAATGACATTAATCCAATGATTAAAATATTATTTGAAGAATAAAAAATTAAATTTAAAATATAGATTTTAAAATTACAAAATACTTATAATAAATTTGAACTCATTTAAAATAAAAAAGGTGTATATATGAATTATCAAATGAAGAATTTTTCCACTGAGCAAACTGAATTATTAAGATCATTTCTTTTTACAGCTCCACATAGTAATGTAAGTTTAATTTATCCACAACAATTAGTTGCAGGTGAAGAACTAGCCCCATTAATTTCAGCATATTCAAGAAGCAATCAACCACTTCAAGAAAGAGTATTAGAATTTGTTGATAAACAAAAAAATACAGAAGCTAAAGCACTATTACCACATTTACCAGAATTAATGAAAACATTTAGAAATGAAGATGGTTCATTAAAAATTAGTAAAAAAACAAGAAACTTTTCTAAAAAATGGGTTCTTGCGCACGGTCACAGTTCAATAAAAGAAATGAATTCTATTTTTGGATGTGTTGAAGGAATTTCAGACATTTGTGGAAAATTAATTACTGGACATCCTTTAGCCCACCCTCAAGTTAAGTCATCAAGATATATTTCTTTTGAAGATACATTAGATATGGCATTAGTAGATCCAGACATTCAAAACTTATCTTGTTCAAATGAAATTATAGAACATTTAAAAGAATTAAATACAGAATATCTTAATGCAACTAAATATTTAGCAAATGCAGTATTTAAATCTGAAGAAACTGATCAAATAAGAGAATTTTTAACTCGAGACTCAGTATTAGATATGCATGGTGAAAAATTATTTAATCGTGCTAAAAAAAAAGATCCAGAATTAGTAAAAACTGACACATTAATAGAAGAATTAAAATCACAGGCTTATGAAAATATAAATAGTGATGAGTATGTAATGGGACAACTTGAAAAATTTGTTCTTGATAGAAGTAGAGTATATTTACCTGGTTCAACTAGAACAAGTTTAGGTTTTATGATTGATGGTAGAACATGTGAAGAAATCATTACAACATTATTAACTAGTCCTTTAATAGAAGCCCAAAGTTTTGGTAATCAAATTTGGACTGAAACAAAAAAAATCTCACCTGTTTTATTAGGAGATCAATCCCATATTAAAAAAGATGAATGGAAATATGAGTTAGATACGGACTTTAGAAAAGAATTAGCTACACGATTAGATTATATTGTCATGCACTCTGAACAAAAATTTGGAAGAGTTTATTCACCAAGCTTTGTACATTCAAGAGGAGAAGATACAAGATCTGCAGTTATGGCTGCATATAAATATAGTGATTTTTCTTTTGATGATTTAATAGAACAATTAAAAGAAAAAGATGTTAAATGGATTTTAGATAGAACTCACGAACATAGAAATAAATTTGATCAATTACATGAAAGTGGTGGTCATGGTGGTATGCTTACTGAAATGACTATGCCATATCATGGTTATAGAGATATGTTTAGACATAGAAAAGGAGCAAGATCTAATCAATTATATACAACAGTTCACGGTTTTGAAAATGTTGAAATTTTTAATCATTTTGATATAAATTCAAGATATGAATTATTAATGAATAAAAATAATGAATTATTTAGAAAAGCAGCAAAAGAAAATCCCCATGCTGCACAAAAAGTTGTTGCCTTTGGTCAATTATGTAGAGCAGCACACAGTTGGTCATTAGAACAAATTGGATATATTGCAAGAATAAGAGCGAATATTGAAACCGGAAATATTAGTTATGTAAAAACTGTTCATCAAATTGTAGATGGTGTAAAAAGATTATCACCACAATTAGCATCAAAAATAAATTATAATCAAGAAATGTTTCCAGAACATATTTGGAAAGAAGGTTATGATTTATTTAGAAGTAAAAAATAAAAAAAAAAGAATAATAAAAAAGAGGTTAGTAAATGAATTTAAGTATATATAGTGAGATTCCAATGCATCAAGTTATTGAAGAAGTTAGAAAATCCCCTATGTTAAAATCTGATACTCAATTTCCTTACAAAAATGCAAATATTAGTTTACGTAATGTCGGTATGGGTGAAATTAATCCAACAAGTTTATATGCATTAAAAGCTAATTTGGATTTTCAAAAAAACTTAAGAGAATATATATTAAATAGATTTGGTTTTGATACATTAAGATTAAGTTCTGGTCTTATATTAGAAAATAAAGATGGGGAGCGTCAAACATTAATACCTCCTATAGTTGAAGTATCAGAAAGAGAAGTTAAGTTCATTCCACAAAAAGATGAATTATCATATGAAAATTCATATAAAATAAAAATACCGTGTTTACTTGATGGTATTCATCGCGCACTATGTGCAAAAGAATTAGGTATAGATTTAAATGTAATTTTTATTTATGATTCAGATACCAATTATCCTGTTTATGCACATCCAAATGAATGGGATTTAGTTAAAATTTGTGATAGTATACCAAAAGAAAAAAGTCAAAAAAAAATGTATTTAAGAGATGATCATTCTAGTTTGTATAAATCATTTGCACACTTAGGTTCAAGTGGTCTTAGAAAATGAGTAATTTAGTTTTAGTTGAAGGAATAAGTGGAGCTGGTAAAAGTACAGCAATTAATTTTATTCAATCTTATCTTTCAACATTCAATATTCAAAGTCACACATTTAATGAACCCGGTCATATGCGAGATGAAATTAAAAAATATCATAATAGAGAAGACAGAGATCTTCAATTAGAATTTGATCATTATGTTTTATCCAGAAAAGTTGATTTACATCATAAAGTAATGCCAACTATAAAAAATCACCCAAAGGATACTATCCTCATTGATCGAAGTTGGATTTCTACAATGGTTTATCAACAAACAGAACAATGTCCAATGATAAATATTCGTGATTATCATTCCTTTTATCCCAAACACAATTTAGCATTACTCTTAATTTGTGATCCTGAAACTGCATATCAAAGAATTTTAAAAAGAAAAGAAACTCAAGGAATAGAATTAAGTACATCTGAAAATCCAAAAAGAATTGCTGAACTTAGAAAAAGTTATATTGAAGCATTTGATTTAGTAGATTATTCTGTAATTATTAATACTGATGGAAGTGAAAATGCAGTTAATTGTATTTTAAAATCTTATATGAATAAATTATTAGGAATTAAAGAAAAAAAAATTGTTTTTTTAGATAAAGATGGTACTTTAGTTGACAATTCTAAATATCCAGAAGTAATTCCAACGGATGAAATTCTTTTTGCAGATACATTAGAAGGATTATATAAATTAAAAAGTGCAGGATATGAATTTCATATGATTTCTTCTCAACCATGGGTTGCTAAAGGTCAATTAAGTTTAGATCAAACAAATGAAATTTTTGAAAGTGTTATAGAACAATATAAAAAATATGGAATTGAATTTACTGGATATGGTTTTTGTGAACATCATAGAAGTGATAATTGTCCAGATAAAAAACCAAATACAGGTTTATTAGAACAAATAGCAACTCAACAAAATATTGATATTTCTCAAAGCTTTTTTATAGGAGATATGGAATCGGATATTGAATGCGGTTATAATTTTGGATTACAAACTGGATTAGTAACTAAATATTCAAATGCAAAAACAATAGATAATTTATCTCAACAAAGATTTAAAAGAACTCCAAATTATACTGCAATTAATTTGAATGAAATTGCAAATCAAATAATTGAAAATTAATATTTGTTAATTATATTAATTAAAAAAACTAAATTGTTTTTTTTTTGTAAAAAGAGTTCGAACGTTAATTCCTTACATTTGAATTTAATGAATATATAAAAACAAAAAAACAATATAATTCACTAAGCAGATAAAACAAAACATTATAAAGCAAATGTATCTATAAAAATAATACACACTAGGAATAGTGTCACAGCAAATATTAATAACACAATATACGGGGAGTTAATAAATTTTTAAACCAGAAAAAAATACTAAATTAGCTTTAGCTCTGTAAAATAAAAAACAAATAAAAAATAAAAAAATGAAATGCCCACATTGTAATTCAGATGATTTGAAAGTAAATGAAACAAGAGAAACAGAATCAAATAGTTTTAGAAGAAGAAGAGAATGCAATAATTGTGAAGAAAGATTTACTACATATGAAAAAATTCAAGAATTATTAATTAGTGTAAAAAAAGAAAGTGGAAAATTAGAAAATTATACTAAAGAAAAATTAGAAAAAAGTTTTTTGATTGCTTGTAATAAAAGACCAATAACAAGAATTCAAATATTAAAAATTATTGAAAACATTGAAAATAAAATAAGAAATAATTTTAAAAATGAAATTTCATCTAAGACATTAGGTGAATATGTAATGGAAGAATTAAAAATTTTAGATCCAATATCATATATTAGATATGCTTCAGTATACAAAGATTTTGATGATTTAGATAAATTTAATCAAGAATTAATATTATTAAAGGTGAATTGAATGGAACAAAGTATTGAAACAAAACGAACTGGTATAAAAGTTAAAAAAGTTTTTTGTAGTGATAATATAAGCCCATTTGAAACTGTTGAATTTGAAAACAGATCAAGTGTGATAAAAAATAGAGATGGTTCTATATTATTTGAAATAAATAATATTCATGCTCCAAAAAAATGGTCGCAAGTTGCCGTAGATATAATGGCACAAAAATATTTTAGAAAAAGTGGAGTTCCACAATATGATGAAAATCAAAATGAAATTAAAGATGAATTTTCAAATATAATTACAGGTTCAGAAACAGATATTACTCAACCAATAAAAAGATTAACTGGATGTTGGAGACATTGGGGAGAAAAATATAATTATTTTGATACGCAACAAGATGCAATTAATTTTGAACAAGAAATACAATATATGTTATTACATCAAATCGCTGCACCAAATAGTCCACAATGGTTTAATACGGGACTTAAATGGGCATATAATATTTCTGGAAGTGCACAAGGACATTATTATGCTGAACATGAAACAGGTGAAATTAAATTATCTGAGGATGCATATTCAAGACCTCAACCGCATGCATGTGCGGATTATTATACACAAGTGTATACTGATAAGGGTACAATGTATATTGGAGATATAGTTGAAAATAATTTAACTAATATAAAAGTATTTGATGGAGAAAAATATGTAAAAGTTCTTGCAATCAAAAACAATGGAAAAAAAGAAGTGTTTAAAATTCAATTAAAAAATGGAAATTATATTAAATTAACTCAAGATCATTTAGTGCTATCATCACAAAAAAGAAAAAAAAATGGTGGAAATTATAACTGGAATTATGTAAAAGATGTAAAATTAGGTCACAAATTACAACAACCATTAATTCTAGATATTAAAGAAAAAAATGTATTTAGTGATGATTTAGCAAAAGCAAGATTAGCCGGTTGGATAGTTGGAGACGGATCAGTTGGAATTTATGAAAATGTAATGAGATTGGAAATTATTTCTATTAAAGAAGAAGAATTTGAATCAATAATAAATGATATTCAAGAAGTATTTGGACAAGAAGTTAATTTTTGGATTAGTAAATTTAAAACAAAAAACGAAAATTTAGATGGTAAAAGAATTCATTTAGCAGGTAAAAAAATACATAAATTAATTGAAGACTATGATTTACTAAAATCTTCATTTAATGCAGAAGTACCTCAAAAAATAATTAATGGGTCACCACAAGAAAAAAGAGAATTTTTAAAAGCCTTATTTCAAGCAGATGGTTGTGTCAGAATTAGAAAAGATGAAAATAGAAATTCAGGAGATGTGTGTTTAACTACAATTTCAGAAAATCTTTCATTTGGAGTTTTACAATTATTAAATTCATTAGGTATTTATTGTAGAATTAATAAATATAGTGATAAAAGAGAAAATCGAAAAGATGTTAATCAAGTTATAGTATCTTATGGTAGTGCAAGAGAACAATTTCAAGAACAAATTTCTTTTATATGTTCTCAAAAAACCGAAAAATTAGAATTATTAAATAAAATTATAACAAAATCAAAAACACTTCCATTAATAAGAGAAGAAACAATTATTTCAATTGAATCTGAAGGCATTAAAGATGTTTATGATATTCAAACAGAATCTTCAAAATTTCTTGGAAATGGAATTGTAATACATAATTGTTTTATTCAATCAGTTAAAGATGATTTAGTTAATCAAGGTGGAATATTTGACCTTTGTACAAGAGAGGCAAGAATATTTAAATATGGTTCTGGAACTGGTTCAAATTTTTCACAATTAAGAGGTCAGTCTGAAAAATTATCAGGTGGTGGAAGATCTTCAGGTATGATGTCATTTTTAAAAATATTTGATGTGGCAGCTGGAGCAATTAAATCAGGTGGTACAACAAGACGTGCAGCAAAAATGGTTTGTCTTGATTTGGATCATCCAGAAATTATTGAATTTATTGATTGGAAAGCAAATGAAGAAAAAAAAGTTGCTAATTTAATTACTGGTTCAAAAAATTCAAAATATCATTTACAAAAAATATTAAAAGAAGCAAGTTCAAATTCAAATATAGAAAAAAATCCAAAATTAAAATCAGCAATTAAAGAAGCTATTGAACAAAATATTTCTTTAAATTATATTGATAGAGTTTTAAAACTTGCAAATCAAGGAATAACTGAATTTGAAACTCCCGAGTTTGATAATCATTTTGAAGGTGAAGCATATTCTACAGTTAGTGGACAAAATTCAAATAATTCAATAAGAATACCAAATTCATTTTATGAAGCTGTTCATAAAGACTTAGATTGGAATTTAAAAAATAGAACTGATGGAAAAATTTCAAAAACTGTAAGAGCAAAATGGCTTTATGATAAAATTGGACAAGCTGCTTGGGCTTGTGCAGATCCTGGTGTTCAATTTGATACGACAATTAATGAATGGCATACATGTCCAAAAGATGGAAGAATTAATGCAAGTAATCCTTGTTCTGAATATATGTTTTTAGATGATACTGCATGTAATTTAGCTAGTATTAATTTAATTCATTTTATTAATGATAGTGGACATTTTAATGAAGAAAAATTTGCTCATGCATGTGAACTTATGACAATTGTTTTGGAAATTTCAGTTACTATGGCTCAATTTCCAAGTGATGAAATTGCAAAAAGAAGTTGGGAATATAGAACATTAGGTTTAGGTTTTGCAAATTTAGGGACATTACTCATGGTTAAAGGAATTTCTTATGATAGTGATGAAGCTAGAAGTATAGCTGGAGGAATTAGTGCCATAATGTGTGGAACTGCTTATGAAACATCTGCTAAACTCGCAAAACATCTAGGACCTTTTAACAGATATGAACATAATAAAGATGACATGTTAAGAGTTATTAGAAATCATAGACGTGCTGCATATAATGTTTCAAATGAAGAGTATGAAAAATTAGAAATTACTCCAGTTGGCATTGATGAAAATTTATGTCCAAATAATATTTTACAAAAAGCTAGAAATTCATGGGATAATGCACTTGAACTTGGACAAGAATATGGATTTAGAAATGCACAAGTAACTGTTATTGCACCAACCGGAACTATTGGACTTTTAATGGATTGTGATACTACAGGAGTTGAGCCAGACTTTGCAATTGTTAAATATAAAAAACTTGCAGGCGGTGGTTATTTTAAAATTGTAAATCATTCAGTTATTAAAGCATTGAGAACTTTAGGTTATGAAAAAGATCAAATTATTGATATTAAAAAATATTGTATAGGTCATCAAACATTAGTGGGTTGTCCAACCATAAATCATAAAATTTTAAAAGATAAAGGATTTGATGAAGAAAAATTAGAACTTATTGAAAAACAATTAGAAACTGCATTTGATTTGAGTTTTGTTATGAATAAAAATATTTTAAGTGAAGAATTTTTAAAAAAATTAGGATTTAGTGATGAACAATTAAATTCTGAAATGTTTGATTTACTAGAAGAATTAAAATTTACAAAAGAACAAGTTGATATTGCAAATGAATATGTTTTTGGAACAATGACAGTTGAAGATGCTCCATACTTATTAGAAGAACATTATTCAGTTTTTGATTGTGCAAATAAATGTGGAAAAAAAGGTAATAGATATATTGACACTTATGGACATATTAATATGATGGCAGCAGTTCAACCTTTTATTTCTGGTGCAATTAGTAAAACAATTAATATGGATTCAGAAGTTAGTGTTAAAGATATTTTAGATGCTTATGAAGCTAGTTGGAAATTAATGCTTAAAGCAAATGCATTATATAGAGATGGATGTAAATTAAGTCAACCATTAAATACTGCTGTTTTTGAAAGTGAATACAATTTAAATTTATCTGAAGAAGATATTGATGAAACAGTTGATTCAGCAGCAATTCAACAACAAATTCAAACAATGAAAGCAAATCAGTTGCCGAGAAAAAGAGGTGGTTTTGTTCAAGAAGCAACTGTTGCAGGTCACAAAATATATTTAAGAACTGGTGAATATAATGACGGAAAATTAGGTGAAATTTTTATTGACATGTATAAGGAAGGTGCTGCCTTTAAAGCACTAATAAATTGTTTTGCAGTTGCAATAAGTAAATCTCTACAATTTGGTGTTCCTTTAGAAGAATTTGTTGAACAGTTTACATTTACTAGATTTGAACCGGCAGGTTTAGTAACTGGACATGAATATATTAAAAATTCTACGTCAATATTAGATTATGTATTTCGTGTTCTAGGCTATGAATATTTAGGTAGAGATGATTTAATTCATGTAAAACCTAAAAGAAAACCACTAGACATTATAGAACATGAAGATGATCCAAGAGATAAACATAAAACACTAGATAGTTTTTCTAATAGAAAAAATGTAGAAGAGACTAGAAACGAAATGCTTTTTAAAAAAATTAATACTGCCAAATCAAGAGGATATACTGGAGAAGCATGTGGTTCTTGTGGTAGTATGAGAGTAAAAAGAAATGGAAGTTGTACACTTTGTGAAGATTGTGGTTCTACTAGTGGTTGCAGTTAGAAATTAATTTTTTTATTAAAATTTTATATTTAATTAATTATTAATTTTTTTATATATTTTATAATATAAAAATTTATAAAAAAAAAATGATACGATAAATATATGTCAAAATACTTATCTATAGAAATGATATTTGATTCAATAAATAAAACATATAAAATGCGTTCTGAAGTAAAAGATGAAATGATAGAAGAATTCATTTCAGATTTCATGAGATCTGGTATAGTTGAATCTACACCTAACGGAGATGTAATTGAAAGAAACGAATACAAAGTAATTTTACAATTACATTTTGGACCTGTTGACGACTATAGAATTCAAACAAATACAAATAATAGAGATTTAACTATGGGAATAATATGTGGTGCATTAGGATACTTAAAGAGTAACCCAAAAATTGATACTAAATTATATAAGTTAAATTAATAAAATAATATCAAAAAATTAATTCAATTTATTACATAAATAATTAAATTCAGTACAGAAAAGTTCCAATCTTTCAATTATTTGATCATTAATAATTTCACTACCACTAATATCATTATATGTTGAATAAACAAATCTTGGTAAAATAATACATCTAAAATCTAACATTAAGCTATTTACAAATGATAATGGTGCCATATAAGAACTTGAACCACCTGCAGAACATAAAATGCCAATTAATTTTTCACTTAAAGATTTTCCTGCAAGTTCAATTACATTTTTTGCTGAGCTATTAATATTATAATTATAAATTGGAAGTGCAAAAATCACCCCATCTGCATTTTCAATTTGTTTTTTTAATTCAATTACATTAGTAAATTCATAACATTTCCCTGCATCACACATTGGCAAATCAAAATGAAATAAATCGATAAATTCAATATCACAATCTAATCGAGATTTAACATATTTTGCAAGAATTCTACTTTTACTATCTTTATTTAAGCTTGTAGATATAATTAAAACTTTCATAAAATTAGGATATAAATGAAATTTAAAAATTATTTGTTTTTGTAAATTAATTCTTTCATTACTTTTTGAAATTCAATAGCATTTGCTTTGATATTTTCATAATCATGCCCTGAAATATTATCAATTTCGCCTTTTTCTAATTTCTTTGTAATATCATATAAATGAGAAAAAAAATGTACATGTTTTCCATCAAGTTTATTCAAATTTACAAATCTGACTTGTAATAAATCAGGAATTAATTGTGGAAGTCCTGGCATTTCACCAATTTTCATTAAAGCTGCCTGAGATGAATCATAACAAGCCCAATATAAATCTACAACTGCATTTATAATTTTTATTGAACTATTATGCATTGCTGCACAACTTTTTTTATAAAATTCGTTTATCATTTCTTCAGTTCCTTTTATTTTACCATCTTCTAAAAGATATTGTAAAGTCTCAAACATACCTAAATCATAAACTGGATAACCTGTTCTTAATATATTTACTAAAATTGGATGACCTTTTTTTGCATAATCCCAAAAATTTGATAATTTTAAGGTTTGTAAATGAATTTTAAAATTAAGTTTTCTCAATATATTTGCAACTACAACCCTATATGTTTGTATAAATTCCGCAGTTAATGCATATTTAACATCATCAACAACAATTAAAATATCTATATCACTTTGAGAATCATGATTAATACTCCAATTATTTTCAGATATTTTTTTAACATCATATTTTGAATAAGATCCAAAAACTACAATTGTTTTAATAAAATTCTCAAGTTCAGGCAATATTTCTTTAGAAAACGAAATAGCATAATCCACTTGCTTATCCGCATAAAATTTTTTATTAGGATGAGAATTTATATCGTATTTGAACTTAATTGGTACACCTCTGATTAAAAAATAGAATTGTGATTTATAAAATTAAGCTTAATTGTTATATTTATTAAAAATAAAAATACCAGAACCTAAAATAAATATACTAAAAAAGATAAAAATATACCAAATTATATTAACCATTTTACTATTTGTACTATTTTGAATTTCATTTACAATAATATTGCTATTTAATGAATCTTCATTTGAATTGATATTAATATTATTTAATTCTAAATTTAAATTTAATAATTTTTTTTCCATTTCATTTCTTTTTGATTCCATTTCTAAATTAATTTTATCAATCTTATTTTTTAATTCATTATTCATATTATTAACATCCTTTGAATTATCAACAATATTTGAATTATCATTTAAGCATTTAATTACATTAATTGAAATTGATTTTTTCAATAATTCATTATTATTTTTATTAAATGCTTGTAAAATAATATCACGTTCCCCTAATTTATTATTAATATTATAATTAAAACTAAAAGATTGATCATCTCCTTCATCTAAACTAAATTCTTTATTTAATTCAATATCATCATCAGTTAATTGTAAAGTTAAGTCTTCAATATCTCTACTACCAACATTTACTAAATCTCCATTTATTTTTATACCATTAAATGAACATAAATCTATTTCTTTTGTATAAAATAAATTATCAATAATTAATTCTTCTCTATCTTTTTTTATTTTTACTCTGATAGTAAAATTTGCTTCATGAAAATAACTCTCATTATCCAATACACTAGCATATAAATTGAAATTTGATCTTTCTTCTTTATTATCAAATGGTATTATTGATTCATCAAAATCAATATCAATAGTTTCACAATCATTTTTTACAATATCTAATTCTTCTTCATCAATATCAATTCTAAACATTTCACCATATAATCTTATATTTTCTAAATCTGTATTTTTTACATTACAAATTTTAACTTCAGCTGATATTTGATCCCCTACTTTAAAATCATCATCATAGGCTCTACCTGAATTATCAAAACGTTCTTTTTTATCATTTCTATGTAATTTTACAAATTCAAATTCAAGTGGATTTTTAGGATTTACATTAATTTTTCCATCAATTGTAATTACTTCATTTAAAACATTTGTTAATTCTAATTGAAAACTATTTTCACCATAATTTAATTGAGGATTAAAAATAATATCATTAACTTCCAGTCCATTAAATTTCCATTTATAATTTACAATAAAATTACTATTTGTTAAATCTAAAAATTGTTCATATAAGTTAAATGAACTTAAATCCTCTTCATTTAAATTAATAGTAATATTATTATTTAATGATAAAAAATCACTATGTGTTTTATTTGTTACAATAGTATATATTTTCCCATTAGGAATATTATTACTATCATTTTTTTGAAATAAAACATGCAAATAAAGATTCTTATTTTGATAATTAATTAAATCACCATCATTTAAAATAATTGTAAGTTTTTTATCACCGCCTTGATAAAAAGGATAAACATTCCAATCATCTTTATTTAAACCAAATTTTTCATAAGTAAAATCATCATTTGAATTTAAAATTAAAGCATTCCATAAAAAATTCATTCCACTATTAATATATCTACTAATCAATTCTGAATATATTATTTCATTTGAATCATTAGGTCTATCAATTACATTTATAGTTTCTTGTTTAATTTTATATTGACCTAAACTATTTTTTAAAATAAATGTAATATTATGAATTCCACTATTATGATATACATGATTTATATTATTTAAATTATAATGTTTTAATTCATTTGTACCAAAATCAACTATTGAATAATCTAAATTAAAACCGCTTTGAGTTAAAGTATTTAATGTAAAATTAAAAGGCTCATTTACATAAATAGTTGTAGGTAATTCCACAGTATAATCCATACCATTTTCAAATACACCATTTACAGAAATTAAACTAATTGATATAAAAAATATTAAAACTAATAATTTATTTATTATTTTCATTGTACCTCAATTTAAATATAAACTAATAAAATAAGTCCAAATATTAACATCAATACAACACCAATTGCTATAATTAATAATATTGTTTGTTTTTTTTGTTCTGATTTATTTAAATTATCTTGTAAATCATTATCTAAATTTATGTTTTGATTTTCTAATAATAATTTTTTATATTCACTAATAAAATCATCATTATTATTTTCAACACCATTTAATTCATTTAATAATTTTAAATTCTTTTCATATAAATCTTGATCAGTTTGAATATTATTTGAACAATCATTTAATGAAATATCTAATTCTTTATAGTCAACTATATAATTATCCCTATATACTTCTGCAAAAAATTTATACTGTCCAATGGATGCAGAATTTGGAAAATTAAAATTTGTGAAAGCACTAAATTCATTATCATTTTTATAATCAATATCGAAATCTTTTATTGATTCAAAATTGAATTGCTCTGAATAAAATCTAACATGCCCATTTTCATCATTATCACCAATATTAAATATTAATGCAGATAATGAAATTGCTTTATTATCAAAACAATTTTGTACTACAGTTGGAGTTACTAAAAATTTTTTGAATAATAAATCATGATTTTTTCTATCTACTTTTAATTTAACTGTAAAATTATCTTCTTGAAAATAATCTAAATCATCTCTACCTTCAATATTAATAAACATATTAAATGTTTTATCTTCAGCATCATAAGGAATGTGATCTTTATCAAATTTAACTGAACGTACTTCACACTCATCTTCTGATAATGTAAAATCTGATTTCTCATCATCATCTAAATCACTACCATCATCAATATCTTTTATTATAGCACTAATTGCAATATCTTCAATATTAATATCTGAATTACTATCATAATCATTACATACTTTAATTTCTACACTAAAATCTTGACCTGGCTTAATATCTTTTGAATATCTTTCTCCACTATTTCTAATTCTATCTGATTTGTCATTAACAATTACTTTTACTCTATCAATTCTTAACATTTTTCTTTGAATCGGTTTAATATCTGCTTCAATCACTTTACCATTAAAAGATAATTTAATTTCACCCAATAAATCAATATCTATTGGACGACTTGAACTTGCATGAATATTAAATGTTTTATTTTCTAATTCATTTAATGCAAAATTAGTTTCAAAATTACTATATTCAATAAATGAATCAAAAGAACTAATATCTAAACCAATATTTTCTAAATTTGATTCACCAGTATTTTTAACAGTGAAATTAAAATCAAATTCAGATTCTAATCCACTAATATTAATTTGAATTTCATTAGGTATAATTGTTAATTCCTGTATTTTTTCTCTTACTTCAATATTTGAAATTTGATAATTTTTATTAAAATTAAATTCTGACTGATCTACATTTAAATCGTATTTATACAAACCGCTAACTAAATCATTACTAATAAAAACTTCAAAACTTAAATTTTTCACTTCAGATTTATTTAATAAAATTATTTTCTTTTCAACATCTAAAGGAAAAAAACTTGATGTTTTTAATAAATTATTAAAATTAATTTCAACTTGAGTATCATAATTTGATTGACTAATAAATTCAAATTCAATAGTATTTGTTTTACCCTTTACTATTTTTTTTGTTATTGCCTTTACATCAAATTGTGTATTTCTAGAAATATCTAAACTAATTGGCAATAATGTTTGTTCAGATTTACTATCTGTTGCAATTATTGTCCCATTATATTTACCATAAGTAGGATTATTTGATAAATCAATAAAAAAATCAACTGATTTTTGTCCATTAGCATCAAAATTTCCTAATTGTGCATTTACACCATTTAATTCAATAGCTAAAAATTCACCATTAGCATTTGATAAAACAAGTCCACTAAGTGCAATATTTACATTTGTTGAATCTAAATTTGTAATTTTAAACTGACTATTAACTTTAGATGTTCTAAGTCCATTACTTAAATCACTTAATTCTATACTTTCTTTGTCAAAATTAGGTACTGCATTACTAAATGCTGAAACTAATGTTGCAAATATAATCAAAAATGCAAATAAATGCGTTAATTTTTTCATTCATATCCTCTTATATACATATTTTAAATAATATTACCACAAAGCGGTGACATTTTATAAATGTTATCAATTTTAACAAACATTGTTTATAAATGTCAAAAAAGATAAAAAAAGACTAAATTGTTTATAAATAAAATTAAAATAAATTATATTTATTGGGGCAATTGGTTTAGTTTTTCCATAATAGATGAAAGTTCAGGCTTTTTTTCATAAAATGTATAATTTGCCATTTTCATAAAACTTCTAAAAACATCTAAATTTTCTATATTTGGACTTCCTAAACTAAAATTATAAATATAATCACTATCCAGTTTTGCGGGTGTTATTACACTTTTGTCATCAATAGAAACTAAATCCAAATCATAAGCTCTTGCAACCCCCTGCATATCTCCAATATATTGTTTTAAATCCTCAAAAAAACTATTAACAGAAACTACATTATCAAAAGAATCTAATCTAACTTTCGCTGATAAATTCAATCGTAAATTCAATTGATTTCCAAAAAATAATTTATATGCTAATCCACCATTAAACCCAACAAATATCCTTTCAGAAAAATCTTTGCACTCTTCTTCATCTGCAAATGACGTTTGGTTTAATGCTTGTACAAAATAACCATTTAATATTTCACGTTTATTAAAATCTAATTTTAATTTTTTCATTTTAAAAAAAGATTCAATAATTAACTTAAAAATATTGTTCTATATTTGATATACATATTTAATTACATCAAACTAAGTCCTTTTATTACCCTATCAATATTTTCTTCAGTATCTGGGCCAAGCCCCATACAAGTCACCGTTCCAGGTTCAACTACAGTTCTTCCTGCATCTGTTATAATTGCAGTTTTAATACCATATTCATCTGCTGTTGCTTTTAATCGATACAAATCTTTTTCATCATTTACTTTTACAACTACTTTTTTCATACCACTTTGTCTCCATGGTTTTACAATTTTATCATTAGATCTCAAAACTGCTTCAACTGCACCATGAGCTACTTGGGCTGCTAATTTACCTTTAGGTAATTTCAAACTTGATATCACTATAATTGCTTGTTTATATTCAGTCATAATAGAAATAATAATTATCTTAATATAAATTTAACCAATTATTTTAATGAATTTTAACTACTTCACCAGTTAAAGATCTTAATTGATGTTTTGTAATTTTCACATCCACTTTTTTATTTAATGGAATTCTTCCTTTAATTCCAACAATTAATGGATACGTACCTAAATGTCTTGCAAAAGTTATATTTCCATCATAAATTTCAGTAATTAAATTTTTTAAAATTAAACCCTCTGGAGCAATTCGTTTTAACATAGGATTATCAATATTTTGACGAATATCATTTCTCCATTTCCAATAATATTTTTGATTACGCTTTGTTTTTGACATTTCTTTTTTCATTTCACTTAATTTTGTCCCACCATAATCTACTACGCGTCTAATATTAATTCTTCTCAACATTAAACCATCATCATATATTTTTTTTAAACATTTCATATTAATTTCATGTGTTTTTTTAGTTTCACCAGGAAGACCAAATAAAAGATTAAGTCCAGGCAATAATTTTGGCATACCATTTGGACCTCTTTCAGACCCATATTCATTCACAATTTCAATAGCTTTCATTGTAATTTTTTGTTCACTATTTAAATTATTTATTTCAATTATTTTTGGATCAAATGTTTCTGCACCAAATGCTGTTATATTACCCTCTGTAAAATATTTAACTGCAAGTTTTGTAATATCACGACCCCATTTATGTTTTACAATAGTCCTTGGACTTACATTATCAATATGAAAATTTTCAATATCAGGACATGCACTCCAAATATCTTTTAATAATGATTCAATTTCATCTTTATTTCCACCTTGATACATAAAAAAATCACTTTGTTTTCCTAAACGAAAACTTCTAATACCTAATTTATAAAATTCAACAACTTCATCATAAATATCTTTTTTTACCCTATGTTCAGTTCTATTTTTTAATGGTTCAGTACAAAAACTACATTTACCTGTTGAACAACCTTTTCCAGTTTCAATTTCAACTATAACACGTTTAGGAAAAAGAGGATGTTGTTCTACTATTTTCGAACCTAATAAGCTAACTTCTCTATAATCATCAAAATTATATCTTTGTAAAAATTGATCTCCATTATTTATATCTCCATTCGATTCAATTTTTTTAATTAATTCAATTAAATATGGTTCTTTATTTACATGTAAAACAAAATCAAATGAATCAATAAAATCATATATTTTTTTATCAATTTTTTTTCCACCCTCGAGTTGAGTACCATGTTCACTTGCAGCAGGACCTGCAAAAATTTTAAAACAATTAAAATAAGAAGCTAATCTTTCAACTTCATGAATATTTCCAGGTATTGCACTTAAATATTTTCCAGGTACATGAATTCCACAAATAATAATTAATACCTTAGTATTTTTTATTATTTTTTCAATTTCATCCAAACTTCTTGTTCTATTATAAATTGAAATATCAGTTTTATGATTTTTTTTTTCCTCACTAATTTCTTTTTTTAATTCAATAGTTTTTTTATAATATCTTAAATCATCAACAGTTAAATAATTAGGATTAATTTTATTTTTTATAATTGCACCAGCAATATATCTAGGATAAGTGCCTAAAAAAGGAGGAACTCCTAAACCCGCCGGTTCATCGGTGTAAAAATCTAATATCGTATACATAAAAGAGTGAAAAATTAAAAGTTTATAAAAATACTCAATACCATTTTTTAATATCTTTACATGCAAAAGTCCTATCTGCTTGCTTATTTAAATCATATGCCAGAATACACCATTGTTCTTCTTTATGCCATTCATTAGATATAAAAACTATTTTTTTTGGTATTATATTTCTAATCGAAGTTTCACCTCTATAATTAGTATATAATAATTTAACTTTTTTATTTAAATCTATATCTTCCATCATAAAAAATAATCCTTTATAATTTATAAAGTTAAAATACTCAAAAAACATATGACATATATTGATAATATGATAAGAATTACAAATGAAATCACATTAGAATTTGAAAAAAATATAATCAAAAAAAAAATCAATTATAATAATATTAATACTGAAAAATTATTAATTTTGTCAAATGAAATGATTCATGATTCAAGTATATATCAAAAAAATATAATTTTAAAATTTTCTACACTAATATATTGTATTGCAAAAATGATTAAAGAACAAAAAAATAAAAAATCAAATAATTTAGAAACCATATTTTGTAAATATTATAATAATTTAAAATTAATGTACACTTATTTAAAAAAAAATAATATCAATAAATTTGAAAATAAAATAGTTGAAATTTTTAATTTAATTTTAAAAAATAATAATAAATTTAATATTTATATTCAAGACATAATTAATTCAACGACAATAAAAAAAGGCTCTAAATTAGTTGATCATGGAATAAGTATTGAAACAGTTAGTAAAATGACTGGTTTAAATCAATGGGAATTATATAATTATTTAGGTAAAACTAATTTTGAAATAGTATTAGATGAAAAAATACAAAAAACTCAAAAAAGGCTAGATCATGCTAAAAAAATATTTAATATAAAATGAAACAATTAATATTTGATGCAGGTATAATTATTAATTTATCATTAAATAATTTACTTTGGATTTTACCAAAATTAAAAAAACAATTTAATGGAGAATTTATTATACCAAATGCAGTTGAATATGAAATAATAACAAAACCATTACAAATAAAAAGATTTAAATTAGAGGCAATACAAGTTTTTAATCAAGTACAAAATAAAACTTTAACTATTTCAAATGATAAAAATATAAAACAAATTTATGATCAAATAGATCAATTAGCAAATACATCTTTTTCTTGTAATGGACAAATAATTAAAATTATACATAGTGGTGAAATTAGTGTTATTGCCCATGCAATTAATCAAAATGCTACTGCAGCAATTGATGAAAGAGCTATGAGAGAATTATTAGAAAATCCAAATGGTTTCTTAAAACATCTTAAAAAAAAATTAAAAAGAAATATACAAATGGATAAAGAAAAAATTAAAAAATTAAAATCTTTAACTAAAAATATACAAATAATAAGAAGCAGTGAAATTGTTACAATTGCATATGATTTAGGATTATTTAATTTTTATATTGAAAAAGGAATTGAAAAAATATTAAAACAACCAAAAAAACAATTATTAGACTCTTTATTATGGGGAACTAAATTAAGAGGATGTAGTATAACTGATAAAGAAATAGAATATATTGAAAAAAAAGAAGTATAAATTAAATATCAGGTCTATCGAATTTCTTAGTTTTTGGTTTTTTTTCATTAAATTGAAATCTCTCAATTATATTTTCACCATCATTAGTATTCTTCATAACACCCCAGCCCGGAAATTTATTATCTTGATTGGCAGTATACATTTCTTTAATTTTAGGAATACCAAAACTCGGTGAATCCCCTTCAGCATTATCATATATATTTTTTAATTTATTTGCACTATACATAAAACTATTTTCTTGGCTTGAATTGTAAAAACCTTTTTTTAAATCTATTGAACCCGAAGATTCATATTCAGATTTTGAAACAAAATTATTAACTAAATTTTTATCTATTCCAGAATCAGTTAATTTTTTTATAATATCACTACGTAAATGTATATCCTCACCCACTTCATTAACTTGAACAACTTCATCAATATTAGGTTTAAAACCATCCATATCAATTTTAATTAGTTTAATAGGAGCATCTACTTCAATATTTTTTTGTTTAATTTCCTCATGTTCTATACTTTCTTCTTTTAAAATTTCAATACTATCTATATTTTTATTTTTTTCAAAATTTTTATTTTTATTTTCAACTATTTCATTATCCTTATATTTTTTTTTGAAAATAAACCTTTTTGCCTTTTCAATTAAATTAAATTTTTTATTATAATCAATATAATTAGATTTATGTTCATTTTCACTTTGAGTTTTAAAATCAAACTCATAGTTAGGTTGATTTTGATTATTTGAATTAGAATTACTTGAAAATATATTTAATAAATCCATTAAATTACCTATTTTTAATAATTTTTTAGGTTTATTTTCTTTAATATTGGAATTTTCATTTACTAAATCATCATTAAATTCATTTTTACTATTTTTAATTAATTTTTTACTTTCTTTTACATTTTTTGTATTATTTTTTAATACTTTTTTTGATTTTTTTTTAATTAACATTTTTTCCAAAATATAATAAAACCATTATTATTTAAATAATTAAGCATACGTTTATAAATGAAAAATCTAATTTTATTAATATTGACAGGCCAAAAAAACATAATTAAAGTAGTGATAATACTAGCATTTTTGATGAGTATAGTGATTTTTTTAAATTACAGTCCATCATTAACAGGAAATTTAGTATATGACTCTAAAGCTTTGTTTAATGAATTTTTAGATGTTGAAATTTTAATTGGAGATAAAATAAATAAATTAACAGATCATATTGAAATAATTTTTGATGATGATATAGTGTTTAAAGGCAGTGTTCAAAATTTATTTGATGTTAAAGTAATTGTTGGAAGTAATAATTTATCAAGTTTTGAAGAAATAAAAGATTATACATTTAAAAATAATTTAAAAGGAAATATTTTAATTAAACCAGACTTAATAATTACATTAAATATCACAGGAAACAAAACTACAGCTCTTGATCAAAACAATTTAACTCTAACAAACATTACTTATTTTTTAAATTATAATGGAAGTCAATTAAATTTAGAGGAAAATGAATTTCAAATCATTGAAAATTATAAAAATCTTAATTCAAATTTAACTATTAATGAATATTTAAATCAAACGAATAATACATTAAACGAACAAATATTAAATATAGTAAATCAAAATGAATTTAGTTTATCTAATCAAAGTAATTCTTTTAATATTATAGTACCAGCATCAATTATACAACAAAAATATAATAATATAATAAATATAAGTGAAAATAGTAATTTAAACAATTTAGTAAATGTAAGTATTGATGAATATGATTGGAATATAACAAAATTATCGCATACAATTGAATCTAATAATGATAATATTATTTTAGGTAACTTAAAAATACAAGAAATTTATTTTGATTCAGTAAATCCATCAATTGTATTTAATAATAATACAATCAATATAAATGAAAATAAAATTAGTGCAGAGTTTATACTAACTTTAGATGACGTTCAATTAAAATTTGCAAATTTAAAAAATATTGAAAATACAGTGAATTATTCTAATGATATAATAAGTAATTTATTAGAAAACAATTTGAACTGGTATGAAATTAGTCAAATTAATGGTGAATTTATTTCAGAGGATACAAATTTAGATTATGAAGTTCAAAAAATAAATGATTTTGATTATATAATTAATGGAACTAAAGACACATTATTTTTTGATTTTTCAAATTTAAGTATTAATACAAGAGAATTTGACTATAAAAGTAATTCAGACACATTAGGTAAAAAGAATTTCACATTAAAAGTTACTATTGATAAAAATACTAAACAATATGATTATACAATTGACTTAGCCACATCATGTCAAGAAAATTGGGTTTGCAAACCAGGAACTTGTTTAGCTGACAATACACAAAAGAATAATTGTATTGACGAGAATGGATGCGGTACACAATTTTTAAAACCAGTTGAAACCAAAGCCTGTGTTTATAGTTGTACTCAAAATTGGAATTGTACTGAATTTAGTCAATGTAATGAATTAAATTTTCAATTTAGAGTTTGTACTGATAAAAATAATTGTCAAAAATATAATAATACTGCAACTAAACTAATTGAAAAAGAAAAATTAAGTGAAATTCAAAGTTGTAAAGATAATTGTAATGAAGACTGGAGATGTACATCTTGGTCTTCCTGTTCTAAAGATCAAATATATAGAAGTTGTACTGATAAAAATACATGTGGAAGTGAAATATTAAAACCCAAAGTCGAAGCAAGTTGTAATGAAATAGTCGATGATCAATATTTAAAAATTTATGAAAAATTCTTAGAATCTGAAAATTATGTTAATTTATTAAATCCAAAAAAAAATGAAAAAACAGCAAAAAATACATTGATTGAAAAAAAAGAAGAAAAAAAAGAAACGAAAACAGAAAATAGATTAGTTGGTTTTTCAATAAAAGAAGAAGATAATTCAACATCTAGCGGAAAAATTATTATTTTTGTATTAATTGCAATGGGAGTATTATCATTTACATTTAATGAAAGGGGAAATATAAAACAATTTGTTGGTGAAAGTAATAAAAAAGAATATTTTAAAAATTATTTGAATATTAAAAAACAAAAAGTTTTACAATTATTTAATAGAAATAATGATGAAAATAATCAAAACAATCAAGAGAATAATCAATTTAATAATTTAAGTTATAATTATTCAAACAATATACAAAGTTCTAATATGGATAATAATGTTAATAATAATGATACAAATAACAATTCAGACAATCAAAATAATTTTAATCAAAATATAAAAATTAATAATTATAATCCGAATAATCAATCTCAACAATTAAATTCATACTTAAATTATTATCAAAAATTAGGATATAATGATTATCAAATTAAAAGTTTTTTAATGCAAAAAGGATACAATTTAAGTCAAATAAATGGTTCATTTAATAGTCAATTAGGTCAAAATAATAATGAGAATAATAATATAAAAAAAGAATTTCATTTTGCAACAGCCGAGAGTAATAAAAAAACTCATCAAATTACAGTTAATAAAAATATATTTAATAATGCATTAGGGCTATTAAAAAATGATTTTGGAATTGCAAAAGCACCAACATCTTTAGTTGCAAAAAGAAATTTTTCATTTACTATATCTCTTATTGAAAAAAATGTAGATGAAAATACTATAATTGAAATATTAAAAAAAAAAGACATTAGTGAATCAAATGCATTAGAATTAATTGATAGAGCTAAAGAAAAATTAAATAAATTCTAATTCCATATTGCAATCAAACAAACATTTTTATTAAGAAATATTTTTTTACTATTTTTAAATTGCTTTAAATTATTAACTTCAATTTCAAAATCAAACATTGATAATTTTTTGGAATTTAAAATATATATCAAACCTCTATATCCTGGATTTGTAACAATAGAATTTTTTAATTGATCATGTAATTCTTCACCTTCATGAATATGTCCAGAAAATGATATTTCAATATTATTATTTGATATAAAATTTGAAAAATCTTTATTACCAACATAATTTGTAATTTTAATATCAAGTAATGTACCAAATGGAGGTCCATGTATCATTAATACTTCATATAATTTTTTTTTATTTTTTTTTATTTCTAAATTCGCAAATTTTAAAAATTCAGCATCTTTTTGTGCAAACCCACCACCACCATAACCAATAATAAACAAATCTTTGAATATTACTGATTTTTTATGAATAAAAATTAAATTTTTAAAATCTTTAATATCATTTTTAGCAGTATTTAACATTTCATGATTACCATGAATAATATAAGTTTTAACACTATAATCATTTAAAATTTTTAATGATTCTTTGCTTCCTTGACCAAACCAAGAATAGTCCCCACAACATAAACAAACTTCAGCACCATATTTTTTAATTAATTTCCCTGCCGTTTTCATTGCATCAATTTCTACATGCATATCAGTTATTGCATAAATAATTCTCATATCACTATTATAATAAAATTATTTATAAGGTTTATCCGAATAATAAGAAAAATCATTATTCGTACTATTTTTACTTTTCACATTTGAATAATGATCCAATATTTCATTTAATGATTTATTTAAATCACTATTATTACTTTCTTGATTTAATTTTTTAGATTCAATTAAATCATTAATACTAATATCATTTTTTTTATATTCTATAATTTCTTTTATTGAGTAAACAATAGTTTTTTCTACTAGTTTATATATAAAATCCTCAATTAAATAATTAAAAGTTAGATGAGTAAAAATAGATGCTGATATTAAACCAGTAACTATTTTTACCTTTTTACCATTTAACTTCATTTTCTATCAATAATCCAGATATTAAATCAGGATTTGAAAAAAAATCTTCCTTTTTTATATCACCCATTAAATAAAATACTTCTTTTTTTTTTATTTTTGTATTTAATTCTAATTTTTCTATAAAATCCTCTAATGCATTCATATCCTTACAAATAATTTCTAATGTAACATCATATCCATTATTTATTCTAGATAAAGAATTTACAAAAATGCTTTTAGTCAAATAATTCAAACCTTCATTTTTATTTTCAGGCTTAAATTTAATTAATAGCATTGCCTTAATATTAAAGCCTATATAAGAGAAATCTACTATACAGGTATGTTTTAGTATAAATTTACTAAAATTATTACGTAAAGACTCAAAAATGGTTGATACAGGCACATGAGTCTTCCTAGATAGATTAGTTAATTTCTCTCTATTGTTTTTCCTCAATAAAGCTAATAGTTTTAGTTTTTTTTGATCCATTGTTATCACAATATCCCTTAAGCAATACTTTGCTATATATTTAGGTAAATAAAGAATTCTTATAATAATTTAATCAGCTGAATTTATTTTCAGCAAAATATTTAAACTAGATTTATTGACTAAAATTATGTTAGAAGAATTTAATGATCAAATACCGTTTTATAATTATTTAGATATAATAAAAGAATATTATGATAATGATTTTGAAAAAGAATTTGTAAATAAAAAATCTAAAGAATTAAATAAATTATATGGAACTAAAAAAATTGAATTACCTTTAAATTTAATTAAGCAAAATAAACTTTATATTTTTCAAAATAGTAATTTAGAATTAATATTTTTAGAATTATTAAAAAATCATTTAAACAAAGTAAAAATTGTAGTTGAAATTAATAAACAAGAAATTGCATATTTACAAGGATTTTTATCTAATTATTCTATTGAAAAAATATGTAAAATATTATCATTTGGAGATGAACTACAATATTCAAGAGTATTAGATTTAGCAAAATATGGACATTTCCCTCAAATTAATTTAGTTATTGATTTAGATTATTCAAAAGTAGTAGATTTTTTTAAAATAATAAATTTACTATATTTATTAGGTGCAAATACATCTTTTGGTTTTTACGAGGATAAAAAGAAAATTGCTATTATAGACTACTCTTATACATTAATATTTAATACAGATTTTTTTAATAAAAATATTTTAAATAAAGTAATTAATAATATAAAAAATAAAATACCAAAATTTCCAATAAATTTATTTGGACATGAAGAATAAAATGAAAATCCATATTGGAAGTAATAATAATAATTTAGCAAAAGATTTTATTGAAATAGATTCAACATTTGAAAGATTAAGCCCAATTAATTATTATAAAAAAATAATAAATTCCAATCCTAATAAAAAATTTATAATAAAAGCAAATAAAGAAATAACACATTTTAATTTTATAAAAAATTTATCATTTGTAGATTCTCAAGAAGAAATCATATTAGATAAAAAAGGACCAAGTTCAATATTATTACATAAATTTAAACAAATATGTGATTTATTTAATGACAAATTATTATTTATATTATTTAAATTCCCTTATGGTTTTAAAAACACATTTCAAAATAGAGAGTTTTTATTTAAATTAAATAAAATATTCAATACACCAATAGCATTTGAATTTGAAAATAAAGAATTTGAAAATTATTATAATGAATTTAATCAACTCAATATAATAATAGTAAATAAAAATTCAAACATTTGTGGAAATTTTATTCAAAATTTAGATATCCATAATATGAATTATAAAACTAATTTAAATAATCTATATTTGATGATAAATAGTCAAGAAGAATTAAATATTGCCACAAAAATAATTGAAAAATACAAAAATCAAAGCACTATTAGCAATTTTTGATTTAAAAAAATAAAAATAATCAAAACACTTAAAAACCACATAATTTTTTGTCAATTAAAGTCCCGTAGTGTAGTGGCCTATCATCGTGCCCTTTGGAGGCGCGGACCCCGGTTCAAATCCGGGCGGGACTACTTTTTATTCTCAAATAATTTTCCAGAAACATATTGGAAATACTTATAAATAAAAAATTATTTCAAATAGTGATATCACCACTAAATGGGTACGATATGATGGAAACAATAAACTTGAATTAAAAAATGAATAAATTATACTCAGCAATATTTGCAGTGTCCAGATCTACAAATTTGGATACTATTTTAGATTCTACTAGAAGATGGATTGCAAACAGTCCACACAATAATATTACAATTGATAGATTAAAAGATTTAGGAAGAGACGACTTTTTTGTAGAAGATGAAATAGATGATAGAACAATAACTATAACATCACAAAATATTATGAGCGATCAAGAATATTACACTTCATCCAAGCAAAGAGTTGCAAATAGTGTTGGTACATATACATCAGAATTAACACTTAAAGAATCTTATGGATTAGACACTATTGTTTCTTTACAAATTTATTTTGAAGGAAATGTTATAAAACCATTTTTCAAACCAAGTCTATTGCCTTATTTTATCCTTAAGGATTCAAAAAAAGCATTTGATGGTAAAATTCTTAATATTCAAGGTGAATATCATTTGTCTAAAAAAGGAAGTGAAAAATTTTTAGCCGAAGTATTAAATAATGAAAGTGAAAATAAATTGCCAGTGATATATGTTAGTAAAAATGATCAAAATGAATGGGAACTAAATCCAACTTATTTAGCAAAAACTTTATCTGGTTTAGCACATGTAATTTGTGAAGATGATAAAGACTCAAAATTTATTTTAAAAGAATTATGTGATGGAAATAATTGTTATGATGGTGCTGTTGGAGTTTATAATCCAAACGGTATGCGTTTATTTTTTTTAAAAGATAATGATTACAGTCACATTCTTGGAGACGTAACAAAAGAATTAAATTTTGAAGATAAAATTATTCACTATATTAATTCATTATCCAAATATAAAACAACACCAACTAATTTAACATATTCAGCAGTTAATAGAATACAACAAGCAGAAAGAATAAATTTTTTAAAAAATGAACTCGCCAATAGAAAAGGTAATGAAAAAAATGAAAATATATTTGAAGAATTGTGTGTTTTATTAGAAAAAGATAAAGAAGTTTTAATCAGAGATAATGATGCAACATTAGATGAACTTCAAGAAAGATTAGATGAATGTCAATCTTTAAGATCTAAAATTGAATTTCTATCACAACAACAAAATCAAAATGGAACTCCATCTGAATTTTTTGGTAATATGAGTGATATTCAAAGACTTCACCCTGAAGAATTTAATGACTATATAATTAGTTTAGTAAAAAAAGATTATGAAAGTATTAAAACTCAAGATGACACAAGAAAAATACAATTTACTAAAAGATTTTTAGAAGAAAACCCAAGATCTGGTAATACCCCATTAGAAGAAATAAGAAAAAGTTTATCTCAAATTAATGGTAAAACTATTGCTAAAAGTGATTTAAATTTTTTAAATCAATTTGGATTTATTGTTGGTCAAGGATCAAATCATTATAAAATAACCATCCCAGGTTATAGTGGTTTTTGGACAATGCCAAGTACTCCAAGTGATAAAAGATCATTAAAAAATAATTTATCTGGTTTTATTAATAAATTCTTTTTATCTAAATAAACAAAAAAATAAATAAAAAATTAATCATTGTTTTTTATAATTTCAAAATCTCTCAAATTCTTATCATAAAAAATTGAAGATCCTTTAGCAAGTGCATGATAAGGAAAACTACACCCTCCTAAAAATGAAACCTCTAAATCTCCTTCAGTTCCTTTTTCCATTATTTCGTTTAAACCAGAATTATTGCAAACACCAGTAAAAACAGGATTAACATCTTTACGCATATTTGATCTATAAGTATTTAATATTTCAATTGCAGCAGTACTTTTTTTAACACTTTTTGCTAAACTAAATAATAATTGACCACCTTCTGTAGAAACTAAATAAATATCACCCGGAGTGGATCTATATTTTAATGATCCTAATACAAAATGTTCATTTAAAATAGCAGAAGAATCCAAACCTGGAAAATTCATCATAAAAGAATCAATTTCTTGTTCTCCTAACAAGTCATCAAAATCTTTAACATTTTTAGTCTTCCCAACTAAAGAGTAAGAATTCAATCCATTATGTGAACTTAATAATTGTAAATTATTTCTTTCTAAAGTTTCATCAGTAATTCCTTTTATTACTAAATCTTTAGCTATTCTTGCACAAGGAGTTATGTATTTTTCAACACTTCCATCTAGTTTTGGCACCATAACCAAGGAATCAACCATCATTCCTACTGTCTCATCCTCAAACCTATGACTATATAATATTAAATCTCTTTTCATTGTAAAAAAAATAAAGATATCTCATTGATAAAATAAATCGATTTTTTAATATAAATTAATTCAAAAATACCAATTAAAACTATAGTTTACAAAATATATTCATTTATAAAACAAAAAAATCACTAAAAAGTGGTTACAAATGATAAAAACTAATATTGGAATAAGCACATTTAATGATATGGATATTAGTCTTGAATCTAAAGAAACAAGAGAAAATAGTAATTTAGAAGCAACCTTAGAACAAGTAGAAGTTAATGAACTTGATTCTCAAAAAGAAATTGAAGAATATAAACAAGAAATTACTAATTTTTTACCACAATTATATGAAATTTTATTTGAAAATGGTAGAATTAAAGATAGTATGAAATCATTTAATGAAATAGAATTAAGTGATTTAGAAAATGAATTAAATTCACGTGAAATTGATCCACAAAAAGAATCAAGAAGATCATTGACATTGAAACAATTAGTTAATTACACTAGGTCAAATTTAAAAGTTGATTATAAAGATGAATATAATCAAAAAAATGTTATTATTATTGACTATTTCGGAACTAAAATTGCATTAGATGATTCATTTTTAAAAATATTTCAAAAAAATAAAAGCAAATTAAAAATTAAAGATCTTAATCAAAAGAATATAGAAGACTTAAAAAAACAAATTAGTGAAATAGAAAAAAAATATGAACATCTTAAACCAGAAAGTAAAAAAAAAGAAAGTAAAATAAATTTTAAAAAATTGGCAACTATTGCAGCTACAACAGCAACAATATGTATGGGATCATATTTAACATTATATGGAATAATACATTATAATAGTATAAATGAAGAACAAAGAATTATTAGTCAAAATGAATTATTCTTAAGCCCACGTAAAAACTTTCAAAGAAGTATAAAAAATAAAAAAACTAAAATTGATAATTTTTTATTATATGAAACTACCGATTTTGGACAATTATCAAATTCTAAATTGCGTGAGTTAGATAATATAGATTTTAATCAAATGTTTTCAATTGATAAAAATAAATATCAAAATATACCTGAAAGATTATTAGAAAAAAAAATCAAAGAATTTTCACAATATGAAAATGAATTTGTTTTAGCTATAAAAAATATTTGTAAAAAAATTGCAAAGTCTATTGATGAATTTAATAATCAATATAAAAATAATACATTTAAAATAGAAAAACAATTAGCTCAAAAAATATCAGAAGATGTTAAACAAAATAATAGATCATTACCAAGTATAATGTACACATTTTTAACAGAAAAAAATGTTTCTTTGTATATTAAAAATAGAGTTAAGAACAAAAATTCCGAAATATTAAATTATAAAAGAGTAACCAACCCAAATAAATTACAAATTAATTATCTAATGGAAATGACTTTAAATTCTTATTTTACTAATGGAATTGAAACTGCAATAAAAACACAACTTGGAGTGGATTCATATTTGGATTATTTAGATAGTAAAAATCAAGATGAAATAAAATTAAAGGCACCAAAAACATTAACTCATTTAATTCAAAAAATAAATCAATTTATAATACATAAAAACAAAAATTTTTAAAAAAACTTAATTTTAAAATAATATGAAAATTTGTCCAAAATGTCAAAAAAATGAAACAAATAATAAATTTTGTAATTTTTGTTATTCGAATCTATTAAATATAATATTAAAAGAAAAATATGATTTAGAAAAATGTAATGATTGTAAATCTATTTTTATTACAAATAAACAATATAAACAAATAAATGAAAAAACTTTTATTGAATTATTATTGGGCCAAATTAGATTTAATAATCAATATAATTTAGATGTTGAAAATGTAGATGCGGCATATTATAATTATGATAGAAAAGATATTGAATTTGAAATAGAAAATATAAAATTTGTAATCTTAGATATTGATTTAATCATAGACATAAAAGAATTTGAAAATATAGAACAAAAAATTAATTTGAAAAAGAAAATTGAATATAAAATAGTTAATAATAAATGTAAAGAATGTCAGAAATTTGATTCAGAATATTTTGAAGGAATATTACAAGTTAGATTTGATAAAAAAGAATTTAATAATGATTATCAAAATATTAAAGAAAAAATTAAAGAAATTATAATTGACTATAGAGCTCAAATTAATAAAATGGTGGAATTAGAAAATGGAATCGATTTTTATGTCCTTAATAAAAAATTATTGCCAAATATGGGTAATTTAATATTAAATAAAATTGTTGGTGAAGAAAAAATTTCAGCAACTTTGTTTTCAAGAAATAATCAAACAAGTAAAGATATATATAGATTAAAATATTTGACAAAATTAAAAAATTTATTTTTATTTGATTATATTGAATATAATGGTGAAGTTTATCAAATAATTAAAATTAAGAAAAAGAATTTAATTGCAAAAAATATTATTAATAATCAAAATACAAATTTATATAATAATATAGCAGATATAAATAAAATAAATGAATTTTTAGAAGCAGAAGTAATTAGAATACAACCTAATATTCAAATACTCGATCCAATAGATTTTTCTGTTAAAAATATTATTAATGAATCTGAACAAATAAAACAAAAATTAAATTATGATAGTAAAGTAAATATCATTAGATTAGAAGATAAAATATATATAGTTGACCAAAATTAACCAAAGTCAAAAGAGATAATTTTACAATCAATAGGAATTATATATATTGAATTGGAACAAAGTTTTATATACATATTTAAAAAAATAAAAATATGGAAAAATATGGTATTTTTTATGATCAAATTAAAATTGATAGAATAAAAAATATGAAACAAGAAGAAAATCATAATTTTAAAATTCCATTAAGTAAATATTTTATTTATATTTTAATATATATTATCCTAATAATATTAATAAATATTTTATTTAAATGAATAAGGATCAGCTAATTTTAAAAAATTATTAATTTGATTTAATTTAATGTTTGTATATGAATATACTCTAAATAGAATTTCATTTTTTTTAACTTTATCATTTTGTTTTTTTAATAAATAAACACCACATCCTTTATGACTTGGAGCTCCAGCCATTTTTGCAATTTTACTTATAATTTTATTATCAATTTGTTTTACAATACCAGATTTATTTGATTTAACTTCATATATACATTTTGATAATTTATTTTTTAAATTATTAGTGCCATTTATTTTTTTCCCACCTTGTGCCACAATTATTTCATTAAATTTATCAAATGCTTTATTAGAATATAAAATGTCACGAGCTACAATTTCACCTTGACCTTTTTTATATAAACCACCAAGCTCTAACATATTACCAGCTAATTTAATACTTTTATCAATTAAATCTTTTAAATGATCATGTTGATTTTTTAATACATCATAAACATCGATTGCCTCTAAAACGGGACCCAAACCACAACCAATTGGATTTTTTCCATCAGTTAAAACAGCATGAACATTTAGTCCAATTGAATGTCCTACTTTTTCAAAATCAGATTTTAATGAAAGTGCGTCTTTTTTTGAGCTTATTTTAGAACCCATCCCATAAGGAATATCAATTAATACTTTATTACTACTAACACTTCTTTTTTTGGATAAAACTGAAGCTATTAATTGACCTCTTGGATCTAAAGAAAGAGGATGTTCAACATTAATTATTATATCATCTGCAGGAGCTAAATCTAAAGCCCCACCCCATGTAATACATGCACCAGTTTTTTTTACAACTTTTTTCATTTTAGAAATATCTAAATCTACATTAGTAAAAACTTCAAATGTATCTGCAGTACCAGCAGGAGATGTAATTGAACGTGAAGAAGTTTTAGGAACTACATAACCTGCAACTGCTAATATTGGAACAACAATCATTGTAGTTCTATTTCCAGCAACACCACCTATACAATGCTTATCAATCACATTTTTAGAACCAAATTTAATTATTTTACCAGTTTCAACCATGGATTTAGTTAATGCAATTGTTTCATCTAAATTTAAAGGATTACAATAACAAGCACTAACAAAATATGTAATTTCAACTTCAGTTAATATATTGTCTTTTATATCATTAATAATTTTTGTAAATTGATCTTTATTTAATCTTTCACCTTGTAATTTCTTTTTAATATAATTTAATGTAATAGGTTCATTAATGTGAAATAATCTAACAATATCATTATGTTTTAAATTTAATTTTTCTCTTACTTCATCTAATACACCAACTTGGCCATTTTTTAAAAAATCCGAATCAATTATATCAACCATAGCAATAAGTTCTTTTTTATTAAATCTAATACCCATTCTACTTTTTGGAGGAATATTTAATTTTGCACAATCATATTTAGTTAAATATACTACTAAAGGACCACCAGTTTTAATTTTAATTTTTTTTATTTTAAAGTACATCATTTTCCATTTGCTTTATTCATTTTAAAATAAATTTTCATTAAGTTATAGGTAATAATTACAATAAACGGACCTATTATCAAACCACTTAGTCCAAAAATTGAAAGACCACCTAATACACCTAAAATAATAAAGTATACATCAATTAAAACTAAGTTTGCCATTACTTTTGGTTTTATTATATTATCAATAGAACCAACAATAACACCACCTATGAAAATAATGATTGCATCTGAAAAATATGGAATTCCTGTTGACATACCAAATAAAACTTTAAAAATTAAAAGTGGCATCCAAATAAGACCCGTACCCAAAAAAGGAATTGATCCTAAAAGACCAGTTAAAATACCAAACACTATGGGGTATTCTATATTTGCTAAATAATAAGCAAAACCTGCAATAATTGCCTGTATAAATGCAGTTAATAAAAATCCAAATGTAAAACCTTTTAATAAATTATGAAATTCCTTAAACAAGTTTTTAGTATCTTTTGAATTTAATGGACTCAATTTACATATTGCCTTATAAATTTCTAATTTTTTTGATAAAAAATACCACATTGATAAAAATGTTAAAAATAAAAATAACATTAAATCTGGAAGTAATAATATAAATTTTGAAAATATATTAAATGAATTTTCTAAAAATCCTGAACCACTTTTATTTTTTGAATTAAATATATCAGACAAATACCTTTGTGCAGTAATATCATCTCTTAAAGCATCAAATTTAATAACAATATCACATAAAAAATCTCCTTCACAAGTTGTTATTTCCCCTCTAGCATATTTTTGAATTGTATTAATTGAATTATCAATTTTAAAAAAAAATGATTGTGTAATAAAATAAATTATTAATAATATAATAAAAATTGTTAAAAATGTAATAAATGCAGATCTATAATCTTTATCTTTAATGAAAGTAAATCTATCTTGAAGTGGACTAAAAATAAAAGTTAAAAATGCACCAAAAACTATAGCAGCTAAAAAACTTGAAAATAGCCAAATTGAAAGAACTAAAAATACAATCAAAAGTAAATTTACAGATTTTTTTCTATCGATATTCACACCTCTTTCAACATGGACCTAGCCGGGATCGAACCGGCGATCTTTACTAAGTCAAAGTAACGTCATACCACTAGACCATAGGTCCTTAATTATATTCTAATATATTTGTTTATAAGAATATCGAATAAAATAAAAACGCCGAGACTGAGATTCGAACTCAGAATCCCTTACGGGACAAGCTTTCAAGGCTTGCGCAATACCAGATTATGCGATCTCGGCAACGTTTTTGACGAATCGCGACCATTAATGAAATTAATGACATGCGATCTCGGCAATCTTAAATACATTCTCAAAAATTATTGTTTTTATAAAATTAATGACTTTTTGCAATATAAACCACATGTTTTGCAGGTTTACCACAAACAATACAATTACAAAATACTTCCTCATTTTTATTAAACCAAACACCTCTTACTTCAGCTTTTGTTTCTTTTTCAATTACTCCAGCACATTCCGCACCATCCATATCAATTGAACAAAATGAAGTTCTTATCATTTTACCATCATCAATATTTTTTTTAATATCATTTTTATTTTGAACATCTATTACAGTTTTATCAAATACTTCATCTGCTTGAGAAATCATATTTTGAGTAAAAGTTTCTTTAATTGAATTAATATGAGGAATTAAATCATTCATTGAAACAGTATTTTTTTCAGATATGTCTCTTCTAAAAATAATAATTTGATTATTTTCAACATCACGCGGACCAACTTCAATTCTTATAGGAACACCTTTTAATTCCCAATGATTATATTTGTAACCCGGGCTAAATTCTTTTCTATCATCAATTTTAACAGAATAATTTAATTTTTCTAATTGATTTTTTATTAACTCCACTCTAGAATCTACAATATCAAATTTATTTTTAAAATAAATTGGAATAATTATTATTTGTAATGGAGCTATATCCCAAGGTAATTTTAAACCAGTATCATCACCATGAAATGTTATTAAAGCACCATAATTTCTAGAATGACATGGACCATAACAAGTAATCCAACCTAATTTTTCACTTTCATCCTTATCTTTAAATTTAACATTAAATGCCTCACTAAATTTTTTTCCAATTAAATGTGTTGAAGGTAATTGTAATACTTTTCCTGATGGTAATAATACATCAGCTGCAAAAGTAGATTCAGCGCCAGCAAATTTATCCCATTGTGGTCTTTCAAAAAAAATATGAGGTAAACTTAATTTTTTATATAATAATTTATGAGTAATTTCCATATCTTGTTTAACTTGATTTAATGAATCTTCACGCGTAGCAAAAACATTATGAGCTTCAGACCAATATAATTCACGAGTTCTTAAAAATGGTCTTGTCATTTTAGTTTCATATCTATATACAGAACAAGTTTGATATCGCTTAAATGGTAAGTCATTATAACTATTAATCCATTTACCATACATATCATATAATGCAGTTTCTGAAGTTGGACGTAATGCTAATTTTTCATCAAAAGTTTTATCTCCCGCACCTGTAACCCAAAAAACTTCAGGCGTAAATCCGTCAATGTGTTCTGCTTCTCTAGTAAAATTACTTTCTGGAATTAATACTGGCATCAATAATGGTTCATGACCTGTATTTTCAAGTTCAGTTTCCCACATATTAGTTATTTTTTTAATACTTTTTACAGCCCATGGTAAATACACAGGAAATCCTTTTATATTGTATCTAATATCAGCTAACTCAGCTTTTTGCATTAATTGTGTAAACCATTCACTAAAATCAGATTCTTTTGACACCATAATTTTTTGCATTATATCTTTAGCCATAATTGCTAAATATGTAAATTGTTTATAATAATTACTAATAATAAACTTTATTAATATAAAAATAATAACAATAATATGAAAATATTAAATATATTATTAATTGTACTGATTGGATTATTACTAACCGCATGCGGAGAAACTATTGAGAATAAAAATAATGGTGAAAATAATAATATAAATAATAATGAATCAAAAAATAATATATTATTAACAATAGAAGATGAAAAAGAAATGGTTAAACAAAATATGTTTGATTTATTAGAAGAAAATAATAATATGTTAATTAGAGACATTAGTGGTAAATTAATTTTAAGATGTAATTTACTTGATTGTGGAATTTCAAGTAAAGTAGAGCATGATGAATTATTTTCAGGATCAAGTCCAGAAGTAGAAATTATGACACATATTACATTTAATAAGATTATAGAAAATCAAAATAGTTTAGATGCATATAATCAAAACATTAAAAATGTAAATTTAAATCTATATTTTCCTGAACAAAAATCTGAAAATATAAGAGTACAAACTTCATTTTACGATTTAAAGGATAATTTAAGATTTACTTCATTTGAAAATGGAGTACTTAAAGGAAGTTTAGAATTTGATATTGAAACATTAACATTGTATATACAAGACTCAAAAGATGACTCTTGTATCACTGGAGATATGATGGGAATTTGTTATGAAGATTTTCCTATAACTGGAAAATATAAGTTAAATATTGAATTTAAAGAATTAGAATTAAACTAATATTCCAAAATAGATAAGCAATTAAAATCCCAGAAATAATATCAATCAAAGTATGTTTTTTTAATAATTTTCTACTCAAAAAAACTAATAATAATACTAATAGATTAAAATAAATTAAAAAAATGGAATTTACTATTGATAATGAATATAAAAATAATAAAGTTGCCAAAGTAGAATGTCCTGAAGGAAAACTATTTTTGTCTATTAAATAAAATGGATTGATTTTATTATAATTATTATTCGGTCTTTTTTTCTTTACTAATAATCTAAATGTAATTATTAAAGATAATGAAAATATAAATGATAAAAATAATACATTTGAATATTTTATATTAAAAAAATAAGAATAGACTAAAATCAAAAAAAAGAATGGAATATCTCCAAAAACTTCAAATTTATTTAATAAATATATTAAAATTTCTTTAAATTTCATATTAATCAATAAAAATTACTATTAATAAATATTTTTGAATTTTAACAAAATTTATAAAGAATAAACTTTGGATTTTGTTATAAAAAAACGAAATGAGGATAATTAAAATGGAATTTTGCCCAGAAGATGGTTCTTTAATGGTACCAAAAAACGAAGACGGAAAAATTGTTACTGCATGCCCAGTTTGTAATTATCAGTCCAAGAGTAAAGATAGTAATTTAATTAAAGAAAAATTAGAAAAAACTGAAATATTAAAAATTCACAAATCAAGTGAAGAACTTGAAGCATTACCAAAAGTTGATGCTGAATGTCCTGAATGTGGACATAAAAAGGCTGCATATTGGCAAGAACAAACTAGAAGTTCAGATGAGCCTCCAACAAAATTTTTTAAGTGTATTAAATGTAAAAAGACATGGAGAAGTTATAATTAATTTAACTTTTTTAAAATCTTTTTTTTTGAATTTTTTCCACTTATAATTTCATATTGATTTTTGGTTAATTTTTTTAATAAATTTAGTACTTCAATATTTGCTTTATTATTAATTGGCTGAGATTTAACTTTAATATAAATAAGATTATTAATTTCATCATATTCAATTATTTTACTTTCATTTGAATTAGGTTTTATTTTTAATTCGAGAAATTCTTTATTAGCAAAATTCATTTTAATGAGTTCACAAATTCTTTTTTTGATTTAAATCCTTTTTCTTTTGCAAGCTTAATTATAGCTTTATCAAAATTAGAACCATATTGAGCACCTAATTTTTTTCTATTAATAAATAATTCATCTTTAATATATTTTCGTGCATATTTTCTTAATATTATTTTTTTTTGTTCATCATTTATCTTTAAAGACGAATCAATTAAAAAAGAATATTTAACTAAATCTTTATCTAAAAAAGGCAATCTTAATTCAATATTATTTGACATCAATATTAAATCATCCCTATACAAATCACGAAATTGAATATTCTTAAATCCTTCAATACATTCTTTATTAACATCTCCACCAGCATTTAAAATATCTAAATGTCTACTATAACCAGCAAAACACTCTTCACTTCCAAGTCCGCTAAATAAAACATCAACTGAATCTTTTTTTGCTAATTGCGAAACAAAATAAAAAGGAAGTGCAACACCCAATTTAATTGGATCAACATCTTCAATTATACTCGCAACCGTTTTTATATTTTTTTTCAAATTAAACATAGTACAAAAATTTGATTTAAATTCAATATTATTTTCCTTACAAAATGTTTGCGCAAAAGTAAAATCAGGACTAACTCGCATATCATCACTTGCAAAACAAGAATTATAACAAACAAAATTATAACCTAAATGTTTTAATATCATAACAATAAGAGTACTATCAATACCTCCTGAGAATAAAACCCCAAATTTAATATTTTTAGGAACTCTTTTTTTTATTGAAGATACCATTAAATTATCTAATTCATTTAATATTTTATTTTCATCTTTAATATATTTTCCATTAACTTCATATAAATTAGAATCAATTTCCTCATCACACATTTTATTATTATTTAAATCAAAACAAATAATTTTATTTCCATCCAAATTATTAATATTATTATCATCAAATATTTTTTCAATAACTTTACCTTCACTACAAATTAATAAGTTATTATTTTCAAATGCATATTTCATTAGCTTAATACCAAAAAAGTCTTTAGCAATAAAAACTAAATTATCTCTTTTATTATATAATATAAAAGAAAAAACACCATCAACTTTATTTAATTCTATTTTTAAAGCATTTAAACTTTGTTTAATTAACTCATCACGATCATTTAATTTTAATGGTAATAAACTTGAAGTTAACAAATCAAATAAAACTAAACTATCACTATTTGCATTTTGCTTTAAATTCTTATAATTATAAATTTCACAATTTGTTGCAAAATAAAAATATTTTTTTAAAATTGGTTGATTAACTTGAGATACAATCGCATGTAAATTATGAAATATAAAATTATTTGGAACTTCATGAATTTTATCCACTTTAAAATAATTTTTAATTTCATTAAAATCAGTAATACCAAAATTATCTAATCCCCTATTCTCTATTAATTTCAAATGTTTTTTATTTATTTTTACATTATAATTAAAATTTGCTAAAATCCCACACATAAAACAATGTTAATTTTTCTATTTAAAAATGTGATCATAATAAATAAAAACAATATATAAATTAAACATATTTATAAAACTCAATAAATAAAATAAAATATGACATTTATTGAGATTATATTAATAATAGTTATATTTTTAATGTTTATTGGAACAATATTTGATTTTATTAAAAGGGAAGTTCCAGATACAATAAGTTATTCTATTATAGGAATATCAATATTATTTAAAATATTTGAAAGTTTTTACTATAAAGACATATATATAATATTTTATGCGGCTTTATTTGGAATAATATCATTTTCCATTTGCTATTATTTAACATATAAAAACATTTGGGGTGGTGCAGATAGCAAATTTTTAATTGGAATTTGTATTTTATTATCAGGACCAATAAATAATATTGAACATTTATTTTTAAACTATATTACAAGTTTTTTTATTATTGGATTTATTTTTTCAACCCTATATTTAATTATTAAATCTATCATTTATTATAAAAAAATAAAAAAAGAAATTCAATCCATATTTTTTAATAAAATAAATATAGCATTTATTTTAATCCTAATATTAACATTAATATTCACTCAAAAAATAGAATTCATATTTTTATTAATAATGATTTTGGCATTACTAATATTAATATTTAATAAAAATAATTTTGAAAATTTAGAAAAAAAAATATTTATAAAAAATGCCAATCCAAAAACTATTACTGAAGGAGATATTTTAATTAATTCAATTACAGTAAATAATAAAACAATTAATAATAAGCCAATGGGCCTAAGTTATAATGATGTAAAATTAATCAAAAAACATTCTAAAAATAAAATATTGATAAGATGGGGAATTCCATTTATACCAGTTTTTTTAATTTCATTTATATTTTTATTAACAAAAATAAATTTATTAAAAATAATTATTTATTTCTTGATTTTTTAGTAATTAATCTTTTTAAAAAATAATTATCAATATCTAATTTTTTATATGGAATATATTTTATAACTTCATCAACACCAAAAGTAATATTATTCCCTAAAGATTTAAATGCAGTAATAATTTCTTTAGCAACAATACTAGATTTTTTATTACCTGATTTAAATATTATATAATCAATATTTAAATTTTCAAAAACGGACAGCGGACCCCACAAAATTAAATCATTAAATAAACCAATACCAGATTGTTGATCCATATAATTAATTGTAGTTTTTTTTCCTTTAATATAATAACTCCCTCTTGGAAGCTTTATACCTTCTGGTGAAGTTTTTAACATTTGTTTTCTTTTAATCCAAAAAACTTCAGGATTTAATAATCCACTTTTTGCACTTTTTGAAAAAATAGCCGTGAATAAACAAATTTCATCTAAAATTTTTTTATCATTCATTATATCATTAAAATTATTCGAATTTAATTCAAAATCAATCCCAACATCAAAATTTTTATTATTTAAAACGGCATAACCACTACCAGCTAACATTGTATGAAAAACAATATCATTTTCAGTGGTATATTTACTAATTAAAATCTCATTTGTATTAATATCAGAACCCATTAAAATAATATTTTTAGAAGATGTAATCATCATTCTAAATTGATTATACCAATTTTTTTTTATATTAATATTTTTTTTAGTATTTTGATCTAAATCATTCAATTTTTTAATTTCAACATCATTTAATTTATTTAATTTATCTAAATCTTTATCAGCTTTTTTTAAAATATCTAGAATTTTGACATTTTTTTGTTTTAATTTTTTTGATTTTTCAAAATATATATTGGCATTATTTGCTAAATCCTGTGTATAATCTAATTCAATTTCCATTTTTACCTTTTGATAATAAAACAATATTGTTTCCAATAACATTAATTAATATACAATCACATTTTGATACAATTTCATTTGCTAATTCCTTTCTATCACGCAAACTCGATATTGATTTATTCAATTTAATTTTGATTAATTTTTTTTTATTAATTAAAGACCTAATTTCATCAATTAAAGGCCTAGTAATGCCTTTTTTACCAATATGCAATATAGGTTTTAAATTATGTGCTGTTTTTTTGATATCATCTAAGTTAAACATAATACATAACAAATTAATATATTTAAAAAAATAACTAATTTTCAATAATATTTACTTGTTCATTCATTATAATGTTTGAAAGATATTTGATTTCAATTATAATTAATAACAGTTCAACATATATTTTATTTAAGTAAATATTTTTCGAAACACCAAATTTATCATAAACATCTTTTTCTAATTTTTTTAAATCTTCAAATGAATCATTTGCAAGCATAAAATTTTTTGAATGATAGGAATTCATCAAATCTGAAAATAAATTATTAATATTTTTAATATATTCTATAAAATTTTTATCCAAATAATCTGAAAGACTATAATGAAATATAGTATCTGCAGTCCTTAAACAATTTTTTAAAATTAATTTAAATTTTTTTAAAATTAAAAAAAAGTTTAATTTATCATGATTGTTTATATCAATATTAAATTCATTATTATTACAAGATAAATTAATTATTCTATTAATTAAGTATTGAATTGAATTAACTTCCTCATATCTTTCATTTATTGACTGTAAATCGGCCTTGGAATGAACTTCACTAAGAATAGAAAAAATATATTTAATTATAATTTCACAACGTTTTATCATATTATTAATAGACAATTTTGAATAATCCAATAAATCTTCAATTATAATTTTATCCTTACCAGATTCAATAATATTTAATCCATTTAATTTAGAAATAAAAGTTTTAATTTCACTATTTTTTTTTATTATATTACTACACTTTATTTCAATTATTTCGGCTCCTTTAACATATGCAGATAAAATTAATTTTTTTATTGCAGAAATCGGTAAATCTTCAACATTCAAATTACATATTTTTTTAATTTTTTTATTTTTCTCAATAGATTCAATTGAAATTGAAGTATCATTTTCAATTACTGAAACATAATTACCACTAGTCAAATTGTTATTTTTTAACCATTTTTTTGGTAAAGATATAATAAAACTACTTTTACCAAAAGCAATTATTTTTCTTAATTTCATAAACATATAAAACATATACCCATTTATTAAACTAATTATTAAAATTAATATAAAATAAATCAAAATAGAGCAATTTTAATTAAAAAAGTTAAAAAAAACATAAATAACATATACAACAATATAAAAACATATAGTAAGATTTATATACTAATCAACAAACATTAAATTGTTTATAAGATTTACTTAAGTTTTATAAAAGAGGTGCAGGTTTATGGCTAGAAGGCAATTTGATGTTGATCTTGATGTTTTGAATACAATGCCGGTTACGGAAATGAATGCAGATTTGGATGATGAAGCGTCATTTGACCAACAATTGGAAAATTTTGTTCAATCTGATGTTAATGAAGATTCAAGTGAATCAATTTTTGATGAACTATTAGATTTTGAATAGTTTTTAATTTTTTTTATTCATTAATTTTAAAAATAAGAATTTTTCTCATAAATCATGTTATTAAAAAATATTAGATTTATTTTAACAAATGAGCATATAATTGAAAATTGCGATATATTAATTGAAAATAATAAAATAAAATCTATTAAAAAAAATATTTCAACTATTGACAAAGAAGTAATTGATTGTTCTAATAAAATAATTCTACCAGGTCTTATTAATTTACACTTGCATGGTGGAATGAATATTCTCAGAGGAATTTCTGATGATTTAGAATTAAATGAATGGCTTAATACAAAAATTTGGCCTGCTGAAAAAAAATTAAATGAAAAAGATATTTATTATGCAAGCCTAATTAGTTATTTTGAAAATTTATTTTCAGGAACAACAACAATAGTAGATGCATATTTTGAAATAGACAGCATGAAAAAAGCTGCAGAAAATTCAAATATAAGAGCATTTTTATCACCAGCAATTTTCAATCAAAATGATATTGAAAAAGTTAAAAAAAATAATTTTTTTTTACAAAAAAACAATTCAAAAATAAAACCCTTTATTTTTTTACATTCAATTTATGCAACTGATAAAAAGACATTAAATGATACAATAGATTTTTGTAATAAAAATAATATAATAAAAGCAATTCACATAAGTGAAACAAGAAATGAATTAATTGAAATAAAAAATAATACTAAATTAATGCCAATTAATTATTTATTAGAAAATAATTTTTTTGAAAAAAAATCATTATTAATTCATTGTATTTGGCTAACAAAAAATGAAATAAATTTAATTAAAGAAAAAAATACTTCTATTGTACATTGCCCAAGTTCTAATATGAAACTTGCAAGTGGTGCAACACTACCATTAATTGAGTGTTTTAATAATAATATTAATATTGGCCTTGGAACAGATAGTGCAGTTAGTAATAATTGTTTAGATTTATTTAATGAATTAAAATTAACTGCATTATTACAAAAACATCATAGATGGGATGCCACAGTTGCAAAAACAAATCAAATAATTAATATGCCTTTTGAAAATGGTGCAAAAGCTCTTGGAATTGACAATTTAGGTTCAATTAAAGAAAATAATTTAGCAGATTTAATTAGTTTAAATTTAAATGATTTTAATTTATTAGACACAGACAAAAATACATTAATATCAAATATAATTTATTCTGCAAATAGATCAAATGTATGTGATGTTATAGTAGATGGTAAAATATTAATTAAAAATAAAAATTTACAAACACCAATATTAGATTTTAATGGAAATGAAATTTCATTAGAAAAATTAAAAGATATAGTTAATGAAATCAAAAATAAAATATTATAATTTTGAAATTTGTTTTTTTAAATTTAAATTTTTATCAATTATTAATTTTAAAACTGTTTGTAAAACATCTCTAGGTTTTACTTTACCATTAGTTTGAAGAAAAACTTTTACAATACCAACTAAAGGATGTGATTTATTATATGCAGCTGCAATTACATTTTTTTCTTTCCAAAGCATATCTACCAATAATTTTGAAAAACCATGATCGAACTTTGGTAATTCAAATTCAATAGAATTATTATCCTCAGTTAAAACTTTAAAAATATCCATTTGTAATCTGTAGTTTTACTTTTGATTTATAAGTTTATGCAAAAGAAAATAAAACCAATAAGCAAAATAATCTTTTATTACTAACTAATAGAAACATTTATATATAAATTATAAATCTAAAAAGTAAGTTTTAAATATATAGTCTGTAAACGACATATATACGGCAAAAAAAGGGTTGAGCAATAAAATAAGATGGTAAACAAAATGGAAAATACACAAATATTCAATGTTTTTTTTAGAGAAAAACCTGCAATGATGTTAGTAAGTTTAAGAAATGCTAAAGGTGCTGTTTATGCCAGTTCATTAGCTAAGCTAATTGATTGTACATATTCACATGTAGTTAAAATATTACAAGAAATGGAAAAATCTGAATTAATTTCATTTGAAAAAAATGGAAGATTAAAATTATTAACTTTAACTGAAAAAGGTTCAAAAATCGCAGATTCAATTGAAAATATTAGAGCTAATCTAAACTGCAATTAATTTTTTATTATTATTAATTTATTATTAAAATTCTTTTTTATTATTATATAAAAACAATTCTAAACATTTTAATTATTTAAGCATAATATCATTCTAGAATTAAATATAAACCCTAACGAAAAGAGTCAACGAAAACAAAAAGCATTCGAGGTCTCTTCCCGCCGGGAAAAAGAGGTGATTATAATTCCTGCAGACCTAAAAGACCTTACAGGAAATTATTGATAGACAATGAGTTGTTTCTATATGGTGGTAAACAAATAAGGTTTATAAAGTTATTTATTACTATTCAATGAATTTAAAAAAATCAATTAAGTTTAAAAATTGATTAATTTTATAATTAATTTAAAAAGAGGATAAAATGAACAAAATTATACTATTTATATGCATATTTACGCTTTTAAGCTCATTTTCAATAGCATCAAATAATACTAAAATATTAATTGAAACTAATTTAGGTGAAATGCAGCTTGAATTATATGATAATAAAGCTCAAATTACAGTTAATAATTTTTTAAATTTGACTAAAGAAGGTTTTTATGATGGTCTTACATTTCATAGGGTTATAAAAAATTTTATGATACAAGGTGGAGATCCATTAGGAAATGGCTTAGGTGGTCCAGGATATAATATTCAAGATGAATTTAGAGTTGATTTAAGGCATGATAAGCTTGGAATTTTATCAATGGCTAATAAAGGAATCAAAAATACAGGCGGAAGTCAATTTTTCATAACATTAGCCCCAACTCCTTGGCTTGATGGAAAACATACAATTTTTGGAAAAGTCATTGATGGATACAATACACTTAGAAGAATTGGAAATATTAAAGTTGATGAAAAAAATAGTAAACCAATACAAGATGTAATTATAAAAAAAATAAAAATTCTAAATCCAGAAAATAATCAAGTGGAATCAGAAAGTAATAATTGGATAAAATATTTAATTATTTTAATAATAGTAATAATAATTGCAATTATTATATACTATAAAATAAGAGGAAAAAAAGTTGATTCTGAAAAAGAATATGTTGATTTTGAAACATTACAAGCAAAAAAAGACATAGAAGAAAAAAAAGTGGAAGAAAAAAATCCATTTGAAGAATTTAAATAATTTTTATTTGTAAATTTCAGTATAGTTTTGTTCATCTGCAATTCCTTGATTAACAAAACCATATAATTTTTTTTTATAATCTTCTGGTGTTTCCTTACCTTCGACTAAATGATCATAAGTTAAACCTAAATCATTTGTATCTTTAACTTGTGAAAATCCAAAAGGTAACTGCACTGATCTTTTTTCTATTTCGGTCATACCGCTTTCAGTAAGTGCTTGAGAACTTGATTTTAAACCATATTCTATTTGAGTTAAAGCTTTAGTTTTTGCCTCGGCAGTAATTTCTTTAGTTTTAATAACTTCTAATTCTAATTGTTTAGATTCTTTTGAAAAATTATTTTTTTTATGATTATCAACATCATAATGTTTTCCTGTAAATAAATCTCTATTTTTATTAGAATCGTCATATAATTCAAAAAAATTATCTTTTACTGATTCTAAATGAAAATAAGAATTTGGTTCTGAAACTCTCCAGTTTTCTTTTTTAAAATCTTCTTCTCTCTTAGGCCTTACTCCACCATATAAATTTGGATTTGTTTCATCATAAGAATTTAAAGCTTGTTTTTCAATAAGACTATCCAAACCTTCTACAACATTATTACCGTCTTTTTCAATTTTTAATAATGTACTTTCATATTTTTTTTGTAAATTTTCTTCTATATAACCAATTTTATCTTCTGAATATTTTTTAAAATCTTCACATTTTGTTTCTAATTCATCAATTTTTTTTTCAAATGCTTTTTTTTGTTTTTTATTTAATTTTTTACCAAATTCTTTTTCTTTTAATTCTAAAGTATATTTACTTGGATTTTCAATATATTCTAAAAATTCTGGTGCATTTATTTCAAATTCTTTTAATTTAGAATTTAAATCTTCATCAAATCTTAAAATCCCATCAGTGATTGAATATTTCATAGCATCTAAGGGTTTAAATTCAAATTTACTTCTAAATTCAAAATCAGATTGATTTTTTAAATAAGCCAATAAAAATACCATATTATTAAGCATTAAATCCATAAAAGAACAATACAATTAACATTTATAAAAGTTGGTTTTTGTTGTCACTAAATGATGGTTAAATTAAAAATTGGAATTTAAAATATTTTCATCTATTTGTTTAATTTTTTTAATAATTTCCTCTTCATGTTCTTTTTTGGTAACTGCACCTGAGGCTTGTTTATGCCCGCCGGCTTCACCACCATAATTTTCTACTAATTTTCTTGCTAAATTATTTAGGTTATAATTACTTTTATTATGAACTCTAAAAGATAACTTAAAATTATTTTTTTGATAGGCTGAAATAATTACAATTTTTTTAGTTTGTTCTATTCCACCTTTAGTTAACATAGAACTTAAAATGCCAACTAAATTAGGATTTAATTTATCTTTATAATTAATATAAATTATTAAATCATTTTCAAAAACAGTTCCATTAGCTCTCATATCATAATAAATTTTCATTGCATTTGATATTTGACTTTTATATTTTTTATTTTCAATTTTAACTTCAGTTAAATTATTACACAAATCTAAACAAAAATCAATACCAAGTTTGACATTAAATAATCTTGAAAGTCCATTTAAATAAGTAGAAATTTCTTTTGCTTCATATAATTTACCCTCATCATTTAATAAATTAGGATGAATTAAAATATGATATGAAAATAAATATTTTCTTAAATGAAATGGAGTGATTTTTTTTATTGCATTCACTAATTTTTTTTGTTGATTTCCATCAATTTGTGAAAATGTTTTTTTTCCGTCTATATTTAATTTTTTTAAAAATTCATAAACATAACTTTCTTTTCTATATAATTTAGGAATTTTAAAATCTCCACTAAATGTCAATGTAAAAGAAAGTGGTTGACTATTAAGTCTAAAAATATTTAATTCTTTTCTAACAATAACAATTTTGTTATCAACTGCTTCTTGTTGTAAAATTCTATTCAAATATAAAAAATTATTTTGATATTGATAATCCCCAAATGCACCTATTAATGATAAATAAATAAATTTTTTAATTTCAGGATTTAATTCTTTTAAAATTAAATATGAAATCCCTGCAGTAGAAATTTCTTTACTTCCATTTATACCAAATAAAAAAGGATTAATGAAAATAATATTTTCAGGAAGTTGACAATCATCTTCTATTTCATGATGATCAATAATTATCACCCTATTTTTATTTGATAATTTTTTTTTAATACTATTTAATTTTAAACTACCTGAATCTAAAATAATTACATTTTTTTGAGGCATATTACTTATTTCATCAATACATTCGTCGTCCAATTGTTGTATTATTTTTAAATGTGGATTTTTATCTTCATAGAATTTCTTAAAAAGAGATAATGAAGTAACACCATCAGTATCTAGATGTGAAACTACTAAAATGTCATCCATATTAAAATAAGGTTGATTTTTTTCTAAAAAAGAAAAAAAAGATTCGTAATCATTCATAAAATAAAAATAAATTCTTAAATTAAAAATTATTCTGTTAAGAATCTAATTTTGTCTATATCATATGTCCAATCAGATGATAATCTTTTTTTATTTTTATAATAAGTAACTAACCTTGCAATTTTTGACTCTGTAAGTCTTAAACCTCTTTTTGCCGGTTGATCTTTCTTATTTTTTTCCAAATGTTTCTTTAAAAAAACAATTTTTTTTAATAGACATAGTAAATCTTCTGGAATTTCACCAGCTGTATTATTATTTAATAAGAATTTTACAATTGGCATCCCAATAATAGTCTTTACACAAGGAATACCATAAGTATCTCTTAATACTAAACCCACTTGACTTGGTGAAATACCTTCTTTTGTAAATTTTAAAATTAATGCTTCTAACTCTTCTTTAGAATAATTTACCCATTTTGGATTTTCCATACCAAATGGCTTTTTTGACTTGGATTTACCCTTATCTCTTGAAAACATTCGTGACATTTTTTTTCTCCAGTATAAATTAGCAATTAAACCAATTTACCCTATTTCAGAAATTTTTAGTTAATTTATAAATATATGGTTGGATCTCTCCAACCAAACACCTCTTTCCCGAAAGAATATAAATAAATTGGTTGGACAATTCTAAAGGGGTAGTTTGAGAAAAGGCATCCAACCAATTTGAAATCCCTAAAAATTTATACATTTTTAGGGGAATAGCTGATTTATGATAACACATTTTCATGTGTTGCTTATAATAAATATTAGATAAAAAAAAGATTTAAAATTAATGCAAATACATAACGTTATTTAATTTTGAAAAAAGAATTTACCAATTCAGTATATTCTTTTGAAATTTTTATATGCCAATCATTTGGAAAACAAGAATAATAATTTGAATGAATATATCTCTCATCTATAAAAATTATTACTCCCCTATCAGACTCAGTCCTTATACACCTACCTGCACTTTGAATTGTTTTTGACATTGCTGGATAAATATATCCATAATTCCAACCCTGTCCATATTTTTTTTGATAAAAATCAATTGTACGTTTAGTAATTAAATTGGGTGTACCTAAAGGCAATCCAACTATTATAACACCTTGTAATTGATCACCTGGCAAATCAATCCCTTCTGCAAAACTTCCATTTGAAACGGCTAATAAAACTGCACCAATTTCTTTATATGAAATAAAATTTTTAATCAAATCACTTCTATCAACCTTAGTCATACCAGGAAATTCATTAAAAATTGTTTTATTATTTTTATATTGAAAATAAGGTGCCACCATATCTTTAAATTTATAAGATGGGAAAAAAATTGAGACATTACCTGGAATATTGTTTAACAAATTTGAAATATGTTCACCTATTTTTTTAAAATTAGTTTCAGTTCTCATTGTATAACGAGAACTTGTTTCTGGTATAATTAAATTAAGTCTATTATTATTTGAAAAAGTTGTTTCATATTCTTTTAATATCACATCATCAGAAAACCCCAATAAATCTTTATACATTGAAGTAGGATTTAATGTTGCACTCATCATCAATGTACTATGAACTGAATTTATTAATTCTTTACAAATAATTGAAGAATCTAAACACGCAAAAGAAAATTTAAATAATTTTTTTGAACCAAGTTCACTATAATTTAAAATACGTATATAACCTTGTTTATCGATTTCCCATTCCAATAAAAAATCAATTAAATTTTGTAATACAGATTTATGTTTAGGTTCATCAAATTTTTTGTCTAATTCAATTAAGGTATCTATTATTTGATCATAAGATAATTTTGTTGATTTTTCTATTAAATCATATAAATCATTTTTTGTTATTTCTAATTCTTCAATTCTATGTCTTATTAAATTGTGTTCCATATAATTTTGTAATCCAGTGAATATATTGTCAACTAATTCTAATTCAGAATTAAACAATTTTTGAGCTAAAATTTTTTGTAATCTACTAAGAGATAATCCATTTAATGAAAAACTACCTAAATCCTTAATTCTACTCGGTAAATTGTGAGCTTCATCAACTATTACTAATAAATCATCAATATCTATTTTAGATTTTTTTAATAATTTTGAACAAATTGAGGGATTAAATAAATGAAAATAATCACCTATTACAACATTTGCATCAGAACCTAATAAAGTAGAAACTTCATAATTACATAAATTATATCCATAAATTATTTTAATGGATTCATTAACATCTAATGGACTTTTTTGTTTTAATTCAGTTAATGCATTTTTAGTTAAATTAGAAAACTCACTTTTATTTTTTAAATTAGTGAAATATTTACAACTTCCAGTTTCCCTATGTAATTTACAAAAATTAGAAAATTCACCATTATTCATTATTTGTGCATTAGGTTGATTACACATCCATTTTTTTCCAATTAAATCTAAAACTATAATTTTTTTTCCAAATTTATTTTGAATTAATTTAATTGTATCAATAACTGCTTTATGTTGAGTAGTCCTACTAGTCAAAAAAAACACTTTTTTTTTATTTTCTAATGCATAAGTAATTGCAGGAGATAATGCTGCTACTGTTTTTCCAACACCCGTTGGTGCACTGATAATTAAATTTTTTTTATTTTTTAATGCATCAAAATAAGTATTCATAAAATCGGTTTGACATGTTCTTAAATTATCAAAAGGAAATAGAAATTTATTCATATTATTTTCAGTACCAATTTTAGTATCTTTATTCAATTTATCTGCACTTTTAAAATCCTTCATAAATATAAAAAAAAGAATTTGTTTAAAAGAATAATGTATAATTGTCCAGTGACTAATTTTAATTAATCAATATCAATTAAATTTTTCTTTATTTTTCCCTTCCATTTCCACTAAATCTAACATAAATCGTTTTGCAGTATTTATTATTTTATCATGTGAAACTCTATATAATTCAGATATTTTACTAACTGGATCATCATTTGATTGATGTGTACTATTTAATATAAATAAATCTAAATCTAATTTTTTATTATTAAAATTTTTCTTAACTTTTTTCCATTTAATAAAAAGTTCTTCACAACGACTAATTATTAAATCAACTGAGCAATCAAATAAATCACATATATCATTAACTAATTGATCATTTTTTGAATCAATATTTTTCGCTAAATTTCCAGTAATAAATGTAATTCTTACAATTCCGTCTTGAATTTTATTTGTTTTTAAAATTTTTATATTTTCAATTTCTGAAGTATTATGAACATGCGTACCACCACAAGCTTCTATATCAATTCCATTAATATTAACTAATCTTAAAACATCTCCAGGAACTGCACCACCTTGATAAATTTCCATACCAAATTTATTTTCTGCATCATTTCTATTTAAAAAAATTGATTCTACATAAATATTTTGTTTTATTATTTCATTTGCTAAATTTTCAATATTATTTTCTTCTTCTTTAGTTAATGCCTTAAAATGTGTAATGTCTAAATGTGCCTTTTCAACAGTTTTTTTTGCACCTGCTTGATTAATATGAGAACCTAATATTTTTTTTGCCGCTGCATTTAATACATGTGCACCACTATGATTTTGTGCTAATTGCATTCGTCTATCTTTATCAATATTACAATCAACTACATCACCTACATTTAAATTATAAACATTATCCAATTTGTGAATAATATATTTTTCAAATTTCATTACATCAATTACATTTTTATCCTCAATAGAACCTAAATCATGTAATTGACCACCTGACGTAGGATAAAAATATGTTTTGTCTAATATAATATAATTATCTATTATTTTTAATATCTTAGATTGAAAAGTTAATGTTTTATAGTCATCATAATATAGGATTTCAGTATGATTAATATTAGTTAAATCTAAATTAATATCTGTTTTTGTGGAATGAATTTGTTTAACAATTTCATTTTTTTGCGAAACTTTAAAAAAAAAATCTGATGGAATTTCAATACTATGTCCATATTGTTTTGCTATGTGTTGTATTAATGAAGGCGAAATACCATTTGAATCATAGAGTTCAATTAATTTATCTTCACCTAAAAAATTAATTTGTCCAGAATCAATAAGTCGCTTAATAATTGAATTTGCTTTAATTTTATTTTGATTATATTTTTCAATTTCAATATTGATTATTTTATGTACAATCTCTAAATTATTTTTCAATTCAGGAAATAATGGTTCTAATATTTTTGCATGCAAGTCTATTATTTCATTTAATTTTATATTCCAATTGTATTTTTCAATAAAATCTAAACTTCTTCTCAATATTACTCTCAACATATAACTTCCACCAGAATTTGACGGTAAACCTCCATCAGATAAAACAAATAATAATGTTCTTGTATGATCAGCTATTGAATAAATACCACTCATTTTTATTATTTCACTTTTTAACTTATTTTTTTCAATACCAGATAAACTTGAAACTTCATCCCATACTAATTCTATATCATCGACTTCATCTAAATTTAATTTAGAACTAAACGGCACATATTTCATTTGTAATTCTTTATCAATTTTATAATTTGCTTTTTCACATAAAAAATTAATTACTTCAGGATAAATGGCATCATAAATTGTAGGGGTAGCTTGAGAAAACCATGCTATTCGCTCCATCCCCATCCCCATATCTAATACTTTTATTTTTAAGTCTTGTACTCCTTTTTCAGTTTGTTCAGATAACATATATACTTGATTTCCTAATTCTACACCTTTTGAAAAAAATTCAACACAACAACCTACATTTCCCCCTCCTGCCCAAGCATCTTCGTGAAATATAATTTCAGTTTTATCTATTCCTAATCCTTTTGTTAAATAATCATAAATATCCTCAAAAACTTTTTCTTGATTCCATTCATTTGCTTTAACAAATTGATGTTGACCAATCATAATAAAACCAGTACAATGTTGTCCACTAATTCCCACATTATCTAAATCAGGAAATCTTACACAAAATTGTGGAATTATTAAAGGATTTGCAGGTGGCTTAACTTCACCTGAAATGACATATGGTTGAAATGCTGCAATACTTGAATTTGTAAATTCCATAGTTGGATTCCATCTGGCAACAGTTGGATATCTATTAATTGCAGTATAATTTTTTTGTTCAAATATGGTTTTAAAATTATTCCAAACATCAATAAAAGATAAATTTTCTTTTGTATTTTTTTTTCCAATAAATTCGCTAATAACGCCAGCTTGAGGATCACCAGATATTTTTCTATTTGGATCAGTACTCCAAAAAGGAAGTCCAGTTTTTATACAAATATTTCTATGATAACCTTCAGATGTTAAAAATTTAGCAGGATAAAATTGTCCATAATTGTCTTTATAAAATGGCTTCAATTTATTTTTTAATTCTTTATCCGATAACATGATAATATTTTTATACTTTGATATTTAAATTTAACTATTAAATGAAATTTATTAAAAAAAAATATAGTTAAATTATTAAATAATGCACAATCTCCCTCAATAATATGGGTAAAATAGAGGTATTAGATAAAAATCTTATTAATCAAATAGCTGCTGGAGAAGTTATTGAAAGACCAAGTTCTGTCATTAAAGAATTAGTGGAAAATAGTATTGATAGTGGTGCTAATAATATTATAATTGAAATTGAAAATGCAGGTAAAGATAAAATTTCTATTATGGATAATGGATGTGGTATGAGTATTGAAGATGCAAAAAAATCTATAATTAAACATGCCACTAGTAAAATTAAAACAAATGAAGATTTATTTAATATTTATACTATGGGATTTCGAGGAGAAGCTTTAGCTTCCATTGCCAGTATATCAAAACTTCAAATAATTACAAAAGATAATAATCATACTGGAATTAAATTATATATTGAAGATAGTAAAATAAAAAATAGTGAAGAATTTCCAAGAGAAAATGGGACTAGTATTATTGTTAAAGATTTATTTTACAATACTCCTGCAAGATTAAAATATATGAGAGATAATTATTTAGAAAATTCATCGATTATTAAAATAATACAAAATTATGTTTTAATACACCCAGAAATAAATTTTGAATTAAAAATAAATAATAAAGAAATAATAAAGGCACCAAAAAATAATTTTAAAAATAATTTACTTAGTATTTTTGATTTAGATATAGCAAAACAATTTTTAATTATCAATTATAATGATGAAGAAAAAAAATTAAAAATTGATGGTTGCATTTCGAAACCCAATATAAATCGAAATAATAAAAATGAAATTTATATTTATTTTAATAAAAGACCAGTTAAAAATTCAATTGTTTATAGAGCCATTATGGATGCATATCATAATTTATTATTTAATAAAAAATATCCAATTTGTATTTTAAATATAGAAATCGATAATGAATTAATAGATGTTAATGTCCATCCACAAAAAAAAGAAATCAGAGTTAAAAATGAAAATGAATTATATGAATTAGTTTATACTTCCATAAGAAATAAATTAGAAAAAAGTAATTTAACTCAAGATTTAGATGAAGAAAAAGAAAAAAATCAATTGCGGATGGATGGAACAAAAATAAAAACAAAAAATTATGAAAAATATACTTATGAGTCAATAAATAAAGATTTTGATTTAAGCAATGAGAAAGGATCAGAGATTAAAAAAGAAAATCTTCAAGATAGTTTAAAATTAAAAAAGAATATTAAGGAAAGATTTAATCCTGAATTACACAATACACAAGAAGAATTATCATATAATACTTTTGAAGAAGAAGAAGATTTTGAATATGAATTTCAAAGTGAAAATAAATTTAGTGATAATAATACAGATAAAAATTATATTGTGGGTCAAAATGATCATTTATATTCAAAATTACAAAATGATGAAGAATTTGAAAAAGAATTTATTAAATATATTAATACAAATAATAAATTGAAAAATAAAGAGAATTATAATTTTCAAAAAGGTATTAAAGTTATTGGACAATTTCATAATTCTTTTATATTAGCTCAAGATGAAAAAGGCCTATTAGTTATTGATCAACATGTTGCAGAAGAAAGATATTATTATGAACAATTTATGGAAAAATATTTTAATAAAAATATTGAAGTTCAAGAAATATTAAATCCTATTGCAATTAATTTAACCCCAGAAGAATATAATTTTACAATAAATAATATAGAAAATTTTGAAAAACTTGGAATGAATATAGAAGAATTTGGAAACAATCAAATAAAGGTAAGAACATTGCCTATAATATTTAATCGATTACAAGATACAAATTTCTTTTTTTCATTACTTGAAAATTTACAAAAAGAAAATATATTTAAAATAAATAGAAAAAAACATAAACATATTTTTAATGAAGAAATTGAAAATAATGAAAATTATAATATAATTGATGAAATTAAAGAAAAAATAATAACTAAAATGGCTTGTATGACTAGTTTAAAGGCAGGTGAACAATTAACCATTAGTAAAATGCAATCAATTGTCGATAAATGGGCATTAACTAAAAATAAAAATACCTGTCCTCATGGAAGACCAATTCAAATAAGATTAAATTTTGCCCATATATGGAAACAATTTAAAAGAGATGGATAATATTTATAATTAAACAATTTTTATTTTAAATATGATAAGAAATTTAAAAAAATTAAATTCAAAAGAAAAAAAAAACATATTAAATTTATTAAAAGAAAATTATGGTTTTAATAAAGATTTGAATGAATATACTTTTTTCATTAATAAAAATGATAAAATAAATTTAATAAATACAGAAACATATGAATTAATTGATTTTGACGATTATAGAGTTGATTCTATTGGTGTTTATTTTGGAGAATTAATAAATAATACAATTCGTTTATCTATAGAAGGATCTCAATTAATAGGACCATCTTGTAATAGAAATATAATTGAATTGAATGAAAATCAGTTAAATTTATGGATTAGAGGAAAAGATGTTGAAATAGATAAAGAAGGAAATGATTTTTTTTTAATTAAATACAAAGAAGATTATATTGCTTGTGGAAAATTAAAAAATAAAATATTATTAAATTTTGTTTCTAAAGCAAGAACAATTAGCGCAAAAATTGAAGATGAGTGTAAAGCAAAAATTTAATTATTAAAAGACCAAATTTTATCCCCAATATGATGAATATTTTTTAAAACTTTTCCAGAAGACATATTTTTTATATCATTACTTGAAAACAGAGCTATACAAATAGAAATTGCTTTTTTATTTTTCTCATCAATAATGGCAACAAATTCATCTTTTTCAAAATCGTCTAATTCTACTATGCCTGGTTTCATTAAATCAGCACCCTTACATATAAATGGAACTGCTGGCATATCAATTGTTACTGTTTTTAAATTCATTAAATCAGATTTCAAACTCGGTATAAAATTATTATTATATTTAAAAAATAAAATATTATTGTCAACAGATAAATAAAAATCATCAATTAATTTAACTAATGATTTTAAATTTATATTTAAATTATTTTCTAAATTAATTTTTTTAATTTCTTTTTTTGATAAAGTTAATAATTTAACCATAAAAAGAGAAAAATAAAATACTTAATAAACTTAAGTAGAGTTAATTAACTATTGTTATTTATTTTATTCCCCTTAAAATAATTTTTAATTTGGCACTAGTATTTTTAATTTTTAATATTAATTTTTTATTTATATCACTAGCAGCTTTTTCACTAAAAGTTCCAAAAGTATTATCACTTTCAAAATAACTTTTTCTAAAAGTTAAAACATCTTTTGATATAAAATAGGGATTAATATTACACATAAAACTATCTTCCACATCATCACATATCAAAATTACATTCATTAAATTATAATTTAAAAATTCTTTTAATTTTTCAAATTCAAATGTTGCCTTTAAACCCAATATTGAAGTTTCATCTAATGAAACAAAATCTTTCGTTACAAATTTAATAACTCTTTGATTAGTAGCTAATATATTTGGATTTCCAATACAAGTAAATATATAGTCCATATTTTAATTAATCAAATTTTGTTTAAAAACATTTATTGGTTAAAAAACAATTGTTTAAATAGATTTAAGTTGTTTTCTTAATTCATTTAATATATCATCTTCAAAATTTTCAGAAAAAGAGTAAGTTCCAGCTTTCGGATGTCCTCCACCCATAAAAAAACCATTTGGAAATTTTAGTTTTATTTGTTCAAAAAATTCATTAATTGAAAAATTAATTTCTTCTGAAACTCTAAATGTAAAACCATTAGCACCCTTACAAACCACTATACTTTTTTTAGAAGTCATTTCATCTCTTATAAGACTTGCAATTTTTGAGGCACCAAAACCAAGTTTTTTTGGCATTATATTCAAAGTATTTAAATATACAAAATTAAAATTATTAAATTCTTCTTCTTTAATATAAGATTTTAATTTTTCTTTTACAAATAATTTTTTTTTATTTTGTTCATCTAAAACCATTTTAAAAATAGTTAAATATTTTTTAGGTTTAATAAAAAAATCATTAAAAAAAATTGAATTTGTATTTGACCTTGTTAAATATGTAAAATAATCAACACCTTTTGAATAAATTTCTAAATCATCGCCAAACGTATTATAAAAATTAATTATTTCTGCAGGACATTTATCAGCCATTGCGGGAATTGCAGGGACATGATCTAATTTATTATAACCCATTTTTTTAATTAATTCATATGTTAAAACCCCGGTACATAAAGAACTATCACCACCTTCTAAATAAGGATTAATATGACAATCAACAATTTTATCAACTTCATTTTCACCTATAAAACAATGATGATCAATAACTCCTATAATACAATTAAATTGTTTTAAATATTTTATTGCAAGTAAATCTTGTTCAGAAGAACCATGATCCAATACTAAAACTAAAGGATTACAAAACCTATTATTTTTAGAAACATCAAAAAAAGCATCTTCTATAGTATAATAAGGATCCATCATTAAAGAACGTGTAATTTTTTGTGAATTTGATTCATCATATTTTTTTTTTAAAGAATTTAATACAATTTCAAATTGAACACCAGAACTAAATCCATCACAATCATTATCATGTTTAATAAAGATATTCCTACCCTCTATTAAATTAGTTAAAACTACATTAAAAAAAGTTTCAAAACGTTTTTGTAATAAATTTAAATGTTCATGTTTTAAAACAAAATGCTCATTATATTTTATATTTTTGTTTATTATTTTATTATATTCTAAAAATGATGTAATTTTTGCAAATGATAGATTTCTACCATCATATTTAATATCATAAAACTCTTCTAATTTAATTTCATTAAAAAGATTATTATTTCTACATATTAAATCAAAATTTTTATTTCCATCACAAAATTTTATTAATTTAATTTTTTCTAAATCAAATTTCGAAATTACTTTAACTTTCATTGATATACCCATTCACTATGACCAAATGTAATAATTAAATCTACGCCCAATTTTTGAGTAAAAAATGGCACATCACAAGCACCATAATTACTTCCAGACCAAAAAACTATTTTTGCATCACTTACTTCCTCAATAGCTTTTTTAATTTCCATTGAGTTTGGCTTCAAACCACAAGGTAAATGAACTAATATTCTTCTTGGTTTCTTCAATTTTAACTGTTCTTTTAAATTATCTAATTCTAAATCATACATAATAGACCTAAAATTCAAAATATTTTTAAACCTTACTCTATATTTTTGATTAATGATTGATTTATTAAAAAAAATTTATGAATTAAAAAAATGTCATAATATACCAAAACATATAGCAATAATTATGGATGGTAATAGAAGATATGCAATAAATAATAATTTAAATAAAATTGAAGGACACGGAATTGCCATTAAAATGATGCAAAATGTCCTATTTCCTACTATTTTTGATAAATTAAAAATTCCAGTAAAAGAATTTTCTTTTTTTGCATTATCCTATGATAATTATTATAAGAGAACTAAAGAAGAAATTGAAATTTTAATGAATCACATTAAAAATTTCATACCAAATTTTGCAAAATCTGAATTAGTTAAAAAATGTGGTATAAAAATTAATATAATTGGAGATATTGAATTATTAGATGAGGATATTCAAAAAGTGTTAAAAAGTGCAGAAGAGGAAACTCAAAATAATAATAATTATATTCTTAATTTTTTAATTATGTATGATGGACAAGAAGAAATTGTTAATGCAACTAAAAAAATTGTAAAAGATTCTATTAAAAATAAAATAAAGATTGAAGATATTAACTCAGATTTAATAAGATCATATTGTGTAACTAGTAGAACTAGTAAACCAGATTTAATTATTAGAACAAGTAATGAAAAAAGATTGAGTGGCTTTTTTCTTTTTGATTCATATTATTCAGAATTTATATTCTTAGAAAAAAATTGGCCAGAAGTTAATGCAAGTGATTTAATAGATTGCATAATTGAATATACAAAGAGAGAGATAAGAAACGGTAAATAAAGTAACCACTGTTTAGTTAAATTTATAAAAAACAAATTAGACAAAACCCCATGAAATGGTTAACTAAAGCTCTAGTTTCACTATATTGTATTTTTCCGACTTTTGGACAAAATTGTAAAATATATGAAGGTAATAGTAAAAATATTTATAATAATATTTTAAAAGTAAAAAAACCATATGAAATTAAAGATGCATTTTCTGACATTAAAAAATGTCAAATTAAATCTGAAGAAAAATTAAAAGGAATCGCAACCTATTTTCTAGAAGAAAAAAAAACTGAAAATCCTTTTTCAATATTATCCATATTAAATTATCGTCAAGGCGCAAGTAATTATCAAAAATTAAATGATCGAATTGTTAAATCAGTTATGAATTTTATAACGGCATTAAATTATTATGATACATCAAATCATAATTTAGAATCACAAATTCTCACTACCGATGTTAATTTAACTGTTGAAGAATCTGAAAATGCAAAATGGCAAAACAGTGAATTTAATTTACAGGAAGAAGCAAAAAAAATACCTGAAAAATTAATTGACATTGTTAATTCATTTGAATCTGAAGAAAGATTAATTTTTATTCAAACATTGTCTGCATTAAGAACATATTTTTGTGATTTTTATAATACACGACAAAGTAATACTAATAATATAAATTTTGAAAATAATAGTGAATTATCAGGTACAATAATTAATTTAAATTATATTCAAAATAATTTTGGAAATAATAATATACTATTTTATTCTTTGAGTAATTTATACCAAGGATTAAGTATATTAAGACAAAGCGATATGAATTTAAATTCTGATGAGGTTTATAGTACAACTGGAAATAAATTAAAAGATTTTTATAGTGAATTATTATTAACTGATTTAAAAGGATTAGAAGAATTATCAAAAGAATTTGATCACATTTACAAAGAAAGTGCAAAAGAATATATGAAAACTTTAAGTTTACTTGAAACAAGTAAAAATAAATTTCAAACAAGACATGCAAAACAAATTAATAAAAAATTTTCACAATTAAAAGGCAATGAATTATTTAATTTATATGGACAAAATAATTCCAAAACAAAAGACATATTATTTACAGATGCAAGTCAAATTAGTGATTATGTAGCTGTAAGTTCTGTTATTTTAAATATATTAAATGATTTTGAAGTATTTGATAGATTAATAACAAGCAGTATAAGATTTAGAGTTCATTATGATCAATCCAAATATACTTCAATTGATATTGATACAAATGACTTATCAAAATTATTTTTAAATAATGATATTTTAAAAATTAAACAATCAAATTTATTATTTCAAAAAGGAGTAAAAGTATTAGAAAAATTTGTAAAAGAAAAAAAATTAGAAAATATTTTAGGTGAAGATGAAAAATTAAATAACCCTAGAGAATATTTAAATGCAATTAAAGAATATAATAAGTACAATTTAAGGTTAAAAAATCAAAGATTAAATTGGAGAGACACAATTTTTAAAAGTTTAATTCAAATGCCTAAAAATTATATTAAATCAATATTTGGATTAGCACAAATTCCAAATGAAATACTTAGAGTTTTAAGAGGAAAACAAAATTTAACTAATGGTATAATTAATAGTTTAAATAAATATTTTAATTTTCAAATGAATAGAGCTTATTTACAAACACCAGAAAAATTATTATTAAATACTTCAATACATAGAGCCATTGAATCTGATAAAAATCCATTAAAAGATCATTTTCAAAATGACATATTATCAACTATTTTAAATATGACTTTACCTATTTATTCACAAATTAATTTTGATATAAAACAAACAGTTAATCAAATAAGGTCAAATTTTAGTAAATTAATAAAAAATCCAAAAAAAGAAAGTAAACGAATATTACCAATATTATATAATTCATTTTTAGTTAAACAATCAATAACTGATAATAATAGTAATATTAAAGATCAAATAGATTCAGATATTGAAAGATTTAAATAATGTATAATAATTGTAAAATAAGACAAAAAAATCACAAAATCAAAAGAAAAATTTATAAATAACCACAAATCAGTGGTAACTGATAAAAAGGTATAAATATGTCAGAAGAAAACACTCAAATTACAAAATCACAGGAAACATCACAGTTACCAGGAATTCTTAAAAGCTTTGGTAAAAGATTTAAAGGAATGGAAAGTCAATTAATGAATAGTGGAATTCGTGAAATATTAAGCCGAGATAATACATTATTAAAATTATTTTTAACAGAATATGAAACAAGTGATAGATTTGCACCACAAGGTGTTGAAACTTTAGAAAATGTTGATTTTTTAAAAGCAATTTTAGCACAAACAATTCTTCCCGGTTTTGAAACTTTATATATTAAAAGACCAGTACAATCCAAATCAAATGAAAGTAATTTAGAAAGAGTATTAAGTGTAGATTATGGAACTTGTTTTTCAATTCACAAAACAAATAGTCAATCTGAAAACAATCAAAATGGACAATTAAAACAATTATATAAATTTGATAATAATAGTGGTGAATTAAATGATATTATACCTAGTATTGTAAATGCTTCATTTGAATCTCAATTAAATATATTAGATTTATTTTTAGATAATTATAAATTACAAATGAAATCTATTGAAGGTGGTTTATTAAGTTTTAAAAGTAAAGATCAAACACCAGAACAAGATGCATTAGAAGATTTTGTTTCTGAAAATTTAATTGGAAATGTTAGTTTTGACAAAAAATATAATAATAATATTCAAAAAATTATAGATGCAATTGATTCAAAATTAGAAGATATTTATTCAATAACTGAAAGTTTAAATCAAGCATTAAATTTAGATCCATATAAATTAAATGAATTATTCGCATCCAAAGATGAGTCTGCATTAAATACTGGAGAAACATTAAAATCTATTTTAAATAAAAACTCTTTTGTTTTTAATGAAGAAAATGAACATCTACAAATTGGTGAATATCAAACAATTTTAGCAGAACAAATAAAAGAAACAATTAAAGGTTACAAATCAGATTTAGAAAAAATTGAAAGTAAATTTGAATCACGTAAAAAAGATTATGAAGTATTAAGAGAAAGTTTAAATCAGAGTTCTCAAAATAAAAAGAATACTGCATACTTCGTTAGTCTTGGTTTAGCAGCAACGCTAGGTTGTAGTTTTTTATATCATCAAAATTCACAAACTCAAGACGCCCAAGAAACACTTTCTGATCAAGTTATAATATTAGGTGATAATGCAAATGATGCAGCAAATAATGCAGGAAATGCAGCAAAGTATGCAAGGGATGCAGCTAACAATGCAGACAAGTCATTAATAGCCGCTAACAATATTTATGTAGATTCACAAAAACAAATGACAATAGCAAGTAATGTTTTAGGTCAAGGAAAAACATTAGTTGAAAATTCAAATACACAAACTAAAGAAGCAAAAAGAATAGCTAAGGCAGCAGAAGAAAAAGTAAAATTAGCAATAAAACTCGCTAAATTAGCAGAAGATAACGCTAAAAAAGAAAGACAAGATAGAATAAAGGCACAAAAATTATACAAATCATCTTTAAAAGATTTAAATGATTCTAGAAGTCAAAATCAATCTACAGTAACTAGTTTGAATAATTTGTTTGAAAGATTAAAAAATTATAGAATTCAAAATGAATCAAGTTCTTTTCAAACAAATTATGGAAGTCAAGAAGAACCTATATATCAATCAGAAGAAACAGCTCCAATATATTCACCACAACCTCAAGCACAGAGCGGTGATTTATTAACTGGTAAATGGATTACTGGACCAACTAATATATATAAAAATTCTTTAAGTTCATTTGTAAAAGGAAAATTGTATACATGTTCAAAAGAGCAAAATGGTGGTGCAGAAGAAGTAACTATTTTTAGAATAAATAAGATCTTAGAAGCTTGTGGTTCACAACCAATAAAAATCAAATAGAATTTTAACTAAATAGGTAAAACCAAAATGAAATTTTTCAATTTTTTTAGTGAGAATTTAAAAAAATTAAAAAACCTATATTTTTCTTTAAATCAAAAAGAAGAATTACTTATGCCCAATAAAATATATTTTAATAATACTAGAAAAACTAATGCACATTTAGAAGAAATGTTAAGTTCTGGTATTTCTGCAAAATTAATAGAAGGTCCACAATTATATGTAGTTCCAAAACCATTGAATTATTTTAGTGAAGAAATACAAACTTATGGAAGTGCACTTACACAATCAATTGGAATTGTATCCGACATTCAACAATTTTGTAATATTGCAAAAAAATTAGAAAAAATATTTGTAAAAAGAGAAGATATGATAACAATTGAAGATACAATTGATATTGAACCAAATTTAGAATTAGTTAGTGAAAGTGATTATGATATTGTTAAATATTTACAAAATGTATTAAAAACGAGTCAAAATTATGCAGAAGATAAAATTGTAGAATTTTTTTTTCCAAATTATAAATCAGAAAAAAAATCACCTGAAAAATTATTAGAAGAAAAAGTAAAAGAATATGAAAGTTTACCTGTTGATTATGATAAAACTAAAAATATAATTCGTGAGCTTTCAAATACAAGTAATATATTTTTATTTGGGAGAAATTTACTGCAATCAAGTAAATATAATAAATTAGATGAAAAAGAAAAAAAAATAGTAAAAAACAAATTTTACAATCACATTCCAAATTTATTAAAATTTTTAAAATCACCAAAAGAATATTTAGTTAATGAATTAAATATAAATGAAAAATATGTAAATGAAAACTTCAATTCTAAAATTAATAGCGAAAATTTAAAACAAAATTTGGCAGAATATTTTAATTTGCAAAACATAAGAATGAGTTTGTTTGGTGAAAGAGAAAGAGAGAAAAAAAGCGAAATTGTAGTTGAAAATAAAAATCATGAACAAAATAAATTAAGTAAAAATGAATGGAAAGAAATATTATTAGATTTTTCATACTTTATTTTGGGAGAAGAATATGGTTCTTCAGAATGTGTGTCTGAAAATTTAAAAAGTATTGCAAATGTTCAAGCAGAAAGTTCAATGCTTTTACAAGCAATATATAAAACATTTGAAGGGGGAGAAGAAATTAATCCCACATTATTAAATATATTTTGGCCAAAATATATTTCAGAATTAGGAAATAAAAATAGTTCTGGTAATAAAATAATTAACTTGAATAAAGAATCAAATGTGGGAGATGAATTCATTAATAGTATAATAAATGAATATAAGAGTGCAAAAAAAAGATCAATAACTCTTTCAGATTTAGTTAAGACAATCCCAGAATCAAACATAGAAAAAAAAGATGAATATAAACAATTAATTTATCAAACTTCAATGACAGTACTATATGGTTCATTATTAGAATTAAAAAGAAGAAATATAACTATTGAAAGTAATTATATGATTACGAATTATATTAATACAATATTGCAAAGCTCAGGGTTACCATTATTATATGAAATTACAAATAAAAATGGAACTGGAGAAACAAATACAGAAATAGAAAAAAAACAAGCCATATTAGATAAAATTAATGAAAATTTAAAAATCTTATTTTGTGAATCAAAAACAAATAACCATCATGGAAGAATATCAAGATCAACTATTGATTATATTTTTATTAATGGTGTCAAAAGTGACCATAATCAAATGGAATCATTAAGAACATTACCACAAAATGCTTATACAAGCTCACAAAAAAATAATACAGAAATATTTAAATTATTATTTAACTCAGATTTGTCAACTGTAATTTTTAACTTTATAAGATTTTTATCTAAATATAAAAATAATGCATTAGAAAAATTAAAAGATGAAGTTAAAAAGAAAAAATATGAAAGATTTTACAAATTAAATGAACATCTTGCATTAGCAACACTTAATTCAAAATTTTTAAATGAACAATTATTTACAATAGAAGATAATAGTGAAGAGTTTAATGAATTTAAATCTTTATTCAAAATTGATGAAAATGAAACACCATATGTAAGAGATGGATTAATTAATGGACAAATAATTGATTTAATTAGAAGACCATTAACAAAAGAAGATTTAATTGTTAAAAACATATTAAATACAGATAAAAATTTTATTGGAATAGATGTTAATGATGATGAATATAAAAAATTATTAAAAGAAGGAACATTAGGTCTATTACAAACTACATTTCCCCAAACACATTTTATAAAAAAATCACAATTAGAAGAAATATCAAAAAGAAAAATAAGTCAAAGTGAAATTGAAAAATTAAAAAGAAAAAATAAAAAAATAAATTTAAGTGCAGTAAAAAAAAACATAAAAAAAAAGAAAAAAGAACAAAAAAAAGCAACTCAAGAATTAAAAGAAGAAAACAATATTGCTGAAAGTCAAAATATTCTTAAAAGACTTTCAAAATTAACAGATTCTGAAAAAGTATTATTAGAAATGGGTAAAAGTGAAACTCAAAATTTAATTACTTTTAATCAACAAAACTAGAACATATACATTACAAAACCAGATGTTTTAAAATTATTTAAAAGACTCTATAAAATCTATATTTTTTGAAATACAAAGTTATTCAAATAAATATTTATAAAAGTAATAATAACACTAAAAAGATAATTATACTATAATATAGTAAAATTTATGGGGTTAAATATGATAAATAAAAAAAGTTTATTGGCATTATGTACATATACACTAATTTCAAGTTCAAACCTTTATACTAAAGAAGAAGCTATTGTAGACTATAAAACACCTATTACAAATGCTCAAACAGAATCAATTAAATTTAAATTACCGTTATTTTATGGTTTAAATCCAAATACTAATAGAAATTTATATGGATCAAATATAAATAATGTAGGACGATCAACAGAAGAACATAAAAACTCTATTGGAGATTTTTTAAAAAAACATGAAAAATCAATTTATACAGGATTAGGAGTTGCAGCGTTATTTTGTCTAAAAAATAAATGTTGGAAAACTAAGACTGTTAAACCTCCAATAAATGAATCAGAAATACTTACAGAAACGGGTAGCGGACCAGATTTTGTTCCAACAGGAACTCATAGGTTTTGAATATAGTTATTATAATATATAATTGTTTTTAAACCCAATAAAATACTTTAAAACATAACATATGAGATATAAAATGAGGACGAAAAAAACTTTAATATTTGCATTATTATTAATAGTCTGTTTAGGATTAGTTAATGCAATTCAATATAATTTTGAAGTAAGAGATCAAATAACTAATGACTTAATTCAAGATGAAATAAAAGTATTGACTTTTGAATGTTTAAATTCAGATTGTTCACAAACTATTCAACATAATATAGTAAAACATTTTTTCACAGGACAAGTTGAATATAAATTTCCAATAACACCATTAGGAAATAAAAAATTTAAATTAAAAATTCTCAATAAAAATTATTTACCAGAAAATCTAGATATTACAATAAGAAATGATGTAGATTTAGGTTTAGACATTTCAATAGATAGAAAAAATGGACCTGTTTTATTAAAAAATGCATTAAATTGTTATGCACCAGTTATTAGATTAGATGAAATAAATTCATTAGGAAAAGGTGCACCATTAATAATAAAATATCAAACAAATATTCAATCCGATATTGGTTCACCATTTGAATTTACAAAAAAATTATCAGATGCAGAATTACAAAGTAATGATTATTTAGAATATTTAAAATCAAAAGTAGATCTAACTTTACAAATTAATAGAAATGGCCAGGAAGTAAAAGAATTTGAAACAGTATTAGAAATGATTCCTGATGAAATTTCAGAATTTGAATTTGCATACACTCCACAAACAGCTGGAATTTATACTTTTGAAATGCAATCTCATATTGAAAATAGTGGAATTTGTTTATCTACAAGTCAATCAAATCACGAAAGCACTGTAAGTATTGAAGAAAATGCACCTGAAGAAAATTCATGTAGTTCAAGAATTCATAATTTACAATTTACAAGACCAGTAATTGGTGCTGATAATACAGTTATTGTTTCTGGTGAAGTATATTCAAGAAAATCAACTGGAGATAATTTAGAAACAAATTTTGTACCAGTTCCAACTCAAGTTACTTTAACAACACCTGGAAGTAATAATCCATTAATTGTTAATTTAGATGAAAATGAAAATAATTTATTACAAACAATTACATTTCCAAACTCATTAAATGATATTGAAATTTATAATTTAGAAGTTGTTGCAGAACCAAATGATGTTTCATGTATTAGAAAAACAAGTCAAACAAAAAGTTTAGATGTAAAAAGAGATATAAGTTTAGTTAGTACAACAAATGGTTTAATCTTTAAATCAATTCCTGATGCAATTATATCCATTACAAATCCAAATTACATTGTGGACTTAACTGAAAGAACAGTTGATTTTGAAGGAGACATAGTTACATATAAAGCAACTGCAACTGGTTTTAATTATGAAAAATTTGAATTAAAATTAGAAAATAATAATTTAATTATTAGTCTTAAAAATTCAAATGATTACTTTGATTCATATTTAACAAATGTACAAGTAACAGCTAATGATGGTACTAATAAAGTGACTCGAACATTTAGAGTAAGAACACCATCAGCAAGAGGAGATACAGTAGCAATTGCAAAATTCCCAAATAAAATATATGAAGGAGTACCAGCAATATTTGATGCAAGTGAAACAATTACAAGAACTGGTATTCAAATTACAGAATATGAATGGGATTTTGGCGACAATACACCTATCCAAAGAGGAAGAACTGTAGTTCACACATATGAAGACTCTGGATTTAAAATATTAAAATTAACTGTAAGAGACAGTGCAAGAAATATTGACATTGCACAATATCCTATAAACATATTAGATTCATTTGAAAATGTTGATATCGAACCAATGGATTTTGAGGTTAATAAATTTATATTTAGAAACCAAGAAGTTAAACCTGGAAATAAAATATCAACAATATTATCATTTACAAATGATGCAGAAAAAGACTTAGATAATATAAGAATAGTACTTATAATTAAAGAACTTGGCTTACACAAAACAATTGGACCAATTTCAATTGACAATAAAGAAACTTGGACAAGACAAGTTGATTTAGATGTACCAAAAAATACAATGCCTGGAGAATATTATGCTTCATTAATAATTAGTAATGGAGAGTTTTCAAGACACAAGTATAACTTTGTAAGATTATTAGAAAATTAACAATACCAATCAAAAACACTTCAAAAAAAAACACTACAAAAAATAAGAAATATATGTGGGGTAAGCATAAAAAATGAAAAGCAAAAAAATGTTGTTATTAACTATGTTAGTATTCGTAACTTTATTAGCATCAATTAGTTTTGCAAGCGCAGCTGTAATTCCAGTAAGCGATGTAAGAGTTGAAATTAATGATCACGATGTAAGTAAAAAAGGCGAAAGCGAAATAGTTTTGAACTTAAAAAGAGATAGAACAATTGAAGTTGAAGTTGAGTTTGAAGCAGACGAAAATGCAGATGATGTAAGAATTAGAGCAGAAATCGTAGGTTATGAACACGACCGAAGAGACAGATTAGTTGATATGACTAATTACTTCAATTTAAGAGAAAACAATAGATATGTAAGAACATTACAATTAAATCTACCAACACTAATGGATAAAGGTGACTATACAATAGATGTACAGTTATTAAAAAGAAATGCTGATACAAAAACATTTAGTTTCCCAGTTGTTATTGATACACAAGATGACGCTATGGAAATACGAGATGTTATTTTTACACCAGGTAACTCCATTAAAGCTGGAACTAGTTTTATTACTAATGTTAGACTTAGAAATATCGGTAATGAAGAACAAGATAATGTTAAAGTAACTGTTGCAATTCCTGAATTAGGAAGAGTTGATGCAATCTATATTGATGAAATTGAAGAAGAAGAATACAAAACTTCAGAAGGTTTAGTAATTAATGTACCATTATGTGCTGATGAAAAAAAATATGAAGTATTAGTATTGGTAGATTATAATGCTTTTGAACAAGAAGAACAAAAACATTTTATCACAGTTACTAAAAATGATGCTTGTAATGCAGACAGTAGTTTAACAGGTGTAAAAAGTTTTAATGCACAAGCTGTTGTTGGTTCTGCAAATTCAATTGCTGGAAACAAAGTAAGTTTTCCTGTAATCTTATCAAATCCAAGTGATAATTCAAAAACTGTAATTTTATCACCACAAGGAGCTGATGATTTAGGAAATGTTAAAGTTTCACCAAATTGGGTTGTAGATTTAGCACCATTTTCAACTATGACAGCATATGTTGAAGTAACACCAGCTAATAATGTTGCAGAAGGTGAACATTCATTCACAATTTCAGCAACAGATGGAACTAACACTAAATTACTAAATTTTGCAGTAAATGTAAAACCTGGATCTGCTAGTACAGCAAGTTCATCAAGTAATTGGGTATTAATTTCAGTAGTAATTGTAGCAGTATTATTAATCATAATCATAATTATCGTTTTATTTAATAAAATGAATAATGATGATGAAGATGAAGAAGACTATTACTAAATTTTTTAATTTTTTTTTAATTTTTTTTATAATTTAAAAAGAGAAGAACATGAAAAGAAAATATTTAATATTATTAATGATCGTAATTTGTATAAATTTAATTAGTGCTTATTCTATTGAATATCAAAGTCAAGAATATGAAATGTGTAATATAGTAAAAGGTAATTTTACAATTTTTAATTCAGACTTAGAAAATAGTGAATTTGAAATAATTAATAATAATGACAAAATTAAAATTGCAAAAAATCATAATATTAAAAATAATAAAACAATTAACTTCGAATATGAACCAATATGTGAGTTCACAGGCGAAGTAAGAATAAATGTTTTAATTAAAAATAATGAAAATACAAAACAATTAACATTCCCAATCAAATTAATTTCAAAATCAAAAGAAAGTATAAGTTTTAATAATCAAAAATCAGAAACAAATAATTTAAAATTAAATTTATGTAATACAACAAATTTGAAATTCGATTTTAATAATGATAATAATTATGATACAGCATATTTAATTGAAATAAAAGATACAGATTTCGAAAATTTAAATCGAAGTCAAGTTATAAAAATAAATGCAGAGAATTCTGAAGAGTTTAATTTTGAATTAAATAATCAAACAAAAAGAACTCAATTCAAATTAGAACATACAAATGTTTTAACAAATCAATTAGAAGAAATATATTTTAATGTAAATATAAATTCAAATCAAAATTGCACTAGTGAATTAATTAATTTAAGTCCAAGAGAATTTAATTATTATGGATATGGATTATTAATATTAATATTTATTTTATTATTAATATCATTATTTGGAAACCATAAATCAAAAATTAATTTAAGAAAAAATAAAAAAGAACCAGTATTAATATTAAATAAACCCGAAAAACACAAATTTCTAAAATATCAAAATAAAATTGAACAAATAAATAATATTAATGAAAAATTAAAAGAATTAAAACAAACATTAAGTAAACAAGTAAAAGAAATAGAAAAAATCAAAAGTAATGAAGATAAAAAACCAGATATTAAAATCAAACCATCAGAAATATTAGATAAATATAAAGAAAAGAAAATAATAGAAAAGCCAAAAAAAACAATTAAAAAAATTGTTAAAAAAGTAAATAAAAAAATAGTAAAGAAAACAATAAAAACAAAACCAGTAATTAAAAAATCAGCAAAAATAGTTAAAAAAACAAATAAAAAAGTAGTGAAAAAAGCAATTAAAAAAAAAAGTAATAAAAAAAAATAATTTATATTTAACATATCTTTAAAAATAAATTTTATTTCTTATATATTATGAATATAATGGATTATGCTCAAAATTTGTTAAATTATGCAAAAGAAATGAGCAGATTAGATCAAAAATTAGCAAAAAAATACATAAAATCAGCAATAACCCTATTGAAAAAAAAAACAATAAATGTACCAAATGAATGGAAAATATATTATTGTAAAAAATGTTTTTATGTACTAAATCCAAATAATACTAAATTTAGAACACATAATAAAAAATTAACCATCAAATGTAATAATTGTGGCAATATAAAAAGAAAAATTCTAAAAAAATAATAACTACTGTGAAGTAAATAAAAATTTATAAATAAAAATTTACATTTATAATTATGAATAAAATATTTACATTATTAGTATTATTTACATTAATTAATGGAGTTAATGCATATAATTCACCATGGTCTTTTTCATATGAAGAAGCAGAAGGTGACTATTTTGATAATTTTGGAAATCAAAAATATCAATATAGACAAAATGAACAATATGGATATGGTATTGTAAACTCAAATTATGATTATAGTGATGATTATATAGATTATAGTAAACAATATAATCAAGGATATGGAAGATATCAAGATTATTATAATAGAAATATTAATAGATTTTTACCACAAACTATTTGTTTAGATTTTTGTAATAAACCAAAATATGAAAAAACCACATATAATAAAGATTTAACAAGAGAACAATTAAATCAAGAAACTATATTTGGATCAAATAATGATTTAAGTTTTAATAAATTAGGATTTTATACAAGACAAAGAAAAACAGTAAGCTCTGGATTAGGATATAATTCCAGACCAATTATACAAAATAAATTTGAAATTTATAATATTAAAAAGAATAATGGATACATAAACAGTTTTTATTTAAAATGATAAACAAAAAATATATAATAATTATAGCATTAATGGCATTATTATTAATTAATAATTCATATGCATACAATTTAGAAAGAAATTCACCTTGGTCTTATAGCAATACATTTAGTAATAGTCAATATGAAAATGCATGGGGAACACAATCTTCAAGTTATAATTATGATAATAAATATGCATATGGAGATTATTCTAGAAAAATAAATTATGAAGATAATTATAGACAATCAGGTTTAAATTATAAAGCCGGATATGGAAATTACGGCAGTTATGATGATAATCGATATTTAAGAGGAGACAATAGATATTATGATTGTAAAAATTGTATAACTAGAGACAGATATGATGGATTTTATTGGGATTATATTAATAGTTATTCAGATTATCATTTAGATGAAAAAAGTATATATTATCAAGAAACTGACAATTATAAAAAATATATAAAACCACATCAAACATATACAGGACCAGGAGTTTTTTACAAATATACATATAATCGAAATTATAATTCCGGTTTAAATGAAAATTATGAATATCAATATAGTAGAGATAATAATAATTTTTATAATACAAATTTATTTGTAAGGCCATTTGGACAAAGTTATAGAGAATATAACAATTGGTTGTGGAATTAATTAAAAGTTTATAAATTCTTTAAAATTATTAAAACTAATGGAAAAAAAAATTCAAAAGTTAGATCCTACAACAAAAGTAAAATTAAAAAAACTTCTAAAACAATTAGATTCAATTAGAGCAAGACATACAGAACTAATTACAGTATATATTCCAGCAGGTTATGAAATAACTAAAAAAATTCAACACTTACAAGATGAACAAGGAACTGCCACTAATATTAAATCTTCATCAACTAGAAAAAATGTAATTAATGCAATTGAAAAAATGATACAAGCATTAAAAATAGTTGGAAGAACACCAGCAAATGGATTAGCAATATTTGCAGGAAACATAAGTGAAAAAGAAGGTTTTGAAGACTATAAAGTATTTTCTTATGAACCAACAATACCAATGAATCAAAATTTATATAGATGTGATAAAATATTTATTACAGATGTTTTACATGATTTCATTGATGACGATGAATTATTTGGACTGGTTGTCTTAGATAGAAGAGATGCCACAATTGCATTATTAAAAGGAAAATCCATTCAAGTTTTAAAAAAAACACATTCAGATATACCAGGAAAAACAAAAGCAGGTGGACAATCTGCAATGAGATTTCAAAGATTAAGAGTTGATGCAACTGATCAACACTATAAAAAAATTGCAGAATATATGAAAAATGAATTTCTATTTAAAGAAAATTTAAAAGGTATTTTAGTTGGTGGACCAGGAGTTACAATAAATGATTTCTTAACAAAAGGATTCATAACAGGAGATGTTCAAAAAAAAATAATAGGTACTGCAGATTTAAGTTATACAGATGAATGGGGCCTAAAAGAATTATTAGAAAAATCCCAAGACATACTTTCAAATGAAATTATCATTGAAGAAAAAAAATTAGTAGATGAAATTTTAACCTTATTAAGAGATCAATTTAATAAAGTTGCATATGGAATTGATGATGTAAAAAAAGCACTAGAAATGGGTGCAGTTGCTAGATTATTAATATTAGAATCAATTGATGAAAATTTAAGTGAAGAATTAGAAAATATTTGCCTTAATTTTAAAGGAGAAGTTAAATATATAACTGACGACACAGAACACGGTGCACAGTTAAAAGCATTAGGTGGAGTTGTTGCAAAATTAAGATATCCAATTGAATAAATTATTTAATATTAAAATTTCCTAAAAGACAATATTTATTTTTATGTTTTACCAAAATCCCAATTTTATTTAAATGATCCAAATCCGATTTAATAAGAGTTATATGATATTTTTTTGTAATATTTTTATATTTAGGATATTTTTTAATTAAATTAATTACATCACCAACTTCCAAAATCCCATTTTTATAAAAAATATCAACAATTTTTTTTCTTCTTTTTGTTGCTTCTAAACTAGAACCATATATATTAGAATTTAAAATAAATTTAACTAAACTATTTTTAAAACCATTATTAATTTCATTTTCAAATTCAAAAAATAAAAAAATATTAAAATCTTTAGTTTTATCAACAAAATCAAATTTAGATTTAAAATAATTCTCTGAAAAATACTTATACAATTTCAATGCATATGTAGCATAATAAGAAGTATAAATTTGAATTTTTTTATCAGACTTAATTAAACCCCAACCTCCTGATTTAAGAGAATGTTTAATTAAAAAATTAAATGCTTTTTTAACATTAGAATTAAAAGGATCGGCTTTTAAAACTAATAAACAAATTAAAGATAATGAAGTAGCATAAACTGTGGATTGATCATTAATTGTAGTATCAGAAGATGAAAAACCGCCATCCGAATTTTGATTACTAATTAAAAAATCAAGCGCCTCATCAATAATTTCCCAATTATAATTTTGATTGGTTCTTAAAATAGAAAATAAGACATTTGCAGTATATGAATTTTGACTTTTTTCACTATTTTGATTATAACCCCAACCCAATTTATCTTTTGCTCGATTCATATAAAACCATTTTACTAATTTCAATAAAGAAGCATTTATTTTTTGAGAATTATATAAATATAATGGATCAACAATAGAAAAATTAAGTAAATTATAAGTATCAGGAAAAACTCCCCAATATCCACCAATACATTGTTTATCTAAAATTAAATCAATAATTTTTTTTTGTCTTTTTTTAACAAAACTATTATCTAAAAATCTAATTACTTTTAATTTTGAACATAAAAAATTAATTTCTGTATCAGCAGAAAAGTTAAAATTAAGACAATATAATAAAGATTTATTTATATGAGGCAAGTAATCAATATTTTGCGAATATATTAAAATTCTAATTGCCTCACTAGTCCTTACAAGAGTATGATCAAAAAAAGGAGGTATATTTATATTAGGATCCTTATTAAAAATAAAAGAACCATCTTCATTTGAAAATTTCACAATTTCCTTACACGTTTTATTAATTAAATTATCTATAATCTCAATTTCATTCATAAATATACAATAAATTAAATATTTTTAAAAATGTGTGAATTCCAGAAGTAATAATAAAAAAAAGCTATCTTTATAAAAGGTAAAAAATAACTCAAAATATGAGTGATACTAAGTTAACTAAATACGAAAAAACAAAAATTATATCTGCAAGAGCATTAGCAATTTCCGAAGGGGCTGTCCCAAAGGTTGAATTAACTGAAGAAGATCTTAAAAGAATTAATTATTCACCAGTAAAAATAGCACTATTAGAATTTGAAAAAGATGTAATCCCTATTATTATTGAAAAAACTTGGCCAGAAAGAAAAAGTTATTAAAAAATGCCATGGCGAGACAATTATAATCAAATAAAATTTGATTTTTTACTTTTCCACAACAAAAAAATAAATATAAATGAAATAATTTCTAATTTAAACAAAAATTCTAAAGAATATATACTAAATTGTAATATTAAAATTAATGAATGTGAAAATAATAAATTAAATGAATTATTTAATGAAAAAAAATTAATAACAAAATTAAAAATCGAAACTATATTTAATAAAAAAACATTTGAATTAAGCCCAGAAAGTTATTATTATTTAGAATATATAGATGAATTTTTATACAATATAAAAGAAAAATACAATATTAAAATATTTGATTTAATTCAATCAAAAGAAATCGAAATTAATAAATTAAAACCGAATTTCCCCAATTTTAAAAATAGAATTGAAATACACAAAATAAAAAAAAAAGACAGATACCAACTTCACACACATGGATTAAATAAATTTTCCATACCAGACTTACAAATAAATAATATAAAAAAAGAAGAAATAAATGATTTTAAAAAAATAATTATTGAAACTGCAACTAATTTATTAATAAGCAATAAAACTAAATTAAAAATATTAAATAAATATATAATATTAGAATTTATGAGTAATTCAAAAGAACATTTTGACAAACCACAATTAAAAATAATTTATTAAAAAATGATAAAAACAAACATAAAAGAATATTCATTTCAAGAGATTAATAATAAAATTAGAGTAATTTTTAAACAAAATAATTATTTTGAAATCGATAAAGACTTTACAGATATAGAATATGAAATTAAAGATAATCAATTATGTTTTAATACTGAAAATGAAAAAAAAATAAAAAAAATAATGCATAAAATTTTATCTTACGCAGAATATAAAAACATATTTACAAATAAAAAAATATATTATATTAATGAACAAAGTCAAATACCATTAATTGGAAGTATTGCATATGGGTTAATTGACAGGGGTAGCAATATAATTGAAATCAGACCCAATACAGGTTGTAATATGAACTGTCCATTTTGTAGTGTAGATGAAGGTTTAAGTTCTAAAAAAAAAGTAGAATATTATGTTGAACCACATTATCTTGCAAAAGAATTTCAAAAACTATGCGAATTAAAAAATACAGATTATATAGAAGCGCACATAGGCCCACAAGGTGAGCCAGTAGCTTATGACGATTTAGAATTATTTATTTCATTAATTAAAAAAATACCCAATGTAAAAATAATTTCCATAAATACAAATGGAACATTAATTACAAAAGAACTTGCAGATAAATTAATTAAAGCAGGCCTTAATAGAGTAAATTTATCTTTACACACTATGGACACATTAAATTCTAAAAAAATGTTTGGTAGTGGAAAATACGACATAGAACAAATAAAAGAAATTTCACAATATCTTGCAAATAAAATTGAATTAGTTATTGCACCAGTCTTAGTCAAAGGATATAATGAAGAAGATTTAATTGAAGTAATTAATTTTGCAAAAAAAATAAGTAAAAATATAAAATTTCCTAAAATTTGCATACAAAATTTTTTAAGATATAAATTTGGAAGAAATCCAGTAAAAGAAATTAAATGGGATGAGTTTTACAAACAATTAGATTATTATGAAAAAAGTACAAATACTAATATGAAAATAACTGAATCAGATTTTAATATTAAACCATGCAATTCACCAGAAAAAACAATAAAAAAAAATGAAATATTAAAAGTCAAAATTGTACTACCAGGAAGACTTCAAGGAGAAAAAATTGCAATGGCAAAAAAAAGATCAATTAGTATATTTAATGCCGAAAATTTACAAATTGGAAAAGAATATAAAATAAAAATAATAAAAGATAAACATAATTTATATACAGCCGTACCAAATTAAAATAAAATTATAAAATTAAAACAATAAATTAAAAATAAAATAAATTATAACTATAATAAATATAATTAACAGAAACCACAATATATTTTTAAAAATTGAACTACCATCATCAACAGTTCTATTTTCAACAATTTTATCAACATCAAAAGAAAGTGATTTATTATTAGAATCTACATTATTATTAACATCATTTTTATCATCAGTAGTTTCAATTAAAATATCTGAATCATTATCAATTGGATTCAAATCGTCAACTGTCTCAACAATATCATTTTCAATTACATCATCATCTGAATTATCATTAACATCTAATTCACCAGATTCTTTTTTTGCTAACCAGTCCTTATAATTAATACCACAACCTTCTCTTTTCAATAATAATTTTTCAGTTCTATCAGTTTTAATACCAGCTCTAGATTTTAAAGGACTTGGAGTAACTTCAAAAATAAAACTTCCATCAAATAATTTATCTCTTGGTAATTCAAGTTCAATAAAACCAGAATCAGTATACCCATTGTCACCTTTAATTGAATGATAAGCCACTCCAAATATATTTAAAATTCTATTAGTAATTCTAACTTCAGCAGCATCCAAGTCTGATTCTCCATTATTCATAATAGTATAAAAAACTTTAACAGAATTTTCATTACATTGAATTATTTTTGAATCCATCCTTGCATCTTTAATTAATACATCTTTTCTATTTTGATTAAATTTTAAATTCACAATAAAAGGTTCACTATTAACAAAAGTTCTATTAACCCCATATTCACCTTTAGCAGTAATATTTAATTTATAATCACCTGAATTTAATTCATAAGGAGCTCTATTATCATTTTCAAAAATTAATTCTAAAGTTTCACAATCATTTTTTTTAATATCAATTTTTTCATTATCTTCTAATTTAAAGCTACTCCCATCATCCAAATTAGGAATATTTGCAAAAATTTCCACATCCTCTAAATCTTCAGCAAAATCATTACAAATATTAATTTCAAAAAATAATTTTTGCCCAGATCTAATTACTTCATTATATTTTTCATTATTTTCAACAGATTGCTCATCATTATTAATAACTATTGAAGTTTCATCAATATATAATAAACTAGATGCAAATACTGAACACAATAATAATAATACAATAAATATATTTAACTTCATATTTAATATAAAAACCTTTAATTTTTAAAAACTATTGTATTAAAACAGACAATAATTTTATAATAATTAATAAAAACACACAAATATGCAAAATATCATTTCTTTTTCATATCTTTATGACATATTAAGAAAAGAAAAAGTCAACAATGGATTAACTAAATTAGAATATGATTTATTTGACAATATAGAAGATTATTTGAAAATAAAAAAAGAAATATTGCAAAATGCAAAAAATTCAAATAATAATAAAAAAATTGAACAAATCGAAGAAGAATTAAAAACAATTATAGACATTGTAAAACAAGTATATAAAACTAGACTTTCTAAGACTATTGAATTAGCAAAAAATGCACTTGAATATGATAATATTAATGAAGAAGTATTAGAAAATTTATCAAAATTTGAAAAAGAATATTTTTTATCAATTATAAAAATATTTTCAAAACAAAAAAAGTGGCTATTTGATCAATTTCTTTTTAATGAAAAAGAAATAGAAACAAAAAATATAGATAATATAGAAAAATCACAAAATATAGATTCCAATATAAATACAAATATAGAAAATATACAAGAAAACAAAAAAGATGAAGAAAATGAAATTATTGAAGAAATTGACTTAATTGAAGTTATTTTTAATAAAGACGTACCAAAATTTATTGGTTTAGATTTAAAATTTAAAGGTCCATTTAAAAAAGGTGATAAGGTTAAAATGGATAAAAAACAAACAAATTTTTTATTAAAAAAAGGCATAATAACCCTCAATTAAAACCCATTCATAGTTAGTTTTATAAATTGCTTTAAAATTCTGTACCTTATGAAAAAACCAAAAATCATGAGAAAATTTTGCCCTAATTGTAAAACTCATACAGAACATAAAATAAGTTCTACTAAAAAGAAAAATAAAAATGTATTATCAAGAGGTTCTAAAAGTAGAGTAAAAAAAAGAGGTTCAATGGGAATGGGGAATCATGGAAGAATATCTAGACCTCCTGTAGCTAAAAGGAAAAGAGTAGGAGCAAAATTAGCTAAAAGAACAGACATTAGATATGAATGCTCAGAATGTAAAAAGCAATGGTGTCAAAGATTCGGTATTAAAACAAAAAGATTAGAATTTATATGATTCTAATAATTTATCCGCCTTTTTCAAATCCATTTGGCCCAAGTTTAGGCCCAGCATTTCTAAAATCGTATATTGAAGCGAATAGTGATTTTAATATTAATTTTTATGATTTTAATATAAAATTACATAATAAAATAGTAAATGAAGAATTATCTGAAATTGCAGAAAAATTAAAAAATAAAAATATTAAATCAAATTATTTTAGAAAATATTCAAACACATACTATAAAAGATTACAAAACATTTATACAAAATATAATAAAAAAATAATTGAATTATTTAAAAAAAATCAATTTGATTATTTTGATAAAGAATTTAAAGAAATTTTTGATATGGTTGAAAAAAATAATATAAAAGTTATTGGATTTTCACATTTATTTAATCAACAAATATTTATGTCTAGATATTTAGCAGTAAGACTTAAACAAAAATATAATATAACTACAGTATTTGGAGGACACCCCATTGCACACGCCAAAAAAGAATATATTAACAAAGATGAAATAGACTTCATTATTTTTCAAGATGGTGAAGAAGCCTTTTTACAATTATTAAATCACATTAAAAAAAATAATTATAATTTAAAAAAAATTATTGAAGATAAACAAATAGAACACATTCCAAATTTAATATATAAAAAACAAAATGAAATTAAAATAAATCAAGCCGAAAAATTTAATTTAGACAAACAAATCATCCCTGATTACTCAGATATAAATTTTGATGAATATTTAAGTCCAGAACCAGTAATTAATTTAGTACTCGGAAGAGGATGCTTCTGGAATAAATGTACATTTTGTACAAGTCCAATTAATAGTGAAGAATTTAGAATCCGCCAAATAGATGATTTTGTAAATGAAATAAAATATTTACAAAAAAAATATAATATAAATTATTTTACATTTGAAGATGAAATGATTATGCCTAGCATAATGAAGTTAATTGCAAATAAATTAATTGAACAAAAAATAAATATAAAATATGCATTTCTTGCAAAACCAAGTCATAAAAAAATGTGGGACTTTAAATTATTAAAAAAAAGCGGCTGTGTAAATATATATTGGGGAGTAGAAACTGGAAATCAAATGATTAGTAATTTAATGGACAAAGGAACTAATATACCAGAAGTTAAACAAATATTAAAAAATTCACATGATGCAGGAATATCCAATTGTGTTTTTATTATGTTTGGATTCCCAGGAGAAACAAAAAAAAGTTTTGAAGATACAATAGAATTAATAAAACAAGATTATATAGATTTTATTTCTTGTAGTACATTTGGATTACAAAAAGATACCAGAATAGAAAAAAATCCAGAACAATTTAAAATAAAAAAAATAATTAAAAAAAGAACAATTCTCTCAGATAACTATTCATTTGAAAATTTAGATAATAATTCATTATCTAAAACTGAGTTAGAACAAATAAAATTAAAATATAGTCCATTATTAAATGCAAAAAATAAATGGACTGACAAAATTAATTTTTATAGAAATCATATATTAGTATTAAATGAATAAATTAATCAAAGAAATCCACTTTACCATCTAAATAAATTCCCTTATGTAATTTAACTGGACGCCAATTATCACTAACTAAATTTGCATCAAGCCAATCCGATAGTTCTTTAGCATTACCAATGGTTGCACTTAATCCAATCAATTGAATACCAGGTAATTTAATTTTTAATAAAGTTATTAAAACCTCTAATGTAGGACCACGACTTGTATCATTTAATAAATGAATTTCATCAATTATTATTGTCGCAATATATTTCAACCAAGAAAATCCATGTCTTATCATACTATCTAATTTTTCACTCGTACAAAATAAAATATCACAATCACTAAATTTATCACCACTCTCATCCATATCACTAGTAGCAATTCCAATTTTTAAATCCGGATAACATTTTTTAAATTCATCAAATTTTTCATTAGCTAAAGCCTTTAATGGCACAATATAAATTGCTCTCCCCTTATAATTATAAATAGAATTTAACATTACTAATTCAGCAATAAGAGTTTTACCTGATGCAGTAGGAGTACAAACTAATAAATTTTTTCCCTCTAATAATCCAGCCTCAATTGATTTTGTCTGACTCGGCCTTAAAATTTCAATACCGCGATTAATTAAATGATCATATACATTTTTATGTACTATATTTTTAATAGATTCAAGATTCATAATAAAACTCAAACTCAATAATTTATTAAATTATTGAAACAAAGAATACAATAATATTTATAAAAAAAATGTATTAATAGCTATTGTCAAATAAAAAAAGGTGTCAATGAATAAAAAAGAAGTCTCATTTACAAGTATTGAAAATATAAAAAAAGAAATAGATAAAGCTACCTCAAAACAAGGAATTAGTGATGAAATTAATGACATTAGTAAAATAATTGATATTGACACCTGGGTTAAAATTCAAGATAATTTTGCAACAGCAATAAATTTACCAGTATTTCTAATTGAAGAAAGTGGAACTGAGATAGCAGTTTCAAATGACTTCCCATATTTTTGTAAATTAATTAATTCAAAAGAAAAAGGAAGAAAAGCATGTATTAATTGTAGAAAAAAAAATTATAAAGAATTAAAAGAAGAAGATACAAATATAAAATATTTTGAATGTCATGCAGGATTATTTAATATAATGACACCAATTAAAATCAATAATAAAATGGTTGGTGCAATTAATTGTTCCTCCATTCTTAAAAGTTCCAGAAATATTGCAAAAGTAATAAGGGTCGCAGAAGAATTAAATATTGAAAGTGTTGAACTAATCGATGCAGTAAATGAATTACCAATTAAACAAAGAGAAGATTTAGTTTTTAATGGAACTCTACTATATGTTTTATCTCAAACAATACCAGGTCTAGTAAATGAACATAAAACCAATATAGAAAAAATAAATGAATTAGAAATAATTAATAAATTTTCAAATGAAATTCAATCCACATTACAATTAAATGAAACATTAAAAATAATATTAAATAAAATAGTAAAATTAACTAATGCCATAGAATCTTCAATTACAATATACAAAGAAGACAAAGATAATAAAATCCTAGAAAGATATACAAATTCAAAAAATGATTTACAATTATTTCAAAATATTGAAAAACAAATAATAAATAAAATTACTAATGAAAAAAATTTAAAAAAAATATATGAATTTGAAAAAATAGAAGATGAATTTAATATAAAAACTACATTTATTAAAAAAATAAAAACCATTCCATTATTAATGAGACAAAAAATAATAGGTTTTATTTTTATCTACTTAGATAATATAGAAAAAGATAAAAATTTAGAATTATTACAAATTATTTCTAGTCAGTCTGCATTTGGAATAATAAATGCACAACAATTCAAAGAAATTAATACACTAGCCATAATGGATAAATTAACAAATTTATATAATAGACGATATATAATGGAAAAATTAGATGATGAACTTAAAAGAGCACAAAGAACTGAAAGATTTTTATCTATAATATTAATGGACATAGATCATTTTTCAAATTATAATAATAATAATGGACACCCTGAAGGAGATAAATTATTAACAAAAATATCCGCTTTAATTAAAGAAAATACAAGAGAAATTGATATAATTGGAAGATATGGTGGTGAAGAAATCATAGTACTATTACCAGATGCAAATATAAATGAAGCCTTGCCAGTAGCTGAAAGAATAAGAAAAGCAATAGAAAACTATCCATTTGCAAACAGAGAAAAACAACCACTAGGAAAAGTAACAACATGCATCGGTCTTGTAAGCCACAGAGGAAAAAATAAAACAAAAGATGATTTAATAAAACTTTCAGATGATTTATTATATAAATCCAAAAAAGCAGGCCGAAATAAAACAAGTTATAGAATAATAGATGAAAAAAGTAGTGAAATATTACAATCTCAAACCCATCAATAAAATTAATCTGGCAATAATTTTTTATATTTTTCTAGAGATGACATAACTGCACCATACCCATCCATAAATTTTTGTTCATTATTAAGTATTAAAGTTAAAAAATGTTCAACATCACCAAGGGATTCAAATGAACCTCTACCAATTGCCGAAAAATAATAATCTGAATTATCAACGAATGGTACAAAAATTCCAGCAGTTAATTCATATAAACTCAAGACAGAATTGTCTTTAACAAACTGATTAGCTACACCCATATAATCTTTTAAACCTTTAACATATTCTTCAAGACTAGCAATAGTTTCATTTGTAGATATTTTCAAATGCGGAATTTGTCTCCAATCATCATGTTTAAAAAGAGAATAAAATAATCCACCTTGATCACCAACTGAAAGCCTTCTAAACGTATCTTTTTGAAAAGAACATCTTGTATTTTCTAAACAACCTGTTAAAAATTTTTTATTATTAAACCCCAACTTAACAAATTTTTGATCACTCATGAAAATAAGTCAACAAGGGTATTTTTAAACATTTATATAAATAAAAATATAAATAGCAAAATCAAACATAAACTATGGAACATTATTTTATTCAAGACCCAAAAAGTGAAAGTAAAGAAAATAAAATAGAAATAAAAATATTTGACAAAAAATTAGAATTTTATACAAATTCAGGAGTTTTTAGTAAAACTAAATTAGATGACAGATCAGAATTATTAATAAAAAATTGTATAATTCAACCAAATTGGAAAATATTAGATTATGGATGCGGATGGGGTCCAATTGGAATAATACTTTTAAAAAAATACAATATAAATTGCACATTTATAGACACAAATCAAAGAGCAATTGAACTCACAAAAAAAAATATAGAATTAAATAATATAAAAAATAAATTTCAAATATTAAAATGTGACATAGAAGACAACACAATAAATAATAATAAAATAAAATTTGACAGCATATTATTAAATCCACCATTAAAAAGTGGACTTAAAAACTGTAAAAGAATGTTTCTAAATGCATATAATAATTTAAAATTAAATGGAATACTTCAAATTGTTTATAGAAATAAAGTAGAAGGAAATGAATTTGAAAAATATATTAATAAAATATTTGGAAATTTTAATGTAATTACACAAAAAAGTAGAATTAAAGTAACAATATGCAGAAAGTTAGAATAATTTAATTATTTTTATTTAAAAAAGCATTATATTTAAAAATGAAAAACATATAAAAGTTATATGGCACAAGTATTAGACTTATCATTAATTCAATATTTTTTACCAATTTTATTATTTTTAATAATTTGGGCAGTATTATATTCATTATTAAAAAATAAACAATACATTTCAGATAAAGACTCAATAAACAGTTTAATAGCATTTATTGCATCATTATTAATTGTAATAGAATCAAATAGTGTATTATTTTTAGGAACACTTTTACCAATATTTCTTTTTATTGCAGTAGCCACAATATTTTTCTTATTAATATTTTCATTTATAGGTTGGGAATCAAAAAGTTTAAATGAAGAAGTTGAAAGTAATAGCATAATTACTTGGGTAGTTGTAGTAATTGGATTTTTAATCGTTGCATATTCAGCAGGACAAATATTCGGTCAACAACTATTAGAATCCAGAAACCCAGATGGAGTTCCAAGCGACATAAAAAATGAATACGGTTTAAATGAAAAAAATAATATAATAAATTCCAATAATAATGAAATTAAAAGTACAGGAACAGGCGATTTTTTTTCAAACTTAACAAATACATTATTTAATCCAAAAGTACTCGGGATGCTTTTAATTTTAATAGTGGGTGCATTAGTAATAATAATGTTAAGTATACCAGAAGATGACTAGGTGATTTTTTGTCAATAGACATCACATTAATTAACTATTTTGCCCCAATAATTTTAATCATATTTTTATGGTCATTAATATTCGCATTATTACAAAAATCAAAATATTTAACAGACAATTCTAATTTAAATAGTATAATTGCACTAACACTATCAATAATAACACTACAAGCAACCTCAGTAAGTAATTTCATTACAAATTTAATACCATTTTTTGTTTTTGCAGTATTTGTAGTTTTTATATTAACATTTTTAATGTATGGAGCAGGAATCAAAAAACTCCAAATCGAAAATTATCCCACAACTATATGGATTATAATAATTGTATTTGCACTAATCATATTATGGGTAGGCGGAAATGTCTGGGGAAATACATTAATTGAAGATGATGAGGGTGGACTAATTAAAAACAGATTAACAAATACAACTGATTTTAATACAAATATAATAAATACATTATTTAACCCAAAAGTAGCAGGAGCAATATTATTAATAGCAGCAATAGCATTAATTATAGTTTTTATAAAAGAAGATTAAAAATAAAATAAACAAAAATTTAAAACATATTATCTATTGACTCATCAGAATCATTCTGTGAAAAAATATCATCATTTTTATTTTTGACTTCTTTCTTTTTAACTGGTTTATTATCATCAACTTTTTTCACAGATTTAATTTCAGATTTTGTAGAAGAATTTTTAATTTGAGAAAGTTCCTTTGTAATTCTATCTAAAGAATGCATATTATCAATAAAACCTGGTAAAATTTTTTCAAAAACAGTTGTTAATGCCTTTAAATCCACACCAACATTTTTTACAGCAGATTCACTATCATGCATTCTATCAGTTAAAGCATTATGAATTTTTTCAAAATCATGTTGAACCACATTTAAATCATTTTCAATTTTATTAATTTTAATTTCCATCGATTCCTTCCATGTAATAATTTTATTAACATTATCCAAAAGTGCCTTCCATTTTTCTTCAATAATAGCTTCTGCAATTTGTGAAATTTGAATTGAAGAATTTTGATAAACATTTTGCTGTCTCTGTTGCATCGGAGGCGGCATATTTGGAGCTCCTGAAGGGGGGACATTTGGTGGCATACTGCCCATATTCATATTCGGTTGATTAACCATATTACCTACCTGTTCATTTAATTCTATTCGTCTTAAAGCCTCACTTATTTGTTCAGGCTTAAAACCTTGTTTCATTAACATTTGAAATATAACTTGATTTTCAAGTCCTTGTTTTTTTAACTTAATCAGCTGCTCAATTGGTAAATTATTCATCCTCTACCTTTTCTAATCTCGCATTAACAAACATATTATCAAATCTATTATTCATTTCAGACACCGTAACAAAATTTACTGGATTAAAAAACTCCAAATATTTAGTTAAGTATCTGATTTCATTCTCATCAGCTAATGATTTTAATTCTTTATTTACTAAACTTAATTTATCATTAATATTAATAAATTCTTTTTTAATTGAAATCATCTCCATTTCAACAGATTTCAATTCATTTGATATAGATTTTTTATGTAAAATTTGATTTTGTTCAATAACAAGTGATTTTTTACGTAAATTACTATATCTCTCCTCCAAAATACGAATTCTTCTAAGTAAAGAAACCATATCTGTCGGATTCGAATCTAAACTAATTTTATTATCCATAGATAAAAATTAGAAAATCATGTTTATAAAACTTACTCGAGAAATATAATAAAATTAACAAAATAACATTAAATTTATTAAGCGACAAAAATAAAATACTTTAGGGGTGAGTATAGTCTAAATGGCCGACTTTAATTTTGATATTAATAAAGCATCAAATAAAATTCAAAAAGTAAATAACTATCCTTTTGAAATTATAAGAGAAGGTGAAGAAGTAATAGTTAGAATAGATTATGAAAAAGCACCCTTTACTCCATCAATTGAAGATTCTTCTGACTGCATGGCAAATGTAATAGAAATATTAGCAGGAGTTAAAAATGCCACAAAAATTTTATTTTTTCAAAAAAGAGATTATGAATATGATTATCAAACGGTACATTATTTAACACAGGTAGCTAGTGTACACAATAATATTCAAAAAAATAAAGAATTATTTTCATATAATAATTTAGGACAAAAAAAAGAAGCAAGTGATTTTTATAATCAATGGTTTTACAATATTCAAAAAATAATTAATTCCAAAATAAAATCTGATCCAGTTGGAGCATATGTAGAATTAATTAGATTATTAAGACAAGAAGAAACAATATATGTAAACAGAATTGGAATTAGAAATACAATATTTAATCAAAATTACAAATATTTACTAAATTATATAAAAAAAGAATTAGAAAAAACAGATCTAATTCAAAGTTGTCAAAAAAAATTAGCAGGATATGATCCAAAATCCAGAACGTTCTATAGAGAAATATTCAAACCAACCATCAAACCAGATTTTATGTTCTCAAAATTAATGGGAAATTATCCAAAAGATGGAATTGAAGTTGAAAATTATATAATTGATAAAAATATTGATGTAAGTATATTTCAATTTGAAGATTCTATAAAATATTTATATCATATCACACCACCTGAATTCAAATTAGATGAAGATAAATATGACTTATTAGATGTTGCTAGAAAAATAATGGCCGAACACAAACCAACAAAAGATGATTTTGTTCAACCCGAAAGATTAAGAGAAGTATTTAGCAATATTGGAATGGACTTAATAGAAGAACTTGCCAAATATAAAAAAATAAAATTAAAAGAAGGTGAAACAAAATTATTATCAGAAATTCTAATAAGATATTCAGTTGGATTTGGACTATTAGAAGTACTATTAAAAGATCCCAATATACAAGATATAGCAGTTAACTCACCACTTGGAAATTTACCAATATTTCTTGTACATTCAAAATTTGATGAATGTGAAACCAATATAATCCCAATGAAAAATGAAGCAGATAATTGGGCCTCCAAATTAAGAATGATTTCTGGAAGACCATTAGATGAATCAAATCCAATTTTAGATACTGAATTAGAATTACCAGGAGTTAGTACAAGAGTTTCAGTAATATCACAACCGATTGACCCAACTGGACTAGCCTTTTCATTAAGAAAGCATAGACCAAAACCTTGGACATTACCACTATTTGTAGAAAATGGAATGCTTACCTCTCTCGCAGCAGGATTTTTGAGTTTTTGTATTGATGGAACTAGATCAATGTTTATATGCGGAACAAGAGGATCAGGTAAAACAAGTTTACTAAATTCAATTATAACAGAAATGACAAGAAGAAATAGAATTATTACAATTGAAGATACATTAGAACTCCCATTCACATCTTATAGAAAATTAGGTTATAATATAGTTCAAATGAAAGTAAGTAGTGCACTCTCACAAAATAAAGGAGGAGAATTTACTGCAACTGAAGGTATAAGATCAACATTAAGACTTGGAGATTCATCATTAATTGTAGGTGAAGTTAGAAGTAAAGAAGCTGTAGCACTTTTTGAAGCAATGAGAGTTGGTGCAGGTGCAAATGTAACTGCAGGAACATTTCACGCAGATAATCCATTTGGTGTATTTGACAGAGTTGTAAATGCATTAAAAATTCCCCCAAGTTCATTTAAAGCATTAGATTTAATTGTAATAGCAAATCCAATTAAAAGTGCTGATGGTATGAAAAAAGTAAGAAGAGTTACACAAATAACAGAAGTAAGAAAAGATTGGTATTCAGATCCACTAAAAGAAGGAGGATTTGTAGATTTGTTCAAATATGATTCTAAATTAGATAAATTAATTCCAACTGATGATTTATTAAATGGAAATAGTGAAATTTTAAAAACAATTGCAAGTAAAATAAGTGATTTTGTTGGTAATTGGGATTTAATGTGGGAAAATATTCAATTAAGATCTAAAACCAAAGAAACACTTGTAAATTACTCAAAAAAAATAAATGACAAATCAATTCTTGAAGCAGATTTTGTAATAGAATCTAATGATAAATTACACAAAGTCATTCAAGAAGTGAAATTAAAAAAAGGAATTATTGATTCCGAATTAGTTTTTGTAACGTGGGAAAATTGGCTAAGAAAAAAAATAAGATTAAAATATATTAAATAATGGCAGGAATAAGTGTAGAAGAATTAATGCAAAAGTATAAGAGTAAATTAGATTCAAATCTGACAAATGAAGAACAAAATCAAAAATCTGAATATATAAAATCAGTTGATTATGAAACATTTAAAAAAGACAACATCCCAAAATCATTTTCATATTATGAAAAAGCATGTAATTTTGCAAAAAAAATATTACCAATTGGAGTAGATAAAAAAACACAAGAAAAATATGAAAAAGCAATACATACTGCTCACCTAAATTTAGATTCAACAGGAATTGTAAGTTTAAGTTTATTAATACCATTTTTAGTATTATTATTAATAATCCCAATTGGATTTCTATTAAATGATATTATATTTTTTACATTTGCAGCATTATTATGTGCAAGTGTAATTTATTTTTTATTAAACAAATTAATATTTAACTTAGCCAGAAATTGGAGACAAGAAGCAGGGAATCAAATGGTGCTTTCAGTTTTTTATATGGTTACATATATGAGACAAAATTCTAATTTTGAAAATGCATTATATTTTGCAGCAACACATATTGAAGGACCATTAGCACTAGATTTTAAAAAAATTATATGGGATGTACAAAGTGGAAAATATTTTACTTTAAATCAATCAATGGATGCATATTTAGAAACATGGCGTGACTATAATATGGAATTTATTGAAAGTGTACAATTAATACAATCATCACTTTTAGAAACTGATGAATCTAGAAGAGTTTTAATTTTAGAAAAATCATTATCAGTAATATTAGAAGAAACATATGAAAAAATGTTACATTACGCTCACGATTTACAAGGACCAATTCAAATTTTAAATATGCTTGGAATTGTTTTACCAATAATGGGATTAGTAATATTACCATTAGTTGTATCATTTTTTGAAAATGTACAATGGTATTATTTAGCTTTTGGATATAATATTTTAATACCATTTGGAGTTTACATATTAGGAAATAGATTATTTGAAAAAAGACCAGTTGGTTATGGATCACAAGATTATTCTAAATATTTAGATGCAACCCCAGACAAAGTTTCATTTTTAAAAATATTTAAAAATATTTCATTAGTTGGAATATGTGTATTTGTTTTATTTTCAGGAATAATTTTTACATTAATGCCACAAATAATTCATACAACAACATTAGTTGGTGCACAAGATCCTGACACAGGAGTTGAAGGCGTAACAATTTGGAGAAATGAATTTGGAGAAGTAGAAAATGATGACATTGAATTATATCCCTCCAATAATATAAAAAAAACAGGTATTTATTTATTAGAATATAAATCATCCACATCAACACCACCAAAATTAGTAGGGCCATATGGACTCGGTGCAAGCATATTCTCATTTGGATTACCAATTGGTTTAGCATTAGCAATTGGAATATTTTTTTATTTTAAAACAAGATATGTTGTAAAAATTAGAGATAATGCAAAAGTAGTTGAAAAAGAATTTTCATCAGCATTATTCCAATTAGGAAATAGATTAGGAGATGGAATTCCACTAGAAATTGCATTTGCAAAAGTTTCCAATAATATGCGCGGGACTATAAGTGGAAAACTATTTCAAACAATTGCAACTAATGCAAGTGTCAGAGGACAAGATATAAAAACAGCAATATTTGATAGAAAAACAGGAGCAATCAAAGAATTTCCATCTAATATAATTGAATCAAGTCTAAAAGTATTAGTTGAATCAGTAAGAAAAGGACCAAAAATTGCATCAATTGCCATAATGAATATATCTACATATATTAAAGAAATACATAAAGTTCATGAAAGGCTAAGAGATTTATTAACAGAAGTAATTTCAGGAATGAAAAGTCAAACAAAATTCTTAGCCCCAGTTATCGCATCCATAGTAGTTGGAATAACTTCAATGATTAATGCAATCATTTCACAATTAAATAATTCATTTCAAGAATTTAAAGGAGAAGGAACTAGTTCATTTGGTGCCGCAGGACAAGGAGATGCAATTAGTACATTCATTAAAGATGGACTCCCAACCTATTATTTTCAAGTTATCGTAGGAATATATGTAGTTCAATTAATTTTCATTTTATCAGACATAATAAGCCAAATTGAAGACGGTAGTGATACGATATCACGCCAATATAATATTGGACAGAATTTAATAAAAGGTGGAATAACCTATACAGTATTGTCTTCTACTATGATAATTATATTTAATATTGTAGCAATTATAGTTATATCCCAAGTTGGATAGCTAAAGAAAACGGTCAGATTTTTTTTTTTTTTTTGGTTTTTTAGGATTTTTATTTCTCTGTTTCATTGAAACTAAAACATCATCATATTTTATTATATTTGCCTTTAATTTTTCTAACTCTTTTAATGCACTTTTAACTATTATTTCTTTAATTACTTTTACTTCTTTTTTTGAAATAAATTCCTCTTTTAATAATCGATCATCATTAACAAAGTTAGTTTCTTCTACAATATAAATAGAAGCTACATTATCTAAAAGTTTTAATTTACCTTTTTCTAATTCATCAATATAAAATTCTTTTTCTTTAGTTTTAGTATTACAATGATAACCAACAGCAATATCATTACCAGTTCCATAAGCCATTGAAAGTGCAAACATAATATCATTAGTTGCAAAAACAGCTTTTTCACCATCCATTGCATTATGTGAAAATGGTTTTAATACTTTTAAACCAGAGATTTTAGATACATGATATAATACCACATAATAAAAAGAAGTTTAATACTTATAAAAATATAATAAAAAATAAAAAAATGGGTCCTCTGGGATTTGAACCCAGGACACACCGGTCTTCAGCCGGACGCTCTGCCAGTCTGAGCTAAGGACCCAATAAAACACAAAAATATAATTAGTTTATAAAATTTATTGGCTTAAAAGTAATAAAAAATAATTAAAAAAAATTAAAAATTAACGCCATACTAAATAAGGTAGAAAACTATTTTGAACAAAATTACTATTATCAAAATCTCTTAAACTTTTGTCTAATGCTAATTTTGCATTATTAGTTCCATAAAAACTAGTTAAAAAGCAATTAGAATTTCCATTTATAGTTTCTAAAAATTTCACTTTATAATCCAACTGCTCCCTTGAAGGAGTTCCACAAATAATATTTACAAAATCATCTTTTTTTATCATCTTACATAAATGATTTATATGTTCATCAATTTGACTAAGATCATTATTTGCAGAAAAACCCATATATTTTAAACGCCTAGTCATAGATTCAAATTCAATACCCTTTTGAGCATAATCAGTTAATAAAAAAATTTCATCAACCATATCTTCATCTAATAAACTTATAGTAGTAACTTTTTTAGGATTATATTGTTTAATTTTCCACCAAAGTCCATTACCCTTTATATTTGATTCAAACATCATATACAATTTTTTAAATTCACATATTGACGTAAAATCAACTCCTTCAAAAATACCACATTCTTTACTAGTTTCTATTCTTCCTTCATATTTTTCCATAATATCACTTAAAAGAATAAAACAAAAAGTTTATATAAAATCTAACTACTATAAAAATTAGTAGCAAATGGAACAATTAATTGAATCATTAAAATCTGCAGGGTTAAATAATAGAGAAGCTATTACTTATTTAGATTTACAAGAATATGGAGAAAGTCAAACTGGTAATATTTGTAAAAGAACTAAAATTCCAAGTTCACAAATATATACAATATTAAATAATTTATTAGAAAAAGGACTTGTGAATTATAAAATAATAAATAATATTAAAATGTATAGAGCTTCAAATCCAGATACATTAGCAATATTATTTGAAGAAAAAGAAAATAGAATTGAAGAAGAAAAAAATAAATTATTAAATTTTATATCCAAATTAAAACAAAAACCAGAAGGAATATCTAAATATAGTGATTATAAATATTTTTATGGAATTCGAGGAATTAAATCTTTATATACAGAAATAATTAATTCATGGAAAAAAGGAGATGAATATTATATTGCCTCTGCACCATTAGAATCATTTAGTAAACTCGAAGGATTCTTTTTAGAAATAGTCCATAAAAAAAGAATAAAAGATAAAGTAAAATTAAAAATTCTATTAAATAAAAATAGTAAAAAATGGGGAGATATTAGAAAAAAAATGCCATTAACACAAGTTAAATATTTAGAAAGTGAAACAAAAACTGAATACGGTGTTGTAAATGAATATTTTTTTATAATTTCATATGGAAAACAACCATATGGACTTTTAATAAAAGATAAGAACTTTTCAGAAACATATAAAGCATTATTTGAAATGTTATGGAATAATGCAAAAAAATAATTAAAAAAAATTAAAAATTAACGCATATCTTCTTCTTGTACTAAATCATCAGATTTACTTGAATCAGAAGAACTACCAGCTTGTCCTTTTTTTTCAATAGTTAAAATTCCAAACTTTCCTGCACTAATTTGTAATTGATTATTAAATGCACTACACCAGCCTTTTTCAATTTTAATAACATCGCCAACATTTACTTTGTCAACATCGTCATTCCATAATGTTATTTTAACTGAACCAGTATCATCTTTTCCAGTACAATTACATAATCGTCCAGAATGAAACTCTCTTGGTTCCTCTTTTTCAACCACTTCTAATTCTATAAAGTCAATTGGTGCTTTATCTTTCAATTCATTTGTTTTCATATTAAATACTCTCCGTAATCTTTAAATGATTTTTTTTTATTAATTAAAAAATCTAAAATTTCTGACATTTTACCTATAGGAATTTTAATTTGACTTTCACTATCACGATCTCTTATTGTAATTGAATTTTTTTCAACAGAATCAAAATCAATTGTAATACAAAAAGGAGTCCCAATTTCATCTTGCCTCAAATAACGTTTTCCAATAGAACCACCTTTATCATAATAACAAATATAATCATTTTTTAACTGACTATAAATTTCCTTTGATAAATTAATAATAGAATCCTTATTCATTAAAGGAAGTATAGCAATTTTTATTGGTGCAATATCATAGGGTATTTTTAATATATTTTTACCTTCATTTTTATTATTAAAAGTTAAATAATTATCAAGTAAACAATATATTGGTCTATCTATACCAAATGCAATTTCAATTATGTGAGGTACAATTTTCTTACCATCATCACACACAGCTTCTAATTTTCTACCACTGTGTTTTGAATGTTGATTTAAATCATAATTTCCTCTATCATGAATACCACAAACTTCAATCCAACCATGAGTATTTGTAAAAATCTCAATATCCCATGCATCGTTTGCATAAAATGCTTTTTCATTATCCAAATGTTGACGTAATCTAATTTTATCTGAATCAAATCCAAATGACAAAAATAAATCATAAGCCACATATAATGCCCAAGCATAAGCTTGACTTTTAATATTATTATTTTTTAAAACAGAATTAATTGTTAATAATGAAACTGCTTTTTTATTAATTTGATCATCTGCAGACCAAAAAGGTAATTTATTTTTACTAATACTATTAAATTTGTCAAAATTTATTTTATTATTAGCCTCAATAAATAATTGACCTTCTGCTTGAGTAAATTCTCTCATTCTTAATAAATGTTGACGAGGTGAAATTTCATTTCTAAATGCCTTACCTATTTGAAATACACCAAATGGTAATTTATTTCTAAAATGTTCTAAATAATTTAAAAAAGGTAAATATGTAGATGTTGCAGTTTCTGGTCTATTATAAGCCAATTGAGAAACTCCTAATGTTGTTTTCATCATTAAAATATGTCTTTTAATTTCCAAAATTAATTCTTCACCATTAGGTGCAACAATTTTATTTTTTTTAATAAAATCAATTAATTCATCATCACTCATATTTCCAGCATTCACATCAGGAAAATTTTCTTCAATTAATTTATCAACTCTAAAATTACTCTTAGAATTTTTTGTTACAATTAATGGATCTGAAAAATTACCAGCATGACCACTTGCAACCCAAACACTTTCTGGACTAACTATTGGACATTCAACTTCCCAAAAATCTGAAAATGAAAATGTTTTTCTAATTTTTGCTTCAATATTATTTTTTAATAACTTCCCATTAGGCCCATATTCATAAAAACCAGCTACACCACCATACAGTTCAGGACTAGGTCCCCATACAAACCCCCTAGATGACATATAATTAATTAATTGCTTTTGTTCCATAACAAACCAGAATTGTAAAACATTATAAATTTTTGCAAAAATAAAAGAATTTAGTATTTAAATAAGAGTGACATAAACTTATAAAATAAAATTATAAGAAATTAATATGACTTGGAGTGTAAAATATAAATTAAAAGAAATTGAAGATATAGTTGGACAAGATTTAATTGTAGAAAAATTAAAAGATTATATAAAAAATTTCTCAGTTCATAAAGGAAAAGCAATTTTATTATATGGACCAACAGGTAGTGGAAAAACTTCCATTGTACACGCACTTGCAAATCATTTTAATAATGAATTATTTGAAATTAATAGTAGTGATATTAGAAATAAAGAAAAAATAGAAGAATTAGTTGGAGCTGCAGCAACACAAATGAGTTTATTTGGTACAAAAAAAATTATTCTTTTAGATGAAGTTGATAACTTAAGTGGAACAAAAGATAGAGGCGGAGCAATTGCAATTGCAAAAATCATACCTAAAAGTGTATTTCCAATAATAATGACTGCAAATGATGCCTATGCATCAAAATTAAAGGAAGTTAGAAAAAAATCTTTAGTTTTAGAATTAGAAGAAATAAATTATAATATAATAAAAAATATATTTAAAAAAATATTAGAAAAAGAAAAAATTGAATATGAAGAAACTGCTATATCACAATTAGCAAGAAGTTCATCAGGCGATATAAGAAGTGCAATTAATGATCTTGAATCTATAGCAATTATGCATAAAAAAATAACTCAAAAAACAATATATTCAATATTTGAAAGAGAAAGAAAAAAAAGTATAGAAAATGCATTAATGAAAGTTTTTAAAACAACAGATATTAACATATCACTTAATTCCTTTAATAATATTGACGAAAATCTTGATGAAACCATATTGTGGTTAGAATATAATTTGCCAAAAGAATATGAAAAAATAGGTGATCTATACAGAGCATATGAATCTCTGTCTAAATCAGATCTATTCAATAGTCGAATAAGAAGAAGACAAAATTGGAGATATTTAGTATATGTCAATTTTTATCAAACAGTTGGAATAAGTCTTTCAAAAAAAGAAAAATACAAAAAAGTAAATGAATATAAAAGAACAACAAGATTATTAAAAATGTGGCAAGCAAATATAAGTAATGCAAAAAGAAAAGCATTTTCATCTAGAATGAAAACTTATTTTCATGTATCAAGTAAAAAATTTAATTTTGAGTATACCCCATATTTTAAATATTTATATAATAAAGATGAAATATTTTGTCAACGATCAAATGAATTCTATGAAATAAATGAAGATGAAATTAAATTTTTAAAAAAATGAAGTACAATAATAATAATAAACTAAAAAAACATAAATTTAATATTAAAACTATAAATGAAGAAATAGAAGAATATGAAGAAAGTCATTATGAAAAATATAAACATATATATGGAATATCAATAACAATTTTATTAATAATAATTATAATATTTTCATTTGTGCTAAGTCCAAATATATCTTTAAAATTTGCAAGTAATATATTAAGTGGAAATTTAAAAAATAATACATTTACAGTAAATAGTACATTAAAAATAATTTTAAGTGAAAATATAAAAAAAGAATTAATCCAAAGCTATAAACAAAATAAACCATATGAAATTAAATTATGCTTAATAGGACAAATAATTAATGGTGATTATATAATAAATAAAATATTTCACCCTAAAATTATAGAACAATCTGTAGTACATGTAATCAGTCAAGGATGTCCAGAAACTACATTAATTGACATACACTCCCATCCATTTGATAATTGTTTATTTAGTAATACTGATTTTAATACATATAAAAGAGCTAAAAAAACAAATGAAAAACTTTTAATGGGTGTAATGTGTAGTGAAAATAAATTTTTGTTTGTTAATGAATAATATATAATCAAATAATATACAATAAAAGCATAATAATAATTATTTTTATAAATAAACCTTTTATTTCAAATTTATGAAAGAGTTTGCAAAAAAATACCAACCACATGAAATTGAAATAAAGTGGCAAAAATTCTGGCAAGATGAAAAAATATTTGAATTTGATATAAATAAAGAAGGAAAAATATACTCAGTTGATACACCACCACCTACAATGTCAGGTAAAATGCATATTGGACATTTTGGTTCATATGCACAACAAGATTTTATTGTAAGATATAAAAGACAAAAAGGATTTAATGTATTATTTCCATTTGGAACTGATGATAATGGACTCCCAACTGAAAAATTAGTTGAAAAAGAAAAAAAAATAAGTTCAGCTCACATGCCAAGAGCAGATTTCATAAAAAAATGTAATGAATACATAAATGAAAATAGAAATGAATTTACAAATGATTGGATTAATGCAGGAATATCTTGTGATTTTAATTCTTCATATTCAACAATAAGTCCTTATTGTCAAAAACAATCACAATTATCATTTATTGAATTATATAATAAAAATTTAATATATCAAAAAGAAGCCCCAGCAGTATGGTGTCCAAAATGTACTACAGCAATTGCTCAGGCAGAAATGAATGATATTCAAAAAGAATCAAAATTTAATAATATAATATTTAAAGTAGAAAATCAAGAAAATTTAATAATTGGAACAACCAGACCAGAATTACTTTTTGCATGCGTTACACTTTTTGTAAATCCAAAAGATAAAAGATATAAAAAATATATTGGCCTTGAAGCCGAAATTCCATTATTTAAAAGAAAAATAAAAATTATGGCAGATGAATCTGCACAAATGGATAAAGGAACAGGAGTTTTAATGATCTGTACATTTGGAGATTATAGTGATGTTGAAGCAGTACAAAAACACAATTTAGAACCAATTGATGCAATAACAAAAGATGGAAAATTAACTGAAAATGCAAAAGAATTTGCAAACTTAAAAGTAAATGAAGGAAGAGAAAAAATATTAGAAAAATTAAAAAAAGAAAATTTATTAGTTGATCAAAAAAATATTATCCATAATACTAATGTACATGAAAGATGTGGAACTCCAATTGAATTTTATACACATAAACAATGGTTCATTAGTGTTAAAAAAAATAAAAAAAAACTTATTGATGCTGGAGAAAAAATTAATTGGTACCCAGAATATATGAAAAAAAGATATAATTCATGGGTAAATGGCCTTCAATGGGATTGGTGCATATCAAGACAAAGACATTTTGGAGTTCCATTTCCAATATGGTATTCTAAAAAAACGGGCGAAATTATTTTACCTGATATTGATCAATTACCAGTAGATCCACAAAAAGATTTTCCAAATAAATTACCCAAAAATCATACAAAAAATGACATCGAATATGAAAAAGATGTATTTGATACTTGGATGACTAGTTCTGTAACTCCATTAATAATTTCAAAATATAAAGAAGATAATAAATTTTTTAATTCAGTTTATGAAAATTCAATGCGACCACAAGCACATGATATAATACGAACCTGGGCATTTTATACAATAGTTAAAAGTTTATATCAAACAAATAAAATACCATGGAAAAACATAGTTATTAGTGGACACGTTTTAGACTCGAAAGGAGAAAAAATGTCCAAATCTAAAGGTAATGTAATATTACCTCAAAATACAATAAGTAAATTTTCATCAGATTCTTTAAGATATTGGACTGCATCAGTTTCACTTGGAAATGATATCAGATATAGAGAAGAAGAAATTAAATTAGGAAGTAAAGTTGTAGTTAAATTATGGAATGCATCTAAATTTACACATATGATGTTAGAAGATTATAAAGATAAAACAACAGTATTAACATCAATAGATAAATGGTTAATTACAAAATTTAAAAAAACACTAAAAGAATATGAAAAGGCTTTTGACAATTATGATTTTAATAAAGCAAAAATGATTATTGAAAAGTTTTTTATGGTATATTATTGTGACTATTATTTAGAAATTGTAAAAGAAAGATTATACAAACCAGAAATTCATGGACTTAAAAAAAAACAAGCAGCACAATTTACAATCTATAGAGTTCTTAATGGAATATTAAAATTATTTGCACCCTTCATCCCACACATAACTGAAGAAATATATTCATATTATTATAAAGAAATTGAAAATGAAAAATCCATACACATAAGCAAATGGCCAAAATTAAATGAAGGTTTTATCAATGAAGAAGATGAATTATCAGGAGATTTATTAATTGAAGCATTAAGTGGAGTAAGAAAATTTAAAACAGAAAACAAATTAAGTTTAAATACACAAATTAAATCTATTATAATTAAATTTATTGATAAAAATAAACAAGAAAAATATAAAGAAAGTCTATTAAATGTAATTGAAGATTTAAAAATTGTAAGTAAAGCAGAAGAAGTAAAATTTAAAGGAAAAACTTCAATTCCCCTAAATAATTTTGGTATGGAAATTCATATTGAATTAAATTAAGTCATTTATAAACTCTAAGTTAAAACAGATTCTCCAATATAGAAAATATTAAAAATTAAAGAAGTTAAAAGTTCATGAAAAGAGGAATAAGGTGGATTTTTTAAAAAAAATTGTTGGTATAATTAATTCAAATAAGGAATTTAAATTAAATGATGAACTTAGTGAATTAAAAAAAGAATCTAATGAATCACATAAAACTATTCAAGAATTAGATCAAAATAAAAAAGAATTAAAAAATAATGATGAAGAAAATAATATTAAAGATGAATATATAGAAGATATTTTTAAAAACGAATCAGAAAGTGAAAAAGAAATAAGTGAGGAATTTGAAGAAATAAATAATATTGAAAATGAAGATATTCAAAATAAAAATAATGAAATAGAAGAAATGAATGAAAAAGAAATAAGTGAGGAA
>sequence3
AATCAAAATAATTCAATAACAACTTATTTTACTGTTAGTGATTTAACTGCACCATCTTACGAAAACAATAGTGAATATCCGAATGATCCAAATACATATTCAATTCCACAGGACTATTTATTCAACATAAGTTTTACAGACAATGTAGAAGTTGATAATGTATTATTTGAATTCAATGGAACTAATTATACTCCAAACAATAATGGTAATGATTACAATTACACAATAAGTAATTTATCTGCTGGAACATATAATTACAAATGGATTGCAAATGACACAAGTGATAATATAAATAATACAGCTTTTACATATACAGTTAGTAGAGCTTCTAGTGATGTGAACTTAAGTTTAAATAATAATTTTTCAAATATTACAATTGAAGCAGGAGATAGTGTAAATATAAATGCTACAAAAATTACAGGAGAAAGTAATATTACATTTTTATTTGATGAAGTTGAAGTTAGAAGTAATTTAAATAATATAACAAATATTTCAAATTTTAATTCATTAGGATTATTTAATATTACAGCAAAGTATAATCAAAGTCAAAATTATAGTACTTCAGCATTATCATATTTTATTACTGTACAAGATACAACAAAACCTAATGTAACAAATATTATAATTAGTCCAAGTACAATTAATCAAACACAGAATGTAACAATTAATGTTACAGTTCAAGACTTTATTGGGGTTGATACTGTACTTGCAGAAGTAACATTACTTAATGGAACAAAAACAAATGTTTCAATGTCAGCGAGTGGAGATATTTATACTGCACAATATCAAACAAATGAATTTATGGGAGATGGTTTAATCAATATTACATTTTATGCAAATGATACTAGTAATAATTTAAATAATACACAAATATCTAATTTTACAATAGTTGATAATATTAATCCAAATCCAATAATAAATTTAAATATTACAAACATTAATTCATCTAGCGCTAATATAATATTTAATGAAACTAATTCAAGTGATTTTAATAGATATGAAATTTTATTAGATAATAGTTTAATTATTAATACAACAAGCATCAGCAATACAACACACAATTTAACGGACTTAAATGAAAGTACAGAATATAATGTAACTATTATTGTAATTGATGAAAATAATAATAGAGTTAATTCTAGTATTTTATTTAATACAACTCAAGGACCAATAGCATTTGAATTAAATTATATAAATCCAAATAATAATACATTAATTAATATTACAAATAATTTTGTATTAAATTTCACTAAAAATATTAGTTTAAGTAATAATAATAAAATTATTTTAACAGATAATGATACAGAAGTTGATATTTCAGTTGAAATAAGTGAAAATCAAATTACTATTATACCAACAAATAGATTAAGTGAAAATTCTTCAATAATATTAATAATAAATTCTACTTTAATCGATGAAGATTCTAATATATTAAATAGCTCTCCAAATTATAATTTTACTACTTTATTTTCAGACTTAGATAATGATGGAATTGCAGATTATTTAGAAACTGGTCCTAATAATGATTCAGACGGGGATTCTTTAAATAATTCATTTGATAATATAAAAGGAAATAAAAGTAATATATTTACAAATTTTGACAATATCTCAATAAAAGTAAATAATTTAGGTGTTGATAATAATAATTATTCTGGAATTCAATTAGTAAATTTGACTAATGATGGAACTGAATTAATTAGATTTAATCATAATTTTTCTAGTAAAAATTTATCATTAAATAATATTTCAATAATCAAAGAAGAAAATAATAATAGTTTTAAATTAATTATTCATGGTGTTGGAAATGAAAAAAATGTTTCATTTAATTTTACTTCTTCAAATAAAAATGATGTTTGTATAATTGATAATGAAAATGTGGAATTAAGTTCATTTTCAGGGAATTGTAGTAATGCAAATGAAACTTTTATTTTGTGTGATGGAACAAATCAAAATGGTTATACTTGTTCATATAGTACTGGTATATTTACAGTTACAGGACTTAATAATACAGGTATTAATCCAATATGTTCAGAAAATTGGGTTACTGGTTCTTATGGAACTTGTAGTAGTGGAACTCAAACGCGAAGTGTAACAGATTCAAATAGTTGTGGAACTATATTTACTAAACCAACAACTAGTCAGTCATGTACTTCTAGTTCATCATCTAGTTCTTCTGGAGGAGGAGGCGGTGGAAGTGCATTAAAACTTTGTAAAGCAGAATGGGAATGTGAAGAATGGTCTGAATGTAAAGACGGAAATCAAGAAAGAATATGTATTGATAAAAATGAATGTAATCATTTGAAAACTAAACCAAATACAACACAAACATGTAAAATACCTTTACTAGATTTAAAAAAGAAACCAATTGAAATAAAACAAATTAATAATATTAGCTCAACTGAATTAACTCAAAATGAAATTAATAATACAAAACAAAATGAATCCATAATTAGTAAGAATATATTTGATTCTAATTATATTGAATCATGGAATAAAAATAAAGTCCCATTATTATATTCATTAATTATAATTATCTTTATTATTTTAATTTTCAGATATAAACATTCCTTTATCAAATTAAAATCACTTCAAAATAAATTAAGTCAATTAAATCATAAAAATATTAATAATAAAATTCAAAAGAAAAAAATTACTGTGGATCAAAATATTATCGTCAATGAAAATAATAATCAAAGTGAAATTAATAAAATAAAATTACCGTTTATATCAAAAATAAAACAAATAATAGTAGATAATAGACATATAGAAATAAAAAATCAAATAAGTAAAACAATTAAAAATAAAGTAAATAGTATTAAAGCAAATAATATAAATAAAAAAGATTTAAATAAAGATACATTCAAAAGAATTTATAGAGATTACTTGGAAGGAAAAATATCCAAAAGTGATTATGAAGATAAAATAAGAGGCTTATTATAATGACATTTAATTTTTTCCATAATGATGAAGCAGAATTTAAAAAAACTATTGAGAAAGTATATTTAGATATTAAACAAAATAAAAGAATATCATATGATACAAATGTGTATATAATTCTTGCAAAACATGAATCACATGATAATTCCAAATTAATATTAGATCAAATTGCAAAATCAAATAATCATTTTTTAACAACTGGAACACAAATTGAATTAGAAGGTTTAGTTCACGGAAATAAATTTGATAATAAAATTACAAAAATATTAAGACATTTTTTAAACCATTGTAAAATTCGACCAATTCCAGATAAATCAAAATTTAAAATGATGAAAGATAATTTATTAAAATATATTGTAATTTTACCCAGAGAAATTGCTTATGAATCTGTTGGTCACATATATATAGAAATTTTAAATAAAGTAATTCGAGAAGAAATTGATAAAGCTAAAGCATTTAAACAATTAACAAACAAAGTAGAAATATATGAAAAAGCAAAAAAATTAGTTCAATATAAATATTTATTTTTTAAAAGACAATTAAGAGTAAATTTTAATAAATTTGAAAATAATTATATGAGAGAATGTTTAAGGTTTATTGAAATTGCTATTAATGATTTAAGACATGAATATGCACATCAAATTTCAATGGAACAAATAATTCTAAATATAGAGCAAAAATTAAAAAAATCATATGATAAAGATTGTCAATATGTAATTGAAACATTAATGCATGGAATTATTCCACATAGTAATGATAGTGATGTTATATGGCTTAAAAATATTTTATTTTCAAAAGAACAAAAAGTTGCCTAATTTATTTTTTTTGTTTAACTACAAATAGACAGTGATCTTTTTCATATGGGTCTAATAATCGTTTTTCCATTATATTTACATATTTTCCTAAATTTAATGTAAAATCTTTAAATATATCACTTGGTCTTTTAACTACATCTATACTTCTAGCTTTAACAGAAATAATTGCAATTCCATTTTTTTTTAAATATAATTTAATATTATTTACAAATGGAGTTAATTGATCTTTTTGTGCAATATCTTGAAAAATTAAATCTGCTTGTTCAATTGCTGAAAAATAAGTTAATGGTTGTGTAACGTCAGCCATCAAAGGAAATATATTTTTTCTATCTTTTGCTAAAAATAATAATTCTCTATGAACTCTAGGTGCAAAATCAAGTGCAAATATTTTACCATTAATGTTTATATCAGATAAATGTGAAACTGTTGTACCAGTTGAAGATCCTAAATATAGTATATTCATATTATCATTTAAAGAAATATTATTAAGACCATTAAATATTGCAGCACACAATTTAGATTTATTTGGATCCCATTCTCTATATTCTTGATTTTTAATTGAAATAGTATTTTCATCATATACCCTTTTCCCTGGATTAAATGATAATGTAAGTATTTTATTTTTATTAATAATTAAATTTGAAATGCTCTCTATTGCACGAGAGAATTCTATTTTTTTAAACCTAGTATTTGTAAATCTTACATGTTTTTTTATATTTTTTTTTGGTTTCATTTTACTTCTTTAATTTGTTTTAATGAATATATTTTATTTTTATTCACTTTTGTTTTTTTTGTGTTTTTATAATACCAATTCCATAATAAATAGCAAATAATAATTACTATTATCCATATTATAGTAAATTTAATCATTTTGTAATTCTTCTTGATAATTCTTTAGCTAAATTATTAATTGTTGTTGATTGTAACCACATTTTTCCAGGTCCTTTTAATGTTGCAAAAAATAATCCTTCTGCTCCAAATAATAAATTTTTAAATCCTTTTATGAATTTAACATTATATGAAATGCTTGGTTCAAATATTCCAATTAATGATGTATCAATTTTTAATTCTTGATCTTTTTCTAAAACAATTTCTGAAACTTCACCTGAAAGTTCTAACCATATTTTACCTTCACCTTTAACTTTTTGTAAAATAAAACCTTCTCCTCCAAATAAACCAGCTCCAAATCTTTTTGTAAAATGTAATGATAATTCAACACCATGTGTTGCTGCTAAGAATGCAGTTTTTTGAATTATAAGTTCTTCTCCTTTTTTTAAATTAATTTCAATTATTTTTCCAGGAAATCTATTTGATAATGTTAATATACCTTTACTACTTGTACATCTAAATGTAGTTAAAAAAAAACTTTCACCTGTAAAAATACGACCTAAACTTTTAAAAAAACCACCTTTGGCATTAGTATCCATTTCTATATTATCAGACATCCAACTAAAACTACCAGTTTGTGCATAAATTGATTCATTTTTATGTAATTCAAAATTTACAGTTTGCAATAATTTCCCATTAATTTTAGCTATCATTTTTATTTAATTTCTTTAATTAATTTATCTGCAATAAAGTTTCCATGATTTAAATCAACTCTTGCACAAATTGATATTTTACAAGCTAATTGTCTTGCCATTTTACCTTTATTTGATGAACTTTGAACCATTGCATTATTGAATAAATAACCATGTTTTGGACATCTTCCATTGCCACGTAAATGTCTAAATAAAGATTTTTCTGCACCTAAAATTTGAATTGTACTCGATGGCAGAAATGCTAATTTTTTCAAACTACCAACATGACTAATTAATTGTGCTGAAACTGTAGTCCCTGCAATCGCAATTAAATTTGGTGCATATGAGTTTAATAATTCTTCTAAATATTTTTCTTGTTGTTCAATAAATTTAATTAAAGACAAATTTTGTTTTGCAATATTTAATACAATTTTATAATCTGCTTTATCAAAATCAACACCAGATGTTTTTTTAATATTATATTTTTTAAATAATTCTTCTCTTGTATTATTGATAATTAATTCTGTAAATTCTTTACTATCTGAAAACATTTTACTAATTTCAGGTCCAGTTAATTCAAAATATTCTCTTAAACGTTTAGAAAATAAATTAAATGATCTTTTCATTTCATCAATATTATTAAAAACTTGAATAATTAAATTATCTTTAGTAAATGAATCTTTAATTTGAGATTGAGAAACTTCAATATAATCTGATTGTTTTAAAATATCACTAATTTTTGTCTCACATTCAATCATTATATTTTTAAAATTTTTTACTATATCTTCAAATTCTTTTGGAACAGTATCACTTAAAATAAATTTATTTGCTTCATTTAATACAATAGCATTTTTAGAATTCAATTTAGATTTTATTTTATCAAAATCATATGAATTATTTTGAATTTGCTTTAAAACATCATAATTTTCATTTTTAAATAATATTTTATTTTTAAGCCCAAATTTATCATCAAATAAAAATGCTCCTTCCAACTTAATAAGTAAATATTCCATAATCTTAGTTTTTAAATGATTCTTATAAACATATCGAAGTTAAACTTAAAAATAAATATATCTAATAAAATATATGATTATGCCAAATTTCAAATTAATTATAAGCAAACAGAGAGAAGATTCTAAAAATGGATTAAATCAACAATTACAGTTTTTAGGTAAAAGTTTAGGATTATTTTCAGATCGTGATAAAGATAATTCTTGTTTTCGTGTATTCATTGAATTAATACAATTTTCCAGATCCAATATTCCTGTAAGTAGCGATCAATTAGCATATAAAACAAATTTATCTAGAGGTACAATAATTCATCATATACATAAATTAGCTGAAAGTGGTTTAGTTATTCAAGTTGACAACAAATATATTTTACGAGTTGCAAGACTTTCAAAATTAATAAAAGAAATTAAAAAAGACATAGAAAGAATTCTAAAAGACGTTGAGTTAGTAGCTGAAAAAATAGATGAGACATTGGGTGTAGATAATTATAAAGATCTATATAATGTACATAAATAATCCGTAAATGCAACACCTGCAAAATAACCAATTTCACAATCTATAATATTTAATAAAGTATTATTTTGTGTAGATGAGGCTTGATTGAAATGGGAACTAAATAATAACCCAGCTCCAACAGCTCCGCCAACAGAATGATATGCATCTTTTCCAATAGCTAATCTAGTTAAAACCCCTAAAGTAAAAGAAGTAATACCTTTGTAAGAATACAAATCCATACAACTATTTAATTTAGATAATTTCGTTTTGTATATTTCAACTTCACTTTTTTCCATAAAAAATTAATAATTTAATTATTTAAAAAAATATAATGTATTTAAGCACAAAATATTTATAAATTAAAAAAAAATTAATCAAATATGGCAAAAGAAGAAGAAACATTAAATGAAACATTAGAAAATATTGATAAGAAACTTTCTAATATGAGTTATCAACTTTCTAGTATTGATAGTAATACTGATGGATGCATTTTTCCAATAATAAAATATGGATTATTAGCAAGTATTTTTATAATGTCTTGTAATCGTCCAACTTATGATCAAACAAAAGATATTGTTAGAGAAGAAATTGACATTGCTGCTGGCGATAATAAAAGATTATATACAGAAGTATATAAAAATTGTAAAGGTTTAGAACAAATTCAACAACAATTATTTAGTATGTATAAAAAACAAACTGGTAAAAATTATTTAGTTGAAAATCCAGAAACTAAATTAATTGAGTGTAGATAATTTTTTTATTAATTTTAAAATAATAAAAAACAATATAATAAAAACTACAACACTTATTCCAAAATTAATAAAATATTCATTTGGATAAGCTATTTTTATATTTGAATCAGATGAAAAACTATAATTATCTTTAAAAAATGGTTTATGGATTATATCAAAAAATAAGTTAAAATCTATTAATGCAAAAAAAATACAAATAATAAATAAAAAAAATAAAATATAAAAACTATAATTTAAATTAACATCAATAAAAAATAAACTAATTATACAAATAAAAAGAACAATATAAAATATTAAAAATAAATCTCTAACATCTTGCATGTGAGAATTTTCTAATTCATTAAAATTATCAAATTCATTTAGATTATAATTAAAAAAATCATTTGTTTCAGCCCAATTATTTATTTGATATGAATTATAATCAAAACTATTTAATAAAATACAAACAGTAAATAATAGAATAAGAATGGAACCAATAATAGAGGATAATAATTTATTCATAAATATATAGAATTTTTAGAATTTATAATTGTAATTAAATCTTTTCAATTTTATTAATTTCTTTTTCCTCTATTAATTCAGTAACCATTCCCCTACTTTTAGTTTTTTTTAAATCTTTAGTTAAGTCAGGTTGTTTTACTTTAAATAATAATTTTTTATCTTTATATATTTTTAAAATATGAGTTGCTTGTATTGATTCATCACCACATTTGTGTAATTTAAATAAAATATGTTCTCCTATCGTTTTATTCTCTTTAGAATCAAAAAAATCAATATCTTCAAATGAATCTAATATTTGATAGTTTTTATTATCAATTTTTATTATATCTCCGGTTTTAAAATTCATAATAATTGAAGTATATTGTATTATTTAAATATATTTAAAATTACCAAACAAAACTTTTTTGTAATATAATTCTTTCAATTAAAATACTCAAAACCATTTGTTCTCCTTCGCTCAAAGATTTTGAAATATCATTAGTTTTAATTATTATATTATCATTATATCTATTCACCCAAATTTGAGTTGATTTATCATTATATTTATGATAAAAAGAAATTGAATTATTATTAGAATTATTATTTTCATAATTAGATTTTTGAATAAATTTGTATAATTGTCCTAATTCAATATCTGAAAATTTAACATTTTTCCATTGCCATGAACTTTCTTTTTTCATACCGAATTGAAAATAACAATCTTTATTTTTATTTAAACTAATTTTAAGACAATTATTTTTACCAAAAAAAGCTCTTTCTAATATTGTTTTATTTTCATTATTTGAAAAATGTGTATCTGAATTTTGATTATTTGTTTTTATTTCAATCATAAATAATAATTGTTTTCAACTTTTATAAAAAAAATCATAACTTGTCCAGTGACCAGTCTAATTAAAAAGCAAAGGTAGTTGTTTTAACTTTTTCAATCAATTCTTCTAATTCAGAATTTTTATACACTGGTTTATTATTAAAAGTAACAGGAAGAATATTACCTTTATCATAAAGTTCACTGGAAGGTTCTGTTGAAGAAAATGTTAAAAGTCTAGCATAATTATTTTTCCCTAAAAATGAAACATACATGTGCATTAATTCATGATTATTCATAAATTCAACTAATCTTACAGTTTCTTTAATACCAGCATCAATTCCTTGTATCACTCCAAAAGGATTATTTAATCTTTTAATACCAAAACCATCCAAATATGAATTAATTATTAATTCCTCATCTACAACTAAAAGTCCACCAAAGAATTGTTCAGCTTCAGTTGATGGATTTCCACGAATTCCAATTTTATTGTCTTGCATATACCAAAGAAAATGATAAGTAAATATATATTCTTGATCACCGAAAATGTCTAATTTTTTTCTGTCTTTTGGAAGGTATCTTTGAATTGTCATAGAATCTTAATTTAATTTATATTTTTAAAAATTTATATTATTGGACTTATATTTTTAACATATTTAGAAATTAATTAGTCTGATTTACTTTTTCTAATAGCATTAATTAAATTTTTTTCTATAAGCTTTTAAATCAAATGTTTTTATATTTTCCATCAATTCAGTTCCCATAGCTAATGCTTTTTTCCTAGAATCATAAATTGGTTCACATGAAATTATTGGACGCCCATACTTATCTTTATTATGAATAATGGCATAACCATATTTTTTAGATTCTTTATCTTTAAACAAATCAACTGAAGTTTCATTTCCTTGTATTTCTAATATTGAAAGTAAAGATACCATATCTTATGTGAACTAAGTATAATTTAAAAAGATTTATATTTTTAATAGATTTAGAAATTAATTATTTTAATAAAAAAATTATTTAGTAACTAACCAAGCTTTACTCCAAATTCTATAAATACTATTATATTCATTTTCTAACATAAATCCAAAACTAAGTTGTTCTCTTGCCCAGTCTCCATCACCACCCATTTTACCATCTATGTTAGGATTACCAAAAAAAGTTCCATATTTATTTTTTTCTACATTCATAAATTCCCAAAGTGCATCTCCTATAGAAAAATCTTGATCTTTAAATGTATCATATTCATTTTGATCTAATGCACCAAATAAATGTTTAAGACCAAATTTTGAAACTAATCTCATTTGAGTAAAATATCTTTCTGCAACAGGATTATAAGATTCTTGAATAAAAGCAGCATAATCTTTACTATTATATTTAACATTTGTCATTCTTAAAAATCCTTCAAAATCTTCTTTACTAACTGAATTATCAAAATATATAATACCACCTGAAGGTTCTCTTCTCGGGTCATCTATAATCGGTTTATAATTATTTTCTTGATAACCATAAAGACTCTCTCCATATGGAACAAATTGAGATAAATCCCCTGGCTGTAATTTTAAATTTTTTCCAGGCCAAACTAAAGGACTTACATTTATTCTTTTAAAATGAGAATTTTCAACTGCTTTTTCTAATTCCATAAAAATCAATCTGAATTAATATTTATAAAAATATATATAATTAATTAATTAAAAATTTATTATTAAATTTTCTTTTCAATTAAACTAATTCTTTTTTACTTTTTTAAATAAAACAAAAGGTTTAAATAGTTATATGAACTTATATAACTATGGTTTCAACATTATATACTAAATCTGTAATACATTTTCCTAAACTTGATACGGTTCTTATGGTTGAAGATTTTATTAAAGATCATTCAGGAGAATTTAAAAAAAAGAAAATTTGGGAGTCATTACCAAGAGGAGTAATGTATCAGACATTTTGTATTATTTTTAATTACTTGATTGAGTCTAAAAAAATTGCTCGTGATAGTGAAAATAAAATCGCTTGGATTTGGAATCCTAAATTAGTTGAAAAATATTTATCAAAACCAAATCTTATGTGGAAAAAGTGAAATCTAAAATTGTTTTTGCTGATGAAAAAATACAGAAAGCTCTTGAAAAATTAAAAAATTCTAAAACTGAAGATAAAAAATTATATCAATGGATAATTCGTGCATTTGAAGATTTGGAAGAAAATGCATTTTGTGGAATACAAATTCCAAAAAAACTATTTCCTAAATCTTATACTGCTAAACATGATCCTGATAATTTGTGGAAATATAATTTACCAAATGCATGGAGACTAATTTATACTGTTGCAAACGATAAAGTTTGTGTATTATCAATTGTTCTTGAATGGATGTCCCATAAAGATTATGAACGAAGATTTAAATATTAATTTTTATTCAAATCTTTTTTGAACGAATTATTAACACCTACTTCCATACAATTTTTTAAAAATATACAATCTTGGCAAACTTGTTCCATAGTTTTTGAATTAACTTTATTCATTCCTAAATTAAAAATATCTTTAGCAGTGTGAATTGAGTTTGCTTTCAAATCTAAAAAGTTTGCTACTTTTCTATCTTGCTCTTCAACCCATTTTCCAATTTTTTTTGATTGAACACATTTATTATTAGATTTATGAGGACATTGAAGACACAATACATCTAATTCTGCAACAATAACTTTTATTTTTGTGTTTGGATTGTTTCTAATATGTTGGCAAGTATTTTTCATATTAATAGCAAAATTTGTATTGTAACCTCCACGATAAAATCTTGGCATACATAGAATATGATGTGCTCTAATTTCAATAGGTTCTTTCATTAATTATAAAACGAAGATAAGACTTATTAATATTTCTAGAGATCCTTTTAAGGCTTATAAGGAATTTATTTTATTCTAGTAATTTACAATTTCTTTTCAATTAAACTAATTCTTTTTTACTTTTTTTAAATAAAACAAAAAAATTATATATTATTTTAAATTTATTTTATATATGATTGAATATATTATCGTAATTTTAGTATCTGCTTTCTTAGGAGCAAGTATGAAAATTGCAGATTTATTAGATGAACATAATTTTAGATGGTTCAAATATTCCGATTTATTGTTTGGTTTATTTTGGGGAATCTCTGGAGCATATTTGATTACTATAAATCAAATTCTTGCAACCATCTGGATTTCTGTATTATTCTGTTTTATTGTTAGGTATAGATTAGATTATTTGAATCATGGAATTGCTGCTGCAATTTGGTTTATTACAATGCTTTATACAAATTATAGTATATGGACTAATTTAATTTCTTTTGTTTATTTTGCATCTTTATTTACTATAACAGGATTAATTCACGATTACTTTCAATACAAAAATCAAAATATTCGAGGAATAATGAAATTAATTTTTATTGATTTTAAATTATATTGGTATATAATTGCTCTTGGTTATTCTTTGTATTCATGGGATATTCATCCAATTTTAACTATTTGGACATTTGAATATGTATATGATTATTTTTCATCTAGAAACGCAGAATCCTTATTAAATAAATTAGGAATGAAAAAAATATTCTAATAAATTTGTCTTACTCTAAATTATAACAAACTAAAAATAATTTAACCCAAGTAATTCATCTAATAATATATCACTATTTTCAGAGTATACATTTGTTTGGCATCTTATTTTACCTGATGGATAAGAATGTTGTGGCATTTCTACACCAATAGTTTTAACACCTTCATCTTCTAATAATTTAATCAAAGATATTGATTTATTATCCAATACAACTGTATCTTCTAAAACTAATATATTTAATGAATTCCAAACTTTATCTTGTGAGCCATCAAATTTAATAAATTTTAAACTTTCTTTTTCAGCAATCTCTTCAAAATCATTATAATTACTTTGGGATCCAAAACGTGTATCAACAAGTAATAATTTTTTAGAAGGTATCAATGATGCATACATATCAATATGACTATTTGAACTACCCAACTGATCACTACTTGGTAAAACATGAATTCTTGAATTTGGAAAATGTTTTTTACCAGCTTCTATTAAAATTTCTTTTTTTTGATATGAAGTTGGTTTTTCAATGTTTAATTGTATTCCATTTTGACCATATGCAAAATTTGTGATTAATAAATAATCATCTCCAGTAAGAATTTTTCCTCCTTCACCAAAAGGATTTGTAGTTAATGAAGCAGGAGCTAATCCTCTGACACCTTTAACATATTTATTCATATGATAAACAAAATTATCCCTTGGCCACATGGAACGTACAAGTATAGCATTATATCCATTTTCAATAAGCGCTGCTAATATATTTCTTCCACCACCAATTCCACTTCCAATAATAATTGTATTTTTATCTGCCATAGTAATTATTTCATTCTAGTTTTAATGTTTTTTTTATAGAAATATTAGAACAAATTCATAATTTATTTTCAATTAAACTAATTCTTTTTTCTAAGTATTTATTTTCAGCTTCTAATTTTTCAATCTTACCATTAATATAAGAAGTCCAACTATTTAATGAATTAGTTAAATTCTCAATATCCTTTTTTACTTTTTTAAAACTTTTTTTTATTCCATTAAAAAACATGATAATCACGTTCAAGCGTTATTTAAAAATATTGTGATATTTACAAAATATTCATAGATAGTTATGTTTATAAATAAAAATTTTGTCAGAGCCCCATGAATGAAGCAATTTTAGAGACTAATAAAAGAATAGAACTTGCAAATGAAATTTGTGAATATTATAAACCATTATCTAAGGGAATTATACTTACAGGTTCAGTTGCATATTCACCCAATCATTTAGTTAATCCCAAATCCGATTTAGATTTATTAGTTATATCTGAAGATATTAGAAAATTTTTACCACATTTAGGAATTGAAAAAAATAAAATTGAAAAAATTGGATTAATGCATTTAGATGCATATCTATACAAAACTAATAAAAATAATATTGATGTAAGTATTCATTTTCTCTCAAAAAGCATATTTGATATAATTCCAATAGCACTAAGAGTTAATTTAAAAGCATTTAGAACAACACCTAAAGATAGTCAATATATACTTCATAATTTTCACGGAGAAACTTATTCCTTTAATACAAGATCAAAACCAATAAAAGGAATGAGTAAAGAGTCAACAAAAGTATTACCAATTTCATTTTGCCTTGAAGAAAAAATGTATATTGGAATACACAGAGACAAATTATTAAGTAATCCACAAATATTATATGAAGATCAAAAATATGTAACAAATCAAATTGAAACATTATGGGAAAAAATGACATTATTTCTTAAAAATGAATCTTTATACTTTTTAGGAAAAGTTGATTTAAATCAAATTAATATATTAAATGCATTACATAGAAAAGAAAATATGACTCCAGAAGTTATTCAATCTATAAAAGATAAAACAAAATTTTACTTAGAGAGAAAAAGCTAAATTATTTTTCTATTTAAACTATTTTTTATATCATTCAAATTAAATTCTATTATAGCTAAATCTAAACCTATATGATCATTTCCAGAACATACAGAAATAGTTTTTCCAATAATTTCTTTAAAATCACCTGATTTATCTACAGTTTCATGAATATGTCCATGTAAAGTCATCAAAGGTTGTTGTTTTTCAATAAATTGTTTAACAGCCAAACTACCTACGTGTTCTCCTGAAAATATTAAATCTAAATTTGTATCATAAGGAGGAGAATGGGTAACTAAAACTAATTTTGAAATATCTAAATCCTTAGTCAAATTATTTAAATCATTTTCAATCGTATCGCGTCTATCATTTAAATCAAATTTAAATTTCAATATTTTATCATTTTTACTCCTTATACCTTCCATAATAAAATTAGTTCTATTAAAATATTCATCTTTATCATTTAAATCAAACTTCTCCCAATCTTTATATATAAATGGAGTTAATGGAACATATACATATCCTAAAATTTTAATTCCATTATATAATTCAAAAACAGAATCATCAATTAATTTAAAATAATTTAAATTTTCATATTCTTTTAATAATATTTTATTTGATTTAAAATCATCATTTCCCATCATTAAATATATTAGACAATTTTTATTTTTTGAATTAAAATTTTTTATTAAAGGAAATAACTCATTTTTAAAAAATAATTTTTGTCCTTCTATAGTTCTCGATTTTAAATTCTTAGGAGCAATATCTCCACCTATTATAATCGCATTAATATCATTTTTTAAAGCATGTGAAAACAATTTTTTATACTGTGACAAATTTCCATGTAAATCTGAAGAAAATAACACTTTAAATTCCATATAATATAGTAAAAATAAGAATATATAAATATTTCACATAATTCTTATAAAGTGATTAAAAATACAGAATATATGATTTATCAATTATCTGAAGACCAAATTGAAAAATATAAAAAAGCGGGTTTTATTGCAAATACAGTTTTACATAAAGCTTCAAAATTAATAAAACCTGGAGTTAAATATTTAGAAATTGCAAAATTTGTAGATGAAGAAATTAAAAAGCACGATGCAATCCCAGCCTTCCCAGTTACCATAGGAAGAAATGAAATTGCAGCTCACGATATTCCTATGCATGAAGATCAAAGAGAATTTACAGATGAAGATGTAATTAAATTAGACGTTGGTGTTGCAGTTGATGGTTATGTTGGCGACAATGCAATGACTGTAGACTTAACAAAAAATTATACTGAATTAGTTCAAGCAACAAGAGATGCAGTACATGCAGCAATTAAAATAATTGGACCAGGTACATTAATTTCAGACATAGGAAAAGAAATTCAAGATGCAATAAAATCACATGGATATAATCCAATTACAAATTTGAGTGGACATGGTTTAGCTCAATTTAAAGTACATACTTATCCCACAATACCAAATTATCAAACAGGATCAAATGCAAAATTAGAAGAAAATATGGCAATTGCTATTGAACCATTTGCAACTGATGGAAATGGTAGTATAAGAGAAATTCAACCATCAGGAATATTTTCATTATTAAAAACAAAATCAACAAGAAGTGCATTTGTAAAAGAAGTACAAACAAGTATGACAAAATTTAATGGTTTACCATTTTCAAGAAGATGGTTAGACGAAAAACATGGGCTTGGAAAAGTTAATTTAGCAATAAGAGAATTTCAATTAGCAAAAACAATAATTTCACACGGACCATTAGTTGAAAAAAGTGAAGGTATGGTAAGTCAACATGAACATTCTGTAATTGTAAAAGATAAACCGATAGTCACAACATTACACAACAAATTCTAATAATTTACAATAAACTTTTAAATTTTCAAATTATTCTATATATATGAAAATAAAATATGAATTTATTGAAGATATATTAAAAAATCTTAAACCAGTACATTATGTTAATTTTGAAAATATTAAATCATTAGAAATTTTTGATTTAAGCAAATATACTGAATTTCAAAAATTTGTAATTAATCAAAGATTAAATATTATGATTTTTATGAAAATAATAGAATTATATTGTAATGATTCAAAATTTATTTTTGCTTTTGAAGAAATTAATAGATTATATGACGAATTCGAAGTATATGAAGATATAACAAAAAGAAAAACTATTGCAAAAAATGTTATATCAAAAACTAAATTTACAAAAAATGAAATATTTGAAAATTTTATATCAAATTTTGGTTTTTCACAATTAATACAAGAGCCTGAAATAGAAAATTTTGATTTAGAATATTATAATAAAGAAAAAATTGAAAAATATATTGAAAGTGACACATTTGAAAATCAATTAATTATAAGCTTAAATCCATTTATTATTTTTTATAATAATAAAATTATATTTGATAATAAATTAAAAAATGAAATTGAAGCAATAATTAAAGATTTAAATCAAAAGTTTGAATTATTTTTAAAAAAAGAAACTGAACAAGGCGTACCTCATGAAAAATATATAGAATTTTTATTAAATATATTCCCAGGAAAAATCAAAGTAAGATCAATTGAATGTAAATAAAAGGTTAATTCAGTATGAAAAAATATAATTCTATTATAAAAAATATTAAAAAGCATTATAATATTAATTTTGAAGAATTGGAATTTAGAGAAATATATGAATCTGAAAATAGAAATAAATTTAAAAGTTACAATATTAATCAATCTGGAATCATTCAATCTAGAATTAATAAATTTATTCAAATAGAAATTATTAAACAATTATGCAAAAAATCTGAATTTATATTTGGATCTAAAAGAATAGAAATTTATGAAAATATTAATAGCAAAAAAGCTAAACTCATAGCTAAGGATATAATATCAGTAAAACAAATAAATTTTAATCAAATTATAAATCAGTTATTAGCTGAATTTAGTTTAACAGACATTAAAAATAAAAAAGAAATAGATATTGATCAATTAGATTATTTTGTAAAAGGAAATATTGAAAATTATAAAAATCCCAAATACAACTTAGCATCTGAAAGTGATTATTTTCATGTAGATCCGATGAAAATAAGTTTAAATCCATTAATTATCTTTTCTAGAAATGAAATTGTATTTGATATAAATTTAAAGACACAAATAGAAAAAATAATTAAAAAAATAAAGAACAAATATGAAAACTTTATCAGAAATGAAATAGAATTTGGAGTATCTCATAAAAGATATATTGAATTTCTACAAGACTTATTTCCTGAGTTTATAAAAATTAAAAAATTATAATTTTTTTTCTATTGATTTTAAAATTCCAAATAATGAATATCCTTCTTTTTTTGTCAAATTACTTTTATTAATTATTTTTTTAAATATTTTTAATTTGTTTTGTTCAATAATTTGACTTTCTGGACTATCACTTTCTTTACATTCATTTAATATGAATTCAAATTTTTTTAATAAATGTTCTTTTTGAATTCTATCCATATATTCAATTCCTTTAATATTATAATCTAAATTATTTTTTCCAAATACCTTAAATAATTCATAACAAATAATTGCAACACTATGTGATATATTTAGTGTTTTATATTCTCGGTTTGATGGAATCGTAATTGTATAATCCATCAATTCTAATTCATCATTATGTAAGCCTTCACCTTCACGACCAAATACAATACCTACAGAATAATTATTATCATTTACTTCTTCTAATTTTTTAACAAATTCATTAATTAATATTGGAGCACGAATTATATTATTTTGAGAACCAGTCATTGCAGTAGTTCCAATAAGTAAATCATTTTTTTTGATTTCATTAAAATCAATTGTTTTTATATTATCCAATATGTATTTTGCATGCTTAGATCGTTTTATTGCCTCAATATCATTAATTTCACATTTCGGATTAACTACAAATAAATGTTCTAAGGCAAAATTGGACATTATTCGACAAATAGCCCCCAAATTACCAGAATTTTCAGGTTCAATTAAAATAATATTAATTTTCATATTATATGATTTTTTAATTTATTTAAAAATAAAACCATAAATTCCAACACCACTGAACAGTAAATACAAAAGTAAACTTTATAAATAAAAATTAATAGTAACTTACATGTTAAAAAGTAAACAATTACTAAGCACAGGATTATTATTTGGAACATTGTTTTTCACAGGATGTTTTAATTCAAATCATAGTGATAAAATTAAAAAAATGTTTGAAAAACAAAATAGTAAAACAAAAACATATCAAACTCAAAAACCAAAAGAATCAAAAGAACCAAAAAAAAAAAATATACCAGTTCAAAGACAAGTTTTACAAAAAGAAAATCATAAACAAATTTTAAATTTAGAACAAAAAATTCAAACATTAAATCATGAATTAAGAACAAAAACAAAAGATTATCAAAATTTAAAAACACAATTTAATTCTTTAATTAGTTTAAATGAAGATCAAACAGAATTTGAAGTTGAAAAAAAAGAATTCATTTCAAAAAAATTAATAGATCAATATTTGAATGGTTTAAAAAAATCTAGTATATATAGAATTGGACGTTTAGGTCAAAATCATGAATTTAATGTAAAATTAAGATTAAATGAATTTTTAAAAAATGGTGAAAAAAAATATTATTTAATTACTAATGGAACTAAAGGAAAACACAGAAATAAAAAATTTGGTATATATACTTCACATGATTTTCGTATACAAAGATTAGAACAAACAGATACTCATTCTTTAATTAAACTTATACATAGTTTAGAATTTGGTGTATTAAATCATTTAAGCTGGAAAAAAAAAAATCCAAAAACAATATTTTCAAAAAAGGAATTGACAGATCATGAATTAGTAAATTCAATGAGTTATGAAAAAGAATATACACTTGAAGGTAAAAAAAAAACTAATTCTTTAAATTATCAATATAATATTACTCAAGAATCTCAACCTGAGTTAAAAACAATAGACTCTTTTTCATTTAGACAAATATTAAATAATAGCCATACACAATTATTAGCATATTTTTTATCTAGAGATACAAATTTACAACAAAAATTAAAAAGTAAAACACATATGAAAAAAAAAGAAATTCAAAGTAAAAGTAAACAAATATCACAATTTACATTGAATGGAGAATTAAATGATTATTTTGGAATGTTAGCAAAATTAGAAACTATGAGTCAAGAATTTAATTGTACTTTTGAAACAAATCCAAATAGTCCTAATTATAATAATTCATTTGATGACTTTTTATTTCAAAATAATTTAGAAAATCCAAAATTATTTTATATTAATGATGAAAATCAATGTACTTTTCAATATAGACCAGAATTAATAAAAAAACCAATATTTATTATTATTAATGAAAATGGTGAAAGTTCAAATAGTATAACAAAGCAGTTAAAATTTAATAGTAATGATACAGTTTATGTAGCAAGTGAAAAAAGAGTAAATGCAAGAGTTGGTGCTGCTTTATATAAAGCTAAATAAAATTAATTTTTGCATCACTTCTTTCTTTTTTTAATTCATTTCTATTTTTATATATCTCATCTAAAAATCTCATATGTTTATCAGAATCTTTCATCATTAAAAAAACTCTACTAACTTTTTGTTCATCAACTATCTTATAATCAGTATGTTTTTCTAATTCTTTACAAAACTCTTTTAATTCTTCATGACTTGGTTGATGATCATGTGATAATCTGGATTGACTTGCACCAACAAACATATAACCTTTAACTTCAATAAAATGCACATTTGCCTTATTTAATAATTCAGCCCATTTTTCAATATTATCCATATTACAATTACGCAATAAAGTTAATCTTAATGCAATTCTTGTTTTATCTCTAATTGTAGGCAACCATTCAATAGTTTCCATTAAGTCTTCCCAAGAATCAACTTTATCTGGCCTATCAATTTCAATAAAAGTTTTTTTATCAGGTGCATCTAAAGAAATATATAATTGTGTTGGCATTTCCATTTTTTTTAATACTTTAGGAAAAGAACCATTACTAACAATCATTGAACTTATTTTTCTTTTATTTAAATTTTCAATGAATTTACTTATTTTTGGATAAGAAGTTGGTTCCCCTGTTAATGAAATTGCAAAATGTGCAACATCTTGCGCATCATCAAAAACTTTTTTATTAACATTATCATTACCACCAAAACCATTAATTAATTTTAATTGTGCATCAATGGATTTATCAATTATTTCTTTAGGATCATCAACACTTTCATATGGCTCATTATATCTATCCCTCCAACAAAAAGTACAATCAAAATTACAAAAATTAATTGATGGTGCCATTTGTACACATTTATGAGATTGTATACCATAAAATCTTTGTTTATAACAAGTACCTTCACCCTTTAATGCTTTTTTAGTCCAACCACATACTTTAACTGCAGTATGTTTACCACTAAACATATATTGCTGTTTTTCTAATATTTTTTTATATGCATCATTCATAATTTGAAAGAAAAAGATTTAATTTAAAAAATAATCGAAAAAATAAAAAATAAAAAAATCAATCAGCCCAAGCTAATATTCCTGCAATTATTTCTCTTCCAAATGGAATTATTAAAAATATTGCCAACCAACCTGGTTTATTTCTCGCAGTACACATATGAACCCATGCATAAATATATGCCCCAAGAAAAAACAATGAACCAATAATTGGAATAAATATTGTCAAATAAGATAAAGTCCAATAACCTGAAAGTTTACCTACTTGAGTTACTAAATAAAAATCAAACACTGGAAGCCAAGCCATCCACGCATTAGGAGTATTTGTTTTTTTTGCTATTGTCATTAATGCTATTGCATTATATATGTAAAATGCTAATATTAAACCAATTACTAAAGGTAAAAATCCATATATCATTGTTAATAACATTTCATTTTCAAAACCAGCCATCATTTTATCACCTTAATATAAAAAATTATAAAATTATTATAAAATTATCTTTTTTATATTATTGATTTCACTATAACTAATAAACTTATAAATTAAAATAATATAATTATAATATGATTAAAAAAGCTACTAAAAAAGTTGCAAAAAAATCCTCACAATCTAATTCTAATAATAAATTAAGTATTCCACAAAAAAAATGGTTAAATGATGAAACATTATCTTGGAAAAAAGATAATATAATTAATGATTATATAAGAAATAAAATATTAGATAAATATAATGTAAATAGTAATAAACCAAAAGAAAAAACTGATATGGATTTAGTTAAATTGTTTTATATCTTTGGTTCATTAATTTTAGGATTTGGTTTTATAATTTTAGTAGCAGCTAATTGGAATTATTTTCCAAATATGTTTAAATCAATTTTATTATTAATCACATCAATAGTAGTTTTATTATTAGGTTATTATTTTAAATTTGAAAATAAAAATTATTTTAAATTAGGATGTGCTTTAATATTTTCATCATGTCTTATTTATGGATCTACAATTTTTCAAGTTGCAAATTGGTTTTCACTTTCAGCAAATAATAGTACATTAATTGCAATATGGATTTTTACATCATTATTAGTAGCATATTTTTTAAAATCTACTTCAAGCTTTATTTTATGTTCAATATTATTAATAATATGGAATTTTTATTTCCAATTAGATATTTACAAATTAAATTATTTTTATCCATTAATACTAGGATTAATATTTATTCCTCTATCCAAATTTGAATTACCTAAATTAATTCCAAATTTAATTGGTTTGATAATAGTATCACTAGGAGCAATTTTTTATTCAGATAATCATTTATTATTAGTACTAAATGCAATTTTATTATTAATATATTCCTTAATTATAAAATATAAATATAATGATACAAATATATTTAATTTGTTTTTTACATTAACTTCAGTAATATTTACTTTTTGGATGATTGTTTTTTCATTTGAATTTCAACAACAAAAATTCCTTAATTTATTATATTTAATTCCTTTCTTATTATTGATTTATTTATCAATAAAATTTAAGTCAAAAGTAAATATTTATGTAAACCTAGTTTCACTTTTAATTTGGTTTAATTTGTTTTTAACAATATCATTTCCAGATGATAGTGTAAATGCCCCATTAATGATTATTTTCAATTCATTATTTGGAATTTCATGTATAGTAAAATCATTTTATTATGAAAAATACAAAATTTACAAAATGTTCTTACCAACAGTAAAACCAATGAAAATAATAGGAACAATCATCACTATATTTAGTCTATTTATATTATCAAATTCCAAAATATTATCAGAGTTTAATCAATATTCACAATATACATTTTCATATATATTAATAATTTTCATATTAGCATTATTTATATCATCAATATTTTTATTATTTCAGAAATTAAAGAATAATGATAAAAATATATTAATTATTATACTAATATTATTAATTGCTCTATTATTATCATTTACAATTACAAAATATATATATGCACTATTAATATTATTTAATGCATTAAGTTTAATATCCATATTATTCTTAATATACTATTTTGTAAAAATTAAAAATCCATCTTTATTTAATTTATCATTAGGATTATTTGTATTATGGATGTTAATTAAATATTTTGATTTATTTTGGTCAATGACAAATAAAGGATTATTTTTTATTATTGGTGGAATATTAATTCTTGGAATAACAATTTTTATTGAAAAAAAAGGTAAAAAAAACATAGAAAATGAATAAAAGATATAGCATACTAATTATAATATTAATTTGGGTATTTATTATTTCATTTATGATTATGTATCATAATTATAAATTAGAAACAGGTACAAAAGTATTATTAAAAACTCAACCAGTAGATCCTTGGGATCTTTTTAGAGGAAATTATGTAACTTTATCTTATGATATATCAAGATTAGATTTTTCATCAGAAATACATAAATATAAGCCTGGAGATACAGTTTATATAATATTAAAACAAGATGGAAAATATCACAGATTTCTTTCTGTAAGAAAAACAATTCCAGATAAACTATTTATTAAAGGAATAGTACAAAGTCATTATAGTAATAATTTAAGAGTAAAATATGGAATCGAAAGTTATTTTATTGAAGAAAAAACAGGCAGATATTATGAAAATAATATGGATAGAACTGATATTGAAATTGTTTTAGATGACAATGGTTTTGCTCTAATAAATAAATTAATAGTTAATGAACAAGAAGAAATAGACTCCATTAATTGATTTTTAATTTTCTTTTATAATATTTTTATTTAATATGTATTAGATACAATTTGTTTTTTAGATCTAAAGATTTATATATGTATATAACACCACCACTAATATGATTAAACTAATAAAAAATAACTGGAGAAAATCTAAGAATTTCAATTCAGCCTTCATTGCATCTATGATTGTTTCATTCTTTTTTGGAAAATATATTTCAATACTATTAAACTATAATTTACCTAAATGGACATATGGGTGGGAAAAGTCATCCATCCTAGGAGTATTTGTAGTATTTTTATTGTATGTAGCTTACAAAACATATGAGAAATATTATGGTGCAAAAGATTTAATAGATATGCAAAATTTCTATGATAATTTCTTCATAAGTTTAATAGTAGTAATAGTATCAACTTTAATGATATTATATAATTCTTATTTTCCTAAAACCATCTATTGGTTAGGAACCTTAATAATAATTTTAATAATCTATTTTCCATTAAACGGGTTATACATTAAATGTAGACCTAAAAAATAAACTTTTCCCTTTTGTCGATCACGTTGCACTCTCACATCGTTTATTGATTTGCTTCGCAATCATAAACTTTGGTTCGGGTAACTAACAGCGTAAGTGGTTCACTCGTTGCACTTTGCTCTCCCATATTTTACTTTGTGAAACATCACTTAATCACGATGTTAAATGAAATTTTAATTTTGGCCTTAATGATTTTTTTTGCAATAATTTTATATACTCTTAATCAGTTGCGAATAATATGTCTGAATTAATTATATTTTGTAATCCAAAGCAAGTTTATAGTGGAAAACTTGAACAAGAAGTTGCAAGAGATTACACTAAAATGGCAATTGAAGACTATGATAAATTAATTTCTTTTGATAAAAAATATATGACTTTTGTAGAAACTCCTGATTATGAAACTGTTGTTGGACAAAAAAATGGAAGAAATTTATTACTTATACTATTTGCAAATCAACCAATGATTAGAATTGGAAGTATAAATAATAGGTTTAAATCCTCTAGTTATTTATTCAATCCAGAATCTGAAAATGAAGAAGTACTTCTTCCTGATTTAGATATTGTCCAAATAGATGGAGTTTCTCAAGTTAGAAGTGCTGCAAATACAATCAAACAATTTTATGATAAATTTGGATGGCAGACATATATTTTTGATGGAAAAATTACGGATAAACAAGAAATTAATCCAACTTCTGATAGATATAATCATTCAATTCAAATAATGAATCCCGAACTTCTTAGAAATATCGCAAAAGAAAAAGTAGATTATAATCCTAAAGACTTGTGCTTCTAACAGTCAAAATTAAAACTCCAGGGTGTGTTGCCCTTTCGTCGTTTCACTTCTCACCCTCATTTAACAAGAATTATCCAGAAAATCCCTTGTAAAAATTTCCCCAAATTTTCTCCGCTACACTCCGAAAACTTCTTATAATTCCGATGTTAAGTTCAATCGAGAAAGAGAGCTAAAAAGTTATAAATTCAATTAATTTCATAAAGATAATATGAAGAACATTATATTATTTGGAGCAGGCGCTAGTAAAGGATTATCAAATGTACTACCTAACTCACCACCCTTAGGATCAGAATTATTTGAGATTTTAATCAATAAATTTCCTAAAACTTGGGGTGCACTTAATTCATCATTATCTTCAATGTTTAAAAATAACTTTGAAGAAGGTATGGAAGAAGTGTGGAATAAATATTCTGAAATTGTACCTAATTTAATGCAAGACATGGCCTGTTTTTTTGCCGAATTTAGACTTAGTGATCATAATAATCTTTATAGTCAATTAATGAATAGCCTAATTGACTCAAATAAAATAAACGAGTATGTATTTTCTACAGTTAATTATGATTCATTAATAGAACATTCATTATTAATAGCTCAAAGAAAAATGTGCTATTTTCCAAAATATTCAGAAGCAAAAGACACATCCATTCTTTGGAAATTGCATGGTTCTTGTAATTTTATTGTAAAGGGTATTCAAGCTCCAAAAGGGGCAGTTAAATATCTTTCTGGTGCCACATTTCATGGAAATGGAATAAAATTAATTAATAATGAAGATGTTCCTAAATATTGTCGTGAAAATGCATTATATCCTTGTATGAGTTTATATGCTCCAAATAAACCAAATCAAATGGCTAGAGCAATGATTGAATTTATACAAAAATCATGGCAGGAATTTATTAAAAATGCAGAAAAAATAATTCTTATTGGTATAGCACCACATATTCCTGATAGTCATATATGGGATGTTTTAGCTAAAACTAAAGGACATATATATTATATAGGGAATAAAAAGAAATTTGAAGAATGGATTGAGTCTTCAGATATTAAGAAATATACTTTTATTAATAATAGATTTCAAGAAGGATTTTCTGAACTAAATAAAATTCTTTAATCACTTTTTTGATCCTTAATTATTGTTCTTGATGTATTGCATTTGCTCATATGATGAACGCCCTCTTTCTTGAATTCTTCACTCGATAAACTCTCACTTCGTTCGGATCATTTAACAAATATTAAGAAATTCCAATATAAGCTTAATCTTTAAAATATGCTTTTACTAATTCACGATCAATATTACTTATTTCTTCTCTAAATTGTTCATCAGAATTAATATCATTATCTTCATAAAATTCTTCATATCCTTCAAACTCTTGCAATGTAAATCCAGTTTTTTTTGAAACGTCCATATCCATTTGTTGACCAGTAACCGATATATCAAAATTACCTTCATCTAAATTAATTAAATCTGTTTCTTCACCAAATAAATCATTATATGTAGATAATGCATCTTCTTCTACACTCTGTGTAGTTTTTAATTTAGTTGCTTCTTCCACTTGCCTATCAACATCATTTAAAAATTCAGAAACATCAATTGAAATAAATGAAGCAAATACTAATAAAAATGATAATAATACAGCTAAACTTACTTTTTTAAAAAATAAATTAATATCAATAAATGTTTCAGTTTTAACTCTATGCATTAAAAATTTAAAATCATTATATAATCCCTTAACTAAAATATCTTCTTCACTAGATTTAGAATTTTTCACAAAATAATTTTTATAATCATTTGCCGTTCTTAAAATATCTTTAATTACAGGATTTTTTTTTTCAACATTACGTAAATCAATTTGTTTAATTCTAATAAATAAATTAATTCCAAAAAATATAAGTGTAAACATTACTAAACTAAATGCAGAAAAACCAAAAAATAAATCCAATAATTTTAATAAAAATATAAATAATACAGAATCTAATATAGCATTTGCTAATTCAATTTTGGAAATTTCATATTTTAGTTCTAAAAATATTGAATTTATATCTTTCATTTTAATCTCTTAATTTCATCTTCAGCATCTTCTAAATCATCTGAACATGAATCATACATTTCTTCATATTTATTTTTATCTTCTAAAAAGTCTTTTCTTTCTTCAATACAAGTTGATAATAATTCTTCATTTTCATTAATATCAGATTTTAAATTTTGAACTGTATTTTCAAGTATTGATTTTTGATTTGAAAATGATTCTTTTGTTTCATTTAATTCACTTTGAGTTTCACTATATAAATCATCATATTGCGAAAATGAATTTCTAAGTGTATTATATTCTTTTTCAATACTATCATATTCTTTTTTATAAAATTGAGCCGAACCTTTACTATCATCTAATAATTTAGTTAAATTATCAACCATAACTCTTGAACTTACATAATCATCTTTTAATTCCGATAATTGATAATCAAAATAAATAGGCAATGCTGCTACTGTTAAAATTAAAAATACCGTTAATAAAAGCAAAATTGCATTTACATTTTTATTTAAAGCTGAATTCATAATTATACCTCTATGTTTTTGATAAATACCTTCTAATAAATATTTCTGATAAATATATTAATATAGCTAACATTATAAAATATTTAAATACATAAATAGTTTTCGTTTGTTTTGCAATATTAATACTTCTTAAATATTCAATTATTTGATCTGCATCATAATCAAATTCAGTTCCACCAAATAATCTTATTTGACTAATAAAATCTTCATTATAACCTAAATTTAAATATTCAGGATTATAATTTATTGAATACGGTTTATTAAAAATATTAAAAACACCTATTGAATCGTGCATTATTGAACTTTCATAAACATTAGGTTTTATACTTGAAAAAACTAATTTTTTATGAGTTGGCGGAATATCTGACTTTACAGTAATTGTATTTGTTGTATTTGCAAATCCATCTTTTACTTCAATAACAAAACTTTCAAGTCTATTGGGATCTCCAATTCCATAGTTAATCATTCTTCCAATAACTTCCTTATGATTAATTAATTCACCAAGTCCACTTGGTGGATTAAATGCAGTAACTGAAACTGACCGACCTAATCCATATCTTCTTGTAGTGATTACTGGTTCACCTGTATCTAATGTTGCAATAACTCTACCAGAGGATTTAGAAACTACATTATTAAATCCAGGAAGTTTTGCATTTAAACTTAAATCTCTTGAAATAAAATGATTTGAATCAATAAATGTGGCAATATTTTGAGGTTCAAAATCTTCACCATCAGGATCACTAAATAATATATTTAATTTTTTTCTATCATTTAATTTAAAATAATATCCATTTGTAATTTCGGAAATTGCCTTCATTGAATCATCAAATAATCCTTTATATAAATCTACTTTCTCTCTAATTTCTCGATCAGTAACACTCTCCAAATATTCAATTTGTGCAGACCCATAATTTTCAGGATCGCTTTTTGCATTTTTTAAATTTTGTTCTAATGATTTTCTTAAACTTTCAAATGAAATTTCACCAGTCTGAATAACATGAATTTTAATTCCTGTTTCTCTCAAATCACCAGCAACTTTAATCATTTCTCTTACTGCACCATCAGAATTACGTAAAAATTGTTTACCATCTGAAATTAATACAATATTTTTATCACCTTTTGCATTAACAAAAAATTGTTTTGCCATACGTAATGATGGAGCAATATAAGTTCCACCACCAATTGCTTGTAATTTTGTAATATCAGACAATATTGATTGTTTTTTTTCAACTAAAGTACTCATTTCACTAACTGAATATGGTCTATATGCAAAAACAATTAAACCTAAATTATGATAACCAGCAGTATTTTTAACAAATTCATGTGCAACTGATTTTTGTAAATCTAAAACAGATATACCCGCACCACTAAAATCTTTACCAGATTCTGATACATCAACAATCAATGCTATATTTGATGGTGATCTTTTTCTTTGTGCAGATGCAACTGAAACAGGTAATAATTTTTCAAAATTACTTCCTTCATATCCACCCCTATCATATGAATTAGAACCACCAAAAACAATAACACCACCACCATCAATAATAAATGATTCTAAACTAGAAGTATCACCCAATTCATCTATATTTTTATCATAAACAATTACTAAATGATAATTTGTTAAATCATTTGGAATTGACGAAAATTTTGTAATGTCATATTTTTTACTCAAAGTATTATACAAAACATTTGCAGGACCAACCATTGCAATTTTTGGTTTTTTTATAGTATGAACTGTTTTGTAAAATATATTATTTTGCGAAAAATAATCCTTTTTTAAAATTTCAGCTTTAATAGTATGTGAACCATCTAAAAAACTTAATTTTAAATCATGACTATCTTCAATCTCACCTTTAAAAATTTCATTATTATCAACACTAATTTTAATATTATTCTTACCTAAAATTTTAACTTTAAATGCATTATCAATATCTTCAATAACTTTACTCGGTCCTAAAATAGAAATTGGTGAATCTTTTTTTTGTTGATGCAATTGTAATGTATGAACTGTTGAATTTAAACTTTTTACATAATTAATTGAATTTGATAAATCACCATTAATATTATCCCAACCATCTGTTATGAATAATATATGTTCACCTTGATTTGCATTTGTCGATAAAAATAAACCTGGACTTATATCATTACCAAAAGATAAAATTTTCAAATTATCAACTTTCACTCCAATTTCTGTAATTAAATCATTTATTTTATTTTCACTAAATAATTCCATTGAACTACTTTTATCAACTATTATTTTAATATAAGGATCCGTTTCCAAATCAGTATGTGTTTTTATAATTGGATCACTAATTGCTAAAACCATTAATACAATTAAAATAGATCTAAATAAAAGTAACATTCTTTGTTGCTTTATTCTTTTTTCAGTCCTAGTTTTATAATCAGGATCATGAGGATTTAATTTAACAAAATTAAATTTAATAAAAATATAATTAATTAAAAGTAAAATTGGAATACTATACAATAATTCAAAATAAGTAAAATCTACCATATTCTATAAGTCACCTCTAAACTTAACTATAAATAATTCAATTAATAATATGGAGGCCAAAATAATTAATAAATACCAATAAATATTAGTATCCACTGTACCTCTATGTTCAATATTTACATTTCCTGCTTTATTATTTATATATTCATCTCTATCAAATACAATTTGACTTTCTCTTTCATTTAATAAATTTACTCCTATTGTTTTTTTATTTACTGTATAAAAACCAACTTTATCAAATTGAGGATTACTCAATTTTGTCGTTCCTAAAGATGTTCTTACTTCAACATCCCCTTTGAAAGGAAGCTTACTTCCCGTTTTAAAATTTAAATTACTTAATGATTCTTTTCCACTCAAAAAATCAATTAAATTTTTAAAAAATATTGGATAATGAAATGTATATTTAAAATCAGAATTCTCATCATTCATTCCATAATAAACCACATTTCCTTTTTTTATTTTATCTAATGTTATTATAGAACTTGATGGTGTTGCAGCAAGTATTAATGAATTTTTACTATGTTCAATTAAATATGGACTTTTTATATTTCCAAATTCAGTACTTGAAATAAAATTTATTGGACTTGCAGGACTTATTAATTCATTATCATCACTTATATTAATTAATTTTGCATCCCACAAACCTTGCCAATCGATATCAAACATTTCTTTATTTGGAATAATAATTAATGATTTTCCACCCTCAACTGCTTTTTTAATTTCACTAACTCTTGCATCATAAAATAAATCTTTAGTAATTTTATCAATTATAATTACATCATGATCAATTGTAGGAAAAACAGGTAGCTTTACAACTTCTACTGTAATAAATTTATTTACAGATAATGCCTTTAACAAACTGTCACTTGGATTATTAGTTACATATAAAATTTTCATTTCATCCACTTTTTGCCCACTAATATAAAGTTTATTATCAACTAAAAAATCATCTTCAGTTAATATTTCTACTACATGATTATTTTTTAAATTATCATAAACTAATGTTTTTACTGAAGATGAATCAATTTTCAAAGGATATTTAGTTTCACCAACCGTTACAATTATATTTTTTTTCTTACCAAAATTTTTGATATACAAAGTAGTTTTTGACTCACCAAATAAAACATCTACAAAACCAACATTATCTCCACGTCCACCAATTTGAACATAATCAATAAAATTTCCTTTTGATTCTAAATTTGTAGTTAACAATTTATAATCAATTTCAAAAGAACTATCAATTAAATCACCTAAAACTACTATCTTACTTTTTTCTTTATTTTTAATTATTTGACTAGCAAAATTAATTGAATCTTTGTAAAAGCTCCCACCATGAGAAATTTTAATTCCGTCCAATATTTTTTCGGCTTCATCTGCATTTACATTATTTACATGAAGTTTAGGATTTGGACTTATTGTAATTATACTATTTTCAGAACCCAAATTATTTTTTGCAGTCTTTATTACTTTTTTAAAATTATCATCAACGTCCATACTAGCTGAATTATCTATAACAAAAACAGTATGACCTGCCACTAATTCCCTTTCAATTGGAAAATGCGGAATTGAAATTGCAAATATTGCAAAAAATAAAGCTAAAAATTGTAATAATATAATTGGATCAAATTGAAATTTTGAAAAAAATGATTTAAAGTTTTTTGAATTTCCATCTTTAAATAAAAATCTCGTAGTAGGCAAATTTAACTTCTTTGGCCTACTTTTAATTAAATAAAATATAACAATTGGAATAAGAGCAAGTAACCAAACTAAGTTAATTGGTTCATGAAAATAATTTAATAAAAAATTTGCCATTATATCATAATTTATAGACGAAAATCGCTTTATAAAATTAATCTTTAAACACAGAAGATCTAATTAATTAATCATCCATGAAATAATTCATAAAAAACATCAAAAATATCTTTTTCATTACTCACTTTTAAAAATTTAATTCCATATTTATCACAAATATCAGATAAATCTTTTTGAAAATGTTGTAAATTATTTTTATATCTTTTTTTAAGTCTATTAGAAACATAAGTTTTAACAGATGTATTGCTCTCTTCATCAGTTAACAAATACTCTCCGTCAATATCTAATCTGGCTTCAGTTTTATCGAGAATTTGAACTAAAACAATTTCATTATTTTTATAGAGTGCAAGAACTTGATCTATATCATCAATATTAAATAAAAAATCACTCAAAATTACAATTAATGATTTTGAAAATATTCTTTTTTTATATAATAATAAAGAATTTAAAAAATTACTTTGCCCTTTTATTTTAAGTCCATTAAGGTGATCTAAAATATTAATTAATTGATTTGTTCCTTTACTTGGTTTAAATAAAGTTAAGTCATCTGAAAAAGTGGATAGTACAAACTTTTCATTATTTTTAAATGCAATAAATGCATAACCTAATGCTAACTTTGATGCATATTCAAATTTTGAAGATAATGTTCCAAATGACATTGAACTACTCGCATCTAAAACAATATGTAAAGTTAAATTTCTTTCTTCTTCATAACGTCTTAAATAATATTTTTCAGTCCTTGCATATAATTTCCAATCAATTTTTCTAAAATCATCTCCTCTAGAATATGTTGTAAAATCTTTAAATATTAAACCAGTACCACCATGAGTACTTATTCTTTGACCAGAATAATTAGAACTTACTTTATTTTGCAATATTAAATTAAATTTTTCTAATTCACGCAAAAACTTTAAATCTATCATGGTAAATCATAATAATTTTTTTATAACATCATCTATAGTTAAACCACTTCTTTCTGCCTTAAAATTTAATATAATCCTATGACGTAAAACTGGCAATGCCATTTCATTAACATCATCATTACTTACAAATTTTCTACCATGAATTAATGCTCTTGCTTTTGATGCTAAAATTAAACCAATAGTCGCCCTAGGACTTGCACCATATGCAATTAATTCTTTATTTGTTCTAGTTTTATTAATAATTTTTGCCACTCTAATTTTAATATCTTCAGAAATTGGAACTTGCCTAGTTAATTTTTGTAATATTAATAATGAATCTTTTTTAATAATTGGTTTTAATTTAGGAACTTTAAAATTTGATGCAAATCTATTTAAAATTTCAATTTCCTCTTTTACATTTGGATAATCCAATACAATTTTTAATAAAAATCTATCAATTTGAGCTTCAGGTAATGGATATGTACCTTCTTGATCTATTGGGTTTTGTGTTGCTAAGATAAAAAACGGTGCTTCTAATTCAAATTTTTCATTCCCAACAGTTACTTGTTTCTCCGCCATCGCTTCTAAAAGTGCAGCTTGAGTTTTTGGTGTCGCTCTATTAATCTCATCTGCTAAAACTAAATTTGCAAAAACCGGACCTTTTTGAAAAACAAATTGTTTTTTTCCTCTACTCTCATCAATAATATAAGTACCAATTACATCTGATGGCATTAAATCAGGAGTATTTTGTATTCTTTTAAAATCTAAATCTAAAATTTCAGATATGGATTTAATAAGTAATGTTTTTCCTAAACCAGGATATGATTCTAATAATGCATTTTGATTAGTAAGTATTGAAATTAAAACATGTTCAATAATATGTTCTTGTCCCACAATTATTTTTCCTAACTCTTCCTTTAGTTTTACAAATACTTCTTTTACTTGATTTAGAGTATTAAGTGCTGATGCCATAGGAAAATTTTGGTAAAGTCAATTTATAAATTTTATCGATAAAAAAATAAATAAGCCATAAAATTAAAATCTTAATAAAATCTAAAACTATAAAATATCTCTACTATTATAATCAGAACCATACTTTTTAATCATAGGCATTGACTTTTCTCTAACTCTTTCTATTTGACTATAAGTTGTTCCAATCATATCATCTTTAAGATTAATTAATGAATATAAATCAAATAATTTAATCCCAGCACCTTTTATTTTACTATTTTCAGCCAAAGAATTAATTAAATTGTTTTTTTTACCATCCCTTACATACAATGCTTCTTGTACTGAAATTTCTTTTATCAATAAATGAGCTTCCTCTCTGCCAAAGCCTGTTTCAGTAAGATAAGTTAAAAATAAAGTAGATGCTAAAAATGGCAACCAATCCGAAATTTCATTTTTAATAACTTCAGGAAAAATGCCTAAATTATTAACAATATTTAATGTAGATTCTAATTGCCCATCAATTGCATAAAACGCATCAGCAATAAAAACTCTACGAGCAACAGAACAACTAACATCTCCTTCCTCCCACTGATTACCAGATTGAATTGAAGCCATAGTTAAATATCCTTTTAATGTATTTGAAAAACCATCTACCCTCTCAGAAGTTCTAGTATTTTGTTTATGTGGCATAGCTGCACTACCAACTTGACCTGGTTTAAAACCTTCAGTTAGTAAATTATAACCTGCCATCAATCTTATTGTATTTGTAAAATTTTCACTTGCAGAAGATAATCCAACTAAATTTGAAACTAAATCAAAATCTAAACTCCTAGGATAAATTTGACCAACAGAATCTAAAACTTGTTCAAAACCCAATTCATGAGCAACCATTTTTTCCAAATCATAAACTTTTTTATCAGAACCTAATAAATTTAACATATCGACTTGAGTACCAACAGGTCCTTTAATTCCACGAAGAGGATATTGTTCTATAAAAAAATCAAATTTCTTTATATGATATAATAATTCCTCTGCAATAAATGATATTCTTTTTCCAAATGTAGTAAGTTGAGCTGGTTGATGATGAGTTCTTGCTACAATATATGTTTTTTCATATTTATCTGCAAGGTCTAATAATTTATTTAAAAGTGAAGTTTTTTTACCCATTATTATTTTTGACGCACAAAGAATTTGATATTGTTCAACATTATCAGTTAAATCACGAGAAGTCATACCCCTATGAATTTGTTCTTCATTTCCAGAAATTTGAGCAGACTCATTAAATGCTTGAATTTTTGCTTTCACATCATGTTTTGTAATTGTTTCAATTTCACCAATTCGTTTCAAATCAATAACATTTAAATTTGATTCATATTTATTAATAATTTCTTTAGTAATACCACCTAAACCCAATTCAAATTGTGATTTTAAAACTGTTAACCAAATTCTTCTCTCCATTAAAGTTTTACCTTCTTCTGAAAAAATATCATTAATACTATCAGTAACATATCTTTGTGATAAAATATTATTATTAACCATGAGAAAAATTAACTCATTTCTTTTATATTATTTTCTATTCAAAAACAGATAATTAAATAATAATTAAATATAAAACTTAAAAAAATAAAACAGAAATTAAATATATAATTAAATATAAAATTTAAGAAAATAAAAATAATTATTTATCCACAAATAAATAGAATTTTTCTTCTTCTTTAAGTTCATGAATTATTCTTTTAATTATTGCTTGTTTTGGACTCGGTATTGCTTTTATTCTTTCTTTAATATTATCAAAAGATTCAAATTCTTTTTCTTCTCTTTCTTCAATAATATCCCACATATACCGTTTTCCTAAACCTGGAAGTAATTCTAAAGCATGACGTCTTAATCCAATGGCTTGTGCTTTATTATAAAACTCAACAAAGTTTTTTTCATTATCTCCTACTATTTTTTCAACTGCATAAGTTAATTCTTGTTGACTATTTCCAGTTAATTTTTCATAATCTAATTTACCAGAAATATGATGAACTTTATCTCTTTTACCTTCACCAACATATAAAATATCACCAGGCATTACTTGAACATCAGGTTTTGGAACAATTTCTAATAAACTAAATCTATTAGTACCAATTGCCTGAATTAATGGAATTTGTTTAAATGATTTTTTAGTTTGAGAATTTCCATGTGGCAAAAAATCTAATACAATCACATTCTCTTCCTTTGATTTTTGTATTTTTTTTTGATCAATCATTTTAATACCCTTCATTTAATATTATAATTTTATAGAACACAATTTATTTAAATATTTACCGGAGCAAATAGCCCAAATAGATCTATTCATTAATATACAAATTATATTAAAAACATAAAAATCTACTCAAATGAATAATTCTTGCAAATTTCTAATAATTTTAATAATTGTTCTTTAGTTAATGTCACAGTACTAAAACTTTTCATTACTAAATCAAGTTCATCTTCATTTTGTGGTAAAAAATCAGCTAATTTTGATATAATTTCAACCTTTAATCTGCTATAATCTAATGCTTTTAATTCATCAAAAAATTTATTTCTATTTTCTTTAGACATCACAGGAACATTATTTAAATAATCCACTGTCCTATTACCCCGAAAATTAAGCTCTCCGTCTCTTTCTTTTATTTCGTCCAATGTTTCTTTTAACTCTGATAAAGAAACAGGAGTTTTTTCAATTAAATCAAATTCGTCTGACATAGTAACCACCAAAATTAATTTTGTAAAAATAAATGAATTGGATGAACAATCAATTCTTTTTCTTTACCAAGATAAGGTAATTTAACAGTATAACAACTTCCTTGAGTGCCACTTACAGTAGCAACATTTCCTTGATATCGTCTGTGAAACATACCATTTTGGCAATTCGGTTGTAGTTTTAAAATTACTTTATCCCCATCATTAAATTTTTGAAAAAATTTAACTAAGGATAATTTTCCTCTACTTTTAACATCATTTCTTAAAAGATGTCTAGTTTTTCTTCTTAAACCACCAACACGTTTTACCATTTTTTATAACCTTATTATAAATTGAGGCATGATCTCAGTTTAAAAAACTTTCCTTTAAAAAAAATCAATAGTTAACAAAATAAAAATAATTATAATAAAAATTACTAAGAAAAAAATAAACTTTATAAACTAAATTATAAAAAAAAATAGTAAGGGGTAGATTTGGTAGTTTATAAAAGAGGTTTTGATAGATTATTTGTAGTACTAATTATAACTTTAATTATAACTCTATTATTTTCATTTTCAATAAATGCAGAAACAATAAATATATCAAATTTTATTGAATATAGACAAATCACAGTCAATTCACCAGGAACCATAGAAAATTTTTCAATGTCAATTAATATTGACTCAAGAAATTTAATTGCTAGAAATTTATTAAATTCAAATTGTAGTAATATACAAATTACAAAATCAGATAAAATTACATTAATTAATTCATGGTCAGAAACAATTAATGCACAACCATGGGTAGCTGCATTTAAACGAAGAACAGGTTGTAATGGAAATCAAGGAATGGATGTTTGGTTTAAAGTTAATTTAACAACAGGTGATAATACTTTTTTTGTATATTATGGAAATGCAAATAAGTCTTATTCAAGTAATGCTAATAATATTTTTCACTATTATAATAGTAGCTTTTCATTAAATACAACCGCAAATAATGTAATTTCTGCAAATATAAGTAATTTAACTGTTAATTTAAATTTAGATGGATCTCAAAATTATAAAGTAAATATGTATGCAAGAAGAGCATATAAAGGAAGTGTTGATTTTAAAATTCAATCAGGAAATGATTTACAACATATAATGTTTGACCCAAGTTTTTCAAAACAAAATTTTGATTATACTGAAAATACAAATCTTTTATTACAAACTACAAGTTATAATGAATCTTGTAAAAGTAAATATGAATTTTTTCATTGGAAAGTATGTACTGACACAGGAGAATCTTATTGGAATTCATATGGTTCAAAATATCACTCAACAGAAAAATGTATAGGTTCAACTATATGTCCAAATGGTTTTACTTATTATAAACAAAGTTATTATGATCCAAACCCTAGTGACAGTTTAATAATTTATGGTGAGTTTTGTAGAAGTACTAATCAAAAAACAGAATGTAAACTTGATTCTGGTAAAGCCGAATTTGAAGTCAGAGAATTATTTATTTATTCAAATAATTTAAGCATTACACATTCATTTTCAGACCCAATAAAAATTGAAAATAAAATATTTTATGCACCTAATTCAGCACCGTTAAATTATTCCGATATTGTAAGTTTTAGAGATTCTATTAATATATATGCAAATACTGAAGGAGTTTCTAATCCATCGTGTACAGTTGAATTCAAAAACAATGGAACTAGATATAGTATGGATTATAATCAAATAAAACATAATTTCACACTAACAAATGGATTAAGAAATGAATCTACATATGTTGATGTTGATTGTGCGCATGACCTTGGTGCAATTAATTTAAGTATGACAATTAATGTGACTGGAAATAAAGTGTATAATTGTTCAGAAATGAGATTTAATATAAGGAAAAATCGAAACGTTGAATTACAAAATAATATAGATTGTTCTGGCGACCCGTTCCCAGCAGATTGGCATGGATCAGCAGGAGGAATTACAACTTATTATGAAAAAGAATTTAATGGAAATGGAAAAGTTATAACAAGTATGAATATTAGTCAATCGGCAGGAAATAAAATTGGACTAATTCCATTATTTAAAGGAAAAATCTACAATTTAACATTATCAAAATTTATAGTAAATAATCCAACTAAAAATTATGTAGGAAGTTTATTCGGAGATGAAAATTATAAAACCAAAAGGGAATGTAAAAGTACTAAAAATAGTATTTGGAGCGCAGGTATTTTATCATGTACAAATACAATTATCGATGCTGAATCACCAAGCGTAAGTAATATTGTTATTAATGGTAATGTCACTGGTGATAATTATGTTGGGGGAATATCAGGCTTAAATTCTTATCATATATTAAATGTAAGTTTAGATGGAAAAACTATTGGAAATTCATATGTAGGTGGTGTATCAGGTTTTGCAAATGGAAGATTAAATAAAAATATCGCTAGTTTTATTTATTTAAATTCTACAATTAATGGAACAAATTATACAGGAGGCTTATTTGGAAAAAGTCAAGGTACAATTGGAAATTCATTTTTTAATGGAACTGTAAATGTTTATAGTGGAAATTATACAGGTACACTATCAGGATATTTACAATACGGAGATATTTTTGAAAGTTATTCACATGGAACATTAAATGTTAATGATTCAAATTATGTTGGTGGTTTAATAGGATATATGGGTGGCCCATCCTCAATTAAAGATTCATATATTCAAACAACTGTAGATATAAATAATTCAAATTTTTATGGTGGAGTAACTGGATATGGGGAAACTAGTGTAGCATATTTAGGTTCAGTATATAATGTAGATATAAAAAATGTATATTCAACAATTAATACTTCTATTGGAACTAATACTATAGTTGGAACAGTAATCGGTTATGATAAAAAACATAGTAGAAAATTTAGATACCATACAAAAAGATCAAAAGTAACTCTATTAAATAGTTATGTTTTAGATCCAGCAAAAAAAAATAATCAAACAGGAAGAGAGTATGGAAAGACAACTACTCATTCCAAAAATTTAACTGAACTACAAACACAAGCAACATATCAAGGCTGGGACTTTACAAACATATGGGAATATGCTGGTGCATATCCATTTTTAAGAGTCAATCCACTTTTACTATCAAGTGCAAAAGTTAGTTCCAATTTAAGTTTAAAAGTTAATAGAAATAATATTGATTTAACTACATATGTAGGAGAAGCAATTTTAATTAATAGTGAAACCATTTCACCAGTTAAAGACTCTTTTACTGGAAACAAACACATACTTTCAGTTTTTAATCCGCAAGGTGAAATAGTATATCAAAGAACTAATTCAACCATTAGTGAAAGATTTTTATTAAAAAATGTAGGAGTCTATAAAATAAAAGCTGAATATTTAAAAAATTCAAAAGTCAATTATAGTTCGAAAGTAATAAATGTAACAACAACATTTCCATTTCCAGTAGCTATTGGAGTTATAAATAATGTTAACAATTGTTCAGATTTAAAAAATAAAATTATTGCTAATGTTGATATAAACATTACAGGAAATATTGATTGCTCCGGAACTGATTTTACAGATTGGTCTTCTGACGAAGTGGGATATACAAAAACAAATAAATCTTTTAATGGAAATAATTATGTTATAAAAAATATTTATATTAATTCTCCTGATAAAGATAATGTAGCATTATTTCCTATTATAGACGCCGGGGGTTCAATAATTAATGCAGTATTTAAAAATATAACAGTAATTGGTAGAGATAATGTAAGTGTTATTGCAGGTAAAACAGCTTCTGCTAATCCAGATGTTTCAGATTATATTGCAAAAAAAATATCTATTTTGAATTCCACGATAACTGGTAGGCATAGAGTTGGAGGAATTGGTGGTTATATTTCTGGTTATATTAAAAACTCATTTGTAAATATAACAATTACGGCTCAAGATTATGTAGGTGGTCTAGTAGGTCACGCACAAAATGTAGCAGCTAAAGACGTTCACGTCAGAGTTGATATAACTGCTGATGATAAAGTAGGCGGTATTGCTGGTTATGCAAATAAAGCCTCTGCATTACAAGTATTTGTTGAAGGAAAAATTGGTGGAGAATTAGATGTTGGTGGTTTAGTTGGCCAAATTAAAAAAGTTCAAATTCCTGAATATAGTGATATAGATAGAGAAAAATATCCAACACAATATGAAGAAGTTGTAAATCAAACAAAAGAATTAGTTGAGTCATTATATTATATTGAAGGTGTATTTTTTGAAGAAATGACTAATACAAAAAATGCAAATCAATCATTAACAGCATTAGGTAATTGGAAAAAAGCAGAAATATCTGAACTAATTGATAAACACAATATACAAAATCCAATATCTGAATTATCATTTGAAAATTTTAATGGATTGAATTCTACTGAAATTTTAGAAAAAGAATTATTCGAATCAGATGGATTTGATGTAAATAATCCTTGGACAGTAAAAGATGGATCTGACAGACCTAGAATGTGTGGATTATTATATGATAGAGAAACAAATGCAAATGAATGTGATAGTATTGTAATTTCACTTAGTTTAGGTTATGGAATTAGAGGAAAAAATCAAATAACAAAGTATGGCTTTACAACATTTAATATTTCTGTAGGAGATGATTATAATAATGGAATAAGTCCATTTTATAGAGAAGCAAAAACTGTAACTATTCGTGATGAAGGAACAAAAATAATTGAATTTGATCACAATTTTGGATCAAAAACATTAAACATGAAAAATACCATAATAAATAAAACAGTTGATAGTCTTCATATTAAAAATTTAAATTTAATTCCAAACACAAAAACTTTGTATACTCAAATAAATCAAACAAGTACTATATGTCTAAAAGATTCTCAATTTAATTCCATTGGAAATATCACAGATGATTGTTCAGCTGCAGATGAATATATTTTCGAAAAAGAAAGTTGTAGAAAGATAGAAATTATTGCAAGAAATAATAAAGAAAATTTAGAATGTTATTTAGATTCAACTGATAAATTTATTATTTATGGTGTTGAAAATAGTGGAGTTGTTGGATCACGTGCAACATCAGAAATTGGACATACATTTACAGATTTAGGGCAAGTTAATGAAGATATTATATTTAAATCAAATTATAGAAATAATTTTAAAAGAGATTTAATATCTGGTGCAACTTGTACATTAAATATTCAAGGTGAAACTGAAGTATCAATGAGCGAAGACTTAGATGACTTTACTTACACTCTTGATAATGGAAAAAGTACAAATGGAACTTATACTTACAATGTATCGTGTGCAGCAACAGGAGAAAATACTGTATTTGTAAATAATACATTTGAAGTTGGATTTATTGACGCAGATGAAGATGGAACTTATGATGGAATTGATAAATTAAAAGGTAAAGTTACTGATATTAAAGGTACTGGATTTACAAATAGAATATTAGCAATTGGAAGTCACAGATCAAATAATAATAATGTTGCAGCAAGTTATACAGGAGTAAAGCAAATTCAAGTTTTAGATGGGCCCGTTTCAATTATAAGTTATTTACATAATTTTTCAAAGAATCATATTAAACTTTCAGATATTAATGTAACAAAAACAGCTAATGCTGTATTAGTTAGAGGGGTTGATTTATTAGCAGAATTCAATAAAACAATCACAGCCCCAATTAGTGCAAATACTATTTGTGTTAAAAATAAAGAAACTACTTCAATTACTGATATAAGTTCTGCATGTGATCAAGCAGGAGAAATTATTTTTACAAAAGATGAATGTATACAAGCAACAAGTAAAATTGAAGGAACTGACATAATTAAATGTACATATGATACTAGTAGAAGTGCTTATGTTGTATCTGGATTAAGATATTCATTAGTAAGTGGCCTTGAAACACAATTAGAAACAACAGATAATGTTAGTGGAGATGCGTTCTTAAATGAAGAAATTCAATTTAGGGCAAATTACACTAATTCCACTAGTGGAAATACAATAACAGGTGCAACATGTAATATAGAATTTCATGGAAATGGAAGTGAATATTCAATGACATATAATTCTCCATATTATATATATAATCATACAGGATTTTCAACAGCTCAAACAGTATTACATAATGTAACTTGTTCAGCATCAGGATATGTTACATTAACTGCTGAAGATTCAGTTTCAATATATACACCACCAGTTCCAGAATTTGAAGATATTGCCCTTATGATTACAATTCTTGGCAGTATTTGTATTTCTGGATATATTAGAAAACAAAATATAACTACTTAAAAAAGACAACAAAACTTATAAAGAAAAAATTAGTCTTAAAATTATGTATAATATAGTATTTAGCCAAGAATTTGCAGATAAAGTAATTCAAAATTACCCAAATTATAAACGATTAAATAGATTTATTGCAGGTCAAATAAAAACATTATATTCTAGTACTAATGGATTAAAAGATAGTCATCATTATTTAGATGAAGAAAATAATGATCAAAGATTAAAAAATGTAAGATTTGGTCTTAAAAATTACAAGGGTTTAAGTCATCCAGATTCAATTTTAGAAACAATTACAGCCGAATACATGTTATTATCAAATCAAATATTTGAAAAAGAATCTAATTTATTTTTATATTTTAAAAATGATCCTAAACAAGGATATCAATTTGAAAAACTGAAAGCTAAAATTACTCCAATACAATTAGACATGGTTAGAGATTTTATTTTAGAAAGACCAAAAACAATAATGTTACAAACAATTTTAGATTTTGCAAAACAAGATATTAATTATAATAAAGCATTAGATCCAAATTCTAAAATAGAAGAATCAGAAGAATTATTATTATTAACAGATGAAGAAATATTAGGTTTTGCAGAAAGAGTAATAGAAAATTCAAATGAATTATTAAAGGAAATATATTCAACAAAAAAAAGTAATCAAAGTAATGATGAAGAAAAAACTCGTGAATATAATTCAAATGGTATGATTATTTATGATTCATCTGGGGAAGTAGTTTCTATTAATGGTATACCTTGCAAAATTAATGAAAATCAAAAGGATAAAAAAAGAAATTATTATCCAGCCCATGAAGTAATTAAAGATATTACTCCGCAAAATTAATCCAAACTAACTTCACTTATATGATTTTGTTTTTTTACATAAATCACATTTTCTACAAAACTTTCAATTTTATTTTCATGACTTACAATAATAACTTGTTCTAAATCAAGCTCATCTAAAACATCACGAATTTTATCAATTTGAAATGAAGAAAAACCTTCTGTTGGCTCATCTAAAATAATTATATTTTTTGTTTTTATATTACTTACAAGATTATTAATAACTTTATTTAATGCTAATCTATAAGCAAGACAAATAGCTGTTTTTTCCCCACCACTTAAATTTGTAAAATCAATAATGTGACCATTTTGTATTATACGAGGAGTAAAAGTATCATCTATGGATGCTAATAAATTATCATCTTCAATTAAAATTTTAAACCAATAAGAAAAGTATTCATCAAAATATAATTGAATTGTATTAAATAAATGTTTTTCAATATTGTCAGTTAAATTAATAAAATCAATATTTAAAAAAGAAATAATTAAATTAAATTTTTCTAATCTTTTTTTAATATTTTCTTTATCTTTAATATTATGATCTAATTCATCTAAATTAATTGTATGAGTATTAACATTATTTTTACAAACAGCAATTGATTTATTTAAATTCGAAATATCATTTTCAATTTTGTTTTTTTCTGTTTCAATTTGCTCATAATTAACCAAGTCTAAATTTAAATTATTTTTTTTTAATTCTAATTCATTAATTAATTTATTAATATTTTTTAAATCCATTTCCATTTTACTATATTCATTTTTATTTTCATTAATAAGTTTTAAATTTAATTCAAACAATTCTCTAAGATGAAGTTTTTTAATTTTATTTTGCTTATTTTTTATTACTGTTTCTAATAATTGATTTTTTTCTTGAATTGATTTTTCAAAGTCAGATAATTTATTTTCACTCGTGTCAATTGAAATTTCTAATTTAGATTTTAAATTTTCAATTTTATTTAATATATCTTCTTTTTTATTATTATTTAATTTGTATCTATCAATTAAAATAACATTTTCATTTTTTAATGAAGAAAAATTACTTTTAATTTCTTCAAATTGATTTAATTCAATTTTTAATTTTTTAATATCATTAAAATTTTCTTGTTTTTTAGATTCTAAATCAATAATAGTATTTTTCAATTCAATTATTTGTTTATTATTATTTGCACTTATTGATTTTTTATGGTCAATTGAAACAAATTGTAAACAAGTAGGGCAATTATTTAAAATCATTATTTTAGAAGTAGAATTTTGTAAAGTCTCTAATTCAGTTTTTCTTTTAATATAATATTCATTGATTTCATCAAATAATTTTTCTTCTTTTAATAATTTTAAATCAATTATTTCTTTTTCTTTTAATAAATTATCAAATTTTAAAATTTTACTCCGATTAGAATCAATTTTTACATTTAATGAATTTTGTTCTTCATTTAATTCATTAAAAATATTATTTAATTCATTGAGATTTTCTCTTTTTGAAAATTCAATTTCTTTTAATGATTTTGATTTAGCAATTTGTTCTTGTATTTTAAATATTTCAGCCCTAAGTTCATTTTCATTATCCAATGTATTTTCATTATAAACAGTAGATAATTCATTTTCTTTATTTACTTTATTAGTATTTTCTAATTCCATAATTTTATTTGATAATTCATTTAATTTAATATTAAAATTGTCTTTTGAATCATAAGACTGTTCTAATTTTGTATTAATTGCAAATAATTCATTTTTTATATTTTTAAATTTATTAATTTCCATTAAAATATTACTTAATTTTTCTTTCTCATTATCAACATAACCTAATTCCATACCCAATACTTTTCTTTCATTATTTAAATTTAATTTAACTTTATTAAATTTTAATTTAATTTCATCTAGATCAAAAGTTCTACCTTTTAACTCTAAAACTTTTTCTTTTAATTTTTTTATTAAAATCAGAGTATTATTTTTTACATTTTTATATTTATCAATTTGAAATATATTTCTTATTGATTCAATCCTACTTTCACTATCTTCATATAAAATTTGTTTTAATTCTTCTTGTGGGGTATAAACAGTATATCTATAAATAAAATTTTTTGATTTTGATAAATGTTCTTTTGGATATCCTAATTTATCAAAAACTCTAGATTTTATTTCAGTTACAGTTAAATCCATTTCCTGTCCATTATCAATTAAATTACCTGCAGTTTGAACTACACCATCTTTTGTTTTTTTTAATATTCTTTTTATAATAAAATCTTTACCATCAATAATTAAAGATATTTCCACAATTCCTTCATTTTCACCCTTTCTAAGTAAATGAGAACCACTAAGTCTTTTAGATTGAAATCCAAAAAGAGCAAATTCTAATGCAATTAATACACTTGATTTTCCAGAACCTATATCCCCTGAAAGTACTGTTGAACCTTTTGGGAAAAATATTTTAGATTCCTTATAACTTCTAATATTTTTTAAATAAATATAATTAATTATCATAAAATCCTCTTTTGAATTTATTTATCACCAGTTCCTTTTAAATAATATTGTAATAAAATAGACAAATGGAAAAATTACATAAATATTTAAACAAAAAAAAAATCTAAAAAATATGAATATATTAGAAAAAGCACAAGTAAATTGTAAAAATATAATAGAAAAAAATCTAAATATAGATAAAAATCAAAATGTGATTTTAATATATGATGATAAATGCGATTTATCCAAATTACTTTTCAAATCTTATTCAAATGTACTAAAAGAGTACAATTTAAAATCTATTAAATTTGATGAAACTAAACAAGATGAATTAAAAGAATTTTTATATAATCTTAATAAAGGAGATTATGTAATTTTAATTCAATCAGGAAGTTTCAGATTAAGTAACTATAGAATAAGACTTGACTTAAATAATAGAGGAATTTTTGTTATTGAACATGCAAGATTATCATTTTTTAATAATATTGAATCTTATATAAATTCATTAACATATGATTTTGATAGATATAAAAAAATATCAAATTATATTACAAATGAAATAAAAAATACAAATCAAATTAAAATTATTTCAAATGACGGGAGTGAATTAATTTATGAAGGAGGTTTTGAAGATGCAAAATCCAATATTGGTGATTTTTCCAATAAATTAGGTTCTCTTTTTCCAATAGGAGAGGTATTTAGTGAACCAAAAAAATTAGAATCAGTAAATGGTACAATATCCATTATAGGAATTCCTAGTTTAGAACATAAAACAATTTTTGTTAGTCCATTTAAAGTAAATATAAAAAATGGAACAATAATTGGACAAGATGGAAATAAAGATTTTGAAAAAATTATTAATTTAATAAAATCTGAAAATGAAGATGGTATTGTTTGGATTCGTGAAATGGGTTTTGGAATGAATAAAAATATTAGTAAAGAAAATCCATTAGAAGATATTAGTGCACATGAAAGATATTGTGGTTATCATATATCACTCGGATTAAAGCATAATATATATAGAAAAAAAATTGATAAAAAAGTAAATCAAAAATTTCATATTGATATTTTTTGTGATTTAAAAGAAATATGGTTCGATGATAAAATTATATTTAAAAAAAAAGATTATGTAATATTTTAATTTAATAGATACAATTTAAGATACACATAATTTATAAGAAATTAAAATAATATAATATTATGGATGAGAGCAAAGTTTCTGTTTGGAAAAAAACAATCGCTGTAAATAATAAATCAATAGATTCATACTATAAATTAGGTAAATATTATTTAGAAAAAGAAAAATTAGGTCCAGCGAAGGAGTGTTTTGATCACGTTCTAAAAATTGAACCAGAACTATCAACTGGGTGGTCACCTAAAAGACTTGAAGATACATATATTTGTCTTTCAATTATTGCAGAAAAAAAAGATGATTTTTCTGAAAGTTTAAATAAATTAAAACAATTAATTAAAATTGCACCAAAAGGAGAATATATGATAATTGTTTCAGAATTATTAATAAAATTAAAAAAATATGATGCGGCTCTCGATTTGTTAAATAAAGCAATTTTAAAATATATGGAAAAGGATCTTGAAACTAAAGCAAAAAAATTAATTGTGAAAATTATGACTATTAAAGGTCAAATTTAATAACTTTTTAAATTAAATAATTATATATGAGTATTTTTTATAATTAGTTTTAATATTCTTAAATATGGATATTTATAAATAAATTGTCTTAAATGTCACAAATCTATATAATACAAATGACTATTATTTATAAACATAATTTTAGTCAATATAATAAAATGTCAAGTATAAAAGAACAATTTGATTCAATGAAGAAACAGTGTCCATTTTGTAAAATTATTTCAAAAGAATTAGAAAGCAATATAATTTGGCAAGATGAAATTTGTACAGCTTTTTTAGAAATAAATCCTGCAACAAAAGGTCATATGACAATTGTTCCAAATGAACATTATAGTTTATTTTCAGCAACACCTCCAAAAGTGTTAAATCATATGTTTAAAATAAGTCATAAATTAATTGAAATAATTAAAAAATCAATGGGAAAAACAAGTTATAATATTTTTATACCAATCGGACAAATCTCAGGTCAAATGGTACAACATGCAGCACTTCAAATAATGCCAGTTGATAATGAAGAATATATTAAAGAATTTGATGTAGATTCAAAAACATTTGATCAAGATAAATGGAAAGAGTCACATGAAAAATTTAAGCAAATTTATCCCATGATGATTGCAAATATTGGGAAAAAAAAAGAACCAATACCTGAAGATCAAATAATAAAAATTGTTAAAGAAAATTTACAATTAATTGAAATGTATAATACAGATCCAGAAGGATTTAAACTTCAAGCAACAATACTTAATGCACAATTAAGAAATTTATTTGAAGGTCAGGATATTGACAAAATAATGATAAAAGCAAATGAATAAAGAAAATATAATTTTTGAAGATGGAAATTTTTATGCAATTCACTTAAAAGATAATGCAAATAGTATTGGACATATTAGAATTTATCCTCAAAAAGAAATAACTAATTTAGAAGATTTAGGTGAAGAGTTATTTACTATAATGTTTACCATGGCCTCATTAGCAGCGACATTGATTTGGGAAAATTCATATAATGATGAAGGTAGAGGAACTACAATATTAATGAAATCAGGTAGTAATGCATCAAAAGAAAAAAAAGGTTATTTTGAATTAATATTAAGAGAACCAGAAGATGGTTTAAATACAAAATTTGAAACTAAGCAACCTGAATTTCATGAATTTTTAGATAAATTAAAAAATGAAGCATTTATTGTATCAGAAACTGAAAAAGAAAATAAAGATAATTTAATAAAAATTGAAAAAGATGAAAAAAAAGAAATAAAAAATCAGAAAATTCCAGAAAAAAAAATTGAAGATGATAAACCAATTGAAAAAGATAAAGAAAATAATAATGAAGAAAAAAAAATAGATAATCATAAAAATGAAAATCATGAAAAAAAAGATGAAGATGAAAATAATTTATTATTAACTAAACAGGAAAAATATAAATTAAAATTATTAAAAAATTATAAATTAGCTCAAATCGAAAAAAGCCCATAAAATGATAGAAGATTTAAAAAGAACATTAATTCCAAGAAAGTATAAGGATTTATTAATTAAAAGTAGAATGAATTGCTTTAAATTTTCTTTAAAAATATTTTTGATGTTCTCAGTAATATTAATATTATTAAATGTTCCAAATGTAATCAATATGAGTTATGAAATTGAAAATTTCATTAATTCAGTAGATAATGTTTATTTTAAATTAAATTATAAAAATGACAGTAATTTATTTATAACAAAAGAACAAATTACAAAAACAATTGAAAATAAATCATATATTTCAAATATATATAAATACAATTTTGAAGTCTTAAGTGGAGATATAGAATTTAATGAAATAACTGAAAAAATTAATTCATCTAGTTTAAAAAATATAAATCAAATAAGCAAAAATAAAATTAATAATTTTATTTATGGTATTTTTTTATTAATTTCCCCAGGAATTTTAATAATACTCATTACTCAAGCATTTTTTATTGTGTATACTACAATTTTATTAACATTTATTGTTTTAATGACATTATCACAATTATTTAAATTAAATAATATGAATGTAAAAAAAGCATTAAAAATTTCTTTACTTGCAAGTCCAATTTTAAGTTTAATTATACTTTTAGATTTTTTACTAAGATTAGATTATATAAAATTTGGAATTATAATATATTGGATTTTAATAATTTTTATTGTAATCGAATTAATTACATTAAAAAGTCAACAAAGACAATTTAATACTACAGATAAAGAAAGACAAAATTTTTTAGAATTAAATTTAGTAAGATATTATGATCCAAAAAAATTAAATGAAGTTAGTAAAAAAAATAAAGTTTGGTATAAAAAAGCAATAAATGAAGTTTTAAAATATTATGAATTTAAAAAATATTCAAGAAAAGATAAAAATTGGATTAATTATAAAAAAGATCATAAAGAAGAAGAATGATTTTTATAATCATTTAAAATATTAATCAATTGATCAAAGTTTTTACATTTTACTATTTTATCCCTAATTAATTTTGAACCCGATAAACCTTTAGTAAAATTAATTGCTTGTAATTTTAAATATGAAAAATTAAAATAATTATATTTTTTTGCAAGTTCCACAAATTCCATATAACAATCTACTTTTTCTTTTATTGAAGGAAAATCTAATACTTCATTATTTTTTAAATAATGATTTATATGTTTAAAAATAAATGGATTTCCAATAGCGGCTCTTGCAATCATTACACCATCACAATCAGTTTGAGCCATCATATTTTCTACATCCACACCAGATTTAATATCACCATTTCCAATTACTGGTATACTAACAACTTTTTTTACTTTCTTTATCATATCCCAATTAGCTTTCCCACTATACATTTGTTGTTGTGTTCTTGCATGTAATGCAATCATACTAGCACCTGCCTCTTCCATTTTTTTTGCACATTCAATACAATTAACTGAATTTGAATTAATACCAGTTCTCATTTTAGCACTAATAGGAATTTTAGTAGATTCTGACATGGTTTTTATTATATCATAAATTTTATTAGGATCTCTCATATAAGCGGCACCAAAACCTTGATCTGTTATATGCTTTACTGGACAACCAAAATTAAAATCAAATATATCTGGACCACCTACACTCAATTTTTTATCATTAAAATCAATTATTTTCTTCTTTTGTAAAAATTTACAAGCATCTGAAATTTTATTAAGATCAATTCCAAATATTTGCATACTCAAAGGCCTTTCTTCATCACTTGTAATACATTGATTTAAAGCTCTTGTTTTATTAGATAAAATACTATTTACATTGATCATTTCAGAAACAGTTAAACCTGCACCATATCTTGAACAAATAGTTCTAAAAGGCACATTACAAAGACCAGCCATTGGAGCTAAGACTACAGGAGAACTTAATTTAACTTTTCCTATTTTTAACATATTATTAAACAAAAATTTAAATATTTAAATATTACTAAAAAAAACTAATAAAAATATAAAAAAACTAATAAAAAATTCAATAATTATAACTGATCTTCTAAACTATTTGCACTTGATTTAGGTTCAGTATTACTTTCAGATTTAGCTTTTTCAGCCATTTCTTTTGCTTGAGCTTCTAAATCTACACCAAGTTCTTTTAATGCTTTTACATGCATTTGAATTATTTGTTCAACTACACCTATCATTTTAGCTAATTCTTCTCTTTCTTTCGCAAGAGTAGCTAATGCACCTTTATGTACACCTATTTGTTCTGCTTTTTGAATTTCGTCCATGTTTATTCCTCTTAGTAATTCTTATTCTACCAATACATATTTTGTTTATAAATAATTATACTATAACATATAGATTTCTGTGACAATTTTGACAAAAATAGTTATTTTAAATTAATTCTTCTAATTTTATATTATTTTCTTTAAAATCCATATTTAAATCTTTAATATTAATTTTATGTTTAGAAATTTTTCTACTCAAAGTCTCTCTTGCTATTTTTAATTGTTTACAAACATCTTTCAATACTTTATCATTTTTTAAAATAACTGCTACTAAAAATTTATATTCAAAAAAATCATATGCATCTTCCATTTTTGGAAATGGTTTTTTAATAACTTTTACTAATTCATCAGTAGGTAAACCATAAATTAATTCACTTTTTTTTTCAGTAAGTGAATATTGTTTTAAAACATCTCCAGCTACAAATTTAATATAATCATCAATTTTTTTTTTTGAAAAATGATATGGTAAATTTCTAAATTCTTCTATATCAATATTAAATTGAATAATCAATCTATGAATAGTTCTTCTATCAATTCCACTAATTGTCGAAGCTTTAGATATATTTCCATTAAATTCTCTTAAAACTTTAATTAAATAATCTTTTTTAAAATTAAACTTTGCTTCTTCTAAACTCCAACTATCTAAAAAATCAATATTTAAATTATTTTTCACTAATTTTTCTAAAATTTCATTAGAAATTTTATCTATTTTAACACCCAAAAAACTTTCAAGAGCTTTATCTAATACAGGTTTAATTTGATTCAAATTTTCATTTCTGGATACATATGTAGAATACTGTTTATTCATAATAAATTAATATAAAAACACGTATATAAAATTATAGTATATATTTTTAAAAATTTAATTTTCATCAATTAAAGGAAAATAAACCTTAAATTGACTACCTTTATTAATTTCACTCTCAACATCAATAAATCCATTATGTAATTCAATTAAATATTTAACAATACTCAAACCAAGACCAGTACCAGTAGTTGATCTAGTTAAATGATTCGAAACTTGAAAAAATTTATCAAATAAAAGAGAAATATTTTTATTTTCTATACCAATACCAGTATCTCCAATTTCCACACAAACAAAATCTTTAACTTCCTCATTTGAAATATTTAATAATTTAACATCAAAATTATTATCATCACTATCAAATTTCTTTTGTAATGATTTAATAGTTTTACCAGTTAATTTATGTAATGACATATTTATTTTAATCGAAGTTCCAGGATAAGAAAATTTAATTGCATTATTCAATAAATTTGTAAATATTTGATGAATTCTACTACAATCCACATTAACTATTACTTTAAATACTTTTTCAAATTCTAAACTAACACCTTTTTCAAATGCAAAACCTTCCATAATTTTAATTGCATCTTTTATAATATCTTTTAAATTCTCATTATCTAAAAATAAATCTAATTTACCACTTTCAATTTTTGATACGTCAAGTAAATCATTAATAATTGATGTTAAATTTGATGTTTCTTTTTCTATAATTGTTAATATATCCTCTTGATTTTTATTAAAATTATTATTTTTATTTGTTTTTAATATACTAGTATAACCACGTATACTAGTTAATGGAGTTCTAAGCTCATGTGAAATCATTGATATAAAATTATTTTTTAATTCATCAGATTCTTTAAGACGTTTACTTGTTTTAGTAGCATGTTCTTTTAAAATAAATATTTCTGCTAAAAAAAAAGAATTTTTAATAAAATATAATATTTCATTATATTCTTCACTATCTAATTTAATTTTTTTATTTTTAGATAATTCAACAACACCTAATAATTGCTCTTTACCAACTGGAACTATTACAGTTGGAATAAAATCAGACCCAAAATAAATAGTCGAAACAGTTTCTAAATCATCCCCAATTTTTTTATTTTTATAATAAAGATCATCATTTAATGAATTGATTACAATTTCCCTATTATCATCAACACATTTTTTAAAAATATTATCACTATTTAAATGTATAAAACGCCTTTTTGCATGCTTATTTGTATTAACTAAAACATTTCCATCAAATAAAAATATATTAACAAAAGAATAATCATATATATCACGTAAAGTATCTTTAATTCTTTTAAATAATTCATCTTTATCTTTTACATCAACTAAATTTCCTTCTAAATTACTTTTTAAAAATTTTCCTTTAAAATCAATTAATGAACTATCTTCTCTATGATGTTGAGCTTTTTTAAATTTATTTTGATAATTTTTTAACTCATAAATAACATCATCAGATAATTTTGTATAATCAACTAATAATGCAAAACGAATATTAGTCATTATTGATAAATCTGCTATTTGTCTTAAAAAATAAATTACTTTTGTTAAAGAATTATGTTTTAATAAAAAATCTAAACACTCTATTAAAATAAATCCACCTTTGTGTTTTATAGAAAATAAATTTATAATAAAAAATAATTGCTCTAGTCTGGTTGGTAAATAACTCTGTTTATTTTTAGGAGAATTAGTCATATAAATTATATTGCTTGATGCTTTATTTATATATTTCTTAATTTTTGAATATGTTTTTTGAGTTATAATAAGACTGTCATTTGAATGTTTTTCTTTTAAAAAATTAGAAAAAAATAGTTTATTTTTATTTTTGTCAATTAAATTCAATAAGAAATTAGTATCATCAAATAATAAATCATCATCTGAATTTATTTTATTTAATAATTCTAATTCATCATCTTTTGGAATTGATTCTATAGCACCATATTTCATTGTAGAAAAAGCTGCAATTTTATGACATATATTTAAATTATTTTCATCAGAAAAACCATCCATATAATTACAAATAAATTTTGCTGCAAAAATATCTCCAGCCCCAGTTCTATCTTTAGCAGGAAGATCATAAACAATTTTAGTTTTATATTCACTACCATCACAATTAATTAAATGTGCACCTTTTTTACCATAAGTATAAATTATTTTTTTTAAACCAAAATTAATTAATTTATTTGTTAAAATTTTTTCATTATTATTTTTAAATAATTGTTGAAAATCAGTTATATTAGAAATTACAAAATCTGTTTGTTTTAAAATTTCAATTACTCTTTTATAAAAATTATCAGTTTTATGAATTCTGGAACGAAAATCTAAATTAAAATAAATTAAAACATTATTTTTTTTAGCACAATTAATACATTTTAATAATATATCATAATTATCATTATCAGTTAATATAAAAGATGTAAAATAAAATACTTTAATTTTGTTAAATATATTAAAATCAATTTTATTTTCATTAATTTTAAATGGAGATGGATTTTTGTCATAAAATTTGTAATCTGTAAAACTTTTAGAACTTTCAACAAATTCTAAAGGAGTTCTCTGTTCAGTCATATCAGTATATTTTAAATCTACTTTTTCTTTATGAAACATATTGATTAAAAACTGCCCAAAAGAATCAGTACTAAATGTTGATACTAAACCACAATTATGTCCAAACCTTGAACATGCAATAGCAAAAATACCAGAACCACCACCAAGTCTTAAATTATAATTTAAACTAACATAATTTTGATCTAATTTGCTACCATAAAGATCAATAAAACATTGACCAAAAGAAAGTATATTAAAATTCACTTTAAAATCAAATCTTTAACCATTTCCTTTAACTGAACAGGATCAAAAGGTTTTGTTATAAAATCGACAGCTCCATATTCTTTAGCCACAATCATATCAGACTTTTGACATTTAGCCGATAACATTACAACTTTTATTGATTTTGTATTTTCATTCTCTTTTATTTTTTGAAGTGCAGTAATTCCATCCATAACTTCCATCATTATATCTAAAATAATTAAATCAGGATAAAAATCATTTAAACAATCCAAAGCTTCTTTGCCATTTCTTGCCAATTTAGTTTCATAATCTTCAGATAAAATAATATTCAATAAGTTCAAAATATTATCATCATCTTCCACTATTAGAATCTTTTTTTTCATGCTACCTCTACAATTAACGTATATTGCAAATTTATAAAATTAACCCAATTCAAATACTATAAATAAAAAAATGAATAATCTAATTAAAATTAAAAAATAATAATTACATAAATAAACCAAATAATGGTCCAAATATTGTTACTAATAACATCAATAATACAATTGAACTAATAATACTAAAGCATTTTAATGCAGCAGATTCATTTTTTTTACCAAACCAATGAAATAATCTATTATGTAGCATACGTCCTCCATCTAATGGACCAAATGGAAGTAAATTTGCAGTTCCAATACCTAAAGAAATCATTGCTAAATACATTAAAAATGTAAATATTTTATGCAATAATTTACTAATAAAATTTGTTCTTGTAAACTCAATGCCTAGAAAAGGAACATCAGGCATACTTGGTCTGGAAAGAACATTAGTTTCTTTAATACCTTTATCTGTTTCAATAAAAATAGTATCATTAACTGAAATATCATTTAATTCATGAATTAACGAATCAATATTTTCTATTTTATTATTATTAATAGCTGTTATAGTCTCTCCTTTTTCTATACCTGCGTAATATAATGTTGAATTTGGTACAACTTCACCAATATATGCTGGTTGATAAGCAGTCCACGTCATCCCAAAAAAACTCATTGATGAAATTAATAAAAGTACAAATAATGTCATTATCACATTAAAAAAAGGTCCAGCCGAATACATTGCTAATTTTGCATTATCACTAACTTTTGCTAAATCTTTTTGATCTGGTTCAACAAATGCACCAAGAATAGGTCCAAAAAAAACAATACCACTTGCTCTAACTTTTATATTATATAATCTACTAATTACTCCATGACCAAATTCATGAAATGAAGCTACTAAAAAAATAATCAATAAACCCATACCCAAACTAAGTCCATTTAAAGGACTTCCAGCAATATTAAGTCCTGGAATAACTACTGCAACTACTGCATCTGCTTTTGGATTTAAAAAAAACTTATATACACCATCTGCTAAAAACCAAAACATTAATACCATTCCAGAAAAACCAACAACAATTCCCAAATCTCCAATAAATCTTAATAATTTAGGATATTTTTTTGCATATTTATCCATGGATTTTAATCCCCATTTGGTTCTAAATAATGCTATAAATCCCAAATGAACATCAAACTTTCTTCTATAAGAATATATTATTAAAACTACAAATAAATAAAATAATATAACACCCCAATTATTTTGAAAAAATATTGAAAATGCAGAAGCTGCCTTAATTAAAGTCATATAATAAATTTACAAATAAGCATTTATAAATTTGTTCTTTATTTTTTAAAATAATGGAAGAAAATAATAAAAACAGAACTAATAATAAAAATATTAATAATAGTGAAAATAAAAATTTAACTAAAAACATTTTAAAAATCTTAGCTTTAACATTTACATTAATAACAACATTTTATTTAAGAAATTTAAATTTTACATATATACCCTATTTAAGAACAAATTATATAGATTATAAACTTGCAAGTTTAGGTTTTCAGAATTTTTTTACAAATATTTTTTTATATATATTCATAATATTAATATTTTCATTCATATCAAAAAAAGATTTTAAATTCAAATTAAAATATATCAAGTTAGATTACTATTTAATTGTTTTTACCATAATCATTTTTATAATTTCATTATTTTTAGTAAATAAAATTTTAATTAATATATTTACATTAATATTTTTCATACTATTATGTATTAATTTTTATGGAATTCATCATATAAAAAAAAGATATGGGGATTTCATTCTCTCAGCTTCACTTTCATTAGTTATCATTTTCATTGTTAGTGTTGGTAATTTGCTTTGGTTTCACATAGCAAATTTTATGGCAAACATTTCACAAATGATTTTAACATTTTTAGGATATAATATTACAATTGATTTAACAAATTTAGCACCATCTATATATATAGAAAATTTTGGAGTAAGTATAACTGCATTATGTTCTGGAACAGATAGTTTAATTTTATTTTCATCTCTATTTTTTATATTTTTATCTTTAGATTTTGATTTATTAAATAAAAAAAAAGTAATTGTTTATTATTTTATTGGCATAATAGGCATTTTTGTGATAATTTTATTAAGAATATTGATATTATTAATTATAGGAGTATATAATAGTAGTTTAAGTTTAGGATTATTTCATACAAATGCTGGATGGGTCTTATTTTTATTATATTTTACGATATTTTGGTCAATTGCATATCCTAAATTATTAATTAAAAAAAAAGAATAAAAAACAAAAAATAAGCAAAAATATGACTAAAATAACAAAATAAAAGTTAAAATGAGCTTTATTATATAAAAAACTATAATTATACAAATAAATATTTATAAATAAACGACAATATAAACAAAAAAACAAAAGATTTATAGAGCACAATTTAGTCACCACTAATAAGTTATTAAAACAGAGGTACATGTTGAAAAAAGAAATTAAAATTTATTTAGCAATAATTTGCACATTAATATTTTTATCATCCATTTTAATAATTGGAATTGCTAATAAAATAAGTGAAAATCATTATTCTGTAAATAATAATTTAAAATTAAATAAACTAAATTTAAATGGTTTCAAATTAAAACCTCCAAAAGAAATTAAATTTGAATCAAAATACAAACCAAAAAAAGTAAATATAAATAAATTAAAAGAAGAACAAGAATTAAAGAATCAGCAATTCGAAAAACAAAAAGAAATTACTAAAAAAAGAAAAAGTAATCGAATAATTGAAAATAATATTATCAAATTAATACAAAATAAAAGTAGTAATTATATTGATGTATTAATTTCTGTTGAAAAAATTAATGACAGCATTAGAAAAACAATTACAAATAATAATGGAATTATAAAAAAAGAATTTGATTTTGGAAATATAATTAGTATTTCAATTAATCCACAAAATATTAATAATTTATATAAAAATAAAAATATAATTCACATTGGTGAAGAAAAAAAATATAAAACATTTCTTACAGATTCAATACCACAAATTGGTTCACAATTTTTAGTTGAAAATGGATTAACTGGAAAAAATATTAAAGTGGCAATTGTTGATAGTGGAATTGATATAACTGATAATAGTATTTTTAATAATAAAATAGTTGAAGAAAGATCATTTGTAGATGATAGTCCATCAACAGATGAATTTGGACATGGAACTCATGTTGCAGGAATTGTTGCAAATATAGCAACAGATACAAAACTTTTAAATGCAAAAGTTACAAATAATTTAGGTTTATCAACAACAACTAATATAGTAAAAGGAATAGCATGGTCAGTTCAAAATAATGCAAATATTATTTCATTAAGTCTTGGTACTGAAGAAGTAGATCAATTTATACACAATGCTGTAGATGATGCTATTGAAGCGGGAATAATTGTAGTTGCAGCATCAGGTAATTGTGGACCTTGTACATCAAGTAGTATATGTGGTGGTTTTGAAGGTGTTATGAGTCCAGCTGTTTATGAACCAGTAATTACTGTTGGGGCAGTTGATGAATTTGATGATGTTGCATGTTATTCTTCTAGAAAAGATTATACTACTTATATAAAACCAGACATAATGGCACCTGGAAGTGAAATTATGTCAACACAATCAGGTGGAGGCTCTGAAGAAAGAACTGGTACATCTATGGCAGCACCTCACGTTAGTGCTGTTATTGCAATGCTTTTAGAACTAAACTCAAGTAATCAAGTTAATATGAAAAATCTATTAGAATCAACTTCAATAGATAAAGGAAATACAGGTAAAGATATAGATTATGGTTCAGGTTTACTTGATACTGAAAAATTATTTTCAACATGGACTTTTTTGAATGAATATCACACACCATTATTAATTCATGAAAATATAAATGGATTTGAATATTTAAATTCAAATAATGATACAGTTAATTATACAAAAAATGATAATACAATTAGAGTAGATGTATTAAATTTTACTAATCAAAATGAAATGTTAAATGCATTTGGAATTGATTTAAATTATTATATATTAAATGATATTGAAATAAGTTATTTTGTTAGTGAAAATAATACAATATGGTTTACAGATAATGTAATTTATAATATTACACACAATGGAAATGAATATCAAGATATTTTAAATTCCTATTTAGTAAAATATGATTCAACAATTAATGATTATATAATTAGTCAATCAAATATTAAAAAAGCAACAACAGATAAATTAACTTTAACAAAAATACAAGATTATGAATTAATTGAATATGATTTAAATAATGTGAAATATTCAAATGGAACACATATAGTTGATGTAAATATATTTGACTTTGCAAACTGGAATT